Gatorade Fast Twitch Energy Drink: Gatorade Fast Twitch, a product aimed at enhancing athletic performance, has garnered significant attention in the sports nutrition market. Marketed as a specialized formula designed to optimize energy and hydration for athletes engaging in high-intensity, short-duration activities, Fast Twitch promises to provide an edge in performance. However, behind its aggressive marketing lies a debate regarding its actual benefits and potential drawbacks.
While Gatorade emphasizes its ability to replenish electrolytes and fuel muscles efficiently, critics raise concerns about its artificial sweeteners, artificial additives, and notably, its high levels of caffeine. This juxtaposition between marketing claims and scientific scrutiny underscores the importance of critically evaluating sports beverages like Gatorade Fast Twitch to make informed decisions about their suitability for individual fitness and wellness goals.
Swapping Bad for Worse: In the effort to reduce added sugars, many food and beverage manufacturers opt for artificial sweeteners as a seemingly healthier alternative, such as Gatorade Fast Twitch, which contains sucralose. These sugar substitutes, often praised for their low-calorie appeal, bring their own set of health concerns, with recent studies linking them to significant health issues.
Upsetting Gut Health: Artificial sweeteners have been found to upset the balance of gut microbiota, potentially leading to digestive problems. A healthy gut microbiome is vital for overall well-being, impacting everything from digestion to immune function.
Effects on Metabolism: Despite being marketed as a weight-loss aid due to their low-calorie content, artificial sweeteners may have contradictory effects on metabolism. Some research suggests that these sweeteners could contribute to weight gain by disrupting the body's calorie intake regulation.
Connection to Metabolic Disorders: There's increasing evidence associating the consumption of artificial sweeteners with a heightened risk of metabolic disorders, including type 2 diabetes. While further research is required to establish a definitive link, these findings call for caution.
Sweetness Tolerance: Regular consumption of artificial sweeteners may increase tolerance to sweetness. This heightened sensitivity to sweetness could potentially lead to a preference for excessively sweet foods, perpetuating unhealthy dietary habits.
Spotting products using artificial sweeteners instead of added sugars demands attention to detail. Terms like "sugar-free," "diet," or "low-calorie" should raise concerns, prompting consumers to scrutinize ingredient lists for names such as aspartame, sucralose, or saccharin. Check for Code Names on Labels: Artificial sweeteners often appear under code names on ingredient lists. Familiarize yourself with these terms, including aspartame, saccharin, sucralose, and acesulfame potassium, to identify products containing these additives. Be Cautious of 'Sugar-Free' Claims:
Gatorade Fast Twitch includes two synthetic vitamins, one being cyanocobalamin (vitamin B-12). While these vitamins are vital for maintaining bodily functions, depending solely on synthetic sources rather than obtaining them from whole foods may not offer the same advantages. Excessive consumption of certain synthetic vitamins may even result in toxicity. Concerns have been voiced about the use of synthetic cyanocobalamin B-12, including by human biologist Gary Brecka during a recent appearance on the Joe Rogan show.
Caffeine occurring naturally in plants such as cacao, guarana berries, and yerba mate comes with a blend of vitamins and methylxanthines. This combination facilitates a gradual release of caffeine into the bloodstream, resulting in a prolonged and smoother energy boost. This sustained release not only enhances mental clarity and focus but also helps mitigate the common side effects of jitteriness and energy crashes associated with synthetic caffeine, commonly found in drinks like Gatorade Fast Twitch.
In contrast to synthetic caffeine, which can trigger discomfort, sleep disturbances, and facial flushing, natural caffeine tends to lack these adverse reactions. Moreover, natural caffeine exhibits distinct antioxidant properties that potentially aid in preventing heart disease and Alzheimer's. While synthetic caffeine, often sourced from Chinese pharmaceutical plants, provides an immediate but short-lived energy surge, natural caffeine offers a sustained energy supply over an extended period.
Gatorade Fast Twitch is celebrated for its inclusion of "natural flavor" among its ingredients. However, it's crucial to understand the potential side effects associated with this vague and often misleading term. While "natural flavors" may imply that these flavors originate from natural sources, it does not provide specific insights into the ingredients or the production methods used. The FDA defines natural flavors as "substances derived from plant or animal matter," yet it allows a wide range of synthetic processes and chemicals in their creation. The lack of transparency surrounding natural flavors raises concerns as it can obscure the use of artificial or chemically altered ingredients. In the case of Gatorade Fast Twitch, a "natural flavor" might be generated using high heat or chemicals, deviating from what consumers typically consider natural.
Moreover, some natural flavors may be derived from substances that are not safe for consumption in their natural form, such as certain essential oils or chemical extracts. While regulatory agencies generally deem natural flavors safe for consumption, some individuals may experience adverse reactions or allergies to these components. To safeguard their well-being, consumers should be vigilant in understanding what they consume and should carefully scrutinize labels and ingredient lists before purchasing or consuming products containing natural flavors. The use of natural flavors in products like Gatorade Fast Twitch highlights the need for increased transparency and accountability within the food and beverage industry. Consumers have the right to know precisely what they are ingesting, and companies should be held to higher standards regarding the quality and safety of their products. Gatorade Fast Twitch also contains manufactured citric acid, which is often used as a flavor enhancer. While manufactured citric acid is generally recognized as safe in small amounts, excessive consumption can lead to gastrointestinal issues such as stomach cramps and acid reflux.
Here’s what happens to your body when you drink highly caffeinated artificial energy drinks every day:
While the processed drink "Gatorade Fast Twitch" may offer some benefits in terms of hydration and energy replenishment for athletes, it's essential to consider the potential drawbacks associated with its ingredients, including artificial sweeteners, artificial additives, and caffeine. Moreover, the ambiguity surrounding terms like "natural flavors" underscores the importance of scrutinizing labels and seeking transparency from manufacturers. Opting for healthier alternatives that prioritize natural ingredients and minimal processing can provide similar benefits without the potential risks associated with synthetic additives. By making informed choices and prioritizing products that align with individual health goals, consumers can optimize their performance while safeguarding their overall well-being.
Water, Citric Acid, Natural Flavor, Red Sweet Potato Juice Concentrate (Color), Sodium Citrate, Caffeine, Salt, Monopotassium Phosphate, Sucralose, Carrot Juice Concentrate (Color), Xanthan Gum, Pyridoxine Hydrochloride (Vitamin B6), Cyanocobalamin (Vitamin B12).
Drink | Caffeine Per Serving |
Organic Coffee (cup) *for reference | 95 mg (No sugar or artificial sweeteners - naturally occurring caffeine - not synthetic) |
Organic Green Tea (cup) *for reference | 30-50 mg (No sugar or artificial sweeteners - naturally occurring caffeine - not synthetic) |
Gatorade Fast Twitch - Strawberry Watermelon - 12oz | 200 mg/per bottle |
Gatorade Fast Twitch - Cool Blue - 12oz | 200 mg/per bottle |
Gatorade Fast Twitch - Glacier Freeze 12oz |
200 mg/per bottle |
Gatorade Fast Twitch - Tropical Mango - 12oz |
200 mg/per bottle |
Gatorade Fast Twitch - Orange - 12oz | 200 mg/per bottle |
Gatorade Fast Twitch - Strawberry Lemonade - 12oz |
200 mg/per bottle |
Sources:
Energy Drinks May Do More Harm Than Good Says Researchers
Health Effects and Public Health Concerns of Energy Drink Consumption in the United States
Sports Drinks and Energy Drinks for Children and Adolescents: Are They Appropriate?
STIMULANT-CONTAINING ENERGY DRINKS What You Need to Know
Is 'Natural Flavor' Healthier Than 'Artificial Flavor'?
Are ‘Natural Flavors’ Really Natural?
Natural Caffeine Offers Longer Lasting Improvement on Cognition and Moods
Effects of Artificial Sweeteners on Body Weight, Food and Drink Intake
GATORADE IS A REGISTERED TRADEMARK OF S-VC, INC.
IS IT POSSIBLE TO FILTER FLUORIDE OUT OF WATER?
Water is vital for our survival, and ensuring its safety for consumption remains a paramount concern. In recent research, fluoride has been identified as a neurotoxin, with documented effects on IQ levels in children. While fluoride is often added to municipal water supplies to promote dental health, excessive levels can now be seen as detrimental to our overall well-being. The removal of fluoride from water presents a formidable challenge due to its chemical properties, necessitating the use of specialized water filtration systems. This blog post will delve into the complexities of fluoride removal, underscore the significance of extended contact time with the filtration medium, and explore how the Epic Pure filter, alongside alternative methods such as activated alumina and bone char, can effectively diminish fluoride levels in your drinking water while addressing the new concerns regarding its impact on neurodevelopment.
Fluoride removal from water is a complex process because fluoride ions are small and negatively charged. This makes them difficult to capture using traditional water filtration methods. Standard carbon filters, commonly found in many household filtration systems, are not effective at removing fluoride. To successfully remove fluoride, a specialized filtration media and a longer contact time are required.
In water filtration, contact time refers to the duration the water spends in contact with the filter media. The longer the contact time, the more effectively the filter can remove contaminants. Fluoride, being a small ion, requires a longer contact time with the filtration media to ensure effective removal. A high-quality fluoride filter, such as the Epic Pure filter, is designed to provide this extended contact time, ensuring that your drinking water is fluoride-free.
The Epic Pure filter stands out as an excellent solution for fluoride removal in a pitcher or dispenser format. It utilizes a proprietary resin that specifically targets fluoride ions. This resin has a strong affinity for fluoride, attracting and binding with it as water passes through the filter. With its extended contact time and specialized resin, the Epic Pure filter can significantly reduce fluoride levels in your water, providing you with safer and better-tasting drinking water.
Furthermore, the Epic Pure Pitcher and Pure Dispenser employ gravity filtration, which naturally provides an extended contact time with the filter. This extended contact time is particularly advantageous for effective fluoride removal. As water trickles through the filter, it allows for more comprehensive interaction with the filtration medium, enhancing the removal of fluoride and other contaminants, thereby ensuring that your drinking water is of the highest quality.
There are other methods worth considering. Activated alumina is one such method. Activated alumina is a porous material that can effectively adsorb fluoride ions. When water passes through a filter containing activated alumina, the fluoride ions are trapped within its pores, resulting in reduced fluoride levels in the treated water. Another method is the use of bone char, which is made from animal bones. Bone char is heated to high temperatures, turning it into a porous material that can adsorb fluoride ions. The process of making bone char involves carbonizing and activating the bone material, leaving behind a substance with a high surface area capable of binding with fluoride.
Boiling water is a common method people consider for purifying their tap water, but it's important to note that boiling does not effectively remove fluoride from the water. In fact, boiling can have the opposite effect – it can increase the concentration of fluoride in the water. This occurs because when water is boiled, some of it evaporates, leaving behind a more concentrated solution of all the dissolved substances, including fluoride. While boiling can eliminate some volatile contaminants, it does not alter the fluoride content; instead, it can potentially make the water even more concentrated with fluoride ions. To effectively reduce fluoride levels in your water, a specialized water filtration system designed for fluoride removal, such as the Epic Pure filter, is a far more reliable and efficient choice.
Ensuring that your drinking water is free from harmful contaminants like fluoride is essential for your health and well-being. While fluoride removal can be challenging due to the small size and negative charge of fluoride ions, it is possible with the right filtration methods. The Epic Pure filter, with its proprietary resin and extended contact time, is an excellent choice for effectively removing fluoride from your water. Additionally, activated alumina and bone char are alternative methods that can provide successful fluoride reduction. Regardless of the method you choose, it's essential to prioritize the quality and safety of your drinking water.
Water Filters That Remove Fluoride And Chlorine
Fluoride is a naturally occurring chemical element found in various minerals and water sources. The fluoride added to drinking water differs from the naturally occurring fluoride in minerals and natural water sources. Instead, it is commonly introduced in the form of three specific chemicals: sodium fluoride (NaF), sodium fluorosilicate (Na2SiF6), and fluorosilicic acid (H2SiF6). Among these, fluorosilicic acid stands out as a byproduct generated during the production of phosphate fertilizer. These compounds are utilized for water fluoridation in the United States according to government officials to maintain dental health standards.
While the U.S. Centers for Disease Control has lauded water fluoridation as one of the "top ten public health achievements of the twentieth century," it's worth noting that a significant portion of the western world, including most of western Europe, does not practice water fluoridation. Currently, approximately 97% of the western European population consumes non-fluoridated water. This includes countries such as: Austria, Belgium, Denmark, Finland, France, Germany, Greece, Iceland, Italy, Luxembourg, the Netherlands, Northern Ireland, Norway, Portugal, Scotland, Sweden, and Switzerland, as well as around 90% of both the United Kingdom and Spain. Wikipedia confirms that countries like Croatia, Estonia, Hungary, Iceland, and Latvia also do not fluoridate their water supplies. While some of these nations may fluoridate salt, the majority do not follow this practice. It's noteworthy that despite the absence of widespread water fluoridation, tooth decay rates in Europe have declined significantly over the past five decades, raising questions about the CDC's assertion that water fluoridation is the primary driver of the decline in tooth decay rates in the United States since the 1950s.
As of July 18, 2022, a comprehensive body of research comprising 85 human studies has been conducted to explore the connection between fluoride exposure and human intelligence. Remarkably, a substantial majority of these studies, precisely 76 out of 85, have concluded that heightened exposure to fluoride is linked to a decrease in IQ levels among humans. These findings are based on IQ and cognitive assessments conducted on a substantial sample size, encompassing 28,234 children across 73 studies and 689 adults in three additional studies. Particularly noteworthy are the Mother-Offspring fluoride studies, which furnish compelling evidence that fluoride exposure during both prenatal and postnatal stages of development can have detrimental effects on a child's developing brain, highlighting the potential risks associated with fluoride exposure on cognitive function.
Why Is Fluoride So Hard To Remove From Water?
Fluoride is challenging to remove from drinking water due to its chemical properties. It exists as an anion, which means it carries a negative charge, making it soluble in water. This solubility makes fluoride ions highly mobile and resistant to simple physical filtration methods. Traditional water treatment processes, like sedimentation and sand filtration, are not effective in removing fluoride. Advanced treatment methods are necessary to reduce fluoride levels to acceptable standards. These processes are more complex and expensive, making large-scale removal of fluoride from drinking water a technically demanding and costly endeavor.
Designing a water filter pitcher capable of effectively removing fluoride presents a complex engineering challenge. Fluoride ions are relatively small and carry a negative charge, making them difficult to capture using traditional filter media like activated carbon, which primarily targets organic contaminants. To effectively remove fluoride, specialized filtration media such as activated alumina or ion exchange resins are required, which can selectively adsorb fluoride ions from the water. Implementing these materials in a filter pitcher while ensuring long-lasting performance and maintaining cost-effectiveness is a demanding task. Moreover, achieving consistent fluoride reduction to meet regulatory standards and accounting for variations in water quality (including sodium bicarbonate level) and flow rates adds another layer of complexity. The design must also consider the user-friendliness, size, and maintenance requirements of the pitcher to make it a practical and accessible solution for households.
Comparisons to the lead crisis draw attention to fluoride as a significant water contaminant, posing critical public health concerns. Research indicates that fluoride exposure can result in IQ deficits akin to those associated with lead exposure, even at levels commonly found in fluoridated water. Similarities in industry denial, attacks on scientists, and efforts to shift blame onto affected communities underscore the need for heightened vigilance and accountability in addressing the fluoride issue. Advocates, such as the Fluoride Action Network, assert that fluoride represents a modern-day lead crisis in water, citing evidence of adverse cognitive effects, industry tactics to minimize risks, and the urgent necessity for regulatory action to safeguard public health.
Exploring Global Practices:
Amid mounting apprehensions surrounding water fluoridation, only a handful of countries persist in this contentious public health strategy. The United States remains a key proponent, with roughly 75% of its populace receiving fluoridated water. Beyond its borders, nations like Australia, Canada, Ireland, New Zealand, and select regions in the United Kingdom also adopt varying degrees of water fluoridation. Conversely, widespread opposition and scrutiny have prompted most Western European nations and many Asian countries to either halt or suspend water fluoridation initiatives. This divergence highlights the global discourse surrounding water fluoridation and underscores the diverse approaches taken by different nations in addressing public health concerns.
Fluoride is highly toxic, as evidenced by FDA-mandated warnings on U.S. toothpaste. In China and India, millions suffer severe bone diseases due to elevated fluoride in water. While less toxic than arsenic but more so than lead, fluoride has been used in rodenticides and pesticides. Accidental over-ingestion can lead to serious poisoning, even death.
The current debate centers on fluoride's chronic toxicity rather than its immediate effects. Dr. John Doull, the Chairman of the National Research Council’s (NRC) fluoride review, highlights unanswered questions and limited data despite claims of fluoride safety in dentistry. In 2001, EPA scientists declared water fluoridation an unreasonable risk, a stance echoed by a growing number of healthcare professionals.
Water Filter That Removes Fluoride And Heavy Metals:
The Epic Pure Water Filter Pitcher and Dispenser were meticulously engineered with the primary goal of effectively removing fluoride and heavy metals from drinking water. These innovative filtration systems incorporate advanced filtration media, including carbon block and ion exchange resin, which have been proven to selectively adsorb fluoride ions and various heavy metals, ensuring comprehensive water purification.
The design of these products takes into account the need for efficient filtration without compromising on user convenience. They feature a sleek and user-friendly design, making them suitable for everyday household use. With a focus on maintaining high filtration performance, these Epic Pure products are designed to meet stringent water quality standards and provide peace of mind to consumers seeking to reduce fluoride and heavy metal exposure from their tap water.
You won't believe what was found in Richmond's tap water! |
Where does Richmond get its water from? The East Bay Municipal Utility District (EBMUD) supplies water to residents of Alameda and Contra Costa County, sourced from the Mokelumne River watershed in the Sierra Foothills. EBMUD acquired water rights to the river in the early 1920s and constructed Pardee Dam, which formed Pardee Reservoir. This reservoir serves as the water source for over 1.2 million people across 22 East Bay cities, including Richmond, Oakland, Berkeley, and others, extending from San Lorenzo to Crockett. To transport the water from Pardee Reservoir to Walnut Creek, a distance of over 80 miles, three 6-foot-wide steel aqueducts are used. Gravity alone can move up to 202 million gallons of water per day, and with all three aqueducts operational along with pumping plants, EBMUD can transport up to 325 million gallons.
The energy required for water treatment and pumping, including over the East Bay hills, is equivalent to the energy needed to power approximately 95 million homes. From Walnut Creek, the water is directed either to a treatment plant in Orinda or to three East Bay reservoirs, where it combines with local runoff before reaching two additional treatment plants. These reservoirs collectively store enough water to sustain the local population for four to six months. Following treatment, which involves the addition of chloramine and fluoride, the water travels through an extensive network of more than 3,944 miles of distribution pipes and 164 neighborhood reservoirs, ultimately reaching businesses and households. Is Richmond's water safe to drink? Does Richmond put fluoride in the water?
Source: City of Richmond, California
Contaminants Found in Richmond's Water Supply
(Detected above health guidelines*)
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated PFAS (Forever Chemical)
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex, Flame Resistance Children's Pajamas, etc.). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
Reverse Osmosis (RO) filter systems effectively eliminate numerous contaminants; however, they do come with five significant drawbacks. Firstly, RO systems tend to be expensive, with costs ranging from 2 to 3 times more than carbon block systems. Additionally, they typically require the replacement of 4 to 6 small filters each year, resulting in higher upfront and yearly maintenance expenses. Secondly, one major downside of RO systems is their high water wastage. On average, for every gallon of drinking water produced, RO systems waste about 5 to 6 gallons of water. The third and most significant drawback, in our opinion, is that RO water filters remove essential trace minerals and beneficial substances naturally found in water, such as calcium, manganese, iron, and other vital nutrients.
Many proponents of natural health argue that RO water is considered "dead water" due to the depletion of these important minerals and claim that demineralized water can have detrimental effects on overall health. The fourth drawback pertains to the storage of filtered water in a steel drum lined with a butyl rubber bladder made from a polyisobutylene base. Over time, all rubber and plastic bladders have some level of leaching into the water. Lastly, some RO companies attempt to address the mineral depletion issue by adding a "Remineralization Cartridge" at the end of the filtration process. However, many of these cartridges found in the market are sourced from China. Generally, attempts to replicate nature's processes often fall short, and solid carbon block filters do not face these concerns.
What About Bottled Water
The widespread consumption of single use bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These tiny plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in East Los Angeles tap water! |
Where does East Los Angeles water come from? Cal Water has been delivering top-tier water utility services to the East Los Angeles area since 1928. Alongside East Los Angeles customers, they serve clients through a partnership with the City of Commerce. They meet customer water demands by utilizing a combination of locally sourced groundwater and water sourced from the Metropolitan Water District of Southern California (MWD), drawing from the Colorado River and the State Water Project in northern California.
The comprehensive East Los Angeles water system encompasses an impressive infrastructure, featuring 272 miles of pipeline, 11 operational wells, 29 booster pumps, 16 storage tanks, and three vital connections to the MWD. Is East Los Angeles' water safe to drink? Does East Los Angeles' put fluoride in the water?
Source: City of East Los Angeles, CA
Contaminants Found in East Los Angeles' Water Supply
(Detected above health guidelines*)
1,4-Dioxane
1,4-Dioxane is a volatile organic compound, classified as an ether. Most 1,4-dioxane contamination of drinking water comes from leaking underground storage tanks at hazardous waste sites, or discharges from manufacturing plants. Once it makes its way into sources of drinking water, 1,4-dioxane tends to stay there, because it does not break down easily. What are the risks of drinking tap water with 1,4-Dioxane? Cancer, Lung & Kidney Issues. 1,4-Dioxane is a likely human carcinogen and has been found in groundwater at sites throughout the United States. Under California Proposition 65, dioxane is classified in the U.S. State of California to cause cancer. Animal studies in rats suggest that the greatest health risk is associated with inhalation of vapors in the pure form. Find out more about this contaminant and how to remove it here.
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Tetrachloroethylene (Perchloroethylene)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Tetrachloroethylene (PCE) is a colorless organic liquid with a mild, chloroform-like odor. Its greatest use is in the textile industry, and as a component of aerosol dry-cleaning products. The maximum contaminant level for Tetrachloroethylene has been set at zero because EPA believes there is no safe level of this contaminant. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. What are the risks of drinking tap water with Tetrachloroethylene? Liver Issues & Cancer. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Concord's tap water! |
Where does Fairfield's water come from? Fairfield's primary water source is Lake Berryessa and the Sacramento Delta. The water is conveyed to treatment facilities via the Putah South Canal and the North Bay Aqueduct. Source water treatment is carried out at two conventional water treatment plants: the Waterman Treatment Plant and the North Bay Regional Water Treatment Plant (NBR), which is jointly owned by the Cities of Fairfield and Vacaville. Is Fairfield's water safe to drink? Does Fairfield put fluoride in the water?
Source: City of Fairfield, CA
Contaminants Found in Fairfield's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of synthetic fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of single use bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These tiny plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Contra Costa County's tap water! |
Where does Contra Costa County's water come from? The majority of water supplied by Contra Costa Water District is sourced from the Sacramento-San Joaquin River Delta. Despite the varying quality of Delta water during different times of the year, the water provider's investments guarantee that the water reaching your tap maintains a uniformly high quality. The Contra Costa Water District draws water from four different points in the Delta, strategically altering its diversion points to access the highest quality water available. Is Contra Costa County's water safe to drink? Does Contra Costa County put fluoride in the water?
Source: Contra Costa County
Contaminants Found in Contra Costa County's Water Supply
(Detected above health guidelines*)
Bromate
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromate may be formed in water during ozonation when the bromide ion is present. Under certain conditions, bromate may also be formed in concentrated hypochlorite solutions used to disinfect drinking-water. Bromate is usually found in drinking water as a result of water treatment, rather than through source water contamination. What are the risks of drinking tap water with Bromate? Kidney Issues. Exposure to large amounts of bromate for a long period of time caused kidney effects in laboratory animals. Long-term exposure to high levels of bromate has also caused cancer in rats. Whether bromate can cause cancer in people is not known. Some people may be at greater risk for developing health effects from bromate exposure or have concerns for their pregnancy or nursing infant. Because bromate can cause health effects in kidneys, it is possible that those with pre-existing kidney conditions could be at greater risk. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of synthetic fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of single use bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These tiny plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Concord's tap water! |
Where does Concord's water come from? The majority of water supplied by Contra Costa Water District is sourced from the Sacramento-San Joaquin River Delta. Despite the varying quality of Delta water during different times of the year, the water provider's investments guarantee that the water reaching your tap maintains a uniformly high quality. The Contra Costa Water District draws water from four different points in the Delta, strategically altering its diversion points to access the highest quality water available. Is Concord's water safe to drink? Does Concord put fluoride in the water?
Source: City of Concord, CA
Contaminants Found in Concord's Water Supply
(Detected above health guidelines*)
Bromate
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromate may be formed in water during ozonation when the bromide ion is present. Under certain conditions, bromate may also be formed in concentrated hypochlorite solutions used to disinfect drinking-water. Bromate is usually found in drinking water as a result of water treatment, rather than through source water contamination. What are the risks of drinking tap water with Bromate? Kidney Issues. Exposure to large amounts of bromate for a long period of time caused kidney effects in laboratory animals. Long-term exposure to high levels of bromate has also caused cancer in rats. Whether bromate can cause cancer in people is not known. Some people may be at greater risk for developing health effects from bromate exposure or have concerns for their pregnancy or nursing infant. Because bromate can cause health effects in kidneys, it is possible that those with pre-existing kidney conditions could be at greater risk. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of synthetic fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of single use bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These tiny plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Vallejo's tap water! |
Where does Vallejo's water come from? The City of Vallejo manages two public water systems serving distinct areas. The first system provides drinking water to Vallejo city residents, some neighboring unincorporated areas, and limited customers in American Canyon, drawing water mainly from Lake Berryessa and the State Water Project. The second system serves the Green Valley, Old Cordelia, Jameson Canyon, Suisun Valley, Willotta Oaks, and Gordon Valley areas, sourcing water from Lake Berryessa, Lakes Frey, and Madigan. Both systems can blend and treat these sources at their respective treatment plants, with emergency support from the City of Fairfield if needed. Is Vallejo's water safe to drink? Does Vallejo put fluoride in the water?
Source: City of Vallejo, CA
Contaminants Found in Vallejo's Water Supply
(Detected above health guidelines*)
Bromate
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromate may be formed in water during ozonation when the bromide ion is present. Under certain conditions, bromate may also be formed in concentrated hypochlorite solutions used to disinfect drinking-water. Bromate is usually found in drinking water as a result of water treatment, rather than through source water contamination. What are the risks of drinking tap water with Bromate? Kidney Issues. Exposure to large amounts of bromate for a long period of time caused kidney effects in laboratory animals. Long-term exposure to high levels of bromate has also caused cancer in rats. Whether bromate can cause cancer in people is not known. Some people may be at greater risk for developing health effects from bromate exposure or have concerns for their pregnancy or nursing infant. Because bromate can cause health effects in kidneys, it is possible that those with pre-existing kidney conditions could be at greater risk. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of synthetic fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Thousand Oaks' tap water! |
Where does Thousand Oaks' water come from? The water supply system for Thousand Oaks and Newbury Park relies solely on treated surface water, which is procured from the Calleguas Municipal Water District. This district functions as an authorized distributor of treated water, which it obtains from the Metropolitan Water District of Southern California (MWDSC). The MWDSC's Jensen and Weymouth water treatment facilities process the water. The primary sources of this water are the Sacramento and Colorado Rivers, which are channeled to Southern California through the California Aqueduct (also referred to as the State Water Project) and the Colorado River Aqueduct. The treatment processes applied to this imported water include coagulation, flocculation, sedimentation, filtration, and disinfection, ensuring its safety and quality for consumption. Is Thousand Oaks' water safe to drink? Does Thousand Oaks put fluoride in the water?
Source: City of Thousand Oaks, CA
Contaminants Found in Thousand Oaks' Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromate
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromate may be formed in water during ozonation when the bromide ion is present. Under certain conditions, bromate may also be formed in concentrated hypochlorite solutions used to disinfect drinking-water. Bromate is usually found in drinking water as a result of water treatment, rather than through source water contamination. What are the risks of drinking tap water with Bromate? Kidney Issues. Exposure to large amounts of bromate for a long period of time caused kidney effects in laboratory animals. Long-term exposure to high levels of bromate has also caused cancer in rats. Whether bromate can cause cancer in people is not known. Some people may be at greater risk for developing health effects from bromate exposure or have concerns for their pregnancy or nursing infant. Because bromate can cause health effects in kidneys, it is possible that those with pre-existing kidney conditions could be at greater risk. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant (Uranium). Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of synthetic fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
Dasani, a popular brand of bottled water owned by The Coca-Cola Company, has garnered both praise and criticism over the years. While many choose bottled water as a convenient and seemingly healthier option, the composition of Dasani water and its potential health implications have come under scrutiny. In this article, we will delve into the ownership of Dasani, the ingredients beyond water, the process of filtration, and the controversies surrounding this widely consumed bottled water.
Ownership of Dasani:
Dasani is a product of The Coca-Cola Company, a multinational for profit beverage corporation. The brand was launched in 1999, aiming to tap into the growing market for bottled water. Despite its popularity, Dasani has faced its fair share of controversies, prompting consumers to question the quality and health aspects of this seemingly innocuous beverage.
Ingredients in Dasani water? What are you talking about, it is just water!! Nope, Dasani Water – it's like they're playing Dr. Frankenstein with hydration! They took water, the OG of refreshment, and thought, "Let's give it an upgrade." It's not just H2O; it's a scientist's concoction, that makes Mother Nature raise an eyebrow.
Beyond the clear appearance of water, Dasani contains a list of ingredients, raising concerns among health-conscious consumers. Apart from purified tap water, the ingredients include magnesium sulfate, potassium chloride, and salt. These additives according to the company are introduced to enhance taste and provide electrolytes. However, the necessity of such additives in a product marketed as pure water is a subject of debate.
Dasani Ingredient #1: Tap Water – A Bottled Dilemma: Yes, you read it right. Dasani starts with good ol' tap water, a fact that might leave you questioning the need to pay for bottled water. Of course this tap water is run through a reverse osmosis filter but still the original water is not sourced from some natural spring.
Dasani Ingredient #2: Magnesium Sulfate – More Than a Drying Agent: Magnesium sulfate, also known as Epsom salts or bath salts, makes its way into Dasani. Beyond being a drying agent, this ingredient has a darker side, potentially leaving you with a peculiar dry mouth after a sip. Is Coca-Cola secretly encouraging us to keep reaching for more, or is it just a quirky twist in the Dasani saga? And hold on, magnesium sulfate has a history in medicine, including delaying labor and causing birth defects at high doses.
Dasani Ingredient #3: Potassium Chloride – From Fertilizer to Bottled Water: Potassium chloride, commonly used in fertilizers, takes the stage as Dasani's third questionable ingredient. Not only does it have a bitter taste, but it's also known for stopping hearts – both in lethal injections and, unsettlingly, in late trimester abortions. The laundry list of side effects includes everything from bowel lesions to muscle weakness. So, why is Dasani putting this into water?
Dasani Ingredient #4: Salt – Adding Spice to the Mix: Dasani throws in some salt for good measure. While salt gets a bad rap, it's the unspecified amounts of sodium in processed foods that often cause concern. Imagine sipping on six or seven bottles of Dasani in a day – suddenly, that salt content doesn't seem so innocent. In the end, Dasani water, with its tap origins and questionable additives, leaves us pondering the choices we make in the name of hydration. Are we sipping on refreshing water, or have we fallen victim to a concoction that raises more eyebrows than glasses? The Dasani dilemma persists, and the decision to trust Coca-Cola with our hydration might be more complicated than we ever imagined.
Dasani Bottled Water May Also Contain Microplastics: In a recent study published in Frontiers of Chemistry, the authors scrutinized several well-known bottled water brands, such as Aquafina, Dasani, Evian, Nestle Pure, San Pellegrino, and Gerolsteiner from the United States. What they unearthed was disconcerting – a prevalent contamination of microplastics. Shockingly, the average concentration of microplastic particles per liter in the tested bottled water stood at 325 microplastic particles, challenging the commonly held belief that bottled water boasts superior purity compared to tap water. The sampled bottled water revealed a variety of plastic types, including polypropylene, utilized for bottle caps, and polyethylene terephthalate, the standard plastic for the bottles themselves. This strongly suggests that the contamination may be originating from the bottling and packaging processes, raising concerns about the actual purity of the water consumers are purchasing. The pristine image of bottled water is now under scrutiny, with implications for those who rely on it as a clean and untainted source of hydration.
The impact water run through a reverse osmosis filter on kidney health is a common concern. While water is essential for kidney function, the absence of minerals in RO water might affect the organ's ability to maintain electrolyte balance. Moderate consumption may not pose significant risks, but excessive reliance on demineralized water could potentially impact kidney health over time.
Is Dasani Water Bad for Your Stomach?
Some consumers report experiencing stomach discomfort after consuming RO water. While individual sensitivities vary, the lack of minerals in RO water might influence stomach acidity and digestion. Adequate hydration is crucial, but the choice of water may need to be considered for those with sensitive stomachs.
Is Dasani or RO Water Bad for Your Heart?
The role of water in heart health is essential, but the impact of RO water on the cardiovascular system remains a debated topic. The absence of minerals could potentially affect blood pressure regulation, emphasizing the need for a balanced intake of both mineral-rich and purified water.
In 2019, consumers took to YouTube and other social media platforms to voice their dissatisfaction with the taste of Dasani, Coca-Cola's water bottle brand. Notably, YouTuber Shane Dawson delved into the controversy, exploring claims that the water tasted odd, emitted a peculiar "fizz" sound upon opening, and contained additives like salt, sparking suspicions of something amiss with the product. Since then, Dasani has become a meme-worthy topic on TikTok, YouTube, and Instagram, with users poking fun at its taste and sharing conspiracy theories about its ingredients.
Shane Dawson, known for his conspiracy theory investigations, added fuel to the discourse in a video where he sampled Dasani, expressing surprise at the bottle's soda-like "fizz" sound. His skepticism about this fizzy phenomenon led him to question the water's composition, suggesting there might be more to it than meets the eye.
The disdain for Dasani extends to X, where a community of Dasani haters has emerged, complete with influencer disapprovals and memes mocking the product's manufacturing process. This antipathy towards Dasani has been a recurring theme in meme culture, especially on Reddit, where there's even a private Subreddit for fans to discuss the drink without facing criticism. Even during the COVID-19-induced panic buying, Dasani found itself left on the shelves as consumers opted for other water brands. This reluctance to purchase Dasani during the pandemic became a point of discussion on social media platforms, further contributing to its notoriety.
Even Martin Riese, renowned as the world's leading "water sommelier," expressed his aversion to Dasani, labeling it as highly processed and designed-by-focus-group factory water. He sees it as a positive development that Americans are realizing the drawbacks of spending money on filtered tap water and opting for alternatives.
While Dasani water offers convenience and hydration, it's essential for consumers to be aware of its composition, the RO filtration process, and the potential health implications associated with demineralized water. Making informed choices about water consumption is crucial for maintaining overall health and well-being. As controversies surrounding Dasani continue, consumers are encouraged to explore alternative water sources that align with their health preferences and values.
Reign Total Body Fuel is a popular and frequently enjoyed beverage known for its promise to provide a substantial energy boost while keeping you hydrated. While Prime Energy packs a significant caffeine punch (equivalent to six times that of a can of Coke) to deliver a stimulating experience, Reign Energy Drink sets itself apart by using artificial sweeteners to proudly declare itself a sugar-free option. However, upon closer examination of its ingredient list, it becomes evident that Reign Energy Drink might not be the best choice for those seeking to maintain a healthy lifestyle. Let's dive into the key components of Reign and uncover the potential negative effects associated with these ingredients.
Here’s what happens to your body when you drink highly caffeinated artificial energy drinks every day:
Reign Total Body Fuel is renowned for its incorporation of "natural flavor" in its ingredients. Nevertheless, it's essential to grasp the potential side effects associated with this ambiguous and often misleading term. While "natural flavors" might suggest that these flavors originate from natural sources, it does not provide specific insights into the ingredients or the production methods employed. The FDA defines natural flavors as "substances derived from plant or animal matter," but it permits a wide range of synthetic processes and chemicals in their creation. The lack of transparency surrounding natural flavors raises concerns as it can obscure the use of artificial or chemically altered ingredients.
In the case of Reign Total Body Fuel, a "natural flavor" might be generated using high heat or chemicals, departing from what consumers typically consider as natural. Furthermore, some natural flavors may be derived from substances that are not safe for consumption in their natural form, such as specific essential oils or chemical extracts. While regulatory agencies generally deem natural flavors safe for consumption, some individuals may experience adverse reactions or allergies to these components. To safeguard their well-being, consumers should be vigilant in comprehending what they consume and should meticulously examine labels and ingredient lists before purchasing or consuming products containing natural flavors. The utilization of natural flavors in products like Reign energy drinks underscores the imperative for enhanced transparency and accountability within the food and beverage industry. Consumers have the right to ascertain precisely what they are ingesting, and companies should be held to elevated standards regarding the quality and safety of their products.
If you're in search of a healthier substitute for Reign energy drink, opt for filtered water. Not only does water effectively hydrate your body, keeping you alert and attentive, but it also serves to eliminate impurities from your drinking source.
Filtered water ensures the absence of harmful chemicals, pollutants, and toxins commonly present in unfiltered tap water. Additionally, it offers a clean, invigorating taste that can quench your thirst without the necessity for added sugars or flavors.
In addition to filtered water, there are several other healthy alternatives to energy drinks for adults:
Permitting children to consume caffeine-containing energy drinks can present substantial health hazards. Caffeine, being a stimulant, can induce heightened heart rate, increased blood pressure, and anxiety, particularly in children whose bodies are still in the developmental phase. Furthermore, these energy beverages often carry excessive levels of sugar and other components that may contribute to weight gain and dental issues in youngsters.
Furthermore, caffeine can disrupt a child's sleep patterns, potentially leading to adverse effects on their cognitive and emotional growth. Consequently, it is essential for parents to monitor and limit their child's caffeine intake, including the consumption of energy drinks, in order to safeguard their overall health and well-being.
Drink | Caffeine Per Serving |
Organic Coffee (cup) *for reference | 95 mg (No sugar or artificial sweeteners - naturally occurring caffeine - not synthetic) |
Organic Green Tea (cup) *for reference | 30-50 mg (No sugar or artificial sweeteners - naturally occurring caffeine - not synthetic) |
Reign Total Body Fuel, Tropical Storm | 300 mg/per can |
Reign Total Body Fuel, Reignbow Sherbet | 300 mg/per can |
Reign Total Body Fuel, Orange Dreamsicle |
300 mg/per can |
Reign Total Body Fuel, Melon Mania |
300 mg/per can |
Reign Total Body Fuel, White Gummy Bear | 300 mg/per can |
Reign Total Body Fuel, Razzle Berry |
300 mg/per can |
Sources:
Energy Drinks May Do More Harm Than Good Says Researchers
Health Effects and Public Health Concerns of Energy Drink Consumption in the United States
Sports Drinks and Energy Drinks for Children and Adolescents: Are They Appropriate?
STIMULANT-CONTAINING ENERGY DRINKS What You Need to Know
Is 'Natural Flavor' Healthier Than 'Artificial Flavor'?
Are ‘Natural Flavors’ Really Natural?
Natural Caffeine Offers Longer Lasting Improvement on Cognition and Moods
Reign Total Body Fuel is a trademark owned by Reign Beverage Company LLC
You won't believe what was found in Simi Valley's tap water! |
Where does Simi Valley's water come from? The primary water source serving the City/District is derived from the State Water Project, which is imported from Northern California. This water undergoes a comprehensive treatment, filtration, and disinfection process at the Joseph Jensen Filtration Plant, operated by the Metropolitan Water District in Granada Hills. Following treatment, it is transported through pipelines to the Calleguas Municipal Water District (Calleguas), which serves as the primary water provider for the City/District, as well as the Golden State Water Company in Simi Valley. Calleguas utilizes the Lake Bard Reservoir for the storage of Metropolitan's imported water.
The water treated at the Lake Bard Water Filtration Facility is held in reserve for use during emergencies or planned facility outages. In times of drought or water shortages, additional supplies are sourced from the Metropolitan Weymouth Plant in La Verne and the Calleguas Wellfield, situated to the west of Moorpark. The other source of drinking water for the City/District is the Gillibrand Groundwater Basin, located to the north of Simi Valley. This groundwater source accounts for approximately 0.20% of the total water supply distributed within the City/District service area. Water extracted from this basin is pumped to the Tapo Canyon Water Treatment Plant for thorough treatment and disinfection before being distributed through the local water system. Metropolitan has conducted a comprehensive source water assessment for both the State Water Project and the Colorado River supply.
The State Water Project source is considered susceptible to various factors, including urban and stormwater runoff, wildlife impact, agricultural activities, recreational use, and wastewater discharge. Similarly, the Colorado River source is also identified as vulnerable, with potential contamination risks arising from recreational activities, urban and stormwater runoff, increasing urban development in the watershed, and wastewater discharge. Is Simi Valley's water safe to drink? Does Simi Valley put fluoride in the water?
Source: City of Simi Valley, CA
Contaminants Found in Simi Valley's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant (Uranium). Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
water is not wet (or is it)
The Hilarious Huddle of Hydrophilic Hilarity: Is Water Wet?
Greetings, my fellow curious minds and inquisitive intellects! Today, we are delving into the whimsical world of one of the most confounding conundrums to have ever wet our whistle: Is water wet? Buckle up, because we're about to embark on a journey through the droplet-laden labyrinth of scientific hilarity!
The Wet Camp: It's All About the Molecules, Baby!
Let's kick off this aquatic adventure by diving headfirst into the wet camp. These brave souls, armed with chemistry textbooks and a penchant for puddles, argue that water is indeed wet. Their point of view? It all boils down to the nature of water molecules.
Point 1: The Molecule Mingle
Water molecules have an uncanny attraction to each other, thanks to hydrogen bonding. This means that when you dip your finger into a bowl of water, the water molecules collectively stick to your skin, making it feel, well, wet!
Point 2: Slippery When Wet
Think about the classic banana peel slip gag in cartoons. What's the common denominator? Water! When a surface is wet, it becomes slippery. If water itself weren't wet, then wet surfaces wouldn't be slippery. Case closed, right?
Point 3: The Wet Test
Imagine a dry sponge. Now, dunk it in water. What happens? The sponge absorbs the water and becomes wet. If water wasn't wet, how could it make things wet? It's like trying to argue that a sneeze isn't gross—it's the very essence of its nature!
The Dry Camp: In Defense of Aquatic Integrity Now, let's paddle over to the dry camp, where the stalwart defenders of semantic purity proclaim that water, being the essence of wetness itself, cannot be considered wet. Prepare for a sprinkling of linguistic levity!
Point 1: The Essence of Wetness
Water, dear friends, is not merely wet—it is the very foundation upon which wetness is built. It's like asking if a comedian is funny; without water, there is no wetness, just as without laughter, there is no humor. Water is the wet canvas upon which the masterpiece of wetness is painted!
Point 2: Linguistic Laughs
Consider this: can you dry something that isn't wet? No! To dry an object implies that it was once wet. If water were wet, it would need to dry itself after every splash. Imagine water frantically towel-drying itself after a rainstorm—quite the comedic mental image, isn't it?
Point 3: A Matter of Identity
Water is not something that becomes wet; it's the standard by which wetness is measured. When you say "water is wet," you're like a philosopher pondering if existence exists. Water doesn't experience the sensation of wetness—it imparts that sensation to other things.
The Delightful Denouement: Wet or Not? As we sail towards the conclusion of our aqueous amusement, where do we stand? Is water wet or is it simply the wetmaker? Well, my fellow aficionados of aquatic amusement, the answer is… a delightful paradox. Water, you see, is a bit of a trickster. It's not quite wet on its own—it's the agent of wetness, the enabler of all things wet. It's the grand conductor of the symphony of saturation, orchestrating the grand performance of puddles and oceans, giggles and grins. So, whether you find yourself chuckling in the wet camp or guffawing in the dry camp, remember that the laughter is what truly matters. In the grand comedy of science, the punchline is often found in the most unexpected places—even in a seemingly simple question like, "Is water wet?" Until next time, my scientifically silly comrades, keep your minds as open as a rain-filled umbrella and your sense of humor as sharp as a dripping faucet!
You won't believe what was found in Pasadena's tap water! |
Where does Pasadena's water come from? Pasadena primarily sources its water from the Colorado River and Northern California, supplemented by a significant contribution from the local aquifer known as the Raymond Basin. Covering a 40 square mile area beneath Pasadena and nearby regions, the Raymond Basin furnishes around 40 percent of the city's drinking water. This underground reservoir is nourished by rainfall in the San Gabriel Mountains. Over several months, as rainwater seeps into the ground, natural filtration processes cleanse it. Pasadena Water and Power (PWP) operates seven wells that tap into the Raymond Basin at depths ranging from 300 to 500 feet. These wells collectively draw an average of 13 million gallons of groundwater per day. The Metropolitan Water District of Southern California relies on two primary water sources: the State Water Project and the Colorado River. The State Water Project, managed by the California Department of Water Resources, conveys water from the Sacramento-San Joaquin Delta to Southern California via the California Aqueduct.
Effective management of the State Water Project's supply, achieved through water marketing and groundwater banking, is crucial for addressing California's water demands. In obtaining water from the Colorado River, the Metropolitan Water District of Southern California maintains a permanent service agreement with the United States Secretary of the Interior. This agreement ensures the delivery of water through the Colorado River Aqueduct. Operating within the priority system that governs the distribution of California's share of Colorado River water, the district holds the fourth priority right. Is Pasadena's water safe to drink? Does Pasadena put fluoride in the water?
Source: City of Pasadena, CA
Contaminants Found in Pasadena's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant (Radium/Uranium). Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Tetrachloroethylene (Perchloroethylene)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Tetrachloroethylene (PCE) is a colorless organic liquid with a mild, chloroform-like odor. Its greatest use is in the textile industry, and as a component of aerosol dry-cleaning products. The maximum contaminant level for Tetrachloroethylene has been set at zero because EPA believes there is no safe level of this contaminant. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. What are the risks of drinking tap water with Tetrachloroethylene? Liver Issues & Cancer. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
Best Water Filter Pitcher For Bacteria? In the present era, assuring the purity and safety of our drinking water holds paramount significance, particularly concerning the presence of parasites. Prolonged exposure to heavy metals and chemicals like lead and chlorine in water can lead to gradual sickness, whereas the presence of waterborne parasites has the potential to induce fatal outcomes or severe illnesses shortly after consumption. Even within the United States, approximately 7.2 million Americans suffer from waterborne diseases annually, as reported by the CDC. Given the abundance of water filter pitchers in the market, pinpointing the most effective option for eliminating contaminants can be quite a challenge. Regarding water filter pitchers, a majority of available choices rely on granular activated carbon (GAC) filters for primary contaminant removal.
While GAC filters do provide a certain level of filtration, they are generally acknowledged as the least expensive and least efficient method for purifying water from pollutants. This can be attributed to the relatively large size of granules in GAC filters, which results in limited surface area and subsequently diminishes their effectiveness in capturing and containing contaminants. In recent times, advancements in water purification technology have introduced alternatives to GAC filters that are notably more efficient and superior. One such breakthrough involves the incorporation of carbon fiber blocks and nano fabric technology. These cutting-edge filtration systems combine carbon fibers with nano-scale materials to significantly augment filtration capabilities and overcome the limitations inherent in traditional GAC filters.
Bacteria Water: Utilizing carbon fiber blocks combined with electro-positive nano fabric filters results in the creation of an intricate and densely-packed network of microscopic channels. This intricate network, in turn, generates a significantly expanded surface area dedicated to filtration purposes. This expanded surface area facilitates enhanced interaction between the water and the filtering medium, leading to a more exhaustive elimination of contaminants. Furthermore, the carbon fibers in this system carry an electrostatic charge, which attracts and captures a broader spectrum of impurities, encompassing chlorine, heavy metals, pesticides, and volatile organic compounds (VOCs). To augment the filtration process, nano fabric technology is integrated, introducing ultra-fine fibers with nanoscale pores into the filter material.
These minuscule pores function as molecular sieves, effectively ensnaring even the smallest contaminants, including parasites (cysts), bacteria, viruses, and microplastics. The precision and efficiency exhibited by nano fabric technology make it exceedingly proficient in offering thorough and dependable water filtration. By selecting water filter pitchers that employ carbon fiber blocks and nano fabric technology, individuals can ensure a comprehensive and efficient eradication of contaminants from their drinking water. These advanced filtration mechanisms surpass the limitations of GAC filters, thereby delivering water that is not only cleaner and healthier but also possesses an improved taste for you and your loved ones.
Coliform Bacteria In Well Water: Although GAC filters might stand as the prevalent and budget-friendly choice among water filter pitchers, opting for the investment in carbon fiber blocks integrated with nano fabric technology unquestionably yields substantial returns for individuals in search of top-tier water filtration efficiency. By giving precedence to these state-of-the-art filtration techniques, you can relish the assurance that your drinking water is devoid of an extensive array of detrimental impurities, providing you with peace of mind and enhanced well-being.
The Epic Nano: a remarkable water filter pitcher and water filter dispenser offered by Epic Water Filters. The Epic Nano is available in both pitcher and dispenser formats, showcasing a fusion of innovation and practicality. Engineered with cutting-edge filtration technology, the Epic Nano stands as a testament to exceptional contaminant elimination without compromising on its sleek and space-efficient design. At its core, the Epic Nano pitcher boasts a robust American-made filtration system, seamlessly integrating activated carbon fiber block and nano fiber filter media.
Iron Bacteria In Well Water: These filtration elements synergistically collaborate to effectively eradicate a broad spectrum of harmful substances, encompassing persistent chemicals, lead, microplastics, viruses, chlorine, bacteria, and an array of other contaminants. The Epic Nano emerges as a seamless solution, offering convenience and efficiency, catering to the desire for clean and healthful water consumption. It notably suits households and individuals with dynamic, on-the-go lifestyles. In the context of tap or well water, possessing a water pitcher capable of proficiently eradicating bacteria holds pivotal importance for the safety and well-being of you and your loved ones. Bacterial presence in water can arise from diverse sources, including sewage contamination, agricultural runoff, or natural origins. Ingesting water tainted by harmful bacteria can give rise to waterborne ailments, presenting significant health hazards.
This risk is particularly heightened for individuals with compromised immune systems, along with susceptible groups such as children and the elderly. By investing in a water pitcher specifically engineered to target and eliminate bacteria, you can cultivate a sense of assurance, knowing that your drinking water remains untainted by these potentially perilous microorganisms. Opting for a pitcher renowned for its dependable bacteria removal capabilities serves as a fortress for your well-being and encourages the adoption of a lifestyle that is both safer and healthier.
"Our tester’s overall favorite to use, this filter’s design is simple – it (Epic Water Filters) has a large reservoir that is easy to access and refill. Replacing filters is also straightforward. The filter removed about 98 percent of forever chemicals in the drinking water tested." - Independently Verified by EWG’s Guide To PFAS Water Filters
Advantages of the Epic Nano water filter pitcher and dispenser extend beyond standard market offerings, showcasing distinct merits. Here are the notable highlights:
E Coli In Drinking Water: When the task involves selecting a water filter pitcher that excels at eliminating an extensive array of contaminants, the Epic Nano from Epic Water Filters emerges as a prominent candidate. Boasting cutting-edge filtration advancements and the capability to eradicate over 200 contaminants along with bacteria and parasites, this pitcher and dispenser combination guarantees access to water that is not only clean and safe but also boasts excellent taste. Opting for a premium water filter pitcher signifies an investment in your health and overall well-being, granting you the tranquility that accompanies the knowledge of consuming pure water, devoid of detrimental substances.
Other pitchers you might consider:
Brita Water Filter Pitcher (Uses GAC Filter - No claim on bacteria)
Zero Water Pitcher (Uses GAC Filter - No claim on bacteria)
Pur Water Pitcher (Uses GAC Filter - No claim on bacteria)
Lifestraw Pitcher (Uses GAC Filter & Hollow Fiber Filter - removes bacteria)
Clearly Filtered Water Pitcher (Uses GAC Filter & Carbon Block Filter - No claim on bacteria)
Larq Pitcher (Uses UV Light & GAC Filter - removes bacteria if you get the version with UV light)
Brita Stream Filter (Uses GAC Filter - No claim on bacteria)
Soma Water Pitcher (Uses GAC Filter - No claim on bacteria)
Nakii Water Pitcher (Uses GAC Filter - No claim on bacteria)
WaterDrop Pitcher (Uses GAC Filter - No claim on bacteria)
Aquagear Water Filter Pitcher (Uses Carbon Block Filter - No claim on bacteria)
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
You won't believe what was found in Orange's tap water! |
Where does Orange's water come from? The water supply for the City of Orange is derived from three distinct sources. The primary source consists of groundwater accessed through 11 municipal wells that are drilled to a depth of approximately 1000 feet into the Santa Ana River Aquifer. This well water is introduced directly into the distribution system and undergoes a chlorine disinfection process, adhering to all state-mandated regulations.
The second source of water involves imports from the Metropolitan Water District, which acquires water from both the Colorado River and regions in northern California such as the San Francisco-San Joaquin Bay Delta. Prior to distribution, Metropolitan water is subjected to filtration and is disinfected using chloramines. Additionally, the City of Orange procures a minor portion of its water supply from the Serrano Water District. This particular source predominantly comprises treated surface water, supplemented by locally treated well water. Is Orange's water safe to drink? Does Orange put fluoride in the water?
Source: City of Orange, CA
Contaminants Found in Orange's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant (Uranium). Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Victorville's tap water! |
Where does Victorville's water come from? The water supply for Victorville originates from the Alto Subarea, a local underground basin within the Upper Mojave River Basin, renowned for its exceptional quality. Annually, it furnishes over seven billion gallons of water to the inhabitants of Victorville. Moreover, the city procures supplementary well water from the Mojave Water Agency, sourced similarly from wells within the Alto Subarea. Victorville's water distribution relies on an infrastructure comprising 36 wells, an extensive network of pipelines, pumps, reservoirs, treatment plants, and assorted facilities. Is Victorville's water safe to drink? Does Victorville put fluoride in the water?
Source: City of Victorville, CA
Contaminants Found in Victorville's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant (Vanadium). Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Torrance's tap water! |
Where does Torrance get its water from? The City of Torrance Municipal Water Utility provides water services to around 107,000 residents. In the year 2022, the utility distributed approximately 18,661 acre-feet of drinking water, which is equivalent to 6.1 billion gallons, to its customers. To put it into perspective, one acre-foot of water is equal to 325,900 gallons, or the amount of water needed to cover an acre of land to a depth of one foot. Torrance procured 75 percent of its potable water supply from the Metropolitan Water District of Southern California (MWD), a regional wholesaler that imports surface water. The water comes from two primary sources: the Colorado River, delivered through the 242-mile Colorado River Aqueduct, and Northern California, transported via the 441-mile California Water Aqueduct.
MWD ensures the imported water undergoes advanced multistage treatment at five regional treatment plants. The remaining 25 percent of the municipal potable water supply is obtained from a combination of sources. One source is a well drawing water from the West Coast groundwater basin, while the other source is a groundwater desalination project. Is Torrance's water safe to drink? Does Torrance put fluoride in the water?
Source: City of Torrance, CA
Contaminants Found in Torrance's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS ? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Visalia's tap water! |
Where does Visalia get its water from? The City of Visalia relies on its groundwater aquifer as the primary source of water, prioritizing its preservation and accessibility for the present and future community. The aquifer receives constant replenishment through local rainfall, snowmelt from the Kaweah and St. Johns waterway system, such as Millcreek, Packwood, and Cameron Creeks, as well as irrigation practices in the surrounding farmland. To enhance the capture and retention of the riparian flows for groundwater recharge, the City has invested in creating groundwater recharge basins. Currently, the City operates ten recharge basins, and there are plans to develop additional recharge facilities at the Eastside Regional Park. Is Visalia's water safe to drink? Does Visalia put fluoride in the water?
Source: City of Visalia, CA
Contaminants Found in Visalia's Water Supply
(Detected above health guidelines*)
1,2,3-Trichloropropane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. 1,2,3-Trichloropropane, also known as TCP, is an organic "Man Made" chemical found in some groundwater supplies. The TCP contamination in our water is believed to have come from soil fumigants. Soil fumigants in use today no longer contain TCP. What are the risks of drinking tap water with 1,2,3-Trichloropropane? Unknown. Exposure to high levels of 1,2,3-trichloropropane for a short time causes eye and throat irritation. Animals exposed died after breathing air containing 1,2,3-trichloropropane at levels higher than we have in the environment. When rats breathed it at levels lower than those that irritated humans, they developed eye, nose, and lung irritation, and liver and kidney disease. The main health effect in both animals and people is damage to the respiratory system. When animals swallowed 1,2,3-trichloropropane at high levels, they died from liver and kidney damage. When exposed to moderate levels that did not cause death, the animals had minor liver and kidney damage, blood disorders, and stomach irritation. Find out more about this contaminant and how to remove it here.
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS ? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
fluid retention in legs
Understanding Water Retention in Legs and Ankles: Causes and Natural Treatment Options Introduction: Water retention in the legs and ankles, also known as edema, is a common condition that can affect people of all ages. It occurs when excess fluid accumulates in the tissues, causing swelling and discomfort. While it can be a symptom of an underlying medical condition, there are also several natural ways to manage and treat this issue. In this blog post, we will explore the causes of water retention in legs and ankles, along with various natural treatment options, including natural diuretics.
1. Sedentary Lifestyle: Prolonged periods of inactivity or sitting can lead to fluid buildup in the lower extremities. Regular movement and exercise are essential to stimulate blood circulation and prevent edema.
2. High Sodium Intake: Consuming a diet high in sodium can cause the body to retain water. Excess salt can disrupt the fluid balance and lead to swelling in the legs and ankles.
3. Hormonal Changes: Hormonal imbalances, especially during pregnancy or menstruation, can contribute to water retention.
4. Medical Conditions: Certain health issues, such as kidney problems, heart disease, and venous insufficiency, can lead to edema in the legs and ankles.
5. Medications: Some medications, like certain blood pressure drugs and anti-inflammatory medications, may cause water retention as a side effect.
1. Lifestyle Modifications: Making changes to your daily habits can significantly reduce water retention. Elevate your legs whenever possible, avoid prolonged sitting or standing, and engage in regular physical activity.
2. Reduce Sodium Intake: Limiting your salt intake can help restore the body's fluid balance and alleviate swelling.
3. Stay Hydrated: Paradoxically, drinking plenty of water can actually help flush out excess fluids and reduce water retention. Aim for at least eight glasses of water per day.
4. Compression Garments: Wearing compression socks or stockings can promote blood circulation and reduce swelling.
5. Natural Diuretics: Natural diuretics are substances that can encourage the body to eliminate excess water. Here are some effective and safe options:
a) Dandelion: Dandelion leaves and roots have diuretic properties and can be consumed as tea or in supplement form.
b) Parsley: Parsley is a natural diuretic that can be added to your meals or taken as a herbal tea.
c) Hibiscus: Hibiscus tea not only has a pleasant taste but also acts as a mild diuretic.
d) Celery Seeds: Celery seeds have diuretic effects and can be incorporated into your diet or taken as a supplement.
e) Lemon: Lemon water has gentle diuretic properties and is an excellent source of hydration.
f) Coconut Water: Coconut has diuretic properties that can help promote urination and reduce water retention in the body.
While all the above natural diuretics can be beneficial, dandelion is often considered one of the best natural diuretics due to its strong diuretic effects. Dandelion helps promote urination, aiding in flushing out excess fluids from the body. It is essential to consult a healthcare professional before adding any natural diuretic to your routine, especially if you have any pre-existing health conditions or are taking medications. Conclusion: Water retention in the legs and ankles can be uncomfortable and worrisome, but it is often manageable through lifestyle changes and natural remedies. By identifying the underlying causes and implementing natural diuretics, you can effectively reduce swelling and promote overall well-being. Remember to consult with a healthcare professional to rule out any serious medical conditions and ensure that your chosen natural treatment plan is safe and effective for you.
How to Make Money on TikTok Introduction: With its explosive growth and vast user base, TikTok has evolved from a simple video-sharing app to a lucrative platform for content creators and influencers. If you've been scrolling through your "For You" page wondering how people are making money on TikTok, you're in the right place. In this blog post, we'll uncover the secrets behind monetizing TikTok and explore the various ways you can turn your passion for creating short-form videos into a thriving income stream.
1. Building Your TikTok Profile: The first step towards monetizing TikTok is to establish a compelling and engaging profile. Define your niche or area of interest and create content that resonates with your target audience. Consistency is key, so post regularly and interact with your followers to foster a loyal community.
2. Becoming Eligible for TikTok's Creator Fund: One of the most direct ways to earn money on TikTok is through the TikTok Creator Fund. To be eligible, your account needs to meet specific criteria, such as having at least 10,000 followers and reaching a minimum number of video views in the last 30 days. Once approved, you can earn money based on the views your videos receive.
3. Leveraging TikTok's Live Streaming: TikTok allows creators to host live streams where their followers can send virtual gifts as a form of support. These gifts can be converted into diamonds, which can later be exchanged for real money. Engaging live content and a loyal following can significantly boost your earnings through live streaming.
4. Partnering with Brands and Sponsored Content: As your follower count grows, brands may start noticing your influence and reach. Many companies are eager to collaborate with TikTok creators to promote their products or services through sponsored content. Building genuine connections with your audience is crucial in attracting brands that align with your content and values.
5. Joining TikTok Influencer Marketing Platforms: Several third-party influencer marketing platforms connect creators with brands looking for sponsored content opportunities. These platforms facilitate collaborations, negotiations, and payment processing, making it easier for creators to monetize their TikTok presence effectively.
6. Selling Merchandise and Products: If you've built a strong personal brand on TikTok, you can explore selling merchandise or products related to your niche. From apparel and accessories to digital products like ebooks or presets, offering value-added items to your followers can be a profitable venture.
7. Hosting Giveaways and Contests: Engagement is vital for TikTok success. Hosting giveaways and contests can boost user interaction and attract new followers. Partnering with brands for giveaway prizes can also lead to brand collaborations and sponsorships.
8. Tapping into Affiliate Marketing: Affiliate marketing is another popular way to earn money on TikTok. By promoting products or services through unique affiliate links, you can earn a commission on each sale generated through your referrals.
In conclusion, TikTok has emerged as a promising platform for content creators and influencers to monetize their talents and passion. From the TikTok Creator Fund to sponsored content and brand deals, there are numerous avenues to explore and turn your TikTok account into a lucrative income source. However, success doesn't come overnight. It requires dedication, authenticity, and a strong connection with your audience. As you continue to grow your TikTok presence, stay true to your voice and engage with your followers to build a thriving community that will support your journey towards financial success on TikTok.
BRANDS | TIKTOK SPONSORSHIP LIST APPLICATIONS |
Epic Water Filters (We love sponsoring Tiktok!!!) | Epic Syndicate |
5 Hour Energy | 5-hour ENERGY® Affiliate Application |
AVerMedia |
AVerMedia Partnership Program |
Player One Coffee | Player One Coffee Application |
NordVPN | NordVPN Affiliate Application |
Nerdvana | Nerdvana Affiliate Application |
Nano Leaf | Nano Leaf Application |
Jerky Pro | Jerky Pro Affiliate Application |
Fable Beard Company | Fable Beard Application |
Zappos | Zappos Affiliate Program |
Chic | Chic Fashion Affiliate Program |
Gwynnie Bee Clothing | Gwynnie Bee Clothing Application |
Mytheresa Clothing |
Mytheresa Clothing Affiliate Program |
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You won't believe what was found in Pomona's tap water! |
Where does Pomona's water come from? The City of Pomona heavily relies on two groundwater aquifers, constituting approximately 73% of its water supply. These wells, strategically located throughout Pomona and Claremont, undergo treatment at different facilities to ensure the removal of volatile organic compounds, nitrate, and perchlorate, guaranteeing the safety of the water for consumption. Additionally, around 7% of the water supply originates from the pristine waters of the San Gabriel Mountains. Before reaching consumers, this water undergoes thorough filtration and disinfection processes at the Frank G. Pedley Memorial Filtration plant in Claremont. Its journey starts in the picturesque San Antonio Canyon, where it begins its path to become potable water.
The remaining 20% of the water supply is sourced from two separate water districts - the Metropolitan Water District of Southern California (MWD) and the Three Valley's Municipal Water District (TVMWD). Both MWD and TVMWD procure their water from Northern California. Upon its arrival, MWD transports the water to the Weymouth Water Treatment Plant in La Verne for meticulous treatment and disinfection, while TVMWD carries out its treatment at the Miramar Water Treatment Plant in Claremont. This diverse water supply network ensures that the City of Pomona can reliably provide its residents with clean and safe drinking water, making it a vital cornerstone of the community's well-being and prosperity. Is Pomona's water safe to drink? Does Pomona put fluoride in the water?
Source: City of Pomona, CA
Contaminants Found in Pomona's Water Supply
(Detected above health guidelines*)
1,4-Dioxane
1,4-Dioxane is a volatile organic compound, classified as an ether. Most 1,4-dioxane contamination of drinking water comes from leaking underground storage tanks at hazardous waste sites, or discharges from manufacturing plants. Once it makes its way into sources of drinking water, 1,4-dioxane tends to stay there, because it does not break down easily. What are the risks of drinking tap water with 1,4-Dioxane? Cancer, Lung & Kidney Issues. 1,4-Dioxane is a likely human carcinogen and has been found in groundwater at sites throughout the United States. Under California Proposition 65, dioxane is classified in the U.S. State of California to cause cancer. Animal studies in rats suggest that the greatest health risk is associated with inhalation of vapors in the pure form. Find out more about this contaminant and how to remove it here.
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromochloroacetic acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromochloroacetic acid is formed in drinking water as a by product during the disinfection of water by chlorine in the presence of organic matter and bromide. The highest concentrations of bromochloroacetic acid were observed in drinking water with the highest bromide content. What is the risk with drinking water that contains Bromochloroacetic acid? Currently there are no long term studies on this water contaminants impact on humans. Bromochloroacetic acid was tested for carcinogenicity in one study in mice and one study in rats. In mice, bromochloroacetic acid caused a significantly increased incidence of hepatocellular adenoma (a rare, benign liver tumor) and hepatocellular carcinoma (liver cancer) in males and females, and of hepatoblastoma (uncommon malignant liver cancer) in males. In rats, bromochloroacetic acid caused a significantly increased incidence of mesothelioma in males, of large intestine adenoma in males and females, and of pancreatic islet cell adenoma in males. It also increased the multiplicity of fibroadenomas of the mammary gland in females. Tumours of the large intestine, mesotheliomas and hepatoblastomas are rare spontaneous neoplasms in experimental animals. Bromochloroacetic acid is one of the Haloacetic Acids (HAAs) which has been identified as a major water contaminant. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Tetrachloroethylene (Perchloroethylene)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Tetrachloroethylene (PCE) is a colorless organic liquid with a mild, chloroform-like odor. Its greatest use is in the textile industry, and as a component of aerosol dry-cleaning products. The maximum contaminant level for Tetrachloroethylene has been set at zero because EPA believes there is no safe level of this contaminant. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. What are the risks of drinking tap water with Tetrachloroethylene? Liver Issues & Cancer. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Sunnyvale's tap water! |
Where does Sunnyvale's water come from? Sunnyvale, known for its abundant drinking water supply, relies on three distinct sources to meet its needs. The primary sources are treated surface water from the San Francisco Regional Water System managed by the San Francisco Public Utilities Commission (SFPUC), treated surface water from the Santa Clara Valley Water District (Valley Water), and local groundwater. In the northern part of Sunnyvale, the city acquires water from SFPUC, where the filtered water turbidity consistently meets the standard of 0.3 NTU or less, 95% of the time. The SFPUC effectively manages and safeguards its major drinking water supply, which comprises surface water and groundwater. These sources have diverse origins and are geographically distributed, with surface water stored in reservoirs located in the Sierra Nevada, Alameda County, and San Mateo County, while groundwater is stored in a deep aquifer in the northern part of San Mateo County.
For the southern portion of Sunnyvale, the city purchases treated surface water from the Santa Clara Valley Water District, now Valley Water, which is mainly imported from various sources. These include the South Bay Aqueduct, Dyer Reservoir, Lake Del Valle, and San Luis Reservoir, all drawing water from the Sacramento - San Joaquin Delta watershed. Valley Water also relies on its local water source, Calero Reservoir. The water from both imported and local sources is pumped and treated at three water treatment plants situated in Santa Clara County.
To further bolster water supply during peak demands in the summer months and emergencies, Sunnyvale owns, operates, and maintains six deep wells. These wells are strategically used to supplement the imported water supplies and ensure a consistent water flow for the city's residents and businesses. Is Sunnyvale's water safe to drink? Does Sunnyvale put fluoride in the water?
Source: City of Sunnyvale, CA
Contaminants Found in Sunnyvale's Water Supply
(Detected above health guidelines*)
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Dibromoacetic acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing from this utility from PFAS. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS . What are the risks of drinking tap water with PFAS ? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
What About Bottled Water
The widespread consumption of bottled water has raised significant health concerns due to the presence of plastic particles in the water. As plastic bottles deteriorate over time, they release tiny microplastic particles that find their way into the bottled water we drink. Recent research revealed that as much as 93% of the top water bottle brands contained these microplastics. These minute plastic particles pose risks to both human health and the environment. Scientific studies have highlighted the potential adverse effects on our bodies when we ingest these plastic particles, potentially leading to long-term health issues. Furthermore, the disposal of plastic water bottles contributes to plastic pollution, posing a serious threat to marine life and ecosystems. The accumulation of plastic waste in oceans and waterways disrupts the delicate balance of aquatic environments, harming marine creatures. Addressing this pervasive issue requires urgent attention and the implementation of sustainable solutions to break the cycle of plastic pollution caused by the widespread use of bottled water.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
In the world of fitness and performance enhancement, energy drinks have become a popular choice for those seeking an extra boost to power through their workouts or busy days. Among the many options available, C4 stands out as a well-known and widely-consumed energy drink. This article aims to shed light on the ingredients present in C4.
We also look at the implications of flavor enhancers, food preservatives, high levels of caffeine, and synthetic vitamins found in C4 Energy Drink. Understanding the potential health issues associated with these additives will empower you to make conscious choices about your beverage preferences and overall health.
Additionally, C4 contains some worrisome ingredients, sucralose & acesulfame potassium, both artificial sweeteners. Sucralose has been associated with several health concerns, including disruptions to gut bacteria, increased appetite leading to weight gain, and potential negative effects on blood sugar regulation. What piques curiosity is the fact that C4 Energy Drink contains not only one but two artificial sweeteners.
Sucralose has been linked to several health concerns, making it a topic of ongoing debate. One of the primary concerns is its potential to disrupt gut bacteria, leading to imbalances in gut health and digestion. Studies suggest that artificial sweeteners, including sucralose, can negatively impact gut microbiota composition, potentially affecting overall well-being. Furthermore, the consumption of artificial sweeteners has been associated with an increased appetite and weight gain. Artificially sweetened drinks may trigger the body's insulin response, potentially leading to insulin resistance over time.
This resistance can increase the risk of conditions such as type 2 diabetes and metabolic syndrome. Additionally, the consumption of artificially sweetened beverages can create a preference for excessively sweet flavors, which may reduce the inclination for healthier, naturally sweetened alternatives and result in an imbalanced diet.
Acesulfame Potassium, also known as Ace-K, is a calorie-free artificial sweetener that boasts 200 times the sweetness of table sugar. It is commonly used in various diet products, including sugar-free versions of energy drinks like C4, Red Bull, Rockstar, Bang, and Monster, due to its intense sweetness. However, Ace-K is notorious for its bitter aftertaste, often leading to its combination with other artificial sweeteners to improve flavor such as sucralose.
Although the Food and Drug Administration approved the usage of Acesulfame Potassium in 1998, there are important safety concerns that every consumer should be aware of before consuming products containing this sweetener. One of the significant issues is the possible presence of the carcinogen methylene chloride in Ace-K. Prolonged exposure to methylene chloride has been associated with various health problems, including headaches, depression, nausea, mental confusion, liver and kidney effects, visual disturbances, and even cancer. Moreover, Ace-K has been reported to interfere with metabolic processes and impact appetite regulation, blood sugar control, and body weight. Pregnant women should be cautious, as studies have indicated that Ace-K may affect the early development of babies during pregnancy and potentially lead to premature births with high daily intake of artificially sweetened drinks.
Several studies have linked the consumption of drinks containing Ace-K to the development of obesity, type 2 diabetes, and metabolic syndrome. Additionally, test tube studies have confirmed that Ace-K can increase the absorption of sugar by cells in the gut, raising further concerns about its potential impact on blood sugar levels. Given these findings, it is essential for consumers to make informed choices about the sweeteners they consume and consider alternatives that may be safer for long-term health and well-being. Consider this: When has anything artificial ever truly benefited your well-being?
Citric acid, a naturally occurring compound found in various citrus fruits, is celebrated for its numerous health benefits. However, it's essential to differentiate between the natural form of citric acid and its synthetic counterpart known as Manufactured Citric Acid (MCA). While the natural form offers health advantages, MCA is commonly employed as a flavoring and preservative in various processed foods and beverages, including popular energy drinks like C4. Unfortunately, the synthetic version of citric acid may not provide the same health benefits as its natural counterpart.
In fact, some individuals have reported experiencing gastric distress and digestive issues after consuming products containing MCA, raising concerns about the true benefits of chemical food preservatives concerning your well-being. The natural form of citric acid, derived from citrus fruits, offers various health benefits, acting as an antioxidant, aiding in digestion, and supporting the body's natural detoxification processes. Consuming citrus fruits or products containing naturally occurring citric acid can contribute to experiencing these positive effects. On the other hand, MCA is a synthetic version of citric acid produced through chemical processes, widely used as a flavoring and preservative in processed foods and beverages.
C4 Energy Drink's high caffeine content, at 200 mg per can (vs a large cup of coffee has around 90 mg), raises concerns about its potential negative health effects on the body. While caffeine can provide a temporary boost in alertness and energy, excessive consumption can lead to various adverse effects. For some individuals, such a high dose of caffeine may trigger restlessness, anxiety, and jitteriness. Moreover, it can disrupt sleep patterns, leading to insomnia or disturbed sleep quality.
Prolonged intake of large amounts of caffeine may also result in dependence or addiction, causing withdrawal symptoms when consumption is reduced or stopped. Additionally, excessive caffeine intake can lead to increased heart rate, elevated blood pressure, and gastrointestinal issues like acid reflux or stomach discomfort. For those with certain health conditions, such as heart problems or anxiety disorders, consuming C4 Energy Drink with its potent caffeine content may pose even more significant risks. It is crucial to consume caffeine-containing beverages in moderation and be aware of individual sensitivities and health conditions to safeguard overall well-being.
The inclusion of "natural flavors" in C4 Energy Drink has raised concerns, emphasizing the importance of being aware of potential side effects associated with this vague and potentially misleading term. Although the term suggests that the flavors are derived from natural sources, it lacks specific details about the ingredients and manufacturing processes used. The FDA's definition of natural flavors permits the use of synthetic processes and chemicals during production, casting doubt on the authenticity of these flavors being truly natural. This lack of transparency raises concerns as it can conceal the use of artificial or chemically modified ingredients. For instance, a "natural flavor" in a product like C4 Energy Drink could be created through high heat or chemicals, deviating from consumers' perception of what is genuinely natural. Moreover, some natural flavors may originate from ingredients that are unsafe for consumption in their natural form, such as certain essential oils or chemical extracts.
While regulatory agencies like the FDA generally consider natural flavors safe, individuals may still experience adverse reactions or allergies to these ingredients. To prioritize their well-being, consumers should thoroughly understand the contents of what they consume and carefully scrutinize labels and ingredient lists before purchasing or consuming products containing natural flavors. The presence of natural flavors in products like C4 Energy Drink underscores the necessity for increased transparency and accountability in the food and beverage industry. Consumers have the right to know precisely what they are consuming, and companies should be held to higher standards regarding the quality and safety of their products.
C4 Energy Drink contains Cyanocobalamin (vitamin B-12), a synthetic form of the essential vitamin vital for various bodily functions. However, it's crucial to acknowledge that solely relying on synthetic vitamins may not provide the same advantages as obtaining them from whole foods. While both synthetic and naturally derived vitamins are generally equally bioavailable to humans, opting for vitamins from whole foods is preferable due to the concurrent intake of numerous other macro- and micronutrients.
When vitamins are acquired from whole foods, they come in synergy with a diverse range of other vital nutrients. This combination works harmoniously to support overall health, ensuring proper absorption and utilization of the vitamins themselves. By consuming whole foods, you gain access to a comprehensive array of macro- and micronutrients that contribute to your overall well-being.
The recommended approach is always to prioritize a balanced diet consisting of whole, unprocessed foods to naturally obtain essential vitamins and minerals. This method guarantees not only the intake of specific vitamins but also the synergistic benefits of the other nutrients present in whole foods. By embracing a diverse range of whole foods, you support your body with a complete nutritional profile that fosters optimal health.
Potassium Sorbate, an ingredient found in C4, is a common food preservative used in processed food to inhibit the growth of mold, yeast, and bacteria in various food products. While it is considered safe for consumption by regulatory agencies like the U.S. Food and Drug Administration (FDA) and the European Food Safety Authority (EFSA), some individuals may experience side effects or adverse reactions when consuming foods containing this additive.
The effects of Potassium Sorbate on immunity and DNA have been a subject of interest and concern among researchers and health experts. While Potassium Sorbate is generally recognized as safe when used in approved levels as a food preservative, some studies have explored its potential impact on immune function and DNA. Regarding immunity, there is limited research on direct effects. However, some studies have suggested that excessive intake of food preservatives, including Potassium Sorbate, might have negative implications for the immune system.
High levels of food preservatives in the diet could potentially cause chronic low-grade inflammation, which might weaken the immune response over time. Although more research is needed to fully understand the impact on immunity, it's essential to be mindful of overall dietary habits and not rely solely on preserved foods. Regarding DNA, in vitro studies have shown that Potassium Sorbate can induce genotoxic effects in certain cell types. Genotoxicity refers to substances that have the potential to cause damage to DNA, potentially leading to mutations or cellular abnormalities. However, these findings are often observed at concentrations significantly higher than those found in standard food applications. It is essential to consider that the body's natural defense mechanisms and metabolic processes may help mitigate any potential harmful effects.
If you seek a healthful substitute for C4 Energy Drink, filtered water emerges as an excellent option. Not only does water efficiently hydrate your body, promoting alertness and focus, but it also serves as a potent cleanser by eliminating contaminants from your drinking water. Opting for filtered water ensures freedom from harmful chemicals, pollutants, and toxins often present in unfiltered tap water.
Moreover, its pure, refreshing taste quenches your thirst without the necessity for artificial sweeteners or natural flavors, offering a clean and satisfying experience. Embracing filtered water as your beverage choice supports overall well-being and encourages a healthy hydration routine. Choosing a filtered water bottle proves to be a prudent choice for both your well-being and your wallet. Each time you refill it for free at the tap, you save a few dollars that would otherwise be spent on energy drinks.
In addition to filtered water, there are several other healthy alternatives to energy drinks for adults:
Permitting children to consume energy drinks containing caffeine presents substantial health risks. Caffeine, being a stimulant, can cause increased heart rate, elevated blood pressure, and heightened anxiety, particularly in developing children. Furthermore, energy drinks often harbor excessive sugar levels and other ingredients that can lead to weight gain and dental issues among children.
Moreover, caffeine has the potential to disrupt a child's sleep, adversely affecting their cognitive and emotional development. Hence, it becomes crucial for parents to carefully regulate their child's caffeine intake and restrict their consumption of energy drinks to protect their overall health and well-being.
Cellucor C4 Original Energy Drink Ingredients: Carbonated Water, Carnosyn Beta-Alanine, L-Citrulline, Malic Acid, Betapower Betaine Anhydrous, Citric Acid, Potassium Sorbate (Preservative), Caffeine Anhydrous, Sucralose, Natural Flavors, Acesulfame Potassium, Niacinamide, N-Acetyl-L-Tyrosine, Cyanocobalamin (Vitamin B12).
Sources:
Energy Drinks May Do More Harm Than Good Says Researchers
Health Effects and Public Health Concerns of Energy Drink Consumption in the United States
Sports Drinks and Energy Drinks for Children and Adolescents: Are They Appropriate?
STIMULANT-CONTAINING ENERGY DRINKS What You Need to Know
Is 'Natural Flavor' Healthier Than 'Artificial Flavor'?
Are ‘Natural Flavors’ Really Natural?
The artificial sweetener acesulfame potassium affects the gut microbiome and body weight gain
Artificial Sweeteners and Cancer
C4 ENERGY is a trademark of Woodbolt Distribution, LLC.
You won't believe what was found in Roseville's tap water! |
Where does Roseville's water come from? Roseville's water supply primarily comes from Folsom Lake with a long-term contract with the U.S. Bureau of Reclamation. The Bureau allocates water each spring based on factors like precipitation and snowpack. During drought years, the allocation may be reduced. To ensure a backup water supply, Roseville has additional contracts with Placer County Water Agency and San Juan Water District. Roseville also utilizes groundwater wells as needed, along with Aquifer Storage Recovery technology.
This technology treats and stores surface water underground in the aquifer for future use, providing a reliable water source during dry periods. The long-term goal is to have up to 12 wells injecting 10,000 acre-feet of water per year. Once fully implemented, the Aquifer Storage Recovery program will help maintain water system reliability, even during wet or normal years. In drought situations, the wells will be employed to ensure a reliable water supply. This program allows Roseville to prepare for the future by saving water during times of abundance and using it during drought conditions, like having a "water savings account" for non-rainy days. Is Roseville's water safe to drink? Does Roseville put fluoride in the water?
Source: City of Roseville, CA
Contaminants Found in Roseville's Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing from this utility from PFAS. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS . What are the risks of drinking tap water with PFAS ? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Hayward's tap water! |
Where does Hayward's water come from? The City of Hayward sources its entire water supply from the San Francisco Public Utilities Commission (SFPUC). Approximately 85% of this water originates from the Hetch Hetchy watershed, nestled within the stunning Yosemite National Park. The pristine waters of Hetch Hetchy provide a significant portion of Hayward's water needs. The remaining 15% of the city's water supply is derived from the Alameda watershed, situated in the scenic East Bay region. This water is carefully stored in the Calaveras and San Antonio Reservoirs, ensuring a reliable and steady supply for the residents of Hayward. Is Hayward's water safe to drink? Does Hayward put fluoride in the water?
Source: City of Hayward, CA
Contaminants Found in Hayward's Water Supply
(Detected above health guidelines*)
Haloacetic acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing from this utility from PFAS. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS . What are the risks of drinking tap water with PFAS ? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
You won't believe what was found in Salinas' tap water! |
Where does Salinas get its water from? Salinas ensures a dependable, high-quality water supply for its customers through a well-coordinated system. This system comprises 31 wells that produce groundwater, which is then distributed using four storage tanks, 14 booster pumps, and an extensive network of 300 miles of pipeline. The city of Salinas takes a proactive approach to maintain and upgrade these facilities, ensuring their continued efficiency and reliability. Is Salinas' water safe to drink? Does Salinas put fluoride in the water?
Source: City of Salinas, CA
Contaminants Found in Salinas' Water Supply
(Detected above health guidelines*)
Arsenic
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Arsenic occurs naturally in soil and bedrock in parts of the United States. Commercial activities that could have left arsenic in our soil and water include, apple orchard spraying, coal ash disposal, use of pressure treated wood. Arsenic has no smell, taste, or color when dissolved in water, even in high concentrations, so only laboratory analysis can detect its presence and concentration. What are the risks of drinking tap water with arsenic? Cancer. Chronic exposure to arsenic is also associated with an increased risk of skin, bladder, and lung cancer. There is also evidence that long-term exposure to arsenic can increase risks for kidney and prostate cancer. Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Haloacetic acids (HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated Chemicals
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals including GenX, PFBS, PFHxS, PFBA, PFOS, PFPA, PFHxA, PFHpA, PFOA, & PFDA, that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFAS are very stable, slow to degrade in the environment. PFAS are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFAS are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFAS. What are the risks of drinking tap water with PFAS ? Endocrine Disruption, Reproductive & Child Development Issues. PFAS are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFAS may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Tetrachloroethylene (Perchloroethylene)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Tetrachloroethylene (PCE) is a colorless organic liquid with a mild, chloroform-like odor. Its greatest use is in the textile industry, and as a component of aerosol dry-cleaning products. The maximum contaminant level for Tetrachloroethylene has been set at zero because EPA believes there is no safe level of this contaminant. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. What are the risks of drinking tap water with Tetrachloroethylene? Liver Issues & Cancer. People who drink water containing tetrachloroethylene in excess of the Maximum Contaminant Level over many years could have problems with their liver and may have an increased risk of getting cancer. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry. Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.
Cirkul Side Effects
Is Cirkul Bad For You: In the quest for healthier alternatives to sugary beverages, many people turn to flavored water options. Cirkul Water Bottle, a popular brand in this category, offers customizable flavors with the added benefit of hydration. However, a particular ingredient in Cirkul has raised concerns among health-conscious individuals: sucralose. We will take a closer look at the ingredient list in Cirkul's flavor packs to show you the trade offs of zero sugar vs artificial sweeteners.
Understanding Sucralose:
Sucralose, also known as Splenda, is an artificial sweetener that is around 600 times sweeter than sugar. It gained popularity as a zero-calorie sugar substitute due to its minimal effect on blood sugar levels. Sucralose is a highly processed compound created by modifying the chemical structure of sucrose (table sugar) to make it non-caloric.
Sucralose has been linked to several health concerns, making it a topic of ongoing debate. One of the primary concerns is its potential to disrupt gut bacteria, leading to imbalances in gut health and digestion. Studies suggest that artificial sweeteners, including sucralose, can negatively impact gut microbiota composition, potentially affecting overall well-being.
Furthermore, the consumption of artificial sweeteners has been associated with an increased appetite and weight gain. Artificially sweetened drinks may trigger the body's insulin response, potentially leading to insulin resistance over time. This resistance can increase the risk of conditions such as type 2 diabetes and metabolic syndrome. Additionally, the consumption of artificially sweetened beverages can create a preference for excessively sweet flavors, which may reduce the inclination for healthier, naturally sweetened alternatives and result in an imbalanced diet. Consider this: When has anything artificial ever truly benefited your well-being?
The use of "natural flavors" in Cirkul has sparked concerns, highlighting the necessity for awareness regarding potential side effects associated with this vague and potentially misleading term. While the term implies that the flavors are derived from natural sources, it lacks specific details about the ingredients and manufacturing processes involved. The FDA's definition of natural flavors allows for the use of synthetic processes and chemicals during production, casting doubt on the true naturalness of these flavors. This lack of transparency raises concerns as it can mask the use of artificial or chemically modified ingredients. For instance, a "natural flavor" in a product like Cirkul could be created through high heat or chemicals, straying from consumers' perception of what is genuinely natural.
Moreover, some natural flavors may originate from ingredients that are unsafe for consumption in their natural form, such as certain essential oils or chemical extracts. While regulatory agencies like the FDA generally consider natural flavors safe, individuals may still experience adverse reactions or allergies to these ingredients. To prioritize their well-being, consumers should diligently understand the contents of what they consume and scrutinize labels and ingredient lists before purchasing or consuming products containing natural flavors. The presence of natural flavors in products like Cirkul underscores the need for enhanced transparency and accountability in the food and beverage industry. Consumers have the right to know precisely what they are consuming, and companies should be held to higher standards regarding the quality and safety of their products.
Cirkul Ingredients: Cirkul cartridges incorporate synthetic vitamins like Pyridoxine Hydrochloride (vitamin B-6) and Cyanocobalamin (vitamin B-12), which are essential for supporting various bodily functions. However, it is important to recognize that relying solely on synthetic forms of these vitamins may not offer the same benefits as obtaining them from whole foods. While synthetic and naturally derived vitamins are generally equally bioavailable to humans, consuming vitamins through whole foods is preferable due to the simultaneous intake of numerous other macro- and micronutrients.
When vitamins are obtained from whole foods, they come bundled with a diverse range of other essential nutrients. These nutrients work synergistically to support optimal health, ensuring proper absorption and utilization of the vitamins themselves. By consuming whole foods, you benefit from a comprehensive array of macro- and micronutrients that contribute to overall well-being.
It is always recommended to prioritize a balanced diet consisting of whole, unprocessed foods to naturally obtain essential vitamins and minerals. This approach ensures not only the intake of specific vitamins but also the synergistic benefits of the other nutrients present in whole foods. By embracing a diverse range of whole foods, you support your body with a comprehensive nutritional profile that fosters optimal health.
Citric acid, a naturally occurring compound found in various citrus fruits, is renowned for its numerous health benefits. However, it is crucial to distinguish between the natural form of citric acid and its synthetic counterpart, Manufactured Citric Acid (MCA). While the natural form offers health advantages, MCA is commonly utilized as a flavoring and preservative in many processed foods and beverages, including popular sports drinks like Cirkul Water.
Regrettably, the synthetic version of citric acid may not provide the same health benefits as its natural counterpart. In fact, some individuals have reported experiencing gastric distress and digestive issues after consuming products containing MCA. This raises concerns about the true benefits of chemical food preservatives when it comes to your well-being. The natural form of citric acid, derived from citrus fruits, offers various health benefits.
It acts as an antioxidant, aids in digestion, and supports the body's natural detoxification processes. Consuming citrus fruits or products containing naturally occurring citric acid can contribute to these positive effects. On the other hand, MCA is a synthetic version of citric acid produced through chemical processes. It is widely used as a flavoring and preservative in processed foods and beverages.
Opting for whole foods allows you to benefit from the inherent nutritional value and avoid potential adverse effects associated with synthetic additives. While regulatory authorities establish guidelines for the safe use of food additives, it is prudent to be mindful of your body's reactions and preferences. Listening to your body, prioritizing whole foods, and seeking natural alternatives whenever possible can contribute to your overall well-being.
Cirkul contains Sodium Benzoate, a preservative commonly used in processed foods and beverages to prolong shelf life. However, it is important to be aware of the potential risks associated with this additive. Preliminary studies have examined various possible effects of sodium benzoate, including inflammation, attention deficit hyperactivity disorder (ADHD), appetite control, oxidative stress, and allergies. Animal studies suggest that sodium benzoate can activate inflammatory pathways in the body, potentially promoting cancer development. Additionally, higher intake of sodium benzoate has been linked to ADHD in college students and children.
In test-tube studies, exposure to sodium benzoate decreased the release of leptin, an appetite-suppressing hormone. Furthermore, higher concentrations of sodium benzoate may contribute to oxidative stress and the creation of free radicals, which can damage cells and increase the risk of chronic diseases. Allergic reactions, such as itching and swelling, have been reported in a small percentage of individuals who consume foods or use personal care products containing sodium benzoate. Considering these potential risks, it is important to exercise caution and make informed decisions when consuming products that contain Sodium Benzoate, such as Cirkul. Again, ask yourself: When has a food preservative ever truly benefited your well-being?
The U.S. Food and Drug Administration (FDA) carries the primary responsibility of protecting the American population from potentially dangerous drugs and synthetic food additives. However, it is crucial to recognize that relying solely on FDA approval does not guarantee safety. The FDA has gotten it wrong too many times to count. Critics argue that the pharmaceutical and food industries heavily fund FDA evaluations of new drugs and food additives, giving rise to a potential conflict of interest.
This has led to concerns that the agency prioritizes expediting drug and synthetic food additive approvals to please the pharmaceutical and food giants, rather than prioritizing the well-being of the public. Moreover, the FDA faces limitations in terms of authority and financial resources, which can hinder its ability to effectively ensure public protection. These shortcomings may impact the thoroughness of evaluations and the capacity to conduct extensive research on potential risks and long-term effects. As a result, there are calls for increased transparency, independent evaluations, and stricter regulations to address these concerns and enhance public trust in the FDA's ability to safeguard public health. While the FDA plays a vital role in ensuring the safety of drugs and synthetic food additives, it is important to remain vigilant, advocate for greater accountability, and encourage ongoing discussions to improve the regulatory processes and protect the public's best interests.
Cirkul Ingredients: FILTERED WATER, NATURAL FLAVORS, CITRIC ACID, LACTIC ACID, SUCRALOSE, POTASSIUM BICARBONATE, PHOSPHORIC ACID, NIACINAMIDE, SODIUM BENZOATE (TO PRESERVE FRESHNESS), POTASSIUM SORBATE (TO PRESERVE FRESHNESS), CALCIUM PANTOTHENATE, PYRIDOXINE HYDROCHLORIDE, CYANOCOBALAMIN (VITAMIN B12).
Sources:
Sports Drinks and Energy Drinks for Children and Adolescents: Are They Appropriate?
Looking Beyond The Marketing Claims Of New Beverages
Is 'Natural Flavor' Healthier Than 'Artificial Flavor'?
Are ‘Natural Flavors’ Really Natural?
Sodium benzoate-induced repeated episodes of acute urticaria/angio-oedema:
Natural vitamins may be superior to synthetic ones
CIRKUL is a trademark of Cirkul, Inc.
You won't believe what was found in Montgomery County's tap water! |
Where does Montgomery County get its water from? Montgomery County obtains its fresh water from two primary sources: surface water, including rivers, streams, creeks, and lakes, as well as groundwater found in subterranean aquifers. On average, groundwater withdrawals account for 23% of the county's total water supply, while surface water withdrawals contribute 77%. At the household level, residents receive potable water either from individual wells or water systems. The county is rich in water resources within the Delaware River Basin, encompassing approximately 1031 miles of streams and rivers, connecting over 4413 acres of lakes and ponds, and 2633 acres of wetland areas.
These resources serve as the primary supply for drinking water treatment plants. Around 13.3 million people rely on water from the Delaware River Basin for their daily needs, with Montgomery County's population representing roughly 10% of the total Basin population. Looking ahead, Montgomery County, along with Chester and Monroe Counties in Pennsylvania, as well as Kent and Sussex Counties in Delaware, is expected to experience significant growth trends. However, despite increasing populations, the public water supply in the Delaware River Basin has shown neutral trends. This can be attributed to effective conservation practices that have mitigated the impact of rising water demand. The total withdrawal of ground and surface water from the Delaware River Basin amounts to 6.6 billion gallons per day.
Out of this, approximately 1.0 billion gallons are permanently removed from the Basin and exported to areas of New Jersey or New York City, rather than being directly returned. The public water supply sectors are considered to have low consumptive use, accounting for around 10% of the water used in homes and cities. The majority of water is returned to the hydrologic system through sewer or septic systems. Does Montgomery County put fluoride in the water? Yes. Is Montgomery County's water safe to drink?
Source: Montgomery County
Contaminants Found in Montgomery County's Water Supply
(Detected above health guidelines*)
Bromodichloromethane
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromodichloromethane is one of the total trihalomethanes (TTHMs) that formed when disinfectants, such as chlorine, are used to treat tap water. What are the risks of drinking tap water with Bromodichloromethane? Cancer, Kidney & Liver Damage. Bromodichloromethane and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. In recent animal studies, the main effect of eating or drinking large amounts of Bromodichloromethane is injury to the liver and kidneys. Find out more about this contaminant and how to remove it here.
Bromoform
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Bromoform (also known as tribromomethane) is a possible contaminant of drinking water that has been chlorinated to kill bacteria and viruses that could cause serious waterborne infectious diseases. Bromoform may form when chlorine reacts with other naturally occurring substances in water, such as decomposing plant material. What are the risks of drinking tap water with bromoform? Liver & Kidney Damage. Some studies in animals indicate that exposure to high doses of bromoform or dibromochloromethane may also lead to liver and kidney injury within a short period of time. Other animal studies suggest that typical bromoform or dibromochloromethane exposures do not pose a high risk of affecting the chance of becoming pregnant or harming an unborn baby. However, studies in animals indicate that long-term intake of either bromoform or dibromochloromethane can cause liver and kidney cancer. Although cancer in humans cannot be definitely attributed to these chemicals, it is an effect of special concern, since many people are exposed to low levels of bromoform and dibromochloromethane in chlorinated drinking water. Find out more about this contaminant and how to remove it here.
Chromium (hexavalent)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. The movie Erin Brockovich alerted the public to the great suffering the little town of Hinkley, California experienced due to hexavalent chromium in their drinking water. Today, Hinkley is little more than a ghost town thanks to continued water contamination, health concerns, and plummeting property values. Chromium (hexavalent) is a carcinogen that commonly contaminates American drinking water. Chromium (hexavalent) in drinking water may be due to industrial pollution or natural occurrences in mineral deposits and groundwater. What are the risks of drinking tap water with Chromium (hexavalent)? Cancer. A 2008 study by the National Toxicology Program, part of the National Institutes of Health, found that chromium-6 in drinking water caused cancer in laboratory rats and mice. That study and other research led scientists at the California Office of Environmental Health Hazard Assessment to conclude that chromium-6 can cause cancer in people. Find out more about this contaminant and how to remove it here.
Chloroform
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Chloroform, is a total trihalomethanes (TTHMs) which is formed when disinfectants are used to treat tap water. Most of the chloroform found in the environment comes from industry. Chloroform enters the environment from chemical companies and paper mills, It is also found in waste water from sewage treatment plants and drinking water to which chlorine has been added. Chlorine is added to most drinking water and many waste waters to destroy bacteria. Small amounts of chloroform are formed as an unwanted product during the process of adding chlorine to water. What are the risks of drinking tap water with chloroform? Cancer, central nervous system (brain), liver, and kidneys. Cancer of the liver and kidneys developed in rats and mice that ate food or drank water that had large amounts of chloroform in it for a long time. We do not know whether liver and kidney cancer would develop in people after long-term exposure to chloroform in drinking water. Based on animal studies, the Department of Health and Human Services has determined that chloroform may reasonably be anticipated to be a carcinogen (a substance that causes cancer). Find out more about this contaminant and how to remove it here.
Dibromoacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromoacetic acid, one of the group of five haloacetic acids regulated by the United States Government, is formed when chlorine or other disinfectants are used to treat drinking water. What are the risks of drinking tap water with Dibromoacetic acid? Haloacetic acids and other disinfection byproducts increase the risk of cancer and may cause problems during pregnancy. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Dibromochloromethane
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dibromochloromethane, one of the total trihalomethanes (TTHMs), was used in the past to make other chemicals such as fire extinguisher fluids, spray can propellants, refrigerator fluid, and pesticides. It is now only used on a small scale in laboratories. In the environment, dibromochloromethane is not found as a pure liquid, but instead, it is found either dissolved in water or evaporated into the air as a gas. What are the risks of drinking tap water with Dibromochloromethane? Liver & Kidney Damage. Animal studies indicate that long-term intake of dibromochloromethane can cause liver and kidney cancer. Find out more about this contaminant and how to remove it here.
Dichloroacetic Acid
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Dichloroacetic Acid is one of the five haloacetic acids and a member of the chloroacetic acids family. It is an essential chemical compound in medical research, especially in cancer treatment. This type of chloroacetic acid is a trace product of the process of chlorination of drinking water. Dichloroacetic Acid can get into water systems through improper disposal of waste from pharmaceutical factories. What are the risks of drinking tap water with Dichloroacetic acid? Cancer, Reproductive Issues, Child Development. Dichloroacetic Acid in drinking water may cause health problems during pregnancy, liver and kidney damage, reproductive difficulties, eyes and nerve problems, and an increased risk of getting cancer. Dichloroacetic Acid is common in municipal water since it is a trace product of the chlorination of drinking water. Find out more about this contaminant and how to remove it here.
Haloacetic Acids (HAA5 & HAA9)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Haloacetic acids (HAAs) are a type of chlorination disinfection by-product that are formed when the chlorine used to disinfect drinking water reacts with naturally occurring organic matter in water. Haloacetic acids are a relatively new disinfection by-product of modern water treatment methods. What are the risks of drinking tap water with Haloacetic acids (HAA5 & HAA9)? Cancer. Some people who drink water containing Haloacetic Acids at higher than normal levels over many years may have a higher risk of getting cancer. Find out more about this contaminant and how to remove it here.
Microplastics
There is no available testing for microplastics from this water utility. Microplastics are ubiquitous in the environment and have been detected in a broad range of concentrations in marine water, wastewater, fresh water, food, air and drinking-water, both bottled and tap water. A recent study by Orb analyzed 159 water samples, sourced from both tap water and bottled water in 14 countries, and found that over 80% of all samples contained tiny plastic particles, with an average of 4.34 plastic particles per liter of water. Even more surprising, 94% of water samples from the United States contained microplastics, which topped the list. Find out more about this contaminant and how to remove it here.
Nitrate
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Nitrate is one of the most common groundwater contaminants in rural areas. Nitrate gets into water from fertilizer runoff, manure from large animal feeding operations and wastewater treatment plant effluent. It is regulated in drinking water primarily because excess levels can cause methemoglobinemia, or "blue baby" disease. What are the risks of drinking tap water with nitrate? Cancer & Child Development. Scientists at the National Cancer Institute found a greater incidence of bladder cancer among people who drank water with nitrate concentrations above half the federal limit. Some studies also report that nitrate contamination of tap water can increase the risk of developmental defects for children born to mothers who drank nitrate-contaminated water during pregnancy. Find out more about this contaminant and how to remove it here.
Perfluorinated PFAS (Forever Chemical)
There is no available testing for PFAS from this water utility. You can’t see or taste them, but there are more than 12,000 chemicals that could be lurking in your drinking water, causing everything from birth defects to cancer. Broadly known as PFAS, short for Per- and Polyfluoroalkyl Substances, these are dangerous man-made toxins that never break down, build up in our blood and organs, and could damage the health of millions. They come from persistent manufactured chemicals used in industrial applications and consumer products (ex: Teflon, Gor-Tex). By some estimates, 200 million Americans nationwide are likely drinking water polluted with these chemicals, and PFAS has been detected in the blood of 98% of our population. PFCs are very stable, slow to degrade in the environment. PFCs are highly soluble in aquatic environments and can dissolve into water from various sources. Due to their chemical and biological stability, PFCs are difficult to degrade via biodegradation, photolysis, or hydrolysis. They are most often found near industry discharge points where they have been used. Currently there are no enforceable federal drinking water limits for PFCs. What are the risks of drinking tap water with PFCs? Endocrine Disruption, Reproductive & Child Development Issues. PFCs are considered toxic and can lead to potential adverse health effects in humans and wildlife. Animal studies show that increased exposure to high concentrations of PFCs may cause abnormal endocrine activity, and reproductive and developmental problems. Find out more about this contaminant and how to remove it here.
Radiological Contaminants
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Radiological contamination of water is due to the presence of radionuclides, which are defined as atoms with unstable nuclei. In an effort to become more stable, a radionuclide emits energy in the form of rays or high-speed particles. This is called ionizing radiation because it displaces electrons, which creates ions. The three major types of ionizing radiation are alpha particles, beta particles and gamma rays. Radiological contaminants leach into water from certain minerals and from mining. What are the risks of drinking tap water with Radiological contaminants? Cancer. Over and over again, regardless of the source, long-term exposure or brief exposure in high doses, leads to cancer. Cancers of the bone, liver, stomach, lungs, skin, kidneys, thyroid gland, and most other tissues are common, and medical science is still discovering other maladies that may be cancer-related. Find out more about this contaminant and how to remove it here.
Total Trihalomethanes (TTHMs)
3rd party independent testing found that this water utility exceeds health guidelines for this drinking water contaminant. Total Trihalomethanes (TTHMs) are the result of a reaction between the chlorine used for disinfecting tap water and natural organic matter in the water. At elevated levels, TTHMs have been associated with negative health effects such as cancer and adverse reproductive outcomes. Now a study by government and academic researchers adds to previous evidence that dermal absorption and inhalation of TTHMs associated with everyday tap water use can result in significantly higher blood TTHM concentrations than simply drinking the water does. What are the risks of drinking tap water with Total Trihalomethanes (TTHMs)? Cancer. Studies from around the world, including the United States & Europe have found that drinking tap water that carries Total Trihalomethanes increases the risk of developing cancer. In animal studies, all trihalomethanes cause liver, kidney and intestinal tumors. Find out more about this contaminant and how to remove it here.
Trichloroacetic Acid
3rd party independent testing found that this utility exceeds health guidelines for this drinking water contaminant. Trichloroacetic acid will get into your drinking water when naturally-occurring organic and inorganic compounds found in the water reacts with chlorine or other disinfectants used to purify drinking water. Trichloroacetic acid is one of the group of five haloacetic acids regulated by federal standards. What are the risks of drinking tap water with Trichloroacetic acid? Cancer & Pregnancy Issues. According to the Environmental Protection Agency (EPA), individuals exposed to the compound in excess of the "Maximum Contaminant Levels" during the duration of several years are prone to an increased risk of getting cancer. Long-term exposure to the chemical will increase your chances of acquiring a tumor. Oral exposure or the drinking of contaminated water may cause problems during pregnancy. It can also cause developmental issues to the fetus. Find out more about this contaminant and how to remove it here.
Fluoride
There is a drinking water standard of 4 ppm for fluoride but there is no health guideline for this contaminant and much is unknown about the effects of fluoride long term on the human body. This water utility did not exceed the drinking water standard for fluoride but fluoride was found in their water. Fluoride occurs naturally in surface and groundwater and is also added to drinking water by many water systems. The fluoride that is added to water is not the naturally occurring kind, the main chemicals used to fluoridate drinking water are known as “silicofluorides” (i.e., hydrofluorosilicic acid and sodium fluorosilicate). Silicofluorides are not pharmaceutical-grade fluoride products; they are unprocessed industrial by-products of the phosphate fertilizer industry (Gross!). Since these silicofluorides undergo no purification procedures, they can contain elevated levels of arsenic — more so than any other water treatment chemical. In addition, recent research suggests that the addition of silicofluorides to water is a risk factor for elevated lead exposure, particularly among residents who live in homes with old pipes. What are the risks of drinking tap water with Fluoride? Unknown. A growing body of evidence reasonably indicates that fluoridated water, in addition to other sources of daily fluoride exposure, can cause or contribute to a range of serious effects, including neurological issues, arthritis, damage to the developing brain, reduced thyroid function, and possibly osteosarcoma (bone cancer) in adolescent males. Animal studies indicate a moderate level of evidence that support adverse effects on learning and memory in animals exposed to fluoride in the diet or drinking water. Find out more about this contaminant and how to remove it here.
What are the best types of filters to remove these contaminants?
Two dominant carbon filter choices are solid activated carbon blocks and granular activated carbon filters (GAC). Unfortunately, our tap water can contain tiny microscopic particles that impact your long term health. These tiny particles can also change the taste and smell of the water as well as contain microbiological organisms that can actually make people sick shortly after drinking. Fortunately, there are water filtration products that remove many of the impurities from water. These filters often use activated carbon; activated carbon is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption of contaminants or chemical reactions with the contaminants causing them to adhere to the carbon. At Epic Water Filters we use solid activated carbon blocks for our filters which we believe is the superior way to filter contaminants out of your water. Below we explain why we chose to use solid activated carbon block filters instead of a granular activated carbon filter.
Filter Design
Granular activated carbon filters (GAC) have loose granules of carbon that look like black grains of sand. These black grains of carbon, are dumped into a container and the water is forced to travel through the container to reach the other side, passing by all of the grains of carbon. Solid block carbon filters, on the other hand, are blocks of compressed activated carbon that are formed with the combination of heat and pressure. These filters force the water to try to find a way through the solid wall and thousands of layers of carbon until they reach a channel which leads the water out of the filter. Both filters are made from carbon that’s ground into small particulate sizes. Solid activated carbon blocks are ground even further into a fine mesh 7 to 19 times smaller than the (GAC).
Flow Channels & Contact Time
As water continually passes through (GAC) filters, flow channels begin to develop that allow the water to flow around the carbon. Flow channels also develop between the granules of carbon themselves, leading to less effective filtration as there is less and less contact time between the water and the carbon. Solid activated carbon blocks, on the other hand, are much tighter and won’t even let microbial cysts like giardia and cryptosporidium (7 to 10 Microns in size) pass through the filter without getting caught in the millions of layers of carbon. Because solid activated carbon blocks are compressed under pressure, they have millions and millions of different sized pores that cause the water to take a long slow path to get through the filter, increasing the contact time that the contaminated water has with the carbon looking for a way through. During this contact time is when harmful contaminants like lead, adhere to the carbon and are removed from water. This happens during a process called adsorption, the other filtration method that solid activated carbon blocks use is called depth filtration. This is where the thickness of the carbon block filter comes into play to help remove contaminants as they have to pass through these thick carbon walls. The downside of solid activated carbon blocks is that they are often so tight that they can often get plugged up with organic and non-organic matter, forcing owners to replace them on a more regular basis. This is why when you are using a Brita water pitcher filter (GAC), the filter will keep going and going long after it has stopped removing any water contaminants. A good 5 micron sediment filter in front of your carbon block filter is a good way to extend the life of the solid activated carbon blocks and make it more efficient.
Solid Activated Carbon Blocks vs. Granulated Activated Carbon
The (GAC) filters are cheap and simple to manufacture, which is why most water filtration companies choose this method for manufacturing. Solid activated carbon blocks on the other hand take longer to manufacture and are more expensive to make but with this expense you will get superior contaminant removal because the water must take a more strenuous path through millions of layers of compressed carbon before it reaches your drinking glass.
Better Filtration
The solid activated carbon blocks, like the one used in the Epic Smart Shield & Epic Water Filter pitchers, remove more contaminants than the (GAC) filters due to the larger surface area and the thickness of the carbon walls, this is why Epic Water Filters has standardized on the solid activated carbon block design for our water pitchers and our under the sink water filter. (GAC) filters do not do enough to reduce contaminants, this is why they are not used when there is a chance of bacteria or cysts in the water. They are truly not "Epic'' so that is why we have passed on the (GAC) filter design and let our competitors use these loose packed carbon filters for sub-par contaminant removal. With solid activated carbon blocks the contaminants are in contact with more carbon for a longer period and therefore have more time to remove stubborn contaminants like lead (Epic Pure Pitcher 99.9% removal), fluoride (Epic Pure Pitcher 97.8% removal), and PFCs (Epic Pure Pitcher 99.8% removal). Carbon blocks can remove chlorine more effectively, eliminate undesirable odors, and removal of endocrine disruptors like volatile organic compounds. (GAC) filters, on the other hand, have small particles that move around under the pressure of water so they do not have as much uniformity throughout and therefore less contact time with the water and less contaminant removal.
What about Whole House or Point of Entry Filters?
Whole house filters (as known as Point of Entry) are good for certain things, but you should understand what they are good for and what they are not good for before investing in one. Because of the high flow rate needed at the water’s point of entry into your home, whole home filters do not have much contact time with the water. This is why they are usually large in size, to increase the contact time between water and the filter media. Whole home filters are generally set up in stages with some type of sediment filter first, followed by a large tank full of Granular Activated Carbon (GAC). There can be multiple stages in different systems but this doesn’t necessarily increase the removal capacity. It does, however, increase the price of the system. The water passes through the sediment filter first, which catches all of the dirt and debris and then runs through the large GAC tank to knock down chlorine. If you dig into the performance data sheet of some of these systems, you will see that the contaminants removed or reduced are not very impressive. This is why if you look at Whole House Water Filters vs Under Sink Water Filters, there is no comparison for contaminant removal. If you have the budget, whole home water filters or point of entry should just be your first line of defense in water filtration. It should never be the only water filter in your house. Anyone that tells you otherwise is probably trying to sell you a “Whole Home Filter.”
What about Reverse Osmosis?
RO filter systems do remove a lot of contaminants. There are 5 major downsides to a Reverse Osmosis System. The first major downside to RO systems is they are expensive. Most RO Systems cost 2x to 3x more than a carbon block system and usually have 4 to 6 small filters that need to be replaced each year. This means both the upfront cost and the yearly maintenance of the RO system will be higher. The second downside is that Reverse Osmosis wastes a lot of water. Each RO system wastes an average of 5 to 6 gallons for every 1 gallon of drinking water it produces. The third downside (and biggest downside of Reverse Osmosis in our minds) is that RO water filters remove trace minerals and other beneficial substances found in water that your body needs like calcium, manganese, iron and other important nutrients. This is why RO water is considered by many in the natural health world to be dead water and it is said that demineralized water is detrimental to general health due to vitamin and mineral depletion.
The fourth major downside of RO systems is that after your water passes through the filter process, it sits inside of a steel drum that is lined with a butyl rubber bladder which is made from a polyisobutylene base. The filtered water sits in this butyl rubber bladder until it is used. All rubber and plastic bladders leach into water at some level. The fifth and last major downside regarding RO Systems is that because the RO filtration process strips out all of the good nutrients in water, some RO companies think they can add a "Remineralization Cartridge" at the end of the filtration process to replace all of the good stuff that mother nature originally had in the water (Yikes!). Also, most of these "Remineralization Cartridges" that we have seen in the marketplace come from China. Generally we have found that when scientists or business people try to mimic mother nature, they miss badly. Solid carbon block filters do not have these issues.
A Different Way
Are you ready to change the water you drink? Epic Water Filters has a wide range of American made water filtration products to fit your needs. Select the product that fits best for you and start reaping the health benefits of filtered water.
Have questions about your water? Great! We love to talk about all things water related. Call us @ 720-600-0371 M-F 9am to 5pm MST or email our support team your questions support@epicwaterfilters.com and we will get back to you as soon as possible.
"After purchasing the drinking bottle, I have used it every day and have told countless others about how excellent it is. The peace of mind that my filtered water gives me is so refreshing. I have now bought the jug filter for the kitchen and another for my mother. I will never have to use unfiltered water again. Thank you Epic Water Filters. You have made me very happy." - Andrea
If you are not 100% satisfied with any product purchased from Epic Water Filters, you may return the merchandise to us for a full, 100% refund. We are committed to stronger filters, safer water, less risk.
*3rd party review of tap water provided by this water utility was in compliance with federal health-based drinking water standards. Health guidelines, mentioned on this page, were established by independent scientists who reviewed the scientific evidence, federal and state legal limits for drinking water contaminants, health advisories and risk assessments, and incorporated them all into the health guidelines referenced here. Information on source water was obtained from city water quality reports and may be subject to change based on your location and zip code. Please consult the latest water quality report for your neighborhood or home address for more accurate information. It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports or Water Quality Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for by the EPA. Results of tests cited here were provided to an independent 3rd party by the state, as well as test information received from the U.S. EPA Enforcement and Compliance History database (ECHO). Water is very local so it is always recommended that you test your own tap water with a 3rd party laboratory. We have found 3rd party testing available from reputable labs between $150 to $400 but we do not give recommendations for labs. Currently we have not found a home water test kit that we would recommend and it is our opinion that TDS meters are not a reliable way to test water quality.