Analies Dyjak @ Monday, October 1, 2018 at 1:10 pm -0400
Analies Dyjak | Policy Nerd
Lead contamination in drinking water is a huge problem for municipalities with an older infrastructure. Lead contamination occurs when water comes in contact with lead pipes. This article discusses a common additive used to combat lead pipe corrosion.
What is Orthophosphate?
Orthophosphate is a common corrosion inhibitor used by water suppliers to prevent lead pipes from leaching. When orthophosphate water treatment is added to a water source, it reacts with lead to create a mineral-like crust inside of the lead pipe. This crust acts as a coating which prevents further lead corrosion. The use of orthophosphate treatment in drinking water became popularized in 2001, during the lead crisis in Washington, D.C. Lead contamination in many cities including D.C. and Flint, occurs when a city’s water becomes more corrosive, which can allow for lead from pipes to leach into the drinking water supply. When the lead problem initially occurred, cities such as Flint, Michigan, Durham and Greenville, North Carolina, and Jackson, Mississippi didn’t learn from D.C’s mistakes and all had lead outbreaks.
Does Orthophosphate Fix Lead Contamination?
It certainly can. Once the protective layer is formed, cities can find that lead concentrations in the water drop by 90%. However, Orthophosphate is somewhat of a bandaid to temporarily fix the presence of lead in drinking water. For example, if the protective layer is corroded away or otherwise disturbed (e.g. in the case of a partial service line replacement or the water’s corrosivity changes), lead can leach back into the water. Finally, not all municipalities are adding orthophosphate to drinking water because of its cost. If you have any questions regarding lead prevention in drinking water, send us an email at hello@hydroviv.com.
Analies Dyjak @ Monday, July 30, 2018 at 10:07 am -0400
**Updated July 11, 2022 to include most recent water quality data
Analies Dyjak, M.A. | Hydroviv Research Analyst
Hydroviv's Water Nerds have updated our assessment of Las Vegas drinking water to include data from the latest Consumer Confidence Report. We looked at data from the Las Vegas Valley Water District, the U.S. Environmental Protection Agency (EPA), the Environmental Working Group, and the US Geological Survey. Our Water Nerds then cross referenced these data with toxicity studies in the scientific and medical literature, as well as upcoming regulatory changes. The custom water filters that we build for our customers in Las Vegas are optimized with this research in mind.
Source Of Las Vegas's Drinking Water
90% of Las Vegas drinking water comes from Lake Mead. Lake Mead is supplied by snowmelt from the Rocky Mountains, which flows into the Colorado River. The remaining 10% comes from a groundwater aquifer under the Las Vegas Valley. This aquifer is naturally replenished by precipitation in the Spring Mountains and the Sheep Range.
What are the concerns in Las Vegas Drinking Water?
Contaminants of concern in Las Vegas’ drinking water include Lead, PFAS, Arsenic, Disinfection Byproducts, Uranium, and Chromium 6.
Lead In Las Vegas Drinking Water
Lead enters tap water through older lead service pipes and lead-containing plumbing. When corrosion control measures put in place by the municipality fail (like what happened in Flint, Michigan), lead leaches into the drinking water, and can reach dangerous levels. Homes built before 1986 are most susceptible to lead contamination. According to the 2022 report, 10% of drinking water samples analyzed for lead in Las Vegas are over 3.9 parts per billion, with samples measuring as high as 5.6 parts per billion. Though Las Vegas water quality is currently in compliance with federal regulations,the EPA, CDC, and American Academy of Pediatrics have all made clear that there is no such thing as a safe level of lead, and of course, federal regulations cannot take into account levels measured at an individual tap. Hydroviv Drinking Water filters are NSF/ANSI Standard 53 certified to remove lead from drinking water.
PFAS in Las Vegas Drinking Water
Per and Polyfluoroalkyl Substances (PFAS) are a category of emerging contaminants commonly used in firefighting foam, Teflon, non-stick surfaces, stain-resistant surfaces, and food packaging. TheAgency for Toxic Substances and Disease Registry (ATSDR) has determined thatPFAS exposure is associated with various adverse health effects, including an increased risk of cancer, lowered fertility rates, and developmental issues in infants and young children.
Testing that was done by the Environmental Working Group detected PFAS in groundwater at military bases in and near Las Vegas, including Nellis Air Force Base in Las Vegas, where groundwater on base had PFOA + PFOS levels as high as 47,400 parts per trillion (ppt), and Creech Air Force base in Clark County, NV, which had PFAS levels as high as 21,066 ppt. On April 10, 2024, the US EPA has announced drinking water standards to limit exposure to 6 types of PFAS chemicals, including 4 ppt for PFOA and PFOS.Not all water filtersare designed to remove PFAS from tap water. If you'd like to find water filters that remove PFAS from tap water, check out thisDuke/NC State PFAS study.Hydroviv filters are NSF/ANSI Standard 53 certified for PFOA/PFOS removal.
Arsenic in Las Vegas Drinking Water
Arsenic is a hazardous heavy metal that can cause cancer and other health problems. Arsenic originates in source water naturally. In the Las Vegas Valley Water District, varying amounts of arsenic were detected in the different distribution areas, ranging from 0.7 ppb to 4.0 ppb. While Las Vegas’ Arsenic levels were not in violation of EPA water quality standards, consumers should know that the U.S. EPA's standard balances toxicity against the costs of removing arsenic from drinking water. We strongly suggest that tap water with levels higher than 1 part per billion be treated to remove arsenic, especially in homes with children.
Disinfection Byproducts (DBPs) In Las Vegas Drinking Water
DBPs are a category of emerging contaminants that form when chlorine-based disinfectants (added to the water supply to protect consumers) react with naturally-occurring organic matter. EPA regulates two categories of DBPs: Total Trihalomethanes (TTHMs) and Haloacetic Acids (HAA5). The EPA has stated that DBPs have been associated with increased risk of bladder cancer, as well as kidney, liver, and central nervous system problems. Haloacetic Acid levels in Las Vegas water ranged between 35 - 45 parts per billion. Total Trihalomethane levels ranged between 68 to 82 parts per billion, which exceeds the EPA Maximum Contaminant Level of 80 parts per billion.
Uranium in Las Vegas Drinking Water
Uranium is a naturally occurring radioactive substance normally found in rocks, soil, air and water. Uranium enters water by leaching from soil and rocks, or in releases from processing plants. Uranium has demonstrated toxic effects on human kidneys leading to their inflammation and changes in urine composition. Uranium can decay into other radioactive substances, such as radium, which can cause cancer with extensive exposure over a long period of time. Uranium levels in Las Vegas water ranged from 2 to 4 parts per billion.
High Chromium 6 Levels In Las Vegas Drinking Water
Chromium 6 is a toxic metal that is not regulated by the EPA. Las Vegas tap water had Chromium 6 levels ranging from 54 parts per trillion to 850 parts per trillion. California has determined that 20 parts per trillion is the contaminant level below which there is minimal health risk. The Chromium 6 levels in the Las Vegas water system range from nearly 3 to over 40 times the level generally accepted as safe.
How Can Hydroviv Help Me?
Hydroviv is a water filtration company that uses water quality data to optimize water filters for each customer's water. The contaminants that we list above are what we consider to be major “points of emphasis” that we use to build water filters that are built specifically for Las Vegas' water, but all of our filters also include broad protection against a wide range of contaminants.
If you’re interested in learning more about water filters that have been optimized for Las Vegas tap water, or just have questions about water quality in general, feel free to visit www.hydroviv.com, reach out by email (hello@hydroviv.com) or through our live chat. We post water-related news on Twitter, Instagram, and Facebook.
Hydroviv's drinking water filters carry NSF certifications to Standard 42 (aesthetic effects--Chlorine Removal) and Standard 53 (health effects--Lead, VOCs, and PFOA/PFOS removal), and are independently tested to remove hundreds of contaminants.
Analies Dyjak @ Wednesday, August 1, 2018 at 2:56 pm -0400
Ernesto Esquivel | Water Nerd
For Hydroviv’s assessment of Columbus drinking water, we collected water quality test data from the city’s Consumer Confidence Report and the U.S. Environmental Protection Agency. We cross referenced Columbus water quality data with toxicity studies in scientific and medical literature. The water filters that we sell at Hydroviv are optimized to filter out contaminants that are found in Columbus drinking water.
Where Does Columbus Source Its Drinking Water?
Columbus sources its drinking water from the Scioto River, Big Walnut Creek, and groundwater from the Scioto River Valley. The city is serviced by three water treatment plants that each take care of a certain area of the city. The three plants are the Dublin Road treatment plant (DRWP), the Hap Cremean Water Plant (HCWP), and the Parsons Avenue Water Plant (PAWP).
Chromium 6 In Columbus Drinking Water
Chromium 6 is a highly toxic metal that is currently unregulated by the EPA. In recent years, Columbus city water has had a problem with this dangerous contaminant. Chromium 6 pollution is associated with metal processing, tannery facilities, chromate production, stainless steel welding, and pigment production. In this years water quality report, concentrations of Chromium 6 were detected as high as 0.35 parts per billion in certain groundwater sources. These levels are 17 times higher than the concentration determined to have a negligible impact on cancer risk. EPA has acknowledged that Chromium 6 is a known human carcinogen through inhalation, but is still determining its cancer potential through ingestion of drinking water. Lung, nasal and sinus cancers are associated with Chromium 6 exposure. Ingestion of extremely high doses of chromium 6 compounds can cause acute respiratory disease, cardiovascular, gastrointestinal, hematological, hepatic, renal, and neurological distress which may result in death.
Disinfection Byproducts In Columbus Drinking Water
Columbus city water problems also includes high concentrations of disinfection byproducts or DBPs. DBPs are formed when chlorine-based disinfectants react with organic matter. They are split into two categories: Total Trihalomethanes (TTHMs) and Haloacetic Acids-5 (HAA5). Concentrations of HAA5 averaged 29.4 parts per billion at DRWP, 45.3 parts per billion at HCWP, and 8.4 parts per billion at PAWP. Concentrations of TTHMs averaged 40.2 parts per billion at DRWP, 53 parts per billion at HCWP, and 34.1 parts per billion in PAWP. For a bit of perspective, EPA’s Maximum Contaminant Level for HAA5 is 60 parts per billion and 80 parts per billion for TTHMs. Disinfection Byproducts are a category of emerging contaminants which means they have been detected in drinking water but the risk to human health is unknown. Regulatory agencies have very little knowledge about the adverse health effects of DBPs, and their toxicity. EPA has stated that they have been linked to an increased risk of bladder cancer, as well as kidney, liver, and central nervous system problems.
It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for. If you’re interested in learning more about water filters that have been optimized for Columbus tap water quality, feel free to visit www.hydroviv.com to talk to a Water Nerd on our live chat feature or send us an email at hello@hydroviv.com.
Analies Dyjak @ Friday, July 27, 2018 at 4:02 pm -0400
Analies Dyjak | Policy Nerd
For Hydroviv’s assessment of the city of Milwaukee, Wisconsin’s drinking water, we collected water quality test data from the city and the U.S. Environmental Protection Agency. We cross referenced their water quality data with toxicity studies in scientific and medical literature. The water filters that we sell at Hydroviv are optimized to filter out contaminants that are found in Milwaukee’s drinking water.
Where Does Milwaukee Source Its Drinking Water?
Milwaukee sources its drinking water from Lake Michigan. Lake Michigan has had a long history of pollution, including a recent lawsuit involving Chromium 6 releases from an abutting steel facility.
Chromium 6 In Milwaukee’s Drinking Water
Chromium 6 is a highly toxic metal that is currently unregulated by the EPA. In recent years, the city of Milwaukee's water has had a major problem with this dangerous contaminant. Chromium 6 pollution is associated with metal processing, tannery facilities, chromate production, stainless steel welding, and pigment production. This years water quality report for Milwaukee found levels of Chromium 6 as high as 0.25 parts per billion. These levels are 12.5 times higher than the concentration determined to have a negligible impact on cancer risk. EPA has acknowledged that Chromium 6 is a known human carcinogen through inhalation, but is still determining its cancer potential through ingestion of drinking water. Lung, nasal and sinus cancers are associated with Chromium 6 exposure. Ingestion of extremely high doses of chromium 6 compounds can cause acute respiratory disease, cardiovascular, gastrointestinal, hematological, hepatic, renal, and neurological distress which may result in death.
Lead In Milwaukee's Drinking Water
In recent years, the city of Milwaukee has also had a problem with lead in drinking water. Lead enters Milwaukee's tap water through old lead service pipes and lead-containing plumbing. 10% of sites that were tested for lead had concentrations over 7.2 parts per billion. The highest concentration detected in 2017 was 130 parts per billion, which is a whopping 8.6 times higher that the Federal Action Level of 15 parts per billion. Environmental Protection Agency, Center for Disease Control and American Academy of Pediatrics all recognize that there is no safe level of lead for children. These health and regulatory organizations are trying to reduce the allowable limit, so a concentration of 130 parts per billion is of serious concern. Treated water leaving the plant may be in compliance with loose EPA standards, but could become contaminated once it enters older infrastructure. Houses built before 1986 were most likely built with lead plumbing and lead fixtures. Lead exposure can cause developmental issues, lowered IQ, and damages to the kidneys and brain.
Perfluorinated Compounds In Milwaukee's Drinking Water
This years water quality report for Milwaukee included test data from six Perfluorinated Compounds (PFCs). Perfluorinated Compounds are associated with firefighting foam, non-stick cookware, Scotchguard and other solvents from manufacturing. The two PFCs that are the most well known and the most researched are Perfluorooctanoic acid (PFOA) which was detected at 2.1 parts per trillion and Perfluorooctane-sulfonic acid (PFOS) which was detected at 2 parts per trillion. The Agency for Toxic Substances and Disease Registry recently recommended setting a Minimum Risk Level of 20 parts per trillion for both of these substances. These data are preliminary and the effects to human health are still unknown. This category of chemicals are “emerging contaminants” which means they are thought to pose a potential threat to human health and the environment, but haven't yet been regulated. Perfluorinated Compounds contribute to environmental contamination largely due to the fact that they are highly resistant to degradation processes, and thus persist for many years in water, air and can enter the food chain via bioaccumulation in certain animal species.
Chloramine In Milwaukee’s Drinking Water
While most municipalities use chlorine as the primary drinking water disinfectant, Milwaukee’s drinking and tap water is disinfected with chloramine. Chloramine is primarily responsible for what many customers report as the “bad taste” or “pool smell” of tap water. Unlike chlorine, chloramine does not dissipate if a container of water is left in the refrigerator overnight. Most one-size-fits-all water filters use filtration media that doesn’t do a great job removing chloramine, but the filters that we design and build at Hydroviv for Milwaukee use a special filtration media that is purposefully designed to remove chloramine.
It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for. If you’re interested in learning more about water filters that have been optimized for the city of Milwaukee’s tap water quality, feel free to visit www.hydroviv.com to talk to a Water Nerd on our live chat feature or send us an email at hello@hydroviv.com.
Analies Dyjak @ Thursday, July 19, 2018 at 3:26 pm -0400
Ernesto Esquivel | Water Nerd **Updated August 2, 2019 to include current data
For Hydroviv’s assessment of Louisville, Kentucky’s tap and drinking water problems, we collected water quality test data from Louisville and the U.S. Environmental Protection Agency. We cross referenced Louisville water quality data with toxicity studies in scientific and medical literature. The water filters that we sell at Hydroviv are optimized to filter out contaminants that are found in Louisville’s drinking water.
Where Does Louisville Source Its Drinking Water?
Louisville sources its drinking water from the Ohio River. The utility provider, Louisville Water, treats and distributes drinking water to the metropolitan area as well as surrounding counties, including; Bullitt, Hardin, Nelson, Oldham, Shelby, and Spencer.
Lead In Louisville’s Drinking Water
Lead enters tap water through old lead service pipes and lead-containing plumbing. 10% of sites that were tested for lead had concentrations over 4.7 parts per billion, and the highest level collected was 10.2 parts per billion. The City of Louisville only received data from 50 residential taps, so the small data set may not be representative of the actual scope of the lead problem. Environmental Protection Agency, Center for Disease Control and American Academy of Pediatrics all recognize that there is no safe level of lead for children. Additionally, once water hits lead plumbing and lead fixtures, these measurements will increase significantly. Houses built before 1986 were most likely built with these types of fixtures. Lead exposure can cause developmental issues, lowered IQ, and damages to the kidneys and brain.
Disinfection Byproducts In Louisville’s Drinking Water
DBPs are formed when chlorine or chloramine-based disinfectants are routinely added to the water supply to kill bacteria. EPA regulates two categories or DBPs: Total Trihalomethanes (TTHMs) and Haloacetic Acids-5 (HAA5). Concentrations of HAA5 averaged 27.3 parts per billion and reached levels as high as 46.1 parts per billion. The EPA Maximum Contaminant Level for this compound is 60 parts per billion. Concentrations of TTHMs averaged 27.8 parts per billion, but reached levels as high as 39.8 parts per billion. EPA’s Maximum Contaminant Level is 80 parts per billion for TTHMs. Disinfection Byproducts are a category of emerging contaminants which means they have been detected in drinking water but the risk to human health is unknown. Health and regulatory agencies have very little knowledge about the adverse health effects of DBPs, and their toxicity potential. EPA has stated that they have been linked to an increased risk of various types of cancers and problems with the central nervous system.
Chloramine In Louisville’s Drinking Water
Louisville disinfects its drinking water with chloramine, which is a disinfectant similar to chlorine. Chloramine is primarily responsible for what many Louisville customers report as the “bad taste” or “pool smell” of tap water. Most one-size-fits-all water filters use filtration media that doesn’t do a great job removing chloramine, but the filters that we design and build at Hydroviv for Louisville use a special filtration media that is purposefully designed to remove chloramine.
It’s important to note that only a handful of contaminants are required to be included in annual Consumer Confidence Reports, and that there are hundreds of potentially harmful unregulated contaminants that aren’t accounted for. If you’re interested in learning more about water filters that have been optimized for Louisville’s tap water quality, feel free to visit www.hydroviv.com to talk to a Water Nerd on our live chat feature or send us an email at hello@hydroviv.com.
