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Chemours To Pay $13 Million to NC DEQ for PFAS Pollution

Analies Dyjak @ Wednesday, December 5, 2018 at 12:39 pm -0500

Analies Dyjak  |  Policy Nerd

Our Water Nerds have been closely following the environmental and public health disaster in North Carolina for a while now. This article provides an overview of the recent consent order, and some background information on what's going on in North Carolina. 

The Chemours Plant in Fayetteville, North Carolina has been discharging various per and polyfluoroalkyl substances (also known as PFAS) for decades. PFAS are a category of emerging contaminants that are found in some of the most popular consumer products such as Scotchgard, Gore-Tex, Teflon, and other stain/water resistant products. PFAS is also an important ingredient in firefighting foam, which has been a major source of water contamination throughout the country. In recent years, a replacement chemical for PFOA called GenX has dominated the conversation, particularly in North Carolina. In November 2018, EPA admitted that GenX is “suggestive” of cancer, which is significant for residents who have been unknowingly exposed.

$13 Million Awarded to NCDEQ

Chemours is awarding $13 million to the North Carolina Department of Environmental Quality in the form of civil penalties and investigative costs. In comparison to other PFAS-related settlements, this is by far one of the smallest. In early 2018, 3M paid the state of Minnesota $850 Million in environmental degradation. In 2017, DuPont was involved in a $670.7 million settlement in the Mid-Ohio Valley region for PFAS water contamination.

Overview Of The Consent Order

The Consent Order clearly lays out a timeline of air emission goals and wastewater discharge stipulations. Chemours’ National Pollution Discharge Elimination System (NPDES) permit was revoked in early 2017 and the new Consent Order prohibits any sort of wastewater discharge until a NPDES permit is reallocated. Chemours must also create laboratory methods and test standards for all PFAS compounds released by the Fayetteville plant. Basic remediation plans must be agreed upon by the North Carolina Department of Environmental Quality, North Carolina River Keepers, and Chemours. Chemours will also pay for water filtration for water filtration for residents on private wells. Concentrations of GenX must be above 140 parts per trillion or any updated health advisory, in order to be eligible for a filter. GenX is not the only PFAS compound detected in the Cape Fear area, and the consent order addresses that. the Residents can also be eligible for filtration if other PFAS compounds are detected in well water over 10 parts per trillion individually, and 70 parts per trillion combined. NCDEQ is currently seeking public comment regarding the recent settlement.

How Are Cape Fear Residents Responding?

Cape Fear Public Utility Authority (CFPUA) created a comprehensive breakdown of the Chemours consent order. The utility provider acknowledged that the settlement did not go far enough to cover the scope of GenX and PFAS water contamination in the Cape Fear area. In a press release, CFPUA talked about how the consent order did not acknowledge the PFAS sediment pollution at the bottom of the Cape Fear River. Any sort of dredge or fill could disturb the sediment and create GenX concentrations to sky rocket in drinking water. Local non-profit groups are also not in agreement with the Chemours settlement because they believe it does not go far enough to mitigate the scope of PFAS water contamination. The current consent order places most of the mitigative costs water utility providers which would of course be paid for by taxpayers.

Our Take:

In early November of 2018, EPA released a draft toxicity report for GenX, proposing a threshold of 80 parts per trillion for drinking water. The concentration deemed “safe” by North Carolina and Chemours is almost two times higher than what the EPA is proposing as safe. Health and regulatory agencies know very little about the adverse health effects of GenX and other PFAS compounds. It’s up to consumers to decide the best course of action to protect themselves and their families.

Other Articles We Think You Might Enjoy:
EPA Admits That GenX Is Linked To Cancer
Military Bases and PFAS
Toxicological Profile For PFAS

Problems We Found In Fresno's Drinking Water

Analies Dyjak @ Monday, July 2, 2018 at 10:18 am -0400

Analies Dyjak  |  Policy Nerd
Updated July 18, 2019 to include current data

For Hydroviv’s assessment of Fresno, California’s drinking water quality issues, we aggregated water quality test data from the City of Fresno Water Quality Division, U.S. Environmental Protection Agency and supplemental health information. We cross referenced these 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 Fresno’s drinking water.

Where does Fresno Source its Drinking Water?

Fresno sources its drinking water from both groundwater and surface water sources. The city has 260 groundwater wells that draw water from the Fresno Sole Source Aquifer. Additionally, the city draws water from the Millerton and Pine Flat lakes which is delivered to the city via the Fresno Irrigation District canals.

Chromium 6 In Fresno’s Drinking Water

Fresno drinking water has some of the highest levels of Chromium 6 among major cities in the U.S. Chromium 6 is a highly toxic metal that is currently unregulated by the EPA. In the most recent Consumer Confidence Report, the city disclosed that the average concentration of Chromium 6 in drinking water was 2800 parts per trillion, and the highest level detected was 11,000 parts per trillion. For a bit of perspective, the California Water Boards previously set a public health goal of 20 parts per trillion for Chromium 6 in drinking water. Chromium 6 pollution is associated with metal processing, tannery facilities, chromate production, stainless steel welding, and pigment production. 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. Acute respiratory disease, cardiovascular, gastrointestinal, hematological, hepatic, renal, and neurological distress are health effects associated with high levels of chromium 6 exposure.

Synthetic Contaminants Found In Fresno's Drinking Water 

1,2 Dibromochloroporpane (DBCP) is a banned nematocide that was developed as a replacement for DDT. It was banned in 1979 but is still extremely persistent in the environment. In this years water quality report the average concentration detected in Fresno's water was 27 parts per trillion and the highest concentration detected was 170 parts per trillion. For a bit of perspective, this level is just under the regulatory limit of 200 parts per trillion. DBCP is an endocrine disruptor that specifically effects the male reproductive system. Additionally, several industrial solvents were detected in Fresno's drinking water. 1,2 Dichloroethylene, Tetrachloroethylene (PCE), and Trichloroethylene (TCE) were among some of the present contaminants. Little is known about their carcinogenic potential or other adverse health effects. Many of these contaminants are the result of industrial discharge, the byproduct of dry cleaning ingredients, or used in metal degreasing. 

Arsenic In Fresno’s Drinking Water

Arsenic is another carcinogenic heavy metal that was recently detected in Fresno’s drinking water. The 2017 Consumer Confidence Report disclosed that Fresno's water problems exceeded the California Public Health Goal of 0.004 parts per billion and was barely in compliance with the loose EPA Maximum Contaminant Level of 10 parts per billion. The highest level detected in Fresno’s water was 5.6 parts per billion and the overall average was 0.7 parts per billion. The Arsenic levels in Fresno were high enough that the city was required to make a statement in their report, notifying residents of the contamination. Arsenic is a toxic substance that is linked to a long list of health problems in humans, including various forms of cancer, and problems with the cardiovascular, immune, neurological and endocrine systems. Unlike several industrial chemicals, arsenic naturally occurs in bedrock. If you use a private well we highly recommend purchasing a filter to remove arsenic from your water.

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 Fresno’s tap water quality problems, 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.

Other Articles We Think You Might Enjoy:
5 Things To Know About Chromium 6 In Drinking Water
5 Things To Know About Arsenic In Drinking Water
Industrial Solvents In California's Drinking Water

Problems We Found In San Diego's Drinking Water

Analies Dyjak @ Monday, July 2, 2018 at 11:34 am -0400
The City of San Diego purchases most of its water from the San Diego County Water Authority, which is sourced from the Colorado River and the State Water Project. For Hydroviv’s assessment of drinking water issues in San Diego, we aggregated water quality test data from San Diego Public Utilities, the U.S. Environmental Protection Agency (EPA), the Environmental Working Group, and the US Geological Survey. The custom water filters that we build for our customers in San Diego are optimized with this research in mind.

Problems We Found In Cleveland's Drinking Water

Analies Dyjak @ Monday, July 2, 2018 at 1:21 pm -0400

Analies Dyjak  |  Policy Nerd
Updated July 26, 2019 to include current data

For Hydroviv’s assessment of the city of Cleveland's, drinking water issues, we aggregated water quality test data from Cleveland Water, U.S. Environmental Protection Agency and supplemental health information. We cross referenced the city’s water quality test 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 Cleveland’s drinking water

Where Does Cleveland Source its Drinking Water?

Cleveland sources its drinking water from four intake locations in Lake Erie’s Central Basin. Water is collected 3-5 miles offshore, where it is believed to be cleaner than surrounding shore locations. Cleveland Water treats and delivers 300 million gallons of water to residents throughout the city. 

Chromium 6 In Cleveland's Drinking Water 

Chromium 6 is a highly toxic metal that is currently unregulated by the EPA. Chromium 6 pollution is associated with metal processing, tannery facilities, chromate production, stainless steel welding, and pigment production. In recent years, Chromium 6 concentrations were as high as 103 parts per trillion, which is over the former California Health Goal of 20 parts per trillion. 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. Acute respiratory disease, cardiovascular, gastrointestinal, hematological, hepatic, renal, and neurological distress are health effects associated with high levels of chromium 6 exposure.

Lead In Cleveland's Drinking Water 

Lead is also of concern in Cleveland, Ohio. The 90th percentile in Cleveland drinking water is currently 1.84 parts per billion. That being said, the water utility only sampled 55 sites. The extremely small sample population is not representative of the actual scope of the lead problem in Cleveland. Lead enters tap water through old lead service pipes and lead-containing plumbing. 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. Environmental Protection Agency, Center for Disease Control, and American Academy of Pediatrics all recognize that there is no safe level of lead for children between the ages of 0-5. Lead exposure can cause developmental issues, lowered IQ, and damages to the kidneys and brain. Any threshold of lead concentration is not safe for infants and young children. Health organizations have noted that any concentrations of lead when ingested by adults could cause adverse health effects.

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 Cleveland’s 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.

Other Articles We Think You Might Enjoy:
5 Things To Know About Chromium 6 In Drinking Water
Lead In Drinking Water
Chloramine In Drinking Water


Problems We Found With Portland, Oregon Drinking Water

Analies Dyjak @ Friday, July 27, 2018 at 2:51 pm -0400


Analies Dyjak, M.A.  |  Policy Nerd
Updated August 2, 2019 to include current data

For Hydroviv’s assessment of Portland, Oregon drinking water quality, our Water Nerds collected test data from the Portland Water Bureau, the U.S. Environmental Protection Agency, and other available data. We cross referenced these 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 Portland’s drinking water.

Where Does Portland, Oregon Source Its Drinking Water?

Portland sources its drinking water from the Bull Run River which is located in Mt. Hood National Forest. Portland also draws drinking water from the Columbia South Shore Well Field, which is made up of 26 groundwater wells. The wells draw water from three different aquifers located on the perimeter of the Columbia River.

Lead In Portland’s Drinking Water

Lead contamination is by far of biggest concern in Portland, Oregon drinking water. Not only are the city wide lead levels among the highest in the country, lead contamination has been getting worse in recent years. According to the most recent data, the 90th percentile for lead in Portland drinking water is 11.9 parts per billion. This is just under the outdated Federal Action Level of 15 parts per billion. In recent years, the 90th percentile in Portland has exceeded the Federal Action Level. Additionally, to put things in perspective, EPA, CDC, and American Academy of Pediatrics all recognize that there is no safe level of lead for children.

The goal of annual Consumer Confidence Reports is to be as transparent as possible so that residents can be informed about problems with their drinking water. Unfortunately, Portland’s report was written in a way that leaves consumers confused when it comes to lead. When reading through the report, lead levels for the treated source water are displayed prominently. Of course, these lead levels are very low, because lead contaminates water as it flows through lead containing pipes found in the distribution system and the home’s plumbing. The relevant data for samples collected at the tap are buried in a small table on the next to last page, separate from the other contaminants.

Disinfection Byproducts In Portland’s Drinking Water

Portland’s municipal water also had high concentrations of Disinfection Byproducts or DBPs. Concentrations were detected as high as 44.5 parts per billion, and averaged 37.7 parts per billion for Total Trihalomethanes (TTHMs). Haloacetic Acids-5 (HAA5) concentrations were as high as 51.2 parts per billion and averaged 37.7 parts per billion. For a bit of perspective, EPA's Maximum Contaminant Level for TTHMs is 80 parts per billion and 60 parts per billion for HAA5. While Portland's water quality chemical concentrations are technically in compliance, these levels are definitely high. 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. DBPs are formed when chlorine-based disinfectants are routinely added to the water supply to kill bacteria. 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. Some disinfection byproducts have almost no toxicity, but others have been associated with cancer, reproductive problems, and developmental issues in laboratory animals. 

Chloramine In Portland’s Drinking Water

While most municipalities use chlorine as the primary drinking water disinfectant, Portland’s drinking 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 Portland's water problems 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 Portland’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.

Other Articles We Think You Might Enjoy:
Lead Contamination In Drinking Water
Disinfection Byproducts In Drinking Water: What You Need To Know
Chlorine Vs. Chloramine: What You Need To Know