Annual Drinking Water Quality Report 2023
Covering Calendar Year 2022
Clay-Roane Public Service District
1100 Elk River Road, Procious, WV 25164
PWSID# 3300806
Clay County Public Service District
247 Main St., P.O. Box 130, Clay, WV 25043
PWSID# 3300809
PWSID# 3300810
PWSID# 3300811
May 4, 2023
Why Am I Receiving This Report?
In compliance with the Safe Drinking Water Act Amendments, the Clay-Roane PSD, Clay County PSD, is providing their customers with this annual water quality report. This report explains where your water comes from, what it contains, and how it compares to standards set by regulatory agencies. The information in this report shows the results of our monitoring for the period of January 1st to December 31st, 2022, or earlier if not on a yearly schedule.
If you have any questions concerning this report, you may contact General Manager, Crystal Adkins at 304-548-5209, for those customers being served by Clay-Roane PSD. If you have any further questions, comments or suggestions, please attend any of our regularly scheduled board meetings held on the 2nd Thursday of every month at 6:30 p.m. on Zoom.
If you have any questions concerning this report, you may contact Beverly Piersonat 304-587-7579 for those customers being served by the Clay County PSD, If you have any further questions, comments or suggestions, please attend any of our regularly scheduled board meetings held on the 2nd Thursday of every month at 11:00 a.m. at the Clay County PSD office located on 247 Main Street in Clay, WV.
If you have any questions concerning this report, you may contact Beverly Pierson at 304-587-7579 for those customers being served by Clay County PSD, If you have any further questions, comments or suggestions, please attend any of our regularly scheduled board meetings held on the 2nd Thursday of every month at 11:00 a.m. at the Clay County PSD office located on 247 Main Street in Clay, West Virginia.
Where does my water come from?
Your water source is surface water from the Elk River.
Clay County PSD purchases your drinking water from the Clay Municipal Water Works which uses surface water from the Elk River.
Source Water Assessment
A Source Water Assessment was conducted in 2015 by the West Virginia Bureau for Public Health (WVBPH). The intake that supplies drinking water to the town of Clay and the Clay-Roane PSD has a higher susceptibility to contamination, due to the sensitive nature of surface water supplies and the potential contaminant sources identified within the area. This does not mean that this intake will become contaminated; only that conditions are such that the surface water could be impacted by a potential contaminant source. Future contamination may be avoided by implementing protective measures. The source water assessment report which contains more information is available for review or a copy will be provided to you at our office during normal business hours or from the WVBPH 304-558-2981.
Why must water be treated?
All drinking water contains various amounts and kinds of contaminants. Federal and state regulations establish limits, controls, and treatment practices to minimize these contaminants and to reduce any subsequent health effects.
Contaminants in Water:
In order to ensure that tap water is safe to drink, the EPA prescribes regulations which limit the amount of certain contaminants in water provided by public water systems. FDA regulations establish limits of contaminants in bottled water which must provide the same protection tor public health.
Drinking water, including bottled water, may reasonably be expected to contain at least small amounts of some contaminants. The presence of these contaminants does not necessarily indicate that water poses a health risk. More information about contaminants and potential health effects can be obtained by calling the Environmental Protection Agency’s Safe Drinking Water Hotline (1-800-426-4791).
The source of drinking water (both tap and bottled water) includes rivers, lakes, streams, ponds, reservoirs, springs, and wells. As water travels over the surface of land or through the ground, it dissolves naturally-occurring minerals, and, in some cases radioactive material and can pick up substances resulting from the presence of animals or from human activity.
Contaminants that may be present in source water include:
Microbial contaminants, such as viruses and bacteria, which may come from sewage treatment plants, septic systems, agricultural livestock operations and wildlife.
Inorganic contaminants, such as salts and metals, which can be naturally-occurring, or result from urban storm water runoff, industrial or domestic wastewater discharges, oil and gas production, mining, farming.
Pesticides and herbicides, which may come from a variety of sources such as agriculture, urban storm water runoff, and residential uses.
Organic chemical contaminants, including synthetic and volatile organic chemicals, which are by-products of industrial processes and petroleum production, and can, also, come from gas stations, urban storm water runoff, and septic systems.
Radioactive contaminants, which can be naturally-occurring or the result of oil and gas production and mining activities.
Some people may be more vulnerable to contaminants in drinking water than the general population. Immuno-compromised persons such as persons with cancer undergoing chemotherapy, persons who have undergone organ transplants, people with HIV/AIDS or other immune disorders, some elderly, and infants can be particularly at risk from infections. These people should seek advice about drinking water from their health care providers. EPA/CDC guidelines on appropriate means to lessen the risk of infection by Cryptosporidium and other microbial contaminants are available from the Safe Drinking Water Hotline (800-426-4791).
Water Quality Data Table
Definitions of terms and abbreviations used in the table or report:
• MCLG – Maximum Contaminant Level Goal, or the level of a contaminant in drinking water below which there is no known or expected risk to health. MCLGs allow for a margin of safety.
• MCL – Maximum Contaminant Level, or the highest level of a contaminant that is allowed in drinking water. MCLs are set as close to the MCLGs as feasible using the best available treatment technique.
• MRDLG – Maximum Residual Disinfectant Level Goal, or the level of drinking water disinfectant below which there is no known or expected risk to health. MRDLGs do not reflect benefits of use of disinfectants to control microbial contaminants.
• MRDL – Maximum Residual Disinfectant Level, or the highest level of disinfectant allowed in drinking water. There is convincing evidence that the addition of disinfectant is necessary to control microbial contaminants.
• AL- Action Level, or the concentration of a contaminant which, when exceeded, triggers treatment or other requirements which a water system must follow.
• TT – Treatment Technique, or a required process intended to reduce the level of a contaminant in drinking water.
Abbreviations that may be found in the table:
• ppm – parts per million or milligrams per liter
• ppb – parts per billion or micrograms per liter
• NTU – Nephelometric Turbidity Unit, used to measure cloudiness in water
• NE – not established
• N/A – not applicable
• MDL – Maximum Dectection Level
• ND – Non-Detect, lab analysis indicates non-dect at or above Maximum Detection Level
• pCi/L – Picocuries per Liter, a measure of the radioactivity in water
• mrem/yr – Millirems per Year, measure of radiation absorbed by the body
• MPA – Monitoring Period Average, an average of sample results obtained during a defined time frame,
common examples od monitoring periods are monthly, quarterly, and yearly
• RAA – Running Annual Average, an average of sample results obtained over the most current 12
months and are used to determine compliance with MCL’s.
• LRAA – Location Running Annual Average, average of sample results for a sample taken at a particular
monitoring location during the previous four calendar quarters
The Clay-Roane PSD and Clay County PSD routinely monitors for contaminants in your drinking water according to federal and state laws. The tables below show the results of our monitoring for contaminants.
Testing Results for: CLAY-ROANE PSD (PROCIOUS DISTRICT)
Microbiological Result MCL MCLG Typical Source
No Detected Results were Found in the Calendar Year of 2022
Regulated Collection Highest Range
Contaminants Date Value (low/high) Unit MCLG MCL Typical Source
BARIUM 3/23/2021 0.0286 0.0286 ppm 2 2 Discharge of drilling wastes; Discharge from
metal refineries; Erosion
of natural deposits
NITRATE 3/23/2021 0.39 0.39 ppm 10 10 Runoff from fertilizer
use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
NITRATE- 3/23/2021 0.39 0.39 ppm 10 10 Runoff from fertilizer
NITRITE use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
Disinfection Sample Monitoring Highest Range
Byproducts Point Period LRAA (low/high) Unit MCL MCLG Typical Source
Total Halo- Reed Fork- 2022 29 12-33.9 ppb 60 0 Byproduct of
acetic Acids Adkins drinking water
(HAA5) Residence disinfection
TTHM Reed Fork- 2022 23 10-35.4 ppb 80 0 Byproduct of
Adkins drinking water
Residence chlorination
Lead and Monitoring 90th Per- Range Sites
Copper Period centile (low/high) Unit AL over AL Typical Source
COPPER, 2020-2022 0.274 0-0.602 ppm 1.3 0 Corrosion of household
FREE plumbing systems;
Erosion of natural
deposits; Leaching from
wood preservatives
LEAD 2020-2022 1.5 0-29.6 ppb 15 1 Corrosion of household
plumbing systems; Erosion
of natural deposits
If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. Your water system is responsible for providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your water, you may wish to have your water tested. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline or at http://www.epa.gov/safewater/lead.
CLAY-ROANE PSD (PROCIOUS DISTRICT) is working towards identifying service line materials throughout the water distribution supply. The service line inventory is required to be submitted to the state by October 16, 2024. The most up to date inventory is located Clay Roane Public Service District Office, if you have any questions about our inventory, please contact CRYSTAL D. ADKINS at 304-548-5209.
Chlorine/Chloramines
Maximum Disinfection Level MPA NIPA Units RAA RAA Units
2022 – 2022 2.0000 MG/L 1.4 MG/L
Total Organic Carbon Collection Highest
Lowest Month for Removal Date Value Range Unit TT Typical Source
CARBON, TOTAL 8/23/2022 1.4 0-1.4 MG/L 0 Naturally present in the environment
Monitoring Range Lowest monthly %<0.3
Period MCL (low/high) Unit NTU (TT if <95% Violation Typical Source
TURBIDITY 2022 TT=1 NTU 0.03 – 0.28 NTU 100% No Soil runoff and
erosion
Radiological Collection Highest Range
Contaminants Date Value (low/high) Unit MCL MCLG Typical Source
GROSS ALPHA,
EXCL. RADON 37/2022 -0.368 -0.368 pCi/L 15 0 Erosion of natural deposits
& U
RADIUM-228 317/2022 0.135 0.135 pCi/L 5 0 Erosion of natural deposits
COMBINED 3/7/2022 0.019 0.019 ppb 30 0 Erosion of natural deposits
URANIUM
Secondary Contaminants-Non Health
Based Contaminants-No Federal Maximum Collection Highest Range
Contaminant Level (MCL) Established. Date Value (low/high) Unit SMCL
ALKALINITY, TOTAL 7/27/2022 35.2 14-35.2 MG/L 10000
CARBON, TOTAL 8/23/2022 4.1 0-4.1 ppm 10000
NICKEL 3/23/2021 0.00066 0.00066 MG/L 0.1
PH 4/11/2018 7.6 7.6 SU 8.5
SODIUM 3/23/2021 7.28 7.28 MG/L 1000
SULFATE 3/23/2021 27.8 27.8 MG/L 250
During the 2022 calendar year, we had the below noted violation(s) of drinking water regulations.
Compliance Period Analyte Comments
3/1/2022 – 5/31/2022 TTHM MONITORING, ROUTINE (DBP), MAJOR
10/1/2022 – 12/31/2022 CARBON, TOTAL MONITORING, ROUTINE (DBP), MAJOR
10/1/2022 – 12/31/2022 CARBON, TOTAL MONITORING, ROUTINE (DBP), MAJOR
10/1/2022 – 12/31/2022 ALKALINITY, TOTAL MONITORING, ROUTINE (DBP), MAJOR
10/1/2022 – 12/31/2022 TOTAL HALOACETIC ACIDS (HAA5) MONITORING, ROUTINE (DBP), MAJOR
10/1/2022 – 12/31/2022 TTHM MONITORING, ROUTINE (DBP), MAJOR
1/1/2022 – 12/31/2022 voc’S MONITORING, ROUTINE (DBP), MAJOR
1/1/2020 – 12/31/2022 soc’S MONITORING, ROUTINE (DBP), MAJOR
1/1/2022 – 12/31/2022 ARSENIC TOTAL MONITORING, ROUTINE (DBP), MAJOR
1/1/2022 – 12/31/2022 INORGANICS MONITORING, ROUTINE (DBP), MAJOR
10/1/2022 – 12/31/2022 PUBLIC NOTICE PUBLIC NOTICE LINKED TO VIOLATION
Additional Required Health Effects Language:
Infants and children are typically more vulnerable to lead in drinking water than the general population. It is possible that lead levels at your home may be higher than at other homes in the community as a result of materials used in your home’s plumbing. If you are concerned about elevated lead levels in your home’s water, you may wish to have your water tested and flush your tap for 30 seconds to 2 minutes before using tap water. Additional information is available from the Safe Drinking Water Hotline (800-426-4761).
There are no additional required health effects violation notices.
Testing Results for: CLAY CO PSD – IVYDALE
Microbiological Result MCL MCLG Typical Source
No Detected Results were Found in the Calendar Year of 2022
Disinfection Sample Monitoring Highest Range
Byproducts Point Period LRAA (low/high) Unit MCL MCLG Typical Source
Total Halo- Laurel 2022 63 27-49 ppb 60 0 Byproduct of
acetic Acids Nursing drinking water
(HAA5) Home disinfection
TTHM Laurel 2022 62 20.8-63 ppb 80 0 Byproduct of
Nursing drinking water
Home chlorination
Lead and Monitoring 90th Per- Range Sites
Copper Period centile (low/high) Unit AL over AL Typical Source
COPPER, 2019-2021 0.268 0.0023- ppm 1.3 0 Corrosion of household
FREE 0.0449 plumbing systems;
Erosion of natural
deposits; Leaching from
wood preservatives
LEAD 2019-2021 0.34 0.12-1.4 ppb 15 1 Corrosion of household
plumbing systems; Erosion
of natural deposits
If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. Your water system is responsible for providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your water, you may wish to have your water tested. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline or at http://www.epa.gov/safewater/lead.
CLAY CO PSD – IVYDALE is working towards identifying service line materials throughout the water distribution supply. The service line inventory is required to be submitted to the state by October 16, 2024. The most up to date inventory is located Clay Roane Public Service District Office, if you have any questions about our inventory, please contact BEVERLY S. PIERSON at 304-587-7579.
Chlorine/Chloramines
Maximum Disinfection Level MPA NIPA Units RAA RAA Units
2022 – 2022 1.2000 MG/L 0.8 MG/L
During the 2022 calendar year, we had the below noted violation(s) of drinking water regulations.
Compliance Period Analyte Comments
1/11/2022 – 1/14/2022 STATE RESIDUAL CHLORINE AUTOMATED BWN CERT
Additional Required Health Effects Language:
Some people who drink water containing haloacetic acids in excess of the MCL over many years have an increased rick of getting cancer.
There are no additional required health effects violation notices.
Some or all of our drinking water is supplied from another water system. The table below lists all of the drinking water contaminants, which were detected during the 2022 calendar year from the water systems that we purchase drinking water from.
Regulated Collection Water Highest Range
Contaminants Date System Value (low/high) Unit MCL MCLG Typical Source
BARIUM 4/12/2022 Clay Water 0.0265 0.0265 ppm 2 2 Discharge of drilling Dept. wastes; Discharge from
metal refineries;
Erosion of natural
deposits
NITRATE 9/13/2022 Clay Water 0.23 0.23 ppm 10 10 Runoff from fertilizer Dept. use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
NITRATE- 7/13/2021 Clay Water 0.11 0.11 ppm 10 10 Runoff from fertilizer
NITRITE Dept. use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
GROSS 9/13/22 Clay Water 0.221 0.221 pCi/L 15 Erosion of natural ALPHA, Dept. deposits
EXCL.
RADON & U
RADIUM-228 9/13/22 Clay Water 0.476 0.476 pCi/L 5 Erosion of natural
Dept. deposits
Secondary Collection Water Highest Range
Contaminants Date System Value (low/high) Unit SMCL
ALKALINITY, TOTAL 11/10/2022 CLAY WATER DEPT 33.6 8.8-33.6 MG/L 10000
ALUMINUM 5/12/2022 CLAY WATER DEPT 13.7 0.62-13.7 MG/L 0.05
BORON, TOTAL 7/13/2021 CLAY WATER DEPT 9.4 8.6-9.4 UG/L
CALCIUM 8/17/2021 CLAY WATER DEPT 14400 12800-14400 UG/L
CARBON, TOTAL 3/8/2022 CLAY WATER DEPT 1.9 0-1.9 ppm 10000
CHLORIDE 7/13/2021 CLAY WATER DEPT 8.7 7.9-8.7 MG/L 250
CHLORINE 12/3/2019 CLAY WATER DEPT 1.4 1.4 MG/L 4
GIARDIA LAMBLIA 12/3/2019 CLAY WATER DEPT 1 0-1 1
IRON 5/12/2022 CLAY WATER DEPT 0.636 0.041-0.636 MG/L 0.3
MAGNESIUM 8/17/2021 CLAY WATER DEPT 6840 4.2-6840 UG/L
MANGANESE 5/12/2022 CLAY WATER DEPT 0.224 0.098-0.224 MG/L 0.05
PH 5/18/2020 CLAY WATER DEPT 8.9 8.9 SU 8.5
POTASSIUM 8/17/2021 CLAY WATER DEPT 1540 1330-1540 UGL
SODIUM 8/17/2021 CLAY WATER DEPT 7.93 5.71-7.93 MG/L 1000
SULFATE 8/17/2021 CLAY WATER DEPT 37.8 29.9-37.8 MG/L 250
ZINC 7/13/2021 CLAY WATER DEPT 0.0056 0.0025-0.0056 MG/L 5
Please Note: Because of sampling schedules, results may be older than 1 year.
During the 2022 calendar year, the water systems that we purchase water from had the below noted violation(s) of drinking water regulations.
Water System Type Category Analyte Compliance Period
CLAY WATER DEPT Monitoring, Routine Major MON SODIUM 1/1/2022 – 12/31/2022
CLAY WATER DEPT Failure Address Deficiency
(EPA Survey) TT LT2ESWTR 9/2/2022
CLAY WATER DEPT Failure Address Deficiency
(EPA Survey) TT LT2ESWTR 9/2/2022
There are no additional required health effects violation notices.
There are no additional required health effects notices.
This Consumer Confidence Report is not being mailed to each customer. A copy can be provided upon request by calling our office at 304-587-7579. Continued on next page
CONTINUED FROM PREVIOUS PAGE
Testing Results for: CLAY CO PSD – TRIPLETT RIDGE
Microbiological Result MCL MCLG Typical Source
No Detected Results were Found in the Calendar Year of 2022
Disinfection Sample Monitoring Highest Range
Byproducts Point Period LRAA (low/high) Unit MCL MCLG Typical Source
Total Halo- 4476 2022 32 24-40 ppb 60 0 Byproduct of
acetic Acids Triplett drinking water
(HAA5) Rdg DOH disinfection
Total Halo- Inact-3422 2022 40 18-49 ppb 60 0 Byproduct of
acetic Acids Triplett drinking water
(HAA5) Rdg Rd disinfection
TTHM 4476 2022 60 39-60 ppb 80 0 Byproduct of
Triplett drinking water
Rdg DOH chlorination
TTHM Inact-3422 2022 69 14-37 ppb 80 0 Byproduct of
Triplett drinking water
Rdg Rd chlorination
Lead and Monitoring 90th Per- Range Sites
Copper Period centile (low/high) Unit AL over AL Typical Source
COPPER, 2018-2020 0.0015 0.00079- ppm 1.3 0 Corrosion of household
FREE 0.0021 plumbing systems;
Erosion of natural
deposits; Leaching from
wood preservatives
LEAD 2018-2020 0.27 0-0.32 ppb 15 1 Corrosion of household
plumbing systems; Erosion
of natural deposits
If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. Your water system is responsible for providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your water, you may wish to have your water tested. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline or at http://www.epa.gov/safewater/lead.
CLAY CO PSD – TRIPLETT RIDGE is working towards identifying service line materials throughout the water distribution supply. The service line inventory is required to be submitted to the state by October 16, 2024. The most up to date inventory is located Clay Roane Public Service District Office, if you have any questions about our inventory, please contact BEVERLY S. PIERSON at 304-587-7579.
Chlorine/Chloramines
Maximum Disinfection Level MPA NIPA Units RAA RAA Units
2022 – 2022 1.4600 MG/L 0.9 MG/L
During the 2022 calendar year, we had the below noted violation(s) of drinking water regulations.
Compliance Period Analyte Comments
1/11/2022 – 1/14/2022 STATE RESIDUAL CHLORINE AUTOMATED BWN CERT
There are no additional required health effects notices.
There are no additional required health effects violation notices.
Some or all of our drinking water is supplied from another water system. The table below lists all of the drinking water contaminants, which were detected during the 2022 calendar year from the water systems that we purchase drinking water from.
Regulated Collection Water Highest Range
Contaminants Date System Value (low/high) Unit MCL MCLG Typical Source
BARIUM 4/12/2022 Clay Water 0.0265 0.0265 ppm 2 2 Discharge of drilling Dept. wastes; Discharge from
metal refineries;
Erosion of natural
deposits
NITRATE 9/13/2022 Clay Water 0.23 0.23 ppm 10 10 Runoff from fertilizer Dept. use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
NITRATE- 7/13/2021 Clay Water 0.11 0.11 ppm 10 10 Runoff from fertilizer
NITRITE Dept. use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
GROSS 9/13/22 Clay Water 0.221 0.221 pCi/L 15 Erosion of natural ALPHA, Dept. deposits
EXCL.
RADON & U
RADIUM-228 9/13/22 Clay Water 0.476 0.476 pCi/L 5 Erosion of natural
Dept. deposits
Secondary Collection Water Highest Range
Contaminants Date System Value (low/high) Unit SMCL
ALKALINITY, TOTAL 11/10/2022 CLAY WATER DEPT 33.6 8.8-33.6 MG/L 10000
ALUMINUM 5/12/2022 CLAY WATER DEPT 13.7 0.62-13.7 MG/L 0.05
BORON, TOTAL 7/13/2021 CLAY WATER DEPT 9.4 8.6-9.4 UG/L
CALCIUM 8/17/2021 CLAY WATER DEPT 14400 12800-14400 UG/L
CARBON, TOTAL 3/8/2022 CLAY WATER DEPT 1.9 0-1.9 ppm 10000
CHLORIDE 7/13/2021 CLAY WATER DEPT 8.7 7.9-8.7 MG/L 250
CHLORINE 12/3/2019 CLAY WATER DEPT 1.4 1.4 MG/L 4
GIARDIA LAMBLIA 12/3/2019 CLAY WATER DEPT 1 0-1 1
IRON 5/12/2022 CLAY WATER DEPT 0.636 0.041-0.636 MG/L 0.3
MAGNESIUM 8/17/2021 CLAY WATER DEPT 6840 4.2-6840 UG/L
MANGANESE 5/12/2022 CLAY WATER DEPT 0.224 0.098-0.224 MG/L 0.05
PH 5/18/2020 CLAY WATER DEPT 8.9 8.9 SU 8.5
POTASSIUM 8/17/2021 CLAY WATER DEPT 1540 1330-1540 UGL
SODIUM 8/17/2021 CLAY WATER DEPT 7.93 5.71-7.93 MG/L 1000
SULFATE 8/17/2021 CLAY WATER DEPT 37.8 29.9-37.8 MG/L 250
ZINC 7/13/2021 CLAY WATER DEPT 0.0056 0.0025-0.0056 MG/L 5
Please Note: Because of sampling schedules, results may be older than 1 year.
During the 2022 calendar year, the water systems that we purchase water from had the below noted violation(s) of drinking water regulations.
Water System Type Category Analyte Compliance Period
CLAY WATER DEPT Monitoring, Routine Major MON SODIUM 1/1/2022 – 12/31/2022
CLAY WATER DEPT Failure Address Deficiency
(EPA Survey) TT LT2ESWTR 9/2/2022
CLAY WATER DEPT Failure Address Deficiency
(EPA Survey) TT LT2ESWTR 9/2/2022
There are no additional required health effects violation notices.
There are no additional required health effects notices.
This Consumer Confidence Report is not being mailed to each customer. A copy can be provided upon request by calling our office at 304-587-7579.
Testing Results for: CLAY CO PSD – HARTLAND
Microbiological Result MCL MCLG Typical Source
No Detected Results were Found in the Calendar Year of 2022
Disinfection Sample Monitoring Highest Range
Byproducts Point Period LRAA (low/high) Unit MCL MCLG Typical Source
Total Halo- FOLA 2022 44 25-70 ppb 60 0 Byproduct of
acetic Acids BOOSTER drinking water
(HAA5) Station 855 disinfection
Fola Rd
TTHM Little 2022 77 14-48.14 ppb 80 0 Byproduct of
General drinking water
13992 chlorination
Clay Hwy
Lead and Monitoring 90th Per- Range Sites
Copper Period centile (low/high) Unit AL over AL Typical Source
COPPER, 2019-2021 0.0053 0.00053- ppm 1.3 0 Corrosion of household
FREE 0.0426 plumbing systems;
Erosion of natural
deposits; Leaching from
wood preservatives
LEAD 2019-2021 1.1 0-2 ppb 15 0 Corrosion of household
plumbing systems; Erosion
of natural deposits
If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. Your water system is responsible for providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your water, you may wish to have your water tested. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline or at http://www.epa.gov/safewater/lead.
CLAY CO PSD – HARTLAND is working towards identifying service line materials throughout the water distribution supply. The service line inventory is required to be submitted to the state by October 16, 2024. The most up to date inventory is located Clay Roane Public Service District Office, if you have any questions about our inventory, please contact BEVERLY S. PIERSON at 304-587-7579.
Chlorine/Chloramines
Maximum Disinfection Level MPA NIPA Units RAA RAA Units
2022 – 2022 1.7500 MG/L 1.0 MG/L
During the 2022 calendar year, we had the below noted violation(s) of drinking water regulations.
Compliance Period Analyte Comments
1/11/2022 – 1/14/2022 STATE RESIDUAL CHLORINE AUTOMATED BWN CERT
Additional Required Health Effects Language:
Some people who drink water containing haloacetic acids in excess of the MCL over many years have an increased rick of getting cancer.
There are no additional required health effects violation notices.
Some or all of our drinking water is supplied from another water system. The table below lists all of the drinking water contaminants, which were detected during the 2022 calendar year from the water systems that we purchase drinking water from.
Regulated Collection Water Highest Range
Contaminants Date System Value (low/high) Unit MCL MCLG Typical Source
BARIUM 4/12/2022 Clay Water 0.0265 0.0265 ppm 2 2 Discharge of drilling Dept. wastes; Discharge from
metal refineries;
Erosion of natural
deposits
NITRATE 9/13/2022 Clay Water 0.23 0.23 ppm 10 10 Runoff from fertilizer Dept. use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
NITRATE- 7/13/2021 Clay Water 0.11 0.11 ppm 10 10 Runoff from fertilizer
NITRITE Dept. use; Leaching from
septic tanks, sewage;
Erosion of natural
deposits
GROSS 9/13/22 Clay Water 0.221 0.221 pCi/L 15 Erosion of natural ALPHA, Dept. deposits
EXCL.
RADON & U
RADIUM-228 9/13/22 Clay Water 0.476 0.476 pCi/L 5 Erosion of natural
Dept. deposits
Secondary Collection Water Highest Range
Contaminants Date System Value (low/high) Unit SMCL
ALKALINITY, TOTAL 11/10/2022 CLAY WATER DEPT 33.6 8.8-33.6 MG/L 10000
ALUMINUM 5/12/2022 CLAY WATER DEPT 13.7 0.62-13.7 MG/L 0.05
BORON, TOTAL 7/13/2021 CLAY WATER DEPT 9.4 8.6-9.4 UG/L
CALCIUM 8/17/2021 CLAY WATER DEPT 14400 12800-14400 UG/L
CARBON, TOTAL 3/8/2022 CLAY WATER DEPT 1.9 0-1.9 ppm 10000
CHLORIDE 7/13/2021 CLAY WATER DEPT 8.7 7.9-8.7 MG/L 250
CHLORINE 12/3/2019 CLAY WATER DEPT 1.4 1.4 MG/L 4
GIARDIA LAMBLIA 12/3/2019 CLAY WATER DEPT 1 0-1 1
IRON 5/12/2022 CLAY WATER DEPT 0.636 0.041-0.636 MG/L 0.3
MAGNESIUM 8/17/2021 CLAY WATER DEPT 6840 4.2-6840 UG/L
MANGANESE 5/12/2022 CLAY WATER DEPT 0.224 0.098-0.224 MG/L 0.05
PH 5/18/2020 CLAY WATER DEPT 8.9 8.9 SU 8.5
POTASSIUM 8/17/2021 CLAY WATER DEPT 1540 1330-1540 UGL
SODIUM 8/17/2021 CLAY WATER DEPT 7.93 5.71-7.93 MG/L 1000
SULFATE 8/17/2021 CLAY WATER DEPT 37.8 29.9-37.8 MG/L 250
ZINC 7/13/2021 CLAY WATER DEPT 0.0056 0.0025-0.0056 MG/L 5
Please Note: Because of sampling schedules, results may be older than 1 year.
During the 2022 calendar year, the water systems that we purchase water from had the below noted violation(s) of drinking water regulations.
Water System Type Category Analyte Compliance Period
CLAY WATER DEPT Monitoring, Routine Major MON SODIUM 1/1/2022 – 12/31/2022
CLAY WATER DEPT Failure Address Deficiency
(EPA Survey) TT LT2ESWTR 9/2/2022
CLAY WATER DEPT Failure Address Deficiency
(EPA Survey) TT LT2ESWTR 9/2/2022
There are no additional required health effects violation notices.
There are no additional required health effects notices.
This Consumer Confidence Report is not being mailed to each customer. A copy can be provided upon request by calling our office at 304-587-7579.
Additional Information:
Turbidity is the measure of cloudiness of the water. We monitor it because it is a good indicator of the effectiveness of our filtration system.
All other water test results for the reporting year 2018 were all non-detects.
If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. The Clay-Roane PSD, and Clay County PSD are responsible for providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your drinking water, you may wish to have your water tested. Information on lead in drinking water, testing methods and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline at 1-800-426-4791 or at http://www.epa.gov/safewater/lead at our offices during business hours.
This report will not be mailed. A copy will be made available for review or your use upon request.
System Name: Clay Roane PSD, Clay PSD Ivydale, Clay PSD Triplettt, Clay PSD Hartland
PWS: wv3300806, WV3300809, WV3300810, wv3300811
Disclaimer: This document contains public information on the Water test results/ compliance issues for your Public Water System. The Consumer Confidence Report addresses public information state, and federal laws and regulations regarding your PWS.
Knowledgeable professionals prepared this document using current information obtained by the water system. The authors make no representation, expressed or implied, that this information is suitable for any specific situation. The authors have no obligation to update this work or to make notification of any changes in statutes, regulations, information, or programs described in this document. Publication of this document does not replace the duty of water systems to warn and properly inform their customers concerning health and safety risks and necessary precautions with their water systems compliance.
Rural Community Assistance Partnership, Inc. assumes no liability resulting from the use or reliance upon any information, guidance, suggestions, conclusions, or opinions contained in this document.
Print Name _________________________________ Date: 5/4/2023
Signature ___________________________________
