Westfield - South Madison (IN5248026) 2023 Water Quality Data
The chart below gives you a quick look at some of the substances that the EPA requires Citizens to test for. The contaminant is listed to the left, followed by the maximum amount allowed by regulations and then the amount that we found in our water. The tests are done on treated finished water. See Definitions of Terms for an explanation of terms used in this chart.
Citizens Energy Group—Citizens Westfield - South MadisonConsumer Confidence Report Data 2023 |
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REGULATED CONTAMINANTS
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| Contaminant | MCLG (Goal) | MCL (Limit) | Average of All Samples | Maximum of All Samples | System Wide Range | Compliance Achieved | Possible Source |
| Barium (ppm) | 2 ppm | 2 ppm | 0.37 ppm | 0.37 ppm | 0.37 ppm (1 Sample) |
YES | Erosion of natural deposits |
| Chromium (ppb) | 100ppb | 100ppb | ND | ND | ND | YES | Discharge from steel and pulp mills; erosion of natural deposits. |
| Fluoride (ppm) | 4 ppm | 4 ppm | 0.58 ppm | 0.65 ppm | 0.49 - 0.65 ppm | YES | Natural deposits & treatment additive |
| Nitrate (ppm) | 10 ppm | 10 ppm | 0.49 ppm (1 sample) |
0.49 ppm (1 sample) |
0.49 ppm (1 sample) |
YES | Fertilizer, septic tank leachate |
| Total Trihalomethanes (TTHMs) | N/A | 80 ppb | 9.4 ppb | 10 ppb | 8.9 - 10 ppb | YES | By-product of chlorination treatment |
| Haloacetic acids (HAA5) | N/A | 60 ppb | 5.9 ppb | 6.2 ppb | 5.6 - 6.2 ppb | YES | By-product of chlorination treatment |
| E coli | 0 | 1 | ND | ND | ND | YES | Human and animal fecal waste |
| Total Coliforms | N/A | 5.0% | 0% | 0% | 0% | YES | Naturally present in the environment |
| Combined Radium (-226 & -228) [2019 data] | 0 | 5 pCi/L | N/A | 1.3 pCi/L | 1 Sample | YES | Erosion of natural deposits |
| Gross Alpha, Excl. Radon & Uranium [2019 data] | 0 | 15 pCi/L | N/A | 1.1 pCi/L | 1 Sample | YES | Erosion of natural deposits |
| Contaminant | MRDLG | MRDL | Average of All Samples | Maximum of All Samples | System Wide Range | Compliance Achieved | Possible Source |
| Chloramines (measured as Total Chlorine) | 4 ppm | 4 ppm | 1.9 ppm | 2.2 ppm | 1.0 - 2.2 ppm | YES | Water additive used to control microbes. |
| Contaminant | MCLG | AL | Average of All Samples | Maximum of All Samples | System Wide Range | Compliance Achieved | Possible Source |
| Copper (ppm) [2021 Data] | 1.3 ppm | 1.3 ppm (90th percentile) |
0.30 ppm | 1.6 ppm | 0.80 ppm is the 90th Percentile (1 of 7 > AL) |
YES | Corrosion of customer plumbing |
| Lead (ppb) [2021 Data] | 0 ppb | 15 ppb (90th percentile) |
2.6 ppb | 6.9 ppb | 5.2 ppb is the 90th Percentile (0 of 7 > AL) |
YES | Corrosion of customer plumbing |
SECONDARY DRINKING WATER STANDARDS & UNREGULATED CONTAMINANTS:
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* Secondary standards are non-mandatory guidelines established by the EPA to assist utilities in managing drinking water for aesthetic considerations, such as taste, odor, and color. These contaminants are not considered to present a risk to human health at the SMCL. |
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| Contaminant | SMCL | Average of All Samples | Maximum of All Samples | System Wide Range | Possible Source | ||
| Chloride (ppm) | 250 ppm | 29 ppm | 41 ppm | 25 - 41 ppm | Natural deposits; water treatment additive | ||
| Hardness (ppm) | N/A | 413 ppm | 436 ppm | 392 - 436 ppm | Erosion of natural deposits; leaching | ||
| pH (Standard Units) | 6.5 - 8.5 | 7.4 | 7.9 | 6.9 - 7.9 | |||
| Sodium (ppm) | N/A | 9.6 ppm | 12 ppm | 8.6 - 12 ppm | Erosion of natural deposits; leaching | ||
| Sulfate (ppm) | 250 ppm | 48 ppm | 51 ppm | 43 - 51 ppm | Erosion of natural deposits; leaching | ||
| IDEM VOLUNTARY MONITORING (Sampled at Treatment Plant) |
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| Contaminant | HBRV | Average of All Samples | Maximum of All Samples | System Wide Range | Possible Source | ||
| Tested for 29 PFAS compounds. Zero (0) were detected. | NA | ND | ND | ND | Discharge from manufacturing and industrial chemical facilities, and certain firefighting activities. | ||
| Lithium | NA | ND | ND | ND | Naturally present in the environment | ||
Note: The State requires us to monitor for certain contaminants less than once per year because the concentrations of these contaminants do not change frequently. Some of our data, though accurate, is more than one year old. Some contaminants are sampled less frequently than once a year; as a result, not all contaminants were sampled for during the 2023 calendar year. If any of these contaminants were detected the last time they were sampled for, they are included in the table along with the date that the detection occurred. Compliance monitoring for lead and copper is required no less frequently than every three years. Radiochemical contaminant monitoring is conducted every nine years.
Note about Lead in Tap Water: Infants and young children are typically more vulnerable to lead in drinking water than the general population. It is possible that the lead levels at your home may be higher than other homes in your 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. Also, flush your tap water for 30 seconds to two minutes before using tap water. Additional information is available from the U.S. EPA Safe Drinking Water Hotline at 800-426-4791 or www.EPA.gov
Citizens participated in the Indiana Department of Environmental Management (IDEM) voluntary monitoring program for PFAS compounds. Citizens collected samples from source and finished water in June 2022 and detected compounds are shown in the table above. More information and full results can be found on IDEM’s website at in.gov/idem/pfas/.