The URL can be used to link to this page

Home My WebLink AboutNC0043532_Fact Sheet_20231016Fact Sheet NPDES Permit No. NCOO43532 Permit Writer/Email Contact: Nick Coco, nick.coco@deq.nc.gov Date: 10/6/2023 Division/Branch: NC Division of Water Resources/NPDES Municipal Permitting Fact Sheet Template: Version 09Jan2017 Permitting Action: ❑ Renewal © Renewal with Expansion ❑ New Discharge ❑ Modification (Fact Sheet should be tailored to mod request) Note: A complete application should include the following: • For New Dischargers, EPA Form 2A or 2D requirements, Engineering Alternatives Analysis, Fee • For Existing Dischargers (POTW), EPA Form 2A, 3 effluent pollutant scans, 4 2nd species WET tests. • For Existing Dischargers (Non-POTW), EPA Form 2C with correct analytical requirements based on industry category. Complete applicable sections below. If not applicable, enter NA. 1. Basic Facility Information Facility Information Applicant/Facility Name: Stanly County Utilities/West Stanly Wastewater Treatment Plant (WWTP) Applicant Address: 1000 N. lst Street, Suite 12, Albemarle, NC 28001 Facility Address: 24939-B Barbees Grove Road (NCSR 1953), Oakboro, NC 28129 Permitted Flow: 1.2 MGD with proposed expansion to 2.5 MGD Facility Type/Waste: MAJOR Municipal; 89.2% domestic, 10.8% industrial* Facility Class: Grade III Biological Water Pollution Control System at both flow tiers Treatment Units: Influent pump station with bar screen, grit removal, flow measurement, Influent flow splitter box, Influent composite sampler, Two aeration basins with mechanical aerators, Clarifier splitter box, Two secondary clarifiers, RAS/WAS pump station, Chlorine contact basin with dechlorination unit, Effluent composite sampler, Effluent pump station, aerobic digester Pretreatment Program (Y/N) Y County: Stanly Region Mooresville *Based on permitted flows. Briefly describe the proposed permitting action and facility background: Stanly County Utilities applied on July 7, 2023 for an NPDES permit renewal at 1.2 MGD for the West Stanly WWTP, with a request for a proposed expansion tier at 2.5 MGD. The newly proposed 2.5 MGD expansion project is receiving funding via US Department of Agriculture Rural Development (USDA-RD) and the American Rescue Plan Act (ARPA). An Engineering Alternatives Analysis was submitted with the application. Flow projections and engineering alternatives are discussed in detail below in Antidegradation Review. This facility serves a population of approximately 6,100 residents across the towns of Locust, Oakboro, Red Cross and Stanfield, as well as 1 categorical significant industrial user (CIU), Charlotte Pipe and Foundry Company — 40 CFR 464.36 (Ferrous Casting) and 433.17 (Metal Finishing), via an approved Page 1 of 17 pretreatment program. Charlotte Pipe and Foundry has not yet commenced discharge to the West Stanly WWTP. Treated domestic and industrial wastewater is discharged via Outfall 002 into the Rocky River, a Class C waterbody in the Yadkin -Pee Dee River Basin. Outfall 002 is located approximately 1.8 miles away from the West Stanly WWTP. However, due to use of chlorination for disinfection, bacterial regrowth along the long outfall line is not considered an issue. Outfall 002 is located approximately 20 miles upstream of the waters designated as WS-V, B. Special Order By Consent (SOC) History: Stanly County Utilities was issued Environment Management Commission (EMC) SOC WQ 519-003 on March 6, 2020 to set required steps toward compliance with Total Suspended Solids (TSS) and fecal coliform permit requirements. Under the SOC, interim limits for TSS of 45.0 mg/L (monthly average) and 70.0 mg/L (weekly average) and for fecal coliform of 400/100mL (monthly geomean) and 600/100mL (weekly geomean) were set at both Outfall 001 and 002. On 12/22/2021, the SOC was amended to extend the construction timeline from 365 days to 525 days following the beginning of construction. The SOC expired on January 31, 2023. Expansion History: The Final Engineer's certification for completion of expansion of the West Stanly WWTP from 0.9 MGD to 1.2 MGD was received by the Division on March 31, 2022. Expansion of the facility results in the removal of the 0.9 MGD flow tier effluent limitation page as well as the removal of emergency Outfall 001, which was an emergency gravity overflow outfall from the effluent pump station to Long Creek. Outfall 001 is no longer considered as an active discharge location with the expansion of the West Stanly WWTP to 1.2 MGD. Inflow and Infiltration (I/I): In their application, Stanly County Utilities indicated an approximate average daily volume of I/I experienced at the treatment works of 297,000 gallons per day (gpd). Stanly County Utilities also noted that the City of Locust and the Town of Stanfield are billed at 100% of flow including 1/I, which financially leverages them to reduce their 1/1. Stanly County owns and maintains the Red Cross sewer system and thus is responsible for reducing their 1/1. Frequent manhole inspections are made during rain events; cleaning, televising, and smoke testing of sewer system are also performed. Repairs are performed as I/1 is found. As part of the 2.5-MGD expansion, high flows will be equalized with an equalization (EQ) tank. Sludge disposal: Currently sludge is removed from the treatment process hauled off -site by a licensed contractor, SynaGro, for land application. 2. Receiving Waterbody Information: Receiving Waterbody Information Outfalls/Receiving Stream(s): Outfall 002 — Rocky River Stream Segment: 13-17 Stream Classification: C Drainage Area (mi2): 965 Summer 7Q 10 (cfs) 29 Winter 7Q 10 (cfs): 51 30Q2 (cfs): - Average Flow (cfs): 920 IWC (% effluent): 6.0% at 1.2 MGD; 11.8% at proposed 2.5 MGD 2022 303(d) listed/parameter: Yes; Listed as impaired for turbidity, copper and zinc and data inconclusive for fecal coliform Subject to TMDL/parameter: Yes- State wide Mercury TMDL implementation Basin/HUC: Yadkin -Pee Dee River/03040105 USGS Topo Quad: G17NE Page 2 of 17 3. Effluent Data Summary Effluent data for Outfall 002 is summarized below for the period of January 2019 through June 2023. Table 1. Effluent Data Summary Outfall 002 Parameter Units Average Max Min Permit Limit Flow MGD 0.61 2.871 0.01 MA 1.2 WA 15.0 BOD mg/1 9.6 221 1.2 MA 10.0 WA 12.0 NH3N mg/1 4.5 41 0.1 MA 4.0 WA 45.0 TSS* mg/1 10.5 380 0.2 MA 30.0 6.0>pH<9.0 pH SU 6.8 8.6 6 (geometric) Fecal coliform* #/100 ml (geomean) > 6000 < 1 WA 400 18.9 MA 200 DO mg/1 8.5 12.78 5.25 DA > 6.0 Monitor &Report Temperature ° C 18.1 27.4 7.6 TRC ug/1 24.3 50 1 DM 28 Monitor & TN mg/1 10.3 41 0.92 Report Monitor & TP mg/1 2.0 6.1 0.14 Report Monitor & Total Copper ug/1 6.4 17 < 5 Report Monitor & Total Zinc ug/1 39.8 82 14 Report Monitor & Total Hardness mg/1 63 76 49.4 Report MA -Monthly Average, WA -Weekly Average, DM -Daily Maximum, DA=Daily Average *Interim SOC limits for TSS of 45.0 mg/L (monthly average) and 70.0 mg/L (weekly average) and for fecal coliform of 400/100mL (monthly geomean) and 600/100mL (weekly geomean) were active until 1 /31 /2023. The average annual flows experienced at the West Stanly WWTP are summarized in Table 2, shown below. Table 2. Average Effluent Flows Year Average Annual Flow [MGD Percent of Capacity [%] 2019 0.59 49 2020 0.67 56 2021 0.61 51 2022 0.55 46 2023 0.67 (year to date) 56 Page 3 of 17 4. Instream Data Summary Instream monitoring may be required in certain situations, for example: 1) to verify model predictions when model results for instream DO are within 1 mg/1 of instream standard at full permitted flow; 2) to verify model predictions for outfall diffuser; 3) to provide data for future TMDL; 4) based on other instream concerns. Instream monitoring may be conducted by the Permittee, and there are also Monitoring Coalitions established in several basins that conduct instream sampling for the Permittee (in which case instream monitoring is waived in the permit as long as coalition membership is maintained). Is this facility a member of a Monitoring Coalition with waived instream monitoring (YIN): YES Name of Monitoring Coalition: Yadkin -Pee Dee River Basin Association If applicable, summarize any instream data and what instream monitoring will be proposed for this permit action: The current permit requires instream monitoring for dissolved oxygen, temperature and fecal coliform upstream at least 100 feet above the discharge point and downstream 1.7 miles below the discharge point near the end of NCSR 1659 (Cornett Road). As the permittee is a member of the Yadkin - Pee Dee River Basin Association (YPDRBA) instream monitoring requirements are provisionally waived. The nearest upstream YPDRBA monitoring station is Q8480000, located approximately 7.4 mile upstream of the outfall. No nearby YPDRBA monitoring station exists downstream of the discharge. The Division's Ambient Monitoring System (AMS) has an active monitoring station Q9120000, located approximately 10 miles downstream of the outfall. Due to the distance from outfall for each monitoring station and the existence of numerous confluences between the outfall and instream stations, a statistical analysis was not conducted. Instead, each station's data were used to assess compliance with stream standards. Instream data have been summarized below in Table 3. , Table 3. Instream Monitoring Data Summary Parameter Units Q8480000 (1/2018-12/2022) Q9120000 (1/2018 - 3/2020) Average Max Min Average Max Min Temperature ° C 20.4 32 4.3 18.7 31.9 5.7 DO mg/1 8.7 14.2 5.9 9.95 15.6 6.8 Fecal Coliform #/100mL (geomean) 351 8200 38 (geomean) 244 3200 28 Turbidity NTU 63 450 3.1 37 200 3.4 TKN mg/1 1.1 3.49 0.41 0.8 1.6 0.51 NO2+NO3 mg/1 3.7 12.42 0.66 3.1 8.4 1.1 TP mg/1 0.5 1.29 0.14 0.4 0.98 0.14 pH s.u. 7.7 9 6.2 7.8 8.7 1 7.3 Conductivity umhos/cm 224 487 83 208 423 80 TSS mg/1 - - - 73.1 213 6.8 Upstream and downstream temperatures were not observed at levels greater than 32 degrees Celsius [per 15A NCAC 02B .0211 (18)] during the period reviewed. Upstream and downstream DO did not drop below 5 mg/L [per 15A NCAC 02B .0211 (6)] during the period reviewed. Of the 58 samples collected from January 2018 through December 2022 at upstream station Q8480000, fecal coliform was detected at levels greater than 200/100mL on 32 occasions and greater than 400/100mL on 25 occasions. Of the 26 samples collected from January 2018 through March 2020 at Page 4 of 17 downstream station Q9120000, fecal coliform was detected at levels greater than 200/100mL on 14 occasions and greater than 400/100mL on 6 occasions. Turbidity was observed at levels greater than 50 NTUs [15A NCAC 02B .0211 (21)] at both monitoring stations during the period reviewed. Downstream turbidity was generally observed at levels less than upstream turbidity. pH was observed at levels within the range of 6.0 to 9.0 significant units [ 15A NCAC 02B .0211 (14)] at both monitoring stations during the period reviewed. As the receiving stream is listed as impaired for turbidity, dissolved copper and dissolved zinc and inconclusive for fecal coliform in the 2022 303d list, instream monitoring for turbidity, fecal coliform, dissolved copper and dissolved zinc has been added. Based on discussions with the Division's Basin Planning Branch, instream monitoring for TP, TKN, NO2+NO3, ammonia and pH have been added to the permit at a monthly frequency. Due to the distance from Outfall 002 for both the YPDRBA station Q8480000 and AMS station Q9120000 and the confluences with multiple interconnected streams in between, determination of influence from the West Stanly WWTP outfall is difficult. The instream sampling locations may not be representative of the discharge impact. As such, it is recommended that YPDRBA relocated their monitoring station to the location of the inactive AMS station Q8510000, which exists approximately 2.2 miles above the outfall, and add a downstream monitoring station at the location of the inactive AMS station Q8740000, which exists approximately 3 miles downstream of the outfall and is above the confluence with Richardson Creek. The relocation and addition of the aforementioned YPDRBA stations will provide more representative data to determine whether the West Stanly WWTP is influencing the receiving stream. The recommended monitoring locations have been identified below in Figure 1. ti / s ��/ 01-5-11-e� Stanly Se.hns:. .��, Oakboif, West Stanly Outfall 002 WWTP 138 i Inactive AMS 49R fl Q8510000 Inactive AMS 08740000 YPDRBA Q8480000 AMS Q9120000 Figure 1. Monitoring Station and Effluent Locations Page 5 of 17 As the facility is pursuing expansion that would over double its capacity, tracking downstream impact is critical. As such, the provisional waiver for instream monitoring has been revised and is only applicable if the YPDRBA relocates station Q8480000 to a location closer to the West Stanly WWTP discharge and activates a representative downstream station for sample collection. Instream sampling is to be conducted by Stanly County in the event that YPDRBA does not accomplish the revisions for conducting sampling that is representative of this facility's discharge. 5. Compliance Summary Summarize the compliance record with permit effluent limits (past 5 years): The facility reported 6 fecal coliform limit exceedances and 2 flow limit exceedances resulting in enforcement in 2018. In 2019, the facility reported 7 TSS limit exceedances, 7 fecal coliform limit exceedances and 10 BOD limit exceedances resulting in enforcement. The facility reported 2 TSS limit exceedances, 3 fecal coliform limit exceedances, 15 ammonia limit exceedances, 2 flow limit exceedances and 5 BOD limit exceedances resulting in enforcement in 2020. In 2021, the facility reported 1 TSS limit exceedance, 21 ammonia limit exceedances, 2 flow limit exceedances and 9 BOD limit exceedances resulting in enforcement. The facility reported 2 BOD limit exceedances resulting in enforcement in 2022. In 2023, the facility reported 3 ammonia limit exceedances and 3 BOD limit exceedances resulting in enforcement. Summarize the compliance record with aquatic toxicity test limits and any second species test results (past S years): The facility passed 18 of 18 quarterly chronic toxicity tests, as well as all 4 second species chronic toxicity tests conducted from January 2019 to April 2023. Summarize the results from the most recent compliance inspection: The last facility inspection conducted in August 2022 reported that the facility was compliant. During the inspection, the Mooresville Regional Office did note a buildup of solids on the influent bar screen and instructed the operator to check the wash cycle of the influent screen to ensure proper cleaning. 6. Water Quality -Based Effluent Limitations (WQBELs) The Division provided speculative limits for the 2.5 MGD expanded flow tier on January 27, 2020. These limits, shown below, are proposed to be implemented in the permit. Table 4. Speculative Limits for 2.5 MGD Expansion Tier Effluent Chavaoteristic Effluent Limitations WFIthly Average weeklv Average Daily Maximum 2.5 MGD BOD{ 5.0 Tn T L 7.5 mgfL NH3 a 1 9.8rnT 5.4m Nssolvod Oxygen 5,0 in L Daily Minimum Average TSS 30.0 rr g/L 45.0 m L 28 ; V1 _ _ Ti3C _ Fecal coliformn (gonrn trio 200/100 MI m carp) 40(110fl nil Chronic Toxicity, PassJFail (Quarterly test 4.6°/Q 1. Subject to change. Updated flows will be determined upon receipt of application for expansion. Page 6 of 17 The percent effluent at which chronic toxicity testing shall be conducted as identified in the January 27, 2020 letter has not been adopted. More information regarding the 2.5 MGD expanded flow tier chronic toxicity testing requirement may be found below in Toxicity Testing Requirements. The current permit sets a dissolved oxygen (DO) requirement of a daily average greater than or equal to 6.0 mg/L at the 1.2 MGD flow tier. The speculative DO limit identified in the January 27, 2020 letter indicates a daily average greater than or equal to 5.0 mg/L. As the requirement is less restrictive at a higher flow, the DO limit identified in the January 27, 2020 letter has not been adopted and the DO requirements set for the 1.2 MGD flow tier have been applied to the expansion 2.5 MGD flow tier. The DO limit has been set as a daily average greater than or equal to 6.0 mg/L at the 2.5 MGD flow tier. Dilution and Mixing Zones In accordance with 15A NCAC 213.0206, the following streamflows are used for dilution considerations for development of WQBELs: 1Q10 streamflow (acute Aquatic Life); 7Q10 streamflow (chronic Aquatic Life; non -carcinogen HH); 30Q2 streamflow (aesthetics); annual average flow (carcinogen, HH). If applicable, describe any other dilution factors considered (e.g., based on CORMIX model results): NA If applicable, describe any mixing zones established in accordance with 15A NCAC 2B.0204(b): NA Oxygen -Consuming Waste Limitations Limitations for oxygen -consuming waste (e.g., BOD) are generally based on water quality modeling to ensure protection of the instream dissolved oxygen (DO) water quality standard. Secondary TBEL limits (e.g., BOD= 30 mg/1 for Municipals) may be appropriate if deemed more stringent based on dilution and model results. Ifpermit limits are more stringent than TBELs, describe how limits were developed: The current permit limitations for BOD and ammonia at the 1.2 MGD flow tier are based on a 2005 QUAL2E model prepared for Rocky River and Mallard Creek applying 1.2 MGD discharge from the West Stanly WWTP. No changes are proposed for the 1.2 MGD flow tier BOD limits. Proposed BOD and ammonia permit limitations for the 2.5 MGD flow tier are based on freezing current permitted BOD ultimate loading (i.e., facility will not be allowed to discharge oxygen -consuming waste above what is currently permitted). Requests for seasonal limits in accordance with 15A NCAC 02B .0404 will need to be supported by a QUAL2K or equivalent water quality model. The resultant limits at expanded flows are considered technologically -feasible. Ammonia and Total Residual Chlorine Limitations Limitations for ammonia are based on protection of aquatic life utilizing an ammonia chronic criterion of 1.0 mg/l (summer) and 1.8 mg/l (winter). Acute ammonia limits are derived from chronic criteria, utilizing a multiplication factor of 3 for Municipals and a multiplication factor of 5 for Non -Municipals. Limitations for Total Residual Chlorine (TRC) are based on the NC water quality standard for protection of aquatic life (17 ug/1) and capped at 28 ug/l (acute impacts). Due to analytical issues, all TRC values reported below 50 ug/l are considered compliant with their permit limit. Describe any proposed changes to ammonia and/or TRC limits for this permit renewal: The current TRC limit was reviewed in the attached wasteload allocation. The limit of 28 µg/l is found to be protective, and there are no proposed changes. TRC limits at 2.5 MGD have been assessed in the attached wasteload allocation and the limit of 28 µg/1 has been added at 2.5 MGD. Page 7 of 17 Please see Oxygen -Consuming Waste Limitations for information regarding ammonia limitations. Ammonia limits have been reviewed in the attached WLA based on Instream Waste Concentration -based calculations for ammonia toxicity and have been found to be protective. Reasonable Potential AnalysisRPA) for Toxicants If applicable, conduct RPA analysis and complete information below. The need for toxicant limits is based upon a demonstration of reasonable potential to exceed water quality standards, a statistical evaluation that is conducted during every permit renewal utilizing the most recent effluent data for each outfall. The RPA is conducted in accordance with 40 CFR 122.44 (d) (i). The NC RPA procedure utilizes the following: 1) 95% Confidence Level/95% Probability; 2) assumption of zero background; 3) use of detection limit for "less than" values; and 4) streamflows used for dilution consideration based on 15A NCAC 2B.0206. Effective April 6, 2016, NC began implementation of dissolved metals criteria in the RPA process in accordance with guidance titled NPDES Implementation of Instream Dissolved Metals Standards, dated June 10, 2016. Effluent and upstream hardness data provided by the County from January 2019 to April 2023 were used in RPA calculations for hardness -dependent metals. A reasonable potential analysis was conducted on effluent toxicant data collected between June 2018 and January 2023. Pollutants of concern included toxicants with positive detections and associated water quality standards/criteria. Based on this analysis, the following permitting actions are proposed for this permit: • Effluent Limit with Monitoring. The following parameters will receive a water quality -based effluent limit (WQBEL) since they demonstrated a reasonable potential to exceed applicable water quality standards/criteria: None • Monitoring Only. The following parameters will receive a monitor -only requirement since they did not demonstrate reasonable potential to exceed applicable water quality standards/criteria, but the maximum predicted concentration was >50% of the allowable concentration: None • No Limit or Monitoring: The following parameters will not receive a limit or monitoring, since they did not demonstrate reasonable potential to exceed applicable water quality standards/criteria and the maximum predicted concentration was <50% of the allowable concentration: Total Copper, Total Zinc (See note below) • POTW Effluent Pollutant Scan Review: Three effluent pollutant scans (Three conducted in 2022 — after expansion to 1.2 MGD per permit requirement) were evaluated for additional pollutants of concern. o The following parameter(s) will receive a water quality -based effluent limit (WQBEL) with monitoring, since as part of a limited data set, two samples exceeded the allowable discharge concentration: Total Cyanide (monitor and report at 1.2 MGD; limit and monitoring for 2.5 MGD) o The following parameter(s) will receive a monitor -only requirement, since as part of a limited data set, one sample exceeded the allowable discharge concentration: None o The following parameters will not receive a limit or monitoring, since they did not demonstrate reasonable potential to exceed applicable water quality standards/criteria and the maximum predicted concentration was <50% of the allowable concentration: Total Arsenic, Total Beryllium, Total Cadmium, Total Phenolic Compounds, Total Chromium, Total Lead, Total Nickel, Total Selenium, Total Silver If applicable, attach a spreadsheet of the RPA results as well as a copy of the Dissolved Metals Implementation Fact Sheet for freshwater/saltwater to this Fact Sheet. Include a printout of the RPA Dissolved to Total Metal Calculator sheet if this is a Municipality with a Pretreatment Program. Stanly County reported Total Cadmium and Total Silver at less than detection, with detection levels < 10.0 µg/L, and < 5.0 µg/L respectively, in the Effluent Pollutant Scans. The County's allowable discharge Page 8 of 17 concentration for Total Silver at 1.2 MGD is 1.0 µg/L. The County's allowable discharge concentrations at 2.5 MGD are 8.7 µg/L and 0.5 µg/L for Total Cadmium and Total Silver, respectively. DWR's laboratory identifies the target Practical Quantification Limits (PQLs) for Total Cadmium and Total Silver as 0.5 µg/L, and 1.0 µg/L, respectively. 15A NCAC 2B .0505 (e) (4) requires that all test procedures must produce detection and reporting levels that are below the permit discharge requirements and all data generated must be reported to the approved detection level or lower reporting level of the procedure. If no approved methods are capable of achieving a detection level below the permit discharge requirement (or allowable discharge concentration) the method with the lowest detection level must be used. The County should use sufficiently sensitive test methods for all pollutants, including when performing Effluent Pollutant Scans. Note on total copper and total zinc: While no reasonable potential for excursions above their respective surface water quality standards was observed, quarterly monitoring for total copper and total zinc has been maintained in the permit due to the receiving stream's impairment for both parameters. Additionally, copper and zinc are parameters associated with Charlotte Pipe and Foundry Company, which will be sending its wastewater to the West Stanly WWTP in the future. Toxicity Testing Limitations Permit limits and monitoring requirements for Whole Effluent Toxicity (WET) have been established in accordance with Division guidance (per WET Memo, 8/2/1999). Per WET guidance, all NPDES permits issued to Major facilities or any facility discharging "complex" wastewater (contains anything other than domestic waste) will contain appropriate WET limits and monitoring requirements, with several exceptions. The State has received prior EPA approval to use an Alternative WET Test Procedure in NPDES permits, using single concentration screening tests, with multiple dilution follow-up upon a test failure. Describe proposed toxicity test requirement: This is a Major POTW, chronic WET testing will continue on a quarterly frequency. At the existing 1.2 MGD flow tier, chronic WET testing is conducted at 6.0%. No changes are proposed to the WET testing requirements at the 1.2 MGD flow tier. The 2020 speculative limits provided for the proposed expansion to 2.5 MGD noted chronic WET testing should be conducted quarterly at 4.6%. However, based on the summer 7Q10 of 29 cubic feet per second and the proposed 2.5 MGD discharge, the percent effluent appropriate for the expanded 2.5 MGD flow in the receiving stream is 11.8% effluent. As such, quarterly chronic WET testing shall be conducted at 11.8% effluent upon expansion to the 2.5 MGD flow tier. Chronic toxicity testing shall be conducted during the months of January, April, July and October for both flow tiers. Mercury Statewide TMDL Evaluation There is a statewide TMDL for mercury approved by EPA in 2012. The TMDL target was to comply with EPA's mercury fish tissue criteria (0.3 mg/kg) for human health protection. The TMDL established a wasteload allocation for point sources of 37 kg/year (81 lb/year), and is applicable to municipals and industrial facilities with known mercury discharges. Given the small contribution of mercury from point sources (-2% of total load), the TMDL emphasizes mercury minimization plans (MMPs) for point source control. Municipal facilities > 2 MGD and discharging quantifiable levels of mercury (>1 ng/1) will receive an MMP requirement. Industrials are evaluated on a case -by -case basis, depending if mercury is a pollutant of concern. Effluent limits may also be added if annual average effluent concentrations exceed the WQBEL value (based on the NC WQS of 12 ng/1) and/or if any individual value exceeds a TBEL value of 47 ng/1 Page 9 of 17 Table 5. Mercury Effluent Data Summary 2022 # of Samples 3 Annual Average Conc. n /L 1.1 Maximum Conc., n /L 2.27 TBEL, n /L 47 WQBEL, n 199.1 1.2 MGD & 101.81 g 2.5 MGD Describe proposed permit actions based on mercury evaluation: Since no annual average mercury concentration exceeded the WQBEL, and no individual mercury sample exceeded the TBEL, no mercury limit is required. Since the facility is < 2.0 MGD, no mercury minimization plan (MMP) condition is required. While the expanded flow tier is above 2.0 MGD, the facility reported only one detection with quantifiable levels of mercury (> 1 ng/1). As such, no MMP condition has been added to the expanded flow tier. As Stanly County conducted sampling and submitted effluent low level mercury data from their effluent pollutant scans, the requirements of Special Condition A.(6.) Effluent Mercury Analysis have been satisfied and the condition has been removed from the permit. Other TMDL/Nutrient Management Strategy Considerations If applicable, describe any other TMDLs/Nutrient Management Strategies and their implementation within this permit: N/A; This segment of the Yadkin -Pee Dee River that receives the discharge from Outfall 002 is downstream from High Rock Lake, which is currently undergoing criteria development for chlorophyll -a. While no nutrient modeling is in development currently, consideration of nutrient loading may occur in future permit cycles. Other WQBEL Considerations If applicable, describe any other parameters of concern evaluated for WQBELs: As required by Session Law 2018-5, Senate Bill 99, Section 13.1(r), every applicant shall submit documentation of any additional pollutants for which there are certified methods with the permit application if their discharge is anticipated via a Chemical Addendum to NPDES Application table. As an attachment to the permit application, the County informed the Division that no monitoring for additional pollutants has been conducted (see renewal application) and therefore no additional pollutants of concern have been identified. As the West Stanly WWTP discharges approximately 20 miles upstream of WS waters, monitoring of HAS chemicals will be added to the permit at a frequency of quarterly. Since an EPA method for sampling and analyzing PFAS in wastewater is not currently available, the PFAS sampling requirement in the Permit includes a compliance schedule which delays the effective date of this requirement until the first full calendar quarter beginning 6 months after EPA has a final wastewater method in 40 CFR 136 published in the Federal Register. This date may be extended upon request and if there are no NC - certified labs. As the West Stanly WWTP is set to receive industrial flow from a metal finisher, Charlotte Pipe, 1,4- dioxane is a parameter of consideration. To further understand any contribution of 1,4-dioxane from this facility, quarterly effluent monitoring has been added, to be effective upon commencement of discharge from Charlotte Pipe to the West Stanly WWTP. After a 24-month sampling period, the Permittee may request the Division conduct a review of submitted data for assessment and approval of a 1,4-dioxane monitoring frequency reduction from quarterly to annually. If applicable, describe any special actions (HQW or ORW) this receiving stream and classification shall comply with in order to protect the designated waterbody: NA Page 10 of 17 If applicable, describe any compliance schedules proposed for this permit renewal in accordance with 15A NCAC 2K 0107(c)(2)(B), 40CFR 122.47, and EPA May 2007 Memo: NA If applicable, describe any water quality standards variances proposed in accordance with NCGS 143- 215.3(e) and 15A NCAC 2B.0226 for this permit renewal: NA 7. Technology -Based Effluent Limitations (TBELs) Municipals (if not applicable, delete and skip to Industrials) Are concentration limits in thepermit at least as stringent as secondary treatment requirements (30 mg/l BODS/TSSfor Monthly Average, and 45 mg/l for BODS/TSSfor Weekly Average). YES If NO, provide a justification for alternative limitations (e.g., waste stabilization pond). NA Are 85% removal requirements for BOD51TSS included in the permit? YES; On occasion, it 85% removal of BOD and TSS were not achieved during the period reviewed. However, overall BOD and TSS removal rates were > 85%. The West Stanly WWTP was under SOC for TSS until January 31, 2023. If NO, provide a justification (e.g., waste stabilization pond). NA 8. Antidegradation Review (New/Expanding Discharge): The objective of an antidegradation review is to ensure that a new or increased pollutant loading will not degrade water quality. Permitting actions for new or expanding discharges require an antidegradation review in accordance with 15A NCAC 2B.0201. Each applicant for a new/expanding NPDES permit must document an effort to consider non -discharge alternatives per 15A NCAC 2H.0105(c)(2). In all cases, existing instream water uses and the level of water quality necessary to protect the existing use is maintained and protected. If applicable, describe the results of the antidegradation review, including the Engineering Alternatives Analysis (EAA) and any water quality modeling results: The proposed expansion is receiving funding via US Department of Agriculture Rural Development (USDA-RD) and is subject to the National Environmental Policy Act (NEPA). USDA Rural Utility Services completed an environmental assessment and provided a Finding of No Significant Impact (FONSI) on December 9, 2022. A notice of the FONSI was published in The Stanly News and Press on December 9, 2022, satisfying NEPA requirements. While the proposed expansion is also receiving additional funding via the American Rescue Plan Act (ARPA), the ARPA funding is not subject to review under the State Environmental Policy Act (SEPA). An Engineer's Alternatives Analysis (EAA) was submitted by The Wooten Company (Wooten), the consulting firm hired by Stanly County, on July 7, 2023. In their EAA, Wooten noted that Stanly County has contractual agreements with four municipal systems for treatment of wastewater at the West Stanly WWTP including Red Cross, Oakboro, Stanfield and Locust. While the West Stanly WWTP service area includes these municipalities, the facility does not handle the entirety of the wastewater flow from the towns. To estimate the population attributable to the West Stanly WWTP service area from each town, Wooten provided a breakdown of the metered connections from the respective towns and incorporated the US Census information from 2018 to identify the average number of persons per residence to calculate population. Based on this assumption, Wooten estimated approximately 6,125 residents in the West Stanly WWTP service area, which closely resembles the estimated population indicated in the renewal application. Wooten then used US Census data to determine individual growth rates for Red Cross (0.58%), Oakboro (1.30%), Stanfield (1.12%) and Locust (5.00%) from 2010 to 2020. Division staff used NC Office of State Budget and Management (OSBM) to determine growth rates for the individual town and used the resultant growth rates as a means of checking the population projections provided by Wooten. The OSBM noted individual growth rates for Red Cross (0.33%), Oakboro (1.44%), Stanfield (0.66%) and Locust (4.74%) from 2010 to 2020. Wooten also provided a letter from Charlotte Pipe, the Page 11 of 17 CIU sending flow to the West Stanly WWTP, which requested an additional 0.5 MGD of flow due to process expansion plans. In addition to the growth rates identified for each municipality via the US Census data, Wooten considered known, planned developments for the towns, and provided letters from developers expressing their intent to build in the area. This incorporation of development mostly affected the population projections for Oakboro and Locust. While Division staff believe that this skews the population high and is not entirely representative, the overall flow projection calculation was similar average daily flow projections (-2 MGD) at 2040. Division staff calculated the flow projection based on the existing 1.2 MGD flow tier, and the projected growth of service population, a flow rate of 70 gallons per person per day, and a 15% reserve flow for potential industrial and commercial users. The Division concurs with the proposal of a facility upgrade to 2.5 MGD. The following alternatives were evaluated for the proposed discharee: Alternative Description 20-year Net Present Worth (NPW) Connection to an Existing WWTP $142,130,000 Land Application $138,700,000 Wastewater Reuse Deemed infeasible Surface Discharge NPDES $65,300,000 Combination of Alternatives $98,270,000 Connection to an Existing WWTP: The decommissioning of the West Stanly WWTP and pumping of wastewater to the Long Creek WWTP was considered. This alternative would require a wastewater service agreement between Stanly County and the City of Albemarle, the upgrade of the existing McCoy Pump Station, the construction of approximately 9 miles of 24-inch sewer force main, and the construction of an intermediate pump station. The total construction cost of connecting to the Long Creek WWTP was estimated to be approximately $33.4 million. For estimating the annual operation and maintenance cost for this alternative, Wooten assumed a cost of $5.34/1,000 gallons of wastewater as a Sewer Treatment Charge by City of Albemarle. Based on this assumption, the annual operation and maintenance cost for this alternative was reported as $6.65 million. The 20-year Net Present Worth (NPW) was estimated as $142 million. Land Application: The disposal of the entire 2.5 MGD of treated wastewater via land application was considered. Near the WWTP site, approximately 200 acres of both cleared and forested land with suitable soils is available for disposal of treated wastewater by land application using a spray irrigation system. The estimated required land, based on an annual hydraulic loading rate of 19.41 ft/year, a capacity of 2.5 MGD and a 1.33 factor of safety for setbacks and access roads, was calculated to be 192 acres. The required storage volume was calculated to be 75 million gallons, based on 30-days of storage at 2.5 MGD. The total construction cost of upgrading the West Stanly WWTP to 2.5 MGD and constructing a spray irrigation system was estimated to be approximately $93.4 million. The estimated annual operation and maintenance cost for the expansion was estimated to be $2.8 million. The 20-year NPW for this alternative was estimated to be $138.7 million. Wastewater Reuse: Wastewater reuse was considered. The only reuse option available for the treated effluent from the West Stanly WWTP is Charlotte Pipe and they currently use only 130,000 gallons per day of reuse water. As no other customers are available, the option has been deemed infeasible. Direct Discharge to Surface Waters: The total construction cost to expand the West Stanly WWTP to 2.5 MGD is $32.6 million. The estimated annual operation and maintenance cost for the expansion was estimated to be $2 million. The 20-year NPW for this alternative was estimated to be $65.3 million. Page 12 of 17 Combination of Direct Discharge to Surface Waters and Land Application: The disposal of just the expanded 1.3 MGD flow of treated wastewater via land application was considered. The estimated required land was calculated to be 99.8 acres. The required storage volume was calculated to be 39 million gallons, based on 30-days of storage at 1.3 MGD. The total construction cost of upgrading the West Stanly WWTP to 2.5 MGD and constructing a spray irrigation system was estimated to be approximately $54.4 million. The estimated annual operation and maintenance cost for the expansion was estimated to be $2.7 million. The 20-year NPW for this alternative was estimated to be $98.3 million. The most economically feasible and chosen option was the expansion of the West Stanly WWTP. The Division has reviewed the alternatives and concurs with this decision. 9. Antibacksliding Review: Sections 402(o)(2) and 303(d)(4) of the CWA and federal regulations at 40 CFR 122.44(1) prohibit backsliding of effluent limitations in NPDES permits. These provisions require effluent limitations in a reissued permit to be as stringent as those in the previous permit, with some exceptions where limitations may be relaxed (e.g., based on new information, increases in production may warrant less stringent TBEL limits, or WQBELs may be less stringent based on updated RPA or dilution). Are any effluent limitations less stringent than previous permit (YES/NO): NO If YES, confirm that antibacksliding provisions are not violated: NA 10. Monitoring Requirements Monitoring frequencies for NPDES permitting are established in accordance with the following regulations and guidance: 1) State Regulation for Surface Water Monitoring, 15A NCAC 2B.0500; 2) NPDES Guidance, Monitoring Frequency for Toxic Substances (7/15/2010 Memo); 3) NPDES Guidance, Reduced Monitoring Frequencies for Facilities with Superior Compliance (10/22/2012 Memo); 4) Best Professional Judgement (BPJ). Per US EPA (Interim Guidance, 1996), monitoring requirements are not considered effluent limitations under Section 402(o) of the Clean Water Act, and therefore anti - backsliding prohibitions would not be triggered by reductions in monitoring frequencies. For instream monitoring, refer to Section 4. As the West Stanly WWTP is set to receive industrial flow, 3/week effluent conductivity monitoring has been added to the permit, to be effective upon commencement of discharge from Charlotte Pipe to the West Stanly WWTP. For calculation of total nitrogen, monitoring and reporting of TKN and NO2+NO3 has been added to the permit at a quarterly frequency to match the total nitrogen monitoring requirement. 11. Electronic Reporting Requirements The US EPA NPDES Electronic Reporting Rule was finalized on December 21, 2015. Effective December 21, 2016, NPDES regulated facilities are required to submit Discharge Monitoring Reports (DMRs) electronically. While NPDES regulated facilities would initially be required to submit additional NPDES reports electronically effective December 21, 2020, EPA extended this deadline from December 21, 2020, to December 21, 2025. The current compliance date, effective January 4, 2021, was extended as a final regulation change published in the November 2, 2020 Federal Register. This permit contains the requirements for electronic reporting, consistent with Federal requirements. Page 13 of 17 12.Summary of Proposed Permitting Actions: Table 6. Current Permit Conditions and Proposed Changes 1.2 MGD flow tier Parameter Current Permit Proposed Change Basis for Condition/Change Flow MA 1.2 MGD No change 15A NCAC 2B .0505 BOD5 MA 10.0 mg/l No change WQBEL. 2005 QUAL2E model, WA 15.0 mg/1 Surface Water Monitoring, 15A NCAC Monitor and report 3/week 2B. 0500 NH3-N MA 4.0 mg/l No change WQBEL. 2005 QUAL2E model, WA 12.0 mg/1 Surface Water Monitoring, 15A NCAC Monitor and report 3/week 2B. 0500 TSS MA 30.0 mg/l No change TBEL. Secondary treatment WA 45.0 mg/1 standards/40 CFR 133 / 15A NCAC 2B Monitor and report 3/week .0406; Surface Water Monitoring, 15A NCAC 2B. 0500 Fecal coliform MA 200 /100m1 No change WQBEL. State WQ standard, 15A WA 400 /100ml NCAC 2B .0200; Surface Water Monitor and report 3/week Monitoring, 15A NCAC 2B. 0500 DO > 6.0 mg/l No change WQBEL. 2005 QUAL2E model; Monitor and report 3/week Surface Water Monitoring, 15A NCAC 2B. 0500 pH 6 — 9 SU No change WQBEL. State WQ standard, 15A Monitor and report 3/week NCAC 2B .0200; Surface Water Monitoring, 15A NCAC 2B. 0500 Conductivity No requirement Monitor and report Surface Water Monitoring, 15A NCAC 3/week; effective upon 2B. 0500 commencement of discharge of CIU Temperature Monitor and report Daily No change Surface Water Monitoring, 15A NCAC 2B. 0500 Total Residual DM 28 ug/L No change WQBEL. 2023 WLA review and Chlorine Monitor and report 3/week Surface Water Monitoring, 15A NCAC 2B. 0500 Total Monitor and report No change Surface Water Monitoring, 15A NCAC Nitrogen quarterly 2B. 0500 TKN No requirement Monitor and report For calculation of Total Nitrogen quarterly NO3+NO2 No requirement Monitor and report For calculation of Total Nitrogen quarterly Total Monitor and report No change Surface Water Monitoring, 15A NCAC Phosphorous quarterly 2B. 0500 Total Quarterly monitoring No change Hardness -dependent dissolved metals Hardness Upstream and in Effluent water quality standards approved in 2016 Total Cyanide No requirement Monitor and Report Based on results of RPA; RP for Quarterly Limited Dataset (n<8 samples) with < 2 values > Allowable Cw - apply Quarterly Monitoring Page 14 of 17 Total Copper Monitor and Report No change Receiving stream is impaired for total Quarterly copper; Total copper is associated with CIU Total Zinc Monitor and Report No change Receiving stream is impaired for total Quarterly zinc; Total zinc is associated with CIU Monitor and Report quarterly with potential to reduce to Based on pretreatment program; to 1,4-dioxane No requirement annual —effective receive industrial flow from metal upon commencement finisher of discharge of CIU; Add reopener condition Add Quarterly Evaluation of PFAS contribution: major PFAS No requirement monitoring with discharger above WS-V waters; delayed Implementation delayed until after EPA im lementation certified method becomes available. Add monthly monitoring for fecal coliform, turbidity, Monitor DO, conductivity TKN, NO2+NO3, TP, and temperature 3/Week ammonia and pH; Add Surface Water Monitoring, 15A NCAC during June, July, August quarterly monitoring 2B. 0500; Based on discussion with and September and for dissolved copper basin planning branch; instream data Instream ek the remainder of and dissolved zinc; necessary for tracking impact of monitoring h the e year; Provisional Provisional waiver for expanding facility; instream monitoring waiver i instream monitoring waiver maintained if YPDRBA monitoring due ue tto o further conditioned activates a downstream station and membership in YPDRBA upon activation of relocates existing upstream station downstream station and relocation of upstream station by YPDRBA Toxicity Test Chronic limit, 6.0% No change WQBEL. No toxics in toxic amounts. effluent 15A NCAC 2B.0200 and 15A NCAC 213.0500 Effluent Three times per permit No change; conducted 40 CFR 122 Pollutant Scan cycle in 2025, 2026, 2027 Effluent Special Condition A.(6.) Remove requirement Condition has been satisfied and is no Mercury Effluent Mercury Analysis longer applicable. sampling Electronic Electronic Reporting No change In accordance with EPA Electronic Reporting Special Condition Reporting Rule 2015. MGD — Million gallons per day, MA - Monthly Average, WA — Weekly Average, DM — Daily Max Page 15 of 17 Table 7. Current Permit Conditions and Proposed Changes 2.5 MGD flow tier Parameter Proposed Change Basis for Condition/Change Flow MA 2.5 MGD 15A NCAC 2B .0505 BOD5 MA 5.0 mg/1 WQBEL. 2005 QUAL2E model, Surface Water WA 7.5 mg/1 Monitoring, 15A NCAC 2B. 0500 Monitor and report 3/week NH3-N MA 1.8 mg/1 WQBEL. 2005 QUAL2E model, Surface Water WA 5.4 mg/1 Monitoring, 15A NCAC 2B. 0500 Monitor and report 3/week TSS MA 30.0 mg/1 TBEL. Secondary treatment standards/40 CFR 133 / WA 45.0 mg/l 15A NCAC 2B .0406; Surface Water Monitoring, 15A Monitor and report 3/week NCAC 2B. 0500 Fecal coliform MA 200 /100m1 WQBEL. State WQ standard, 15A NCAC 2B .0200; WA 400 /100m1 Surface Water Monitoring, 15A NCAC 2B. 0500 Monitor and report 3/week DO > 6.0 mg/1 WQBEL. 2005 QUAL2E model; Surface Water Monitor and report 3/week Monitoring, 15A NCAC 2B. 0500 pH 6 — 9 SU WQBEL. State WQ standard, 15A NCAC 2B .0200; Monitor and report 3/week Surface Water Monitoring, 15A NCAC 2B. 0500 Conductivity Monitor and report 3/week; Surface Water Monitoring, 15A NCAC 2B. 0500 effective upon commencement of discharge of CIU Temperature Monitor and report Daily Surface Water Monitoring, 15A NCAC 2B. 0500 Total Residual DM 28 ug/L WQBEL. 2023 WLA review and Surface Water Chlorine Monitor and report 3/week Monitoring, 15A NCAC 2B. 0500 Total Nitrogen Monitor and report quarterly No Surface Water Monitoring, 15A NCAC 2B. 0500 change TKN Monitor and report quarterly For calculation of Total Nitrogen NO3+NO2 Monitor and report quarterly For calculation of Total Nitrogen Total Phosphorous Monitor and report quarterly Surface Water Monitoring, 15A NCAC 2B. 0500 Total Hardness Quarterly monitoring Upstream Hardness -dependent dissolved metals water quality and in Effluent standards approved in 2016 Total Cyanide MA 42.4 µg/L WQBEL. Based on results of RPA; RP for Limited DM 157.6 µg/L Dataset (n<8) but 2 values > Allowable Cw - apply Monitor and Report Monthly Monthly Monitoring with Limit Total Copper Monitor and Report Quarterly Receiving stream is impaired for total copper; Total copper is associated with CIU Total Zinc Monitor and Report Quarterly Receiving stream is impaired for total zinc; Total zinc is associated with CIU 1,4-dioxane Monitor and Report quarterly Based on pretreatment program; to receive industrial with potential to reduce to flow from metal finisher annual — effective upon commencement of discharge of CIU; Add reopener condition Add Quarterly monitoring with Evaluation ofPFAS contribution: major discharger PFAS delayed implementation above WS-V waters; Implementation delayed until after EPA certified method becomes available. Page 16 of 17 Monitor DO, conductivity and temperature 3/Week during June, July, August and September and 1/Week the remainder of the year; Monthly monitoring for fecal coliform, Surface Water Monitoring, 15A NCAC 2B. 0500; turbidity, TKN, NO2+NO3, TP, Based on discussion with basin planning branch; Instream ammonia and pH; Quarterly instream data necessary for tracking impact of monitoring monitoring for dissolved copper expanding facility; instream monitoring waiver and dissolved zinc; Provisional maintained if YPDRBA activates a downstream waiver of instream monitoring station and relocates existing upstream station due to membership in YPDRBA - waiver further conditioned upon activation of downstream station and relocation of upstream station by YPDRBA Toxicity Test Chronic limit, 11.8% effluent WQBEL. No toxics in toxic amounts. 15A NCAC 213 .0200 and 15A NCAC 2B .0500 Effluent Pollutant Three times per permit cycle; 40 CFR 122 Scan conducted in three following years after expansion occurs Electronic Electronic Reporting Special In accordance with EPA Electronic Reporting Rule Reporting Condition J 2015. MGD — Million gallons per day, MA - Monthly Average, WA — Weekly Average, DM — Daily Max 13. Public Notice Schedule: Permit to Public Notice: xx/xx/xxxx Per 15A NCAC 2H .0109 & .0111, The Division will receive comments for a period of 30 days following the publication date of the public notice. Any request for a public hearing shall be submitted to the Director within the 30 days comment period indicating the interest of the party filing such request and the reasons why a hearing is warranted. 14. NPDES Division Contact If you have any questions regarding any of the above information or on the attached permit, please contact Nick Coco at (919) 707-3609 or via email at nick.coco@deq.nc.gov. 15. Fact Sheet Addendum (if applicable): Were there any changes made since the Draft Permit was public noticed (Yes/No): NO If Yes, list changes and their basis below: NA 16. Fact Sheet Attachments (if applicable): • RPA Spreadsheet Summary • NPDES Implementation of Instream Dissolved Metals Standards — Freshwater Standards • NH3/TRC WLA Calculations • BOD & TSS Removal Rate Calculations • Mercury TMDL Calculations • WET Testing and Self -Monitoring Summary • MFR spreadsheet • Compliance Inspection Report • Chemical Addendum Page 17 of 17 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Table 1. Project Information ❑ CHECK IF HQW OR ORW WQS Facility Name West Stanly WWTP WWTP/WTP Class III NPDES Permit NCO043532 Outfall 002 Flow, Qw (MGD) 1.200 Receiving Stream Rocky River HUC Number 03040105 Stream Class ❑ Apply WS Hardness WQC C 7Q10s (cfs) 29.000 7Q10w (cfs) 51.00 30Q2 (cfs) 29.00 920.00 QA (cfs) 1 Q10s (cfs) 23.88 Effluent Hardness 62.14 mg/L (Avg) Upstream Hardness 51.28 mg/L (Avg) Combined Hardness Chronic 51.93 mg/L Combined Hardness Acute 52.06 mg/L Data Source(s) 7Q10s used as conservative estimate of 30(Q2. ❑ CHECK TO APPLY MODEL REQUIRED DATA ENTRY Par01 Par02 Par03 Par04 Par05 Par06 E Par07 Par08 Par09 Par10 Par11 Par12 Par13 Par14 Par15 Par16 Par17 Par18 Par19 Par20 Par21 Par22 Par23 Par24 Table 2. Parameters of Concern Name WQS Type Chronic Modifier Acute PQL Units Arsenic Aquactic Life C 150 FW 340 ug/L Arsenic Human Health Water Supply C 10 HH/WS N/A ug/L Beryllium Aquatic Life NC 6.5 FW 65 ug/L Cadmium Aquatic Life NC 1.0250 FW 6.1449 ug/L Chlorides Aquatic Life NC 230 FW mg/L Chlorinated Phenolic Compounds Water Supply NC 1 A ug/L Total Phenolic Compounds Aquatic Life NC 300 A ug/L Chromium III Aquatic Life NC 214.2492 FW 1650.4464 ug/L Chromium VI Aquatic Life NC 11 FW 16 pg/L Chromium, Total Aquatic Life NC N/A FW N/A pg/L Copper Aquatic Life NC 14.7182 FW 20.9022 ug/L Cyanide Aquatic Life NC 5 FW 22 10 ug/L Fluoride Aquatic Life NC 1,800 FW ug/L Lead Aquatic Life NC 6.6599 FW 171.3799 ug/L Mercury Aquatic Life NC 12 FW 0.5 -,^" Molybdenum Human Health NC 2000 HH ug/L Nickel Aquatic Life NC 69.1041 FW 623.4914 pg/L Nickel Water Supply NC 25.0000 WS N/A pg/L Selenium Aquatic Life NC 5 FW 56 ug/L Silver Aquatic Life NC 0.06 FW 1.0467 ug/L Zinc Aquatic Life NC 235.4502 FW 234.0360 ug/L 43532 RPA, input 9/5/2023 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Table 1. Project Information ❑ CHECK IF HQW OR ORW WQS Facility Name West Stanly WWTP WWTP/WTP Class III NPDES Permit NCO043532 Outfall 002 Flow, Qw (MGD) 2.500 Receiving Stream Rocky River HUC Number 03040105 Stream Class ❑ Apply WS Hardness WQC C 7Q10s (cfs) 29.000 7Q10w (cfs) 51.00 30Q2 (cfs) 29.00 QA (cfs) 920.00 1 Q10s (cfs) 23.88 Effluent Hardness 62.14 mg/L (Avg) Upstream Hardness 51.28 mg/L (Avg) Combined Hardness Chronic 52.56 mg/L Combined Hardness Acute 52.79 mg/L Data Source(s) 7Q10s used as conservative estimate of 30(Q2. ❑ CHECK TO APPLY MODEL REQUIRED DATA ENTRY Par01 Par02 Par03 Par04 Par05 Par06 E Par07 Par08 Par09 Par10 Par11 Par12 Par13 Par14 Par15 Par16 Par17 Par18 Par19 Par20 Par21 Par22 Par23 Par24 Table 2. Parameters of Concern Name WQS Type Chronic Modifier Acute PQL Units Arsenic Aquactic Life C 150 FW 340 ug/L Arsenic Human Health Water Supply C 10 HH/WS N/A ug/L Beryllium Aquatic Life NC 6.5 FW 65 ug/L Cadmium Aquatic Life NC 1.0343 FW 6.2201 ug/L Chlorides Aquatic Life NC 230 FW mg/L Chlorinated Phenolic Compounds Water Supply NC 1 A ug/L Total Phenolic Compounds Aquatic Life NC 300 A ug/L Chromium III Aquatic Life NC 216.3610 FW 1669.4181 ug/L Chromium VI Aquatic Life NC 11 FW 16 pg/L Chromium, Total Aquatic Life NC N/A FW N/A pg/L Copper Aquatic Life NC 14.8696 FW 21.1788 ug/L Cyanide Aquatic Life NC 5 FW 22 10 ug/L Fluoride Aquatic Life NC 1,800 FW ug/L Lead Aquatic Life NC 6.7489 FW 174.0513 ug/L Mercury Aquatic Life NC 12 FW 0.5 -,^" Molybdenum Human Health NC 2000 HH ug/L Nickel Aquatic Life NC 69.8078 FW 630.8960 pg/L Nickel Water Supply NC 25.0000 WS N/A pg/L Selenium Aquatic Life NC 5 FW 56 ug/L Silver Aquatic Life NC 0.06 FW 1.0721 ug/L Zinc Aquatic Life NC 237.8515 FW 236.8197 ug/L 43532 RPA, input 9/5/2023 REASONABLE POTENTIAL ANALYSIS H1 I Effluent Hardness Date 1 1/31/2019 2 4/3/2019 3 7/16/2019 4 10/16/2019 5 1 /8/2020 6 4/7/2020 7 7/8/2020 8 10/14/2020 9 1 /13/2021 10 4/7/2021 11 7/21 /2021 12 10/13/2021 13 1 /12/2022 14 4/13/2022 15 7/20/2022 16 10/12/2022 17 1 /17/2023 18 4/11/2023 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Data BDL=1/2DL Results 76 76 Std Dev. 59 59 Mean 59.4 59.4 C.V. 70.5 70.5 n 73 73 10th Per value 62.9 62.9 Average Value 75.4 75.4 Max. Value 57.2 57.2 49.4 49.4 63.8 63.8 68.6 68.6 57.9 57.9 60.4 60.4 57.4 57.4 61 61 63.1 63.1 53.5 53.5 50 50 Use "PASTE SPECIAL Values" then "COPY" Maximum data points = 58 7.9433 62.1389 0.1278 18 52.45 mg/L 62.14 mg/L 76.00 mg/L H2 Date 1 2/12/2019 2 4/3/2019 3 7/16/2019 4 10/16/2019 5 1 /8/2020 6 4/7/2020 7 7/8/2020 8 10/14/2020 9 1 /13/2021 10 4/7/2021 11 7/21 /2021 12 10/13/2021 13 1 /12/2022 14 4/13/2022 15 10/12/2022 16 1 /17/2023 17 4/11/2023 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Upstream Hardness Data BDL=1/2DL Results 71 71 Std Dev. 55 55 Mean 62.5 62.5 C.V. 79.6 79.6 n 39.3 39.3 10th Per value 40 40 Average Value 61 61 Max. Value 38.5 38.5 37.1 37.1 38.2 38.2 51.5 51.5 48.2 48.2 43.3 43.3 36.7 36.7 95.2 95.2 42.6 42.6 32 32 Use "PASTE SPECIAL Values" then "COPY" Maximum data points = 58 17.4878 51.2765 0.3410 17 36.94 mg/L 51.28 mg/L 95.20 mg/L 43532 RPA, data - 1 - 9/5/2023 REASONABLE POTENTIAL ANALYSIS Par01 & Par02 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Date Data 1/12/2022 < 4/25/2022 < 7/13/2022 < Arsenic BDL=1/2DL 10 5 10 5 30 15 Results Std Dev. Mean C.V. (default) n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL Values" then "COPY" Maximum data points = 58 5.7735 8.3333 0.6000 3 3.00 15.0 ug/L 45.0 ug/L -2- 43532 RPA, data 9/5/2023 REASONABLE POTENTIAL ANALYSIS Par03 Date Data 1 1/12/2022 < 2 4/25/2022 < 3 7/13/2022 < 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Par04 Use "PASTE SPECIAL Use "PASTE SPECIAL Beryllium Values" then "COPY" Cadmium Values" then "COPY" Maximum data . Maximum data points = 58 points = 58 BDL=1/2DL Results Date Data BDL=1/2DL Results 1 0.5 Std Dev. 2.5981 1 1/12/2022 < 1 0.5 Std Dev. 2.5981 1 0.5 Mean 2.0000 2 4/25/2022 < 1 0.5 Mean 2.0000 10 5 C.V. (default) 0.6000 3 7/13/2022 < 10 5 C.V. (default) 0.6000 n 3 4 n 3 5 Mult Factor = 3.00 6 Mult Factor = 3.00 Max. Value 5.00 ug/L 7 Max. Value 5.000 ug/L Max. Pred Cw 15.00 ug/L 8 Max. Pred Cw 15.000 ug/L 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 < ERR 53 < ERR 54 < ERR 55 < ERR 56 < ERR 57 < ERR 58 < ERR 43532 RPA, data -3- 9/5/2023 REASONABLE POTENTIAL ANALYSIS Par07 Total Phenolic Compounds Use "PASTE SPECIAL - Values" then "COPY". Part O Maximum data points = 58 Date Data BDL=1/2DL Results Date Data 1 1/26/2022 < 20 10 Std Dev. 0.0000 1 1/12/2022 < 2 4/19/2022 < 20 10 Mean 10.0000 2 4/25/2022 < 3 7/13/2022 < 20 10 C.V. (default) 0.6000 3 7/13/2022 < 4 n 3 4 5 5 6 Mult Factor = 3.00 6 7 Max. Value 10.0 ug/L 7 8 Max. Pred Cw 30.0 ug/L 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 Use "PASTE SPECIAL Chromium, Total Values" then "COPY" Maximum data points = 58 BDL=1/2DL Results 5 2.5 Std Dev. 1.4434 5 2.5 Mean 3.3333 10 5 C.V. (default) 0.6000 n 3 Mult Factor = 3.00 Max. Value 5.0 pg/L Max. Pred Cw 15.0 dig/L -4- 43532 RPA, data 9/5/2023 REASONABLE POTENTIAL ANALYSIS Pal Date Data 1 1 /2/2019 < 2 1 / 15/2019 < 3 4/3/2019 4 7/16/2019 5 10/16/2019 6 1 /8/2020 < 7 4/7/2020 < 8 7/8/2020 9 10/14/2020 < 10 1/13/2021 < 11 4/7/2021 12 7/21 /2021 < 13 10/13/2021 14 1 /12/2022 15 4/13/2022 16 7/20/2022 < 17 10/12/2022 < 18 1/17/2023 < 19 4/11/2023 < 20 4/25/2022 < 21 7/13/2022 < 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Par12 Use "PASTE SPECIAL Copper Values" then "COPY" Maximum data points = 58 BDL=1/2DL Results 10 5 Std Dev. 10 5 Mean 17 17 C.V. 5 5 n 7 7 5 2.5 Mult Factor = 5 2.5 Max. Value 5 5 Max. Pred Cw 5 2.5 5 2.5 6 6 5 2.5 6 6 5 5 6 6 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 20 10 Cyanide Date Data BDL=1/2DL Results 3.4502 1 1 /20/2022 45 45 Std Dev. 4.8571 2 4/25/2022 29 29 Mean 0.7103 3 7/19/2022 240 240 C.V. (default) 21 4 n 5 1.41 6 17.00 ug/L 7 23.97 ug/L 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL Values" then "COPY" Maximum data points = 58 117.4748 104.67 0.6000 3 3.00 240.0 ug/L 720.0 ug/L -5- 43532 RPA, data 9/5/2023 REASONABLE POTENTIAL ANALYSIS Par14 Date 1 1/12/2022 < 2 4/25/2022 < 3 7/13/2022 < 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Par17 & Par18 use "PASTE Use "PASTE SPECIAL SPECIAL - Lead values" then "COPY" Nickel values" then Maximum data "COPY". points = 58 Maximum data BDL=1/2DL Results Date Data BDL=1/2DL Results points = 58 5 2.5 Std Dev. 5.7735 1 1/12/2022 < 5 2.5 Std Dev. 4.3301 5 2.5 Mean 5.8333 2 4/25/2022 < 5 2.5 Mean 5.0000 25 12.5 C.V. (default) 0.6000 3 7/13/2022 < 20 10 C.V. (default) 0.6000 n 3 4 n 3 5 Mult Factor = 3.00 6 Mult Factor = 3.00 Max. Value 12.500 ug/L 7 Max. Value 10.0 pg/L Max. Pred Cw 37.500 ug/L 8 Max. Pred Cw 30.0 pg/L 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 43532 RPA, data -6- 9/5/2023 REASONABLE POTENTIAL ANALYSIS Par19 Date Data 1 1/12/2022 < 2 4/25/2022 < 3 7/13/2022 < 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 Par20 Use "PASTE SPECIAL- Use "PASTE SPECIAL Selenium Values" then "COPY". Silver Values" then "COPY" Maximum data points . Maximum data = 58 points = 58 BDL=1/2DL Results Date Data BDL=1/2DL Results 10 5 Std Dev. 8.6603 1 1/12/2022 < 5 2.5 Std Dev. 1.4434 10 5 Mean 10.0000 2 4/25/2022 < 5 2.5 Mean 3.3333 40 20 C.V. (default) 0.6000 3 7/13/2022 < 10 5 C.V. (default) 0.6000 n 3 4 n 3 5 Mult Factor = 3.00 6 Mult Factor = 3.00 Max. Value 20.0 ug/L 7 Max. Value 5.000 ug/L Max. Pred Cw 60.0 ug/L 8 Max. Pred Cw 15.000 ug/L 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 43532 RPA, data -7- 9/5/2023 REASONABLE POTENTIAL ANALYSIS Par21 Use "PASTE SPECIAL Zinc Values" then "COPY" Maximum data points = 58 Date Data BDL=1/2DL Results 1 1 /4/2019 14 14 Std Dev. 20.4252 2 4/3/2019 82 82 Mean 39.6071 3 7/16/2019 59 59 C.V. 0.5157 4 10/16/2019 36 36 n 21 5 1 /8/2020 35 35 6 4/7/2020 48 48 Mult Factor = 1.29 7 7/8/2020 79 79 Max. Value 82.0 ug/L 8 10/14/2020 20 20 Max. Pred Cw 105.8 ug/L 9 1/13/2021 29 29 10 4/7/2021 33 33 11 7/21 /2021 70 70 12 10/13/2021 19 19 13 1/12/2022 36 36 14 4/13/2022 47 47 15 7/20/2022 44 44 16 10/12/2022 18 18 17 1/17/2023 34 34 18 4/11/2023 14 14 19 1/12/2022 < 32.7 16.35 20 4/25/2022 47.9 47.9 21 7/13/2022 50.5 50.5 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 43532 RPA, data - 8 - 9/5/2023 West Stanly WWTP NCO043532 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Qw (MGD) = 1.2000 1Q10S (cfs) = 23.88 7Q10S (cfs) = 29.00 7Q10W (cfs) = 51.00 30Q2 (cfs) = 29.00 Avg. Stream Flow, QA (cfs) = 920.00 Receiving Stream: Rocky River HUC 03040105 WWTP/WTP Class: III IWC% @ 1Q10S = 7.226107226 IWC% @ 7Q10S = 6.027219702 IWC% @ 7Q10W = 3.518728717 IWC% @ 30Q2 = 6.027219702 IW%C @ QA = 0.201765995 Stream Class: C Outfall 002 Qw = 1.2 MGD COMBINED HARDNESS (mg/L) Acute = 52.06 mg/L Chronic = 51.93 mg/L PARAMETER NC STANDARDS OR EPA CRITERIA CO REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE J Applied Chronic Acute M n # Det. Max Pred Cw Allowable Cw Standard Acute (FW): 4,705.2 Arsenic C 150 FW(7Q10s) 340 ug/L 3 0 45.0 Chronic (FW):---2,488.7 - ---------------------------- C.V. (default) Max MDL30 Arsenic C 10 HH/WS(Qavg) ug/L Note: n < 9 NO DETECTS _= Chronic (HH): 4,956.2 No RP, Predicted Max < 50% of Allowable Cw - No Limited data set Max MDL = 30 Monitoring required Acute: 899.52 Beryllium NC 6.5 FW(7Q10s) 65 ug/L 3 0 15.00 Note: n < 9 C.V. (default) Chronic: 107.84 No RP, Predicted Max < 50% of Allowable Cw - No Limited data set NO DETECTS Max MDL = 10 Monitoring required Acute: 85.037 Cadmium NC 1.0250 FW(7Q10s) 6.1449 ug/L 3 0 15.000 Note: n < 9 C.V. (default) Chronic: 17.006 All non -detect < 10 ug/L and < 1 ug/L; No monitoring required - Permittee shall report to PQL < 1 ug/L Limited data set NO DETECTS Max MDL 10 during all PPAs. Acute: NO WQS Total Phenolic Compounds NC 300 A(30Q2) ug/L 3 0 30.0 Note: n < 9 C.V. (default) Chronic: 4,977.4 No RP, Predicted Max < 50% of Allowable Cw - No Limited data set NO DETECTS Max MDL = 20 Monitoring required Acute: 22,840.0 Chromium III NC 214.25 FW(7Q10s) 1650.45 µg/L 0 0 N/A Chronic: -----3 554.7 - ---------------------------- Acute: 221.4 Chromium VI NC 11 FW(7Q10s) 16 µg/L 0 0 N/A Chronic:----- 182.5-- ---------------------------- Chromium, Total NC µg/L 3 0 15.0 Max reported value = 5 a: No monitoring required if all Total Chromium Note: n < 9 C.V. (default) samples are < 5 pg/L or Pred. max for Total Cr is < allowable Cw for Cr VI. Limited data set NO DETECTS Max MDL = 10 Acute: 289.26 Copper NC 14.7182 FW(7Q 1 Os) 20.9022 ug/L 21 8 23.97 Chronic: 244.20 No RP, Predicted Max < 50% of Allowable Cw - No No value > Allowable Cw Monitoring required Acute: 304.5 Cyanide NC 5 FW(7010s) 22 10 u2/L 3 3 720.0 _ _____ __ ____________________________ Note: n < 9 C.V. (default) Chronic: 83.0 RP for Limited Dataset (n<8 samples) - apply Limited data set 1 value(s) > Allowable Cw Quarterly Monitoring 43532 RPA, rpa Page 1 of 2 9/5/2023 West Stanly WWTP NCO043532 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Outfall 002 Qw = 1.2 MGD Acute: 2,371.677 Lead NC 6.6599 FW(7Q1Os) 171.3799 ug/L 3 0 37.500 Note: n <_ 9 C.V. (default) Chronic: 110.497 All value non -detect < 25 ug/L and < 5 ug/L; No Limited data set NO DETECTS Max MDL = 25 monitoring required. Acute (FW): 8,628.3 Nickel NC 69.1041 FW(7Q10s) 623.4914 µg/L 3 0 30.0 Chronic (FW): 1,146.5 No RP, Predicted Max < 50% of Allowable Cw - No Note: n < 9 C.V. (default) Max MDL_= 20 Monitoring required Nickel NC 25.0000 WS(7Q10s) µg/L Limited data set NO DETECTS Chronic (WS): 414.8 Max MDL = 20 Acute: 775.0 Selenium NC 5 FW(7Q10s) 56 ug/L 3 0 60.0 Note: n < 9 C.V. (default) Chronic: 83.0 All value non -detect < 40 ug/L and < 10 ug/L; No Limited data set NO DETECTS Max MDL = 40 monitoring required. Acute: 14.485 Silver NC 0.06 FW(7Q10s) 1.0467 ug/L 3 0 15.000 Note: n < 9 C.V. (default) Chronic: 0.995 All non -detect < 10 ug/L and < 5 ug/L; No monitoring Limited data set NO DETECTS Max MDL 10 required - Permittee shall report to PQL < 1 ug/L during all PPAs. Acute: 3,238.8 No RP, Predicted Max < 50% of Allowable Cw - No Zinc NC ####### FW(7Q10s) 234.0360 ug/L 21 20 105.8 Monitoring required -----3,9-- - --- — - — - — - — - — - — - — - — - — - — - — - — - — - — Chronic: No value > Allowable Cw 43532 RPA, rpa Page 2 of 2 9/5/2023 West Stanly WWTP NCOO43532 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Qw (MGD) = 2.5000 1Q10S (cfs) = 23.88 7Q10S (cfs) = 29.00 7Q10W (cfs) = 51.00 30Q2 (cfs) = 29.00 Avg. Stream Flow, QA (cfs) = 920.00 Receiving Stream: Rocky River HUC 03040105 WWTP/WTP Class: III IWC% @ 1Q10S = 13.96144839 IWC% @ 7Q10S = 11.78707224 IWC% @ 7Q10W = 7.061503417 IWC% @ 30Q2 = 11.78707224 IW%C @ QA = 0.419429035 Stream Class: C Outfall 002 Qw = 2.5 MGD COMBINED HARDNESS (mg/L) Acute = 52.79 mg/L Chronic = 52.56 mg/L PARAMETER NC STANDARDS OR EPA CRITERIA CO REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE J Applied Chronic Acute M n # Det. Max Pred Cw Allowable Cw Standard Acute (FW): 2,435.3 Arsenic C 150 FW(7Q10s) 340 ug/L 3 0 45.0 Chronic (FW): ---1,272.E - ---------------------------- C.V. (default) Max MDL30 Arsenic C 10 HH/WS(Qavg) ug/L Note: n < 9 NO DETECTS _= Chronic (HH): 2,384.2 No RP, Predicted Max < 50% of Allowable Cw - No Limited data set Max MDL = 30 Monitoring required Acute: 465.57 Beryllium NC 6.5 FW(7Q10s) 65 ug/L 3 0 15.00 Note: n < 9 C.V. (default) Chronic: 55.15 No RP, Predicted Max < 50% of Allowable Cw - No Limited data set NO DETECTS Max MDL = 10 Monitoring required Acute: 44.552 Cadmium NC 1.0343 FW(7Q10s) 6.2201 ug/L 3 0 15.000 Note: n < 9 C.V. (default) Chronic: 8.775 All non -detect < 10 ug/L and < 1 ug/L; No monitoring required - Permittee shall report to PQL < 1 ug/L Limited data set NO DETECTS Max MDL 10 during all PPAs. Acute: NO WQS Total Phenolic Compounds NC 300 A(30Q2) ug/L 3 0 30.0 Note: n < 9 C.V. (default) Chronic: 2,545.2 No RP, Predicted Max < 50% of Allowable Cw - No Limited data set NO DETECTS Max MDL = 20 Monitoring required Acute: 11,957.3 Chromium III NC 216.36 FW(7Q10s) 1669.42 µg/L 0 0 N/A Chronic: -----1 835.E - ---------------------------- Acute: 114.6 Chromium VI NC 11 FW(7Q10s) 16 µg/L 0 0 N/A Chronic:----- 93.3--- ---------------------------- Chromium, Total NC µg/L 3 0 15.0 Max reported value = 5 a: No monitoring required if all Total Chromium Note: n < 9 C.V. (default) samples are < 5 pg/L or Pred. max for Total Cr is < allowable Cw for Cr VI. Limited data set NO DETECTS Max MDL = 10 Acute: 151.70 Copper NC 14.8696 FW(7Q I Os) 21.1788 ug/L 21 8 23.97 Chronic: 126.15 No RP, Predicted Max < 50% of Allowable Cw - No No value > Allowable Cw Monitoring required Acute: 157.6 Cyanide NC 5 FW(7010s) 22 10 u2/L 3 3 720.0 __ _ ______ __ ____________________________ Note: n < 9 C.V. (default) Chronic: 42.4 RP for Limited Dataset (n<8) but 2 values > Allowable Limited data set 2 value(s) > Allowable Cw Cw - apply Monthly Monitoring with Limit 43532 RPA, rpa Page 1 of 2 9/5/2023 West Stanly WWTP NCO043532 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Outfall 002 Qw = 2.5 MGD Acute: 1,246.657 Lead NC 6.7489 FW(7Q10s) 174.0513 ug/L 3 0 37.500 Note: n < 9 C.V. (default) Chronic: 57.257 All value non -detect < 25 ug/L and < 5 ug/L; No Limited data set NO DETECTS Max MDL = 25 monitoring required. Acute (FW): 4,518.8 Nickel NC 69.8078 FW(7Q10s) 630.8960 µg/L 3 0 30.0 Chronic (FW): 592.2 No RP, Predicted Max < 50% of Allowable Cw - No Note: n < 9 C.V. (default) Max MDL_= 20 Monitoring required Nickel NC 25.0000 WS(7Q10s) µg/L Limited data set NO DETECTS Chronic (WS): 212.1 Max MDL = 20 Acute: 401.1 Selenium NC 5 FW(7Q10s) 56 ug/L 3 0 60.0 Note: n < 9 C.V. (default) Chronic: 42.4 All value non -detect < 40 ug/L and < 10 ug/L; No Limited data set NO DETECTS Max MDL = 40 monitoring required. Acute: 7.679 Silver NC 0.06 FW(7Q10s) 1.0721 ug/L 3 0 15.000 Note: n < 9 C.V. (default) Chronic: 0.509 All non -detect < 10 ug/L and < 5 ug/L; No monitoring Limited data set NO DETECTS Max MDL 10 required - Permittee shall report to PQL < 1 ug/L during all PPAs. Acute: 1,696.2 No RP, Predicted Max < 50% of Allowable Cw - No Zinc NC ####### FW(7Q10s) 236.8197 ug/L 21 20 105.8 Monitoring required -----2,0-- - --- — - — - — - — - — - — - — - — - — - — - — - — - — - — Chronic: No value > Allowable Cw 43532 RPA, rpa Page 2 of 2 9/5/2023 Date: 9/5/2023 Dissolved to Total Metal Calculator Do NOT enter anv data directly into this spreadsheet. Enter data onto "Table 1" under the Input Sheet and enter "Effluent Hardness" under the Data Sheet. In accordance with 40 CFR 122.45 (c ), permits are, have and must be written as total metals. This calculator has been inserted into the RPA to calculate Total Metal allowable allocations once Table 1 has been completed (Input Sheet) and Effluent hardness has been entered (Data Sheet). 1) Following the spreadsheet from left to right. First the allowable allocations for the dissolved metals will appear for all the metals listed once Table 1 is complete and effluent hardness entered. Use a default value of 25 FACILITY: West Stanly WWTP Outfall 002 NPDES PERMIT: NCO043532 Dissolved to Total Metal Calculator In accordance with Federal Regulations, permit limitations must be written as Total Metals per 40 CFR 122.45(c) PARAMETER mg/L if no hardness data is available. Second, the Dissolved Metal allocations are divided by the Translators to determine the Total Metals that can be allocated to the Permittee. These Total Metals values are automatically inserted into Table 2 and are the allowable Total Metal allocations determined for the Permittee prior to allowing for dilution. See Input sheet Table 2. The final acute and chronic values shown under the RPA sheet are the Total Metal values listed in Table 2 divided by the acute and chronic IWC, respectively. 2) The Translators used in the freshwater RPA are the Partition Coefficients published by US EPA in 1984. They are TSS dependent equations and can be found listed with Cadmium (d) Cd -Trout streams Chromium III (d)(h) Chromium VI (d) Chromium, Total (t) Copper (d)(h) Lead (d)(h) Nickel (d)(h) Ni - WS streams (t) Silver (d)(h,acute) Zinc (d)(h) Beryllium Arsenic (d) Receiving Receiving Rec. Stream NPDES Total Suspended Combined Combined Instream Instream Effluent Upstream Stream Stream Solids Hardness Hardness Wastewater Wastewater Hardness summer summer 7Q10 1Q10 Flow Limit -Fixed Value- chronic Acute Concentration Concentration Hardness Average 7Q10 (CFS) (MGD) [MGD] [MGD] (mg/L) (mg/L) (mg/L) (Chronic) (Acute) Average (mg/L) (mg/L) 29.0000 18.7097 15.4065 1 1.2000 10 11 51.931 52.061 6.0272 7.2261 151.2764706 162.13889 after applying hardness I Translators- using equation Default Partition Coefficients (streams) Chronic Acute [u /1] [u /1] 0.26 1.55 0.252 0.26 0.96 0.252 43 334 0.202 11 16 1.000 5.1 7.3 0.348 1.22 32 0.184 30 270 0.432 1.000 0.288 0.06 1.05 68 67 Upstream Hard Avg (mg/L) = 51.27647 EFF Hard Avg (mg/L) = 62.13889 Total Metal Criteria Total Metal = (COMMENTS (identify parameters to PERCS Branch to maintain in facility's LTMP/STMP): Dissolved Metal = Translator Chronic I Acute 1.03 6.14 3.82 1650.45 1.03 214.25 11.00 ------------- 16.00 N/A N/A 14.72 20.90 6.66 171.38 69.10 623.49 25 N/A 0.06 1.05 235.45 234.04 6.51 651 1.0001 6.51 65 1501 3401 1.0001 1501 340 (d) =dissolved metal standard. See 15A NCAC 02B .0211 for more information. the WQS hardness dependent equations under the sheet (h) = hardness -dependent dissolved metal standard. See 15A NCAC 02B .0211 for more information. labeled Equations. A fixed TSS value of 10 mg/L is used to (t) = based upon measurement of total recoveable metal. See 15A NCAC 02B .0211 for more information. calculate the Translator values. The Human Health standard for Nickel in Water Supply Streams is 25 mg/L which is Total Recoverable metal standard. 3) Pretreatment Facilities - PERCS will need a copy of the The Human Health standard for Arsenic is 10 µg/L which is Total Recoverable metal standard. Dissolved to Total Metal Calculator spreadsheet and the RPA sheet along with the Final Permit. Pretreatment Facilities are required to renew their Headwords Analysis after renewal of their permits. Since all their metal allocations are likely to change PERCS needs to see any new metal permit limits and the allowable allocations for the dissolved metals to assess Maximum Allowable Headworks Loading (MAHL) numbers for each metal based on the Combined Hardness values used in the permit writers RPA calculations. 4) For Cadmium, Lead, Nickel, Chromium and Beryllium, if all the effluent sampling data for the last three to five years shows the pollutant at concentrations less than the Practical Quantitative Level (PQL), it is not likely a limit or monitoring will be put in the permit. However, if the estimated NPDES permit limit is less than the Practical Quantitative Limit (particularly, Cadmium and Lead) and the pollutant is believed to be present, to assess compliance with the new standards and for future permit limit development, monitoring for the pollutant will be required. If the facility is monitoring for the pollutant in its Pretreatment LTMP, no monitoring is needed in the permit. 5) For monitoring and compliance purposes if Total Chromium < the Chromium VI chronic Total Metal ACAH 52.0614 ACCH 51.93117 Date: 9/5/2023 Dissolved to Total Metal Calculator Do NOT enter anv data directly into this spreadsheet. Enter data onto "Table 1" under the Input Sheet and enter "Effluent Hardness" under the Data Sheet. In accordance with 40 CFR 122.45 (c ), permits are, have and must be written as total metals. This calculator has been inserted into the RPA to calculate Total Metal allowable allocations once Table 1 has been completed (Input Sheet) and Effluent hardness has been entered (Data Sheet). 1) Following the spreadsheet from left to right. First the allowable allocations for the dissolved metals will appear for all the metals listed once Table 1 is complete and effluent hardness entered. Use a default value of 25 FACILITY: West Stanly WWTP Outfall 002 NPDES PERMIT: NCO043532 Dissolved to Total Metal Calculator In accordance with Federal Regulations, permit limitations must be written as Total Metals per 40 CFR 122.45(c) PARAMETER mg/L if no hardness data is available. Second, the Dissolved Metal allocations are divided by the Translators to determine the Total Metals that can be allocated to the Permittee. These Total Metals values are automatically inserted into Table 2 and are the allowable Total Metal allocations determined for the Permittee prior to allowing for dilution. See Input sheet Table 2. The final acute and chronic values shown under the RPA sheet are the Total Metal values listed in Table 2 divided by the acute and chronic IWC, respectively. 2) The Translators used in the freshwater RPA are the Partition Coefficients published by US EPA in 1984. They are TSS dependent equations and can be found listed with Cadmium (d) Cd -Trout streams Chromium III (d)(h) Chromium VI (d) Chromium, Total (t) Copper (d)(h) Lead (d)(h) Nickel (d)(h) Ni - WS streams (t) Silver (d)(h,acute) Zinc (d)(h) Beryllium Arsenic (d) Receiving Receiving Rec. Stream NPDES Total Suspended Combined Combined Instream Instream Effluent Upstream Stream Stream Solids Hardness Hardness Wastewater Wastewater Hardness summer summer 7Q10 1Q10 Flow Limit -Fixed Value- chronic Acute Concentration Concentration Hardness Average 7Q10 (CFS) (MGD) [MGD] [MGD] (mg/L) (mg/L) (mg/L) (Chronic) (Acute) Average (mg/L) (mg/L) 29.0000 18.7097 15.4065 1 2.5000 10 11 52.557 52.793 11.7871 13,9614 151.2764706 162.13889 after applying hardness I Translators- using equation Default Partition Coefficients (streams) Chronic Acute [u /1] [u /1] 0.26 1.57 0.252 0.26 0.98 44 338 11: 16 0.252 0.202 1.000 5.2 1.24 7.4 32 0.348 0.184 30 273 0.432 0.06 1.07 1.000 68 68 0.288 Upstream Hard Avg (mg/L) = 51.27647 EFF Hard Avg (mg/L) = 62.13889 Total Metal Criteria Total Metal = (COMMENTS (identify parameters to PERCS Branch to maintain in facility's LTMP/STMP): Dissolved Metal = Translator Chronic I Acute 1.03 6.22 3.87 1669.42 1.03 216.36 11.00 ------------- 16.00 N/A N/A 14.87 21.18 6.75 174.05 630.90 69.81 25 N/A 0.06 1.07 237.85 236.82 6.51 651 1.0001 6.51 65 1501 3401 1.0001 1501 340 (d) =dissolved metal standard. See 15A NCAC 02B .0211 for more information. the WQS hardness dependent equations under the sheet (h) = hardness -dependent dissolved metal standard. See 15A NCAC 02B .0211 for more information. labeled Equations. A fixed TSS value of 10 mg/L is used to (t) = based upon measurement of total recoveable metal. See 15A NCAC 02B .0211 for more information. calculate the Translator values. The Human Health standard for Nickel in Water Supply Streams is 25 mg/L which is Total Recoverable metal standard. 3) Pretreatment Facilities - PERCS will need a copy of the The Human Health standard for Arsenic is 10 µg/L which is Total Recoverable metal standard. Dissolved to Total Metal Calculator spreadsheet and the RPA sheet along with the Final Permit. Pretreatment Facilities are required to renew their Headwords Analysis after renewal of their permits. Since all their metal allocations are likely to change PERCS needs to see any new metal permit limits and the allowable allocations for the dissolved metals to assess Maximum Allowable Headworks Loading (MAHL) numbers for each metal based on the Combined Hardness values used in the permit writers RPA calculations. 4) For Cadmium, Lead, Nickel, Chromium and Beryllium, if all the effluent sampling data for the last three to five years shows the pollutant at concentrations less than the Practical Quantitative Level (PQL), it is not likely a limit or monitoring will be put in the permit. However, if the estimated NPDES permit limit is less than the Practical Quantitative Limit (particularly, Cadmium and Lead) and the pollutant is believed to be present, to assess compliance with the new standards and for future permit limit development, monitoring for the pollutant will be required. If the facility is monitoring for the pollutant in its Pretreatment LTMP, no monitoring is needed in the permit. 5) For monitoring and compliance purposes if Total Chromium < the Chromium VI chronic Total Metal ACAH 52.79302 ACCH 52.55683 Permit No. NCO043532 NPDES Implementation of Instream Dissolved Metals Standards - Freshwater Standards The NC 2007-2015 Water Quality Standard (WQS) Triennial Review was approved by the NC Environmental Management Commission (EMC) on November 13, 2014. The US EPA subsequently approved the WQS revisions on April 6, 2016, with some exceptions. Therefore, metal limits in draft permits out to public notice after April 6, 2016 must be calculated to protect the new standards - as approved. Table 1. NC Dissolved Metals Water Q ality Standards/A uatic Life Protection Parameter Acute FW, µg/l (Dissolved) Chronic FW, µg/l (Dissolved) Acute SW, µg/1 (Dissolved) Chronic SW, µg/1 (Dissolved) Arsenic 340 150 69 36 Beryllium 65 6.5 --- --- Cadmium Calculation Calculation 40 8.8 Chromium III Calculation Calculation --- --- Chromium VI 16 11 1100 50 Copper Calculation Calculation 4.8 3.1 Lead Calculation Calculation 210 8.1 Nickel Calculation Calculation 74 8.2 Silver Calculation 0.06 1.9 0.1 Zinc Calculation Calculation 90 81 Table 1 Notes: 1. FW= Freshwater, SW= Saltwater 2. Calculation = Hardness dependent standard 3. Only the aquatic life standards listed above are expressed in dissolved form. Aquatic life standards for Mercury and selenium are still expressed as Total Recoverable Metals due to bioaccumulative concerns (as are all human health standards for all metals). It is still necessary to evaluate total recoverable aquatic life and human health standards listed in 15A NCAC 2B.0200 (e.g., arsenic at 10 µg/1 for human health protection; cyanide at 5 µg/L and fluoride at 1.8 mg/L for aquatic life protection). Table 2. Dissolved Freshwater Standards for Hardness -Dependent Metals The Water Effects Ratio (WER) is equal to one unless determined otherwise under 15A NCAC 02B .0211 Subparagraph (11)(d) Metal NC Dissolved Standard, µg/I Cadmium, Acute WER* {1. 136672-[ln hardness](0.041838)} e^10.9151 [ln hardness]-3.1485} Cadmium, Acute Trout waters WER* {1. 136672-[ln hardness](0.041838)} e^{0.9151[In hardness]-3.62361 Cadmium, Chronic WER*{1.101672-[ln hardness](0.041838)} • e^{0.7998[ln hardness] -4.445 11 Chromium III, Acute WER*0.316 e^{0.8190[ln hardness]+3.7256} Chromium III, Chronic WER*0.860 e^{0.8190[ln hardness]+0.6848} Copper, Acute WER*0.960 e^{0.9422[ln hardness]-1.700} Copper, Chronic WER*0.960 e^{0.8545[ln hardness]-1.702} Lead, Acute WER*{1.46203-[ln hardness](0.145712)} • e^{1.273[ln hardness]-1.460} Lead, Chronic WER*{1.46203-[ln hardness](0.145712)} • e^{1.273[ln hardness]-4.705) Nickel, Acute WER*0.998 e^{0.8460[ln hardness]+2.255} Nickel, Chronic WER*0.997 e^{0.8460[ln hardness]+0.0584} Page 1 of 4 Permit No. NCO043532 Silver, Acute WER*0.85 • e"O.72[ln hardness]-6.59} Silver, Chronic Not applicable Zinc, Acute WER*0.978 e^{0.8473[ln hardness]+0.884} Zinc, Chronic WER*0.986 e^{0.8473[ln hardness]+0.884} General Information on the Reasonable Potential Analysis (RPA) The RPA process itself did not change as the result of the new metals standards. However, application of the dissolved and hardness -dependent standards requires additional consideration in order to establish the numeric standard for each metal of concern of each individual discharge. The hardness -based standards require some knowledge of the effluent and instream (upstream) hardness and so must be calculated case -by -case for each discharge. Metals limits must be expressed as `total recoverable' metals in accordance with 40 CFR 122.45(c). The discharge -specific standards must be converted to the equivalent total values for use in the RPA calculations. We will generally rely on default translator values developed for each metal (more on that below), but it is also possible to consider case -specific translators developed in accordance with established methodology. RPA Permitting Guidance/WOBELs for Hardness -Dependent Metals - Freshwater The RPA is designed to predict the maximum likely effluent concentrations for each metal of concern, based on recent effluent data, and calculate the allowable effluent concentrations, based on applicable standards and the critical low -flow values for the receiving stream. If the maximum predicted value is greater than the maximum allowed value (chronic or acute), the discharge has reasonable potential to exceed the standard, which warrants a permit limit in most cases. If monitoring for a particular pollutant indicates that the pollutant is not present (i.e. consistently below detection level), then the Division may remove the monitoring requirement in the reissued permit. To perform a RPA on the Freshwater hardness -dependent metals the Permit Writer compiles the following information: • Critical low flow of the receiving stream, 7Q10 (the spreadsheet automatically calculates the 1 Q 10 using the formula 1 Q 10 = 0.843 (s7Q 10, cfs) 0.993 • Effluent hardness and upstream hardness, site -specific data is preferred • Permitted flow • Receiving stream classification 2. In order to establish the numeric standard for each hardness -dependent metal of concern and for each individual discharge, the Permit Writer must first determine what effluent and instream (upstream) hardness values to use in the equations. The permit writer reviews DMR's, Effluent Pollutant Scans, and Toxicity Test results for any hardness data and contacts the Permittee to see if any additional data is available for instream hardness values, upstream of the discharge. If no hardness data is available, the permit writer may choose to do an initial evaluation using a default hardness of 25 mg/L (CaCO3 or (Ca + Mg)). Minimum and maximum limits on the hardness value used for water quality calculations are 25 mg/L and 400 mg/L, respectively. If the use of a default hardness value results in a hardness -dependent metal showing reasonable potential, the permit writer contacts the Permittee and requests 5 site -specific effluent and upstream hardness samples over a period of one week. The RPA is rerun using the new data. Page 2 of 4 Permit No. NCO043532 The overall hardness value used in the water quality calculations is calculated as follows: Combined Hardness (chronic) _ (Permitted Flow, cfs *Avg. Effluent Hardness, mg/L)+s7Q10, cfs *Avg. Upstream Hardness, mg/L) (Permitted Flow, cfs + s7Q 10, cfs) The Combined Hardness for acute is the same but the calculation uses the IQ 10 flow. 3. The permit writer converts the numeric standard for each metal of concern to a total recoverable metal, using the EPA Default Partition Coefficients (DPCs) or site -specific translators, if any have been developed using federally approved methodology. EPA default partition coefficients or the "Fraction Dissolved" converts the value for dissolved metal at laboratory conditions to total recoverable metal at in -stream ambient conditions. This factor is calculated using the linear partition coefficients found in The Metals Translator: Guidance for Calculating a Total Recoverable Permit Limit from a Dissolved Criterion (EPA 823-B-96-007, June 1996) and the equation: Cdiss = 1 Ctotal I + { [Kp.] [ss('+a)] [10 6] } Where: ss = in -stream suspended solids concentration [mg/1], minimum of 10 mg/L used, and Kpo and a = constants that express the equilibrium relationship between dissolved and adsorbed forms of metals. A list of constants used for each hardness -dependent metal can also be found in the RPA program under a sheet labeled DPCs. 4. The numeric standard for each metal of concern is divided by the default partition coefficient (or site -specific translator) to obtain a Total Recoverable Metal at ambient conditions. In some cases, where an EPA default partition coefficient translator does not exist (ie. silver), the dissolved numeric standard for each metal of concern is divided by the EPA conversion factor to obtain a Total Recoverable Metal at ambient conditions. This method presumes that the metal is dissolved to the same extent as it was during EPA's criteria development for metals. For more information on conversion factors see the June, 1996 EPA Translator Guidance Document. 5. The RPA spreadsheet uses a mass balance equation to determine the total allowable concentration (permit limits) for each pollutant using the following equation: Ca = (s7Q 10 + Qw) (Cwgs) — (s7Q10) (Cb) Qw Where: Ca = allowable effluent concentration (µg/L or mg/L) Cwqs = NC Water Quality Standard or federal criteria (µg/L or mg/L) Cb = background concentration: assume zero for all toxicants except NH3* (µg/L or mg/L) Qw = permitted effluent flow (cfs, match s7Q 10) s7Q 10 = summer low flow used to protect aquatic life from chronic toxicity and human health through the consumption of water, fish, and shellfish from noncarcinogens (cfs) * Discussions are on -going with EPA on how best to address background concentrations Flows other than s7Q 10 may be incorporated as applicable: IQ 10 = used in the equation to protect aquatic life from acute toxicity Page 3 of 4 Permit No. NC0043532 QA = used in the equation to protect human health through the consumption of water, fish, and shellfish from carcinogens 30Q2 = used in the equation to protect aesthetic quality 6. The permit writer enters the most recent 2-3 years of effluent data for each pollutant of concern. Data entered must have been taken within four and one-half years prior to the date of the permit application (40 CFR 122.21). The RPA spreadsheet estimates the 95th percentile upper concentration of each pollutant. The Predicted Max concentrations are compared to the Total allowable concentrations to determine if a permit limit is necessary. If the predicted max exceeds the acute or chronic Total allowable concentrations, the discharge is considered to show reasonable potential to violate the water quality standard, and a permit limit (Total allowable concentration) is included in the permit in accordance with the U.S. EPA Technical Support Document for Water Quality -Based Toxics Control published in 1991. 7. When appropriate, permit writers develop facility specific compliance schedules in accordance with the EPA Headquarters Memo dated May 10, 2007 from James Hanlon to Alexis Strauss on 40 CFR 122.47 Compliance Schedule Requirements. The Total Chromium NC WQS was removed and replaced with trivalent chromium and hexavalent chromium Water Quality Standards. As a cost savings measure, total chromium data results may be used as a conservative surrogate in cases where there are no analytical results based on chromium III or VI. In these cases, the projected maximum concentration (95th %) for total chromium will be compared against water quality standards for chromium III and chromium VI. 9. Effluent hardness sampling and instream hardness sampling, upstream of the discharge, are inserted into all permits with facilities monitoring for hardness -dependent metals to ensure the accuracy of the permit limits and to build a more robust hardness dataset. 10. Hardness and flow values used in the Reasonable Potential Analysis for this permit included: Parameter Value Comments (Data Source) Average Effluent Hardness (mg/L) 62.14 Average from 112019 to 412023 [Total as, CaCO3 or (Ca+Mg)] samples Average Upstream Hardness (mg/L) 51.28 Average from 212019 to 412023 [Total as, CaCO3 or (Ca+Mg)] samples 7Q10 summer (cfs) 29.0 Historical; Previous Fact Sheet 1Q10 (cfs) 23.88 Calculated in RPA Permitted Flow (MGD) 1.2 with NPDES Files expansion to 2.5 Date: 8/3/2023 Permit Writer: Nick Coco Page 4 of 4 NC Division of Water Resources Planning Section, Basin Planning Branch September 7, 2022 Memorandum To: Nick Coco Cc: Mark Vander Borgh, Michelle Raquet, Nora Dreamer, Pam Behm From: Ginny Baker Subject: West Stanly WWTP (NC0043532) Permit Review and Instream Monitoring DWR Basin Planning Branch supports the changes to instream monitoring as outlined in the West Stanly Draft Permit including all parameter additions and adjustments to upstream and downstream station locations. Moving the current YPDRBA station, Q8480000, to the inactive DWR AMS station Q8510000 location, will change the upstream monitoring from 7.4 to 2.2 miles above the outfall while adding a new instream monitoring station to the location of the inactive AMS station Q8740000 will change the downstream monitoring from 10 miles below the outfall, where AMS station Q9120000 is located, to just 3 miles below the outfall. These upstream and downstream monitoring location changes will provide much better representative information on the condition of the Rocky River above and below the West Stanly WWTP (See Map Figure 1). Richland Creek and Lanes Creek, two large tributaries with known water quality issues, drain to the Rocky River between the West Stanly outfall and AMS station Q9120000 (see Map Figure 1). The Rocky River watershed (HUC8 03040105) has many pollutant sources contributing to water quality problems, including several WWTPs, like the West Stanly WWTP, that have needed to pursue expansions to meet the needs of their communities. There are also several other potential pollution sources that DWR has limited information on such as animal waste management, failing septic tanks, and commercial fertilizer rates. Close to 60% of monitored rivers, creeks, and streams and nearly 70% of the lakes in the Rocky River watershed were impaired on the 2022 Integrated Report (IR). The majority of the Rocky River mainstem was impaired for turbidity and metals, mainly copper and some zinc, including the Assessment Unit (AU) where station Q8480000 and the West Stanly outfall is located, 13- 176, a large 36-mile stretch of the Rocky River from Anderson Creek to Lanes Creek (see Map Figure 1). The metals data for this AU is based on the old total metals standard using data collected over 10 years ago, and not the new dissolved metals standard. However, the next lower section of the Rocky River, AU 13-17d (from the mouth of Island Creek to the Pee Dee River; see Map Figure 1), where station Q9120000 is located, was also impaired for turbidity and copper, using the new dissolved metals standard. Both AUs rated 3a, data inconclusive, on the 2022 IR, because 5-in-30 fecal samples were not collected at either Q4840000 or Q9120000. However, screening level monitoring data indicates exceedances over the 400 colonies/100 mL standard was 43% at the current upstream station (Q8480000) and 28% at the current downstream station (Q9120000) for data collected over the previous five years, 2018-2022 indicating there are existing issues with fecal coliform in the lower Rocky River mainstem. 101 Figure 1: Lower Rocky River, Richland Creek, Lanes Creek, Pee Dee River Monitoring Stations Stanl AU 13-17c3 �t 38 est Stanly IITP Outfall Q8510000� 0Q8480000 QS7` r r r ium Lille r 1917000 C; ra i I Q Marsh ' e r 10 - "'--�Q9021300 Miles O Cf Lake f Tillery i [73 l y River OQ7150000 �b AU 13-17d fee R� per e Pee Dee 9160000 ° National Wildlife Refu Blewett Falls Lake • YPDRBA 2022 IR Overall Category \ i AMS Monitoring Stations — No Data O Active Data Inconclusive 1 0 Inactive Exceeding Criteria 1 NPDESWWTPPermits (Cat.4) Exceeding Criteria Major (Cat. 5) Minor _ Exceeding Criteria NPDES Outfalls (Cat. 5r) 74 Minor Meeting Criteria aid Major Water quality monitoring data collected over the last several years indicates that the Rocky River mainstem and several tributaries, including Richardson Creek, have some of the highest levels of nutrients in the state. Figure 2 compares the mainstem Rocky River station dataset collected from eight long-term monitoring stations (including Q8480000 and Q9120000) to the entire North Carolina Piedmont ecoregion dataset using yearly box and whisker plots. Total nitrogen, nitrite -nitrates, and phosphorus levels were notably higher at the Rocky River stations than at the Piedmont ecoregion stations. Only TKN was comparable in most years. The USGS SPARROW (SPAtially Referenced Regression On Watershed Attributes) model results also show that the Rocky River has the second -highest total nitrogen yield and third -highest total phosphorus yield of all HUC8 watersheds in the state (USGS 2019). Nutrients from the Rocky River watershed are affecting downstream waterbodies, including Blewett Falls Lake, the lowest of the Yadkin -Pee Dee River chain lakes located below the Rocky River confluence (see Map Figure 1), which has been impaired for chlorophyll -a since 2018. Water quality data indicates nutrient levels increase along Q7150000 Pee Dee R. Upstream the Pee Dee River below the confluence with the Rocky Q2480000 Rocky River Upstream River. Figure 3 displays nutrient yearly water quality data using box and whisker graphs by station in hydrologic � �� 20000 Rocky River Downstream order: Q7150000 (light blue) on the Pee Dee mainstem Q9160000 pee Dee R. Downstream below Lake Tillery and above the Rocky River confluence, Q8480000 (light gray) on the Rocky River above the West Stanly WWTP, Q9120000 (black) on the Rocky River below the WWTP, and Q7160000 (dark blue) on the Pee Dee mainstem below the Rocky River confluence (also see Map Figure 1 color -coded stations). Water quality data also indicates nutrient levels in the two StatiorlD tributaries, Richland and Lanes creeks, located between the West Stanly WWTP outfall and lower Rocky River QPee Dee R. Upstream Q8848480000 0000 Rocky River, Upstream station Q9120000 are influencing nutrient levels in the Q8800000 Richland Creek, Upstream Rocky. A comparison of yearly water quality data from the Q8820000 Richland Creek, MidStream Rocky River stations above and below West Stanly WWTP, Q8917000 Richland Creek, Downstream the tributary stations, and the Pee Dee River stations above Q9021300 Lanes Creek and below the Rocky confluence highlight the extremely 09120000 Rocky River, Downstream concentrated nutrient levels that are draining to the Rocky 09160000 pee Dee R. Downstream River from these tributaries, particularly Richland Creek. Figure 4 displays nutrient yearly water quality data using box and whisker graphs by station in hydrologic order: Q7150000 (light blue) located on the Pee Dee mainstem below Lake Tillery and above the Rocky River confluence, Q8480000 (light gray) on the Rocky River above the West Stanly WWTP, Q8800000 (pink) the most upstream Richland Creek station, Q8820000 (red) the next lower station (mid -stream) on Richland Creek, Q89170000 (burgundy) the lowest Richland Creek station, Q9021300 (lime green) the Lanes Creek station, Q9120000 (black) the downstream Rocky River station below the WWTP and Richland and Lanes creeks, and Q7160000 (dark blue) located on the Pee Dee mainstem below the Rocky River confluence (also see Map Figure 1 color -coded stations). See Figure 5 for assistance in interpreting Box and Whisker plots. Also, note the scaling differences of the nutrients in Figures 4 and 5. The extremely high levels of nutrients in these tributaries and other water quality issues demonstrate the need for monitoring closer to the West Stanly WWTP. Richland Creek has multiple impairments on different sections for benthos, dissolved copper, and dissolved oxygen while Lanes Creek is entirely impaired for benthos and partially impaired for dissolved oxygen. Screening level fecal coliform data for exceedances of the 400 colonies/100 mL standard over the last five years have ranged from 22% to 37% at Richland and Lanes Creek stations. Figure 2: Rocky River Mainstem and Piedmont Ambient Monitoring Stations (Piedmont Yearly Mean — "+", Rock River Yearly Mean — "X") Piedmont R Fuve( IOtal NI ,7.0 ,&0 15.0 T ,A- 13.0 12.4 110 10.4 T 1 T I 'i a 9n an xn r. h #A Total Phosphorus ;a z.� 2.2 2.4T ,,a 10 o,a - OA a 45 + PdednnonL Nitrite -Nitrate f RiVer ,4 13 ,2 11 ,a T 7 6 5 3 '7yf` Ty yTr 0 pp +V � p� per_ p pN p nppn 7 �+pp4 �D M1 1ppO Spp+ 2.4 TKN G � C C a C d G G 4 +W ^I ^I N +`1 r'T ^I 'V ^I N Figure 3: Nutrient Monitoring for Rocky River Stations Q8480000 (gray) & Q9120000 (Black) and Pee Dee River Q7150000 (light blue above Rocky River confluence) & Q9160000 (dark blue below Rocky River confluence) 14.D 13.D 12.D 11.D 1 O.D E 9-0- 2 8.0 ■ 7.0 w 6.0 'z • • • • • 5.0 4.0 3.0 2.0 1.0 x 4 •• e i Ii� + 13 ..I GU12 GU13 ZU14 LS115 GU1 b GU1 J 3.5 3.0 • 2.5 • 2.0 + £ • z • se + ~ 1.5 ■ • 1.D D.5 DO GU18 LU13 LULU LUL1 LULL 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 J.[1 12.D 11.D 1 D.D 9.0 J 8.0 7.D g z 6.D a 5.D 4.0 3.0 2.0 1.0 a� O a A 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 1.20 1.10 1.D0 0.90 J E D.8D T � I r `0 0.70 n a 0.60 n 0 0.50 0.40 0.30 • 0.20 nR 0.10 • • Y u V ZD12 2013 2014 ZD15 2016 ZD17 2018 2019 2D20 2021 2022 Figure 4: Nutrient Monitoring in the Rocky River (gray Q8480000 upstream & black Q9120000 downstream), Richland Creek (pink Q8800000 upstream, red Q8820000 midstream, burgundy Q8917000), Lanes Creek (lime green Q9021300), and Pee Dee River (light blue Q7160000 upstream of Rocky River & dark blue Q9160000 downstream of Rocky River) 35 30 25 20 - °i 15 'z 10 5 b9 7 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 1 1 D.D 9.D 8.0 7.0 J �t 6.0 Y 5.D 4.0 3.0 2.0 1.0 00 • • r • • • �� a � $a ��4 B+ ��4 • + � ��$4 T a� $ :� IRyI 4 • FDA a n Y � - $ jjjj • �•Y Z012 2013 2014 2D15 2D16 2017 Zola 2019 2020 2021 35 30 25 6] E m 2D ¢1 O 15 • I 10 • + i■ ;i a ■� L �a p $ 1 0 : v 0 2012 2013 2014 2015 201fi 2017 Zola 2D19 2D2D 2D21 5.D 4.5 4.0 _ F 3.5 a 3.0 + s ■ a 2.5 �v 2.D ' 0 1.5 s • 1.0 IU- D.5 �• • a Yi QI Q • a D.0 2012 2013 2014 2015 2016 2017 2018 2019 262D 2021 2022 2022 Figure 5: How to Read Box and Whisker Plots ■ N NONE ■■■■■■■ ■ ■■■■■N■■■■■■ ■■■■■■■■■■■■■■■■■ ■ ■■■■■■■■■■■■■■■■■■■■■■■ ■ ■■■■■■■■■��■■■■■■■N■■■■■■■■ ■■ (25%) (25%) [25%) (25%) Q1 Q2 Q3 IQR = Q3 - Q1 Upper whisker limit - Q3 + 1 5(IQR) is V (Ouillers) DWR also recognizes that the Rocky River watershed is likely nutrient -sensitive and in need of a comprehensive management strategy to address growing water quality issues resulting in degraded aquatic habitat and negative water quality impacts to downstream waterbodies. DWR has identified multiple limitations in the current Rocky River model used to understand point source impacts to the watershed and would like to update this model in the future. Obtaining current monitoring data for the mainstem is essential. Any future applications of the model will at a minimum need to address these limitations. They include: • Full calibration of the model at multiple points in the watershed to address the need for water quality monitoring at or near 7Q10 conditions; • Updated to ensure that all the tributary and point source inputs along the Rocky River are accurate and current; • Updated to ensure that the simulated longitudinal patterns of water quality variables are consistent with recent available observations; and • Calibration is done in such a way that all portions of the watershed are equally represented. It would benefit all entities involved if these improvements could lead to the development of a regional Rocky River model extending to the end of the Rocky River (i.e., Pee Dee River confluence). A dynamic model, rather than a steady-state model, would be preferred so that the complexities of this river system are properly represented, and all the available monitoring data can be readily incorporated, increasing the model confidence. USGS, (2019), SPARROW modeling: Estimating nutrient, sediment, and dissolved solids transport. Retrieved from https://www.usgs.gov/mission-areas/water-resources/science/sparrow-modeling- estimating-nutrient-sediment-and-dissolved?qt-science center objects=0#qt-science center objects, Accessed June 23, 2020. Cya- n71 RPA Procedures Subject: Cyanide RPA Procedures Date: Thu, 03 Oct 200211:22:47 -0400 From: Tom Belnick <tom.belnick@ncmail.net> To: "DENR.NPDES.DWQ" <DENR.NPDES.DWQ@ncmai1.net> Here's something to print and retain in your Guidance Manual. Based on recent negotiations with EPA, NPDES is considering a cyanide PQL of 10 ug/1 to be appropriate due to the analytical variability near this concentration range. While many labs are currently reporting values below this PQL, we will not treat those values as valid numbers for RPA purposes. Below are some RPA examples:. Example 1). All data reported are below 10 ug/l (e.g., <5, <10, 7, 9, <5). In this instance, we consider all values to be non -detects, since there are no positive detections above 10 ug/l. There is no need to do RPA, and there should be no limit. If this is a municipal with pretreatment program, cyanide monitoring could be delegated to the pretreatment program (LIMP/STMP). Example 2). There are some detections above 10 ug/1 (e.g., <2, <5, <10, 14, <5, 7, 3). Lets assume the allowable effluent concentration is 20 ug/l. In this instance, we would need to conduct RPA since there is a positive detection above 10 ug/l. For all reported values below 10 ug/1 '(<2, <5, <10, 7, 3), substitute a modified value of 5 ug/1 in the RPA (based on 1/2 of the accepted PQL). Then include the positive values above 10 ug/1 and run the RPA. Mailto:tom.belnick9nr_mail.net N.0 DENR-DWQ/NPDES Unit 1617 Mail Service Center, Raleigh NC 27699-1617 Work: (919) 733-5083 ext. 543 Fax: (919) 733-0719 0 1 of 1 6/6/03 3:34 PM DWQ - Determining Cyanide Compliance Permit Footnote - Cyanide 2009 — Due to difficulties quantifying cyanide in a wastewater matrix, the Division shall consider all values reported below 10 tag/L to be "compliant" with this permit. However, the Permittee shall submit to DWQ all values reported by a North Carolina -certified test method (even if values fall below 10 lag/L), and the Permittee shall consider all reported values when calculating averages, if any, as required under this permit. Although the Division argues "poor test consistency below 10 lag/L," some labs assert better accuracy. Therefore, the Permittee shall report on the DMR the lab's test method PQL (practical quantitation level/minimum verifiable method quantitation level. The Permittees shall not report just "<PQL," but report the lab's asserted test method result (example: <5 lig/L). CALCULATING AVERAGES — from values reported below 10 ua/L EXAMPLES: Facility X's permit says, Weekly Average = 5.0 pg/L Daily Max = 15.0 lag/L Given a week's CN data (lag/L), calculate the averages: [* = values below PQL = 0] a. 9 * b. 14 C. 9 * 13 9 18 7 * 13 7 * + 8 +. 7 + 6 .* 13 27 18 13=4=3.25 27:4=6.75 18+4=4.5 Weekly Avg: Compliant Weekly Avg: Noncompliant Weekly Avg: Compliant Daily Max: Compliant Daily Max: Compliant Daily Max: Noncompliant d. 9 * e. 9 10 8 18 7 8 * + 6 �y 28 0 28:4=7.0 0=4=0 Weekly Avg: Noncompliant Weekly Avg: Compliant Daily Max: Noncompliant Daily Max: Compliant Notes: 1. Apply the PQL to individually reported values only - not to the calculated result. If the calculated result exceeds the permit's Weekly Average limit, the Permittee has violated its limit (even if that value is less than the method PQL). 2. The guidance "PQL = 0" also applies to Daily Max < 10 lag/L (or other PQL value). NCO043532 West Stanly WWTP BOD monthly removal rate Month January-19 February-19 March-19 April-19 May-19 June-19 July-19 August-19 September-19 October-19 November-19 December-19 January-20 February-20 March-20 April-20 May-20 June-20 July-20 August-20 September-20 October-20 November-20 December-20 January-21 February-21 March-21 April-21 May-21 June-21 RR (%) 90.31 68.49 82.23 89.65 97.68 98.31 98.24 96.74 97.85 98.40 95.48 93.35 95.70 94.43 94.47 98.51 92.69 98.00 98.16 96.95 95.63 97.63 98.31 95.14 91.11 95.85 93.54 97.34 97.63 95.54 Month July-21 August-21 September-21 October-21 November-21 December-21 January-22 February-22 March-22 April-22 May-22 June-22 July-22 August-22 September-22 October-22 November-22 December-22 January-23 February-23 March-23 April-23 May-23 June-23 July-23 August-23 September-23 October-23 November-23 December-23 Overall BOD removal rate RR (%) 98.38 97.44 97.50 81.36 93.23 94.77 96.20 97.66 95.16 96.18 98.86 99.00 97.87 98.83 98.09 96.37 96.11 95.98 94.38 95.00 93.95 95.51 94.87 95.02 8/3/2023 TSS monthly removal rate Month January-19 February-19 March-19 April-19 May-19 June-19 July-19 August-19 September-19 October-19 November-19 December-19 January-20 February-20 March-20 Apri I-20 May-20 June-20 July-20 August-20 September-20 October-20 November-20 December-20 January-21 February-21 March-21 April-21 May-21 June-21 RR (%) 90.95 49.20 78.24 75.00 98.00 98.44 97.97 95.66 97.49 97.86 95.36 92.51 93.76 88.25 92.71 98.10 90.28 98.32 97.06 97.42 94.64 97.67 97.52 95.70 92.53 92.41 94.13 97.29 98.28 96.19 Month July-21 August-21 September-21 October-21 November-21 December-21 January-22 February-22 March-22 April-22 May-22 June-22 July-22 August-22 September-22 October-22 November-22 December-22 January-23 February-23 March-23 April-23 May-23 June-23 July-23 August-23 September-23 October-23 November-23 December-23 Overall TSS removal rate RR (%) 98.59 96.48 97.64 79.85 86.10 93.08 96.42 98.29 96.23 96.97 98.99 99.25 98.20 98.90 98.02 96.38 97.63 97.20 92.03 95.66 95.72 97.14 96.84 93.92 9/5/23 WQS = 12 ng/L Facility Name West Stanly WWTP/NC0043532 /Permit No. : Total Mercury 1631E PQL = 0.5 ng/L Date Modifier Data Entry Value 1/14/22 2.27 2.27 4/13/22 < 1 0.5 8/8/22 < 0.5 0.5 MERCURY WQBEL/TBEL EVALUATION No Limit Required No MMP Required 7Q10s = 29.000 cfs WQBEL = Permitted Flow = 2.500 V:2013-6 101.81 ng/L 47 ng/L 1.1 ng/L - Annual Average for 2022 9/5/23 WQS = 12 ng/L Facility Name West Stanly WWTP/NC0043532 /Permit No. : Total Mercury 1631E PQL = 0.5 ng/L Date Modifier Data Entry Value 1/14/22 2.27 2.27 4/13/22 < 1 0.5 8/8/22 < 0.5 0.5 MERCURY WQBEL/TBEL EVALUATION No Limit Required No MMP Required 7Q10s = 29.000 cfs WQBEL = Permitted Flow = 1.200 V:2013-6 199.10 ng/L 47 ng/L 1.1 ng/L - Annual Average for 2022 West Stanly WWTP/NC0043532 Mercury Data Statistics (Method 1631E) 2022 # of Samples 3 Annual Average, ng/L 1.1 Maximum Value, ng/L 2.27 TBEL, ng/L 47 WQBEL, ng/L 101.8 West Stanly WWTP/NC0043532 Mercury Data Statistics (Method 1631E) 2022 # of Samples 3 Annual Average, ng/L 1.1 Maximum Value, ng/L 2.27 TBEL, ng/L 47 WQBEL, ng/L 199.1 NH3/TRC WLA Calculations Facility: West Stanly WWTP PermitNo. NC0043532 Prepared By: Nick Coco Enter Design Flow (MGD): 1.2 Enter s7Q10 (cfs): 29 Enter w7Q10 (cfs): 51 Total Residual Chlorine (TRC) Daily Maximum Limit (ug/1) Ammonia (Summer) Monthly Average Limit (mg NH3-N/1) s7Q10 (CFS) 29 s7Q10 (CFS) 29 DESIGN FLOW (MGD) 1.2 DESIGN FLOW (MGD) 1.2 DESIGN FLOW (CFS) 1.86 DESIGN FLOW (CFS) 1.86 STREAM STD (UG/L) 17.0 STREAM STD (MG/L) 1.0 Upstream Bkgd (ug/1) 0 Upstream Bkgd (mg/1) 0.22 IWC (%) 6.03 IWC (%) 6.03 Allowable Conc. (ug/1) 282 Allowable Conc. (mg/1) 13.2 Cap at 28 uq/L. Consistent with current limit. Less stringent than current limit. Maintain limit. Maintain limit. Ammonia (Winter) Monthly Average Limit (mg NH3-N/1) Fecal Coliform w7Q10 (CFS) 51 Monthly Average Limit: 200/100mI DESIGN FLOW (MGD) 1.2 (If DF >331; Monitor) DESIGN FLOW (CFS) 1.86 (If DF<331; Limit) STREAM STD (MG/L) 1.8 Dilution Factor (DF) 16.59 Upstream Bkgd (mg/1) 0.22 IWC (%) 3.52 Allowable Conc. (mg/1) 45.1 Less stringent than current limit. Maintain limit. Total Residual Chlorine 1. Cap Daily Max limit at 28 ug/I to protect for acute toxicity Ammonia (as NH3-N) 1. If Allowable Conc > 35 mg/I, Monitor Only 2. Monthly Avg limit x 3 = Weekly Avg limit (Municipals) 3. Monthly Avg limit x 5 = Daily Max limit (Non-Munis) If the allowable ammonia concentration is > 35 mg/L, no limit shall be imposed Fecal Coliform 1. Monthly Avg limit x 2 = 400/100 ml = Weekly Avg limit (Municipals) = Daily Max limit (Non -Muni) NH3/TRC WLA Calculations Facility: West Stanly WWTP PermitNo. NC0043532 Prepared By: Nick Coco Enter Design Flow (MGD): 2.5 Enter s7Q10 (cfs): 29 Enter w7Q10 (cfs): 51 Total Residual Chlorine (TRC) Ammonia (Summer) Daily Maximum Limit (ug/1) Monthly Average Limit (mg NH3-N/1) s7Q10 (CFS) 29 s7Q10 (CFS) 29 DESIGN FLOW (MGD) 2.5 DESIGN FLOW (MGD) 2.5 DESIGN FLOW (CFS) 3.875 DESIGN FLOW (CFS) 3.875 STREAM STD (UG/L) 17.0 STREAM STD (MG/L) 1.0 Upstream Bkgd (ug/1) 0 Upstream Bkgd (mg/1) 0.22 IWC (%) 11.79 IWC (%) 11.79 Allowable Conc. (ug/1) 144 Allowable Conc. (mg/1) 6.8 Cap at 28 ug/L. Less stringent than speculative limit. Apply spec limit. Apply limit. Ammonia (Winter) Monthly Average Limit (mg NH3-N/1) Fecal Coliform w7Q10 (CFS) 51 Monthly Average Limit: 200/100mI DESIGN FLOW (MGD) 2.5 (If DF >331; Monitor) DESIGN FLOW (CFS) 3.875 (If DF<331; Limit) STREAM STD (MG/L) 1.8 Dilution Factor (DF) 8.48 Upstream Bkgd (mg/1) 0.22 IWC (%) 7.06 Allowable Conc. (mg/1) 22.6 Apply summer year-round until modeling demonstrates winter limits. Total Residual Chlorine 1. Cap Daily Max limit at 28 ug/I to protect for acute toxicity Ammonia (as NH3-N) 1. If Allowable Conc > 35 mg/I, Monitor Only 2. Monthly Avg limit x 3 = Weekly Avg limit (Municipals) 3. Monthly Avg limit x 5 = Daily Max limit (Non-Munis) If the allowable ammonia concentration is > 35 mg/L, no limit shall be imposed Fecal Coliform 1. Monthly Avg limit x 2 = 400/100 ml = Weekly Avg limit (Municipals) = Daily Max limit (Non -Muni) MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweei 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/22 Page 1 of 27 Violation Category:Limit Violation Program Category: Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 05 - 2020 001 Effluent BOD, 5-Day (20 Deg. C) - 05/31/20 3 X week mg/I 9 9.9 10 Monthly Average Proceed to NOV Concentration Exceeded 05-2020 001 Effluent Chlorine, Total Residual 05/22/20 3 X week mg/I 28 49 75 Daily Maximum No Action, BPJ Exceeded 05-2020 001 Effluent Chlorine, Total Residual 05/28/20 3 X week mg/I 28 49 75 Daily Maximum No Action, BPJ Exceeded 05-2020 001 Effluent Coliform, Fecal MF, MFC 05/30/20 3 X week #/100ml 400 600 50 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 05-2020 001 Effluent Coliform, Fecal MF, MFC 05/31/20 3 X week #/100ml 200 600 200 Monthly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 05-2020 001 Effluent Flow, in conduit orthru 05/31/20 Continuous mgd 0.9 1.37 52.6 Monthly Average Proceed to NOV treatment plant Exceeded 05 -2020 001 Effluent Nitrogen, Ammonia Total (as 05/31/20 3 X week mg/I 2.8 4.3 53.6 Monthly Average Proceed to NOV N) - Concentration Exceeded 09 - 2018 002 Effluent BOD, 5-Day (20 Deg. C) - 09/22/18 3 X week mg/I 13.5 25 85.2 Weekly Average No Action, BPJ Concentration Exceeded 01 -2019 002 Effluent BOD, 5-Day (20 Deg. C) - 01/05/19 3 X week mg/I 27 27.47 1.7 Weekly Average Proceed to NOV Concentration Exceeded 01 -2019 002 Effluent BOD, 5-Day (20 Deg. C) - 01/12/19 3 X week mg/I 27 42.67 58.0 Weekly Average Proceed to NOV Concentration Exceeded 02 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 02/16/19 3 X week mg/I 27 40.03 48.3 Weekly Average Proceed to Concentration Exceeded Enforcement Case 02 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 02/23/19 3 X week mg/I 27 120 344.4 Weekly Average Proceed to Concentration Exceeded Enforcement Case 02 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 02/28/19 3 X week mg/I 18 47.06 161.4 Monthly Average Proceed to Concentration Exceeded Enforcement Case 03 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 03/09/19 3 X week mg/I 27 45.33 67.9 Weekly Average Proceed to Concentration Exceeded Enforcement Case 03 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 03/16/19 3 X week mg/I 27 44.33 64.2 Weekly Average Proceed to Concentration Exceeded Enforcement Case MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 2 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 03 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 03/31 /19 3 X week mg/I 18 27.97 55.4 Monthly Average Proceed to Concentration Exceeded Enforcement Case 04 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 04/13/19 3 X week mg/I 13.5 45.67 238.3 Weekly Average Proceed to Concentration Exceeded Enforcement Case 04 - 2019 002 Effluent BOD, 5-Day (20 Deg. C) - 04/30/19 3 X week mg/I 9 15.95 77.3 Monthly Average Proceed to Concentration Exceeded Enforcement Case 05 - 2020 002 Effluent BOD, 5-Day (20 Deg. C) - 05/23/20 3 X week mg/I 13.5 48 255.6 Weekly Average Proceed to NOV Concentration Exceeded 05 - 2020 002 Effluent BOD, 5-Day (20 Deg. C) - 05/31/20 3 X week mg/I 9 16.13 79.3 Monthly Average Proceed to NOV Concentration Exceeded 09 - 2020 002 Effluent BOD, 5-Day (20 Deg. C) - 09/05/20 3 X week mg/I 13.5 14.33 6.2 Weekly Average Proceed to NOV Concentration Exceeded 10 - 2020 002 Effluent BOD, 5-Day (20 Deg. C) - 10/03/20 3 X week mg/I 13.5 16.4 21.5 Weekly Average Proceed to NOV Concentration Exceeded 01 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 01/30/21 3 X week mg/I 27 45 66.7 Weekly Average Proceed to NOV Concentration Exceeded 06 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 06/12/21 3 X week mg/I 13.5 22.73 68.4 Weekly Average Proceed to Concentration Exceeded Enforcement Case 06 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 06/30/21 3 X week mg/I 9 10.44 16.0 Monthly Average Proceed to Concentration Exceeded Enforcement Case 10 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 10/16/21 3 X week mg/I 13.5 43.33 221.0 Weekly Average Proceed to NOV Concentration Exceeded 10 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 10/23/21 3 X week mg/I 13.5 45 233.3 Weekly Average Proceed to NOV Concentration Exceeded 10 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 10/30/21 3 X week mg/I 13.5 72.33 435.8 Weekly Average Proceed to NOV Concentration Exceeded 10 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 10/31/21 3 X week mg/I 9 42.83 375.9 Monthly Average Proceed to NOV Concentration Exceeded 12 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 12/04/21 3 X week mg/I 27 31.33 16.0 Weekly Average Proceed to NOV Concentration Exceeded 12 - 2021 002 Effluent BOD, 5-Day (20 Deg. C) - 12/11/21 3 X week mg/I 27 36.67 35.8 Weekly Average Proceed to NOV Concentration Exceeded MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 3 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 04 - 2022 002 Effluent BOD, 5-Day (20 Deg. C) - 04/09/22 3 X week mg/I 13.5 27.4 103.0 Weekly Average Proceed to NOV Concentration Exceeded 04 - 2022 002 Effluent BOD, 5-Day (20 Deg. C) - 04/30/22 3 X week mg/I 9 9.7 7.8 Monthly Average Proceed to NOV Concentration Exceeded 01 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 01/07/23 3 X week mg/I 15 21.67 44.4 Weekly Average None Concentration Exceeded 03 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 03/31 /23 3 X week mg/I 10 13.84 38.4 Monthly Average Proceed to NOV Concentration Exceeded 04 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 04/01/23 3 X week mg/I 15 25 66.7 Weekly Average Proceed to NOV Concentration Exceeded 04 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 04/30/23 3 X week mg/I 10 11.41 14.1 Monthly Average Proceed to NOV Concentration Exceeded 06 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 06/10/23 3 X week mg/I 15 16.67 11.1 Weekly Average None Concentration Exceeded 06 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 06/17/23 3 X week mg/I 15 27 80 Weekly Average None Concentration Exceeded 06 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 06/24/23 3 X week mg/I 15 45.33 202.2 Weekly Average None Concentration Exceeded 06 - 2023 002 Effluent BOD, 5-Day (20 Deg. C) - 06/30/23 3 X week mg/I 10 32.08 220.8 Monthly Average None Concentration Exceeded 07-2018 002 Effluent Chlorine, Total Residual 07/24/18 3 X week ug/I 28 32 14.3 Daily Maximum No Action, BPJ Exceeded 10-2018 002 Effluent Chlorine, Total Residual 10/11/18 3 Xweek ug/I 28 38 35.7 Daily Maximum No Action, BPJ Exceeded 10-2018 002 Effluent Chlorine, Total Residual 10/30/18 3 X week ug/I 28 32 14.3 Daily Maximum No Action, BPJ Exceeded 11 -2018 002 Effluent Chlorine, Total Residual 11/07/18 3 X week ug/I 28 42 50 Daily Maximum No Action, BPJ Exceeded 12-2018 002 Effluent Chlorine, Total Residual 12/12/18 3 X week ug/I 28 31 10.7 Daily Maximum No Action, BPJ Exceeded 04-2019 002 Effluent Chlorine, Total Residual 04/08/19 3 X week ug/I 28 29 3.6 Daily Maximum No Action, BPJ Exceeded MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 23 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 06-2023 002 Effluent Chlorine, Total Residual 06/15/23 3 X week ug/I 28 35 25 Daily Maximum No Action, BPJ Exceeded 06-2023 002 Effluent Chlorine, Total Residual 06/22/23 3 X week ug/I 28 43 53.6 Daily Maximum No Action, BPJ Exceeded 06-2023 002 Effluent Chlorine, Total Residual 06/23/23 3 X week ug/I 28 35 25 Daily Maximum No Action, BPJ Exceeded 06-2023 002 Effluent Chlorine, Total Residual 06/29/23 3 X week ug/I 28 42 50 Daily Maximum No Action, BPJ Exceeded 06-2023 002 Effluent Chlorine, Total Residual 06/30/23 3 X week ug/I 28 48 71.4 Daily Maximum No Action, BPJ Exceeded 09-2018 002 Effluent Coliform, Fecal MF, MFC 09/22/18 3 X week #/100ml 400 2,083.68 420.9 Weekly Geometric Mean No Action, BPJ Broth, 44.5 C Exceeded 11 -2018 002 Effluent Coliform, Fecal MF, MFC 11/10/18 3 X week #/100ml 400 819.76 104.9 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 11 -2018 002 Effluent Coliform, Fecal MF, MFC 11/17/18 3 X week #/100ml 400 2,737.74 584.4 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 11 -2018 002 Effluent Coliform, Fecal MF, MFC 11/30/18 3 X week #/100ml 200 332.38 66.2 Monthly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 12-2018 002 Effluent Coliform, Fecal MF, MFC 12/15/18 3 X week #/100ml 400 866.68 116.7 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 12-2018 002 Effluent Coliform, Fecal MF, MFC 12/29/18 3 X week #/100ml 400 1,871.22 367.8 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 12-2018 002 Effluent Coliform, Fecal MF, MFC 12/31/18 3 X week #/100ml 200 293.17 46.6 Monthly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 01 -2019 002 Effluent Coliform, Fecal MF, MFC 01/05/19 3 X week #/100ml 400 832.03 108.0 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 01 -2019 002 Effluent Coliform, Fecal MF, MFC 01/12/19 3 X week #/100ml 400 605.5 51.4 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 02-2019 002 Effluent Coliform, Fecal MF, MFC 02/23/19 3 X week #/100ml 400 1,358.65 239.7 Weekly Geometric Mean Proceed to Broth, 44.5 C Exceeded Enforcement Case 03-2019 002 Effluent Coliform, Fecal MF, MFC 03/09/19 3 X week #/100ml 400 1,829.15 357.3 Weekly Geometric Mean Proceed to Broth. 44.5 C Exceeded Enforcement Case MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 24 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 03-2019 002 Effluent Coliform, Fecal MF, MFC 03/30/19 3 X week #/100ml 400 970.61 142.7 Weekly Geometric Mean Proceed to Broth, 44.5 C Exceeded Enforcement Case 03-2019 002 Effluent Coliform, Fecal MF, MFC 03/31/19 3 X week #/100ml 200 291.36 45.7 Monthly Geometric Mean Proceed to Broth, 44.5 C Exceeded Enforcement Case 05-2020 002 Effluent Coliform, Fecal MF, MFC 05/23/20 3 X week #/100ml 400 2,784.95 596.2 Weekly Geometric Mean Proceed to NOV Broth, 44.5 C Exceeded 08-2018 002 Effluent Flow, in conduit or thru 08/31/18 Continuous mgd 0.9 13.44 1,393.0 Monthly Average Proceed to NOV treatment plant Exceeded 12-2018 002 Effluent Flow, in conduit or thru 12/31/18 Continuous mgd 0.9 1.04 15.9 Monthly Average Proceed to NOV treatment plant Exceeded 02 - 2020 002 Effluent Flow, in conduit or thru 02/29/20 Continuous mgd 0.9 0.93 3.0 Monthly Average Proceed to NOV treatment plant Exceeded 01 -2021 002 Effluent Flow, in conduit or thru 01/31/21 Continuous mgd 0.9 0.9 0.5 Monthly Average Proceed to NOV treatment plant Exceeded 02 - 2021 002 Effluent Flow, in conduit or thru 02/28/21 Continuous mgd 0.9 1.11 23.4 Monthly Average Proceed to NOV treatment plant Exceeded 01 -2019 002 Effluent Nitrogen, Ammonia Total (as 01/31/19 3 X week mg/I 6 7.31 21.9 Monthly Average Proceed to NOV N) - Concentration Exceeded 01 -2020 002 Effluent Nitrogen, Ammonia Total (as 01/18/20 3 X week mg/I 18 19.12 6.3 Weekly Average Proceed to NOV N) - Concentration Exceeded 01 -2020 002 Effluent Nitrogen, Ammonia Total (as 01/25/20 3 X week mg/I 18 23.67 31.5 Weekly Average Proceed to NOV N) - Concentration Exceeded 01 -2020 002 Effluent Nitrogen, Ammonia Total (as 01/31/20 3 X week mg/I 6 13.32 122.0 Monthly Average Proceed to NOV N) - Concentration Exceeded 02 - 2020 002 Effluent Nitrogen, Ammonia Total (as 02/22/20 3 X week mg/I 18 23.67 31.5 Weekly Average Proceed to NOV N) - Concentration Exceeded 02 - 2020 002 Effluent Nitrogen, Ammonia Total (as 02/29/20 3 X week mg/I 6 17.99 199.9 Monthly Average Proceed to NOV N) - Concentration Exceeded 03 - 2020 002 Effluent Nitrogen, Ammonia Total (as 03/07/20 3 X week mg/I 18 25.67 42.6 Weekly Average Proceed to NOV N) - Concentration Exceeded 03 -2020 002 Effluent Nitrogen, Ammonia Total (as 03/31/20 3 X week mg/I 6 12.38 106.4 Monthly Average Proceed to NOV N) - Concentration Exceeded MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 25 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 04 - 2020 002 Effluent Nitrogen, Ammonia Total (as 04/30/20 3 X week mg/I 3 3.11 3.8 Monthly Average Proceed to NOD N) - Concentration Exceeded 05 - 2020 002 Effluent Nitrogen, Ammonia Total (as 05/23/20 3 X week mg/I 9 20 122.2 Weekly Average Proceed to NOV N) - Concentration Exceeded 05 -2020 002 Effluent Nitrogen, Ammonia Total (as 05/31/20 3 X week mg/I 3 6.54 117.9 Monthly Average Proceed to NOV N) - Concentration Exceeded 06 - 2020 002 Effluent Nitrogen, Ammonia Total (as 06/27/20 3 X week mg/I 9 15.33 70.4 Weekly Average Proceed to NOV N) - Concentration Exceeded 06 - 2020 002 Effluent Nitrogen, Ammonia Total (as 06/30/20 3 X week mg/I 3 7.58 152.8 Monthly Average Proceed to NOV N) - Concentration Exceeded 09 - 2020 002 Effluent Nitrogen, Ammonia Total (as 09/30/20 3 X week mg/I 3 3.22 7.4 Monthly Average Proceed to NOV N) - Concentration Exceeded 10 -2020 002 Effluent Nitrogen, Ammonia Total (as 10/31/20 3 X week mg/I 3 3.58 19.3 Monthly Average Proceed to NOV N) - Concentration Exceeded 03 - 2021 002 Effluent Nitrogen, Ammonia Total (as 03/31 /21 3 X week mg/I 6 13.7 128.3 Monthly Average Proceed to NOV N) - Concentration Exceeded 04 - 2021 002 Effluent Nitrogen, Ammonia Total (as 04/03/21 3 X week mg/I 9 11.3 25.6 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 04 - 2021 002 Effluent Nitrogen, Ammonia Total (as 04/10/21 3 X week mg/I 9 14.67 63.0 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 04 - 2021 002 Effluent Nitrogen, Ammonia Total (as 04/17/21 3 X week mg/I 9 21 133.3 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 04 - 2021 002 Effluent Nitrogen, Ammonia Total (as 04/24/21 3 X week mg/I 9 18 100 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 04 - 2021 002 Effluent Nitrogen, Ammonia Total (as 04/30/21 3 X week mg/I 3 17.38 479.5 Monthly Average Proceed to N) - Concentration Exceeded Enforcement Case 05 -2021 002 Effluent Nitrogen, Ammonia Total (as 05/01/21 3 X week mg/I 9 17.33 92.6 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 05 - 2021 002 Effluent Nitrogen, Ammonia Total (as 05/08/21 3 X week mg/I 9 18.67 107.4 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 05 - 2021 002 Effluent Nitrogen, Ammonia Total (as 05/15/21 3 X week mg/I 9 12.33 37.0 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 26 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 05 - 2021 002 Effluent Nitrogen, Ammonia Total (as 05/22/21 3 X week mg/I 9 11.9 32.2 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 05 - 2021 002 Effluent Nitrogen, Ammonia Total (as 05/29/21 3 X week mg/I 9 32.67 263.0 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 05 -2021 002 Effluent Nitrogen, Ammonia Total (as 05/31/21 3 X week mg/I 3 18.89 529.7 Monthly Average Proceed to N) - Concentration Exceeded Enforcement Case 06 - 2021 002 Effluent Nitrogen, Ammonia Total (as 06/05/21 3 X week mg/I 9 38.33 325.9 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 06 - 2021 002 Effluent Nitrogen, Ammonia Total (as 06/12/21 3 X week mg/I 9 14.77 64.1 Weekly Average Proceed to N) - Concentration Exceeded Enforcement Case 06 - 2021 002 Effluent Nitrogen, Ammonia Total (as 06/30/21 3 X week mg/I 3 12.61 320.4 Monthly Average Proceed to N) - Concentration Exceeded Enforcement Case 10 - 2021 002 Effluent Nitrogen, Ammonia Total (as 10/23/21 3 X week mg/I 9 29.33 225.9 Weekly Average Proceed to NOV N) - Concentration Exceeded 10 - 2021 002 Effluent Nitrogen, Ammonia Total (as 10/30/21 3 X week mg/I 9 30.33 237.0 Weekly Average Proceed to NOV N) - Concentration Exceeded 10 -2021 002 Effluent Nitrogen, Ammonia Total (as 10/31/21 3 X week mg/I 3 17.17 472.2 Monthly Average Proceed to NOV N) - Concentration Exceeded 11 -2021 002 Effluent Nitrogen, Ammonia Total (as 11/06/21 3 X week mg/I 18 25.33 40.7 Weekly Average Proceed to NOV N) - Concentration Exceeded 11 -2021 002 Effluent Nitrogen, Ammonia Total (as 11/30/21 3 X week mg/I 6 11.93 98.9 Monthly Average Proceed to NOV N) - Concentration Exceeded 12 - 2021 002 Effluent Nitrogen, Ammonia Total (as 12/04/21 3 X week mg/I 18 18.07 0.4 Weekly Average Proceed to NOV N) - Concentration Exceeded 03 -2023 002 Effluent Nitrogen, Ammonia Total (as 03/31/23 3 X week mg/I 4 5.03 25.8 Monthly Average Proceed to NOV N) - Concentration Exceeded 04 - 2023 002 Effluent Nitrogen, Ammonia Total (as 04/30/23 3 X week mg/I 4 4.4 9.9 Monthly Average Proceed to NOV N) - Concentration Exceeded 05 -2023 002 Effluent Nitrogen, Ammonia Total (as 05/31/23 3 X week mg/I 4 5.82 45.5 Monthly Average Proceed to NOV N) - Concentration Exceeded 06 - 2023 002 Effluent Nitrogen, Ammonia Total (as 06/17/23 3 X week mg/I 12 12.67 5.6 Weekly Average None N) - Concentration Exceeded MONITORING REPORT(MR) VIOLATIONS for: Permit: NCO043532 MRS Betweel 7 - 2018 and 7 - 2023 Region: % Facility Name: % Param Nam(% County: % Major Minor: % Report Date: 07/31/2� Page 27 of 27 Violation Category:Limit Violation Program Category: % Subbasin: % Violation Action: % PERMIT: NCO043532 FACILITY: Stanly County -West Stanly WWTP COUNTY: Stanly REGION: Mooresville Limit Violation MONITORING VIOLATION UNIT OF CALCULATED % REPORT OUTFALL LOCATION PARAMETER DATE FREQUENCY MEASURE LIMIT VALUE Over VIOLATION TYPE VIOLATION ACTION 06 - 2023 002 Effluent Nitrogen, Ammonia Total (as 06/24/23 3 X week mg/I 12 12.57 4.7 Weekly Average None N) - Concentration Exceeded 06 - 2023 002 Effluent Nitrogen, Ammonia Total (as 06/30/23 3 X week mg/I 4 13.99 249.8 Monthly Average None N) - Concentration Exceeded 09-2018 002 Effluent Oxygen, Dissolved (DO) 09/20/18 3 X week mg/I 5 0.09 98.2 Daily Minimum Not No Action, BPJ Reached 02 - 2019 002 Effluent Solids, Total Suspended - 02/16/19 3 X week mg/I 45 134 197.8 Weekly Average Proceed to Concentration Exceeded Enforcement Case 02 - 2019 002 Effluent Solids, Total Suspended - 02/23/19 3 X week mg/I 45 127 182.2 Weekly Average Proceed to Concentration Exceeded Enforcement Case 02 - 2019 002 Effluent Solids, Total Suspended - 02/28/19 3 X week mg/I 30 70.74 135.8 Monthly Average Proceed to Concentration Exceeded Enforcement Case 03 - 2019 002 Effluent Solids, Total Suspended - 03/16/19 3 X week mg/I 45 76.27 69.5 Weekly Average Proceed to Concentration Exceeded Enforcement Case 03 -2019 002 Effluent Solids, Total Suspended - 03/31/19 3 X week mg/I 30 33.46 11.5 Monthly Average Proceed to Concentration Exceeded Enforcement Case 04 - 2019 002 Effluent Solids, Total Suspended - 04/13/19 3 X week mg/I 45 125.33 178.5 Weekly Average Proceed to Concentration Exceeded Enforcement Case 04 - 2019 002 Effluent Solids, Total Suspended - 04/30/19 3 X week mg/I 30 38.92 29.7 Monthly Average Proceed to Concentration Exceeded Enforcement Case 02 - 2020 002 Effluent Solids, Total Suspended - 02/22/20 3 X week mg/I 45 48.33 7.4 Weekly Average Proceed to NOV Concentration Exceeded 05 - 2020 002 Effluent Solids, Total Suspended - 05/23/20 3 X week mg/I 45 59.33 31.9 Weekly Average Proceed to NOV Concentration Exceeded 10 - 2021 002 Effluent Solids, Total Suspended - 10/30/21 3 X week mg/I 70 86 22.9 Weekly Average Proceed to Concentration Exceeded Enforcement Case Coco, Nick A From: Genevieve Versteeg <gversteeg@thewootencompany.com> Sent: Tuesday, August 29, 2023 2:30 PM To: Coco, Nick A Cc: Carl Scharfe Subject: [External] RE: West Stanly WWTP Narrative Description Follow Up Flag: Flag for follow up Flag Status: Flagged CAUTION: External email. Do not click links or open attachments unless verified. Report suspicious emails with the Report Message button located on your Outlook menu bar on the Home tab. Not sure how specific you want it, but here's a narrative of the 1.2-MGD West Stanly WWTP. Wastewater treatment consists of the McCoy Creek Pump Station (an offsite pump station located in Oakboro), screening and grit removal headworks, biological treatment via conventional extended aeration basins, clarification, and disinfection with chlorination followed by de -chlorination. The treated wastewater is pumped via a pressure force main 1.82 miles to Rocky River, Outfall 002. Outfall 001, which historically served as an emergency discharge to Long Creek, is no longer a permitted discharge. Treated effluent from the West Stanly WWTP is discharged into the Rocky River (class C) in the Yadkin Pee -Dee drainage basin under NPDES Permit NC0043532. Sludge is treated through aerobic digestion. Please let me know if you need anything else! -Genevieve From: Coco, Nick A <Nlck.Coco@deq.nc.gov> Sent: Tuesday, August 29, 2023 2:18 PM To: Genevieve Versteeg <gversteeg@thewootencompany.com> Subject: West Stanly WWTP Narrative Description Hi Genevieve, When you have a moment, would you please provide a brief narrative description of the existing West Stanly WWTP process? I'd missed this earlier when looking through the application, but it's technically required for a complete app. I see the process flow diagram, but technically there needs to be a written narrative to accompany it. Thanks, Nick Coco, PE (he/him/his) Engineer 111 NPDES Municipal Permitting Unit NC DEQ / Division of Water Resources / Water Quality Permitting Office: (919) 707-3609 nick.coco@deq.nc.gov Physical Address: 512 North Salisbury St.,Raleigh, NC, 27604 Mailing Address: 1617 Mail Service Center, Raleigh, NC, 27699-1617 United States Environmental Protection Agency Form Approved. EPA Washington, D.C. 20460 OMB No. 2040-0057 Water Compliance Inspection Report Approval expires 8-31-98 Section A: National Data System Coding (i.e., PCS) Transaction Code NPDES yr/mo/day Inspection Type Inspector Fac Type 1 IN 1 2 u 3 I NCO043532 I11 121 22/08/23 I17 18I � I 19 I s I 20L] 21111I I I I I I I II I I I I I I I I I I I I I I I I I I I I I I I II I I I I I r6 Inspection Work Days Facility Self -Monitoring Evaluation Rating B1 QA ---------------------- Reserved ------------------- 67 I 72 I n, I 71 I 74 79 I I I I I I I80 701� I 711 L LJ L -1 I I Section B: Facility Data Name and Location of Facility Inspected (For Industrial Users discharging to POTW, also include Entry Time/Date Permit Effective Date POTW name and NPDES permit Number) 10:05AM 22/08/23 18/12/01 West Stanly WWTP 24939-B Barbees Grove Rd Exit Time/Date Permit Expiration Date Oakboro NC 28129 12:10PM 22/08/23 23/01/31 Name(s) of Onsite Representative(s)/Titles(s)/Phone and Fax Number(s) Other Facility Data Tommy Gibbons/ORC/704-486-0285/ Name, Address of Responsible Official/Title/Phone and Fax Number Contacted Andy Lucas,1000 N 1st St Ste 12 Albemarle NC 28001/County Manager/704-986-3601/7049863711 No Section C: Areas Evaluated During Inspection (Check only those areas evaluated) Permit 0 Flow Measurement Operations & Maintenar Records/Reports Self -Monitoring Progran 0 Sludge Handling Dispo: Facility Site Review Compliance Schedules Effluent/Receiving Wate 0 Laboratory Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) (See attachment summary) Name(s) and Signature(s) of Inspector(s) Agency/Office/Phone and Fax Numbers Date Roberto Scheller DWR/MRO WQ/707-235-2204/ Signature of Management Q A Reviewer Agency/Office/Phone and Fax Numbers Date Andrew Pitner DWR/MRO WQ/704-663-1699 Ext.2180/ EPA Form 3560-3 (Rev 9-94) Previous editions are obsolete. Page# NPDES yr/mo/day Inspection Type NCO043532 I11 12I 22/08/23 117 18 i s i (Cont.) Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) The current permit became effective December 1, 2018 and expires on January 31, 2023. Permit is for the discharge of wastewater into the Rocky River (Outfall #002) and Long Creek (Outfall #001). Both discharge locations are classified as C waters in the Yadkin -Pee Dee River Basin. This facility expanded from 0.9 MGD to 1.2 MGD WWTP under Authorization to Construct #043532A01 and SOC S 19-003. The subject inspection was conducted as a Compliance Sampling Inspection during which samples were split with WWTP operator for BOD, NH3 as N, and TSS. Analysis will be sent under seperate cover. It was noted during facility review that influent screen had a large amount of solids build-up on screen and appeared that wash cycle is not operating properly. Page# Permit: NCO043532 Owner -Facility: West Stanly WWTP Inspection Date: 08/23/2022 Inspection Type: Compliance Sampling Permit Yes No NA NE (If the present permit expires in 6 months or less). Has the permittee submitted a new ❑ ❑ ■ ❑ application? Is the facility as described in the permit? ■ ❑ ❑ ❑ # Are there any special conditions for the permit? ■ ❑ ❑ ❑ Is access to the plant site restricted to the general public? ■ ❑ ❑ ❑ Is the inspector granted access to all areas for inspection? ■ ❑ ❑ ❑ Comment: Record Keeping Yes No NA NE Are records kept and maintained as required by the permit? ■ ❑ ❑ ❑ Is all required information readily available, complete and current? ■ ❑ ❑ ❑ Are all records maintained for 3 years (lab. reg. required 5 years)? ■ ❑ ❑ ❑ Are analytical results consistent with data reported on DMRs? ■ ❑ ❑ ❑ Is the chain -of -custody complete? ■ ❑ ❑ ❑ Dates, times and location of sampling ■ Name of individual performing the sampling ■ Results of analysis and calibration ■ Dates of analysis ■ Name of person performing analyses ■ Transported COCs ■ Are DMRs complete: do they include all permit parameters? ■ ❑ ❑ ❑ Has the facility submitted its annual compliance report to users and DWQ? ■ ❑ ❑ ❑ (If the facility is = or > 5 MGD permitted flow) Do they operate 24/7 with a certified ❑ ❑ ■ ❑ operator on each shift? Is the ORC visitation log available and current? ■ ❑ ❑ ❑ Is the ORC certified at grade equal to or higher than the facility classification? ■ ❑ ❑ ❑ Is the backup operator certified at one grade less or greater than the facility ■ ❑ ❑ ❑ classification? Is a copy of the current NPDES permit available on site? ■ ❑ ❑ ❑ Facility has copy of previous year's Annual Report on file for review? ❑ ❑ ❑ ■ Comment: 2021-2022 Annual Report on Stanly County Utilities (SCU) website. Laboratory Yes No NA NE Are field parameters performed by certified personnel or laboratory? ■ ❑ ❑ ❑ Page# 3 Permit: NCO043532 Owner -Facility: West Stanly WWTP Inspection Date: 08/23/2022 Inspection Type: Compliance Sampling Laboratory Yes No NA NE Are all other parameters(excluding field parameters) performed by a certified lab? 0 ❑ ❑ ❑ # Is the facility using a contract lab? ■ ❑ ❑ ❑ # Is proper temperature set for sample storage (kept at less than or equal to 6.0 0 ❑ ❑ ❑ degrees Celsius)? Incubator (Fecal Coliform) set to 44.5 degrees Celsius+/- 0.2 degrees? ❑ ❑ 0 ❑ Incubator (BOD) set to 20.0 degrees Celsius +/- 1.0 degrees? ❑ ❑ ❑ Comment: Facility uses contract labs Environmental 1 (Cert.#10), Meritech (Cert.#27), and on site Field Certification (Cert.#5671). Bar Screens Type of bar screen Yes No NA NE a.Manual ❑ b.Mechanical Are the bars adequately screening debris? ❑ ❑ ❑ Is the screen free of excessive debris? ❑ ■ ❑ ❑ Is disposal of screening in compliance? 0 ❑ ❑ ❑ Is the unit in good condition? 0 ❑ ❑ ❑ Comment: Influent screen has large amount of buildup onscreen and appears that wash cycle is not operating properly. Grit Removal Yes No NA NE Type of grit removal a.Manual ❑ b.Mechanical Is the grit free of excessive organic matter? 0 ❑ ❑ ❑ Is the grit free of excessive odor? 0 ❑ ❑ ❑ # Is disposal of grit in compliance? 0 ❑ ❑ ❑ Comment: Influent Sampling Yes No NA NE # Is composite sampling flow proportional? 0 ❑ ❑ ❑ Is sample collected above side streams? ■ ❑ ❑ ❑ Is proper volume collected? 0 ❑ ❑ ❑ Is the tubing clean? 0 ❑ ❑ ❑ Page# 4 Permit: NCO043532 Inspection Date: 08/23/2022 Owner -Facility: West Stanly WWTP Inspection Type: Compliance Sampling Influent Sampling # Is proper temperature set for sample storage (kept at less than or equal to 6.0 degrees Celsius)? Is sampling performed according to the permit? Comment: At time of inspection influent sampler was recorded at 4 degrees C. Aeration Basins Mode of operation Type of aeration system Is the basin free of dead spots? Are surface aerators and mixers operational? Are the diffusers operational? Is the foam the proper color for the treatment process? Does the foam cover less than 25% of the basin's surface? Is the DO level acceptable? Is the DO level acceptable?(1.0 to 3.0 mg/1) Comment: Secondary Clarifier Is the clarifier free of black and odorous wastewater? Is the site free of excessive buildup of solids in center well of circular clarifier? Are weirs level? Is the site free of weir blockage? Is the site free of evidence of short-circuiting? Is scum removal adequate? Is the site free of excessive floating sludge? Is the drive unit operational? Is the return rate acceptable (low turbulence)? Is the overflow clear of excessive solids/pin floc? Is the sludge blanket level acceptable? (Approximately'/4 of the sidewall depth) Comment: Pumps-RAS-WAS Are pumps in place? Yes No NA NE ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ Yes No NA NE Ext. Air Surface ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ❑ ❑ ■ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ Yes No NA NE ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ■ ❑ ❑ ❑ ❑ ❑ ❑ ■ Yes No NA NE ■ ❑ ❑ ❑ Page# 5 Permit: NCO043532 Inspection Date: 08/23/2022 Owner -Facility: West Stanly WWTP Inspection Type: Compliance Sampling Pumps-RAS-WAS Yes No NA NE Are pumps operational? 0 ❑ ❑ ❑ Are there adequate spare parts and supplies on site? 0 ❑ ❑ ❑ Comment: Disinfection -Gas Yes No NA NE Are cylinders secured adequately? 0 ❑ ❑ ❑ Are cylinders protected from direct sunlight? 0 ❑ ❑ ❑ Is there adequate reserve supply of disinfectant? 0 ❑ ❑ ❑ Is the level of chlorine residual acceptable? ❑ ❑ ❑ Is the contact chamber free of growth, or sludge buildup? 0 ❑ ❑ ❑ Is there chlorine residual prior to de -chlorination? 0 ❑ ❑ ❑ Does the Stationary Source have more than 2500 Ibs of Chlorine (CAS No. ❑ ❑ 0 ❑ 7782-50-5)? If yes, then is there a Risk Management Plan on site? ❑ ❑ 0 ❑ If yes, then what is the EPA twelve digit ID Number? (1000- If yes, then when was the RMP last updated? Comment: De -chlorination Yes No NA NE Type of system ? Gas Is the feed ratio proportional to chlorine amount (1 to 1)? ❑ ❑ ❑ Is storage appropriate for cylinders? 0 ❑ ❑ ❑ # Is de -chlorination substance stored away from chlorine containers? 0 ❑ ❑ ❑ Comment: Are the tablets the proper size and type? ❑ ❑ ❑ Are tablet de -chlorinators operational? ❑ ❑ ❑ Number of tubes in use? Comment: Effluent Sampling Yes No NA NE Is composite sampling flow proportional? 0 ❑ ❑ ❑ Is sample collected below all treatment units? 0 ❑ ❑ ❑ Is proper volume collected? 0 ❑ ❑ ❑ Page# 6 Permit: NCO043532 Owner -Facility: West Stanly WWTP Inspection Date: 08/23/2022 Inspection Type: Compliance Sampling Effluent Sampling Yes No NA NE Is the tubing clean? 0 ❑ ❑ ❑ # Is proper temperature set for sample storage (kept at less than or equal to 6.0 ■ ❑ ❑ ❑ degrees Celsius)? Is the facility sampling performed as required by the permit (frequency, sampling type ❑ ❑ ❑ representative)? Comment: At time of inspection effluent sampler was recorded at 3.0 degrees C. Pump Station - Effluent Yes No NA NE Is the pump wet well free of bypass lines or structures? ■ ❑ ❑ ❑ Are all pumps present? ■ ❑ ❑ ❑ Are all pumps operable? 0 ❑ ❑ ❑ Are float controls operable? 0 ❑ ❑ ❑ Is SCADA telemetry available and operational? ❑ ❑ ❑ Is audible and visual alarm available and operational? ❑ ❑ ❑ ■ Comment: Flow Measurement - Effluent Yes No NA NE # Is flow meter used for reporting? ■ ❑ ❑ ❑ Is flow meter calibrated annually? 0 ❑ ❑ ❑ Is the flow meter operational? 0 ❑ ❑ ❑ (If units are separated) Does the chart recorder match the flow meter? M ❑ ❑ ❑ Comment: Last calibration 11/16/2021. Standby Power Yes No NA NE Is automatically activated standby power available? 0 ❑ ❑ ❑ Is the generator tested by interrupting primary power source? ■ ❑ ❑ ❑ Is the generator tested under load? 0 ❑ ❑ ❑ Was generator tested & operational during the inspection? ❑ ❑ ❑ Do the generator(s) have adequate capacity to operate the entire wastewater site? 0 ❑ ❑ ❑ Is there an emergency agreement with a fuel vendor for extended run on back-up ■ ❑ ❑ ❑ power? Is the generator fuel level monitored? 0 ❑ ❑ ❑ Comment: Page# 7 Permit: NCO043532 Owner -Facility: West Stanly WWTP Inspection Date: 08/23/2022 Inspection Type: Compliance Sampling Compliance Schedules Yes No NA NE Is there a compliance schedule for this facility? ❑ ❑ 0 ❑ Is the facility compliant with the permit and conditions for the review period? 0 ❑ ❑ ❑ Comment: Facility under SOC S19-003. Operations & Maintenance Yes No NA NE Is the plant generally clean with acceptable housekeeping? 0 ❑ ❑ ❑ Does the facility analyze process control parameters, for ex: MLSS, MCRT, Settleable 0 ❑ ❑ ❑ Solids, pH, DO, Sludge Judge, and other that are applicable? Comment: Page# 8 ROY COOPER Governor MICHAEL S. REGAN Secretary LINDA CULPEPPER Director Duane Wingo, PE Stanly County Utilities Director 1000 N. First Street, Suite 12 Albemarle, North Carolina 28001 Dear Mr. Wingo: NORTH CAROLINA Environmental Quality January 27, 2020 Subject: Speculative Effluent Limits West Stanly WWTP Permit No. NCO043532 Stanly County Yadkin -Pee Dee River Basin This letter provides speculative effluent limits for expansion to 2.5 MGD at the West Stanly WWTP. The Division received the speculative limits request from the County in a letter dated November 12, 2019. Please recognize that speculative limits may change based on future water quality initiatives, and it is highly recommended that the applicant verify the speculative limits with the Division's NPDES Unit prior to any engineering design work. Receiving Stream. The Rocky River is located within the Yadkin -Pee Dee River Basin. The Rocky River has a stream classification of C, and waters with this classification have a best usage for aquatic life propagation and maintenance of biological integrity, wildlife, secondary recreation and agriculture. The Rocky River has a summer 7Q 10 flow of 29 cubic feet per second (cfs), a winter 7Q10 flow of 51 cfs, and an annual average flow of 920 cfs. The Rocky River is currently listed as an impaired waterbody on the 2018 North Carolina 303(d) Impaired Waters List for dissolved copper and turbidity. This impairment may affect future effluent limits for these parameters. Based upon a review of information available from the North Carolina Natural Heritage Program Online Map Viewer, there are not any Federally Listed threatened or endangered aquatic species identified within a 5-mile radius of the proposed discharge location. If there are any identified threatened/endangered species, it is recommended that the applicant discuss the proposed project with the US Fish and Wildlife Service to determine whether the proposed discharge location might impact such species. Speculative Effluent Limits. Based on Division review of receiving stream conditions and water quality modeling results, speculative limits for the proposed expansion to 2.5 MGD are presented in Table 1. A complete evaluation of these limits and monitoring requirements for D North Carolina Department of Environmental Quality I Division of Water Resources EQ*�� 512 North Salisbury Street 1 1617 Mail Service Center I Raleigh: North Carolina 27699-1617 r�oarri car�iru�' ^�1� 919.707.9000 metals and other toxicants, as well as potential instream monitoring requirements, will be addressed upon receipt of a formal NPDES permit application. Some features of the speculative limit development include the following: • BOD/NH3 Limits. These speculative limits are based on freezing current permitted BOD ultimate loading (i.e., facility will not be allowed to discharge oxygen -consuming waste above what is currently permitted). Requests for seasonal limits in accordance with 15A NCAC 02B .0404 will need to be supported by a QUAL2K or equivalent water quality model. The resultant limits at expanded flows are considered technologically -feasible. TABLE 1. Speculative Limits for the West Stanly WWTP Effluent Characteristic Effluent Limitations Monthly Average Weekly Average Daily Maximum Flow 2.5 MGD BOD5 5.0 mg/L 7.5 mg/L NH3 as N 1.8 mg/L 5.4 mg/L Dissolved Oxygen 5.0 mg/L Daily Minimum Average TSS 30.0 mg/L 45.0 mg/L TRC 28 µg/l Fecal coliform (geometric mean) 200/100 ml 400/100 ml Chronic Toxicity, Pass/Fail (Quarterly test) 4.6% ' Subject to change. Updated flows will be determined upon receipt of application for expansion. Engineering Alternatives Analysis (EAA). Please note that the Division cannot guarantee that an NPDES permit for a new or expanding discharge will be issued with these speculative limits. Final decisions can only be made after the Division receives and evaluates a formal permit application for the new/expanded discharge. In accordance with North Carolina Administrative Code 15A NCAC 2H.0105(c), the most environmentally sound alternative should be selected from all reasonably cost effective options. Therefore, as a component of all NPDES permit applications for new or expanding flow, a detailed engineering alternatives analysis (EAA) must be prepared. The EAA must justify requested flows and provide an analysis of potential wastewater treatment alternatives. A copy of the Division guidance for preparing EAA documents is attached. State Environmental Policy Act (SEPA) EA/EIS Requirements. A SEPA EA/EIS document maybe required for projects that: 1) involve $10 Million or more of state funds; or 2) will significantly and permanently impact 10 or more acres of public lands. Please check with the DWR SEPA coordinator (David Wainwright, 919-707-9045) as to whether your project requires SEPA review. For projects that are subject to SEPA, the EAA requirements discussed above will need to be folded into the SEPA document. Additionally, if subject to SEPA, the NPDES Unit will not accept an NPDES permit application for a new/expanding discharge until Page 2 of 3 the Division has approved the SEPA document and sent a Finding of No Significant Impact (FONSI) to the State Clearinghouse for review and comment. Should you have any questions about these speculative limits or NPDES permitting requirements, please feel free to contact David Hill at (919) 707-3612. Respectfully, Jlie Grzyb pervisor, NPDES Complex Permitting Unit Attachment: EAA Guidance Document Hardcopy: NPDES Permit File Electronic Copy: NC WRC, Inland Fisheries, shannon.deaton@ncwildlife.org US Fish and Wildlife Service, Sarah_mcrae@fws.gov DWR/Mooresville Regional Office/Water Quality Regional Operations/Corey Basinger DWR/Modeling and Assessment Branch/Pam Behm DWR/Basinwide Planning/ Ian McMillan DWR/NPDES Server>Specs Page 3 of 3 USDA United States Department of Agriculture Rural Development December 9, 2022 North Carolina (SI 1970-C, Exh. F Att. 5) State Office Stanly County Utilities Department 4405 Bland Road Attn: Mr. Andy Lucas Suite 260 Raleigh, NC 27609 1000 North First Street, Suite 12 Albemarle, North Carolina 28001 Voice 919.873.2099 Fax 844.325.6926 Dear Mr. Lucas: Rural Development has completed an Environmental Assessment (EA) on your proposal requesting financial assistance to construct the West Stanly Wastewater Treatment Facilities Phase II Expansion. Rural Development has determined that your proposal will not significantly affect the quality of the human environment, and has therefore issued a Finding of No Significant Impact (FONSI). Before further consideration can be given to your proposal, our regulations require you to publish a notice of the FONSI in a newspaper of general circulation and in any local or community newspaper in your proposal's vicinity. The notice will be published once in easily readable type in the non -classified section in the same newspaper(s) where the NOA was published. It is your responsibility to make the arrangements to publish the notice. You must also provide our office with a copy of the published notice as it appeared, the name(s) of the newspapers in which the notice was published, the date(s) of publication, and an affidavit of publication. A copy of the notice is enclosed. If you have any questions concerning this letter, please contact Lynn Whittington, Community Programs Specialist, via email at lynn.whittington@usda.gov or by phone at 336-308- 1660. Sincerely, HEATHER MURPHY Environmental Protection Specialist State Office, Rural Development United States Department of Agriculture Enclosure: West Stanly Wastewater Treatment Facilities Phase II Expansion — FONSI Notice USDA is an equal opportunity provider, employer, and lender.