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NC0021211_Fact Sheet_20220301
Fact Sheet NPDES Permit No. NCOO21211 Permit Writer/Email Contact: Gary Perlmutter, gary.perlmutter@ncdenr.gov Date: March 1, 2022 Division/Branch: NC Division of Water Resources/NPDES Complex Permitting Fact Sheet Template: Version 09Jan2017 Permitting Action: ❑ Renewal N 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: City of Graham / Graham WWTP Applicant Address: P.O. Drawer 357, Graham, NC 27253 Facility Address: 1204 East Gilbreath Street, Graham, NC 27253 Permitted Flow: 3.5 MGD with 5.0 MGD expansion Facility Type/Waste: MAJOR Municipal: 92.43 % Domestic, 7.57 % Industrial' Facility Class: Grade IV Treatment Units: Bar screen, Grit collection, Primary clarifiers, Aeration basins, Settling Tanks, Digesters, Lime Stabilization, Sludge thickening, Chlorination, De -chlorination Pretreatment Program (Y/N) Yes County: Alamance Region Winston-Salem Footnote. 1. Permitted industrial flow is 0.265 MGD. Briefly describe the proposed permitting action and facility background: The City of Graham had applied for NPDES permit renewal, and submitted a renewal application dated 11/18/2015 to DWR, received on 12/2/2015. Since that time, the Permittee proposed expansion plans to the Division, submitting a request for speculative limits on 6/6/2019. Speculative limits for expansion flow tiers of 5.0 and 6.2 MGD were Page 1 of 17 calculated and communicated to the Permittee on 10/1/2019 with a revised set sent on 1/27/2020. A draft Engineering Report/Enivronmental Information Document (ER/EID) for the expansion was received from the Permittee in 11/5/2020 followed by a permit renewal modification application, received by DWR on 11/25/2020. The application is for flow tiers of 3.5 MGD and 5.0 MGD. The final ER/EID was received on 10/11/2021 and approved on 12/21/2021 with a review of the FONSI. Review of the 2020 application found it complete with all appropriate sections filled, signed by the responsible official, and contains the required attachments. Effluent Pollutant Scans were sampled on 3/16/2017, 6/19/2018, and 9/10/2019. The four required second species WET tests were sampled on 12/5/2016, 3/13/2017, 6/18/2018, and 9/9/2019. Per Session Law 2018-5, Senate Bill 19, Section 13.1(r) the City submitted a Chemical Addendum to the permit application on 1/3/2022. This facility serves a population of —16,953 residents in the City of Graham as reported in the Final ER/EID and operates a pretreatment program with 5 Significant Industrial Users (SIUs), including 3 Categorical Industrial Users (CIUs). 2. Receiving Waterbody Information Receiving Waterbody Information Outfalls/Receiving Stream(s): Outfall 001 — Haw River Stream Segment: 16-(10.5) Stream Classification: WS-V; NSW Drainage Area (mi2): 614 Summer 7Q10 (cfs) 34 Winter 7Q10 (cfs): 85 30Q2 (cfs): 114 Average Flow (cfs): 553 IWC (% effluent): 14 at 3.5 MGD / 19 at 5.0 MGD 303(d) listed/parameter: This segment is neither listed as impaired in the 2018 NC final 303(d) list nor the 2020 draft 303(d) list. Subject to TMDL/parameter: Statewide TMDL for Mercury Subbasin/HUC: 03-06-02 / 03030002 USGS Topo Quad: C21SE / Mebane, NC 3. Effluent Data Summary Page 2of17 Effluent data is summarized in Table 1 for the period of June 2017-May 2021. Table 1. Effluent Data Summary. Parameter Units Average Max Min Limit 1 Flow MGD 1.98 8.64 1.13 3.5 Total Monthly Flow MG/mo 60.33 90.15 45.11 BOD5 (April 1 -October 31)WA mg/L 5.6 19.8 < 2 0 MA = 12.0 = 18.0 BOD5 (November 1 -March 31)WA mg/L 6.7 84.2 < 20 , MA = 24.0 = 36.0 BOD5 removal % 97.2 99.2 92.5 > 85 Total Suspended Solids (TSS) m 6.0 296 2.3 MA = 30.0 WA = 45.0 TSS removal % 97.8 99.5 90.0 > 85 Ammonia-N (NH3-N) (April 1 - October 31) mg/L 1.53 10.30 <0.10 MA = 4.0 WA = 12.0 Ammonia-N (NH3-N) (November 1 -March 31)WA mg/L 3.85 25.68 < 010 . MA = 8.0 = 24.0 Dissolved Oxygen (DO) mg/L 8.1 10.8 5.8 DA > 5.0 pH SU 7.2 7.9 6.1 6.0-9.0 Temperature °C 18.4 28.0 6.0 Fecal Coliform (geometric mean) #/100 mL > 2420 < 1.0 MA = 200 WA = 400 Total Residual Chlorine (TRC) !AWL 20.1 43 < 20 DM = 28 z Conductivity µmhos/cm 1,609 3,392 TKN mg/L 3.48 25.60 0.13 NO3-N + NO2-N mg/L 6.34 29.70 < 0.10 Total Nitrogen (TN) mg/L 9.80 33.47 0.22 TN Load lb/mo 4,870 11,366 939 TN Load lb/yr CY2018 = 100,683** CY2019 = 40,305 CY2020 = 36,483 56,315 Total Phosphorus (TP) mg/L 0.5 8.6 < TP Load lb/mo 244 939 48 Monitor & Report Parameter Units Average Max Min Limit 1 Page 3of17 CY2018 = 4,319 TP Load lb/yr CY2019 = 2,944 7,079 CY2020 = 2,694 Footnotes. 1. MA -Monthly Average, WA -Weekly Average, DM -Daily Maximum. 2. TRC compliance level of 50 µg/L approved by EPA effective March 1, 2008 to address analytical difficulties with TRC measurements. **See note in Compliance Summary. The annual average flow for calendar year 2020 was 1.90 MGD or 54% of the design flow of 3.50 MGD. The City met with DWR in May 2019 to discuss potential flow expansions out of concerns of meeting the annual TN load limits, and was given guidance in planning for expansions. A request for speculative limits at 5.0 MGD amd 6.2 MGD was received by the Division in June 2019. A renewal / modification application was received by DWR on 11/25/20 to include an expansion flow tier of 5.0 MGD. The expansion flow tier has been added to the permit. From the Comments section of the January 2019 DMR: "Weekly averages for BOD and TSS were above permit limits for the week of January 20-26 of 2019. Heavy rain on January 24 led to brief upset of the plant over the next 24-48 hours. By January 26, the plant was back in compliance. However, the BOD and TSS results on January 25 caused our weekly average results to exceed our permit limits." 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/L 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). 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 (DO) and Temperature for protection of aquatic life. The upstream monitoring station (B 1200000) is located at the NC 54 bridge —600 ft upstream of the outfall, and the downstream station (B1440000) is located at the SR 2158 bridge —1.6 mi downstream of the outfall. Instream data from were obtained from June 2017—December 2020 were provided by DWR Ecosystems Branch / Monitoring Coalition Program for review. The data were compared with concurrent effluent data and against state water quality standards where applicable. Averages of upstream and downstream locations were tested statistically for significant differences using two -sample t tests. Level of significance is 0.05. Instream data review findings for each parameter are summarized in Table 2 below. Table 2. Instream and concurrent effluent monitoring summary statistics. Page 4of17 Parameter Upstream Downstream Effluent Standard Dissolved Oxygen (DO), mg/L Average = 8.5 Range: 5.8-12.3 Average = 8.6 Range: 5.9-12.4 Average = 7.8 Range: 6.3-9.8 5.0 Temperature, °C Average = 20.0 Range: 4.9-31.7 Average = 20.0 Range: 5.2-31.9 Average = 20.1 Range: 10.0-27.0 32.0 Specific Conductance, µS/cm Average = 236 Range: 75-615 Average = 240 Range: 75-608 Average = 1641 Range: 653-2793 NA Fecal Coliform, cfu/100 mL Geomean = 230 Range: 25-12,000 Geomean = 221 Range: 16-22,000 Geomean = 4 Range: < 1-2420 NA Dissolved Oxygen. DO remains in the permit as a parameter of concern for aquatic life. Reviewed instream DO data showed seasonal variation with summer lows and winter highs at both instream locations. Instream summer minima were above the 5 mg/L daily average water quality standard for non -trout waters (15A NCAC 02B .0211) at both locations. No statistically significant differences were found between the upstream and downstream locations. While overall the effluent DO was lower on average than either instream DO, it does not seem to affect the instream DO. Temperature. Temperature remains in the permit as a parameter of concern for aquatic life. Reviewed instream temperature data showed seasonal patterns of summer highs and winter lows at both locations. Summer temperature maxima at both stations were below the water quality standard of 32°C for upper piedmont and mountain waters (15A NCAC 02B .0211). No statistically significant differences were detected among average temperature values of the two instream locations. Review of paired up- to downstream temperatures found all within the 2.8°C increase standard (15A NCAC 02B .0211). Conductivity is a parameter of concern because of industrial discharges. The permit does not currently require instream monitoring, but data are available for the monitoring stations noted above. Review of instream data from June 2017—December 2020 revealed no statistical difference between the two sets on average (two -sample t-test: t = -0.18, p > 0.10). Instream patterns appeared to be aligned between the upstream and downstream stations. Concurrent effluent conductivity data are substantially higher than either instream station. The WWTP has a pretreatment program with six SIUs. Therefore, instream conductivity monitoring both upstream and downstream of discharge will be added to the permit, based on presence of an industrial pretreatment program and the 2002 Instream Conductivity and Fecal Coliform Monitoring Guidance. Fecal Coliform is a parameter of concern for aquatic life and human health. The permit does not currently require instream monitoring for Fecal Coliform, since the receiving stream is neither impaired for coliform not is it a Class B waterbody, per the 2002 guidance. However, data are available for review. Instream coliform count geomean were similar between upstream and downstream while concurrent effluent coliform count geomean was substantially lower. The effluent does not appear to be affecting the instream Fecal Coliform; this parameter is not required and instream monitoring for Fecal Coliform was not added to the permit. Permit -required instream monitoring will continue to be waived as long as the Permittee maintains membership in the Upper Cape Fear Basin Association (monitoring coalition). Is this facility a member of a Monitoring Coalition with waived instream monitoring (Y/N): YES Name of Monitoring Coalition: Upper Cape Fear River Basin Association (UCFRBA) 5. Compliance Summary Page 5of17 Summarize the compliance record with permit effluent limits (past 5 years): The facility has reported five limit violations over the past five years (since June 2016), involving BOD, NH3-N, TN Loading and TSS exceedences. One weekly average BOD exceedence and a weekly TSS exceedence was reported on 1/26/2019, resulting in an Notice of Violation (NOV) for both violations. One monthly average NH3-N exceedences was reported on 1/31/2018, resulting in a Notice of Deficiency (NOD). Two annual TN Load exceedences were reported (2017 and 2018), but no action has been taken in either case due to confusion regarding effective date (January 2016 or 2019). Summarize the compliance record with aquatic toxicity test limits and any second species test results (past 5 years): The facility passed 18 of 18 quarterly chronic toxicity tests from March 2017—June 2021, as well as the most recent 4 second species chronic toxicity tests included in the renewal/modification application, collected on 12/16/2016, 03/23/2017, 06/28/2018, and 09/19/2019 plus those collected more recently in December 2020 and March 2021. Summarize the results from the most recent compliance inspection: The most recent inspection (compliance evaluation), conducted 09/15/2020, found the facility in compliance. The inspection report noted that the facility appeared well run with no deficiencies of violations found. A pretreatment inspection was occurred on 3/10/2021 and similarly reported that the facility was well operated, records well organized, and no issues were noted. 6. Water Quality -Based Effluent Limitations (WQBELs) Dilution and Mixing Zones In accordance with 15A NCAC 2B.0206, the following streamflows are used for dilution considerations for development of WQBELs: 1 Q 10 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/L for Municipals) may be appropriate if deemed more stringent based on dilution and model results. If permit limits are more stringent than TBELs, describe how limits were developed: The current BOD limits were set from wasteload allocations (WLAs) that were modeled in the 1980's. The summer limit of 12 mg/L was first set in 1987 (originally set as an overall limit in 1982), and the winter limit of 24 mg/L was set in 1989. No changes are proposed. The speculative limits for the 5.0 MGD expansion flow tier are based on freezing the current permitted BOD ultimate loading (i.e., the facility will not be allowed to discharge oxygen -consuming waste above what is currently permitted). 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. Page 6of17 Limitations for Total Residual Chlorine (TRC) are based on the NC water quality standard for protection of aquatic life (17 ug/L) 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 NH3- N monthly average limits were first placed in the permit prior to 1996 to protect the DO standard. Weekly average limits were first placed in the 2006 permit renewal per federal rules not specified in that permit's fact sheet. The current TRC limit was also first placed in the 2006 permit, capped at 28 µg/L to protect the water quality standard of 17 µg/L. Ammonia and TRC have been reviewed in the attached Wasteload Allocation (WLA) sheet. Current limits for ammonia were found to be more stringent than the IWC-based calculated results in the WLA sheet. The resulting TRC limit is capped at 28 µg/L, and will be maintained in the permit. The speculative NH3-N limits for the 5.0 MGD expansion flow tier are based on freezing the current permitted BOD ultimate loading (i.e., facility will not be allowed to discharge oxygen -consuming waste above what is currently permitted). Reasonable Potential Analysis (RPA) 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 1/2 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. The RPA was run with effluent Hardness data available via DMRs and upstream hardness data received from the ORC per request on 7/22/2021. A reasonable potential analysis was conducted on effluent toxicant data collected between June 2017 and May 2021 for both the current 3.5 MGD permitted flow and the 5.0 MGD expansion flow tier. 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: Arsenic, Beryllium, Cadmium, Total Phenolic Compounds, Total Chromium, Copper, Cyanide, Lead, Molybdenum, Nickel, Selenium, Silver, Zinc. • POTW Effluent Pollutant Scan Review: Three effluent pollutant scans 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: None. Page 7of17 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. 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. 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: Graham WWTP is a Major POTW discharging complex wastewater with a chronic WET limit at 14% effluent, based on the instream waste concentration (IWC) calculation using the permitted flow of 3.5 MGD and summer minimum stream flow 7Q10 of 34 cfs. WET testing will continue on a quarterly frequency. No changes were made at 3.5 MGD; a WET limit at 19% was added to the permit at 5.0 MGD based on the same stream flow. 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/L) 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/L) and/or if any individual value exceeds a TBEL value of 47 ng/L. The current permit has an MMP Special Condition, and the Permittee had included an updated Summary of Waste Minimization Plan Activities with the permit renewal application, in accordance with the permit. Table 3. Mercury Effluent Data Summary. Parameter 2017 2018 2019 2020 202 No. of Samples 6 8 3 4 1 Annual Average Conc. ng/L 6.2 5.6 6.0 3.1 3.5 Maximum Conc., ng/L 8.65 15.90 8.63 5.62 3.50 TBEL, ng/L 47 WQBEL, ng/L at 3.5 MGD 87.21 WQBEL, ng/L at 5.0 MGD 64.65 i Describe proposed permit actions based on mercury evaluation: Review of effluent data from July 2017— March 2021 revealed no annual average mercury concentration exceeded the WQBEL at either flow tier, and no individual mercury sample exceeded the TBEL (Table 3). Therefore, no mercury limit is required. Because the facility's permitted flow is > 2 MGD and mercury levels > 1 ng/L were detected among Page 8of17 samples, a mercury minimization plan (MMP) is required and will be maintained in the permit. The MMP special condition has been reworded toward its maintenance. Other TMDL/Nutrient Management Strategy Considerations If applicable, describe any other TMDLs/Nutrient Management Strategies and their implementation within this permit: The facility lies in the Haw River arm of the Lake Jordan Reservoir. The Haw River arm is subject to the Jordan Water Supply Nutrient Strategy (15A NCAC 02B .0262) in which are respective nitrogen and phosphorus TMDL reduction goals of 8% and 5%, respectively, from 1997-2001 baseline load levels. To meet these goals, the facility is subject to nitrogen and phosphorus allocations assigned in accordance with the Jordan Water Supply Nutrient Strategy: Wastewater Discharge Requirements (15A NCAC 02B .0270). The assigned allocations are listed in the current permit as load limits of 56,315 lb/yr Total Nitrogen (TN) and 7,079 lbs/yr Total Phosphorus (TP). Nutrient requirements were originally placed in the permit as a modification to incorporate Jordan Lake Nutrient Requirements (15A NCAC 02B .0270) on July 9, 2010. The 2010 permit modification included: monthly and annual TN and TP load monitoring requirements; an annual TP load of 7,079 lb/yr, effective 1/1/2010; and the addition of five sections. The added sections included: 1) nutrient allocations, 2) annual TN and TP limits, 3) calculation for TN and TP loads, 4) nitrogen optimization, and 5) nutrient monitoring re -opener. The re -opener was removed in the subsequent permit renewal in 2013, and a TN load limit of 56,315 lb/yr was added with an effective date 1/1/2016 in recognition of Session Law 2011-394 H.B. 119. The TN load limit effective date had since been extended to January 1, 2019 per Session Law 2016-94, H.B. 1030. Sijnce both effective dates have passed, the effective date was removed from the permit. Section A. (3.) of the current permit lists TN and TP allocations assigned to Graham WWTP in accordance with the Jordan Lake Nutrient Management Rule. This section states that for compliance purposes these allocations do not supersede any nutrient limit elsewhere in the permit or in a NPDES permit of a compliance association in which the Permittee is a Co-Permittee Member. The allocations are referred to as limits in Section A. (5.) of the current permit. In addition, the TP allocation is the same as that in the Haw River Nutrient Compliance Association (HRNCA) NPDES Permit No. NCC000003 (issued December 22, 2016), in which Permittee is a Co-Permittee Member. Section A. (4.) of the current permit states that the Permittee shall be in compliance with TN and TP load limits if the load is less than the limit, or if the Permittee is a Co-Permittee Member of a compliance association. Review of effluent data showed annual TN and TP loads were below their respective limits for the years 2015, 2016 and 2019, but the TN load was exceeded in 2017 and 2018 (see Table 1). No action was taken due to the effective date being moved to January 1, 2019. As stated above, Graham WWTP is a Co-Permittee Member of HRNCA, which addresses only TP discharges. TP Allocations and effluent limits for Graham WWTP are the same in the current permit as in the HRNCA permit. Therefore, TP compliance is demonstrated. No changes were made. Section A. (5.) of the current permit contains formulae to calculate monthly and annual nutrient (TN and TP) loading based on effluent concentrations and flows. To check TN load calculations, the current permit requires weekly monitoring of effluent TKN, NO2 + NO3, and TN concentrations as separate parameters. Review of the data verified that the calculations were used correctly for both TN and TP loading parameters. Few errors were found, and these were corrected via communication with the ORC. Section A. (6.) in the current permit contains annual reporting requirements for nitrogen optimization. The Permittee submitted a nitrogen optimization report on February 5, 2010. Because of the TN loading limits are in effect as of January 1, 2016, this interim condition is not longer needed. Therefore, it was removed from the permit. Page 9of17 Speculative limits were calculated for TN and TP loads based on current allocations per rule 15A NCAC 02B . 0270. Those load limits for the 5.0 MGD expansion flow (56,315 lbs/ year TN and 7,079 lbs/ year TP) will be added to the permit. The speculative limits letter notes that the Permittee is required to demonstrate that the design will be capable of achieving the limits opon application for expansion. The submitted Engineering Report/Environnental Information Document (ER/EID), which was received prior to the renewal/modification application and describes the improvement project for expansion, demonstrates the expansion design's capability to meet the expansion nutrient loading limits. Other WQBEL Considerations If applicable, describe any other parameters of concern evaluated for WQBELs: The receiving water section of the Haw River is classified as a water supply (WS-V; NSW), potentially subject to specific water quality standards. Among the water quality standards for WS-V waters (15A NCAC 02B .0218) is Nitrate Nitrogen of 10.0 mg/L. Graham WWTP is exempt from this standard per clarification in Senate Bill 810, signed by the NC Governor on July 16, 2012. Senate Bill 810 states, in part: "SECTION 12.1. Rules adopted by the Environmental Management Commission pursuant to S.L. 2009-216 and S.L. 2009-486 to implement nutrient management strategies for the B. Everett Jordan Reservoir and the Falls of the Neuse Reservoir watersheds shall not be interpreted to apply surface water quality standards set out in 15A NCAC 2B .0218(3)(e) through (3)(h) to waters designated in the nutrient management rules as WS-V except where: (i) the designation of WS-V is associated with a water supply intake used by an industry to supply drinking water for their employees; or (ii) standards set out in 15A NCAC 02B .0218(3)(e) through (3)(h) are violated at the upstream boundary of waters within those watersheds that are classified as WS-II, WS-III, or WS-IV. This section shall not be construed to alter the nutrient reduction requirements set out in 15A NCAC 2B .0262(5) or 15A NCAC 2B .0275(3)." Graham WWTP had participated in a basin -wide survey for the emerging contaminants 1,4-Dioxane and PFAS chemical group in 2019. Three rounds of influent sampling were conducted in July, August and September 2019, results of which were submitted along with a completed Chemical Addendum form for all 40 CFR 136 pollutants, received on 1/4/2022. Reviewed data from the sampling found effluent concentrations to be below the allowable concentration for 1,4-Dioxane and the EPA Health Advisory for PFOA & PFOS (Table 5). Table 5. Influent Monitoring Results of Emerging Contaminants, 2017-2019. Parameter Average (Range), µg/LIr Reference Target Concentration (µg/L) 1,4-Dioxane 2.02 (1.18-3.29) 36.03' PFOA & PFOS 15.41 (6.50-21.77) 70 2 Footnote. 1. Allowable Discharge concentration based on RPA using instream target value of 0.35 µg/L for water supply waters. 2. EPA Health Advisory level for drinking water. The POTW lies downstream of where the discharge from Reidsville WWTP enters the Haw River, a discharge that has reported high levels of 1,4-Dioxane. The Graham WWTP discharges into a Class WS-V waterbody with the nearest WS boundary at 14.8 miles downstream. Because 1,4-Dioxane was detected in the influent at a concentration high enough for further evaluation, monthly monitoring for this parameter will be added to the permit. In addition, a permit reopener special condition regarding 1,4-Dioxane based on changes toward limits, monitoring or treatment was added to the permit. Page 10 of 17 Based on detection of PFAS chemicals in the influent from the 2019 samplings, which was also provided via as an attachment to the NPDES application received on 1/4/2022, monitoring of PFAS chemicals was added to the permit at a frequency of 2/year. 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. 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 If applicable, describe any compliance schedules proposed for this permit renewal in accordance with 15A NCAC 2H.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 the permit at least as stringent as secondary treatment requirements (30 mg/L BOD5/ TSSfor Monthly Average, and 45 mg/L for BOD5/TSSfor Weekly Average). YES. Are 85% removal requirements for BOD5/TSS included in the permit? YES. 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 submitted ER/EID evaluated multiple alternatives, including a no -action alternative, two expansion alternatives (one with and one without primary clarifiers), three non -discharge alternatives (re -use, land application, and decentralized system of septic tanks), a regionalization alternative (diverting excess flow to another nearby WWTP), and a combined alternative of re -use and regionalization. The non -discharge alternatives were rejected due to insufficient demand for re -use water and infeasibility. Expansion without primary clarifiers was the preferred alternative, selected based on lowest cost compared to the other feasible alternatives while providing the needed capacity and treatment for increased flow, including high I/I during storm events. The ER portion of the ER/EID states that the proposed expansion project "would increase the plant's hydraulic capacity and help prevent another overflow during a storm event. This project will also relocate current treatment facilities that are located within the 100-year floodplain to a safer location where they are less likely to be affected by flooding. This, along with replacing Page 11 of 17 older facilities with newer treatment facilities will make the plant more resilient to future flooding/storm events and ensure the plant returns highly treated effluent to the river." An assessment of direct, indirect and cumulative environmental impacts and their mitigation are detailed in the EID portion of the ER/EID. Direct impacts to water resources by the expansion project include minor, short-term sedimentation and tubidity increase by construction activities. Mitigation includes an erosion and sedimentation control plan and the implementation of Best Management Practices (BMPs). Indirect and cumulative impacts to water resources may accrue from growth and urban development, to which the proposed expansion will mitigate by preventing future development of septic systems in the service area, thereby mitigating groundwater quality impacts. Land use changes from future growth and development can also have impact via stormwater. Mitigation measures noted in the EID include local erosion and sedimentation ordinances. The ER was reviewed by the EMC with no comments; the ER approval letter was issued on 12/21/2021. 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. The current permit has reduced monitoring frequencies for BOD, TSS, NH3-N and Fecal Coliform, all set in 2013. Neither the 2015 renewal application nor the 2020 renewal/modification application included a request for continuation of reduced monitoring. A request was received on December 17, 2020. Review of effluent data from June 2018—May 2021 for all four parameters revealed that the data criteria of 1) three- year mean below 50% of the monthly average limit, and 2) no more than 15 sampling results greater than 200% of that limit, were met. Therefore, the reduced monitoring frequencies were maintained for BOD, TSS, Ammonia-N, and Fecal Coliform at the 3.5 MGD flow tier. For instream monitoring, refer to Section 4. 11. Electronic Reporting Requirements Page 12 of 17 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. Effective December 21, 2020, NPDES regulated facilities will be required to submit additional NPDES reports electronically. This permit contains the requirements for electronic reporting, consistent with Federal requirements. 12. Summary of Proposed Permitting Actions Table 4. Current Permit Conditions and Proposed Changes at 3.5 MGD flow tier. Parameter Current Permit Proposed Change Basis for Condition/Change Flow MA 3.5 MGD No change 15A NCAC 2B .0505 Total Monthly Flow (TMF) Monitor monthly No change For calculation of Total Nitrogen and Total Phosphorus loads. Biological Oxygen Demand, 5-day (BOD5) Summer MA 12.0 mg/L WA 18.0 mg/L Winter MA 24.0 mg/L WA 36.0 mg/L Monitor 2/week No change WQBEL. Based on protection of DO standard via Wasteload Allocation (WLA) calculated in 1987 and 1989. Monitoring Frequency Reduction (MFR) criteria were met. Total Suspended Solids (TSS) MA 30.0 mg/L WA 45.0 mg/L Monitor 2/week No change TBEL. Secondary treatment standards / 40 CFR 133 / 15A NCAC 2B .0406. MFR criteria were met. Ammonia-N (NH3-N) Summer MA 4.0 mg/L WA 12.0 mg/L Winter MA 8.0 mg/L WA 24.0 mg/L Monitor 2/week No change WQBEL. Calculation results based on NC's use of EPA criteria in developing 1.0 mg/L summer and 1.8 mg/L winter values in wasteload allocations to protect against NH3-N toxicity (see WLA sheet attached). MFR criteria were met. Dissolved Oxygen (DO) >_ 5 mg/L Monitor daily No change WQBEL. Based on protection of the DO standard, 15A NCAC 2B .0200 and .0500. pH 6-9 SU Monitor daily No change WQBEL. State WQ standard, 15A NCAC 2B .0200 and .0500. Temperature Monitor daily No change State WQ reporting requirements 15A NCAC 2B .0500. Fecal Coliform (geometric mean) MA 200 /100 mL WA 400 /100 mL Monitor 2/week No change WQBEL. State WQ standard, 15A NCAC 2B .0200. MFR criteria were met. Parameter Current Permit Proposed Change Basis for Condition/Change Total Residual Chlorine (TRC) DM 28 µg/L Monitor daily No change WQBEL. Capped per NH3/TRC WLA Calculation. Page 13 of 17 Conductivity Monitor daily Add Instream monitoring at frequency per 15A NCAC 2B .0500. 2002 DWQ Guidance memo; plant has a pretreatment program. 15A NCAC 2B .0500. TKN Monitor weekly No change For Total Nitrogen (TN) calculation, 15A NCAC 02B .0500. NO3 + NO2 Monitor weekly No change For TN calculation, 15A NCAC 02B .0500. Total Nitrogen (TN) Monitor weekly No change State WQ reporting requirements 15A NCAC 2B .0500. TN Load 56,315 lb/yr Monitor monthly, annually No change WQBEL. Nutrient load allocations, 15A NCAC 02B .0270. Nitrogen Optimization Special Condition Remove from permit This was an interim condition to help meet TN Load limits. Condition expired at end of 2016. Total Phosphorus (TP) Monitor weekly No change State WQ reporting requirements 15A NCAC 2B .0500. TP Load 7,079 lb/yr Monitor monthly, annually No change WQBEL. Nutrient load allocations, 15A NCAC 02B .0270. Total Hardness No requirement Add quarterly monitoring Hardness -dependent dissolved metals water quality standards, approved in 2016, need effluent and instream hardness data for calculations of permit limitations. Total Mercury Mercury Minimization Plan (MMP) Maintain MMP In accordance with 2012 Statewide Mercury TMDL Implementation, per facility size and monitoring data criteria. 1,4-Dioxane No requirement Add monthly monitoring Based limited influent data showing detection, more results are needed to evaluate. PFAS No requirement Add monitoring 2/year with delayed implementation Based limited influent data showing detection, more results are needed to evaluate. Implementation delayed until after EPA certified method becomes available. Toxicity Test Chronic Ceriodaphnia dubia Pass/Fail at 14% effluent, monitor quarterly No change WQBEL. No toxics in toxic amounts. 15A NCAC 02B .0200, 15A NCAC 02B .0500. Parameter Current Permit Proposed Change Basis for Condition/Change Page 14 of 17 Effluent Pollutant Scan Three times per permit cycle Update sampling years to 2023, 2024, 2025. 40 CFR 122 Electronic Reporting No requirement Add Electronic Reporting Special Condition In accordance with EPA Electronic Reporting Rule 2015. MGD — Million gallons per day, MA — Monthly Average, WA — Weekly Average, DM — Daily Maximum. Table 5. Proposed Permit Conditions at 5.0 MGD flow tier. Parameter Permit Condition. Basis for Condition Flow MA 5.0 MGD 15A NCAC 2B .0505 Total Monthly Flow (TMF) Monitor monthly For calculation of Total Nitrogen and Total Phosphorus loads. Biological Oxygen Demand, 5-day (BOD5) Summer MA 8.4 mg/L WA 12.6 mg/L Winter MA 16.8 mg/L WA 25.2 mg/L Monitor daily WQBEL. Based on freezing permitted BOD ultimate loading at 3.5 MGD (i.e., facility will not be allowed to discharge oxygen -consuming waste above what is permitted for 3.5 MGD). Total Suspended Solids (TSS) MA 30.0 mg/L WA 45.0 mg/L Monitor daily* TBEL. Secondary treatment standards / 40 CFR 133 / 15A NCAC 2B .0406. MFR criteria were met. *See comments relating to frequency reduction below. Ammonia-N (NH3-N) Summer MA 2.8 mg/L WA 8.4 mg/L Winter MA 5.6 mg/L WA 16.8 mg/L Monitor daily WQBEL. Based on freezing permitted BOD ultimate loading at 3.5 MGD (i.e., facility will not be allowed to discharge oxygen -consuming waste above what is permitted for 3.5 MGD). Dissolved Oxygen (DO) > 5 mg/L Monitor daily WQBEL. Based on protection of the DO standard, 15A NCAC 2B .0200 and .0500. pH 6-9 SU Monitor daily WQBEL. State WQ standard, 15A NCAC 2B .0200 and .0500. Temperature Monitor daily State WQ reporting requirements 15A NCAC 2B .0500. Fecal Coliform (geometric mean) MA 200 /100 mL WA 400 /100 mL Monitor daily WQBEL. State WQ standard, 15A NCAC 2B .0200. Total Residual Chlorine (TRC) DM 28 µg/L Monitor daily WQBEL. Capped per NH3/TRC WLA Calculation. Conductivity Monitor daily 2002 DWQ Guidance memo; plant has a pretreatment program. 15A NCAC 2B .0500. Parameter Permit Condition Basis for Condition TKN Monitor weekly For Total Nitrogen (TN) calculation, 15A NCAC 02B .0500. NO3 + NO2 Monitor weekly For TN calculation, 15A NCAC 02B .0500. Page 15 of 17 Total Nitrogen (TN) Monitor weekly State WQ reporting requirements 15A NCAC 2B .0500. TN Load 56,315 lb/yr Monitor monthly, annually WQBEL. Nutrient load allocations, 15A NCAC 02B .0270. Total Phosphorus (TP) Monitor weekly State WQ reporting requirements 15A NCAC 2B .0500. TP Load 7,079 lb/yr Monitor monthly, annually WQBEL. Nutrient load allocations, 15A NCAC 02B .0270. Total Hardness Monitor quarterly Hardness -dependent dissolved metals water quality standards, approved in 2016, need effluent and instream hardness data for calculations of permit limitations. Total Mercury Mercury Minimization Plan (MMP) In accordance with 2012 Statewide Mercury TMDL Implementation, per facility size and monitoring data criteria. 1,4-Dioxane Monitor monthly Based limited influent data showing detection, more results are needed to evaluate. PFAS Monitor 2/year with delayed implementation Based limited influent data showing detection, more results are needed to evaluate. Implementation delayed until after EPA certified method becomes available. Toxicity Test Chronic Ceriodaphnia dubia Pass/Fail at 19% effluent, monitor quarterly WQBEL. No toxics in toxic amounts. 15A NCAC 02B .0200, 15A NCAC 02B .0500. Effluent Pollutant Scan Three times per permit cycle 40 CFR 122 Electronic Reporting No requirement In accordance with EPA Electronic Reporting Rule 2015. MGD — Million gallons per day, MA — Monthly Average, WA — Weekly Average, DM — Daily Maximum. 13. Public Notice Schedule: Permit to Public Notice: 01/15/2022 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. Fact Sheet Addendum (if applicable): Were there any changes made since the Draft Permit was public noticed (Yes/No): Comments were provided by the Permittee requesting monitoring reductions in several parameters. DWR PWS Regional Engineer provided a couple minor grammatical corrections. No other comments were received. Minor Page 16 of 17 changes will be made to the permit in response to submitted comments. Comments by the City and responses by DWR are attached as a Fact Sheet Addendum. If Yes, list changes and their basis below: The following changes have been made to the permit: • A footnote to the 5.0 MGD effluent limitations sheet [A. (2.)] was added that after one year following expansion, sampling frequency for TSS may be reduced to 2/week if no violations have occurred. • The title for Effluent Pollutant Scans special condition [A. (6.)] was modified to include 2nd species testing, and a sentence was added to clarify 2nd species toxicity testing frequency. 15. Fact Sheet Attachments (if applicable): • NPDES/PT POCs Review Form, completed • Effluent data trend charts and data summaries • BOD/TSS Removal rate sheet • Instream monitoring trend charts and data summaries • Monitoring Report (MR) Violations sheet • WET Testing and Self Monitoring sheet, page 48 • Compliance Evaluation Report, 9/15/2020 • Pretreatment Inspection Report, 3/10/2021 • NH3/TRC WLA Calculations sheets for 3.5 & 5.0 MGD • Upstream Hardness data from Permittee • RPA Spreadsheet Summaries for 3.5 & 5.0 MGD • Dissolved Metals Implementation/Freshwater • Mercury Data Statistics tables and data • Chemical Addendum plus attachments, submitted 1/4/2022 • Monitoring Reduction spreadsheet • Correspondence e-mail with ORC re: nutrient loading calculations • Fact Sheet Addendum Page 17 of 17 Page 1 NPDES/PT POCs Review Form Version: 2021.11.04 I. Facility's General Information and Permit Writer (pw)'s checklist Date of (draft) Review 7/20/2021 c. POCs review due to: e. Permit writer, please check if/when completed: Date of (final) Review ._ Municipal NPDES renewal 0 1. Review PQLs used in L/STMP vs 2017 recommended PQLs (See tab 2017 PQLs tab) & All POCs per section IV ❑ NPDES Permit Writer Gary Perlmutter New Industries ❑ 2. Notify Permittee (cc PT staff in regional office) if effluent NPDES, L/STMP data that should be on eDMRs is not really there/ Request eDMR update ❑ 0 NA Permittee-Facility Name City of Graham - Graham WWTP WWTP expansion 0 3. Notify PT staff (in comment section II below) the NPDES POCs that need to be maintained/added in LTMP/STMP and HWA/AT ❑ NPDES Permit Number NC0021211 Stream reclass./adjustment 0 4. (with draft NPDES) Email PT staff in central office, regional office, and Facility: draft NPDES permit package. PDF this form and include it in attachments. Add excel and PDF file to the respective SharePoint PT_Town Folder (04. PT_Towns> NCOOXXXXX>NPDES Permit Draft) ❑ NPDES Permit Effective Date 7/1/2013 Outfall relocation/adjustment 0 NPDES Permit Renewal Application Date 11/18/2015, 11/5/2020 to include ex ansion p 7Q1 o u date p ❑ 5. (with final NPDES) Email PT staff in central office, regional office, and Facility: final NPDES permit package. (Note effective date and 180 days after, at the bottom of this form). ADD Final excel and final PDF form to the respective SharePoint NPDES Folder (NPDES Permit Files>NCOOXXXXX) and SharePoint PT (04. PT Towns> NC00XXXXX>NPDES Permit Final) ❑ NPDES Permit Public Notice Date 1/12/2021 Other, explain below 0 eDMR data evaluated from: 1/6/2017 to 5/31/2021 Comment: The City applied for NPDES permit xpparameters renewal and expansion for Graham WWTP in November 2020. The WWTP has a design capacity of 3.5 MGD with a proposed expansion of 5.0 MGD. 6. Notify PT Permittee about new parameters with monitoring/limit (share ICIS file to ensure theyuse the rightparameter code in the eDMR)and 9 whether PQLs need to be adjusted. ❑ a. WWTP Capacity Summary 7. For inactive or not developed PT Programs: Current Permitted Flow, mgd 3.5 Designed Flow, mgd 3.5 7.1 Review POCs/last approved IWS/check industryselect.com to check industrial activity in town and compare it with last approved IWS and POCs that are present in DMR and PPA. ❑ 0 NA Permitted SIU Flow, mgd 0.265 7.2 If you deem necessary, follow-up with Permittee regarding IU and POCs and determine if a special condition in NPDES permit requiring a Full IWS submittal is deemed neccessary. ❑ ❑r NA b. PT Docs. Summary d. IU Summary f. Contact Information IWS approval date 4/4/2018 #SIUs 6 Regional Office (RO) Winston-Salem Regional Office (WSRO) L/STMP approval date: 2/13/2020 # ClUs 4 RO PT Staff Alexander Lowe & James Gonsiewski HWAs approval date 10/3/2018 # NSCIUs Facility PT Staff, email Shelby Smith <ssmith©cityofgraham.com> # Ills w/Local Permits Central Office PT-NPDES Staff Keyes McGee and Charlie Miller g. Receiving Stream Info. Receiving Stream: Catawba River Basin: Cape Fear Stream Class. WS-V, NSW 7Q10 / AAF (cfs): 34 / 553 Outfall Lat. 36° 02' 44" N Outfall Long. 79° 22' 06" W h. Industrial Users' POC Info. # Industrial User (IU) Name IU Activity IU POCs IUP Renewal Effective Date 1 Cintas Corporation Laundry See "POC Table" tab 7/1/2020 2 Metal Impact East (Luxfer Gas Cylinders) Gas Cylinder mfq See "POC Table" tab 7/1/2020 3 Novaflex Rubber mfg See "POC Table" tab 7/1/2020 4 Precient Company, Inc Metal Finishing See "POC Table" tab 10/24/2018 5 Stericycle Medical Waste Incineration See "POC Table" tab 7/1/2021 6 USA Dutch, Inc Metal Finishing See "POC Table" tab 12/12/2021 (new) II. Comments from NPDES pw Facility Summary and NPDES regulatory action: Comments from NPDES pw to PT staff (Central, RO, Facility): The City of Graham applied for NPDES permit renewal for the WWTP in November 2020 to incluede an expansion flow tier at 5.0 MGD. The Facility has a design capacity of 3.5 MGD and is currently authorized to discharge 3.5 MGD (up to 5.0 MGD upon request) into the Haw River. This form needs to be updated upon receiving an engineering certification confirming use of the expanded flow tier effluent limitation page (5.0 MGD). Please maintain the following POCs- NPDES required pollutants: Flow, BOD, TSS, ammonia, TP, TN, copper, silver, aluminum, and antimony. POCs that need to be added/modified in L/STMP sampling plan: 1,4-Dioxane, PFAS POCs that may be removed from L/STMP sampling plan: ORC's comments on IU/POCs: Permit Writer's Comments on Industrial Users Since the last permit cycle, the SIU Luxfer Gas Cylinders has changed its name to Metal Impact East, and a new SIU, USA Dutch Inc., has received an IUP. III. Status of Pretreatment Program (check all that apply) Status of Pretreatment Program (check all that apply) ❑ 1) facility has no SIU's, does have Division approved Pretreatment Program that is INACTIVE 2) facility has no SIU's, does not have Division approved Pretreatment Program 3) facility has SIUs and DWQ approved Pretreatment Program (list "DEV" if program still under development) 3a) Full Program with LTMP 3b) Modified Program with STMP 4) additional conditions regarding Pretreatment attached or listed below 5) facility's sludge is being land applied or composted 6) facility's sludge is incinerated (add Beryllium sampling) 7) facility's sludge is taken to a landfill 8) other ❑ ❑ p ❑ ❑ ❑ ❑ ❑ ❑ 21211 NPDES PT POCs review 2021-2 Page 2 IV. LTMP/STMP and HWA Review PW: Find S/LTMP document, HWA spreadsheet, and DMR, previous and new NPDES permit for next section. POC in L/STMPI Parameter of Concern (POC) Check List New NPDES POC Previous NPDES/ Non-Disch. POC Required by EPA (1) Required by 503 Sludge Permit (2) POC due to SIU (3) POTW POC (4) % RR L/STMP Effluent Freq PQLs review PQL from S/LTMP, uq/I Recomm. PQL, uq/I Comment g Flow 0 g g 0 Q g BOD 0 g g ❑ 98.26 Q 2.0 mg/L El TSS 0 g g 0 98.36 Q 2.5 mg/L g NH3 0 g g 0 88.44 Q 0.1 mg/L ❑r Arsenic 0 0 g 0 0 45 Q 2.0 2.0 ❑ Beryllium(5) 0 0 0 0 0 Q g Cadmium(1) 0 0 g g g 0 67 Q 0.5 0.5 g Chromium(1) 0 ❑ g 0 g 0 82 Q 5.0 10.0 g Copper(1) g g g g g 0 76.25 Q 2.0 2.0 g Cyanide ❑ ❑ 0 g 0 69 Q 10.0 g Lead(1) ❑ 0 g g g 0 61 Q 2.0 2.0 g Mercury(5) ❑ ❑ g ❑ 0 96.01 Q 1 ng/L 1.0 ng/L g Molybdenum 0 ❑ g 0 0 33 Q 10.0 10.0 g Nickel(1) ❑ 0 g g g 0 42 Q 10.0 g Silver ❑ ❑ g 0 0 75 Q 1.0 1.0 g Selenium 0 0 II g 0 50 Q 1.0 5.0 g Zinc(1) ❑ ❑ g g 0 ❑ 59.2 Q 10.0 10.0 g Sludge Flow to Disposal ❑ g ❑ ❑ 2/yr g % Solids to Disposal ❑ g ❑ ❑ 2/yr g TN ❑ g g 0 200.0 Ei TP ❑ g g ❑ 92.76 100.0 p 1,4-Dioxane g 0 0 0 g PFAS ❑p ❑ ❑ ❑ See Spc Cond in permit ❑ 0 0 0 0 ❑ 0 0 0 0 ❑ 0 0 0 0 ❑ 0 0 0 ❑ Footnotes: (1) Always in the LTMP/STMP due to EPA requirement (2) Only in LTMP/STMP if sludge land app or compost (dif POCs for incinerators) (3) Only in LTMP/STMP while SIU still discharges to POTW (4) Only in LTMP/STMP when pollutant is still of concern to POTW (5) In LTMP/STMP if sewage sludge is incinerated (Be and Hg according to § 503.43) Please use blue font for the info updated by pw Please use red font for POCs that need to be added/modified in L/STMP sampling plan Blue shaded cell: Parameters usually included under that POC list 1. Is all effluent data required on L/STMP on DMRs? Yes g No ❑ 1.1 If not, request submittal and cc PT staff central office 21211 NPDES PT POCs review 2021-2 Page 3 V. NPDES pw completes this section when issuing NPDES permit: NPDES Permit Public Notice Date: 1/10/2022 Effective date: 180 days after effective (date): NPDES PERMIT WRITER (PIN) eDMR and PQLs Notification email to Permittee Date I1/10/2022 1. Emerging Contaminants of 1,4-Dioxane and PFAS have been detected in WWTP's influent from a POTW survey in 2019; monitoring for them should be added for IUPs of EPA -target industries: Organic Chemicals, Plastics and Synthetic Fibers category, Metal Finishers category. Based on industry type and current IUP parameters TTO and those in EPA Method 624, the Division recommends monitoring for 1,4-Dioxane and PFAS in the following Sills: Cintas Corp., Metal Impact, Prescient, and USA Dutch. 2. Long Term Monitoring Plan (LTMP) and Headworks Analysis (HWA) updates required. Date I VI. Central Office PT Staff Completes this section: Comments from PT Central Office ((ex., explanation of any POCs; info you have on IU related investigations into NPDES problems) Checklist 1. Review and update FileMaker as necessary ❑ 2. Update ProTrac with the following datelines: 2.1 Is there a schedule of compliance for POCs (Y/N) Y Which POCs? Copper Dateline for CAP: ❑ ❑ NA 2.2 180 days after NPDES permit is effective would be: ❑ 2.3 IWS submittal is required by NPDES permit by: ❑ ❑ NA 3. Is all data required on L/STMP (Eff, Inf, unregulated, etc.) in spreadsheets with HWA/AT submittal? Yes ❑ No ❑ a. L/STMP data required from to ' Comment: 0 b. L/STMP data submitted from to Comment: 0 3.1 If not, require submittal and update HWA/AT file ASAP. Check with pw if any eDMR data was updated and verify updates. 0 4. S/LTMP follow up: PQLs vs 2017 PQL recommendation vs NPDES permit PQL requirements ❑ TO BE CONTINUED VII. Regional Office PT Staff Completes this Section (optional): Comments from PT RO Staff (ex. updates on the actions required above, issues noted missed above/general feedback/questions and send the form to NPDES pw and PT staff Central Office) 21211 NPDES PT POCs review 2021-2 L= Limit in IUP; M = Monitor only 1 2 3 4 5 6 Cintas Metal USA Parameter Corp. Impact Novaflex Prescient Stericvcle Dutch CIU N/A 467.36 428 433.17 N/A 433 Flow L L L L L L BOD5 L L L L L L TSS L L L L L L pH L L L L L L As M M M M M M Cd L L L L L L Cr L L L L L L Cu L L L L L L CN L L L L L L Pb L L L L L L Hg L M M M M M Ni L L L L L L Zn L L L L L L Se M M M M M M Ag M M M L M L Mo M M M M M M Phosphorus L M M M M M TKN L L L L L L NH3 M M M M M M FOG L L L L L L COD M M M M M NO2+NO3 M M M M EPA 624 M TTO M M L Fluoride M M TN M M 1,4-Dioxane M M M M PFAS M M M M Graham WWTP Effluent Monitoring NCOO21211 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0.0 Flow • Mo. Avg Limit • • • �• •• • • • •MNM ••SS ~~.0 •• •• • •• �\°�ti °�1Sti �\�°�ti °\�\ ti h\yh�ti ��\ti�ti °\y��ti y\°\ti �\�,��ti ���ti Summary Statistics N 1461 Avg 1.98 SD 0.66 Min 1.13 Max 8.64 Summary Statistics Summer N 244 Avg 5.6 SD 2.5 Min 2.0 Max 19.8 Winter N 174 Avg 6.7 SD 6.5 Min 2.0 Max 84.2 Summary Statistics N 430 Avg 6.0 SD 14.4 Min 2.3 Max 296 Page 1 GB Perlmutter, 1/11/2022 Graham WWTP Effluent Monitoring NC0021211 Summary Statistics Summer N 256 Avg 1.53 SD 2.04 Min 0.10 Max 10.30 Winter N 183 Avg 3.85 SD 4.47 Min 0.10 Max 25.68 Summary Statistics N 999 Avg 8.1 SD 1.0 Min 5.8 Max 10.8 Summary Statistics N 999 Avg 7.2 SD 0.2 Min 6.1 Max 7.9 Page 2 GB Perlmutter, 1/11/2022 Graham WWTP Effluent Monitoring NCOO21211 1,000 100 0 0 - 10 1 Fecal Coliform Wk Avg ♦ Mo Avg WA Limit MA Limit I l • • • •• • .2,, iv.. •• Z ♦•• •• o,cb O,cl° ° O1> 01> 01 O, O� 00' '5\°\ti o\'L' C<\ * °�\ti 4)\y��ti y\� �� 60 50 40 —ao 30 20 10 0 Total Residual Chlorine Effluent Limit Compliant ON,,, otio oti°\°�ti �\ti�ti \���ti y°�ti �\���ti\��ti Summary Statistics N 999 Avg 18.4 SD 5.4 Min 6 Max 28 Summary Statistics N 419 Geomean 2.7 Min 1 Max 2420 Summary Statistics N 1000 Avg 20.1 SD 1.1 Min 20 Max 43 Page 3 GB Perlmutter, 1/11/2022 Effluent Monitoring NC0021211 Graham WWTP 4,000 3,500 1,000 500 12,000 10,000 8,000 0 6,000 4,000 2,000 0 Total Nitrogen Load • • ••• • • • • • ♦ ♦ • • _ •• �•� • • • ♦ •• ♦• • • • •♦ N •••• • • •• • oti� oti�' oti� oti° oti� oti° oti� otiti oti� 001' o\�v�ti h\y��ti \ti�ti o\y��ti y\°�ti �\���ti ���ti Summary Statistics N 999 Avg 1609 SD 537 Min 455 Max 3392 Summary Statistics TKN N 208 Avg 3.48 SD 3.57 Min 0.13 Max 25.60 NO2+NO3 N 208 Avg SD Min Max 6.34 7.62 0.10 29.70 TN N Avg SD Min Max 208 9.80 7.13 0.22 33.47 Summary Statistics N 48 Avg 4,870 SD 2,955 Min 939 Max 11,366 Page 4 GB Perlmutter, 1/11/2022 Graham WWTP Effluent Monitoring NC0021211 J E 10 9 8 7 6 5 4 3 2 1 0 Total Phosphorus (TP) oti oti oti oti oti oti oti° otiti otiy oti� 0 E 0 1,000 900 800 700 600 500 400 300 200 100 0 TP Load ♦ ♦ • ♦♦ • • • • • • ♦♦ ♦ ♦♦♦♦♦ N ♦~ ♦•• ♦••♦ • ♦♦♦♦•• ♦♦ • ONE• O, O�� O,� O,O OHO Ol•° 01' 01' 01' Summary Statistics N 421 Avg 0.5 SD Min 0.1 Max 8.6 Summary Statistics N 48 Avg 244 SD Min 48 Max 939 Page 5 GB Perlmutter, 1/11/2022 NC0024872 Cooleemee WWTP BOD monthly Month RR (%) removal rate Month RR (%) June-17 July-17 August-17 September-17 October-17 November-17 December-17 January-18 February-18 March-18 April-18 May-18 June-18 July-18 August-18 September-18 October-18 November-18 December-18 January-19 February-19 March-19 April-19 May-19 June-19 July-19 August-19 September-19 October-19 November-19 97.46 98.40 98.13 98.59 98.85 99.04 98.70 97.90 98.03 97.20 96.65 98.24 98.58 98.12 98.37 96.76 99.20 96.90 97.66 92.47 97.01 97.89 98.15 98.26 96.63 97.29 97.88 98.62 98.03 97.47 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 July-21 August-21 September-21 October-21 November-21 December-21 January-22 February-22 March-22 April-22 May-22 Overall BOD removal rate 97.27 96.02 94.80 96.87 97.86 96.29 96.00 95.74 97.00 96.17 96.69 96.14 96.31 97.25 94.26 94.60 96.56 96.48 97.18 1/11/2022 TSS Month monthly RR (%) removal rate Month RR (%) June-17 July-17 August-17 September-17 October-17 November-17 December-17 January-18 February-18 March-18 April-18 May-18 June-18 July-18 August-18 September-18 October-18 November-18 December-18 January-19 February-19 March-19 April-19 May-19 June-19 July-19 August-19 September-19 October-19 November-19 97.79 99.18 98.65 98.67 99.08 99.03 97.80 98.11 97.91 96.98 96.77 98.80 99.20 99.11 98.65 98.08 99.34 98.35 98.30 90.02 98.24 98.48 98.04 99.50 98.53 98.61 98.32 98.59 97.72 97.06 Overall TSSD 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 July-21 August-21 September-21 October-21 November-21 December-21 January-22 February-22 March-22 April-22 May-22 removal rate 96.82 95.99 94.92 96.54 98.61 96.84 97.67 97.56 97.58 97.60 98.24 98.02 97.85 97.98 96.25 98.17 98.48 98.13 97.84 Summary Statistics BOD removal rate n 48 Avg 97.18 SD 1.34 Min 92.47 Max 99.20 TSS removal rate n Avg SD Min Max 48 97.84 1.48 90.02 99.50 Graham WWTP Instream Monitoring NC0021211 Dissolved oxygen (DO), mg/L Date Upstream Dnstream Effluent Standard 6/5/2017 7.8 7.4 7.4 5.0 6/22/2017 7.3 7.3 7 5.0 7/7/2017 7.7 7.6 7.4 5.0 7/24/2017 6.6 6.7 7 5.0 8/16/2017 6.6 6.8 7.4 5.0 8/31/2017 7.3 7.9 7.2 5.0 9/8/2017 8.3 8.6 7.1 5.0 9/19/2017 7.1 7.6 7 5.0 10/24/2017 7.2 7.5 7.9 5.0 11/13/2017 10.4 10.6 8.3 5.0 12/12/2017 12.3 12.4 9.4 5.0 1/26/2018 11.9 11.5 8.6 5.0 2/20/2018 9.6 9.4 8.2 5.0 3/5/2018 10 10.2 8.7 5.0 4/17/2018 8.5 8.8 7.4 5.0 5/1/2018 9.3 9.3 8.2 5.0 5/21/2018 7.8 8.9 8 5.0 6/5/2018 7.2 7.5 7.5 5.0 6/18/2018 8.4 8.4 7.4 5.0 7/3/2018 7.4 7.4 7.6 5.0 7/31/2018 7 6.9 7.5 5.0 8/14/2018 6.9 6.8 7.3 5.0 8/29/2018 7.2 7.6 7.6 5.0 9/13/2018 7.2 7.3 6.7 5.0 9/27/2018 7.5 7.7 7.5 5.0 10/15/2018 8.6 8.6 8 5.0 11/20/2018 11.2 11.2 8 5.0 12/3/2018 10.9 11.1 8.1 5.0 1/28/2019 12.1 12.2 9.8 5.0 2/27/2019 11.7 11.8 8.3 5.0 3/25/2019 10.6 10.7 9 5.0 4/24/2019 8.9 9 8.7 5.0 5/6/2019 8.7 8.4 8 5.0 5/22/2019 7.2 7.2 7.6 5.0 6/18/2019 7.2 7.4 7.2 5.0 6/28/2019 8 8.4 7 5.0 7/2/2019 7.2 7.9 6.8 5.0 7/23/2019 5.8 5.9 7.5 5.0 8/12/2019 6.5 6.6 7.7 5.0 8/28/2019 7.5 7.5 6.9 5.0 9/18/2019 6.4 6.6 7.4 5.0 9/28/2019 6.9 7.8 5.0 10/7/2019 8 8.2 6.9 5.0 11/25/2019 10.7 10.6 8 5.0 12/9/2019 11.2 11.2 8.9 5.0 1/13/2020 10.7 10.3 8.6 5.0 2/3/2020 11.6 11.4 9.4 5.0 3/11/2020 11.7 12.3 8.9 5.0 4/14/2020 8.9 8.8 8.1 5.0 5/6/2020 9.1 9.2 8.2 5.0 5/21/2020 8.6 8.7 8 5.0 6/15/2020 7.2 7 6.5 5.0 Page 1 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 6/29/2020 7.5 7.8 6.8 5.0 7/13/2020 7.5 7.6 6.3 5.0 7/24/2020 6.9 6.9 6.5 5.0 8/10/2020 7.4 7.5 7 5.0 8/27/2020 6.8 7.2 6.8 5.0 9/1/2020 6.8 6.7 6.9 5.0 9/18/2020 7.5 7.5 8.2 5.0 10/28/2020 8.9 8.9 9.2 5.0 11/18/2020 10 10 9 5.0 12/15/2020 10.7 10.7 9.4 5.0 N Avg SD Min Max 62 8.5 1.7 5.8 12.3 62 8.6 1.7 5.9 12.4 61 7.8 0.8 6.3 9.8 t-Test: Two -Sample Assuming Unequal Variances Upstream Dnstream Mean 8.5096774 8.627419 Variance 3.0451507 2.882023 Observations 62 62 Hypothesized Mean Difference 0 df 122 t Stat -0.380805 P(T<=t) one -tail 0.3520049 t Critical one -tail 1.6574395 P(T<=t) two -tail 0.7040099 t Critical two -tail 1.9795999 Page 2 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 Temperature, water (Si Date Upstream Dnstream D-U diff Effluent Standard 6/5/2017 23.5 24 0.5 22 32 6/22/2017 25.2 25.1 -0.1 24 32 7/7/2017 27.4 27.8 0.4 26 32 7/24/2017 28.9 28.6 -0.3 26 32 8/16/2017 25.8 26.6 0.8 26 32 8/31/2017 24.2 24.3 0.1 23 32 9/8/2017 19.7 20.5 0.8 22 32 9/19/2017 23.6 23.5 -0.1 23 32 10/24/2017 18.1 17.9 -0.2 20 32 11/13/2017 9.7 9.5 -0.2 14 32 12/12/2017 4.9 5.2 0.3 11 32 1/26/2018 5.1 5.5 0.4 10 32 2/20/2018 10.9 10.9 0 13 32 3/5/2018 9.1 9.5 0.4 11 32 4/17/2018 14.7 14.8 0.1 15 32 5/1/2018 17.6 17.9 0.3 15 32 5/21/2018 23.2 23.4 0.2 22 32 6/5/2018 25 25.6 0.6 23 32 6/18/2018 29.6 28.9 -0.7 25 32 7/3/2018 31.7 31.9 0.2 27 32 7/31/2018 24 24.1 0.1 26 32 8/14/2018 25.1 25.6 0.5 25 32 8/29/2018 27.2 27 -0.2 25 32 9/13/2018 24.5 24.5 0 26 32 9/27/2018 23.9 24.6 0.7 24 32 10/15/2018 18.2 18.5 0.3 20 32 11/20/2018 9.8 9.9 0.1 15 32 12/3/2018 10.9 10.9 0 16 32 1/28/2019 5.7 5.3 -0.4 12 32 2/27/2019 8.2 8.2 0 12 32 3/25/2019 12.6 12.6 0 12 32 4/24/2019 18.6 18.8 0.2 17 32 5/6/2019 23.5 23.2 -0.3 21 32 5/22/2019 23.8 24.1 0.3 22 32 6/18/2019 25.5 25.5 0 24 32 6/28/2019 27.8 28.7 0.9 25 32 7/2/2019 28.6 28.7 0.1 25 32 7/23/2019 27.8 27.3 -0.5 26 32 8/12/2019 27.1 26.9 -0.2 25 32 8/28/2019 23.6 23.8 0.2 24 32 9/18/2019 24.6 24.5 -0.1 25 32 9/28/2019 26.8 23.7 -3.1 32 10/7/2019 22.2 21.9 -0.3 22 32 11/25/2019 10.1 10.1 0 15 32 12/9/2019 7.9 7.5 -0.4 13 32 1 / 13/2020 13.7 13.9 0.2 16 32 2/3/2020 8.3 8.3 0 12 32 3/ 11 /2020 14.3 14.2 -0.1 14 32 4/14/2020 17.7 17.7 0 17 32 5/6/2020 19.6 19.5 -0.1 18 32 5/21/2020 16 16.1 0.1 18 32 6/15/2020 22.1 21.7 -0.4 22 32 Page 3 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 6/29/2020 26.6 27.1 0.5 24 32 7/13/2020 28.2 28.7 0.5 25 32 7/24/2020 26.6 26.6 0 25 32 8/10/2020 26.7 26.9 0.2 26 32 8/27/2020 27.2 28 0.8 26 32 9/1/2020 24.8 24.8 0 25 32 9/18/2020 21.8 21.8 0 23 32 10/28/2020 17.5 17.3 -0.2 19 32 11 / 18/2020 11.7 11.7 0 15 32 12/15/2020 9.2 9.2 0 14 32 N Avg SD Min Max 62 20.0 7.4 4.9 31.7 62 62 20.0 0.0 7.4 0.5 5.2 -3.1 31.9 0.9 61 20.2 5.2 10 27 Page 4 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 Specific Conductance, uS/cm Date Upstream Dnstream Effluent 6/5/2017 153 191 1667 6/22/2017 110 110 1008 7/7/2017 260 240 1657 7/24/2017 299 293 1926 8/16/2017 215 240 2002 8/31/2017 570 496 2793 9/8/2017 133 155 2584 9/19/2017 310 301 2606 10/24/2017 251 373 2300 11/13/2017 391 409 2153 12/12/2017 374 367 1755 1/26/2018 378 404 2737 2/20/2018 271 272 1686 3/5/2018 203 204 1576 4/17/2018 105 104 1356 5/1/2018 151 153 1127 5/21/2018 131 130 870 6/5/2018 246 244 1538 6/18/2018 416 375 1851 7/3/2018 412 388 1973 7/31/2018 84 88 1580 8/14/2018 168 203 1552 8/29/2018 346 336 1884 9/13/2018 151 165 1985 9/27/2018 275 276 1447 10/15/2018 84 85 873 11/20/2018 117 122 1086 12/3/2018 250 229 1351 1/28/2019 129 135 953 2/27/2019 93 97 1222 3/25/2019 128 147 1051 4/24/2019 146 152 1180 5/6/2019 282 271 1439 5/22/2019 277 273 1528 6/18/2019 174 179 1568 6/28/2019 225 237 1898 7/2/2019 371 338 1683 7/23/2019 385 338 1802 8/12/2019 334 316 1951 8/28/2019 141 153 1962 9/18/2019 561 576 2196 9/28/2019 615 608 10/7/2019 500 524 2764 11/25/2019 131 141 1710 12/9/2019 277 275 1788 1/13/2020 135 155 1307 2/3/2020 158 163 1341 3/11/2020 240 240 1374 4/14/2020 104 105 1070 5/6/2020 152 153 1187 5/21/2020 75 75 1148 6/15/2020 183 180 1189 Page 5 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 6/29/2020 249 244 1869 7/13/2020 395 426 2076 7/24/2020 400 400 1265 8/10/2020 89 104 1887 8/27/2020 239 238 2257 9/1/2020 174 279 1841 9/18/2020 94 95 1367 10/28/2020 104 110 1401 11/18/2020 142 145 1257 12/15/2020 79 79 653 N Avg SD Min Max 62 62 61 236.0 240.4 1641.1 132.7 127.8 491.9 75 75 653 615 608 2793 t-Test: Two -Sample Assuming Unequal Variances Upstream Dnstream Mean 236.0484 240.3871 Variance 17616.8 16331.91 Observations 62 62 Hypothesized Mean Difference 0 df 122 t Stat -0.18541 P(T<=t) one -tail 0.426606 t Critical one -tail 1.657439 P(T<=t) two -tail 0.853211 t Critical two -tail 1.9796 Page 6 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 Fecal coliform, cfu/100 mL Date Upstream Dnstream Effluent 6/5/2017 52 57 6/6/2017 6.1 7/24/2017 46 220 7/25/2017 4.1 8/16/2017 162 114 8/17/2017 1 9/19/2017 190 49 2 10/24/2017 5000 3400 1 11/13/2017 400 590 11/14/2017 1 12/12/2017 59 105 1 1/25/2018 1 1/26/2018 25 22 2/20/2018 105 124 1 3/5/2018 95 76 3/6/2018 1 4/17/2018 2600 1800 4.1 5/21/2018 370 143 5/22/2018 14.6 6/18/2018 114 38 6/19/2018 2 7/31/2018 9200 9200 11 8/28/2018 3.1 8/29/2018 390 200 9/13/2018 520 600 19.5 10/15/2018 800 600 10/16/2018 4.1 11/20/2018 58 86 11 /21 /2018 2 12/3/2018 600 270 12/4/2018 1 1/28/2019 45 53 1/29/2019 1 2/27/2019 290 105 2/28/2019 2 3/25/2019 95 57 3/26/2019 1 4/24/2019 86 76 4/25/2019 2 5/22/2019 41 44 5/23/2019 6.3 6/18/2019 53 380 2419.6 7/2/2019 27 25 7/3/2019 1 8/12/2019 95 81 8/13/2019 1 9/18/2019 37 16 9/19/2019 3 Page 7 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC0021211 10/7/2019 133 19 10/8/2019 1 11/25/2019 400 1400 2 12/9/2019 114 105 12/10/2019 2 1/13/2020 390 480 1/14/2020 2420 2/3/2020 51 50 2/4/2020 2 3/11/2020 28 25 3/12/2020 5.2 4/14/2020 4600 4000 3.1 5/21/2020 12000 7400 77.1 6/15/2020 200 143 6/16/2020 13.4 7/13/2020 67 49 7/14/2020 8.5 8/27/2020 105 143 2 9/1/2020 12000 12000 3 10/28/2020 1000 22000 10/29/2020 4.1 11/18/2020 119 171 11/19/2020 24.6 12/15/2020 3400 4600 24.3 N 43 43 43 Geomean 230 221 4 Min 25 16 1 Max 12000 22000 2420 100000 10000 1000 0 0 • 1 Fecal Coliform • Upstream ♦ Dnstream • Effluent 00 ♦ Page 8 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC00211 Upstream TN, m_q/L Downstream TN, mq/L TN, mq/L Date NO2+NO3 TKN TN Date NO2+NO3 TKN TN Date Upstream Dnstream Effluent 6/5/2017 1.25 0.62 1.87 6/5/2017 1.25 0.77 2.02 6/5/2017 1.87 2.02 7/24/2017 2.13 0.98 3.11 7/24/2017 1.79 0.72 2.51 6/8/2017 12.45 8/16/2017 1.67 1.18 2.85 8/16/2017 1.79 1.34 3.13 7/24/2017 3.11 2.51 9/19/2017 2.64 1.19 3.83 9/19/2017 2.32 0.96 3.28 7/26/2017 9.19 10/24/2017 2.93 1.26 4.19 10/24/2017 4.13 1 5.13 8/16/2017 2.85 3.13 9.72 11/13/2017 3.47 0.6 4.07 11/13/2017 3.64 0.75 4.39 9/19/2017 3.83 3.28 12/12/2017 1.65 0.9 2.55 12/12/2017 1.73 0.58 2.31 9/20/2017 16.85 1/26/2018 1.08 0.8 1.88 1/26/2018 1.08 0.9 1.98 10/24/2017 4.19 5.13 2/20/2018 1.73 1.52 3.25 2/20/2018 1.72 1.32 3.04 10/25/2017 3.5 3/5/2018 0.59 1.84 2.43 3/5/2018 0.65 1.26 1.91 11/13/2017 4.07 4.39 4/17/2018 0.27 1.06 1.33 4/17/2018 0.25 1.21 1.46 11/15/2017 2.69 5/21/2018 0.51 1.27 1.78 5/21/2018 0.49 1.2 1.69 12/12/2017 2.55 2.31 6/18/2018 4.42 1.12 5.54 6/18/2018 4.33 1.45 5.78 12/13/2017 17.51 7/31/2018 0.5 1.18 1.68 7/31/2018 0.5 1.5 2 1/24/2018 18.53 8/29/2018 1.46 1.26 2.72 8/29/2018 1.46 1.31 2.77 1/26/2018 1.88 1.98 9/13/2018 0.72 2.38 3.1 9/13/2018 1.05 2.15 3.2 2/20/2018 3.25 3.04 10/15/2018 0.45 1 1.45 10/15/2018 0.41 0.87 1.28 2/21/2018 26.17 11/20/2018 0.69 0.84 1.53 11/20/2018 0.68 1.04 1.72 3/5/2018 2.43 1.91 12/3/2018 2.5 1.02 3.52 12/3/2018 1.9 1.19 3.09 3/7/2018 22.51 1/28/2019 0.71 1.17 1.88 1/28/2019 0.73 0.93 1.66 4/17/2018 1.33 1.46 2/27/2019 0.64 0.82 1.46 2/27/2019 0.62 0.88 1.5 4/18/2018 11.16 3/25/2019 0.76 0.69 1.45 3/25/2019 0.75 0.77 1.52 5/21/2018 1.78 1.69 4/24/2019 1.03 0.6 1.63 4/24/2019 1.01 0.52 1.53 5/23/2018 15.06 5/22/2019 1.79 1.33 3.12 5/22/2019 1.61 2.56 4.17 6/18/2018 5.54 5.78 6/18/2019 1.01 0.2 1.21 6/18/2019 0.95 0.79 1.74 6/19/2018 20.5 7/2/2019 3.83 0.71 4.54 7/2/2019 2.3 0.75 3.05 7/31/2018 1.68 2 8/12/2019 3.23 0.89 4.12 8/12/2019 1.96 0.74 2.7 8/1/2018 24.86 9/18/2019 5.3 1.36 6.66 9/18/2019 5.03 1.3 6.33 8/29/2018 2.72 2.77 23.8 10/7/2019 5.73 1.02 6.75 10/7/2019 4.34 1.13 5.47 9/11/2018 20.69 11/25/2019 0.62 0.59 1.21 11/25/2019 0.6 0.58 1.18 9/13/2018 3.1 3.2 12/9/2019 2.16 0.95 3.11 12/9/2019 1.89 0.78 2.67 10/15/2018 1.45 1.28 1/13/2020 0.61 0.57 1.18 1/13/2020 0.68 0.59 1.27 10/17/2018 8.11 2/3/2020 1.07 0.4 1.47 2/3/2020 0.95 0.46 1.41 11/20/2018 1.53 1.72 3/11/2020 2.94 0.88 3.82 3/11/2020 2.41 0.74 3.15 11 /21 /2018 4.48 4/14/2020 0.54 1.59 2.13 4/14/2020 0.51 1.39 1.9 12/3/2018 3.52 3.09 5/21/2020 0.42 0.95 1.37 5/21/2020 0.44 0.89 1.33 12/5/2018 0.22 6/15/2020 1.09 0.79 1.88 6/15/2020 0.9 0.76 1.66 1/28/2019 1.88 1.66 7/13/2020 3.98 1.09 5.07 7/13/2020 4.58 1.1 5.68 1/30/2018 4.42 8/27/2020 1.41 0.75 2.16 8/27/2020 1.1 0.82 1.92 2/27/2019 1.46 1.5 7.01 9/1/2020 0.91 1.58 2.49 9/1/2020 1.34 2.33 3.67 3/25/2019 1.45 1.52 6.28 10/28/2020 0.2 0.53 0.73 10/28/2020 0.22 0.87 1.09 4/24/2019 1.63 1.53 8.94 11/18/2020 0.48 0.66 1.14 11/18/2020 0.46 0.7 1.16 5/20/2019 19.15 12/15/2020 0.29 1.01 1.3 12/15/2020 0.28 1.47 1.75 5/22/2019 3.12 4.17 6/18/2019 1.21 1.74 N 43 43 43 N 43 43 43 6/19/2019 2.88 Avg 1.66 1.00 2.66 Avg 1.55 1.06 2.61 7/2/2019 4.54 3.05 SD 1.41 0.40 1.48 SD 1.29 0.45 1.40 7/3/2019 3.06 Min 0.20 0.20 0.73 Min 0.22 0.46 1.09 8/12/2019 4.12 2.7 Max 5.73 2.38 6.75 Max 5.03 2.56 6.33 8/14/2019 2.2 Page 9 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC00211 30 25 20 Sao 15 E 10 5 0 Total Nitrogen • Upstream • Effluent ♦ Dnstream ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ II ■■ ■ ■� ME nn 0 -nry Mv)n _ AIM ‘c", ■ oy' oy oti° oti° otiy otiy \o h\yh�ti• yti\y\� °\yeti y\�\ti �\���ti 9/18/2019 6.66 6.33 2.89 10/7/2019 6.75 5.47 10/9/2019 5.07 11/25/2019 1.21 1.18 11/27/2019 5.61 12/9/2019 3.11 2.67 12/11/2019 4.63 1/13/2020 1.18 1.27 1/15/2020 9.59 2/3/2020 1.47 1.41 2/5/2020 7.02 3/11/2020 3.82 3.15 7.78 4/14/2020 2.13 1.9 4/15/2020 6.01 5/18/2020 1.83 5/21/2020 1.37 1.33 6/15/2020 1.88 1.66 6/17/2020 5.22 7/13/2020 5.07 5.68 7/15/2020 10.76 8/24/2020 1.75 8/27/2020 2.16 1.92 9/1/2020 2.49 3.67 9/2/2020 3.57 10/28/2020 0.73 1.09 12.46 11 / 18/2020 1.14 1.16 5.82 12/15/2020 1.3 1.75 12/16/2020 4.68 N 43 43 43 Avg 3.21 3.25 9.07 SD 1.48 1.40 7.22 Min 0.73 1.09 0.22 Max 6.75 6.33 26.17 t-Test: Two -Sample Assuming Unequal Variances Upstream Dnstream Mean 2.664186 2.609302 Variance 2.193363 1.957383 Observations 43 43 Hypothesized Mean Difference 0 df 84 t Stat 0.17665 P(T<=t) one -tail 0.430104 t Critical one -tail 1.663197 P(T<=t) two -tail 0.860208 t Critical two -tail 1.98861 Conclusion: TN not different between up and dnstream sites. Page 10 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring NC00211 TP, mq/L Date Upstream Dnstream Effluent 6/5/2017 0.062 0.059 0.3 7/24/2017 0.19 0.15 7/26/2017 0.3 8/16/2017 0.157 0.175 0.3 9/19/2017 0.122 0.106 9/20/2017 0.4 10/24/2017 0.127 0.114 10/25/2017 1 11/13/2017 0.146 0.129 11/15/2017 0.3 12/12/2017 0.176 0.176 12/13/2017 0.3 1/26/2018 0.067 0.067 0.3 2/20/2018 0.09 0.085 2/21/2018 0.5 3/5/2018 0.092 0.093 3/7/2018 0.5 4/17/2018 0.091 0.088 4/18/2018 1.4 5/21/2018 0.123 0.115 5/23/2018 0.2 6/18/2018 0.131 0.116 6/19/2018 0.4 7/31/2018 0.223 0.217 8/1/2018 1.7 8/29/2018 0.227 0.218 8/31/2018 2.1 9/13/2018 0.436 0.444 1.6 10/15/2018 0.093 0.083 10/17/2018 0.2 11/20/2018 0.061 0.059 11 /21 /2018 0.3 12/3/2018 0.168 0.158 12/4/2018 0.4 1/28/2019 0.046 0.056 1/30/2019 0.2 2/27/2019 0.135 0.121 0.3 3/25/2019 0.046 0.047 3/27/2019 0.1 4/24/2019 0.063 0.054 4/26/2019 0.1 5/22/2019 0.081 0.089 0.4 6/18/2019 0.074 0.077 6/19/2019 0.4 7/2/2019 0.246 0.295 7/3/2019 0.3 8/12/2019 0.175 0.168 8/14/2019 0.4 9/18/2019 0.57 0.508 0.3 Page 11 of 12 GB Perlmutter, 1/11/2022 Graham WWTP Instream Monitoring N C00211 10/7/2019 0.199 0.196 10/9/2019 0.3 11/25/2019 0.128 0.14 1.8 12/9/2019 0.057 0.057 12/11/2019 0.5 1/13/2020 0.217 0.221 1/15/2020 3.3 2/3/2020 0.108 0.107 0.2 3/11/2020 0.167 0.191 0.4 4/14/2020 0.218 0.244 4/15/2020 0.5 5/21/2020 0.192 0.185 5/22/2020 0.8 6/15/2020 0.09 0.093 6/17/2020 0.5 7/13/2020 0.214 0.276 7/15/2020 0.4 8/27/2020 0.127 0.075 8/28/2020 0.7 9/1/2020 0.556 0.845 9/2/2020 0.4 10/28/2020 0.092 0.094 0.3 11/18/2020 0.065 0.071 0.4 12/15/2020 0.223 0.249 12/16/2020 0.4 N Avg SD Min Max 43 43 43 0.16 0.17 0.60 0.12 0.14 0.63 0.05 0.05 0.10 0.57 0.85 3.30 3.5 3.0 2.5 2.0 an E 1.5 1.0 0.5 0.0 Total Phosphorus • Upstream Effluent ♦ Dnstream ■ ■ ■■ ■ ■ ■` 1 oti� o' , o' • O' • oN• oN, Ol° O'1, otiy ■ Page 12 of 12 GB Perlmutter, 1/11/2022 MONITORING REPORT(MR) VIOLATIONS for: Report Date: 12/16/2C Page 1 01 1 Permit: NC0021211 MRs Betweei l l - 2016 and12 - 2020 Region: % Facility Name: % Param Nam( % County: % Major Minor: Violation Category:% Subbasin:% Program Category: % Violation Action: % PERMIT: NC0021211 FACILITY: City of Graham - Graham WWTP COUNTY: Alamance REGION: Winston-Salem Limit Violation MONITORING OUTFALL REPORT LOCATION PARAMETER VIOLATION FREQUENCY UNIT OF DATE MEASURE LIMIT CALCULATED VALUE Over VIOLATION TYPE VIOLATION ACTION 01-2019 001 12-2016 001 04-2017 001 05-2017 001 06-2017 001 04-2019 001 06-2019 001 01-2018 001 12-2017 001 12-2018 001 01-2019 001 Monitoring Violation MONITORING OUTFALL REPORT Effluent Effluent Effluent Effluent Effluent Effluent Effluent Effluent Effluent Effluent Effluent LOCATION BOD, 5-Day (20 Deg. C) - 01/26/19 2 X week Concentration Chlorine, Total Residual 12/01/16 5 X week Chlorine, Total Residual Chlorine, Total Residual Chlorine, Total Residual Chlorine, Total Residual Chlorine, Total Residual Nitrogen, Ammonia Total (as N) - Concentration Nitrogen, Total - Quantity (Yearly) Nitrogen, Total - Quantity (Yearly) Solids, Total Suspended - Concentration PARAMETER 04/17/17 5 X week 05/24/17 5 X week 06/27/17 5 X week 04/30/19 5 X week 06/19/19 5 X week 01/31/18 12/31/17 12/31/18 01/26/19 2 X week Annually Annually 2 X week mg/I ug/I ug/I ug/I ug/I ug/I ug/I mg/I Ibs/yr Ibs/yr mg/I VIOLATION UNIT OF FREQUENCY DATE MEASURE 36 45.2 25.6 Weekly Average Exceeded 28 31 10.7 Daily Maximum Exceeded 28 29 3.6 Daily Maximum Exceeded 28 31 10.7 Daily Maximum Exceeded 28 30 7.1 Daily Maximum Exceeded 28 40 42.9 Daily Maximum Exceeded 28 8 56,315 56,315 43 13.09 56,462 99,866 53.6 Daily Maximum Exceeded 63.6 Monthly Average Exceeded 0.3 Annual Load Exceeded 77.3 Annual Load Exceeded 45 63.42 40.9 Weekly Average Exceeded LIMIT CALCULATED VALUE % Over Proceed to NOV No Action, BPJ No Action, BPJ No Action, BPJ No Action, BPJ No Action, BPJ No Action, BPJ Proceed to NOD None None Proceed to NOV VIOLATION TYPE VIOLATION ACTION 07-2020 001 11-2016 001 Effluent Effluent Conductivity 07/11/20 5 X week umhos/cm Nitrite plus Nitrate Total (as 11/26/16 Weekly N) mg/I Frequency Violation Proceed to NOD Frequency Violation No Action, BPJ Whole Effluent Toxicity Testing and Self Monitoring Summary U 0 O N Jan Apr Jul Oct New Hanover NC0001228/001 Global Nuclear Fuel -Americas, LLC a, 7Q10: 27.0 24hr p/f ac lim: 90% LL 0_ L LL H L n O 0 '2 C0 0 01 U 0 U O Jan Apr Jul Oct O Q O to 0) CC NC0023949/002 Goldsboro WRF 7Q10: 271.1 chr lim: 2.2% 02 2 2 2 H 2 2 2 2 C Q 2 2 MI 2 C L = 2 2 n CO 01 0 O 0 0 0 0 U 0 0 O Jan Apr Jul Oct NC0023949/001 Goldsboro WWTP O N N 7Q10: 271.1 chr lim: 14.2 MGD @ 01 c-I O N c-I c-I .Ea 03 LL a r- CU U O a H 1 d d C 0. 1 a m a a CO 01 o 0 0 0 0 0 U 0 UI 0 Mar Jun Sep Dec C O U NC0021211/001 Graham WWTP O v chr lim: 14% O 1 a C LL n co 01 o DDDss U 0 O N Mar Jun Sep Dec c r- C O Ea 4) 0_ 0) C a C O U NC0045292/001 Graham/Mebane WTP C U 0 Chr Monit: 24% c, 0 a O G L a 0 0 0 0 n co 01 o DDDso Page 48 of 120 Legend: P= Fathead minnow (Pimohales oromelasl. H=No Flow (facility is active). s = Solit test between Certified Labs United States Environmental Protection Agency EPA Washington, D.C. 20460 Water Compliance Inspection Report Form Approved. OMB No. 2040-0057 Approval expires 8-31-98 Section A: National Data System Coding (i.e., PCS) Transaction Code NPDES yr/mo/day Inspection 1 IN I 2 IL I 3 I NC0021211 111 121 20/09/15 117 Type 1810I IIIIIIIIIII Inspector Fac Type 19I S I 2011 21IIIIII IIIIIIIIIIIIIIIIII I IIIIII P6 Inspection Work Days Facility Self -Monitoring Evaluation Rating B1 QA Reserved 671 I 70I I 711 172 I N I 73I 1 74 71 I I I I I I I I 180 Section B: Facility Data Name and Location of Facility Inspected (For Industrial Users discharging to POTW, also include POTW name and NPDES Hermit Number) Graham WWTP 1204 E Gilbreath St Graham NC 27253 Entry Time/Date 09:OOAM 20/09/15 Permit Effective Date 13/07/01 Exit Time/Date 12:OOPM 20/09/15 Permit Expiration Date 16/05/31 Name(s) of Onsite Representative(s)/Titles(s)/Phone and Fax Number(s) /// Crispian T. Routh/ORC/336-570-6721/ Other Facility Data Name, Address of Responsible Official/Title/Phone and Fax Number Contacted Victor Ray Quick,PO Drawer 357 Graham NC 272530357//336-570-6700/3365135502 No Section C: Areas Evaluated During Inspection (Check only those areas evaluated) Permit Flow Measurement Operations & Maintenar Records/Reports Self -Monitoring Progran Sludge Handling DispoFacility Site Review Compliance Schedules Effluent/Receiving Wate 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 Ron Boone DWR/WSRO WQ/336-776-9690/ Signature of Management Q A Reviewer Agency/Office/Phone and Fax Numbers Date EPA Form 3560-3 (Rev 9-94) Previous editions are obsolete. Page# 1 31 NPDES yr/mo/day NC0021211 111 121 20/09/15 117 Inspection Type 18 [j 1 Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) Plant appeared to be running very well during the inspection. There were no deficiencies or violations noted during the inspection. Page# 2 Permit: NC0021211 Inspection Date: 09/15/2020 Owner - Facility: Graham WWTP Inspection Type: Compliance Evaluation Laboratory Yes No NA NE Are field parameters performed by certified personnel or laboratory? • ❑ ❑ ❑ Are all other parameters(excluding field parameters) performed by a certified lab? • ❑ ❑ ❑ # Is the facility using a contract lab? • ❑ ❑ ❑ # Is proper temperature set for sample storage (kept at less than or equal to 6.0 degrees • ❑ ❑ ❑ Celsius)? Incubator (Fecal Coliform) set to 44.5 degrees Celsius+/- 0.2 degrees? ❑ ❑ ❑ • Incubator (BOD) set to 20.0 degrees Celsius +/- 1.0 degrees? ❑ ❑ ❑ • Comment: None Influent Sampling # Is composite sampling flow proportional? Is sample collected above side streams? Is proper volume collected? Is the tubing clean? # 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: None Upstream / Downstream Sampling Is the facility sampling performed as required by the permit (frequency, sampling type, ant sampling location)? Comment: None Permit (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? Yes No NA NE • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ ▪ ❑ ❑ ❑ Yes No NA NE • ❑ ❑ ❑ Yes No NA NE • ❑ ❑ ❑ ❑ • ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Comment: The plant no longer uses the sand filters or lime stabilization process for sludge. Compliance Schedules Is there a compliance schedule for this facility? • Yes No NA NE ❑ ❑ ❑ Page# 3 Permit: NC0021211 Inspection Date: 09/15/2020 Owner - Facility: Graham WWTP Inspection Type: Compliance Evaluation Compliance Schedules Is the facility compliant with the permit and conditions for the review period? Comment: None Record Keeping 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 operatc 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: None Bar Screens Type of bar screen a.Manual b.Mechanical Are the bars adequately screening debris? Is the screen free of excessive debris? Is disposal of screening in compliance? Yes No NA NE Yes No NA NE • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Yes No NA NE Page# 4 Permit: NC0021211 Inspection Date: 09/15/2020 Owner - Facility: Graham WWTP Inspection Type: Compliance Evaluation Bar Screens Yes No NA NE Is the unit in good condition? • ❑ ❑ ❑ Comment: None Grit Removal Type of grit removal a.Manual b.Mechanical Is the grit free of excessive organic matter? Is the grit free of excessive odor? # Is disposal of grit in compliance? Comment: None Flow Measurement - Influent # Is flow meter used for reporting? Is flow meter calibrated annually? Is the plant generally clean with acceptable housekeeping? Does the facility analyze process control parameters, for ex: MLSS, MCRT, Settleable Solids, pH, DO, Sludge Judge, and other that are applicable? Is the flow meter operational? Comment: None (If units are separated) Does the chart recorder match the flow meter? Comment: Yes No NA NE • • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Yes No NA NE ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Pump Station - Influent Yes No NA NE Is the pump wet well free of bypass lines or structures? • ❑ ❑ ❑ Is the wet well free of excessive grease? ❑ ❑ ❑ • Are all pumps present? • ❑ ❑ ❑ Are all pumps operable? ❑ • ❑ ❑ Are float controls operable? • ❑ ❑ ❑ Is SCADA telemetry available and operational? • ❑ ❑ ❑ Is audible and visual alarm available and operational? • ❑ ❑ ❑ Comment: One pump currently down for repair. Page# 5 Permit: NC0021211 Inspection Date: 09/15/2020 Owner - Facility: Graham WWTP Inspection Type: Compliance Evaluation Primary 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 sludge blanket level acceptable? Is the sludge blanket level acceptable? (Approximately'/ of the sidewall depth) Comment: None 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/I) Comment: None 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? Yes No NA NE • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Yes No NA NE Ext. Air Surface • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ IN ❑ ▪ El El El • ❑ ❑ ❑ Yes No NA NE • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Page# 6 Permit: NC0021211 Inspection Date: 09/15/2020 Owner - Facility: Graham WWTP Inspection Type: Compliance Evaluation Secondary Clarifier 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: None Pumps-RAS-WAS Are pumps in place? Are pumps operational? Are there adequate spare parts and supplies on site? Comment: None Disinfection -Liquid Is there adequate reserve supply of disinfectant? (Sodium Hypochlorite) Is pump feed system operational? Is bulk storage tank containment area adequate? (free of leaks/open drains) Is the level of chlorine residual acceptable? Is the contact chamber free of growth, or sludge buildup? Is there chlorine residual prior to de -chlorination? Comment: None Yes No NA NE • ❑ ❑ ❑ Yes No NA NE • ❑ ❑ ❑ • ❑ ❑ ❑ Yes No NA NE • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ De -chlorination Yes No NA NE Type of system ? Liquid Is the feed ratio proportional to chlorine amount (1 to 1)? ❑ • ❑ ❑ Is storage appropriate for cylinders? ❑ ❑ • ❑ # Is de -chlorination substance stored away from chlorine containers? • ❑ ❑ ❑ Are the tablets the proper size and type? ❑ ❑ • ❑ Comment: None Are tablet de -chlorinators operational? ❑ ❑ • ❑ Number of tubes in use? Comment: None Effluent Pipe Is right of way to the outfall properly maintained? Yes No NA NE Page# 7 Permit: NC0021211 Inspection Date: 09/15/2020 Owner - Facility: Graham WWTP Inspection Type: Compliance Evaluation Effluent Pipe Are the receiving water free of foam other than trace amounts and other debris? If effluent (diffuser pipes are required) are they operating properly? Comment: None Yes No NA NE • ❑ ❑ ❑ Flow Measurement - Effluent Yes No NA NE # Is flow meter used for reporting? • ❑ ❑ ❑ Is flow meter calibrated annually? • ❑ ❑ ❑ Is the flow meter operational? • ❑ ❑ ❑ (If units are separated) Does the chart recorder match the flow meter? • ❑ ❑ ❑ Comment: Calibrated in July 2020. Aerobic Digester Is the capacity adequate? Is the mixing adequate? Is the site free of excessive foaming in the tank? # Is the odor acceptable? # Is tankage available for properly waste sludge? Comment: None Standby Power Is automatically activated standby power available? Is the generator tested by interrupting primary power source? Is the generator tested under load? Was generator tested & operational during the inspection? Do the generator(s) have adequate capacity to operate the entire wastewater site? Is there an emergency agreement with a fuel vendor for extended run on back-up power? Is the generator fuel level monitored? Comment: None Yes No NA NE ❑ ❑ ❑ • • ❑ ❑ ❑ • ❑ ❑ ❑ • ❑ ❑ ❑ Yes No NA NE • ❑ ❑ ❑ ❑ • ❑ ❑ Page# 8 United States Environmental Protection Agency E PA Washington, D.C. 20460 Water Compliance Inspection Report Form Approved. OMB No. 2040-0057 Approval expires 8-31-98 Section A: National Data System Coding (i.e., PCS) Transaction Code NPDES yr/mo/day Inspection 1 IN I 2 L 31 NC0021211 111 121 21/03/10 117 Type 181 D I IIIIIIIIIII Inspector Fac Type 19 I S I 2011 21IIIIII IIIIIIIIIIIIIIIIII I IIIIII P6 Inspection Work Days Facility Self -Monitoring Evaluation Rating B1 QA Reserved 671I 70 I5 I 711 1 72 I N I 73 _ I 74 71 I I J 1 1 1 1 1 1 180 Section B: Facility Data Name and Location of Facility Inspected (For Industrial Users discharging to POTW, also include POTW name and NPDES permit Number) Graham WWTP 1204 E Gilbreath St Graham NC 27253 Entry Time/Date 10:10AM 21/03/10 Permit Effective Date 13/07/01 Exit Time/Date 12:15PM 21/03/10 Permit Expiration Date 16/05/31 Name(s) of Onsite Representative(s)/Titles(s)/Phone and Fax Number(s) /// Other Facility Data Name, Address of Responsible Official/Title/Phone and Fax Number Contacted Victor Ray Quick,PO Drawer 357 Graham NC 272530357//336-570-6700/3365135502 No Section C: Areas Evaluated During Inspection (Check only those areas evaluated) Permit Records/Reports Self -Monitoring Progran 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 Jim J Gonsiewski DWR/Division of Water Quality/336-776-9704/ Signature of Management Q A Reviewer Agency/Office/Phone and Fax Numbers Date EPA Form 3560-3 (Rev 9-94) Previous editions are obsolete. Page# 1 31 NPDES yr/mo/day N C 0021211 I11 121 21 /0 3/ 10 117 Inspection Type 18101 (Cont.) 1 Section D: Summary of Finding/Comments (Attach additional sheets of narrative and checklists as necessary) On March 10, 2021 a Pretreatment Compliance Inspection (PCI) was performed by Jim Gonsiewski of the Winston-Salem Regional Office. The purpose of this inspection was to determine the effectiveness of the Town's pretreatment program, which includes reviewing the files, including industrial monitoring data, POTW plant performance, industry monitoring data, and adherence to the enforcement response plan (ERP). The City has five (5) Significant Industrial Users (SIUs), three (3) of which are categorical. The treatment plant is permitted for 3.5 MGD. There are no plant problems related to pretreatment issues and no NPDES permit limit or monitoring violations were recorded from October 2019 through January 2021. The facility is very well operated. The Headworks Analysis (HWA) was submitted on August 30, 2018. The HWA was approved on October 3, 2018. The next HWA is due on September 1, 2023. The last Industrial Waste Survey (IWS) was submitted on March 29, 2018. The IWS was approved on April 4, 2018. The next IWS is due on April 2, 2023. The Sewer Use Ordinance (SUO) was approved on September 14, 2011. The Enforcement Response Plan (ERP) was approved on February 14, 2020. The Long Term Monitoring Plan (LTMP) was approved on February 13, 2020. The Long Term Monitoring Plan (LTMP) is being conducted at the proper locations and frequencies. None of the five (5) SIUs were in significant noncompliance (SNC) in 2020. A review of the file for Cintas (#0007) revealed that the monitoring data was well organized and compliant. A review of the file for Prescient Company, Inc. (#3001) revealed that the monitoring data was well organized and compliant. A review of the file for Stericycle (#0030) revealed that the monitoring data was well organized and compliant. The slug control plan for Cintas (#0007) was in good order. The slug control plan for Prescient Company, Inc. (#3001) was in good order. The slug control plan for Stericycle (#0030) was in good order. No other action items were noted. Page# 2 Permit: NC0021211 Inspection Date: 03/10/2021 Owner - Facility: Graham WWTP Inspection Type: Pretreatment Compliance Permit Yes No NA NE (If the present permit expires in 6 months or less). Has the permittee submitted a new El El ❑ application? Is the facility as described in the permit? • El El El # Are there any special conditions for the permit? El • El El Is access to the plant site restricted to the general public? • ❑ ❑ ❑ Is the inspector granted access to all areas for inspection? • El El El Comment: There are no special conditions for the permit. Page# 3 NH3/TRC WLA Calculations Graham WWTP PermitNo. NC0021211 Prepared By: Gary Perlmutter Enter Design Flow (MGD): Enter s7Q10 (cfs): Enter w7Q10 (cfs): 3.5 34 85 Total Residual Chlorine (TRC) Daily Maximum Limit (ug/I) s7Q10 (CFS) DESIGN FLOW (MGD) DESIGN FLOW (CFS) STREAM STD (UG/L) Upstream Bkgd (ug/I) IWC (%) Allowable Conc. (ug/I) Fecal Coliform Monthly Average Limit: (If DF >331; Monitor) (If DF<331; Limit) Dilution Factor (DF) 34 3.5 5.425 17.0 0 13.76 124 Ammonia (Summer) Monthly Average Limit (mg NH3-N/I) s7Q10 (CFS) DESIGN FLOW (MGD) DESIGN FLOW (CFS) STREAM STD (MG/L) Upstream Bkgd (mg/I) IWC (%) Allowable Conc. (mg/I) Ammonia (Winter) Monthly Average Limit (mg NH3-N/I) w7Q10 (CFS) 200/100m1 DESIGN FLOW (MGD) DESIGN FLOW (CFS) STREAM STD (MG/L) 7.27 Upstream Bkgd (mg/I) IWC (%) Allowable Conc. (mg/I) 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); capped at 35 mg/I 3. Monthly Avg limit x 5 = Daily Max limit (Non-Munis); capped at 35 mg/I 34 3.5 5.425 1.0 0.22 13.76 5.9 85 3.5 5.425 1.8 0.22 6.00 26.6 Fecal Coliform 1. Monthly Avg limit x 2 = 400/100 ml = Weekly Avg limit (Municipals) = Daily Max limit (Non -Muni) NH3/TRC WLA Calculations Graham WWTP PermitNo. NC0021211 Prepared By: Gary Perlmutter Enter Design Flow (MGD): Enter s7Q10 (cfs): Enter w7Q10 (cfs): 5 34 85 Total Residual Chlorine (TRC) Daily Maximum Limit (ug/I) s7Q10 (CFS) DESIGN FLOW (MGD) DESIGN FLOW (CFS) STREAM STD (UG/L) Upstream Bkgd (ug/I) IWC (%) Allowable Conc. (ug/I) Fecal Coliform Monthly Average Limit: (If DF >331; Monitor) (If DF<331; Limit) Dilution Factor (DF) 34 5 7.75 17.0 0 18.56 92 Ammonia (Summer) Monthly Average Limit (mg NH3-N/I) s7Q10 (CFS) DESIGN FLOW (MGD) DESIGN FLOW (CFS) STREAM STD (MG/L) Upstream Bkgd (mg/I) IWC (%) Allowable Conc. (mg/I) Ammonia (Winter) Monthly Average Limit (mg NH3-N/I) w7Q10 (CFS) 200/100m1 DESIGN FLOW (MGD) DESIGN FLOW (CFS) STREAM STD (MG/L) 5.39 Upstream Bkgd (mg/I) IWC (%) Allowable Conc. (mg/I) 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); capped at 35 mg/I 3. Monthly Avg limit x 5 = Daily Max limit (Non-Munis); capped at 35 mg/I 34 5 7.75 1.0 0.22 18.56 4.4 85 5 7.75 1.8 0.22 8.36 19.1 Fecal Coliform 1. Monthly Avg limit x 2 = 400/100 ml = Weekly Avg limit (Municipals) = Daily Max limit (Non -Muni) Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Cris Routh Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: NPDES #: P.O. #: Date Sample Rcvd: 8/2/2021 NC0021211 Credit Card 7/26/2021 Meritech Work Order # 07262129 Parameters Hardness (titration) Result 28 mg/L Sample: Plant Upstream Grab Analysis Date 7/29/21 Reporting Limit 1 mg/L 7/26/21 Method SM 2340C I hereby certify that I have reviewed and approve these data. sifianC;f rho no of Laboratory Representative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 NA O m C a ul o O_ U G V °- 1 r [0 dal mot= \ '" E ? to of H "^• eft y- o > Around Ti needs pi frees Aoo o !mperatur 2celpt: ,1 ug/L OOl E O CJ } o CJ Turn *RUSK work eh. r c V 12 V 4J E o rn N S uired oG ,n c w W O w Z E Z au_ r a r, t! / 92 Ta ing Sam le (Sign P intl: 4)tJ_ .hQ 1 b, (N samples must be done In the field prior to pres Report results in: 1 e eived F.ro . ••1at440r ors C 7).53 il f 4 G dike 1 0 tt� v�C IAtten1 RG1ti uis t d by: 0 7 _ 3 tate: Time: /3 Relinquished by: / bate: 6" Time: v 13 u ¢ Grab? I- o Yte Chain of Custody Record (COC) Sampling Dates & Times Start End cu ro uo Are these results for regulatory purposes? c E Date I Time E a o CO CR5' E o. in • I ONn Rd, C 273 3i1: it itec o ample Location and/or ID # 0 c ai • •' E E u _4 dlethod of >hipment: Fed Ex ,Rdf d Delivery l % * N o_ C vi id, �, __ eritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Cris Routh Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: NPDES ti: P.O. #: Date Sample Rcvd: 8/9/2021 NC0021211 Credit Card 7/28/2021 Meritech Work Order # 07282147 Parameters Hardness (titration) Result 32 mg/L Sample: Plant Upstream Grab Analysis Date 7/29/21 Reporting Limit 1 mg/L 7/27/21 Method SM 2340C Meritech Work Order # 07282148 Parameters Hardness (titration) Result 32 mg/L Sample: Plant Upstream Grab Analysis Date 7/29/21 Re orLimit 1 mg/L 7/28/21 Method SM 2340C I hereby certify that I have reviewed and approve these data. nil 44QY Th Laboratory Representative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 M1 Temperature Upon Receipt: tt Q telin` sh d if V._ '� jpate: Time: - - Received by: Date: Time: Relinquished by: ' Date: Time: Received by lab: -]i. �k. ( Date: Time: '� / } -ro coT O O Y O O (J 2 '-, S _ tround Ti needs prii lilies Arm 3-5 Day Si O r o a o on c E _ r y (J CII *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation. *** Pe on T ing ample (t : , ; + ign/Pri. I Comments: -- -- w 1-1 z G O a X N w .O a 0 a r, est(s) Requii Re eive rsi o Report results in: How would you like your report sent Circle all that apply:(Email (preferrred) Fax, Address: t ©- e1 a5. Cycc01\a,^r\ 1�1C 1125.3 �ClSSj_:?r, 11 Attention: Cr' I :S �0 , 0 CI 1}--� j 0 C u ._ ^Nt Comp?: Grab? CO of Custody Record (COC) 1- QJ $ ling Dates & Ti w y I 'or regulatory purposes? v Occ E 0 V_ F- m K(M. cn cu 0 �\ RI )NR d. 273 il: in tec 0 O ro `- ro Method of Shipment: Fed Ex I and Delivery u J °1 JC r } a E J v 3 Y � (a) v) () Li Contact Client: Cris Routh Graham, City of P.O. Drawer 357 Graham, NC 27253 eritech, Inc. Environmental Laboratory Laboratory Certification No, 165 Report Date: NPDES #: P.O. #: Date Sample Rcvd: 8/9/2021 N00021211 Credit Card 7/30/2021 Meritech Work Order # 07302151 Parameters Hardness (titration) Result 40 mg/L Sample: Plant Upstream Grab Analysis Date 8/5/21 Reporting Limit 1 mg/L 7/29/21 Method SM 2340C Meritech Work Order # 07302152 Parameters Hardness (titration) Result 44 mg/L Sample: Plant Upstream Grab Analysis Date 8/5/21 Reporting Limit 1 mg/L 7/30/21 Method SM 2340C I hereby certify that I have reviewed and approve these data. Laboratory Representative 642 Tarnco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 n. ro to a pH OK CI OK; N o ,� o ,, n �,. t L.Gl r 1 I t aG.. — around Ti needs pri r pn On Ice? (s/Nc :mperatur ceipt: / -: o lab r 0 V 1LJ rye _ V Q T *RUSH H lap at) P bo E °' co o 1 cti�e i err Phenol and TKN samples must be done in the field prior to preservation. °* Received b\�` ' �) n f Test(s) Requi) Report results in: mg/L e Attention: 1.S Po h \ ti of Cont. Time: (✓ Le I II 'El cE 9/18 Chain of Custody Record (COC) Sampling Dates & Times Start I End Date Tin *°* Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Relinquished bty;Jj2,-C>1' 7 Da Relinquished by: CDate: 1 01 \I J Comments: Are these results for regulato c d. 2i C. ;ample Location and/or ID # • Cr Aethod of shipment: Hand Delivery a v .,,@-) G ..,__,a Facility Name WWTP/WTP Class NPDES Permit Outfall Flow, Qw (MGD) Receiving Stream HUC Number Stream Class Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY Table 1. Project Information ❑ CHECK IF HQW OR ORW WQS Graham WWTP Class 4 NC0021211 001 3.500 Haw River 03030002 ❑ Apply WS Hardness WQC 7Q10s (cfs) 7Q1Ow (cfs) 30Q2 (cfs) QA (cfs) 1 Q1 Os (cfs) WS-V; NSW 34.00 85.00 114.00 553.00 27.96 Effluent Hardness 80 mg/L (Avg) Upstream Hardness 37.33 mg/L (Avg) Combined Hardness Chronic 43.2 mg/L Combined Hardness Acute 44.27 mg/L Data Source(s) ❑ CHECK TO APPLY MODEL DMR data from May 2017 - Jun 2021, 3 Effluent Scans, and facility -provided Hardness data Table 2. Parameters of Concern Par01 Par02 Par03 Par04 Par05 Par06 Par07 Par08 Par09 Par10 Par11 Par12 Par13 Par14 Par15 Par16 Par17 Par18 Par19 Par20 Par21 Par22 Par23 Par24 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 0.8920 FW 5.3343 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 184.2812 1 FW 1445.1444 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 12.5771 FW 17.9400 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 5.4287 FW 143.1269 ug/L Mercury Aquatic Life NC 12 FW 0.5 ng/L Molybdenum Human Health NC 2000 HH ug/L Nickel Aquatic Life NC 59.1436 FW 543.5486 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 0.7919 ug/L Zinc Aquatic Life NC 201.4650 FW 203.9853 ug/L Chloroform Aquatic Life NC 2000 FW ug/L Chlorodibromomethane Human Health C 21 HH ug/L 1,4-Dioxane Human Health C 80 HH ug/L 21211 RPA 3.5 MGD, input 1 /11 /2022 21211 RPA 3.5 MGD, input 1 /11 /2022 Graham WWTP NC0021211 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Qw (MGD) = 3.50 1Q10S (cfs) = 27.96 7Q1OS (cfs) = 34.00 7Q1OW (cfs) = 85.00 30Q2 (cfs) = 114.00 Avg. Stream Flow, QA (cfs) = 553.00 Receiving Stream: Haw River HUC 03030002 WWTP/WTP Class: Class 4 IWC% @ 1Q10S = 16.24981279 IWC% @ 7Q1OS = 13.76030438 IWC% @ 7Q1OW = 5.999447056 IWC% @ 30Q2 = 4.542599958 IW%C @ QA = 0.971482294 Stream Class: WS-V; NSW Outfall 001 Qw = 3.5 MGD COMBINED HARDNESS (mg/L) Acute = 44.27 mg/L Chronic = 43.2 mg/L PARAMETER TYPE (1) NC STANDARDS OR EPA CRITERIA Ci H REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION Chronic Applied Acute Standard 11# Det. Max Pred Cw Allowable Cw Arsenic Arsenic C C 150 FW(7Q10s) 340 10 HH/WS(Qavg) ug/L ug/L 22 2 144.2 Acute (FW): 2,092.3 _ _ _ _ _ _ Chronic (FW):---1,090.1----------------------------------- _ No_ value _> Allowable _Cw_ _ _ Chronic (HH): 1,029.4 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max <- 50% of Allowable C-w - No Monitoring required Beryllium NC 6.5 FW(7Q10s) 65 ug/L 3 0 Note: n < 9 Limited data set NO DETECTS Acute: 400.00 ___ _ _______ _ ___ Chronic: 47.24 Max MDL = 5 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP for limited dataset (n < 8 samples); no detects at < 5 ug/L. No monitorig required. Cadmium NC 0.8920 FW(7Q10s) 5.3343 ug/L 22 2 1.420 Acute: 32.827 _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 6.483 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Total Phenolic Compounds NC 300 A(30Q2) - ug/L 3 2 Note: n < 9 Limited data set 141.0 Default C.V. Acute: NO WQS _ _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 6,604.1 No value > Allowable Cw 'Monitoring _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP for limited dataset (n < 8 samples). No required Chromium III NC 184.2812 FW(7Q10s) 1445.1444 µg/L 0 0 N/A Acute: 8,893.3 -- _ _ ------ _ -3_ _ ---------------------------------- Chronic:-- Chromium VI NC 11 FW(7Q10s) 16 µg/L 0 0 N/A Acute: 98.5 -- ------ _ _ _ _ ------------------------------------ Chronic: 79.9 Chromium, Total NC µg/L Tot Cr value(s) 22 2 < 50 and < Cr VI 14.5 Allowable Cw Max reported value = 10 No Monitoring required if all Total Chromium samples are < the Chromium VI Allowable Cw Copper NC 12.5771 FW(7Q10s) 17.9400 ug/L 22 20 30.82 Acute: 110.40 _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 91.40 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Cyanide NC 5 FW(7Q10s) 22 10 ug/L 23 2 5.0 Acute: 135.4 ____ _____________________________ Chronic: 36.3 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Lead NC 5.4287 FW(7Q10s) 143.1269 ug/L 21 13 16.100 Acute: 880.791 ____ ___________________________ Chronic: 39.452 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Page 3 of 19 21211 RPA 3.5 MGD, rpa 1 /11 /2022 Graham WWTP NC0021211 Outfall 001 Qw = 3.5 MGD Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Molybdenum NC 2000 HH(7Q10s) ug/L 22 14 14.9 Acute: NO WQS ____ ____ ______________________ Chronic: 14,534.6 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Nickel Nickel NC NC 59.1436 FW(7Q10s) 543.5486 25.0000 WS(7Q10s) ug/L µg/L 22 10 5.8 Acute (FW): 3,345.0 _ _ _ _ _ _ Chronic ----------- ----------------------------------- (FW): N_ o_value _> A_llo_w_a_bl_e_Cw____________________________________________ Chronic (WS): 181.7 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Selenium NC 5 FW(7Q10s) 56 ug/L 22 0 NO DETECTS Acute: 344.6 ____ ____________________________ Chronic: 36.3 Max MDL = 10 13 non -detects at < 10 ug/L, 2 at < 2 ug/L and 2 at < 1 ug/L. No monitoring required. Silver NC 0.06 FW(7Q10s) 0.7919 ug/L 22 0 NO DETECTS Acute: 4.873 ____ _________________________ Chronic: 0.436 Max MDL = 5 13 nondetects w/ 4 at < 0.5 ug/L over past yr No Monitoring required. Zinc NC 201.4650 FW(7Q10s) 203.9853 ug/L 22 22 185.4 Acute: 1,255.3 ____ ___________________________ Chronic: 1,464.1 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Chloroform NC 2000 FW(7Q10s) ug/L 3 2 Note: n < 9 Limited data set 21.69000 Default C.V. Acute: NO WQS _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 14534.56221 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP for limited dataset (n < 8 samples). No Monitoring required Chlorodibromomethane C 21 HH(Qavg) ug/L 3 2 Note: n < 9 Limited data set 14.49000 Default C.V. Acute: NO WQS _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 2161.64516 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP for limited dataset (n < 8 samples). No Monitoring required 21211 RPA 3.5 MGD, rpa Page 4 of 19 1 /11 /2022 Graham WWTP NC0021211 > Outfall 001 Qw = 3.5 MGD Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Acute: NO WQS 1,4-Dioxane C 80 HH(Qavg) ug/L 0 0 N/A -- _ _ ----8234.83871 Chronic: _ _ _ _ --------------------------------- 21211 RPA 3.5 MGD, rpa Page 5 of 19 1/11/2022 REASONABLE POTENTIAL ANALYSIS H1 Effluent Hardness Date Data BDL=1/2DL Results 1 11/4/2020 140 140 Std Dev. 18.6300 2 11/18/2020 80 80 Mean 80.0000 3 12/10/2020 76 76 C.V. 0.2329 4 12/21/2020 68 68 n 14 5 1/6/2021 72 72 10th Per value 68.00 mg/L 6 1/20/2021 72 72 Average Value 80.00 mg/L 7 2/3/2021 68 68 Max. Value 140.00 mg/L 8 2/17/2021 64 64 9 3/4/2021 80 80 10 3/17/2021 76 76 11 4/7/2021 92 92 12 4/21/2021 80 80 13 5/5/2021 72 72 14 5/19/2021 80 80 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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 H2 Upstream Hardness Date Data BDL=1/2DL Results 1 7/26/2021 28 28 Std Dev. 7.8655 2 7/27/2021 32 32 Mean 37.3333 3 7/28/2021 32 32 C.V. (default) 0.6000 4 7/29/2021 40 40 n 6 5 7/30/2021 44 44 10th Per value 30.00 mg/L 6 5/14/2013 48 48 Average Value 37.33 mg/L 7 Max. Value 48.00 mg/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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 21211 RPA 3.5 MGD, data - 6 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par01 & Par02 Arsenic Date 7/12/2017 8/16/2017 9/20/2017 10/25/2017 11/15/2017 12/13/2017 1/24/2018 2/21/2018 3/14/2018 4/11/2018 5/23/2018 6/19/2018 8/24/2018 12/5/2018 3/6/2019 9/10/2019 11/20/2019 2/19/2020 4/15/2020 8/12/2020 12/10/2020 3/4/2021 Data 10 10 10 2 69 2 2 10 10 5 2 2 2 2 2 2 2 2 2 2 2 2 BDL=1/2DL 5 5 5 1 69 1 1 5 10 2.5 1 1 1 1 1 1 1 1 1 1 1 1 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 14.4178 5.2955 2.7227 22 2.09 69.0 ug/L 144.2 ug/L Par03 Beryllium Date Data 3/16/2017 < 6/19/2018 < 9/10/2019 < BDL=1/2DL 5 2.5 5 2.5 0.5 0.25 Results Std Dev. Mean C.V. (default) n Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 1.2990 1.7500 0.6000 3 Mult Factor = 3.00 Max. Value 2.50 ug/L Max. Pred Cw 0 DETECTS ug/L 21211 RPA 3.5 MGD, data - 7 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par04 Cadmium Date Data BDL=1/2DL Results 1 7/12/2017 < 2 1 Std Dev. 2 8/16/2017 < 2 1 Mean 3 9/20/2017 < 2 1 C.V. 4 10/25/2017 < 2 1 n 5 11/15/2017 < 2 1 6 12/13/2017 < 2 1 Mult Factor = 7 1/24/2018 < 2 1 Max. Value 8 2/21/2018 < 2 1 Max. Pred Cw 9 3/14/2018 < 2 1 10 4/11/2018 < 2 1 11 5/23/2018 < 2 1 12 6/19/2018 < 2 1 13 8/24/2018 < 0.15 0.075 14 12/5/2018 < 0.15 0.075 15 3/6/2019 0.15 0.15 16 9/10/2019 < 0.15 0.075 17 11/20/2019 0.15 0.15 18 2/19/2020 < 0.15 0.075 19 4/15/2020 < 0.15 0.075 20 8/12/2020 < 0.15 0.075 21 12/10/2020 < 0.15 0.075 22 3/4/2021 < 0.15 0.075 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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 0.4642 0.5864 0.7917 22 1.42 1.000 ug/L 1.420 ug/L 21211 RPA 3.5 MGD, data - 8 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par07 Total Phenolic Compounds Date Data 3/19/2017 6/19/2018 9/10/2019 < 21 47 10 BDL=1/2DL Results 21 Std Dev. 21.1975 47 Mean 24.3333 5 C.V. (default) 0.6000 n 3 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 Mult Factor = Max. Value Max. Pred Cw 3.00 47.0 ug/L 141.0 ug/L 21211 RPA 3.5 MGD, data - 9 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par08 Chromium III Date Data BDL=1/2DL Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 NO DATA NO DATA NO DATA 0 N/A N/A pg/L N/A pg/L Par09 Chromium VI Date Data BDL=1/2DL Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 NO DATA NO DATA NO DATA 0 N/A N/A pg/L N/A pg/L 21211 RPA 3.5 MGD, data - 10 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par10 Chromium, Total Date 7/12/2017 8/16/2017 9/20/2017 10/25/2017 11/15/2017 12/13/2017 1/24/2018 2/21/2018 3/14/2018 4/11/2018 5/23/2018 6/19/2018 8/24/2018 12/5/2018 3/6/2019 9/10/2019 11/20/2019 2/19/2020 4/15/2020 8/12/2020 12/10/2020 3/4/2021 Data BDL=1/2DL 5 2.5 5 2.5 10 10 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 3 3 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 1.8945 2.2500 0.8420 22 1.45 10.0 pg/L 14.5 pg/L Pal Copper Date Data 7/12/2017 8/16/2017 9/20/2017 10/25/2017 11/15/2017 12/13/2018 1/24/2018 2/21/2018 3/14/2018 4/11/2018 5/23/2018 6/19/2018 8/24/2018 12/5/2018 3/6/2019 9/10/2019 < 11/20/2019 2/19/2020 4/15/2020 8/12/2020 12/10/2020 < 3/4/2021 10 8 17 6 7 20 12 23 14 14 5 11 13 12 6 2 9 9 3 2 2 3 BDL=1/2DL 10 8 17 6 7 20 12 23 14 14 5 11 13 12 6 1 9 9 3 2 1 3 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 5.9964 9.3636 0.6404 22 1.34 23.00 ug/L 30.82 ug/L 21211 RPA 3.5 MGD, data - 11 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par12 Cyanide Date Data BDL=1/2DL Results 1 7/12/2017 < 5 5 Std Dev. 2 8/16/2017 < 5 5 Mean 3 9/20/2017 < 5 5 C.V. 4 10/25/2017 < 5 5 n 5 11/15/2017 < 5 5 6 12/13/2018 < 5 5 Mult Factor = 7 1/24/2018 7 5 Max. Value 8 2/21/2018 < 5 5 Max. Pred Cw 9 3/14/2018 < 5 5 10 4/11/2018 < 5 5 11 5/23/2018 < 5 5 12 6/19/2018 < 5 5 13 8/24/2018 < 8 5 14 12/5/2018 7 5 15 3/6/2019 < 5 5 16 9/10/2019 < 5 5 17 11/13/2019 < 5 5 18 2/19/2020 < 5 5 19 4/15/2020 < 5 5 20 8/12/2020 < 5 5 21 9/15/2020 < 5 5 22 12/10/2020 < 5 5 23 3/4/2021 < 5 5 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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 0.0000 5.00 0.0000 23 1.00 5.0 ug/L 5.0 ug/L 21211 RPA 3.5 MGD, data - 12 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par14 Lead Date 7/12/2017 8/16/2017 9/20/2017 10/25/2017 12/13/2018 1/24/2018 2/21/2018 3/14/2018 4/11/2018 5/23/2018 6/19/2018 8/24/2018 12/5/2018 3/6/2019 9/10/2019 11/13/2019 2/19/2020 4/15/2020 8/12/2020 12/10/2020 3/4/2021 10 10 0.5 10 0.5 0.9 0.5 1.7 10 10 10 0.5 0.9 1.4 1.9 2.2 0.7 0.5 0.9 0.6 0.6 BDL=1/2DL 5 10 0.25 5 0.25 0.9 0.25 1.7 5 5 5 0.5 0.9 1.4 1.9 2.2 0.7 0.5 0.9 0.6 0.6 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 2.5533 2.3119 1.1044 21 1.61 10.000 ug/L 16.100 ug/L -13- 21211 RPA 3.5 MGD, data 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par16 Molybdenum Date Data 7/12/2017 < 8/16/2017 9/20/2017 10/25/2017 < 11/15/2017 < 12/13/2018 < 1/24/2018 < 2/21/2018 < 3/14/2018 < 4/11/2018 < 5/23/2018 6/19/2018 8/24/2018 12/5/2018 3/6/2019 9/10/2019 11/20/2019 2/19/2020 4/15/2020 8/12/2020 12/10/2020 3/4/2021 BDL=1/2DL 5 2.5 8 8 11 11 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 5 2.5 6 6 5 5 7 7 3 3 2 2 9 9 6 6 2 2 10 10 9 9 2 2 2 2 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL- Par17 & Par18 Values" then "COPY" . Maximum data points = 58 3.0480 4.6364 0.6574 22 1.35 11.0 ug/L 14.9 ug/L Nickel Date 7/12/2017 8/16/2017 9/20/2017 10/25/2017 11/15/2017 12/13/2018 1/24/2018 2/21/2018 3/14/2018 4/11/2018 5/23/2018 6/19/2018 8/24/2018 12/5/2018 3/6/2019 9/10/2019 11/20/2019 2/19/2020 4/15/2020 8/12/2020 12/10/2020 3/4/2021 Data 10 10 10 10 10 10 10 10 10 10 10 10 4.8 3.3 2.6 3.9 4.3 2.3 1.9 2.8 2.3 1.9 BDL=1/2DL 5 5 5 5 5 5 5 5 5 5 5 5 4.8 3.3 2.6 3.9 4.3 2.3 1.9 2.8 2.3 1.9 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 1.2156 4.0955 0.2968 22 1.16 5.0 pg/L 5.8 pg/L 21211 RPA 3.5 MGD, data - 14 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par19 Selenium Date Data BDL=1/2DL Results 1 7/12/2017 < 10 5 Std Dev. 2.2467 2 8/16/2017 < 10 5 Mean 3.0000 3 9/20/2017 < 10 5 C.V. 0.7489 4 10/25/2017 < 10 5 n 22 5 11/15/2017 < 10 5 6 12/13/2018 < 10 5 Mult Factor = 1.40 7 1/24/2018 < 10 5 Max. Value 5.0 ug/L 8 2/21/2018 < 10 5 Max. Pred Cw 0 DETECTS ug/L 9 3/14/2018 < 10 5 10 4/11/2018 < 10 5 11 5/23/2018 < 10 5 12 6/19/2018 < 10 5 13 8/24/2018 < 2 1 14 12/5/2018 < 2 1 15 3/6/2019 < 1 0.5 16 9/10/2019 < 1 0.5 17 11/20/2019 < 1 0.5 18 2/19/2020 < 1 0.5 19 4/15/2020 < 1 0.5 20 8/12/2020 < 1 0.5 21 12/10/2020 < 1 0.5 22 3/4/2021 < 1 0.5 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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 Par20 Silver Date Data BDL=1/2DL Results 1 7/12/2017 < 5 2.5 Std Dev. 1.1467 2 8/16/2017 < 5 2.5 Mean 1.4773 3 9/20/2017 < 5 2.5 C.V. 0.7762 4 10/25/2017 < 5 2.5 n 22 5 11/15/2017 < 5 2.5 6 12/13/2018 < 5 2.5 Mult Factor = 1.41 7 1/24/2018 < 5 2.5 Max. Value 2.500 ug/L 8 2/21/2018 < 5 2.5 Max. Pred Cw 0 DETECTS ug/L 9 3/14/2018 < 5 2.5 10 4/11/2018 < 5 2.5 11 5/23/2018 < 5 2.5 12 6/19/2018 < 5 2.5 13 8/24/2018 < 0.5 0.25 14 12/5/2018 < 0.5 0.25 15 3/6/2019 < 0.5 0.25 16 9/10/2019 < 0.5 0.25 17 11/20/2019 < 0.5 0.25 18 2/19/2020 < 0.5 0.25 19 4/15/2020 < 0.5 0.25 20 8/12/2020 < 0.5 0.25 21 12/10/2020 < 0.5 0.25 22 3/4/2021 < 0.5 0.25 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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 21211 RPA 3.5 MGD, data - 15 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par21 Zinc Date Data 1 7/12/2017 2 8/16/2017 3 9/20/2017 4 10/25/2017 5 11/15/2017 6 12/13/2018 7 1/24/2018 8 2/21/2018 9 3/14/2018 10 4/11/2018 11 5/23/2018 12 6/19/2018 13 8/24/2018 14 12/5/2018 15 3/6/2019 16 9/10/2019 17 11/20/2019 18 2/19/2020 19 4/15/2020 20 8/12/2020 21 12/10/2020 22 3/4/2021 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 56 71 90 98 109 109 152 75 83 118 29 60 39 49 37 78 90 52 50 94 69 53 BDL=1/2DL 56 71 90 98 109 109 152 75 83 118 29 60 39 49 37 78 90 52 50 94 69 53 Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 30.3201 75.5000 0.4016 22 1.22 152.0 ug/L 185.4 ug/L Par22 Chloroform Date Data 3/16/2017 6/19/2018 9/10/2019 < BDL=1/2DL 5.14 5.14 7.23 7.23 1 0.5 Results Std Dev. Mean C.V. (default) n Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 3.4446 4.2900 0.6000 3 Mult Factor = 3.00 Max. Value 7.230000 ug/L Max. Pred Cw 21.690000 ug/L 21211 RPA 3.5 MGD, data - 16 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par23 Chlorodibromomethane Date Data 3/16/2017 4.78 6/19/2018 4.83 9/10/2019 < 1 BDL=1/2DL 4.78 4.83 0.5 Results Std Dev. Mean C.V. (default) n Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 Par24 1,4-Dioxane 2.4856 3.3700 0.6000 3 Mult Factor = 3.00 Max. Value 4.830000 ug/L Max. Pred Cw 14.490000 ug/L Date Data BDL=1/2DL Results Std Dev. Mean C.V. n Mult Factor = Max. Value Max. Pred Cw Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 NO DATA NO DATA NO DATA 0 N/A N/A ug/L N/A ug/L 21211 RPA 3.5 MGD, data - 17 - 1 /11 /2022 REASONABLE POTENTIAL ANALYSIS Par25 0 Date Data BDL=1/2DL Results 1 Std Dev. 2 Mean 3 C.V. 4 n 5 6 Mult Factor = 7 Max. Value 8 Max. Pred Cw 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 Use "PASTE SPECIAL - Values" then "COPY" . Maximum data points = 58 NO DATA NO DATA NO DATA 0 N/A N/A N/A 21211 RPA 3.5 MGD, data - 18 - 1 /11 /2022 Date: 1 /11 /2022 Dissolved to Total Metal Calculator Do NOT enter any 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 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 the WQS hardness dependent equations under the sheet labeled Equations. A fixed TSS value of 10 mg/L is used to calculate the Translator values. 3) Pretreatment Facilities - PERCS will need a copy of the 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. FACILITY: Graham WWTP Outfall 001 NPDES PERMIT: NC0021211 Dissolved to Total Metal Calculator In accordance with Federal Regulations, permit limitations must be written as Total Metals per 40 CFR 122.45(c) Receiving Stream summer 7Q10 (CFS) Receiving Stream summer 7Q10 (MGD) Rec. Stream 1Q10 [MGD] NPDES Flow Limit [MGD] Total Suspended Solids -Fixed Value- (mg/L) Combined Hardness chronic (mg/L) Combined Hardness Acute (mg/L) Instream Wastewater Concentration (Chronic) Instream Wastewater Concentration (Acute) Upstream Hardness Average (mg/L) Effluent Hardness Average (mg/L) 34.0000 I 21.9355 18.0387 3.5000 10 43.204 44.267 I 13.7603 16.2498 1 37.3333333 I 80 PARAMETER Cadmium (d) Cd -Trout streams Chromium III (d)(h) Chromium VI (d) Chromium, Total (t) Copper (d)(h) Lead (d)(h) Nickel (d)(h) Dissolved Metals Chronic Acute [ug/I] 0.23 0.23 37 11 [ug/I] 1.35 US EPA Translators- using Default Partition Coefficients (streams) 0.252 Maximum Allowable Effluent Concentration (MAEC) as a Total Metal =Dissolved Metal = Translator Chronic Acute Upstream Hard Avg (mg/L) = 37.33333 EFF Hard Avg (mg/L) = 80 0.841 0.2521 292 16 4.4 6.2 1.00 26 Ni - WS streams (t) Silver (d)(h,acute) Zinc (d)(h) 26 235 0.06 58 0.79 59 0.202 1.000 0.348 0.184 0.432 1.000 0.288 [ug/I] [ug/I] 0.89 5.33 0.89 3.32 184.28 1445.14 11.00 16.00 N/A N/A 12.58 17.94 5.43 143.13 59.14 543.55 25 N/A 0.06 0.79 201.46 203.99 Beryllium Arsenic (d) 6.5 65 1.000 150 340 1.000 6 150 65 340 COMMENTS (identify parameters to PERCS Branch to maintain in facility's LTMP/STMP): (d) = dissolved metal standard. See 15A NCAC 02B .0211 for more information. (h) = hardness -dependent dissolved metal standard. See 15A NCAC 02B .0211 for more information. (t) = based upon measurement of total recoveable metal. See 15A NCAC 02B .0211 for more information. The Human Health standard for Nickel in Water Supply Streams is 25 mg/L which is Total Recoverable metal standard. The Human Health standard for Arsenic is 10 µg/L which is Total Recoverable metal standard. ACAH 44.26659 ACCH 43.2044 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY MIMI Table 1. Project Information ❑ CHECK IF HQW OR ORW WQS Facility Name WWTP/WTP Class NPDES Permit Outfall Flow, Qw (MGD) Receiving Stream HUC Number Stream Class Graham WWTP Class 4 NC0021211 001 5.000 Haw River 03030002 WS-V; NSW ■ Apply WS Hardness WQC 7Q10s (cfs) 7Q1Ow (cfs) 30Q2 (cfs) QA (cfs) 34.00 85.00 114.00 553.00 1 Q10s (cfs) . 27.96 Effluent Hardness Upstream Hardness Combined Hardness Chronic Combined Hardness Acute 80 mg/L (Avg) 37.33 mg/L (Avg) 45.25 mg/L 46.59 mg/L DMR data from May 2017 - June 2021, 3 Effluent Scans, and facility -provided Hardness data Data Source(s) • CHECK TO APPLY MODEL CHECK WQS Table 2. Parameters of Concern Par01 Par02 Par03 Par04 Par05 Par06 Par07 Par08 Par09 Par10 Par11 Par12 Par13 Par14 Par15 Par16 Par17 Par18 Par19 Par20 Par21 Par22 Par23 Par24 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 0.9238 FW 5.5780 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 191.4092 1 FW 1507.0596 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 13.0851 FW 18.8271 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 5.7160 FW 151.5173 ug/L Mercury Aquatic Life NC 12 FW 0.5 ng/L Molybdenum Human Health NC 2000 HH ug/L Nickel Aquatic Life NC 61.5082 FW 567.6207 tag/L Nickel Water Supply NC 25.0000 WS N/A tag/L Selenium Aquatic Life NC 5 FW 56 ug/L Silver Aquatic Life NC 0.06 FW 0.8648 ug/L Zinc Aquatic Life NC 209.5322 FW 213.0334 ug/L Chloroform Water Supply NC 60 WS ug/L Chlorodibromomethane Water Supply C 0.8 WS ug/L 21211 RPA 5.0 MGD, input 1 /11 /2022 21211 RPA 5.0 MGD, input 1 /11 /2022 Graham WWTP NC0021211 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Qw (MGD) = 5.00 1Q10S (cfs) = 27.96 7Q1OS (cfs) = 34.00 7Q1OW (cfs) = 85.00 30Q2 (cfs) = 114.00 Avg. Stream Flow, QA (cfs) = 553.00 Receiving Stream: Haw River HUC 03030002 WWTP/WTP Class: Class 4 IWC% @ 1Q10S = 21.70260431 IWC% @ 7Q1OS = 18.56287425 IWC% @ 7Q1OW = 8.355795148 IWC% @ 30Q2 = 6.36550308 IW%C @ QA = 1.382077575 Stream Class: WS-V; NSW Outfall 001 Qw = 5 MGD COMBINED HARDNESS (mg/L) Acute = 46.59 mg/L Chronic = 45.25 mg/L YOU HAVE DESIGNATED THIS RECEIVING STREAM AS WATER SUPPLY Effluent Hard: 1 value > 100 mg/L Effluent Hard Avg = 80 mg/L PARAMETER TYPE (1) NC STANDARDS OR EPA CRITERIA Ci H REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION Chronic Applied Acute Standard II# Det. Max Pred Cw Allowable Cw Arsenic Arsenic C C 150 FW(7Q10s) 340 10 HH/WS(Qavg) ug/L ug/L 22 2 144.2 Acute (FW): 1,566.6 _ _ _ _ _ _ Chronic (FW):----808.1 ----------------------------------- N_ o_value_> Allowable _Cw_ _ _ _ Chronic (HH): 723.5 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max <- 50% of Allowable Cw - No Monitoring required Beryllium NC 6.5 FW(7Q10s) 65 ug/L 3 0 Note: n < 9 Limited data set NO DETECTS Acute: 299.50 ____ ___________________________ Chronic: 35.02 Max MDL = 5 No RP for limited dataset (n < 8 samples); no detects at < 5 ug/L. No monitorig required. Cadmium NC 0.9238 FW(7Q10s) 5.5780 ug/L 22 2 1.420 Acute: 25.702 ____ ---------- ___----------------------- Chronic: 4.977 No value > Allowable Cw _____ No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Total Phenolic Compounds NC 300 A(30Q2) ug/L 3 2 Note: n < 9 Limited data set 141.0 Default C.V. Acute: NO WQS _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 4,712.9 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP for limited dataset (n < 8 samples). No Monitoring required Chromium III NC 191.4092 FW(7Q10s) 1507.0596 µg/L 0 0 N/A Acute: 6,944.1 _ _ _ _ -- ---- ------------------------------------ Chronic:1,031.1 Chromium VI NC 11 FW(7Q10s) 16 µg/L 0 0 N/A Acute: 73.7 -- _ _ ------ _ _ ------------------------------------ Chronic: 59.3 Chromium, Total NC µg/L Tot Cr value(s) 22 2 < 50 and < Cr VI 14.5 Allowable Cw Max reported value = 10 No Monitoring required if all Total Chromium samples are < the Chromium VI Allowable Cw Copper NC 13.0851 FW(7Q10s) 18.8271 ug/L 22 20 30.82 Acute: 86.75 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 70.49 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Cyanide NC 5 FW(7Q10s) 22 10 ug/L 23 2 5.0 Acute: 101.4 ____ _____________________________ Chronic: 26.9 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Lead NC 5.7160 FW(7Q10s) 151.5173 ug/L 21 13 16.100 Acute: 698.153 _ _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 30.792 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Page 3 of 5 21211 RPA 5.0 MGD, rpa 1 /11 /2022 Graham WWTP NC0021211 Outfall 001 Qw = 5 MGD Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Molybdenum NC 2000 HH(7Q10s) ug/L 22 14 14.9 Acute: NO WQS _ _ _ _ _ _ _ _ _ _ _ _ _ Chronic: 10,774.2 No value > Allowable Cw _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Nickel Nickel NC NC 61.5082 FW(7Q10s) 567.6207 25.0000 WS(7Q10s) lug/ ug/L 22 10 5.8 Acute (FW): 2,615.4 _ _ _ _ --- _ _ ----------------------------------- Chronic (FW):-331.4 N_ o_value _> A_llo_w_a_bl_e_Cw____________________________________________ Chronic (WS): 134.7 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Selenium NC 5 FW(7Q10s) 56 ug/L 22 0 NO DETECTS Acute: 258.0 ____ ____________________________ Chronic: 26.9 Max MDL = 10 13 non -detects at < 10 ug/L, 2 at < 2 ug/L and 2 at < 1 ug/L. No monitoring required. Silver NC 0.06 FW(7Q10s) 0.8648 ug/L 22 0 NO DETECTS Acute: 3.985 ____ ____________________________ Chronic: 0.323 Max MDL = 5 13 nondetects w/ 4 at < 0.5 ug/L over past yr No Monitoring required. Zinc NC 209.5322 FW(7Q10s) 213.0334 ug/L 22 22 185.4 Acute: 981.6 ____ ___________________________ Chronic: 1,128.8 No value > Allowable Cw No RP, Predicted Max < 50% of Allowable Cw - No Monitoring required Chloroform NC 60 WS(7Q10s) ug/L 3 2 Note: n < 9 Limited data set 21.69000 Default C.V. Acute: NO WQS ____ ____________________________ Chronic: 323.22581 No value > Allowable Cw No RP for limited dataset (n < 8 samples). No Monitoring required Chlorodibromomethane C 0.8 WS(Qavg) ug/L 3 2 Note: n < 9 Limited data set 14.49000 Default C.V. Acute: NO WQS ____ _________________________ Chronic: 57.88387 No value > Allowable Cw No RP for limited dataset (n < 8 samples). No Monitoring required 21211 RPA 5.0 MGD, rpa Page 4 of 5 1 /11 /2022 Date: 1 /11 /2022 Dissolved to Total Metal Calculator Do NOT enter any 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 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 the WQS hardness dependent equations under the sheet labeled Equations. A fixed TSS value of 10 mg/L is used to calculate the Translator values. 3) Pretreatment Facilities - PERCS will need a copy of the 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. FACILITY: Graham WWTP Outfall 001 NPDES PERMIT: NC0021211 Dissolved to Total Metal Calculator In accordance with Federal Regulations, permit limitations must be written as Total Metals per 40 CFR 122.45(c) Receiving Stream summer 7Q10 (CFS) Receiving Stream summer 7Q10 (MGD) Rec. Stream 1Q10 [MGD] NPDES Flow Limit [MGD] Total Suspended Solids -Fixed Value- (mg/L) Combined Hardness chronic (mg/L) Combined Hardness Acute (mg/L) Instream Wastewater Concentration (Chronic) Instream Wastewater Concentration (Acute) Upstream Hardness Average (mg/L) Effluent Hardness Average (mg/L) 34.0000 I 21.9355 18.0387 5.0000 , 10 45.253 46.593 r 18.5629 21.7026 1 37.3333333 I 80 PARAMETER Cadmium (d) Cd -Trout streams Chromium III (d)(h) Chromium VI (d) Chromium, Total (t) Copper (d)(h) Lead (d)(h) Nickel (d)(h) Dissolved Metals Chronic Acute [ug/I] 0.23 0.23 39 11 [ug/I] 1.41 US EPA Translators- using Default Partition Coefficients (streams) 0.252 Maximum Allowable Effluent Concentration (MAEC) as a Total Metal =Dissolved Metal = Translator Chronic Acute Upstream Hard Avg (mg/L) = 37.33333 EFF Hard Avg (mg/L) = 80 [ug/I] [ug/I] 0.92 5.58 0.88I 0.2521 0.92 3.47 305 0.202 16 4.5 6.5 1.05 28 Ni - WS streams (t) Silver (d)(h,acute) Zinc (d)(h) 27 245 0.06 60 0.86 61 1.000 0.348 0.184 0.432 1.000 0.288 191.41 1507.06 11.00 16.00 N/A N/A 13.09 18.83 5.72 151.52 61.51 567.62 25 N/A 0.06 0.86 209.53 213.03 Beryllium Arsenic (d) 6.5 65 1.000 150 340 1.000 6 150 65 340 COMMENTS (identify parameters to PERCS Branch to maintain in facility's LTMP/STMP): (d) = dissolved metal standard. See 15A NCAC 02B .0211 for more information. (h) = hardness -dependent dissolved metal standard. See 15A NCAC 02B .0211 for more information. (t) = based upon measurement of total recoveable metal. See 15A NCAC 02B .0211 for more information. The Human Health standard for Nickel in Water Supply Streams is 25 mg/L which is Total Recoverable metal standard. The Human Health standard for Arsenic is 10 µg/L which is Total Recoverable metal standard. ACAH 46.59311 ACCH 45.25349 Permit No. NC0021211 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 Quality Standards/Aquatic Life Protection Parameter Acute FW, µg/1 (Dissolved) Chronic FW, µg/1 (Dissolved) Acute SW, 1.1g/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^{0.9151 [In hardness]-3.1485} Cadmium, Acute Trout waters WER*{1.136672-[ln hardness](0.041838)} • e^{0.9151[ln hardness]-3.6236} Cadmium, Chronic WER* { 1.101672-[ln hardness](0.041838)} • e^ {0.7998[ln hardness]-4.4451 } 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 [In 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. NC0021211 Silver, Acute WER*0.85 • e^{1.72[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[In 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/WQBELs 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. 1. 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 1Q10 using the formula 1Q10 = 0.843 (s7Q10, 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. NC0021211 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 + s7Q10, cfs) The Combined Hardness for acute is the same but the calculation uses the 1Q10 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 1 + { [Kpo] [ SS( i+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 = (s7Q10 + Qw) (Cwqs) — (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 s7Q10) 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 s7Q10 may be incorporated as applicable: 1Q10 = used in the equation to protect aquatic life from acute toxicity Page 3 of 4 Permit No. NC0021211 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. 8. 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) [Total as, CaCO3 or (Ca+Mg)] 70 5 DMR data from May 2017 - December 2019 Average Upstream Hardness (mg/L) [Total as, CaCO3 or (Ca+Mg)] 44.4 Five data points in 2013 provided by facility 7Q10 summer (cfs) 34.0 From previous permit 1 Q 10 (cfs) 27.96 Calculated in RPA Permitted Flow (MGD) 3.5 Permit application Date: February 11, 2020 Permit Writer: Gary Perlmutter Page 4 of 4 1/11/22 WQS = 12 ng/L Facility Name Graham WWTP / NC0021211 /Permit No. : MERCURY WQBEL/TBEL EVALUATION V:2013-6 Total Mercury 1631E PQL = 0.5 ng/L 7Q10s = Date Modifier Data Entry Value Permitted Flow = 7/12/17 6.23 8/16/17 5.96 9/20/17 8.65 10/25/17 2.39 11/15/17 6.9 12/13/17 6.9 1/24/18 2.7 2/21/18 4.62 3/14/18 3.63 4/11/18 2.59 5/23/18 3.16 6/19/18 5.15 8/24/18 15.9 12/9/18 7.4 3/6/19 8.63 9/10/19 5.74 11/20/19 3.53 2/19/20 3.11 4/15/20 1.2 8/12/20 5.62 12/10/20 2.64 3/4/21 3.49 No Limit Required MMP Required 6.23 5.96 8.65 2.39 6.9 6.9 2.7 4.62 3.63 2.59 3.16 5.15 15.9 7.4 8.63 5.74 3.53 3.11 1.2 5.62 2.64 3.49 34.000 3.500 cfs WQBEL = 87.21 ng/L 47 ng/L 6.2 ng/L - Annual Average for 2017 5.6 ng/L - Annual Average for 2018 6.0 ng/L - Annual Average for 2019 3.1 ng/L - Annual Average for 2020 3.5 ng/L - Annual Average for 2021 1/11/22 WQS = 12 ng/L Facility Name Graham WWTP / NC0021211 /Permit No. : MERCURY WQBEL/TBEL EVALUATION V:2013-6 Total Mercury 1631E PQL = 0.5 ng/L 7Q10s = Date Modifier Data Entry Value Permitted Flow = 7/12/17 6.23 8/16/17 5.96 9/20/17 8.65 10/25/17 2.39 11/15/17 6.9 12/13/17 6.9 1/24/18 2.7 2/21/18 4.62 3/14/18 3.63 4/11/18 2.59 5/23/18 3.16 6/19/18 5.15 8/24/18 15.9 12/9/18 7.4 3/6/19 8.63 9/10/19 5.74 11/20/19 3.53 2/19/20 3.11 4/15/20 1.2 8/12/20 5.62 12/10/20 2.64 3/4/21 3.49 No Limit Required MMP Required 6.23 5.96 8.65 2.39 6.9 6.9 2.7 4.62 3.63 2.59 3.16 5.15 15.9 7.4 8.63 5.74 3.53 3.11 1.2 5.62 2.64 3.49 34.000 5.000 cfs WQBEL = 64.65 ng/L 47 ng/L 6.2 ng/L - Annual Average for 2017 5.6 ng/L - Annual Average for 2018 6.0 ng/L - Annual Average for 2019 3.1 ng/L - Annual Average for 2020 3.5 ng/L - Annual Average for 2021 CITY G I January 3, 2022 OF I R A H A M IVIr. IVlichael Montebello N .C. Department of Environmental Quality Division of Water Resources Water Quality Permitting - NPDES 1617 Mail Service Center Raleigh, North Carolina 27699-1617 NON 11.1 C AROI INA I Re: City of Graham Graham WWTP NPDES Permit Renewal — Chemical Addendum Permit No. NC0021211 Dear Mr. Montebello: As a supplement to the Graham Wastewater Treatment Plant NPDES Application package that is currently under review, the City of Graham is submitting additional information per Session Law 2018-5, Senate Bill 99, Section 13.1(r). At the request of the Division of Environmental Quality (DEQ), the City conducted additional WWTP influent sampling in July, August, and September 2019 for 1,4-Dioxane. This analysis was done in accordance with EPA IVIethod 624.1 which is a certified method in 40 CFR Part 136. Accordingly, the City is providing a Chemical Addendum to the NPDES Application for the 1,4 Dioxane influent sampling results. Additionally, at the request of DEQ, the City performed WWTP influent sampling for a series of P FOA/PFAS analytes in July, August, and September 2019. This sampling is not certified by the City as there is not a 40 CFR Part 136 certified analysis method for these analytes. This data was previously provided to DEQ following the three sampling events in 2019. Although This data is not being certified by the City and was already provided to DEQ, we are providing a summary of the results as an attachment to this for clarity. The following three attachments are being provided as a supplement to the Graham VVWTP N PDES Permit Application. Attachment 1: Chemical Addendum to NPDES Application O Attachment 2: Lab Reports from 1,4 Dioxane Sampling Results © Attachment 3: Uncertified Emerging Compound Sampling Data Summary Please let us know if you have any questions on the information provided. Respectfully, 11&ta''- Tonya'A. Mann Utilities Director EPA Identification Number NPDES Number Facility Name Outfall Number FRS ID: 110000761890 Pollutant (Required) NC 0021211 Method Number (if CAS number Applicable) City of Graham WWTP 001 Reason Pollutant Believed Present in Discharge Estimated Concentration (If Known) 1,4 Dioxane 123-91-1 EPA 624.1 Influent sampling results (July, August, and September 2019) Median of three influent sampling events (July, August, and September 2019) was 1.59 pg/L Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Shelby Smith Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: 7/25/2019 NPDES #: NC0021211 Date Sample Rcvd: 7/15/2019 Meritech Work Order # 07151915 Parameters 1,4 Dioxane + Trip Blank Results Attached Sample: Plt. influent Grab Analysis Date 7/17/19 Remitting Limit 7/15/19 Method EPA 624.1 I hereby certify that I have reviewed and approve these data. Lan) 0 esentative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342 4748 fax.(336)342-1522 Client: Project: Client Sample ID: Sample Collection: MERITECH, INC. Environmental Laboratories Laboratory Certification #165 City of Graham W W TP 1,4 Dioxane P1t. Influent 07/15/19 Meritech ID#: Analysis: Analyst: Dilution Factor: Report Date: EPA 624.1 VOLATILE ORGANICS Parameter 1,4-Dioxane (p-Dioxane) Trip Blank Batch Blank = Below Reporting Limit Internal Standards method criteria acceptable Surrogate Recoveries Toluene-d8 Bromofluorobenzene Spike Cone 30 ug/L 30 ug/L * - If "no" is selected, see second page for details. I hereby certify that I have reviewed and approve these data. Result 3.29 ug/L < 1.00 ug/L (Yes)/No (Yes) / No Spike Recovery 98% 95% 07151915 07/17/19 VWV 1 07/19/19 Limits 67-151% 45-161% 642 Tamco Road * Reidsville, NC 27320 (336) 342-4748 * info@meritechlabs.com (D 3 Hind Delivery Fed Ex lethod of hipment: c N A �, �,a3 ^__ �.....0. Are these results for regulatory purposes? Yes n 3 3 *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation. *** o—o� )N d. 27 i h® Cr**, J m 3 \ 1 XJ Cd7 Z 0 n How would y Circle all that apply: n W -Plou o _ tea, r 7 aQ��n, i JC a7a53 o ak 'v Date/ . Tims:9 ., ,. o(i"o 51 `.A N \l i �N fenort results in me/1 rt V) 7s _Nrn CD 03 < `S 3 og Om Turn Around Ti *RUSH work needs prii C r es A 1' U. Compositor # Jug# Temperature Upon Receipt: e_ O Ice? Yes) No Lab Use Only N A a 0 0 A I N N ry y J N? Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Shelby Smith Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: 8/23/2019 NPDES #: NC0021211 Date Sample Rcvd: 8/19/2019 Meritech Work Order # 08191910 Parameters 1,4 Dioxane + Trip Blank Results Attached Sample: Plt. Influent Grab Analysis Date 8/19/19 Reporting Limit 8/19/19 Method EPA 624.1 I hereby certify that I have reviewed and approve these data. Laboratory epresentative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 Client: Project: Client Sample ID: Sample Collection: MERI TECH, INC. Environmental Laboratories Laboratory Certification #165 City of Graham WWTP 1,4-Dioxane Plt. Influent 08/19/19 Merited' ID#: Analysis: Analyst: Dilution Factor: Report Date: EPA 624.1 VOLATILE ORGANICS Parameter 1,4-Dioxane (p-Dioxane) Trip Blank Batch Blank = Below Reporting Limit Internal Standards method criteria acceptable Surrogate Recoveries Toluene-d8 Bromofluorobenzene Spike Cone 30 ug/L 30 ug/L * - If "no" is selected, see second page for details. I hereby certify that I have reviewed and approve these data. Result 1.18 ug/L < 1.00 ug/L (Yes) / No (Yes) / No 08191910 08/19/19 VWV l 08/20/19 Spike Recovery Limits 104% 101% 67-151% 45-161% a.S1 atory Rep P ative 642 Tamco Road * Reidsville, NC 27320 (336) 342-4748 * info@meritechlabs.com a I Sample Location and/or ID # 8/9(18 Chain of Custody Record (COC) m coo Q m Vend Delivery C hod fi S 4 MERITECH ENVIRONMENTAL LAB( '.: 642 Tamco Rd. Phone: Reidsville NC 27320 Fax: : Email: info@meritechl www.meritechlabs.co RinquXshed by: Date: ' Time: Are these results for regulatory purposes? Yes L4e1 No Comments: *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation. *** Do O w Sampling Dates & Times MnlWL-- tz cs d Time N Date m 3 m 3 a QM Loa® Ldwoj P rso TakinTnr}ple ( g / rint)J How would +ou like your report sent Circle all that apply Email (preferred Fax, W � APo[ ncvsk N C- `vn53 Received by Lab: atp �) Time: .,, RIGedb*: rDatet ` Time: 1 it 1 Report results in: mg/L g v l 1 Re( m CIVp ).)5) • 3 cu c ail:SSrr` f rac w Turn Around Ti *RUSH work needs pri ar_es A.. cd Compositor # Jug # Temperature Upon Receipt: r~ a On Ice? (Yes / No Lab Use Only me* or approval, Iv pH OK? CI OK? L e. Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Shelby Smith Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: 9/25/2019 NPDES #: NC0021211 Date Sample Rcvd: 9/17/2019 Meritech Work Order # 09171916 Parameters 1,4 Dioxane + Trip Blank Results Attached Sample: Plt. Influent Grab Analysis Date 9/18/19 Renorting Limit 9/16/19 Method EPA 624.1 I hereby certify that I have reviewed and approve these data. Lab • ratory Repre entative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 Client: Project: Client Sample ID: Sample Collection: MERI TECH, INC. Environmental Laboratories Laboratory Certification #165 City of Graham WWTP 1,4 Dioxane Plt. Influent 09/16/19 Meritech ID#: Analysis: Analyst: Dilution Factor: Report Date: EPA 624.1 VOLATILE ORGANICS Parameter 1,4-Dioxane (p-Dioxane) Trip Blank Batch Blank = Below Reporting Limit Internal Standards method criteria acceptable Surrogate Recoveries Toluene-d8 Bromofluorobenzene Spike Conc 30 ug/L 30 ug/L * - If "no" is selected, see second page for details. I hereby certify that I have reviewed and approve these data. Result 1.59 ug/L < 1.00 ug/L (Yes) / No (Yes) / No 09171916 09/18/19 VWV 1 09/23/19 Spike Recovery Limits 104% 96% 67-151% 45-161% 642 Tamco Road * Reidsville, NC 27320 (336) 342-4748 * info@meritechlabs.com `FjandDelivery Y1 0 4) Sample Location and/or ID # 8/9/18 Chain of Custody Record (COC) Fed Ex UPS hod MERITEC ENVIRONMENTAL 642 Tamco Rd. Ph Reidsville NC 27320 Fa Email: info@mer www.meritechlab: Relinquishe path` 7 / re:/V�S' mquished by: Date' ime: Are these results for regulatory purposes? Yes No Comments: *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation.*** s` 4- 0 d co Start Sampling Dates & Times r L a ate , o a N _1 ro Date m T' 1 3 7 ❑. J 3 a CAQ \^ V' GI‘' G)o How would yo Circle all that apply: 9 n CO W # of Cont. d ha, , t k f .7D.53 Received by Lab: ,� „ }.{4 Pat!:g"/ Time: rDi cm Cr .. 0 1\ 3\� Received b ' 9Dat�i7P Report results in: mg/L mg/kg \_i rS 1^r 0 r--. � • TD- ?. J est(s) R l 4 CI r 1 Cs`p ' (Ad V, Turn Around Ti *RUSH work needs pri Char es A.. 7 r-d. CD -Sl S tn Compositor # Jug # Temperature Upon Receipt: j; K IrT p n ani Lab Use Only '�Oo 1 ug/L �W VI 0 me* or approval, Iv LNO IU LIO Hd a 3 Enter data ONLY in blue cells! POTW Name: City of Graham I N PDES #: I NC0021211 I Influent Grab (ng/L) CAS Number Analyte Name Acronym 7/23/2019 * 8/22/2019 * 9/18/2019 335-67-1 Perfluorooctanoic acid PFOA 6.5 8.97 8.37 1763-23-1 Perfluorooctanesulfonic acid PFOS ND U 12.8 9.59 375-22-4 Perfluorobutanoic acid PFBA ND U ND U ND U 375-73-5 Perfluorobutanesulfonic acid PFBS ND U ND U ND U 335-77-3 Perfluorodecanesulfonic acid PFDS ND U ND U ND U 335-76-2 Perfluorodecanoic acid PFDA 1.25 1.44 2.14 307-55-1 Perfluorododecanoic acid PFDoA ND U 0.726 J,B ND U 375-92-8 Perfluoroheptanesulfonic acid PFHpS ND U ND U ND U 375-85-9 Perfluoroheptanoic acid PFHpA ND U 4.28 ND U 355-46-4 Perfluorohexanesulfonic acid PFHxS ND U 0.144 J,B ND U 307-24-4 Perfluorohexanoic acid PFHxA ND U 11.8 0.822 68259-12-1 Perfluorononanesulfonic acid PFNS ND U ND U ND U 375-95-1 Perfluorononanoic acid PFNA 1.77 1.62 2.46 754-91-6 Perfluorooctanesulfonamide PFOSA ND U ND U ND U 2991-50-6 2-(N-Ethylperfluorooctanesulfonamido) acetic acid N-EtFOSAA ND U ND U ND U 2355-31-9 2-(N-Methylperfluorooctanesulfonamido) acetic acid N-MeFOSAA ND U ND U ND U 2706-91-4 Perfluoropentanesulfonic acid PFPeS ND U ND U ND U 2706-90-3 Perfluoropentanoic acid PFPeA 65.6 ND U ND U 376-06-7 Perfluorotetradecanoic acid PFTeA NR NR 2.82 B ND U 72629-94-8 Perfluorotridecanoic acid PFTriA ND U 2.02 B 0.776 2058-94-8 Perfluoroundecanoic acid PFUnA ND U ND U ND U 757124-72-4 4:2 fluorotelomer sulfonic acid 4:2 FTS ND U ND U ND U 27619-97-2 6:2 fluorotelomer sulfonic acid 6:2 FTS 3.19 1.33 B 1.48 39108-34-4 8:2 fluorotelomer sulfonic acid 8:2 FTS 0.769 0.354 J,B ND U 62037-80-3 2,3,3,3-Tetrafluoro-(1,1,2,2,3,3,3-heptafluoropropoxy)-propanoicacid(Gen-X) HFPO-DA ND U ND U ND U ENTER OTHER PARAMETERS TESTED _ Sum of PFOA and PFOS 6.5 21.77 17.96 Total 79.079 48.304 25.638 Influent Grab (ug/L) 7/15/2019 8/19/2019 9/16/2019 1, 4 - Dioxane 3.29 1.18 1.59 * Please enter applicable lab qualifiers Reduction in Frequency Evalaution Facility: Graham WWTP Permit No. NC0021211 Review period (use 3 yrs) 06/2018 - 05/2021 Approval Criteria: Y/N? 1. Not currently under SOC Y 2. Not on EPA Quarterly noncompliance report Y 3. Facility or employees convicted of CWA violations N Weekly average limit Monthly average limit 50% MA 3-yr mean (geo mean for FC) < 50%? 200% MA # daily samples >200% <15? 200% WA # daily samples >200% < 20? # of non - monthly limit violations > 2? #civil penalty asessment > 1? Reduce Frequency? (Yes/No) BOD (Weighted) mg/L 25.5 17 8.5 6.2 Y 34 1 Y 0 N 0 N Y TSS mg/L 45 30 15 2.6 Y 60 1 Y 0 N 0 N Y Ammonia (weighted) mg/L 17 5.7 2.8 1.5 Y 11.3 1 Y 1 N 0 N Y Fecal Coliform #/100 400 200 100 2.8 Y 800 2 Y 0 N 0 N Y Y/N Y/N Y/ N **From Y/N **From BIMS Y/N BIMS 1/11/22, 12:03 PM Mail - Perlmutter, Gary - Outlook RE: City of Graham TN and TP loading calculations Cris Routh <crouth@cityofgraham.com> Wed 8/9/2017 3:49 PM To: Perlmutter, Gary <gary.perlmutter@ncdenr.gov> Mr. Perlmutter, Good afternoon. Tonya Mann forwarded your e-mail to me regarding our TN and TP monthly loadings. After taking a closer look at our December eDMR, I have found the issue. The Loadings results for Total Nitrogen and Total Phosphorus that I submitted on the eDMR are correct. The issue is with the Total Flow results. Our total flow for December 2016 was 40.10 MG. However, on the eDMR under the column "Flow", there are missing values for the days of December 23, 26 and 27 which were observed Holidays for the City of Graham. The sum of these missing values (1.20 MG, 1.15 MG, and 1.32 MG, respectively) is the difference between the actual monthly Total Flow of 40.10 MG that we recorded here at the City of Graham WWTP and the monthly Total Flow of 36.43 MG that you calculated from the eDMR. December 2016 was the City of Graham's first attempt at using the eDMR system. It is my determination that I originally entered the daily flow for those three days. However, in the "No Reporting Reason" column, I selected "No reporting — Holiday" thinking that it would automatically enter an "H" for five parameters of our Effluent that would normally be sampled on those three days. Evidently, selecting that option must have cleared any data that I had already reported. I have reviewed all of our 2017 eDMR's and this seems to be an isolated issue. Please advise on any action that the City of Graham needs to take to remedy this situation. If a re -submittal of the December 2016 eDMR is needed, please let me know. Thanks, Cris Routh ORC, Plant Superintendent City of Graham WWTP 336-570-6721 From: Tonya Mann Sent: Wednesday, August 09, 2017 2:39 PM To: Cris Routh Subject: Fwd: TN and TP loading calculations Sent from my iPhone Begin forwarded message: From: "Perlmutter, Gary" <gary.perlmutter@ncdenr.gov> Date: August 9, 2017 at 2:37:22 PM EDT https://outlook.office365.com/mail/id/AQMkADE1 OGJhNDZkLTMOMmItNGNiMi1 iN2Y3LTZhNGY2MTdiMzVkMABGAAADeuk2rMgxnk2yiGFZdoFPpwc... 1/2 1/11/22, 12:03 PM To: Tonya Mann <tmann@cityofgraham.com> Subject: TN and TP loading calculations Mail - Perlmutter, Gary - Outlook Hi Ms. Mann, In my permit review, I'm checking the calculations of our total Nitrogen and Total Phosphorus loadings, and I found a couple discrepancies between my calculated values and the data submitted in your DMRs. Do you mind checking these for me? Month/Year Total Flow Avg Total N TN Loading Calculated DMR % Differnce Dec 2016 36.43 MG 5.24 mg/L 1592 Ib/mo 1752 Ib/mo 9% Month/Year Total Flow Avg Total P TP Loading Calculated DMR % Differnce Dec 2016 36.43 MG 0.18 mg/L 53.17 Ib/mo 59 Ib/mo 10% Thanks, Gary B. Perlmutter, M.S. Enivronmental Senior Specialist NPDES Complex Permitting Unit NC DEQ / Division of Water Resources / Water Quality Permitting 919 807 6385 office 919 707 9000 main office gary.perlmutter@ncdenr.gov Physical Address: 512 North Salisbury St.,Raleigh, NC, 27604 Mailing Address: 1617 Mail Service Center, Raleigh, NC, 27699-1617 Email correspondence to and from this address is subject to the North Carolina Public Records Law and may be disclosed to third parties. https://outlook.office365.com/mail/id/AQMkADE1 OGJhNDZkLTMOMmItNGNiMi1 iN2Y3LTZhNGY2MTdiMzVkMABGAAADeuk2rMgxnk2yiGFZdoFPpwc... 2/2 Fact Sheet Addendum Comments and responses to Graham WWTP NPDES permit renewal draft. A set of comments were sent by the City of Graham on 2/4/2022; these and the responses by DWR are as follows: Comment: The City requests "that the monthly monitoring requirement for 1,4-Dioxane be qualified to end after a 2-year period (24 samples collected) as there is no reasonable potential to exceed the water quality standard." Response: The permit reopener for 1,4-Dioxane special condition [A. (10.)] adequately addresses this comment; no further changes have been made. Comment: "Plant influent wastewater characteristics are not anticipated to change significantly upon the expansion of the plant from a 3.5 mgd capacity to a 5.0 mgd. Additionally, plant treatment processes will be modernized during the expansion effort and WWTP effluent quality is anticipated to be improved following the expansion. Request that monitoring frequency reduction from daily to 2 x week sampling for BOD, TSS, Ammonia, and Fecal Coliform be initiated one year after the 5.0 mgd expansion if the WWTP maintains compliance with all monitoring frequency reduction standards." Response: Based on the proposed change of disinfection from chlorination to UV at 5.0 MGD, monitoring frequency reduction of Fecal Coliform will be considered after three years of data have accumulated under the UV treatment or at the next permit renewal. Similarly, based on the change in limits for BOD and Ammonia at 5.0 MGD, monitoring frequency reduction for these parameters will be considered after three years of data have accumulated under the 5.0 MGD limits or at the next permit renewal. Since limits for TSS at 5.0 MGD have not changed, monitoring frequency reduction will be considered after one year data accumulation after expansion to 5.0 MGD. A footnote to this effect has been added to the 5.0 MGD effluent limitations page [A. (2.), Footnote 3]. Comment: The City requests "that BOD sampling be reduced from daily frequency to 3 x week frequency given that the plant is already meeting monitoring frequency reduction standards prior to modernization efforts. This will still provide 3 weekly samples to characterize BOD in the effluent." Response: BOD monitoring is already set at 2/week at 3.5 mgd. Comment: The City requests "that effluent conductivity sampling be reduced from daily frequency to weekly. This will provide 52 results in a calendar year than can be used to evaluate effluent conductivity." Response: Effluent conductivity frequency is set by rule 15A NCAC 02B .0508, and conductivity is not among the target parameters listed in the Division's Guidance Regarding the Reduction of Monitoring Frequencies in NPDES Permits for Exceptionally Performing Facilities (DWQ 2012). No changes have been made. Comment: "Request that toxicity testing be reduced from quarterly to annually given that the instream waste concentration calculated is only 14% (at 3.5 mgd) and 19% (at 5.0 mgd)." Response: Quarterly toxicity monitoring is designed to capture any seasonal differences as well as provide a screening tool to assess effluent quality. Any reduction in toxicity monitoring frequency may miss potential events of effluent quality affecting instream quality. And in addition, the Division expects toxicity Fact Sheet Addendum to be performed in conjunction with the effluent pollutant scan and should represent seasonal variability. No changes have been made. CITY G I January 3, 2022 OF I R A H A M IVIr. IVlichael Montebello N .C. Department of Environmental Quality Division of Water Resources Water Quality Permitting - NPDES 1617 Mail Service Center Raleigh, North Carolina 27699-1617 NON 11.1 C AROI INA I Re: City of Graham Graham WWTP NPDES Permit Renewal — Chemical Addendum Permit No. NC0021211 Dear Mr. Montebello: As a supplement to the Graham Wastewater Treatment Plant NPDES Application package that is currently under review, the City of Graham is submitting additional information per Session Law 2018-5, Senate Bill 99, Section 13.1(r). At the request of the Division of Environmental Quality (DEQ), the City conducted additional WWTP influent sampling in July, August, and September 2019 for 1,4-Dioxane. This analysis was done in accordance with EPA IVIethod 624.1 which is a certified method in 40 CFR Part 136. Accordingly, the City is providing a Chemical Addendum to the NPDES Application for the 1,4 Dioxane influent sampling results. Additionally, at the request of DEQ, the City performed WWTP influent sampling for a series of P FOA/PFAS analytes in July, August, and September 2019. This sampling is not certified by the City as there is not a 40 CFR Part 136 certified analysis method for these analytes. This data was previously provided to DEQ following the three sampling events in 2019. Although This data is not being certified by the City and was already provided to DEQ, we are providing a summary of the results as an attachment to this for clarity. The following three attachments are being provided as a supplement to the Graham VVWTP N PDES Permit Application. Attachment 1: Chemical Addendum to NPDES Application O Attachment 2: Lab Reports from 1,4 Dioxane Sampling Results © Attachment 3: Uncertified Emerging Compound Sampling Data Summary Please let us know if you have any questions on the information provided. Respectfully, 11&ta''- Tonya'A. Mann Utilities Director EPA Identification Number NPDES Number Facility Name Outfall Number FRS ID: 110000761890 Pollutant (Required) NC 0021211 Method Number (if CAS number Applicable) City of Graham WWTP 001 Reason Pollutant Believed Present in Discharge Estimated Concentration (If Known) 1,4 Dioxane 123-91-1 EPA 624.1 Influent sampling results (July, August, and September 2019) Median of three influent sampling events (July, August, and September 2019) was 1.59 pg/L Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Shelby Smith Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: 7/25/2019 NPDES #: NC0021211 Date Sample Rcvd: 7/15/2019 Meritech Work Order # 07151915 Parameters 1,4 Dioxane + Trip Blank Results Attached Sample: Plt. influent Grab Analysis Date 7/17/19 Remitting Limit 7/15/19 Method EPA 624.1 I hereby certify that I have reviewed and approve these data. Lan) 0 esentative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342 4748 fax.(336)342-1522 Client: Project: Client Sample ID: Sample Collection: MERITECH, INC. Environmental Laboratories Laboratory Certification #165 City of Graham W W TP 1,4 Dioxane P1t. Influent 07/15/19 Meritech ID#: Analysis: Analyst: Dilution Factor: Report Date: EPA 624.1 VOLATILE ORGANICS Parameter 1,4-Dioxane (p-Dioxane) Trip Blank Batch Blank = Below Reporting Limit Internal Standards method criteria acceptable Surrogate Recoveries Toluene-d8 Bromofluorobenzene Spike Cone 30 ug/L 30 ug/L * - If "no" is selected, see second page for details. I hereby certify that I have reviewed and approve these data. Result 3.29 ug/L < 1.00 ug/L (Yes)/No (Yes) / No Spike Recovery 98% 95% 07151915 07/17/19 VWV 1 07/19/19 Limits 67-151% 45-161% 642 Tamco Road * Reidsville, NC 27320 (336) 342-4748 * info@meritechlabs.com (D 3 Hind Delivery Fed Ex lethod of hipment: c N A �, �,a3 ^__ �.....0. Are these results for regulatory purposes? Yes n 3 3 *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation. *** o—o� )N d. 27 i h® Cr**, J m 3 \ 1 XJ Cd7 Z 0 n How would y Circle all that apply: n W -Plou o _ tea, r 7 aQ��n, i JC a7a53 o ak 'v Date/ . Tims:9 ., ,. o(i"o 51 `.A N \l i �N fenort results in me/1 rt V) 7s _Nrn CD 03 < `S 3 og Om Turn Around Ti *RUSH work needs prii C r es A 1' U. Compositor # Jug# Temperature Upon Receipt: e_ O Ice? Yes) No Lab Use Only N A a 0 0 A I N N ry y J N? Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Shelby Smith Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: 8/23/2019 NPDES #: NC0021211 Date Sample Rcvd: 8/19/2019 Meritech Work Order # 08191910 Parameters 1,4 Dioxane + Trip Blank Results Attached Sample: Plt. Influent Grab Analysis Date 8/19/19 Reporting Limit 8/19/19 Method EPA 624.1 I hereby certify that I have reviewed and approve these data. Laboratory epresentative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 Client: Project: Client Sample ID: Sample Collection: MERI TECH, INC. Environmental Laboratories Laboratory Certification #165 City of Graham WWTP 1,4-Dioxane Plt. Influent 08/19/19 Merited' ID#: Analysis: Analyst: Dilution Factor: Report Date: EPA 624.1 VOLATILE ORGANICS Parameter 1,4-Dioxane (p-Dioxane) Trip Blank Batch Blank = Below Reporting Limit Internal Standards method criteria acceptable Surrogate Recoveries Toluene-d8 Bromofluorobenzene Spike Cone 30 ug/L 30 ug/L * - If "no" is selected, see second page for details. I hereby certify that I have reviewed and approve these data. Result 1.18 ug/L < 1.00 ug/L (Yes) / No (Yes) / No 08191910 08/19/19 VWV l 08/20/19 Spike Recovery Limits 104% 101% 67-151% 45-161% a.S1 atory Rep P ative 642 Tamco Road * Reidsville, NC 27320 (336) 342-4748 * info@meritechlabs.com a I Sample Location and/or ID # 8/9(18 Chain of Custody Record (COC) m coo Q m Vend Delivery C hod fi S 4 MERITECH ENVIRONMENTAL LAB( '.: 642 Tamco Rd. Phone: Reidsville NC 27320 Fax: : Email: info@meritechl www.meritechlabs.co RinquXshed by: Date: ' Time: Are these results for regulatory purposes? Yes L4e1 No Comments: *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation. *** Do O w Sampling Dates & Times MnlWL-- tz cs d Time N Date m 3 m 3 a QM Loa® Ldwoj P rso TakinTnr}ple ( g / rint)J How would +ou like your report sent Circle all that apply Email (preferred Fax, W � APo[ ncvsk N C- `vn53 Received by Lab: atp �) Time: .,, RIGedb*: rDatet ` Time: 1 it 1 Report results in: mg/L g v l 1 Re( m CIVp ).)5) • 3 cu c ail:SSrr` f rac w Turn Around Ti *RUSH work needs pri ar_es A.. cd Compositor # Jug # Temperature Upon Receipt: r~ a On Ice? (Yes / No Lab Use Only me* or approval, Iv pH OK? CI OK? L e. Meritech, Inc. Environmental Laboratory Laboratory Certification No. 165 Contact: Shelby Smith Client: Graham, City of P.O. Drawer 357 Graham, NC 27253 Report Date: 9/25/2019 NPDES #: NC0021211 Date Sample Rcvd: 9/17/2019 Meritech Work Order # 09171916 Parameters 1,4 Dioxane + Trip Blank Results Attached Sample: Plt. Influent Grab Analysis Date 9/18/19 Renorting Limit 9/16/19 Method EPA 624.1 I hereby certify that I have reviewed and approve these data. Lab • ratory Repre entative 642 Tamco Road, Reidsville, North Carolina 27320 tel.(336)342-4748 fax.(336)342-1522 Client: Project: Client Sample ID: Sample Collection: MERI TECH, INC. Environmental Laboratories Laboratory Certification #165 City of Graham WWTP 1,4 Dioxane Plt. Influent 09/16/19 Meritech ID#: Analysis: Analyst: Dilution Factor: Report Date: EPA 624.1 VOLATILE ORGANICS Parameter 1,4-Dioxane (p-Dioxane) Trip Blank Batch Blank = Below Reporting Limit Internal Standards method criteria acceptable Surrogate Recoveries Toluene-d8 Bromofluorobenzene Spike Conc 30 ug/L 30 ug/L * - If "no" is selected, see second page for details. I hereby certify that I have reviewed and approve these data. Result 1.59 ug/L < 1.00 ug/L (Yes) / No (Yes) / No 09171916 09/18/19 VWV 1 09/23/19 Spike Recovery Limits 104% 96% 67-151% 45-161% 642 Tamco Road * Reidsville, NC 27320 (336) 342-4748 * info@meritechlabs.com `FjandDelivery Y1 0 4) Sample Location and/or ID # 8/9/18 Chain of Custody Record (COC) Fed Ex UPS hod MERITEC ENVIRONMENTAL 642 Tamco Rd. Ph Reidsville NC 27320 Fa Email: info@mer www.meritechlab: Relinquishe path` 7 / re:/V�S' mquished by: Date' ime: Are these results for regulatory purposes? Yes No Comments: *** Dechlorination (<0.5 ppm) of Ammonia, Cyanide, Phenol and TKN samples must be done in the field prior to preservation.*** s` 4- 0 d co Start Sampling Dates & Times r L a ate , o a N _1 ro Date m T' 1 3 7 ❑. J 3 a CAQ \^ V' GI‘' G)o How would yo Circle all that apply: 9 n CO W # of Cont. d ha, , t k f .7D.53 Received by Lab: ,� „ }.{4 Pat!:g"/ Time: rDi cm Cr .. 0 1\ 3\� Received b ' 9Dat�i7P Report results in: mg/L mg/kg \_i rS 1^r 0 r--. � • TD- ?. J est(s) R l 4 CI r 1 Cs`p ' (Ad V, Turn Around Ti *RUSH work needs pri Char es A.. 7 r-d. CD -Sl S tn Compositor # Jug # Temperature Upon Receipt: j; K IrT p n ani Lab Use Only '�Oo 1 ug/L �W VI 0 me* or approval, Iv LNO IU LIO Hd a 3 Enter data ONLY in blue cells! POTW Name: City of Graham I N PDES #: I NC0021211 I Influent Grab (ng/L) CAS Number Analyte Name Acronym 7/23/2019 * 8/22/2019 * 9/18/2019 335-67-1 Perfluorooctanoic acid PFOA 6.5 8.97 8.37 1763-23-1 Perfluorooctanesulfonic acid PFOS ND U 12.8 9.59 375-22-4 Perfluorobutanoic acid PFBA ND U ND U ND U 375-73-5 Perfluorobutanesulfonic acid PFBS ND U ND U ND U 335-77-3 Perfluorodecanesulfonic acid PFDS ND U ND U ND U 335-76-2 Perfluorodecanoic acid PFDA 1.25 1.44 2.14 307-55-1 Perfluorododecanoic acid PFDoA ND U 0.726 J,B ND U 375-92-8 Perfluoroheptanesulfonic acid PFHpS ND U ND U ND U 375-85-9 Perfluoroheptanoic acid PFHpA ND U 4.28 ND U 355-46-4 Perfluorohexanesulfonic acid PFHxS ND U 0.144 J,B ND U 307-24-4 Perfluorohexanoic acid PFHxA ND U 11.8 0.822 68259-12-1 Perfluorononanesulfonic acid PFNS ND U ND U ND U 375-95-1 Perfluorononanoic acid PFNA 1.77 1.62 2.46 754-91-6 Perfluorooctanesulfonamide PFOSA ND U ND U ND U 2991-50-6 2-(N-Ethylperfluorooctanesulfonamido) acetic acid N-EtFOSAA ND U ND U ND U 2355-31-9 2-(N-Methylperfluorooctanesulfonamido) acetic acid N-MeFOSAA ND U ND U ND U 2706-91-4 Perfluoropentanesulfonic acid PFPeS ND U ND U ND U 2706-90-3 Perfluoropentanoic acid PFPeA 65.6 ND U ND U 376-06-7 Perfluorotetradecanoic acid PFTeA NR NR 2.82 B ND U 72629-94-8 Perfluorotridecanoic acid PFTriA ND U 2.02 B 0.776 2058-94-8 Perfluoroundecanoic acid PFUnA ND U ND U ND U 757124-72-4 4:2 fluorotelomer sulfonic acid 4:2 FTS ND U ND U ND U 27619-97-2 6:2 fluorotelomer sulfonic acid 6:2 FTS 3.19 1.33 B 1.48 39108-34-4 8:2 fluorotelomer sulfonic acid 8:2 FTS 0.769 0.354 J,B ND U 62037-80-3 2,3,3,3-Tetrafluoro-(1,1,2,2,3,3,3-heptafluoropropoxy)-propanoicacid(Gen-X) HFPO-DA ND U ND U ND U ENTER OTHER PARAMETERS TESTED _ Sum of PFOA and PFOS 6.5 21.77 17.96 Total 79.079 48.304 25.638 Influent Grab (ug/L) 7/15/2019 8/19/2019 9/16/2019 1, 4 - Dioxane 3.29 1.18 1.59 * Please enter applicable lab qualifiers 1/12/22, 3:51 PM Mail - Perlmutter, Gary - Outlook RE: Graham WWTP draft permit Kirby, Ben <ben.kirby@ncdenr.gov> Wed 1/12/2022 3:09 PM To: Perlmutter, Gary <gary.perlmutter@ncdenr.gov> Cc: Hudson, Eric <eric.hudson@ncdenr.gov> WJ 2 attachments (2 MB) NC0021211_PWS Memo.pdf; 21211 Draft Permit 2022 pkg_signed_WSROKirbyReview.pdf; Mr. Perlmutter, I attached the signed PWS review memo. I revised the year of the requested return date on the memo from 2017 to 2022. In addition, Draft Permit pages 2 and 3 (of 19) appear to have typos (see red highlights in attached WSROKirbyReview PDF) o Page 2 should delete the "and" (unless an additional document is required) o Page 3 should read "lasting until expansion" Thanks, Ben Kirby, E.I. Assistant Regional Engineer Public Water Supply Section NC Dept. of Environmental Quality Winston-Salem Regional Office 450 W Hanes Mill Rd, Suite 300 Winston-Salem, NC 27105 Office: 336-776-9668 Work Cell: 336-403-1090 Ben.Kirby-@ncdenr.gov Email correspondence to and from this address is subject to the NC Public Records Law and may be disclosed to third parties. From: Hudson, Eric <eric.hudson@ncdenr.gov> Sent: Tuesday, January 11, 2022 11:34 AM To: Perlmutter, Gary <gary.perlmutter@ncdenr.gov> Cc: Kirby, Ben <ben.kirby@ncdenr.gov> Subject: FW: Graham WWTP draft permit Hello Gary, In the future please copy my Assistant Regional Engineer, Ben Kirby, on your emails. I have tasked Ben with reviewing NPDES permits for the WSRO. Ben will review the draft permit and provide you comments. Thanks, https://outlook.office365.com/mail/inbox/id/AAQkADRjNGZkNGYwLWNjOTctNGQ4MS1 hZDQ3LWJjMGMOYmRiN2M3NwAQAHsSjh79pZJFtdimycMKll... 1/2 1/12/22, 3:51 PM Mail - Perlmutter, Gary - Outlook Eric Hudson, P.E. Regional Engineering Supervisor Public Water Supply Section Department of Environmental Quality 336-776-9665 office 336-776-9797 fax Eric.Hudson@ncdenr.gov Winston-Salem Regional Office 450 West Hanes Mill Road, Suite 300 Winston-Salem, NC 27105 Email correspondence to and from this address is subject to the North Carolina Public Records Law and may be disclosed to third parties. From: Perlmutter, Gary <gary.perlmutter@ncdenr.gov> Sent: Tuesday, January 11, 2022 11:20 AM To: Hudson, Eric <eric.hudson@ncdenr.gov> Subject: Graham WWTP draft permit Hi Eric, Attached is the draft permit for Graham WWTP (NC0021211), which I've sent to Public Notice today. Also attached is the PWS memo for you to complete as you review this permit. Please let me know if you have any questions. Thanks, Gary Perlmutter Gary Perlmutter, Environmental Specialist II NCDEQ/Division of Water Resources NPDES Municipal Permitting Unit 919-707-3611 Office 919-306-1017 Cell garyperlmutter@ncdenr.gov Physical Address: 512 N Salisbury St., Raleigh, NC 27604 Mailing Address: 1617 Mail Service Center, Raleigh, NC 27699-1617 Email correspondence to and from this address is subject to the North Carolina Public Records Law and may be disclosed to third parties. https://outlook.office365.com/mail/inbox/id/AAQkADRjNGZkNGYwLWNjOTctNGQ4MS1 hZDQ3LWJjMGMOYmRiN2M3NwAQAHsSjh79pZJFtdimycMKll... 2/2 ROY COOPER Governor ELIZABETH S. BISER Secretary S. DANIEL SMITH Director MEMORANDUM To: From: Subject: NORTH CAROLINA Environmental Quality January 11, 2022 Eric Hudson NC DEQ / DWR / PWS Regional Engineer Winston-Salem Regional Office Gary Perlmutter 919-707-3611 NPDES Municipal Unit Review of Draft NPDES Permit NC0021211 Graham WWTP Alamance County Please indicate below your agency's position or viewpoint on the draft permit and return this form by February 10, 2022. If you have any questions on the draft permit, please feel free to contact me at the telephone number shown above. RESPONSE: (Check one) Concur with the issuance of this permit provided the facility is operated and maintained properly, the stated effluent limits are met prior to discharge, and the discharge does not contravene the designated water quality standards. Concurs with issuance of the above permit, provided the following conditions are met: Opposes the issuance of the above permit, based on reasons stated below, or attached: Signed Date: 02-/ Z NORTH CAROLINA D E _ Department of Environmental Duality North Carolina Department of Environmental Quality I Division of Water Resources 512 North Salisbury Street 11617 Mail Service Center I Raleigh, North Carolina 27699-1617 919.707.9000 February 4, 2022 Gary Perlmutter Environmental Specialist II NPDES Municipal Permitting Unit NC DEQ 512 N Salisbury Street Raleigh, NC, 27699 Re: Graham WWTP Draft NPDES Permit Renewal (NPDES: NC0021211) Dear Mr. Perlmutter: The City of Graham has reviewed the Draft NPDES Permit that was released on January 13th, 2022 and has the following comments. • Request that the monthly monitoring requirement for 1,4-Dioxane be qualified to end after a 2- year period (24 samples collected) as there is no reasonable potential to exceed a water quality standard. • Plant influent wastewater characteristics are not anticipated to change significantly upon the expansion of the plant from a 3.5 mgd capacity to a 5.0 mgd. Additionally, plant treatment processes will be modernized during the expansion effort and WWTP effluent quality is anticipated to be improved following the expansion. Request that monitoring frequency reduction from daily sampling to 2 x week sampling for BOD, TSS, Ammonia, and Fecal Coliform be initiated one year after the 5.0 mgd expansion if the WWTP maintains compliance with all monitoring frequency reduction standards. • Request that BOD sampling be reduced from daily frequency to 3 x week frequency given that the plant is already meeting monitoring frequency reduction standards prior to modernization efforts. This will still provide 3 weekly samples to characterize BOD in the effluent. • Request that effluent conductivity sampling be reduced from daily frequency to weekly. This will provide 52 results in a calendar year than can be used to evaluate effluent conductivity. • Request that toxicity testing be reduced from quarterly to annually given that the instream waste concentration calculated is only 14% (at 3.5 mgd) and 19% (at 5.0 mgd). We appreciate your consideration of our comments and please let me know if you have any questions about anything we have requested or need any additional information. Respectfully, C ?ttilAAAAj Tonya Mann Utilities Director