Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
NC0090000 Fact Sheet_DRAFT20230314
Fact Sheet NPDES Permit No. NCOO9OOOO Permit Writer/Email Contact Derek Denard, derek.denard@ncdenr.gov: Date: DRAFT14Mar2023 Division/Branch:NC Division of Water Resources/Water Quality Permitting Section Permitting Action: ❑ Renewal ❑ Renewal with Expansion 0 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. See Permit Application and Additional Information Attachments Al through A8. Complete applicable sections below. If not applicable, enter NA. 1. Basic Facility Information Facility Information Applicant/Facility Name: Colonial Pipeline Company/ Colonial Pipeline Company—2020-L1- SR2448 Applicant Address: 1185 Sanctuary Pkwy, Suite 100,Alpharetta, GA 30009 Facility Address: 14108 Huntersville-Concord Rd,Huntersville,NC 28078 Permitted Flow: 0.576 MGD Facility Type/Waste: Major*, Groundwater Remediation Discharge/ 100%Industrial Facility Class: Grade I Physical Chemical Water Pollution Control System Treatment Units: See below Pretreatment Program(Y/N) N County: Mecklenburg Region Mooresville Page 1 of 14 Briefly describe the proposed permitting action and facility background: Colonial Pipeline NPDES Permit#NC009000 Summary Colonial Pipeline has applied to the Division of Water Resources for a National Pollution Discharge Elimination System(NPDES)permit. The proposed permit is required for full implementation of a fuel recovery and groundwater remediation plan that would allow the discharge of treated groundwater to North Prong Clark Creek in the Yadkin-Pee Dee River basin. The proposed permit is part of enforcement actions undertaken by the Department of Environmental Quality(DEQ)against Colonial Pipeline and outlined in a Consent Order resulting from the August 14, 2020 fuel spill in Mecklenburg County,N.C. Cleanup efforts and remediation have been ongoing,with oversight by DEQ's Division of Waste Management. The Consent Order identifies Colonial Pipeline as the responsible party for the spill and subsequent cleanup. The Consent order included a$4.75 million- dollar civil penalty. The permit application required an engineering alternatives analysis be undertaken to ensure the best possible alternative for cleaning up the site is selected. Possible alternatives included: 1) connection to a publicly owner treatment works (POTW), 2)pumping and hauling the treated effluent offsite, 3) land application of treated wastewater, 4)reinjection of treated discharge back to groundwater, 5) and a surface water discharge. Connection to Charlotte Water is prohibited by a sewer use ordinance. Pumping and hauling the treated water would require approximately 115 trucks per day that will be operating 24 hours a day in a residential area. The other alternatives were deemed technically infeasible due to engineering restrictions, lack of available land, and protection of groundwater. Thus,the identified best alternative would be a discharge to surface waters. The groundwater remediation system includes a recovery well system, an oil/water separator with skimmed storage tank for recovered oil, a bag filter bank, an air stripper unit,a thermal oxidizer unit or granular activated carbon units, liquid phase granular activated carbon vessels, and an outfall structure. The draft permit is crafted to protect all appropriate water quality standards by treating for identified petroleum hydrocarbons,toxicants and chlorinated solvents present in the groundwater post spill. Initial groundwater data reviewed for this application indicated that PFAS was not present above practical quantitation limits.Additional data is being collected and analyzed for PFAs contaminant prior to possible issuance of a final permit. Comments received during the public hearing process will be incorporated into the final analysis and decision-making process. *NPDES Permit Rating: The facility rates as a major NPDES permit with a score of 80 points on the EPA NPDES Permit Rating Work Sheet. The Colonial Pipeline spill at Huntsville is a high-profile incident that will require oversight by the EPA. See Attachments B.NC0090000 Facility Rating_20200913_p Page 2 of 14 Treatment Units: A 0.576 MGD(including a 0.288 MGD temporary system)groundwater remediation system consisting of,but not limited to; • a recovery well system • an oil/water separator • skimmed LNAPL storage tank • a bag filter bank • an air stripper unit • a thermal oxidizer unit or granular activated carbon units • liquid phase granular activated carbon vessels • an outfall structure that consists of connection to an existing corrugated metal pipe (CMP) culvert with an Inserta Tee Fitting SIC Codes. The SIC indicated on EPA Form 1 is 4619. OSHA defines this code as the following: 4619 Pipelines,Not Elsewhere Classified Establishments primarily engaged in the pipeline transportation of commodities, except crude petroleum,refined products of petroleum, and natural gas. Establishments primarily engaged in the pipeline transportation of refined petroleum are classified in Industry 4613, and those engaged in natural gas transmission are classified in Industry 4922. • Coal pipeline operation • Pipeline operation except petroleum and natural gas pipelines • Slurry pipeline operation SIC code 4619 appears to exclude refined products of petroleum. We believe SIC code 4613 for Refined Petroleum Pipelines would be more applicable for this facility. SIC Code 4613 is defined as the following: 4613 Refined Petroleum Pipelines Establishments primarily engaged in the pipeline transportation of refined products of petroleum, such as gasoline and fuel oil. • Gasoline pipelines, common carriers • Refined petroleum pipelines 2. Receiving Waterbody Information: Receiving Waterbody Information Outfalls/Receiving Stream(s): Outfall 001 /North Prong Clark Creek Stream Segment: 13-17-4-1 Stream Classification: C Drainage Area(mi2): 3.5 Summer 7Q 10(cfs) 0.25 Winter 7Q10(cfs): 0.42 30Q2 (cfs): 0.56 Average Flow(cfs): 3.9 IWC (%effluent): 78.1 Page 3 of 14 303(d) listed/parameter: No(Attachment B8) Subject to TMDL/parameter: Yes- State wide Mercury TMDL implementation. Basin/Sub-basin/HUC: Yadkin-Pee Dee/03-07-11 /030401050101 USGS Topo Quad: Cornelius,NC 3. Effluent Data Summary Not Applicable,new discharge. 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: Data for instream monitoring is provided in the latest report to the NC DEQ Division of Waste Management. See Attachment H_June Monthly Report 20220630_2189p. Surface water monitoring for the spill site consists of the following parameters: TPH(GRO),Benzene, Toluene,Ethylbenzene,m,p-Xylene, o-Xylene,Xylene, Temperature,pH, ORP, Conductivity,DO, Turbidity, and rain events. TPH(GRO),Benzene, Ethylbenzene,m,p-Xylene, o-Xylene, and Xylene were all below the method detect levels. Toluene was detected only at location D13 [Seep-1(SW-Seep)]. Toluene was detected as 4 µg/L on 4/11/2021 and 6.7 µg/L on 5/5/5/2021. Charlotte-Mecklenburg Storm Water Services(CMSWS) conducted their own investigation of surface waters in the area of the release sampling on 3/19/2021,4/26/2021, 6/9/2021, and 7/2/2021. Total Lead was detected as 32.4 µg/L at Site G(SW-G)and as 7.1 µg/L at Site H(Seep-1/SW-Seep). Instream Total Hardness data would be needed to determine if these Lead results exceeded the water quality standard(02B) for Total Lead. Additionally, Toluene was detected as 10.7 µg/L at Site G(SW-G). The 02B standard for Toluene is 11 µg/L.A summary of the sampling locations by the Colonial Pipeline Company and CMSWS is provided in the table below. Please note the sampling performed by the permittee and CMSWS was in response to release incident 2020-L1-SR2448. These sampling locations are not directly related to the proposed outfall for NPDES permit NC0090000. Proposed Instream monitoring includes the following: Upstream Total Hardness sampling at SW-1/SD-1 which is North Prong Clark Creek Up-gradient of the leak site. The sampling location SW-1/SD-1 will have the location ID of U01 for monitoring and reporting purposes in eDMR for NPDES permit NC0090000. Is this facility a member of a Monitoring Coalition with waived instream monitoring(YIN):NO. Name of Monitoring Coalition:NA. Page 4 of 14 5. Compliance Summary Summarize the compliance record with permit effluent limits (past 5 years):NA,new permit. Summarize the compliance record with aquatic toxicity test limits and any second species test results (past 5 years): NA,new permit. Summarize the results from the most recent compliance inspection: NA,new permit. 6. Water Quality-Based Effluent Limitations (WQBELs) Dilution and Mixin Zones ones In accordance with 15A NCAC 213.0206,the following streamflows are used for dilution considerations for development of WQBELs: 1 Q 10 streamflow(acute Aquatic Life); 7Q 10 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. Ifpermit limits are more stringent than TBELs, describe how limits were developed:NA. 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/1(winter).Acute ammonia limits are derived from chronic criteria, utilizing a multiplication factor of 3 for Municipals and a multiplication factor of 5 for Non-Municipals. Limitations for Total Residual Chlorine(TRC)are based on the NC water quality standard for protection of aquatic life(17 ug/1)and capped at 28 ug/1(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:NA. Reasonable Potential Analysis (RPA) for Toxicants If applicable, conduct RPA analysis and complete information below. Page 5 of 14 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/z 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. A reasonable potential analysis was conducted using groundwater toxicant data that would be representative of influent flow to the treatment system. This data was collected between 28Aug2020 and 03Jun2022. 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: Total Lead Benzene Bromomethane(Methyl Bromide) n-Butylbenzene Ethylbenzene Hexachloro-1,3-butadiene Naphthalene n-Propylbenzene Tetrachloroethene(Tetrachloroethylene) (PERC) Toluene 1,2,4-Trimethylbenzene 1,3,5-Trimethylbenzene Vinyl chloride Xylenes, Total(mix of m+o+p) • 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: Bromodichloromethane(Dichlorobromomethane) Chloromethane(Methyl Chloride) • No Limit or Monitoring(except for Quarterly pollutant scan by EPA 624.1 & 625.1). 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. Parameters also did not receive a limit or monitoring if there were no detects(i.e. not present in groundwater). Parameters with detects that did not have applicable standards, criteria, or TBELs will be monitored with pollutant scans (EPA Methods 624&625). Bromobenzene Bromochloromethane Bromoform sec-Butylbenzene tert-Butylbenzene Carbon tetrachloride Chlorobenzene Page 6 of 14 Chloroform(Tricholomethane) 2-Chlorotoluene 4-Chlorotoluene 1,2-Dibromo-3-chloropropane(Nemagon) Dibromochloromethane(Chlorodibromomethane) 1,2-Dibromoethane(EDB) Dibromomethane 1,2-Dichlorobenzene 1,3-Dichlorobenzene 1,4-Dichlorobenzene Dichlorodifluoromethane 1,1-Dichloroethane 1,1-Dichloroethene cis-1,2-Dichloroethene trans-1,2-Dichloroethene 1,2-Dichloropropane 1,3-Dichloropropane 2,2-Dichloropropane 1,1-Dichloropropene cis-1,3-Dichloropropene trans-1,3-Dichloropropene Diisopropyl ether(Isopropyl Ether) Isopropylbenzene(Cumene) Methylene Chloride Styrene 1,1,1,2-Tetrachloroethane 1,1,2,2-Tetrachloroethane 1,2,3-Trichlorobenzene 1,2,4-Trichlorobenzene 1,1,1-Trichloroethane 1,1,2-Trichloroethane Trichloroethene Trichlorofluoromethane(Freon 11) 1,2,3-Trichloropropane(1,2,3-TCP) n-Butanol Ethanol Ethyl-tert-butyl ether tert-Amyl Alcohol tert-Amylmethyl ether tert-Butyl Alcohol • Pollutant of Concern(Effluent Limit with monitoring). The following parameter had no data,but is a pollutant of concern for petroleum product groundwater contamination: Total Phenolic Compounds • Pollutant of Concern(Monitoring Only)—The following parameters that were detected did not show reasonable potential to exceed applicable water quality standards/criteria,but are known pollutants of concern for petroleum product groundwater contamination: 1,2-Dichloroethane Methyl-tert-butyl ether(MTBE) • The following parameters evaluated in the RPA will be monitored for with the O&G TBEL: C5 - C8 Aliphatics C9 - C12 Aliphatics Page 7 of 14 C9 - C10 Aromatics VPH(Total) 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. RPA Comments: The groundwater data for toxicants is very extensive at the Huntersville spill site. The greatest 58 detections for each parameter were entered into the RPA spreadsheets. Limits were assigned to all pollutants of concern that showed RP with predicted concentrations greater than 50%of the allowable concentrations. See following attached RPA sheets for details: C. NC009000_RPA 1. NC009000_GW DATA_FW RPA_5p 2. Diss metals Implementation-Fact Sheet Info 5-16-16 (Grzyb, Julie)_20220825_4p 3. NC009000_GW DATA_GENERIC RPA—Part 1 4. NC009000 GW DATA GENERIC RPA Part 2 5. NC009000 GW DATA GENERIC RPA Part 3 6. NC009000 GW DATA GENERIC RPA Part 4 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: Whole Effluent Toxicity(WET) -Acute,Monitor Only; Quarterly(Pimephales promelas)48-hour static test. [See Section A. (3)]. Acute toxicity(monitoring only)is recommended because the final effluent is to be polished with activated carbon. [WQBEL.No toxics in toxic amounts. 15A NCAC 213.0200 and 15A NCAC 213.0500(not limited).] Mercury Statewide TMDL Evaluation There is a statewide TMDL for mercury approved by EPA in 2012. The TMDL target was to comply with EPA's mercury fish tissue criteria(0.3 mg/kg)for human health protection. The TMDL established a wasteload allocation for point sources of 37 kg/year(81 lb/year), and is applicable to municipals and industrial facilities with known mercury discharges. Given the small contribution of mercury from point sources (^2%of total load),the TMDL emphasizes mercury minimization plans(MMPs) for point source control. Municipal facilities>2 MGD and discharging quantifiable levels of mercury(>1 ng/1)will receive an MMP requirement. Industrials are evaluated on a case-by-case basis, depending if mercury is a pollutant of concern. Effluent limits may also be added if annual average effluent concentrations exceed the WQBEL value (based on the NC WQS of 12 ng/1) and/or if any individual value exceeds a TBEL value of 47 ng/1 Describe proposed permit actions based on mercury evaluation:NA. Page 8 of 14 Other TMDL/Nutrient Management Strategy Considerations If applicable, describe any other TMDLs/Nutrient Management Strategies and their implementation within this permit:NA. Other WQBEL Considerations If applicable, describe any other parameters of concern evaluated for WQBELs: See the above Reasonable Potential Analysis (RPA)for Toxicants. 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 1 SA 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 15,4 NCAC 2B.0226 for this permit renewal:NA. 7. Technology-Based Effluent Limitations (TBELs) Industrials(if not applicable, delete and skip to next Section) Describe what this facility produces: No products are manufactured at this facility,groundwater remediation. List the federal effluent limitations guideline (ELG)for this facility: There are no effluent limitations guidelines and standards (ELGs)promulgated in the Code of Federal Regulations(CFR)for petroleum pipelines. Therefore,NC water quality standards and EPA water quality criteria were evaluated for this draft permit. 40 CFR 125.3(c)(2)provides that,where there are no applicable EPA effluent guidelines, permit writers have the authority to develop technology-based limitations on a case-by-case basis under section 402(a)(1)(B) of the Clean Water Act. This is provided that there are no applicable water quality- based limits or criteria available for a pollutant of concern. Parameters listed in the table below were developed under this best professional judgement. If the ELG is based on production or flow, document how the average production/flow value was calculated:NA For ELG limits, document the calculations used to develop TBEL limits: The limits in the Table below are based the effluent guidelines as indicated. Since these limits are concentration based and not flow or production based, calculations were not required to develop these TBELs. See BPJ discussion below. Table. TBEL Development Monthly Daily Pollutant ELG Average Maximum Limit Limit (mg/L) m /L Point Source Category: Petroleum Refining Oil&Grease *CFR 419.32/419.34; Subpart C—Petrochemical&423: 15.0 mg/L* 20.0 mg/L Steam Electric Power Generating(includes MA 20 mg/L) Page 9 of 14 Level of Control: BPTBCT Process: Contaminated runoff Treatment Technology/Treatment Train: Best Management Practices Other parameters: Point Source Category: Organic Chemicals,Plastic and Synthetic Fibers(OCPSF) CFR 414.74; Subpart G—Bulk Organic Chemicals Chloroethane Level of Control:NSPS 110 µg/L 295 µg/L Process: Bulk organic chemicals Treatment Technology/Treatment Train: Stripping+Granular Activated Carbon TSS Secondary treatment standards/40 CFR 133 / 15A NCAC 2B 30.0 mg/L 45.0 mg/L .0406 O&G will monitor for TPH which would include the following parameters evaluated in the RPA: C5 - C8 Aliphatics, C9 - C12 Aliphatics, C9 - C10 Aromatics, and VPH(Total) If any limits are based on best professional judgement(BPJ), describe development: 40 CFR 125.3(c)(2) provides that,where there are no applicable EPA effluent guidelines,permit writers have the authority to develop technology-based limitations on a case-by-case basis under section 402(a)(1)(B)of the Clean Water Act. See discussion above in this section. Document any TBELs that are more stringent than WQBELs: Oil&Grease has a narrative standard found in 15A NCAC 2B .0200. There are no numerical values set for Oil&Grease for WQBELSs criteria. Document any TBELs that are less stringent than previous permit: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 EAA was reviewed on 08/26/2022. The following alternatives were cost prohibitive: • Connection to POTW: Prohibited by sewer use ordinance. • Land Application: Technically infeasible due to engineering restrictions, lack of available land, and protection of groundwater. Page 10 of 14 • Infiltration Galleries: Technically infeasible due to engineering restrictions, lack of available land, and protection of groundwater. • Closed-Loop Groundwater Remediation Wells: Technically infeasible due to engineering restrictions, lack of available land, and protection of groundwater.This alternative is technically infeasible because of the goal of the long-term operation of the recovery wells is to create a hydraulic barrier to prevent free product and VOCs from migrating further downgradient from the initial release location. • In-Situ Groundwater Remediation Wells: This alternative is technically infeasible because of the goal of the long-term operation of the recovery wells is to create a hydraulic barrier to prevent free product and VOCs from migrating further downgradient from the initial release location. • Pump&Haul: Pumping and hauling the treated water would require approximately 115 trucks per day that will be operating 24 hours a day in a residential area. Cost estimate is $594,857,305. • Surface Water Discharge: The cost for surface water discharge (NPDES)was estimated to be $23,106,669. 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):NA,new permit. 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 213.0500;2) NPDES Guidance,Monitoring Frequency for Toxic Substances(7/15/2010 Memo); 3)NPDES Guidance, Reduced Monitoring Frequencies for Facilities with Superior Compliance(10/22/2012 Memo);4)Best Professional Judgement(BPJ). Per US EPA(Interim Guidance, 1996),monitoring requirements are not considered effluent limitations under Section 402(o)of the Clean Water Act, and therefore anti- backsliding prohibitions would not be triggered by reductions in monitoring frequencies. For instream monitoring,refer to Section 4. 11. Electronic Reporting Requirements The US EPA NPDES Electronic Reporting Rule was finalized on December 21,2015. Effective December 21, 2016,NPDES regulated facilities are required to submit Discharge Monitoring Reports (DMRs) electronically. While NPDES regulated facilities would initially be required to submit additional NPDES reports electronically effective December 21,2020,EPA extended this deadline from December 21,2020,to December 21, 2025. The current compliance date, effective January 4,2021,was extended as a final regulation change published in the November 2, 2020,Federal Register. This permit contains the requirements for electronic reporting, consistent with Federal requirements. Page 11 of 14 12.Summary of Proposed Permitting Actions: A. Table. Current Permit Conditions and Proposed Changes 0.576 MGD Parameter Proposed Basis for Condition/Change Condition Flow MA MGD 0.576 15A NCAC 213 .0505 Total Suspended Solids (TSS) MA 30.0 mg/1 TBEL. Secondary treatment standards/40 CFR 133 / 15A DM 45.0 mg/1 NCAC 2B .0406 WQBEL. State WQ Narrative Standard 15A NCAC 02B Oil&Grease .0221 (12) (EPA Method 1664 [SGT- MA 15.0 mg/1 HEM]) DM 20.0 mg/1 BPJ for TBEL. 40 CFR 125.3(c)(2)on a case-by-case basis under section 402(a)(1)(B)CWA.. pH 6-9 SU WQBEL. State WQ standard, 15A NCAC 02B .0200 Hardness-Total as M&R WQBEL. State WQ standard, 15A NCAC 02B .0200 [CaCO3 or(Ca+Mg)] Total Lead MA 5.26 µg/L WQBEL. State WQ standard, 15A NCAC 02B .0200 DM 125 µg/L Benzene MA 274 µg/L WQBEL. State WQ standard, 15A NCAC 02B .0200 DM 274 µg/L MA 15.4 µg/L North Carolina In-Stream Target Values for Surface Waters Naphthalene DM 15.4 µg/L established per language in 15A NCAC 02B .0202 & .0208 MA 124 µg/L North Carolina In-Stream Target Values for Surface Waters Ethyl Benzene DM 124 µg/L established per language in 15A NCAC 02B .0202 & .0208 Toluene MA 14.1 µg/L WQBEL. State WQ standard, 15A NCAC 02B .0200 DM 14.1 µg/L MA 858 µg/L North Carolina In-Stream Target Values for Surface Waters Xylenes (Total) DM 858 µg/L established per language in 15A NCAC 02B .0202 & .0208 Bromomethane MA 0.05 µg/L North Carolina In-Stream Target Values for Surface Waters (Methyl Bromide) DM 0.05 µg/L established per language in 15A NCAC 02B .0202 & .0208 MA 4.99 µg/L North Carolina In-Stream Target Values for Surface Waters n-Butylbenzene DM 4.99 µg/L established per language in 15A NCAC 02B .0202 & .0208 MA 104 µg/L BPJ for TBEL. 40 CFR 125.3(c)(2)on a case-by-case basis Chloroethane DM 268 µg/L under section 402(a)(1)(B)CWA. Hexachloro-1,3-butadiene MA 96.6 µg/L, WQBEL. State WQ standard, 15A NCAC 02B .0200 (Hexachlorobutadiene) DM 96.6 µg/L MA 102 µg/L North Carolina In-Stream Target Values for Surface Waters n-Propylbenzene DM 102 µg/L established per language in 15A NCAC 02B .0202 & .0208 Page 12 of 14 MA 17.7 µg/L WQBEL. State WQ standard, 15A NCAC 2B .0200 Tetrachloroethene(PERC) DM 17.7 µg/L 1,2,4-Trimethylbenzene MA 499 µg/L North Carolina In-Stream Target Values for Surface Waters DM 499 µg/L established per language in 15A NCAC 02B .0202 & .0208 MA 275 µg/L North Carolina In-Stream Target Values for Surface Waters 1,3,5-Trimethylbenzene DM 275 µg/L established per language in 15A NCAC 02B .0202 & .0208 Vinyl chloride MA 12.9 µg/L WQBEL. State WQ standard, 15A NCAC 02B .0200 (Chloroethylene) DM 12.9 µg/L Total Recoverable Phenolics MA 489 µg/L WQBEL. State WQ standard, 15A NCAC 02B .0200 (EPA Method 420.1) DM 489 µg/L Bromodichloromethane North Carolina In-Stream Target Values for Surface Waters (Dichlorobromomethane) M&R established per language in 15A NCAC 02B .0202 & .0208 Chloromethane North Carolina In-Stream Target Values for Surface Waters (Methyl Chloride) M&R established per language in 15A NCAC 02B .0202 & .0208 EPA National Recommended Water Quality Criteria for 1,2-Dichloroethane(1,2 DCA) M&R Aquatic Life&Human Health Methyl Tert-Butyl Ether North Carolina In-Stream Target Values for Surface Waters (MTBE) M&R established per language in 15A NCAC 02B .0202 & .0208 Organics, Total Purgeables (VOCs) (EPA Method 624.1) M&R 40 CFR 122 Base Neutrals&Acids(Semi- VOCs)(EPA Method 625.1) M&R 40 CFR 122 Additional Monitoring Add Special G.S. 143-215.1(B) Condition for Requirements EPA Methods 624 and 625. Acute WQBEL. No toxics in toxic amounts. 15A NCAC 2B.0200 Toxicity Test monitoring, and 15A NCAC 2B.0500 90% effluent Add Electronic Electronic Reporting Reporting In accordance with EPA Electronic Reporting Rule 2015. Special Condition MGD—Million gallons per day,MA—Monthly Average,WA—Weekly Average,DM—Daily Max. M&R—Monitoring&Report Page 13 of 14 13. Public Notice Schedule: Permit to Public Notice: 09/23/2022. 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): This is a DRAFT FACTSHEET If Yes, list changes and their basis below: This is a DRAFT FACTSHEET. 15. Fact Sheet Attachments (if applicable): A. Application,Additional Information Received and Reports 1. NC0090000_Application_20210818_49p. https://edocs.deq.nc.gov/WaterResources/DocView.aspx?id=1955816&dbid=0&repo=WaterResources 2. NC0090000_More Information(Received)_20211222_225p hgps:Hedocs.deq.nc.gov/WaterResources/DocView.aspx?id=2466450&dbid=0&repo=WaterResources 3. NC0090000_More Information(Received)_20220714_17p https://edocs.deq.nc.gov/WaterResources/DocView.aspx?id=2449622&dbid=0&repo=WaterResources 4. NC0090000_More Information(Received)_20220808_47p hgps:Hedocs.deq.nc.gov/WaterResources/DocView.aspx?id=2489753&dbid=0&repo=WaterResources 5. NC0090000_More Information(Received)_20220810_12p hgps:Hedocs.deq.nc.,gov/WaterResources/DocView.aspx?id=2449624&dbid=0&repo=WaterResources 6. NC0090000_More Information(Received)_20220810(2)_5p htips:Hedocs.deq.nc.gov/WaterResources/DocView.aspx?id=2449625&dbid=0&repo=WaterResources 7. NCO090000_More Information(Received)_20220818_133p htips:Hedocs.deq.nc.gov/WaterResources/DocView.aspx?id=2466344&dbid=0&repo=WaterResources 8. June Monthly Report 20220630_2189p htlps:Hdeq.nc.gov/media/30577/download?attachment B. NCO090000_Permit Rating Sheet_20220913_20220913_15p C. NCO09000_RPA 1. NCO09000_GW DATA_FW RPA_5p 2. Diss metals Implementation-Fact Sheet Info 5-16-16 (Grzyb, Julie)_20220825_4p 3. NCO09000_GW DATA_GENERIC RPA_Part 1 4. NCO09000_GW DATA_GENERIC RPA_Part 2 5. NCO09000 GW DATA GENERIC RPA Part 3 6. NC009000 GW DATA GENERIC RPA Part 4 For other Colonial Pipeline Spill Information-Huntersville including correspondence,background, emergency response, data,results,required report, etc.please see the DEQ DWM webpage: https://deq.nc.gov/about/divisions/waste-management/underground-storage-tanks-section/colonial- pipeline-spill-information-huntersville-nc Page 14 of 14 NPDES Permit Rating Work Sheet ✓❑Regular Addition ❑Discretionary Addition Score change,but no NPDES No.: NCO090000 status change Facility Name: ❑Deletion Colonial Pipeline Company- 2020-L1-SR2448 City:Huntersville, NC Receiving Water: North Prong Clark Creek [Stream Index 13-17-4-1] [HUC: 030401050101] Reach Number: Is this facility a steam electric power plant(SIC=4911) Is this permit for a municipal separate storm sewer with one or more of the following characteristics? serving a population greater than 100,000? 1. Power output 500 MW or greater(not using a cooling pond/lake) ❑YES;score is 700(stop here) 2.A nuclear power plant 3.Cooling water discharge greater than 25%of the receiving stream's 7Q10 flow rate ✓❑NO(continue) ❑YES;score is 600(stop here) ✓❑NO(continue) FACTOR 1:Toxic Pollutant Potential PCS SIC Code: Primary SIC Code: 4613 Other SIC Codes: Industrial Subcategory Code: 0 (Code 000 if no subcategory) Determine the Toxicity potential from Appendix A. (Be sure to use the TOTAL toxicity potential column and check one) Toxicity Group Code Points Toxicity Group Code Points Toxicity Group Code Points No process ❑3. 3 15 7 7 35 ❑waste streams 0 0 B. 4 20 8. 8 40 ❑1. 1 5 ❑5. 5 25 9. 9 45 ❑2. 2 10 6. 6 30 10. 10 50 Code Number Checked: 9 Total Points Factor 1: 45 FACTOR 2: Flow/Stream Flow Volume (Complete either Section A or Section B;check only one) Section A-Wastewater Flow Only Considered Section B-Wastewater and Stream Flow Considered Wastewater type Code Points Wastewater type Percent of Instream (See Instructions) (See Instructions) Wastewater Concen- Type I: Flow<5 MGD 11 0 tration at Receiving Flow 5 to 10 MGD 12 10 Stream Low Flow Code Points Flow>10 to 50 MGD 13 20 Flow>50 MGD 14 30 Type 1/III: <10% 41 0 >10%to<50% 42 10 Type II: Flow<1 MGD 21 10 >50% ✓ 43 20 Flow 1 to 5 MGD 22 20 Flow>5 to 10 MGD 23 30 Type II <10% 51 0 Flow>10 MGD 24 50 >10%to<50% 52 20 >50% ❑ 53 30 Type III: Flow<1 MGD 31 0 Flow 1 to 5 MGD 32 10 Flow>5 to 10 MGD 33 20 Flow>10 MGD 34 30 Code Checked from Section A or B: 43 Total Points Factor 2: 20 1 NPDES Permit Rating Work Sheet FACTOR 3: Conventional Pollutants NPDES No.: NCO090000 (only when limited by the permit) A. Oxygen Demanding Pollutants (check one)❑BOD❑COD❑OTHER: Code Points Permit Limits(check one) <100lbs/day 1 0 100 to 1000 Ibs/day 2 5 >1000 to 3000 Ibs/day 3 15 >3000lbs/day 4 20 Code Checked: Points Scored: 0 B.Total Suspended Solids (TSS) Code Points Permit Limits(check one) <100 Ibs/day 1 0 ✓ 100 to 1000 Ibs/day 2 5 >1000 to 5000 Ibs/day 3 15 ❑ >5000lbs/day 4 20 Code Checked: 2 Points Scored: 5 C. Nitrogen Pollutants (check one) ❑ Ammonia ❑ OTHER: Nitrogen Equivalent Code Points Permit Limits(check one) <300 Ibs/day 1 0 300 to 1000 Ibs/day 2 5 >1000 to 3000 Ibs/day 3 15 >3000lbs/day 4 20 Code Checked: Points Scored: 0 Total Points Factor 3: FACTOR 4: Public Health Impact Is there a public drinking water supply located within 50 miles downstream of the effluent discharge (this includes any body of water to which the receiving water is a tributary)? A public drinking water supply may include infiltration galleries, or other methods of conveyance that ultimately get water from the above referenced supply. ❑YES (if yes, check toxicity potential number below) WINO (if no, go to Factor 5) Determine the human health toxicity potential from Appendix A. Use the same SIC Code and subcategory reference as in Factor 1. (Be sure to use the human health toxicity group column and check one below) Toxicity Group Code Points Toxicity Group Code Points Toxicity Group Code Points 3. 3 0 7. 7 15 ❑ No process waste streams 0 0 4. 4 0 8. 8 20 ❑1. 1 0 5. 5 5 9. 9 25 ❑2. 2 0 6. 6 10 10. 10 30 Code Number Checked: Total Points Factor 4: 2 NPDES Permit Rating Work Sheet FACTOR 5: Water Quality Factors NPDES No.: NCO090000 A. Is (or will) one or more of the effluent discharge limits based on water quality factors of the receiving stream (rather than technology-based federal effluent guidelines, or technology-based state effluent guidelines), or has a wasteload allocation been assigned to the discharge? Code Points -, YES 1 10 FINO 2 0 B. Is the receiving water in compliance with applicable water quality standards for pollutants that are water quality limited in the permit? Code Points ✓ YES 1 0 ❑NO 2 5 c. Does the effluent discharged from this facility exhibit the reasonable potential to violate water quality standards due to whole effluent toxicity? Code Points YES 1 10 VINO 2 0 Code Number Checked:A. 1 B. 2 C. 2 Total Points Factor 5 A. 10 +g 0 +C. 0 = 0 FACTOR 6: Proximity to Near Coastal Waters A. Base Score:Enter flow code here (from Factor 2): 43 Enter the multiplication factor that corresponds to the flow code: 0.00 Check appropriate facility HPRI Code(from PCS): HPRI# Code HPRI Score Flow code Multiplication Factor 1 1 20 11,31,or41 0.00 12,32,or 42 0.05 2 2 0 13,33,or 43 0.10 14 or 34 0.15 3 3 30 21 or 51 0.10 4 4 0 22 or 52 0.30 23 or 53 0.60 5 5 20 24 1.00 HPRI Code Checked: Base Score(HPRI Score) 0 x(Multiplication Factor) 0.00 = 0 (Total Points) B. Additional Points—NEP Program c. Additional Points— Great Lakes Area of Concern For a facility that has an HPRI code of 3,does the facility For a facility that has an HPRI code of 5,does the facility discharge to one of the estuaries enrolled in the National discharge any of the pollutants of concern into one of the Estuary Protection(NEP)program(see instructions)or Great Lakes'31 areas of concern(see instructions)? the Chesapeake Bay? Code Points Code Points YES 1 10 YES 1 10 NO 2 0 ❑NO 2 0 Code Number Checked:A. B. C. Total Points Factor 6 A. 0 +B, 0 +C. 0 = 0 3 NPDES Permit Rating Work Sheet Score Summary NPDES No.: NCO090000 Factor Description Total Points 1. Toxic Pollutant Potential 45 2. Flow/Streamflow Volume 20 3. Conventional Pollutants 5 4. Public Health Impacts 0 5. Water Quality Factors 10 6. Proximity to Near Coastal Waters 0 TOTAL(Factors 1 through 6) 80 S1. Is the total score equal to or greater than 80? ❑YES(Facility is a major) ✓❑ NO S2. If the answer to the above question is no,would you like this facility to be discretionary major? ✓❑ NO ❑YES(Add 500 points to the above score and provide reason below: Reason: The Colonial Pipeline spill at Huntsville is a high profile incident that will require oversight by the EPA. NEW SCORE: 80 OLD SCORE: Derek Denard Permit Reviewer's Name (919) 707-3618 Phone Number 09/13/2022 Date Reset Form 4 Attachment 132: NCO090000 Facility Rating Notes FACTOR 1: Toxic Pollutant Potential Review of applicable SIC codes from OSHA SIC codes manual https://www.osha.gov/data/sic-manual Division E: Transportation, Communications,Electric, Gas,And Sanitary Services Major Group 46: Pipelines,Except Natural Gas: This major group includes establishments primarily engaged in the pipeline transportation of petroleum and other commodities, except natural gas. Pipelines operated by petroleum producing or refining companies and separately reported are included. Establishments primarily engaged in natural gas transmission are classified in Industry 4922. 4612 Crude Petroleum Pipelines: Establishments primarily engaged in the pipeline transportation of crude petroleum.Field gathering lines are classified in Mining,Major Group 13. • Crude petroleum pipelines 4613 Refined Petroleum Pipelines: Establishments primarily engaged in the pipeline transportation of refined products of petroleum, such as gasoline and fuel oil. • Gasoline pipelines, common carriers • Refined petroleum pipelines 4619 Pipelines,Not Elsewhere Classified: Establishments primarily engaged in the pipeline transportation of commodities, except crude petroleum,refined products of petroleum, and natural gas. Establishments primarily engaged in the pipeline transportation of refined petroleum are classified in Industry 4613,and those engaged in natural gas transmission are classified in Industry 4922. • Coal pipeline operation • Pipeline operation except petroleum and natural gas pipelines • Slurry pipeline operation Division F: Wholesale Trade: Major Group 51: Wholesale Trade-non-durable Goods. This major group includes establishments primarily engaged in the wholesale distribution of non-durable goods. 5171 Petroleum Bulk stations and Terminals: Establishments primarily engaged in the wholesale distribution of crude petroleum and petroleum products, including liquefied petroleum gas, from bulk liquid storage facilities. • Petroleum bulk stations and terminals-wholesale Attachment B3: Worksheet-NPDES-PermitRating-Ss-EPAmemo-AppendixA-1990-Jun27 41: The NPDES application indicated a SIC code of 4619 for Pipeline,Not Else Classified. The best for the Colonial Pipeline would be SIC code 4613 for Refined Petroleum Pipelines. There is not a total toxicity number given for 4613. Page 41 of Attachment B3 gives the SIC code of 4612 for Crude Petroleum Pipelines which has the total toxicity number of 8. Petroleum Bulk Stations &Terminals SIC 5171 is also given a total toxicity number of 8. Petroleum Bulk Stations &Terminals store refined petroleum. Considering these similar SIC codes, a total toxicity number of 8 will be used to rate the Colonial Pipeline groundwater remediation system. It should also be noted that chlorinated solvents are present at the spill site. The SIC code 2869 for industrial organic chemicals,not elsewhere classified, is given a total toxicity of 9 (commodity&bulk)and 10 (organic pesticide chemicals mfg). The manufacture of the many of the solvents present are listed under SIC code 2869. There are no SIC codes for the transportation of chlorinated solvents. Petroleum refining SIC code 2911 is given total toxicity number of 9. The toxicity group was checked with code 8 giving 40 points. FACTOR 2: Flow/Stream Flow Volume Attachment 134: NC0090000 RPA Calculation of IWC: The RPA spreadsheet indicates an IWC of 78.12%based on a flow of 0.576 MGD and summer 7Q 10 of 0.25 cs£ Attachment B5: Worksheet-NPDES-PermitRating-Ss-EPAmemo-AppendixA-1990-Jun27 9: Does discharge contain only noncontact cooling water?No Does discharge contain only process wastewater?No Does discharge contain neither noncontact cooling water nor process wastewater?Yes, Type III. Section B Type I/III was selected for the precent of instream wastewater concentration at receiving stream low flow of>50%with code 43 giving 20 points. FACTOR 3: Conventional Pollutants There are no oxygen demanding pollutants of concern. TSS will be given secondary treatment standards of 30 mg/1 for a month average limit and 45 mg/l for a daily maximum limit. Loading is calculated using the Attachment B6_EPA rating BOD TSS TN calculations spread sheet. Converting 30 mg/1 to lbs/day using a flow of 0.576 MGD gives 144.2 lbs/day. Selected 100 to 1000 lbs/day Code 2 for 5 points. There will be no limitation of nitrogen pollutants. FACTOR 4: Public Health Impact Attachment 137: Nearest Water Supply Waters ArcGIS Online: The nearest waters currently classified as water supply waters is located>>45.1 miles downstream from the proposed outfall. Answer"No"for greater than 50 miles. FACTOR 5: Water Quality Factors A. Is (or will)one or more of the effluent discharge limits based on water quality factors of the receiving stream(rather than technology-based federal effluent guidelines, or technology- based state effluent guidelines), or has a wasteload allocation been assigned to the discharge? Effluent limits will be based on water quality factors of the receiving stream. Yes, Code 1 for 10 points. B. Is the receiving water in compliance with applicable water quality standards for pollutants that are water quality limited in the permit?North Prong Clarke Creek[13-17-4-1] (Outfall 001) and South Prong Clarke Creek[13-17-4-2] (Seeps 1 &2 as identified by the applicate) are not currently listed as impaired. See Attachment B8_NC_2020_INTEGRATED_REPORT p 1305. The streams are tributary to Clark Creek. The segment [13-17-4] for Clark Creek, immediately downstream(— 1 mile)at the confluence of the two tributaries, is impaired for Fair, Poor or Severe Bio classification for Fish Community. See Attachment B9_NC_2020_Category5_303dlist p 182. and Attachment B 10_NC DRAFT 2020 INTEGRATED REPORT VIEWER. (Please note that this information has not changed for the 2022 Integrated Report or 2022 303d Listing.) Since there is no impairment for parameters that are water quality limited the answer is: Yes, Code 1 for 0 points. C. Does the effluent discharged from this facility exhibit the reasonable potential to violate water quality standards due to whole effluent toxicity?This is a new groundwater remediation discharge with no effluent available for an RPA.Answer:No, Code 2 for 0 points. FACTOR 6: Proximity to Near Coastal Waters. Parts A,B and C are not applicable. The facility is not located near coastal waters. APPENDIX A SIC Code Cross Reference and Tota( and Hunan Health Toxicity Number 1972/ Hunan 1977 1987 CFR Health Total Industr SIC SIC 1987 CFR Sub- Sub-part title Toxicity Toxicity Subcat Code Code Title Part Part Munger Munber Number 3914 3914 SILVERWARE AND PLATED WARE MR NO ELECTROPLATING 1 1 99 3915 3915 JEWELERS' MATERIALS i LAPIDARY WORK 433 A METAL FINISHING 1 9 0 3915 3915 JEWELERS' MATERIALS Z LAPIDARY WORK MR NO ELECTROPLATING 1 1 99 3931 3931 MUSICAL INSTRUMENTS MR NO ELECTROPLATING 1 1 99 3931 3931 MUSICAL INSTRUMENTS 433 A METAL FINISHING 1 .9 0 3942 3942 DOLLS MR 1 1 99 3944 3944 GAMES, TOYS AND CHILDREN'S VEHICLES 433 A METAL FINISHING 1 9 0 3944 3944 GAMES, TOYS AND CHILDREN'S VEHICLES MR NO ELECTROPLATING 1 1 99 3949 3949 SPORTING AND ATHLETIC GOODS, NEC 433 A METAL FINISHING 1 9 1 3949 3949 SPORTING AND ATHLETIC GOODS, NEC MR NO ELECTROPLATING 1 1 99 3949 3949 SPORTING AND ATHLETIC GOODS, NEC 433 A METAL FINISHING 1 1 2 3951 3951 PENS AND MECHANICAL PENCILS MR NO ELECTROPLATING 1 1 99 3951 3951 PENS AND MECHANICAL PENCILS 433 A METAL FINISHING 1 9 0 3952 3952 LEAD PENCILS AND ART GOODS MR 1 1 99 3953 3953 MARKING DEVICES MR 1 1 99 3955 3955 CARBON PAPER AND INKED RIBBONS MR 1 1 99 3961 3%1 COSTUME JEWELRY MR NO ELECTROPLATING 1 i 99 3%1 3961 COSTUME JEWELRY 433 A METAL FINISHING 1 9 0 3962 3499 ARTIFICIAL FLOWERS MR 1 1 99 3964 3%5 NEEDLES, PINS AND FASTENERS 433 A METAL FINISHING 1 9 0 3964 3965 NEEDLES, PINS AND FASTENERS MR NO ELECTROPLATING 1 1 99 3991 3991 BROOMS AND BRUSHES 433 A METAL FINISHING 1 9 0 3991 3991 BROOMS AND BRUSHES RR NO ELECTROPLATING 1 1 99 3993 3993 SIGNS AND ADVERTISING DISPLAYS 433 A METAL FINISHING 1 9 0 3993 3993 SIGNS AND ADVERTISING DISPLAYS MR 1 1 99 3993 3993 SIGNS AND ADVERTISING DISPLAYS MR NO ELECTROPLATING 1 1 99 3995 3995 BURIAL CASKETS MR NO ELECTROPLATING 1 1 99 3995 3995 BURIAL CASKETS 433 A METAL FINISHING 1 9 0 3996 3996 HARD SURFACE FLOOR COVERINGS MR 1 1 99 39% 3996 HARD SURFACE FLOOR COVERINGS 443 D LINOLEUM i PRINTED ASPHALT FELT 1 1 0 3999 3999 MANUFACTURING INDUSTRIES, NEC 433 A METAL FINISHING 1 9 0 3999 39" MANUFACTURING INDUSTRIES, NEC MR 1 1 99 4172 4173 BUS TERMINAL AND SERVICE FACILITIES MR 1 1 99 4226 4226 SPECIAL WAREHOUSING L STORAGE, NEC MR 1 1 99 4231 4231 TRUCKING TERMINAL FACILITIES 5 5 0 4469 4493 WATER TRANSPORTATION SERVICES, NEC 5 5 1 4469 4959 WATER TRANSPORTATION SERVICES, NEC 5 5 2 4469 4499 WATER TRANSPROTATION SERVICES, NEC 5 5 3 4612 4612 CRUDE PETROLEUM PIPELINES NR a a 0 4911 4911 ELECTRICAL SERVICES 423 A HYDRO ELECTRIC PWR GEN.(W/ SAW. WST.) 6 6 1 4911 4911 ELECTRICAL SERVICES 423 A STEAM ELECTRIC POWER GENERATING 6 6 2 4931 4931 ELECTRIC AND OTHER SERVICES COMBINED 423 A HYDRO ELECTRIC PWR. GEN. (W/ SAM. VST.) 6 6 1 4931 6931 ELECTRIC AMD OTHER SERVICES COMBINED 423 A STEM! ELECTRIC POWER GENERATING 6 6 7 4941 4941 WATER SUPPLY 7 7 0 4952 4952 SEWERAGE SYSTEMS 1 1 0 4953 4953 REFUSE SYSTEMS SOLID WASTE FACILITIES 7 7 1 4953 4953 REFUSE SYSTEMS HAZARDOUS WASTE TREATMENT FACILITIES 10 10 2 4959 4959 SANITARY SERVICES, NEC I 1 0 4961 4961 STEAM SUPPLY 1 1 0 5052 $052 COAL i OTHER MINERALS i ORES 8 a 0 5093 5093 SCRAP L WASTE MATERIALS 10 10 0 5143 5143 DAIRY PRODUCTS 405 A RECEIVING STATIONS 1 1 D 5161 5169 CHEMICALS AND ALLIED PRODUCTS 10 10 0 5171 5171 PETROLEUM SULK STATIONS L T:RMIMALS a a 0 Colonial Pipeline Company—2020-L1-SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCO090000 2018 Generic RPA-95% Probability/95% Confidence Qw = 0.576 MGD MAXIMUM DATA POINTS=58 Qw(MGD)= 0.5760 WWTP/WTP Class: PC-1 1Q10S(cfs)= 0.21 IWC% @ 1Q10S = 80.9575626 7Q10S(cfs)= 0.25 IWC% @ 7Q10S= 78.1239062 7Q10W(cfs)= 0.42 IW%C @ 7Q10W= 68.0073126 30Q2(cfs)= 0.56 IWC%@ 30Q2= 61.4537445 Avg.Stream Flow,QA(cfs)= 3.90 IWC%@ QA= 18.6279419 Receiving Stream: North Prong Clark Creek HUC 30401050101 Stream Class: C PARAMETER NC STANDARDS OR EPA CRITERIA J REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPEApplied CY Chronic Standard Acute a n #Det. Max Pred Cw Allowable Cw Acute: 0 0 N/A —Chr_ - on_ic: --------------------------- Acute: 0 0 N/A —Chr_ - on_ic:---------- ---------------------------- Acute: 0 0 N/A —Chr_ - on_ic:--------------------------------------- Acute: 0 0 N/A —Chr_ - on_ic:---------- ---------------------------- Acute: 0 0 N/A —Chr_ - on_ic:--------------------------------------- Acute: 0 0 N/A --Chronic:---------- --------------------------- Acute: 0 0 N/A —Chr_ - on_ic:--------------------------------------- Acute: 0 0 N/A —Chr_ - on_ic:--------------------------------------- Acute: 0 0 N/A —Chr_ - on_ic:--------------------------------------- Acute: 0 0 N/A —Chr_ - on_ic:---------- ---------------------------- NCO090000 RPA,rpa Page 1 of 1 8/22/2021 Figure 1 Wastewater Type Selection Flow Diagram Start Does discharge contain Yes only noncontact Type cooling water? No Does discharge contain only process Yes Type II wastewater? No Does discharge contain neither noncontact Yes cooling water nor Type III process wastewaters? No Is process watewater flow greater than Yes Type II 1 MGD? No Is process wastewater flow greater than 10% Ye' Type e 11 of the total discharge? No Is noncontact cooling water greater than 90% Ye' P. Type I of the total discharge? No Type III 3 NC0090000 Limit BOD 0 mg/I 0.000000 Ib/gal 0.0 lb/day Flow 576,000 gpd TSS 30 mg/I 0.000250 Ib/gal 144.2 lb/day Flow 576,000 gpd NH3 0 mg/I 0.000000 Ib/gal 0.0 lb/day Flow 576,000 gpd Measurement �Ilr L- marls 1 45.1 Miles1 Glear Surface Water Classifications:Yadkin Pee-Dee fI itte Stream index: 1 3,-(15.5; lrj,4-,-_ Stream Name: PEE DEE RIVER Descr otion: From Norwood Dam to mouth of Turkey Top Creek ass;f.cat;on: WS-V,B Date of Class.: August 2,1992 What does this More info Class_mean? r River Basin: Yadkin Pee-Dee Pre�CTFL to enable snapping 17 + Zoom to ... r Rock Hill NORTH CAROLINA 2020 INTEGRATED REPORT Rocky Yadkin-Pee Dee River Basin AU Name AU Number Classification AU LengthArea AU Units AU ID Description North Prong Clarke Creek 13-17-4-1 C 4.4 FW Miles 2384 From source to Clarke Creek 2020 Draft Water Quality Assessments PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING Benthos (Nar, AL, FW) 3a Data Inconclusive Not Rated Bioclassification Hardy Creek 13-17-42 C 9.0 FW Miles 2385 From source to Rocky River 2020 Draft Water Quality Assessments PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING Fish Community (Nar, AL, FW) 5 Exceeding Criteria Fair, Poor or Severe Bioclassificatior South Prong Clarke Creek 13-17-4-2 C 3.5 FW Miles 2386 From source to Clarke Creek 2020 Draft Water Quality Assessments PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING Benthos (Nar, AL, FW) 1 Meeting Criteria Excellent, Good, Natural, Good-Fair, Ramah Creek 13-17-4-4 C 5.8 FW Miles 2393 From source to Clarke Creek 2020 Draft Water Quality Assessments PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING Benthos (Nar, AL, FW) 1 Meeting Criteria Excellent, Good, Natural, Good-Fair, Clarks Creek 13-17-5-2 C 4.4 FW Miles 2399 From source to Mallard Creek 2020 Draft Water Quality Assessments PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING Benthos (Nar, AL, FW) 5 Exceeding Criteria Fair, Poor or Severe Bioclassificatior 7/21/2021 NC 2020 INTEGRATED REPORT Category 5 assessments approved by EPA June 23,2021 Page 1305 of 1334 NORTH CAROLINA 2020 303(D) LIST Rocky Yadkin-Pee Dee River Basin AU Name AU Number Classification Length or Area Units AU ID Description Little Richardson Creek(Lake Monroe) 13-17-36-4-( WS-IV 77.1 FW Acres 2321 From source to a point 0.6 mile upstream of Buck Branch PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING 303D YEAR Chlorophyll a (40 µg/I,AL, NC) 5 Exceeding Criteria Exceeding Criteria with Statistical Confidence Little Richardson Creek(Lake Monroe) 13-17-36-4-( WS-IV;CA 38.7 FW Acres 2322 From a point 0.6 mile upstream of Buck Creek to Richardson Creek PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING 303D YEAR Water Temperature(322C,AL, LP&CP) 5 Exceeding Criteria Exceeding Criteria with Statistical Confidence pH (9.0,AL, FW) 5 Exceeding Criteria Exceeding Criteria with Statistical 2018 Confidence Chlorophyll a (40 µg/I,AL, NC) 5 Exceeding Criteria Exceeding Criteria with Statistical 2008 Confidence Stewarts Creek 13-17-36-9-( WS-III 8.3 FW Miles 2334 From source to a point 0.4 mile downstream of mouth of Stumplick Branch PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING 303D YEAR Benthos(Nar,AL, FW) 5 Exceeding Criteria Fair, Poor or Severe Bioclassification 2008 Stewarts Creek [Lake Twitty(Lake Stewart)] 13-17-36-9-( WS-III;CA 1.1 FW Miles 2335 From a point 0.4 mile downstream of mouth of Stumplick Branch to Union County SR 1681 (City of Monroe water supply intake) PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING 303D YEAR Chlorophyll a (40 µg/l,AL, NC) 5 Exceeding Criteria Exceeding Criteria with Statistical Confidence Clarke Creek 13-17-4 C 5.5 FW Miles 2350 From source to Rocky River PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING 303D YEAR Fish Community(Nar,AL, FW) 5 Exceeding Criteria Fair, Poor or Severe Bioclassification 1998 Lanes Creek 13-17-40-(1) WS-V 27.4 FW Miles 2351 From source to Marshville Water Supply Dam (located 0.1 mile downstream of Beaverdam Creek) PARAMETER IR CATEGORY CRITERIA STATUS REASON FOR RATING 303D YEAR Benthos(Nar,AL, FW) 5 Exceeding Criteria Fair, Poor or Severe Bioclassification 7/21/2021 NC 2020 303d List-Approved by EPA June 23,2021 Page 182 of 188 ' • NC DRAFT 2020 INTEGRATED REPORT VIEWER DWR Integrated Reporting Files Website ® T an 41 t � avilio� yestAte.how search results for 14511 ... ■■ Rst�`Or �. ,♦ �err, - \ �f •r , -_ ,_ ,,� r nCpt ■■ Ir M±As.ya c Po nt°ravlll°.Cp del '1 Rd �'` _ I, ��" � �.-:-,r ~ ..�1•�`;go-; ,.,`� r• -h ♦ - _ BBB - .lC kS•� ; R clo ke, .GcO ��/I r' y '.y •t .� -.'G11F - i' T'f'4.� a, _ ter.•--"r (1 of 4) •3 ► ' N, ` Y �.. s 'rr rx Sy r N�sr-ituo- y e r°err St-,//- 'r• °� 3 rye 2350CIarke Crook 9i� - °�cO• O �' 1 .v Tti «�"S hreeGr. . -L .0 cord,R i ,,. • .4r AU ID 1 _ c ns pi. tersAU NUMBER 13-17-4 vme on --Et lr yy •�- �� ' .� �: 1 e 17 .�' O 1 q -0•'1i �•�' `v7• m ` .. FO . N Qa ar 3 13: . I , ic PARAMETER o RFR Poor or Severe kSkb[ookGolf, �• �)rd Pk r • - : s ,� P ' •u n9 •ler Biocl_ « wr U cOa wy ➢ 'a+� ; + o _i �► S: b I CIUb� s N°rthyreen v`a : ACS > Sti�tn, p D ,.. U- ' r •mY rj� T'°Mc's'f qq - - YEAR Hillsp���aNZoom to O��" 3 •�..-`�o Fore1(; 1 r `; d 'fOp �yV ,�M1iS! ,f• ":'h p .� • O- I J: I - .. I A :•�,•�, ' ua �,�iuq'M _•' .i �. aN*ortrl�h 'M`ecklenbury - / Rd t t I CIED �. ~ 1.'" ,°\ p .?• . Pa , ♦ f..•. .. . � \ � ` v.�.•I'PCI4ESED`MY8 • �0-825 35-398 Degrees — ' wG° * Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY Table 1 . Project Information Table 2. Parameters of Concern ❑ CHECK IF HQW OR ORW WQS Name WQs Type Chronic Modifier Acute PQL Units Facility Name Colonial Pipeline Company—2020-L1-SR2448 Par01 Arsenic Aquactic Life C 150 FW 340 ug/L WWTP/WTP Class PC-1 Par02 Arsenic Human Health C 10 HH/WS N/A ug/L Water Supply NPDES Permit NCO090000 Par03 Beryllium Aquatic Life NC 6.5 FW 65 ug/L Outfall 001 Par04 Cadmium Aquatic Life NC 0.7389 FW 4.0789 ug/L Flow, Qw(MGD) 0.576 Par05 Chlorides Aquatic Life NC 230 FW mg/L Receiving Stream North Prong Clark Creek ParO Chlorinated Phenolic Compounds Water Supply NC 1 A ug/L HUC Number 30401050101 Par07 Total Phenolic Compounds Aquatic Life NC 300 A ug/L Stream Class C Par08 Chromium III Aquatic Life NC 150.2497 FW 1123.4066 ug/L ❑ Apply WS Hardness WQC Par09 Chromium VI Aquatic Life NC 11 FW 16 pg/L 7Q10s (cfs) 0.25 Par10 Chromium, Total Aquatic Life NC N/A FW N/A pg/L 7Q10w(cfs) 0.42 Par11 Copper Aquatic Life NC 10.1641 FW 13.4275 ug/L 30Q2 (cfs) 0.56 Par12 Cyanide Aquatic Life NC 5 FW 22 10 ug/L QA(cfs) 3.90 Par13 Fluoride Aquatic Life NC 1,800 FW ug/L 1Q10s (cfs) Par14 Lead Aquatic Life NC 4.1097 FW 101.5306 ug/L Effluent Hardness 25 mg/L (Avg) Par15 Mercury Aquatic Life NC 12 FW 0.5 ng/L Upstream Hardness 64.64 mg/L(Avg) Par16 Molybdenum Human Health NC 2000 HH ug/L ------------- --------------------- Combined Hardness Chronic 33.67 mg/L Par17 Nickel Aquatic Life NC 47.8980 FW 419.0428 pg/L ------------- --------------------- Combined Hardness Acute 32.55 mg/L Par18 Nickel Water Supply NC 25.0000 WS N/A pg/L --------------------- Data Source(s) MW data Sep2020_Jun2022. Instream Hardness Par19 Selenium Aquatic Life NC 5 FW 56 ug/L ❑ CHECK TO APPLY MODEL data Nov2021 from SW-1. PQLs are from the Par20 Silver Aquatic Life NC 0.06 FW 0.4666 ug/L NCDENR_DWR_WSS_LAB_PQLs Current Revision Date - 1/22/2021 Par21 Zinc Aquatic Life NC 163.1054 FW 157.1974 ug/L Par22 Par23 Par24 Follow directions for data entry. In some cases a Par25 comment menu list the available choices or a dropdown menu will provide a list you may select from. Error message occur if data entry does not meet input criteria. NC009000_GW DATA—FW RPA, input 8/26/2022 REASONABLE POTENTIAL ANALYSIS H1 Use"PASTE H2 Use"PASTE SPECIAL-Values" SPECIAL-Values" Effluent Hardness then"COPY". Upstream Hardness then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 Default Value 25 25 Std Dev. N/A 21319-SW-1 11/15/2021 60.5 60.5 Std Dev. 5.5464 2 Mean 25.0000 21320-SW-1 11/16/2021 70.5 70.5 Mean 64.6400 3 C.V. 0.0000 21321-SW-1 11/17/2021 68.8 68.8 C.V. (default) 0.6000 4 n 1 21322-SW-1 11/18/2021 66 66 n 5 5 10th Per value 25.00 mg/L 21323-SW-1 11/19/2021 57.4 57.4 10th Per value 58.64 mg/L 6 Average Value 25.00 mg/L 6 Average Value 64.64 mg/L 7 Max. Value 25.00 mg/L 7 Max. Value 70.50 mg/L 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 NC009000_GW DATA_FW RPA, data - 2 - 8/26/2022 REASONABLE POTENTIAL ANALYSIS Par07 Use"PASTE Par14 Use"PASTE SPECIAL-Values" SPECIAL-Values" Total Phenolic Compounds then"COPY". Lead then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date BDL=1/2DL Results 1 Std Dev. NO DATA MW-65 20210107 01/07/2021 264 264 Std Dev. 42.3493 2 Mean NO DATA MW-86 20210405 4/5/2021 175 175 Mean 84.4414 3 C.V. NO DATA MW-25 20210104 01/04/2021 160 160 C.V. 0.5015 4 n 0 MW-70 20210107 01/07/2021 155 155 n 58 5 MW-79D 20220201 2/1/2022 150 150 6 Mult Factor= N/A MW-14D 20210405 4/5/2021 143 143 Mult Factor= 1.00 7 Max. Value N/A ug/L MW-25_20201201 12/01/2020 142 142 Max. Value 264.000 ug/L 8 Max. Pred Cw N/A ug/L MW-51_20210105 01/05/2021 141 141 Max. Pred Cw 264.000 ug/L 9 MW-57D (91-101) 01/12/2021 124 124 10 MW-53 20210107 01/07/2021 123 123 11 MW-69 20210106 1/6/2021 123 123 12 MW-19 20210106 01/06/2021 115 115 13 MW-66 20210107 01/07/2021 107 107 14 MW-64 20210107 01/07/2021 101 101 15 MW-86 20210504 5/4/2021 100 100 16 MW-68 20210107 01/07/2021 99.2 99.2 17 MW-25 20201023 10/23/2020 97.9 97.9 18 Dup-1-20210107 01/07/2021 94.8 94.8 19 MW-14 20210105 01/05/2021 94.7 94.7 20 MW-23R 20201020 10/20/2020 94.4 94.4 21 MW-71 20210408 4/8/2021 94.2 94.2 22 MW-23 20210106 01/06/2021 85.1 85.1 23 Walker(101-108) 01/13/2021 81.4 81.4 24 MW-16D 20220406 4/6/2022 81.3 81.3 25 MW-7 20210104 01/04/2021 78 78 26 MW-36D 20210309 3/9/2021 76.9 76.9 27 MW-62 20210105 1/5/2021 74.5 74.5 28 MW-73 20220404 4/4/2022 74.3 74.3 29 MW-27 20220202 2/2/2022 74 74 30 MW-7 20201023 10/23/2020 73.1 73.1 31 MW-36D 20210209 02/09/2021 72.1 72.1 32 MW-19 20201020 10/20/2020 71.3 71.3 33 MW-41 20210105 01/05/2021 70.9 70.9 34 MW-83 20210311 3/11/2021 67.3 67.3 35 MW-73 20220303 3/3/2022 64.9 64.9 36 MW-71 20210507 5/7/2021 64.1 64.1 37 MW-14D 20210308 3/8/2021 59.2 59.2 38 MW-28 20201202 12/02/2020 58.8 58.8 39 MW-7 20210211 02/11/2021 57.1 57.1 40 MW-73 20220201 2/1/2022 55.5 55.5 41 MW-44 20210105 01/05/2021 54.4 54.4 42 MW-21 20201201 12/01/2020 53.7 53.7 43 MW-86 20220201 2/1/2022 53.1 53.1 44 MW-60 20210105 01/05/2021 52.8 52.8 45 MW-1 20201021 10/21/2020 50.8 50.8 46 MW-01 20220203 2/3/2022 50.6 50.6 47 MW-75 20220131 1/31/2022 49.8 49.8 48 MW-40 20201201 12/01/2020 47.9 47.9 49 DU P-2 01/05/2021 47.3 47.3 50 MW-66 20220103 1/3/2022 46.9 46.9 51 MW-16D 20220504 5/4/2022 46.2 46.2 52 MW-05 20210104 01/04/2021 46 46 53 MW-84 20210505 5/5/2021 45.7 45.7 54 MW-28 20210106 01/06/2021 45 45 55 MW-01 20201130 11/30/2020 43.9 43.9 56 MW-16 20210106 01/06/2021 42.7 42.7 57 DUP-1-202204408 4/8/2022 42.1 42.1 58 MW-16D 20220603 6/3/2022 40.7 40.7 NC009000_GW DATA_FW RPA, data - 3- 8/26/2022 Colonial Pipeline Company — 2020-L1 -SR2448 > Outfall 001 NCO090000 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Qw = 0.576 MGD MAXIMUM DATA POINTS = 58 Qw (MGD) = 0.5760 WWTP/WTP Class: PC-1 COMBINED HARDNESS (mg/L) 1Q10S (cfs) = 0.21 IWC% @ 1Q10S = 80.95756257 Acute = 32.55 mg/L 7Q10S (cfs) = 0.25 IWC% @ 7Q10S = 78.1239062 Chronic = 33.67 mg/L 7Q10W (cfs) = 0.42 IWC% @ 7Q10W= 68.00731261 30Q2 (cfs) = 0.56 IWC% @ 30Q2 = 61.45374449 Avg. Stream Flow, QA (cfs) = 3.90 IW%C @ QA= 18.62794191 Receiving Stream: North Prong Clark Creek HUC 30401050101 Stream Class: C PARAMETER NC STANDARDS OR EPA CRITERIA J H REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE Chronic Applied Standard Acute D n # Det. Max Pred Cw Allowable Cw Acute: NO WQS Total Phenolic Compounds NC 300 A(30Q2) ug/L 0 0 N/A ___ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ___ Chronic: 488.2 No Data (new Permit, New Waste Stream)-apply Monthly Monitoring, Pollutant of concern for petroluem product groundwater contamination. Acute: 125.412 RP shown-apply Monthly Monitoring with Limit. Lead NC 4.1097 FW(7Q10s) 101.5306 ug/L 58 58 264.0 Pollutant of concern for petroluem productgroundwater contamination. ------------------- ----------------------------- Chronic: 5.261 RP shown-apply Monthly Monitoring with Limit. Pollutant of concern for petroluem product 58 value(s) >Allowable Cw groundwater contamination. NC009000_GW DATA_FW RPA, rpa Page 4 of 5 8/26/2022 Date: 8/26/2022 FACILITY: Colonial Pipeline Company- 2020-L1-SR2448 Outf; NPDES PERMIT: NCO090000 Dissolved to Total Metal Calculator In accordance with Federal Regulations, permit limitations must be written as Total Metals per 40 CFR 122.45(c) ReceivingReceiving Rec. Stream NPDES Total Suspended Combined Combined 9 P Instream Instream Effluent Upstream Stream Stream 1Q10 Flow Limit Hardness Solids Hardness Hardness Wastewater Wastewater Hardness summer summer 7Q10 -Fixed Value- chronic Acute Concentration Concentration Avera Average 7Q10 (CFS) (MGD) [MGD] [MGD] (mg/L) (mg/L) (mg/L) (Chronic) (Acute) ge(mg/L) (mg/L) 0.2500 0.1613 0.1355 0.5760 10 33.672 32.548 78.1239 80.9576 64.64 25 Upstream Hard Avg (mg/L) = 64.64 EFF Hard Avg (mg/L) = 25 Dissolved Metals Criteria US EPA Total Metal Criteria Total Metal COMMENTS (identify parameters to PERCS Branch to maintain in facility's LTMP/STMP): after applying hardness Translators- using = PARAMETER equation Default Partition Dissolved Metal=Translator Chronic Acute Coefficients Chronic Acute [ug/1] [ug/1] (streams) [ug/1] [ug/1] Cadmium (d) 0.19 1.03 0.252 0.74 4.08 Cd -Trout streams 0.19 0.64 0.252 0.74 2.54 Chromium III (d)(h) 30 227 0.202 150.25 1123.41 Chromium VI (d) 11 16 1.000 11.00 16.00 Chromium, Total (t) N/A N/A Copper (d)(h) 3.5 4.7 0.348 10.16 13.43 Lead (d)(h) 0.76 19 0.184 4.11 101.53 Nickel (d)(h) 21 181 0.432 47.90 419.04 Ni - WS streams (t) 25 N/A Silver (d)(h,acute) 0.06 0.47 1.000 0.06 0.47 Zinc (d)(h) 1 47 45 0.288 163.11 157.20 Beryllium 6.5 65 1.000 6.5 65 Arsenic (d) 150 340 1.000 150 340 (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. NC DIVISION OF WATER RESOURCES NPDES Implementation of Instream Dissolved Metals Criteria The NC 2007-2014 Water Quality Standard(WQS)Triennial Review was approved by the NC Environmental Management Committee(EMC)on November 13,2014. The US EPA subsequently approved the WQS revisions on April 6,2016 with some exceptions.All permits public noticed by the NC Division of Water Resources NPDES Permitting Unit after April 6,2016 shall include the implementation of the approved 2007-2014 Triennial Review Rules for freshwater and saltwater water quality criteria. Table 1.NC Dissolved Metals Water uality Criteria/A uatic Life Protection Parameter Acute FW,ug/l Chronic FW,ug/l Acute SW,ug/l Chronic SW,ug/l (Dissolved) (Dissolved) (Dissolved) (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 criteria 3. Only the aquatic life criteria listed above are in dissolved form. Mercury and selenium criteria have been retained as Total Metals criteria due to bioaccumulative concerns. It is still necessary to evaluate total recoverable criteria for human health. NC has also retained the existing toxic criteria listed in 15A NCAC 213.0200(e.g., arsenic at 10 ug/1 for human health protection), cyanide, fluoride. 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, ug/1 Cadmium,Acute {1.136672-[ln hardness](0.041838)) e^{0.9151 [ln hardness]-3.1485} Cadmium, Acute {1.136672-[ln hardness](0.041838)) e^{0.9151[1n hardness]-3.6236} Trout waters Cadmium,Chronic {1.101672-[ln hardness](0.041838)) e^{0.7998[1n hardness]-4.4451) Chromium III,Acute 0.316 e^{0.8190[ln hardness]+3.7256} Chromium III, 0.860 e^{0.8190[ln hardness]+0.6848} Chronic Copper,Acute 0.960 e^{0.9422[ln hardness]-1.700} Copper,Chronic 0.960 e^{0.8545[ln hardness]-1.702} Lead,Acute {1.46203-[ln hardness](0.145712)} •e^{1.273[ln hardness]-1.460} Lead,Chronic {1.46203-[ln hardness](0.145712)} •e^{1.273[ln hardness]-4.705} Page 1 of 4 Nickel,Acute 0.998 e^{0.8460[ln hardness]+2.255} Nickel,Chronic 0.997 e^{0.8460[ln hardness]+0.0584} Silver,Acute 0.85 •e All.72[ln hardness]-6.59{ Silver,Chronic Not applicable Zinc,Acute 0.978 e^{0.8473[ln hardness]+0.8841 Zinc,Chronic 0.986 e^{0.8473[ln hardness]+0.884} RPA Permitting Guidance/WQBELs for Hardness-Dependent Metals - Freshwater The Reasonable Potential Analysis(RPA)is designed to calculate the allowable instream concentrations for permit limitations. Limitations are required based upon a showing of"reasonable potential" to exceed water quality standards. 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, 7Q 10 (the spreadsheet automatically calculates the 1 Q 10 using the formula 1 Q 10=0.843 (7Q 10)0.993) • The mean annual receiving stream flow(QA), for carcinogen comparisons against HH criteria • The minimum average flow over 30 consecutive days that has an average recurrence of once in two years(30Q2) in the receiving stream, for comparisons against aesthetic standards • effluent hardness and upstream hardness, site-specific data is preferred • Permitted flow • Receiving stream classification 2. The chronic Aquatic Life water quality criteria is converted from total recoverable metal at lab conditions to dissolved lab conditions for the following metals: cadmium, copper, lead,nickel, zinc, and trivalent chromium. EPA default partition coefficients,or site-specific translators developed using federally approved methodology, are used in the RPA spreadsheet to convert the dissolved lab conditions to a total recoverable metal at ambient conditions. 3. The acute Aquatic Life water quality criteria is converted from total recoverable metal at lab conditions to dissolved lab conditions for the following metals: cadmium, copper, lead,nickel, zinc, silver and trivalent chromium. EPA default partition coefficients, or site-specific translators developed using federally approved methodology, are used in the RPA spreadsheet to convert the dissolved lab conditions to a total recoverable metal at ambient conditions. 4. For criteria that are hardness dependent, site-specific hardness data(effluent and upstream)is best to evaluate chronic and acute concentrations. The permit writer will first review DMR's,Effluent Pollutant Scans, and Toxicity Test results for any hardness data and then contact 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 and total suspended solids(TSS)of 10 mg/L to see if the permittee is impacted. Minimum and maximum limits on the hardness value used for water quality calculations are 25 mg/L and 400 mg/L respectively. The minimum TSS value used for EPA partition coefficients is 10 mg/L. Page 2 of 4 If the use of a default hardness value results in a hardness-dependent metal showing reasonable potential to violate water quality criteria the permit writer should contact the Permittee and request 5 site-specific effluent and upstream hardness samples. The overall hardness value used in the water quality calculations is calculated as follows: Combined Hardness (chronic) _(Permitted Flow*Avg. Effluent Hardness)x(7Q10 S*Avg_Upstream Hardness) (Permitted flow+7Q 10 S) The Combined Hardness for acute is the same but the calculation uses the IQ 10 flow. 5. 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 + { [Kp.] [ss('+a)] [10-6] } Where: ss=in-stream suspended solids concentration [mg/1],minimum of 10 mg/L used 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. 6. The dissolved hardness-dependent metals calculations are divided by the default partition coefficients(or translators)to obtain a Total Recoverable Metal at ambient conditions. Dissolved metals that do not have translators or default partition coefficients are divided by one. All other standards (HH,WS,non-hardness dependent metals)are automatically shown in Table 2 of the RPA spreadsheet when the program is initiated. 7. The standards,criteria, and calculated Total Recoverable metals listed in Table 2 of the RPA spreadsheet are inserted into a mass balance equation to determine the total allowable concentration(permit limits) for each pollutant using the following equation: Ca=(s7Q10+Qw) (Cwgs)-s7Q10) (Cb) Qw Where: Ca=allowable effluent concentration(µg/L or mg/L) Cwqs=NC Water Quality Standard or federal criteria Cb=background concentration(assume zero for all toxicants except NH3)* Qw=permitted effluent flow 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 * Discussions are on-going with EPA on how best to address background concentrations Flows other than S7Q10 may be incorporated as applicable: 1 Q 10=used in the equation to protect aquatic life from acute toxicity 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 The total allowable concentration(permit limits)are shown on the"RPA Sheet"in the RPA spreadsheet. Page 3 of 4 8. Effluent toxicant data is entered into the"Data Sheet."of the RPA spreadsheet which uses statistics to estimate the 95th percentile concentration of each pollutant. These concentrations are listed as the Predicted max concentrations on the"RPA Sheet"in the RPA spreadsheet. The Predicted Max concentrations are compared to the Total allowable acute and chronic concentrations to determine if a permit limit is necessary. This is in accordance with the U.S. EPA Technical Support Document for Water Quality-Based Toxics Control published in 1991. 9. Effluent hardness sampling and instream hardness sampling,upstream of the discharge, is being inserted into all permits with facilities monitoring for hardness-dependent metals 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 Effluent Hardness(mg/L) 25 mg/L Default value [Total as,CaCO3 or(Ca+Mg)] Upstream Hardness(mg/L) 64.64 mg/L Instream Hardness data Nov2021 [Total as,CaCO3 or(Ca+Mg)] from SW-1. 7Q10 summer(cfs) 0.25 USGS J. Curtis Weaver,June 15, 2021. 1 Q 10 (cfs) 0.21 RPA calculation Permitted Flow(MGD) 0.576 MGD Permit application 11. The Total Chromium NC WQS was removed and replaced with trivalent chromium and hexavalent chromium WQC. Effluent sampling data on Total Chromium is used as a surrogate parameter to assess if limitations and/or sampling are required for trivalent or hexavalent chromium. Date: 08/25/2022 Permit Writer: Derek Denard Page 4 of 4 2018 Generic RPA - 95% Probability/95% Confidence MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY MISSING DATA or ENTRY ERROR Table 1. Project Information Table 2. Parameters of Concern ❑ CHECK IF HQW OR ORW Name Type Chronic Modifier Acute PQL Units Facility Name Colonial Pipeline Company—2020-L1-SR2448 Par01 Benzene C 51 HH 1 pg/L WWTP/WTP Class PC-1 Par02 Bromobenzene 1 pg/L ?DATA? NPDES Permit NCO090000 Par03 Bromochloromethane 1 pg/L ?DATA? Outfall 001 Par04 Bromodichloromethane(Dichlorobromomethane) C 17 HH 1 pg/L Flow, Qw (MGD) 0.576 Par05 Bromoform C 120 HH 2 pg/L Receiving Stream North Prong Clark Creek Par06 Bromomethane (Methyl Bromide) NC 0.04 FW 2 pg/L Stream Class C Par07 n-Butylbenzene NC 3.9 FW 1 pg/L HUC Number 30401050101 Par08 sec-Butyl benzene 1 pg/L ?DATA? 7Q10s (cfs) 0.25 Par09 tert-Butyl benzene 1 pg/L ?DATA? 7Q10w (cfs) 0.42 Par10 Carbon tetrachloride C 1.6 HH 1 pg/L 30Q2 (cfs) 0.56 Par11 Chlorobenzene NC 140 FW 1 pg/L QA(cfs) 3.90 Par12 Chloroethane 2 pg/L ?DATA? 1Q10s (cfs) 0.21 Par13 Chloroform (Tricholomethane) NC 2000 HH 1 pg/L Data Source(s) MW data Sep202O_Jun2O22. PQLs are from the Par14 Chloromethane (Methyl Chloride) NC 96 HH 2 pg/L ❑ CHECK TO APPLY MODEL NCDENR_DWR_WSS_LAB_PQLs Current FCHECK TO APPLY MODEL Par15 2-Chlorotoluene 1 pg/L ?DATA? Revision Date - 1/22/2021. Par16 4-Chlorotoluene 1 pg/L ?DATA? Par17 1,2-Dibromo-3-chloropropane(Nemagon) C 0.13 HH 2 pg/L Par18 Dibromochloromethane(Chlorodibromomethane) C 21 HH 2 pg/L Par19 1,2-Dibromoethane (EDB) C 0.1 HH 1 pg/L Follow directions for data entry. In some cases a Par20 Dibromomethane 1 pg/L ?DATA? comment menu list the available choices or a Par21 1,2-Dichlorobenzene NC 470 FW 1 pg/L dropdown menu will provide a list you may select Par22 1,3-Dichlorobenzene NC 10 HH 1 pg/L from. Error message occur if data entry does not meet input criteria. NC009000_GW DATA—GENERIC RPA_Part 1, input 9/11/2022 REASONABLE POTENTIAL ANALYSIS 1 2 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Benzene Maximum data points Bromobenzene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220601 6/1/2022 9240 9240 Std Dev. 2486.0760 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-52 20220506 5/6/2022 8920 8920 Mean 3263.1724 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220406 4/6/2022 8540 8540 C.V. 0.7619 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 DUP-1-202204408 4/8/2022 7890 7890 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-48 20220408 4/8/2022 7860 7860 MW-19 20220301 3/1/2022 < 50 25 MW-48 20220506 5/6/2022 7860 7860 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-48_20220603 6/3/2022 7320 7320 Max. Value 9240.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20220504 5/4/2022 6840 6840 Max. Pred Cw 9240.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20220201 2/1/2022 6580 6580 MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20220301 3/1/2022 6260 6260 DUP-2-20211102 11/2/2021 < 25 12.5 MW-52 20220407 4/7/2022 5920 5920 MW-19_20211201 12/1/2021 < 25 12.5 MW-19 20211201 12/1/2021 5280 5280 MW-48_20220408 4/8/2022 < 25 12.5 MW-19 20210831 8/31/2021 5270 5270 DUP-1-202204408 4/8/2022 < 25 12.5 MW-19 20220105 1/5/2022 4950 4950 MW-48 20220506 5/6/2022 < 25 12.5 MW-50 20210106 1/6/2021 4670 4670 MW-48 20220603 6/3/2022 < 25 12.5 MW-19 20210405 4/5/2021 4560 4560 MW-50 20210106 1/6/2021 < 25 12.5 DUP-2-20211102 11/2/2021 4440 4440 MW-52 20220407 4/7/2022 < 25 12.5 MW-19 20210504 5/4/2021 4330 4330 MW-52 20220506 5/6/2022 < 25 12.5 MW-19 20210707 7/7/2021 4280 4280 MW-11 20201020 10/20/2020 < 20 10 MW-19 20211102 11/2/2021 4220 4220 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 4090 4090 MW-19 20210803 8/3/2021 < 20 10 MW-50 20201202 12/02/2020 3730 3730 MW-19 20211001 10/1/2021 < 20 10 MW-19 20210602 6/2/2021 3400 3400 MW-19 20220105 1/5/2022 < 20 10 MW-19 20211001 10/1/2021 2500 2500 MW-29 20210805 8/5/2021 < 20 10 MW-52 20220303 3/3/2022 2410 2410 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 2380 2380 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210805 8/5/2021 2360 2360 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-38 20210902 9/2/2021 2270 2270 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-19 20210308 3/8/2021 2140 2140 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 2000 2000 MW-50 20220531 5/31/2022 < 12.5 6.25 DUP-2-20210709 7/9/2021 1950 1950 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-38 20210804 8/4/2021 1920 1920 MW-52 20210929 9/29/2021 < 12 6 MW-40 20210106 01/06/2021 1870 1870 MW-19 20210308 3/8/2021 < 10 5 MW-52 20211203 12/3/2021 1850 1850 MW-29 20210603 6/3/2021 < 10 5 MW-21 20210603 6/3/2021 1780 1780 MW-50 20201202 12/02/2020 < 10 5 MW-11 20201020 10/20/2020 1740 1740 MW-52 20220303 3/3/2022 < 10 5 MW-38 20210707 7/7/2021 1630 1630 MW-21 20210603 6/3/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 1630 1630 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 1490 1490 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-21 20210308 3/8/2021 1470 1470 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-50 20220531 5/31/2022 1400 1400 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 1370 1370 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-38 20210603 6/3/2021 1320 1320 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50 20210503 5/3/2021 1250 1250 MW-21 20210210 2/10/2021 < 5 2.5 MW-29 20210603 6/3/2021 1170 1170 MW-21 20210308 3/8/2021 < 5 2.5 MW-52 20220203 2/3/2022 1170 1170 MW-21 20211001 10/1/2021 < 5 2.5 MW-52 20210929 9/29/2021 1100 1100 MW-25 20220105 1/5/2022 < 5 2.5 MW-52 20210902 9/2/2021 1080 1080 MW-29 20210507 5/7/2021 < 5 2.5 MW-52 20211105 11/5/2021 1050 1050 MW-38 20210506 5/6/2021 < 5 2.5 MW-21 20210210 2/10/2021 1030 1030 MW-38 20210603 6/3/2021 < 5 2.5 MW-50 20210212 2/12/2021 996 996 MW-38 20210707 7/7/2021 < 5 2.5 MW-54 20210805 8/5/2021 984 984 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210506 5/6/2021 978 978 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 966 966 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20220131 1/31/2022 901 901 MW-50 20210503 5/3/2021 < 5 2.5 MW-55 20201023 10/23/2020 900 900 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 883 883 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220502 5/2/2022 876 876 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 1, data -2 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 3 4 Use"PASTE SPECIAL Use"PASTE SPECIAL Bromochloromethane Values"then"COPY". Bromodichloromethane (Dichlorobromome values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-66 20210830 8/30/2021 1.1 1.1 Std Dev. 8.7560 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.4488 MW-19 20220406 4/6/2022 < 100 50 Mean 9.0095 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.4767 MW-19 20220601 6/1/2022 < 62.5 31.25 C.V. 0.9719 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.8915 MW-19 20210831 8/31/2021 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20220504 5/4/2022 < 50 25 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20210504 5/4/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29_20210902 9/2/2021 < 20 10 Walker (101-108) 01/13/2021 7.5 7.5 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-23 20200920 09/20/2020 6.1 6.1 MW-19 20210308 3/8/2021 < 10 5 MW-52 20210929 9/29/2021 < 12 6 MW-29 20210603 6/3/2021 < 10 5 MW-61 20201203 12/03/2020 5.5 5.5 MW-50 20201202 12/02/2020 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-50 20201202 12/02/2020 < 10 5 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-52 20220303 3/3/2022 < 10 5 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-62 20201203 12/3/2020 4.8 4.8 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-60 20201007 10/07/2020 4.1 4.1 MW-41_20220505 5/5/2022 < 6.2 3.1 MW-69 20210604 6/4/2021 3.9 3.9 MW-50_20201020 10/20/2020 < 6.2 3.1 Dup-9 01/13/2021 3.9 3.9 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-51 20200922 09/22/2020 3.8 3.8 MW-21_20210210 2/10/2021 < 5 2.5 Walker (48-55) 01/13/2021 3.8 3.8 MW-21 20210308 3/8/2021 < 5 2.5 MW-62 20210105 1/5/2021 3.7 3.7 MW-21 20211001 10/1/2021 < 5 2.5 MW-69 20210507 5/7/2021 3.4 3.4 MW-25 20220105 1/5/2022 < 5 2.5 MW-19 20200916 09/16/2020 3.3 3.3 MW-29 20210507 5/7/2021 < 5 2.5 MW-61 D_20210210 2/10/2021 3.3 3.3 MW-38 20210506 5/6/2021 < 5 2.5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-38 20210603 6/3/2021 < 5 2.5 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-38 20210707 7/7/2021 < 5 2.5 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-39 20200916 09/16/2020 < 5 2.5 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20210503 5/3/2021 < 5 2.5 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50 20211130 11/30/2021 < 5 2.5 MW-61 D_20210310 3/10/2021 3.1 3.1 DUP-2-20211130 11/30/2021 < 5 2.5 M W-54 20201006 10/06/2020 3 3 NC009000 GW DATA GENERIC RPA Part 1, data - 3 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 5 6 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Bromoform Bromomethane (Methyl Bromide) Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.8258 MW-16D 20220406 4/6/2022 3.5 3.5 Std Dev. 87.9933 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.2491 MW-19 20220406 4/6/2022 < 1000 500 Mean 89.3922 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9542 MW-19 20220601 6/1/2022 < 625 312.5 C.V. 0.9844 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20210831 8/31/2021 < 500 250 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220201 2/1/2022 < 500 250 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220301 3/1/2022 < 500 250 Mult Factor= 1.0000 MW-19_20211001 10/1/2021 < 40 20 Max. Value 50.0 Ng/L MW-19_20220504 5/4/2022 < 500 250 Max. Value 500.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210405 4/5/2021 < 250 125 Max. Pred Cw 500.0 pg/L MW-19 20210504 5/4/2021 < 25 12.5 MW-19 20210504 5/4/2021 < 250 125 MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 250 125 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 250 125 MW-19 20211201 12/1/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 250 125 MW-48 20220408 4/8/2022 < 25 12.5 MW-48 20220408 4/8/2022 < 250 125 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 250 125 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 250 125 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 250 125 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 250 125 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 250 125 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 250 125 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 200 100 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 200 100 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 200 100 MW-19 20220105 1/5/2022 < 20 10 MW-19 20211001 10/1/2021 < 200 100 MW-29 20210805 8/5/2021 < 20 10 MW-19 20220105 1/5/2022 < 200 100 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210805 8/5/2021 < 200 100 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210902 9/2/2021 < 200 100 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 125 62.5 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 125 62.5 MW-40 20210106 01/06/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 125 62.5 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-40_20210106 01/06/2021 < 125 62.5 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-50_20220531 5/31/2022 < 125 62.5 MW-52 20210929 9/29/2021 < 12 6 MW-55_20201023 10/23/2020 < 125 62.5 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 100 50 MW-21 20211001 10/1/2021 < 10 5 MW-29 20210603 6/3/2021 < 100 50 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 100 50 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 100 50 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 62.5 31.25 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 62.5 31.25 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 62.5 31.25 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 62.5 31.25 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 62.5 31.25 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 62.5 31.25 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 62.5 31.25 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 50 25 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 50 25 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 50 25 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 50 25 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 50 25 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 50 25 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 50 25 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 50 25 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 50 25 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 50 25 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 50 25 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 50 25 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 50 25 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 50 25 MW-50 20220103 1/3/2022 < 5 2.5 MW-50 20220103 1/3/2022 < 50 25 NC009000_GW DATA-GENERIC RPA_Part 1, data -4 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 7 8 Use"PASTE SPECIAL Use"PASTE SPECIAL n-Butylbenzene Values"then"COPY". sec-Butyl benzene Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 9.1948 MW-07_20210928 9/28/2021 0.14 0.5 Std Dev. 8.7957 MW-55 20220603 6/3/2022 37 37 Mean 10.0698 MW-25_20210929 9/29/2021 0.12 0.5 Mean 8.9647 MW-19 20220601 6/1/2022 < 62.5 31.25 C.V. 0.9131 MW-19_20220406 4/6/2022 < 100 50 C.V. 0.9812 MW-19 20220504 5/4/2022 < 50 25 n 58 MW-19_20220601 6/1/2022 < 62.5 31.25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19_20210831 8/31/2021 < 50 25 MW-19 20220201 2/1/2022 < 50 25 Mult Factor= 1.0000 MW-19_20220201 2/1/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210831 8/31/2021 < 50 25 Max. Value 50.0 pg/L MW-19_20220301 3/1/2022 < 50 25 Max. Value 50.0 pg/L MW-52_20220506 5/6/2022 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20220504 5/4/2022 < 50 25 Max. Pred Cw 50.0 pg/L MW-52 20220407 4/7/2022 < 25 12.5 MW-19_20210405 4/5/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-19_20210504 5/4/2021 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-19_20211102 11/2/2021 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-19 20210504 5/4/2021 < 25 12.5 MW-48_20220506 5/6/2022 < 25 12.5 MW-19 20210405 4/5/2021 < 25 12.5 MW-48_20220603 6/3/2022 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-29 20210902 9/2/2021 < 20 10 MW-52_20220506 5/6/2022 < 25 12.5 MW-29 20210805 8/5/2021 < 20 10 MW-11_20201020 10/20/2020 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19_20210707 7/7/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19_20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19_20211001 10/1/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19_20220105 1/5/2022 < 20 10 MW-1 120201020 10/20/2020 < 20 10 MW-29_20210805 8/5/2021 < 20 10 MW-61 20220506 5/6/2022 8.9 8.9 MW-29_20210902 9/2/2021 < 20 10 MW-61 20220603 6/3/2022 8.6 8.6 MW-19_20210602 6/2/2021 < 12.5 6.25 Dup-9 01/13/2021 6.6 6.6 MW-29_20210709 7/9/2021 < 12.5 6.25 DUP-2-20220603 6/3/2022 6.6 6.6 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-40_20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50_20220531 5/31/2022 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-55_20201023 10/23/2020 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-52_20210929 9/29/2021 < 12 6 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19_20210308 3/8/2021 < 10 5 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-29 20210603 6/3/2021 < 10 5 MW-52 20210929 9/29/2021 < 12 6 MW-50_20201202 12/02/2020 < 10 5 Walker(48-55) 01/13/2021 5.4 5.4 MW-52_20220303 3/3/2022 < 10 5 MW-25R 20220603 6/3/2022 5.1 5.1 MW-21_20210603 6/3/2021 < 6.2 3.1 MW-52 20220303 3/3/2022 < 10 5 MW-21_20210707 7/7/2021 < 6.2 3.1 MW-50 20201202 12/02/2020 < 10 5 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-29 20210603 6/3/2021 < 10 5 MW-38_20210902 9/2/2021 < 6.2 3.1 MW-19 20210308 3/8/2021 < 10 5 MW-41_20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50_20201020 10/20/2020 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-55_20220603 6/3/2022 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-21_20210210 2/10/2021 < 5 2.5 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21_20210308 3/8/2021 < 5 2.5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21_20211001 10/1/2021 < 5 2.5 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-25 20220105 1/5/2022 < 5 2.5 MW-54 20210805 8/5/2021 < 5 2.5 MW-29_20210507 5/7/2021 < 5 2.5 MW-54 20210604 6/4/2021 < 5 2.5 MW-38_20210506 5/6/2021 < 5 2.5 MW-52 20220203 2/3/2022 < 5 2.5 MW-38_20210603 6/3/2021 < 5 2.5 MW-52 20211203 12/3/2021 < 5 2.5 MW-38_20210707 7/7/2021 < 5 2.5 MW-52 20211105 11/5/2021 < 5 2.5 MW-38_20210804 8/4/2021 < 5 2.5 MW-52 20210902 9/2/2021 < 5 2.5 MW-39_20200916 09/16/2020 < 5 2.5 MW-50 20220502 5/2/2022 < 5 2.5 MW-50_20210212 2/12/2021 < 5 2.5 MW-50 20220404 4/4/2022 < 5 2.5 MW-50_20210503 5/3/2021 < 5 2.5 MW-50 20220228 2/28/2022 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 5- 9/11/2022 REASONABLE POTENTIAL ANALYSIS 9 10 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". tent-Butyl benzene Maximum data points Carbon tetrachloride Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.8750 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.88 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 8.7216 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 8.72 MW-19 20210831 8/31/2021 < 50 25 C.V. 1.0176 MW-19 20210831 8/31/2021 < 50 25 C.V. 1.0176 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.00 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50_20220531 5/31/2022 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52_20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29_20210603 6/3/2021 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52_20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21_20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21_20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 MW-50 20220131 1/31/2022 < 5 2.5 MW-50 20220131 1/31/2022 < 5 2.5 MW-50 20220228 2/28/2022 < 5 2.5 MW-50 20220228 2/28/2022 < 5 2.5 MW-50 20220404 4/4/2022 < 5 2.5 MW-50 20220404 4/4/2022 < 5 2.5 MW-50 20220502 5/2/2022 < 5 2.5 MW-50 20220502 5/2/2022 < 5 2.5 MW-52 20210902 9/2/2021 < 5 2.5 MW-52 20210902 9/2/2021 < 5 2.5 MW-52 20211105 11/5/2021 < 5 2.5 1 MW-52 20211105 11/5/2021 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 6 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 11 12 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Chlorobenzene Maximum data points Chloroethane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 DUP-1 01/04/2021 1.1 1 Std Dev. 17.6677 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-70 20210706 7/6/2021 0.46 1 Mean 17.6595 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220406 4/6/2022 < 200 100 C.V. 1.0005 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220601 6/1/2022 < 125 62.5 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20210831 8/31/2021 < 100 50 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220201 2/1/2022 < 100 50 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 Ng/L MW-19_20220301 3/1/2022 < 100 50 Max. Value 100.0 Ng/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20220504 5/4/2022 < 100 50 Max. Pred Cw 100.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20210405 4/5/2021 < 50 25 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20210504 5/4/2021 < 50 25 MW-19 20211201 12/1/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 50 25 MW-48 20220408 4/8/2022 < 25 12.5 DUP-2-20211102 11/2/2021 < 50 25 DUP-1-202204408 4/8/2022 < 25 12.5 MW-19 20211201 12/1/2021 < 50 25 MW-48 20220506 5/6/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 50 25 MW-48 20220603 6/3/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 50 25 MW-50 20210106 1/6/2021 < 25 12.5 MW-48 20220506 5/6/2022 < 50 25 MW-52 20220407 4/7/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 50 25 MW-52 20220506 5/6/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 50 25 MW-11 20201020 10/20/2020 < 20 10 MW-52 20220407 4/7/2022 < 50 25 MW-19 20210707 7/7/2021 < 20 10 MW-52 20220506 5/6/2022 < 50 25 MW-19 20210803 8/3/2021 < 20 10 MW-11 20201020 10/20/2020 < 40 20 MW-19 20211001 10/1/2021 < 20 10 MW-19 20210707 7/7/2021 < 40 20 MW-19 20220105 1/5/2022 < 20 10 MW-19 20210803 8/3/2021 < 40 20 MW-29 20210805 8/5/2021 < 20 10 MW-19 20220105 1/5/2022 < 40 20 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210805 8/5/2021 < 40 20 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210902 9/2/2021 < 40 20 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 25 12.5 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 25 12.5 MW-40 20210106 01/06/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 25 12.5 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-40 20210106 01/06/2021 < 25 12.5 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-50 20220531 5/31/2022 < 25 12.5 MW-52 20210929 9/29/2021 < 12 6 MW-55 20201023 10/23/2020 < 25 12.5 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 20 10 MW-29 20210603 6/3/2021 < 10 5 MW-19 20211001 10/1/2021 < 20 10 MW-50 20201202 12/02/2020 < 10 5 MW-29 20210603 6/3/2021 < 20 10 MW-52 20220303 3/3/2022 < 10 5 MW-50 20201202 12/02/2020 < 20 10 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-52 20220303 3/3/2022 < 20 10 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 12.5 6.25 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 12.5 6.25 MW-38 20210902 9/2/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 12.5 6.25 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-38 20210902 9/2/2021 < 12.5 6.25 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-41 20220505 5/5/2022 < 12.5 6.25 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 12.5 6.25 MW-21 20210210 2/10/2021 < 5 2.5 MW-55 20220603 6/3/2022 < 12.5 6.25 MW-21 20210308 3/8/2021 < 5 2.5 MW-52 20210929 9/29/2021 < 12 6 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 10 5 MW-25 20220105 1/5/2022 < 5 2.5 MW-21 20210308 3/8/2021 < 10 5 MW-29 20210507 5/7/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 10 5 MW-38 20210506 5/6/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 10 5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 10 5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 10 5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 10 5 MW-39 20200916 09/16/2020 < 5 2.5 MW-38 20210804 8/4/2021 < 10 5 MW-50 20210212 2/12/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 10 5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 10 5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 10 5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 10 5 MW-50 20220103 1/3/2022 < 5 2.5 1 DUP-2-20211130 11/30/2021 < 10 5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 7 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 13 14 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Chloroform (Tricholomethane) Maximum data points Chloromethane (Methyl Chloride) Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results Walker (101-108) 01/13/2021 403 403 Std Dev. 51.8633 MW-50_20211130 11/30/2021 10 10 Std Dev. 17.5760 Walker (48-55) 01/13/2021 81.3 81.3 Mean 27.8750 DUP-2-20211130 11/30/2021 9.6 9.6 Mean 18.0647 Dup-9 01/13/2021 78.7 78.7 C.V. 1.8606 Walker (101-108) 01/13/2021 4.9 4.9 C.V. 0.9729 MW-19 20220406 4/6/2022 < 100 50 n 58 MW-25_20211201 12/1/2021 1.8 1 n 58 MW-23_20200920 09/20/2020 36.9 36.9 Walker (48-55) 01/13/2021 1.1 1 MW-19 20220601 6/1/2022 < 62.5 31.25 Mult Factor= 1.0000 MW-19_20220406 4/6/2022 < 200 100 Mult Factor= 1.0000 MW-61_20201203 12/03/2020 31 31 Max. Value 403.0 pg/L MW-19_20220601 6/1/2022 < 125 62.5 Max. Value 100.0 pg/L MW-19_20200916 09/16/2020 30.8 30.8 Max. Pred Cw 403.0 pg/L MW-19_20210831 8/31/2021 < 100 50 Max. Pred Cw 100.0 pg/L MW-54 20201006 10/06/2020 28.2 28.2 MW-19 20220201 2/1/2022 < 100 50 MW-46 20200915 09/15/2020 26.2 26.2 MW-19 20220301 3/1/2022 < 100 50 MW-51 20200922 09/22/2020 26.1 26.1 MW-19 20220504 5/4/2022 < 100 50 MW-19 20210831 8/31/2021 < 50 25 MW-19 20210405 4/5/2021 < 50 25 MW-19 20220201 2/1/2022 < 50 25 MW-19 20210504 5/4/2021 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20211102 11/2/2021 < 50 25 MW-19 20220504 5/4/2022 < 50 25 DUP-2-20211102 11/2/2021 < 50 25 MW-19 20201007 10/07/2020 24.5 24.5 MW-19 20211201 12/1/2021 < 50 25 MW-42 20201007 09/13/2020 23.9 23.9 MW-48 20220408 4/8/2022 < 50 25 MW-42 20200915 09/15/2020 23.8 23.8 DUP-1-202204408 4/8/2022 < 50 25 MW-53 20201006 10/06/2020 22.9 22.9 MW-48 20220506 5/6/2022 < 50 25 MW-62 20201203 12/3/2020 22.2 22.2 MW-48 20220603 6/3/2022 < 50 25 MW-13 20200915 09/15/2020 21.7 21.7 MW-50 20210106 1/6/2021 < 50 25 MW-69 20210604 6/4/2021 20.2 20.2 MW-52 20210929 9/29/2021 < 50 25 MW-45 20200915 09/15/2020 20 20 MW-52 20220407 4/7/2022 < 50 25 MW-51 20201007 10/07/2020 19.3 19.3 MW-52 20220506 5/6/2022 < 50 25 Dup-1-20201007 10/07/2020 19.2 19.2 MW-11_20201020 10/20/2020 < 40 20 MW-69 20210507 5/7/2021 18.7 18.7 MW-19 20210707 7/7/2021 < 40 20 MW-44 20200915 09/15/2020 18.5 18.5 MW-19 20210803 8/3/2021 < 40 20 MW-11 20200903 09/03/2020 18.3 18.3 MW-19 20220105 1/5/2022 < 40 20 MW-46 20201020 10/20/2020 17.6 17.6 MW-29 20210805 8/5/2021 < 40 20 MW-62 20210105 1/5/2021 16.8 16.8 MW-29 20210902 9/2/2021 < 40 20 MW-47 20200915 09/15/2020 16.5 16.5 MW-19 20210602 6/2/2021 < 25 12.5 MW-17 20200916 09/16/2020 16.2 16.2 MW-29 20210709 7/9/2021 < 25 12.5 MW-45 20201007 10/07/2020 15.8 15.8 DUP-2-20210709 7/9/2021 < 25 12.5 MW-58 20201007 10/07/2020 15.6 15.6 MW-40 20210106 01/06/2021 < 25 12.5 MW-8 20200903 09/03/2020 15.5 15.5 MW-50 20220531 5/31/2022 < 25 12.5 MW-42 20201020 10/20/2020 15.5 15.5 MW-55 20201023 10/23/2020 < 25 12.5 MW-69 20210804 8/4/2021 15.4 15.4 MW-19 20210308 3/8/2021 < 20 10 MW-60 20201007 10/07/2020 15.2 15.2 MW-29 20210603 6/3/2021 < 20 10 MW-13 20201007 10/07/2020 15.1 15.1 MW-50 20201202 12/02/2020 < 20 10 MW-69 20210708 7/8/2021 14.7 14.7 MW-52 20220303 3/3/2022 < 20 10 MW-69 20210929 9/29/2021 14 14 MW-21 20210603 6/3/2021 < 12.5 6.25 MW-39 20200916 09/16/2020 13.9 13.9 MW-21 20210707 7/7/2021 < 12.5 6.25 MW-51 20201021 10/21/2020 13.4 13.4 DUP-1-20210707 7/7/2021 < 12.5 6.25 DUP-1-20201021 10/21/2020 13 13 MW-38 20210902 9/2/2021 < 12.5 6.25 MW-61 D_20210210 2/10/2021 12.9 12.9 MW-41 20220505 5/5/2022 < 12.5 6.25 MW-08 20200913 09/13/2020 12.8 12.8 MW-50 20201020 10/20/2020 < 12.5 6.25 MW-61 D_20210507 5/7/2021 12.7 12.7 MW-55 20220603 6/3/2022 < 12.5 6.25 MW-19 20210405 4/5/2021 < 25 12.5 MW-21 20210210 2/10/2021 < 10 5 MW-19 20210504 5/4/2021 < 25 12.5 MW-21 20210308 3/8/2021 < 10 5 MW-19 20211102 11/2/2021 < 25 12.5 MW-25 20220105 1/5/2022 < 10 5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-29 20210507 5/7/2021 < 10 5 MW-19 20211201 12/1/2021 < 25 12.5 MW-38 20210506 5/6/2021 < 10 5 MW-48 20220408 4/8/2022 < 25 12.5 MW-38 20210603 6/3/2021 < 10 5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-38 20210707 7/7/2021 < 10 5 MW-48 20220506 5/6/2022 < 25 12.5 MW-38_20210804 8/4/2021 < 10 5 MW-48 20220603 6/3/2022 < 25 12.5 MW-39_20200916 09/16/2020 < 10 5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210212 2/12/2021 < 10 5 MW-52 20220407 4/7/2022 < 25 12.5 MW-50 20210503 5/3/2021 < 10 5 NC009000 GW DATA GENERIC RPA Part 1, data - 8 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 15 16 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 2-Chlorotoluene Maximum data points 4-Chlorotoluene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-29 20210603 6/3/2021 8 8 Std Dev. 8.7563 MW-19_20220406 4/6/2022 < 100 50 Std Dev. 8.7357 Dup-9 01/13/2021 1.3 1.3 Mean 9.0422 MW-19_20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 Walker(48-55) 01/13/2021 1.2 1.2 C.V. 0.9684 MW-19_20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220406 4/6/2022 < 100 50 n 58 MW-19_20220201 2/1/2022 < 50 25 n 58 MW-19 20220601 6/1/2022 < 62.5 31.25 MW-19_20220301 3/1/2022 < 50 25 MW-19 20210831 8/31/2021 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20220201 2/1/2022 < 50 25 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20220301 3/1/2022 < 50 25 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20220504 5/4/2022 < 50 25 MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20210405 4/5/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20210504 5/4/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-52 20220407 4/7/2022 < 25 12.5 MW-19 20210707 7/7/2021 < 20 10 MW-52 20220506 5/6/2022 < 25 12.5 MW-19 20210803 8/3/2021 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210902 9/2/2021 < 20 10 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-19_20210308 3/8/2021 < 10 5 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-29_20210603 6/3/2021 < 10 5 MW-52 20210929 9/29/2021 < 12 6 MW-50_20201202 12/02/2020 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-52_20220303 3/3/2022 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-21_20210603 6/3/2021 < 6.2 3.1 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 9- 9/11/2022 REASONABLE POTENTIAL ANALYSIS 17 18 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,2-Dibromo-3-chloropropane (Nemago Maximum data points Dibromochloromethane (Chlorodibromome Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20211001 10/1/2021 < 200 100 Std Dev. 21.0761 MW-8_20200903 09/03/2020 3.8 3.8 Std Dev. 9.7624 MW-19 20220406 4/6/2022 < 200 100 Mean 20.6250 MW-11_20200903 09/03/2020 3.7 3.7 Mean 5.9009 MW-19 20220601 6/1/2022 < 125 62.5 C.V. 1.0219 MW-23 20200920 09/20/2020 1.5 1 C.V. 1.6544 MW-52 20210929 9/29/2021 < 120 60 n 58 MW-51 20200922 09/22/2020 1.3 1 n 58 MW-19 20210831 8/31/2021 < 100 50 MW-60 20201007 10/07/2020 1.3 1 MW-19 20220201 2/1/2022 < 100 50 Mult Factor= 1.0000 MW-61 20201203 12/03/2020 1.3 1 Mult Factor= 1.0000 MW-19_20220301 3/1/2022 < 100 50 Max. Value 100.0 pg/L MW-62_20201203 12/3/2020 1.2 1 Max. Value 50.0 pg/L MW-19_20220504 5/4/2022 < 100 50 Max. Pred Cw 100.0 pg/L MW-62_20210105 1/5/2021 0.95 1 Max. Pred Cw 50.0 pg/L MW-19 20210405 4/5/2021 < 50 25 MW-61 D_20210210 2/10/2021 0.89 1 MW-19 20210504 5/4/2021 < 50 25 MW-69 20210604 6/4/2021 0.88 1 MW-19 20211102 11/2/2021 < 50 25 MW-62 20210211 2/11/2021 0.85 1 DUP-2-20211102 11/2/2021 < 50 25 MW-61 D_20210407 4/7/2021 0.84 1 MW-19 20211201 12/1/2021 < 50 25 MW-19 20200916 09/16/2020 0.79 1 MW-21 20211001 10/1/2021 < 50 25 MW-69 20210507 5/7/2021 0.77 1 MW-48 20220408 4/8/2022 < 50 25 MW-54 20201006 10/06/2020 0.75 1 DUP-1-202204408 4/8/2022 < 50 25 MW-69 20210804 8/4/2021 0.72 1 MW-48 20220506 5/6/2022 < 50 25 MW-61 D_20210507 5/7/2021 0.67 1 MW-48 20220603 6/3/2022 < 50 25 MW-69 20210708 7/8/2021 0.66 1 MW-50_20210106 1/6/2021 < 50 25 MW-61D(96.5-103.5) 01/04/2021 0.65 1 MW-52 20220407 4/7/2022 < 50 25 MW-66 20210107 01/07/2021 0.63 1 MW-52 20220506 5/6/2022 < 50 25 MW-66 20210212 2/12/2021 0.62 1 MW-11_20201020 10/20/2020 < 40 20 Walker(48-55) 01/13/2021 0.62 1 MW-19_20210707 7/7/2021 < 40 20 Dup-9 01/13/2021 0.62 1 MW-19 20210803 8/3/2021 < 40 20 MW-58 20201007 10/07/2020 0.61 1 MW-19 20220105 1/5/2022 < 40 20 MW-61D 20210602 6/2/2021 0.6 1 MW-29 20210805 8/5/2021 < 40 20 MW-61 D_20210310 3/10/2021 0.59 1 MW-29 20210902 9/2/2021 < 40 20 MW-46 20200915 09/15/2020 0.58 1 MW-19 20210602 6/2/2021 < 25 12.5 MW-62 20210312 3/12/2021 0.57 1 MW-29 20210709 7/9/2021 < 25 12.5 MW-66 20210310 3/10/2021 0.55 1 DUP-2-20210709 7/9/2021 < 25 12.5 DUP-1 01/04/2021 0.55 1 MW-40 20210106 01/06/2021 < 25 12.5 MW-13_20200915 09/15/2020 0.54 1 MW-50 20220531 5/31/2022 < 25 12.5 MW-69_20210901 9/1/2021 0.54 1 MW-55 20201023 10/23/2020 < 25 12.5 MW-71_20210311 3/11/2021 0.54 1 MW-19 20210308 3/8/2021 < 20 10 MW-58_20201022 10/22/2020 0.5 1 MW-29 20210603 6/3/2021 < 20 10 MW-66_20220503 5/3/2022 0.46 1 MW-50 20201202 12/02/2020 < 20 10 MW-66_20211130 11/30/2021 0.44 1 MW-52 20220303 3/3/2022 < 20 10 DUP-2-20210901 9/1/2021 0.41 1 MW-21 20210603 6/3/2021 < 12.5 6.25 MW-66 20211004 10/4/2021 0.41 1 MW-21 20210707 7/7/2021 < 12.5 6.25 MW-69 20210929 9/29/2021 0.4 1 DUP-1-20210707 7/7/2021 < 12.5 6.25 MW-69 20211202 12/2/2021 0.4 1 MW-38 20210902 9/2/2021 < 12.5 6.25 MW-66 20211101 11/1/2021 0.39 1 MW-41 20220505 5/5/2022 < 12.5 6.25 MW-61 D_20210929 9/29/2021 0.38 1 MW-50 20201020 10/20/2020 < 12.5 6.25 MW-61 D_20210709 7/9/2021 0.36 1 MW-55 20220603 6/3/2022 < 12.5 6.25 MW-19 20220406 4/6/2022 < 100 50 MW-21 20210210 2/10/2021 < 10 5 MW-19 20220601 6/1/2022 < 62.5 31.25 MW-21 20210308 3/8/2021 < 10 5 MW-19 20210831 8/31/2021 < 50 25 MW-25 20220105 1/5/2022 < 10 5 MW-19 20220201 2/1/2022 < 50 25 MW-29 20210507 5/7/2021 < 10 5 MW-19 20220301 3/1/2022 < 50 25 MW-38 20210506 5/6/2021 < 10 5 MW-19 20220504 5/4/2022 < 50 25 MW-38 20210603 6/3/2021 < 10 5 MW-19 20210405 4/5/2021 < 25 12.5 MW-38 20210707 7/7/2021 < 10 5 MW-19 20210504 5/4/2021 < 25 12.5 MW-38 20210804 8/4/2021 < 10 5 MW-19 20211102 11/2/2021 < 25 12.5 MW-39 20200916 09/16/2020 < 10 5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-50 20210212 2/12/2021 < 10 5 MW-19 20211201 12/1/2021 < 25 12.5 MW-50 20210503 5/3/2021 < 10 5 MW-48 20220408 4/8/2022 < 25 12.5 MW-50 20211004 10/4/2021 < 10 5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-50 20211130 11/30/2021 < 10 5 MW-48 20220506 5/6/2022 < 25 12.5 DUP-2-20211130 11/30/2021 < 10 5 MW-48 20220603 6/3/2022 < 25 12.5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 10 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 19 20 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,2-Dibromoethane (EDB) Maximum data points Dibromomethane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.8251 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.3612 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9427 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20211001 10/1/2021 < 40 20 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20210504 5/4/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20210929 9/29/2021 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-52 20220407 4/7/2022 < 25 12.5 MW-19 20210707 7/7/2021 < 20 10 MW-52 20220506 5/6/2022 < 25 12.5 MW-19 20210803 8/3/2021 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-21 20211001 10/1/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220131 1/31/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 11 - 9/11/2022 REASONABLE POTENTIAL ANALYSIS 21 22 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,2-Dichlorobenzene Maximum data points 1,3-Dichlorobenzene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 1, data - 12 - 9/11/2022 Colonial Pipeline Company — 2020-L1 -SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCO090000 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 MGD MAXIMUM DATA POINTS = 58 Qw (MGD) = 0.5760 WWTP/WTP Class: PC-1 1Q10S (cfs) = 0.21 IWC% @ 1Q10S = 80.9575626 7Q10S (cfs) = 0.25 IWC% @ 7Q10S = 78.1239062 7Q10W (cfs) = 0.42 IW%C @ 7Q10W= 68.0073126 30Q2 (cfs) = 0.56 IWC% @ 30Q2 = 61.4537445 Avg. Stream Flow, QA(cfs) = 3.90 IWC% @ QA= 18.6279419 Receiving Stream: North Prong Clark Creek HUC 30401050101 Stream Class: C PARAMETER NC STANDARDS OR EPA CRITERIA J co REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE Chronic Applied Acute a. n Standard n # Det. Max Pred Cw Allowable Cw Acute: NO WQS Benzene C 51 HH(Qavg) 1 µg/L 58 58 9240.0 Chronic: 273.78 RPA for non-AL-apply 2/Monthly Monitoring with Limit. Pollutant of concern for petroluem product 58 value(s) >Allowable Cw groundwater contamination. Acute: NO WQS Bromobenzene 1 µg/L 58 0 50.0 Chronic:------------ -------------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS Bromochloromethane 1 µg/L 58 1 50.0 Chronic:------------ -------------------------------- No standard or criteria - monitor with pollutant scan No value >Allowable Cw Acute: NO WQS Bromodichloromethane (Dichlorobromomethane) C 17 HH(Qavg) 1 µg/L 58 15 50.0 _ Chronic: 91.26 No RPA Predicted Max >_ 50% of Allowable Cw- No value > Allowable Cw apply Quarterly Monitoring Acute: NO WQS Bromoform C 120 HH(Qavg) 2 µg/L 58 0 50.0 Chronic: -----644.19-- -------------------------------- No Detects Max MDL= 100 Acute: NO WQS Bromomethane (Methyl Bromide) NC 0.04 FW(7Q10s) 2 µg/L 58 1 500.0 Chronic:------0.05 --- -------------------------------- RPA for non-AL-apply Monitoring with Limit 58 value(s) >Allowable Cw Acute: NO WQS n-Butylbenzene NC 3.9 FW(7Q10s) 1 µg/L 58 7 50.0 Chronic:------4.99 --- -------------------------------- RPA for non-AL-apply Monitoring with Limit 43 value(s) >Allowable Cw Acute: NO WQS sec-Butyl benzene 1 µg/L 58 2 50.0 Chronic:------------ -------------------------------- No standard or criteria - monitor with pollutant scan No value >Allowable Cw Acute: NO WQS tert-Butyl benzene 1 µg/L 58 0 50.0 Chronic:------------ ------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS Carbon tetrachloride C 1.6 HH(Qavg) 1 µg/L 58 0 50.0 Chronic:------8.59 --- -------------------------------- No Detects NO DETECTS Max MDL= 100 NC009000_GW DATA—GENERIC RPA—Part 1, rpa Page 13 of 14 9/11/2022 Colonial Pipeline Company — 2020-L1 -SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCO090000 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 MGD Acute: NO WQS Chlorobenzene NC 140 FW(7Q10s) 1 µg/L 58 0 50.0 Chronic: -----179.20-- -------------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS Chloroethane 2 µg/L 58 2 100.0 Chronic: TBEL 414 - MA 104 ug/I, DM 268 ug/I No value>Allowable Cw Acute: NO WQS Chloroform (Tricholomethane) NC 2000 HH(7Q 1 Os) 1 µg/L 58 41 403.0 Chronic: 2,560.04 No RPA, Predicted Max < 50% of Allowbale Cw_No No value>Allowable Cw Monitoring required Acute: NO WQS Chloromethane (Methyl Chloride) NC 96 HH(7Q1Os) 2 µg/L 58 5 100.0 _ Chronic: 122.88 No RPA Predicted Max >_ 50% of Allowable Cw- No value >Allowable Cw apply Quarterly Monitoring Acute: NO WQS 2-Chlorotoluene 1 µg/L 58 3 50.0 Chronic:------------ -------------------------------- No standard or criteria - monitor with pollutant scan No value>Allowable Cw Acute: NO WQS 4-Chlorotoluene 1 µg/L 58 0 50.0 Chronic:------------ -------------------------------- NO DETECTS Max MDL 100 No Detects Acute: NO WQS 1,2-Dibromo-3-chloropropane (Nemagon) C 0.13 HH(Qavg) 2 µg/L 58 0 100.0 Chronic:------0.70 --- -------------------------------- NO DETECTS Max MDL= 200 No Detects Acute: NO WQS Dibromochloromethane (Chlorodibromomethane) C 21 HH(Qavg) 2 µg/L 58 43 50.0 Chronic: 112.73 No RPA, Predicted Max < 50% of Allowbale Cw_No No value>Allowable Cw Monitoring required Acute: NO WQS 1,2-Dibromoethane (EDB) C 0.1 HH(Qavg) 1 µg/L 58 0 50.0 Chronic:------0.54 --- -------------------------------- NO DETECTS Max MDL= 88582 No Detects Acute: NO WQS Dibromomethane 1 µg/L 58 0 50.0 Chronic:------------ -------------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS 1,2-Dichlorobenzene NC 470 FW(7QIOs) 1 µg/L 58 0 50.0 Chronic: -----601.61 -- -------------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS 1,3-Dichlorobenzene NC 10 HH(7Q10s) 1 µg/L 58 0 50.0 Chronic: ------12.80--- -------------------------------- No Detects NO DETECTS Max MDL= 100 NC009000_GW DATA—GENERIC RPA—Part 1, rpa Page 14 of 14 9/11/2022 2018 Generic RPA - 95% Probability/95% Confidence MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY MISSING DATA or ENTRY ERROR Table 1. Project Information Table 2. Parameters of Concern ❑ CHECK IF HQW OR ORW Name Type Chronic Modifier Acute PQL Units Facility Name Colonial Pipeline Company—2020-L1-SR2448 Par01 1,4-Dichlorobenzene NC 100 FW pg/L WWTP/WTP Class PC-1 Par02 Dichlorodifluoromethane pg/L ?DATA? NPDES Permit NCO090000 Par03 1,1-Dichloroethane C 100 HH pg/L Outfall 001 Par04 1,2-Dichloroethane C 650 HH pg/L Flow, Qw (MGD) 0.576 Par05 1,1-Dichloroethene NC 20000 HH pg/L Receiving Stream North Prong Clark Creek Par06 cis-1,2-Dichloroethene NC 720 HH pg/L Stream Class C Par07 trans-1,2-Dichloroethene NC 3200 HH pg/L HUC Number 30401050101 Par08 1,2-Dichloropropane C 31 HH pg/L 7Q10s (cfs) 0.25 Par09 1,3-Dichloropropane pg/L ?DATA? 7Q10w (cfs) 0.42 Par10 2,2-Dichloropropane pg/L ?DATA? 30Q2 (cfs) 0.56 Par11 1,1-Dichloropropene pg/L ?DATA? QA(cfs) 3.90 Par12 cis-1,3-Dichloropropene C 12 HH pg/L 1Q10s (cfs) 0.21 Par13 trans-1,3-Dichloropropene C 12 HH pg/L Data Source(s) MW data Sep202O_Jun2O22. PQLs are from the Par14 Diisopropyl ether(Isopropyl Ether) NC 20000 FW pg/L ❑ CHECK TO APPLY MODEL NCDENR_DWR_WSS_LAB_PQLs Current FCHECK TO APPLY MODEL Par15 Ethylbenzene NC 97 FW pg/L Revision Date - 1/22/2021. Par16 Hexachloro-1,3-butadiene C 18 HH pg/L Par17 Isopropylbenzene (Cumene) NC 250 FW pg/L Par18 Methylene Chloride C 1000 HH pg/L Par19 Methyl-tert-butyl ether C 1500 HH pg/L Follow directions for data entry. In some cases a Par20 Naphthalene NC 12 FW pg/L comment menu list the available choices or a Par21 n-Propylbenzene NC 80 FW pg/L dropdown menu will provide a list you may select Par22 Styrene pg/L ?DATA? from. Error message occur if data entry does not meet input criteria. NC009000_GW DATA—GENERIC RPA_Part 2, input 8/25/2022 REASONABLE POTENTIAL ANALYSIS 1 2 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,4-Dichlorobenzene Maximum data points Dichlorodifluoromethane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 2, data -2 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 3 4 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,1-Dichloroethane Maximum data points 12-Dichloroethane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7195 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0922 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9590 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-29 20210603 6/3/2021 8.4 8.4 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 2, data - 3 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 5 6 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,1-Dichloroethene Maximum data points cis-12-Dichloroethene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 2, data -4 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 7 8 Use"PASTE SPECIAL Use"PASTE SPECIAL trans-1,2-Dichloroethene Values"then"COPY". Values"then"COPY". Maximum data points 12-Dichloropropane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 2, data - 5- 8/25/2022 REASONABLE POTENTIAL ANALYSIS 9 10 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,3-Dichloropropane Maximum data points 2,2-Dichloropropane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.74 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.03 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.00 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 2, data - 6 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 11 12 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,1-Dichloropropene Maximum data points cis-1,3-Dichloropropene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 2, data - 7 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 13 14 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". trans-1,3-Dichloropropene Maximum data points Diisopropyl ether (Isopropyl Ether) Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-52_20220506 5/6/2022 1010 1010 Std Dev. 210.4507 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 DUP-1-202204408 4/8/2022 933 933 Mean 305.1207 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-48 20220408 4/8/2022 905 905 C.V. 0.6897 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-48 20220506 5/6/2022 873 873 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-52 20220407 4/7/2022 647 647 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-48 20220603 6/3/2022 621 621 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-50_20210106 1/6/2021 587 587 Max. Value 1010.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-50_20201202 12/02/2020 482 482 Max. Pred Cw 1010.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20210405 4/5/2021 445 445 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20210707 7/7/2021 371 371 MW-19 20211201 12/1/2021 < 25 12.5 MW-19 20210602 6/2/2021 354 354 MW-48 20220408 4/8/2022 < 25 12.5 MW-19 20220601 6/1/2022 353 353 DUP-1-202204408 4/8/2022 < 25 12.5 MW-19 20210504 5/4/2021 346 346 MW-48 20220506 5/6/2022 < 25 12.5 MW-52 20211203 12/3/2021 341 341 MW-48 20220603 6/3/2022 < 25 12.5 MW-19 20211201 12/1/2021 330 330 MW-50 20210106 1/6/2021 < 25 12.5 MW-19 20220406 4/6/2022 328 328 MW-52 20220407 4/7/2022 < 25 12.5 MW-38 20210902 9/2/2021 324 324 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220303 3/3/2022 320 320 MW-11 20201020 10/20/2020 < 20 10 MW-19 20220504 5/4/2022 312 312 MW-19 20210707 7/7/2021 < 20 10 MW-19 20220201 2/1/2022 308 308 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 306 306 MW-19 20211001 10/1/2021 < 20 10 MW-38 20210804 8/4/2021 302 302 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 290 290 MW-29 20210805 8/5/2021 < 20 10 MW-19 20210831 8/31/2021 287 287 MW-29 20210902 9/2/2021 < 20 10 DUP-2-20211102 11/2/2021 283 283 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20211102 11/2/2021 278 278 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210805 8/5/2021 278 278 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-1-20210707 7/7/2021 271 271 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-38 20210707 7/7/2021 264 264 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-29 20210902 9/2/2021 262 262 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-19 20220301 3/1/2022 249 249 MW-52 20210929 9/29/2021 < 12 6 MW-21 20210603 6/3/2021 249 249 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210709 7/9/2021 236 236 MW-29 20210603 6/3/2021 < 10 5 MW-38 20210603 6/3/2021 230 230 MW-50 20201202 12/02/2020 < 10 5 DUP-2-20210709 7/9/2021 229 229 MW-52 20220303 3/3/2022 < 10 5 MW-19 20210308 3/8/2021 227 227 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-50 20201020 10/20/2020 208 208 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210308 3/8/2021 192 192 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 181 181 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-52 20220203 2/3/2022 173 173 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-11 20201020 10/20/2020 172 172 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-29 20210603 6/3/2021 161 161 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50 20210212 2/12/2021 161 161 MW-21 20210210 2/10/2021 < 5 2.5 MW-19 20211001 10/1/2021 160 160 MW-21 20210308 3/8/2021 < 5 2.5 MW-38 20210506 5/6/2021 159 159 MW-21 20211001 10/1/2021 < 5 2.5 MW-54 20210805 8/5/2021 149 149 MW-25 20220105 1/5/2022 < 5 2.5 MW-40 20210106 01/06/2021 146 146 MW-29 20210507 5/7/2021 < 5 2.5 MW-55 20201023 10/23/2020 144 144 MW-38 20210506 5/6/2021 < 5 2.5 MW-52 20210929 9/29/2021 140 140 MW-38 20210603 6/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 137 137 MW-38 20210707 7/7/2021 < 5 2.5 MW-52 20210902 9/2/2021 137 137 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210407 4/7/2021 136 136 MW-39 20200916 09/16/2020 < 5 2.5 MW-21 20210210 2/10/2021 130 130 MW-50 20210212 2/12/2021 < 5 2.5 MW-52 20211105 11/5/2021 125 125 MW-50 20210503 5/3/2021 < 5 2.5 MW-52 20220106 1/6/2022 120 120 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20210406 4/6/2021 114 114 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20210312 3/12/2021 113 113 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-21 20210106 01/06/2021 108 108 NC009000_GW DATA-GENERIC RPA_Part 2, data - 8 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 15 16 Use"PASTE SPECIAL Use"PASTE SPECIAL Ethylbenzene Values"then"COPY". Hexachloro-1'3-butadiene values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 1490 1490 Std Dev. 382.8826 MW-09_20210804 8/4/2021 4.2 4.2 Std Dev. 35.7597 MW-19 20220601 6/1/2022 1460 1460 Mean 338.8983 MW-56_20210804 8/4/2021 4.1 4.1 Mean 34.7397 MW-19 20220201 2/1/2022 1450 1450 C.V. 1.1298 MW-17_20210804 8/4/2021 3.8 3.8 C.V. 1.0294 MW-19 20220301 3/1/2022 1340 1340 n 58 MW-16D_20210804 8/4/2021 3.6 3.6 n 58 MW-19 20220504 5/4/2022 1210 1210 MW-62D_20220201 2/1/2022 2.8 2.8 MW-19 20211201 12/1/2021 959 959 Mult Factor= 1.0000 MW-76_20220201 2/1/2022 1.9 1.9 Mult Factor= 1.0000 MW-19_20210831 8/31/2021 864 864 Max. Value 1490.0 Ng/L MW-19_20220406 4/6/2022 < 400 200 Max. Value 200.0 pg/L DUP-2-20211102 11/2/2021 607 607 Max. Pred Cw 1490.0 pg/L MW-19_20220601 6/1/2022 < 250 125 Max. Pred Cw 200.0 pg/L MW-19 20211102 11/2/2021 559 559 MW-19_20210831 8/31/2021 < 200 100 MW-19 20220105 1/5/2022 557 557 MW-19_20220201 2/1/2022 < 200 100 MW-50 20210106 1/6/2021 552 552 MW-19_20220301 3/1/2022 < 200 100 MW-55 20201023 10/23/2020 457 457 MW-19_20220504 5/4/2022 < 200 100 MW-52 20220506 5/6/2022 454 454 MW-19_20210405 4/5/2021 < 100 50 MW-19 20210803 8/3/2021 445 445 MW-19_20210504 5/4/2021 < 100 50 MW-48 20220506 5/6/2022 412 412 MW-19_20211102 11/2/2021 < 100 50 MW-50 20201202 12/02/2020 406 406 DUP-2-20211102 11/2/2021 < 100 50 MW-19 20210707 7/7/2021 398 398 MW-19_20211201 12/1/2021 < 100 50 MW-19 20210405 4/5/2021 367 367 MW-48_20220408 4/8/2022 < 100 50 MW-19 20210504 5/4/2021 358 358 DUP-1-202204408 4/8/2022 < 100 50 DUP-1-202204408 4/8/2022 325 325 MW-48 20220506 5/6/2022 < 100 50 MW-48 20220408 4/8/2022 316 316 MW-48_20220603 6/3/2022 < 100 50 MW-38 20210902 9/2/2021 307 307 MW-50_20210106 1/6/2021 < 100 50 MW-1 120201020 10/20/2020 286 286 MW-52_20220407 4/7/2022 < 100 50 MW-40 20210106 01/06/2021 252 252 MW-52_20220506 5/6/2022 < 100 50 MW-19 20210602 6/2/2021 238 238 MW-11_20201020 10/20/2020 < 80 40 MW-48 20220603 6/3/2022 218 218 MW-19_20210707 7/7/2021 < 80 40 DUP-1-20210707 7/7/2021 209 209 MW-19 20210803 8/3/2021 < 80 40 MW-52 20220407 4/7/2022 208 208 MW-19_20220105 1/5/2022 < 80 40 MW-38 20210707 7/7/2021 205 205 MW-29_20210805 8/5/2021 < 80 40 MW-50 20220531 5/31/2022 154 154 MW-29_20210902 9/2/2021 < 80 40 MW-19 20210308 3/8/2021 151 151 MW-19_20210602 6/2/2021 < 50 25 MW-38 20210804 8/4/2021 150 150 MW-29_20210709 7/9/2021 < 50 25 MW-38 20210603 6/3/2021 147 147 DUP-2-20210709 7/9/2021 < 50 25 MW-50 20201020 10/20/2020 144 144 MW-40_20210106 01/06/2021 < 50 25 MW-19 20211001 10/1/2021 140 140 MW-50_20220531 5/31/2022 < 50 25 MW-39 20200916 09/16/2020 124 124 MW-55_20201023 10/23/2020 < 50 25 MW-29 20210805 8/5/2021 122 122 MW-19_20210308 3/8/2021 < 40 20 MW-29 20210709 7/9/2021 117 117 MW-29_20210603 6/3/2021 < 40 20 DUP-2-20210709 7/9/2021 115 115 MW-50 20201202 12/02/2020 < 40 20 MW-38 20210506 5/6/2021 107 107 MW-52 20220303 3/3/2022 < 40 20 MW-41 20220505 5/5/2022 99 99 MW-21 20210603 6/3/2021 < 25 12.5 MW-54 20210805 8/5/2021 98.4 98.4 MW-21 20210707 7/7/2021 < 25 12.5 MW-07 20210916 9/16/2021 92.4 92.4 DUP-1-20210707 7/7/2021 < 25 12.5 DUP-2-20220603 6/3/2022 87.6 87.6 MW-38 20210902 9/2/2021 < 25 12.5 MW-50 20220228 2/28/2022 83.8 83.8 MW-41_20220505 5/5/2022 < 25 12.5 MW-55 20220603 6/3/2022 83.2 83.2 MW-50_20201020 10/20/2020 < 25 12.5 MW-50 20220404 4/4/2022 75 75 MW-55_20220603 6/3/2022 < 25 12.5 MW-50 20220502 5/2/2022 71.3 71.3 MW-19_20211001 10/1/2021 < 24 12 MW-41 R_20220603 6/3/2022 70.2 70.2 MW-21_20210210 2/10/2021 < 20 10 MW-38 20210407 4/7/2021 68.1 68.1 MW-21_20210308 3/8/2021 < 20 10 MW-29 20210902 9/2/2021 63.1 63.1 MW-25_20220105 1/5/2022 < 20 10 MW-07 20210928 9/28/2021 59 59 MW-29_20210507 5/7/2021 < 20 10 MW-50 20211130 11/30/2021 57.5 57.5 MW-38_20210506 5/6/2021 < 20 10 MW-50 20210503 5/3/2021 57.1 57.1 MW-38_20210603 6/3/2021 < 20 10 MW-50 20220131 1/31/2022 54.7 54.7 MW-38_20210707 7/7/2021 < 20 10 MW-87 20220504 5/4/2022 54 54 MW-38_20210804 8/4/2021 < 20 10 MW-25R 20220408 4/8/2022 51.7 51.7 MW-39_20200916 09/16/2020 < 20 10 DUP-2-20211130 11/30/2021 50 50 MW-50 20210212 2/12/2021 < 20 10 NC009000_GW DATA-GENERIC RPA_Part 2, data - 9 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 17 18 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Isopropyl benzene (Cumene) Maximum data points Methylene Chloride Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 12.1077 MW-19_20220406 4/6/2022 < 400 200 Std Dev. 36.4630 MW-19 20220201 2/1/2022 43.1 43.1 Mean 13.4966 MW-19_20220601 6/1/2022 < 250 125 Mean 42.2466 MW-19 20220301 3/1/2022 37.5 37.5 C.V. 0.8971 MW-19_20210831 8/31/2021 < 200 100 C.V. 0.8631 MW-52 20220506 5/6/2022 37.4 37.4 n 58 MW-19_20211001 10/1/2021 < 200 100 n 58 MW-48 20220506 5/6/2022 37.2 37.2 MW-19_20220201 2/1/2022 < 200 100 MW-19 20220504 5/4/2022 33.7 33.7 Mult Factor= 1.0000 MW-19_20220301 3/1/2022 < 200 100 Mult Factor= 1.0000 MW-48_20220603 6/3/2022 32 32 Max. Value 50.0 pg/L MW-19_20220504 5/4/2022 < 200 100 Max. Value 200.0 pg/L MW-19_20220601 6/1/2022 < 62.5 31.25 Max. Pred Cw 50.0 pg/L MW-11_20201020 10/20/2020 99.8 99.8 Max. Pred Cw 200.0 pg/L DUP-1-202204408 4/8/2022 30.5 30.5 DUP-2-20210709 7/9/2021 80 80 MW-48 20220408 4/8/2022 27.9 27.9 MW-50_20220404 4/4/2022 67.8 67.8 MW-19 20211201 12/1/2021 27.6 27.6 MW-52_20210929 9/29/2021 < 120 60 MW-55 20201023 10/23/2020 26.5 26.5 MW-19_20210405 4/5/2021 < 100 50 MW-19 20210831 8/31/2021 < 50 25 MW-19_20210504 5/4/2021 < 100 50 MW-52 20220407 4/7/2022 23.4 23.4 MW-19_20211102 11/2/2021 < 100 50 MW-55 20220603 6/3/2022 20.8 20.8 DUP-2-20211102 11/2/2021 < 100 50 MW-19 20210405 4/5/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 100 50 MW-19 20210504 5/4/2021 < 25 12.5 MW-48_20220408 4/8/2022 < 100 50 MW-19 20211102 11/2/2021 < 25 12.5 DUP-1-202204408 4/8/2022 < 100 50 DUP-2-20211102 11/2/2021 < 25 12.5 MW-48 20220506 5/6/2022 < 100 50 MW-50 20210106 1/6/2021 < 25 12.5 MW-48_20220603 6/3/2022 < 100 50 MW-50 20201202 12/02/2020 10.3 10.3 MW-50_20210106 1/6/2021 < 100 50 MW-1 120201020 10/20/2020 < 20 10 MW-52_20220407 4/7/2022 < 100 50 MW-19 20210707 7/7/2021 < 20 10 MW-52_20220506 5/6/2022 < 100 50 MW-19 20210803 8/3/2021 < 20 10 MW-50_20210503 5/3/2021 44.2 44.2 MW-19 20211001 10/1/2021 < 20 10 MW-19_20210707 7/7/2021 < 80 40 MW-19 20220105 1/5/2022 < 20 10 MW-19_20210803 8/3/2021 < 80 40 MW-29 20210805 8/5/2021 < 20 10 MW-19_20220105 1/5/2022 < 80 40 MW-29 20210902 9/2/2021 < 20 10 MW-29_20210805 8/5/2021 < 80 40 MW-38 20210902 9/2/2021 9 9 MW-29_20210902 9/2/2021 < 80 40 MW-61 20220506 5/6/2022 8.9 8.9 MW-50_20201020 10/20/2020 35.8 35.8 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19_20210602 6/2/2021 < 50 25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-21_20211001 10/1/2021 < 50 25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 50 25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40_20210106 01/06/2021 < 50 25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50_20220531 5/31/2022 < 50 25 MW-50 20211130 11/30/2021 6.2 6.2 MW-55_20201023 10/23/2020 < 50 25 DUP-2-20211130 11/30/2021 6.2 6.2 MW-50 20220131 1/31/2022 21.9 21.9 DUP-2-20220603 6/3/2022 5.8 5.8 MW-19 20210308 3/8/2021 < 40 20 DUP-1-20210707 7/7/2021 5.7 5.7 MW-29 20210603 6/3/2021 < 40 20 MW-38 20210707 7/7/2021 5.7 5.7 MW-50_20201202 12/02/2020 < 40 20 MW-41 20220505 5/5/2022 5.6 5.6 MW-52_20220303 3/3/2022 < 40 20 MW-50 20210706 7/6/2021 5.1 5.1 MW-21_20210603 6/3/2021 < 25 12.5 MW-19 20210308 3/8/2021 < 10 5 MW-21_20210707 7/7/2021 < 25 12.5 MW-29 20210603 6/3/2021 < 10 5 DUP-1-20210707 7/7/2021 < 25 12.5 MW-52 20220303 3/3/2022 < 10 5 MW-38_20210902 9/2/2021 < 25 12.5 MW-41 R_20220603 6/3/2022 5 5 MW-41_20220505 5/5/2022 < 25 12.5 MW-52 20210929 9/29/2021 4.5 4.5 MW-55_20220603 6/3/2022 < 25 12.5 MW-25 20220105 1/5/2022 4.4 4.4 DUP-2-20220603 6/3/2022 10.8 10.8 MW-38 20210603 6/3/2021 4.4 4.4 MW-21_20210210 2/10/2021 < 20 10 MW-50 20220103 1/3/2022 4.2 4.2 MW-21_20210308 3/8/2021 < 20 10 MW-52 20211203 12/3/2021 4.2 4.2 MW-25 20220105 1/5/2022 < 20 10 MW-25R 20220408 4/8/2022 4.1 4.1 MW-29_20210507 5/7/2021 < 20 10 MW-50 20220228 2/28/2022 4 4 MW-38_20210506 5/6/2021 < 20 10 MW-38 20210804 8/4/2021 3.9 3.9 MW-38_20210603 6/3/2021 < 20 10 MW-50 20220131 1/31/2022 3.7 3.7 MW-38_20210707 7/7/2021 < 20 10 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-38_20210804 8/4/2021 < 20 10 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-39_20200916 09/16/2020 < 20 10 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20210212 2/12/2021 < 20 10 NC009000 GW DATA GENERIC RPA Part 2, data - 10 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 19 20 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Methyl-tent-butyl ether Maximum data points Naphthalene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-50 20210106 1/6/2021 392 392 Std Dev. 68.8752 MW-19_20220201 2/1/2022 314 314 Std Dev. 70.3560 MW-50 20201202 12/02/2020 287 287 Mean 85.0578 MW-19_20220406 4/6/2022 276 276 Mean 83.0172 DUP-1-202204408 4/8/2022 228 228 C.V. 0.8097 MW-19 20220301 3/1/2022 244 244 C.V. 0.8475 MW-48 20220408 4/8/2022 217 217 n 58 MW-19 20220601 6/1/2022 243 243 n 58 MW-52 20220506 5/6/2022 204 204 MW-19 20220504 5/4/2022 243 243 MW-48 20220506 5/6/2022 171 171 Mult Factor= 1.0000 MW-48 20220506 5/6/2022 197 197 Mult Factor= 1.0000 MW-52_20220407 4/7/2022 166 166 Max. Value 392.0 pg/L MW-52_20220506 5/6/2022 170 170 Max. Value 314.0 pg/L MW-50_20201020 10/20/2020 138 138 Max. Pred Cw 392.0 pg/L MW-48_20220603 6/3/2022 163 163 Max. Pred Cw 314.0 pg/L MW-38 20210804 8/4/2021 134 134 MW-19 20210308 3/8/2021 155 155 MW-19 20210405 4/5/2021 120 120 MW-19 20210831 8/31/2021 146 146 MW-21 20210603 6/3/2021 117 117 DUP-1-202204408 4/8/2022 127 127 MW-50 20210212 2/12/2021 116 116 MW-52 20220407 4/7/2022 124 124 MW-38 20210902 9/2/2021 115 115 MW-48 20220408 4/8/2022 116 116 DUP-1-20210707 7/7/2021 113 113 MW-19 20211201 12/1/2021 113 113 MW-38 20210707 7/7/2021 109 109 MW-50 20210106 1/6/2021 111 111 MW-19 20210504 5/4/2021 99.9 99.9 DUP-2-20211102 11/2/2021 103 103 MW-21 20210308 3/8/2021 92.3 92.3 MW-19 20220105 1/5/2022 91.6 91.6 MW-48 20220603 6/3/2022 89.6 89.6 MW-19 20211102 11/2/2021 91.1 91.1 MW-38 20210603 6/3/2021 87.8 87.8 MW-19 20210504 5/4/2021 88.3 88.3 MW-21 20210707 7/7/2021 87 87 MW-55 20201023 10/23/2020 85.7 85.7 MW-19 20210602 6/2/2021 80.5 80.5 MW-40 20210106 01/06/2021 78.4 78.4 MW-19 20210707 7/7/2021 76.9 76.9 MW-55 20220603 6/3/2022 75.5 75.5 MW-52 20220303 3/3/2022 73.4 73.4 MW-19 20210707 7/7/2021 68.5 68.5 MW-38 20210506 5/6/2021 72.7 72.7 MW-50_20201202 12/02/2020 68.3 68.3 MW-52 20211203 12/3/2021 72.4 72.4 MW-38_20210902 9/2/2021 64.6 64.6 MW-21 20210210 2/10/2021 68.7 68.7 MW-19_20210803 8/3/2021 63.6 63.6 MW-19 20210308 3/8/2021 65.7 65.7 MW-50_20220131 1/31/2022 61.6 61.6 MW-19 20210803 8/3/2021 60.8 60.8 DUP-2-20210709 7/9/2021 60.6 60.6 MW-19 20210831 8/31/2021 60.5 60.5 MW-50 20210212 2/12/2021 54 54 MW-50 20210312 3/12/2021 59.6 59.6 MW-50 20220531 5/31/2022 51.5 51.5 MW-21 20210505 5/5/2021 53.9 53.9 MW-19 20210405 4/5/2021 < 100 50 MW-19 20211201 12/1/2021 53.2 53.2 MW-19 20211001 10/1/2021 48 48 DUP-2-20211102 11/2/2021 52.7 52.7 MW-50 20210312 3/12/2021 45.8 45.8 MW-19 20220105 1/5/2022 52.4 52.4 MW-19 20210602 6/2/2021 43.8 43.8 MW-19 20211102 11/2/2021 51.3 51.3 MW-21 20210603 6/3/2021 43.7 43.7 MW-38 20210407 4/7/2021 50.2 50.2 MW-29 20210902 9/2/2021 42.7 42.7 MW-19 20220406 4/6/2022 < 100 50 MW-52 20220303 3/3/2022 41.4 41.4 MW-21 20210106 01/06/2021 50 50 MW-11 20201020 10/20/2020 < 80 40 MW-50 20210406 4/6/2021 46.9 46.9 DUP-2-20211130 11/30/2021 38.1 38.1 DUP-2-20210709 7/9/2021 46.7 46.7 MW-50 20211130 11/30/2021 38 38 MW-19 20220504 5/4/2022 45.6 45.6 MW-50_20220228 2/28/2022 36.1 36.1 MW-19 20220201 2/1/2022 43.7 43.7 MW-41_20220505 5/5/2022 34.9 34.9 MW-29 20210709 7/9/2021 43.3 43.3 DUP-2-20220603 6/3/2022 34 34 MW-19 20211001 10/1/2021 42 42 MW-19_20210210 2/10/2021 33.2 33.2 MW-21 20211001 10/1/2021 41 41 MW-50_20220103 1/3/2022 32.7 32.7 MW-21 20220405 4/5/2022 40.8 40.8 MW-52_20211203 12/3/2021 32.6 32.6 MW-21 20220601 6/1/2022 39.5 39.5 MW-50 20210503 5/3/2021 32 32 MW-50 20210503 5/3/2021 38.1 38.1 MW-50 20220404 4/4/2022 30.8 30.8 MW-29 20210805 8/5/2021 38 38 MW-41 R_20220603 6/3/2022 29.8 29.8 MW-52 20220203 2/3/2022 37.9 37.9 MW-50 20220502 5/2/2022 28.9 28.9 DUP-1-20210310 3/10/2021 35.1 35.1 MW-29 20210603 6/3/2021 27.8 27.8 MW-38 20210310 3/10/2021 33.4 33.4 MW-50 20210706 7/6/2021 27.5 27.5 MW-29 20210902 9/2/2021 32 32 MW-72R 20220506 5/6/2022 27.4 27.4 MW-19 20220601 6/1/2022 < 62.5 31.25 MW-29 20210805 8/5/2021 26.4 26.4 MW-11 20201020 10/20/2020 29.5 29.5 MW-25 20220105 1/5/2022 25.9 25.9 MW-19 20210210 2/10/2021 28 28 MW-52 20211105 11/5/2021 25.5 25.5 MW-52 20210929 9/29/2021 27 27 DUP-1-20210707 7/7/2021 25.1 25.1 MW-52 20211105 11/5/2021 25.1 25.1 MW-29 20210709 7/9/2021 24.6 24.6 NC009000_GW DATA-GENERIC RPA_Part 2, data - 11 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 21 22 Use"PASTE SPECIAL Use"PASTE SPECIAL n-Propylbenzene Values"then"COPY". Styrene Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220201 2/1/2022 120 120 Std Dev. 29.1778 MW-19_20220406 4/6/2022 < 100 50 Std Dev. 8.7252 MW-19 20220301 3/1/2022 89.8 89.8 Mean 23.9509 MW-19_20220601 6/1/2022 < 62.5 31.25 Mean 9.0612 MW-19 20220406 4/6/2022 89.2 89.2 C.V. 1.2182 MW-19_20210831 8/31/2021 < 50 25 C.V. 0.9629 MW-19 20220601 6/1/2022 83.8 83.8 n 58 MW-19_20220201 2/1/2022 < 50 25 n 58 MW-48 20220506 5/6/2022 82.6 82.6 MW-19_20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 75.6 75.6 Mult Factor = 1.0000 MW-19_20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-52_20220506 5/6/2022 69.7 69.7 Max. Value 120.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20211201 12/1/2021 66.8 66.8 Max. Pred Cw 120.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 Ng/L DUP-1-202204408 4/8/2022 66 66 MW-19 20211102 11/2/2021 < 25 12.5 MW-48 20220408 4/8/2022 62.3 62.3 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20210831 8/31/2021 57.6 57.6 MW-19 20211201 12/1/2021 < 25 12.5 MW-48 20220603 6/3/2022 54.5 54.5 MW-48 20220408 4/8/2022 < 25 12.5 DUP-2-20211102 11/2/2021 43.2 43.2 DUP-1-202204408 4/8/2022 < 25 12.5 MW-52 20220407 4/7/2022 39.9 39.9 MW-48_20220506 5/6/2022 < 25 12.5 MW-61 20220506 5/6/2022 27.4 27.4 MW-48_20220603 6/3/2022 < 25 12.5 MW-55 20220603 6/3/2022 25.9 25.9 MW-50_20210106 1/6/2021 < 25 12.5 MW-19 20220105 1/5/2022 18.2 18.2 MW-52_20220407 4/7/2022 < 25 12.5 DUP-1-20210707 7/7/2021 12.8 12.8 MW-52 20220506 5/6/2022 < 25 12.5 MW-19 20210405 4/5/2021 < 25 12.5 MW-11_20201020 10/20/2020 < 20 10 MW-19 20210504 5/4/2021 < 25 12.5 MW-19_20210707 7/7/2021 < 20 10 MW-19 20211102 11/2/2021 < 25 12.5 MW-19_20210803 8/3/2021 < 20 10 MW-50 20210106 1/6/2021 < 25 12.5 MW-19_20211001 10/1/2021 < 20 10 MW-38 20210707 7/7/2021 12.3 12.3 MW-19_20220105 1/5/2022 < 20 10 MW-50 20220531 5/31/2022 10.4 10.4 MW-29_20210805 8/5/2021 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-29_20210902 9/2/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19_20210602 6/2/2021 < 12.5 6.25 MW-19 20210803 8/3/2021 < 20 10 MW-29_20210709 7/9/2021 < 12.5 6.25 MW-29 20210805 8/5/2021 < 20 10 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-29 20210902 9/2/2021 < 20 10 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220103 1/3/2022 9.1 9.1 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-25R 20220408 4/8/2022 8.6 8.6 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-50 20220131 1/31/2022 8.5 8.5 MW-52 20210929 9/29/2021 < 12 6 MW-41 20220505 5/5/2022 8.3 8.3 MW-19 20210308 3/8/2021 < 10 5 MW-50 20220404 4/4/2022 8.3 8.3 MW-50 20201202 12/02/2020 < 10 5 MW-50 20210706 7/6/2021 8 8 MW-52 20220303 3/3/2022 < 10 5 DUP-2-20220603 6/3/2022 7.9 7.9 MW-29 20210603 6/3/2021 6.6 6.6 MW-50 20220228 2/28/2022 7.4 7.4 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-19 20211001 10/1/2021 7.2 7.2 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-25 20220105 1/5/2022 7.2 7.2 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210804 8/4/2021 7 7 MW-38_20210902 9/2/2021 < 6.2 3.1 MW-07 20210916 9/16/2021 6.4 6.4 MW-41_20220505 5/5/2022 < 6.2 3.1 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-50_20201020 10/20/2020 < 6.2 3.1 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-55_20220603 6/3/2022 < 6.2 3.1 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-21 20210210 2/10/2021 < 5 2.5 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-21 20210308 3/8/2021 < 5 2.5 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-21 20211001 10/1/2021 < 5 2.5 MW-41 R20220603 6/3/2022 6.2 6.2 MW-25 20220105 1/5/2022 < 5 2.5 MW-52 20210929 9/29/2021 < 12 6 MW-29 20210507 5/7/2021 < 5 2.5 MW-50 20220502 5/2/2022 5.9 5.9 MW-38 20210506 5/6/2021 < 5 2.5 MW-19 20210308 3/8/2021 < 10 5 MW-38 20210603 6/3/2021 < 5 2.5 MW-29 20210603 6/3/2021 < 10 5 MW-38 20210707 7/7/2021 < 5 2.5 MW-50 20201202 12/02/2020 < 10 5 MW-38 20210804 8/4/2021 < 5 2.5 MW-52 20220303 3/3/2022 < 10 5 MW-39 20200916 09/16/2020 < 5 2.5 MW-72R 20220506 5/6/2022 4.6 4.6 MW-50 20210212 2/12/2021 < 5 2.5 MW-87 20220504 5/4/2022 3.7 3.7 MW-50 20210503 5/3/2021 < 5 2.5 MW-03 20220302 3/2/2022 3.4 3.4 MW-50 20211130 11/30/2021 < 5 2.5 MW-21 20210603 6/3/2021 < 6.2 3.1 DUP-2-20211130 11/30/2021 < 5 2.5 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000 GW DATA GENERIC RPA Part 2, data - 12 - 8/25/2022 Colonial Pipeline Company — 2020-L1-SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCO090000 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 MGD MAXIMUM DATA POINTS = 58 Qw (MGD)= 0.5760 WWTP/WTP Class: PC-1 1Q10S (cfs) = 0.21 IWC% @ 1Q10S = 80.9575626 7Q10S (cfs) = 0.25 IWC% @ 7Q10S = 78.1239062 7Q10W(cfs) = 0.42 IW%C @ 7Q10W= 68.0073126 30Q2 (cfs)= 0.56 IWC% @ 30Q2 = 61.4537445 Avg. Stream Flow, QA(cfs)= 3.90 IWC% @ QA= 18.6279419 Receiving Stream: North Prong Clark Creek HUC 30401050101 Stream Class: C PARAMETER NC STANDARDS OR EPA CRITERIA J Cn REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE Chronic Standard Acute D n #Det. Max Pred Cw Allowable Cw Acute: NO WQS 1,4-Dichlorobenzene NC 100 FW(7Q1Os) µg/L 58 0 50.0 _ _ _ ----_-_-_ Chronic - -------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS Dichlorodifluoromethane µg/L 58 0 50.0 _ _ _ Chronic:---------------------------------------- hronic---------- -------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS 1,1-Dichloroethane C 100 HH(Qavg) µg/L 58 0 50.0 _ _ _ ----_-_-_ Chronic: ------------------------------ hronic - -------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS _ 1,2-Dichloroethane C 650 HH(Qavg) µg/L 58 1 50.0 _ _ _____ _ __ _ ___ _ _ _ _ _ _ _ _ ___ Chronic 3,489.38 No RPA, Predicted Max< 50% of Allowbale Cw. Pollutant of concern for petroluem product No value >Allowable Cw groundwater contamination - Monitor with Limit. Acute: NO WQS 1,1-Dichloroethene NC 20000 HH(7Q10s) µg/L 58 0 50.0 _ _ _ ___ _ ____ __________________________ Chronic 25,600 36 No Detects NO DETECTS Max MDL= 100 Acute: NO WQS cis-1,2-Dichloroethene NC 720 HH(7Q10s) µg/L 58 0 50.0 _ _ _ ----_-_-_ Chronic: ------------------------------ hronic - -------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS trans-1,2-Dichloroethene NC 3200 HH(7Q10s) µg/L 58 0 50.0 _ _ _ _____ _ __ __________________________ Chronic 4,096.06 No Detects NO DETECTS Max MDL= 100 Acute: NO WQS 1,2-Dichloropropane C 31 HH(Qavg) µg/L 58 0 50.0 _ _ _ ----_-_-_ Chronic: ------------------------------ hronic - -------------------------- NO DETECTS Max MDL= 100 No Detects Acute: NO WQS 1,3-Dichloropropane µg/L 58 0 50.0 _ _ _ ---------- -------------------------- Chronic No Standard, Criteria or TBEL. No Detects. NO DETECTS Max MDL= 100 NC009000_GW DATA—GENERIC RPA—Part 2, rpa Page 13 of 14 8/25/2022 Colonial Pipeline Company — 2020-L1 -SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCOO9OOOO 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 MGD Acute: NO WQS 2,2-Dichloropropane µg/L 58 0 50.0 1 Chronic: -------------------------- No Standard, Criteria or TBEL. No Detects. NO DETECTS Max MDL= 100 Acute: NO WQS 1,1-Dichloropropene µg/L 58 0 50.0 _ _ _ ----------- -------------------------- Chronic: No Standard, Criteria or TBEL. No Detects. NO DETECTS Max MDL= 100 Acute: NO WQS cis-1,3-Dichloropropene C 12 HH(Qavg) µg/L 58 0 50.0 _ _ _ ----_ _ Chronic - --- -------------------------- 4.42 NO DETECTS Max MDL= 100 No Detects Acute: NO WQS trans-1,3-Dichloropropene C 12 HH(Qavg) µg/L 58 0 50.0 _ _ _ ----_ _ Chronic - --- -------------------------- 4.42 NO DETECTS Max MDL= 100 No Detects Acute: NO WQS _ Diisopropyl ether(Isopropyl Ether) NC 20000 FW(7Q lOs) µg/L 58 58 1010.0 _ _ ___ _ _ __ _ ___ _ _ _ _ _ _ _ _ _ _ Chronic 25,600.36 No RPA, Predicted Max < 50% of Allowbale Cw- No No value >Allowable Cw Monitoring required Acute: NO WQS Ethylbenzene NC 97 FW(7Q 1 Os) µg/L 58 58 1490.0 _ _ _ _____ _ _ _ _ _ ___ _ _ _ _ _ _ _ _ Chronic 124.16 RPA for non-AL- apply Monthly Monitoring with Limit. Pollutant of concern for petroluem product 35 value(s)>Allowable Cw groundwater contamination. Acute: NO WQS Hexachloro-1,3-butadiene C 18 HH(Qavg) µg/L 58 6 200.0 _ _ _ _ ---- - --- --------------------------Chronic RPA for non-AL- apply Monitoring with Limit 6 value(s) >Allowable Cw Acute: NO WQS Isopropylbenzene (Cumene) NC 250 FW(7Q10s) µg/L 58 32 50.0 _ _ _ _____ _ __ _ ___ _ _ _ _ _ _ _ _ _ _ Chronic 320.00 No RPA, Predicted Max < 50% of Allowbale Cw- No No value >Allowable Cw Monitoring required Acute: NO WQS Methylene Chloride C 1000 HH(Qavg) µg/L 58 7 200.0 _ _ _ _____ _ __ _ ___ _ _ _ _ _ _ _ _ _ _ Chronic 5,368.28 No RPA, Predicted Max< 50% of Allowbale Cw- No No value >Allowable Cw Monitoring required Acute: NO WQS Methyl-tert-butyl ether C 1500 HH(Qavg) µg/L 58 56 392.0 _ _ _ _____ _ __ _ ___ _ _ _ _ _ _ _ _ ___ Chronic 8,052.42 No RPA, Predicted Max< 50% of Allowbale Cw. Pollutant of concern for Petrolueum products -Monitor No value >Allowable Cw with Limit. Acute: NO WQS _ Naphthalene NC 12 FW(7Q 1 Os) µg/L 58 56 314.0 _ _ _____ _ __ _ _ _ ___ _ _ _ _ _ _____ Chronic 15.36 RPA for non-AL- apply Monitoring with Limit. Pollutant of concern for petroluem product 58 value(s) >Allowable Cw groundwater contamination. Acute: NO WQS n-Propylbenzene NC 80 FW(7Q10s) µg/L 58 37 120.0 _ _ _ ----_ _ _ - --------------------------Chronic 102.40 RPA for non-AL- apply Monitoring with Limit 1 value(s) >Allowable Cw Acute: NO WQS Styrene µg/L 58 1 50.0 _ _ _ ---------- -------------------------- Chronic No Standard, Criteria or TBEL. No Detects. No value >Allowable Cw NC009000_GW DATA—GENERIC RPA—Part 2, rpa Page 14 of 14 8/25/2022 2018 Generic RPA - 95% Probability/95% Confidence MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY MISSING DATA or ENTRY ERROR Table 1. Project Information Table 2. Parameters of Concern ❑ CHECK IF HQW OR ORW Name Type Chronic Modifier Acute PQL Units Facility Name Colonial Pipeline Company—2020-L1-SR2448 Par01 1,1,1,2-Tetrachloroethane pg/L ?DATA? WWTP/WTP Class PC-1 Par02 1,1,2,2-Tetrachloroethane C 4 HH pg/L NPDES Permit NCO090000 Par03 Tetrachloroethene(Tetrachloroethylene)(PERC) C 3.3 HH pg/L Outfall 001 Par04 Toluene NC 11 FW pg/L Flow, Qw (MGD) 0.576 Par05 1,2,3-Trichlorobenzene pg/L ?DATA? Receiving Stream North Prong Clark Creek Par06 1,2,4-Trichlorobenzene NC 0.076 HH pg/L Stream Class C Par07 1,1,1-Trichloroethane C 2500 FW pg/L HUC Number 30401050101 Par08 1,1,2-Trichloroethane C 8.9 HH pg/L 7Q10s (cfs) 0.25 Par09 Trichloroethene C 30 HH pg/L 7Q10w (cfs) 0.42 Par10 Trichlorofluoromethane (Freon 11) NC 67000 HH pg/L 30Q2 (cfs) 0.56 Par11 1,2,3-Trichloropropane (1,2,3-TCP) C 0.001 HH pg/L QA(cfs) 3.90 Par12 1,2,4-Trim ethyl benzene NC 390 FW pg/L 1Q10s (cfs) 0.21 Par13 1,3,5-Trim ethyl benzene NC 215 HH pg/L Data Source(s) MW data Sep202O_Jun2O22. PQLs are from the Par14 Vinyl chloride C 2.4 HH pg/L ❑ CHECK TO APPLY MODEL NCDENR_DWR_WSS_LAB_PQLs Current FCHECK TO APPLY MODEL Par15 Xylene (Total) NC 670 FW pg/L Revision Date - 1/22/2021. Par16 m&p-Xylene NC 420 FW pg/L Par17 o-Xylene NC 600 FW pg/L Par18 C5 - C8 Aliphatics NC 180 FW pg/L Par19 C9 - C12 Aliphatics NC 180 FW pg/L p Follow directions for data entry. In some cases a Par20 C9 - C10 Aromatics NC 4000 HH g/L comment menu list the available choices or a Par21 VPH (Total) mg/L ?DATA? dropdown menu will provide a list you may select Par22 from. Error message occur if data entry does not meet input criteria. NC009000_GW DATA—GENERIC RPA_Part 3, input 8/25/2022 REASONABLE POTENTIAL ANALYSIS 1 2 Use"PASTE SPECIAL Use"PASTE SPECIAL 1,1,1,2-Tetrachloroethane Values"then"COPY". Values"then"COPY". Maximum data points 1,1,2,2-Tetrachloroethane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 3, data -2 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 3 4 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Tetrachloroethene (Tetrachloroethylene) ( Maximum data points Toluene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-13 20200915 09/15/2020 4.4 4.4 Std Dev. 9.6275 MW-19 20220601 6/1/2022 22800 22800 Std Dev. 4844.1463 MW-11 20200903 09/03/2020 4.1 4.1 Mean 7.4940 MW-19 20220406 4/6/2022 22200 22200 Mean 4613.2069 MW-13 20201007 10/07/2020 2.8 2.8 C.V. 1.2847 MW-19 20220504 5/4/2022 16400 16400 C.V. 1.0501 MW-17 20200916 09/16/2020 2.7 2.7 n 58 MW-19 20220301 3/1/2022 14400 14400 n 58 MW-19 20201007 10/07/2020 2.6 2.6 MW-19 20220201 2/1/2022 13300 13300 MW-19 20200916 09/16/2020 2.4 2.4 Mult Factor= 1.0000 MW-19 20210831 8/31/2021 10500 10500 Mult Factor= 1.0000 MW-11_20200913 09/13/2020 1.9 1.9 Max. Value 50.0 pg/L MW-19_20211201 12/1/2021 9280 9280 Max. Value 22800.0 pg/L MW-17_20210210 2/10/2021 1.4 1.4 Max. Pred Cw 50.0 pg/L MW-19_20210405 4/5/2021 7000 7000 Max. Pred Cw 22800.0 pg/L MW-19 20201202 12/02/2020 1.4 1.4 MW-19 20220105 1/5/2022 6870 6870 MW-21 20200916 09/16/2020 1.3 1.3 MW-50 20210106 1/6/2021 6590 6590 MW-13 20201020 10/20/2020 1.2 1.2 DUP-1-202204408 4/8/2022 6350 6350 MW-17 20201020 10/20/2020 1.2 1.2 MW-19 20210504 5/4/2021 6300 6300 MW-13 20201202 12/02/2020 1.1 1.1 MW-48 20220408 4/8/2022 6240 6240 MW-13 20210312 3/12/2021 1.1 1.1 DUP-2-20211102 11/2/2021 6080 6080 MW-13 20210601 6/1/2021 1.1 1.1 MW-52_20220506 5/6/2022 5960 5960 MW-19 20201020 10/20/2020 1.1 1.1 MW-19_20210707 7/7/2021 5750 5750 MW-13 20210505 5/5/2021 0.94 0.94 MW-19_20210803 8/3/2021 5710 5710 MW-19 20210106 01/06/2021 0.93 0.93 MW-19_20211102 11/2/2021 5520 5520 MW-21 20201020 10/20/2020 0.93 0.93 MW-48 20220506 5/6/2022 5050 5050 MW-13 20210106 01/06/2021 0.85 0.85 MW-29_20210805 8/5/2021 4970 4970 MW-21 20201201 12/01/2020 0.82 0.82 MW-19_20210602 6/2/2021 4740 4740 MW-17 20210308 3/8/2021 0.77 0.77 MW-40 20210106 01/06/2021 4460 4460 MW-13 20210212 2/12/2021 0.69 0.69 MW-11 20201020 10/20/2020 4370 4370 MW-17 20210804 8/4/2021 0.69 0.69 MW-29 20210902 9/2/2021 4360 4360 MW-17 20201201 12/01/2020 0.61 0.61 MW-19 20211001 10/1/2021 4000 4000 MW-13 20210706 7/6/2021 0.59 0.59 MW-29 20210709 7/9/2021 3860 3860 MW-13 20210406 4/6/2021 0.58 0.58 MW-50 20220531 5/31/2022 3810 3810 DUP-1-20210706 7/6/2021 0.58 0.58 MW-50 20201202 12/02/2020 3760 3760 MW-17 20210407 4/7/2021 0.53 0.53 DUP-2-20210709 7/9/2021 3640 3640 MW-17 20210505 5/5/2021 0.52 0.52 MW-55 20201023 10/23/2020 3590 3590 MW-17 20210602 6/2/2021 0.51 0.51 MW-48 20220603 6/3/2022 2760 2760 MW-17 20210707 7/7/2021 0.49 0.49 MW-52 20220407 4/7/2022 2550 2550 MW-17 20210930 9/30/2021 0.33 0.33 MW-19 20210308 3/8/2021 2440 2440 MW-13 20211004 10/4/2021 0.24 0.24 MW-29 20210603 6/3/2021 2400 2400 MW-19 20220406 4/6/2022 < 100 50 MW-39 20200916 09/16/2020 1980 1980 MW-19 20220601 6/1/2022 < 62.5 31.25 MW-50 20201020 10/20/2020 1980 1980 MW-19 20210831 8/31/2021 < 50 25 MW-50 20220502 5/2/2022 1830 1830 MW-19 20220201 2/1/2022 < 50 25 MW-54 20210805 8/5/2021 1670 1670 MW-19 20220301 3/1/2022 < 50 25 MW-50 20220228 2/28/2022 1570 1570 MW-19 20220504 5/4/2022 < 50 25 MW-50 20220131 1/31/2022 1550 1550 MW-19 20210405 4/5/2021 < 25 12.5 MW-50 20220404 4/4/2022 1550 1550 MW-19 20210504 5/4/2021 < 25 12.5 MW-50 20211130 11/30/2021 1460 1460 MW-19 20211102 11/2/2021 < 25 12.5 MW-41 20220505 5/5/2022 1410 1410 DUP-2-20211102 11/2/2021 < 25 12.5 MW-50 20220103 1/3/2022 1380 1380 MW-19 20211201 12/1/2021 < 25 12.5 MW-50 20210503 5/3/2021 1310 1310 MW-48 20220408 4/8/2022 < 25 12.5 DUP-2-20211130 11/30/2021 1270 1270 DUP-1-202204408 4/8/2022 < 25 12.5 MW-54 20210604 6/4/2021 1200 1200 MW-48 20220506 5/6/2022 < 25 12.5 MW-29 20210507 5/7/2021 1170 1170 MW-48 20220603 6/3/2022 < 25 12.5 MW-54 20210506 5/6/2021 999 999 MW-50 20210106 1/6/2021 < 25 12.5 MW-25 20220105 1/5/2022 911 911 MW-52 20220407 4/7/2022 < 25 12.5 MW-40 20201201 12/01/2020 829 829 MW-52 20220506 5/6/2022 < 25 12.5 DUP-2-20220603 6/3/2022 823 823 MW-1 120201020 10/20/2020 < 20 10 MW-38_20210902 9/2/2021 822 822 MW-19 20210707 7/7/2021 < 20 10 DUP-1-20210707 7/7/2021 795 795 MW-19 20210803 8/3/2021 < 20 10 MW-38 20210707 7/7/2021 780 780 MW-19 20211001 10/1/2021 < 20 10 MW-07 20210916 9/16/2021 778 778 MW-19 20220105 1/5/2022 < 20 10 MW-71 20210805 8/5/2021 746 746 MW-29 20210805 8/5/2021 < 20 10 MW-38 20210506 5/6/2021 743 743 NC009000_GW DATA-GENERIC RPA_Part 3, data - 3 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 5 6 Use"PASTE SPECIAL Use"PASTE SPECIAL 1,2,3-Trichlorobenzene Values"then"COPY". Values"then"COPY". Maximum data points 1,2,4-Trichlorobenzene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 400 200 Std Dev. 35.0948 MW-19 20220406 4/6/2022 < 400 200 Std Dev. 35.2273 MW-19 20220601 6/1/2022 < 250 125 Mean 35.6034 MW-19 20220601 6/1/2022 < 250 125 Mean 35.3879 MW-19 20210831 8/31/2021 < 200 100 C.V. 0.9857 MW-19 20210831 8/31/2021 < 200 100 C.V. 0.9955 MW-19 20220201 2/1/2022 < 200 100 n 58 MW-19 20220201 2/1/2022 < 200 100 n 58 MW-19 20220301 3/1/2022 < 200 100 MW-19 20220301 3/1/2022 < 200 100 MW-19 20220504 5/4/2022 < 200 100 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 200 100 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 100 50 Max. Value 200.0 pg/L MW-19_20210405 4/5/2021 < 100 50 Max. Value 200.0 pg/L MW-19_20210504 5/4/2021 < 100 50 Max. Pred Cw 200.0 pg/L MW-19_20210504 5/4/2021 < 100 50 Max. Pred Cw 200.0 pg/L MW-19 20211102 11/2/2021 < 100 50 MW-19 20211102 11/2/2021 < 100 50 DUP-2-20211102 11/2/2021 < 100 50 DUP-2-20211102 11/2/2021 < 100 50 MW-19 20211201 12/1/2021 < 100 50 MW-19 20211201 12/1/2021 < 100 50 MW-48 20220408 4/8/2022 < 100 50 MW-48 20220408 4/8/2022 < 100 50 DUP-1-202204408 4/8/2022 < 100 50 DUP-1-202204408 4/8/2022 < 100 50 MW-48 20220506 5/6/2022 < 100 50 MW-48 20220506 5/6/2022 < 100 50 MW-48 20220603 6/3/2022 < 100 50 MW-48 20220603 6/3/2022 < 100 50 MW-50 20210106 1/6/2021 < 100 50 MW-50 20210106 1/6/2021 < 100 50 MW-52 20220407 4/7/2022 < 100 50 MW-52 20220407 4/7/2022 < 100 50 MW-52 20220506 5/6/2022 < 100 50 MW-52 20220506 5/6/2022 < 100 50 MW-11 20201020 10/20/2020 < 80 40 MW-11 20201020 10/20/2020 < 80 40 MW-19 20210707 7/7/2021 < 80 40 MW-19_20210707 7/7/2021 < 80 40 MW-19 20210803 8/3/2021 < 80 40 MW-19_20210803 8/3/2021 < 80 40 MW-19 20220105 1/5/2022 < 80 40 MW-19_20220105 1/5/2022 < 80 40 MW-29 20210805 8/5/2021 < 80 40 MW-29_20210805 8/5/2021 < 80 40 MW-29 20210902 9/2/2021 < 80 40 MW-29_20210902 9/2/2021 < 80 40 MW-19 20210602 6/2/2021 < 50 25 MW-19_20210602 6/2/2021 < 50 25 MW-29 20210709 7/9/2021 < 50 25 MW-29_20210709 7/9/2021 < 50 25 DUP-2-20210709 7/9/2021 < 50 25 DUP-2-20210709 7/9/2021 < 50 25 MW-40 20210106 01/06/2021 < 50 25 MW-40 20210106 01/06/2021 < 50 25 MW-50 20220531 5/31/2022 < 50 25 MW-50 20220531 5/31/2022 < 50 25 MW-55 20201023 10/23/2020 < 50 25 MW-55 20201023 10/23/2020 < 50 25 MW-19 20210308 3/8/2021 < 40 20 MW-19 20210308 3/8/2021 < 40 20 MW-19 20211001 10/1/2021 < 40 20 MW-29 20210603 6/3/2021 < 40 20 MW-29 20210603 6/3/2021 < 40 20 MW-50 20201202 12/02/2020 < 40 20 MW-50 20201202 12/02/2020 < 40 20 MW-52 20220303 3/3/2022 < 40 20 MW-52 20220303 3/3/2022 < 40 20 MW-21 20210603 6/3/2021 < 25 12.5 MW-21 20210603 6/3/2021 < 25 12.5 MW-21 20210707 7/7/2021 < 25 12.5 MW-21 20210707 7/7/2021 < 25 12.5 DUP-1-20210707 7/7/2021 < 25 12.5 DUP-1-20210707 7/7/2021 < 25 12.5 MW-38 20210902 9/2/2021 < 25 12.5 MW-38 20210902 9/2/2021 < 25 12.5 MW-41_20220505 5/5/2022 < 25 12.5 MW-41 20220505 5/5/2022 < 25 12.5 MW-50_20201020 10/20/2020 < 25 12.5 MW-50 20201020 10/20/2020 < 25 12.5 MW-55_20220603 6/3/2022 < 25 12.5 MW-52 20210929 9/29/2021 < 25 12.5 MW-19 20211001 10/1/2021 < 20 10 MW-55 20220603 6/3/2022 < 25 12.5 MW-21 20210210 2/10/2021 < 20 10 MW-21 20210210 2/10/2021 < 20 10 MW-21 20210308 3/8/2021 < 20 10 MW-21 20210308 3/8/2021 < 20 10 MW-25 20220105 1/5/2022 < 20 10 MW-25 20220105 1/5/2022 < 20 10 MW-29 20210507 5/7/2021 < 20 10 MW-29 20210507 5/7/2021 < 20 10 MW-38 20210506 5/6/2021 < 20 10 MW-38 20210506 5/6/2021 < 20 10 MW-38 20210603 6/3/2021 < 20 10 MW-38 20210603 6/3/2021 < 20 10 MW-38 20210707 7/7/2021 < 20 10 MW-38 20210707 7/7/2021 < 20 10 MW-38 20210804 8/4/2021 < 20 10 MW-38 20210804 8/4/2021 < 20 10 MW-39 20200916 09/16/2020 < 20 10 MW-39 20200916 09/16/2020 < 20 10 MW-50 20210212 2/12/2021 < 20 10 MW-50 20210212 2/12/2021 < 20 10 MW-50 20210503 5/3/2021 < 20 10 MW-50 20210503 5/3/2021 < 20 10 MW-50 20211130 11/30/2021 < 20 10 MW-50 20211130 11/30/2021 < 20 10 DUP-2-20211130 11/30/2021 < 20 10 DUP-2-20211130 11/30/2021 < 20 10 MW-50 20220103 1/3/2022 < 20 10 MW-50 20220103 1/3/2022 < 20 10 MW-50_20220131 1/31/2022 < 20 10 MW-50 20220131 1/31/2022 < 20 10 MW-50 20220228 2/28/2022 < 20 10 NC009000_GW DATA—GENERIC RPA_Part 3, data -4 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 7 8 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,1,1-Trichloroethane Maximum data points 1,1,2-Trichloroethane Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 DUP-2-20211102 11/2/2021 < 25 12.5 MW-19 20211201 12/1/2021 < 25 12.5 MW-19_20211201 12/1/2021 < 25 12.5 MW-48 20220408 4/8/2022 < 25 12.5 MW-48_20220408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220603 6/3/2022 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-50 20210106 1/6/2021 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220407 4/7/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-52 20220506 5/6/2022 < 25 12.5 MW-11 20201020 10/20/2020 < 20 10 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210707 7/7/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20210803 8/3/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20211001 10/1/2021 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-19 20220105 1/5/2022 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210805 8/5/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-29 20210902 9/2/2021 < 20 10 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-52 20210929 9/29/2021 < 12 6 MW-52 20210929 9/29/2021 < 12 6 MW-19 20210308 3/8/2021 < 10 5 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-29 20210603 6/3/2021 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-50 20201202 12/02/2020 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-52 20220303 3/3/2022 < 10 5 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-21 20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210210 2/10/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20210308 3/8/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-21 20211001 10/1/2021 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-25 20220105 1/5/2022 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-29 20210507 5/7/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210506 5/6/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210603 6/3/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210707 7/7/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-38 20210804 8/4/2021 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 MW-50 20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 DUP-2-20211130 11/30/2021 < 5 2.5 MW-50 20220103 1/3/2022 < 5 2.5 1 MW-50 20220103 1/3/2022 < 5 2.5 NC009000_GW DATA-GENERIC RPA_Part 3, data - 5- 8/25/2022 REASONABLE POTENTIAL ANALYSIS 9 10 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". Trichloroethene Maximum data points Trichlorofluoromethane (Freon 11) Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-43 20210929 9/29/2021 0.24 0.24 Std Dev. 8.7703 MW-43 20210902 9/2/2021 0.77 0.77 Std Dev. 20.01 MW-19 20220406 4/6/2022 < 100 50 Mean 8.9947 MW-43 20220302 3/2/2022 0.68 0.68 Mean 13.76 MW-19 20220601 6/1/2022 < 62.5 31.25 C.V. 0.9751 MW-43 20220408 4/8/2022 0.66 0.66 C.V. 1.4544 MW-19 20210831 8/31/2021 < 50 25 n 58 MW-43 20211202 12/2/2021 0.64 0.64 n 58 MW-19 20220201 2/1/2022 < 50 25 MW-43 20210929 9/29/2021 0.63 0.63 MW-19 20220301 3/1/2022 < 50 25 Mult Factor= 1.00 MW-43 20220506 5/6/2022 0.62 0.62 Mult Factor= 1.0000 MW-19_20220504 5/4/2022 < 50 25 Max. Value 50.0 Ng/L MW-43_20220602 6/2/2022 0.62 0.62 Max. Value 100.0 pg/L MW-19_20210405 4/5/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-43_20210805 8/5/2021 0.58 0.58 Max. Pred Cw 100.0 pg/L MW-19 20210504 5/4/2021 < 25 12.5 MW-36 20220602 6/2/2022 0.57 0.57 MW-19 20211102 11/2/2021 < 25 12.5 MW-43 20210507 5/7/2021 0.55 0.55 DUP-2-20211102 11/2/2021 < 25 12.5 MW-43 20220203 2/3/2022 0.54 0.54 MW-19 20211201 12/1/2021 < 25 12.5 MW-36_20220407 4/7/2022 0.52 0.52 MW-48 20220408 4/8/2022 < 25 12.5 MW-95_20211104 11/4/2021 0.51 0.51 DUP-1-202204408 4/8/2022 < 25 12.5 MW-36 20220505 5/5/2022 0.5 0.5 MW-48 20220506 5/6/2022 < 25 12.5 MW-43 20210603 6/3/2021 0.48 0.48 MW-48 20220603 6/3/2022 < 25 12.5 MW-36 20211203 12/3/2021 0.47 0.47 MW-50 20210106 1/6/2021 < 25 12.5 MW-43 20211103 11/3/2021 0.47 0.47 MW-52 20220407 4/7/2022 < 25 12.5 MW-43 20210708 7/8/2021 0.46 0.46 MW-52 20220506 5/6/2022 < 25 12.5 MW-36 20211104 11/4/2021 0.4 0.4 MW-1 120201020 10/20/2020 < 20 10 DUP-2-20210902 9/2/2021 0.39 0.39 MW-19 20210707 7/7/2021 < 20 10 MW-36_20210902 9/2/2021 0.38 0.38 MW-19 20210803 8/3/2021 < 20 10 MW-98D_20220405 4/5/2022 0.37 0.37 MW-19 20211001 10/1/2021 < 20 10 MW-98D_20220503 5/3/2022 0.37 0.37 MW-19 20220105 1/5/2022 < 20 10 MW-79D_20210602 6/2/2021 0.36 0.36 MW-29 20210805 8/5/2021 < 20 10 MW-98D 20220601 6/1/2022 0.36 0.36 MW-29 20210902 9/2/2021 < 20 10 MW-95 20211001 10/1/2021 0.35 0.35 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-36 20220202 2/2/2022 0.34 0.34 MW-29 20210709 7/9/2021 < 12.5 6.25 MW-36 20210603 6/3/2021 0.33 0.33 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-79D 20210505 5/5/2021 0.33 0.33 MW-40 20210106 01/06/2021 < 12.5 6.25 DUP-2-20211104 11/4/2021 0.32 0.32 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-95 20220602 6/2/2022 0.31 0.31 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-36 20210708 7/8/2021 0.3 0.3 MW-52 20210929 9/29/2021 < 12 6 MW-36 20210928 9/28/2021 0.27 0.27 MW-19 20210308 3/8/2021 < 10 5 MW-34 20210928 9/28/2021 0.19 0.19 MW-29 20210603 6/3/2021 < 10 5 MW-19 20220406 4/6/2022 < 200 100 MW-50 20201202 12/02/2020 < 10 5 MW-19 20220601 6/1/2022 < 125 62.5 MW-52 20220303 3/3/2022 < 10 5 MW-19 20210831 8/31/2021 < 100 50 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-19 20220201 2/1/2022 < 100 50 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-19 20220301 3/1/2022 < 100 50 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-19 20220504 5/4/2022 < 100 50 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-19 20210405 4/5/2021 < 50 25 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-19 20210504 5/4/2021 < 50 25 MW-50 20201020 10/20/2020 < 6.2 3.1 MW-19 20211102 11/2/2021 < 50 25 MW-55 20220603 6/3/2022 < 6.2 3.1 DUP-2-20211102 11/2/2021 < 50 25 MW-21 20210210 2/10/2021 < 5 2.5 MW-19 20211201 12/1/2021 < 50 25 MW-21 20210308 3/8/2021 < 5 2.5 MW-48 20220408 4/8/2022 < 50 25 MW-21 20211001 10/1/2021 < 5 2.5 DUP-1-202204408 4/8/2022 < 50 25 MW-25 20220105 1/5/2022 < 5 2.5 MW-48 20220506 5/6/2022 < 50 25 MW-29 20210507 5/7/2021 < 5 2.5 MW-48 20220603 6/3/2022 < 50 25 MW-38 20210506 5/6/2021 < 5 2.5 MW-50 20210106 1/6/2021 < 50 25 MW-38 20210603 6/3/2021 < 5 2.5 MW-52 20220407 4/7/2022 < 50 25 MW-38 20210707 7/7/2021 < 5 2.5 MW-52 20220506 5/6/2022 < 50 25 MW-38 20210804 8/4/2021 < 5 2.5 MW-11 20201020 10/20/2020 < 40 20 MW-39 20200916 09/16/2020 < 5 2.5 MW-19 20210707 7/7/2021 < 40 20 MW-50 20210212 2/12/2021 < 5 2.5 MW-19 20210803 8/3/2021 < 40 20 MW-50 20210503 5/3/2021 < 5 2.5 MW-19 20220105 1/5/2022 < 40 20 MW-50 20211130 11/30/2021 < 5 2.5 MW-29 20210805 8/5/2021 < 40 20 DUP-2-20211130 11/30/2021 < 5 2.5 MW-29 20210902 9/2/2021 < 40 20 NC009000_GW DATA-GENERIC RPA_Part 3, data - 6 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 11 12 Use"PASTE SPECIAL Use"PASTE SPECIAL Values"then"COPY". Values"then"COPY". 1,2,3-Trichloropropane (1,2,3-TCP) Maximum data points 1,2,4-Trimethylbenzene Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220406 4/6/2022 < 100 50 Std Dev. 8.7357 MW-55 20220603 6/3/2022 1380 1380 Std Dev. 262.3810 MW-19 20220601 6/1/2022 < 62.5 31.25 Mean 9.0336 MW-19 20220601 6/1/2022 956 956 Mean 293.6483 MW-19 20210831 8/31/2021 < 50 25 C.V. 0.9670 MW-19 20220406 4/6/2022 944 944 C.V. 0.8935 MW-19 20220201 2/1/2022 < 50 25 n 58 MW-19 20220201 2/1/2022 884 884 n 58 MW-19 20220301 3/1/2022 < 50 25 MW-19 20220301 3/1/2022 800 800 MW-19 20220504 5/4/2022 < 50 25 Mult Factor= 1.0000 MW-19 20220504 5/4/2022 773 773 Mult Factor= 1.0000 MW-19_20210405 4/5/2021 < 25 12.5 Max. Value 50.0 pg/L MW-55_20201023 10/23/2020 626 626 Max. Value 1380.0 Ng/L MW-19_20210504 5/4/2021 < 25 12.5 Max. Pred Cw 50.0 pg/L MW-19_20211201 12/1/2021 557 557 Max. Pred Cw 1380.0 pg/L MW-19 20211102 11/2/2021 < 25 12.5 MW-19 20210831 8/31/2021 471 471 DUP-2-20211102 11/2/2021 < 25 12.5 MW-50 20210106 1/6/2021 450 450 MW-19 20211201 12/1/2021 < 25 12.5 MW-48 20220506 5/6/2022 415 415 MW-48 20220408 4/8/2022 < 25 12.5 MW-40 20210106 01/06/2021 355 355 DUP-1-202204408 4/8/2022 < 25 12.5 DUP-1-202204408 4/8/2022 338 338 MW-48 20220506 5/6/2022 < 25 12.5 DUP-2-20211102 11/2/2021 322 322 MW-48 20220603 6/3/2022 < 25 12.5 MW-48 20220408 4/8/2022 319 319 MW-50 20210106 1/6/2021 < 25 12.5 MW-19 20211102 11/2/2021 305 305 MW-52 20220407 4/7/2022 < 25 12.5 MW-19 20210405 4/5/2021 297 297 MW-52 20220506 5/6/2022 < 25 12.5 MW-19 20210707 7/7/2021 289 289 MW-11 20201020 10/20/2020 < 20 10 MW-19 20210803 8/3/2021 283 283 MW-19 20210707 7/7/2021 < 20 10 MW-19 20220105 1/5/2022 275 275 MW-19 20210803 8/3/2021 < 20 10 MW-50 20201202 12/02/2020 270 270 MW-19 20211001 10/1/2021 < 20 10 MW-11 20201020 10/20/2020 265 265 MW-19 20220105 1/5/2022 < 20 10 MW-19 20210504 5/4/2021 256 256 MW-29 20210805 8/5/2021 < 20 10 MW-52 20220506 5/6/2022 235 235 MW-29 20210902 9/2/2021 < 20 10 MW-19 20211001 10/1/2021 230 230 MW-19 20210602 6/2/2021 < 12.5 6.25 MW-19 20210602 6/2/2021 224 224 MW-29 20210709 7/9/2021 < 12.5 6.25 DUP-2-20220603 6/3/2022 202 202 DUP-2-20210709 7/9/2021 < 12.5 6.25 MW-61 20220603 6/3/2022 195 195 MW-40 20210106 01/06/2021 < 12.5 6.25 MW-61 20220506 5/6/2022 184 184 MW-50 20220531 5/31/2022 < 12.5 6.25 MW-50 20220531 5/31/2022 182 182 MW-55 20201023 10/23/2020 < 12.5 6.25 MW-48 20220603 6/3/2022 173 173 MW-52 20210929 9/29/2021 < 12 6 MW-50 20210503 5/3/2021 171 171 MW-19 20210308 3/8/2021 < 10 5 MW-29 20210805 8/5/2021 167 167 MW-29 20210603 6/3/2021 < 10 5 MW-41 20220505 5/5/2022 165 165 MW-50 20201202 12/02/2020 < 10 5 MW-38 20210902 9/2/2021 163 163 MW-52 20220303 3/3/2022 < 10 5 MW-41 R_20220603 6/3/2022 162 162 MW-21 20210603 6/3/2021 < 6.2 3.1 MW-29 20210902 9/2/2021 158 158 MW-21 20210707 7/7/2021 < 6.2 3.1 MW-72R 20220408 4/8/2022 150 150 DUP-1-20210707 7/7/2021 < 6.2 3.1 MW-72R 20220506 5/6/2022 149 149 MW-38 20210902 9/2/2021 < 6.2 3.1 MW-19 20210308 3/8/2021 148 148 MW-41 20220505 5/5/2022 < 6.2 3.1 MW-50 20211130 11/30/2021 147 147 MW-50 20201020 10/20/2020 < 6.2 3.1 DUP-2-20211130 11/30/2021 140 140 MW-55 20220603 6/3/2022 < 6.2 3.1 MW-50_20220131 1/31/2022 140 140 MW-21 20210210 2/10/2021 < 5 2.5 DUP-2-20210709 7/9/2021 137 137 MW-21 20210308 3/8/2021 < 5 2.5 MW-29 20210709 7/9/2021 133 133 MW-21 20211001 10/1/2021 < 5 2.5 MW-50 20220103 1/3/2022 131 131 MW-25 20220105 1/5/2022 < 5 2.5 MW-50 20210212 2/12/2021 127 127 MW-29 20210507 5/7/2021 < 5 2.5 MW-50 20210706 7/6/2021 126 126 MW-38 20210506 5/6/2021 < 5 2.5 MW-50 20210312 3/12/2021 125 125 MW-38 20210603 6/3/2021 < 5 2.5 MW-25R 20220603 6/3/2022 121 121 MW-38 20210707 7/7/2021 < 5 2.5 MW-50 20220228 2/28/2022 120 120 MW-38 20210804 8/4/2021 < 5 2.5 DUP-1-20210707 7/7/2021 106 106 MW-39 20200916 09/16/2020 < 5 2.5 MW-50 20220502 5/2/2022 104 104 MW-50 20210212 2/12/2021 < 5 2.5 MW-50 20210601 6/1/2021 103 103 MW-50 20210503 5/3/2021 < 5 2.5 MW-50 20220404 4/4/2022 100 100 MW-50 20211130 11/30/2021 < 5 2.5 MW-38 20210707 7/7/2021 99.9 99.9 DUP-2-20211130 11/30/2021 < 5 2.5 MW-25R 20220408 4/8/2022 94.5 94.5 MW-50 20220103 1/3/2022 < 5 2.5 MW-50 20201020 10/20/2020 89.2 89.2 NC009000_GW DATA-GENERIC RPA_Part 3, data - 7 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 13 14 Use"PASTE SPECIAL Use"PASTE SPECIAL 1,3,5-Tri methyl benzene Values"then"COPY". Values"then"COPY". Maximum data points Vinyl chloride Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-55 20220603 6/3/2022 382 382 Std Dev. 75.1092 MW-79D_20211001 10/1/2021 0.22 0.22 Std Dev. 17.6226 MW-19 20220406 4/6/2022 235 235 Mean 66.3052 MW-19_20220406 4/6/2022 < 200 100 Mean 17.7150 MW-19 20220601 6/1/2022 218 218 C.V. 1.1328 MW-19_20220601 6/1/2022 < 125 62.5 C.V. 0.9948 MW-19 20220201 2/1/2022 215 215 n 58 MW-19_20210831 8/31/2021 < 100 50 n 58 MW-19 20220301 3/1/2022 207 207 MW-19_20220201 2/1/2022 < 100 50 MW-19 20220504 5/4/2022 193 193 Mult Factor= 1.0000 MW-19_20220301 3/1/2022 < 100 50 Mult Factor= 1.0000 MW-48_20220506 5/6/2022 169 169 Max. Value 382.0 pg/L MW-19_20220504 5/4/2022 < 100 50 Max. Value 100.0 pg/L MW-19_20211201 12/1/2021 156 156 Max. Pred Cw 382.0 Ng/L MW-19_20210405 4/5/2021 < 50 25 Max. Pred Cw 100.0 pg/L MW-52 20220506 5/6/2022 148 148 MW-19 20210504 5/4/2021 < 50 25 DUP-1-202204408 4/8/2022 141 141 MW-19 20211102 11/2/2021 < 50 25 MW-48 20220408 4/8/2022 134 134 DUP-2-20211102 11/2/2021 < 50 25 MW-19 20210831 8/31/2021 104 104 MW-19_20211201 12/1/2021 < 50 25 MW-61 20220603 6/3/2022 92.7 92.7 MW-48_20220408 4/8/2022 < 50 25 DUP-2-20211102 11/2/2021 90 90 DUP-1-202204408 4/8/2022 < 50 25 MW-48 20220603 6/3/2022 88.3 88.3 MW-48_20220506 5/6/2022 < 50 25 MW-52 20220407 4/7/2022 75.5 75.5 MW-48_20220603 6/3/2022 < 50 25 MW-19 20210707 7/7/2021 68.9 68.9 MW-50_20210106 1/6/2021 < 50 25 DUP-2-20220603 6/3/2022 68.1 68.1 MW-52 20220407 4/7/2022 < 50 25 MW-19 20211001 10/1/2021 66 66 MW-52 20220506 5/6/2022 < 50 25 MW-61 20220506 5/6/2022 60.1 60.1 MW-11 20201020 10/20/2020 < 40 20 MW-41 R_20220603 6/3/2022 57.9 57.9 MW-19 20210707 7/7/2021 < 40 20 MW-72R 20220408 4/8/2022 53.9 53.9 MW-19 20210803 8/3/2021 < 40 20 MW-41 20220505 5/5/2022 49.5 49.5 MW-19 20220105 1/5/2022 < 40 20 MW-50 20220531 5/31/2022 49.3 49.3 MW-29 20210805 8/5/2021 < 40 20 MW-72R 20220506 5/6/2022 48.2 48.2 MW-29 20210902 9/2/2021 < 40 20 MW-25R 20220603 6/3/2022 42.8 42.8 MW-19 20210602 6/2/2021 < 25 12.5 MW-50 20220131 1/31/2022 38.8 38.8 MW-29 20210709 7/9/2021 < 25 12.5 MW-61 20220408 4/8/2022 38 38 DUP-2-20210709 7/9/2021 < 25 12.5 MW-50 20220103 1/3/2022 34.6 34.6 MW-40_20210106 01/06/2021 < 25 12.5 MW-50 20220228 2/28/2022 33 33 MW-50_20220531 5/31/2022 < 25 12.5 MW-50 20210706 7/6/2021 32.5 32.5 MW-55 20201023 10/23/2020 < 25 12.5 MW-25R 20220408 4/8/2022 28.7 28.7 MW-19_20210308 3/8/2021 < 20 10 MW-50 20220502 5/2/2022 27.9 27.9 MW-19_20211001 10/1/2021 < 20 10 DUP-1-20210707 7/7/2021 27.6 27.6 MW-29 20210603 6/3/2021 < 20 10 MW-50 20220404 4/4/2022 27.6 27.6 MW-50 20201202 12/02/2020 < 20 10 MW-25R 20220506 5/6/2022 26.9 26.9 MW-52_20220303 3/3/2022 < 20 10 MW-25 20220105 1/5/2022 26.3 26.3 MW-21_20210603 6/3/2021 < 12.5 6.25 MW-52 20220303 3/3/2022 26.2 26.2 MW-21_20210707 7/7/2021 < 12.5 6.25 MW-38 20210707 7/7/2021 26 26 DUP-1-20210707 7/7/2021 < 12.5 6.25 MW-41 R_20220408 4/8/2022 18.2 18.2 MW-38_20210902 9/2/2021 < 12.5 6.25 MW-07 20210916 9/16/2021 15.3 15.3 MW-41_20220505 5/5/2022 < 12.5 6.25 DUP-1-20211102 11/2/2021 14.4 14.4 MW-50 20201020 10/20/2020 < 12.5 6.25 MW-38 20210804 8/4/2021 13.8 13.8 MW-55_20220603 6/3/2022 < 12.5 6.25 MW-50 20211102 11/2/2021 13.8 13.8 MW-52_20210929 9/29/2021 < 12 6 MW-52 20220203 2/3/2022 13.5 13.5 MW-21_20210308 3/8/2021 < 10 5 MW-87 20220504 5/4/2022 12.8 12.8 MW-23_20210210 2/10/2021 < 10 5 MW-19 20210405 4/5/2021 < 25 12.5 MW-25_20220105 1/5/2022 < 10 5 MW-19 20210504 5/4/2021 < 25 12.5 MW-29_20210507 5/7/2021 < 10 5 MW-19 20211102 11/2/2021 < 25 12.5 MW-38_20210506 5/6/2021 < 10 5 MW-50 20210106 1/6/2021 < 25 12.5 MW-38_20210603 6/3/2021 < 10 5 MW-07 20210928 9/28/2021 12 12 MW-38_20210707 7/7/2021 < 10 5 MW-03 20220302 3/2/2022 11.5 11.5 MW-38_20210804 8/4/2021 < 10 5 MW-52 20211203 12/3/2021 11.5 11.5 MW-39 20200916 09/16/2020 < 10 5 MW-72R 20220603 6/3/2022 11.4 11.4 MW-50_20210212 2/12/2021 < 10 5 MW-52 20210902 9/2/2021 10.2 10.2 MW-50_20210503 5/3/2021 < 10 5 M W-11_20201020 10/20/2020 < 20 10 M W-50_20211130 11/30/2021 < 10 5 MW-19 20210803 8/3/2021 < 20 10 DUP-2-20211130 11/30/2021 < 10 5 MW-19 20220105 1/5/2022 < 20 10 MW-50 20220103 1/3/2022 < 10 5 NC009000 GW DATA GENERIC RPA Part 3, data - 8 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 15 16 Use"PASTE SPECIAL Use"PASTE SPECIAL Xylene (Total) Values"then"COPY". m&p-Xylene Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220601 6/1/2022 10700 10700 Std Dev. 2379.3280 MW-19_20220601 6/1/2022 7050 7050 Std Dev. 1509.6991 MW-19 20220406 4/6/2022 9730 9730 Mean 2641.5690 MW-19_20220406 4/6/2022 6500 6500 Mean 1760.6897 MW-19 20220301 3/1/2022 8330 8330 C.V. 0.9007 MW-19_20220301 3/1/2022 5450 5450 C.V. 0.8574 MW-19 20220201 2/1/2022 8080 8080 n 58 MW-19_20220201 2/1/2022 5250 5250 n 58 MW-19 20220504 5/4/2022 7860 7860 MW-19_20220504 5/4/2022 5040 5040 MW-19 20211201 12/1/2021 6020 6020 Mult Factor= 1.0000 MW-19_20211201 12/1/2021 3920 3920 Mult Factor= 1.0000 MW-55_20220603 6/3/2022 5840 5840 Max. Value 10700.0 pg/L MW-55_20220603 6/3/2022 3820 3820 Max. Value 7050.0 pg/L MW-19_20210831 8/31/2021 5130 5130 Max. Pred Cw 10700.0 pg/L MW-19_20210831 8/31/2021 3350 3350 Max. Pred Cw 7050.0 pg/L MW-52 20220506 5/6/2022 4580 4580 MW-50_20210106 1/6/2021 2460 2460 MW-48 20220506 5/6/2022 4330 4330 DUP-2-20211102 11/2/2021 2430 2430 DUP-2-20211102 11/2/2021 3780 3780 MW-19 20211102 11/2/2021 2390 2390 MW-19 20211102 11/2/2021 3730 3730 MW-52_20220506 5/6/2022 2360 2360 MW-19 20220105 1/5/2022 3590 3590 MW-19_20220105 1/5/2022 2180 2180 DUP-1-202204408 4/8/2022 3550 3550 MW-48 20220506 5/6/2022 2070 2070 MW-48 20220408 4/8/2022 3430 3430 MW-19_20210405 4/5/2021 1980 1980 MW-48 20220603 6/3/2022 3170 3170 MW-19_20210707 7/7/2021 1980 1980 MW-19 20210504 5/4/2021 3060 3060 MW-19_20210803 8/3/2021 1980 1980 MW-19 20210707 7/7/2021 3060 3060 MW-19_20210504 5/4/2021 1970 1970 MW-19 20210405 4/5/2021 3040 3040 MW-50_20201202 12/02/2020 1950 1950 MW-19 20210803 8/3/2021 3040 3040 MW-55_20201023 10/23/2020 1870 1870 MW-19 20211001 10/1/2021 2680 2680 DUP-1-202204408 4/8/2022 1840 1840 MW-19 20210602 6/2/2021 2459 2459 MW-48_20220408 4/8/2022 1790 1790 MW-52 20220407 4/7/2022 2309 2309 MW-19_20211001 10/1/2021 1700 1700 MW-50 20220531 5/31/2022 2215 2215 MW-19_20210602 6/2/2021 1590 1590 MW-38 20210902 9/2/2021 1948 1948 MW-50_20220531 5/31/2022 1370 1370 MW-29 20210902 9/2/2021 1722 1722 MW-48_20220603 6/3/2022 1320 1320 MW-29 20210805 8/5/2021 1639 1639 MW-38_20210902 9/2/2021 1290 1290 MW-50 20210503 5/3/2021 1536 1536 MW-40_20210106 01/06/2021 1280 1280 MW-50 20211130 11/30/2021 1467 1467 MW-29_20210902 9/2/2021 1120 1120 MW-50 20220103 1/3/2022 1413 1413 MW-11_20201020 10/20/2020 1110 1110 DUP-2-20220603 6/3/2022 1404 1404 MW-29 20210805 8/5/2021 1080 1080 MW-29 20210709 7/9/2021 1380 1380 MW-50 20210503 5/3/2021 1010 1010 DUP-2-20211130 11/30/2021 1366 1366 MW-52 20220407 4/7/2022 949 949 MW-50 20220228 2/28/2022 1360 1360 MW-50 20211130 11/30/2021 909 909 DUP-2-20210709 7/9/2021 1310 1310 MW-29 20210709 7/9/2021 901 901 MW-41 20220505 5/5/2022 1304 1304 DUP-2-20210709 7/9/2021 853 853 MW-50 20220131 1/31/2022 1300 1300 MW-50 20220103 1/3/2022 853 853 DUP-1-20210707 7/7/2021 1256 1256 MW-19 20210308 3/8/2021 838 838 MW-61 20220603 6/3/2022 1245 1245 DUP-2-20211130 11/30/2021 835 835 MW-50 20220502 5/2/2022 1241 1241 DUP-1-20210707 7/7/2021 829 829 MW-38 20210707 7/7/2021 1225 1225 DUP-2-20220603 6/3/2022 824 824 MW-50 20220404 4/4/2022 1176 1176 MW-41_20220505 5/5/2022 814 814 MW-50 20210312 3/12/2021 1149 1149 MW-50_20220228 2/28/2022 812 812 MW-41 R_20220603 6/3/2022 1145 1145 MW-38_20210707 7/7/2021 805 805 MW-25 20220105 1/5/2022 1067 1067 MW-50_20220131 1/31/2022 778 778 MW-54 20210805 8/5/2021 1045 1045 MW-50_20210312 3/12/2021 750 750 MW-50 20210706 7/6/2021 1043 1043 MW-50_20220502 5/2/2022 748 748 MW-38 20210603 6/3/2021 935 935 MW-50_20210212 2/12/2021 713 713 MW-38 20210804 8/4/2021 892 892 MW-50_20220404 4/4/2022 712 712 MW-50 20210406 4/6/2021 885 885 MW-61_20220603 6/3/2022 693 693 MW-50 20210601 6/1/2021 881 881 MW-41R_20220603 6/3/2022 675 675 MW-72R 20220408 4/8/2022 862 862 MW-50_20210706 7/6/2021 662 662 MW-29 20210603 6/3/2021 774 774 MW-25_20220105 1/5/2022 661 661 MW-54 20210604 6/4/2021 751 751 MW-54_20210805 8/5/2021 649 649 MW-38 20210506 5/6/2021 713 713 MW-38_20210603 6/3/2021 615 615 MW-72R 20220506 5/6/2022 703 703 MW-50_20201020 10/20/2020 611 611 MW-52 20220303 3/3/2022 688 688 MW-50_20210601 6/1/2021 568 568 MW-25R 20220603 6/3/2022 673 673 MW-50 20210406 4/6/2021 563 563 NC009000_GW DATA—GENERIC RPA_Part 3, data - 9- 8/25/2022 REASONABLE POTENTIAL ANALYSIS 17 18 Use"PASTE SPECIAL Use"PASTE SPECIAL- O-Xylene Values"then"COPY". C5 - C8 Aliphatics Values"then"COPY". Maximum data points Maximum data points= =58 58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220601 6/1/2022 3650 3650 Std Dev. 821.5628 MW-19_20220601 6/1/2022 153000 153000 Std Dev. 34045.8159 MW-19 20220406 4/6/2022 3230 3230 Mean 1064.0862 MW-19_20220406 4/6/2022 139000 139000 Mean 36756.8966 MW-19 20220301 3/1/2022 2880 2880 C.V. 0.7721 MW-19_20220504 5/4/2022 136000 136000 C.V. 0.9262 MW-19 20220201 2/1/2022 2830 2830 n 58 MW-19_20220301 3/1/2022 104000 104000 n 58 MW-19 20220504 5/4/2022 2820 2820 MW-52_20220506 5/6/2022 85500 85500 MW-48 20220506 5/6/2022 2260 2260 Mult Factor= 1.0000 MW-19_20210831 8/31/2021 78300 78300 Mult Factor= 1.0000 MW-52_20220506 5/6/2022 2220 2220 Max. Value 3650.0 pg/L MW-19_20220201 2/1/2022 75600 75600 Max. Value 153000.0 pg/L MW-19_20211201 12/1/2021 2100 2100 Max. Pred Cw 3650.0 pg/L MW-48_20220506 5/6/2022 72400 72400 Max. Pred Cw 153000.0 pg/L MW-55 20220603 6/3/2022 2020 2020 MW-48_20220603 6/3/2022 64200 64200 MW-48 20220603 6/3/2022 1850 1850 MW-19_20211201 12/1/2021 62000 62000 MW-19 20210831 8/31/2021 1780 1780 DUP-1-202204408 4/8/2022 59400 59400 DUP-1-202204408 4/8/2022 1710 1710 MW-19 20210803 8/3/2021 58900 58900 MW-48 20220408 4/8/2022 1640 1640 MW-48_20220408 4/8/2022 58300 58300 MW-19 20220105 1/5/2022 1410 1410 MW-19_20210707 7/7/2021 58200 58200 MW-52 20220407 4/7/2022 1360 1360 MW-19_20210504 5/4/2021 56000 56000 DUP-2-20211102 11/2/2021 1350 1350 MW-19 20210405 4/5/2021 47300 47300 MW-19 20211102 11/2/2021 1340 1340 MW-19 20220105 1/5/2022 45300 45300 MW-50 20210106 1/6/2021 1230 1230 DUP-2-20211102 11/2/2021 42900 42900 MW-19 20210504 5/4/2021 1090 1090 MW-52_20220407 4/7/2022 42900 42900 MW-19 20210707 7/7/2021 1080 1080 MW-29_20210805 8/5/2021 42800 42800 MW-19 20210405 4/5/2021 1060 1060 MW-19_20211102 11/2/2021 41900 41900 MW-19 20210803 8/3/2021 1060 1060 MW-19_20210602 6/2/2021 38600 38600 MW-19 20211001 10/1/2021 980 980 DUP-2-20210709 7/9/2021 31100 31100 MW-50 20201202 12/02/2020 962 962 MW-29_20210902 9/2/2021 29300 29300 MW-19 20210602 6/2/2021 869 869 MW-29_20210709 7/9/2021 28300 28300 MW-55 20201023 10/23/2020 860 860 MW-50_20210106 1/6/2021 25900 25900 MW-50 20220531 5/31/2022 845 845 MW-50_20220531 5/31/2022 22700 22700 MW-40 20210106 01/06/2021 662 662 MW-03_20220202 2/2/2022 19100 19100 MW-38 20210902 9/2/2021 658 658 MW-50_20220502 5/2/2022 19100 19100 MW-1 120201020 10/20/2020 645 645 MW-29_20210603 6/3/2021 19000 19000 MW-29 20210902 9/2/2021 602 602 MW-50_20201202 12/02/2020 18700 18700 DUP-2-20220603 6/3/2022 580 580 MW-11 20201020 10/20/2020 16700 16700 MW-52 20220303 3/3/2022 561 561 MW-03_20220302 3/2/2022 16100 16100 MW-50 20220103 1/3/2022 560 560 MW-52_20220303 3/3/2022 15900 15900 MW-29 20210805 8/5/2021 559 559 MW-54_20210805 8/5/2021 15900 15900 MW-50 20211130 11/30/2021 558 558 MW-38_20210902 9/2/2021 15600 15600 MW-61 20220603 6/3/2022 552 552 MW-50_20220131 1/31/2022 15300 15300 MW-50 20220228 2/28/2022 548 548 MW-38_20210804 8/4/2021 15200 15200 DUP-2-20211130 11/30/2021 531 531 MW-41 20220505 5/5/2022 15100 15100 MW-50 20210503 5/3/2021 526 526 DUP-1-20210707 7/7/2021 14700 14700 MW-50 20220131 1/31/2022 522 522 MW-50_20220228 2/28/2022 14300 14300 MW-50 20220502 5/2/2022 493 493 MW-50_20210503 5/3/2021 13500 13500 MW-41 20220505 5/5/2022 490 490 MW-38_20210707 7/7/2021 13400 13400 MW-29 20210709 7/9/2021 479 479 MW-50 20220404 4/4/2022 13300 13300 MW-41 R_20220603 6/3/2022 470 470 MW-52_20220203 2/3/2022 13100 13100 MW-19 20210308 3/8/2021 465 465 MW-55_20201023 10/23/2020 13000 13000 MW-50 20220404 4/4/2022 464 464 MW-03_20220107 1/7/2022 12200 12200 DUP-2-20210709 7/9/2021 457 457 MW-40 20210106 01/06/2021 12100 12100 DUP-1-20210707 7/7/2021 427 427 MW-19 20211001 10/1/2021 12000 12000 MW-38 20210707 7/7/2021 420 420 MW-25_20220105 1/5/2022 11600 11600 MW-25 20220105 1/5/2022 406 406 MW-55_20220603 6/3/2022 11600 11600 MW-50 20210312 3/12/2021 399 399 DUP-2-20211130 11/30/2021 11200 11200 MW-54 20210805 8/5/2021 396 396 MW-38_20210603 6/3/2021 11100 11100 MW-50 20210706 7/6/2021 381 381 MW-87_20220504 5/4/2022 11000 11000 MW-52 20211203 12/3/2021 375 375 MW-03_20220407 4/7/2022 10800 10800 MW-50 20210212 2/12/2021 367 367 MW-21 20210603 6/3/2021 10500 10500 MW-72R 20220408 4/8/2022 342 342 MW-50 20211130 11/30/2021 10500 10500 MW-50 20201020 10/20/2020 336 336 MW-50 20220103 1/3/2022 10500 10500 NC009000 GW DATA GENERIC RPA Part 3, data - 10 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 19 20 Use"PASTE SPECIAL Use"PASTE SPECIAL C9 - C12 Aliphatics Values"then"COPY". C9 - C10 Aromatics Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20220601 6/1/2022 25800 25800 Std Dev. 5285.1052 MW-19_20220406 4/6/2022 7340 7340 Std Dev. 1241.7965 MW-19 20220406 4/6/2022 25300 25300 Mean 6051.2069 MW-55_20220603 6/3/2022 4390 4390 Mean 1187.1897 MW-19 20220301 3/1/2022 19600 19600 C.V. 0.8734 MW-19 20220601 6/1/2022 4320 4320 C.V. 1.0460 MW-19 20220504 5/4/2022 17700 17700 n 58 MW-19 20220301 3/1/2022 3480 3480 n 58 MW-19 20220201 2/1/2022 13300 13300 MW-19 20220504 5/4/2022 3190 3190 MW-19 20211201 12/1/2021 11800 11800 Mult Factor= 1.0000 MW-19 20220201 2/1/2022 2450 2450 Mult Factor= 1.0000 MW-19_20210831 8/31/2021 11600 11600 Max. Value 25800.0 pg/L MW-48_20220506 5/6/2022 2340 2340 Max. Value 7340.0 pg/L MW-55_20220603 6/3/2022 10900 10900 Max. Pred Cw 25800.0 Ng/L MW-52_20220506 5/6/2022 1890 1890 Max. Pred Cw 7340.0 pg/L MW-19 20210504 5/4/2021 8520 8520 DUP-1-202204408 4/8/2022 1880 1880 MW-50 20210106 1/6/2021 8140 8140 MW-48 20220408 4/8/2022 1810 1810 DUP-2-20211102 11/2/2021 8080 8080 MW-55 20201023 10/23/2020 1720 1720 MW-19 20211102 11/2/2021 7720 7720 MW-48 20220603 6/3/2022 1610 1610 MW-19 20210405 4/5/2021 7550 7550 MW-40 20210106 01/06/2021 1430 1430 MW-19 20220105 1/5/2022 7390 7390 MW-19 20211001 10/1/2021 1400 1400 MW-19 20210707 7/7/2021 7250 7250 MW-11 20201020 10/20/2020 1370 1370 MW-52 20220506 5/6/2022 7180 7180 MW-61 20220506 5/6/2022 1340 1340 MW-19 20210803 8/3/2021 7110 7110 MW-19 20210831 8/31/2021 1330 1330 MW-48 20220506 5/6/2022 6930 6930 MW-19 20211201 12/1/2021 < 2500 1250 MW-40 20210106 01/06/2021 6890 6890 MW-41 20220505 5/5/2022 1210 1210 MW-48 20220603 6/3/2022 6480 6480 MW-50 20210106 1/6/2021 1210 1210 DUP-1-202204408 4/8/2022 6360 6360 MW-72R 20220506 5/6/2022 1100 1100 MW-19 20210602 6/2/2021 6190 6190 DUP-2-20211102 11/2/2021 1040 1040 MW-48 20220408 4/8/2022 6090 6090 MW-19 20211102 11/2/2021 1020 1020 MW-50 20201202 12/02/2020 5620 5620 MW-50 20201202 12/02/2020 934 934 MW-52 20220407 4/7/2022 5230 5230 MW-19 20220105 1/5/2022 842 842 MW-11 20201020 10/20/2020 4580 4580 MW-61 20220603 6/3/2022 814 814 MW-29 20210805 8/5/2021 4580 4580 MW-72R 20220408 4/8/2022 790 790 MW-55 20201023 10/23/2020 4580 4580 MW-19 20210405 4/5/2021 744 744 MW-50 20220531 5/31/2022 4310 4310 DUP-2-20220603 6/3/2022 740 740 MW-50 20210503 5/3/2021 4060 4060 MW-41 R_20220603 6/3/2022 705 705 MW-41 20220505 5/5/2022 3980 3980 MW-50 20220531 5/31/2022 657 657 MW-38 20210902 9/2/2021 3890 3890 MW-19 20210602 6/2/2021 652 652 MW-29 20210902 9/2/2021 3360 3360 MW-52 20220407 4/7/2022 < 1250 625 DUP-2-20210709 7/9/2021 3250 3250 MW-61 20220408 4/8/2022 567 567 DUP-1-20210707 7/7/2021 3070 3070 MW-25R 20220603 6/3/2022 546 546 MW-50 20220228 2/28/2022 2970 2970 MW-50 20220228 2/28/2022 523 523 MW-29 20210709 7/9/2021 2870 2870 MW-52 20210929 9/29/2021 510 510 MW-50 20220502 5/2/2022 2870 2870 MW-50 20220502 5/2/2022 504 504 MW-38 20210707 7/7/2021 2840 2840 MW-50 20210212 2/12/2021 < 1000 500 DUP-2-20220603 6/3/2022 2640 2640 MW-19 20210504 5/4/2021 < 1000 500 DUP-2-20211130 11/30/2021 2620 2620 MW-19 20210707 7/7/2021 < 1000 500 MW-38 20210603 6/3/2021 2600 2600 MW-19_20210803 8/3/2021 < 1000 500 MW-41 R_20220603 6/3/2022 2570 2570 MW-29_20210805 8/5/2021 < 1000 500 MW-50 20210706 7/6/2021 2550 2550 MW-50 20210503 5/3/2021 491 491 MW-38 20210804 8/4/2021 2530 2530 MW-19 20210308 3/8/2021 473 473 MW-50 20211130 11/30/2021 2480 2480 MW-50 20220131 1/31/2022 465 465 MW-50 20210312 3/12/2021 2460 2460 MW-25R 20220506 5/6/2022 426 426 MW-50 20210212 2/12/2021 2420 2420 MW-50 20210706 7/6/2021 421 421 MW-25 20220105 1/5/2022 2360 2360 DUP-2-20211130 11/30/2021 418 418 MW-50 20220404 4/4/2022 2350 2350 MW-50 20211130 11/30/2021 404 404 MW-50 20220131 1/31/2022 2340 2340 MW-50 20201020 10/20/2020 398 398 MW-50 20220103 1/3/2022 2240 2240 MW-25R 20220408 4/8/2022 396 396 MW-50 20210601 6/1/2021 2200 2200 MW-38 20210902 9/2/2021 395 395 MW-54 20210805 8/5/2021 2180 2180 MW-50 20220404 4/4/2022 386 386 MW-50 20210406 4/6/2021 2170 2170 MW-41 R_20220408 4/8/2022 366 366 MW-61 20220603 6/3/2022 2120 2120 DUP-1-20210707 7/7/2021 356 356 MW-29 20210603 6/3/2021 2100 2100 MW-52_20220303 3/3/2022 350 350 MW-38 20210506 5/6/2021 2100 2100 MW-50 20210312 3/12/2021 339 339 NC009000 GW DATA GENERIC RPA Part 3, data - 11 - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 21 Use"PASTE SPECIAL VPH (Total) values"then"COPY". Maximum data points =58 Date Data BDL=1/2DL Results MW-19 20220601 6/1/2022 183 183 Std Dev. 40.4199 MW-19 20220406 4/6/2022 171 171 Mean 43.0261 MW-19 20220504 5/4/2022 157 157 C.V. 0.9394 MW-19 20220301 3/1/2022 127 127 n 58 MW-52 20220506 5/6/2022 94.5 94.5 MW-19 20220201 2/1/2022 91.4 91.4 Mult Factor= 1.0000 MW-19_20210831 8/31/2021 91.2 91.2 Max. Value 183.0 mg/L MW-48_20220506 5/6/2022 81.7 81.7 Max. Pred Cw 183.0 mg/L MW-19 20211201 12/1/2021 75.3 75.3 MW-48 20220603 6/3/2022 72.2 72.2 DUP-1-202204408 4/8/2022 67.6 67.6 MW-19 20210803 8/3/2021 66.9 66.9 MW-19 20210707 7/7/2021 66.3 66.3 MW-48 20220408 4/8/2022 66.2 66.2 MW-19 20210504 5/4/2021 64.5 64.5 MW-19 20210405 4/5/2021 54.854 54.854 MW-19 20220105 1/5/2022 53.5 53.5 DUP-2-20211102 11/2/2021 52 52 MW-19 20211102 11/2/2021 50.6 50.6 MW-52 20220407 4/7/2022 49.3 49.3 MW-29 20210805 8/5/2021 48.1 48.1 MW-19 20210602 6/2/2021 44.8 44.8 MW-50 20210106 1/6/2021 35.3 35.3 DUP-2-20210709 7/9/2021 34.9 34.9 MW-29 20210902 9/2/2021 33.1 33.1 MW-29 20210709 7/9/2021 31.6 31.6 MW-50 20220531 5/31/2022 27.7 27.7 MW-55 20220603 6/3/2022 26.9 26.9 MW-50 20220502 5/2/2022 22.5 22.5 MW-29 20210603 6/3/2021 21.1 21.1 MW-40 20210106 01/06/2021 20.4 20.4 MW-41 20220505 5/5/2022 20.2 20.2 MW-38 20210902 9/2/2021 19.9 19.9 MW-03 20220202 2/2/2022 19.2 19.2 MW-54 20210805 8/5/2021 18.3 18.3 DUP-1-20210707 7/7/2021 18.1 18.1 MW-50 20220131 1/31/2022 18.1 18.1 MW-38 20210804 8/4/2021 17.9 17.9 MW-52 20220303 3/3/2022 17.9 17.9 MW-50 20220228 2/28/2022 17.8 17.8 MW-50 20210503 5/3/2021 17.5 17.5 MW-03 20220302 3/2/2022 16.8 16.8 MW-38 20210707 7/7/2021 16.66 16.66 MW-50 20220404 4/4/2022 16.1 16.1 MW-25 20220105 1/5/2022 14.3 14.3 DUP-2-20211130 11/30/2021 14.3 14.3 MW-52 20220203 2/3/2022 14.1 14.1 MW-38 20210603 6/3/2021 13.7 13.7 MW-50 20211130 11/30/2021 13.4 13.4 MW-87 20220504 5/4/2022 13.1 13.1 MW-50 20220103 1/3/2022 13 13 MW-61 20220506 5/6/2022 12.9 12.9 MW-19 20210308 3/8/2021 12.6 12.6 MW-03 20220107 1/7/2022 12.4 12.4 DUP-2-20220603 6/3/2022 11.4 11.4 MW-03 20220407 4/7/2022 11.2 11.2 MW-21 20210603 6/3/2021 11.2 11.2 MW-38 20210506 5/6/2021 11 11 NC009000_GW DATA-GENERIC RPA_Part 3, data - 12 - 8/25/2022 Colonial Pipeline Company - 2020-L1-SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCO090000 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 M G D MAXIMUM DATA POINTS = 58 Qw(MGD) = 0.5760 WWTP/WTP Class: PC-1 1Q10S (cfs) = 0.21 IWC% @ 1Q10S = 80.95756257 7Q10S (cfs) = 0.25 IWC% @ 7Q10S = 78.1239062 7Q10W(cfs) = 0.42 IW%C @ 7Q10W= 68.00731261 30Q2 (cfs) = 0.56 IWC% @ 30Q2 = 61.45374449 Avg. Stream Flow, QA(cfs) = 3.90 IWC% @ QA= 18.62794191 Receiving Stream: North Prong Clark Creek HUC 30401050101 Stream Class: C PARAMETER NC STANDARDS OR EPA CRITERIA J (n REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPEAplied Chronic Standa d Acute n #Det. Max Pred Cw Allowable Cw Acute: NO WQS 1,1,1,2-Tetrachloroethane µg/L 58 0 50.0 Chronic:----------- --------------------------- NO DETECTS Max MDL = 100 No Detects Acute: NO WQS 1,1,2,2-Tetrachloroethane C 4 HH(Qavg) µg/L 58 0 50.0 Chronic: -----21_47--- --------------------------- NO DETECTS Max MDL = 100 No Detects Acute: NO WQS Tetrachloroethene (Tetrachloroethylene) (PERC) C 3.3 HH(Qavg) µg/L 58 34 50.0 Chronic:----- 17.72--- --------------------------- RPA for non-AL -apply Monthly Monitoring with Limit 6 value(s) >Allowable Cw Acute: NO WQS Toluene NC 11 FW(7Q10s) µg/L 58 58 22800.0 Chronic: 14.08 RPA for non-AL -apply Monthly Monitoring with Limit. Pollutant of concern for petroluem product 58 value(s) >Allowable Cw groundwater contamination. Acute: NO WQS 1,2,3-Trichlorobenzene µg/L 58 0 200.0 Chronic:----------- --------------------------- No Detects. No Standards, Criteria, or TBEL. NO DETECTS Max MDL = 400 Acute: NO WQS 1,2,4-Trichlorobenzene NC 0.076 HH(7Q10s) µg/L 58 0 200.0 Chronic:----- 0.10 --- --------------------------- NO DETECTS Max MDL 400 No Detects Acute: NO WQS 1,1,1-Trichloroethane C 2500 FW(7Q10s) µg/L 58 0 50.0 Chronic:----3,200.04-- --------------------------- NO DETECTS Max MDL = 100 No Detects Acute: NO WQS 1,1,2-Trichloroethane C 8.9 HH(Qavg) µg/L 58 0 50.0 Chronic: -----47.78--- --------------------------- NO DETECTS Max MDL = 100 No Detects Acute: NO WQS Trichloroethene C 30 HH(Qavg) µg/L 58 1 50.0 Chronic: 161.05 No RPA, Predicted Max< 50% of Allowbale Cw- No No value > Allowable Cw Monitoring required Acute: NO WQS Trichlorofluoromethane (Freon 11) NC 67000 HH(7Q10s) µg/L 58 34 100.0 Chronic: 85,761.20 No RPA, Predicted Max< 50% of Allowbale Cw- No No value > Allowable Cw Monitoring required Acute: NO WQS 1,2,3-Trichloropropane (1,2,3-TCP) C 0.001 HH(Qavg) µg/L 58 0 50.0 Chronic: 0.01 No RPA, Predicted Max< 50% of Allowbale Cw- No NO DETECTS Max MDL = 100 Monitoring required Acute: NO WQS 1,2,4-Trimethylbenzene NC 390 FW(7Q10s) µg/L 58 58 1380.0 Chronic: -----499.21--- --------------------------- RPA for non-AL -apply Monthly Monitoring with Limit 8 value(s) >Allowable Cw Acute: NO WQS 1,3,5-Trimethylbenzene NC 215 HH(7Q10s) µg/L 58 51 382.0 Chronic:-----275.20 --1 value(s) >Allowable Cw --------------------------- RPA for non-AL -apply Monthly Monitoring with Limit NC009000_GW DATA-GENERIC RPA-Part 3, rpa Page 13 of 14 8/25/2022 Colonial Pipeline Company — 2020-L1-SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 N CO090000 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 M G D Acute: NO WQS Vinyl chloride C 2.4 HH(Qavg) µg/L 58 1 100.0 Chronic:----- 12.88--- --------------------------- RPA for non-AL -apply Monthly Monitoring with Limit 24 value(s) >Allowable Cw Acute: NO WQS Xylene (Total) NC 670 FW(7Q10s) µg/L 58 58 10700.0 Chronic: 857.61 RPA for non-AL -apply Monthly Monitoring with Limit. Pollutant of concern for petroluem product 52 value(s) >Allowable Cw groundwater contamination. Acute: NO WQS m&p-Xylene NC 420 FW(7QlOs) µg/L 58 58 7050.0 Chronic: 537.61 RPA for non-AL -apply Monthly Monitoring with Limit. 58 value(s) > Allowable Cw Monitor Total Xylene. Acute: NO WQS o-Xylene NC 600 FW(7Q10s) µg/L 58 58 3650.0 Chronic: 768.01 RPA for non-AL -apply Monthly Monitoring with Limit. 27 value(s) > Allowable Cw Monitor Total Xylene. Acute: NO WQS C5 -C8 Aliphatics NC 180 FW(7Q10s) µg/L 58 58 153000.0 Chronic: 230.40 RPA for non-AL -apply Monthly Monitoring with Limit. Toxicity exceeds solubility, no visible sheen or free product in water or on sediment or shoreline per 15A 58 value(s) > Allowable Cw NCAC 02B .0211 & .0220. TBEL for O&G - MA 15 mg/L, DM 20 mg/L. Acute: NO WQS C9 -C12 Aliphatics NC 180 FW(7Q10s) µg/L 58 58 25800.0 Chronic: 230.40 RPA for non-AL -apply Monthly Monitoring with Limit. Toxicity exceeds solubility, no visible sheen or free product in water or on sediment or shoreline per 15A 58 value(s) > Allowable Cw NCAC 02B .0211 & .0220. TBEL for O&G - MA 15 mg/L, DM 20 mg/L. Acute: NO WQS C9 -C10 Aromatics NC 4000 HH(7Q10s) µg/L 58 51 7340.0 Chronic: 5,120.07 RPA for non-AL -apply Monthly Monitoring with Limit. Toxicity exceeds solubility, no visible sheen or free product in water or on sediment or shoreline per 15A 1 value(s)>Allowable Cw NCAC 02B .0211 & .0220. TBEL for O&G - MA 15 mg/L, DM 20 mg/L. Acute: NO WQS VPH (Total) mg/L 58 58 183.0 Chronic: TBEL for O&G - MA 15 mg/L, DM 20 mg/L. No value > Allowable Cw NC009000_GW DATA—GENERIC RPA—Part 3, rpa Page 14 of 14 8/25/2022 2018 Generic RPA - 95% Probability/95% Confidence MAXIMUM DATA POINTS = 58 REQUIRED DATA ENTRY MISSING DATA or ENTRY ERROR Table 1. Project Information Table 2. Parameters of Concern ❑ CHECK IF HQW OR ORW Name Type Chronic Modifier Acute PQL Units Facility Name Colonial Pipeline Company—2020-L1-SR2448 Par01 n-Butanol mg/L ?DATA? WWTP/WTP Class PC-1 Par02 Ethanol NC 5000 FW pg/L NPDES Permit NCO090000 Par03 Ethyl-tert-butyl ether pg/L ?DATA? Outfall 001 Par04 tert-Amyl Alcohol pg/L ?DATA? Flow, Qw (MGD) 0.576 Par05 tert-Amylmethyl ether pg/L ?DATA? Receiving Stream North Prong Clark Creek Par06 tert-Butyl Alcohol pg/L ?DATA? Stream Class C Par07 HUC Number 30401050101 Par08 7Q10s (cfs) 0.25 Par09 7Q10w (cfs) 0.42 Par10 30Q2 (cfs) 0.56 Par11 QA(cfs) 3.90 Par12 1 Q10s (cfs) 0.21 Par13 Data Source(s) MW data Sep202O_Jun2O22. PQLs are from the Par14 ❑ CHECK TO APPLY MODEL NCDENR_DWR_WSS_LAB_PQLs Current FCHECK TO APPLY MODEL par15 Revision Date - 1/22/2021. Par16 Par17 Par18 Par19 Par20 Follow directions for data entry. In some cases a comment menu list the available choices or a Par21 dropdown menu will provide a list you may select Par22 from. Error message occur if data entry does not meet input criteria. NC009000_GW DATA—GENERIC RPA_Part 4, input 8/25/2022 REASONABLE POTENTIAL ANALYSIS 1 2 Use"PASTE SPECIAL Use"PASTE SPECIAL n-Butanol Values"then"COPY". Ethanol Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-1 920210803 8/3/2021 < 5 2.5 Std Dev. 1.0630 MW-19_20210803 8/3/2021 < 8000 4000 Std Dev. 730.3071 MW-21 20210803 8/3/2021 < 5 2.5 Mean 1.8534 MW-29_20210805 8/5/2021 < 8000 4000 Mean 277.5862 MW-23 20210803 8/3/2021 < 5 2.5 C.V. 0.5735 MW-38_20210804 8/4/2021 < 2000 1000 C.V. 2.6309 MW-31 20210803 8/3/2021 < 5 2.5 n 58 MW-54_20210805 8/5/2021 < 2000 1000 n 58 DUP-1-20210803 8/3/2021 < 5 2.5 MW-52 20210805 8/5/2021 < 800 400 MW-42 20210802 8/2/2021 < 5 2.5 Mult Factor= 1.0000 MW-71_20210805 8/5/2021 < 800 400 Mult Factor= 1.0000 MW-45_20210802 8/2/2021 < 5 2.5 Max. Value 2.5 mg/L MW-50_20210803 8/3/2021 < 400 200 Max. Value 4000.0 dig/L MW-49_20210802 8/2/2021 < 5 2.5 Max. Pred Cw 2.5 mg/L MW-01_20210805 8/5/2021 < 200 100 Max. Pred Cw 4000.0 dig/L MW-50 20210803 8/3/2021 < 5 2.5 MW-02_20210806 8/6/2021 < 200 100 MW-51 20210802 8/2/2021 < 5 2.5 MW-03_20210805 8/5/2021 < 200 100 DUP-2-20210802 8/2/2021 < 5 2.5 MW-04 20210806 8/6/2021 < 200 100 MW-62 20210802 8/2/2021 < 5 2.5 MW-05_20210806 8/6/2021 < 200 100 MW-64 20210802 8/2/2021 < 5 2.5 MW-06_20210804 8/4/2021 < 200 100 MW-65 20210802 8/2/2021 < 5 2.5 MW-07_20210805 8/5/2021 < 200 100 MW-66 20210802 8/2/2021 < 5 2.5 MW-08_20210803 8/3/2021 < 200 100 MW-67 20210802 8/2/2021 < 5 2.5 MW-09_20210804 8/4/2021 < 200 100 DUP-1 20210802 8/2/2021 < 5 2.5 MW-12 20210806 8/6/2021 < 200 100 MW-68 20210802 8/2/2021 < 5 2.5 MW-13 20210803 8/3/2021 < 200 100 MW-70 20210802 8/2/2021 < 5 2.5 MW-14 20210803 8/3/2021 < 200 100 MW-73 20210802 8/2/2021 < 5 2.5 MW-15 20210806 8/6/2021 < 200 100 MW-74 20210802 8/2/2021 < 5 2.5 MW-16 20210804 8/4/2021 < 200 100 MW-75 20210802 8/2/2021 < 5 2.5 MW-17 20210804 8/4/2021 < 200 100 MW-77 20210803 8/3/2021 < 5 2.5 MW-20 20210804 8/4/2021 < 200 100 MW-78 20210803 8/3/2021 < 5 2.5 MW-21 20210803 8/3/2021 < 200 100 MW-79 20210803 8/3/2021 < 5 2.5 MW-23 20210803 8/3/2021 < 200 100 MW-80 20210803 8/3/2021 < 5 2.5 MW-25 20210804 8/4/2021 < 200 100 MW-81 20210803 8/3/2021 < 5 2.5 MW-27 20210805 8/5/2021 < 200 100 MW-82 20210803 8/3/2021 < 5 2.5 MW-28 20210804 8/4/2021 < 200 100 MW-84 20210803 8/3/2021 < 5 2.5 DUP-1-20210804 8/4/2021 < 200 100 MW-86 20210802 8/2/2021 < 5 2.5 MW-30_20210804 8/4/2021 < 200 100 MW-14D 20210802 8/2/2021 < 5 2.5 MW-31_20210803 8/3/2021 < 200 100 MW-31 D20210803 8/3/2021 < 5 2.5 DUP-1-20210803 8/3/2021 < 200 100 MW-65D 20210802 8/2/2021 < 5 2.5 MW-32 20210805 8/5/2021 < 200 100 MW-81 D_20210803 8/3/2021 < 5 2.5 MW-33 20210805 8/5/2021 < 200 100 EB-1-20210802 8/2/2021 < 5 2.5 MW-34 20210804 8/4/2021 < 200 100 EB-2-20210802 8/2/2021 < 5 2.5 MW-35 20210805 8/5/2021 < 200 100 FB-1-20210802 8/2/2021 < 5 2.5 MW-36 20210806 8/6/2021 < 200 100 FB-2-20210802 8/2/2021 < 5 2.5 MW-41 20210804 8/4/2021 < 200 100 EB-2-20210803 8/3/2021 < 5 2.5 MW-42 20210802 8/2/2021 < 200 100 FB-2-20210803 8/3/2021 < 5 2.5 MW-43 20210805 8/5/2021 < 200 100 E13-1-20210806 8/6/2021 < 5 2.5 MW-44 20210803 8/3/2021 < 200 100 FB-1-20210806 8/6/2021 < 5 2.5 MW-45 20210802 8/2/2021 < 200 100 MW-29 20210805 8/5/2021 < 2 1 MW-46_20210803 8/3/2021 < 200 100 MW-01 20210805 8/5/2021 < 0.2 0.1 MW-49_20210802 8/2/2021 < 200 100 MW-02 20210806 8/6/2021 < 0.2 0.1 MW-51_20210802 8/2/2021 < 200 100 MW-03 20210805 8/5/2021 < 0.2 0.1 DUP-2-20210802 8/2/2021 < 200 100 MW-04 20210806 8/6/2021 < 0.2 0.1 MW-53_20210805 8/5/2021 < 200 100 MW-05 20210806 8/6/2021 < 0.2 0.1 DUP-2-20210805 8/5/2021 < 200 100 MW-06 20210804 8/4/2021 < 0.2 0.1 MW-56 20210804 8/4/2021 < 200 100 MW-07 20210805 8/5/2021 < 0.2 0.1 MW-57 20210804 8/4/2021 < 200 100 MW-08 20210803 8/3/2021 < 0.2 0.1 MW-58 20210805 8/5/2021 < 200 100 MW-09 20210804 8/4/2021 < 0.2 0.1 MW-59 20210805 8/5/2021 < 200 100 MW-12 20210806 8/6/2021 < 0.2 0.1 MW-60 20210803 8/3/2021 < 200 100 MW-13 20210803 8/3/2021 < 0.2 0.1 MW-62 20210802 8/2/2021 < 200 100 MW-14 20210803 8/3/2021 < 0.2 0.1 MW-63 20210805 8/5/2021 < 200 100 MW-1 520210806 8/6/2021 < 0.2 0.1 MW-64 20210802 8/2/2021 < 200 100 MW-1 620210804 8/4/2021 < 0.2 0.1 MW-65 20210802 8/2/2021 < 200 100 MW-17 20210804 8/4/2021 < 0.2 0.1 1 MW-66 20210802 8/2/2021 < 200 100 NC009000 GW DATA GENERIC RPA Part 4, data -2 - - - - 8/25/2022 REASONABLE POTENTIAL ANALYSIS 3 4 Use"PASTE SPECIAL Use"PASTE SPECIAL Ethyl-tert-butyl ether values"then"COPY". tert-Amyl Alcohol values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20210803 8/3/2021 < 400 400 Std Dev. 73.0550 MW-19 20210803 8/3/2021 < 4000 2000 Std Dev. 365.1321 MW-29 20210805 8/5/2021 < 400 400 Mean 27.6724 MW-29 20210805 8/5/2021 < 4000 2000 Mean 139.0345 MW-38 20210804 8/4/2021 < 100 100 C.V. 2.6400 MW-38 20210804 8/4/2021 < 1000 500 C.V. 2.6262 MW-54 20210805 8/5/2021 < 100 100 n 58 MW-54 20210805 8/5/2021 < 1000 500 n 58 MW-52 20210805 8/5/2021 < 40 40 MW-52_20210805 8/5/2021 < 400 200 MW-71 20210805 8/5/2021 < 40 40 Mult Factor= 1.0000 MW-71_20210805 8/5/2021 < 400 200 Mult Factor= 1.0000 MW-50_20210803 8/3/2021 < 20 20 Max. Value 400.0 pg/L MW-50_20210803 8/3/2021 114 114 Max. Value 2000.0 fag/L MW-01_20210805 8/5/2021 < 10 10 Max. Pred Cw 400.0 pg/L MW-01_20210805 8/5/2021 < 100 50 Max. Pred Cw 2000.0 pg/L MW-02 20210806 8/6/2021 < 10 10 MW-02_20210806 8/6/2021 < 100 50 MW-03 20210805 8/5/2021 < 10 10 MW-03_20210805 8/5/2021 < 100 50 MW-04 20210806 8/6/2021 < 10 10 MW-04_20210806 8/6/2021 < 100 50 MW-05 20210806 8/6/2021 < 10 10 MW-05_20210806 8/6/2021 < 100 50 MW-06 20210804 8/4/2021 < 10 10 MW-06_20210804 8/4/2021 < 100 50 MW-07 20210805 8/5/2021 < 10 10 MW-07_20210805 8/5/2021 < 100 50 MW-08 20210803 8/3/2021 < 10 10 MW-08_20210803 8/3/2021 < 100 50 MW-09 20210804 8/4/2021 < 10 10 MW-09_20210804 8/4/2021 < 100 50 MW-12 20210806 8/6/2021 < 10 10 MW-12_20210806 8/6/2021 < 100 50 MW-13 20210803 8/3/2021 < 10 10 MW-13_20210803 8/3/2021 < 100 50 MW-14 20210803 8/3/2021 < 10 10 MW-14_20210803 8/3/2021 < 100 50 MW-15 20210806 8/6/2021 < 10 10 MW-15_20210806 8/6/2021 < 100 50 MW-16 20210804 8/4/2021 < 10 10 MW-16_20210804 8/4/2021 < 100 50 MW-17 20210804 8/4/2021 < 10 10 MW-17_20210804 8/4/2021 < 100 50 MW-20 20210804 8/4/2021 < 10 10 MW-20_20210804 8/4/2021 < 100 50 MW-21 20210803 8/3/2021 < 10 10 MW-21_20210803 8/3/2021 < 100 50 MW-23 20210803 8/3/2021 < 10 10 MW-23_20210803 8/3/2021 < 100 50 MW-25 20210804 8/4/2021 < 10 10 MW-25_20210804 8/4/2021 < 100 50 MW-27 20210805 8/5/2021 < 10 10 MW-27_20210805 8/5/2021 < 100 50 MW-28 20210804 8/4/2021 < 10 10 MW-28_20210804 8/4/2021 < 100 50 DUP-1-20210804 8/4/2021 < 10 10 DUP-1-20210804 8/4/2021 < 100 50 MW-30 20210804 8/4/2021 < 10 10 MW-30_20210804 8/4/2021 < 100 50 MW-31 20210803 8/3/2021 < 10 10 MW-31_20210803 8/3/2021 < 100 50 DUP-1-20210803 8/3/2021 < 10 10 DUP-1-20210803 8/3/2021 < 100 50 MW-32 20210805 8/5/2021 < 10 10 MW-32_20210805 8/5/2021 < 100 50 MW-33 20210805 8/5/2021 < 10 10 MW-33_20210805 8/5/2021 < 100 50 MW-34 20210804 8/4/2021 < 10 10 MW-34_20210804 8/4/2021 < 100 50 MW-35 20210805 8/5/2021 < 10 10 MW-35_20210805 8/5/2021 < 100 50 MW-36 20210806 8/6/2021 < 10 10 MW-36_20210806 8/6/2021 < 100 50 MW-41 20210804 8/4/2021 < 10 10 MW-41_20210804 8/4/2021 < 100 50 MW-42 20210802 8/2/2021 < 10 10 MW-42_20210802 8/2/2021 < 100 50 MW-43 20210805 8/5/2021 < 10 10 MW-43_20210805 8/5/2021 < 100 50 MW-44 20210803 8/3/2021 < 10 10 MW-44_20210803 8/3/2021 < 100 50 MW-45 20210802 8/2/2021 < 10 10 MW-45_20210802 8/2/2021 < 100 50 MW-46 20210803 8/3/2021 < 10 10 MW-46_20210803 8/3/2021 < 100 50 MW-49 20210802 8/2/2021 < 10 10 MW-49_20210802 8/2/2021 < 100 50 MW-51 20210802 8/2/2021 < 10 10 MW-51_20210802 8/2/2021 < 100 50 DUP-2-20210802 8/2/2021 < 10 10 DUP-2-20210802 8/2/2021 < 100 50 MW-53 20210805 8/5/2021 < 10 10 MW-53_20210805 8/5/2021 < 100 50 DUP-2-20210805 8/5/2021 < 10 10 DUP-2-20210805 8/5/2021 < 100 50 MW-56 20210804 8/4/2021 < 10 10 MW-56_20210804 8/4/2021 < 100 50 MW-57 20210804 8/4/2021 < 10 10 MW-57_20210804 8/4/2021 < 100 50 MW-58 20210805 8/5/2021 < 10 10 MW-58_20210805 8/5/2021 < 100 50 MW-59 20210805 8/5/2021 < 10 10 MW-59_20210805 8/5/2021 < 100 50 MW-60 20210803 8/3/2021 < 10 10 MW-60_20210803 8/3/2021 < 100 50 MW-62 20210802 8/2/2021 < 10 10 MW-62_20210802 8/2/2021 < 100 50 MW-63 20210805 8/5/2021 < 10 10 MW-63_20210805 8/5/2021 < 100 50 MW-64 20210802 8/2/2021 < 10 10 MW-64_20210802 8/2/2021 < 100 50 MW-65 20210802 8/2/2021 < 10 10 MW-65_20210802 8/2/2021 < 100 50 MW-66 20210802 8/2/2021 < 10 5 MW-66 20210802 8/2/2021 < 100 50 NC009000 GW DATA GENERIC RPA Part 4, data - 3 - — — — 8/25/2022 REASONABLE POTENTIAL ANALYSIS 5 6 Use"PASTE SPECIAL Use"PASTE SPECIAL tert-Amylmethyl ether Values"then"COPY". tert-Butyl Alcohol Values"then"COPY". Maximum data points Maximum data points =58 =58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results MW-19 20210803 8/3/2021 < 400 200 Std Dev. 36.5288 MW-19_20210803 8/3/2021 < 2000 1000 Std Dev. 182.5768 MW-29 20210805 8/5/2021 < 400 200 Mean 13.8621 MW-29_20210805 8/5/2021 < 2000 1000 Mean 69.3966 MW-54 20210805 8/5/2021 < 100 50 C.V. 2.6352 MW-38_20210804 8/4/2021 < 500 250 C.V. 2.6309 MW-38 20210804 8/4/2021 50.4 50.4 n 58 MW-54_20210805 8/5/2021 < 500 250 n 58 MW-52 20210805 8/5/2021 < 40 20 MW-52_20210805 8/5/2021 < 200 100 MW-71 20210805 8/5/2021 < 40 20 Mult Factor= 1.0000 MW-71_20210805 8/5/2021 < 200 100 Mult Factor= 1.0000 MW-50_20210803 8/3/2021 < 20 10 Max. Value 200.0 fag/L MW-50_20210803 8/3/2021 < 100 50 Max. Value 1000.0 pg/L 2 MW-01_20210805 8/5/2021 < 10 5 Max. Pred Cw 200.0 pg/L MW-01_20210805 8/5/2021 < 50 25 Max. Pred Cw 1000.0 pg/L MW-02 0210806 8/6/2021 < 10 5 MW-02_20210806 8/6/2021 < 50 25 MW-03 20210805 8/5/2021 < 10 5 MW-03 20210805 8/5/2021 < 50 25 MW-04 20210806 8/6/2021 < 10 5 MW-04 20210806 8/6/2021 < 50 25 MW-05 20210806 8/6/2021 < 10 5 MW-05 20210806 8/6/2021 < 50 25 MW-06 20210804 8/4/2021 < 10 5 MW-06_20210804 8/4/2021 < 50 25 MW-07 20210805 8/5/2021 < 10 5 MW-07_20210805 8/5/2021 < 50 25 MW-08 20210803 8/3/2021 < 10 5 MW-08_20210803 8/3/2021 < 50 25 MW-09 20210804 8/4/2021 < 10 5 MW-09_20210804 8/4/2021 < 50 25 MW-12 20210806 8/6/2021 < 10 5 MW-12_20210806 8/6/2021 < 50 25 MW-13 20210803 8/3/2021 < 10 5 MW-13_20210803 8/3/2021 < 50 25 MW-14 20210803 8/3/2021 < 10 5 MW-14_20210803 8/3/2021 < 50 25 MW-1 520210806 8/6/2021 < 10 5 MW-15_20210806 8/6/2021 < 50 25 MW-16 20210804 8/4/2021 < 10 5 MW-16_20210804 8/4/2021 < 50 25 MW-1 720210804 8/4/2021 < 10 5 MW-17_20210804 8/4/2021 < 50 25 MW-20 20210804 8/4/2021 < 10 5 MW-20_20210804 8/4/2021 < 50 25 MW-23 20210803 8/3/2021 < 10 5 MW-21_20210803 8/3/2021 < 50 25 MW-25 20210804 8/4/2021 < 10 5 MW-23 20210803 8/3/2021 < 50 25 MW-27 20210805 8/5/2021 < 10 5 MW-25 20210804 8/4/2021 < 50 25 MW-28 20210804 8/4/2021 < 10 5 MW-27 20210805 8/5/2021 < 50 25 DUP-1-20210804 8/4/2021 < 10 5 MW-28 20210804 8/4/2021 < 50 25 MW-30 20210804 8/4/2021 < 10 5 DUP-1-20210804 8/4/2021 < 50 25 MW-31 20210803 8/3/2021 < 10 5 MW-30_20210804 8/4/2021 < 50 25 DUP-1-20210803 8/3/2021 < 10 5 MW-31 20210803 8/3/2021 < 50 25 MW-32 20210805 8/5/2021 < 10 5 DUP-1-20210803 8/3/2021 < 50 25 MW-33 20210805 8/5/2021 < 10 5 MW-32_20210805 8/5/2021 < 50 25 MW-34 20210804 8/4/2021 < 10 5 MW-33_20210805 8/5/2021 < 50 25 MW-35 20210805 8/5/2021 < 10 5 MW-34_20210804 8/4/2021 < 50 25 MW-36 20210806 8/6/2021 < 10 5 MW-35_20210805 8/5/2021 < 50 25 MW-41 20210804 8/4/2021 < 10 5 MW-36_20210806 8/6/2021 < 50 25 MW-42 20210802 8/2/2021 < 10 5 MW-41 20210804 8/4/2021 < 50 25 MW-43 20210805 8/5/2021 < 10 5 MW-42 20210802 8/2/2021 < 50 25 MW-44 20210803 8/3/2021 < 10 5 MW-43 20210805 8/5/2021 < 50 25 MW-45 20210802 8/2/2021 < 10 5 MW-44 20210803 8/3/2021 < 50 25 MW-46 20210803 8/3/2021 < 10 5 MW-45 20210802 8/2/2021 < 50 25 MW-49 20210802 8/2/2021 < 10 5 MW-46 20210803 8/3/2021 < 50 25 MW-51 20210802 8/2/2021 < 10 5 MW-49 20210802 8/2/2021 < 50 25 DUP-2-20210802 8/2/2021 < 10 5 MW-51 20210802 8/2/2021 < 50 25 MW-53 20210805 8/5/2021 < 10 5 DUP-2-20210802 8/2/2021 < 50 25 DUP-2-20210805 8/5/2021 < 10 5 MW-53 20210805 8/5/2021 < 50 25 MW-56 20210804 8/4/2021 < 10 5 DUP-2-20210805 8/5/2021 < 50 25 MW-57 20210804 8/4/2021 < 10 5 MW-56_20210804 8/4/2021 < 50 25 MW-58 20210805 8/5/2021 < 10 5 MW-57_20210804 8/4/2021 < 50 25 MW-59 20210805 8/5/2021 < 10 5 MW-58_20210805 8/5/2021 < 50 25 MW-60 20210803 8/3/2021 < 10 5 MW-59_20210805 8/5/2021 < 50 25 MW-62 20210802 8/2/2021 < 10 5 MW-60 20210803 8/3/2021 < 50 25 MW-63 20210805 8/5/2021 < 10 5 MW-62_20210802 8/2/2021 < 50 25 MW-64 20210802 8/2/2021 < 10 5 MW-63_20210805 8/5/2021 < 50 25 MW-65 20210802 8/2/2021 < 10 5 MW-64_20210802 8/2/2021 < 50 25 MW-66 20210802 8/2/2021 < 10 5 MW-65_20210802 8/2/2021 < 50 25 MW-21 20210803 8/3/2021 3.6 3.6 MW-66 20210802 8/2/2021 < 50 25 NC009000 GW DATA GENERIC RPA Part 4, data -4 - — — — 8/25/2022 Colonial Pipeline Company — 2020-L1 -SR2448 REASONABLE POTENTIAL ANALYSIS Outfall 001 NCOO9OOOO 2018 Generic RPA - 95% Probability/95% Confidence QW = 0.576 MGD MAXIMUM DATA POINTS = 58 Qw (MGD) = 0.5760 WWTP/WTP Class: PC-1 1Q10S (cfs) = 0.21 IWC% @ 1Q10S = 80.9575626 7Q10S (cfs) = 0.25 IWC% @ 7Q10S = 78.1239062 7Q10W (cfs) = 0.42 IW%C @ 7Q10W 68.0073126 30Q2 (cfs)= 0.56 IWC% @ 30Q2 = 61.4537445 Avg. Stream Flow, QA (cfs) = 3.90 IWC% @ QA= 18.6279419 Receiving Stream: North Prong Clark Creek HUC 30401050101 Stream Class: C PARAMETER NC STANDARDS OR EPA CRITERIA J Cn REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION CY TYPE Chronic Standard Acute n # Det. Max Pred Cw Allowable Cw Acute: NO WQS n-Butanol mg/L 58 0 2.5 --Chronic: ----------- ------------------------------- NO DETECTS Max MDL 5 No Detects Acute: NO WQS Ethanol NC 5000 FW(7QIOs) µg/L 58 0 4000.0 --Chronic: ----6,400.09 - ------------------------------- NO DETECTS Max MDL = 8000 No Detects Acute: NO WQS Ethyl-tent-butyl ether µg/L 58 0 400.0 _ --Chronic: ----------- ------------------------------- NO DETECTS Max MDL 800 No Detects Acute: NO WQS tert-Amyl Alcohol µg/L 58 1 2000.0 _ --Chronic: ----------- ------------------------------- No Standards, Criteria or TBEL. No value > Allowable Cw Acute: NO WQS tert-Amylmethyl ether µg/L 58 2 200.0 Chronic: No Standards, Criteria or TBEL. No value >Allowable Cw Acute: NO WQS tert-Butyl Alcohol µg/L 58 0 1000.0 _ --Chronic: ----------- ------------------------------- No Detects NO DETECTS Max MDL = 2000 NC009000_GW DATA—GENERIC RPA_Part 4, rpa Page 5 of 5 8/25/2022