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Home My WebLink AboutNC0021873_Renewal (Application)_20161201SUEZ Gesue2 PO Box 1279 Clemmons, NC 27012 November 1, 2016 Mr. Michael Brandt Town Manager Town of Mayodan 210 W. Main Street Mayodan, NC 27027 Dear Mr. Brandt: Enclosed is the NPDES Permit Renewal Application for the Town of Mayodan Wastewater Treatment Plant. Please sign and date the Application and mail (certified return receipt requested), the original and two (2) copies and a letter requesting renewal to: NCDENR/DWQ NPDES Unit 1617 Mail Service Center Raleigh, NC 27699-1617 The Application should be submitted to DEHNR by November 30, 2016 to avoid penalties. Please send SUEZ a copy of the signed application for our files. Sincerely, CT TR 7 GS/lm Town of ;lia.yod n �_m_n_n.m_�r_neueh= �7 u u u i MAYODAI� Town ofMayodan. 210 W. Main Street. Mayodan. NC. 27027. (336)427.0241. www.townofniayodan.com James A. Collins Municipal Building November 17, 2016 NCDENR/DWQ NPDES Unit 1617 Mail Service Center Raleigh, NC 27699-1617 Dear Mr. Weaver, Enclosed is the permit renewal application for the Town of Mayodan WWTP. If you have any questions, please advise. Sincerely, Town of Mayodan /'��14401Z:t�� Michael Brandt Town Manager FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP,NC0021873 Renewal Ronoake FORM IRWIN 2A NPDES r APPLICATION OVERVIEW Form 2A has been developed in a modular format and consists of a "Basic Application Information" packet and a "Supplemental Application Information" packet. The Basic Application Information packet is divided into two parts. All applicants must complete Parts A and C. Applicants with a design flow greater than or equal to 0.1 mgd must also complete Part B. Some applicants must also complete the Supplemental Application Information packet. The following items explain which parts of Form 2A you must complete. BASIC APPLICATION INFORMATION: A. Basic Application Information for all Applicants. All applicants must complete questions A.1 through A.8. A treatment works that discharges effluent to surface waters of the United States must also answer questions A.9 through A.12. B. Additional Application Information for Applicants with a Design Flow >_ 0.1 mgd. All treatment works that have design flows greater than or equal to 0.1 million gallons per day must complete questions 13.1 through B.6. C. Certification. All applicants must complete Part C (Certification). SUPPLEMENTAL APPLICATION INFORMATION: D. Expanded Effluent Testing Data. A treatment works that discharges effluent to surface waters of the United States and meets one or more of the following criteria must complete Part D (Expanded Effluent Testing Data): 1. Has a design flow rate greater than or equal to 1 mgd, 2. Is required to have a pretreatment program (or has one in place), or 3. Is otherwise required by the permitting authority to provide the information. E. Toxicity Testing Data. A treatment works that meets one or more of the following criteria must complete Part E (Toxicity Testing Data): 1. Has a design flow rate greater than or equal to 1 mgd, 2. Is required to have a pretreatment program (or has one in place), or 3. Is otherwise required by the permitting authority to submit results of toxicity testing. F. Industrial User Discharges and RCRA/CERCLA Wastes. A treatment works that accepts process wastewater from any significant industrial users (SIUs) or receives RCRA or CERCLA wastes must complete Part F (Industrial User Discharges and RCRA/CERCLA Wastes). SIUs are defined as: 1. All industrial users subject to Categorical Pretreatment Standards under 40 Code of Federal Regulations (CFR) 403.6 and 40 CFR Chapter I, Subchapter N (see instructions); and 2. Any other industrial user that: a. Discharges an average of 25,000 gallons per day or more of process wastewater to the treatment works (with certain exclusions); or b. Contributes a process wastestream that makes up 5 percent or more of the average dry weather hydraulic or organic capacity of the treatment plant; or C. Is designated as an SIU by the control authority. G. Combined Sewer Systems. A treatment works that has a combined sewer system must complete Part G (Combined Sewer Systems). ALL'AP�PLICANTS'MUST COMPLETE=.PART C.'(CERTIFI,CAT(ON,)' ,- NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake BASIC APPLICATION INFORMATION PART A. $ASIC-,APPLICATfON'INFQRMATION FOR AL_''APPLIOANTSs All treatment works must complete questions A.1 through A.8 of this Basic Application Information Packet. A.1. Facility Information. Facility Name Mavodan WWTP Mailing Address 293 Cardwell Rd Mavodan, NC 27027 Contact Person Michael Brandt Title Town Manager Telephone Number ( 336) 427-0241 Facility Address 293 Cardwell Road (not P.O. Box) Mavodan, NC 27027 A.2. Applicant Information. If the applicant is different from the above, provide the following: Applicant Name Town of Mavodan Mailing Address 210 W Main Street Mavodan, NC 27027 Contact Person Michael Brandt Title Town Manager Telephone Number ( 336 ) 427-0241 Is the applicant the owner or operator (or both) of the treatment works? ® owner ❑ operator Indicate whether correspondence regarding this permit should be directed to the facility or the applicant. ❑ facility ® applicant A.3. Existing Environmental Permits. Provide the permit number of any existing environmental permits that have been issued to the treatment works (include state -issued permits). NPDES NCO021873 PSD UIC Other Land Application WQ0002672 RCRA Other A.4. Collection System Information. Provide information on municipalities and areas served by the facility. Provide the name and population of each entity and, if known, provide information on the type of collection system (combined vs. separate) and its ownership (municipal, private, etc.). Name Population Served Type of Collection System Ownership Mavodan 2,468 Sanitary Town of Mavodan Stoneville 1,042 Sanitary Town of Mavodan Madison 2.205 Sanitary Town of Mavodan Total population served _6,046 NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake A.5. Indian Country. a. Is the treatment works located in Indian Country? ❑ Yes ® No b. Does the treatment works discharge to a receiving water that is either in Indian Country or that is upstream from (and eventually flows through) Indian Country? ❑ Yes ® No A.B. Flow. Indicate the design flow rate of the treatment plant (i.e., the wastewater flow rate that the plant was built to handle). Also provide the average daily flow rate and maximum daily flow rate for each of the last three years. Each year's data must be based on a 12 -month time period with the 12th month of "this year" occurring no more than three months prior to this application submittal. a. Design flow rate 4.5 mgd Two Years Ago Last Year This Year b. Annual average daily flow rate 0.987 1.104 1.080 C. Maximum daily flow rate 1.384 1.104 1.718 A.7. Collection System. Indicate the type(s) of collection system(s) used by the treatment plant. Check all that apply. Also estimate the percent contribution (by miles) of each. ® Separate sanitary sewer 100 % ❑ Combined storm and sanitary sewer % A.B. Discharges and Other Disposal Methods. a. Does the treatment works discharge effluent to waters of the U.S.? ® Yes ❑ No If yes, list how many of each of the following types of discharge points the treatment works uses: I. Discharges of treated effluent ii. Discharges of untreated or partially treated effluent iii. Combined sewer overflow points iv. Constructed emergency overflows (prior to the headworks) V. Other b. Does the treatment works discharge effluent to basins, ponds, or other surface impoundments that do not have outlets for discharge to waters of the U.S.? ❑ Yes If yes, provide the following for each surface impoundment: Location: Annual average daily volume discharge to surface impoundment(s) Is discharge ❑ continuous or ❑ intermittent? C. Does the treatment works land -apply treated wastewater? If yes, provide the following for each land application site: d Location: Number of acres: Annual average daily volume applied to site: Is land application ❑ continuous or ❑ intermittent? Does the treatment works discharge or transport treated or untreated wastewater to another treatment works? NPDES FORM 2A Additional Information 1 ® No mgd ❑ Yes ® No mgd ❑ Yes ® No FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake If yes, describe the mean(s) by which the wastewater from the treatment works is discharged or transported to the other treatment works (e.g.', tank truck, pipe). NA If transport is by a party other than the applicant, provide: Transporter Name Mailing Address Contact Person Title Telephone Number ( 1 For each treatment works that receives this discharge, provide the following: Name Mailing Address Contact Person Title Telephone Number If known, provide the NPDES permit number of the treatment works that receives this discharge Provide the average daily flow rate from the treatment works into the receiving facility. mgd e. Does the treatment works discharge or dispose of its wastewater in a manner not included in A.8. through A.8.d above (e.g., underground percolation, well injection): ❑ Yes ® No If yes, provide the following for each disposal method: Description of method (including location and size of site(s) if applicable): Annual daily volume disposed by this method: Is disposal through this method ❑ continuous or ❑ intermittent? NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 . Renewal Ronoake WASTEWATER DISCHARGES: If you answered "Yes" to question A.8.a, complete questions A.9 through A.12 once for each outfall (including bypass points) through which effluent is discharged. Do not include information on combined sewer overflows in this section. If you answered "No" to question A.8.a, go to Part B, "Additional Application Information for Applicants with a Design Flow Greater than or Equal to 0.1 mgd." A.9. Description of Outfall. a. Ouffall number b. Location Mayodan 27027 (City or town, if applicable) (Zip Code) Rockingham NC (County) (State) 36024'25" 79057'56" (Latitude) (Longitude) C. Distance from shore (if applicable) ft. d. Depth below surface (if applicable) ft. e. Average daily flow rate 1.080 mgd f. Does this outfall have either an intermittent or a periodic discharge? ❑ Yes ® No (go to A.9.g.) If yes, provide the following information. Number f times per year discharge occurs: Average duration of each discharge: Average flow per discharge: mgd Months in which discharge occurs: g. Is outfall equipped with a diffuser? A.10. Description of Receiving Waters. a. Name of receiving water Mayo River ❑ Yes ® No b. Name of watershed (if known) United States Soil Conservation Service 14 -digit watershed code (if known): C. Name of State Management/River Basin (if known): Ronoake United States Geological Survey 8 -digit hydrologic cataloging unit code (if known): d. Critical low flow of receiving stream (if applicable) acute cfs e. Total hardness of receiving stream at critical low flow (if applicable): 1 NPDES FORM 2A Additional Information chronic cfs mg/I of CaCO3 FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP NCO021873 Renewal Ronoake A.11. Description of Treatment a. What level of treatment are provided? Check all that apply. ❑ Primary ® Secondary ❑ Advanced ❑ Other. Describe: b. Indicate the following removal rates (as applicable): Design BOD5 removal or Design CBOD5 removal 91.1 % Design SS removal 88.0 % Design P removal Design N removal % Other C. What type of disinfection is used for the effluent from this outfall? If disinfection varies by season, please describe: chlorination If disinfection is by chlorination is dechlorination used for this outfall? ® Yes ❑ No Does the treatment plant have post aeration? ❑ Yes ® No A.12. Effluent Testing Information. All Applicants that discharge to waters of the US must provide effluent testing data for the following parameters. Provide the indicated effluent testing required by the permitting authority for each outfall through which effluent is discharged. Do not include information on combined sewer overflows in this section. All information reported must be based on data collected through analysis conducted using 40 CFR Part 136 methods. In addition, this data must comply with QA/QC requirements of 40 CFR Part 136 and other appropriate QA/QC requirements for standard methods for analytes not addressed by 40 CFR Part 136. At a minimum, effluent testing data must be based on at least three samples and must be no more than four and one-half years apart. Outfall number. 001 MAXIMUM DAILY VALUE AVERAGE DAILY VALUE Value ,-' 'Unit's Value .' "' Unffs Number of'Samples pH (Minimum) 6.6 s.u. pH (Maximum) 7.0 S.U. Flow Rate 1.191 MGD 1.104 MGD 365 Temperature (Winter) 16.9 °C 11.8 °C 82 Temperature (Summer) 22.9 °C 19.8 °C 148 For pH please report a minimum and a maximum daily value MAXIMUM DAILY '!DISCHARGE, AVERAGE DAILY DI§CHARGE • ` POLLUTANT :. _ _ __ - - • _ _ ___ _ _ _ Numtie�of ANALYTICAL `'METHOD,-• ML/MDL Conc. Units . Conc. Units Sam les CONVENTIONAL AND NON CONVENTIONAL COMPOUNDS BIOCHEMICAL OXYGEN BOD5 14.9 M /I 7.4 Mg/I 116 EPA405.1 2.0 DEMAND (Report one) CBOD5 FECAL COLIFORM 598.4 #1100m1 8.2 #/100ml 173 SM9222D 1.0 TOTAL SUSPENDED SOLIDS (TSS) 21.4 Mg/1 8.7 M /I 118 EPA160.2 1.0 _END OF'PART-A. REFER.TOTHE APPLI'CR'Ir OVERVI,EIN,(PAGE 1)•TO DETERMINE WHICH OTHER PARTS - OF FORM 2A YOU 'MUST COMPLETE= NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP NCO021873 Renewal Ronoake BASIGAPPLIQ-AT,10 I"OR-MAT-110-14 'PART B. kbOhTIONAL,APPLItATidN,INFORMATION' FOR APPLICANTS WITH A m -�QWWGR -Ek'THAN OR- .-,5IGWF1: FA All applicants with a design flow rate 2! 0.1 mgd must answer questions B.1 through B.6. All others go to Part C (Certification). B.I. Inflow and Infiltration. Estimate the average number of gallons per day that flow into the treatment works from inflow and/or infiltration. NA gpd Briefly explain any steps underway or planned to minimize inflow and infiltration. B.2. Topographic Map. Attach to this application a topographic map of the area extending at least one mile beyond facility property boundaries. This map must show the outline of the facility and the following information (You may submit more than one map if one map does not show the entire area.) SEE ATTACHMENT I a. The area surrounding the treatment plant, including all unit processes. b. The major pipes or other structures through which wastewater enters the treatment works and the pipes or other structures through which treated wastewater is discharged from the treatment plant. Include outfalls from bypass piping, if applicable. c. Each well where wastewater from the treatment plant is injected underground. d. Wells, springs, other surface water bodies, and drinking water wells that are: 1) within '/< mile of the property boundaries of the treatment works, and 2) listed in public record or otherwise known to the applicant. e. Any areas where the sewage sludge produced by the treatment works is stored, treated, or disposed. f. If the treatment works receives waste that is classified as hazardous under the Resource Conservation and Recovery Act (RCRA) by truck, rail, or special pipe, show on the map where the hazardous waste enters the treatment works and where it is treated, stored, and/or disposed. B.3. Process Flow Diagram or Schematic. Provide a diagram showing the processes of the treatment plant, including all bypass piping and all backup power sources or redundancy in the system. Also provide a water balance showing all treatment units, including disinfection (e.g., chlorination and dechlorination). The water balance must show daily average flow rates at influent and discharge points and approximate daily flow rates between treatment units. Include a brief narrative description of the diagram. SEE ATTACHMENT 11 B.4. Operation/Maintenance Performed by Contractor(s). Are any operational or maintenance aspects (related to wastewater treatment and effluent quality) of the treatment works the responsibility of a contractor? 0 Yes I—] No If yes, list the name, address, telephone number, and status of each contractor and describe the contractors responsibilities (attach additional pages if necessary). Name: SUEZ Mailing Address: PO Box 1279 Clemmons, NC 27012 Telephone Number: 336 ) 766-0270 Responsibilities of Contractor: Operation and maintenance of the Mayodan WWTP B.5. Scheduled improvements and Schedules of Implementation. Provide information on any uncompleted implementation schedule or uncompleted plans for improvements that will affect the wastewater treatment, effluent quality, or design capacity of the treatment works. If the treatment works has several different implementation schedules or is planning several improvements, submit separate responses to question B.5 for each. (If none, go to question B.6.) a. List the outfall number (assigned in question A 9) for each outfall that is covered by this implementation schedule. NA b. Indicate whether the planned improvements or implementation schedule are required by local, State, or Federal agencies E] Yes [] No NPIDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake C. If the answer to B.5.b is "Yes," briefly describe, including new maximum daily inflow rate (if applicable). NA d. Provide dates imposed by any compliance schedule or any actual dates of completion for the implementation steps listed below, as applicable. For improvements planned independently of local, State, or Federal agencies, indicate planned or actual completion dates, as applicable. Indicate dates as accurately as possible. Schedule Actual Completion Implementation Stage MM/DD/YYYY MM/DD/YYYY - Begin Construction - End Construction - Begin Discharge - Attain Operational Level e. Have appropriate permits/clearances concerning other Federal/State requirements been obtained? ❑ Yes ❑ No Describe briefly: B.6. EFFLUENT TESTING DATA (GREATER THAN 0.1 MGD ONLY). Applicants that discharge to waters of the US must provide effluent testing data for the following parameters. Provide the indicated effluent testing required by the permitting authority for each outfall through which effluent is discharged. Do not include information on combine sewer overflows in this section. All information reported must be based on data collected through analysis conducted using 40 CFR Part 136 methods. In addition, this data must comply with QA/QC requirements of 40 CFR Part 136 and other appropriate QA/QC requirements for standard methods for analytes not addressed by 40 CFR Part 136. At a minimum effluent testing data must be based on at least three pollutant scans and must be no more than four and on-half years old. Outfall Number: 001 MAXIMUM DAILY AVERAGE DAILY DISCHARGE = POLLUTANT DISCHARGE ..._ ANALYTICAL''• MLIMDL, _; Cone.. "Units Cone: _h' Number of _ - METHOD ,•,' 'Samples° CONVENTIONAL AND NON CONVENTIONAL COMPOUNDS AMMONIA (as N) 1.75 Mg/I 0.91 Mg/I 90 350.1 0.02 CHLORINE (TOTAL RESIDUAL, TRC) 41.7 Ug/I 27.2 Ug/I 216 4500CLG 0.470 DISSOLVED OXYGEN 8.5 Mg/I 7.4 Mg/I 216 550A 0 TOTAL KJELDAHL NITROGEN (TKN) 7.68 Mg/I 3.83 Mg/I 12 351.2 0.25 NITRATE PLUS NITRITE N NITROGEN A OIL and GREASE <5.0 Mg/I <5.0 Mg/I 1 1664A 5.0 PHOSPHORUS (Total) 3.91 Mg/I 2.12 Mg/I 12 365.4 0.05 TOTAL DISSOLVED SOLIDS 108 Mg/I 108 Mg/I 1 160.1 10.0 (TDS) OTHER END-OF PART B:, REFER. TO THE _APPLICATIOR OVERVIEW- (,PAGE 1 )TO' DETERMINE WHICH. `OTHER .KARTS OF _PORN! 2A YOU MUST COMPLETE NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP NCO021873 Renewal Ronoake BASIC APPLICATION INFORMATION PART G:. 'CERTIFICATION' ` All applicants must complete the Certification Section. Refer to instructions to determine who is an officer for the purposes of this certification. All applicants must complete all applicable sections of Form 2A, as explained in the Application Overview. Indicate below which parts of Form 2A you have completed and are submitting. By signing this certification statement, applicants confirm that they have reviewed Form 2A and have completed all sections that apply to the facility for which this application is submitted. Indicate which parts of Form 2A you have completed and are submitting: ® Basic Application Information packet Supplemental Application Information packet: ® Part D (Expanded Effluent Testing Data) ® Part E (Toxicity Testing: Biomonitoring Data) ® Part F (Industrial User Discharges and RCRA/CERCLA Wastes) ❑ Part G (Combined Sewer Systems) 74LL,APPLICANTS;ffUStdOMPLETE-THE,FOLLQWIN6 CERTIFICAJION:, I certify under penalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system or those persons directly responsible for gathering the information, the information is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations. Name and official title Michaell Bra dt Town Manager Signature �A Telephone number ( 336 1 427-0241 Date signed Upon request of the permitting authority, you must submit any other information necessary to assure wastewater treatment practices at the treatment works or identify appropriate permitting requirements. SEND COMPLETED FORMS TO: NCDENR/ DWQ Attn: NPDES Unit 1617 Mail Service Center Raleigh, North Carolina 27699-1617 NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: Mayodan WWTP NCO021873 PERMIT ACTION REQUESTED: Renewal RIVER BASIN: Ronoake -SUPPLEMENTAL APPLICATION INFORMATION, PART' D.. 'EXPANDED ,EFFLUENT'TESTING -DATA Refer to the directions on the cover page to determine whether this section applies to the treatment works. Effluent Testing: 1.0 mgd and Pretreatment Works. If the treatment works has a design flow greater than or equal to 1.0 mgd or it has (or is required to have) a pretreatment program, or is otherwise required by the permitting authority to provide the data, then provide effluent testing data for the following pollutants. Provide the indicated effluent testing information and any other information required by the permitting authority for each outfall through which effluent is discharged. Do not include information on combined sewer overflows in this section. All information reported must be based on data collected through analyses conducted using 40 CFR Part 136 methods. In addition, these data must comply with QA/QC requirements of 40 CFR Part 136 and other appropriate QA/QC requirements for standard methods for analytes not addressed by 40 CFR Part 136. Indicate in the blank rows provided below any data you may have on pollutants not specifically listed in this form. At a minimum, effluent testing data must be based on at least three pollutant scans and must be no more than four and one-half years old. Outfall number: 001 SEE ATTACHMENT III (Complete once for each outfall discharging effluent to waters of the United States.) POLLUTANTS MAXIMUM DAILY DISCHAliblEj DAILYDISCHARGE.' ANALYTICAL METHOD' - " :ML/M6'L ' bon'b.,' . - Units Mass 'Units- _ ..Conc. - Units Mass -Units Number of METALS (TOTAL RECOVERABLE), CYANIDE, PHENOLS, AND HARDNESS. ANTIMONY ARSENIC BERYLLIUM CADMIUM CHROMIUM COPPER LEAD MERCURY NICKEL SELENIUM SILVER THALLIUM ZINC CYANIDE TOTAL PHENOLIC COMPOUNDS HARDNESS (as CaCO3) Use this space (or a separate sheet) to provide information on other metals requested by the permit writer NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: Mayodan WWTP NCO021873 PERMIT ACTION REQUESTED: Renewal RIVER BASIN: Ronoake Outfall number: (Complete once for each outfall discharging effluent to waters of the United States.) POLLUTANT..' - MAXIMUM'DAILY DISCHARGE •, AVERAGE DAILY DISCHARGE , ' _. METHOD MUMDL Conic. Units Mass Units `Cont': Units Mass ., Units Number','QNALYTICAL of Samples VOLATILE ORGANIC COMPOUNDS ACROLEIN ACRYLONITRILE BENZENE BROMOFORM CARBON TETRACHLORIDE CHLOROBENZENE CHLORODIBROMO- METHANE CHLOROETHANE 2-CHLOROETHYLVINYL ETHER CHLOROFORM DICHLOROBROMO- METHANE 1,1-DICHLOROETHANE 1,2-DICHLOROETHANE TRANS-I,2-DICHLORO- ETHYLENE 1,1-DICHLORO- ETHYLENE 1,2-DICHLOROPROPANE 1,3-DICHLORO- PROPYLENE ETHYLBENZENE METHYL BROMIDE METHYL CHLORIDE METHYLENE CHLORIDE 1,1,2,2-TETRA- CHLOROETHANE TETRACHLORO- ETHYLENE TOLUENE NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: Mayodan WWTP NCO021873 PERMIT ACTION REQUESTED: Renewal RIVER BASIN: Ronoake Outfall number: (Complete once for each outfall discharging effluent to waters of the United States.) POLLUTANT = MAXIMUMDAILY DISCHARGE = AVERAGE DAILY DISCHARGE" - - ANALYTICdL METHOD - ` \MLIMDL `: Conc. UHits _ Mass lJriits Corid. Units Mass , 'Units ° " Number of -' I Samples TRICHLOROETHANE TRICHLOROETHANE TRICHLOROETHYLENE TRICHLOROETHYLENE VINYL CHLORIDE Use this space (or a separate sheet) to provide information on other volatile organic compounds requested by the permit writer ACID-EXTRACTABLE COMPOUNDS P-CHLORO-M-CRESOL 2-CHLOROPHENOL 2,4-DICHLOROPHENOL 2,4-DIMETHYLPHENOL 4,6-DIN ITRO-O-CRESOL 2,4-DINITROPHENOL 2-NITROPHENOL 4-NITROPHENOL PENTACHLOROPHENOL PHENOL 2,4,6- TRICHLOROPHENOL Use this space (or a separate sheet) to provide information on other acid-extractable compounds requested by the permit writer BASE-NEUTRAL COMPOUNDS ACENAPHTHENE ACENAPHTHYLENE ANTHRACENE BENZIDINE BENZO(A)ANTHRACENE BENZO(A)PYRENE NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: Mayodan WWTP NCO021873 PERMIT ACTION REQUESTED: Renewal RIVER BASIN: Ronoake Outfall number: (Complete once for each outfall discharging effluent to waters of the United States.) POLLUTANT ''.MAXIMUM DAILY DISCHARGE ' AVERAGE'DAILY,DISC,HARGE - - 'ANALYTICAL - METHOD ML/MDL - Cond. Units ' Mass Urfits ' Conc. ` Units'' Mass•' `. ' ,Unit`s -, 'Number `' _' of Samples 3,4 BENZO- FLUORANTHENE BENZO(GHI)PERYLENE BENZO(K) FLUORANTHENE BIS (2-CHLOROETHOXY) METHANE BIS (2-CHLOROETHYL)- ETHER BIS (2-CHLOROISO- PROPYL)ETHER BIS (2-ETHYLHEXYL) PHTHALATE 4-BROMOPHENYL PHENYLETHER BUTYL BENZYL PHTHALATE 2 -CHLORO - NAPHTHALENE 4-CHLORPHENYL PHENYLETHER CHRYSENE DI -N -BUTYL PHTHALATE DI-N-OCTYL PHTHALATE DIBENZO(A,H) ANTHRACENE 1,2 -DICHLOROBENZENE 1,3 -DICHLOROBENZENE 1,4 -DICHLOROBENZENE 3,3-D IC H LORO- BENZIDINE DIETHYL PHTHALATE DIMETHYL PHTHALATE 2,4-DINITROTOLUENE 2,6-DINITROTOLUENE 1,2 -DIPHENYL - HYDRAZINE NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Outfall number: (Complete once for each ouffall discharging effluent to waters of the United States.) POLLUTTAIN ML/MDL, z FLUORANTHENE FLUORENE HEXACHLOROBENZENE HEXACHLORO- BUTADIENE HEXACHLOROCYCLO- PENTADIENE HEXACHLOROETHANE PYRENE ISOPHORONE NAPHTHALENE NITROBENZENE PROPYLAMINE METHYLAMINE PHENYLAMINE PHENANTHRENE PYRENE TRICHLOROBENZENE Use this space (or a separate sheet) to provide information on other base -neutral compounds requested by the permit writer Use this space (or a separate sheet) to provide information on other pollutants (e.g., pesticides) requested by the permit writer NPOESFORM 2AAdditional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP NCO021873 Renewal Ronoake -SUPP-LEMENTALAPPLICATION.IN- MAll 0N RART,E.;jOXICITYTESTING DATA - POTWs meeting one or more of the following criteria must provide the results of whole effluent toxicity tests for acute or chronic toxicity for each of the facility's discharge points: 1) POTWs with a design flow rate greater than or equal to 1.0 mgd; 2) POTWs with a pretreatment program (or those that are required to have one under 40 CFR Part 403); or 3) POTWs required by the permitting authority to submit data for these parameters. • At a minimum, these results must include quarterly testing for a 12 -month period within the past 1 year using multiple species (minimum of two species), or the results from four tests performed at least annually in the four and one-half years prior to the application, provided the results show no appreciable toxicity, and testing for acute and/or chronic toxicity, depending on the range of receiving water dilution. Do not include information on combined sewer overflows in this section. All information reported must be based on data collected through analysis conducted using 40 CFR Part 136 methods. In addition, this data must comply with QA/QC requirements of 40 CFR Part 136 and other appropriate QA/QC requirements for standard methods for analytes not addressed by 40 CFR Part 136. • In addition, submit the results of any other whole effluent toxicity tests from the past four and one-half years. If a whole effluent toxicity test conducted during the past four and one-half years revealed toxicity, provide any information on the cause of the toxicity or any results of a toxicity reduction evaluation, if one was conducted. • If you have already submitted any of the information requested in Part E, you need not submit it again. Rather, provide the information requested in question EA for previously submitted information. If EPA methods were not used, report the reasons for using alternate methods If test summaries are available that contain all of the information requested below, they may be submitted in place of Part E. If no biomonitoring data is required, do not complete Part E. Refer to the Application Overview for directions on which other sections of the form to complete. E.1. Required Tests. SEE ATTACHMENT IV Indicate the number of whole effluent toxicity tests conducted in the past four and one-half years. ❑ chronic ❑ acute E.2. Individual Test Data. Complete the following chart for each whole effluent toxicity test conducted in the last four and one-half years. Allow one column per test (where each species constitutes a test). Copy this page if more than three tests are being reported. Test number. Test number: Test number: a. Test information. Test Species & test method number Age at initiation of test Outfall number Dates sample collected Date test started Duration b. Give toxicity test methods followed. Manual title Edition number and year of publication Page number(s) c. Give the sample collection method(s) used. For multiple grab samples, indicate the number of grab samples used. 24 -Hour composite Grab d. Indicate where the sample was taken in relation to disinfection. (Check all that apply for each. Before disinfection After disinfection After dechlorination NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: Mayodan WWTP NCO021873 PERMIT ACTION REQUESTED: Renewal RIVER BASIN: Ronoake Test number: Test number: Test number: e. Describe the point in the treatment process at which the sample was collected. Sample was collected: f. For each test, include whether the test was intended to assess chronic toxicity, acute toxicity, or both Chronic toxicity Acute toxicity g. Provide the type of test performed. Static Static -renewal Flow-through h. Source of dilution water. If laboratory water, specify type; if receiving water, specify source. Laboratory water Receiving water i. Type of dilution water. If salt water, specify "natural' or type of artificial sea salts or brine used. Fresh water Salt water j. Give the percentage effluent used for all concentrations in the test series. k. Parameters measured during the test. (State whether parameter meets test method specifications) pH Salinity Temperature Ammonia Dissolved oxygen I. Test Results. Acute: Percent survival in 100% effluent % % % LC5o 95% C.I. % % % Control percent survival % % % NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: Mayodan WWTP NCO021873 PERMIT ACTION REQUESTED: Renewal RIVER BASIN: Ronoake Chronic: NOEC % % % ICzs % % % Control percent survival % % % Other (describe) m. Quality Control/Quality Assurance. Is reference toxicant data available? Was reference toxicant test within acceptable bounds? What date was reference toxicant test run (MM/DD/YYYY)? Other (describe) E.3. Toxicity Reduction Evaluation. Is the treatment works involved in a Toxicity Reduction Evaluation? ❑ Yes ❑ No If yes, describe: EA. Summary of Submitted Biomonitoring Test Information. If you have submitted biomonitoring test information, or information regarding the cause of toxicity, within the past four and one-half years, provide the dates the information was submitted to the permitting authority and a summary of the results. Date submitted: / / (MM/DD/YYYY) Summary of results- (see instructions) -END OF ,PART 8, - - REFER TO_THE AP,PL1CATION OVERVIEW (PAGE 1) TO DETERMINEWHICH'OTHER PART' OF FORM 2AY0;U MUST,COMPLI=TE: NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP NCO021873 Renewal Ronoake SUPPLEMENTAL APPLICATION INFORMATION PART F.INDUSTRIAL USER DISCHARGES AND RCRA/CERCLA WASTES All treatment works receiving discharges from significant industrial users or which receive RCRA,CERCLA, or other remedial wastes must complete part F. GENERAL INFORMATION: F.I. Pretreatment program. Does the treatment works have, or is subject to, an approved pretreatment program? ® Yes ❑ No F.2. Number of Significant Industrial Users (SIUs) and Categorical Industrial Users (CIUs). Provide the number of each of the following types of industrial users that discharge to the treatment works. a. Number of non-categorical SIUs. 3 b. Number of CIUs. 0 SIGNIFICANT INDUSTRIAL USER INFORMATION: Supply the following information for each SIU. If more than one SIU discharges to the treatment works, copy questions F.3 through F.8 and provide the information requested for each SIU. F.3. Significant Industrial User Information. Provide the name and address of each SIU discharging to the treatment works. Submit additional pages as necessary. Name: Sans Tech Mailing Address: PO Box 1437 Reidsville, NC 27323 FA. Industrial Processes. Describe all the industrial processes that affect or contribute to the SIU's discharge. Melting and extruding nylon chip into fiber F.5. Principal Product(s) and Raw Material(s). Describe all of the principal processes and raw materials that affect or contribute to the SIU's discharge. Principal product(s): Spun nylon fiber Raw material(s): NVlon 6, 6 chip, 10-12% mineral oil, heat transfer mediums F.6. Flow Rate. a. Process wastewater flow rate. Indicate the average daily volume of process wastewater discharge into the collection system in gallons per day (gpd) and whether the discharge is continuous or intermittent. 0.0256 gpd ( X continuous or intermittent) b. Non-process wastewater flow rate. Indicate the average daily volume of non-process wastewater flow discharged into the collection system in gallons per day (gpd) and whether the discharge is continuous or intermittent. gpd ( continuous or intermittent) F.7. Pretreatment Standards. Indicate whether the SIU is subject to the following: a. Local limits ® Yes ❑ No b. Categorical pretreatment standards ❑ Yes ® No If subject to categorical pretreatment standards, which category and subcategory? NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake F.B. Problems at the Treatment Works Attributed to Waste Discharge by the SIU. Has the SIU caused or contributed to any problems (e.g., upsets, interference) at the treatment works in the past three years? ❑ Yes ® No If yes, describe each episode. RCRA HAZARDOUS WASTE RECEIVED BY TRUCK, RAIL, OR DEDICATED PIPELINE: F.9. RCRA Waste. Does the treatment works receive or has it in the past three years received RCRA hazardous waste by truck, rail or dedicated pipe? ❑ Yes ® No (go to F.12) F.10. Waste transport. Method by which RCRA waste is received (check all that apply): ❑ Truck ❑ Rail ❑ Dedicated Pipe F.11. Waste Description. Give EPA hazardous waste number and amount (volume or mass, specify units). EPA Hazardous Waste Number Amount Units CERCLA (SUPERFUND) WASTEWATER, RCRA REMEDIATION/CORRECTIVE ACTION WASTEWATER, AND OTHER REMEDIAL ACTIVITY WASTEWATER: F.12. Remediation Waste. Does the treatment works currently (or has it been notified that it will) receive waste from remedial activities? ❑ Yes (complete F.13 through F.15.) ® No F.13. Waste Origin. Describe the site and type of facility at which the CERCLA/RCRA/or other remedial waste originates (or is excepted to origniate in the next five years). F.14. Pollutants. List the hazardous constituents that are received (or are expected to be received). Include data on volume and concentration, if known. (Attach additional sheets if necessary.) F.15. Waste Treatment. a. Is this waste treated (or will be treated) prior to entering the treatment works? ❑ Yes ® No If yes, describe the treatment (provide information about the removal efficiency): b. Is the discharge (or will the discharge be) continuous or intermittent? ❑ Continuous ❑ Intermittent If intermittent, describe discharge schedule. END•OF PART �F.- REFER TO T48 --APPLICATION OVERVIEW (PAGE.1) TO DETERMINE,WHICH OTHER.PARTS OP FORM 2AYO.0 MU$T'C'OMPiLETE NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: $U PP f 'Airlio All treatment works receiving discharges from significant industrial users or which receive RCRA,CERCLA, or other remedial wastes must complete part GENERAL INFORMATION: F.I. Pretreatment program. Does the treatment works have, or is subject ot, an approved Pretreatment program? C9 Yes [I No F.2. Number of Significant Industrial Users (SIUs) and Categorical Industrial Users (ClUs). Provide the number of each of the following types of industrial users that discharge to the treatment works. C. Number of non -categorical SlUs. 3 d. Number of ClUs. 0 SIGNIFICANT INDUSTRIAL USER INFORMATION: Supply the following information for each SIU. If more than one SIU discharges to the treatment works, copy questions F.3 through F.8 and provide the information requested for each SIU. F.3. Significant Industrial User Information. Provide the name and address of each SIU discharging to the treatment works. Submit additional pages as necessary. Name: Unifi 105 Mailing Address: PO Box 1437 Reidsville, NC 27323 F.4. Industrial Processes. Describe all the industrial processes that affect or contribute to the SI U's discharge. F.S. Principal Product(s) and Raw Material(s). Describe all of the principal processes and raw materials that affect or contribute to the SIU's Principal product(s): Textured and covered nylon fiber Raw material(s): Nylon fiber, coning oil, light mineral oil F.6. Flow Rate. C. Process wastewater flow rate. Indicate the average daily volume of process wastewater discharge into the collection system in gallons per day (gpd) and whether the discharge is continuous or intermittent. 0.0885 gpd x continuous or intermittent) d. Non -process wastewater flow rate. Indicate the average daily volume of non -process wastewater flow discharged into the collection system in gallons per day (gpd) and whether the discharge is continuous or intermittent. gpd continuous or intermittent) F.7. Pretreatment Standards. Indicate whether the SIU is subject to the following: a. Local limits Z Yes [I No b. Categorical pretreatment standards 0 Yes Z No If subject to categorical pretreatment standards, which category and subcategory? NPDESFORM 2AAdditional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake F.8. Problems at the Treatment Works Attributed to Waste Discharge by the SIU. Has the SIU caused or contributed to any problems (e.g., upsets, interference) at the treatment works in the past three years? ❑ Yes ® No If yes, describe each episode. RCRA HAZARDOUS WASTE RECEIVED -BY TRUCK, RAIL, OR DEDICATED PIPELINE: F.9. RCRA Waste. Does the treatment works receive or has it in the past three years received RCRA hazardous waste by truck, rail or dedicated pipe? ❑ Yes ® No (go to F.12) FA 0. Waste transport. Method by which RCRA waste is received (check all that apply): ❑ Truck ❑ Rail ❑ Dedicated Pipe FA 1. Waste Description. Give EPA hazardous waste number and amount (volume or mass, specify units). EPA Hazardous Waste Number Amount Units CERCLA (SUPERFUND) WASTEWATER, RCRA REMEDIATION/CORRECTIVE ACTION WASTEWATER, AND OTHER REMEDIAL ACTIVITY WASTEWATER: F.12. Remediation Waste. Does the treatment works currently (or has it been notified that it will) receive waste from remedial activities? ❑ Yes (complete F.13 through F.15.) ® No F.13. Waste Origin. Describe the site and type of facility at which the CERCLA/RCRA/or other remedial waste originates (or is excepted to origniate in the next five years). F.14. Pollutants. List the hazardous constituents that are received (or are expected to be received). Include data on volume and concentration, if known. (Attach additional sheets if necessary.) F.15. Waste Treatment. C. Is this waste treated (or will be treated) prior to entering the treatment works? ❑ Yes ® No If yes, describe the treatment (provide information about the removal efficiency): d. Is the discharge (or will the discharge be) continuous or intermittent? ❑ Continuous ❑ Intermittent If intermittent, describe discharge schedule. iEND OFi�RART��F;� - - REFER.;TO:'THE-AP,PL'ICATI'ON`OUERVIEW';'PAGE==1' TO,'•DETERMINE'WHI'CH'OTH'E'R;PARTS' O:F PL'ETE'COM2A OU_._UM_s . , M NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP NCO021873 Renewal Ronoake SUPPLEMENTAL.APPLIGATION*,INFORMATION. PART-F:INDUSTRIAL USER DISCHARGES ANDJWkA/CERCLA WASTES. All treatment works receiving discharges from significant industrial users or which receive RCRA,CERCLA, or other remedial wastes must complete part F. GENERAL INFORMATION: F.I. Pretreatment program. Does the treatment works have, or is subject ot, an approved pretreatment program? E Yes ❑ No F.2. Number of Significant Industrial Users (SIUs) and Categorical Industrial Users (CIUs). Provide the number of each of the following types of industrial users that discharge to the treatment works. e. Number of non -categorical SIUs. 3 f. Number of Cl Us. 0 SIGNIFICANT INDUSTRIAL USER INFORMATION: Supply the following information for each SIU. If more than one SIU discharges to the treatment works, copy questions F.3 through F.8 and provide the information requested for each SIU. F.3. Significant Industrial User Information. Provide the name and address of each SIU discharging to the treatment works. Submit additional pages as necessary. Name: Strum. Ruoer & Co Mailing Address: 271 Cardwell Road Mayodan, NC 27027 FA. Industrial Processes. Describe all the industrial processes that affect or contribute to the SIU's discharge. Manufacturing of fabrication of firearms from purchased steel. F.5. Principal Product(s) and Raw Material(s). Describe all of the principal processes and raw materials that affect or contribute to the SIU's discharge. Principal product(s): Firearms Raw material(s): Steel, aluminum, and synthetic parts. F.6. Flow Rate. e. Process wastewater flow rate. Indicate the average daily volume of process wastewater discharge into the collection system in gallons per day (gpd) and whether the discharge is continuous or intermittent. 0.0061 gpd ( X continuous or intermittent) f. Non -process wastewater flow rate. Indicate the average daily volume of non -process wastewater flow discharged into the collection system in gallons per day (gpd) and whether the discharge is continuous or intermittent. gpd ( continuous or intermittent) F.7. Pretreatment Standards. Indicate whether the SIU is subject to the following: a. Local limits ® Yes ❑ No b. Categorical pretreatment standards ❑ Yes ® No If subject to categorical pretreatment standards, which category and subcategory? NPDES FORM 2A Additional Information FACILITY NAME AND PERMIT NUMBER: PERMIT ACTION REQUESTED: RIVER BASIN: Mayodan WWTP , NCO021873 Renewal Ronoake F.8. Problems at the Treatment Works Attributed to Waste Discharge by the SIU. Has the SIU caused or contributed to any problems (e.g., upsets, interference) at the treatment works in the past three years? ❑ Yes ® No If yes, describe each episode. RCRA HAZARDOUS WASTE RECEIVED BY TRUCK, RAIL, OR DEDICATED PIPELINE: F.9. RCRA Waste. Does the treatment works receive or has it in the past three years received RCRA hazardous waste by truck, rail or dedicated pipe? ❑ Yes ® No (go to F.12) FA 0. Waste transport. Method by which RCRA waste is received (check all that apply): ❑ Truck ❑ Rail ❑ Dedicated Pipe F.11. Waste Description. Give EPA hazardous waste number and amount (volume or mass, specify units). EPA Hazardous Waste Number Amount Units CERCLA (SUPERFUND) WASTEWATER, RCRA REMEDIATION/CORRECTIVE ACTION WASTEWATER, AND OTHER REMEDIAL ACTIVITY WASTEWATER: Mi F.12. Remediation Waste. Does the treatment works currently (or has it been notified that it will) receive waste from remedial activities? ❑ Yes (complete F.13 through F.15.) ® No F.13. Waste Origin. Describe the site and type of facility at which the CERCLA/RCRA/or other remedial waste originates (or is excepted to originate in the next five years). F.14. Pollutants. List the hazardous constituents that are received (or are expected to be received). Include data on volume and concentration, if known. (Attach additional sheets if necessary.) F.15. Waste Treatment. e. Is this waste treated (or will be treated) prior to entering the treatment works? ❑ Yes ® No If yes, describe the treatment (provide information about the removal efficiency): f. Is the discharge (or will the discharge be) continuous or intermittent? ❑ Continuous ❑ Intermittent If intermittent, describe discharge schedule. END OF PART F. _ -- REFER, TO -THE APPLICATION OVERVIEW (PAGE, 1) TO OETERMINE WHICH. OTH-ER PARTS OF FORM •2A YOU MUST COMPLETE NPDES FORM 2A Additional Information Town of Mayodan NPDES Permit NCO021873 SLUDGE MANAGEMENT PLAN The Town of Mayodan WWTP thickens sludge in one of two gravity thickeners and then it is digested in an aerobic digester with the capacity of 0.4 MGD. The stabilized sludge is then land applied either as a liquid directly from the digester or it may be dewatered on one of the 10 sand drying beds and then land applied. The Land Application Permit (WQ0002672), permits a total of 197.6 acres. ATTACHMENT I TOPOGRAGPHIC MAP ATTACHMENT II SCHEMATIC AND BRIEF NARRITIVE TOWN OF MAYODAN WWTP Influent-------- InfluentInfluent Bar�uent Splitt r from Unifi Plant I Pump C!4-4.:-- Aeratio Basin Aeration Basin 1.25 M D Total 1.75 MGD , - Control � Building � Waste Sludge _ . _ .. _ _ Return Sludge----------------------------------- Sludge loifge Clarifier Pumping I 9adi- 0.143 M ding Clarifier Digestor 0.143 MG --- 0 400 MG Aeration Basin 1.5 MGD CL 0 -----------•---------,-------------� CD -k - - - ui d n Clarifier Y0.40O 0.400 MG _ Sludge Cl2 -------------------- Cl Thickener SO2 Chlorine SO2 Waste Sludge Bldg '�------- __ •-------- -- ---•--•--•--•--•----- ------ Contact #1 Chlorine Chlorine Contact # 2 Contact # 3 Effluent Meter The Town of Mayodan Wastewater Treatment Plant is a 4.5 MGD design capacity facility. The facility treats a combination of domestic, industrial, and commercial wastewaters. The current treatment scheme includes a mechanical bar screen, grit removal system, activated sludge and secondary clarification. The treated effluent is disinfected by chlorination followed by dechlorination through the use of sulfur dioxide. ATTACHMENT III EXPANDED EFFLUENT TESTING UNITED WATER PO Box 1279 Clemmons, NC 27012 TEL 336-766-0270 FAX 336-766-0469 November 19, 2014 ATTN: Central Files Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 Dear Sirs, Enclosed is an amended PPA report for the Town of Mayodan WWTP (NPDES Permit No. NC0021873) for September, 2014. The month and year were changed to September, 2014 instead of June, 2013. We are sorry for any inconvenience this may have caused. If you have any questions or require additional information, please advise. Sincerely, T T__'i_1 tT T_1_ _ Director of Operations GS/lm cc: Mr. Michael Brandt Mr. Jamie Whitten Annual Monitoring and Pollutant Scan Permit No. NCO021873 n '" Outfall 001 ��;" a •. ;)>:�- 5�Y' +� Facility Name Mayodan WWTP ORC Jamie Whitten Date of sampling 09/09/14 Phone 336-427-5733 Analytical Laboratory Environment One Month September- Year�12014:^• Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Ammonia (as N) Composite 350.1 0.02 0.17 mg/l 1 Dissolved oxygen Composite 360.1 0 6.21 mg/l 1 Nitrate/ Nitrite Composite 353.2 0.02 9 mg/1 1 Total Kjeldahl nitrogen Composite 351.2 0.25 1.95 mg/1 1 Total Phosphorus Composite 365.4 0.05 3.71 mg/1 1 Total dissolved solids Composite 2540C 10 319 mg/l 1 Hardness Composite 2340C N/A 69 mg/1 1 Chlorine (total residual, TRC) Grab 4500clg 0.012 <10 mg/1 1 Oil and grease Grab 1664 A 5 <5 mg/1 1 Metals (total recoverable), cyanide and total phenols Antimony Composite 200.8 0.003 mg/l 1 Arsenic Composite 200.8 0.005 <0.005 mg/1 1 Beryllium Composite 200.7 0.001 mg/1 1 Cadmium Composite 3113B 0.001 <0.001 mg/l 1 Chromium Composite 200.7 0.005 <0.005 mg/1 1 Copper Composite 200.7 0.01 0.038 mg/l 1 Lead Composite 3113B 0.005 <0.005 mg/l 1 Mercury Composite 245.1 0.2 0.0000325 mg/1 1 Nickel Composite 200.7 0.01 <0.010 mg/1 1 Selenium Composite 3113B 0.002 <0.010 mg/1 1 Silver Composite 200.7 0.005 <0.001 mg/1 1 Thallium Composite 200.8 0.001 mg/l 1 Zinc Composite 3113B 0.01 0.08 mg/1 1 Cyanide Grab 4500 CNE 0.005 <0.005 mg/1 1 Total phenolic compounds Grab 51OA/B 0.005 <0.005 mg/l 1 Volatile organic compounds Acrolein Grab 624 100 <100.00 ug/1 1 Acrylonitrile Grab 624 50 <50 ug/1 1 Benzene Grab 624 5 <5 ug/1 1 Bromoform Grab 624 5 51.6 ug/1 1 Carbon tetrachloride Grab 624 5 <5 ug/1 1 Chlorobenzene Grab 624 5 <5 ug/1 1 Chlorodibromomethane Grab 624 5 <5 ug/1 1 Chloroethane Grab 624 10 <10 ug/1 1 2-chloroethylvinyl ether Grab 624 5 <5 ug/1 1 Chloroform Grab 624 5 <5 ug/1 1 Dichlorobromomethane Grab 624 5 15.2 ug/1 1 1,1-dichloroethane Grab 624 5 <5 ug/1 1 1,2-dichloroethane Grab 624 5 <5 ug/1 1 Trans-1,2-dichloroethylene Grab 624 5 <5 ug/1 1 Form - DMR- PPA -1 Page 1 Permit No. NCO021873 Outfall 001 Annual Monitoring and Pollutant SC �� Month September Year 2014 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Volatile organic compounds (Cont.) 1,1-dichloroethylene Grab 624 5 <5 ug/1 1 1,2-dichloropropane Grab 624 5 <5 ug/1 1 1,3-dichloropropylene Grab 624 5 <5 ug/l 1 Ethylbenzene Grab 624 5 <5 ug/l 1 Methyl bromide Grab 624 10 <10 ug/1 1 Methyl chloride Grab 624 5 <5 ug/l 1 Methylene chloride Grab 624 10 <10 ug/1 1 1,1,2,2 -tetrachloroethane Grab 624 5 <5 ug/l 1 Tetrachloroethylene Grab 624 5 <5 ug/l 1 Toluene Grab 624 5 <5 ug/1 1 1,1,1 -trichloroethane Grab 624 5 <5 ug/1 1 1,1,2 -trichloroethane Grab 624 5 <5 ug/1 1 Trichloroethylene Grab 624 5 <5 ug/1 1 Vinyl chloride Grab 624 10 <10 ug/1 1 Acid -extractable compounds P-chloro-m-creso Grab 625 10 <10 ug/1 1 2 -chlorophenol Grab 625 10 <10 ug/1 1 2,4-dichlorophenol Grab 625 10 <10 ug/l 1 2,4 -dimethylphenol Grab 625 10 <10 ug/1 1 4,6-dinitro-o-cresol Grab 625 50 <50 ug/1 1 2,4-dinitrophenol Grab 625 50 <50 ug/1 1 2-nitrophenol Grab 625 10 <10 ug/1 1 4-nitrophenol Grab 625 50 <50 ug/l 1 Pentachlorophenol Grab 625 50 <50 ug/1 1 Phenol Grab 625 10 <2 ug/1 1 2,4,6 -trichlorophenol Grab 625 10 <10 ug/l 1 Base -neutral compounds Acenaphthene Grab 625 10 <10 ug/1 1 Acenaphthylene Grab 625 10 <10 ug/1 1 Anthracene Grab 625 10 <10 ug/1 1 Benzidine Grab 625 100 <100 ug/1 1 Benzo(a)anthracene Grab 625 10 <10 ug/1 1 Benzo(a)pyrene Grab 625 10 <10 ug/1 1 3,4 benzofluoranthene Grab 625 10 <10 ug/l 1 Benzo(ghi)perylene Grab 625 10 <10 ug/1 1 Benzo(k)fluoranthene Grab 625 10 <10 ug/1 1 Bis (2-chloroethoxy) methane Grab 625 10 <10 ug/1 1 Bis (2-chloroethyl) ether Grab 625 10 <10 ug/1 1 Bis (2-chloroisopropyl) ether Grab 625 10 <10 ug/1 1 Bis (2-ethylhexyl) phthalate Grab 625 20 <20 ug/1 1 4-bromophenyl phenyl ether Grab 625 10 <10 ug/1 1 Butyl benzyl phthalate Grab 625 10 <10 ug/1 1 2-chloronaphthalene Grab 625 10 <10 ug/l 1 Form - DMR- PPA -1 Page 2 Permit No. NC0021873 Outfall 001 . ,Annual Monitoring and Pollutant Spa Month September Year 2014 4-chlorophenyl phenyl ether Grab 625 10 <10 ug/l 1 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Base -neutral compounds (cont.) Chrysene Grab 625 10 <10 ug/l 1 Di -n -butyl phthalate Grab 625 10 <10 ug/l 1 Di-n-octyl phthalate Grab 625 10 <10 ug/l 1 Dibenzo(a,h)anthracene Grab 625 10 <10 ug/1 1 1,2 -dichlorobenzene Grab 625 10 <10 ug/l 1 1,3 -dichlorobenzene Grab 625 10 <10 ug/1 1 1,4 -dichlorobenzene Grab 625 10 <10 ug/1 1 3,3-dichlorobenzidine Grab 625 10 <10 ug/l 1 Diethyl phthalate Grab 625 10 <10 ug/l 1 Dimethyl phthalate Grab 625 10 <10 ug/1 1 2,4-dinitrotoluene Grab 625 10 <10 ug/1 1 2,6-dinitrotoluene Grab 625 10 <10 ug/1 1 1,2-diphenylhydrazine Grab 625 10 <10 ug/1 1 Fluoranthene Grab 625 10 <10 ug/l 1 Fluorene Grab 625 10 <10 ug/1 1 Hexachlorobenzene Grab 625 10 <10 ug/1 1 Hexachlorobutadiene Grab 625 10 <10 ug/1 1 Hexachlorocyclo-pentadiene Grab 625 10 <10 ug/ 1 1 Hexachloroethane Grab 625 10 <10 ug/1 1 Indeno(1,2,3-cd)pyrene Grab 625 10 <10 ug/l 1 Isophorone Grab 625 10 <10 ug/1 1 Naphthalene Grab 625 10 <10 ug/l 1 Nitrobenzene Grab 625 10 <10 ug/l 1 N-nitrosodi-n-propylamine Grab 625 10 <10 ug/1 1 N-nitrosodimethylamine Grab 625 10 <10 ug/1 1 N-nitrosodiphenylamine Grab 625 10 <10 ug/l 1 Phenanthrene Grab 625 10 <10 ug/l 1 Pyrene Grab 625 10 <10 ug/1 1 1,2,4,-trichlorobenzene Grab 625 10 <10 ug/l 1 I certify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system to design to assure that qualified perdonnel properly gather and evaluat the information submitted. Based on my inquiry of the person or persons that manage the system, or those persons directly responsibel for gathering the information, the information submitted is , to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for ki Form - DMR- PPA -1 Page 3 UNITED WATER PO Box 1279 Clemmons, NC 27012 TEL 336-766-0270 FAX 336-766-0469 November 19, 2014 ATTN: Central Files Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 Dear Sirs, Enclosed is a PPA report for the Town of Mayodan WWTP (NPDES Permit No. NC0021873) for September, 2014. This was not included with the DMR for September due to the sample results not being received until November. We are sorry for any inconvenience this may have caused. If you have any questions or require additional information, please advise. Sincerely, United Water Gary GS/lm cc: Mr. Michael Brandt Mr. Jamie Whitten `nnual Monitoring and Pollutant Ser-) Permit No. NCO021873 Outfall 001 Facility Name Mayodan WWTP Date of sampling 09/09/ 14 Analytical Laboratory Environment One ORC Jamie Whitten Phone 336-427-5733 Month June Year 2009 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Ammonia (as N) Composite 350.1 0.02 0.17 mg/1 1 Dissolved oxygen Composite 360.1 0 6.21 mg/l 1 Nitrate/Nitrite Composite 353.2 0.02 9 mg/1 1 Total Kjeldahl nitrogen Composite 351.2 0.25 1.95 mg/l 1 Total Phosphorus Composite 365.4 0.05 3.71 mg/1 1 Total dissolved solids Composite 2540C 10 319 mg/l 1 Hardness Composite 2340C N/A 69 mg/1 1 Chlorine (total residual, TRC) Grab 4500c1g 0.012 <10 mg/1 1 Oil and grease Grab 1664 A 5 <5 mg/1 1 Metals (total recoverable), cyanide and total phenols Antimony Composite 200.8 0.003 mg/1 1 Arsenic Composite 200.8 0.005 <0.005 mg/1 1 Beryllium Composite 200.7 0.001 mg/1 1 Cadmium Composite 3113B 0.001 <0.001 mg/1 1 Chromium Composite 200.7 0.005 <0.005 mg/1 1 Copper Composite 200.7 0.01 0.038 mg/1 1 Lead Composite 3113B 0.005 <0.005 mg/1 1 Mercury Composite 245.1 0.2 0.0000325 mg/1 1 Nickel Composite 200.7 0.01 <0.010 mg/l 1 Selenium Composite 3113B 0.002 <0.010 mg/l 1 Silver Composite 200.7 0.005 <0.001 mg/1 1 Thallium Composite 200.8 0.001 mg/1 1 Zinc Composite 3113B 0.01 0.08 mg/1 1 Cyanide Grab 4500 CN E 0.005 <0.005 mg/1 1 Total phenolic compounds Grab 51OA/B 0.005 <0.005 mg/1 1 Volatile organic compounds Acrolein Grab 624 100 <100.00 ug/1 1 Acrylonitrile Grab 624 50 <50 ug/1 1 Benzene Grab 624 5 <5 ug/1 1 Bromoform Grab 624 5 51.6 ug/1 1 Carbon tetrachloride Grab 624 5 <5 ug/1 1 Chlorobenzene Grab 624 5 <5 ug/1 1 Chlorodibromomethane Grab 624 5 <5 ug/1 1 Chloroethane Grab 624 10 <10 ug/1 1 2-chloroethylvinyl ether Grab 624 5 <5 ug/1 1 Chloroform Grab 624 5 <5 ug/1 1 Dichlorobromomethane Grab 624 5 15.2 ug/1 1 1, 1 -dichloroethane Grab 624 5 <5 ug/1 1 1,2-dichloroethane Grab 624 5 <5 ug/1 1 Trans-1,2-dichloroethylene Grab 624 5 <5 ug/1 1 Form - DMR- PPA -1 Page 1 --Annual Monitoring and Pollutant Sc;m_ 1 Permit No. NC0021873 Outfall 001 Month June Year 2009 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Volatile organic compounds (Cont.) 1,1-dichloroethylene Grab 624 5 <5 ug/1 1 1,2-dichloropropane Grab 624 5 <5 ug/l 1 1,3-dichloropropylene Grab 624 5 <5 ug/1 1 Ethylbenzene Grab 624 5 <5 ug/1 1 Methyl bromide Grab 624 10 <10 ug/1 1 Methyl chloride Grab 624 5 <5 ug/1 1 Methylene chloride Grab 624 10 <10 ug/l 1 1,1,2,2 -tetrachloroethane Grab 624 5 <5 ug/1 1 Tetrachloroethylene Grab 624 5 <5 ug/1 1 Toluene Grab 624 5 <5 ug/1 1 1,1,1 -trichloroethane Grab 624 5 <5 ug/1 1 1,1,2 -trichloroethane Grab 624 5 <5 ug/l 1 Trichloroethylene Grab 624 5 <5 ug/1 1 Vinyl chloride Grab 624 10 <10 ug/1 1 Acid -extractable compounds P-chloro-m-creso Grab 625 10 <10 ug/1 1 2 -chlorophenol Grab 625 10 <10 ug/1 1 2,4-dichlorophenol Grab 625 10 <10 ug/1 1 2,4 -dimethylphenol Grab 625 10 <10 ug/1 1 4,6-dinitro-o-cresol Grab 625 50 <50 ug/1 1 2,4-dinitrophenol Grab 625 50 <50 ug/1 1 2-nitrophenol Grab 625 10 <10 ug/1 1 4-nitrophenol Grab 625 50 <50 ug/1 1 Pentachlorophenol Grab 625 50 <50 ug/1 1 Phenol Grab 625 10 <2 ug/1 1 2,4,6 -trichlorophenol Grab 625 10 <10 ug/1 1 Base -neutral compounds Acenaphthene Grab 625 10 <10 ug/1 1 Acenaphthylene Grab 625 10 <10 ug/1 1 Anthracene Grab 625 10 <10 ug/1 1 Benzidine Grab 625 100 <100 ug/1 1 Benzo(a)anthracene Grab 625 10 <10 ug/1 1 Benzo(a)pyrene Grab 625 10 <10 ug/1 1 3,4 benzofluoranthene Grab 625 10 <10 ug/l 1 Benzo(ghi)perylene Grab 625 10 <10 ug/1 1 Benzo(k)fluoranthene Grab 625 10 <10 ug/1 1 Bis (2-chloroethoxy) methane Grab 625 10 <10 ug/1 1 Bis (2-chloroethyl) ether Grab 625 10 <10 ug/1 1 Bis (2-chloroisopropyl) ether Grab 625 10 <10 ug/1 1 Bis (2-ethylhexyl) phthalate Grab 625 20 <20 ug/1 1 4-bromophenyl phenyl ether Grab 625 10 <10 ug/1 1 Butyl benzyl phthalate Grab 625 10 <10 ug/1 1 2-chloronaphthalene Grab 625 10 <10 ug/1 1 Form - DMR- PPA -1 Page 2 —�nnual Monitoring and Pollutant Sc, -- Permit No. NC0021873 Outfall 001 Month June Year 2009 4-chlorophenyl phenyl ether Grab 625 10 <10 ug/l 1 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Base -neutral compounds (cont.) Chrysene Grab 625 10 <10 ug/l 1 Di -n -butyl phthalate Grab 625 10 <10 ug/l 1 Di-n-octyl phthalate Grab 625 10 <10 ug/l 1 Dibenzo(a,h)anthracene Grab 625 10 <10 ug/l 1 1,2 -dichlorobenzene Grab 625 10 <10 ug/l 1 1,3 -dichlorobenzene Grab 625 10 <10 ug/l 1 1,4 -dichlorobenzene Grab 625 10 <10 ug/l 1 3,3-dichlorobenzidine Grab 625 10 <10 ug/l 1 Diethyl phthalate Grab 625 10 <10 ug/1 1 Dimethyl phthalate Grab 625 10 <10 ug/l 1 2,4-dinitrotoluene Grab 625 10 <10 ug/l 1 2,6-dinitrotoluene Grab 625 10 <10 ug/l 1 1,2-diphenylhydrazine Grab 625 10 <10 ug/l 1 Fluoranthene Grab 625 10 <10 ug/l 1 Fluorene Grab 625 10 <10 ug/l 1 Hexachlorobenzene Grab 625 10 <10 ug/l 1 Hexachlorobutadiene Grab 625 10 <10 ug/l 1 Hexachlorocyclo-pentadiene Grab 625 10 <10 ug/l 1 Hexachloroethane Grab 625 10 <10 ug/1 1 Indeno(1,2,3-cd)pyrene Grab 625 10 <10 ug/l 1 Isophorone Grab 625 10 <10 ug/l 1 Naphthalene Grab 625 10 <10 ug/l 1 Nitrobenzene Grab 625 10 <10 ug/l 1 N-nitrosodi-n-propylamine Grab 625 10 <10 ug/l 1 N-nitrosodimethylamine Grab 625 10 <10 ug/l 1 N-nitrosodiphenylamine Grab 625 10 <10 ug/l 1 Phenanthrene Grab 625 10 <10 ug/l 1 Pyrene Grab 625 10 <10 ug/l 1 1,2,4,-trichlorobenzene I Grab 625 1 10 <10 ug/l 1 I certify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system to design to assure that qualified perdonnel properly gather and evaluat the information submitted. Based on my inquiry of the person or persons that manage the system, or those persons directly responsibel for gathering the information, the information submitted is , to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Form - DMR- PPA -1 Page 3 nnual Monitoring and Pollutant Scr—) Permit No. NCO021873 Outfall 001 Facility Name Mayodan WWTP Date of sampling 09/10/14 Analytical Laboratory Environment One ORC Jamie Whitten Phone 336-427-5733 Month June Year 2009 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Ammonia (as N) Composite 350.1 0.02 mg/l 1 Dissolved oxygen Composite 360.1 0 mg/l 1 Nitrate/Nitrite Composite 353.2 0.02 mg/l 1 Total Kjeldahl nitrogen Composite 351.2 0.25 mg/l 1 Total Phosphorus Composite 365.4 0.05 mg/l 1 Total dissolved solids Composite 2540C 10 mg/l 1 Hardness Composite 2340C N/A mg/l 1 Chlorine (total residual, TRC) Grab 4500c1g 0.012 mg/l 1 Oil and grease Grab 1664 A 5 mg/l 1 Metals (total recoverable), cyanide and total phenols Antimony Composite 200.8 0.003 <0.003 mg/l 1 Arsenic Composite 200.8 0.005 mg/l 1 Beryllium Composite 200.7 0.001 <0.001 mg/l 1 Cadmium Composite 3113B 0.001 mg/l 1 Chromium Composite 200.7 0.005 mg/l 1 Copper Composite 200.7 0.01 mg/l 1 Lead Composite 3113B 0.005 mg/l 1 Mercury Composite 245.1 0.2 mg/l 1 Nickel Composite 200.7 0.01 mg/l 1 Selenium Composite 3113B 0.002 mg/l 1 Silver Composite 200.7 0.005 mg/l 1 Thallium Composite 200.8 0.001 <0.001 mg/l 1 Zinc Composite 3113B 0.01 mg/l 1 Cyanide Grab 4500 CN E 0.005 mg/l 1 Total phenolic compounds Grab 51OA/B 0.005 mg/l 1 Volatile organic compounds Acrolein Grab 624 100 ug/1 1 Acrylonitrile Grab 624 50 ug/1 1 Benzene Grab 624 5 ug/1 1 Bromoform Grab 624 5 ug/1 1 Carbon tetrachloride Grab 624 5 ug/1 1 Chlorobenzene Grab 624 5 ug/1 1 Chlorodibromomethane Grab 624 5 ug/1 1 Chloroethane Grab 624 10 ug/1 1 2-chloroethylvinyl ether Grab 624 5 ug/1 1 Chloroform Grab 624 5 ug/1 1 Dichlorobromomethane Grab 624 5 ug/1 1 1,1-dichloroethane Grab 624 5 ug/1 1 1,2-dichloroethane Grab 624 5 ug/1 1 Trans-1,2-dichloroethylene Grab 624 5 ug/1 1 Form - DMR- PPA -1 Page 1 - %nnual Monitoring and Pollutant Sc,—) Permit No. NC0021873 Outfall 001 Month June Year 2009 Parameter Sample Type Analytical Method Quantitation Level Units of Measurement Number of samples Volatile organic compounds (Cont.) 1,1-dichloroethylene Grab 624 5 ug/l 1 1,2-dichloropropane Grab 624 5 ug/1 1 1,3-dichloropropylene Grab 624 5 ug/l 1 Ethylbenzene Grab 624 5 ug/1 1 Methyl bromide Grab 624 10 ug/1 1 Methyl chloride Grab 624 5 ug/l 1 Methylene chloride Grab 624 10 ug/1 1 1,1,2,2 -tetrachloroethane Grab 624 5 ug/1 1 Tetrachloroethylene Grab 624 5 ug/l 1 Toluene Grab 624 5 ug/1 1 1,1,1 -trichloroethane Grab 624 5 ug/l 1 1,1,2 -trichloroethane Grab 624 5 ug/1 1 Trichloroethylene Grab 624 5 ug/l 1 Vinyl chloride Grab 624 10 ug/l 1 Acid -extractable compounds P-chloro-m-creso Grab 625 10 ug/1 1 2 -chlorophenol Grab 625 10 ug/1 1 2,4-dichlorophenol Grab 625 10 ug/1 1 2,4 -dimethylphenol Grab 625 10 ug/1 1 4,6-dinitro-o-cresol Grab 625 50 ug/1 1 2,4-dinitrophenol Grab 625 50 ug/1 1 2-nitrophenol Grab 625 10 ug/1 1 4-nitrophenol Grab 625 50 ug/1 1 Pentachlorophenol Grab 625 50 ug/l 1 Phenol Grab 625 10 ug/l 1 2,4,6 -trichlorophenol Grab 625 10 ug/1 1 Base -neutral compounds Acenaphthene Grab 625 10 ug/1 1 Acenaphthylene Grab 625 10 ug/1 1 Anthracene Grab 625 10 ug/1 1 Benzidine Grab 625 100 ug/1 1 Benzo(a)anthracene Grab 625 10 ug/l 1 Benzo(a)pyrene Grab 625 10 ug/1 1 3,4 benzofluoranthene Grab 625 10 ug/1 1 Benzo(ghi)perylene Grab 625 10 ug/l 1 Benzo(k)fluoranthene Grab 625 10 ug/1 1 Bis (2-chloroethoxy) methane Grab 625 10 ug/1 1 Bis (2-chloroethyl) ether Grab 625 10 ug/1 1 Bis (2-chloroisopropyl) ether Grab 625 10 ug/1 1 Bis (2-ethylhexyl) phthalate Grab 625 20 ug/l 1 4-bromophenyl phenyl ether Grab 625 10 ug/1 1 Butyl benzyl phthalate Grab 625 10 ug/1 1 2-chloronaphthalene Grab 625 10 ug/1 1 Form - DMR- PPA -1 Page 2 —Nnnual Monitoring and Pollutant Sc'—) Permit No. NC0021873 Outfall 001 Month June Year 2009 4-chlorophenyl phenyl ether Grab 625 10 ug/1 1 Parameter Sample Type Analytical Method Quantitation Level Units of Measurement Number of samples Base -neutral compounds (cont.) Chrysene Grab 625 10 ug/l 1 Di -n -butyl phthalate Grab 625 10 ug/l 1 Di-n-octyl phthalate Grab 625 10 ug/1 1 Dibenzo(a,h)anthracene Grab 625 10 ug/l 1 1,2 -dichlorobenzene Grab 625 10 ug/l 1 1,3 -dichlorobenzene Grab 625 10 ug/1 1 1,4 -dichlorobenzene Grab 625 10 ug/1 1 3,3-dichlorobenzidine Grab 625 10 ug/l 1 Diethyl phthalate Grab 625 10 ug/l 1 Dimethyl phthalate Grab 625 10 ug/l 1 2,4-dinitrotoluene Grab 625 10 ug/l 1 2,6-dinitrotoluene Grab 625 10 ug/l 1 1,2-diphenylhydrazine Grab 625 10 ug/l 1 Fluoranthene Grab 625 10 ug/l 1 Fluorene Grab 625 10 ug/l 1 Hexachlorobenzene Grab 625 10 ug/l 1 Hexachlorobutadiene Grab 625 10 ug/l 1 Hexachlorocyclo-pentadiene Grab 625 10 ug/l 1 Hexachloroethane Grab 625 10 ug/1 1 Indeno(1,2,3-cd)pyrene Grab 625 10 ug/l 1 Isophorone Grab 625 10 ug/1 1 Naphthalene Grab 625 10 ug/l 1 Nitrobenzene Grab 625 10 ug/l 1 N-nitrosodi-n-propylamine Grab 625 10 ug/1 1 N-nitrosodimethylamine Grab 625 10 ug/l 1 N-nitrosodiphenylamine Grab 625 10 ug/l 1 Phenanthrene Grab 625 10 ug/1 1 Pyrene Grab 625 10 ug/l 1 1,2,4,-trichlorobenzene I Grab 1 625 1 10 ug/l 1 I certify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system to design to assure that qualified perdonnel properly gather and evaluat the information submitted. Based on my inquiry of the person or persons that manage the system, or those persons directly responsibel for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Form - DMR- PPA -1 Page 3 �p�or�pppc�� T, be ppQaW UNITED WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS ,NC 27012 ID#: 991 DATE COLLECTED: 09/09/14 DATE REPORTED : 10/28/14 VZZMlWN13 i�3'44F Effluent Analysis Method PARAMETERS Date Analyst Code Ammonia Nitrogen as N, mg/l 0.17 09/11/14 ANO 350.1 R2-93 Total Kjeldahl Nitrogen as N,mg/l 1.95 09/15/14 AKS 351.2 R2-93 Nitrate -Nitrite as N, mg/l 9.00 09/12/14 AKS 353.2 R2-93 Total Phosphorus as P, mg/l 3.71 09/15/14 ALB 365.4-74 Oil & Grease (HEM), mg/l <5.0 09/11/14 SEJ 1664B Phenol, ug/l <5 09/26/14 SEJ 420.1-78 Total Cyanide, mg/l <0.005 09/19/00 SEJ 450OCNE-99 Total Hardness, mg/l 69 09/11/14 TRB 2340C-97 Total Dissolved Residue, mg/l 319 09/11/14 KKF 2540C-97 ID#: 991 DATE COLLECTED: 09/09/14 DATE REPORTED : 10/28/14 VZZMlWN13 i�3'44F C ��oQo� c�� % ��c��u ooQ��c�d CLIENT: UNITED WATER (MAYODAN WWTP-PP) CLIENT ID: 991 NADINE BLACKWELL P.O. BOX 1279 ANALYST: MAO CLEMMONS, NC 27012 DATE COLLECTED: 09/09/14 DATE ANALYZED: 09/20/14 DATE REPORTED: 10/28/14 REVIEWED BY: VOLATILE ORGANICS EPA METHOD 624 PARAMETERS, ug/l Effluent 1. Chloromethane <10.00 2. Vinyl Chloride <10.00 3. Bromomethane < 10.00 4. Chloroethane < 10.00 5. Trichlorofluoromethane <5.00 6. 1,1-Dichloroethane <5.00 7. Methylene Chloride < 10.00 8. trans-1,2-Dichloroethene <5.00 9. 1,1-Dichloroethene <5.00 10. Chloroform <5.00 11. 1,1,1 -Trichloroethane <5.00 12. Carbon Tetrachloride <5.00 13. Benzene <5.00 14. 1,2-Dichloroethane <5.00 15. Trichloroethene <5.00 16. 1,2-Dichloropropane <5.00 17. Bromodichloromethane <5.00 18. 2-Chloroethylvinyl Ether <5.00 19. cis-1,3-Dichloropropene <5.00 20. Toluene <5.00 21. trans-1,3-Dichloropropene <5.00 22. 1,1,2 -Trichloroethane <5.00 23. Tetrachloroethene < 5.00 24. Dibromochloromethane 15.20 25. Chlorobenzene <5.00 26. Ethylbenzene <5.00 27. Bromoform 51.60 28. 1,1,2,2 -Tetrachloroethane <5.00 29. 1,3 -Dichlorobenzene < 5.00 30. 1,4 -Dichlorobenzene < 5.00 31. 1,2 -Dichlorobenzene < 5.00 32. Acrolein < 100.00 33. Acrylonitrile <50.00 Po�a��d - �! .-Z---77_ ._ .. •;to ms's; "Sa h^,� r ."i.'rd... .. 3. w r RO. BOX 7085, 114+OAKMONT DRIVE CLIENT: UNITED WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 REVIEWED BY: SEMIVOLATILE ORGANICS EPA METHOD 625 CLIENT ID: 991 756-6208 ANALYST: CHS DATE COLLECTED: 09/09/14 Page: 1 DATE EXTRACTED: 09/16/14 DATE ANALYZED: 09/24/14 DATE REPORTED: 10/28/14 PARAMETERS, ug/I Effluent 1. N-Nitrosodimethylamine <10.00 2. Phenol < 10.00 3. Bis (2 -Chloro ethyl) Ether <10.00 4. 2 -Chlorophenol < 10.00 S. 1,3 -Dichlorobenzene < 10.00 6. 1,4 -Dichlorobenzene < 10.00 7. 1,2 -Dichlorobenzene < 10.00 8. Bis(2-Chloroisopropyl) Ether <10.00 9. Hexachloroethane < 10.00 10. N-Nitrosodi-N-Propylamine <10.00 11. Nitrobenzene < 10.00 12. Isophorone < 10.00 13. 2-Nitrophenol < 10.00 14. 2,4 -Dimethylphenol < 10.00 15. Bis(2-Chloroethoxy) Methane <10.00 16. 2,4-Dichlorophenol <10.00 17. 1,2,4-Trichlorobenzene < 10.00 18. Naphthalene < 10.00 19. Hexachlorobutadiene < 10.00 20. 4-Chloro-3-Methylphenol <20.00 21. Hexachlorocyclopentadiene <10.00 22. 2,4,6 -Trichlorophenol < 10.00 23. 2-Chloronaphthalene < 10.00 24. Acenaphthylene < 10.00 25. Dimethylphthalate < 10.00 26. 2,6-Dinitrrotoulene < 10.00 27. Acenaphthene < 10.00 28. 2,4-Dinitrophenol < 50.00 29. 4-Nitrophenol < 50.00 30. 2,4-Dinitrotoluene < 10.00 31. Fludrene < 10.00 32. DiethyIphthalate < 10.00 33. 4-Chlorophenyl Phenyl Ether <10.00 34. 4,6-Dinitro-2-Methylphenol < 50.00 35. N-Nitrosodiphenylamine <10.00 36. 4-Bromophenyl Phenyl Ether <10.00 37. Hexachlorobenzene < 10.00 38. Pentachlorophenol <50.00 39. Phenanthrene < 10.00 40. Anthracene < 10.00 41. Di-N-Butylphthalate < 10.00 42. Fluoranthene <10.00 43. Benzidine < 100.00 44. Pyrene <10.00 45. Butylbenzylphthlate <10.00 46. Benzo[a]anthracene <10.00 47. 3,3-Dichlorobenzadine < 10.00 48. Chrysene <10.00 p CLIENT: UNITED WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 REVIEWED BY: SEMIVOLATILE ORGANICS EPA METHOD 625 CLIENT ID: 991 ANALYST: CHS DATE COLLECTED: 09/09/14 DATE EXTRACTED: 09/16/14 DATE ANALYZED: 09/24/14 DATE REPORTED: 10/28/14 Page: 2 PARAMETERS, ug/1 Effluent 49. Bis(2-Ethylhexyl)phthalate <20.00 50. Di-N-Octylphthalate <10.00 51. Benzo[b]Ruoranthene < 10.00 52. Benzo[k]fluoranthene <10.00 53. Benzo[a]pyrene <10.00 54. Indeno(1,2,3-C,d)pyrene < 10.00 55. Dibenzo[a,h]anthracene < 10.00 56. Benzo[g,h,i]perylene <10.00 57. 1,2-Diphenylhydrazine < 10.00 Page: 2 Flooh[OH&M Flo kvo-)u I'mmUd 1 UNITED WATER (MAYODAN WWTP-LTM) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS ,NC 27012 Pt ID#: 989 DATE COLLECTED: 09/10/14 DATE REPORTED : 10/08/14 REVIEWED BY: Orr 2014 Effluent Analysis Method PARAMETERS Date Analyst Code Total Cyanide, mg/1 <0.005 09/19/00 SEJ 450OCNE-99 Antimony, ug/l <3.0 10/03/14 LFJ EPA200.8 Arsenic, ug/l <5.0 09/15/14 MEL 311313-04 Beryllium, ug/l <1.0 09/17/14 LFJ EPA200.7 Cadmium, ug/l < 1.0 09/18/14 MEL 311313-04 Copper, ug/l 11 09/17/14 LFJ EPA200.7 Total Chromium, ug/l <5.0 09/17/14 LFJ EPA200.7 Lead, ug/l <5.0 09/17/14 MEL 311313-04 Molybdenum, ug/l <10 09/17/14 LFJ EPA200.7 Nickel, ug/l <10 09/17/14 LFJ EPA200.7 Selenium, ug/l <10 09/16/14 MEL 311313-04 Silver, ug/l < 1.0 09/17/14 LFJ EPA200.7 Thallium, ug/l < 1.0 10/03/14 LFJ EPA200.8 Zinc, ug/l 72 09/17/14 MTM 311113-99 Pt ID#: 989 DATE COLLECTED: 09/10/14 DATE REPORTED : 10/08/14 REVIEWED BY: Orr 2014 --A� nnual Monitoring and Pollutant Sc--,, Permit No. NCO021873 Outfall 001 Facility Name Mayodan WWTP ORC Jamie Whitten 12/8/2015 Phone 336-427-5733 Analytical Laboratory Environment One Month December Year 2015 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Ammonia (as N) Composite 350.1 0.02 <0.04 mg/1 1 Dissolved oxygen Composite 360.1 0 8.06 mg/l 1 Nitrate/Nitrite Composite 353.2 0.02 5.8 mg/l 1 Total Kjeldahl nitrogen Composite 351.2 0.25 0.93 mg/1 1 Total Phosphorus Composite 365.4 0.05 0.59 mg/l 1 Total dissolved solids Composite 2540C - 10 177 mg/1 1 Hardness Composite 2340C N/A 44 mg/l 1 Chlorine (total residual, TRC) Grab 4500c1g 0.012 34 mg/1 1 Oil and grease Grab 1664 A 5 <5 mg/l 1 Metals (total recoverable), cyanide and total phenols Antimony Composite 200.8 0.003 <0.003 mg/l 1 Arsenic Composite 200.8 0.005 <0.005 mg/1 1 Beryllium Composite 200.7 0.001 <0.001 mg/l 1 Cadmium Composite 3113B 0.001 0.002 mg/1 1 Chromium Composite 200.7 0.005 <0.005 mg/1 1 Copper Composite 200.7 0.01 <0.010 mg/1 1 Lead Composite 3113B 0.005 <0.005 mg/1 1 Mercury Composite 1631 0.001 0.0023 mg/l 1 Nickel Composite 200.7 0.01 <0.010 mg/1 1 Selenium Composite 3113B 0.002 <0.010 mg/1 1 Silver Composite 200.7 0.005 <0.005 mg/l 1 Thallium Composite 200.8 0.001 <0.001 mg/1 1 Zinc Composite 3113B 0.01 0.046 mg/l 1 Cyanide Grab 4500 CN E 0.005 <0.005 mg/l 1 Total phenolic compounds Grab 51OA/B 0.005 <0.005 mg/l 1 Volatile organic compounds Acrolein Grab 624 100 <100.00 ug/1 1 Acrylonitrile Grab 624 50 <50 ug/1 1 Benzene Grab 624 5 <5 ug/1 1 Bromoform Grab 624 5 5.8 ug/1 1 Carbon tetrachloride Grab 624 5 <5 ug/l 1 Chlorobenzene Grab 624 5 <5 ug/1 1 Chlorodibromomethane Grab 624 5 <5 ug/1 1 Chloroethane Grab 624 10 <10 ug/1 1 2-chloroethylvinyl ether Grab 624 5 <5 ug/1 1 Chloroform Grab 624 5 <5 ug/1 1 Dichlorobromomethane Grab 624 5 15.2 ug/1 1 1,1-dichloroethane Grab 624 5 <5 ug/1 1 1,2-dichloroethane Grab 624 5 <5 ug/1 1 Trans-1,2-dichloroethylene Grab 624 5 <5 ug/1 1 Form - DMR- PPA -1 Page 1 -` 4,nnual Monitoring and Pollutant Se--� Permit No. NC0021873 Month December Outfall 001 Year 2015 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Volatile organic compounds (Cont.) 1,1-dichloroethylene Grab 624 5 <5 ug/1 1 1,2-dichloropropane Grab 624 5 <5 ug/1 1 1,3-dichloropropylene Grab 624 5 <5 ug/l 1 Ethylbenzene Grab 624 5 <5 ug/1 1 Methyl bromide Grab 624 10 <10 ug/ 1 1 Methyl chloride Grab 624 5 <5 ug/1 1 Methylene chloride Grab 624 10 <10 ug/1 1 1,1,2,2 -tetrachloroethane Grab 624 5 <5 ug/1 1 Tetrachloroethylene Grab 624 5 <5 ug/1 1 Toluene Grab 624 5 <5 ug/1 1 1,1,1 -trichloroethane Grab 624 5 <5 ug/1 1 1,1,2 -trichloroethane Grab 624 5 <5 ug/1 1 Trichloroethylene Grab 624 5 <5 ug/1 1 Vinyl chloride Grab 624 10 <10 ug/1 1 Acid -extractable compounds P-chloro-m-creso Grab 625 10 <10 ug/1 1 2 -chlorophenol Grab 625 10 <10 ug/ 1 1 2,4-dichlorophenol Grab 625 10 <10 ug/1 1 2,4 -dimethylphenol Grab 625 10 <10 ug/1 1 4,6-dinitro-o-cresol Grab 625 50 <50 ug/1 1 2,4-dinitrophenol Grab 625 50 <50 ug/1 1 2-nitrophenol Grab 625 10 <10 ug/1 1 4-nitrophenol Grab 625 50 <50 ug/1 1 Pentachlorophenol Grab 625 50 <50 ug/1 1 Phenol Grab 625 10 <2 ug/1 1 2,4,6 -trichlorophenol Grab 625 10 <10 ug/1 1 Base -neutral compounds Acenaphthene Grab 625 10 <10 ug/1 1 Acenaphthylene Grab 625 10 <10 ug/1 1 Anthracene Grab 625 10 <10 ug/1 1 Benzidine Grab 625 100 <100 ug/1 1 Benzo(a)anthracene Grab 625 10 <10 ug/1 1 Benzo(a)pyrene Grab 625 10 <10 ug/1 1 3,4 benzofluoranthene Grab 625 10 <10 ug/l 1 Benzo(ghi)perylene Grab 625 10 <10 ug/1 1 Benzo(k)fluoranthene Grab 625 10 <10 ug/1 1 Bis (2-chloroethoxy) methane Grab 625 10 <10 ug/1 1 Bis (2-chloroethyl) ether Grab 625 10 <10 ug/1 1 Bis (2-chloroisopropyl) ether Grab 625 10 <10 ug/1 1 Bis (2-ethylhexyl) phthalate Grab 625 20 <20 ug/1 1 4-bromophenyl phenyl ether Grab 625 10 <10 ug/1 1 Butyl benzyl phthalate Grab 625 10 <10 ug/1 1 2-chloronaphthalene Grab 625 10 <10 ug/1 1 Form - DMR- PPA -1 Page 2 Annual Monitoring and Pollutant Sc - !Nn Permit No. NC0021873 } Month December Outfall 001 Year 2015 4-chlorophenyl phenyl ether Grab 625 10 <10 ug/1 1 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Base -neutral compounds (cont.) Chrysene Grab 625 10 <10 ug/1 1 Di -n -butyl phthalate Grab 625 10 <10 ug/l 1 Di-n-octyl phthalate Grab 625 10 <10 ug/l 1 Dibenzo(a,h)anthracene Grab 625 10 <10 ug/l 1 1,2 -dichlorobenzene Grab 625 10 <10 ug/l 1 1,3 -dichlorobenzene Grab 625 10 <10 ugll 1 1,4 -dichlorobenzene Grab 625 10 <10 ug/1 1 3,3-dichlorobenzidine Grab 625 10 <10 ug/1 1 Diethyl phthalate Grab 625 10 <10 ug/l 1 Dimethyl phthalate Grab 625 10 <10 ug/l 1 2,4-dinitrotoluene Grab 625 10 <10 ug/l 1 2,6-dinitrotoluene Grab 625 10 <10 ug/1 1 1,2-diphenylhydrazine Grab 625 10 <10 ug/1 1 Fluoranthene Grab 625 10 <10 ug/1 1 Fluorene Grab 625 10 <10 ug/1 1 Hexachlorobenzene Grab 625 10 <10 ug/ 1 1 Hexachlorobutadiene Grab 625 10 <10 ug/1 1 Hexachlorocyclo-pentadiene Grab 625 10 <10 ug/1 1 Hexachloroethane Grab 625 10 <10 ug/1 1 Indeno(1,2,3-cd)pyrene Grab 625 10 <10 ug/1 1 Isophorone Grab 625 10 <10 ug/l 1 Naphthalene Grab 625 10 <10 ug/1 1 Nitrobenzene Grab 625 10 <10 ug/1 1 N-nitrosodi-n-propylamine Grab 625 10 <10 ug/1 1 N-nitrosodimethylamine Grab 625 10 <10 ug/1 1 N-nitrosodiphenylamine Grab 625 10 <10 ug/1 1 Phenanthrene Grab 625 10 <10 ug/1 1 Pyrene Grab 625 10 <10 ug/ 1 1 1,2,4,-trichlorobenzene Grab 625 10 <10 ug/1 1 I certify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system to design to assure that qualified perdonnel properly gather and evaluat the information submitted. Based on my inquiry of the person or persons that manage the system, or those persons directly responsibel for gathering the information, the information submitted is , to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Form - DMR- PPA -1 Page 3 ' x 4' � Y. n r T. •^ _ '� , a p3t,�.,�.aiy"I�� - + ` r �' •� ' 'i.. � i " 4.%0.�'� � ' oil � yi `!y�h H , h. . 2f'! in.' . „j" a .. � "� •,""j«?' ^, ,i»� , p< ''S'y •� - _ __ ' 2'f< _ =� • ., �l�SY4. _ de � F+ !'m,'.. PARAMETERS y:. 'e+') , "F?.O BOX 7,095 'i 14,OAkM_ ONT�DRIVE _ _•`TraM41£ :P GREEN'V1LL`E. N.C: 27835-7085 AKS 350.1 R2-93 Total Kjeldahl Nitrogen as N,mg/1 0.93 12/14/15 RAJ 351.2 R2-93 SUEZ WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS ,NC 27012 ID#: 991 DATE COLLECTED: 12/08/15 DATE REPORTED : 01/04/16 REVIEWED BY: Effluent Analysis Method PARAMETERS Date Analyst Code Ammonia Nitrogen as N, mg/1 <0.04 12/10/15 AKS 350.1 R2-93 Total Kjeldahl Nitrogen as N,mg/1 0.93 12/14/15 RAJ 351.2 R2-93 Nitrate -Nitrite as N, mg/l 5.80 12/11/15 RAJ 353.2 R2-93 Total Phosphorus as P, mg/l 0.59 12/14/15 RND 365.4-74 Oil & Grease (HE", mg/l <5 12/11/15 SEJ 1664B Phenol, ug/l <5 12/18/15 SEJ 420.1-78 Total Cyanide, mg/1 <0.005 12/11/15 SEJ 450OCNE-99 Total Hardness, mg/l 44 12/14/15 KKF 2340C-97 Total Dissolved Residue, mg/l 177 12/10/15 MLH 2540C-97 Antimony, ug/l <3.0 12/22/15 LFJ EPA200.8 Arsenic, ug/l <5.0 12/22/15 MTM 3113B-04 Beryllium, ug/l < 1.0 12/21/15 LFJ EPA200.7 Cadmium, ug/l 2 12/21/15 MTM 3113B-04 Total Chromium, ug/l <5.0 12/17/15 LFJ EPA200.7 Copper, ug/l <10 12/17/15 LFJ EPA200.7 Lead, ug/1 <5.0 12/17/15 MTM 3113B-04 Nickel, ug/l <10 12/17/15 LFJ EPA200.7 Selenium, ug/1 <10 12/23/15 MTM 3113B-04 Silver, ug/l <5.0 12/17/15 LFJ EPA200.7 Thallium, ug/l < 1.0 12/22/15 LFJ EPA200.8 Zinc, ug/l 46 12/17/15 LFJ EPA200.7 ID#: 991 DATE COLLECTED: 12/08/15 DATE REPORTED : 01/04/16 REVIEWED BY: rawoblimW % 1• :+. +_ #Yf 1 ; h.�''j"'„, +i'` Y :#:� sa -,. .,: ,-y,:'t t..�o �` "N°'` :i ,f(•,r .� �rr^.e;T',`Y�r q <��.� •S- arz• ��`*Niyu�x``e'.''W,�;e � � 54�t�T•.:an'� Y, '�`>'LF� . -. _ � ��4� `fr w:,r� c s. .. P'0. BOX 7085, 1'14'OAKMONT DRIVE [ GREEN IL 1_EEN.0. 2;, 5-7085 CLIENT: SUEZ WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 REVIEWED BY: VOLATILE ORGANICS EPA METHOD 624 CLIENT ID: 991 (252) 756-62a8, .I ANALYST: MAO DATE COLLECTED: 12/08/15 DATE ANALYZED: 12/11/15 DATE REPORTED: 01/04/16 PARAMETERS, ug/1 Effluent 1. Chloromethane < 10.00 2. Vinyl Chloride < 10.00 3. Bromomethane < 10.00 4. Chloroethane < 10.00 5. Trichlorofluoromethane <5.00 6. 1,1-Dichloroethane <5.00 7. Methylene Chloride < 10.00 S. trans-1,2-Dichloroethene <5.00 9. 1,1-Dichloroethene <5.00 10. Chloroform <5.00 11. 1,1,1 -Trichloroethane <5.00 12. Carbon Tetrachloride <5.00 13. Benzene <5.00 14. 1,2-Dichloroethane < 5.00 15. Trichloroethene <5.00 16. 1,2-Dichloropropane < 5.00 17. Bromodichloromethane <5.00 18. 2-Chloroethylvinyl Ether <5.00 19. cis-1,3-Dichloropropene <5.00 20. Toluene <5.00 21. trans-1,3-Dichloropropene < 5.00 22. 1,1,2 -Trichloroethane <5.00 23. Tetrachloroethene < 5.00 24. Dibromochloromethane <5.00 25. Chlorobenzene < 5.00 26. Ethylbenzene <5.00 27. Bromoform 5.80 28. 1,1,2,2 -Tetrachloroethane <5.00 29. 1,3 -Dichlorobenzene <5.00 30. 1,4 -Dichlorobenzene < 5.00 31. 1,2 -Dichlorobenzene < 5.00 32. Acrolein < 100.00 33. Acrylonitrile <50.00 'dpoT& ..;r°�. f� >'4''.�- r a'�?�` s;.i � -- �.�«��,�,�,_.ai�>i�`;: .�=�,'��. T��ts�'�`4- `"i .n „��.v'� -i��;. •cE i-�'` 'tom ��_' `+'�_"+d- _ }n- 6�.s '7_� --� 3•xzi „�3. `y't. .. t' -5 ,G _•i- ^_ - ��. -�R�f. exp v�1•LX - - �'� CLIENT: SUEZ WATER (MAYODAN WWTP-PP) CLIENT ID: 991 NADINE BLACKWELL P.O. BOX 1279 ANALYST: CHS CLEMMONS, NC 27012 DATE COLLECTED: 12/08/15 DATE EXTRACTED: 12/14/15 DATE ANALYZED: 12/22/15 REVIEWED BY: DATE REPORTED: 01/04/16 SEMIVOLATILE ORGANICS EPA METHOD 625 Page: 1 PARAMETERS, ug/1 Effluent 1. N-Nitrosodimethylamine < 10.00 2. Phenol < 10.00 3. Bis(2-Chloroethyl) Ether <10.00 4. 2 -Chlorophenol < 10.00 5. 1,3 -Dichlorobenzene < 10.00 6. 1,4 -Dichlorobenzene < 10.00 7. 1,2 -Dichlorobenzene < 10.00 8. Bis(2-Chloroisopropyl) Ether <10.00 9. Hexachloroethane < 10.00 10. N-Nitrosodi-N-Propylamine < 10.00 11. Nitrobenzene < 10.00 12. Isophorone < 10.00 13. 2-Nitrophenol < 10.00 14. 2,4 -Dimethylphenol < 10.00 15. Bis(2-Chloroethoxy) Methane <10.00 16. 2,4-Dichlorophenol < 10.00 17. 1,2,4-Trichlorobenzene < 10.00 18. Naphthalene <10.00 19. Hexachlorobutadiene < 10.00 20. 4-Chloro-3-Methylphenol < 20.00 21. Hexachlorocyclopentadiene < 10.00 22. 2,4,6 -Trichlorophenol < 10.00 23. 2-Chloronaphthalene < 10.00 24. Acenaphthylene <10.00 25. Dimethylphthalate < 10.00 26. 2,6-Dinitrotoulene < 10.00 27. Acenaphthene < 10.00 28. 2,4-Dinitrophenol < 50.00 29. 4-Nitrophenol < 50.00 30. 2,4-Dinitrotoluene < 10.00 31. Fluorene < 10.00 32. Diethylphthalate < 10.00 33. 4-Chlorophenyl Phenyl Ether < 10.00 34. 4,6-Dinitro-2-Methylphenol < 50.00 35- N-Nitrosodiphenylamine < 10.00 36. 4-Bromophenyl Phenyl Ether < 10.00 37. Hexachlorobenzene < 10.00 38. Pentachlorophenol <50.00 39. Phenanthrene < 10.00 40. Anthracene < 10.00 41. Di-N-Butylphthalate < 10.00 42. Fluoranthene < 10.00 43. Benzidine < 100.00 44. Pyrene < 10.00 45. ButylbenzylphtWate < 10.00 46. Benzo[a]anthracene <10.00 47. 3,3-Dichlorobenzadine < 10.00 48. Chrysene < 10.00 Page: 1 % hgDpwaNd CLIENT: SUEZ WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 REVIEWED BY: SEMIVOLATILE ORGANICS EPA METHOD 625 CLIENT ID: 991 ANALYST: CHS DATE COLLECTED: 12/08/15 Page: 2 DATE EXTRACTED: 12/14/15 DATE ANALYZED: 12/22/15 DATE REPORTED: 01/04/16 PARAMETERS, ug/l Effluent 49. D-iakfng Aet�s SD: 3'/71'S� Gr':4 'a'',.= a'*.'{ "r.. ^'�`•s 'i"'. _ i" _y-�€„�4!" :�° �; .�"y .I�,- _ _.�� r:=� - ;�. ��,,., ''mss, .y�'.'uk,f c •_F- e. ±{. {` �„, �`';�,f..i=,: -f,... _r.>�; ;., ;: „., ,u:.: _s��` a"5-, �_ ; ,.r _ rt-.. ' '�3 ��:5�='. `�..�_ �� .�' - - ."'ria - - D7 ':�._'�..�y _ --;x•', ��'4 ;�>,•.. `,vr,� MaB tevht„e=�s�'Z X20 • '� ''-t`�' t4:; <a.i-.��-..�'�";'�C�:�,., `�Y � Yx.,� N 3F' . _ �,. . _ - � �, P',: ,•^.� -t �.,�.• _ - � _ Benzo[k]fluoranthene 1.14 <- 35, OAKNtONTDRIVE 53. Benzo[a]pyrene �... 'PH2 LMENVBOX'70 ILLE,&C. 27835=7085' r _'; � � �__ _' __. FA-X_(252j"_756=063 ==. CLIENT: SUEZ WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 REVIEWED BY: SEMIVOLATILE ORGANICS EPA METHOD 625 CLIENT ID: 991 ANALYST: CHS DATE COLLECTED: 12/08/15 Page: 2 DATE EXTRACTED: 12/14/15 DATE ANALYZED: 12/22/15 DATE REPORTED: 01/04/16 PARAMETERS, ug/l Effluent 49. Bis(2-Ethylhexyl)phthalate <20.00 50. Di-N-Octylphthalate < 10.00 51. Benzo[b]fluoranthene < 10.00 52. Benzo[k]fluoranthene < 10.00 53. Benzo[a]pyrene <10.00 54. Indeno(1,2,3-C,d)pyrene < 10.00 55. Dibenzo[a,h]anthracene < 10.00 56. Benzo[g,h,i]perylene <10.00 57. 1,2-Diphenylhydrazine < 10.00 P s U v 2 PO Box 1279 Clemmons, NC 27012 June 28, 2016 ATTN: Central Files Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 Dear Sirs, Enclosed is an amended Monthly Monitoring Report for the Town of Mayodan WWTP (NPDES Permit No. NC0021873) for March 2016. The report is being amended to include the Priority Pollutant Analysis. This data was not received when the report was mailed. We are sorry for any inconvenience this may have caused. If you have any questions or require additional information, please advise. Sincerely, GS/lm cc: Mr. Michael Brandt Mr. Jamie Whitten Annual Monitoring and Pollutant Scan Permit No. NCO021873 `Ij Outfall 001 Facility Name Mayodan WWTP ORC Jamie Whitten 3/15/2016 Phone 336-427-5733 Analytical Laboratory Environment One Month March Year 2016 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Ammonia (as N) Composite 350.1 0.02 0.32 mg/1 1 Dissolved oxygen Composite 360.1 0 7.08 mg/l 1 Nitrate/Nitrite Composite 353.2 0.02 0.1 mg/l 1 Total Kjeldahl nitrogen Composite 351.2 0.25 1.8 mg/1 1 Total Phosphorus Composite 365.4 0.05 2.56 mg/l 1 Total dissolved solids Composite 2540C 10 206 mg/l 1 Hardness Composite 2340C N/A 57 mg/l 1 Chlorine (total residual, TRC) Grab 4500c1g 0.012 41 mg/l 1 Oil and grease Grab 1664 A 5 <5 mg/1 1 Metals (total recoverable), cyanide and total phenols Antimony Composite 200.8 0.003 <0.003 mg/l 1 Arsenic Composite 200.8 0.005 <0.005 mg/1 1 Beryllium Composite 200.7 0.001 <0.001 mg/l 1 Cadmium Composite 3113B 0.001 <0.001 mg/l 1 Chromium Composite 200.7 0.005 <0.005 mg/l 1 Copper Composite 200.7 0.01 <0.010 mg/1 1 Lead Composite 3113B 0.005 <0.005 mg/1 1 Mercury Composite 1631 0.001 0.0035 mg/l 1 Nickel Composite 200.7 0.01 <0.010 mg/l 1 Selenium Composite 3113B 0.002 <0.010 mg/l 1 Silver Composite 200.7 0.005 <0.005 mg/l 1 Thallium Composite 200.8 0.001 <0.001 mg/1 1 Zinc Composite 3113B 0.01 0.065 mg/1 1 Cyanide Grab 4500 CN E 0.005 <0.005 mg/1 1 Total phenolic compounds Grab 51OA/B 0.005 <0.005 mg/l 1 Volatile organic compounds Acrolein Grab 624 100 <100.00 ug/1 1 Acrylonitrile Grab 624 50 <50 ug/1 1 Benzene Grab 624 5 <5 ug/1 1 Bromoform Grab 624 5 5.8 ug/1 1 Carbon tetrachloride Grab 624 5 <5 ug/1 1 Chlorobenzene Grab 624 5 <5 ug/1 1 Chlorodibromomethane Grab 624 5 <5 ug/1 1 Chloroethane Grab 624 10 <10 Ug/1 1 2-chloroethylvinyl ether Grab 624 5 <5 ug/1 1 Chloroform Grab 624 5 <5 ug/1 1 Dichlorobromomethane Grab 624 5 5.1 ug/1 1 1, 1 -dichloroethane Grab 624 5 <5 ug/1 1 1,2-dichloroethane Grab 624 5 <5 ug/1 1 Trans-1,2-dichloroethylene Grab j 624 j 5 j <5 1 ug/1 I1 Form - DMR- PPA -1 Page 1 .—Annual Monitoring and Pollutant Sca_ 1 Permit No. NC0021873 Outfall 001 Month March Year 2016 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Volatile organic compounds (Cont.) 1, 1 -dichloroethylene Grab 624 5 <5 ug/l 1 1,2-dichloropropane Grab 624 5 <5 ug/1 1 1,3-dichloropropylene Grab 624 5 <5 ug/1 1 Ethylbenzene Grab 624 5 <5 ug/1 1 Methyl bromide Grab 624 10 <10 ug/l 1 Methyl chloride Grab 624 5 <5 ug/1 1 Methylene chloride Grab 624 10 <10 ug/1 1 1,1,2,2 -tetrachloroethane Grab 624 5 <5 ug/1 1 Tetrachloroethylene Grab 624 5 <5 ug/1 1 Toluene Grab 624 5 <5 ug/1 1 1,1,1 -trichloroethane Grab 624 5 <5 ug/1 1 1,1,2 -trichloroethane Grab 624 5 <5 ug/1 1 Trichloroethylene Grab 624 J 5 <5 ug/1 1 Vinyl chloride Grab 624 10 <10 ug/1 1 Acid -extractable compounds P-chloro-m-creso Grab 625 10 <10 ug/1 1 2 -chlorophenol Grab 625 10 <10 ug/1 1 2,4-dichlorophenol Grab 625 10 <10 ug/1 1 2,4 -dimethylphenol Grab 625 10 <10 ug/1 1 4,6-dinitro-o-cresol Grab 625 50 <50 ug/1 1 2,4-dinitrophenol Grab 625 50 <50 ug/1 1 2-nitrophenol Grab 625 10 <10 ug/1 1 4-nitrophenol Grab 625 50 <50 ug/1 1 Pentachlorophenol Grab 625 50 <50 ug/1 1 Phenol Grab 625 10 <2 ug/1 1 2,4,6 -trichlorophenol Grab 625 10 <10 ug/1 1 Base -neutral compounds Acenaphthene Grab 625 10 <10 ug/1 1 Acenaphthylene Grab 625 10 <10 ug/1 1 Anthracene Grab 625 10 <10 ug/l 1 Benzidine Grab 625 100 <100 ug/1 1 Benzo(a)anthracene Grab 625 10 <10 ug/1 1 Benzo(a)pyrene Grab 625 10 <10 ug/1 1 3,4 benzofluoranthene Grab 625 10 <10 ug/1 1 Benzo(ghi)perylene Grab 625 10 <10 ug/l 1 Benzo(k)fluoranthene Grab 625 10 <10 ug/1 1 Bis (2-chloroethoxy) methane Grab 625 10 <10 ug/1 1 Bis (2-chloroethyl) ether Grab 625 10 <10 ug/1 1 Bis (2-chloroisopropyl) ether Grab 625 10 <10 ug/1 1 Bis (2-ethylhexyl) phthalate Grab 625 20 <20 ug/1 1 4-bromophenyl phenyl ether Grab 625 10 <10 ug/1 1 Butyl benzyl phthalate Grab 625 10 <10 ug/1 1 2-chloronaphthalene Grab 625 10 <10 ug/1 1 Form - DMR- PPA -1 Page 2 -,.Annual Monitoring and Pollutant Sce-n Permit No. NCO021873 i Outfall 001 Month March Year 2016 4-chlorophenyl phenyl ether Grab 625 10 <10 ug/l 1 Parameter Sample Type Analytical Method Quantitation Level Sample Result Units of Measurement Number of samples Base -neutral compounds (cont.) Chrysene Grab 625 10 <10 ug/1 1 Di -n -butyl phthalate Grab 625 10 <10 ug/l 1 Di-n-octyl phthalate Grab 625 10 <10 ug/l 1 Dibenzo(a,h)anthracene Grab 625 10 <10 ug/l 1 1,2 -dichlorobenzene Grab 625 10 <10 ug/l 1 1,3 -dichlorobenzene Grab 625 10 <10 ug/l 1 1,4 -dichlorobenzene Grab 625 10 <10 ug/l 1 3,3-dichlorobenzidine Grab 625 10 <10 ug/l 1 Diethyl phthalate Grab 625 10 <10 ug/l 1 Dimethyl phthalate Grab 625 10 <10 ug/1 1 2,4-dinitrotoluene Grab 625 10 <10 ug/1 1 2,6-dinitrotoluene Grab 625 10 <10 ug/1 1 1,2-diphenylhydrazine Grab 625 10 <10 ug/l 1 Fluoranthene Grab 625 10 <10 ug/1 1 Fluorene Grab 625 10 <10 ug/l 1 Hexachlorobenzene Grab 625 10 <10 ug/l 1 Hexachlorobutadiene Grab 625 10 <10 ug/l 1 Hexachlorocyclo-pentadiene Grab 625 10 <10 ug/1 1 Hexachloroethane Grab 625 10 <10 ug/l 1 Indeno(1,2,3-cd)pyrene Grab 625 10 <10 ug/1 1 Isophorone Grab 625 10 <10 ug/1 1 Naphthalene Grab 625 10 <10 ug/l 1 Nitrobenzene Grab 625 10 <10 ug/1 1 N-nitrosodi-n-propylamine Grab 625 10 <10 ug/l 1 N-nitrosodimethylamine Grab 625 10 <10 ug/l 1 N-nitrosodiphenylamine Grab 625 10 <10 ug/1 1 Phenanthrene Grab 625 10 <10 ug/l 1 Pyrene Grab 625 10 <10 ug/l 1 1,2,4,-trichlorobenzene Grab 625 10 <10 ug/l 1 I certify under penalty of law that this document and all attachments were prepared under my direction and supervision in accordance with a system to design to assure that qualified perdonnel properly gather and evaluat the information submitted. Based on my inquiry of the person or persons that manage the system, or those persons directly responsibel for gathering the information, the information submitted is , to the best of my knowledge and belief, true, accurate and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations. Form - DMR- PPA -1 Page 3 rwcIT00 DI R(W- T, halU SUEZ WATER (KAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS ,NC 27012 ID#: 991 DATE COLLECTED: 03/15/16 DATE REPORTED : 04/28/16 REVIEWED BY: Effluent Analysis Method PARAMETERS Date Analyst Code Ammonia Nitrogen as N, mg/l 0.32 03/17/16 RAJ 350.1 R2-93 Total Kjeldahl Nitrogen as N,mg/1 1.80 03/21/16 MF 351.2 R2-93 Nitrate -Nitrite as N, mg/l 0.10 03/18/16 AKS 353.2 R2-93 Total Phosphorus as P, mg/1 2.56 03/21/16 RAJ 365.4-74 Oil & Grease (BE", mg/1 <5 03/19/16 SEJ 1664B Phenol, ug/l <5 03/28/16 SEJ 420.1-78 Total Cyanide, mg/1 <0.005 03/22/16 SEJ 4500CNE-99 Total Hardness, mg/1 57 03/21/16 CMC 2340C-97 Total Dissolved Residue, mg/1 206 03/17/16 MCS 2540C-97 Antimony, ug/l <3.0 04/05/16 LFJ EPA200.8 Arsenic, ug/l <5.0 04/07/16 MTM 311313-04 Beryllium, ug/1 < 1.0 04/01/16 LFJ EPA200.7 Cadmium, ug/l <1.0 04/06/16 MTM 311313-04 Total Chromium, ug/1 < 5.0 04/01/16 LFJ EPA200.7 Copper, ug/l <10 04/01/16 LFJ EPA200.7 Lead, ug/l <5.0 03/28/16 MTM 311313-04 Nickel, ug/1 <10 04/01/16 LFJ EPA200.7 Selenium, ug/l <10 03/31/16 MTiVI 311313-04 Suver, ug/l <5.0 04/01/16 LFJ EPA200.7 Thallium, ug/1 < 1.0 04/05/16 LFJ EPA200.8 Zinc, ug/l 65 04/01/16 LFJ EPA200.7 ID#: 991 DATE COLLECTED: 03/15/16 DATE REPORTED : 04/28/16 REVIEWED BY: J; ERwFT(1Rm0 11, hcco)�Ned 31UE` _ 'PF CLIENT: SUEZ WATER (MAYODAN WWTP-PP) CLIENT ID: 991 NADINE BLACKWELL P.O. BOX 1279 ANALYST: MAO CLEMMONS, NC 27012 DATE COLLECTED: 03/15/16 DATE ANALYZED: 03/29/16 DATE REPORTED: 04/28/16 REVIEWED BY: 00, VOLATILE ORGANICS EPA METHOD 624 PARAMETERS, ug/1 Effluent 1. Chloromethane < 10.00 2. Vinyl Chloride < 10.00 3. Bromomethane < 10.00 4. Chloroethane < 10.00 5. Trichlorofluoromethane <5.00 6. 1,1-Dichloroethene < 5.00 7. Methylene Chloride < 10.00 S. trans-1,2-Dichloroethene <5.00 9. 1,1-Dichloroethene < 5.00 10. Chloroform <5.00 11. 1,1,1 -Trichloroethane <5.00 12. Carbon Tetrachloride <5.00 13. Benzene <5.00 14. 1,2-Dichloroethane < 5.00 15. Trichloroethene <5.00 16. 1,2-Dichloropropane <5.00 17. Bromodichloromethane <5.00 18. 2-Chloroethylvinyl Ether <5.00 19. cis-1,3-Dichloropropene <5.00 20. Toluene <5.00 21. trans-1,3-Dichloropropene < 5.00 22. 1,1,2 -Trichloroethane <5.00 23. Tetrachloroethene < 5.00 24. Dibromochloromethane 5.10 25. Chlorobenzene <5.00 26. Ethylbenzene < 5.00 27. Bromoform 7.40 28. 1,1,2,2 -Tetrachloroethane <5.00 29. 1,3 -Dichlorobenzene < 5.00 30. 1,4 -Dichlorobenzene < 5.00 31. 1,2 -Dichlorobenzene < 5.00 32. Acrolein < 100.00 33. Acrylonitrile <50.00 `1 CLIENT: SUEZ WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 i REVIEWED BY: SEMIVOLATILE ORGANICS EPA METHOD 625 CLIENT ID: 991 ANALYST: CHS DATE COLLECTED: 03/15/16 Page: 1 DATE EXTRACTED: 03/17/16 DATE ANALYZED: 04/24/16 DATE REPORTED: 04/28/16 PARAMETERS, ug/l Effluent 1. N-Nitrosodimethylamine < 10.00 2. Phenol < 10.00 3. Bis(2-Chloroethyl) Ether <10.00 4. 2 -Chlorophenol < 10.00 5. 1,3 -Dichlorobenzene < 10.00 6. 1,4 -Dichlorobenzene < 10.00 7. 1,2 -Dichlorobenzene < 10.00 8. Bis(2-Chloroisopropyl) Ether < 10.00 9. Hexachloroethane < 10.00 10. N-Nitrosodi-N-Propylamine < 10.00 11. Nitrobenzene < 10.00 12. Isophorone < 10.00 13. 2-Nitrophenol < 10.00 14. 2,4 -Dimethylphenol < 10.00 15. Bis(2-Chloroethoxy) Methane < 10.00 16. 2,4-DicWorophenol < 10.00 17. 1,2,4-Trichlorobenzene < 10.00 18. Naphthalene < 10.00 19. Hexachlorobutadiene < 10.00 20. 4-Chloro-3-Methylphenol <20.00 21. Hexachlorocyclopentadiene < 10.00 22. 2,4,6 -Trichlorophenol < 10.00 23. 2-Chloronaphthalene < 10.00 24. Acenaphthylene <10.00 25. Dimethylphthalate <10.00 26. 2,6-Dinitrotoulene < 10.00 27. Acenaphthene <: 0.00 28. 2,4-Dinitrophenol <50.00 29. 4-Nitrophenol < 50.00 30. 2,4-Dinitrotoluene < 10.00 31. Fluorene < 10.00 32. Diethylphthalate < 10.00 33. 4-Chlorophenyl Phenyl Ether < 10.00 34. 4,6-Dinitro-2-Methylphenol < 50.00 35. N-Nitrosodiphenylamine < 10.00 36. 4-Bromophenyl Phenyl Ether < 10.00 37. Hexachlorobenzene < 10.00 38. Pentachlorophenol <50.00 39. Phenanthrene <10.00 40. Anthracene < 10.00 41. Di-N-Butylphthalate < 10.00 42. Fluoranthene < 10.00 43. Benzidine < 100.00 44. Pyrene < 10.00 45. Butylbenzylphthlate < 10.00 46. Benzo(a]anthracene < 10.00 47. 3,3-Dichlorobenzadine < 10.00 48. Chrysene < 10.00 CLIENT: SUEZ WATER (MAYODAN WWTP-PP) NADINE BLACKWELL P.O. BOX 1279 CLEMMONS, NC 27012 REVIEWED BY: SEMIVOLATILE ORGANICS EPA METHOD 625 CLIENT ID: 991 ANALYST: CHS DATE COLLECTED: 03/15/16 Page: 2 DATE EXTRACTED: 03/17/16 DATE ANALYZED: 04/24/16 DATE REPORTED: 04/28/16 PARAMETERS, ug/l Effluent 49. Bis(2-Ethylhexyl)phthalate <20.00 50. Di-N-Octylphthalate < 10.00 51. Benzo[b]fluoranthene < 10.00 52. Benzo[k]fluoranthene < 10.00 53. Benzo[a]pyrene < 10.00 54. Indeno(1,2,3-C,d)pyrene < 10.00 55. Dibenzo[a,h]anthracene < 10.00 56. Benzo[g,h,i]perylene <10.00 57. 1,2-Diphenylhydrazine < 10.00 ATTACHMENT IV TOXICITY TESTING �t� - :f, '' Environmental Testing Solutions, Inc. Effluent Aquatic Toxicitv Resort Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Date: March 30, 2012 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testing of -ons, ni Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 7785 Samples- 120314.10, 120316.09 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Start time: End time: Raleigh, NC 27699-1621 1 03-14-12 1 03-21-12 1 1324 0820 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg(L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (eC): Sample 1 Sample 2 Control 03-12-12 03-14-12 =n"' Ro,c l2 5.0% 5.0% 24-h 24-h Control Control 33 - Z14 40 352 341 154.154, 159 2.000 1.09 7.53 5.7 5.8 { Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg(L): Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Start R-0 R.,c,,.l2 Start Reneaal l Ro,c l2 5.0% 5.0% 5.0% Control Control Control 7.50 7.57 7.64 753 7.62 7.71 7.64 7.65 7.63 7.53 7.64 7.57 7.9 7.9 7.7 7.6 7.6 7.8 7.8 7.8 7.8 7.7 7.6 7.8 25.2 24.9 24.9 24.7 24.6 E24.624.9 24.9 24.8 25.1 24.9 .7 Organism Number 2 d S F 7 R 9 10 11 12 m,eaa Number of Young Produced 128127 10 32 35 128127 130 29 128 129 131 29 31 27 28 7 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L Non -Parametric Analysis (if applicable) Effluent Percentage a.o°/ - -.---- --_°-- 1 1) 2 n r r, 7 R 9 10 11 17 Number of Young Produced 129 10 32 35 29 32 36 29 29 29 32 29 1 29.3 Adult Survival: (L)ive, (D)ead I L D L L LI L L L L L L L a -2.0 Effluent Percentage= reatment 3 Organisms 1 Z 3 4 J 6 i a Y 1l1 11 1a Mean (umber of Young Produced Ault Survival (L)ive (D)ead Effluent Percentage= 'reatment 4 Organisms 1 2 S 4 5 o i a 7 1v 11 lumber of Young Produced tdult Survival: (L)ive, (D)ead Effluent Percentage= 'reatment 5 Organisms 1 2 3 4 5 6 7 S 9 10 11 1c mean [umber of Young Produced Ault Survival: (L)ive, (D)ead % Reductic Effluent Percentage= 'reatment 6 Organisms 1 2 3 4 5 b / u 9 1U L1 1L Mean dumber of Young Produced idult Survival: (L)ive, (D)ead % Reductic Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% nwn fnrr„ AT -3 (8/91) Rev. 11195 Chronic Test Results Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV. 5.0 48 Hour Mortality No Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No cont. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Wilcoxon Two Normal Distribution: No Method: Shapiro-Wtlk's Statistic: 0.637 Critical Value: 0.884 Equal Variances: No Method: F -Test Statistic: 20.835 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Wilcoxon Two Sample Effluent % Rank Stun Critical Sum 5.0% 183.0 109.0 ' PO Box 7565 Asheville, NC 28802 f, Phone: (828) 350-9364 Fax: (828) 350-9368 Environmental Testing Solutions, Inc „r Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia Date: June 29, 2012 ' Facility: United Water Hydro Management NPDES #: NC 0021873 Pipe #: 001 County: Rockingham W` Mayodan WWTP Laboratory Performing Test: Environmental Test S lution In . ' Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: r �r9At. Project: 8074 Samples: 120613.04, 120615.04 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date. End date: Start time: End time: Raleigh, NC 27699-1621 06-13-12 1 06-20-12 1437 0744 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): WE =11 Rme l Renmal2 Start Rc-1I Reneml2 5.0% 5.0% 5.0% Control Control Control 7.68 7.67 7.79 7.69 7.74 7.66 r I I r 7.55 7.62 7.78 7.31 Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L), Initial Temp. (°C): Final Temp. (°C): Start Rme l Renmal2 Start Rc-1I Reneml2 5.0% 5.0% 5.0% Control Control Control 7.68 7.67 7.79 7.69 7.74 7.66 7.68 7.80 7.55 7.62 7.78 7.31 7.9 8.1 8.0 7.8 8.0 7.8 8.1 7.8 8.1 8.0 78 8.0 25.2 25.0 25.0 24.8 24.8 24.7 25.1 25.0 1 24.9 25.1 24.9 24.8 Organism Number 7 z d 5 F 7 R 9 10 11 12 Mean _.. . 11 --- NumberofYoun Produced 33 Number - 31 30 29 33 28 30 30 29 30 31 30 30.3 Adult Survival: Wive, (D)ead L L L L L L L L L L L L Effluent Percentage s.o% '2 n c 4 7 9. Q 10 11 12 mean Number of Young Produced 134 31 F29 136 36 134 37 33 37 35 31 33 33.8 Adult Survival: (L)ive, (D)ead I L L I L I L L L L L L L L L1 -11.5 RM -- Effluent Percentage= 'reatment 3 Organisms 1 2 3 4 o r a 7 r v Mean lumber of Young Produced Ault Survival: (L)ive, (D)ead Effluent Percentage= 'reatment 4 Organisms 1 2 3 4 5 b / a 9 iv it lumber of YounE Produced Ldult Survival: (L)ive, (D)ead Reductio Effluent Percentage= 'reatment 5 Organisms 1 2 3 4 5 o / a Y lv lumber of Young' kdult Survival: (L)ive, (D)ead % Reductit Effluent Percentage= 'reatment 6 Organisms 1 2 3 4 5 o i a 7 1v 1L r� aacaa lumber of Young Produced Ldult Survival: (L)ive, (D)ead Reductit Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQ form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality (%): 0.0 %Control with 3rd Broods: 100 Control Reproduction CV: 4.9 48 Hour Mortality Method: Control: 1 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method: Shapiro -Wilks Statistic: 0.959 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic. 2.905 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% 'W Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Date: September 24, 2012 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Start time: End time: Raleigh, NC 27699-1621 09-12-12 09-19-12 1442 0746 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg(L): Sample Temp. at Receipt (°C): Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/I.): Final DO (mg(L): Initial Temp. (°C): Final Temp. (°C): Start �QR, 1 Rencwal2 Start RenevalIr7.84 al �� 5.0% to �•:r Control Control k 7.49 7.46 7.71 7.81 7.837.67 L LI 7.71 7.67 Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/I.): Final DO (mg(L): Initial Temp. (°C): Final Temp. (°C): Start Renavall 1 Rencwal2 Start RenevalIr7.84 al 5.0% 5.0% 5.0% Control Control 30 7.49 7.46 7.71 7.81 7.837.67 L LI 7.71 7.67 7.60 7.69 I L 7.9 8.0 7.7 7.8 8.0 78 7.9 7.7 7.8 7.8 7.7U7.824.9 25.0 25.1 24.9 24.824.9 249 25.0 24.9 24.9 Organism Number t r z d S h 7 R 9 10 11 12 Mean 1 [1Number of YoungProduced 30 26 28 27 26 29 28 30 28 26 29 30 28 j Adult Survival: (L)ive, (D}ead L L L L LI L L L I L I L I L I L Effluent Percentage a.o% , 11 1 n c 4 '7 u o 1 n 11 17 Min Number ofYoun Produced 36 31 34 30 35 32 1 30 35 32 135 136 134 1 33.3 Adult Survival: (L)ive, (D)ead L L I L I L I L L I L I L I L I L L L -18.7 R.ir,nn Effluent Percentage= Treatment Organisms 1 2 3 4 --) b / a V iv 11 11- Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= Treatment 4 Organisms 1 G 5 4 D o i o 7 IV 11 Number of Youn Produced Adult Survival: Rive, (D)ead % Reduction Effluent Percentage= „ ," Treatment 5 Organisms 1 2 3 4 D o / a 7 iv 11 iL Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= „ ,n Treatment 6 Organisms 1 2 3 4j o / a y iv 11 iL Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Rrducean Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQ form AT -3 (8191) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 5.6 48 Hour Mortality Method: Control: 0 °f 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method: Shapiro-Wilk's Statistic: 0.928 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 2.031 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% 7L� ° Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Date: December 28, 2012 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testing of tions, I c. Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 8586 Samples: 121205.19, 121207.18 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: I End date: Start time: End time: Raleigh, NC 27699-1621 12-05-12 12-12-12 1458 0900 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3). Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample Sample2 Control 12-03-12 12-05-12 1_i_ �s7 Rm-sl2 5.0% 5.0% 24-h 24-h ?3 �.'- , t Control 7.54 31,34 `r�.- 4•", 42,40 413 401 154,151,148 0.299 0.210 7.44 5.4 4.031 - 1 n sib Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Start R. -I 1 Renmaal2 Stan Re -1I Rm-sl2 5.0% 5.0% 5.0% Control Control Control 7.54 7.37 7.71 7.76 7.71 7.77 7.58 7.69 7.63 7.44 7.67 7.63 7.8 8.3 8.1 8.0 8.0 7.9 7.9 8.2 7.9 8.0 8.0 7.8 24.9 24.8 24.8 24.7 24.8 25.0 24.8 25.0 25.1 24.8 24.8 24.9 Organism Number A- 5 F 7 R 9 10 11 12 Mean Number of Young Produced 130 132 134 130 31130 131 29 130 129 130 131 30.6 Adult Survival: (L)ive, (D)ead L I L I L I L L I L I L Lj L I L I L I L No Effluent Percentage 5.0% t 7 z A S F 7 R 9 10 11 12 Mean Number of Young Produced 34 37 30 33 30 33 33 132 32 30 33 29 32.2 Adult Survival: (L)ive, (D)ead L L L L L L L I L I L I L I L I L o -5.2 Effluent Percentage= 'reatment 3 Organisms 1 2 3 4 J b 7 d y 1v 11 1/- Mean lumber of Young Produced ldult Survival: (L)ive (D)ead Reducnc Effluent Percentage= 'reatment 4 Organisms 1 2 3 4 5 6 / S 9 1u 11 1c Mean [umber of Young Produced ,dult Survival: (L)ive, (D)ead Rexiucnc Effluent Percentage= 'reatment 5 Organisms 1 2 3 4 5 6 / b 9 IV ii 1/- Mean lumber of Young Produced Ault Survival: (L)ive, (D)ead Raduc4c Percentage= 'reatment 6 Organisms 1 2 3 4 7 b / a y 1v ii 1L Mean lumber of Young Produced ldult Survival: (L)ive, (D)ead EffluentFFFFI 1 1 1 Overall Analysis: Result: PASS LOEC: >5.0% NOEL: 5.0% ChV: >5.0% DWQ form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV. 4.5 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No cont. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastict Normal Distribution: Yes Method: Shapiro -Wilks Statistic: 0 945 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 2.566 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% j ! =.,mss. �.�. ".�S�,-rlt l•� - PO Box 7565 fl -D-3- Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia Date: April 01, 2013 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testi o ution , Ill . Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 8836 Samples: 130320.01, 130322.01 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Start time: End time: Raleigh, NC 27699-1621 03-20-13 03-27-13 1004 T 0810 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L. CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/Q: Sample Temp. at Receipt (°C): Test Information Treatment* Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Start I Renewal) 1 R.-al2 1 start R=mval l I R.-al2 5.0% 5.0% 5.0% Control Control Control 7.74 7.71 7.85 7.70 7.80 7.86 7.79 7.87 7.66 7.79 7.95 7.66 8.2 7.8 8.0 8 1 7.7 7.8 8.1 80 7.9 7.7 7.8 7.7 25.0 24.7 25.1 24.8 25.0 24.8 25.1 24.9 24.8 24.9 24.8 24.8 Organism Number c -, Q o 1f) 11 17 Mean Uontroi organisms Number of Young Produced 31 32 29 34 30 - 33 31 31 31 30 30 30 31.0 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L Effluent Percentage s.o il c � Q a in 11 17 nrPn� Treatment) Vr amsms Number of Young ProducedHL 1 I 28 30 - - 27 28 - 30 29 - 31 29 27 28 31 29.0 Adult Survival: (L)ive, (D)ead 12 IWC: 0 'of 12 Significant?: No Final Mortality Significant at: No cont. Critical Value: Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= t 1 i A 5 6 7 8 9 10 11 12 Mean reatment a vrgau,surs - lumber of Youn Produced adult Survival: (L)ive, (D)ead I % Redacn< Effluent Percentage to 11 12 Mtn reatment 4 Organisms 1 j 4 -- lumber of Youn Produced adult Survival: (L)ive, (D)ead =R4- % Raluc[it Effluent Percentage 1n 11 t7 Mc,n Treatments Vr antsms 3 Final Control Mortality (%): 0.0 %Control with 3rd Broods: 100 Control Reproduction CV: 4.6 48 Hour Mortality Method: Control: Number of Young Produced of 12 IWC: 0 'of 12 Significant?: No Final Mortality Significant at: No cont. Critical Value: Adult Survival: (L)ive, (D)ead Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% % Reducuon Effluent Percentage 10 11 t 2 Mc,n 'reatment 6 Organisms 1 L ' ' -- lumber of YounE Produced idult Survival: (L)ive, (D)ead % Reduce( Overall Analysis: Result: PASS LOEC: >5•0% NOEC:' 5.0% ChV: >5.0% DWQ form AT -3 (8191) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality (%): 0.0 %Control with 3rd Broods: 100 Control Reproduction CV: 4.6 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 'of 12 Significant?: No Final Mortality Significant at: No cont. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: HomoscedasticI Normal Distribution: Yes Method: Shapiro -Willes Statistic: 0.929 Critical Value: 0.884 Equal Variances. Yes Method: F -Test Statistic: 1.000 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% j AV J Environmental Testing Solutions, Inc. Effluent Aauatic Toxicitv Report Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: June 28, 2013 Facility: United Water Hydro Management NPDES #: NC -.0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testing 564ions, tn4 Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: tProject: 9059 Samples: 130619.22, 130621.02 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Start time: End time - Raleigh, NC 27699-1621 06-19-13 06-26-13 1014 0741 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp at Receipt (°C): Sample 1 Sample 2 Control 06-17-13 06-19-13 Start c � ^r 24-h 24-h. 5.0% 5.0% 5.0% 1005 40,40 323 152,151,157 E; 0.411 7.74 5.7 = "" Test Information Treatment: Initial pH (Sin: Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Organism Number Control nrQanisms 1 2 3 4 5 6 7 8 9 10 11 12 Mcv Start RenewalI Renewal2 Start Rmne 11 Rene 12 5.0% 5.0% 5.0% Control Control Control 7.73 7.72 7.74 7.65 7.63 7.85 7.74 7.83 7.79 7.67 7.81 7.57 8.0 7.9 7.7 8.0 7.8 7.7 8.1 7.7 7.9 8.0 7.8 7.8 25.2 25.3 25.2 24.6 24.8 24.7 24.9 24.9 24.9 24.7 24.7 24.9 Number of Young Produced 129 131133 35 131 1 30 130 130 133 129 131130 I L 132130.8 L Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L Critical Stun Effluent Percentage 5.0 *7 n. -..-k- 1 7 3 4 5 F 7 8 9 10 11 12 Mean Number of Young Produced 135 32 35 35 130 34 35 33 36 30 35 34 33.7 Adult Survival: (L)ive, (D)ead I L L L L' L L L L L L L L -9.5 Effluent Percentage= Treatment 3 Organisms 1 2 3 4 5 6 7 8 9 10 11 12 Mean dumber of Young Produced adult Survival: (L)ive (D)ead _ %ReLaic Effluent Percentage= reatment 4 Or anisms 1 2 3 4 5 6 7 8 9 1U 11 U Mean dumber of Young Produced ldult Survival: (L)ive, (D)ead Effluent Percentage= 'reatment 5 Organisms 1 2 3 4 S 6 / zs y lU 11 IL M= [umber of Young Produced ,dult Survival: (L)ive, (D)ead % Redmuc Effluent Percentage= reatment 6 Or anisms 1 2 3 4 5 6 / 1S V 1u 11 IL M_ lumber of Young Produced Ault Survival: (L)ive, (D)ead ReducGc Overall Analysis: Result: PASS LOEC: >5.0% NOEL: 5.0% ChV: >5.0% DWQ form AT -3 (8191) Rev. 11195 Chronic Test Results Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 4.4 48 Hour Mortality Yes Control: 0 of 12 IWC: 0 of 12 Sigmficant7: No Final Mortality Significant at: No conc. Reproduction Analyses ReproductionLOEC: >5.0% Reproduction NOEL: 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method: Shap'vo-Witk's Statistic: 0.924 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 2.206 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Stun 5.0% v Environmental Testing Solutions, Inc. Effluent Aquatic Toxicitv Report Form - Phase II Chronic CeriodaphKia dubia 1; PO Box 7565 Asheville, NC, --28802 Phone: (82--g),3,50-0364 Fax: (828) 350-9368 Date: October 09, 2013 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testing of s, c Comments: Signature of Operator in Responsible Charge: Project: 9281 Signature of Laboratory Supervisor: yR Samples. 130925.01, 130927.01 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center IStart date:E0-02-1: Start time: End time: Raleigh, NC 27699-1621 69-25-13 l0-02-13 Io25 o7zo Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample) Sample2 Control 09-23-13 09-25-13 Renewal2 5.0% 5.0% 5.0% Control Control Control 24-h 24-h '1 7.51 33,32 7.58 40,42 T 380 160,157,152 7.76 1.236 8.3 8.2 5.3 t: Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L)• Final DO (mg(L): Initial Temp. (°C): Final Temp. (eC): Start RenewalI Renewal Start RenewalI Renewal2 5.0% 5.0% 5.0% Control Control Control 7.48 7.49 7.63 7.51 7.56 7.58 7.59 7.73 7.66 7.53 7.76 7.66 8.3 8.2 7.9 8.0 8.0 7.9 8.0 8.0 8.1 7.9 8.2 24.9 25.2 25.2 24.8 24.7 24.8 24.8 24.8 24.7 EEI 24.7 organism Number I A 5 6 7 R 9 10 11 12 Mean Number of Young Produced 131 29 30 33 33 132 132 131133 134 32 31 1 34 31.8 Adult Survival: (L)ive,(D)eadl L L L L L L L I L I L L L I L 1 0.3 Effluent Percentage 5.0% 1 7 1 d. S r 7 R 9 10 11 12 Mean Number of Young Produced 31 1 28 133 1 34 30 134 134 130 32 30 31133 Control: 1 31.7 Adult Survival: (L)ive, (D)ead L L L L L L L I L I L L L I L 1 0.3 Effluent Percentage= 'reatment 3 Organisms 1 G S 4 5 o i o 7 l v 11 .� (umber of Young Produced Ault Survival: (L)ive Mead Re4uctl( Effluent Percentage= 'reatment 4 Organisms 1 2 3 4 5 o a 7 1v 11 1� Nina lumber of YoungProduced Ldult Survival: (L)ive, (D)ead %Reductio Effluent Percentage= - 'reatment 5 Organisms 1 2 s 4 o r o 3, 1v 11 lc lumber of Young Produced Ault Survival: (L)iv,, (D)ead % Rrd.ak Effluent Percentage= _ n n In 11 17 'reatment 6 Organisms 1 2 3 4 5 o i o 7 1v 11 .� [umber of YoungProduced Ault Survival: (L)ive, (D)ead Reductio Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQ form AT -3 (8191) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 4.5 48 Hour Mortality Method: Control: 0 of 12 IWC: 1 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method: Shapiro-Wilk's Statistic: 0.945 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 1.918 Critical Value: 5 320 Non -Parametric Analysis (if applicable) Method - Effluent % Rank Sum Critical Sum 5.0% Environmental Testing Solutions, Inc. f' { Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia ( PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: December 27, 2013 Facility: United Water Hydromanagement NPDES #: NC- 0029572 Pipe #: 001 County: Pitt Farmville WWTP Laboratory Performing Test: Environmental Testin t tions, Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 9457 Samples: 131204.12, I31206.18 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Starttime: End time: Raleigh, NC 27699-1621 12-04-13 12-11-13 1515 0857 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaC%): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt CC): Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. CC): Final Temp. CC): S., R=ulI Rencwal2 Stan 11--lI R-1 30 31 9o% 90% Control Control Control L 7.40 7.45 7.71 7.71 7.58 L 7.38 7.52 7.53 7.62 7.58 L24.6 8.3 8.3 8.0 8.0 7.9 8.3 8.4 8.2 8.1 8.2 25.1 25.0 2418 24.7 25.0 24.9 24.8 24.9 24.9 25.2 Organism Number 2 d S A 7 R 9 10 11 12 Mean Number of YounE Produced 3029 37 31 31 30 30 31 30 31 28129132130.2 38 E34 136 Adult Survival: (L ive, (D ead L L L L L L L L L L L L L Effluent Percentage 90 ----n n -.-.._a., r 7 Z d 5 A 7 R 9 10 11 12 duan Number of Youni ReproductionLOEC: 37 34 33 31 37 31 35 38 E34 136 1331 34.3 Adult Survival: (L)ive, (D)ead I L L L L .L L L L L I L I L 1 L 1O p13.5 ^ Effluent Percentage= Treatment 3 Organisms 1 2 j 4 o 0 / is Y IV 11 ra mm Number of Young Produced Adult Survival: (L)ive, (D ead Rcduclion Effluent Percentage= Treatment 4 Organisms 1 2 3 4 5 6 7 8 9 10 11 12 Mran Number of Young Produced Adult Survival: (L)ive, (D)ead R iuctic¢ Effluent Percentage= Treatment 5 Organisms 1 2 3 4 5 6 7 8 9 10 11 12 Mcan Number of Young Produced Adult Survival: (L)ive, (D)ead % Roduaion Effluent Percentage= Treatment 6 Organisms 1 2 3 4 5 6 7 8 9 10 11 12 Mea Number of Young Produced Adult Survival: L ive, Dead Rcducti¢n Overall Analysis: Result: PASS LOEC: >90% NOEC: 90% ChV: >90% DWQ form AT -3 (8/91) Rev.11195 Chronic Test Results ReproductionLOEC: Final Control Mortality No): 0.0 %Control with 3rd Broods: 100 Control Reproduction CV: 3.7 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No concentration Reproduction Analyses ReproductionLOEC: >90% Reproduction NOEC: 90% Overall Method: HomosmdastioT Normal Distribution: Yes Method: Shapiro -Wink's Statistic: 0.970 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 4.555 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent% Rank Sum Critical Sum 90% I � GE Environmental Testing Solutlons,Inc. Efi'^-^+ "^••.+o.. T.,vipifw 12annrt lPnrm _ Phace ii Chronic Ceriodaphnia dubia t 4 PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Date: January 06, 2014 Facility: United WaterHydroManagement NPDES #: NC -0021873 Pipe#: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testin o tions Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 9491 Samples: 131211.07,131213.06 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date; Starttime: End time: Raleigh, NC 27699-1621 12-11-13 12-18-13 1305 0744 Sample Information Collection start date: Grob: Composite duration: Alkalinity (mg1L CaCO3): Hardness (mg/L C8CO3): Conductivity (µmhoslem): Total residual chlorine (mg/L): sample Temp. at Receipt (°C): Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): S.,t 30 R...12 Start Rcnml lr 31 30 30 5.0% 28 5.0% Control Control Adult Survival: (L)ive, D)ead 7.61 r7.62 7.80 7.45 7.557.66 L L L 7.66 7.67 7.808.0 Non -Parametric Analysis (if applicable) Method: .. 8.1 7.6 7.6 8.0 8.1 8.1 8.0 8.1 8.0 24.9 25.0P24.8 24.7 25.0 25.0 9 24.8 24.9 24.9 24.8 Organism Number n a 'A a F 7 R 9 If) 11 12 M- Number of Young Produced 30 35 135130 %Control with 3rd Broods: 31 30 30 29 28 29 32 28 30.6 Adult Survival: (L)ive, D)ead L L L L L L L L L L L L Critical Value: Effluent Percentage S.o% e 4 7 u o In 11 17 Mean Number of Youn Produced 33 32 33 3133 %Control with 3rd Broods: - 33 31 34 30 29 28 33 31.7 Adult Survival: ive, D ead I L I L L L I L I L I L L L L L I L -3.5 %RM.dmn Effluent Percentage= „ ,n 'reatment 3 Organisms 1 2 3 4 D 0 i a 7 ry IL ,- m lumber of Young Produced Ault Survival: Wive (D)md L-LEEE Effluent Percentage= 'reatment 4 Organisms 1 2 3 4 5 6 / 8 y l u r a 14 m - [umber of YoungProduced Ault Survival: Wive, (D)ead Effluent Percentage reatment 5 Or anisms 1 2 3 4 5 6 7 8 9 10 11 12 nt as [umber of Young Produced Ault Survival: L ive, D jad % Red°°tip Effluent Percentage 'reatment 6 Or anisms -1 2 3 4 5 6 7 8 9 10 11 12 m= lumber of YoungProduced adult Survival: ive, D ead Raluca Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQformA?-3 (8191) Rev.11195 Chronic Test Results ReproductionLOEC: Final Control Mortality (%): 0.0 %Control with 3rd Broods: 100 Control Repmduction'CV: 7.7 48 Hour Mortality Method: Control: 0 of 12 IWC: o of 12 Significant7: No Final Mortality Significant at: Noconc. Reproduction Analyses ReproductionLOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method: Shap'vo-Wilk's Statistic: 0.949 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 1.575 Critical Value: 5320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% Environmental Testing Solutions, Inc_ -jn -Effluent Aquatic Toxicity Renort Form - Phase H Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: June 27, 2014 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Test' So tion , Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 9903 Samples. 140611.04, 140613.05 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Start time: End time: Raleigh, NC 27699-1621 06-11-14 1 06-18-14 1330 0830 Sample Information Collection start date: Grab: Composite duration - Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample 1 Sample 2 Control 06-09-14 06-11-14 P, R..I 2 5.0% 5.0% 24-h 24-h _ ' + *` , _ 34 40 387 398 152, 155, 160 0.627 1.000 ! 0.5 1.3 7.65 Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. (°C): Final Temp (°C): Start R. -al I R..e al Start R=wal I R..I 2 5.0% 5.0% 5.0% Control Control Control 7.61 7.79 7.59 7.70 7.66 7.47 7.76 7.58 7.58 7.65 7.61 7.53 7.9 8.2 8.0 7.9 7.7 7.6 7.8 8.0 8.1 7.7 7.7 7.6 24.9 25.2 25.0 24.7 25.1 24.8 25.0 25.0 25.0 24.8 25.0 25.1 Organism Number R d S F 7 R 9 10 11 12 Number of Young Produced 31 32 32 33 32 31 31 32 30 29 29 33 31.3 Adult Survival: (L)ive, (D)ead I L L L L L I L I L I L LL L L L Effluent Percentage 5.0% t z a S F 7 R 9 10 11 12 m - Number of Young Produced 130 31 30 35 29 30 30 L134 32 33 3331.6 of Adult Survival: (L)ive, (D)ead I L L L L I L I L I L L I L L L L o -1 1^ Effluent Percentage _ - ,n 11 11 reatment 3 Organisms 1 2 3 4 0 0 / o 7 ,v I, (umber of Young Produced dult Survival: (L)ive (D)ead "/o Keauctic Effluent Percentage= 'reatment 4 Organisms 1 L 3 4 0 0 / a 7 IV 11 r� Mia lumber of Young Produced adult Survival: (L)ive, (D)ead Effluent Percentage= 'reatment 5 Organisms 1 2 3 4 J 0 / 0 7 iv It is mcm (umber of Young Produced Ault Survival: (L)ive, (D)ead Reducdc Effluent Percentage= 'reatment 6 Organisms 1 G 3 4 0 0 / 0 7 ry r r ,I illi- lumber of Young Produced I I + ldult Survival: (L)ive, (Wead I I I f± Reductio Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQformAT--3 (8191) Rev. 11195 Chronic Test Results Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 4.3 48 Hour Mortality Yes Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastict Normal Distribution: Yes Method: Shapiro -Will's Statistic: 0.963 Critical Value: 0.884 Equal Variances. Yes Method: F -Test Statistic: 1.922 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% 7F10-' lip '' Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase I1 Chronic Ceriodaphnia dubia FU tsox /DOD Asheville, NC 28802 >, Phone: (828) 350-9364 Fax: (828) 350-9368 Date: September 24, 2014 Facility: United Water Hydro Management NPDES #: NC -0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testing do, c: Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 10105 Samples: 140910.06, 140912.06 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: Start time: End time: Raleigh, NC 27699-1621 09-10-14 09-17-14 1350 0827 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3)* Hardness (mg/I. CaCO3). Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (OC): Sample 1 Sample 2 Control 09-08-14 09-10-14 R-al2 5.0% 5.0% • 24-h 24-h &W- 7.52 7.63 34,34 7.46 jjjM 38,40 440 414 155, 157, 156 1.146 2.212 7.54 1.7 1 05 1 7.9 Test Information Treatment: Initial pH (SU): Final pH (SU), Initial DO (mg(L): Final DO (mg(L): Initial Temp. (nC): Final Temp. (nC): Start RennralI Ren -12 Start ReaewnlI R-al2 5.0% 5.0% 5.0% Control Control Control 7.52 7.63 7.63 7.46 7.57 7.62 7.65 7.66 7.58 7.86 7.66 7.54 7.9 80 1 7.9 7.8 7.8 7.8 8.0 7.9 7.6 80 8.0 7.6 25.1 25.0 24.8 24.7 24.8 24.8 25.2 25.] 25.1 25.1 24.8 25.2 Organism Number 7 3 4 5 6 7 8 9 10 11 12 Mean Number of Your Produced 31 28 29 130 129130 100 27 28130 4.4 129 127 130 29 0 Adult Survival: (L)ive, (D)ead I L L L I L I L I L L L I L I L I L I L I L Effluent Percentage s.o t o 1 I q A 5 F 7 R 9 10 11 12 Mean Number of Young Produced 34 134 135130 100 136134 4.4 131134 Yes 135 1311 34 281 33.0 Adult Survival: (L)ive, (D)ead I L I L I L I L I L I L I L I L I L I L I L L 1 -13.8 Effluent Percentage= Treatment 3 Organisms 1 L 3 4 0 / 8 Y 1V 11 1L Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= Treatment 4 Organisms 1 L S 4 D b / 8 7 1V 11 1L Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Effluent Percentage= Treatment 5 Organisms 1 2. 3 4 D O / 25 7 IV 11 1G Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Effluent Percentage= Treatment 6 Organisms 1 2 3 4 5 b 7 8 9 1V 11 1L Mean Number of Young Produced Adult Survival: (V)ive, Mead Overall Analysis: Result: PASS LOEC: >5•0% NOEC: 5.0% ChV: >5.0% DWQ form AT -3 (8191) Rev. 11195 Chronic Test Results Final Control Mortality (%): 1 0.0 %Control with 3rd Broods: 100 Control Reproduction CV: 4.4 48 Hour Mortality Yes Control: 0 of 12 IWC. 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEL: 5.0% Overall Method: Homoscedwtict Normal Distribution. Yes Method: Shapiro -Wilks Statistic: 0.908 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 3.556 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% C 'FTS 4 Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: December 22, 2014 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testi Solut' ns, In . Comments: Signature of Operator in Responsible Charge: ' Signature of Laboratory Supervisor: Project: 10289 Samples: 141203.13, 141205.12 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date- Start time: End time: Raleigh, NC 27699-1621 12-03-14 12-10-14 1354 1 0822 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg(L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample 1 Sample 2 Control 12-01-14 12-03-14 Renewal2 5.0% 5.0% Ow 24-h 24-h Control 7.20 7.23 30 7.05 7.15 40 310 317 152, 151, 158 <0.10 <0.10 7.13 1.0 0.5 FAMN Test Information Treatment Initial pH (SU): Final pH (SU): Initial DO (mg(L): Final DO (mg/1.): Initial Temp. (°C): Final Temp. (°C): Start RenewalI R. -I2 Stan I RenewalI Renewal2 5.0% 5.0% 5.0% Control Control Control 7.20 7.23 7.49 7.05 7.15 7.34 7.17 7.48 7.25 7.13 7.35 7.13 7.9 8.0 7.9 7.7 7.7 7.8 8.0 8.0 8.0 7.9 LE 25.1 25.1 25.0 24.8 24.8 24.9 25.0 253 25.0 25.1 24.9 24.9 Organism Number A S A 7 R 9 10 11 12 Mean Number of Youn Produced 29 31 28 30 30 30 30 32 30 283129 38 39 31 29 8 Adult Survival: (L)ive, (D)ead-I L I L I L I L I L I L I L I L I L ILI L I L L a 017.3 '-- Effluent Percentage 5.0 1 1) a A 5 F 7 R 9 10 11 12 Mran Number of YoungProduced 34 31 36 37 31 33 38 35 38 39 31 37 35.0 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L a 017.3 '-- Effluent Effluent Percentage= 'reatment 3 Organisms 1 L 3 4 D 0 1 a 7 lv 11 1L. Mean lumber of Young Produced Ldult Survival: (L)ive (D)ead i ttcaucuc Effluent Percentage= 'reatment 4 Organisms 1 2 3 4 5 6 / a 9 tv ii 1L. Mean lumber of Young Produced adult Survival: (L)ive, (D)ead % Reducu< Effluent Percentage= n ,n tt tit 'reatment 5 Organisms 1 2 3 4 o i a 7 lv 11 ,� Mean lumber of Young Produced l.dult Survival: (L)ive, (D)ead +7H�±i I I I % Rcducdc Effluent Percentage= 'reatment 6 Organisms 1 L 3 4 D 0 r a y IV 11 1L. Mean lumber of Young Produced Ault Survival: (L)ive, (D)ead %Rduc[i< Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQ form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC: in Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 4.0 48 Hour Mortality Method: Control: 0 1 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Heterosmdastict Normal Distribution: Yes Method: Shapiro -Willes Statistic- 0.957 Critical Value: 0.884 Equal Variances: No Method: F -Test Statistic- 6.128 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 50% LE r -rEnvironmental Testing Solutions, Inc t Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia I ,r. tk= PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: March 16, 2015 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Tes Solu ons, J -Jo Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 10483 Samples: 150304.10, 150306.09 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: I Start time: End time. Raleigh, NC 27699-1621 03-04-15 1 03-11-15 1 1327 0830 Sample Information Collection start date: Grab. Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/Q: Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Start Renewal l Rmmal2 Start Renewal i Reneaal2 5.0% 5.0% 7 ®® Control Control 7.59 7.57 7.71 7.58 7.80 7.81 7.63 7.81 7.63 7.62 7.83 7.57 7.8 7.9 8.0 Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/Q: Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Start Renewal l Rmmal2 Start Renewal i Reneaal2 5.0% 5.0% 5.0% Control Control Control 7.59 7.57 7.71 7.58 7.80 7.81 7.63 7.81 7.63 7.62 7.83 7.57 7.8 7.9 8.0 7.7 7.7 7.8 7.9 8.1 8.1 7.9 7.9 7.8 24.9 24.9 25.1 24.8 24.9 24.8 25.2 25.2 1 25.1 25.0 24.9 24.8 Organism Number A S C, 7 R 9 10 11 12 Mean Number of Young Produced 33 129128128130 30 - 30 - - 34 31 28 30 29 27 30 30 29 29 3 Adult Survival: (L)ive, (D)ead I L I L I L I L I L I L I L L L L L L o% --no Effluent Percentage 5.0°/ n I A c A 7 u Q in ii i? M- • 1 cauucu Number of Young; Produced 32 30 30 - 30 - - 34 31 31 33 35 35 31 32 32.0 Adult Survival: (L)ive, (D)ead L L L L L L L L L I L I L I L o% --no Effluent Percentage= reatment 3 Organisms 1 2 3 4 o / 0 7 1v 11 14 mean [umber of Young Produced Ault Survival: (L)ive (D)ead RA__ Effluent Percentage= 'reatment 4 Organisms 1 2 3 4 o / a y 1v 11 1c M - dumber of Young Produced adult Survival: (L)ive, (D)ead % ReducRt Effluent Percentage= n ,n tt 77 reatment 5 Or anisms 1 2 3 4 D o / 0 7 1„ . dumber of Young Produced adult Survival: (L)ive, (D)ead Reducti, Effluent Percentage= reatment 6 Or anisms 1 2 3 4 0 b / 8 7 1u 11 1c mean lumber of Youn Produced ldult Survival: (L)ive, (D)ead Relnctic Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQ form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC- Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 5.3 48 Hour Mortality Method: Control: 0 1 of 12 IWC: 0 of 12 Significant?' No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC- >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedasuct Normal Distribution: Yes Method: Shapiro -Will's Statistic: 0.925 Critical Value. 0.884 Equal Variances: Yes Method: F -Test Statistic: 1.448 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method - Effluent % Rank Sum Critical Sum 5.0% t, - ._ � _ x•3.1" PO Box 7.565 Asheville, NC 28802 Phone: (828) 356-9364 Fax: (828)350-9368 Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia Date: June 22, 2015 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP i Laboratory Performing Test: Environmental Testi So do Comments: Signature of Operator in Responsible Charge: �adib Signature of Laboratory Supervisor: Project: 10670 Samples: 150603.11, 150605.11 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date:End date: Start time: End time: Raleigh, NC 27699-1621 06-03-15 06 -10 -IS 1347 0927 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg(L CaCO3): Conductivity (pathos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg(L.): Final DO (mg/L.): Initial Temp. (°C): Final Temp. (°C): start Renewal Renewa12 stat[ Rene.vall Renen-alt 5.0% 50% 5.0% Control Control Control 7.66 7.75 7.68 7.66 7.72 7.57 7.73 7.69 7.68 7.70 7.67 7.69 8.0 7.9 8.0 8.0 7.8 7.6 7.9 8.0 7.9 7.7 7.8 7.7 25.0 25.1 24.8 24.8 24.9 24.8 25.1 24.8 24.8 25.1 25.1 248 Organism Number r n 5 A 7 R 9 10 11 12 Mean a.,v.u.. v■ v. Sa, Number of Young Produced 31 - 32 - 26 27 31 30 27 27 28 29 28 28 28 7 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L I L Effluent Percentage 5.0°/u A c 4 7 St Q 10 11 17 Mran 1I-CaLUICIlL f, Vl au■a■uo Number of Young Produced 32 29 130130 - - - 31 28 32 27 31 28 29 27 29.5 Adult Survival: (L)ive, Dead I L L I L I L I L I L I L I L I L I L I L I L -2.9 Method: Effluent % Rank Sum Critical Sum 5.0% % Reduction Effluent Percentage i n o n to 11 17 reatment 3 Organisms 1 L 3 4 j v Lumber of Young Produced Ldult Survival: (L)ive, (D)ead % Reducti< Effluent Percentage �� u q t n t t t 2 Mann 1 reatiucuL -t v■ a� Reproduction LOEC: - - - - Adult Survival: (I )ive, (D)ead 6.7 Number of Youn Produced Method: Adult Survival: (L)ive, (D)ead Reduction of 12 IWC: 0 Adult Survival: (L)ive, (D)ead 12 Significant?: Reduction Final Mortality Significant at: I No cone. Critical Value: 5.320 Reduction Effluent Percentage= c R o 10 11 17. Minn 1 reatment o yr alublua Number of Young Produced Reproduction LOEC: Final Control Mortality (%): 0.0 - - Adult Survival: (I )ive, (D)ead 6.7 48 Hour Mortality Method: Adult Survival: (L)ive, (D)ead Reduction of 12 IWC: 0 of 12 Significant?: Reduction Effluent Percentage tiz a In 11 17 Mran i reatment o yr aulau■a Number of Youn Produced Reproduction LOEC: Final Control Mortality (%): 0.0 - 100 Adult Survival: (I )ive, (D)ead 6.7 48 Hour Mortality Method: Control: Reduction Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: '5.0% DWQ form AT -3 (8/91) Rev. 17/95 Chronic Test Results Reproduction LOEC: Final Control Mortality (%): 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 6.7 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: I No cone. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method, Homoscedastic t Normal Distribution: Yes Method: Shapiro -Willes Statistic: 0.937 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 1.162 Critical Value: 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Sum Critical Sum 5.0% Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphuia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 Date: September 25, 2015 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1623 Mail Service Center I Start date: J End date: Start time: End time: Raleigh, NC 27699-1623 1 09-02-15 1 09-09-15 1223 1 0813 S I I f t. n Sam lei Sam le 2 Control amp a norma to p P Collection start date: 08-31-15 09-02-15 Test Information Grab: 5.0% Treatment Composite duration: 24-h 24-h Initial pH (SU): Alkalinity (mg/L CaCO3): 6.83 31 Final pH (SU): Hardness (mg/L CaCO3): 7.47 40 Initial DO (mg/L): Conductivity (µmhos/cm): 420 457 167, I54, I50 Final DO (mg(L): Total residual chlorine (mg/I.): <0.10 <0.10 1 8.1 Initial Temp. (°C): Sample Temp. at Receipt (°C): 1.4 2.0 Final Temp. (°C): swt RenewalI Renmal2 sunt Rennvwll Renewal 5.0% 5.0% 5.0% Control Control Control 7.27 6.83 7.13 7.29 7.18 7.47 7.02 7.19 7.01 7.15 7.38 7.19 7.9 8.0 1 8.1 7.8 7.9 8.0 8.0 8.2 7.8 7.9 8.0 25.0 25.1 24.9 24.8 J7725.0 25.2 24.9 24.8 25.0 25.1 Organism Number n.._.._..i n_,.....:....,� t 7 'A d S F 7 8 9 10 11 12 Mean Number of Young Produced 128 28 27 27 30 27 30 28 27 27 30 29 28 2 Adult Survival: (L)ive, (D)eadj_ L L L L L L L L L L L L Non -Parametric Analysis (if applicable) Effluent Percentages.o% e n S 4 7 R 0 10 11 12 M - Number of Youn Produced 30 30 28 31 29 29 32 33 28 3:0=30 48 Hour Mortality Method: 29.8 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L e 05.6 Effluent Percentage= Treatment 3 Organisms 1 2 .3 4 0 / a y lv 11 1/- Mean Number of Young Produced Adult Survival: (L)ive, (D)ead i % Reduction Effluent Percentage= Treatment 4 Organisms 1 L S 4 5 o i a 7 iv 11 1Z Mean Number of Yot Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= Treatment 5 Organisms 1 2 j 4 0 o 1 a 7 lv 11 r/- Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= Treatment 6 Organisms 1 2 3 4 o / 6 y IV 11 l/- Mean Number of Youna Produced Adult Survival: (L)ive, (D)ead Reduction Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWQformAT-3 (8191) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality (°/n)' 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 4.5 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 °f 12 Significant?: No Final Mortality Significant at: No cont. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC: 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method: Shapiro -Wilks Statistic: 0.964 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 1.825 Critical Value. 5.320 Non -Parametric Analysis (if applicable) Method: Effluent % Rank Stun Critical Stam 5.0% l; r E=1 ntal Testing Solutions, Inc Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: December 28, 2015 Facility: United Water Hydro Management NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testing of do Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 11099 Samples- 151209.12, 151211 13 flail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1623 Mail Service Center Start date: End date Start time: End time: Raleigh, NC 27699-1623 12-09-15 1 12-16-15 1 1437 0918 Sample Information Collection start date: Grab: Composite duration: Alkalinity(mg(L CaCO3): Hardness (mg(L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp at Receipt (°C): Sample 1 Sample 2 Control 12-07-15 12-09-12 Ren -l2 5.0% 5.0% 5.0% 24-h 24-h Control 7.82 V 34,33,33 7.87 7.71 40, 40, 40 271 292 vo, 1;2, ls4 <0.10 0.648 7.63 10 0.9 1 82 Test Information Treatment: Initial pH (SU)' Final pH (SU). Initial DO (mg/L): Final DO (mg(I.): Initial Temp. (°C): Final Temp. (°C): Start Renewal l Rm ..12 Start R. -i I Ren -l2 5.0% 5.0% 5.0% Control Control Control 7.82 7.67 7.70 7.87 7.71 7.74 7.75 7.77 771 7.69 7.73 7.63 8.4 1 8.2 1 82 7.8 7.7 77 7.8 7.9 8.0 8.0 7.8 7.8 24.8 25.1 25.1 249 247 249 24.9 24.9 252 24.9 24.9 24.7 Organism Number t d 5 r, 7 R 9 10 11 12 Mean Number of Young Produced 1 29 126127 1 32 126 1 28 25pM32 1 31.8 29 26 29Adult I L Survival: (L)ive, (D)ead L L L L L LL No L L L Critical Value: Effluent Percentage s.0 , z n c 4 7 R 9 10 11 12 Mcaa 1 a �4aaaac,aa v va Su Number of Young Produced 33 Effluent Percentage= - - - - 29 27 30 35 132 129 133 1 32 136 132 133 1 31.8 Adult Survival: (L)ive, (D)ead LI L L L L I L I L IL I L I L I L I L 1 -12.4 --- .--- EffluentPercentage= n to tt 17 Treatment 3 Organisms i 2 s 4 D o i o 7 ,v .. Number of Young Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= Treatment 4 Organisms 1 2 S 4 5 b i a 7 1v !I r/- mean Number of Young Produced Adult Survival: Wive, (D)ead Rcduumn Effluent Percentage= _ Treatment 5 Organisms 1 2 s 4 3 o i u iv ,. a Number of Young Produced Adult Survival: (L)ive, (D)ead Reduction Effluent Percentage= Treatment 6 Organisms 1 2 s 4 5 o i a 7 iv r i ra mean Number of Young Produced Adult Survival: (L)ive, (D)ead ^/.. RMlueuon Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWO form AT -3 (8/91) Rev. 11195 Chronic Test Result!8. Reproduction LOEC: Final Control Mortality (%): % Control with 3rd Broods. Control Reproduction CV: 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No cone. Reproduction Analyses Reproduction LOEC: >5 0% Reproduction NOEL: 5.0% Overall Method: Hotnoscedastic t Normal Distribution. Yes Method: Shapiro -Wilds Statistic: 0.966 Critical Value: 0 884 Equal Variances: Yes Method: F -Test Statistic: 1 275 Critical Value: 5.320 Non-Parametnc Analysis (if applicable) Method Effluent % Rank Sum Critical Sum 5.0% i V r v � 2.!il1 mT •r l Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia i, rr - PO,.B0 7565 Ashevi116; NC- 28802• Phone: (828)•350 -0364 - Fax: (828) 350-9368 Date: March 25, 2016 Facility: United Water EIydro Management NPDES #: NC -0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: EnvironmenATesti-Solns, c Comments: Signature of Operator in Responsible CharSignature of Laboratory Supervisor: Project: 11300 \ Samples. 160309 06, 160311.07 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Raleigh, NC 27699-16231 Sample Information Collection start date: Grab: Composite duration Alkalinity (mg/L CaCO,)' Hardness (mg/L CaCO3): Conductivity (µmhoslcm). Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample 1 Sample 2 Control 03-07-16 03-09-16 Rw ml2 5.0% 5.0% 5.0% 24-h 24-h Control 7.32 7.28 30, 31, 32 - _ 45, 42, 37 239 290 142152.156 <0.10 0 905 its - x°' , 0.4 0.4 8.0 Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg1L): Initial Temp- CC): Final Temp. CC): Startdate: End date: Starttime- End time. 03-09-16 03-16-16 1407 0654 I dart Re -I I Rcncnal 2 start Rcnewal I Rw ml2 5.0% 5.0% 5.0% Control Control Control 7.32 7.28 7.13 751 731 7.08 7.12 7.16 7.25 7.10 7.11 7.10 7.8 8.0 8.0 7.8 7.7 7.8 7.9 3.1 8.0 8.0 7.9 7.8 3 25.1 24.9 24.9 25.0 24.7 U24.9 24.7 25.1 24.8 24.7 25.1 Organism Number F 7 R 9 10 11 12 Mwn I--- Number of Young Produced 127 28 27 1 29 2627 29 2627 33 27 30 27 28 27.4 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L -14.6 %. RrinM1nn Effluent Percentage s.o/ I - I A S 4 7 R o 10 11 1'2 uen Number of Young Produced 33 32 30 31 28 29 34 33 34 30 31 32 31.4 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L -14.6 %. RrinM1nn Effluent Percentage= d 5 F 7 R 9 10 11 12 Mean • 'b» Reproduction LOEC- Final Control Mortality (%). 0.0 % Control with 3rd Broods' - Control Reproduction CV. 4.2 43 Hour Mortality Method Control 0 Number of Young Produced Number of Young Produced IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Statistic: 2.743 Critical Value- Adult Survival: (L)ive, (D)ead Non -Parametric Analysis (if applicable) Adult Survival: (L)ive, (D)ead Effluent % Rank Sum Critical Stun 5.0% R �ncnnn Effluent Percentage= reatment 4 Organisms 1 2 3 4 5 b i a 7 1 i t L Mean cumber of Young Produced .dult Survival: (L)ive, (D)ead %. Rcductii Effluent Percentage= n to tt 17 _ reatment 5 Organisms 1 L 3 4 [umber of Young Produced Ault Survival: (L)ive, (D)ead Reductii Effluent Percentage= n c 7 R Q 1(1 1 1 li Mn Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWO form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC- Final Control Mortality (%). 0.0 % Control with 3rd Broods' - Control Reproduction CV. 4.2 43 Hour Mortality Method Control 0 of Number of Young Produced IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Statistic: 2.743 Critical Value- 5.320 Non -Parametric Analysis (if applicable) Adult Survival: (L)ive, (D)ead Effluent % Rank Sum Critical Stun 5.0% %. Reducnan Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWO form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC- Final Control Mortality (%). 0.0 % Control with 3rd Broods' 100 Control Reproduction CV. 4.2 43 Hour Mortality Method Control 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No conc. Reproduction Analyses Reproduction LOEC- >5.0% Reproduction NOEC: 5.00 Overall Method: Homoscedasne t Normal Distribution: Yes Method Shapiro -Wilks Statistic: 0 944 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 2.743 Critical Value- 5.320 Non -Parametric Analysis (if applicable) Method, Effluent % Rank Sum Critical Stun 5.0% XV Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase II Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 Date: June 24, 2016 Facility: United Nater Hydro Management NPDES #: NC- 0021873 Pipe 9: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental TeX.- S ut1 ns, Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project- 11519 Samples. 160608.15, 160610.15 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Startdate: I Enddate- Starttime.End time - Raleigh, NC 27699-16231 1 06-08-16 06-15-16 151: 1 Oslo Sample Information Collection start date' Grab: Composite duration: Alkalinity (mg1L CaCO3): Hardness (mg/L CaCO3): Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample 1 Sample 2 Control 06-06-16 06-08-16 R-al2 5.0% 5.0% 5.0% 24.5-h 24.75-h ` 7.60 - _ 30, 30, 33 7.67 38, 36, 40 402 411 153. 149, 155 <0.10 <0.10 7.77 0.5 0.3 4 {` Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mglL): Final DO (mg/L): Initial Temp. (°C): Final Temp. CC): Start Renmval l Ren -12 Start R -at l R-al2 5.0% 5.0% 5.0% Control Control Control 7.60 7.62 764 7.67 7.72 7.76 7.73 7.61 765 7.72 7.77 7.64 7.9 7.9 3.0 7.9 7.8 7.3 8.2 8.0 7.9 7.9 7.9 A7.9 25 2 24.9 25.1 24.8 24.6 24.3 24.9 25 2 1 24.7 24.9 24.8 25.2 Organism Number t 7 _ A S (. 7 R 9 10 11 12 Mean Number of Youn,, Produced 27 26 25 27 25 26125129 29 30 26 28 2628 30 26 5 Adult Survival: (L)ie, (D)ead L L L L LLL L L L L L .L L L -14.5 Effluent PercentageEE] n c r 7 R Q In 11 12 Number of Young Produced 1 32 130 135 129131 26 29 33 29 30 30 30 30.3 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L -14.5 Effluent Percentage reatment 3 Organisms 1 i 4 o / 0 7 iv r 1 4 [umber of Young Produced .dult Survival: (L)ive (D)ead - -- % Reduelii Effluent Percentage= t, 1, reatment 4 Organisms 1 L 5 4 J 0 / b 7 1l/ Lk rG [umber of Young Produced .dolt Survival: (L)ive, (D)ead Effluent Percentage= 'reatment 5 Organisms 1 2 3 4 5 6 7 8 9 10 11 12 Mean [umber of Young Produced Ault Survival: (L)ive (D)ead Effluent Percentage= o n in 11 17 reatment 6 Organisms 1 2 .5 4 j o / o 7 v r lumber of Young Produced ITI�� Ault Survival: (L)ive Mead i. Rcducni Overall Analysis: Result: PASS LOEC: >J-0% NOEC: 5.0% ChV: >5.0% DWO form AT -3 (8/91) Rev. 11195 Chronic Test Results Reproduction LOEC: Final Control Mortality N: 0.0 % Control with 3rd Broods: 100 Control Reproduction CV: 5.0 48 Hour Mortality Method: Control: 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No cont. Reproduction Analyses Reproduction LOEC: >5.0% Reproduction NOEC. 5.0% Overall Method. Homoscedastic t Normal Distribution. Yes Method: Shapiro -Willes Statistic: 0.936 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 2.982 Critical Value- 5.320 Non -Parametric Analysis (if applicable) Method - Effluent °/ Rank Sum Critical Sum 50% a :1 PO Bos 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 E-mail: Jim@etsnclab.com j Environmental Testing Solutions, Inc. Date: June 24, 2016 Effluent Aquatic Toxicity Report Form - Chronic Fathead Minnow Multi -Concentration Test Facility: Mayodan WWTP NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Laboratory Performing Test: Environmental Testing of ' ns, n . .. Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: f Project: 11493 Samples: 160607.04, 160609 04, 160611.05 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date. End date: Start time I End time: Raleigh, NC 27699-1621 06-07-16 06-14-16 1242 1 1150 Control PH (SU): DO (mg/L): Temp. (°C): High Concent PH (SU). DO (mg/LY Temp (°C): Test Organisms Outside supplier: In-house Culture Begin hatch: 06-06-16 1600 End hatch: 06-07-16 0620 7.74 7.57 7.67 7 50 7.76 1 7.56 1 7.72 1 7 28 1 7.71 737 1 7.73 7.55 7.76 7.61 7.7 7.8 79 7.7 7.3 7.6 7.8 7.3 7.8 7.8 1 7.7 7.8 7.8 80 24.8 24 6 24.8 24.5 24.8 1 24.2 1 24.7 1 24.4 1 24.7 24.6 1 24.8 24.4 24.7 24.3 47.62 7.56 7.63 1 7.58 1 7.52 7.50 1 7.69 7.35 7.36 7.32 7.70 751 7.66 7.52 8.1 80 8.0 76.0 1 8.0 7.7 1 8.0 1 79 8.0 79 1 8.0 7.9 8.0 8.3 24.8 24.6 25.0 24.6 24.7 24.6 1 249 1 24.5 24.3 1 24.4 1 250 24.2 24.9 24.5 Sample Information Collection start date: Grab: Composite duration. Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3)- Conductivity (gmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample l Sample 2 Sample 3 1 Replicate number 06-05-16 06-07-16 06-09-16 >20% >20% 1 2 3 4 25-h 25-h Control Surviving number of larvae 10 10 1 10 10 Survival (%) 100.0 Organisms Original number oflarvae 10 10 10 10 1 Average wt (mg) 0.50$ Werghtlonginal (mg/larvae) 0.498 0.505 0.544 1 0.474 1 Average wt/ 0.505 surviving (mg) %Effluent Survivingnumber oflarvae 10 10 1 10 1 10 Original number of larvae 10 10 10 10 Survival (%) 100.0 Weight/original (mg/larvae) 1 0.487 1 0.520 0.499 0.518 Average wt (mg) 0.506 %Effluent ISurviving number of larvae 1 10 10 10 1 10 2.5 / Original number of larvae 10 10 10 1 10 Survival (%) F 100.0 Weight/original (mg/larvae) 0.423 0.513 0.504 1 0.534 Average wt (mg) 0.494 %Effluent I Surviving number of larvae 10 10 10 1 10 5.0 % Original number of larvae 10 10 10 10 Survival Weight(original (mgllarvae) 0.469 0.464 1 0.482 1 0.499 Average wt (mg) 0.479 % Effluent ISurviving number of larvae 10 1 10 1 10 11 10 DKI I Original number of larvae 10 1 10 10 10 Survival Weight/original (mg/larvae) 0.534 1 0.504 0.530 0.587 Average wt (mg) 0.539 %Effluent ISurviving number of larvae 10 10 10 10 20 % Original number of larvae 10 1010 10 Survival Weightloriginal (mg/larvae) 0.480 0 540 0.516 0.556 Average wt (mg) 0.523 Water Quality Data Control PH (SU): DO (mg/L): Temp. (°C): High Concent PH (SU). DO (mg/LY Temp (°C): Test Organisms Outside supplier: In-house Culture Begin hatch: 06-06-16 1600 End hatch: 06-07-16 0620 7.74 7.57 7.67 7 50 7.76 1 7.56 1 7.72 1 7 28 1 7.71 737 1 7.73 7.55 7.76 7.61 7.7 7.8 79 7.7 7.3 7.6 7.8 7.3 7.8 7.8 1 7.7 7.8 7.8 80 24.8 24 6 24.8 24.5 24.8 1 24.2 1 24.7 1 24.4 1 24.7 24.6 1 24.8 24.4 24.7 24.3 47.62 7.56 7.63 1 7.58 1 7.52 7.50 1 7.69 7.35 7.36 7.32 7.70 751 7.66 7.52 8.1 80 8.0 76.0 1 8.0 7.7 1 8.0 1 79 8.0 79 1 8.0 7.9 8.0 8.3 24.8 24.6 25.0 24.6 24.7 24.6 1 249 1 24.5 24.3 1 24.4 1 250 24.2 24.9 24.5 Sample Information Collection start date: Grab: Composite duration. Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3)- Conductivity (gmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample l Sample 2 Sample 3 1 Control 06-05-16 06-07-16 06-09-16 >20% >20% >20% >20% Vrsuallnsp. 24-h 25-h 25-h NgNM 89 67 69 30-33 I00 im 150 36-40 420 464 439 149-155 <010 <010 <o.10 0.3 0.4 2 1 Analyses Normal: Hom. Var. NOEC: LOEC: ChV: Method: Overall Analysis: Result: PASS LOEC: >20% NOEC: 20% ChV: >20% Survival Growth Yes Yes Yes Yes 20% 20% >20% >20% >20% >20% Vrsuallnsp. Dunnetfs Survival Growth % Effluent Critical Calculated Critical Calculated 1.25% 2.410 -0.034 25% 2 410 0.525 5.0% 2.410 1.195 10% 2 410 -1.497 2p% 2.410 -0.793 DWQ form AT -5 (8103) ` PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 E-mail: Jim@etsnclab.com Environmental Testing Solutions, Inc. Date: August 05, 2016 Effluent Aquatic Toxicitv Report Form - Chronic Fathead Minnow Multi -Concentration Test Facility: Mayodan WWTP NPDES 4: NC- 0021873 Pipe 9. 001 County: Rockingham Laboratory Performing Test: Environmental Testing of 'ons, , Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: r Project. 11617 Samples: 160719 02, 160721 02, 160723.02 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date: I Start time: I End time: Raleigh, NC 27699-1621 07-19-16 1 07-26-16 1 1240 1 1210 Control PH (SU): DO (mg/L): Temp (°C): High Concent PH (SU), DO (mg/L): Temp. (°C): Sample 2 1 Replicate number 2 3 4 Control Surviving number of larvae 10 10 10 10 Organisms Original number of larvae 10 10 10 10 110 Weight/original (mg/larvae) 0.598 0.617 1 0.711 1 0.606 Average wt (mg) F 0.701 494339 148-155 < 0 10 %Effluent Surviving number of larvae 10 10 10 10 Original number of larvae 10 10 10 1 10 Weightloriginal (mg/larvae) 1 0.696 1 0.735 0.703 0.670 %Effluent Surviving number of larvae 1 10 10 10 I10 EEOriginal number of larvae 10 10 10 10 Weight/original (mg/larvae) 1 0.757 1 0.753 1 0.770 1 0.741 % Effluent Surviving number of larvae 10 1 10 1 10 I10 EEIOriginal number of larvae 10 10 10 1 10 Weightionginal (mg/larvae) 0.702 0.697 0.681 1 0.697 % Effluent Surviving number of larvae 10 10 10 10 10% Ottginal number of larvae 10 10 10 10 Weight/original (mg/larvae) 0.681 0.679 0.707 0.668 % Effluent Surviving number oflarvae 10 10 1 10 10 20 % Original number of larvae 10 10 10 10 Weightloriginal (mg/larvae) 1 0.683 1 0.730 0.629 0.623 Water Quality Data Control PH (SU): DO (mg/L): Temp (°C): High Concent PH (SU), DO (mg/L): Temp. (°C): Survival (%) 100.0 Average wt (mg) 0.757 Survival (%) 100.0 Average wt (mg) 0.694 Survival (%) 100.0 Average wt (mg) 1 0.684 Survival (%) 100.0 Average wt (mg) 1 0.666 7 61 1 7.55 1 7.63 1 7 56 7.59 7.58 7.75 1 7.28 1 7 77 1 7.37 1 7.76 1 7.57 1 7.70 1 7.55 7.8 1 7.9 7.9 1 7.6 1 8.0 1 7.8 7.9 1 6.17.8 6.7 7.3 7.8 8.2 7 8 24 7 1 24.4 24.7 24.7 24.6 24.6 24.7 24.6 24.6 1 24.4 1 24.7 1 24.6 1 24.7 1 24.4 aL1U11 7.57 7 59 1 7.73 1 7 61 1 7 58 1 7 61 1 7.81 1 7.33 1 7.57 1 7.26 17 72 7.51 7 71 7.52 8.0 7.9 3.1 7.7 1 8.1 1 7.78 1 6.1 3.1 6.6 80 79 1 8.2 7.9 24.3 24.6 1 24.8 24.7 1 24 3 1 244-243 24.4 24.3 24.6 24.9 1 24.5 1 24.6 1 242 Sample Information Collection start date: Grab - Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3)' Conductivity (Irmhos/cm). Total residual chlorine (mg/L): Sample Temp at Receipt (°C): Sample I Sample 2 Test Organisms Survival (%) F100.0 Outside supplier: Average wt (mg) 0.633 In-house Culture Average wt / 0.633 Visual hasp surviving (mg) 25-h Begin hatch 07-18-16 1515 77 110 End hatch: 1 07-19-16 0545 Survival (%) F _10-0.0 58 Average wt (mg) F 0.701 494339 Survival (%) 100.0 Average wt (mg) 0.757 Survival (%) 100.0 Average wt (mg) 0.694 Survival (%) 100.0 Average wt (mg) 1 0.684 Survival (%) 100.0 Average wt (mg) 1 0.666 7 61 1 7.55 1 7.63 1 7 56 7.59 7.58 7.75 1 7.28 1 7 77 1 7.37 1 7.76 1 7.57 1 7.70 1 7.55 7.8 1 7.9 7.9 1 7.6 1 8.0 1 7.8 7.9 1 6.17.8 6.7 7.3 7.8 8.2 7 8 24 7 1 24.4 24.7 24.7 24.6 24.6 24.7 24.6 24.6 1 24.4 1 24.7 1 24.6 1 24.7 1 24.4 aL1U11 7.57 7 59 1 7.73 1 7 61 1 7 58 1 7 61 1 7.81 1 7.33 1 7.57 1 7.26 17 72 7.51 7 71 7.52 8.0 7.9 3.1 7.7 1 8.1 1 7.78 1 6.1 3.1 6.6 80 79 1 8.2 7.9 24.3 24.6 1 24.8 24.7 1 24 3 1 244-243 24.4 24.3 24.6 24.9 1 24.5 1 24.6 1 242 Sample Information Collection start date: Grab - Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3)' Conductivity (Irmhos/cm). Total residual chlorine (mg/L): Sample Temp at Receipt (°C): Sample I Sample 2 Sample 3 1 Control 07-17-16 07-19-16 07-21-16 >20% >20% >20% >20% Visual hasp 24-h 25-h 24-h -2.178 77 110 65 32,33 60 60 58 40,40 449 494339 148-155 < 0 10 < 0.10 < 0.10 5.3 0.9 5.5 Analyses Normal: Hom. Var. NOEC• LOEC- ChV: Method: Overall Analysis: Result: PASS LOEC: >20% NOEC: 20% ChV: >20% DWO farm AT -5 (8/03) Survival Growth Yes Yes Yes Yes 20% 20% >20% >20% >20% >20% Visual hasp Dunnett's Survival Growth % Effluent Critical Calculated Critical Calculated 1.25% 2.410 -2.919 2.5% 2.410 -5301 5.0% 2.4 L0 -2.629 10% 2.410 -2.178 20% 2 410 -1.427 PO Box 7565 man Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828) 350-9368 E-mail: Jim@etsnclab.com Environmental Testing solutions, Inc. Date: September 30, 2016 Effl,tent Aquatic Toxicity Report Form - Chronic Fathead Minnow Multi -Concentration Test Facility: Mayodan WWTP NPDES 9: NC- 0021873 Pipe #: 001 County: Rockingham Laboratory Performing Test: Environmental Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: /-/� Comments: Project: 11739 Samples. 160913E�1�160917.03 Mail Original To: North Carolina Department of Environment and Natural Resources Surviving number of larvae 10 DWQ/ Environmental Sciences Branch 10 10 7.47 100.0 1621 Mail Service Center Original number of larvae10 7.52 Start date: End date: Start time: End time - Raleigh, NC 27699-1621 10 Survival (%) 09-13-16 09-2046 1 1210 1123 Replicate number Weightloriginal (mg/larvae) 0.553 0.433 1 0.512 1 2 3 4 0.496 7.9 Test Organisms Control Surviving number of larvae 10 10 10 10 1 Survival (%) 100.0 Outside supplier: Organisms Original number of larvae 10 10 10 1 10 Average wt (mg) 1 0.511 1 In-house Culture Original number of larvae Weightloriginal (mg/larvae) 0.501 0.443 0.559 0.534 Average wt/ surviving (trig) 0.511 Begin hatch: 09-12-16 1450 Weight/original (mg/larvae) 10 10 1 10 11 10 0.510 I 0.502 End hatch: 09-I3-16 0610 % Effluent E1.25 % Surviving number of larvae Original number of larvae 10 10 10 10 Survival Weight/onginal (mg/larvae) 0.539 0.570 0.593 0.561 Average wt (mg) 0.566 ---T- 10 % Effluent Surviving number of larvae 10 10 10 10 7.47 100.0 7.75 Original number of larvae10 7.52 10 10 10 Survival (%) 1150 79 Weightloriginal (mg/larvae) 0.553 0.433 1 0.512 0.487 Average wt (mg) 0.496 7.9 7.6 7.9 7.9 24. %Effluent Surviving number of larvae 10 10 1 10 10 24.4 100.0 S.0 % Original number of larvae 10 10 10 10 Survival (%) Weight/original (mg/larvae) 0.500 0.510 I 0.502 0.519 Average wt (mg) 0.508 % Effluent Surviving number oflarvae 10 10 ---T- 10 10 100.0 (0 % E Original number of larvae 10 10 10 10 Survival (%) Weight/original (mg/larvae) 0.$31 0.$29 1 0.502 0.498 1 Average wt (mg) 0315 % Effluent 100.0 Surviving number of larvae 10 10 10 10 F20% Original number of larvae 10 10 10 10 Survival (%) Weightloriginal (mg/larvae) 0.566 0.497 0.527 0.534 Average wt (mg) 0.531 Water Quality Data _ Control PH (SU): DO (mg/L)- Temp. (°C): High Concent pH (SU): DO (in Temp. (°C): 7.6M124.6 Sample 2 7.61 739 7.60 7.35 7.47 7.25 7.75 7.15 7.52 7.42 7.44 7.36 7 9 1150 79 77 7.9 7.5 7.9 72 7.6 7.5 7.9 7.6 7.9 7.9 24. < 0 10< 247 242 24.7 24.6 24 3 24.4 1 24.8 1 24.7 24.8 244 1 24.3 1 24.6 -auun 7.45 7.51 7.64 7 43 7.35 7.35 749 7 17 7.54 7.03 7.40 7.35 7.53 7.31 8.0 7.7 7.8 7.7 8.1, 7.7 1 7.9 7.3 7.8 6.9 80 1 7.6 1 7.8 8 l 24.3 24.5 24.8 1 24.4 24.6 24.4 24.7 246 25.0 24.4 1 24.9 1 24.7 1 25.0 1 24 3 Sample Information Collection start date: Grab. Composite duration: Alkalinity (mg/L CaCO3). Hardness (mg/L CaCO3): Conductivity (pmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C): Sample 1 Sample 2 Sample 3 1 Control - 09 -11-16 20% 20% >20% >20% >20% >20% Visuallnsp. 24-h P427424 1150 60 2p% 2.410 2-34 71 0-42 411 -160 <0.10 < 0 10< 0.10 12 1 2.0 Analyses Normal: Hom. Var. NOEC: LOEC- ChV: Ylethc d - Overall Analysis: Result: PASS LOEC: >20% NOEC: 20% ChV: >20% DWO form AT -5 (8/03) Survival Growth Yes Yes Yes Yes 20% 20% >20% >20% >20% >20% Visuallnsp. Dunnetts Survival Growth Effluent Critical Calculated Critical Calculated 1 25% 2 410 -2.374 2.5% 2.410 0.612 5.0% 2.410 0.118 10% 2.410 -0.193 2p% 2.410 -0831 F`7 r� z' Environmental Testing Solutions, Inc. Effluent Aquatic Toxicity Report Form - Phase R Chronic Ceriodaphnia dubia PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Far: (828)350-9368 Date: September 30, 2016 Facility: SUEZ NPDES 9: NC- 0021873 Pipe #: 001 County: Rockingham Mayodan WWTP Laboratory Performing Test: Environmental Testi So tion In Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project- 11758 Samples: 160914.09, 160916.09 Mail Original To: North Carolina Department of Environment and Natural Resources DWQ/ Environmental Sciences Branch 1621 Mail Service Center Start date: End date- Start time: End time - Raleigh, NC 27699-16231 09-14-16 09-21-16 1228 0743 Sample Information Collection start date. Grab: Composite duration: Alkalinity (mg/L CaCO3): Hardness (mg/L CaCO3)- Conductivity (µmhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (aC): Sample 1 Sample 2 Control 09-12-16 09-14-16 Renewal 5.0% 5.0% 5.0% 24-h 24-h Control ' ;.. 755 32,34 7.61 7.47 41,40 434 432 158. 160, 156 <0.10 <0 10 ' 04 1.1 7.7 Test Information Treatment: Initial pH (SU): Final pH (SU): Initial DO (mg/L): Final DO (mg/L): Initial Temp. (°C): Final Temp. (°C): Organism Number CnntrnlOraanisms 1 2 3 4 5 6 7 8 9 10 11 12 Mean Start Renewal t Renewal Start Renewal I Renewal 5.0% 5.0% 5.0% Control Control Control 7.52 755 7.48 7.61 7.47 7.44 759 7.52 7.50 7.61 7.57 7.42 8.0 8.0 7.7 7.9 7.9 7.9 7.9 7.7 7.9 7.9 7.8 7.9 24.7 24.9 248 24.7 24.7 1 24.8 24.9 252 25.1 25.0 25.0 25.1 Number of Young Produced 1 32 131127 129 131130 128 130 28 31126 33 3029 29.1 29.5 Adult Survival: (L)ive, (D)ead L L L L L L L L L L L L Effluent PercentageEE] T-fmant 2 Ol aaniemc 1 7 4 5 6 7 R 9 10 11 12 Mean Number of Young Produced 130 126 128 128 28 128 128 32 30 28 33 30 29.1 Adult Survival: (L)ive, (D)ead I L I L I L I L L I L I L L L L L L 1.4 Effluent Percentage= Treatment 3 Organisms 1 2 3 4 5 6 7 8 V IU 11 12 Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Effluent Percentage= Treatment 4 Organisms 1 2 3 4 5 6 / S y lU 11 ld Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Effluent Percentage= Treatment 5 Organisms 1 2 3 4 5 6 / s Y IU Ll 1 Z Mean Number of Young Produced Adult Survival: Wive, (D)ead Red -inn Effluent Percentage= Treatment 6 Organisms 1 2 3 4 5 6 7 8 y IU 11 12 Mean Number of Young Produced Adult Survival: (L)ive, (D)ead Overall Analysis: Result: PASS LOEC: >5.0% NOEC: 5.0% ChV: >5.0% DWO form AT -3 (8/91) Rev. 11195 Chronic Test Results Final Control Mortality (%): 0.0 % Control with 3rd Broods. 100 Control Reproduction CV: 6.0 48 Hour Mortality Yes Control- 0 of 12 IWC: 0 of 12 Significant?: No Final Mortality Significant at: No cont. Reproduction Analyses Reproduction LOEC' >5.0% Reproduction NOEC. 5.0% Overall Method: Homoscedastic t Normal Distribution: Yes Method Shapiro-Wilk's Statistic: 0.971 Critical Value: 0.884 Equal Variances: Yes Method: F -Test Statistic: 1 226 Critical Value: 5.320 Non -Parametric Analysts (if applicable) Method Effluent % Rank Sum Critical Sum 5.0% {.• �'Jfluent Toxicity Report Form - Chronic Pass/Fail and Acute" C50 Date: 09/29/16 ,3cility: RAMSEUR WWTP NPDES#: NC0026565 Pipe#: 001 County: RAIVDOLPH �fLaboratory Performing es ME ITE H�LABS, INC. � � Comments X Signature of Ope a i poyisible Cilarge X Signature of La ra ory ervisor * PASSED: -10.17% Reduction Work order: Environmental Sciences Branch MAIL ORIGINAL TO: Div. of Water Quality N.C. DENR 1621 Mail Service Center Raleigh, North Carolina 27699-1621 forth Carolina Ceriod.apnnia Chronic Pass/Fail Reproduction Toxicity Test :ONTROL ORGANISMS 1 2 3 4 5 6 7 8 9 10 11 12 # Young Produced II20I20I18I20I19I20I21I15I20I20I22I21 Adult (L)ive (D)ead IIL IL IL IL IL IL IL IL IL IL IL IL affluent %: 6% 'REATMENT 2 ORGANISMS 1 2 3 4 5 6 7 8 9 10 11 12 Control CV 9.027% ## Young Produced 15 24 22 22122121 22 25 22 22 22 21 % control orgs producing 3rd brood Adult (L) ive (D) ead L IL L L L L L L IL L L L 100% Chronic Test Results Calculated t = Tabular t = % Reduction = -10.17 % Mortality Avg.keprod. 0.00 19.67 Control Control 0.00 21.67 Treatment 2 Treatment 2 PASS FAIL X Check One 1st sample 1st sample 2nd sample Complete This For Either Test pH Test Start Date: 09/21/16 Control 8.04 8.14 7.91 8.24 8.11 8.05 Collection (Start) Date Sample 1: 09/19/16 Sample 2: 09/21/16 Treatment 2 8.03 8.18 8.02 8.11 7.92 8.03 Sample Type/Duration 2nd 1st PIF s s s Grab Comp. Duration D t e t e t e I S S a n a n a n Sample 1 X 24.0 hrs L A A r d r d r d U M M t t t Sample 2 X 24.0 hrs T P P lst sample 1st sample 2nd sample D.O. Hardness (mg / 1 ) 48 Control 7.37 7.74 7.40 7.48 7.50 7.52 Spec. Cond.(gmhos) 171 499 509 Treatment 2 7.45 7.72 6.70 7.39 7.40 7.54 Chlorine (mg/1) ........ <0 .1 <0 .1 LC50/Acute Toxicity Test Sample temp. at receipt(°C) ........ 1.4 1.3 (Mortality expressed as combining replicates) N tePlease o . Concentration Complete This Section Also Mortality start/end start/end IC50 = % Method of Determination 95% Con i ence Limits Moving Average _ Probit -- % Spearman Karber _ Other 9i Organism Tested: Ceriodaphnia dubia Duration(hrs): Copied from DWQ form AT -1 (3/87) rev. 11/95 (DUBIA ver. 4.41) Control High f''nn n 9i Organism Tested: Ceriodaphnia dubia Duration(hrs): Copied from DWQ form AT -1 (3/87) rev. 11/95 (DUBIA ver. 4.41) s PO Box 7565 " 1 Asheville. NC 28802 Phone: (828) 350-9364 iii ,r 1 Fax: (828) 350-9368 E-mail: Jimlc�r�etsnclab.com _J Environmental Testing Solutions, Inc. Date: October 21, 2016 Effluent Aquatic Toxicity Report Form - Chronic Fathead Minnow Multi -Concentration Test Facility: Mayodan WWTP NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Laboratory Performing Test: Environmental Testi- Sol ions, `" Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 11783 Samples- 161004.04, 161006.04, 161008.02 i4Iai1 Original To: North Carolina Department of Environment and Natural Resources Surviving number of larvae 10 10 DWQ/ Environmental Sciences Branch 10 ZO Y. Original number of larvae 10 I0 10 Original number of larvae 10 1621 Mail Service Center 10 10 Survival (4'0)100.0 0.518 0.553 0S96 Start date: End date: Start time: End time: 0.569 1 Raleigh, NC 27699-1621 0.614 Average ,vt (mg) 0.587 375 1 10-04-16 10-H-16 1210 1126 Day l Day 2 Replicate number Surviving numberoflarvae 10 10 10 10 1 2 3 4 10 10 1 Test Organisms Control ISurviving number of larvae 10 F10 10 10 Survival (%) 100.0 Outside supplier Organisms Original number of larvae 10 1 0 1 0 10 Average wt (mg) 0.534 In-house Culture % EffluentSurviving WeighVoriginal (mgAarvae) 0.595 1 0.571 1 0.489 0.479 Average m / 0.534 Y. 10riginal number of larvae 10 10 1 10 surviving (tug) Survival (%) Begin hatch: 10 -03 -IG 1703 %Effluent SurvivingnuinberoFlarvae IO 10 10 10 Average,vt (mg) 0.530 End hatch: 10-04-16 0600 1.25 % Original number of larvae 10 1 10 1 10 10 Survival (%) 100.0 Weightforiginal (tngllarvae) 1 0.677 10.575 1 0.560 1 0.646 Average wt (mg) 0.615 % Effluent Surviving number of larvae 10 10 10 10 ZO Y. Original number of larvae 10 I0 10 Original number of larvae 10 10 1 10 10 Survival (4'0)100.0 0.518 0.553 0S96 0.629 Weight/ariginal (mg/larvae) 0.523 0.569 1 0.641 0.614 Average ,vt (mg) 0.587 375 1 Day 0 Day l Day 2 Day 3 % Effluent Surviving numberoflarvae 10 10 10 10 I Initial I Final Initial I Final 5.0 Y. Original number of lanae 10 10 1 10 10 Survival (%) 100.0 Weight/original (mg/larvae) 0.493 0.477 1 0.544 1 0.549 Average,vt (mg) 0.516 % EffluentSurviving number oflarvae 10 10 IO 10 Y. 10riginal number of larvae 10 10 1 10 10 1 Survival (%) 100.0 Weight/original (mg/larvae) 1 0.519 1 0.302 1 0.523 1 0-575 1 Average,vt (mg) 0.530 % Effluent Surviving number of larvae 10 10 10 10 10-02-16 10-04-16 ZO Y. Original number of larvae 10 I0 10 10 Survival (%) 100.0 24-h 24.25 -It Weight(originel (mgAavae) 0.518 0.553 0S96 0.629 Average wt (mg) 0.574 30-32 Water Quality Data 56 68 4044 375 1 Day 0 Day l Day 2 Day 3 Dav 4 Dav 5 Day 6 2.4 Initial I Final Initial I Final I Initial I Final Initial I Final Initial I Final Initial I Final Initial I Final Control PH DO Temp. (°C): 7.32 1 7.24 7.34 7.24 7.85 7 33 7.55 7.06 1 7.49 1 7.19 7.65 7.27 7.44 7.23 7.9 1 7.6 7.8 7.7 7.8 7.4 7.9 7.1 8.0 6.9 7.9 7.6 7.9 7.3 74_6 1 24.3 24.6 24.4 24.7 24.5 24.7 24.4 24.7 245 24.7 24.3 24.8 1 24.9 High Concentration PH (SU): 7.76 7.29 7.47 7.36 7.76 7.19 7.52 1 7.02 1 7.41 1 7.07 7.40 7.2" 733 7.21 DO (mglL): 8.0 7.7 8.0 8.0 8.0 7.2 3.2 7.1 7.9 1 7.0 7.9 7.7 8.0 8.0 Temp. (°C): 24.7 24.4 24.7 24.6 24.9 24.5 24.9 24.5 24.6 1 24.6 24.9 24.4 25.0 24.6 Sample Information Collection start date: Grab: Composite duration: Alkalinity (mg/L CaCO,): Hardness (mg/L CaCO,): Conductivity (ginhos/cm): Total residual chlorine (mg/L): Sample Temp. at Receipt (°C)' Sample 1 Sample 2 Sample 3 Control 10-02-16 10-04-16 10-06-16 >20% >20% >20% >20% Visuallnsp. 24-h 24.25 -It 24.75-h O.I10 72 56 32 30-32 55 56 68 4044 375 1 369 401 152-166 <0.10 <0.10 <0.10 MUM 2.4 0.8 4.0 Analyses Normal: Hom. Var. NOEC: LOEC: ChV: Nlethod: Overall Analysis: Result: PASS LOEC: >20% NOEC: 20% ChV: >20% Survival Growth Yes Yes Yes Yes 20% 20% >20% >20% >20% >20% Visuallnsp. Dunnett's Survival Growth Effluent Critical Calculated Critical Calculated 125% 2.410 -2.382 2.5% 2.410 -1.566 5.0% 2.410 0.522 10% 2.410 O.I10 20% 2.410 -1.191 DWOforni AT -5 (8/03) AdUaNb 7 a 7�1 ,..of L- Environmental Testin Solutions Inc PO Box 7565 Asheville, NC 28802 Phone: (828) 350-9364 Fax: (828)350-9368 E-mail: Jim@etsnclab.com 9 Date: October 21, 2016 Effluent Aquatic Toxicity Report Form - Chronic Fathead Minnow Multi -Concentration Test Facility: Mayodan WWTP NPDES #: NC- 0021873 Pipe #: 001 County: Rockingham Laboratory Performing Test: Environmental TV n Solus; au , F Comments: Signature of Operator in Responsible Charge: Signature of Laboratory Supervisor: Project: 11783 Samples. 161004.04, 161006 04, 161008 02 Mail Original To: North Carolina Department of Environment and Natural Resources Sample 2 Sample 3 Control DWQ/ Environmental Sciences Branch 10-04-16 10-06-16 >20% >20% >20% >20% 1621 Mail Service Center 24.25-h 24 75-h 2.410 72 Start date- End date- Start time- End time 55 Raleigh, NC 27699-1621 68 40-44 375 369 10-04-16 10-11-16 1210 1 1126 152466 <0.10 Replicate number <0.10 2.4 0.8 4.0 1 2 3 4 Test Organisms Control Surviving number of larvae 10 10 10 10 Survival (%) 100.0 Outside supplier Organisms I Original number of larvae 10 10 10 10 Average wt (mg) 0.534 In-house Culture Weightloriginal (mgAarvae) 0.595 0.571 0.489 0.479 Average wt / 1 0.534 surviving (mg) Begin hatch: 10-03-16 1703 ado Effluent Surviving number of larvae 10 10 10 10 End hatch: 10-04-16 0600 1.25 % E100.0 Original number of larvae 10 10 10 10 Survival (%) Weight/original (mg/larvae) 0.677 0.575 0.560 0.646 Average wt (mg) 1 0.615 % Efflue ISurviving number of larvae 10 10 10 10 % Original number of larvae 10 10 1 10 10 1 Survival (%) 100.0 Weightloriginal (mg/larvae) 0 523 1 0 569 1 0.641 0.614 1 Average wt (mg) 1 0.587 % Efflue ISurviving number oflarvae 10 10 1 10 10 5.0'% Original number of larvae 10 10 1 10 10 Survival (%) 100.0 Weight/original (mgAarvae) 0.493 1 0.477 1 0.544 0.549 Average wt (mg) 1 0.516 %Effluent Surviving number of larvae 10 10 10 10 10 % Original number of larvae 1 10 10 1 10 10 Survival (%) 100.0 Weightloriginal (mg/larvae) 1 0.519 1 0.502 1 0.523 0.575 Average wt (mg) O.J30 % Efflue ISurviving number of larvae 10 10 10 10 20'% Original number of larvae 1 10 10 10 10 Survival Weightloriginal (ing/larvae) 0.518 0.553 0.596 0.629 Average wt (mg) 1 0.574 Water Quality Data Day 0 Day I Day 2 Day 3 Day 4 Day 5 Day 6 Initial I Final Initial I Final Initial I Final Initial I Final Initial I Final Initial I Final Initial I Final Control pH (SU): DO (mg/L) Temp. (°C): 7.82 724 7.34 7.24 7 85 733 1 7.55 7.06 7.49 7 19 7.65 7.17 744 728 79 7.6 78 77 7.3 1 74 1 79 7.1 8.0 6.9 7.9 7.6 7.9 7.8 24.6 24.3 24.6 24.4 24.7 1 24.5 1 24.7 24.4 24.7 24.5 24.7 24.3 24.8 24.9 High Concentration pH (SU): 7.76 7.29 7.47 7.36 776 7.19 752 7.02 741 7.07 740 7.22 7.33 721 DO (mg/L): 3.0 7.7 30 80 8.0 7.2 8.2 7.1 79 70 79 77 8.0 8.0 Temp (°C): 24.7 24.4 24.7 24.6 24.9 24.5 24.9 24 5 24.6 24.6 24.9 24 4 25 0 24.6 Sample Information Collection start date: Grab: Composite duration. Alkalinity (mg/L CaCO3)- Hardness (mg(L CaCO3). Conductivity (µmhos/cm)- Total residual chlonne (mg/L): Sample Temp, at Receipt (°C): Sample 1 Sample 2 Sample 3 Control 10-02-16 10-04-16 10-06-16 >20% >20% >20% >20% 24-h 24.25-h 24 75-h 2.410 72 56 32 30-32 55 56 68 40-44 375 369 401 1 152466 <0.10 <0.10 <0.10 2.4 0.8 4.0 Analyses Normal: Horn Var NOEL: LOEC: ChV. Method. Overall Analysis: Result: PASS LOEC: >20% NOEC: 20% ChV: >20% Survival Growth Yes Yes Yes Yes 20% 20% >20% >20% >20% >20% Visuallnsp. Dunnetts Survival Growth % Effluent Critical Calculated Critical Calculated 125% 2 410 -2.382 2.5% 2410 -1.566 5 0% 2.410 0.522 10% 2.410 0 110 20% 2 410 1.191 DWO form AT -5 (8/03) Water Resources ENVIRONMENTAL QUALITY PAT MCCRORY Governor DONALD R. VAN DER VAART Secrelaq S. JAY ZIMMERMAN Direcror December 1, 2016 Mr. Michael Brandt, Town Manager Town of Mayodan 210 W. Main Street Mayodan, NC 27027 Subject: Additional Information for Current Permit Renewal Application No. NCO021873 Town of Mayodan Rockingham County Dear Mr. Brandt: The Water Quality Permitting Section acknowledges receipt of your permit application and supporting documentation received on December 1, 2016. The primary reviewer for this renewal application is Trupti Desai. The primary reviewer will review your application, and she will contact you if additional information is required to complete your permit renewal. Per G.S. 150B-3 your current permit does not expire until permit decision on the application is made. Continuation of the current permit is contingent on timely and sufficient application for renewal of the current permit. Please respond in a timely manner to requests for additional information necessary to complete the permit application. If you have any additional questions concerning renewal of the subject permit, please contact Trupti Desai at 919-807-6351 or Trupti.Desai@ncdenr.gov. Sincerely, ?Am %Cies 01d Wren Thedford Wastewater Branch cc: Central Files NPDES Winston-Salem Regional Office State of North Carolina I Environmental Quality I Water Resources 1617 Mail Service Center I Raleigh, North Carolina 27699-1617 919-807-6300