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Home My WebLink AboutNC0004987_Final Permit_20160909NC- PAT MCCRORY Governor DONALD R. VAN DER VAART Secretary S. JAY ZIMMERMAN Water Resources ENVIRONMENTAL QUALITY Director September 9, 2016 Mr -Harry Sideris, Senior Vice President Environmental, Health and Safety Duke Energy Carolinas, LLC Mail Code EC 13K P.O. Box 1006 Charlotte, North Carolina 28201-1006 Subject: Issuance of NPDES Permit Permit NC0004987 Marshall Steam Station Catawba County Facility Class I Dear Mr. Sideris: The Division of Water- Resources is forwarding herewith the Final NPDES permit for Riverbend Steam Station. This permit renewal is issued pursuant to the requirements of North Carolina General Statute 143-215.1 and the Memorandum of Agreement between North Carolina and the U.S. Environmental Protection Agency dated October 15, 2007 (or as subsequently amended). A public hearing was held on June 22, 2016 in Hickory seeking comments on the Draft permit. This Final permit incorporates recommendations of the DWR Hearing Officer and EPA as well as other changes: • Clarifying language was added to the permit in Section A. (2.)/Note 2 to state that continuous monitoring of Total Suspended Solids is only required when decanting via pumps. • Clarifying language was added to the permit in Section A. (2.) to specify that limits and conditions in Section A. (3.) of the permit apply when water in the ash settling basin is lowered below the three feet trigger mark. • Clarifying language was added to the permit in Section A. (2.) to specify that the zero discharge, limits on fly ash and bottom ash transport water only apply to fly ash and bottom ash transport water generated after November 1, 2018 and January 31, 2021 accordingly. • Section A. (7.) was corrected to include an addition of a Note 4 superscript to the total mercury limit to clarify that limits are effective on January 31, 2021. • Section A. (17.) was amended to include a separate IWC for dewatering phase toxicity testing. • The Groundwater Monitoring Plan attachment was amended to include the following clarifying language: "3(h). The provisions of sections 3(f) and 3(g) -apply only to the sampling events described in 3(b) above. The reporting requirements for any sampling events other than those described in 3(b) above shall be in accordance with the general provisions of 15A NCAC 02L." • A Special Condition entitled "Domestic Wastewater Treatment Plan" was added to the permit to address the EPA comment (Please see Special Condition A. (32.)). • The Daily Maximum limit for TSS was reduced to 50.0 mg/L for Outfall 002 to meet the requirements of 40 CFR 423. State of North Carolina I Environmental Quality I Water Resources 1617 Mail service Center I Raleigh, North Carolina 27699-1611 919 707 9000 I • The limits for TSS and Oil and Grease were added to Outfall 002A and 002B to meet the requirements of 40 CFR 423. • •A Special Condition A. (30.) was modified to address the EPA concern regarding the permitting of the newly identified seeps and locations of the instream sampling for compliance with the water quality standards. • The limits for BOD and Fecal Coiiforms were added to Outfall 002 to address the EPA comment. • The footnote describing the effluent limitations for Turbidity was modified to better address the state turbidity standard (Outfall 002). • The monitoring frequency for Oil and Grease was increased to Monthly (Outfall 002) to address the EPA comment. • The Plan for Identscation of New Discharges was added to the permit to address the EPA comment. • The Seep Pollutant Analysis Special Condition (Please see A. (30.)) was modified based on the discussion with the US Army Corps of Engineers. • The additional decanting conditions for closing ash ponds were added to the permit to address the EPA comment. If any parts, measurement frequencies, or sampling requirements contained in this permit are unacceptable to you, you have the right to an adjudicatory hearing upon written request within thirty (30) days following receipt of this letter. This request must be in the form of a written petition, conforming to Chapter 150B of the North Carolina General Statutes, and filed with the office of Administrative Hearings, 6714 Mail Service Center, Raleigh, North Carolina 27699-6714. Unless such a demand is made, this permit shall be final and binding. Please take notice that this permit is not transferable except after notice to the Division of Water Resources. The Division may require modification or revocation and reissuance of the permit. This permit does not affect the legal requirements to obtain other permits which may be required -by the Division of Water Resources, the Division of Land Resources, the Coastal Area Management Act, or any other federal or local governmental permit. f If you have any questions on this permit, please contact Sergei Chernikov at 919-807-6386. Sincerely, S. J y Z merman, P.G. Director, Division of Water Resources Hardcopy: Central Files, NPDES Files Mooresville Regional Office, Water Quality E -copy: US EPA, Region IV Aquatic Toxicology Unit PERMIT No. NC0004987 STATE OF NORTH CAROLINA DEPARTMENT OF ENVIRONMENTAL QUALITY DIVISION OF WATER RESOURCES PERMIT TO DISCHARGE WASTEWATER UNDER THE NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM In compliance with the provisions of North Carolina General Statute 143-215.1, other lawful standards and regulations promulgated and adopted by the North Carolina. Environmental Management Commission, and the Federal Water Pollution Control Act, as amended, Duke Energy Carolinas, LLC is hereby authorized to discharge wastewater from a facility located at Marshall Steam Station At the intersection of NC Highway 150 and NCSR 1841 Terrell - Catawba County to receiving waters designated as the Catawba River (Lake Norman) in the Catawba River Basin in accordance with effluent limitations, monitoring requirements, and other applicable conditions set forth in Parts I, II, and III hereof. This permit shall become effective October 1, 2016. This permit and authorization to discharge shall expire at midnight on September 30, 2021. Signed this day September 9, 2016. S. Jay Zi��r>r�arG., Director Division ate Resources By Authority of the Environmental Management Commission Page 1 of 27 PERMIT No. NC0004987 J SUPPLEMENT TO PERMIT COVER SHEET All previous NPDES Permits issued to this facility, whether for operation or discharge are hereby revoked, and as of this issuance, any previously issued permit bearing this number is no longer effective. Therefore, - the exclusive authority to operate and discharge from this facility arises under the permit conditions, requirements, terms, and provisions included herein. Duke Energy Carolinas, LLC is hereby authorized to: 1. Continue to discharge: • Outfall 001: once -through cooling water and intake screen backwash • Outfall 002: treated wastewater (consisting of metal cleaning wastes, coal pile runoff, ash transport water, domestic wastewater, storm water, low volume wastes, and FGD wet scrubber wastewater) from the ash settling basin • Outfalls 002A and 00213: yard sump overflows • Internal Outfall 003: non -contact cooling water from the induced draft fan control house to intake for cooling water pumps • Internal Outfall 004: treated FGD wet scrubber wastewater to the ash settling basin • Seep Outfalls 101 and 102: 2 potentially contaminated groundwater seeps From a facility located at Duke Energy's Marshall Steam Station at the intersection of NC Highway 150 and NCSR 1841 in Terrell, Catawba County; 2. Discharge from said treatment works at the locations specified on the attached map into the Catawba River (Lake Norman) which is classified WS -IV and B CA waters in the Catawba River Basin. Page 2 of 27 PERMIT No. NC0004987 PART I A. (1.) Effluent Limitations and Monitoring Requirements (Outfall 001) [ 15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Outfall 001 (once -through cooling water). Such discharges shall be limited and monitored2 by the Permittee as specified below: - DIscFIARGE LIMITATIONS, i ":'T& T012ING REQUIREMENTS'' '. C -:..`, . :EFFLUENT_ _ Monthly`',,,, . :.;_Daily :'Measurement. : Sample` " Sa"niple _: GiiAxa►cTExlsTfcs: = _ .:. : ;`� Average._'`. M_ aximum = Fre uenc e- =Location:.. . Pump logs or Flow, MGD Monitor & Report Daily similar Effluent readings Temperature 33.3 OC Daily Grab Effluent November 1 - June 30 Temperature 34.4o Daily -Grab Effluent Jul 1 - October 31 Free Available 0.2 mg/L 0.5 mg/L Daily Grab Effluent Chlorines NOTES•. 1 Once -through cooling water shall not be chlorinated. Should the facility wish to chlorinate once -through cooling water, Division permission shall be obtained prior to commencement of chlorination. The monitoring requirement and effluent limitations only apply if chlorination is commenced. 2 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.). There shall be no discharge of floating solids or visible foam in other than trace amounts. Based upon studies conducted by the permittee and submitted to the Division, it has been determined pursuant to Section 316(a) of the Clean Water Act that the thermal component of the discharge assures the protection and propagation of a balanced, indigenous population of shellfish, fish and wildlife in the receiving water. s Page 3 of 27 PERMIT No. NC0004987 1 A. (2.) Effluent Limitations and Monitoring Requirements (Outfall 002 - normal operation/ decanting) [ 15A NCAC 02B.0400 et seq., 02B.0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Outfall 002 (ash settling basin discharge - decanting the free water above the settled ash layer that does not involve mechanical disturbance of the ash). Such discharges shall be limited and monitored4 by the Permittee as snecified below- Ad- —L ISCHARGE elow- EFFI UENT,,L'IiAR®CTERio ics:' " DISCHARGE I:IMITATIOBTS,; ' ' ; >MONITORINCr REQUIREMENTS ' ''- MOIltihlj� .::: Avera' e: Daily :.Maaciinual Measur`ement,'; 'Fre uenc" :: Sairiple__: e. - Sample ; iocationl . - Flow, MGD Monitor & Report Weekly Pump logs or similar readings Effluent Oil and Grease 9.0 mg/L 12.0 mg/L Monthly Grab Effluent Total Suspended Solids2 20.0 mg/L 50.0 mg/L Monthly Grab Effluent BOD, 5 -day, 20° C 2 30.0 mg/L 45.0 mg/L Monthly Grab Effluent Fecal Coliform (geo. mean) 200/100 mL 400/100 mL Monthly Grab Effluent Total Arsenic, µg/L Weekly Grab Effluent Total Copper 1.0 mg/L3 1.0 mg/L3 Weekly Grab Effluent Total Iron 1.0 mg/L3 1.0 mg/L3 Weekly Grab Effluent Total Mercury6 Weekly Grab Effluent Total Selenium, µg/L Weekly Grab Effluent Turbiditys, NTU Monthly Grab Effluent Nitrate/nitrite as N, mg/L Quarterly Grab Effluent Bromide, mg/L Monthly Grab Effluent Total Hardness, mg/L Monthly Grab Effluent Total Nitrogen NO2+NO3+TKN , m L Monitor &Report Quarterly Grab Effluent Total Phosphorus, mg/L Monitor & Report Quarterly Grab Effluent Chronic Toxicity See Part I, Section A. (17.) Monthly Grab Effluent pH7 Between 6.0 and 9.0 Standard Units Monthly Grab Effluent NOTES: 1 Effluent sampling shall be conducted at the discharge from the ash settling basin prior to mixing with any other waste stream(s). 2 The facility shall continuously monitor TSS concentration when the decanting process commences and the decanting pump shall be shutoff automatically when the one half of the Daily Maximum limit (15 minutes average) is exceeded. Pumping will be allowed to continue if interruption might result in a dam failure or damage. The continuous TSS monitoring only required when the pumps are employed for decanting. 3 The limits for total copper and total iron only apply when chemical metal cleaning wastewaters are being discharged. 4 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.).. 5 The net turbidity shall not exceed 50 NTU using a grab sample and measured by the difference between the effluent turbidity and the background turbidity. The sample for the Page 4 of 27 L 10 PERMIT No. NC0004987 background turbidity shall be taken at point in the receiving waterbody upstream of the discharge location, and the background turbidity and the effluent turbidity samples shall be taken within the same 24 hour period. NTU - Nephelometric Turbidity Unit. 6 The facility shall use EPA method 1631E. 7 The facility shall continuously monitor pH when the decanting process commences and, the decanting pump shall be shutoff automatically when ' 15 minutes running average pH falls below 6.1 standard units or rises above 8.9 standard units. Pumping will be allowed to continue if interruption might result in a dam failure or damage. There shall be no discharge of floating solids or visible foam in other than trace amounts. The facility is allowed to drawdown the wastewater in the ash pond to no less than three feet above the ash. The level of water in the ash pond should not be lowered more than 1 ft/week, unless approved by the DEQ Dam Safety Program. The facility shall use a floating pump station with free water skimmed from the basin surface using an adjustable weir. By November 1, 2018 there shall be no discharge of pollutants in fly ash transport water. This requirement only applies to fly ash transport water generated after November 1, 2018. By January 31, 2021 there shall be no discharge of pollutants in bottom ash transport water. This requirement only applies to bottom ash transport water generated after January 31, 2021. The limits and conditions in Section A. (3.) of the permit apply when water in the ash settling basin is lowered below the three feet trigger mark. The facility shall notify DWR Complex NPDES Permitting Unit and DWR Mooresville Regional Office seven calendar days prior to the commencement of the decanting. When the facility commences the ash pond/ponds decommissioning process, the facility shall treat the wastewater discharged from the ash pond/ponds by the physical -chemical treatment facilities. , Page 5 of 27 PERMIT No. NC0004987 • A. (3.) Effluent Limitations and Monitoring Requirements (Outfall 002 - dewatering phase) [ 15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Outfall 002 Ash Settling Basin Discharge (Dewatering - removing the interstitial water). Such discharges shall be limited and monitored4 by the Permittee as specified below: EFFLUENT=CIiAR_ACTERISTI_CS. DISCHARGE LIMITATIONS : • ' ' • ._ : _ ''- :. ; , .,'.-MONITORING;REQUIR ME_NTS, -, Mgrit}lly, ; ,Avera�'e• Dally Maximum;: -Me1SIIiemellt` Fre ueno Sa_ xiiple =e,: : "'Sample;; L'o`cafionl Flow 1.0 MGD Weekly Pump logs or similar readings Effluent Oil and Grease 9.0 mg/L 12.0 mg/L Monthly Grab Effluent Total Suspended Solids2 20.0 mg/L 50.0 mg/L ' Monthly Grab Effluent Total Arsenic 397.1 µg/L 11,121 µg/L Weekly Grab Effluent Total Copper 1.0 mg/L3 1.0 mg/L3 Weekly Grab Effluent Total Iron 1.0 mg/L3 1.0 mg/L3 Weekly Grab Effluent BOD, 5 -day, 20° C 2 30.0 mg/L 45.0 mg/L Monthly Grab Effluent Fecal Coliform (geo. mean) 200/ 100 mL 400/100 mL Monthly Grab Effluent Total Mercury6 Weekly Grab Effluent Total Selenium, µg/L Weekly Grab Effluent Turbidity5, NTU Monthly Grab Effluent Nitrate/nitrite as N, mg/L Quarterly Grab Effluent Bromide, mg/L Monthly Grab Effluent Total Hardness, mg/L Monthly Grab Effluent Total Nitrogen NO2+NO3+TKN , m L Monitor &Report Quarterly Grab Effluent Total Phosphorus, mg/L Monitor & Report Quarterly Grab Effluent Chronic Toxicity See Part I, Section A. (17.) Monthly Grab Effluent pH7 Between 6.0 and 9.0 Standard Units Monthly Grab Effluent NoTEs• 1 • Effluent sampling shall be conducted at the discharge from the ash settling basin prior to mixing with any other waste stream(s). 2 The facility shall continuously monitor TSS concentration when the dewatering process commences and the dewatering pump shall be shutoff automatically when the one half of the Daily Maximum limit (15 minutes average) is exceeded. Pumping will be allowed to continue if interruption might result in a dam failure or damage. 3 The limits for total copper and total iron only apply when chemical metal cleaning wastewaters are being discharged. 4 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.). 5 The net turbidity shall not exceed 50 NTU using a grab sample and measured by the difference between the effluent turbidity and the background turbidity. The sample for the background turbidity shall be taken at point in the receiving waterbody upstream of Page 6 of 27 PERMIT No. NC0004987 the discharge location, and the background turbidity and the effluent turbidity samples shall be taken within the same 24 hour period. NTU - Nephelometric Turbidity Unit. 6 The facility shall use EPA method 1631E. 7 The facility shall continuously monitor pH when the dewatering process commences and the dewatering pump shall be shutoff automatically when 15 minutes running average pH falls below 6.1 standard units or rises above 8.9 standard units. Pumping will be allowed to continue if interruption might result in a dam failure or damage. There shall be no discharge of floating solids or visible foam in other than trace amounts. The level of water in the ash pond should not be lowered more than 1 ft/week, unless approved by the DEQ Dam Safety Program. By November 1, 2018 there shall be no discharge of pollutants in fly ash transport water. This requirement only applies to fly ash transport water generated after November 1, 2018. By January 31, 2021 there shall be no discharge of pollutants in bottom ash transport water. This requirement only applies to bottom ash transport water generated after January 31, 2021. When the facility commences the ash pond/ponds decommissioning process, the facility shall treat the wastewater discharged from the ash pond/ponds by the physical -chemical treatment facilities. Page 7 of 27 PERMIT No. NC0004987 A. (4.) Effluent Limitations and Monitoring Requirements (Outfall 002A) [15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Outfall 002A (yard sump # 1 overflows). Such discharges shall be limited and monitored2 by the Permittee as specified below: ' EFFLUENT•; ;: — Disc13ARGE LIMITATIONS.':- `',•:: .•MO1vITORING, REQUIREMENTSs ' . =;c < `:.:'' — j. : 'M011tlilj!`Measuiement • Sariiple :'Sairiple'''; CHARACTERISTICSr:•{ • Ave=a e . '.`Maximum= °' Fre "ueiic ' T ' `ei :' ;_Locations Flow, MGD Per discharge Estimate Effluent event pH Between 6.0 and 9.0 Standard Per discharge Grab Effluent Units event Total Suspended Solids 30.0 mg/L 100.0 mg/L Per discharge Grab Effluent event Oil and Grease 15.0 mg/L 20.0 mg/L Per discharge Grab Effluent event Total Iron, mg/L Per discharge Grab Effluent event NOTES' 1 Effluent samples shall be collected at a point upstream of the discharge to the Catawba River. 2 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.). There shall be no discharge of floating solids or visible foam in other than trace amounts. All flows shall be reported on monthly DMRs. Should no flow occur during a given month, the words "No Flow" shall be clearly written on the front of the DMR. All samples shall be of a representative discharge. Page 8 of 27 PERMIT No. NC0004987 A. (5.) Effluent Limitations and Monitoring Requirements (Outfall 002B) [ 15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Outfall 002B (yard sump #2 overflows). Such discharges shall be limited and monitored2 by the Permittee as specified below: r: -.• --.,;;, :._ ..- DISCHAR('rE`L'IlYIITATIUNS '.. --� MO NITORING •REQUIREMENTS; !_'';, ° `� •. __ _ _ ._.-• :. = .•r Monthly ' ,." Daily, _. . Measurement. : ;-•.'Sairiple, ;, Sample: _- CFIARACTERISTICS_ .• - ,, , - ' Avera 6 , ; :• , . ,; Maximum .. •; _Fre uenc e . _ .. Locationl Flow, MGD Per discharge Estimate Effluent event Between 6.0 and 9.0 Standard Per discharge Grab Effluent p H Units event Total Suspended Solids 30.0 mg/L 100.0 mg/L Per discharge event Grab Effluent Oil and Grease 15.0 mg/L 20.0 mg/L Per discharge event Grab Effluent Total Iron, mg/L Per discharge Grab Effluent 11 event NOTES' 1 Effluent samples shall be collected at a point upstream of the discharge to the Catawba River. . 2 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. There shall be no discharge of floating solids or visible foam in other than trace amounts. All flows shall be reported on monthly DMRs. Should no flow occur during a given month, the words "No Flow" shall be clearly written on the front of the DMR. All samples shall be of a representative discharge. Page 9 of 27 PERMIT No. NC0004987 A. (6.) Effluent Limitations and Monitoring Requirements (Internal Outfall 003) [15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Internal Outfall 003 (non - contact cooling water from the induced draft fan control house). Such discharges shall be limited and monitored2 by the Permittee as specified below: :; ;. ' DISCF7ARGEr`'LINlITATIQNS -. `. 'MONIT_ 012ING' REQUIREIYIEN_TS. = _ ,: ' + :.,- .. - -. EFFLUENT w= CiiAI2ACTEi2ISTICS " _ = Nionfhly;. Daily': ,_ �•Measureineiit Sample_'=.' :$ampler Ayera' a Maximum;'L®catiori.> .- Flow, MGD Semi-annually Estimate Effluent Temperature, OC Semi-annually Grab Effluent Total Residual Semi-annually Grab Effluent Chlorine',µ L Free Available ' 0.2 m g�L m L 0.5 g� Semi-annually Grab Effluent Chlorine' pH Between 6.0 and 9.0 Standard Semi-annually Grab Effluent Units NoTEs: 1 Monitoring requirements apply only if chlorine is added to the cooling water. Neither free available chlorine nor total residual chlorine may be discharged from any unit for more than two hours in any one day and not more than one unit in any plant may discharge free available chlorine or total residual chlorine at any one time. 2 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. There shall be no discharge of floating solids or visible foam in other than trace amounts. Limitations shall be met at the discharge point. Page 10 of 27 PERMIT No. NC0004987 A. (7.) Effluent Limitations and Monitoring Requirements (Internal Outfall 004) [15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from Internal Outfall 004 (treated FGD wet scrubber wastewater to ash settling basin). Such discharges shall be limited and monitored2 by the Permittee as specified below: EFFLUENT. ' `. ;. ` .; _ "CFIARACTERISTIC$;; r' - DISCHARGE;_I.INIIT_ ATIONS'• "• . MONITORING REQUIREMENTS' :`. =Monthly;_' ". Baily " t • Average Maximum. ° IVIeasureanent F=e_ 'uency.. _ - SamIple,; ` T. .e' . '_Sample I:ocationi' Flow, MGD Monitor & Report Monthly Pump logs or similar readings Effluent Total Arsenic 8.0 µg/L4 11.0 µg/L4 Quarterly Grab Effluent Total Mercury3, ng/L 356.0 ng/L4 788.0 ng/L4 Quarterly Grab Effluent Total Selenium 12.0 pg/L4 23.0 pg/L4 Quarterly Grab Effluent Nitrate/nitrite as N 4.4 mg/L4 17.0 mg/L4 Quarterly Grab Effluent pH Between 6.0 and 9.0 Standard Units Quarterly Grab Effluent NOTES' 1 Sample Location: E - Effluent samples shall be collected from the constructed wetland prior to discharge to the ash settling basin. 2 Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.). 3 The facility shall use EPA method 1631E. 4 The TBEL limits shall become effective on January 31, 2021. This time period is provided in order for the facility to budget, design, and construct the treatment system. The facility shall monitor these parameters even before the limits become effective. All flows shall be reported on monthly DMRs. Should no flow occur during a given month, the words "No Flow" shall be clearly written on the front of the DMR. All samples shall be of a representative discharge. Page 11 of 27 PERMIT No. NC0004987 A. (8.) Effluent Limitations and Monitoring Requirements (Outfall 101) [15A NCAC 02B.0400 et seq., 02B.0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from outfall 101 - Seep Discharge. Such discharges shall be limited and monitored) by the Permittee asspecified below: ='EFFLUENT`CHif&A TERISTICS:..;;=. - DI$CHARGE,I:IMITATIONS`.;,;` ';•';,` :';; .0 :";;;:' '.RIjON;T012INGREQUIREMENTS;`,: „• _ MbAthly ' Daily . Measureinenf" : • Sample Sample'. _ =Avera e ' Maximum' "_ Fre 'iienc z ` T re". Location _ - _. Flow, MGD Monthly/ Quarterly Estimate Effluent H3 Monthly Quarterly Grab Effluent TSS 30.0 mg/L 100.0 mg/L Monthly/ Quarterly Grab Effluent Oil and Grease 15.0 m L 20.0 mg/L Monthly Quarterly Grab Effluent Fluoride, µ L Monthly Quarterly Grab Effluent Total Mercury4, n L Monthly/ Quarterly Grab Effluent Total Barium, m L Monthly/ Quarterly Grab Effluent Total Iron, µ L Monthly Quarterly Grab Effluent Total Manganese, µ L Monthly Quarterly Grab Effluent Total Zinc, µg/L Monthly/ Quarterly Grab Effluent Total Arsenic, µ L Monthly Quarterly Grab Effluent Total Cadmium, µ L Monthly Quarterly Grab Effluent Total Chromium, pg/L Monthly/ Quarterly Grab Effluent Total Copper, pg/L Monthly/ Quarterly Grab Effluent Total Lead, µ /L Monthly Quarterly Grab Effluent Total Nickel, µ L Monthly/ Quarterly Grab Effluent Total Selenium, µg/L Monthly/ Quarterly Grab Effluent Nitrate nitrite as N, m L Monthly Quarterly Grab Effluent Sulfates, mg/L Monthly Quarterly Grab Effluent Chlorides, m L Monthly Quarterly Grab Effluent TDS, m /L Monthly/ Quarterly Grab Effluent Total Hardness, mg/ L Monthly/Quarterly Grab Effluent Temperature, OC Monthly/ Quarterly Grab Effluent Conductivity, µmho/cm Monthly/ Quarterly Grab Effluent Notes: 1: Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.). 2. The facility shall conduct monthly sampling from the effective date of the permit. After one year from the effective date of the permit the monitoring will be reduced to quarterly 3. The pH shall not be less than 6.0 standard units nor greater than 9.0 standard units. 4. The facility shall use EPA method 1631E. If the facility is unable to obtain a seep sample due to the dry or low flow conditions preventing the facility from obtaining a representative sample, then "no flow" should be reported on the DMR. This requirement is established in the Section D of the Standard Conditions and 40 CFR 122.41 (j). There shall be no discharge of floating solids or visible foam in other than trace amounts. Page 12 of 27 PERMIT No. NC0004987 A. (9.) Effluent Limitations and Monitoring Requirements (Outfall 102) [ 15A NCAC 02B .0400 et seq., 02B .0500 et seq.] During the period beginning on the effective date of this permit and lasting until expiration, the Permittee is authorized to discharge from outfall 102 - Seep Discharge. Such discharges shall be limited and momwrcu- ,EFFLUENT CHARACTERISTICS ", DISQHAi2GEIGIWTATIONS '" MOIJITORINGSREQUIREIVIENTSi Nionfhly.. 1VIoIt'hly' Daily "Avera e" Maxiinnm; - "•. iwera "e" Masnaurn . " Flow, MGD' Monthly/ Quarterly Estimate Effluent Monthly/ Quarterly Grab Effluent H3 TSS 30.0 mg/L 100.0 mg/L Monthly/Quarterly Grab Effluent Oil and Grease 15.0 m /L -20.0 mg L Monthly Quarterly Grab Effluent Fluoride, mg/L Monthly Quarterly Grab Effluent Total Mercury4, ng/L Monthly Quarterly Grab Effluent Total Barium, m /L Monthly/ Quarterly Grab Effluent Total Iron, rag/L Monthly/ Quarterly Grab Effluent Total Manganese, µg/L Monthly Quarterly Grab Effluent Total Zinc, µg/L Monthly/ Quarterly Grab Effluent Total Arsenic, µ /L Monthly Quarterly Grab Effluent Total Cadmium, µg L Monthly Quarterly Grab Effluent Total Chromium, pg/L Monthly Quarterly Grab Effluent Total Copper, pg/L Monthly Quarterly Grab Effluent Total Lead, pg/L Monthly Quarterly Grab Effluent Total Nickel, pg/L Monthly Quarterly Grab Effluent Total Selenium, Monthly Quarterly Grab Effluent N, mg/L Nitrate/nitrite as N, Monthly Quarterly Grab Effluent Euent Sulfates, mg/L Monthly/ Quarterly Grab Effluent Chlorides, mg/L Monthly Quarterly Grab Effluent TDS, mg/L Monthly Quarterly Grab Effluent Total Hardness, m L Monthly Quarterly Grab Effluent Temperature, OC Monthly Quarterly Grab Effluent Conductivity, µmho/cm Monthly/ Quarterly Grab I Effluent Notes: 1. Starting on December 21, 2016, begin submitting Discharge Monitoring Reports electronically using NC DWR's eDMR application system. Please See Special Condition A. (31.). 2. The facility shall conduct monthly sampling from the effective date of the permit. After one year from the effective date of the permit the monitoring will be reduced to quarterly 3. The pH shall not be less than 6.0 standard units nor greater than 9.0 -standard units. 4. The facility shall use EPA method 1631E. If the facility is unable to obtain a seep sample due to the dry or low flow conditions preventing the facility from obtaining a representative sample, then "no flow" should be reported on the DMR. This requirement is established in the Section D of the Standard Conditions and 40 CFR 122.41 (j). There shall be no discharge of floating solids or visible foam in other than trace amounts. Page 13 of 27 PERMIT No. NC00049870 A. (10.) ADDITIONAL CONDITIONS AND DEFINITIONS 1. EPA methods 200.7 or 200.8 (or the most current versions) shall be used for analyses of all metals except for total mercury (EPA Method 1631E). 2. All effluent samples for all external outfalls shall be taken at the most accessible location after the final treatment but prior to discharge to waters of the U.S. (40 CFR 122.410)). 3. The term low volume waste sources means wastewater from all sources except those for which specific limitations are otherwise established in this part (40 CFR 423.11 (b)). 4. The term chemical metal cleaning waste means any wastewater resulting from cleaning any metal process equipment"with chemical compounds, including, but not limited to, boiler tube cleaning (40 CFR 423.11 (c)). 5. The term metal cleaning waste means any wastewater resulting from cleaning [with or without chemical cleaning compounds] any metal process equipment including, but not limited to, boiler tube cleaning, boiler fireside cleaning, and air preheater cleaning (40 CFR 423.11 (d)). 6. For all outfalls where the flow measurement is to be "estimated" the estimate can be done by using calibrated V -notch weir, stop -watch and graduated cylinder, or other method approved by the Division. 7. The term "FGD wet scrubber wastewater" means wastewater resulting from the use of the flue -gas desulfurization wet scrubber. A. (11.) TOXICITY RE -OPENER CONDITION This permit shall be modified, or revoked and reissued to incorporate toxicity limitations and monitoring requirements in the event toxicity testing or other studies conducted on the effluent or receiving stream indicate that detrimental effects may be expected in the receiving stream as a result of this discharge. A. (12.) APPLICABLE STATE LAW (STATE ENFORCEABLE ONLY) The facility shall meet the requirements of Senate Bill 729 (Coal Ash Management Act). This permit may be reopened to include new requirements imposed by Senate Bill 729. A. (13.) POLYCHLORINATED BIPHENYL COMPOUNDS There shall be no discharge of polychlorinated biphenyl compounds such as those commonly used for transformer fluid. A. (14.) BIOCIDE CONDITION The permittee shall not use any biocides except those approved in conjunction with the permit application. The permittee shall notify the Director in writing not later than ninety (90) days prior to instituting use of any additional biocide used in cooling systems which may be toxic to aquatic life other than those previously reported to the Division of Water Resources. Such notification shall include completion of Biocide Worksheet Form 101 and a map locating the discharge point and receiving stream. Completion of Biocide Worksheet Form 101 is not necessary for those outfalls containing toxicity testing. Division approval is not necessary for the introduction of new biocides into outfalls currently tested for whole effluent toxicity. Page 14 of 27 PERMIT No. NC0004987 A. (15.) INTAKE SCREEN BACKWASH Continued intake screen backwash discharge and overflow from the settling basin are permitted without limitations or monitoring requirements. A. (16.) BEST MANAGEMENT PRACTICES It has been determined from information submitted that the plans and procedures in place at Marshall Steam Station are equivalent to that of a Best Management Practice (BMP) . A. (17.) CHRONIC TOXICITY PASS/FAIL PERMIT LIMIT — OUTFALL 002 [ 15A NCAC 02B .0200 et seq.] The effluent discharge shall at no time exhibit observable inhibition of reproduction or significant mortality to Ceriodaphnia dubia at an effluent concentration of 23.0% for decanting and 2.6% for dewatering. The permit holder shall perform at a minimum, monthl monitoring using test procedures outlined in the "North Carolina Ceriodaphnia Chronic Effluent Bioassay Procedure," Revised December 2010, or subsequent versions or "North Carolina Phase II Chronic Whole Effluent Toxicity Test Procedure" (Revised- December 20 10) or subsequent versions. Effluent sampling for this testing must be obtained during representative effluent discharge and shall be performed at the NPDES permitted fmal effluent discharge below all treatment processes. If the monthly test procedure results in a failure or ChV below the permit limit, then multiple -concentration testing shall be performed at a minimum, in each of the two following months as described in "North Carolina Phase II Chronic Whole Effluent Toxicity Test Procedure" (Revised -December 2010) or subsequent versions. All toxicity testing results required as part of this permitcondition will be entered on the Effluent Discharge Monitoring Form (MR -1) for the months in which tests were performed, using the parameter code TGP3B for the pass/fail results and THP3B for the Chronic Value. Additionally, DWR Form AT -3 (original) is to be sent to the following address: Attention: North Carolina Division of Water Resources Water Sciences Section/Aquatic Toxicology Branch 1623 Mail Service Center Raleigh, North Carolina 27699-1623 Completed Aquatic Toxicity Test Forms shall be filed with the Water Sciences Section no later than 30 days after the end of the reporting period for which the report is made. Test data shall be complete, accurate, include all supporting chemical/ physical measurements and all concentration/ response data, and be certified by laboratory supervisor and ORC or approved designate signature. Total residual chlorine of the effluent toxicity sample must be measured and reported if chlorine is employed for disinfection of the waste stream. Page 15 of 27 LZ J0 9I aged •.zauueur siil4 ui pal-ea-ij uailm Ouiueajo lelaui jo moll am sours .zaTil zad ure z iljtuz auo ueil} ssal aq sX-emje jjim pad ieqosrp iaddoo pug uo xt �o Ufa quenb aid }L -u4 jgnop puoXaq ano id o} jjna-gjip si 11 `ouinjd aim jo sail uzasaxa ails J -e s.1ox-el aouj za4ui f,repunoq jo aoualsixa om pue `suralgoid uorjnlip jo asn-eoag •spuod qsu ut 4uaugea-q Xq 4uao zad +66 01 Z6 ,Io ague -I QIP ul sa}s-em Ouiuealo .zalloq ui sjelauz jo uo4L-.4ua3uo0 am aonpai of alglssod si 11 suoi}ipuoo umliao .zapun 4 -em pal -ea suouiop uaaq suit }I S3;LSVtA JNIMVR'I7 'IVJMW Zd3IIMgH7 (-61) 'V •papoau }ou si uol��oUra_iao orpouad `Tnu.zad aul;o uual aq ioj Tstxa of pag-4jz)o uaaq s -eq auinjon as-enbop-ei-eip Juana gq4 uI :2,LOK •sX-ep avid ulmlm joToaiiQ om of paaxodoi aq lleils uoraeoUwQo -Tons 2urjoajje suoiReTado 4ueld o4 sae 2uilo Xuy '-.mars 2uimojloj ails .zoj spuod Qq4 ui pallsodap aq o} paaoadxa spjlos IT apnjoui o4 ioloej X4ajes aaenbage LjayA ajq-ejrene sI aulnjon pa zmba z aixa 4-euoraBojjra iao u (S) pug `auinjon paa elnoleo aila jo uolaupr[eA mope 01 Ire}ap juapgns ur auInJOA J31Prn Q3JJ aila. JO SuoTsuauiip am Jo s}uauza.inSL'aui IeoisriiAd (3) `puod i s -e o-qj jo auinlOA .IaILm aa.Ij Ien4o-e aria (l) :.&Ipomne 2uinssi aIuuod ails o4 I ioda.I pu-e auiuuo4op IpT4s aai}iuuad am XTTnuuy •saurrj IT ju sauinjon uInUIIU-nu pas[nbai aim ureaureul o� xapzo ui sarjjoudLz) a2-e.iols ajcTjjen-e am a�sejua as* zail}o Io spuod am uIOJJ ILIO}-eUI pal}}as aAouia.z Ileus aailiuuad aila `;iuriad am jo u iaa am 2uun(I •0•T Jo IuatogJaoo JJOUr i -e OUIsn uailm `;uana He.Iurej moil--FZ `sears -0T -e uzo.IJ 2uglnsoi puod am o} smolt jjouru 0 pu-e lMjurei aowip 0 snld sa2segosip lu-eld ino-q-VZ uinu-i=u-i am jo urns aim oT auajenmba auznjon .za;um aa.zj ulnuiiuiuz le sauii� Ili J -e SUTe Urem pup sapinord oo;jjuuad amssalun puod Ilse aid oT sa}s-em jueld jo a2xegosip ou aq lleLls azaila `uopuzidxa lrjun 2ugsel pu-e1Iuuad si ilj jo 34L -p @A-goaj;a aid uo 2uruuiljag KISV$ J11IPIizas HSV (-s1) -V uu0}iuoui Ter lui am jo muoul Qm OurmolloJ muoui am jo rS-ep js-ej au} uum -iolul ou paaalduroo aq oT Ougsaj dn-moljoj 01-81pouzu l azinbaj Ilim pu-e Asa; ptiL-aui uu a}n}ia suoo lleils `slo iluoo T4uauzuo.Irnua aj-er zdo.zdd� pu-e `uoraonpojda i uisiue2�.io losjuoo runuiruT `reAlA ins uisiu-02jo losauoo uinuiruiul se dons `juauinoop paTto ails ui paptoads se suor_jtpuoo Isa; anaujou of ainjre� :gyO1\l •saiuzjl .io sluouiaunboi .OuuoTruoui al-eu io le apnloul o4 pagipoui pu-e pauado-a i aq Seu-i Iluuod si iT} `ureasas �3UTAIaoa.i am of sTo-educt leraua;od aajoipui soo inosQ-d zaT-eAA, jo uoisinlQ-emlose0 uT.IoN ail} Xq paurzolrad s4sal jo luamomnboi 2iuuo;tuoui still uioij �ej-ep 4saT Sue pino-qS il}uoui Oupsal 4toixol aija uo pas -eq sI aou-eijdmoo 2410 xo} jo juauissassV •Llauoui Ouimolloj aria. 5uiinp poiinba-i aq Iltm 2uuoTtuoul `pa.zinba.z st 2ut.zoltuoui fgl0lxo4 goliTm ui muoTu -e 2ur znp io4luoui of TTe3 oa}}pmod aill pinor.IS •anoq-e panto ssaipp-e am T -e uogoaS soouaioS aa4uM aid} oT pal}tuzgns aq Ilegs I iodaj aiT,I, •Uuoj am jo -ease 4uouiuioo am ut «nno13 0M„ jo uor4-elou am mtm T.ioda i ail} jo sears/muoui am pu-e `X unoo `.ioquinu adid `.ioquinu 4tuuad `aureu f4ijto-q.l a�Ta 2uppm ui uuoj }sa4 (,LV) �toixo; of nb� ailT jo don ai44 I -e paluool uorauUuojur aid o4alduioo Ilan aalltuuad cnI4 `pazinba i, si �3uuo4juoui totX04 ilotilm uI illuoui -e Ouunp r4iltoL-j am uto-ij moll jo aOxeilosip ou aq a zaila pinoilS L86t0000M 'ODI -LINHad PERMIT No. NC0004987 The application of physical/ chemical methods of treating wastes has also been demonstrated to be effective in the treatment of metal cleaning wastes. However, the effectiveness of ash pond treatment should be considered in relation to the small differences in effluent quality realized between the two methods. It has been demonstrated that the presence of ions of copper, iron, nickel, and zinc in the ash pond waters was not measurably increased during the ash pond equivalency demonstration at the Duke Energy's Marshall Steam Station. Therefore, when the following conditions are implemented during metal cleaning procedures, effective treatment for metals can be obtained at this facility: (1) Large ash basin providing potential reaction volumes. (2) Well-defined shallow ash delta near the ash basin influent. (3) Ash pond pH of no less than 6.5 prior to metal cleaning waste addition. (4) Four days retention time in ash pond with effluent virtually stopped. (5) Boiler volume less than 86,000 gallons. (6) Chemicals for cleaning to include only one or more of the following: (a) Copper removal step- sodium bromate, NaBr03; ammonium carbonate, (NH4)2CO3; and ammonium hydroxide, NH40H. (b) Iron removal step -hydrochloric acid, HCl; and ammonium bifluoride, (NH4)BF2 and proprietary inhibitors. (7) Maximum dilution of wastes before entering ash pond 6 to 1. (8) After treatment of metal cleaning wastes, if monitoring of basin effluents as required by the permit reveals discharges outside the limits of the permit, the permittee will re -close the basin discharge, conduct such in -basin sampling as necessary to determine the cause of nonconformance, will take appropriate corrective actions, and will file a report with EPA including all pertinent data. A. (20.) FLOATING MATERIALS The Permittee shall report all visible discharges of floating materials, such as an oil sheen, to the Director when submitting DMRs. A. (21.) CHEMICAL DISCHARGES Discharge of any product registered under the Federal Insecticide, Fungicide, and Rodenticide Act to any waste stream which may ultimately be released to lakes, rivers, streams or other waters of the United States is prohibited unless specifically authorized elsewhere in- this permit. Discharge of chlorine from the use of chlorine gas, sodium hypochlorite, or other similar chlorination compounds for disinfection in plant potable and service water systems and in sewage treatment is authorized. Use of restricted use pesticides for lake management purposes by applicators licensed by the N.C. Pesticide Board is allowed. A. (22.) PRIORITY POLLUTANT ANALYSIS — OUTFALL 002 The Permittee shall conduct a priority pollutant analysis (in accordance with 40 CFR Part 136) once per permit cycle at outfall 002 and submit the results with the application for permit renewal. Page 17 of 27 PERMIT No. NC0004987 A. (23.) WAIVERS Nothing contained in this permit shall be construed as a waiver by permittee or any right to a hearing it may have pursuant to State or Federal laws or regulations. A. (24.) GROUNDWATER MONITORING WELL CONSTRUCTION AND SAMPLING (STATE ENFORCEABLE ONLY) The permittee shall conduct groundwater monitoring to determine the compliance of this.NPDES permitted facility with the current groundwater standards found under 15A NCAC 2L .0200. The monitoring shall be conducted in accordance with the Sampling Plan approved by the Division. See Attachment 1. A. (25.) STRUCTURAL INTEGRITY INSPECTIONS OF ASH POND DAM The facility shall meet the dam design and dam safety requirements per 15A NCAC 2K. A. (26.) CLEAN WATER ACT SECTION 316(a) THERMAL VARIANCE The thermal variance granted under Section 316(a) terminates on expiration of this NPDES permit. Should the permittee wish a continuation of its 316(a) thermal variance beyond the term of this permit, reapplication for such continuation shall be submitted in accordance with 40 CFR Part 125, Subpart H and Section 122.21(1) (6) not later than 180 days prior to permit expiration. Reapplication shall include a basis for continuation such as a) plant operating conditions and load factors are unchanged and are expected to remain so for the term of the reissued permit; b) there are no changes to plant discharges or other discharges in the plant site area which could interact with the thermal discharges; and c) there are no changes to the biotic community of the receiving water body which would impact the previous variance determination. The next 316(a) studies shall be performed in accordance with the Division of Water Resources approved plan. The temperature analysis and the balanced and indigenous study plan shall conform to the specifications outlined in 40 CFR 125 Subpart H, the EPA's Draft 316(a) Guidance Manual, dated 1977, and the Region 4 letter to NCDENR, dated June 3, 2010. EPA shall be provided an opportunity to review the plan prior to the commencement of the study. Copies of all the study plans, study results, and any other applicable materials should be submitted to: 1) Electronic Version Only (pdf and CD) Division of Water Resources WQ Permitting Section - NPDES 1617 Mail Service Center Raleigh, NC 27699-1617 2) Electronic Version (pdf and CD) and Hard Copy Division of Water Resources Water Sciences Section 1621 Mail Service Center Raleigh, NC 27699-1621 Page 18 of 27 PERMIT No. NC0004987 A. (27.) CLEAN WATER ACT SECTION 316 (B) The permittee shall comply with the Cooling g Wate materials required FR required by the Rule with take Structure Rule per 40 e 125.95. The permittee shall submit all next renewal application. A. (28.) FISH TISSUE MONITORING NE month POND annually and submit the results with SCHARGE - OUTFALL 002 The facility shall conduct fish tissue g is to evaluate the NPDES permit renewal apphby1�si The this ueobjective near of the monitoring the Ash Pond discharge. The potential uptake of pollutants and mercury. The parameters analyzed in fish tissue shall withe arsenic, lan approved by the monitoring shall be conducted in accordance Division. A. (29.) INSTREAM MONITORING onitoring (approximately roximately one mile The facility shall conduct semiannual instream mand discharge) for upstream and approximately one mile downstream of the ash p er, zinc, arsenic, selenium, mercury (method 1631E), chromium, l In )ea monitoring should bromide, total hardness, and total dissolved solids (TDS). ready been establshed through the BIP be conducted at the stations that havehall be submitt dlwith the NPDES permit monitoring program. The monitoring results renewal application. A. (30.) DISCHARGE FROM SEEPAGE Existing Discharges from Seepage ash The facility identified 2 non -engineered discharges elow and from are depicted ge from e n the tm P basin. The locations of the seeps are id attached to the permit. Table 1. Discharge Coordinates and Assigned Outfall Numbers Latitude Longitude Outfall number Discharge ID 101 S-1 35036 71 80057'62"102 S-2 35042'56" 80021'56" l meeting the The outfall for these discharges is .0228.ugh an effluent Within180 days of theeeffective date of this requirements in 15A NCAC 2 linmeeting the permit, the permittee shall demonstrate, through in -stream and ds in the receiving requirements of condition A. (29.), that the water uality stream are not contravened. Discharges from See -page Identified After Permit Issuance The facility shall comply with the "Plan for Identification of New Discharges" as contained in Attachment 2. -For any discharge identified pursuant to this Plan, the facility shall, within 90 days ofthe seep discovery, tandards established in AnNCAC 2B .0200 and e if the discharge ep meets the state water quality, s submit the results of this determi atio duct monitorin to ng for the p theivision. if standardsspecified ci d in A. contravened, the facility shall con (8 ) Page 19 of 27 PERMIT No. NC0004987 If any of the water quality standards are exceeded, the facility shall be considered in violation until one of the options below is fully implemented: 1) Submit a complete application for 404 Permit (within 30 days after determining that a water quality standards is exceeded) to pump the seep discharge to one of the existing outfalls, install a pipe to discharge the seep to the Catawba River, or install an in-situ treatment system. After the 404 Permit is obtained, the facility shall complete the installation of the pump, pipe, or treatment system within 180 days from the date of the 404 permit receipt and begin pumping/ discharging or treatment. 2) Demonstrate through modeling that the decanting and dewatering of the ash basin will result in the elimination of the seep. The modeling results shall be submitted to the Division within 120 days from the date of the seep discovery. Within 180 days from the completion of the dewatering the facility shall confirm that the seep flow ceased. If the seep flow continues, the facility shall choose one of the other options in this Special Condition. 3) Demonstrate that the seep is discharging through the designated "Effluent Channel' and the water quality standards in the receiving stream are not contravened. This demonstration should be submitted to the Division no later than 180 days from the date of the seep discovery. The "Effluent Channel' designation should be established by the DEQ Regional Office personnel prior to the issuance of the permit. This permit shall be reopened for cause to include the "Effluent Channel' in a revised permit. All effluent limits, including water quality -based effluent limits, remain applicable notwithstanding any action by the Permittee to address the violation through one of the identified options, so that any discharge in exceedance of an applicable effluent limit is a violation of the Permit as long as the seep remains flowing. New Identified Seeps If new seeps are identified, the facility shall follow the procedures outlined above. The deadlines for new seeps shall be calculated from the date of the seep discovery. The new identified seep are not permitted until the permit is modified and the new seep included in the permit and the new outfall established for the seep. A. (31.) ELECTRONIC REPORTING OF DISCHARGE' MONITORING REPORTS [G.S. 143-215.1(b)] Federal regulations tequire electronic submittal of all discharge monitoring reports (DMRs) and program reports and specify that, if a state. does not establish a system to receive such submittals, then permittees must submit monitoring data and reports electronically to the Environmental Protection Agency (EPA). --The final NPDES Electronic Reporting Rule was adopted and became effective on December 21, 2015. NOTE: This special condition supplements or supersedes the following sections within Part II of this permit (Standard Conditions for NPDES Permits): • Section B. Signatory Requirements (11.) • Section D. (2.) Reporting Page 20 of 27 PERMIT No. NC0004987 • Section D. (6.) Records Retention • Section E. (5.) Monitoring Reports 1. Reporting Requirements LSupersedes Section D. (2.) and Section E. (5.) (a)1 Effective December 21, 2016, the permittee shall report discharge monitoring data electronically using the NC DWR's Electronic Discharge Monitoring Report (eDMR) internet application. Monitoring results obtained during the previous month(s) shall be summarized for each month and submitted electronically using eDMR: The eDMR system allows permitted facilities to enter monitoring data and submit DMRs electronically using the internet. Until such time that the state's eDMR application is compliant with EPA's Cross -Media Electronic Reporting Regulation (CROMERR), permittees will be required to submit all discharge monitoring data to the state electronically using eDMR and will be required to complete the eDMR submission by printing, signing, and submitting one signed original and a copy of the computer printed eDMR to the following address: NC DEQ / Division of Water Resources / Water Quality Permitting Section AT'T'ENTION: Central Files 1617 Mail Service Center Raleigh, North Carolina 27699-1617 If a permittee is unable to use the eDMR system due to a demonstrated hardship or due to the facility being physically located in an area where less than 10 percent of the households have broadband access, then a temporary waiver from the NPDES electronic reporting requirements may be granted and discharge monitoring data may be submitted on paper DMR forms (MR 1, 1. 1, 2, 3) or alternative forms approved by the Director. Duplicate signed copies shall be submitted to the mailing address above. See "How to Request a Waiver from Electronic Reporting" section below. Regardless of the submission method, the first DMR is due on the last day of the month following the issuance of the permit or in the case of a new facility, on the last day of the month following the commencement of discharge. Starting on December 21, 2020, the permittee must electronically report the following compliance monitoring data and reports, when applicable: • Sewer Overflow/Bypass Event Reports; • Pretreatment Program Annual Reports; and • Clean Water Act (CWA) Section 316(b) Annual Reports. The permittee may seek.an electronic reporting waiver from the Division (see "How to Request a Waiver from Electronic Reporting" section below). 2. Electronic Submissions Page 21 of 27 PERMIT No. NC0004987 In accordance with 40 CFR 122.41(1)(9), the permittee must identify the initial recipient at the time of each electronic submission. The permittee should use the EPA's website resources to identify the initial recipient for the electronic submission. Initial recipient of electronic NPDES information from NPDES-regulated facilities means the entity (EPA or the state authorized by EPA to implement the NPDES program) that is the designated entity for receiving electronic NPDES data [see 40 CFR 127.2(b)]. EPA plans to establish a website that will also link to the appropriate electronic reporting tool for each type of electronic submission and for each state. Instructions on how to access and use the appropriate electronic reporting tool will be available as well. Information on EPA's NPDES Electronic Reporting Rule is found at: http://www2.epa.gov/compliance/final-national-pollutant-discharge- elimination-system-npdes-electronic-reporting-rule. Electronic submissions must start by the dates listed in the "Reporting Requirements" section above. 3. How to Request a Waiver from Electronic Reporting The permittee may seek a temporary electronic reporting waiver from the Division. To obtain an electronic reporting waiver, a permittee must first submit an electronic reporting waiver request to the Division. Requests for temporary electronic reporting waivers must be submitted in writing to the Division for written approval at least sixty (60) days prior to the date the facility would be required under this permit to begin submitting monitoring data and reports. The duration of a temporary waiver shall not exceed 5 years and shall thereupon expire. At such time, monitoring data and reports shall be submitted electronically to the Division unless the permittee re -applies for and is granted a new temporary electronic reporting waiver by the Division. Approved electronic reporting waivers are not transferrable. Only permittees with an approved reporting waiver request may submit monitoring data and reports on paper to the Division for the period that the approved reporting waiver request is effective. Information on eDMR and the application for a temporary electronic reporting waiver are found on the following web page: http://deg.nc.gov/about/divisions/water-resources/edmr 4. Signatory Requirements [Supplements Section B. (11.) (b) and Supersedes Section B. (11.) (d)] All eDMRs submitted to the permit issuing authority shall be signed by a person described in Part II, Section B. (11.) (a) or by a duly authorized representative of that person as described in Part II, Section B. (11.)(b). A person, and not a position, must be delegated signatory authority for eDMR reporting purposes. Page 22 of 27 PERMIT No. NC0004987 For eDMR submissions, the person signing and submitting the DMR must obtain an eDMR user account and login credentials to access the eDMR system. For more information on North Carolina's eDMR system, registering for eDMR and obtaining an eDMR user account, please visit the following web page: http: / / deg.nc.gov /about/ divisions /water -resources / edmr Certification. Any person submitting an electronic DMR using the state's eDMR system shall make the following certification [40 CFR 122.22]. NO OTHER STATEMENTS OF CERTIFICATION WILL BE ACCEPTED: "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 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. " 5. Records Retention [Supplements Section D. (6.)l The permittee shall retain records of all Discharge Monitoring Reports, including eDMR submissions. These records or codes shall be maintained for a period of at least 3 years from the date of the report. This period may be extended by request of the Director at any time [40 CFR 122.41]. A. (32.) DOMESTIC WASTEWATER TREATMENT PLANT The domestic wastewater treatment plant shall be properly operated and maintained to ensure treatment of domestic wastewater to secondary levels. Page 23 of 27 PERMIT No. NC0004987 Attachment 1 GROUNDWATER MONITORING PLAN The permittee shall conduct groundwater monitoring as may be required to determine the compliance of this NPDES permitted facility with the current groundwater Standards found under 15A NCAC 2L.0200. 1. WELL CONSTRUCTION a. Monitoring wells shall be constructed in accordance with 15A NCAC 02C .0108 (Standards of Construction for Wells Other than Water Supply) and any other jurisdictional laws and regulations pertaining to well construction. b. Monitoring wells must be constructed by a North Carolina Certified Well Contractor, the property owner, or the property lessee according to General Statutes 87-98.4. If the construction is not performed by a certified well contractor, the property owner or lessee, provided they are a natural person, must physically perform the actual well construction activities. C. Within 30 days of completion of well construction, a completed Well Construction Record (Form GW -1) must be submitted for each compliance monitoring well to Division of Water Resources, Water Quality Regional Operations Section (WQROS), 1636 Mail Service Center, Raleigh, NC 27699-1636. d. The Mooresville Regional Office, telephone number (704) 663-1699, shall approve the location of new compliance monitoring wells prior to installation. The regional office shall be notified at least 48 hours prior to the construction of any compliance monitoring well and such notification to the WQROS regional supervisor shall be made from 8:00 a.m. until 5:00 p.m. on Monday through Friday, excluding State Holidays. e. All monitoring wells shall be regularly maintained. Such maintenance shall include ensuring that the well caps are rust -free and locked at all times, the outer casing is upright and undamaged, and the well does not serve as a conduit for contamination. f. If the Permittee intends to abandon a compliance monitoring well either temporarily or permanently, the Permittee shall justify the abandonment and request approval from the WQROS Regional Office within 30 business days prior to initiating abandonment procedures. g. Monitoring wells shall be abandoned in accordance with 15A NCAC 02C .0113 (Abandonment of Wells). Within 30 days of completion of well abandonment, a completed Well Abandonment Record (Form GW -30) must be submitted for each monitoring well to WQROS, 1636 Mail Service Center, Raleigh, NC 27699-1636. 2. MAPS a. Updated maps shall be provided within 60 days when any of the following occur: i. Compliance monitoring wells are added or deleted from the plan. Page 24 of 27 PERMIT No. NC0004987 ii. The facility operation changes that would require a change in the waste boundary, compliance boundary, or property line. b. If the map is updated, the Permittee shall submit two original copies of a site map with an appropriate scale to easily identify all features overlaid on the most recent aerial photograph. At a minimum, the map shall include the following information: i. The location and identity of each monitoring well. ii. The location of major components of the waste disposal system. iii. The location of property boundaries within 500 feet of the disposal areas. iv. The elevation of the top of the well casing (i.e., measuring point) relative to a common datum. vi. The depth of water below the measuring point at the time the measuring point is established. vii. The location of compliance boundary. viii. The date the map is prepared and/or revised. ix. Topographic contours in no more than ten (10) foot intervals. For areas of high relief, 20 foot intervals shall be acceptable. C. The map and any supporting documentation shall be sent to the WQROS, 1636 Mail Service Center, Raleigh, NC 27699-1636. 3. GROUNDWATER SAMPLING AND COMPLIANCE. a. The compliance boundary for the disposal system shall be specified in accordance with 15A NCAC 02L .0107(a) or (b) dependent upon the date permitted. An exceedance of groundwater standards at or beyond the compliance boundary is subject to remediation action according to 15A NCAC 02L .0106(c) or (d) as well as enforcement actions in accordance with North Carolina General Statute 143- 215.6A through 143-215.6C. b. Monitoring wells shall be sampled after construction and thereafter at the frequencies and for the parameters as specified in Part 4 of this plan. All maps, well construction forms, well abandonment forms and monitoring data shall refer to the permit number and the well nomenclature. C. Per 15A NCAC 02H .0800, a Division certified laboratory shall conduct all laboratory analyses for the required effluent, groundwater or surface water parameters. d. The measurement of water levels shall be made prior to purging the wells. The depth to water in each well shall be measured from the surveyed point on the top of the casing. e. The measuring points (top of well casing) of all monitoring wells shall be surveyed to provide the relative elevation of the measuring point for each monitoring well. The measuring points (top of casing) of all monitoring wells shall be surveyed relative to a common datum. f. Two copies of the monitoring well sampling shall be submitted on a Compliance Monitoring Form (GW-59CCR), and received no later than 60 days from the sampling date. Copies of the laboratory analyses shall be kept on site, and made available upon request. Page 25 of 27 PERMIT No. NC0004987 The Compliance Monitoring Form (GW-59CCR) shall include this permit number and the appropriate well identification number. The Compliance Monitoring Forms (GW-59CCR) shall be submitted to the Division of Water Resources Information Processing Unit, 1617 Mail Service Center, Raleigh, North Carolina 27699-1617 g. For groundwater samples that exceed the ground water quality standards in 15A NCAC 02L .0202, the Regional Office shall be contacted within - 30 days after submission of the groundwater monitoring form; an evaluation *may be required to determine the impact of the waste disposal activities. Failure to do so may subject the permittee to a Notice of Violation, fines, and/or penalties. h. The provisions of sections 3(fl and 3(g) apply only to the sampling events described in 3(b) above. The reporting requirements for any sampling events other than those described in 3(b) above shall be in accordance with the general provisions of 15A NCAC 02L. 4. MONITORING WELLS, PARAMETERS, AND SAMPLING FREQUENCY. a. Laboratory methods shall be EPA approved and sufficient to detect constituent quantities at or below their individual 15A NCAC 02L groundwater standards. b. The following chart contains the compliance monitoring wells to be sampled, the parameters to be sampled, and the frequency in which the samples shall be collected. MONITORING WELLS PARAMETERS FREQUENCY Laboratory Parameters Aluminum Antimony Arsenic Barium Beryllium Boron Cadmium Calcium Cobalt Chromium Copper Iron MW -4, MW -4D, MW -10S, MW- MW- 0S, Mw, MW- 10D,MW-11D, MW- MW -12D, MW- 13S February, June, October Lead Magnesium Manganese Molybdenum MercuryNickel Potassium Selenium Sodium Strontium Thallium Vanadium12S, Zinc Chloride Sulfate Alkalinity Total Total Bicarbonate Carbonate Dissolved Suspended MW -13D, MW- Solids Solids Field Parameters 14S, MW -14D Turbidity pH Temperature Specific Conductance Dissolved Oxygen Oxidation Reduction Potential Water level Page 26 of 27 PERMIT No. NC0004987 Attachment 2 Plan for Identification of New Discharges (State Enforceable Only) http: / / deq.nc.gov/ about/ divisions/water-resources/water-resources-hot-topics/ dwr- coal-ash-regulation/ duke-energy-npdes-permits-for-facilities-with-coal-ash- ponds/ duke-energy-npdes-modifications-renewals Page 27 of 27 JIM Lake Nonnan North Quad A 03-08-32 -m sm _\lM.......... . . . . . . . . . . 002A and 002B N M Z 001 W', yF 02 Ai I 6; �QLl 003 ON; gg 0 56 0 %. qp "An 1w, !CN, M a mkl C,� ilj� IngWMA.. t/� Fakill Receivin';Streaina.i: Lata b_aRi `e. ceiv ai ,X Y 01 v --c'60 ....... pceTbw•6f C Ke e '0004987" 6- �Yffidll, S&affi, St4ti on J:Oj� All— — `ps7�'L:Y rb d o- r• r 1 <l s f q I'�'%Z `Y { }S, +if',\�µ ��3 � f' /+. �F• 7-':z�'�'+.„yf�aC'3rtr .�-a+�yww.�' _C .� r� ,{ � 4 A � �. 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Sf t t < ^$ACTNEASH BASINELEVATION 760 FT f-" #i ' r._.1�� t%•- ��}� :+ 't ftELEVATION 790-T(APPROXIMATE)�`•: ti a t (APPROXIMATE) r t =• a yc { ° 3t \ . MW-iQ5 r1 �y�+- ��"+tJ' i • r F{ >' 7 1• \ i tiri i i�, vS Z- _ + \ ' NPDES-10D r\i1dZ1Ry,�'E x.7.,1„^ 'W ' t �X� cit'a �" � �•�' � _ _ rr� * 1 � ` j �'� r,�' �� - «. -' �MRy�NyryOs�ZS,rE.O, � ,' �- � a �,1 ��-I j. : -�j �a7�'+y # s ♦ •'fie'' e..�. /,-.. _ :` .. • F'4Mx�_r �` er '• E `. �rh "+i1..rr \:i}y kKs t �,��," �, ,- •-'r's' y ,t „e/ , . �' ' 'I. f { r mo'`'t 5 3 .L •, ir.! ..y,{ aFf)'n. frLtl M rs l _r t l t �5 +• � ! 1 s t i" — --- '- - � � i rt _, . 1 J•C! p Lra. .% '•1 ,._. t'r f`':1 4!`7'4 �w i l a `i-�.. a ` °j J >' s� t ''�� qf1• Ja"� �.:- �' � 4 r Tt R � �y.;�,r i Y \^ t. ry C t , 9nri, / �14 . f�' 'Y� ' J • _ ,? � C y'{� � , -1�.�'` - `!�`��,- is?Y'� et'`-Hi—�cw`.tr....� -r�� ,�� r\� �5•`` .ti.��..'� .e, _ .. 1 . Ft;..-a'.�_ .a. 5 /// ! %� ' a..-.. _ �`F : ""'ya--��:.E" _ , r+P" :...,-"'",' F�cw�a::� ..xr✓/�� r _ - - `' -aa... . , .. ' DUKE ENERGY® May 9, 2016 Jeffrey O. Poupart Water Quality Permitting Section Chief Division of Water Resources Department of Environmental Quality State of North Carolina 1617 Mail Service Center Raleigh, NC 27699-1617 � sero,r 0 V , Harry K. Sideris Senior Vice President Environmental, Health & Safety 526 S. Church Street Mail Code: EC3XP Charlotte, NC 28202 (704) 382-4303 RECEIVEDINCDEWW MAY 13'2016 Water Quality Permitting Section Subject: Marshall Steam Station Appropriate Applicability dates for Compliance with the new Effluent Guidelines Rule Dear Mr. Poupart: Duke Energy (Duke) submits the attached information as a justification for appropriate applicability dates for compliance with the new Effluent Guidelines Rule (ELG Rule) (80 Fed. Reg. 67,838 (Nov. 3, 2015)) at Marshall Steam Station (MSS), located in Mooresville, North Carolina. The ELG Rule sets a range of possible applicability dates for compliance with the new best available technology (BAT) limits for bottom ash transport water (zero discharge) and FGD wastewater (numeric limits for selenium, arsenic, mercury, and nitrate/nitrite), as well for fly ash transport water (zero discharge). As the rule makes clear BAT limits may apply — depending on the individual circumstances of the facilities subject to the rule — any time within the window of November 1, 2018 to December 31, 2023. In selecting an appropriate applicability date for each waste stream subject to the new BAT limits, the permitting authority is called upon to determine an "as soon as possible" date when supplied with appropriate information by the permittee. The attached provides the appropriate information justifying the following applicability dates: Bottom Ash Transport Water: To convert the wet bottom ash transport system at MSS to a closed loop system, Duke plans to install a remote mechanical drag chain system (RMDS). Duke would like to request January 31, 2021 as the applicability date for the zero discharge of bottom ash transport water, assuming a permit effective date of July 1, 2016. — FGD wastewater: Duke anticipates that it will need to replace, in its entirety, the existing FGD wastewater treatment system at MSS. Duke would like to request January 31, 2021 as the applicability date for the BAT limits for FGD wastewater, assuming a permit effective date of July 1, 2016. Mr. Poupart Appropriate Applicability dates for Compliance with the new Effluent Guidelines Rule Page 2 Fly Ash Transport Water: Fly ash is handled dry during normal operation; therefore, Duke is not requesting an applicability date for the zero discharge of fly ash transport water beyond November 1, 2018. If you have any questions or need to discuss further, contact Richard Baker at 704-382-7959. Sincerely, Harry Sideris SVP - Environmental, Health & Safety Enclosures Marshall Steam Station: Effluent Guidelines Rule Justification for Applicability Dates A. Introduction Duke Energy (Duke) is working diligently to develop and refine an optimized schedule for the installation and upgrades to wastewater treatment systems to comply with the Steam Electric Power Generating Effluent Limitation Guidelines (ELG) at seven coal-fired stations in North Carolina. Duke submits the following information as a justification for appropriate applicability dates for compliance with the new Effluent Guidelines Rule (ELG Rule) (80 Fed. Reg. 67,838 (Nov. 3, 2015)) at Marshall Steam Station (MSS), located in Mooresville, North Carolina based on the preliminary fleet wide optimization schedule. MSS is a four -unit coal fired station with a total generating capacity of 2,110 megawatts (MW). Units 1 and 2 have a rated capacity of 385 MW each and Units 3 and 4 have a rated capacity of 670 MW each. MSS currently discharges treated bottom ash transport water, and FGD wastewater. Under normal plant operations, fly ash is collected dry and either disposed in a permitted on-site landfill or transported offsite for beneficial reuse. If the dry fly ash collection system is not operating, the fly ash is sluiced to the ash basin in which the transport water is treated in the ash basin and subsequently discharged through outfall 002. Bottom ash from the boilers is sluiced with transport water to a holding cell for recycling activities. The transport water is treated by the ash basin and is discharged through outfall 002. The FGD wastewater is sent to a solids removal system followed by a vertical flow wetland and then constructed wetlands prior to discharging to the ash basin via internal outfall 004. The ELG Rule sets a range of possible applicability dates for compliance with the new BAT limits for bottom ash transport water (zero discharge) and FGD wastewater (numeric limits for selenium, arsenic, mercury, and nitrate/nitrite), as well for fly ash transport water (zero discharge). The regulation provides that all permits issued after the effective date of the rule (January 4, 2016) should contain applicability dates for compliance with the BAT limits, and that those dates should be "as soon as possible" but not sooner than November 1, 2018 and not later than December 31, 2023. For MSS, since the plant's final NPDES permit will be issued after January 4, 2016, but before November 1, 2018, EPA specifically instructs permit writers to "apply limitations based on the previously promulgated BPT limitations or the plant's other applicable permit limitations until at least November 1, 2018." 80 Fed. Reg. at 67,883, col. 1 (emphasis added). As the rule makes clear, however, BAT limits may apply — depending on the individual circumstances of the facilities subject to the rule — any time within the window of November 1, 2018 to December 31, 2023. In selecting an appropriate applicability date for each waste stream subject to the new BAT limits, the permitting authority is called upon to determine an "as soon as possible" date. The ELG Rule provides a very specific definition for "as soon as possible." The permit writer — when supplied with appropriate information by the permittee — must consider a range of factors that affect the timing of compliance. Those factors are as follows: (1) Time to expeditiously plan (including to raise capital), design, procure, and install equipment to comply with the requirements of this part. (2) Changes being made or planned at the plant in response to: (i) New source performance standards for greenhouse gases from new fossil fuel - fired electric generating units, under sections 111, 301, 302, and 307(d)(1)(C) of the Clean Air Act, as amended, 42 U.S.C. 7411, 7601, 7602, 7607(d)(1)(C); (ii) Emission guidelines for greenhouse gases from existing fossil fuel -fired electric generating units, under sections 111, 301, 302, and 307(d) of the Clean Air Act, as amended, 42 U.S.C. 7411, 7601, 7602, 7607(d); or (iii) Regulations that address the disposal of coal combustion residuals as solid waste, under sections 1006(b), 1008(a), 2002(a), 3001, 4004, and 4005(a) of the Solid Waste Disposal Act of 1970, as amended by the Resource Conservation and Recovery Act of 1976, as amended by the Hazardous and Solid Waste Amendments of 1984, 42 U.S.C. 6906(b), 6907(a), 6912(a), 6944, and 6945(a). (3) For FGD wastewater requirements only, an initial commissioning period for the treatment system to optimize the installed equipment. (4) Other factors as appropriate. 40 C.F.R. § 423.11(t). The wastewater treatment systems at MSS will undergo significant modifications and in most cases complete replacement to comply with the revisions to the ELG Rule. Duke would like sufficient time to select, design and install the most cost effective technology at MSS to comply with the ELG limits and reduce the burden to the ratepayers. We have prepared a preliminary timeline for planning, designing, procuring, constructing and optimizing the technology once it is selected, for each applicable waste stream. Based on our preliminary analysis, we request the following applicability dates: — Bottom Ash Transport Water: To convert the wet bottom ash transport system at MSS to a closed loop system, Duke plans to install a remote mechanical drag chain system (RMDS). Duke would like to request January 31, 2021 as the applicability date for the no discharge of bottom ash transport water, assuming a permit effective date of July 1, 2016. Duke anticipates that equipment will be installed by December 31, 2019 to comply with the North Carolina - Coal Ash Management Act (NC -LAMA) and the Coal Combustion Residual _(CCR) rule. These rules, however, only regulate the material, not the water. As discussed below, Duke will need a 13 month window to optimize the system to operate as a zero discharge system. In addition, the extent and complexity of the permits required are unknown at this time. Duke, therefore, allocated 6 months to account for potential permitting delays. FGD wastewater: Duke anticipates that it will need to replace, in its entirety, the existing FGD wastewater treatment system at MSS. We plan to evaluate the development of a new physical/chemical system augmented by a selenium reduction system. Duke would like to request January 31, 2021 as the applicability date for the best available technology (BAT) limits for FGD wastewater, assuming a permit effective date of July 1, 2016. Fly Ash Transport Water: Fly ash is handled dry during normal operation; therefore, Duke is not requesting an applicability date for the zero discharge of fly ash transport water beyond November 1, 2018. 2 The following provides necessary information justifying the requested applicability dates provided above. B. Bottom Ash Transport Water As stated above, significant portions of the bottom ash transport system at MSS will need to be replaced to comply with the no discharge limit of bottom ash transport water (BATW). The rule identified dry handling or closed-loop systems as the BAT technology basis for control of pollutants in bottom ash transport water. Specifically, a mechanical drag system (MDS) was identified as the technology basis for a dry handling system, where as a RMDS was identified as the technology basis for a closed-loop system. Duke is planning on installing a RMDS at MSS to handle bottom ash dry. The system will be designed to operate in a closed-loop mode to meet the zero discharge limits for BATW. Duke anticipates 55 months from the effective date of the permit will be needed to design, install and commission the RMDS as a zero discharge system based on the following preliminary timeline. Remote Mechanical Drag System (RMDS) Activity Duration (Months) Design 11 • Siting 4 • Engineering 7 Procurement 12 Potential Permitting Delays 6 Construction/Tie-in 13 Optimization & Operational Experience' 13 • Commissioning 2 o Start -Up 6 Total: I55 1) Even though is it estimated that commissioning and start-up can occur in 8 months, Duke anticipates needing a 13 month window to obtain the necessary operating time at full load. Assuming a permit effective date of July 1 2016, Duke estimates the system can be installed and operated to comply with the zero discharge limit of BATW on or before January 31, 2021. To design, procure, construct and optimize the RMDS at MSS to operate as a closed-loop system, the following steps must be taken: Design & En ing eering Due to the simultaneous implementation of programs, such as the CCR Rule and NC -LAMA across applicable sites in North Carolina, engineering and technology resources are limited. Duke, therefore, estimates the design and engineering process will take 11 months. Some of the activities within the water balance and siting task will occur concurrently; however the design cannot be completed until the siting task is completed. The permitting process, if necessary, will be initiated in the design and engineering phase, but it is assumed permit receipt / approval will be conducted concurrently with the design and procurement phase and will be completed prior to the construction phase. The following tasks will need to be completed. 3 Water Balance The first step in the design process of the RMDS is to develop a detailed water balance of the current BATW. To operate the system as a zero discharge system, there is a balance between the inputs of water into the system and the outputs of water through evaporation and bottom ash removal. This is necessary to determine if any additional treatment of the BATW is needed to avoid increase in fines and concentration of other constituents that could affect equipment operability. In addition, several non-BATW waste streams are currently commingled and treated along with BATW. The flow of these waste streams will be rerouted from the BATW system to a new wastewater treatment system. This will require the streams to be characterized for both volumetric flow and constituent make-up in order to size and design an appropriate treatment system. It is important to note that not all waste streams discharge continuously or simultaneously. Some waste streams discharge intermittently based on activity occurrence, such air preheater and precipitator washes, while others may only discharge under certain rainfall events. In addition, many waste streams do not discharge if the unit is not running. With most coal-fired units operating in an infrequent mode, the opportunities to collect samples are limited and the operation schedule could affect the schedule of this task. Upon completion of the water balance, detailed engineering of the RMDS system and piping reroutes of non-BATW can commence. Siting The RMDS will need to be sited appropriately to avoid any historical or current coal combustion product disposal (CCP) sites and avoid construction areas that will be used to complete closure of the ash basins at MSS. In addition, Duke will attempt to site the system to avoid waters of the U.S. (WOTUS). However, based on the final siting of the system, WOTUS may not be avoided, and permits from the U.S. Army Corps of Engineers may be required. Permitting If WOTUS cannot be avoided, then permitting from the U.S. Army Corps of Engineers (USACE) will be needed. At this time, it is unknown whether a USACE permit will be required or the type of permit that may be required (nationwide permit (NPW) or individual permit). Duke, therefore, has included 12 months in the schedule to prepare and obtain any necessary USACE permits. Once the RMDS is commissioned, the permitted discharge flows will change drastically. The amount of water discharged could be reduced by as much as 85%. In addition, these flows typically were treated along with the BATW in the ash basin. Duke, therefore, will need to design, and construct a new treatment system for these low volume wastes. The size and technology of the treatment system will be determined based on the water characterization study discussed above. With significant changes to the characteristics of the permitted discharge, Duke anticipates a NPDES permit modification will be required to revise the permit to account for the changes in flow and constituent make-up. In addition, based on the final siting of the low volume wastewater treatment system, a new outfall may need to be constructed for the discharge of the effluent from this new wastewater treatment 4 system. The construction of a new outfall would require a permit/approval from the Federal Energy Regulatory Commission (FERC) because Lake Norman is a FERC regulated reservoir. The FERC approval process requires all other permits are received prior to submitting the approval application. Even though the permitting task will be initiated during the design and engineering phase, it is expect to continue through the procurement phase and up to the construction phase. In addition, the extent and complexity of the permits required are unknown at this time. The required permits will be evaluated during the engineering and design phase. Since time needed to prepare the permit applications and the time needed to receive the permits is uncertain, Duke allocated 6 months to account for potential permitting delays. Procurement After the design is complete, Duke will initiate the process to procure the necessary outside resources to construct and install the new wastewater treatment systems. This process will involve the following steps: Evaluate potential vendors for proposal solicitation; Develop and submit request for proposal (RFP) to selected vendors; Conduct a review and vendor selection based on the received bids; Develop required contract documents; Acquire materials (potentially from overseas), which involves: o Shipment, and o Equipment Fabrication Fabrication and inspection of equipment. RMDS have a fabrication queue that is dependent on total industry -wide demand. Duke, therefore, has allocated 12 months to acquire the necessary materials. Construction Once all the necessary materials are procured, Duke estimates construction of the RMDS will take approximately 13 months. In addition, the tie-in of the RMDS to each individual generating unit will need to occur during outages, which are anticipated to occur between March to May and October to November depending on generation demand. Optimization and Operational Experience As stated above, Duke is planning to have the equipment installed by December 31, 2019 at the latest to meet the obligations under CAMA, in addition, to any CCR requirements. Again, these rules regulate the bottom ash material, not the transport water. Given the system will continue to utilize water to transport bottom ash, time will be needed to gain operational experience and optimize the system to meet the zero discharge limit. Duke estimates a 13 month window will be required to gain the necessary operational experience and fine-tune the system. The 13 month window is estimated based on the potential that the station may only be operating at full load during the winter and summer months. Therefore, a 13 month window will be needed to acquire 2 to 3 month optimization period and 6 to 9 months of operating experience with the system at full load. 5 C. New Wastewater Treatment System As discussed above, with the removal of several non-BATW waste streams from the bottom ash transport system, a new wastewater treatment system will need to be designed and constructed for co - treatment of low volume waste and other regulated process streams per the CCR rule, ELGs, and NDPES permitting requirements. The activities associated with the new wastewater treatment system will be conducted concurrently with the other design activities at the site. These waste streams are not subject to the applicability date in the ELG rule, therefore, Duke is not requesting a compliance date, but this task will need to be completed prior to the effective date of the zero discharge of BATW. Duke anticipates 30 months will be needed to design, install and commission the new wastewater treatment system, based on the following preliminary timeline. New Wastewater Treatment System Activity Duration (Months) Siting 3 Engineering 6 Procurement 3 Construction/Tie-in 9 Commissioning 3 Start -Up 6 Total: 30 D. FGD Wastewater Duke anticipates that it will need to replace in its entirety the existing FGD wastewater treatment system at MSS. The existing constructed wetlands are located within a CCR disposal area, which may need to be excavated or capped in place per NC -LAMA. Duke is anticipating installing a physical/chemical treatment system and a selenium reduction technology. The selenium reduction technology has not yet been selected and Duke will be evaluating suitable technologies based on cost and feasibility. EPA recognizes that designing, procuring, installing, and optimizing an FGD wastewater treatment system is a complicated and time-consuming undertaking, involving much study and careful planning. For example, EPA states: "For plants that are planning to include fuel flexing in their operations, in the years prior to the installation and operation of the FGD wastewater treatment system, the plant should consider sampling the untreated FGD wastewater to evaluate the wastewater characteristics that are present based on the differing fuel blends. Based on those characteristics, the plant will be better able to design a system that can properly treat its FGD wastewater given variability that might occur at the plant, and it will be better prepared to adjust chemical dosages in the chemical precipitation system to mitigate the variability in the wastewater that enters the biological treatment system." Response to Comments, p. 5-387. 10 EPA also states: "While EPA has based the effluent limitations and standards for selenium and nitrate/nitrite (as N) for FGD wastewater based on the performance of the Allen and Belews Creek biological treatment systems, EPA does not contend that every plant in the industry can simply take the design parameters from those two plants, install the biological treatment system, and meet the effluent limitations. Each plant will need to work with engineering and design firms to assess the wastewater characteristics present at their plant to determine the most appropriate technologies and design the system accordingly meet the effluent limitations. Therefore, some plants may need to design the bioreactors to provide additional bed contact time (as provided by the hydraulic residence time and volume of biomass and carbon substrate), while other plants may find they need less." Response to Comments, p. 5-389 Duke anticipates 55 months from the effective date of the permit will be needed to design, install and commission the FGD wastewater treatment system to meet the BAT limits based on the following preliminary timeline. FGD WWT Upgrade Activity Duration (Months) Design & Engineering 10 • Siting 4 • Engineering 6 Procurement 12 Potential Permitting Delays 6 Construction/Tie-in 12 Start-up & Optimization' 15 • Commissioning 6 • Start -Up 6 Total: 1 55 1) Duke is allocating a 15 month window to complete the commissioning and start-up under all expected operating conditions from full load to partial load to periods of no load. Assuming a permit effective date of July 1 2016, Duke estimates the system can be installed and commissioned to meet the BAT limits on or before January 31, 2021. To design, procure, construct and commission the FGD WWT system at MSS, the following steps must be taken: Design & Engineering As with the RMDS, engineering and technology resources are limited due to regulatory requirements for concurrent implementation of programs, such as the CCR Rule and NC -LAMA across applicable sites in North Carolina. Duke is, therefore, estimating 10 months to complete the design and engineering phase of the project. 7 Siting As with the RMDS, the FGD WWT system will need to be sited to avoid any former or current CCR sites and avoid construction areas that will be used to complete closure of the ash basins at MSS. Additionally, Duke will need to site the system to avoid nuisance odor outside the property boundary. Duke will also attempt to site the system to avoid WOTUS. However, based on the final siting of the system WOTUS may not be avoided, and permits from the U.S. Army Corps of Engineers may be required. Technology Selection Duke has significant experience in the design, construction and operation of biological treatment systems for selenium reduction. Based on Duke's experience, biological treatment alone may not be a fool proof technology based on the characteristics of the coal. Duke, therefore, is obligated to review and evaluate whether other suitable technologies are available to treat FGD wastewater for selenium reduction at MSS. Duke will be working closely with utility organizations, such as the EPRI, to identify suitable technologies for the removal of selenium from FGD wastewater and possibly additional polishing steps that may be required to meet the limits. Upon completion of the siting and technology selection, the engineering design of the system will be completed. Permitting If WOTUS cannot be avoided, then permitting from the U.S. Army Corps of Engineers (USACE) will be needed. At this time, it is unknown whether a USACE permit will be required or the type of permit that may be required (nationwide permit (NPW) or individual permit). Duke, therefore, has included 12 months in the schedule to prepare and obtain any necessary USACE permits. The installation of the FGD WWT may change the characteristics of the final discharge, therefore, a NPDES permit modification may be required to revise the permit to account for the changes in flow and constituent make-up. Even through the permitting task will be initiated during the design and engineering phase, it is expect to continue through the procurement phase and up to the construction phase. In addition, the extent and complexity of the permits required are unknown at this time. The required permits will be evaluated during the engineering and design phase. Since time needed to prepare the permit applications and the time needed to receive the permits is uncertain, Duke allocated 6 months to account for potential permitting delays. Procurement After the design is complete, Duke will initiate the process to procure the necessary outside resources to construct and install the new wastewater treatment systems. This process will involve the following steps: — Evaluate potential vendors for proposal solicitation; — Develop and submit a request for proposal (RFP) to selected vendors; — Conduct a review and vendor selection based on the received bids; — Develop required contract documents; — Acquire materials (potentially from overseas), which involves: o Shipment, and o Equipment Fabrication — Fabrication and inspection of equipment. The selenium reduction technology will have a fabrication queue that is dependent on total industry- wide demand. Duke, therefore, has allocated 12 months to acquire the necessary materials. Additionally, raw materials needed may have an extended lead-time from time of order to delivery, such as the granulated activated carbon used in the biological system, which has a lead time of 12 months. Construction / Tie In Once all the necessary materials are procured, Duke estimates construction of the FGD WWT will take approximately 12 months to complete. In addition, the tie-in of the FGD WWT to each individual FGD scrubber will need to occur during outages, which are anticipated to occur between March to May and October to November depending on generation demand. Commissioning & Start-up 1 Duke estimates that commissioning and start-up of the FGD WWT will take 12 months to complete, 6 months for each task. Duke, however, is allocating a 15 month window to complete the commissioning and start-up under all expected operating conditions from full load to partial load to periods of no load. This will allow the identification of necessary actions that need to be completed in order to maintain the system under different operating scenarios. E. EPA Provided A Range of Applicability Dates To Allow For Coordination Across Regulatory Requirements and to Promote Orderly Decisions The steam electric industry is in the midst of major transitions driven by new environmental regulatory requirements in the air, waste, and water arenas. In the ELG Rule, EPA explicitly acknowledged the complications of planning and executing ELG retrofits while developing and executing compliance strategies under the other rules. EPA made it clear that the range of applicability dates provided in the ELG Rule are supposed to be implemented in a manner that avoids stranded costs and promotes orderly decisionmaking. For instance, EPA states: "From an environmental protection/coordination standpoint, with the increased use of flue gas desulfurization scrubbers and flue gas mercury controls in response to air pollution -related requirements, this rule makes sense from a holistic environmental protection perspective and from the perspective of coordinating across rules affecting the same sector. This final ELG controls the discharges associated with these particular waste streams." Response to Comments, p. 8-388. 9 EPA also states that the permitting authority may "account for time the facility needs to coordinate all the requirements of this rule, along with other regulatory requirements, to make the correct planning and financing decisions, and to implement the new requirements in an orderly and feasible way." Response to Comments, p. 8-129. At Marshall, we need to coordinate our ELG implementation strategy with CCR and NC-CAMA rules. For both the CCR and CAMA rules, we are evaluating one approximately 394 -acre ash pond to determine whether it meets the locational restrictions of 40 C.F.R. § 257.60 - .64. The future of the ash pond under both of these rules will determine whether it is available or not to receive legacy wastewaters (i.e., those wastewaters generated before the applicability date for bottom ash transport water retrofits) and continue to receive non-BATW. In addition, as discussed above, the final determination of the extent of the ash pond, as well as the closure method could have significant ramifications for the siting of both the RMDS and FGD WWT. F. ELG Implementation Should be Coordinated with the Clean Power Plan (CPP) to Avoid Stranded Costs The ELG Rule clearly contemplates that the compliance timelines for its requirements should account for any applicable obligations under the CPP. However, the affected units at Marshall will not know their individual obligations under the CPP until well after November 1, 2018. As promulgated by EPA, the CPP's emission guidelines do not apply directly to units. Instead, states are responsible for developing state plans setting forth requirements applicable to individual units that implement those emission guidelines. These state plans are subject to review and approval by EPA. If EPA determines that the state has not submitted an approvable plan, then EPA will promulgate a federal plan in its place. The timeline the CPP provides for developing and reviewing these state plans involves numerous steps. The initial deadline for state plan submittal was September 6, 2016. 40 C.F.R. § 60.5760(a). The vast majority of states were expected to seek and obtain a two-year extension for final state plan submittal until September 6, 2018. See id. § 60.5760(b). However, the Supreme Court issued a stay of the CPP on February 8, 2016. Thus, the timing of the requirements of the CPP is uncertain at this time, as we wait further decisions by the Supreme Court. Duke would like to request the option to revise the applicability dates for the ELG requirements if the stay of the CPP is lifted and the operation of MSS will be affected. Statements in the Response to Comments regarding stranded costs apply to any rule, not just the CPP. EPA explains in the Response to Comments that it provided flexibility in applicability dates so that facilities could consider all new regulatory requirements and then have an adequate time to plan and implement accordingly, and thus avoid stranded costs: "EPA is sensitive to the need to provide sufficient time for steam electric power plants to understand, plan for, and implement any changes to their operation to meet their environmental responsibilities, and agrees with the commenter that transparency of requirements is important for minimizing "stranded investments." ...Furthermore, as described in the preamble, the final rule provides time for plant owners or operators to implement changes to plant operations in order to meet the final limitations and standards, as well as flexibility to permitting authorities in implementing the final rule. 10 The Agency specifically considered the timing of requirements of other environmental regulations in establishing implementation requirements for the ELGs, in order to provide steam electric power plants time to consider and implement their strategy for compliance." Response to Comments, p. 8-388. Even though the implementation and effects of the CPP are uncertain, North Carolina Department of Environmental Quality (NCDEQ) is justified providing flexibility in the applicability dates from other regulatory requirements such as the CCR and NC-CAMA, as discussed above. G. The Proposed Schedules Help To Maintain Marshall's Availability to the Grid, Which Promotes Grid Reliability Duke developed the proposed BATW retrofit schedule and its applicability date with grid reliability in mind. The dispatch of units at MSS varies throughout the year. Typically one unit is operating throughout the year and all four units are typically dispatched from December to March and June thru September. Therefore, the final tie-in schedule will avoid these months and more than likely tie-ins will need to occur across more than one outage. EPA explicitly notes that the permitting authority should consider grid reliability in setting applicability dates: "EPA's decision is also designed to allow, more broadly, for the coordination of generating unit outages in order to maintain grid reliability and prevent any potential impacts on electricity availability, something that public commenters urged EPA to consider." 80 Fed. Reg. at 67,854, col. 2. See also Response to Comments, p. 8-138. Also, EPA clearly anticipated that much of the new technology required for retrofits to bottom ash transport water and FGD wastewater systems would be constructed in a manner that would not interrupt routine facility operations, and then tied in during regularly scheduled plant or unit outages. According to the preamble, the timing of the final rule "enables facilities to take advantage of planned shutdown or maintenance periods to install new pollution control technologies." 80 Fed. Reg. at 67,854, col. 2. EPA also recognizes that tie-ins of new equipment may need to occur across more than one outage. EPA states: "the need to span installation of equipment over separate unit outages [is] a consideration that can be incorporated into the permit writer's determination of the `as soon as possible' date, assuming the plant provides documentation demonstrating such a need." Response to Comments, p. 8-54. 11 DEQ/DWR FACT SHEET FOR NPDES PERMIT DEVELOPMENT NPDES No. NC0004987 SUMMARY This revised draft permit incorporates changes made subsequent to a Public Hearing held on April 8, 2015 seeking comments to the original draft NPDES wastewater permit renewal for Marshall Steam Station. Duke Energy operates Marshall Steam Station in Catawba County. The Station operates six outfalls. These outfalls are 001, 002, 002a, 002b, 003, and 004. The permitted outfalls are summarized below: • Outfall 001 — Condenser Cooling Water (CCW) Units 1 — 4: The CCW system is a once- through, non -contact cooling water system, which condenses steam from the condensers and other selected heat exchangers. When the station is operating at full power, it has a design capacity to pump 1463 MGD (1.016 MGPM) of cooling water through the network of tubes that runs through the condenser and selected heat exchangers. The raw cooling water is returned to the lake. No biocides or other chemicals are used in the condenser cooling water. Units 1 and 2 operate two CCW pumps each while units 3 and 4 operate three pumps. • Outfall 002 — Ash Basin: The station ash basin accommodates flows from two yard -drain sumps, an ash removal system, low volume wastes and non -point source stormwater. Low volume waste sources include, but are not limited to: wastewater from wet scrubber air pollution control systems, ion exchange water treatment system, water treatment evaporator blowdown, laboratory and sampling streams, boiler blowdown, floor drains, and recirculating house service water systems. A sanitary waste treatment system consists of an aerated basin that provides treatment with a 30 — day retention time and has a total volume of 587,000 gallons. Effluent from the aerated basin is polished further through additional residence time in the ash basin. The new sanitary waste treatment system is designed for 6100 gpd (normal) and 13500 gpd (outage). NPDES Permit NC 0004987 Page 1 Facility Information Applicant/FacilityName: Duke Ener — Marshall Steam Station Applicant Address: Water Management, Duke Energy, P.O. 28201 Box 1006, Charlotte, NC Facility Address: 8320 E. NC Highway 150, Terrell, NC 28682 Permitted Flow Not Limited Type of Waste: 99.9% Industrial, 0.1% Domestic Facility/Permit Status: Renewal County: Catawba Miscellaneous Receiving Stream: Lake Norman Regional Office: Mooresville Stream Classification: WS -IV & B CA USGS To o Quad: Lake Norman North 303(d) Listed?: No Permit Writer: Sergei Chernikov, Ph.D. Subbasin: 03-08-32 Date: March 16, 2016 Drainage Area mg:. NA Summer 7Q10 cfs) ' Release 60 cfs)' Winter 7Q10 cfs): NA 1Q10 cfs): IWC (%): 18 SUMMARY This revised draft permit incorporates changes made subsequent to a Public Hearing held on April 8, 2015 seeking comments to the original draft NPDES wastewater permit renewal for Marshall Steam Station. Duke Energy operates Marshall Steam Station in Catawba County. The Station operates six outfalls. These outfalls are 001, 002, 002a, 002b, 003, and 004. The permitted outfalls are summarized below: • Outfall 001 — Condenser Cooling Water (CCW) Units 1 — 4: The CCW system is a once- through, non -contact cooling water system, which condenses steam from the condensers and other selected heat exchangers. When the station is operating at full power, it has a design capacity to pump 1463 MGD (1.016 MGPM) of cooling water through the network of tubes that runs through the condenser and selected heat exchangers. The raw cooling water is returned to the lake. No biocides or other chemicals are used in the condenser cooling water. Units 1 and 2 operate two CCW pumps each while units 3 and 4 operate three pumps. • Outfall 002 — Ash Basin: The station ash basin accommodates flows from two yard -drain sumps, an ash removal system, low volume wastes and non -point source stormwater. Low volume waste sources include, but are not limited to: wastewater from wet scrubber air pollution control systems, ion exchange water treatment system, water treatment evaporator blowdown, laboratory and sampling streams, boiler blowdown, floor drains, and recirculating house service water systems. A sanitary waste treatment system consists of an aerated basin that provides treatment with a 30 — day retention time and has a total volume of 587,000 gallons. Effluent from the aerated basin is polished further through additional residence time in the ash basin. The new sanitary waste treatment system is designed for 6100 gpd (normal) and 13500 gpd (outage). NPDES Permit NC 0004987 Page 1 • Outfall 002a — Sump #1 Overflow: This outfall discharges very infrequent overflows of yard sump number 1. • Outfall 002b — Sump #2 Overflow: This outfall discharges very infrequent overflows of yard sump number 2. • Outfall 003 (internal outfall) — Unit 4 ID Fan Control House Cooling Water discharge into the intake for CCW: Once -through, non -contact cooling water is supplied to the Unit 4 induced draft (ID) fan motor control -house equipment to remove excess heat. No chemicals are added to the once -through raw lake water • Outfall 004 (internal outfall) — FGD system discharge into Ash Basin: In association with Clean Smokestacks legislation, Duke Energy installed a flue -gas desulfurization (FGD) wet scrubber. This scrubber generates a wastewater needing treatment prior to discharge. An internal outfall (004) has been established for the effluent from the FGD treatment system. Internal outfall 004 discharges to the ash settling basin which is currently permitted as outfall 002. FGD treatment system includes physical/chemical treatment and wetlands. • Proposed Outfalls 101 and 102 - Seeps. The summer 7Q10 flow (60 cfs) is based on the minimum release from the dam that regulates the receiving water body. The federal rule 40 CFR 423 states that "there shall be no discharge of pollutants" in fly ash transport water and in bottom ash transport water. It also states that "dischargers must meet the discharge limitation in this paragraph by a date determined by the permitting authority that is as soon as possible beginning November 1, 2018, but no later than December 31, 2023". Therefore, the facility must comply with the following requirements: 1. By November 1, 2018 there shall be no discharge of pollutants in fly ash transport water. 2. By January 31, 2021 there shall be no discharge of pollutants in bottom ash transport water. This time period beyond November 1, 2018 is provided in order for the facility to budget, design, and construct the treatment system. Duke provided the justification for the proposed deadline and the DWR concurred with the compliance date. Duke Energy submitted application dated October 9, 2014. The current permit expired April 30, 2015. SEEPS- OUTFALLS 101 AND 102 Existing Discharges from Seepage The facility identified 2 non -engineered discharges from seepage from the ash settling basin. The locations of the seeps are identified below and are -depicted on the map attached to the permit. Table 1. Dischar e Coordinates and Assigned Outfall Numbers Discharge ID Latitude Longitude Outfall number S-1 35036'71" 80°57'62" 101 S-2 35042'56" 80°21'56" 102 NPDES Permit NC 0004987 Page 2 The outfall for these discharges is through an effluent channel meeting the requirements in 15A NCAC 2B .0228. Within 180 days of the effective date of this permit, the permittee shall demonstrate, through in -stream sampling meeting the requirements of condition A. (29.), that the water quality standards in the receiving stream are not contravened. Discharges from Seepage Identified After Permit Issuance The facility shall comply with the "Plan for Identification of New Discharges" as contained in Attachment 2. For any discharge identified pursuant to this Plan, the facility shall, within 90 days of the seep discovery, determine if the discharge seep meets the state water quality standards established in 15A NCAC 2B .0200 and submit the results of this determination to the Division. If the standards are not contravened, the facility shall conduct monitoring for the parameters specified in A. (8.). If any of the water quality standards are exceeded, the facility shall be considered in violation until one of the options below is fully implemented: 1) Submit a complete application for 404 Permit (within 30 days after determining that a water quality standards is exceeded) to pump the seep discharge to one of the existing outfalls, install a pipe to discharge the seep to the Catawba River, or install an iii -sitar treatment system. After the 404 Permit is obtained, the facility shall complete die installation of the pump, pipe, or treatment system within 180 days from the date of the 404 permit receipt and begin pumping/ discharging or treatment. 2) Demonstrate through modeling that the decanting and dewatering of the ash basin will result in the elimination of the seep. The modeling results shall be submitted to the Division within 120 days from the date of the seep discovery. Within 180 days from the completion of the dewatering the facility shall confirm that the seep flow ceased. If the seep flow continues, the facility shall choose one of the other options in this Special Condition. 3) Demonstrate -that tine seep is discharging through the designated "Effluent Channel" and the water quality standards in the receiving stream are not contravened. This demonstration should be submitted to the Division no later than 180 days from the date of the seep discovery. The "Effluent Channel" designation should be established by the DEQ Regional Office personnel prior to the issuance of the permit. This permit shall be reopened for cause to include the "Effluent Channel" in a revised permit. All effluent limits, including water quality -based effluent limits, remain applicable notwithstanding any action by the Permittee to address the violation through one of the identified options, so that any discharge in exceedance of an applicable effluent limit is a violation of the Permit as long as the seep remains flowing. New Identified Seeps If new seeps are identified, the facility shall follow the procedures outlined above. The deadlines for new seeps shall be calculated from the date of the seep discovery. The new identified seep are not permitted until the permit is modified and the new seep included in the permit and the new outfall established for the seep. ASH POND DAMS Seepage through earthen dams is common and is an expected consequence of impounding water with an earthen embankment. Even the tightest, best -compacted clays cannot prevent some water from seeping through them. Seepage is not necessarily an indication that a dam has structural problems, but should be kept in check through various engineering controls and regularly monitored for changes in quantity or quality which, over time, may result in dam failure. NPDES Pennit NC 0004987 Page 3 REASONABLE POTENTIAL ANALYSIS(RPA)-OUTFALL 002, OUTFALLS 101 AND 102 The Division conducted EPA -recommended analyses to determine the reasonable potential for toxicants to be discharged at levels exceeding water quality standards/EPA criteria by this facility from outfall 002 (Ash Pond). For the purposes of the RPA, the background concentrations for all parameters were assumed to be below detection level. The RPA uses 95% probability level and 95% confidence basis in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control." The RPA included evaluation of dissolved metals' standards, utilizing a default hardness value of 25 mg/L CaCO3 for hardness -dependent metals. Calculations included: As, Be, Cd, Chlorides, Cr, Cu, CN, Pb, Hg, Mo, Ni, Sc, Ag, Zn, Al, and B (please see attached). The renewal application listed 8.3 MGD (the water flow diagram) as a current flow. However, 11.44 MGD was used in the RPA as the highest reported flow during the last permit cycle. The analysis indicates no reasonable potential to violate the surface water quality standards or EPA criteria. The water -quality based limits for selenium were removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. The Division also considered data for other parameters of concern in the EPA Form 2C that the facility submitted for the renewal. The majority of the parameters were not detected in the discharge. The Division reviewed the following parameters that were detected in the discharge and have an applicable state standards or EPA criteria for Class WS -IV stream: phenols. This parameter was well below the state standard. An RPA was also conducted for the combined flow from the seeps (Outfalls 101 and 102). The analysis was based on the dilution in the receiving stream since the effluent channels were delineated for both seeps. Although one seep was not flowing at the time of the sampling, it was assumed that it Might discharge during the wet season. Calculations included: As, Cd, Chlorides, Cr, Cu, F, Pb, Hg, Mo, Ni, Se Zn, SO4, Al, Ba, B, Sb, and Tl (please see attached). The analysis indicates no reasonable potential to violate the water quality standards or EPA criteria. The flow volume for the first seep was measured at 0.0019 MGD. However, the flow of 0.5 MGD was used for the RPA to incorporate a safety factor, account for potential new seeps that might emerge in the future or increase in flow volume at the existing seeps. In conclusion, the RPA analysis indicates that existing discharges from the facility outfalls and seeps will not cause contravention of the state water quality standards/ EPA criteria. The proposed pertmit requires that EPA methods 200.7 or 200.8 (or the most current versions) shall be used for analyses of all metals except for total mercury. DEWATERING — OUTFALL 002 To meet the requirements of the Coal Ash Management Act of 2014, the facility needs to dewater the ash pond by removing the interstitial water from ash pond to meet the requirements of the NC Coal Ash Management Act. The facility submitted data for the surface water in the ash ponds, interstitial water in the ash, and interstitial ash water that was treated by 20 µm filter, 10 µm filter, and 0.45 µm filter. To evaluate the impact of the dewatering on the receiving stream the RPA was conducted for the wastewater that will be generated by the dewatering process. To introduce a margin of safety, the highest measured concentration for a particular parameter was used. The RPA was conducted for As, Cd, Chlorides, Cr, Cu, F, Pb, Mo, Hg, Ni, Se, Zn, SO4, Al, Ba, B, Sb, and Tl (please see attached). Based on the results of the RPA, a WQBEL for Total Arsenic will be added to the dewatering effluent sheet A. (3.). NPDES Pennit NC 0004987 Page 4 FGD TECHNOLOGY BASED EFFLUENT LIMITS -INTERNAL OUTFALL 004 The new federal 40 CFR 423 Technology Based Effluent Limits (TBELs) have been added to the Permit: Total Arsenic — 8.0 µg/L (Monthly Average); 11.0 µg/L (Daily Maximum) Total Selenium —12.0 µg/L (Monthly Average); 23.0 µg/L (Daily Maximum) Total Mercury — 356.0 ng/L (Monthly Average); 788.0 ng/L (Daily Maximum) Nitrate/nitrite as N — 4.4 mg/L (Monthly Average); 17.0 mg/L (Daily Maximum) The federal rule 40 CFR 423 states that "dischargers must meet the effluent limitations for FGD wastewater in this paragraph by a date determined by the permitting authority that is as soon as possible beginning November 1, 2018, but no later than December 31, 2023". The DWR established the date of compliance as January 31, 2021. This time period beyond November 1, 2018 is provided in order for the facility to budget, design, and construct the treatment system. Duke provided the justification for the proposed deadline and the DWR concurred with the compliance date. MERCURY EVALUATION- OUTFALL 002 The State of North Carolina has a state-wide mercury impairment. A TMDL has been developed to address this issue in 2012. The TMDL included the implementation strategy, both documents were approved by EPA in 2012. The mercury evaluation was conducted in accordance with the Permitting Guidelines for Statewide Year Mercur TMDL. 2010 2011 2.19 2012 1.55 2013 0.82 2014 0.89 Annual average 1.73 concentration n /L) 3.51 3.13 1.01 1.28 3.25 Maximum sampling result n /L) 5 5 2 Number of samples 4 4 The allowable mercury concentration for this facility is 68.0 ng/L. All annual average mercury concentrations are below the allowable level. All maximum sampling results are below the TBEL of 47.0 ng/L. Based on the Permitting Guidelines for Statewide Mercury TMDL, the limits are not required. CWA SECTION 316(a) TEMPERATURE VARIANCE — OUTFALL 001 The facility has a temperature variance. In order to maintain the variance the facility has to conduct annual biological and chemical monitoring of the receiving stream to demonstrate that it has a balanced and indigenous macroinvertebrate and fish community. The latest BIP (balanced and indigenous population) report was submitted to DWR in October of 2014. The DWR has reviewed the report and concluded that Lake Norman near Marshall Steam Station has a balanced and indigenous macroinvertebxate and fish community. CWA SECTION 316(bl The permittee shall comply with the Cooling Water Intake Stricture Rule per 40 CFR 125.95. The Division approved the facility request for an alternative schedule in accordance with 40 CFR 125.95(a)(2). The permittee shall submit all the materials required by the Rule with the next renewal application. INSTREAM MONITORING -OUTFALL 002 The permit required semi-annual upstream and downstream monitoring near the ash pond discharge. The upstream site (Station 15.9) is approximately 1 mile upstream of the discharge and downstream location (Station 14) is approximately 1 mile downstream of the discharge. These monitoring stations have been established through the BIP monitoring program, which was requited to maintain the 316(a) temperature variance. The monitored parameters are: As, Cd, Cr, Cu, Hg, Pb, Se, Zn, and Total Dissolved Solids (TDS). The majority of the results are below detection level (Hg, As, Cd, Cr, Pb, Se), NPDES Permit NC 0004987 Page the rest of the results are below water quality standards (Cu, Zn, TDS). Most parameters did not demonstrate any increase in the concentration at the monitoring stations below the discharge. The exceptions are Zn, Cu, and TDS. It is required that die monitoring of the instream stations will continue during the next permit cycle. It is also required that the facility uses low level method 1631E for all Hg analysis. FISH TISSUE MONITORING -NEAR OUTFALL 002 The permit required fish tissue monitoring for As, Se, and Hg near the ash pond discharge once every 5 years. This frequency is consistent with EPA guidance. Sunfish and bass tissues were analyzed for these trace elements. The results were below action levels for Se and Hg (10.0 µg/g — Se, 0.40 µg/g — Hg, NC) and screening value for As (1.20 — µg/g, EPA). These results are consistent with the previous monitoring results. TOZICITY TESTING -OUTFALL 002 Current Requirement: Outfall 002 — Chronic P/F @ 12% using Ceriodaphnia Recommended Requirement: Outfall 002 — Chronic P/F @ 23% using Ceriodaphnia This facility has passed all toxicity tests during the previous permit cycle, please see attached (23 out of 23). The Division will increase the Instreain Waste Concentration from 12% to 23% due to the increased wastewater flow, reported as 11.44 MGD. For the purposes of the permitting, the highest monthly average flow reported during the last 3 years in conjunction with the 7Q10 summer flow was used to calculate the percent effluent concentration to be used for WET. COMPLIANCE SUMMARY Notwithstanding the civil lawsuit filed for unauthorized discharges and groundwater exceedances/violations, based on the monitoring required under the current version of the permit there were no violations of effluent standards contained in the permit. PERMIT LIMITS DEVELOPMENT • The temperature limits (Outfall 001) are based on the North Carolina water quality standards (15A NCAC 2B .0200) and 316(a) Thermal Variance. Summer and winter thermal limits have been established in support of the 316(A) temperature variance issued by EPA in May of 1975 • Free Available Chlorine Limits (Outfall 001 and Outfall 003) were established in accordance with 40 CFR 423. • The limits for Oil and Grease and Total Suspended Solids (Outfall 002) are based on Best Professional Judgment and are more stringent than prescribed in the 40 CFR 423. • The pH limits (Outfall 002, 002A, 002B, and 003) in the permit are based on the North Carolina water quality standards (15A NCAC 2B .0200). • The pH limits (Outfall 004) in the permit are based on the BPJ. • The limits for Total Copper and Total Iron (Outfall 002) were established in accordance with 40 CFR 423. • The turbidity limit in the permit (Outfall 002) is based on the North Carolina water quality standards (15A NCAC 2B .0200). • The Technology Based Effluent Limits for Total Arsenic, Total Mercury, Total Selenium, and Nitrate/nitrite as N (Outfall 004) are based on the requirements of 40 CFR 423. • The Whole Effluent Toxicity limit (Outfall 002) is based on the requirements of 15A NCAC 2B .0500. NPDES Permit NC 0004987 Page 6 . • The Total Arsenic limits (Outfall 002 dewatering) in the permit are based on the results of the Reasonable Potential Analysis (RPA) of the interstitial water data. The calculations are conducted in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control." The water quality chronic dissolved standard of 150.0 µg/L for Freshwater Aquatic Life and water quality acute dissolved standard of 340.0 were used in the calculations of the limits. Please see attached RPA for details. • The limits for seep Outfalls 101 and 102 (Oil and Grease and TSS) in the permit are based on the requirements of 40 CFR 423. PROPOSED CHANGES • The Seep Outfalls 101 and 102 (Please see A. (8.) and A. (9.)) and Seep Pollutant Analysis Special Condition (Please see A. (30.)) were added to the permit. • A separate effluent page for the dewatering of the ash ponds (Outfall 002) was added to the permit (Please see Special Condition A. (3.)). • The Section 316(b) of CWA Special Condition was updated to reflect the new regulations. • The turbidity limit was added to the permit (Outfall 002) to meet the state turbidity standard per 15A NCAC 2B .0211(3) (k). • The Technology Based Effluent Limits for Total Arsenic, Total Mercury, Total Selenium, and Nittate/nitrite as N were added to the permit (Outfall 004). • The water -quality based limits for Total Selenium were removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. • Monitoring for Total Nickel was removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. • Monitoring for Chlorides was removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. • Monitoring for Total Zinc was removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. • Monitoring for Total Zinc was removed from the permit (Outfall 004) based on the results of Reasonable Potential Analysis. • Monitoring for Total Arsenic was added to the permit (Outfall 004) due to the implementation of the TBEL limit for Total Arsenic. • Monitoring for Total Mercury was added to the permit (Outfall 004) due to the implementation of the TBEL limit for Total Mercury. • Starting December 21, 2016, federal regulations require electronic submittal of all discharge monitoring reports (DMRs) and specify that, if a state does not establish a system to receive such submittals, then permittees must submit DMRs electronically to the Environmental Protection Agency (EPA). The final NPDES Electronic Reporting Rule was adopted and became effective on December 21, 2015. The requirement to begin reporting discharge monitoring data electronically using the NC DWR's Electronic Discharge Monitoring Report (eDMR) Internet application has been added to your final NPDES permit. (Please see A. (31.)) For information on eDMR, registering for eDMR and obtaining an eDMR user account, please visit the following web page: hn://deq nc gov/about/divisions/water-resources/edmr. For more information on EPA's final NPDES Electronic Reporting Rule, please visit the following web site: NPDES Permit NC 0004987 Page 7 http: / /www2.el2a.kov/compliance/final-national-pollutant-discharge-elimination-system- npdes-electronic-reporting-rule. • The Applicable State Law Special Condition was added to the permit to meet the requirements of Senate Bill 729 (Coal Ash Management Act, Please see Special Condition A. (12.)). • The Additional Conditions and Definitions Special Condition was added to the permit. Please see Special Condition A. (10.). • Monitoring for Bromide was added to Outfall 002 and the Instreatn Monitoring Special Condition A. (29.) to address the comment from the Public Water Supply Section/DWR. • The monitoring frequency for the Whole Effluent Toxicity was increased to Monthly (Outfall 002) to address the EPA comment. • The monitoring frequency for the -Total Arsenic, Total Selenium, and Total Mercury was increased to Weekly (Outfall 002) to address the EPA comment. • The IWC for the Whole Effluent Toxicity Test was changed based on the highest reported flow data. • Monitoring for Hardness was added to Outfall 002 and the Instream Monitoring Special Condition A. (29.) to address the EPA comment. • The attachment 1 entitled `Groundwater Monitoring Plan" was added to the permit. PROPOSED SCHEDULE Draft Permit to Public Notice: May 15, 2016 Permit Scheduled to Issue: August 26, 2016 STATE CONTACT If you have any questions on any of the above information or on the attached permit, please contact Sergei Chernikov at (919) 807-6386 or sergei.chernikov@ncdenr.gov. CHANGES IN THE FINAL PERMIT The following modifications to the May Draft Permit were implemented based on public comirients received during public hearing process, Division's staff recommendations included in the Hearing Officer Report Quly 28, 2016), EPA comments, and Duke Energy comments: • A Special Condition entitled "Domestic Wastewater Treatment Plan" was added to the permit to address the EPA comment (Please see Special Condition A. (32.)). • The Daily Maximum limit for TSS was reduced to 50.0 mg/L for Outfall 002 to meet the requirements of 40 CFR 423. • The limits for TSS and Oil and Grease were added to Outfall 002A and 002B to meet the requirements of 40 CFR 423. • A Special Condition A.30 was modified to address the EPA concern regarding the permitting of the newly identified seeps. • The limits for BOD and Fecal Coliforms were added to Outfall 002 to address the EPA comment. • The Plan for Identification of New Discharges was added to the permit to address the EPA comment. • The Seep Pollutant Analysis Special Condition (Please see A. (30.)) was modified based on the discussion with the US Army Corps of Engineers. • The additional decanting conditions for closing ash ponds were added to the permit to address the EPA comment. NPDES Permit NC 0004987 Page 8 Marshall Steam Station NC0004987 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators MAXIMUM DATA POINTS = 58 Qw (MGD) = 1.00 1QIOS (cfs)= 49.15 7QI OS (cfs) = 60.00 7QIOW (cfs)= 60.00 30Q2 (cfs) = 60.00 Avg. Stream Flow, QA (cfs) = 60.00 Receiving Stream: Lake Norman HUC 03010103 WWTP/WTP Class: I IWC% @ 1QIOS = 3.057199211 IWC% @ 7Q10S = 2.518277823 IWC% @ 7Q10W = 2.518277823 IWC% @ 30Q2 = 2.518277823 IW%C @ QA = 2.518277823 Stream Class: WS -IV Outfall Seeps I Qw = 1 MGD COMBINED HARDNESS (mg/L) Acute = 27.26 mg/L Chromic = 26.86 mg/L YOU HAVE DESIGNATED THM GR[ECEWOMO STREAM AS WATER SUPPLY Effluent Hard:1 val > 100 mg/L 0 va9 z 25 mg/L default 99 mg/L (Effluent Hard Mad = 291 mg/L) PARAMETER STANDARDS & CRITERIA (2) REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE J F (1) NC WQS / Applied '/z FAV / W z n # Det Max Pred Cw Allowable Cw Chronic Standard Acute Acute (FW)- 11,121.3 Arsenic C 150 FW(7Q10s) 340 ug/L no limit 1 0 NO DETECTS _ Chronic (FW) 5,956.5 Max MDV. = 1 Arsenic C 10 HHIWS(Qavg) ug/L None-nj�9 ------------------------------------- _____________Arsenic Chronic (HH): 397.1 Llerlted data sed Max MDL =1 Acute: 2,126.13 Beryllium NC 6.5 FW(7Q10s) 65 ug/L 0 0 N/A --C _ _ ------------------------------------ Na . -- hronic. 258 11 Acute: 114.294 no limit Cadmium NC 0.6228 FW(7Q10s) 34942 ug/L 1 0 NO DETECTS i�dslem a�'�' --------------------------------------- Chronic: ---- Umlacd data seg Mass MDL =1 'Acute: NO WQS Chlorides (AL) NC 230 FW(7Q10s) mg/L 1 I 5.1 no limit Notf-n�9 13ofpuftC'V. ___ _ _ _ Chronic: ---9,133.2 — --- — — — — — --- --- — — Ur3a "lied &I''s set No value > Allowable Cw Acute. NO WQS Chlorinated Phenolic Compounds NC 1 A(30Q2) ug/L 0 0 N/A -C _ _ _ -- —hr _ ----- n/a ------------- -------------- 39 onic: .7 Acute: NO WQS Total Phenolic Compounds NC 300 A(30Q2) ug/L 0 0 N/A -C _ _ _ _ _ — —hronic: --- Na — - — - — - — - — - — - — - — - — - — — — - 11--- ,912.9 - - — Acute: 31,781.7 Chromium III NC 124.8729 FW(7Q10s) 971.6302 gg/L 0 0 N/A no limit --------------------------------------------- Chronic: 4,958.7 Acute: 523.4 Chromium VI NC I 1 FW(7QIOs) 16 gg/L. 0 0 N/A no limit _ _ _ _ _ --Chronic: ----436.8 -- -----------------------.--- Chromium, Total NC µg/L 1 0 NO DETECTS no limit U¢swittd dmta sag Max MDL =1.47 4987 -RPA dissolved seeps 1-2016, rpa Page 1 of 3 4/21/2016 Marshall Steam Station Outfall Seeps 1 NC0004987 Freshwater RPA - 95% Probability/95% Confidence Usinq Metal Translators ow = i mr.n 4987 -RPA dissolved seeps 1-2016, rpa Page 2 of 3 4/21/2016 Acute: 371.67 Copper (AL) NC 8.3800 FW(7QI0s) 11.3626 ug/L I 1 1.00 no limit -- Note. n S 9 DefaultC.V� Chronic: —332 77 — - — - Uufted, dats set No value > Allowable Cw Acute- 719.6, Cyanide NC 5 FW(7QI0s) 22 10 ug/L 0. 0 N/A ---7 We --------------------------------------- Chronic: 198.5 ' Acute: NO WQS Fluoride NC 1800 FW(7QI0s) ug/L I 0 NO DETECTS no limit . 9 Noten 5 --7 - - - - 71,477.4 - - — - — EhrO---Chronic: - — - — - — - — - — - — - — - — - — - — - — - — - — - - Ulmitsd dati set Max MDL = 500 Acute: 2,721992 Lead NC 3.1895 FW(7Q]Os) 83.2167 ug/L 1 0 NO DETECTS no limit NoW. n5- 9 7 ----- T6-- -5�r———— —Chronic. 126.6T ------------------------- -- Limited data set Max MDL = I Acute: NO WQS Mercury NC 12 FW(7QI0s) 0.5 n g/L 1 0 1 NO DETECTS no limit Note- a � 9 Chronic: 476.5 Urnitr-d tinta -set Max MDL = 50 Acute: NO WQS Molybdenum NC 2000 HH(7QI0s) ug/L 10 NO INO DETECTS no limit Note- vi 5 Y --- ---------------- Chronic: 79,4194 ------------------- Unift&d d0a set Max MDL =1 (FW)- 11,798.3 Nickel NC 39.5661 FW(7QI0s) 360.6984 µg2Acute ------------------ no limit -------------------------- I 1 1.0 Chronic (FW): 1,571.2 NoU 9 Demalt C.V. No value > Allowable Cw Nickel NC 25.0000 WS(7QIOs) gg/L Umited data set Chronic (WS): TET ------ — No value > Allowable Cw Acute: 1,831.7 Selenium NC 5 FW(7QI0s) 56 ug/L 1 0 NO DETECTS no limit Note. U.5 9 ------ -------------------------------- 011ie: 198.5 Unifted dati ser Max MDL = 4.58 Acute: 11.253 Silver (AL) NC 0.06 FW(7QIOs) 0.3440 ug/L 0 0 N/A n1a --rllie, —7 - - - - - - - - - EhO-- 2.383 - - - - - - - - - - - - - - - - - - - - - - - - - - - - Acute: 4,424.9 Zinc (AL) NC 134.6935 FW(7QlOs) 135.2792 ug/L 1 0 NO DETECTS no limit Now;; TI, 25 ............................................. Chronic- 5,348.6 Limi,ited data zefi Max MDL = 5 Acute: NO WQS Antimony NC 5.6 WS(7QIOs) gg/L 1 0 NO DETECTS no limit N4d4e-. n o' ------ -- ------------- -- Ulaff ite,d data set Max MDL = I Acute: NO WQS Thallium NC 0.24 WS(7QI0s) gg/L 1 0 NO DETECTS no limit L NrAv� IKA 5 9 - - - - - - - - 7 - - - - Chronic: . 9.53032 ------------ - - - -- - - Unifted data set Max MDL = 0.2 Acute: NO WQS 4987 -RPA dissolved seeps 1-2016, rpa Page 2 of 3 4/21/2016 •Marshall Steam Station Outfall Seeps 1 NGUUU4yt5 / I-resnwater KFA - 95% Frobablllty/95% Uontidence Using Metal Translators QW = 1 MGD Sulfate NC 250 WS(7Q10s) mg/L 1 1 I 290.00000 _ _ _ _ _ _ _..._-_ Note- a f 9 D-KI12uh C.V. Chronic: 2382.58065 Llmifi-d dab set No value > Allowable Cw Acute: NO WQS Aluminum NC 87 FW(7Q10s) µg/L 1 1 278.00000 FN, no limit _Note. ra5 ➢ �G est C.V.hronic:-3454.74194A d ata set alue > Allowable Cw 4987 -RPA dissolved seeps 1-2016, rpa Page 3 of 3 4/21/2016 Warshall Steam Station Outfall Seeps 1 N00004987 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Qw = 1 MGD Acute: 371.67 Copper (AL) NC 8.3800 FW(7QIOs) 11.3626 ug/L 1 1 1.00 _ _ _ ----3j-277-- no limit l' ev u 9 D�ffi_ a ,j. _ Chronic: ------------------_------- Lhnited r .iu seta No value > Allowable Cw Acute: 719.6 n/a Cyanide NC 5 FW(7Q10s) 22 10 ug/L 0 0 N/A —h-C _ _ _ _ r ---- -- -- -------------------------- Acute: NO WQS Fluoride NC 1800 FW(7Q10s) ug/L 1 0 NO DETECTS no limit tat ia�9 _ _ _ _ _ _ Chronic: --- 71--- — -------------------------- Umnitad dat<aa set Max MDL = 500 • Acute. 2,721.992 • Lead NC 3.1895 FW(7Q10s) 83.2167 ug/L 1 0 NO DETECTS no limit ®taa _ _ _ _ _ _ Chronic: — 126.656-- ------------------------- RAMRR' l d 3f a sat Max MDL = 1 Acute: NO WQS Mercury NC 12 FW(7Q10s) 0.5 ng/L 1 0 NO DETECTS no limit Natas 59 _ _ ----------- Chronic- --476.5 — — — -- ---- — — — —,--- — — Limited data sat Max MDL = 50 Acute: NO WQS Molybdenum NC 2000 HH(7Q10s) ug/L 1 0 NO DETECTS no limit Note: n 3 Chronic: -- 79,419.4 — — --- — — — — --- — — — -- United .rdaatR Set Max MDL = H Acute (FW): 11,798.3 Nickel NC 39.5661 FW(7Q10s) 360.6984 µg2 no limit 1 1 1Fn"" _ _ _ ___ _ ___ --------------------------------------------- Chronic (FW) 1,571.2 _________________________ Not�o rs rC,-• No value > Allowable Cw Nickel NC 25.0000 WS(7Q10s) µg/L Limited dV a set Chronic (WS) 992.7 No value > Allowable Cw Acute. 1,831.7 Selenium NC 5 FW(7Q10s) 56 ug/L 1 0 NO DETECTS no limit Nraterat9 --------------------------------------------- Chronic: 198.5 Llammltael d0m sa Max MDL = 4.58 Acute: 11.253 Silver (AL) NC 0.06 FW(7Q10s) 0.3440 ug/L 0 0 N/A n/a _ _ --------------------------------------- —Chronic: 2.383 Acute: 4,424.9 Zinc (AL) NC 134.6935 FW(7Q10s) 135.2792 ug/L 1 0 NO DETECTS no limit Note- a9 _ _ _ _ —Chronic: -- 5,348.6-- -------------------------- L uni Red di-ta set Max MDL = 5 Acute: NO WQS Barium NC 1 WS(7Q10s) mg/L 1 1 0.09800 no limit N�@e, mai 9taa�ltC.V. _ _ Chronic: 39.70968-- Umniftd d albra set No value > Allowable Cw Acute: NO WQS s Boron NC 7 WS(7Q10s) mg/L 1 0 NO DETECTS no limit a�laEa, _ _ _ ---- _ -— _ _ Chronic: ---- 6774 ------------------------- L"mSter1(Astaa sett Max MDL = 3.99 Acute: 4987 -RPA dissolved seeps 2-2016, rpa Page 2 of 3 4/21/2016 REASONABLE POTENTIAL -ANALYSIS 4987 -RPA dissolved seeps 1-2016, data 1 - 4/21/2016 H Paf01 8 Par02 Use "PASTE SPECIAL Use "PASTE SPECIAL Values" then "COPY" Effluent Hardness (monthly average) Valves" then "COPY" Arsenic . Maximum data, points = 58 . Maximum data points = 58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 2911 291 Std Dev. N/A 1 05 Std Dev. N/A < 2 Mean 291.0000 2 Mean 0.5000 3 l C.V. 0.0000 3 C.V. 0.0000 4 I n 1 4 n 1 5 ! 10% value 291.00 mg/L 5 6 Median Value: 99.00 mg/L 6 Mult Factor = 1.00 7 Max. Value 291.00 mg/L 7 Max. Value 0.5 ug/L 8 j 8 Max. Pred Cw O DETECTS ug/L 9 I 9 , 10 p 10 11 I 11 1212 f 13 13 14 14 15 15 16 16 ' 17 17 18 - . 18a 19� ., 19 20 20 21 I 21 22 i1 22 23 i 23 24 24 25 25 26 27� } 26 27 28 28 29 { 291 30 30! 31 31 32 ; 32 33 I 33 34 34 35 35 36 d 36 if 37 I 37 38 II 38 39 39 40 . 40 41 , 41 42 42 43 43 ! 44 44� 45 451 ' 46 " 46 47 47� 48 i 48' 49 9 49� 50 50 51 51 52 52 53 53 54 54 j 55 55 56 561 57 0 57 58 i 58 4987 -RPA dissolved seeps 1-2016, data 1 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS Par03 Use "PASTE SPECIAL Par04 Uso"PASTE SPECIAL Beryllium Values" then "COPY" Cadmium Valuos" then "COPY" . Maximum data . Maximum data points = 68 points = 68 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 �`— i Std Dev. NO DATA 1 < 11 0.5 Std Dev. N/A 2 j Mean NO DATA 2 i Mean 0.5000 3 d, C.V. NO DATA 3 f C.V. 0.0000 4 n 0 4 1 n 1 5 " 5 6 Mult Factor = N/A 6 Mult Factor = 1.00 7 Max. Value N/A ug/L 7 } Max. Value 0.500 ug/L Max. Fred Cw N/A ug/L 9 Max. Fred Cw O DETECTS ug/L 9 10 10 11 11 I 12 123 13 131 14 14 15 15i 16 1 163 3 17 171 18 18 194 E 19� 20 20 21 ¢ 21 22 22 23 23 2424 251 25 2626 271 27 } 281 28 1 29� I 29 30 30 31 31 32 32 331 3 33t 34f `} 34j 3511 ; 35 36 36 37 i 37 4 38 38 I 39 39 40+ 40 fj 41 j 41 42 431 - I 42 43 44 I 44 . 45 i 45 S 46 46 j 47 47 48 48 49 t" I 49 50 50 51 52 i 51 52 53 53 54 54 55 55 56 56 57 57 58,,-58 4987 -RPA dissolved seeps 1-2016, data - 2 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS Par05 Par06 Use "PASTE SPECIAL- Use "PASTE S Chlorinated Values" then . Phenolic Compounds Chlorides Values" then COPY" . (AL) " Maximumdatapoints= 58 Maximum points = Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 5.1 Std Dev. N/A 1 Std Dev. NO DATA 5.1 2 Mean 51 2 Mean NO DATA 3 C.V. 0.0000 3 C.V. NO DATA 4 n 1 4 n 0 5 5 6 Mult Factor = 1.0 6 Mult Factor = N/A 7 Max. Value 5.1 mg/L 7 Max. Value N/A 8 Max. Pred Cw 5.1 mg/L 8 Max. Pred Cw N/A 9 9 10 10 11 • 11 12 12 � 13 13 I 14 14 � 15 15 . 16 16 J 17 17 18 18 19 19 20� 20 21� 21 . 22 22 23, 23 24� 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32� 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 ' 42 • "_ 42 43 43 44 44 45 45 4646 r . 471 47 48 48 i 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 4987 -RPA dissolved seeps 1-2016, data - 3 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved seeps 1-2016, data - 4 - 4/21/2016 Par07 Par08 ECIAL Use "PASTE SPECIAL 'Uso "PASTE S OPY" Total Phenolic Values" then "COPY" Compounds Values" then " Chromium III ata Maximum data Maximum 8 points = 58 points = 1 Date Data BDL=1/2DL Results Std Dev. NO DATA 1 Date Data BDL=1/2DL Results —"� Std Dev. NO DATA _ 2 Mean NO DATA 2 Mean NO DATA 3 C.V. NO DATA 3 J C.V. NO DATA 4 n 0 4 ii n 0 5 51 6 Mult Factor = N/A 6 j Mult Factor = N/A ug/L 7 Max. Value N/A ug/L 7 I Max. Value N/A ug/L 8 Max Pred Cw N/A ug/L 8 i Max. Pred Cw N/A 9 9 10 10 11 11 12 12) l 13 13 14 15 14� 15� I 16 16 _ 4 17 17� 18 18i 19 19! 4 20 20111 21 21 22 22 - 23 23 1 24 24 25 25 26 26' 27 27 I 28 28 29 29 30 30 ! 31 31 32 32 33 33 34 34 35 35 P 1 36 36 37 37 ' 38 38 39 39 y 40 40 41 41 { 42 42 j 43 43 44 44 45 45 i 46 46 1 47 47 i 48 48 49 49 50 50 51 51 52 52 l 53 53 i 54 54 55 56 55 56 57 57 58 58 y 4987 -RPA dissolved seeps 1-2016, data - 4 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved seeps 1-2016, data - 5 - 4/21/2016 Par09 Par10 ECIAL Us'4 STE SPECIAL OPY" ChrOmlUm . Valuos"then "COPY"ata Vl ChrOmlUm, Total z . Maximum data points = 5U S 1 Date Data BDL=1/2DL Results Std Dev. NO DATA 1 Date Data BDL=1/2DL Results < 1 ATI 0.735 Std Dev. N/A 2 Mean NO DATA 2 Mean 0.7350 3 C.V. NO DATA 3 i C.V. 0.0000 4 n 0 4 ; n 1 5 5� 6 Mult Factor = N/A 6 j Mult Factor = 1.00 pg/L 7 Max. Value N/A pg/L 7 Max. Value 0.7 pg/L 8 Max. Fred Cw N/A pg/L 8� Max. Pred Cw O DETECTS 9 10 9 10� 11 11 1 12 12, 13 13 14 14 1 15 15� 16 , 16) g 17 17+ ! 18 18� y 19 19 i 20 20 21 21� 22 2211111 23 231 24 24 25 25� 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33I 34 3411 35 35 36 36 i 37 37 i 38 381 39 . 39 40 40 41 41 42 42 43 43 I 44 44 1 45 45 i 46 46 47 47 48 48 49 49 i 50 50 ' 51 51 52 52 I 53 53 j 54 54 55 55 56 56 57 57 58 58 — - - 4987 -RPA dissolved seeps 1-2016, data - 5 - 4/21/2016 J, J Q Z Q J Q H Z W a W J m Z O Q w w rm CO U O N O ZZZ FuzQQQ ❑❑❑ 000 Z Z U oma u°>a � 0 c 1 y � a)i � J ❑ a c ca HI U m o d R ❑ N N M V (� CO 1� N m O r N M d' O t` W (A O N M V (n O N O W O N M V (n M f� CO m 0 NFM O h aD M 0 N M t0 r CO cy a r r r r r' r r r r N N N N N N N N N N M M M M M M M M M M <} p 7 V V v V u7 li u') m m u') � Cn 4') a S J J 0)0)" LU > > w�Eri oor 000 F L £ y 0 0 0 0 O 00 d c o 0 y R n r 0 - m � � m Q >> Z U oma j ca N eN LL = aO c c°i >. m 44) P acn co a or L � C7 C. J CL ❑ 0 m __ m , I o ' M to O r co m O r N M V (O f� W m O N M V CO CD r� CO M O N M M CO I- CO O O N CO V• tO O r CO CA O N CO C U) O t` N r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M d• d• v �{ V V 'V' '7 V V' l0 lq (CJ ll7 l0 In U7 CI) CI) a J a ro 1 1 W a rm CO U O N REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved seeps 1-2016, data - 7 - 4/21/2016 Par13 Par14 ECIAL Use "PASTE SPECIAL OPY" Fluoride vahmes"men••60PY" Lead a ata . Maximum data points = 58 8 1 Date Data BDL=1/2DL Results 250 Std Dev. N/A 1 Date Data BDL=1/2DL Results <y1, 05 Std Dev. N/A < 500 2 Mean 250.0000 2 { Mean 0.5000 3 C V. 0.0000 3 f C.V. 0.0000 4 n 1 41 f n 1 5 5, S 6 Mult Factor = 1.00 6 Mult Factor = 1.00 ug/L 7 Max. Value 250.0 ug/L 7 JJf Max Value 0.500 ug/L 8 Max Pred Cw O DETECTS ug/L 8 } Max. Pred Cw O DETECTS 9 9 10 10 11 11 s 12 12 q 13 13 14 14 f 15 15 j 16 161 17 17 18 18 19 19 1 20 201 21 211 I 22 221 23 23 i 24 24f i 25 25 y 26 26 27 27 28 28 29 29 30 30 ; 31 31 32 32 33 33 34 34 ¢f 35 35 R 36 36 § 37 37, 38 38 ; 39 39 , 4 40� 40 3 41 41 42 421 431 a 43�p 441 J 441 45 45� g 46 46{ } 47 479 SSt 48 48� 49 49111111 j 50 50� 51 51+ 52 521 53 54 53 54 55 55 1 56 56 i 57 57 58. _ 58 4987 -RPA dissolved seeps 1-2016, data - 7 - 4/21/2016 J: mu W d 0 r OLnU yr O O O O F yrEc Ino W a y'X° i 0 F- LU d R � Q ❑ >> Z U u U o � -o j U N aN L. >a O �c � > ai . = m m ami m � c U M U J U� C ❑o ry a o m o� a c ❑ r N M V m f- m m 0 r N M V �0 (0 I� N O O N M V U7 m h m m 0 N M V U) m f� m m 0 N M V U) m I� m m 0 N CO) V tt� m h m i4 CL r r r r r �- r r r r N N N N N N N N N N M M M m P7 m M m M M V V V •� V V V V v 0 0 m m U -j m U� m J= Q } J J Q 07 cm W c c 4 V h 00— O O w W �= d N Q 0 O. (— E c o o rC4 N W > > Z U It U O j p N > (J l6 � 3�c uL>a (UDIami >. =3m m U c N � II d Q m A N r N M V U) f0 I� m m N M V m 0 I- m m 0 N M V 0 m I� m m 0 N M V U7 m f.- m r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V V V V V V V V V m U) m U] m m m U) U7 a G FWJ � p =° d w J J o of > (0 m cu 'a 0 N m N CN d a a°'i ami 0 w Q a m CD ,It REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved seeps 1-2016, data - 9 - 4/21/2016 Parl7 & Parl8 Par19 eCIAtI 0• Py, Nickel M Selenium ata 8 1 Date Data BDL=1/2DL Results 0.95 Std Dev. N/A IF Date Data BDL=1/2DL Results ----Z-4.581 2.29 Std Dev. < 1.9 2 Mean 09500 2 9 Mean 3 C.V. 0.0000 31 y C.V. 4 n 1 4 9 n 5 5 f 6 Mult Factor = 1.00 6 I Mult Factor = ug/L 7 Max. Value 1.0 pg/L 7 Max Value ug/L 8 Max. Fred Cw 1.0 pg/L 8 f Max. Fred Cw 9 9j a 10 101 11 11� 2 12@ 121 131, 131 14 141' 15 15 t 16• 16 I 17 17' 18 ! 18 1 19 I 19 20 20 { 21 21 22 22 1 23 23, 1 24 241 25 215 26 26+ 27 27 I 28 281 29 29+ y - 30 30 i 31 31 32 32 1 33 33 34 34 i 35 35 36 36� 37 37� 38 381 f 39 391 1 40 40� 41 41 42 42 43 43 pyp 44 44 Y 45 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 { 53 53 54 54� 55 55 56 56) 57 57 58 581 4987 -RPA dissolved seeps 1-2016, data - 9 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS Use"PASTE SPECIAL Values" then "COPY" . Maximum data points = 68 Par20 1 Date Data Use"PASTE SPECIAL Silver (AL) Values" then "COPY" . Maximum data points = 58 BDL=1/2DL Results Std Dev. NO DATA Par21 1 Date Data Zinc AL ( ) BDL=1/2DL Results 2.5 Std Dev. N/A < 5� 2.2900 2 Mean NO DATA 2 Mean 0.0000 3 C.V. NO DATA 3 C.V. 1 4 n 0 4 n 5 5 1.00 6 Mult Factor = N/A 6 Mult Factor= 2.3 ug/L 7 Max. Value N/A ug/L 7 Max. Value O DETECTS ug/L 8 Max. Pred Cw N/A ug/L 8 Max. Pred Cw 9 9 10 10 11 i 11 ' 12 =� 12 13 14� 13 14 1 15� 15- 3 16 16 17 17 18 f 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 . 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 4987 -RPA dissolved seeps 1-2016, data -10- 4/21 /2016 v C0 } J Q Z a J La r Z W O CL W J m a Z O N NW w M(D 16o N O w mP . ❑I r N Cl) -T 4) CO h W O) O r N M d' lO (O I� a0 O O N M �O (O h o7 0) O N M "r c0 h M 0) O N M V' li') lD f� O O) O N M V �O (O 1� m a r r r r r r r r r r N N N N N N N N N N M (7 M M M M M M M M V' V' V V V V V V 'V V �O UO �o 0 Lo W m Lo a S J J La a cm :L =L U 9 h N c E n Wh O O r o0 O O U OOF. r = O O IqO O rOU o 00 O W u Q O W ❑ >> Z U 11 U w a> co LLIL y Q C ! _ N 7 (6 co �+ J Lo C O O O N II w J Q m CIS V m " " clO N ` r N co •V' Lo CO I- c0 O) O N M "t h O h W O O N M VU� O 1` M M O N M 'V N O h M M O N M -T u') O I- M N CL r r r r r r r r r r N N N N N N N N N N M M MOMOMMMMIT 'V' V' •V' v V' v V 'V V' 0 t(7 lO m UO UO M Lo lO J Q > UaO� J J 0) CF) U v w 7 7 N G E O O r O m (n W yw E c CD p p O Unq (V f T" U ay�a 0io F w(' n >> z U M(D 16o N REASONABLE POTENTIAL ANALYSIS Use"PASTE SPECIAL Values" then "COPY" . Maximum data Par24 Use "PASTE SPECIAL Values" then "COPY" Sulfate , Maximum data points = 68 Par25 Aluminum points = 68 Results Date Data BDL=1/2DL Results Date Data BDL=1/2DL Std Dev. N/A 1 290 Std Dev. N/A 1 278 290 278 Mean 0.1000 2 Mean 290.0000 2 C.V. 0.0000 3 C.V. 0.0000 3 n 1 4 n 1 4 5 5 Mult Factor = 1.00 6 Mult Factor = 1.00 6 Max. Value 0.100000 pg/L 7 Max. Value 290.000000 mg/L 7 Max. Pred Cw O DETECTS pg/L 8 Max. Pred Cw 290.000000 mg/L 8, 10 10 ` 12 12 I 13 "s 13 14, 14° 15 15 - ° 16 16 17 � 17 18 ' 18.°." 19 19 -" 20 20 21 I 21 22 22- 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31, 31 32 32 33 33 34 34 35 35 ° 36 36 . 37 37 38 38 39 39 40' _. 40 , 41 41.°. 42 42 43 43 44 44 45 45 46 ' 46 . 47 47' 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 ° 56 57 56 57 . 58_ 58 4987 -RPA dissolved seeps 1-2016, data -12- 4/21/2016 ¢, Results Std Dev. N/A Mean 278.0000 C.V. 0.0000 n 1 Mult Factor = 1 00 Max. Value 278.000000 pg/L Max. Pred Cw 278.000000 pg/L REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved seeps 1-2016, data -13- 4/21/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved seeps 2-2016, data -11 - 4/21/2016 Par22 Par23 Usc "PASTE SPECIAL Use "PASTE SPECIAL Values" then "COPY" Values" then "COPY" Barium Boron . Maximum data , Maximum data points = 58 points = 58 1 Date Data BDL=1/2DL Results 0.098 0.098 Std Dev. N/A 1 Date Data BDL=1/2DL 1.995 N/A <� 3.99 2.5000 2 Mean 0.0980 2 0.0000 3 I C.V. 0.0000 3 1 4 n 1 4 5 5 1.00 6 Mutt Factor = 1.00 6 2 5 ug/L 7 Max Value 0.098000 mg/L 7 O DETECTS ug/L 8 Max Pred Cw 0.098000 mg/L 8 9 t 9 10 10 11 11 12 12 13 13 14 14 z 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 I 22 23 23 24 24 25 25 26 26 27 27 2g 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 . n 39 39 40 - a 40 41 ( 41 _ 42 42 43 43 .o 44 44 ; 45 1 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 4987 -RPA dissolved seeps 2-2016, data -11 - 4/21/2016 7T J Q a J Q F— Z W F- 0 a W J Z U) W m J ❑ N CD II J m ` r N co '7 UO CO 1� O m N co �• UO co I— co O O NM V' (O (D II. W m(D N M V m co r Om O N M V v) (D r, co w d r r r r r r r r r N N N N N N N N N N co 07 co co co co M co co M V V V V V V v V d' V' (D ID (D tO u0 UO UO UO UO J as e Lu o N v a o O G 3 N Z Z Z > Z Z Z > u U `o -o m� d w L a y� m m a16i>, J Cl N � I I J ❑ m cc 4 I UO v1 O r N co v UO ID I-- CO M O N CO V• Un (D h OD M O N M '7 UO (D I-. 00 O) O N M 'V N O h co m O N MUO Vl0 m a r r r r r r r r r r N N N N N N N N N N M M co co M co co M co co v '7 V V V a V C C' }• UO Un UO (D UO t0 UUO U _J J_ d ? m m Lu ° E E m w c E n oor oov) c Lo c) 0oF rn o o U •_o rnW >> Z O II U 7 LL % Il 0 c co m u) .1 N! 7 x05 Mi arshall Steam Station NC0004987 Freshwater RPA - 95% Probability/95% ConfidenceUsing Metal Translators MAXIMUM DATA POINTS = 58 Qw (MGD) = 11.44 WWTP/WTP Class- I IQ10S (cfs)= 49.15 PNC% @ 1QIOS = 26.51236506 7QI OS (cfs) = 60.00 IWC% @ 7Q10S = 22.81171204 7QIOW (cfs) = 60.00 IWC% @ 7Q10W = 22.81171204 30Q2 (cfs) = 60.00 IWC% @ 30Q2 = 22.81171204 Avg. Stream Flow, QA (cfs) = 60.00 IW%C @ QA = 22.81171204 Receiving Stream: Lake Norman HUC 03010103 Stream Class: WS -IV Outfall, 002 Qw = 11.44 MGD COMBINED HARDNESS (mg/L) Acute = 25 mg/L Chromic = 25 mg/L YOU HAVE DESIGNATED THIS RECEIVING STRFAM AS MATER SUPPLY Effluent Hard:0 vall > 100 mg1L 0 val < 25 mg/L Effluent Hard Med = 25 mg/L PARAMETER STANDARDS & CRITERIA (2) rn REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE (1) NC WQS / Applied %2 FAV / 2 z n 4 Det Max Pred Cw Allowable Cw Chronic Standard Acute Acute (FW): 1,282.4 Arsenic C ISO FW(7QIOs) 340 ug/L no limit 23 20 19.7 _ Chronic (FW) 657.6 Novalue>_Alllow_ableC6V------------------------------- Arsenic C 10 HH/WS(Qavg) ug/L Chronic (HH)_43.8 No value > Allowable Cw Acute: 245.17 no limit Beryllium NC 65 FW(7QIOs) 65 ug/L 1 0 NO DETECTS—Chr Note. n:59 _ _ --------------------------------------- onic: 28.49 Limited data se>R Max MDL = I Acute: 12.219 no limit Cadmium NC 0.5899 FW(7QIOs) 3.2396 ug/L. 1 0 NO DETECTS Nit °ri�9 _ ------------ Chronic: ------ --------------=---------- MWaRed &tu% s Max MDL = I Acute- NO WQS Chlorides (AL) NC 230 FW(7QIOs) mg/L 22 22 488.4 no limit --Chronic: ----1,008.3-- -------------------------- No value > Allowable Cw Acute NO WQS Chlorinated Phenolic Compounds NC 1 A(30Q2) ug/L. 0 0 N/A --Chr_ _ _ -----44--- n/a -------------------------- onic: Acute: NO WQS Total Phenolic Compounds NC 300 A(30Q2) ug/L 0 0 N/A -------------------------------------------- n/a Chronic: 1,315.1 Acute 3,413.8 Chromium III NC 117.7325 FW(7QIOs) 905.0818 µg/L 0 0 N/A no limit --Ch_ _ ---- _ _ ronic: 516 1 ----------------------------- Acute: 603 Chromium VI NC 11 FW(7QIOs) 16 µg/L 0 0 N/A no limit --C_ _ _ _ hronic: -----48.2 -- --------------------_---- Chromium, Total NC Rg/L 1 0 NO DETECTS no limit IIi d U m9ka dIme� �e�Q Max MDL = I 4987 -RPA dissolved-2016.xlsx, rpa Page 1 of 3 4/19/2016 Marshall Steam Station Outfall 002 NC0004987 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators, Qw = 11.44 MGD Acute: 39.50 Copper (AL) NC 7.8806 FW(7QIOs) 10.4720 ug/L 2 0 NO DETECTS no limit I�lotem rc _ _ _ _ _ Chronic: ---- -- -- -------_----------_-- - -- Limited daM set Max MDL = 5 Acute: 83.0 Cyanide NC 5 FW(7QIOs) 22 10 ug/L 1 0 NO DETECTS no limit E1€fea tell _ _ ----------------------------------------- _ _ ------- Chronic: 21.9 ------------------------- LRwked de•4m s¢¢ Max MDIL = 10 Acute: NO WQS Fluoride NC 1800 FW(7QIOs) ug/L 0 0 N/A -Ch -ron n/a _ _ _ _ --- -- ic: 7,8907 - - - - - - - - - - - - - - - - - - - ------- Acute: 284.724 Lead NC 2.9416 FW(7QIOs) 754871 ug/L 1 0 NO DETECTS _ _ no limit i�leteo H 9 _ _ _ Chronic: ------ -- ------------------------- Urnited da,in set Max MDL _ I Acute: NO WQS Mercury NC 12 FW(7QIOs) 0.5 ng/L 22 20 4.7 no limit --Chronic: -----52.6 -- -------------------------- No value > Allowable Cw Acute: NO WQS Molybdenum NC 2000 HH(7QIOs) ug/L 1 1 18.4 no limit Nate ma D %olt C. V. ---------------------------------------------Chronic: 8,767.4 Ulnitcd d"N set No value > Allowable Cw Acute (FW)' 1,264.3 " Nickel NC 37.2313 FW(7QIOs) 335.2087 µg2 no limit--------------------------------------------- 23 23 28.8 Chronic (FW): 163.2 No value > Allowable Cw Nickel NC 25.0000 WS(7QIOs) µg/L Chronic (WS) 109.6 No value > Allowable Cw • Acute: 211.2 Selenium NC 5 FW(7QIOs) 56 ug/L 58 58 6.0 --------------------------------------------- no limit Chronic:21.9 No value > Allowable Cw Acute: 1.118 Silver (AL) NC 0.06 FW(7QIOs) 0.2964 ug/L 1 0 NO DETECTS no limit No s�toa ��;1 _ _ _ --------------------------------------- Chronic: Lint R d data set Max MDL = I Acute: 474.1 Zinc (AL) NC 126.7335 FW(7QIOs) 1257052 ug/L 58 58 43.0 --------------------------------------------- no limit Chronic 555.6 No value > Allowable Cw Acute: NO WQS Aluminum NC 87 FW(7QIOs) µg/L 1 1 227.00000 no limit __--_°_-- NR.edu?1 leau1tC.°�" _ _ _ _ _ Chronic -- 381.38304- --------_-----_- 'Urnited data set No value > Allowable Cw Acute: NO WQS Boron NC 7 WS(7Q l Os) mg/L 1 I 0.07600 no limit Note. it 5 9 Dal°ae�k C. . _ _ ------------ Chronic: -30.68599 - - --- --- - ----- - - - - U maned de62 Oet No value > Allowable Cw _ Acute: 4987 -RPA dissolved-2016.xlsx, rpa' Page 2 of 3 4/19/2016 Date: 4/19/2016 Enter data onto 'Table 1" under the Input Sheet and enter "Effluent Hardness" under the Data Sheet. In accordance with 40 CFR 122.45 (c ), permits are, have and must be written as total metals. PERMIT: NC0004987 Dissolved to Total Metal Calculator Bn es 6 once tttY&o rgdarII R fjul .ns, g itfY d PSca&E0n?� : fsa rafts n �a� `i' VEd,)a W 0 Cifn 121451(x) HUC = 03010103 ReceivingRecevn 9 Stream Stream Ree Stream NPOES Total Suspended P Solids Combined Hardness Combined Hardness In.,. Insiream Effluent HUC Wastewater Wastewater Hardness summer summer 7010 1010 Flow tdmd -Fined Value- chronic Acute rden Hardness Median Cancentrc) Co ccafi b) Medan 7Q10 (CFS) (MGD) MGD MGD (mg/L) (mg/L) (mg/L) Chronle) (Acute) (m92) (mg/L) 60 0000 36.7097 31.7097 11.4400 10 25.000 25 000 22 8117 26 5124 25 25 This calculator has been inserted into the RPA to calculate Total Metal allowable allocations once Table 1 has been completed (Input Sheet) and Effluent hardness has been entered (Data Sheet). 1) Following the spreadsheet from left to right. First US EPA M81"istAlf.AkA Ela.0CWMITAW COMMENT the allowable allocations for the dissolved metals will appear for all the metals listed once Table 1 is complete and Dissolved Metals PARAMETER Chronle Acute Translators -using (MaEt)asaTotalMeW Default Partition •ossslo!MeW-Tra�aW Coefficients Chronic Acute effluent hardness entered. Use a default value of 25 mg/L if no hardness data is available. Second, the u il- u n Cadmium (d) 0.15 0.82 streams . n tion 0.252 0.59 3.24 Cd -Trout streams 0.15 _ 051 0 252 0.59 2.01 Dissolved Metal allocations are divided by the Translators to Chromium III d)(h) 24 183 0202 117.73 905.06 Chromium VI (d) 11 16 1.000 11.00 16.00 determine the Total Metals that can be allocated to the Chromium, Total (t) _ N/A N/A Permittee. These Total Metals values are automatically inserted into Table 2 and are the allowable Total Metal - allocations determined for the Permittee prior to allowing Copper (d)(h) 2.7 3.6 0.348 7.88 10.47 Lead (d)(h) 0.54 14 0.184 2.94 75.49 Nickel(d)(h) 16 145 0.432 37.23 335.21 for dilution. See Input sheet Table 2. The final acute and Ni- WS stream`s (t " _ 25 NIA Silver (d)(h,acute) 0.06 030 1 000 0.06 0.30 chronic values shown under the RPA sheet are the Total Zinc (d) h 36 36 0.288 126.73 125.71 - , Metal values listed in Table 2 divided by the acute and " 'chronic IWC, respectively. 2) - The Translators used in the freshwater RPA are the Partition Be Ilium 6.5 65 - 1.000 6.5 65 Arsenic (d '1501 340 1.000 150 340 Coefficients published by US EPA in 1984. They are TSS ' dependent equations and can be found listed with the WQS (d)=dissolved metal standard. See 15A NCAC 026.0211 fbrmore information hardness dependent equations under the sheet labeled (h)=hardness-dependent dissolved metal standard. See 15A NCAC 028.0211 formers information. Equations. A fixed TSS value of 10 mg/L is used to calculate the Translator values. (t) =based upon measurement of total recoveable metal See 15A NCAC 02B.0211 for more information. The Human Health standard for Nickel in Water Supply Streams Is 25 mg/L which is Total Recoverable metal standard. The Human Health standard for Arsenic is 10 pg/L which Is Total Recoverable metal standard. 3) Pretreatment Facilities- PERCS will need a copy of the Dissolved to Total Metal Calculator spreadsheet and the RPA sheet along with the Final Permit. Pretreatment _ Facilities are required to renew their Headwords Analysis after renewal of their permits. Since all their metal allocations are likely to change PERCS needs to see any new metal permit limits and the allowable allocations for the dissolved metals to assess Maximum Allowable Headworks Loading (MAHL) numbers for each metal based on the Combined Hardness values used in the permit writers RPA calculations. 4) For Cadmium, Lead, Nickel, Chromium and Beryllium, if all the effluent sampling data for the last three to five years shows the pollutant at concentrations less than the Practical Quantitative Level (PQL), it is not likely a limit or monitonng will be put in the permit. However, if the estimated NPDES - permit limit is less than the Practical Quantitative Limit (particularly, Cadmium and Lead) and the pollutant is - believed to be present, to assess compliance with the new standards and for future permit limit development, monitoring for the pollutant will be required. If the facility is monitoring for the pollutant in its Pretreatment LTMP, no monitoring is needed in the permit. 5) For monitoring and compliance purposes if Total Chromium (Identify parameters HUC Hard Med (mg/L) = 21.5 EFF Hard Med (mg/L) = 25 REASONABLE POTENTIAL ANALYSIS H Effluent Hardness (monthly average) Use "PASTE SPECIAL values'• tnen "COPY" . Maximum data points = 68 Par01 & Par02 Arsenic Use "PASTE SPECIAL Values" u,en' copy . Maximum data points - 68 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 251 25 Std Dev. N/A 1 1.9 Std Dev. 3.6847 F 1.9! 2 Mean 25.0000 2 2.51 2.5 Mean 5.4435 3 C.V. 0.0000 3 < 2 1 C.V. 0.6769 41 ( n 1 4 < 2 1 n 23 5 i t 10% value 25.00 mg/L 5 2.2i 2.2 6 Median Value: 2500 mg/L 6 3 3 Mult Factor = 1.34 7 Max Value 25.00 mg/L 7 < 2� 1 Max. Value 14.7 ug/L 8 a 8 3.26 326 Max. Ped Cw 19.7 uglL 9 1 9 3.25 3.25 10 I 10 4.75 4.75 11 11 . 6.811 6.81 12 12 10 5j 10.5 13 j 13 7.651 765 14 14 10.5 10.5 15 I 15 11.1; 11.1 16 16 5.871 5.87 17 171 4.79 4.79 18 18 7.28J 7.28 19 ! 19 14.7It 14.7' 20 { 20 5.971 5.97 21 I 21 3.41. 3.41 22 22 4.651 4.65 23 j 23 8.11 8.11 24 f 24 25 + 25 2626 27� 27 28 28 29 29 30 30 31 31 32 i 32 If I 33 I 33 34 34 35� 35 36 I 36 37 P 37 38 i 38 39 ; 39 i 40 $ 40 41 ' ' ' € 41 42 = 42 I 43 43 44 j 44 45 1 45 46 46 47 I 47 48 48 49 49 50 I 50 51 51 52 i 52 1 53 ` 53 54 54 55 i 55 56 56 57 57 58 I 58 4987 -RPA dissolved-2016.xlsx, data 1 4/19/2016 REASONABLE POTENTIAL ANALYSIS Par03 Use"PASTE SPECIAL Par04 Beryllium Values" then "COPY" Cadmium M Maximum data points = 58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 < 1 { 0.5 Std Dev. N/A 1 < 1' 0.5 Std Dev. N/A 2 ' Mean 0.5000 2 I Mean 0.5000 3 C.V. 0.0000 3 C.V. 0.0000 4 ; n 1 4 n 1 5 5 6 Mult Factor = 1.00 6 Mult Factor = 1.00 7 , ' i Max. Value 0.50 ug/L 7 Max Value 0.500 ug/L 8 Max. Fred Cw O DETECTS ug/L 8 i Max. Fred Cw O DETECTS ug/L 9 10' I 9 10 ! 11 9 11 12 12 t 13 t 14 15 R 14€ 15i 9 16� 16 17 17 18 • 18 3 i 19 19 20 20 21 A 21 22 22 23 23 l 241 j 24 25 I 25` 26 261 27 27 28 28 29 I 29 301 j 30 31 31 32 32 33 ` 33 34 34 35 35 36 36 } 37 37 38 38 i{ r 39 39 40 401 41j.... j ! 41i 42 _ 42 43 _ - 431 1 44 441 45 45 461 461 47 i 47 48 48 49 • 49 50 I 50 51 51 52 52 53 . I 53 54 54 55 ? 55 56 ) 56 57 57 58 t 58 4987 -RPA dissolved-2016.xlsx, data - 2 - 4/19/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved -2016 xlsx, data - 3 - 4/19/2016 Par05 Par06 usa " PASTE SPECIAL- use "PASTE S Chlorides (AL) Values"t's., P.. Chlorinated Phenolic Compounds Values"then" Maximum data points = . Maximum H points Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 300 Std Dev. 61.6950 1 Std Dev. NO DATA (� 306 2 300 300 Mean 285.9 2 Mean NO DATA 3 350 350 C.V. 0.2158 3 C.V. NO DATA 4 380 380 n 22 4 n 0 5 240 240 5 6 440 440 Mult Factor = 1.1 6 Mult Factor = N/A 7 240 240 Max. Value 440.0 mg/L 7 Max. Value N/A 8 270 270 Max. Fred Cw 488.4 mg/L 8 Max. Fred Cw N/A 9 310 310 9 10 350 350 10 11 290 290 11 12 190 190 12 13 270 270 13 - 14 300 300 14 15 290 290 15 16 280 280 16 17 220 220 17 18 170 170 18 19 300 300 19 20 210 210 20 21 290 290 21 22 300 300 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 ' 38 39 39 401 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48111111 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 4987 -RPA dissolved -2016 xlsx, data - 3 - 4/19/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved-2016.xlsx, data - 4 - 4/19/2016 Par07 Par08 ECIAL use "PASTE SPECIAL use"PASTE S OPY" Total Phenolic Values" then "COPY" Compounds Chromium III Values" then " e ata Maximum data Max, n points = E points - 58 1 Date Data BDL=1/2DL Results Std Dev. NO DATA 1 Date Data BDL=1/2DL • Results Std Dev. NO DATA 2 Mean NO DATA 2 Mean NO DATA 3 C.V. NO DATA 3 j C.V. NO DATA 4 n 0 4 n 0 5 5• 6 MultFactor= N/A 6' MultFactor= N/A ug/L 7 Max. Value N/A ug/L 7 Max. Value N/A ug/L 8 Max. Pred Cw N/A ug/L 8 Max. Fred Cw N/A 9 91 10 10 11 11 12 12 13 13 ., d 14 14 15 15 16 16 I 17 171j 18 18! ! 19 1911 20 20' 21 21 22 22 23 23 24 25 24� 25, i 26 26+ 5 27 27� 28 29 28 29, I 30 30 31 31 32 32 I 33 33 t 34 34� I -35 35 36 36 37 37� 38 38 ' 39 39. 1 40 40 I 41 41 42, 42 43 43 44 44� j 45 451 I 46 46j 47 47i 48 48 49 49 50 501 51 51 52 52 53 53 54 54 55 55 56 56 57 57 i1 p 58 58 I 4987 -RPA dissolved-2016.xlsx, data - 4 - 4/19/2016 J Z J a_ F - z LU a. w J m Q Z O a w w OpO Omz'- O O O m (FUI❑-q p nO 0 0 LU- Q O IIU oma >U N r (L)w > a` C)G _ ycts ! N w N :5N O ❑ o �_ II E ❑ o d L r r N co V O h co (A O r N co CO I- CO O O N M V lO (0 r,, -W (A O N M V l0 (0 I� N C O N M V tO (0 I, W (P O N M V LL7 (O W C. M 0 M rM @ a r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V V V V V V V V V lO til M J a L) r J J 0.V =L=L N = E u O ¢_ W °N Z Z Z Q Q Q FF -F > > Z Z Z I I U Z5ma N > U 6 w ay M> a �❑ U) =mm id,>. > J E o E m U — m m ❑ C i 0 r N M V L0 0 r� W CA ON M V UO 0 1` W O O N M C0 0 h M M O N M V W CO h N M O N M V 0 0 f- W r r rrrr r .- r r N N N N N N N N N N M �7 M M M M M M M M V V Vv V Vv V V V to LO � LO LO� LO LO a J Q U Y Q J J O7m 1 1 V: co J Q z a J a_ H z W r O CL LU MJ W Q O Q W w (n C E�� O 0— O O (n w o E m O oo c o 0� U r W >> z p II U O > j -p U(m d N -• LL > a v m as J to N � c0 J Uin in Ir ' M 'Ir u� m 1- m m O N M V' m m 1.- m m 0 N M -t U[ m Ih m m 0 N M 'V• to m 1- m a r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V V' 'V V' V V v R VLo m m m ul u7 Lo o J Q : Y J J > G O O N O LO F W r (( N 0 y£ o 0 o c O u� O r N U 2 m x a O N O LU F, W _> o II U O u) j � U Uc9 N a)c li > a` 3 ai -o >. 3 m m a1°i 65 c J J u� LO Q cV cV L � _ a o v v d o, �r r N co V uJ m lh m O 0 (N co -T u7 m 1- m m 0 N co 'V• Lo in 1` m O] O N M Vu') m 1- m W 0 N CO 'V' Lo m h m R rr rrrr rrrrNNNNN NNNNNM MMMMMMMMM V' Vad' V''V' V'V''V VLf) Lo un LoLf) ur LO u! a J_T> J_RL UO� m m m0 � N N W X m N N 0 m a Q a n C') V REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved-2016.xlsx, data - 7 - 4/19/2016 Par13 Par14 ECIAL Use "PASTE SPECIAL Use "PASTE S OPY" Fluoride Values" then "COPY" Lead Vaiues"then " ata . Maximum data . Maximum 8 points = 58 points = 1 Date Data BDL=1/2DL Results Std Dev. NO DATA 1F Date Data BDL=1/2DL Results —y— < 11 0.5 Std Dev. N/A 2 Mean NO DATA 2I 1 Mean 0.5000 3 C.V. NO DATA 3! C.V. 00000 4 n 0 4i n 1 5 5 6 Mult Factor = N/A 6 Y Mult Factor = 1.00 ug/L 7 Max. Value N/A ug/L 7 1 Max. Value 0.500 ug/L 8 Max. Fred Cw N/A ug/L 8! Max. Fred Cw O DETECTS 8 8 10 101 11 11 12 12 13 13 14 14 15 15 16 17 16+ 17� 1 18 181 19 191 20 20I 21 21 22 22 23 23� 24 24 25 25 4 26 26 iii i 27 27 b 28 28 r 29 29 ! 30 30 31 31 32 32 33 33 1 34 34 35 35 36 36 37 37 38 38 39 39 j 40 40 41 41 ' 42 42 ' 1 43 43 44 44 4 45 45 j 46 46 47 47 Y 48 48 49 49 i 50 50 51 51 52 52 53 53 j 54 54 I 55 55 56 56 57 57 f 58L 58+ 4987 -RPA dissolved-2016.xlsx, data - 7 - 4/19/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved-2016.xisx, data - 8 - 4/19/2016 Par15 Par16 ECIAL Use"PASTES OPY" Mercury M Molybdenum Values" thenata Maximum points - 1 Date Data BDL=1/2DL 0.992 ResultsDate Std Dev. 0.9299 1 Data BDL=1/2DL 18.471i 18.4 Results Std Dev. NIA 0.992 2 1.46 1.46 Mean 1.4203 2 4 Mean 18.4000 3 0.955 0.955 C.V. 0.6547 3 C.V. 0.0000 4 1.18 1.18 n 22 4 n 1 5 1.52 1.52 5 6 3.25 3.25 Mult Factor = 1.35 6 Mult Factor = 1.00 ug/L 7 3.51 3.51 Max. Value 3.5 ng/L 7 Max. Value 18.4 ug/L 8 1.17 1.17 Max. Pred Cw 4.7 ng/L 8 Max. Pred Cw 18.4 9 2.82 2.82 9 j 10 1.26 1.26 10 11 3.13 3.13 11 12 1.951 1.95 12 13 `° 0.864y 0.864 13 14 0.8951 0.895 14 , 15 0 929 0 929 15 16 0.953? 0.953 161 17 0.766 0.766 17 18 1.01, 1 01 18 19 0.852 0.852 19 i 20 < 0.5 0.25 20 21 1.28 1.28 21 22 < 0.5 0.25 22 23 23 24 24 25 25 26 26 p 27 27 { 28 28 j 29 29 30 30 I 31 31 32 32 j 33 33 34 34 35 35 36 36 37 37 38 38 i 39 39 1 40 i 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 i 50 50 51 51 PPf 52 52 53 53 54 54 55 55 1t 56 56 1 57 571 58 58I 4987 -RPA dissolved-2016.xisx, data - 8 - 4/19/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved-2016.xlsx, data - 9 - 4/19/2016 Par17 & Par18 Par19 ECIAL Use "PASTE SPECIAL oPY" Nickel Values" then "COPY" Selenium ata , Maximum data 8 1 Date Data BDL=1/2DL 15.2 Results Std Dev. points = 58 5.0664 1-� Date Data 3.93 BDL=1/2DL 3.93 Results Std Dev. 15-2 2 14.7 14.7 Mean 11.8452 2 3.17' 317 Mean 3 23.6 23.6 C.V. 0.4277 3 3.52, 352 C.V. 4 21.9 21.9 n 23 4 3.211 3.21 n 5 16.2 16.2 5 3.191 3.19 6 16.3 16.3 Mult Factor = 1.22 6 3.331 3.33 Mult Factor = ug/L 7 12.7 12.7 Max. Value 23.6 Ng/L 71 3.31 3.3 Max. Value ug/L 8 12.3 12.3 Max. Pred Cw 28.8 pg/L 8! 2.73 2.73 Max. Fred Cw 9 13.9 13.9 91 2.58. 2.58 10 13.4 13.4 10, 3.13; 3.13 11 15.9 15.9 111 3.321 3.32 12 8.5 8.45 121 2.6,41 264 13 12.9 12.9 13 t 3.07' 3.07 14 6.2 622 14 2 55 2.55 15 8.1 8.07 15 2.51: 2.51 16 8.3 8.28 16 2.04; 2.04 17 8.4 8.42 17 2.92+ 2.92 18 9.91 9.88 18 2.79' 2.79 19 4.6I 4.61 19� 3.12, 3.12 20 4.7 4.67 20 2.71E 2.71 21 5.5 5.46 211 2.361 2.36 22 8.6 8.58 22 2.64 2.64 23 10.8 10.8 23 2.661 2.66 24 24 2.93; 2.93 25 25 2.741 2.74 26 26 2.46 2.46 27 27 2.621 2.62 28 28 2.211 221 29 29 1.871 1.87 30 30 1.871 1.87 31 31 1.94 1.94 32 32 2.381 2.38 33 33 2.26 2.26 34 34 3.21! 3.21 35 35 2.431 2.43 36 36 2.611 2.61 37 37 2.31 2.3 38 38 3.63 3.63 39 - 39 4.91, 4.91 40 401 4.511 4.51 41 41 4.731 4.73 42 42 4.36! 4.36 43 43 4.571 457 44 44 4.981 4.98 45 45 5.25 5.2 46 46 5.331 5.33 47 47 5.87, 5.87 48 48 5.56 5.56 49 49 6.041 6.04 50 50 4.23' 4.23 51 51 4.11 4.1 52 52 4.26; 4.26 53 53 3.35! 3.35 54 54 2.68 2.68 55 55 2.76 2.76 56 56 3.37 3.37 ' 57 57 2.85 2.85 58 58 3.18; 3.18 4987 -RPA dissolved-2016.xlsx, data - 9 - 4/19/2016 REASONABLE POTENTIAL ANALYSIS Use"PASTE SPECIAL Values" then "COPY" . Maximum data points = 68 Par20 1 Date Data $IIV2C (AL) BDL=1/2DL ResultsDate M 0.5 Std Dev. N/A Par'21 1 Data Zinc (AL) BDL=1/2DL Results 37.6 Std Dev. 1.0437 < 1 37.6 3.3055 2 Mean 0.5000 2 '25.3 25.3 Mean 0.3157 3 C.V. 0.0000 3 26.8 26.8 C.V. 58 4 n 1 4 40.8 40.8 n 5 5 38 38 1.00 6 Mult Factor = 1.00 6 23.1 23.1 Mult Factor = 6.0 ug/L 7 Max. Value 0.500 ug/L 7 43 43 Max. Value 6.0 ug/L 8 Max. Pred Cw O DETECTS ug/L 8 29.5 29.5 Max. Pred Cw 9 9 17.1 17.1 10 10 15.8 168 11 11 16 16 12 12 8.3 8.3 13 13,x.` 28.8 28.8 14� 14 - 11 17.1 151 15 „ `9.2 9.2 16 16 14 14 17 17 15.8 15.8 18 18 12.4 12.4 19 19 21.2 21.2 20 20 11.9 11.9 21 21 .10 .9 10.9 22 22 9.05 9.05 23 23 11.4 11.4 24 24 10.7 10.7 25 25 14 14 26 26 17.8 17.8 27 27 13.1 13.1 28 28 10_.8 10.8 29 29 14 14 30 30 521 5.21 31 31 10.7 10.7 32 32 2.35 2.35 33 33 3,75 3.75 34 34 4.4 4.4 35 35 3.02 3.02 36 36 12.5 12.5 37 37 4.74 4.74 38 38, 4.41 4.41 39 39 9.18 9.18 40 40 A1.7 11.7 41 -, 41 162 16.2 42 42 .17.3 17.3 43 - 43` -12 1 12.1 44 44 "6:28 6.28 45 . 45 1.58 1.58 46 46 2 2 47 47 3,42 3.42 48 48 '3.84 3.84 49 49 1 1.6 1.6 50 50 8:11 8.11 51 51 10.7 10.7 52 52 -11.5 11.5 53 53 .9.48 9.48 54 54 10.8 10.8 55 55 16.8 16.8 56 56 10.3 10.3 57 57 14 14 58 58 3.19 3.19 4987 -RPA dissolved-2016.xlsx, data 10- 4/19/2016 T a z a J a z W F- 0 CL W J m a z ♦O♦/� v♦ NW w �o � N X N r X 0 N N 0 w An =o n co v J(D C 0 ^ O 0 r O O !� m ❑ [D e p� m p M r N M V (D (O I, M m O N M O O N M V (O (O N O O N M V UD (D h O Q) O N M V (O co W a (O (D (O (n (n (D (O N N N N N N N N N N N N N N N M M M M M M M m M M co V �• V V V V V V V V (O Lr) LO aS= JJ lo) O7 o) =Ls a v 9 N (q CE (( O O r O O O LwLl o0 000 oo roo a v m Q o 0 C-4 G Q N N N 7 J Z N N u U o 'o W LL a` ❑ c y -o � m m ami>. �c E J N N E J 7 p Q m cc N t d m N ` r N M V (1D (D h aD 0 O N M V (O (O I� O O) O N M V (O (O h CD O O N M V (() (D h O M O N M V (n (D r aO m O N M V M M I� OD CL r r r r r r r r r N N N N N N N N N N M M M M M M CO M M M V V V V V V V V V V (n (n (o (O (O (O LLD LL) LLD U 0 M o) a n 7 V h Vi C E n V N M Co o o o LLf G y (D O V (f) O M M co cDF- t E c Io cD h 'T V a y x a W O G = G y > �o � N X N r X 0 N N 0 w An =o n co v REASONABLE POTENTIAL ANALYSIS ResultsDate m Std Dev. N/A Paf24 1 Data _ -�u Use "PASTE SPECIAL 0 Values" then "COPY" BDL=1/2DL Results Std Dev. NO DATA Par25 1 Date Data U BDL=1/2DL Mean 0.0760 2 Mean NO DATA 2 C.V. 0.0000 3 C.V. NO DATA 3 n 1 4 n 0 4 5 5 Mult Factor = 1.00 6 " ' Mult Factor = N/A 6 Max. Value 0.076000 mg/L 7 Max. Value N/A 7 , Max. Pred Cw 0.076000 mg/L 8 Max. Pred Cw N/A 8 9 9 10 10 11 11 12 12 13 _; 13` _ 14 "-_ 14 15 15_ 16 16 17 17 18 18 ` 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29' 30 30 31 31 32 32 33, 33 34 34 35 35 • 36 " 36 37 37 38 38 39 I 39 40 {p 40 , 41 fl 41 . 42 42 43 43 44 - 44 45 45 46 46 47 47 48 48 ` 49 49 50 50 51 51 52 52 53 53, " 54 54 55 55 56 56 57''" 57 58 '58 4987 -RPA dissolved-2016.xlsx, data -12- 4/19/2016 Results �- Std Dev. NO DATA Mean NO DATA C.V. NO DATA n 0 Mult Factor = N/A Max. Value N/A Max. Pred Cw N/A REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved-2016.xlsx, data 13- 4/19/2016 'Marshall Steam Station NC0004987 Freshwater RPA - 95% Probability/95% Confidenc Using Metal Translators MAXIMUM DATA POINTS = 5 Qw (MGD) = 1.00 WWTP/WTP Class: I 1Q10S (cfs)= 49.15 IWC% @ 1Q10S = 3.057199211 7Q10S (cfs) = 60.00 IWC% @ 7Q10S = 2.518277823 7Q10W (cfs) = 60.00 IWC% @ 7Q10W = 2.518277823 30Q2 (cfs) = 60.00 IWC% @ 30Q2 = 2.518277823 Avg. Stream Flow, QA (cfs) = 60.00 IW%C @ QA = 2.518277823 Receiving Stream: Lake Norman HUC 03010103 Stream Class: WS -IV Outfall 002 dewatering Qw = 1 MGD COMBINED HARDNESS (mg/L) Acute = 25 mg/L Chromic = 25 mg/L YOU HAVE DESIGNATED THIS RECOWNG STREAM AS WATER SUPPLY Effluent Hard:0 va9 > 100 mg/L 0 va9 < 25 mg/L Effluent Hard Med = 25 mg/L PARAMETER STANDARDS & CRITERIA (2) U) REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION TYPE (1) � oa. f- Z NC WQS / Applied %z FAV / D n # Det Max Pred Cw Allowable Cw Chronic Standard Acute Acute (FW): 11,121.3 Arsenic C 150 FW(7QIOs) 340 ug/L add limit 1 1 3,560.0 ------------------ Chronic (FW) 5,956.5 _ -------- DoWtC.V. N_ov_alue>_Allow_able_Cw Arsenic C 10 HH/WS(Qavg) ug/L MAI-: oa S 9 ------ Chronic (HH)_397.1 ------------------------- IL wvlited data, set I values > Allowable Cw Acute. 2,126.13 ". Beryllium NC 6.5 FW(7QIOs) 65 ug/L 0 0 N/A --Ch _ _ -----— _ -- Na — — ---------------------- ronic: ] 1 Acute: 105.967 Cadmium NC 0.5899 FW(7QIOs) 3.2396 ug/L 1 0 NO DETECTS no limit Nato- a S 9 ___ _ ---_ _ ___ Chronic: 23.424 __........................ Umlkd datm mi Max MDL = 1 Acute- NO WQS no limit Chlorides (AL) NC 230 FW(7QIOs) mg/L 1 1 288.0 — — — — — --- — — — — — ---- Note: R5 9 I':&U➢tC.V. Chronic: 9,133.2 — Llmkcd data sed No value > Allowable Cw Acute: NO WQS Chlorinated Phenolic Compounds NC 1 A(30Q2) ug/L 0 0 N/A _ _ _ _ _ --Chronic -----39.7 -- Na --, -------------- --------- Acute: NO WQS Total Phenolic Compounds NC 300 A(30Q2) ug/L 0 0 N/A -------------------------------------------- Na Chronic: 11 Acute: 29,604.9 Chromium III NC 117.7325 FW(7QIOs) 905.0818 gg/L 0 0 N/A no limit --------------------------------------------- Chronic: 4,675.1 Acute: 523.4 Chromium VI NC 1 I FW(7QIOs) 16 µg/L 0 0 N/A no limit _ _ _ _ --Chron----436.8 -- Chronic: — ,------- ------=------- — Chromium, Total NC gg/L 1 0 NO DETECTS no limit 1 gfilQ Max MDI. = I 4987 -RPA dissolved dewaterring 1-2016, rpa Page 1 of 3 4/21/2016 Marshall Steam Station Outfall 002 dewatering N00004987 Freshwater RPA, 95% Probability/95% Confidence Using Metal Translators Qw =I MGD Acute: 342.54 Copper (AL) NC 7.8806 FW(7QIOs) 10.4720 ug/L 1 1 1.99 no limit Note: m a De �ufluC. _ _ _ _ _ Chronic: ------- -- ----_--------------------- Lamitecl data set No value > Allowable Cw ' Acute. 719.6 Cyanide NC 5 FW(7Q10s) 22 10 ug/L, 0 0 N/A n/a -Chr_ _ _ —onic: ---- 198.5 _ -- —; ------------------------ I Acute: NO WQS Fluoride NC 1800 FW(7QIOs) ug/L 1 1 2.8 m- nidd� Ne�Crea m:59 i eLaaaHtC.�1. _ _ _ _ _ _ _ Chronic --- 71--- — ,477.4 ------------------ . ------ ➢Lirniked data set No value > Allowable Cw Acute' 2,469.159 Lead NC 2.9416 FW(7QIOs) 75.4871 ug/L 1 0 NO DETECTS no limit i�te°da�9 _ _ _ _ _ _ _ Chronic: --- 116.811-- -----------------,--------- Lfmhtd daati set Max MDL =1 '. Acute. NO WQS Mercury NC 12 FW(7QIOs) 0.5 ng/L 1 1 2.0 no limit Noteea 5 Tai u1dC.9. _ _ _ _ _ _ Chronic. ---- -- -- --------------- ---------- IL„iaamkkl AxLsa sat No value > Allowable Cw Acute: NO WQS Molybdenum NC 2000 HH(7QIOs) ug/L 11 854.0 no limit Notv. u 97, I�o'iaa ft C. _ _ _ _ _ _ Chronic: --- 79--- — ,419.4 ------_------------------- 1,hrafta'd data set No value > Allowable Cw Acute (FW): 10,964.6 Nickel NC 37.2313 FW(7QIOs) 335.2087 µ -------------------- no limitg/L 1 1 14.8 Chronic (FW) 1,478.4 Note- n 5 9 1Default C.V. No value > Allowable Cw Nickel NC 25.0000 WS(7QIOs) itg/L Lbmfted datm set Chronic (WS) 9927 -------------- __Nickel No value > Allowable Cw Acute: 1,8317 Selenium NC 5 FW(7QIOs) 56 ug/L 1 1 32 no limit Note. aa53 Lc sit CIV. _ _ _ _ _ Chronic: ----198.5 -- _-=----------------------- _Laniteal data sel No value > Aflowable Cw Acute: 9.695 Silver (AL) NC 0.06 FW(7QIOs) 0.2964 ug/L 0 0 N/A n/a _ _ _ _ --Chronic: ----2.383 -- — .------------------------ Acute: 4,111.8 Zinc (AL) NC 126.7335 FW(7QIOs) 125.7052 ug/L 1 1 50.0 no limit laata, �9 T etraaaaBC.n�. _ _ Chronic: 5,— --- - -- -----------------c------- um, Red dam set No value > Allowable Cw Acute: NO WQS no limit Aluminum NC 87 FW(7Q10s) µg/L 1 1 810.00000 Note. a59 DefauitC.V. _ _ _ _ _ _ _ Chronic: — 3454.74194 — ----------------- --- _ — ----- Limited data set No value > Allowable Cw Acute: NO WQS Boron NC 7 WS(7Q10s) mg/L 1 1 6.27000 no limit �I'oge'tm� WzjiltC.V. _ _ _ _ Chronic: — 2-7-7-69 .7_74 —------- ----- --- — — — Lf wiled data set No value> Allowable Cw Acute: NO WQS_ " ��- 4987-RPA dissolved dewaterring 1-2016, rpa v Page 2 of 3 4/21/2016 Marshall Steam Station Outfall 002 dewatering N000049B7 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Qw =I MGD Sulfate NC 250 WS(7Q10s) mg/L 1 1 149.00000 r7 Note.. R � 9 Defao1ft C.V. I _ _ _ _ _ _ _ —_ Chronic: -- 2382.58065 ,�-- Ln�iaited �la4aset Novalue > Allowable Cw Acute: NO WQS Barium NC 1 WS(7Q10s) mg/L 1 1 0.49800 no limit N�Oyoeta 6 abMiflC.�°, _ _ _ _ _ _ Chronic: 39.70968------- ---------------=— ------- Limited data set No value > Allowable Cw 4987 -RPA dissolved dewaterring 1-2016, rpa Page 3 of 3 4/21/2016 Marshall Steam Station Outfall 002 dewateTing NC0004987 Freshwater RPA - 95% Probability/95% Confidence Using Metal Translators Ow =I MGD 4987 -RPA dissolved dewaterring 2-2016, rpa Page 2 of 3 4/21/2016 Acute: 342.54 Copper (AL) NC 7.8806 FW(7QI0s) 10.4720 ug/L 1 1 1.99 ---------------------------------------- no limit • Notc. 'A �5 9 DuFault C,V, Chronic: 312.94 UnAted datzi sat No value > Allowable Cw Acute: 719.6 Cyanide NC 5 FW(7Q10s) 22 10 ug/L 0 0 N/A n/a - 198.5 ------------- —Chronic: -- ------ ------------------- - Acute: NO WQS Fluoride NC 1800 FW(7QI0s) ug/L 1 1 2.8 n/a Note: 11 :5 9 Dafault C.V. --------------------------------------------- Chronic: 71,477.4 Uniftd data aeg No value > Allowable Cw Acute: 2,469.159 Lead NC 2.9416 FW(7Q I Os) 75.4871 ug/L 1 0 1 NO DETECTS no limit No min 9 te- 5 Ei- 7 - - - - - 1 - ----- Chronic: 1 - ---_------- -_---- - - LhuWA do'sa gat Max MDL = I Acute: NO WQS Mercury NC 12 FW(7QI0s) 0.5 ng/L I 1 2.0 no limit Note'. 115 9 Default C.V. ___ ------- ---------------------------------- Chronic: 476.5 Limited &'At'4 set No value > Allowable Cw Acute: NO WQS Molybdenum NC 2000 HH(7QI0s) ug/L 1 854.0 �, no limit Note: rXI<— 9 N,jq'Uj� C.V. --�W-7 Chronic: 79,419.4 LlffdkiA 612 su. No value > Allowable Cw Acute (FW): 10,964.6 Nickel NC 37.2313 FW(7QI0s) 3352087 gg/L no limit 1 1 14.8 --------------------------------------------- Chronic (FW): 1,478.4 Note. H 5 9 Ddznh C.V. No value > Allowable Cw Nickel NC 25.0000 WS(7QI0s) l.Lg/l, Umfted dataset ------------------------------- Chronic (WS): 992.7 No value > Allowable Cw Acute: 1,831.7 Selenium NC 5 FW(7QI0s) 56 ug/L 1 1 -,J.2 ------------------- no limit ---------- Note. H Z 9 Ddamlt C.V. Chronic: 198.5 -------------- Limfted data ati No value > Allowable Cw Acute: 9.695 Silver (AL) NC 0.06 FW(7QI0s) 0.2964 ug/L 0 0 N/A n/a --------------------------------------------- Chronic: 2.383 Acute: 4,111.8 Zinc (AL) NC 126.7335 FW(7QI0s) 125.7052 ug/L 1 1 50.0 no limit Hoqc'o �'C:5 ,V C�. --------------------------------- Chronic: -032.5 um ked dMtR Wt No value > Allowable Cw Acute: NO WQS Antimony NC 56 WS(7QI0s) gg/L 1 0 1 NO DETECTS -6�ronic: no limit Hoc, �R- ID!5 9 -7 7 i237419 UYmWddmft oot IMax MDL = I Acute: NO WQS Thallium NC 0.24 WS(7QI0s) gg/L I 1 1 0.82800 no limit C.V. — - ------------------------------- Chronic: Eonic: — —53032 R;Jlmftt(20�@ na No value > Allowable Cw 1 Acute: 4987 -RPA dissolved dewaterring 2-2016, rpa Page 2 of 3 4/21/2016 Date: 4/21/2016 Enter data onto 'Table 1" under the Input Sheet and enter "Effluent Hardness" under the Data Sheet. In accordance with 40 CFR 122.45 (c), permits are, have and must be written as total metals. This calculator has been inserted into the RPA to calculate Total Metal allowable allocations once Table 1 has been completed (Input Sheet) and Effluent hardness has been entered (Data Sheet). 1) Following the spreadsheet from left to right. First the allowable allocations for the dissolved metals will appear for all the metals listed once Table 1 is complete and effluent hardness entered. Use a default value of 25 mg/L if no hardness data is available. Second, the Dissolved Metal allocations are divided by the Translators to determine the Total Metals that can be allocated to the Permittee. These Total Metals values are automatically Inserted into Table 2 and are the allowable Total Metal allocations determined for the Permittee prior to allowing for dilution. See Input sheet Table 2. The final acute`and chronic values shown under the RPA sheet are the Total Metal values listed in Table 2 divided by the acute and chronic IWC, respectively. 2) The Translators used in the freshwater RPA are the Partition Coefficients published by US EPA in 1984. They are TSS dependent equations and can be found listed with the WQS .hardness dependent equations underthe sheet labeled Equations. A fixed TSS value of 10 mg/L is used to calculate the Translator values. 3) PretreatmentFacilities—PERCS will need a copy ofthe Dissolved to Total Metal Calculator spreadsheet and the RPA sheet along with the Final Permit. Pretreatment Facilities are required to renew their Headwords Analysis after renewal of their permits. Since all their metal allocations are likely to change PERCS needs to see any new metal permit limits and the allowable allocations for the dissolved metals to assess Maximum Allowable Headworks Loading (MAHL) numbers for each metal based on the Combined Hardness values used in the permit writers RPA calculations. 4) For Cadmium, Lead, Nickel, Chromium and Beryllium, if all the effluent sampling data for the last three to five years shows the pollutant at concentrations less than the Practical Quantitative Level (PQL), it is not likely a limit or monitoring will be put in the permit. However, if the estimated NPDES permit limit is less than the Practical Quantitative Limit (particularly, Cadmium and Lead) and the pollutant is believed to be present, to assess compliance with the new standards and forfuture permit limit development, monitoring for the pollutant will be required. If the facility is monitoring for the pollutant in its Pretreatment LTMP, no monitoring is needed in the permit. 5) For monitoring and compliance purposes ifTotal Chromium FACILITY: Marshall Steam Station NPDES PERMIT: NC0004987 Dissolved to Total Metal Calculator 90 R�gw7i fm1 Fa 8 WMA b@ c', 4mon �Pg U@3l vwt3b PW Q CR 1=444) Receiving ��Recl,I Stream summer 7Q10 (CFS) Sbeam summer 7010 (MGD) Rec. Stream 1010 rMGDj NPDES Total Suspended Solitls Flaw Lm" -Fixed Value- FMGDI Combined Hardness chronic - Combined Hardness Acute 60 0000 38 7097 317097 1.0000 10 25 000 25 000 US EPA u..AtvsBI. EllhrengCooankatxn COMMENTS (identify pan Dlae)lved Metals Tronsiators-using 4c) m a Tatel Petit PARAMETER Default Partition -O�aalved Meral.Tradl xcr _ChremC.. Acute Coefficients Chronic Acute (d) = dissolved metal standard. See 15A NCAC 02B.0211 for more information. (h) = hardness -dependent dissolved metal standard. See 15A NCAC 02B.0211 for more information. (t) = based upon measurement of total recoveable metal. See 15A NCAC 02B.0211 for more Information. The Human Health standard for Nickel in Water Supply Streams is 25 mg/L which is Tota) Recoverable metal standard. The Human Health standard for Arsenic Is 10 pg/L which Is Total Recoverable metal standard. Instream Instream Effluent 8 digit HUC Concentration Wastexatio Hardness Hardness Medan C(Chronic) Concentration (mom) Medmn (chronic) (A.A.) (mgrL) 1Ut: Hard Med (mg/L) = 21.1 EFF Hard Med (md/L) = 25 REASONABLE POTENTIAL ANALYSIS H Use "PASTE SPECIAL Effluent Hardness (monthly "at ues"then". Maximum data COPY" points = 58 Par01 & Par02 Use "PASTE SPECIAL values"then"COPY" Arsenic Maximum data . points = 68 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 11 25y� 25 Sid Dev. N/A m 3560 3560 Sid Dev. N/A 25.0000 2 560.0000 3 9 C.V. 0.0000 3 �! C.V. 0.0000 4 n 1 4 I n 1 5 ; 10% value 25.00 mg/L 5 6 Median Value; 25.00 mg/L 6 Mult Factor = 1.00 7 Max. Value 25.00 mg/L 7 . a ". Max. Value 3560.0 ug/L 8' 8 Max. Fred Cw 3560.0 ug/L 9 i 9 10 ! 10 11 11 12 12 13 13, . . 14 a 14 15 ; 15 16i 16 II 171 17 I 181 �� 18 191 19 20 20 21 21 j 22 22 • j 23 23 24 24 25 25 26 26 27 a 27 ` 28 28 29 29 ' f 301 . 30 31� I 31 32 32 33 ; 33 _° • , 34 34 35 35 , 36 36` 37 37 ,. 38 38 39 39 40 40 41 ", 41 42 w 42 43 i 43 i 44 44 i 45 451 46 . 46 i 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 57 g 56i 57 58 58 L� ' 4987 -RPA dissolved dewaterring 1-2016, data 1 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS Par03 Use"PASTE SPECIAL Values" then "COPY" Beryllium Maximum data points - 58 Par04 Use"PASTE SPECIAL Values" then "COPY" Cadmium Maximum data points = 58 Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 • - Std Dev. NO DATA 1 0.5 Std Dev N/A < f 2 Mean NO DATA 2 - Mean 0.5000 3 1 C.V. NO DATA 3 C.V. 0.0000 4 n 0 4 n 1 5 5 6 Mult Factor = NIA 6 Mult Factor = 1.00 7 Max. Value NIA ug/L 7 °: - I Max. Value 0.500 ug/L 8 Max. Pred Cw N/A ug/L 8 I Max. Pred Cw O DETECTS ug/L 9 9 10 10 11 11 12 12 13 13 14 14 15 15 ' 16 f 16 17 i 171 } 18 18; 1 19 { 19" 20 20 21 21 22 !!! 22 . • , 23 23 . 24{j 24 25j i 25 1 26i 26 27 27 28 28 29 29 30 311 31 } 32 32 33 33 34. 34 35 _ ` ' j' 35 Jy 36 i 36 37 i 37 I 38 38 39 39 _ 40 40 41 41 " 42 42 43 43 44 44 45 45 i ' 46 46 47 I 47 48 48 49 49 I 50 50 51 51 52 52 .? ; 53 53 54 54 55 55 56 56 ' 57 . 57 .. 58 58 4987 -RPA dissolved dewaterring 1-2016, data - 2 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved dewaterring 1-2016, data - 3 - 4/21/2016 Paf05 Par08 Use "PASTE SPECIAL- Use "PASTE S Chlorides Values" then "COPY" . (AL) Chlorinated Values" then " Phenolic Compounds Maximum data points = 58 Maximum points = Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 1 288 288 Std Dev. N/A 1 Std Dev. NO DATA �- 2 Mean 288.0 2 ' Mean NO DATA 3 C.V. 0.0000 3 C.V. NO DATA 4 n 1 4 n 0 5 5 6 Mult Factor = 1.0 6 Mult Factor = N/A 7 Max Value 288.0 mg/L 7 Max. Value N/A 8 Max. Pred Cw 288.0 mg/L 8 Max. Fred Cw N/A 9 - 9 10 10 11 11 12 12 13 13 a 14 14 151 15 161 16 17111 17 18 18 19 19 20 20 21 21 22 22 23 23 ff 24 24 I 25 25 26 .. 26 27 27 28 28 29 29 ; 30 30 31 31 32 32 33 33 34� 34 35 35 36 36 37� 37 ` 38 38 e 39 39 40 40 41 41 . 42 42 43 43 44 44 45 45 46 46 - 47 47 48 48 49 49 50 50 51 51 52 52t 53 531 54 54 55 55 5656 57 57 58 I 58 a _ 4987 -RPA dissolved dewaterring 1-2016, data - 3 - 4/21/2016 T } J Q Q J Q F.. Z LW r a W J m Q Z O U) Q W w O g¢a Q Q Qzzz toEz o o m 000 z z I I U o 2 w ami � j n` (D. � m m E o 7 E O s m 0 0O G r N CO V' In O t` CO m O r N CO V' 4) (O I-. M W O I- W O O N M V• M O t` N m O N M V' 0 0 I- M m 0 N M V• (17 a r r r r r r r r r r N N N N N N N N N N M M M M M m m M M M V' V' V' d• V' V' V' V' V V' (Cl l!i (n ([) (n (n (n0 (4 J e m `cm d U v 7 :3 O -Q Q Q y $ E c z z z coo > > z z z 11 U `) j D m (A w aa) N LL C �mm OQ O a U o n O im C d m a. .a. m I— C r N M V- U) (O I� co O O r N M d• � O t` co 0 O N M 'V' (p O� W O O N M V' M t0 f, M O O N M r LL� O t` O W O N M 'V' LD O r- co (p a N N N N N N N N M M M M M M M M M M V' V- V' V d• V' v V• V• V' (4 (n 0 (n to Up (n (n 0 J W O io m 01 m 7 7 co N O N N } J Q _Q z W a LU MJ W Z O a LU w m� En Dor oLOCO d in O O ♦- 00 Lno r U yy�c aQ H °a o o F , m wm Z O II U � O N >U (0 a) Ll > IL 750 C _ y N > > m m w O ❑ O C N � II E o 0° v Co v O . _ O i r (N CO V' M 0 f'- W m O r N M V LO O M m 0 N M V w CO 1- O m a N M V U) 0 f- M O O N M V M M h W m O N CM -,tLO O I` M a J: Q U } ° r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V V V V V V V V V UO LO LO LOW LO LO LO LO J J m m R U 7. S OQQQ LU h d '^ Z Z Z h h H n >> °z° II U � 7 a .�CO ) a >a � v -o m > > ccoo m > E J o G J O L m U co O r N M 7 LO CO I` co m O r N CO V' W (O t` (b m O N M } LO m I- O m O N M V 0 CO h CO M O N M `0' Lo o n CO m O N M V m CO I- CO w r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M ot V V V V V V V V V LO M LO M m LO LO 0 Cl') a J Qm JJ W 1 1 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved dewaterring 1-2016, data - 6 - 4/21/2016 Pall Par12 ECIAL Use "PASTE SPECIAL Use "PASTE S OPY" Values"then"COPY" Copper (AL) Values"then' Cyanide ata Maximum data . Maximum 8 points = 58 points = 1 Date Data '1.99 BDL=1/2DL Results 1.99 Std Dev. N/A 1 Date Data BDL=1/2DL Results Std Dev. NO DATA �-� 2 Mean 1.9900 2 Mean NO DATA 3 C.V. 0.0000 3 C.V. NO DATA 4 n 1 4 n 0 5 5 6 Mult Factor = 1.00 6 • Mult Factor = N/A Ng/L 7 • Max. Value 1.99 ug/L 7� Max. Value N/A ug/L 8 Max. Pred Cw 1.99 ug/L 8 Max. Pred Cw N/A 9 9 1 - 1 111 " 111 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25' 25 26 26 27 27� 28 28 „ + 29 ._ 29 2 30— 30 31 31 32 32 33 33 34 .. 34 j 35 " ` 35 . 36 36 37 37 38 38) 39 39 40 40 41 41] 42 42 43 43 44 44 45 . 45 46 ' 461 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 56 55 561 57'x` ' 57( 58 ' ' 58L 4987 -RPA dissolved dewaterring 1-2016, data - 6 - 4/21/2016 J Z J Q F' Z W' O CL W MJM A.IJ Q Z O Q NW w ooO O O O(Ino iimoor oWo Wo oWz p II U O j p u) j U N N LL >d N.� (o J � � O c ` cc d J 11 � 00 ` r N M •cr N M'T w m h w m 0 N M V m O I- N m o N M V (n w I'- w m o N ml' o m I` O y r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V 7 V V V V V V V V n n o o (0 o (n o O CL J 4 } J V Lu mJ D m m w� FL E oor 00000 p (V �Y 0000 �N I� O a y A 6 N O 3 y N Q >> Z I U W LL 4 w ❑ co _ y co N! 7 N N O I` •L N N C II 7 M LL m m IIN v • O _ M N CO C' (0 (0 1� m m O r N M V' LL) (0 t` OD m yM N M •V' (n (0 rl D7 m 0 N M V (CJ (0 Ih ao m 0 N M S ({0 (O h oD m o N M V' (n O I- w r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M R V C V V R V V V (n u7 m o w (n w (n o a Q Y b U J J O7 m W O m N 7 7 Y U) } J Z J LQ Z W O CL W m Z O U) Q W w o ' ° o o r m 7 An 0 0 N 00 0 O V' V' r r£ C O O aaHR°a Avo m Q m > > Z II U `o v w ami LL> a` � ❑ c d� m m a@>, E M S J mco r___-�_- 0 �� m cc D . o . r r N co 'T co r- co m O r N co AD (D h lD m 0 N M V' tD (O h c0 m 0 N M V' tD (D f� w O O N M V' (D I� tb m 0 N M V' AD rfl r N l4 CL J U m r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V s} V' V' V' V' V• V• sf «) An an An tD o AD AD AD Lu Om m c c y o h w E u o o r Fw- L E An n OO o 0 0 cV (V N r C m O O m > > Z I I U `o a a� mm IL > a m❑ m do Smm ami>. Q'tA�U c MM2 rn � N r � I I d Q m �m 7. O m� N M tD o I*- m m O r N M V' Aft O W m O N co V' lq O Ab m O N M V' AI) w n w m O N M v AD (D h N m O N M AD (D 1� M r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V' V' V' V V' It V' -T V' V' w (17 U) o m AD AD AD AD a J- m w � m REASONABLE POTENTIAL ANALYSIS ECIAL Par17 & Par18 Use "PASTE SPECIAL Par19 opy" Nickel Values" then "COPT' Selenium ata . Maximum data 8 points = 58 1 Date Data BDL=1/2DL Results 14.8 Std Dev. N/A 1 Date Data BDL=1/2DL Results 9:151 3.15 Std Dev. 14.8 2' Mean 14.8000 2 j Mean 3 C.V. 0.0000 3 I C.V. 4 n 1 41 5• n 5 6 Mult Factor = 1.00 6IMult Factor = ug/L 7 _ Max. Value 148 Ng/L 7 f Max Value ug/L 8 Max. Pred Cw 14.8 pg/L 8 Max. Pred Cw 9 9 10 " 10 I 11 11 j 12 12 l 13 13 a I 14 14 I 15 15 16 16 t 17 17 18'' _ 18 19 19 20 20 I 21 21 22 22 23 23 24, 24 25 25 I 26 26 27 27 28 28 S 29 .• 2s 9 30 30 31 31� 32 32 { 33 33 I 34 34 35 35 . 36 36i j 37 37j 38' 381 39 391 40 - ` 401 41 411 I 42 42 43 43� 44 44 45 45 1 46 461 47 47 1 48 48 y 49 49 50 50 51 51 52 52 53 53 54 54 1 55 551 56 56 57 ,';„ ' 571 58 4987 -RPA dissolved dewaterring 1-2016, data - 9 - 4/21/2016 REASONABLE POTENTIALANALYSIS 4987 -RPA dissolved dewaterring 1-2016, data _10- 4/21/2016 Paf20 Par21 Use "PASTE SPECIAL M Zinc (AL) Values" then "COPY" Silver (AL) . Maximum data points = 68 1 Date Data BDL=1/2DL ResultsDate Std Dev. NO DATA 1 Data BDL=1/2DL Results 50 Std Dev. N/A - 501 3.1500 2 Mean NO DATA 2 Mean 0.0000 3 C.V. NO DATA 3 C.V. 1 4 n 0 4 n 5 5 1.00 6 Mult Factor = N/A 6 Mult Factor = 3 2 ug/L 7 Max. Value N/A ug/L 7 Max. Value 3.2 ug/L 8 Max. Fred Cw N/A ug/L 8 Max. Pred Cw 9 9 10 10 11 11 12 12� 13 ° 13 14 14� 15 15 16 16 17 u 17 18� 18 19+ 19 201 20 21� 21 22 . 22 23 23 24 • ` 24 25 25 26 26 27 27 28 28 29 29 " 30 30 , 31 31 32 32 33 33 34 ` ' ? - 34 " 35 . 35 .` 36 36 37 37 38 38 39 . 39 ' 40 `_ 40 = 41 41 42 42 43 43 44 44 45 45 46,•- 46 ` 47 s 47 48 48 ' 49 49 50 50 51 51 52 '' 52 ' 53 53 54 54 55 55 . 56 . , . 56 57 58 58 4987 -RPA dissolved dewaterring 1-2016, data _10- 4/21/2016 REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved dewaterring 1-2016, data 11 - 4/21/2016 Par22 Par23 ,use "PASTE SPECIAL Use "PASTE SPECIAL Values"then"COPY" Aluminum Values"then"COPY" Boron . Maximum data . Maximum data points = 58 points = 58 1 Date Data BDL=1/2DL Results 8101 810 Std Dev. N/A Date Data BDL=1/2DL 6.27 N/A 50.0000 201 -" " Mean 8100000 2 .,•p, 0.0000 3 C V. 00000 3 1 4 n 1 4 5 .. 5 1.00 6 a Mult Factor = 1 00 6 - 50.0 ug/L 7 =' r Max. Value 810.000000 Ng/L 7 50.0 ug/L 8 Max. Pred Cw 810.000000 Ng/L 8 9 9 10 10 12 . 12 , 13 13 14 Q 14 15 '' . 1 15. 16. 16 , 17 " 17 18, 18 19 - 19 20 . '° a �• 20 21 . ` . , 21 , 22 22 ` 23 .. 23 , 24 24 25 °' 25 ' 26 . 26 27 :: i 27 ._ 28 28 29 29 30 = v jjjttt 30 31 =, 31 " 32 `7 32 33. .. 33 .. 34 .' 34 n' 35 �•u` 35 36 36 , 37,'. 37 e 38 38 . 39 39 40,'; 40' 41 ' 41 42,-., 42 43 43 44 44 45 "{ 45 "a , 46 46 4747 48 `s ,',' .A, 48 49 49' .• 5050 �. 51 51 .. 52 52 53 . ; 53 „ 54 `. 54n,. `. 55 55 .... 56 . '. 56 57 57 58 L _ ..-a -.� �_A 58 4987 -RPA dissolved dewaterring 1-2016, data 11 - 4/21/2016 REASONABLE POTENTIAL ANALYSIS Use "PASTE SPECIAL Par24 I Use "PASTE SPECIAL Par25 Results Std Dev. N/A Mean 6.2700 C.V 0.0000 n 1 Mult Factor = 1 00 Max. Value 6.270000 mg/L Max. Pred Cw 6.270000 mg/L Date Data 1 't, 14S 2 3•x: 4 5 6' ^` 7 ... g°x4•. . 9 10 :.. 12 13 14 15 16 17- 18 19• �• 20 = 21 22-, .. 23 - 24 - 25... 26 27 28 ' •. 29:" 30 , 31 32 • ;.: 34 35 36 37 38- 39 40 41 42 43• 44 45 ` 46 47 48 49 50 51." , 52`, . 53' 54 55 561. 57�., Sulfate BDL=1/2DL Results 149 Std Dev. N/A Mean 149.0000 C.V. 0.0000 n 1 Mult Factor = 1.00 Max. Value 149.000000 mg/L Max. Pred Cw 149 OQ0000 mg/L Date Data 1 0.498, 2 3 4_ 5 6 7 8 10 12 , 13 14 15, ; 16 ' 17 :f ' 18 19. 20 „ 21 , b 22 23 24 ° 25 - 26 27 ' 28°..'' 29 . 30 >?' 31 32'; ,4 ' 33' 34 ,. 35 -• °� 36 37r'.`., „ 38' 39 40 41 42 43 44 .-: • , . 45 46 47 48- 49. " 50.,- 51 52 53 54 ° 55 56 57�_ 58 Barium BDL=1/2DL 0.498 4987 -RPA dissolved dewaterring 1-2016, data -12- 4/21/2016 4 Results Std Dev. N/A Mean 0.4980 C.V. 0.0000 n 1 Mult Factor = 1.00 Max Value 0.498000 mg/L Max Pred Cw 0.498000 mg/L REASONABLE POTENTIAL ANALYSIS 4987 -RPA dissolved dewaterring 1-2016, data -13- 4/21/2016 J a Z a J a Z W O IL LU MJ W a Z O U) LU w O r r O N N N C (6 ani CL) 0 N Q a 0) T G ❑ N 3 N � O t O � m CV OR ` r N M 'It UO (O t` W 0) O r N CO V Un 0 f- CO O) O N CO V UO CO 1, 00 0) O N M V M (o r,- co O O N M V UO 0 1- w m O N M V UO (O t` co y a r r r r r r r r r r N N N N N N N N N N M M M M A m m m co m V V V 'r V V V V V V 0 n UO UO M UO 0 UO m Q S J J U « m m 1 S W v Uf C) CDO O r 0 O O O F o UOo N« c `-'OU aim°y oo m v m Q O p a> Z 0 u U «c>a a-0 �> > x x A J UO � ❑ O N c� J M a m CN N M V UO 0 tt M 0) O r N M V UO O "(� N O) O N Cl) V u) O f, M 0) O N CO V m O 1- W 0) Co N M V M 0 O M O N M V UO m f+ M a r r r r r r r r �- r N N N N N N N N N N M m M M M M M M M M V V V V V V V V V V UO UO (O M 0 0 (O UO UO Q tea« T J J mm a 9 = 7 y F E n y 00C) 0 r 0 0 0 O y t= C O O O O Lo UOn a�qa mg UO0O � Q Z O r r O N N N C (6 ani CL) 0 N Q a 0) T M 13 T CO J Q z Q J a_ I -- z `w f - O a w z w w (na A OI J N J O CD 4 N cM V cn (D r� W W O r N M V W f� W d1 0 r N M V W W I� W m O r N M V' W 1� W m O r N M [t tD W I� N O_.�0 r N M V to W I� W N N N N N N N N N N M M M M M M M "t d' o UJ lD tD to to (D ((� 47 o QQQ Q¢Q ZZZ 000 > ❑. o ll >mm z z z n U °D N > o U N � O LL = y-0 m m t�>. J ❑ N ❑ m r N M u"J W h W m O r N M V In W I� N O ON M V LO W n W W O N M V N (D r W O O N M R W (D (l W O O N M V (D W (� W r r r r r r r r r r N N N N N N N N N N M M M M M M M M M M V V T T V V v '7 v `7 (n W LO M m Up to cD tci J J m m S 1 O O r O O O W O 00 O N O O O W O r W W 00 W OR 00 W c0 O N W � r N o v N N m N 3 a� a S 0 a n co rn v N u U o U)' � p > ❑. p c y$a�i> ll >mm W c0 O N W � r N o v N N m N 3 a� a S 0 a n co rn v N U May 17, 2016 MEMORANDUM To: Clinton O. Cook, PE, Assistant Regional Engineer NC DEQ / DWR / Public Water Supply Section Mooresville Regional Office From: Sergei Chernikov, Environmental Engineer II, Complex NPDES Unit, Division of Water Resources (sergei.chernikov@ncdenr.gov) Subject: Review of the discharge locations for the following Draft NPDES permits: NC00004987 Marshall Steam Station Catawba County Please indicate below by June 17, 2016 your agency's position or viewpoint on the facility listed above. We cannot issue the permit without your concurrence. Please return this form at your earliest convenience. RESPONSE: This agency has reviewed the draft permit and determined that the proposed discharge will not be sufficiently close to any existing or known proposed public water supply intake so as to create an adverse effect on water quality. We concur with the issuance of this permit provided the. facility is operated and maintained properly, the stated effluent limits are met prior to discharge, and the discharge does not contravene the designated water quality standards. X Concurs with issuance of the above permit, provided the following conditions are met: 1. Sa=les collected and measurements taken, as required by the permit, shall be =resentative of the permitted discharge Samples collected at a frequency less than daily shall be taken on a day and time that is representative of the discharge for the period of time that the same a represents If effluent water characteristics fluctuate such that a single sample cannot represent the period of time that the sample is intended to represent. additional samples shall be collected. Opposes the issuance of the above permit, based on reasons stated below, or attached: cc: file 0 Date: i& 2A/ 'p-yJIL )2+NO3 (Color TKN Colorim Bromide Chloride Aluminum Calcium Arsenic (As) Cadmium (Cd) Chromium (Cr) Copper(Cu) Lead (Pb) olybdenum (Mo) Nickel (Ni) Selenium (Se) lium (TI) Low Level Vanadium (V) lercury (CVAFS) TDS TSS Marshall Dewatering Data Submittal May 2015 1.2 Marshall Marshall 18.23 Ash Basin - Ash Basin - Ash Basin Marshall Ash Q.88 0.57 Ash Basin - 0.83 120.6 142 Bason 0.3m Ash Basin 2 Ash Basin 4 Interstitial Interstitial with Interstitial with interstitial with 4.28 meters meters 92.7 20 u filter 10 u filteru 0.45 u filter Result es Result Result esu Result esul < 5 0.394 8.07 0.397 0.006 < 0.005 0.363 0.31 0.42 0.056 0.018 0.021 0.028 1.2 0.97 1.1 18.23 20 28.6 184.7 195 Q.88 0.57 0.63 0.83 120.6 142 149 0.474 IAO.M 0.16 0.07 0.07 0.08 4.28 4.64 6.27 92.7 102 133 0.671 1.12 0.36 43.2 46.7 63.9 0.713 0.98 K1.2- • .250.037 0.037 0.04 0.03 O 18 .05 0.02 < 1 < 1 < 1 7-23 7.591 4.03 < < 1 < 1 < < 0.498 2.4 4.99 2.48 126 0.475 128 0.7 5 19 10.8 14 13.5 2.45 3.01 C 3.1 1.52 620 8 0.38 0.38 1.72 < 1 1.9 0.56 670 920 4.2 4.3 3.8 8.727 8.738 115.3 8.753 114.3 2.773 2.77 76.07 2.77 75.55 0.254 0.236 0.492 75.59 0.498 5.06 < 5.13 126 0.475 128 B.S. .55 52.1 5.02 52.9 1.12 1.14 0.394 8.07 0.397 0.006 < 0.005 < 1 < 1 3560 3480 < 1 < 1 < 1 < 1 1.54 0.005 1.1 < 1 < 1 C -83P 3550 806 2.18 < 1.23 1.22 1 1.01 < 0.2 < 0.82 1.33 i 1.07 < 2 < 2 660 1 1 660 26 26 r 4.3 4.8 8.701 8.753 115.8 115.1 2.77 Q1.70 74.92 75.59 0.16 < 0.005 0.475 0.407 4.92 5.02 125 125 8.07 0.479 51.9 51.8 1.09 1.08 0.375 0.097- < 0.005 < 0.005 < 1 < 1 3550 1930 < 1 < 1 < 1 < 1 < i < 1 < 1 < 1 841 823 < 1 < 1 1.07 1.03 0.365 < 0.2 1.05 < 1 < 0.5 < 0.5 680 680 19 < 10 r d` FF Apr. 19, 2016 Sergei Chernikov, Ph.D. Environmental Engineer Il Complex NPDES Permitting Unit NC Department of Environmental Quality 1617 Mail Service Center, Raleigh, NC 27699-1617 Express Mail: 512 N. Salisbury St., Raleigh, NC 27604 RE: APPROVAL REQUEST TO CONTINUE PILOT STUDY FGD Wastewater Treatment — Vertical Flow Cells Marshall Steam Station Catawba County NPDES Permit NC0004987 Dear Mr. Chernikov: Duke Energy Marsha!! Steam Station 8329 East NC Hwy 150 Terrell, NC 28682 828-478-7700 Duke Energy (Duke) is submitting this request to the NC Department of Environmental Quality (NCDEQ) for approval to extend the pilot test period at Marshall Steam Station (Marshall) for the FGD wastewater treatment Vertical Flow Cell area (VFC). Duke contacted (NCDEQ) on _ June 4, 2015, to request approval to conduct a two-month pilot test at the Marshall's VFC which included use of pressurized wastewater to more efficiently manage dispersion of mulch in each of the cells. The pilot study was subsequently approved by NCDEQ on June 4`h. The pilot test was initiated on July 9, 2015. Specifically, the pilot test consisted of using a diesel -powered pump and spray nozzle system to disperse floating compost mats in the VFCs. A diesel pump was placed inside a lined containment adjacent to the equalization basin (EQ) discharge splitter box and a 6 -inch diameter intake hose was placed in the EQ basin two feet below the water surface. Pressurized wastewater was conveyed from the EQ to the VFC area via a 4 -inch diameter hose placed inside an external PVC pipe that served as a containment barrier for the hose. This hose was connected to a pipe header located inside the lined VFC area where a 1.5 -inch diameter spray hose was attached at multiple locations between cells A -F. The spray hoses were then used to direct the high pressure water to break apart floating mats of the compost in each of the VFCs weekly, or as needed. The VFC management team at Marshall found that the use of the diesel -pump and spray system provided a safe and effective means of dispersing floating compost mats within the VFCs as opposed to using a conventional hose. The pump and hose assembly provided a higher flow rate and pressure for breaking up composts mats located near the center of the cells eliminating the need for conventional/mechanical dispersion by boat and thereby improving both effectiveness and safety of the cell maintenance. Page 1 of 2 www.duke-energy.com Duke Energy Marshall Steam Station 8329 East NC Flwy 150 Terrell, NC 28682 828-478-7700 Upon initial testing, Duke requested an extension of the pilot test on September 9, 2015, from NCDEQ that extended the test period through the end of 2015. The request was subsequently approved by NCDEQ on September 9`h. The pilot test resumed operation through late November 2015, or until seasonal floating subsided during cooler months. The method used during late 2015 at Marshall has been shown to provide a more safe and effective means to maintaining mulch dispersion in the VFCs. Duke is requesting that this pilot test be approved for continuation through 2016. Additional, Duke seeks to have this method included as an approved process within the revised NPDES permit NC0004987. Please feel free to contact Environmental Specialist, Brad Loveland, at (980) 373-2820 if you have any questions regarding this request. Sincerely, Rick R. Roper General Manager III Marshall Steam Station Power Generation Carolinas West be w/attachment: Brad Loveland Scott La Sala Scott Parks www.duke-energy.com Page 2 of 2 + Chernikov, Sergei From: Langley, Shannon <Shannon.Langley@duke-energy.com> Sent: Monday, March 14, 2016 11:52 AM To: Chernikov, Sergei Cc: Pruett, Jeremy J.; Loveland, Brad P; Hartfield, Ross Evan Subject: FW: FW: request Sergei, I spoke with my coworkers and they indicate the AOW noted in the correspondence you reference below was determined to be the same as 5-02 at Marshall. Shannon From: Chernikov, Sergei[mailto:sergei.chernikov@ncdenr.gov] Sent: Monday, March 14, 2016 7:48 AM To: Langley, Shannon Subject: request x** Exercise caution. This, [s an EXTERNAL email. DCS NOT Open attachments or click Hnk , from, unknown senders or, unexpected ernafl Shannon, On August 14, 2015 Brad Loveland notified DWR of the new area of wetness at the Marshall Steam station. Could you please e-mail me the updated Seep map with this AOW included. Please identify it as S-3. Thankyou! Sergei Sergei Chernikov, Ph.D. Environmental Engineer II Complex NPDES Permitting Unit Tel. 919-807-63-86 Fax: 919-807-6489 1617 Mail Service Center, Raleigh, NC 27699-1617 Express Mail: 512 N. Salisbury St., Raleigh, NC 27604 DUKE ENERGY® CAROLINAS August 14, 2015 Mr. Sergei Chernikov North Carolina Division of Water Resources 1617 Mail Service Center Raleigh, NC 27699-1617 Subject: Duke Energy Carolinas, Inc. Marshall Steam Station Submittal of Notification of Potential New Seep Catawba County Dear Mr. Chernikov, EHS CCP Environmental Programs Duke Energy 526 South Church Street Charlotte, NC 28202 Mailing Address: EC13K / P.O. Box 1006 Charlotte, NC 28201-1006 AUG 19 2015 Water Qua ft Permitting W Duke Energy personnel observed an area of wetness at Marshall Steam Station on 29 June 2015, collected a water quality sample on 10 July 2015, and notified the North Carolina Division of Water Resources of such activities via letter dated 27 July 2015. Enclosed with this letter are the results of the water quality sampling. The water appears to be seepage from the ash basin. However, the water only pools and eventually either evaporates or percolates into the ground. The seep has no point source discharge into Lake Norman. In accordance with Duke Procedures, this seep will be monitored weekly for changes as part of our weekly inspections. If you have any questions, please contact Mr. Brad Loveland at (704) 609-5637. SincereOand ra P Permitting and Compliance Duke Energy, Inc. Enclosure cc: Richard Baker, Director, EHS CCP Environmental Programs Brad Loveland, Environmental Specialist, CCP Permitting and Compliance Miphael Parker, Mooresville Regional Office NCDENR Sample Description Station Collected Date Component Method CAS Number < or > Result Units MDL RDL Suspect Seep MARSHALL 07/10/15 Oil and Grease EPA 1664B Oil/Grease < 5 mg/L 1.056 5 Suspect Seep MARSHALL 07/10/15 Aluminum (AI) EPA 200.7 7429-90-5 0.413 mg/L 0.002 0.005 Suspect Seep MARSHALL 07/10/15 Barium (Ba) EPA 200.7 7440-39-3 0.107 mg/L 0.0001 0.005 Suspect Seep MARSHALL 07/10/15 Boron (B) EPA 200.7 7440-42-8 6.11 mg/L 0.0033 0.05 Suspect Seep MARSHALL 07/10/15 Calcium (Ca) EPA 200.7 7440-70-2 107 mg/L 0.035 0.1 Suspect Seep MARSHALL 07/10/15 Iron (Fe) EPA 200.7 7439-89-6 0.249 mg/L 0.0013 0.01 Suspect Seep MARSHALL 07/10/15 Magnesium (Mg) EPA 200.7 7439-95-4 45.7 mg/L 0.044 0.05 Suspect Seep MARSHALL 07/10/15 Manganese (Mn) EPA 200.7 7439-96-5 8.75 mg/L 0.0002 0.005 Suspect Seep MARSHALL 07/10/15 Phosphorus (P) EPA 200.7 7723-14-0 0.109 mg/L 0.0033 0.02 Suspect Seep MARSHALL 07/10/15 Total Hardness (Ca and Mg) EPA 200.7 0 455 /L (CaC( 0.1273 0.19 Suspect Seep MARSHALL 07/10/15 Zinc (Zn) EPA 200.7 7440-66-6 0.016 mg/L 0.0026 0.005 Suspect Seep MARSHALL 07/10/15 Antimony (Sb) EPA 200.8 7440-36-0 < 1 ug/L 0.106 1 Suspect Seep MARSHALL 07/10/15 Arsenic (As) EPA 200.8 7440-38-2 1.74 ug/L 0.078 1 Suspect Seep MARSHALL 07/10/15 Cadmium (Cd) EPA 200.8 7440-43-9 < 1 ug/L 0.101 1 Suspect Seep MARSHALL 07/10/15 Chromium (Cr) EPA 200.8 7440-47-3 < 1 ug/L 0.061 1 Suspect Seep MARSHALL 07/10/15 Copper (Cu) EPA 200.8 7440-50-8 < 1 ug/L 0.11 1 Suspect Seep MARSHALL 07/10/15 Lead (Pb) EPA 200.8 7439-92-1 < 1 ug/L 0.065 1 Suspect Seep MARSHALL 07/10/15 Molybdenum (Mo) EPA 200.8 7439-98-7 < 1 ug/L 0.066 1 Suspect Seep MARSHALL 07/10/15 Nickel (Ni) EPA 200.8 7440-02-0 1.43 ug/L 0.194 1 Suspect Seep MARSHALL 07/10/15 Selenium (Se) EPA 200.8 7782-49-2 < 1 ug/L 0.092 1 Suspect Seep MARSHALL 07/10/15 Thallium (TI) Low Level EPA 200.8 7440-28-0 0.59 ug/L 0.134 0.2 Suspect Seep MARSHALL 07/10/15 Vanadium (V) EPA 200.8 7440-62-2 < 1 ug/L 0.053 1 Suspect Seep MARSHALL 07/10/15 Bromide EPA 300.0 7726-95-6 22 mg/L 0.12 1 Suspect Seep MARSHALL 07/10/15 Chloride EPA 300.0 16887-00-6 230 mg/L 1.1 5 Suspect Seep MARSHALL 07/10/15 Fluoride EPA 300.0 16984-48-8 0.19 mg/L 0.017 0.1 Suspect Seep MARSHALL 07/10/15 Sulfate EPA 300.0 14808-79-8 140 mg/L 0.9 5 Suspect Seep MARSHALL 07/10/15 1 Kjeldahl Nitrogen (Colorim( EPA 351.2 0 0.43 mg-N/L 0.03 0.15 Suspect Seep MARSHALL 07/10/15 litrite + Nitrate (Colorimetric EPA 353.2 14797-65-0 0.096 mg-N/L 0.004 0.01 Suspect Seep MARSHALL 07/10/15 pH Field Work pH 5.57 SI Units 0 0 Suspect Seep MARSHALL 07/10/15 Specific Conductance Field Work 0 895 uS/cm 0 0 Suspect Seep MARSHALL 07/10/15 Temperature Field Work 0 20.5 °C 0 0 Suspect Seep MARSHALL 07/10/15 COD HACH 8000 SW317 < 20 mg/L 3.78 20 Suspect Seep MARSHALL 07/10/15 TDS SM2540C SW311 890 mg/L 16.75 25 Suspect Seep MARSHALL 07/10/15 TSS SM2540D TSS 31 mg/L 3.35 5 Suspect Seep MARSHALL 7/10/2015 Mercury (CVAFS) 1631E 7439-97-6 36 ng/L 1 1 FIELD BLANK MARSHALL 7/10/2015 Mercury (CVAFS) 1631E 7439-97-6 < 0.5 ng/L 0.5 0.5 Trip blank MARSHALL 1/0/1900 Mercury (CVAFS) 1631E 7439-97-6 < 0.5 ng/L 0.5 0.5 DUKE ENERGY® CAROLINAS 27 July 2015 Mr. Sergei Chernikov North Carolina Division of Water Resources 1617 Mail Service Center Raleigh, NC 27699-1617 Subject: Duke Energy Carolinas, Inc. Marshall Steam Station Submittal of Notification of Potential New Seep Catawba County 0-00.a&"" Dear Mr. Chernikov, EHS CCP Environmental Programs Duke Energy 526 South Church Street Charlotte, NC 28202 Mailing Address: EC13K / P.O. Box 1006 Charlotte, NC 28201-1006 RECENEDIDENRIDWR JUL 2 8 2015 Water Quality Permitting Section On 29 June 2015, Duke Energy personnel observed an area of wetness at 35°42.560'N, 80021.566'W at Marshall Steam Station. The water was observed to be clear and emerging between rip rap armoring a newly constructed headwall for a storm water pipe. No discharge to Lake Norman was observed. Duke Energy personnel re -inspected this area on 3 July 2015, and no change in condition was observed. A sample of this area of wetness was collected on 10 July 2015 for analysis. The analytical results will be included in a future letter. If you have any questions, please contact Mr. Brad Loveland at (704) 609-5637 gradLSincerely,gandCCP'Permitting and Compliance Duke Energy, Inc. Enclosure cc: Richard Baker, Director, EHS CCP Environmental Programs Brad Loveland, Environmental Specialist, CCP Permitting and Compliance Michael Parker, Mooresville Regional Office NCDENR Ross Hartfield, Environmental Specialist 2, CCP Permitting and Compliance So stf, UNITED STATES ENVIRONMENTAL PAOTECTION'AGENCY REGION 4 s ' ATLANTA FEDERAL CENTER �<44 61 FORSYTH STREET pAo ATLANTA, GEORGIA 30303-8960 AUG 19 2016 Mr. S. Jay Zimmerman Director, Division of Water Resources North Carolina Department of Environmental Quality Division of Water Resources 1617 Mail Service Center Raleigh, North Carolina 27.699-1617 Re: Review of Proposed Final Permit Duke Energy Carolinas, LLC, Marshall Steam Station National Pollutant Discharge Elimination System Permit NC0004987 Dear Mr. Zimmerman: On May 17, 2016, a draft National Pollutant Discharge Elimination System (NPDES) permit and supporting documents for the above referenced facility were received by the U.S. Environmental Protection Agency from the North Carolina Department of Environment Quality (NC DEQ), Division of Water Resources (DWR). NC DWR provided a public comment period for the draft permit and supporting documents from May 17 through June 22, 2016. The EPA completed its review of the draft permit and provided its comments and recommendations with respect to the draft permit in a letter dated June 16, 2016. The EPA received a proposed final permit from NC DWR via email on August 4,2016. On August 16, 2016, staff from our respective agencies participated in a teleconference to discuss EPA's review of the proposed permit. Following the teleconference, the EPA summarized our continents in an August 16, 2016, email and on August 18, 2016, a revised proposed permit was transmitted to the EPA from NC DWR via email. The majority of the EPA's comments were addressed. However, in accordance with Section IV.13.6 of the NPDES Memorandum of Agreement between EPA and NC DEQ, the EPA reiterates these comments and recommendations, which have not been addressed: A "Plan for Identification of New Discharges" should be included in the final permit. Conditions for decanting wastewater from coal ash ponds,should be consistent for all facilities. The final permit should require daily monitoring,for flow as well as the requirement specified in NC DWR's July 20, ?016, letter to Duke Energy: "The decanting can only occur if one of the provisions below is met: 1) The wastewater is treated by physical -chemical treatment facilities. Intemet Address (URL) • http:/iwww.epa.gov, RecyclodlRecyclable • Printed with vegetable Oil Based Inks on Recycled Paper (Minimum 25% Postconsumer) 2) The wastewater in the ash pond [should be analyzed] prior to the discharge and the results of the analysis should be returned to the facility by the lab within 24 hours. If the facility determines that the results of the analysis are.below-water quality,standards, the facility is allowed to discharge wastewater for 1 week only. After discharge period of 1 week is com_ pleted,'the facility shall begin the cycle again by sampling the wastewater in the ash pond." In addition, the EPA notes that fly gash at the Marshall facility is currently handled dry during normal operation; therefore it is within DWR's discretion as the permitting authority, to require upon the effective date of the permit, there shall be no discharge of pollutants in fly ash transport water rather than allowing a compliance period until November 1, 2018, which does not appear,to"be needed by'the facility. The EPA does not currently have enough information to determine where the seeps emerge or reach jurisdictional waters of the United States: We recommend that the United States Army Corps of Engineers verify any jurisdictional determination before the permit is finalized. Finally, as we have discussed, the proposed final permit authorizes discharges from un -engineered seeps that are not discharged through an engineered outfall or collected -and rerouted to an engineered outfall. This creates challenges in permit development and compliance monitoring as it is unclear how such discharges can be accurately monitored for flow and discharge characterization. We note that an enforcement mechanism providing for elimination or rerouting of these seeps is an alternative and potentially preferable approach for addressing seeps of this nature. It has been North Carolina's election to develop_ permits for these discharges rather than addressing them through an enforcement mechanism, notwithstanding the difficulty of developing appropriate permit conditions and monitoring compliance. The EPA has no further comments. If you have any questions, please do not hesitate to contact me at (404) 562-9345 or Ms. Deinisse Diaz (404) 562-9610. Sincerely, James D. Giattina Director Water Protection Division cc: Mr. Harry Sideris, Senior Vice President Duke Energy Carolinas, LLC ' Chernikov, Sergei From: Zimmer, Andrea <Zimmer.Andrea@epa.gov> Sent: Tuesday, August 16, 2016 5:21 PM To: Chernikov, Sergei; Poupart, Jeff Cc: Shell, Karrie-Jo; Staples, Bridget; Davis, Molly; Diaz, Denisse Subject: Duke Energy - R4/NCDEQ conference call to discuss final proposed NPDES permit for Marshall NC0004987 Attachments: NC_Marshall_IOJ_06032010.pdf Jeff and Sergei, Thank you for the opportunity to discuss our comments on the proposed final NPDES permit for the Duke Energy Marshall facility. Following is a summary of our conversation: 1. A "Plan for Identification of New Discharges" should be included in the final permit in order to clearly define enforceable minimum requirements for identifying unpermitted discharges, such as areas to be inspected, inspection procedures, frequency of inspections, constituents to be sampled, etc. 2. In December 2015, EPA and NCDEQ agreed to appropriate conditions for decanting wastewater from coal ash ponds. Subsequently, on July 20, 2016, NCDEQ issued a letter reiterating the original conditions and adding a new requirement. All of these requirements should be included in the final NPDES and become effective when decanting commences. We particularly discussed the new provision, real time pH monitoring, and the requirement to notify DEQ prior to beginning the decanting process. We did not discuss, but note, that the proposed final permit does not require daily flow monitoring during decanting. 3. Conditions requiring no discharge of pollutants in fly ash transport water and bottom ash transport water are included in the proposed final permit on pages 5 and 7. The clarifying language on applicability should be edited such that the applicability of each condition refers to either fly ash transport water or bottom ash transport water, not both. 4. For outfalls 002A and 00213: measurement frequency, sample type, and sample location were omitted for Oil - and Grease. 5. For Outfall 003, which is an internal outfall, Note 1 is not applicable. 6. For Outfall 004, the permit should clearly indicate that monitoring only is required for total arsenic, total mercury, total selenium, and nitrate/nitrite until the limits become effective. 7. For A. (26.), the temperature analysis and the balanced and indigenous study plan should conform to the specifications outlined in 40 CFR 125 Subpart H and the Region 4 letter to NC DNR dated June 3, 2010. A copy of the letter is attached for convenience. 8. The final proposed permit clarifies that the instream sampling for demonstration of compliance with WQS for - seep discharges will be conducted in accordance with the condition A. (29.). However, A. (29.) does not specify the location of the upstream and downstream monitoring stations. 9. DEQ agreed to, and has since provided, the information submitted by Duke Energy which NC reviewed to determine the applicability dates for the new Effluent Guideline Limitations. As we discussed, DEQ will provide a revised final permit before EPA's 15 -day comment period ends on Friday, August 19. If you have any questions, please let us know. Thanks! Water Resources ENVIRONMENTAL QUALITY July 25, 2016 MEMORANDUM To: Jay Zimmerman PAT MCCRORY Governor DONALD R. VAN DER VAART Secrelary S. JAY ZIMMERMAN From: Jim Gregson, Regional Supervisor Water Quality Regional Operations Section Wilmington Regional Office Subject:Hearing Officer's Report and Recommendations Duke Energy Carolinas, LLC - Draft NPDES Wastewater Permit No. NC0004987 Marshall Steam Station, Catawba County Director I served as the Hearing Officer for two public hearings held on April 8, 2015 at the James Warner Citizen Center, 115 West Main Street, in Lincolnton, NC and on June 22, 2016, at the Catawba Valley Community College East Wing Auditorium at 2550 Highway 70 Southeast, in Hickory, NC. The purpose of the public hearings was to allow the public to comment on the draft NPDES wastewater permit for Duke Energy Carolinas, LLC's Marshall Steam Station. The April 8, 2015, public hearing was a combined public hearing for both the draft NPDES wastewater permit and the draft NPDES stormwater permit. Brad Cole from the Division of Energy, Mineral and Land Resources served as the hearing officer for the draft NPDES stormwater permit. The Hearing Officer's Report for the Marshall Steam Station NPDES permit includes two public hearings and two public comment periods. Due to substantial changes in the draft permit,"a second public hearing was required by the Coal Ash Management Act of 2014. In addition to listening to oral comments at the public hearings, I have reviewed all written comments received during the first public comment period which ended on May 5, 2015, and the second public comment period which ended on June 22, 2016. In preparation of this report I have considered all of the public comments, the public record, and the site visits for the three facilities. The report has been prepared using the following outline: I. Site History/ Background II. Site Visit III. April 8, 2015, Public Hearing and Comments Summary IV. June 22, 2016 Public Hearing and Comments Summary V. Recommendations VI. Attachments State of North Carolina I Department of Environmental Quality I Division of Water Resources 127 Cardinal Drive Ext., Wilmington, NC 28405 919 796 7215 Hearing Officer Report April 8, 2015, and June 22, 2016, PUBLIC HEARINGS —DRAFT NPDES PERMIT No. NC0004987 FOR DUKE ENERGY CAROLINAS, LLC TO DISCHARGE WASTEWATER FROM THE MARSHALL STEAM STATION, 8320 EAST N.C. HIGHWAY 150, TERRELL, NC., CATAWBA COUNTY I. History/ Background Duke Energy's Marshall Steam Station is a four -unit coal fired steam electric generating facility located along Lake Norman in Catawba County. The facility has been in operation since 1965 and has a capacity of 2,090 megawatts. Marshall Steam Station is permitted to discharge wastewater under NPDES Permit No. NC0004987 to Lake Norman. The Marshall Steam Station ash basin consists of a single cell of approximately 382 acres that was constructed in 1965. The ash basin receives wastewater flow from the ash removal system, yard drain sumps, low volume wastes, effluent from a 6,100 GPD domestic wastewater treatment system, the FGD treatment system, as well as stormwater. The FGD system discharges to the ash basin via internal outfall 004. The ash basin discharges via NPDES Outfall 002 to Lake Norman. § 130A-309.210 of the Coal Ash Management Act of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the State. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the department on December 30, 2014. Duke Energy identified two unpermitted seeps at the Marshall Steam Station from the ash settling basin. The two seeps are not located on the wall of the ash basin dike. Flow volume for the seeps was determined to be 0.0019 MGD. The two seeps would be incorporated into the NPDES Permit under Outfalls 101 and 102. A summary of the proposed changes to the NPDES permit can be found on the Fact Sheet for NPDES Permit Development in Attachment B. II. Site Visits A site visit was conducted on April 8, 2015, at the Marshall Steam Station. The site visits were conducted with Duke Energy staff, DWR staff, as well as the hearing officer for DEMLR. The site visit focused on the unpermitted seeps and other wastewater and stormwater outfalls that are the subject of the draft NPDES Permit. Ill. April 8, 2015 Public Hearing and Comments Summary A public hearing was held on April 8, 2015, at 6:00 pm, at the James Warner Citizen Center, 115 West Main Street, in Lincolnton, NC. The purpose of the public hearing was to allow the public to comment on the draft NPDES wastewater permits and the draft NPDES stormwater permits for Duke Energy Carolinas, LLC's Allen Steam Station, Marshall Steam Station and Riverbend Steam Station. Because this was a combined public hearing, Brad Cole from the Division of Energy, Mineral and Land Resources served as the hearing officer for the draft NPDES stormwater permits. Notice of the hearing (Attachment E.) was published in the Hickory Daily Record, the Charlotte Observer, and the Gaston Gazette on March 6, 2015. Additionally, a news release of the Notice was issued on March 6, 2015, and publication of this notice was posted on the DEQ DWR and DEMLR websites. The public comment period closed on May 5, 2015. Approximately 86 people attended the public hearing including 24 staff members of the Division of Water Resources and the Division of Energy, Mineral and Land Resources and the two hearing officers. A total of 60 individuals signed the attendance sign in sheets at the hearing (Attachment F. and G.). The hearing officer provided opening comments and Sergei Chernikov, Ph.D., with the Division of Water Resources gave a brief overview of the draft NPDES wastewater permits. Bradley Bennett with the Division of Energy, Mineral and Land Resources then gave a brief overview of the draft NPDES stormwater permits. Twenty-four individuals registered in advance of the hearing to provide oral comments. Speakers were allowed five minutes to comment. Additional time was provided after everyone that registered to speak was finished. Two individuals that spoke at the hearing also provided written comments. The list of speakers is included as Attachment F. The two written comments provided at the public hearing are included with other written comments in Attachment C. All speakers were generally opposed to the NPDES permit drafts. The following is a summary by major -topic area of oral comments received at the public hearing: Permits would allow coal ash to leak legally or would make legal polluting that is subject to criminal charges by the United States Department of Justice. (Speakers 1, 2, 7, 8, 11, 12, and 16) Response: § 130A-309.210 of the Coal Ash Management Act (CAMA) of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all 3 discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the Department on December 30, 2014. The facility identified two unpermitted seeps (all non -engineered) from the ash settling basin. Under the draft NPDES Permit, both seeps are considered to be discharging through delineated Effluent Channels. The Effluent Channels were delineated by DWR staff on May 4, 2016, in accordance with 15A NCAC 02B .0228. The draft permit requires the permittee to demonstrate that water quality standards in the receiving stream are not contravened. This demonstration must be submitted to the Division no later than 180 days from the effective date of the permit. • Coal ash should be moved out of the storage ponds and placed in safe lined storage areas or general comments concerning site clean- up. (Speakers 1, 2, 4, 7, 8, 12, 14, 16, 17, 18, 19 and 23) Response: §130A-309.213 of the Act required the department to develop a proposed classification system for all coal combustion residuals surface impoundments, including active and retired sites. §130A-309.214 requires owners of coal combustion residual surface impoundments to submit a proposed closure plan for the Departments approval. High-risk impoundments shall be closed no later than December 31, 2019, intermediate -risk impoundments shall be closed no later than December 31, 2024, and low-risk impoundments shall be closed no later than December 31, 2029. • Permits would violate laws that are designed to protect the ground waters of North Carolina or general groundwater concerns. (Speakers 2, 11, 15, 17, 19, and 23) Response: While non -engineered seeps do have the potential to contaminate both surface water and groundwater; the draft NPDES permit requires groundwater monitoring be conducted to determine compliance with current groundwater standards found under 15A NCAC 02L.0200. In accordance with 15A NCAC 02L.0104, the permit requires that said monitoring wells be in place at the compliance boundary, such that the groundwater within the designated area is sufficiently monitored. Groundwater standard violations would be investigated and regulated according to 15A NCAC 02L and the Coal Ash Management Act of 2014. Permits should require best available treatment technology (BAT) and/or use require technology based effluent limits (TBEL). (Speakers 2, 16, and 17) 4 Response: The draft NPDES permit requires both TBEL limits and BAT limits in accordance with 40 CFR 423 Steam Electric Power Generating Point Source Category. Permits should require sampling for additional constituents. (Speakers 6, 12, 13, 14, 16, 17 and 21) Response: The sampling requirements in the draft NPDES permit is based on the state and federal rules, regulations, and policies. The state conducts a Reasonable Potential Analysis (RPA) to' determine the need for a monitoring or limit for a particular constituent. RPA is the statistical analysis of the effluent data that was approved by EPA. The RPA is conducted on the 126 parameters in the renewal/major modification application. The RPA is conducted on the parameters that are above detection level and have appropriate state water quality sr criteria. The majority of the parameters in the renewal application are below dete Seeps should be monitored separately or concerns about unspecified seeps. (Speakers 2, 16 and 17) Response: The draft NPDES permit requires regular inspection for new seeps and monitoring requirement for all identified seeps. The two identified seeps would be monitored separately as Outfalls 101 and 102. • Specific concerns about PCBs. (Speaker 14) Reser: The draft NPDES permit requires priority pollutant analysis be conducted once per permit cycle at Outfall 002 (ash pond discharge) and specifically prohibits the discharge of polychlorinated biphenyl compounds (Condition A.13). Specific concerns about selenium and fish contamination. (Speaker 21) Response: The draft NPDES permit requires fish tissue monitoring annually and 'requires submission of the results with the renewal application. The parameters analyzed include arsenic, selenium, and mercury. The public hearing including oral comments is included as Attachment D. In addition to the public hearing, DWR received 503 written comments via email and 99 comments via the US Mail during the public comment period. Those comments are included as Attachment C. 42 of the email comments were received using the following form letter email: 1. Using NPDES permits to approve illegal seeps goeslagainst the Clean Water Act and our own NC General Statutes. 5 2. The Clean Water Act requires that the permits include limits based on the "Best Available Technology" and must eliminate discharges of pollution when possible. Here, it is possible. Excavating the coal ash from leaking lagoons and storing it in dry, lined landfills away from public waters, or recycling it for concrete. DENR's new permits should include a requirement to eliminate the discharges from these sites by excavating them to lined storage or recycling. 3. Many of the toxic metals listed in the permit have no limits on the amount that can be discharged for coal ash pollutants like cobalt, boron, strontium, and zinc that are leaking out of the lagoons, and the limits it has set for arsenic, mercury, and selenium are too weak. This is not acceptable, DENR must SET STRONG LIMITS on ALL coal ash pollutants. 4. Monitoring of many discharges is proposed for only twice a year, which is totally inadequate. Monitoring should be increased to gain an accurate understanding of the changes in discharges throughout the year. Response: The inclusion of the seeps into the NPDES permit is based on the provisions of the Coal Ash Management Act of 2014 (CAMA). The DWR has been consulting with EPA in'regard to the incorporation of the seeps into the NPDES wastewater permits. The inclusion of the seeps is considered an interim measure until the facilities decommission the ash ponds. Some of the seeps are part of the natural groundwater flow and might remain at the sites even after the ash ponds are decommissioned. The draft NPDES permit requires both TBEL limits and BAT limits in accordance with 40 CFR 423 Steam Electric Power Generating Point Source Category. The permit also includes the requirement to meet the CAMA provisions. The CAMA requires removal of the ash from the high-risk and intermediate risk impoundments and disposing of it in the landfills. The Total Arsenic limits (Outfall 002 dewatering) in the permit are based on the results of the Reasonable Potential Analysis (RPA) of the interstitial water data. The calculations are conducted in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control." The water quality chronic dissolved standard of 150.0 µg/L for Freshwater Aquatic Life and water quality acute dissolved standard of 340.0 were used in the calculations of the limits. The State of North Carolina has a state-wide mercury impairment. A TMDL has been developed to address this issue in 2012. The TMDL included the implementation strategy, both documents were approved by EPA in 2012. The mercury evaluation was conducted in accordance with the Permitting Guidelines for Statewide Mercury TMDL. The allowable mercury concentration for this facility is 68.0 ng/L. All annual average mercury concentrations are below the allowable level. All maximum sampling results are below the TBEL of 47.0 ng/L. Based on the Permitting Guidelines for Statewide Mercury TMDL, the limits are not required. Water Quality Based Effluent Limits are established in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control. The limits are established only when the particular parameter demonstrates a reasonable potential to exceed the state water quality standard or EPA criterion. The state conducts a Reasonable Potential Analysis (RPA) to determine the need for a limit for a particular constituent. RPA is the statistical analysis of the effluent data that was approved by EPA and is based on the conservative assumption of the low flow and the highest detected value in the monitoring data set during the last 5 years of the facility operation. The RPA is conducted on the 126 parameters (if the parameter is detected) in the renewal/major, modification application submitted by Duke Energy. The monitoring requirements in the permit are based on the state and federal rules, regulations, and policies. The established frequency is sufficient to conduct a valid statistical analysis of the effluent data. 127 comments were received using the following form letter email: I am concerned about the coal ash pollution, which includes arsenic, mercury, cobalt, seeping into the Catawba River from Duke Energy's leaking and unlined lagoons. The draft permits are unacceptably' weak and will not adequately protect our communities from contaminates in coal ash. For instance, DENR is proposing to start allowing random, untreated streams of polluted coal ash wastewater to spew out of Duke Energy's lagoons. These leaks should be stopped and Duke must be required to clean up their source—the coal ash—and move it away from our waterways. Response - The inclusion of the seeps into the NPDES permit is based on the provisions of the Coal Ash Management Act of 2014 (CAMA). The DWR has been consulting with -EPA in regard to the incorporation of the seeps into the NPDES wastewater permits. The inclusion of the seeps is considered an interim measure until the facilities decommission the ash ponds. The combined seeps flow for operating coal-fired power plants represents a miniscule portion of the wastewater flow from coal ash impoundment. For example, combined seep flow from Marshall Steam Station represents only 0.02% of the ash pond discharge. The chemical composition of the seep discharge is almost identical to the ash pond wastewater but the pollutant concentrations are generally lower. The statistical analysis conducted on the effluent from ash pondiand seeps indicates no reasonable potential to contravene state water quality standards or EPA criteria in the receiving stream. 7 146 comments were received using the following form letter email: Please reject the current NPDES permits for Duke Energy's three coal ash power plants along the Catawba River. I'm concerned because the draft permits would allow Duke Energy to discharge unlimited amounts of arsenic, mercury, and selenium into the Catawba River and Mountain Island Lake (a drinking water supply reservoir). This is unacceptable. The NPDES permitting program goal is to eliminate pollutant discharges and these permits do not do that. Please protect our communities from coal ash pollution. - Response: In order to eliminate pollutant discharges from the Duke Energy sites, the facilities need NPDES wastewater permits that establish conditions for ash pond dewatering. The dewatering is the first step in the ash pond decommissioning, which would significantly decrease pollutant loading to the Catawba River. 153 comments were received using the following form letter email: Please do not"allow Duke Energy to pollute our waterways with toxic coal ash. The NPDES permits for the three power plants along the Catawba River are woefully inadequate and 1 hope that you will reject them. As written, the permits would not even monitor or report on elements and chemicals that are known to be associated with coal ash ponds. Also, industrial chemicals have been permitted to be dumped into the coal ash ponds and Duke should be required to test for them at outfalls. These permits cannot simply be a way to allow Duke Energy to keep its coal ash in leaking, unlined lagoons next to bodies of water. I urge you to reject these NPDES permits as they do not properly protect our communities. Response: The monitoring requirements in the permit are based on the state and federal rules, regulations, and policies. The state conducts a Reasonable Potential Analysis (RPA) to determine the need for a monitoring for a particular constituent. RPA is the statistical analysis of the effluent data that was approved by EPA. The RPA is conducted on the 126 parameters (if the parameter is detected) in the renewal/major modification application. The RPA is conducted on the parameters that are above detection level and have appropriate state water quality standard/EPA criteria. The majority of the parameters in the renewal applications are below detection level. The permit also contains a plan for/dentification of new discharges. In order to eliminate ash ponds, the facilities need NPDES wastewater permits that establish conditions for ash pond dewatering. The dewatering is the first step in the ash pond decommissioning. 99 comments were received via the US Mail using the following form letter: • Using NPDES permits to approve illegal seeps goes against the Clean Water Act and our own NC General Statutes. • Permits do not include a timeline for eliminating this illegal discharge. The leaks should be stopped, not permitted under a fictional collective seep outfall. DENR should consider utilizing its own SOC process for getting Duke in compliance with the law, and not allow these illegal discharges to be permitted under an NPDES permit. Many of the toxic metals listed in the permit have NO LIMITS on the amount that can be discharged. DENR should never allow unsafe amounts of arsenic, mercury, and selenium to be discharged into drinking. water supplies. There needs to be specified limits for all elements and chemicals associated with coal ash. Response: § 130A-309.210 of the Coal Ash Management Act of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water.from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the Department on December 30, 2014. The two non -engineered seeps identified at the Marshall facility would be incorporated into the NPDES wastewater permit as Outfalls 101 and 102. Under the permit, the seeps would be monitored and subject to applicable effluent limits which would ensure that seep discharges would not result in unacceptable impacts to surface waters. Incorporation of the seeps in to the NPDES permit is considered an interim measure until the coal ash impoundments are closed. The draft permit requires that the facility continue to implement a plan for the identification of new seeps. A seep identification survey shall be conducted semi- annually and new seeps are to be reported to the Division within five days of detection. Special Orders by Consent (SOC) can be an appropriate action when a facility is unable to consistently meet terms, conditions or limits in an NPDES permit. In this case, there is no evidence that Duke Energy will be unable to meet the proposed effluent limits. The Division conducted EPA -recommended analyses to determine the reasonable potential for toxicants to be discharged at levels exceeding water quality standards/EPA criteria by this facility from outfall 002 (Ash Pond). For the purposes of the RPA, the background concentrations for all parameters were assumed to be below w] detection level. The RPA uses 95% probability level and 95% confidence basis in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control." Calculations included: As, Be, Cd, Chlorides, Cr, Cu, CN, PI% Hg, Mo, Ni, Se, Ag, Zn, Al, and B (please see attached). The renewal application listed 8.3 MGD as a current flow. However, 11.44 MGD was used in the RPA as the highest reported flow during the last permit cycle. The analysis indicates no reasonable potential to violate the surface water quality standards or EPA criteria. The water -quality based limits for selenium were removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. The Division also considered data for other parameters of concern in the EPA Form 2C that the facility submitted for the renewal. The majority of the parameters were not detected in the discharge. The Division reviewed the following parameters that were detected in the discharge and have an applicable state standards or EPA criteria for Class WS -IV stream: phenols. This parameter was well below the state standard. An RPA was also conducted for the combined flow from the seeps (Outfalls 101 and 102). The analysis was based on the dilution in the receiving stream since the effluent channels were delineated for both seeps. Although one seep was not flowing at the time of the sampling, it was assumed that it might discharge during the wet season. Calculations included: As, Cd, Chlorides, Cr, Cu, F, Pb, Hg, Mo, Ni, Se Zn, SO4, Al, Ba, B, Sb, and TI (please see attached). The analysis indicates no reasonable potential to violate the water quality standards or EPA criteria. The flow volume for the first seep was measured at 0.0019 MGD. However, the flow of 0.5 MGD was used for the RPA to incorporate a safety factor, account for potential new seeps that might emerge in the future or increase in flow volume at the existing seeps. In conclusion, the RPA analysis indicates that existing discharges from the facility outfalls and seeps will not cause contravention of the state water quality standards/ EPA criteria. Other comments received expressed issues that have already been addressed above or are comments from specific organizations as listed below. The following is a summary of comments received from Duke Energy (Response to Duke's updated comments on the second public notice are included in Section IV): • Technology Based Effluent Limits (TBELs) - There was no indication that the Division considered any of the factors established in 40 CFR 125.3(d) insetting the TBELs. The Fact Sheet indicates that existing federal regulations require the,development of TBELs for parameters of concern. In Duke Energy's opinion, the permit writer has discretion 10 to choose to impose BPJ limits which is supported by recent court ruling in Tennessee. Since EPA considered setting numeric limits for metals, the Division is not obligated to establish TBELs for these parameters. • MercurV Limits at Outfall 002 and Outfall 010 — Duke Energy requests a 5 -year compliance schedule to comply with the mercury limit. Outfall 002 — Duke Energy requests the removal of TBELs from Outfall 002, given the reasonable potential analysis concluded that the discharge is not expected to violate applicable water quality criterion and the TBELs were not developed in accordance with 40 CFR 125.3(d). If the TBELs are applied, Duke Energy requests the specific model technology used to derive the TBELs that were applied to Outfall 002. If imposed limits are not achieved, Duke Energy would like.to have the option of requesting a less stringent limit as allowed under the Clean Water Act §402(o)(2)(E). Duke Energy would like clarifying language in the permit authorizing the removal free water above the settled ash layer including, but not limited to decanting, controlled pumping and/or normal operation. Duke Energy requests the title for the ash basin discharge outfall to be revised to "Outfall 002 (discharges from the ash basin associated with normal operations, decanting and/or stormwater)". Duke Energy would like to request the language in the Fact Sheet be updated to reflect current discharges to the ash basin. Outfall 002 Dewatering- Duke Energy requests specific clarifying language in the permit• that "dewatering limits" are applicable to removal of interstitial water only and that limits would only apply to the removal of interstitial water generated by dewatering activities occurring in the secondary ash basin. Duke Energy requests that the title for the dewatering outfall be revised to "Outfall 002 (discharge of interstitial water due to dewatering)". Duke Energy requests the removal of the TBELs from Outfall 002 (Dewatering). if the Division is bound to develop TBELs for the dewatering process, Duke Energy request interim limits for a period of 4.5 years to further evaluate the characteristics of the dewatering waste stream and evaluate, budget and design a treatment technology. If the TBELs are applied, Duke Energy requests the specific model technology used to derive the TBELs that were applied to Outfall 002 (Dewatering). If imposed limits are not achieved, Duke Energy would like to have the option of requesting a less stringent limit as allowed under the Clean Water Act §402(o)(2)(E). Outfall 010 —The nitrate/nitrite limits established for Outfall 010 is extremely low and unnecessary. The permit, needs to state the methodology to calculate the concentration for the combined seeps to be reported in the discharge monitoring reports (DMR). Duke Energy requests the seeps listed and updated in the Discharge Identification, Plan (DIP) referenced in Appendix B be used as the official seep identification with regards to official location and type (non -engineered seeps and engineered seeps) Duke Energy believes it is appropriate that the seeps be grouped into two outfalls: one for 11 engineered seeps and one for non -engineered seeps. The same permit limits and conditions applied to Outfall 001 should be applied to engineered seeps. Duke Energy requests the removal of the TBELs from Outfall 010. In lieu of TBELs, Duke Energy requests the Division to adopt a similar process as with new seep identification to evaluate the constituent concentration and flow. If the concentration of any parameter exceeds the concentrations in Table 1 of the permit or the total flow of all seeps is determined to be in excess of 0.5 MGD, the Division should calculate reasonable potential to determine if water quality based effluent limits (WQBELs) are necessary. If so, a formal modification of the permit can be conducted to incorporate the WQBELs in the permit. This approach would be consistent with the Hanlon memo. If the Division is bound to develop TBELs for the seeps, Duke Energy requests a 5 -year compliance schedule. The permit states the limits can be met by installing a treatment system, re- routing the discharge to the existing treatment system, or discontinuing the discharge. The Fact Sheet, however, states it will be time-consuming and ineffective to re-route the seeps back to the ash basin. Given these conflicting statements, a compliance schedule is necessary to evaluate, budget, design and construct the treatment system or eliminate the discharge. Duke Energy requests the inclusion of the methodology for determining the concentration to be reported in the DMR for Outfall 010. • Seep Pollutant Analysis — Duke Energy requests the inclusion of clarifying language.in the permit defining a seep that warrants further evaluation. Duke Energy requests the following clarifying language be included in the permit: "Seepage is considered to be the movement of wastewater from the ash basin through the ash basin embankment, the embankment foundation, the embankment abutments, through residual material in areas adjacent to the ash basin, or through the bottom of the ash basin. Therefore, a seep is defined in this permit as an expression of seepage at the ground surface above the ordinary high water mark of any waters of the state. Only seeps that have the presence of a discernible, confined and discrete conveyance to the surface water will be considered a new seep warranting further evaluation of flow and pollutant characterization." Duke Energy requests the screening value of nitrate/nitrite removed from Table 1. Duke Energy requests the screening values for arsenic and selenium be revised to be 10 times the baseline concentration as with the other parameters. Duke Energy requests the inclusion of clarifying language on the notification requirements for newly identified seeps. The following language is recommended: "New seeps identified through the seep survey or otherwise discovered or reported to the permittee shall have their flow calculated, and be sampled for parameters indicated in Table 1. The location(s) of the seep shall be reported to Division of Water Resources within 5 business days. Samples of the seep shall be collected within 10 business days of identification and the sampling results shall be submitted within 30 days of sampling for administrative inclusion in Appendix A." • Outfall 011 -Duke Energy requests the removal of the monitor and report requirements for arsenic, selenium, mercury, nitrate/nitrite as N, total phosphorus and total nitrogen on Outfall 011. Duke Energy requests the removal of the turbidity requirements for 12 Outfall 011. Duke Energy requests the revision of the oil and grease (O&G) limits for Outfall 011 to equal the (O&G) limits in the current ELG, which are a monthly average of 15 mg/L and a daily maximum of 30 mg/L. There was no justification stated for the lower limits in the permit or Fact Sheet. Duke Energy requests the revision of the total suspended solids (TSS) limits for Outfall 011 to equal the TSS limits in the current ELG, which are a monthly average of 30 mg/L and a daily maximum of 100 mg/L. There was no justification for the lower limits in the permit or Fact Sheet. Duke Energy requests the removal of footnote 2 from Outfall 011. There are no copper and iron limits imposed on this outfall and there are no chemical metal cleaning wastewater discharged to this outfall. • Outfall 002A (Yard Sump Overflow) - Duke Energy requests the removal of the copper and iron limits on Outfall 002A.,There was no justification within the permit or Fact Sheet for these limits. • Nonchemical Metal Cleaning Wastewater -Duke Energy requests the inclusion of language defining nonchemical metal cleaning wastewater as low volume wastewater and only subject to the low volume wastewater limits of O&G and TSS: Chronic Toxicity - The permit contains conflicting effluent concentrations at which the chronic toxicity test should be conducted. On page 8 of 15, the effluent chronic toxicity is listed at 2.7%; however, for footnote 4 under Outfall 002 (ash basin discharge) page 4 of 15 and (dewatering), page 5 of 15, the effluent concentration is listed as 10%. The -following is a summary of comments received from the Sierra Club: • The Department proposes to permit the discharge of pollutants from illegal seeps in violation of the Clean Water Act. Response: The inclusion of the seeps into the NPDES permit is based on the provisions of the Coal Ash Management Act of 2014 (CAMA). § 130A-309.210 of the Coal Ash Management Act of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the Department on December 30, 2014. Under the permit, the seeps would be monitored and subject to applicable effluent 13 limits which will ensure that seep discharges will not result in unacceptable impacts to surface waters. Incorporation of the seeps into the NPDES permit is considered an interim measure until the coal ash impoundments are closed. The draft permit requires that the facility continue to implement a plan for the identification of new seeps. A seep identification survey shall be conducted semi-annually and new seeps are to be reported to the Division within five days of detection. The DWR has been consulting with EPA in regard to the incorporation of the seeps into the NPDES wastewater permits. • Seeps, leaks or other structural issues should be addressed directly with sound engineering solutions, i.e., removal of all coal ash�for reuse or stored in adequately lined landfill. Response: §130A-309.213 of the Act required the department to develop a proposed classification system for all coal combustion residuals surface impoundments, including active and retired sites. §130A-309.214 requires owners of coal combustion residual surface impoundments to submit a proposed closure plan for the Departments approval. High-risk impoundments shall be closed no later than December 31, 2019, intermediate -risk impoundments shall be closed no later than December 31, 2024, and low-risk impoundments shall be closed no later than December 31, 2029. • Limits that the Department has proposed are inadequate. Permits do not set any limits on the discharge of cobalt, boron, strontium, zinc and a variety of harmful pollutants. Proposed monitoring frequencies are inadequate. Response: The sampling requirements in the draft NPDES permit are based on the state and federal rules, regulations, and policies. The state conducts a Reasonable Potential Analysis (RPA) to determine the need for monitoring or a limit for a particular constituent. RPA is the statistical analysis of the effluent data that was approved by EPA. The RPA is conducted on the 126 parameters in the renewal/major modification application. The RPA is conducted on the parameters that are above detection level and have appropriate state water quality standard/EPA criteria. The majority of the parameters in the renewal applications are below detection level. • Draft permits should be revised to include numeric effluent limits that are based on best available technology for all pollutants discharged into receiving waterways. Response: The sampling requirements in the draft NPDES permit is based on the state and federal rules, regulations, and policies. The state conducts a Reasonable Potential Analysis (RPA) to determine the need for a monitoring or limit for a particular constituent. RPA is the statistical analysis of the effluent data that was approved by EPA. The RPA is conducted on the 126 parameters in the renewal/major modification application. The RPA is conducted on the parameters that are above detection level 14 and have appropriate state water quality standard/EPA criteria. The majority of the parameters in the renewal application are below detection level. Effluent limits and monitoring for all pollutants of concern is not necessary to ensure that the pollutants are adequately controlled because many of the pollutants originate from similar sources, have similar treatabilities, and are removed by similar mechanisms. Because of this, it may be sufficient to establish effluent limits for one pollutant as a surrogate or indicator pollutant that ensures the removal of other pollutants of concern." The permit also implements Best Practicable Technology Currently Available (BPT) as well as BAT requirements of 40 CFR 423 Steam Electric Power Generating Point Source Category. The following is a summary of comments received from the Catawba Riverkeeper: • In permitting seeps, the permit fails to identify specific wastewater streams, instead collectively labeling random, untreated, uncontrolled wastewater streams as a single outfall. Response: The draft NPDES permit requires regular inspection for new seeps and monitoring requirement for all identified seeps. The two identified seeps would be monitored separately as Outfalls 101 and 102. • .The permit fails to set limits on multiple parameters known to be of significant concern. Response: The sampling requirements in the draft NPDES permit is based on the state and federal rules, regulations, and policies. The state conducts a Reasonable Potential Analysis (RPA) to determine the need for monitoring or a limit for a particular constituent. RPA is the statistical analysis of the effluent data that was approved by EPA. The RPA is conducted on the 126 parameters in the renewal/major modification application. The RPA is conducted on the parameters that are above detection level and have appropriate state water quality standard/EPA criteria. The majority of the parameters in the renewal applications are below detection level. • The permit fails to monitor at all for elements and chemicals we know to be associated with coal ash ponds. Response: The effluent limitations in the permit are established in accordance with the existing federal and state rules and regulations. EPA has recently updated 40 CFR 423 and after reviewing parameters of concern established TBELs for several of these parameters. The EPA decided that TBELs for all parameters of concern are not necessary because "Effluent limits and monitoring for all pollutants of concern is not necessary to ensure that the pollutants are adequately controlled because many of the pollutants originate from similar sources, have similar treatabilities, and are 15 removed by similar mechanisms. Because of this, it may be sufficient to establish effluent limits for one pollutant as a surrogate or indicator pollutant that ensures the removal of other pollutants of concern." • The permit fails to temporally and spatially monitor the site in an adequate manner. Response: The monitoring requirements in the permit are based on the state and federal rules, regulations, and policies. The established frequency is sufficient to conduct a valid statistical analysis of the effluent data. Duke should be required to reduce the impacts of thermal pollution from the facility, and the facility should not be allowed a 316(a) temperature variance. Response: In order to maintain the temperature variance the facility has to conduct annual biological and chemical monitoring of the receiving stream to demonstrate that it has a balanced and indigenous macroinvertebrate and fish community. The latest BIP (balanced and indigenous population) report was submitted to DWR in October of 2014. The DWR has reviewed the report and concluded that Lake Norman near Marshall Steam Station has a balanced and indigenous macroinvertebrate and fish community. The following is a summary of comments received from the Southern Environmental Law Center on behalf of the Catawba Riverkeeper Foundation, Inc., the Waterkeeper Alliance and the Sierra Club.: • The proposed permit violates North Carolina Groundwater Rules. Response: While non -engineered seeps do have the potential to contaminate surface water and groundwater, the draft NPDES permit requires groundwater monitoring be conducted to determine compliance with current groundwater standards found under 15A NCAC 02L.0200. In accordance with 15A NCAC 02L.0104, the permit requires that said monitoring wells be in place at the compliance boundary, such that the groundwater within the designated area is sufficiently monitored. Groundwater standard violations would be investigated and'regulated according to 15A NCAC 02L and the Coal Ash Management Act of 2014. • The draft permit sets deficient technology-based effluent limits. Response: The draft NPDES permit requires both TBEL limits and BAT limits in accordance with 40 CFR 423 Steam Electric Power Generating Point Source Category. The draft permit authorizes uncontrolled and unidentifiable leaks from lagoons in violation of the Clean Water Act, and violates the public notice and comment and other requirements of the clean water act. 16 Response: The inclusion of the seeps into the NPDES permit is based on the provisions of the Coal Ash Management Act of 2014 (CAMA). § 130A-309.210 of the Coal Ash Management Act of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination'System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the Department on December 30, 2014. Under the permit, the seeps would be monitored and subject to applicable effluent limits which will ensure that seep discharges will not result in unacceptable impacts to surface waters. Incorporation of the seeps into the NPDES permit is considered an interim measure until the coal ash impoundments are closed. The draft permit requires that the facility continue to implement a plan for the identification of new seeps. A seep identification survey shall be conducted semi-annually and new seeps are to be reported to the Division within five days of detection. The DWR has been consulting with EPA in regard to the incorporation of the seeps into the NPDES wastewater permits: • The draft permit fails to set protective water quality based effluent limits. Response: The Division conducted EPA -recommended analyses to determine the reasonable potential for toxicants to be discharged at levels exceeding water quality standards/EPA criteria by this facility from outfall 002 (Ash Pond). For the purposes of the RPA, the background concentrations for all parameters were assumed to be below detection level. The RPA uses 95% probability level and 95% confidence basis in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control." Calculations included: As, Be, Cd, Chlorides, Cr, Cu, CN, Pb, Hg, Mo, Ni, Se, Ag, Zn, Al, and B (please see attached). The renewal application listed 8.3 MGD as a current flow. However, 11.44 MGD was used in the RPA as the highest reported flow during the last permit cycle. The analysis indicates no reasonable potential to violate the surface water quality standards or EPA criteria. The water -quality based limits for selenium were removed from the permit (Outfall 002) based on the results of Reasonable Potential Analysis. The Division also considered data for other parameters of concern in the EPA Form 2C that the facility submitted for the renewal. The majority of the parameters were not detected in the discharge. The -Division reviewed the following parameters that were 17 detected in the discharge and have an applicable state standards or EPA criteria for Class WS -IV stream: phenols. This parameter was well below -the state standard. An RPA was also conducted for the combined flow from the seeps (Outfalls 101 and 102). The analysis was based on the dilution in the receiving stream since the effluent channels were delineated for both seeps. Although one seep was not flowing at the time of the sampling, it was assumed that it might discharge during the wet season. Calculations included: As, Cd, Chlorides, Cr, Cu, F, Pb, Hg, Mo, Ni, Se Zn, SOa, Al, Ba, B, Sb, and TI (please see attached). The analysis indicates no reasonable potential to violate the water quality standards or EPA criteria. The flow volume for the first seep was measured at 0.0019 MGD. However, the flow of 0.5 MGD was used for the RPA to incorporate a safety factor, account for potential new seeps that might emerge in the future or increase in flow volume at the existing seeps. In conclusion, the RPA analysis indicates that existing discharges from the facility outfalls and seeps will not cause contravention of the state water quality standards/ o, EPA criteria. • The proposed permit violates the Clean Water Act's anti -backsliding provisions. Response: Anti -backsliding provisions are applicable to the TBEL limits, none of the TBEL limits in the proposed permit are less stringent than in the previous limits. • The proposed permit violates the Clean Water Act's anti -backsliding provisions. Response: Anti -backsliding provisions are applicable to the TBEL limits, none of the TBEL limits in the proposed permit are less stringent than in the previous limits. • The draft permit sets inadequate monitoring requirements for seeps. Response: The monitoring requirements in the permit are based on the state and federal rules, regulations, and policies. The established frequency is sufficient to conduct a valid statistical analysis of the effluent data. The following is a summary of comments received from the Neuse Riverkeeper Foundation: • The pollution limits in the permits are too weak. Response: The effluent limitations in the permit are established in accordance with the existing federal and state rules and regulations. EPA has recently updated 40 CFR 423 and after reviewing parameters of concern established TBELs for several of these parameters. The EPA decided that TBELs for all parameters of concern are not necessary because "Effluent limits and monitoring for all pollutants of concern is not necessary to ensure that the pollutants are adequately controlled because many of 18 the pollutants originate from similar sources, have similar treatabilities, and are removed by similar mechanisms. Because of this, it may be sufficient to establish effluent limits for one pollutant as a surrogate or indicator pollutant that ensures the removal of other pollutants of concern." • Permitting the leaks violates the Clean Water Act. Response: The inclusion of the seeps into the NPDES permit is based on the provisions of the Coal Ash Management Act of 2014 (CAMA). § 130A-309.210 of the Coal Ash Management Act of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) Permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the Department on December 30, 2014. Under the permit, the seeps would be monitored and subject to applicable effluent limits which will ensure that seep discharges will not result in unacceptable impacts to surface waters. Incorporation of the seeps into the NPDES permit is considered an interim measure until the coal ash impoundments are closed. The draft permit requires that the facility continue to implement a plan for the identification of new seeps. A seep identification survey shall be conducted semi-annually and new seeps are to be reported to the Division within five days of detection. The DWR has been consulting with EPA in regard to the incorporation of the seeps into the NPDES wastewater permits. IV. June 22, 2016, Public Hearing and Comments Summary A second public hearing was held on June 22, 2016, at 6:00 pm, at the Catawba Valley Community College East Wing Auditorium, at 2550 Highway 70 Southeast, in Hickory, NC. The purpose of the public hearings was to allow the public to comment on the draft NPDES wastewater permit for Duke Energy Carolinas, LLC's Marshall Steam Station. Notice of the hearing (Attachment E.) was published in the Hickory Daily Record on May 22, 2016, and in the Charlotte Observer on May 19, 2016. Additionally, a news release of the Notice was issued on May 17, 2016, and publication of this notice was posted on the DEQ website. The public comment period closed on June 22, 2016. 19 ,Approximately 16 people attended the public hearing including 10 staff members of the Division of Water Resources and the hearing officer. A total of 6 individuals signed the attendance sign in sheets at the hearing (Attachment F). The hearing officer provided opening comments and Sergei Chernikov, Ph.D., with the Division of Water Resources gave a brief overview of the draft NPDES wastewater permit. One individual registered in advance of the hearing to provide oral comments and indicated that she was representing the Sierra Club. The speaker list is also included as Attachment F. The following is a summary of the comments received at the public hearing. • Draft permit would allow polluted pond water to continue to leak into Lake Norman and into North Carolina's groundwater. • Removing coal ash and contaminated water is the only way to protect our waterways. • Proposed permit violates the Clean Water Act and North Carolina's groundwater rules. • Permit gives Duke more than two years to of extra time before is must meet new limits for scrubber wastewater. Response: § 130A-309.210 of the Coal Ash Management Act (CAMA) of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was -submitted by Duke Energy to the Department on December 30, 2014. The facility identified two unpermitted seeps (all non -engineered) from the ash settling basin. Under the draft NPDES Permit, both seeps are considered to be discharging through delineated Effluent Channels. The Effluent Channels were delineated by DWR staff on May 4, 2016, in accordance with 15A NCAC 0213.0228. The draft permit requires the permittee to demonstrate that water quality standards in the receiving stream are not contravened. This demonstration must be submitted to the Division no later than 180 days from the effective date of the permit. §130A-309.213 of the Act required the department to develop a proposed classification system for all coal combustion residuals surface impoundments, 20 including active and retired sites. §130A-309.214 requires owners of coal combustion residual surface impoundments to submit a proposed closure plan for the Departments approval. High-risk impoundments shall be closed no later than December 31, 2019, intermediate -risk impoundments shall be closed no later than December 31, 2024, and low-risk impoundments shall be closed no later than December 31, 2029. The NPDES Permit for Marshall Steam station has been developed in accordance with the existing federal and state rules and regulations. The Permit conditions are established to provide compliance with the water quality standards in the receiving stream. The extended deadlines for Compliance with the New Effluent Limitations have been established in accordance with the 40 CFR 423. Duke provided justification for the compliance schedule, which is well within authorized by the federal rule. . �`Q. ' l/" L J t The public hearing#ipt including oral comments is included as Attachment D. In addition to the public hearing, DWR received 127 written comments via email during the public comment period. Those comments are included as Attachment C. 125 of the email comments were received using the following form letter email: Duke Energy's Marshall coal plant has polluted our lakes and rivers for decades. The proposed permit, which would authorize Duke to continue operating the leaky ash pond at the plant and to continue discharging contaminated pond water through seeps into Lake Norman, violates the Clean Water Act and North Carolina's groundwater rules. The release of coal ash pollution into our waterways puts public health and the environment at risk. In addition, the proposed permit would give Duke more than two years of extra time before it must meet new limits on the discharge of scrubber wastewater. Duke Energy - has had more than enough time to plan for how to deal with its toxic waste streams. It is time for the company to stop fouling the waters of our state. Therefore, I request that DEQ revise the permit so that it protects the waters of our state from Duke Energy's toxic coal plant pollution. Response: § 130A-309.210 of the Coal Ash Management Act (CAMA) of 2014 requires owners of coal combustion residuals surface impoundments to identify and assess all discharges from the impoundments and to implement corrective action to prevent unpermitted discharges from the impoundments to the surface waters of the state. Identification of discharges includes engineered channels designed or improved for the purpose of collecting water from the toe of the impoundment (toe drains), as well as non -engineered seeps and weeps. One method of proposed corrective action 21 1. allowed under the Act is to make application for a National Pollutant Discharge Elimination System (NPDES) permit amendment to bring the unpermitted discharge under permit regulations. A Discharge Assessment Plan for the unpermitted discharges at the Marshall Steam Station was submitted by Duke Energy to the Department on December 30, 2014. The facility identified two unpermitted seeps (all non -engineered) from the ash settling basin. Under the draft NPDES Permit, both seeps are considered to be discharging through delineated Effluent Channels. The Effluent Channels were delineated by DWR staff on May 4, 2016, in accordance with 15A NCAC 02B .0228. The draft permit requires the permittee to demonstrate that water quality standards in the receiving stream are not contravened. This demonstration must be submitted to the Division no later than 180 days from the effective date of the permit. The extended deadlines for Compliance with the New Effluent Limitations have been established in accordance with the 40 CFR 423. Duke provided justification for the compliance schedule, which is well within authorized by the federal rule. The following is a summary of comments received from the Southern Environmental Law Center on behalf of the Catawba Riverkeeper Foundation, Inc., the Sierra Club and the Waterkeeper Alliance: 1. Permitting Waters of the United States as "effluent channels" violates the Clean Water Act and North Carolina Law. Response: The Effluent Channels at the Marshall Steam Station have been delineated in accordance with the requirements of 15A NCAC 02B .0228. The EPA and USACOE did not object to this action. 2. The draft permit fails to account for discharges of wastewater through hydrologically connected groundwater. Response: The NPDES program regulates point source discharges to the Waters of the US, the infiltration of the wastewater to the groundwater does not fit the definition of the point source discharge. The groundwater contamination is being regulated under a separate program within DWR. 3. The Department cannot issue a permit to a facility that is violating surface water standards. Response: The NPDES Permit for Marshall Steam station has been developed in accordance with the existing federal and state rules and regulations. The Permit conditions are established to provide compliance with the water quality standards in the receiving stream. 22 4. The Reasonable Potential Analysis is inadequate. Response: he Reasonable Potential Analysis (RPA) has been conducted in compliance with the CWA. The RPA uses 95% probability level and 95% confidence basis in accordance with the EPA Guidance entitled "Technical Support Document for Water Quality -based Toxics Control." The RPA procedure has been approved by EPA. The downstream analysis of the water in the receiving stream does not indicate violations of the water quality standards. 5. The draft permit violates its own permit term —the Removed Substances Provision. Response: The disposal of the coal ash in wet lagoons has been authorized by the EPA in accordance with the CWA. New federal regulations will gradually phase out the use of coal ash lagoons. 6. The draft permit violates requirements applicable to critical areas. Response: The MCL levels for Sb, As, Ba, Be, Cd, Cr, Cu, CN, F, Pb, Hg, NO3i NO2, Se, and TI have been established by EPA and are applicable to the Critical Area of the receiving stream. Most of these parameters (Hg, As, Cd, Cr, Cu, Se, Pb, NO3) have been sampled downstream of the discharge location. The instream-sampling indicate that most parameters are below detection level, the rest are below water quality standard. The only parameter that exceeds the MCL is NO3. However, the effluent monitoring data shows that concentration of nitrate in the ash pond discharge is well below MCL. Therefore, exceedance of MCL can be attributed to other point and non -point sources of pollution. 7. The Department cannot justify extended deadlines for compliance with new effluent limitations. Response: The extended deadlines for Compliance with the New Effluent Limitations have been established in accordance with the 40 CFR 423. Duke provided justification for the compliance schedule, which is well within that authorized by the federal rule. 8. The effluent limitations in the proposed permit are too weak. Response: The effluent limitations in the permit are established in accordance with the existing federal and state rules and regulations. EPA has recently updated 40 CFR 423 and after reviewing parameters of concern established TBELs for several of these parameters. The EPA decided that TBELs for all parameters of concern are not necessary because "Effluent limits and monitoring for all pollutants of concern is not necessary to ensure that the pollutants are adequately controlled because many of the pollutants originate from similar sources, have similar treatabilities, and are removed by similar mechanisms. Because of this, it may be sufficient to 23 establish effluent limits for one pollutant as a surrogate or indicator pollutant that ensures the removal of other pollutants of concern." The SELC mistakenly concluded that the dewatering stage for outfall 002 includes TBEL for As. However, this is a water -quality based limit, it has been established in accordance with the results of RPA. The SELC also suggests that more monitoring for seeps is needed. The combined seep discharge represents less than 0.02% of the discharge from the ash pond. This is a miniscule contribution to the overall discharge from the facility and the monitoring frequency is adequate to evaluate its impact. In addition, the EPA has approved the monitoring frequency for seeps. The following is a summary of comments received from Duke Energy. 1. Comments on Draft Permit Section A. (2.) Effluent Limitations and Monitoring Requirements (Outfall 002 -normal operations) • In the DRAFT Permit, the monitoring frequency for arsenic and mercury is "weekly," in contrast to the "quarterly" monitoring frequency in the current permit. Historical monitoring data do not indicate that the discharge from Outfall 2 has caused problems with arsenic and mercury in the receiving stream, and the reasonable potential analysis ("RPA") demonstrates the discharge will not cause contravention of the water quality criteria for either of these constituents. Given that more frequent monitoring is not necessary to address an immediate concern, Duke Energy requests the sampling frequency be returned to "quarterly". If NCDEQ feels that more frequent monitoring is needed, Duke Energy would not object to "monthly" sampling. Response: The monitoring frequency for As, Hg, were increased to address EPA comments. The Division is unable to grant request from Duke for a monitoring frequency reduction. • The DRAFT Permit requires chronic toxicity testing "monthly" during normal operations, contrasted with "quarterly" in the current permit. Historical data do not indicate that chronic toxicity is a concern during normal operations, and Duke Energy requests that the monitoring frequency be changed to a "quarterly" requirement during normal operations. Response: The monitoring frequency for toxicity testing was included as monthly to address EPA comments. The Division is unable to grant request from Duke for a monitoring frequency reduction. 24 w 1 • Duke Energy requests that the language in Note 2 be clarified to state that continuous monitoring of Total Suspended Solids ("TSS") is only required when decanting via pumps. As written, the permit could be interpreted to require continuous TSS monitoring during normal operations not involving pumping from the ash basin. Response: The Division will add clarifying language for TSS continual monitoring in the Final Permit. • Duke Energy requests re-insertion of Note 2 from the existing permit related to TSS. The existing footnote reads: "A total suspended solids average of 40 mg/L is permitted provided the permittee can demonstrate that the difference between the monthly average of 20 mg/L and 40 mg/L is the result of the concentration of total suspended solids in the intake water." Response: The Division is unable to re-insert the Note 2 from the previous Permit. This change was made to address the EPA comment. • Duke Energy requests that language on page 5 be amended as follows: "The facility is allowed to drawdown the wastewater in the ash d settling basin to no less than three feet above the ash at the pump intake location under this section. Lowering the level below the three feet mark triggers the limits and conditions in Section A. (3) of this permit. Without this clarification, the permit could be misinterpreted to prevent Duke from ever undertaking the work authorized in Section A. (3). Response: The Division will add clarification to the drawdown language in the Final Permit. • Duke Energy requests that the language on page 5 be clarified to state that the zero discharge limits on fly ash and bottom ash transport water only applies to fly ash and bottom ash transport water generated after November 1, 2018 and January 31, 2021. Fly ash and/or bottom ash transport water generated prior to these dates and stored in the ash basins is classified as "legacy wastewater" under the Steam Electric Effluent Limitations Guidelines (ELG) Rule. As stated in the rule, legacy wastewater is not subject to the same limits. We believe the intent of the permit is to allow continued discharges from the ash basin afterthe effective dates but to require zero discharge of new fly ash transport water after 2018 and of bottom ash transport water after 2021. To address this concern, Duke Energy suggests either adding additional definitions to Section A.(10.) or making the following clarifications on page 5: 25 o The zero discharge limit of fly ash transport water only applies to fly ash transport water generated after November 1, 2018. o The zero discharge limit of bottom ash transport water only applies to bottom ash transport water generated after January 31, 2021. Response: The Division will add clarification regarding fly ash and bottom ash transport water in the Final Permit. Comments on Draft Permit Section A. (3) Effluent Limitations and Monitoring Requirements (Outfall 002 -dewatering phase) • The DRAFT Permit sets a flow limit at 1.0 million gallons per day (MGD). Duke Energy requests the flow limit be removed and only require monitor and report. Flows during dewatering will be lower than flows during decanting, for which Section A.(2) does not set a daily limit. Dewatering is already subject to a limit on drawdown of 1 ft/week for dam safety purposes. Response: The flow limit for the dewatering phase was added to address the EPA comment. The Division is unable to remove it. Comments on Draft Permit Section A. (7.) Effluent Limitations and Monitoring Requirements (Internal Outfall 004) • As written, the Discharge Limitation on Total Mercury in this section is not subject to Note 4, probably due to a typographical error. Duke Energy requests the addition of a Note 4 superscript to the total mercury limits in the permit limit table to clarify that limits on total mercury are also effective on January 31, 2021. Response: The Division will correct this error in the Final Permit. 4. Comments on Draft Permit Sections A. (8.) and A. (9.) Effluent Limitations and Monitoring Requirements (Outfall 101 and 102) • Duke Energy requests that Note 3 be amended to state that a measurement of pH lower than 6.0 or higher than 9.0 is not a violation of the permit limits. As a result of the hydro geochemistry involved in the migration of ash basin seepage through groundwater, the pH of water measured at Outfalls 101 and 102 will not always be representative of the seep flow discharge from the ash basin. Water in the ash basin consistently discharges between 6.0 and 9.0, but natural conditions, including contributions from stormwater, in the vicinity of the ash basin can result in lower pHs measured at the Outfalls. As long as discharges from the ash basin at Outfall 002 remain between 6.0 and 9.0, lower pHs at Outfalls 101 and 102 could be considered unrepresentative samples. Response: The Division is unable to change pH requirements in the Permit; this is a statutory requirement. 26 • Similarly, Duke Energy requests that a note be added to state that TSS levels due to conditions of the sampling area (sediment entrainment) should be considered an unrepresentative sample since a seep flow from the Ash Basin would not carry TSS levels in excess of 30 mg/I. Response: The Division believes that existing language regarding low flow condition already addresses the issue of the excessive sample turbidity. • Duke Energy requests the removal of the monitoring and reporting requirements for Total Iron, Total Manganese and Conductivity. There are no surface water quality standards associated with these parameters; therefore, it is unnecessary to conduct monitoring and report for these parameters. Response: The Division believes that monitoring for Fe, Mn, and conductivity is necessary to evaluate the hydrogeological conditions at the site, .detect changes caused by the decanting and dewatering, and determine the source of the seep. 5. Comments on Draft Permit Section A. (10.) ADDITIONAL CONDITIONS AND DEFINITIONS • Duke Energy requests the inclusion of the following statement based on the historical permitting of non -chemical metal waste without limits for copper and iron: "Non -chemical metal cleaning wastewater will be treated as 'low volume waste' subject only to TSS and oil and grease limits based on the historical permitting of non -chemical metal cleaning wastewater." Response: The Division is unable to grant this request, all the definitions in the Permit are based on the 40 CFR 423 and have been approved by EPA. 6. Comments on Draft Permit Section A. (17.) Chronic Toxicity Pass/Fail Permit Limit • The DRAFT Permit establishes the chronic toxicity effluent concentration of 23% for Outfall 002, changed from 12% in the current permit. Duke Energy requests this to be changed to 18% based on the instream wastewater concentration (IWC) reported in the Fact Sheet and the minimum flow release of Cowens Ford dam of 80 cubic feet per second (cfs). See additional comments on the minimum flow release below. Response: The Division is unable to grant the request regarding the IWC. The IWC is based on the flow data reported on the DMR and the historic stream flow data. • The DRAFT Permit establishes the chronic toxicity requirement for dewatering and references Part I, Section A. (17.), which sets a chronic toxicity effluent 27 f, concentration of 23.0%. The RPA for dewatering was conducted at a flow of 1.0 MGD and the DRAFT Permit sets a flow limit of 1.0 MGD. Therefore, the chronic toxicity effluent concentration for dewatering should be set at an appropriate level based on RPA calculations (Ex. 2.0% based on a flow of 1.0 MGD and a 7Q10s of 80 cfs or 3.7% based on a flow of 2.0 MGD and a 7Q10s of 80 cfs). Response: The Division will add a separate IWC for dewatering phase in the Final Permit. 7. Comments on Draft Permit Section A. (30.) Seep Pollutant Analysis • Duke Energy appreciates that the approach of this section is based on the model developed for the Riverbend NPDES permit. However, the circumstances at Marshall are different because, as stated in the Draft Permit, Marshall's two existing seeps, S-1 and S-2, have been designated as Effluent Channels, and both are included as outfalls in the draft permit. Because water quality standards do not apply in Effluent Channels, as stated in 15A NCAC 213 .0200, there is no need to determine compliance with water quality standards in the channels themselves. Because both discharge to the Catawba River, the RPA performed for the permit should be sufficient to demonstrate that water quality standards in the receiving stream are not contravened, as required in subparagraph 3. As a result, there is no further work to be done with respect to the existing seeps required by Section A.(30). Duke Energy proposes to revise this section so that it applies only to New Identified Seeps. Response: The Division is unable to grant this request, the text of this condition has been approved by EPA. 8. Comments on Attachment 1: Groundwater Monitoring Plan • Please add the following clarifying language to the permit: "3(h). The provisions of sections 3(f) and 3(g) apply only to the sampling events described in 3(b) above. The reporting requirements for any sampling events other than those described in 3(b) above shall be in accordance with the general provisions of 15A NCAC 02L." Response: Agree. We will add to the language in the Groundwater Monitoring Plan. • Additionally, Duke requests that the GW59CCR form submittal date be 60 days after sampling in lieu of 45 days. 28 la Response: Disagree. We believe that 45 days is ample time to submit sampling data, and is consistent with other coal ash facilities that have been recently renewed. 9. Comments on Fact Sheet • The Fact Sheet states that the summer 7Q10 flow of 60 cubic feet per second (cfs) is based on the minimum release from the dam that regulates the receiving water body (Cowens Ford). However, based on the issued Catawba-Wateree operating license, the minimum release from Cowens Ford is 80 cfs and the minimum average daily release requirement is 311 cfs. In the recently issued permit for McGuire Nuclear Station, the 7Q10 was set at 80 cfs. In addition, the IWC reported in the Fact Sheet is 18%, which corresponds to a flow of 11.44 MGD and 7Q10 of 80 cfs. Duke request the 7Q10 reflect the minimum release from Cowan's Ford Dam stated in the current Catawba-Wateree operating license. Response: The Division calculated the IWC based on the historic stream flow data. The IWC in the fact sheet is a typo, the correction will be made in the Final Permit. V. Recommendations Based on the review of the public record, written and oral public comments, the North Carolina General Statutes and Administrative Code, the'Coal Ash Management Act of 2014, the site visit -and discussions with other DWR staff, I recommend to the Division Director that the draft NPDES permit for the Marshall Steam Station be modified and issued with the following minor changes: 1. Clarifying language should be added to the permit in Section A. (2). Note 2 should be clarified to state that continuous monitoring of Total Suspended Solids ("TSS") is only required when decanting via pumps. As written, the permit could be interpreted to require continuous TSS monitoring during normal operations not involving pumping from the ash basin. 2. Clarifying language should be added to the permit in Section A. (2), Page 5 to specify that limits and conditions in Section A. (3) of the permit apply when water in the ash settling basin is lowered below the three feet trigger mark. 3. Clarifying language should be added to the permit in Section A. (2), Page 5 to specify that the zero discharge limits on fly ash and bottom ash transport water only applies to fly ash and bottom ash transport water generated after November 1, 2018 and January 31, 2021. 99 4. Section A. (7) should include addition of a Note 4 superscript to the total mercury limit to clarify that limits are effective on January 31, 2021. 5. Section A. (17) should include a separate IWC for dewatering phase toxicity testing. The Groundwater Monitoring Plan attachment should include the following clarifying language: "3(h). The provisions of sections 3(f) and 3(g) apply only to the sampling events described in 3(b) above. The reporting requirements for any sampling events other than those described in 3(b) above shall be in accordance with the general provisions of 15A NCAC 02L." Vle Attachments A. NPDES Application B. Draft Permit and Fact Sheet C. Written Comments Received During Public Comment Period D. Public Hearing Transcript, Including Oral Comments E. Notice of Public Hearing F. Speaker Sign -in Sheets G. Non -speaker Sign -in Sheets 30 (> DUKE ENERGY June 22, 2016 North Caroljrfa Department of Environ/ental Quality Divisi ri of Water Resources Att : Wastewater Permitting 17 Mail Service Center Raleigh, NC 27699-1617 Subject: Comments on the DRAFT NPDES Permit Marshall Steam Station Permit No.: NC0004987 Catawba County Wastewater Permitting Staff: Harry Sideris Senior Vice President Environmental, Health and Safety Duke Energy 526 South Church Street Charlotte, NC 28202 Mailing Address: Mail Code EC131</ P.O. Box 1006 RECEIVEDINCDEWWR JUN 2 4 2016 Water Quality Permitting Section Duke Energy Carolinas, LLC submits the following comments on the draft National Pollutant Discharge Elimination System Permit for Marshall Steam Station, issued for public comment by the North Carolina Department of Environmental Quality ("NCDE(X") on May 17, 2016. Duke Energy appreciates NCDEQ's efforts to develop the Draft Permit, which addresses novel issues associated with surface impoundment decommissioning. Duke Energy continues to work toward closing Marshall's surface impoundments, and finalizing this wastewater permit is a critical step to advance that process by authorizing decanting and dewatering. The company further agrees with the conclusion stated in the draft permit that discharges from the facility's outfalls will not cause contravention of the state water quality standards in the receiving waters. In addition to these general comments, Duke Energy offers the following comments on specific provisions of the Draft Permit: 1. Comments on Draft Permit Section A. (2.) Effluent Limitations and Monitoring Requirements (Outfall 002 -normal operations) In the DRAFT Permit, the monitoring frequency for arsenic and mercury is "weekly," in contrast to the "quarterly" monitoring frequency in the current permit. Historical monitoring data do not indicate that the discharge from Outfall 2 has caused problems with arsenic and mercury in the receiving stream, and the reasonable potential analysis ("RPA") demonstrates the discharge will not cause contravention of the water quality criteria for either of these constituents. Given that more frequent monitoring is not necessary to address an immediate concern, Duke Energy requests the sampling frequency be returned to "quarterly". If NCDEQ feels that more frequent monitoring is needed, Duke Energy would not object to "monthly" sampling. Page 12 • The DRAFT Permit requires chronic toxicity testing "monthly" during normal operations, contrasted with "quarterly" in the current permit. Historical data do not indicate that chronic toxicity is a concern during normal operations, and Duke Energy requests that the monitoring frequency be changed to a "quarterly" requirement during normal operations. • Duke Energy requests that the language in Note 2 be clarified to state that continuous monitoring of Total Suspended Solids ("TSS") is only required when decanting via pumps. As written, the permit could be interpreted to require continuous TSS monitoring during normal operations not involving pumping from the ash basin. • Duke Energy requests re-insertion of Note 2 from the existing permit related to TSS. The existing footnote reads: "A total suspended solids average of 40 mg/L is permitted provided the Permitee can demonstrate that the difference between the monthly average of 20 mg/L and 40 mg/L is the result of the concentration of total suspended solids in the intake water." • Duke Energy requests that language on page 5 be amended as follows: "The facility is allowed to drawdown the wastewater in the ash pend settling basin to no less than three feet above the ash at the pump intake location under this section. Lowering the level below the three feet mark triggers the limits and conditions in Section A.(3) of this permit." Without this clarification, the permit could be misinterpreted to prevent Duke from ever undertaking the work authorized in Section A.(3). • Duke Energy requests that the language on page 5 be clarified to state that the zero discharge limits on fly ash and bottom ash transport water only applies to fly ash and bottom ash transport water generated after November 1, 2018 and January 31, 2021. Fly ash and/or bottom ash transport water generated prior to these dates and stored in the ash basins is classified as "legacy wastewater" under the Steam Electric Effluent Limitations Guidelines (ELG) Rule. As stated in the rule, legacy wastewater is not subject to the same limits. We believe the intent of the permit is to allow continued discharges from the ash basin after the effective dates but to require zero discharge of new fly ash transport water after 2018 and of bottom ash transport water after 2021. To address this concern, Duke Energy suggests either adding additional definitions to Section A.(10.) or making the following clarifications on page 5: o The zero discharge limit of fly ash transport water only applies to fly ash transport water generated after November 1, 2018. o The zero discharge limit of bottom ash transport water only applies to bottom ash transport water generated after January 31, 2021. 2. Comments on Draft Permit Section A. (3) Effluent Limitations and Monitoring Requirements (Outfall 002 -dewatering phase) • The DRAFT Permit sets a flow limit at 1.0 million gallons per day (MGD). Duke Energy requests the flow limit be removed and only require monitor and report. Flows during dewatering will be lower than flows during decanting, for which Section A.(2) does not set a daily limit. Dewatering is already subject to a limit on drawdown of 1 ft/week for dam safety purposes. Page 13 3. Comments on Draft Permit Section A. (7.) Effluent Limitations and Monitoring Requirements (Internal Outfall 004) • As written, the Discharge Limitation on Total Mercury in this section is not subject to Note 4, probably due to a typographical error. Duke Energy requests the addition of a Note 4 superscript to the total mercury limits in the permit limit table to clarify that limits on total mercury are also effective on January 31, 2021. 4. Comments on Draft Permit Sections A. (8.) and A.(9.) Effluent Limitations and Monitoring Requirements (Outfall 101 and 102) • Duke Energy requests that Note 3 be amended to state that a measurement of pH lower than 6.0 or higher than 9.0 is not a violation of the permit limits. As a result of the hydrogeochemistry involved in the migration of ash basin seepage through groundwater, the pH of water measured at Outfalls 101 and 102 will not always be representative of the seep flow discharge from the ash basin. Water in the ash basin consistently discharges between 6.0 and 9.0, but natural conditions, including contributions from stormwater, in the vicinity of the ash basin can result in lower pHs measured at the Outfalls. As long as discharges from the ash basin at Outfall 002 remain between 6.0 and 9.0, lower pHs at Outfalls 101 and 102 could be considered unrepresentative samples. • Similarly, Duke Energy requests that a note be added to state that TSS levels due to conditions of the sampling area (sediment entrainment) should be considered an unrepresentative sample since a seep flow from the Ash Basin would not carry TSS levels in excess of 30 mg/I. • Duke Energy requests the removal of the monitoring and reporting requirements for Total Iron, Total Manganese and Conductivity. There are no surface water quality standards associated with these parameters; therefore, it is unnecessary to conduct monitoring and report for these parameters. 5. Comments on Draft Permit Section A. (10.) ADDITIONAL CONDITIONS AND DEFINITIONS • Duke Energy requests the inclusion of the following statement based on the historical permitting of non -chemical metal waste without limits for copper and iron: "Non -chemical metal cleaning wastewater will be treated as 'low volume waste' subject only to TSS and oil and grease limits based on the historical permitting of non -chemical metal cleaning wastewater." 6. Comments on Draft Permit Section A. (17.) Chronic Toxicity Pass/Fail Permit Limit • The DRAFT Permit establishes the chronic toxicity effluent concentration of 23% for Outfall 002, changed from 12% in the current permit. Duke Energy requests this to be changed to 18% based on the instream wastewater concentration (IWC) reported in the Fact Sheet and the minimum flow release of Cowens Ford dam of 80 cubic feet per second (cfs). See additional comments on the minimum flow release below. • The DRAFT Permit establishes the chronic toxicity requirement for dewatering and references Part I, Section A. (17.), which sets a chronic toxicity effluent concentration of 23.0%. The RPA for dewatering was conducted at a flow of 1.0 MGD and the DRAFT Permit sets a flow limit of 1.0 MGD. Therefore, the chronic toxicity effluent concentration for dewatering should be set at Page 14 an appropriate level based on RPA calculations (Ex. 2.0% based on a flow of 1.0 MGD and a 7Q10s of 80 cfs or 3.7% based on a flow of 2.0 MGD and a 7Q10s of 80 cfs). 7. Comments on Draft Permit Section A. (30.) Seep Pollutant Analysis • Duke Energy appreciates that the approach of this section is based on the model developed for the Riverbend NPDES permit. However, the circumstances at Marshall are different because, as stated in the Draft Permit, Marshall's two existing seeps, S-1 and S-2, have been designated as Effluent Channels, and both are included as outfalls in the draft permit. Because water quality standards do not apply in Effluent Channels, as stated in 15A NCAC 2B .0200, there is no need to determine compliance with water quality standards in the channels themselves. Because both discharge to the Catawba River, the RPA performed for the permit should be sufficient to demonstrate that water quality standards in the receiving stream are not contravened, as required in subparagraph 3. As a result, there is no further work to be done with respect to the existing seeps required by Section A.(30). Duke Energy proposes to revise this section so that it applies only to New Identified Seeps, as follows: The facility has identified two previously unpermitted seeps (all non -engineered) from the ash settling basin, S-1 and S-2, the locations of which are identified on the attached map. On May 4, 2016, DWR representatives delineated Effluent Channels at the Marshall Steam Station for both seeps, in accordance with the requirements of 15A NCAC 02B .0228. Both Effluent Channels discharge to the Catawba River. An RPA performed for this permit demonstrates that water quality standards in the Catawba River will not be contravened by these existing seepage flows. Table 1. Seep Coordinates and Assigned Outfall Numbers Seep ID Latitude Longitude Outfall Number S-1 3503671" 80057'62" 101 S-2 3504256" 80021'56" 102 New Identified Seeps If new seeps are identified that meet the definition of a point source and discharge to waters of the state, the facility shall follow the following procedures. The facility shall determine within 90 days from the date of discovery if a seep meets the state water quality standards established in 15A NCAC 2B.0200 and submit the results of this determination to the Division. If the standards are not contravened, the facility shall conduct monitoring for the parameters specified in A. (8.) and A. (9.). In accordance with 15A NCAC 02B.0205, water quality standards will not be considered violated when values outside the normal range are caused by natural conditions. If any of the water quality standards are exceeded, and values outside the normal range are not caused by natural conditions, the facility shall implement one of the following options within the prescribed time frame. The facility shall. 1) If the seep itself is within a jurisdictional water as set forth in a final Jurisdictional Determination issued by the United States Corps of Engineers, submit a complete application as applicable for a 404 Permit (within 30 days after determining that a water quality standard is exceeded) to pump the seep discharge to one of the existing outfalls, install a pipe to discharge the seep to the Catawba River, or install an in-situ treatment system. The facility shall complete the installation of the pump, pipe, or treatment system within 180 Page IS days from the date of the 404 permit receipt (or determining no 404 permit is required) and begin pumping/discharging or treatment. 2) Demonstrate through modeling that the decanting and dewatering of the ash basin will result in the elimination of the seep and submit the modeling results to the Division. Within 180 days from the completion of the dewatering the facility shall confirm that the seep flow ceased. If the seep flow continues, the facility shall choose one of the other options in this Special Condition. 3) Demonstrate within 30 days of determining that a water quality standard is exceeded that the seep is discharging through the designated "Effluent Channel" and the water quality standards in the receiving stream are not contravened. S. Comments on Attachment 1: Groundwater Monitoring Plan • Please add the following clarifying language to the permit: "3(h). The provisions of sections 3(f) and 3(g) apply only to the sampling events described in 3(b) above. The reporting requirements for any sampling events other than those described in 3(b) above shall be in accordance with the general provisions of 15A NCAC 02L." • Additionally, Duke requests that the GW59CCR form submittal date be 60 days after sampling in lieu of 45 days. 9. Comments on Fact Sheet • The Fact Sheet states that the summer 7Q10 flow of 60 cubic feet per second (cfs) is based on the minimum release from the dam that regulates the receiving water body (Cowens Ford). However, based on the issued Catawba-Wateree operating license, the minimum release from Cowens Ford is 80 cfs and the minimum average daily release requirement is 311 cfs. In the recently issued permit for McGuire Nuclear Station, the 7Q10 was set at 80 cfs. In addition, the IWC reported in the Fact Sheet is 18%, which corresponds to a flow of 11.44 MGD and 7Q10 of 80 cfs. Duke request the 7Q10 reflect the minimum release from Cowan's Ford Dam stated in the current Catawba-Wateree operating license. Duke Energy welcomes any further discussion on our comments or the Draft Permit. If you have any questions, please contact Shannon Langley at (919) 546-2439 or at Shannon.Langlev@duke-energy.com. Sinc rely, Harry Sideris Duke Energy Senior Vice President Environment, Health & Safety I Page 6 cc: Rick Roper, Duke Energy, Station Manager Jim Wells, Duke Energy, VP EHS CCP Richard Baker, Duke Energy, EHS CCP Scott LaSala, Duke Energy, Marshall Plant Environmental Coordinator UNITED STATES ENVIRONMENTAL PROTECTION AGENCY 2YZ REGION 4 ATLANTA FEDERAL CENTER I's = 61 FORSYTH STREET "+'It PRO" leo ATLANTA, GEORGIA 30303-8960 S. Jay Zimmerman A 3 6 416 Director, Division of Water Resources North Carolina Department of Environmental Quality 1617 Mail Service Center Raleigh, North Carolina 27699-1617 RE: Review of draft National Pollutant Discharge Elimination System permit for Duke Energy Carolinas, LLC, Marshall Steam Station, NPDES Permit Number NC0004987 Dear Mr. Zimmerman: On May 17, 2016, the above -referenced draft National Pollutant Discharge Elimination System (NPDES) permit and fact sheet were received by the United States Environmental Protection Agency from the North Carolina Division of Water Resources (NC DWR) via email. On June 2, 2016, staff from our respective agencies participated in a teleconference to discuss the EPA's preliminary comments. Following the teleconference, the EPA summarized our comments in a June 6, 2016, email and on June 13, 2016 a revised draft NPDES permit and fact sheet were transmitted to the EPA from NC DWR via email. The EPA has reviewed the revised draft NPDES permit, focusing on the revisions in response to our comments. The following comments have been addressed in the revised draft NPDES permit: 1. Effluent limitations and monitoring requirements for Outfall 002 [Parts I.A. (2.) and A. (3.)] have been revised to include BODS and fecal coliform to address the flow of treated sanitary wastewater into the ash pond. In addition, Part I.A. (32.) has been added to the revised permit to require proper operation and maintenance of the domestic wastewater plant. 2. The daily maximum effluent limitation for Total Suspended Solids at Outfall 002 [Parts I.A. (2) and A. (3)] has been changed from 65.0 mg/l to 50 mg/l to address Effluent Limitations Guidelines for coal pile runoff into the ash pond. 3. The footnote describing the effluent limitation for Turbidity at Outfall 002 [Parts I.A. (2) and A. (3)] has been changed to reflect NC's net turbidity water quality criterion. 4. Effluent limitations and'monitoring requirements for Total Suspended Solids and Oil and Grease have been added to Outfalls 002A and 002B [Parts I.A. (4.) and A. (5.)] to address Effluent Limitations Guidelines for low volume wastes. 5. The EPA and NC DWR agree that the draft permit authorizes discharges from two seeps, identified as S-1.(Outfall 10 1) and S-2 (Outfall 102). Part I.A. (30.) has been revised to clarify that discharges from newly identified seeps will not be authorized under the pen -nit until the permit has been modified to include the additional seeps and designated outfalls. NC DWR agreed to the EPA's recommendation that the monitoring frequency for Oil and Grease at Outfall 002 [Parts I.A. (2) and A. (3)] should be changed from quarterly to monthly. However, this change was not reflected in the revised draft permit and may have been inadvertently omitted. Internet Address (URL) • http://www.epa.gov Recycled/Recyclable • Printed with Vegetable oil eased Inks on Recycled Paper (Minimum 301/o Postconsumer) The EPA and NC DWR also discussed that the use of 7Q 10 and 1 Q10 flows for dilution may be inappropriate for reasonable potential analyses for discharge of toxicants to a large reservoir. The spreadsheets provided indicate that such flows were used to provide dilution when estimating the total allowable effluent concentrations of a range of pollutants, however there was no demonstration that "complete and rapid mixing" occurs as it might with a discharge to a small stream. For example, many of the acute water quality criteria presume exposures not in excess of criteria for greater than 4 hours. If it is NC DWR's-intention to provide some dilution, it would seem more appropriate for the state to allocate an impact zone in the reservoir that complies with NC's water quality standards provisions for mixing zone allocation. A mixing zone model such as CORMIX could be used to then evaluate critical conditions for mixing and to confirm the end -of -pipe concentrations that result in compliance with water quality standards at the regulatory mixing zone boundary. In addition, existing ambient background data should be considered in the assimilative capacity analysis rather than assuming that background concentrations are zero. The EPA and NC DWR agreed to continue collaborating to determine appropriate procedures for reasonable potential analyses for future permits. The EPA reiterates additional comments and recommendations for improving the permit which were discussed during file teleconference, as well as in past discussions with NC DWR: The draft permit and fact sheet for the Marshall facility indicate that Effluent Channels have been delineated and a reasonable potential analysis conducted that concludes that water quality based effluent limits are not required, as reflected. in Parts I A. (8) and A. (9) which lists monitoring only for the identified effluent characteristics. Part I. A. (30) requires that the permittee demonstrate that water quality standards in the receiving stream are not contravened. The permit should be clarified to indicate the locations for effluent monitoring required for Outfalls 101 and 102, as well as the sampling location in the receiving stream for demonstrating compliance with water quality standards. In addition, the permit should specify which constituents of concern must be sampled to demonstrate compliance with water quality standards. 2. Part I. A. (30.) includes a section for "New Identified Seeps" but the permit does not include the "Plan for Identification of New Discharges". This Plan should be included in order to clearly define enforceable minimum requirements for identifying unpermitted discharges, such as areas to be inspected, inspection procedures, frequency of inspections, constituents to be sampled, etc. As we have discussed, the draft permit authorizes discharges from unengineered seeps that are not discharged through an engineered outfall or collected and rerouted to an engineered outfall. This creates challenges in permit development and compliance monitoring as it is unclear how such discharges can be accurately monitored for flow and discharge characterization. Although DWR includes a Seep Pollutant Analysis with options for addressing water quality exceedances in the NPDES permit, we note that an enforcement mechanism providing for elimination or rerouting these seeps is an alternative and potentially preferable approach for addressing seeps of this nature. It has been NC's election to develop permits for these discharges rather than addressing them through an enforcement mechanism, notwithstanding the difficulty of developing appropriate permit conditions and monitoring compliance. In accordance with the NPDES Memorandum of Agreement (MOA) between the EPA Region 4 and North Carolina and 40 CFR § 123.44, the EPA submits the above comments and recommendations on the Marshall revised draft permit. The EPA requests that DWR revise the permit and fact sheet to address these remaining unaddressed comments and recommendations. We understand that you may receive significant public comments objecting to the draft permit, and that the draft permit may undergo significant further changes based on public comments. In either case, pursuant to Section N.13.6. of the MOA, you would be required to afford the EPA an opportunity to review the proposed final permit. If you have any questions, please call me at (404) 562-9470 or have your staff contact Karrie Jo Shell in the NPDES Permitting Section at (404) 562-9308. Sincerely, L James D. Giattina Director Water Protection Division cc: Mr. Harry Sideris, Senior Vice President Duke Energy Carolinas, LLC Hickory Daily Record Advertising Affidavit NCDEQ/DWR ATTN: WREN THEDFORD 1617 MAIL RFR\IICF_ CFnITER Public Notice North Carolina Environmental Man- agement Commission/NPDES Unit 1617 Mail Service Center Raleigh, NC 27699-1617 Notice of Intent to Issue a NPDES Wastewater Permit The North Carolina Environmental Management Commission proposes to issue a NPDES wastewater dis- charge permit to the person(s) listed below. Written comments regarding the proposed permit will be accept- ed until 30 days after the publish date of this notice. The Director of the NC Division of Water Resources (DWR) may hold a public hearing should there be a significant degree of public interest. Please mail com- ments and/or information requests to DWR at the above address. Inter- ested persons may visit the DWR at 512 N. Salisbury Street, Raleigh, NC to review information on file. Addi- tional information on NPDES permits and this notice may be found on our website: http://deq.nc.gov/about/di visions/water-resources/water- resources-permits/wastewater- branch/npdes-wastewater/public- notices,or by calling (919) 807-6304. PUBLIC NOTICE N.C. DEPARTMENT OF ENVIRON- MENTAL QUALITY INTENT TO ISSUE NPDES WASTEWATER DISCHARGE PERMIT #NC0004987 Public comment or objection to the draft permit modification is invited. All comments received by June 22, 2016 will be considered in the final determination regarding permit issu- ance and permit provisions. PERMIT APPLICATION Duke Energy Carolinas, LLC has ap- plied for a renewal of its NPDES wastewater permit (NC0004987) for Marshall Steam Station, 8320 East N.C. Highway 150, Terrell, N.C., Cat- awba County. The facility discharges treated industrial wastewater to Lake Norman in the Catawba River basin. This discharge may affect fu- ture allocations in this portion of the Catawba River basin. The thermal component of the dis- charge is subject to effluent limita- tions under the federal Clean Water Act sections 301/306 and N.C. Ad- ministrative Code Section: 15A NCAC 26.0211 (3) (j), which prohib- its an exceedance of 2.8 degrees C (5.04 degrees F) above the natural water temperature, and in no case to exceed 32 degrees C (89.6 degrees F). The permit holder has requested a continuance of a Clean Water Act 316(a) variance, which would im- nncp sn alternative. less stringent PO Box 968 Hickory, NC 28603 Account Number 3611028 Date May 22, 2016 ,gory Description Ad Number Ad Size al Notices Public Notice North Carolina Environmental Management Comi 0000221789 1 x 127 L Publisher of Hickory Daily Record Catawba County Before the undersigned, a Notary Public of Catawba County, North Carolina, duly commissioned, qualified, and authorized bylaw to administer oaths, in said County and State; that he/she is authorized to make this affidavit and sworn statement; that the notice or other legal advertisement, a copy of which is attached hereto, was published in the Hickory Daily Record on the following dates: 05/22/2016 and that the said newspaper in which such notice, or legal advertisement was published, was a newspaper meeting all the requirements and qualifications of Section 1-597 of the General Statutes of North Carolina Assistant Bookkeeper Newspaper reference: 0000221789 Sworn to and subscribed before me, this c!U day of 2016 Notmy An' �OTgR� My Commission expires: G e2Cj n —U B THIS IS NOT A BILL. PLEASE PAY FROM INVOICE. THANK YOU X11 4 co • � 111111 t � limitation on the thermal component of the discharge. The proposed var- iance imposes a monthly average limit of 34.4 degrees C (94 degrees F) for the period from July 1 through October 31, and a monthly average limit of 33.3 degrees C (92 degrees F) for the period from November 1 through June 30. On the basis of the N.C. Administrative Code Section: 15A NCAC 213.0208 (2) (b) and other lawful standards and regulations, the N.C. Division of Water Resources proposes to continue the 316(a) var- iance in conjunction with renewal of the permit The draft wastewater permit and re- lated documents are available online at: https-//deq.nc.gov/about/divisio ns/water-resources/water- resources-hot-topics/dwr-coal-ash- regulation/duke-energy-npdes- perm its-fo r-faci lities-with-coal-ash- ponds/duke-energy-npdes- modifications-renewals. Printed cop- ies of the draft permit and related documents may be reviewed at the department's Mooresville Regional Office. To make an appointment to review the documents, please call 704-663-1699. Public comment on the draft permit modification should be mailed to: Wastewater Permitting, Attn: Mar- shall Permit, 1617 Mail Service Cen- ter, Raleigh, N.C., 27699-1617. Public comments may also be submitted by email to: publiccommentsCncdenr.g ov. Please be sure to include "Mar- shall" in the email's subject line. PUBLIC HEARING The N.C. Department of Environmen- tal Quality will hold a public hearing to accept comments on the draft permit at 6 p.m. Wed., June 22 at the Catawba Valley Community College East Wing Auditorium. The auditori- um is located next to the library on the college's main campus, 2550 Hwy. 70 Southeast, Hickory, N.C. Speaker registration begins at 5 p.m. Publish: May 22, 2016