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Home My WebLink AboutNC0004987_Renewal Application_19941215.. _ N cb �onipanY za 1 pouel Sllpp"D �I'}cc g ,tent a �? 11333q1 , l C` yg O 110 WER ,ember 15, 1994 Ms: Collen Sullins Permits and Engineering Unit - North Carolina Department of Environment, Health and Natural Resources P.O. Box 29535 Raleigh, North Carolina 27626-0535 Subject: Duke Power Company - Marshall Steam Station NPDES Permit Renewal, NC#0004987 - Catawba County File: MS -706.15 Record #005157 CERTIFIED: P-384-366-882 Dear Ms. Sullins: The above referenced permit expires June 30, 1995. GS 143-215.1(c) and Part II.B.10 of the subject permit requires the submittal of an application for renewal at least 180 days prior to expiration. Please find enclosed in triplicate, the application for renewal of the subject permit and a check in the amount of $400:00 to cover the renewal processing fees pursuant to 15 NCAC 2B.0105(b). We request notification that the application is complete. Please note that current data is used throughout the NPDES application where available. In addition, supplemental information is enclosed to reflect conditions for the station. This information is representative of station operation for the period of 1/93 - 9/94. Should you have any questions or desire additional information; please feel free to contact me at (704) 875-5954. Very Truly Yours, 4 o S. Garter Technical Systems Manager Electric Systems Support/Environmental Division trr.�`C - _J pBF^r lease ori: t or tvoe in the unshaded areas only Please print or type in the unshaded areas only. e. FORM A. �c ��EPAt h EXIS `NODES OUTFALL LOCATION. EPA I.D. NUiNBER(copy from Item l NC0004987 w U.S. ENVIRONMENT t . ;;APPLICATION FOR PERM 1NG MANUFACTURING, COMMERCI `CortstiI date OMB No. 2040-0086' Approval expires 5-31-92 For earn ouiTau, ' •NUMBER lilt list me WkILU c:a U .....y..... B. LATITUDE - -•• - .._ ..-- -- - C. LONGITUDE { - " > s.;^ -:.D RECEIVING WATER (name) •, ' , t. DtA. 2. MIN. Screenin a Discharge to 1. D66.. �.2: MIN. 3.397. 001 35 35 42 .80 57 49 Lake Norman 002 35 36 22 80 57 40 Lake Norman 003, 35 35 51 80 57 45 Lake Norman Effluent and Storm Water Ion Exchan e, 2J Discharge to Surface Water 4A 003 Induced Draft Fan 0.2 MGD. Discharge to Surface Water 4A Control House Cooling Water _ 11 FLOWS, SOURCES OF VULLU 1 IUM, w1Yu I nv-^ I n.�n ■ . �w...vw.+.ry A. Attach a. line drawing showing the water flow-through the facility. Indicate sources:of intake water, operations contributing wastewater, mthe effluent, and treatment units labeled to correspond to. the more detailed descriptions in Item B: Construct a, water. balance on the line drawing by showing average flows between intakes, operations, treatment units, and outfalls. If a water. balance cannot. be: determined (e g, for certain mining actrvibesl,: provide a pictorial description.of the-ilature and amount of;any sources of water and any collection;ortYeatmal t measures `_. . B:,.For each outfall,provide a=description of: --(1) All operations contributing,wastewater.to the effluent;, including process wastewater,:.sanitary. wastewater, ,cooling water, and. storm water runoff; (2) The average flow contributed by each operation; and (3) The treatment received by the wastewater. Continue on aoamonai 1'. OUT- rALLN (7i8t) sneers a nes.-Da l Y. :... .....-- -. -,. 2. OPEI2ATION(S) CONTRIBUTING FLOW b AVERAGE FLOW a. OPERATION .(Itat) (include units) EATMENT ;.;TR e.-- LI=DOES•FROM ,,a: DESCRIPTION' ' ,TABLE 2C-1 001 Condenser Cooling Water 841 M.'' Screenin a Discharge to 1T (Once Through Non -Contact Includes Intake Screen - Surface Water 4A Backwash , 002 Ash `Basin Dischar a 5.5 -MGD Chemi cal .Coa ul ati on 2D Including Sanitary System Settling, Neutralization A 2K Effluent and Storm Water Ion Exchan e, 2J Discharge to Surface Water 4A 003 Induced Draft Fan 0.2 MGD. Discharge to Surface Water 4A Control House Cooling Water _ (Once Through Non -Contact) � car r.a..n� .. •�� - •-• iwa•��••. a .�--•.-..__ ___ ____-_ U'ONTIN Ey.cept for I torm runoff, leaks, or spills, are any of tha discharges, described In Items: llrA or B intermittent C1YES (complete the follosiing table)No (go 44 ass I.. OUTFALL ' 2: OPERAT.ION�sf 3'FREQUENCY f: FLOW RATE b TOTAL VO'S.1 ME �V�� a GAYS b.:MONTHS NUMBERCONTRIBUTING FLOW PER -WEEK PER YEAR (irimgdJ,' (apealfywitli':Un al' a:ry1:R. "(list) (list) (specify (specify : I. LOND THRN = 'IAAxIMUM'. 1 LONA THRM 7 .NA%IMUM `" �� t:JN average) average) AVHRAof t;DAILY. ; ,wgiRwoe DwiLr (in aava) A Does an effluent guideline limitation promulgated by EPA under. Sectlon 304 of the,Clean Water Act apply - t( ' M YEs (complete Item 777-B) ONO (to to Sel B Are the limitations in the applicable effluent guideline expressed. in terms of production for other measure -of. ;• QYEs;(complete Item III, C) y ?Y rio (go to Sei C . If you answered "yes." to Item 111=B, list the quantity which represents anectual,measurement of your..level used in the applicable effluent guideline, andaindicate the affected:outfalis :1:'AVERAGE DAILY PRODUCTION "e QUANTITY !HR -DAY b. UNITS OF MHAfURH.RATIONS rR"ODU CT. MATERIAL. HTC (specify) s IV:JMPROVFMFNTS -,. A Are You. 'now, required by any Federal, State or local authority to meet any implementation schedule for the' rwnstruciaon .upgrading oVoperation of waste- water; treatment equipment or practices or any.. other environmental programs which may affect the discharges described in this application? This includes, but is. not limited to, permit conditions, administrative or enforcement orders, enforcement compliance schedule. letters, stipulations,.courtorders,-and grant = dr -lo ri•conclitions. ' YEs (complete theollowing table ., f ) ] No (go to Item IVB) IDENTIFICATION OF CONDITION, •2. AFFECTED OUTFALLS - 4. FINAL COM• AGREEMENT. ETC. ': BRIEF DESCRIPTION OF PROJECT E D TE a. No. b� fouwc. of elfeewNGN B. OPTIONAL: You may attach additional sheets describing any additional water pollution control programs (or other environmental projects which may affect Your discharges) you 'now' have underway or which you plan. Indicate whether each program is now underway or planned', and indicate your actual or Planned schedules for construction. MARK "X" IF DESCRIPTION OF ADDITIONAL CONTROL PROGRAMS IS ATTACHED Al expressed irithe terms and units ..',AFFECTED {r} , ..<OUTFALLS (ltat qutfdil numbers) IV:JMPROVFMFNTS -,. A Are You. 'now, required by any Federal, State or local authority to meet any implementation schedule for the' rwnstruciaon .upgrading oVoperation of waste- water; treatment equipment or practices or any.. other environmental programs which may affect the discharges described in this application? This includes, but is. not limited to, permit conditions, administrative or enforcement orders, enforcement compliance schedule. letters, stipulations,.courtorders,-and grant = dr -lo ri•conclitions. ' YEs (complete theollowing table ., f ) ] No (go to Item IVB) IDENTIFICATION OF CONDITION, •2. AFFECTED OUTFALLS - 4. FINAL COM• AGREEMENT. ETC. ': BRIEF DESCRIPTION OF PROJECT E D TE a. No. b� fouwc. of elfeewNGN B. OPTIONAL: You may attach additional sheets describing any additional water pollution control programs (or other environmental projects which may affect Your discharges) you 'now' have underway or which you plan. Indicate whether each program is now underway or planned', and indicate your actual or Planned schedules for construction. MARK "X" IF DESCRIPTION OF ADDITIONAL CONTROL PROGRAMS IS ATTACHED .IJEPA I.D. NUMBER(COpy from Item I Of Form CONTINUED FROM PAGE 2 NC0004987 V INTAKEAND EFFLUENT,C"ARACTEIZISTICS instructions before proceeding FCompleteone set'of'tables for qac_ou't NOTE Tables V A, V.=B and'?U C are:iriauded on separate"sheets numbered;, D Usetthe spa below to list any of the.pollutents listed: in Table 2c-3 of the instruct ,discharged from any -outfall -'Fora pollutant you list, briefly describe the reasc :. . -. ..possession 1:. PO.LLUTANT' ,`' - ,2: SOURCE Asbestos Clean-up of containment areas from asbestos stripping/handling operations. Trace. amounts may be discharged to the ash basin.(outfa110 2). VI. POTENTIAL -.,'DISCHARGES NOT COVERED,.BY ANALYSIS I_s any,pollutant listed in;item V C a substance of a component of a substance whicl h ¢llprOdUCt? ` x� R ,- b ,AYES (list alu such poll utantsbeloru) . i 18 outl'811�numher irC,tlle-SpaCeQrOvitler7. x z 3c' , now_or have.reason to..tielleve:is discharged ormay be to tie"present and report any; analytical data in'your _77-'%��2:SOURCE' or 41. BIQLOGICAL TOXICITY TESTING DATA Do ye„ have alfy knowledge or reason to believe that any biological test for acute or chronic toxicity has been made on any of your discharges or on a receiving water in relation to your discharge within the last 3 years? [MYES'(identify the.test(s) and describe their purposes. below) [:] NO (go to,Section VIII) 1 � Quarterly analysis of Ceriodap.hnia Dubia acute LC50 per current permit requirements on Outfall 002.. , r111.CONTRACT ANALYSIS INF( were any or meanalyses reported in Item.V performed by a contract, aboratory or consulting firm? EN YEs (list the name, address; and telephone numberof and pollutan_te analyzed by, ,each such laboratory or firm below] . A. NAME..B..ADDRESS Heritage Laboratories, Inc. 4132 ,Pompano Road NC Waste Water Charlotte, NC 28,216 Certification #98 Pace, Inc. NC Waste Water Certification #12 9800 Kincey Ave.,.Suite 100 Huntersville, NC 28078 NO (go to Section JX).. C. TELEPHONE UTANTS ANAL -1 urea code & no.) (list 04-393-1853 Radium (Total) Radium 226 Phenols Sulfide Fluoride Bromide Color Cyanide MBAS,. 704-875-9092 Sulfite C. CERTIFICATION certify iinderpenalty of/aw that this document and all atiachmerits were prepared undermy directityn or supervision in accordance with a system designed to 9ssuie thafqua/tfiedpersonne/proper/ygatherend eva/uete'the information submitted. Basedonmyinquiryoftheperson orpersons who manage the system or :hoseparsonsdirect/yresponsib/eforgathering theiMormetion, the/nformation submittedis, to thebest olmyknow/edge andbelief, true, accurate, andcomp/etb. ' am aware that there are significant penalties for submtttrng la/se information, including the possibility of fine and imprisonment for.knowing violations. A. NAME ae OFFICIAL TITLE (type or print) - - ' B. PHONE NO. (ar¢a COd¢ & no.) M.D. McIntosh, Vice President Fossil/Hydro Gen. Dept. 704-382-5941 C. SIGNATURE D. DATE SIGNED - - EPA Form 3510-2C (8'-90) PAGE 4 OF 4 PLEASE PRINT OR TYPE IN THE UNSHADED AREAS ONLY. You may report some or all of this information on separate sheets (use the same format). instead of completing these pages. SFF INSTRUCTIONS EPA I.D. NUMBER (copy from Item 1 of Form 1) NC0004987 Form Approved OMB No. 2040.0086 Aeeroval amines 731-88 - V. INTAKE AND EFFLUENT CHARACTERISTICS (continued from page 3 of Form 2 C) x a ` ,, k 'i ^ ' ` z.' \ ``+h . OUTF9LL.N0. `�1 J PART A - You must provide the results of at least one analysis for every pollutant In this table. Complete one table for each outfall See Instructions for additional details. 2. EFFLUENT 3. UNITS 4. INTAKE (optionaO a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE if available c. LONG TERM G. VALUE ii ave table d. NO::OF':" , a. Cancer~ b. Mass a. LONG TERM AVG. VALUE b. NO. OF 1. POLLUTANT 1 Concentration-, .(2)Mass 7 Concentration 2 Mass 7 Concentration 2 Mass WIConcentation 2 Mass ANALYSES., tradon ANALYSES a. BlochemcalOxygen (' 1.4 /J 8419_ 1 mg/I Ib/Day 1 5677 1 Demand BOD ' b. Chemical Oxygen 11 66147 1 mg/I Ib/Day 12 68125 1 Demand COD c.. Total Organic 1.9 _ 11425 1 mg/I Ib/Day 0.97 5507 1 Carbon TOC d. Total Suspended 5 30067 1. mg/i Ib/Day 5 28386 1 Sords TSS e.Aar�iorYa(as N) (+'01�J 601 1 mg/I Ib/Day 0.12 681" 1 f. Flow VALUE VALUE VALUE MGD X VALUE_ 720.6 933.1 .680.3 365 CR 680.3 365 g. Temperature VALUE - VALUE VALUE VALUE vArter 21 19.3 90 DEGREES CELSIUS h. Temperature VALUE VALUE VALUE VALUE summer1 26.8 32.7 1 30.7 1 92 DEGREES CELSIUS 20.3 1 i. pH MINIMUM MAXIMUM 6.6 MINIMUM MAXIMUM ;.>'4� + {i:•';�,,�>i�,��: -•�i;; -<„{ �•:.,. `\AA,\```: v �\t^^i4�^}• ,;;y`:{` I'M! \^ \ ,,fit^,^i:4 .. .. ...,>. >,::,., 1 STANDARD UNITS •: •4,,;� •^.;: ,�„ •.; •yv t�,;w�,�a�^\:;�,^ <v,. ...kCy,,�., •� z . z�k3 \.\l� ,^iii, �:^ `• ^ �. PART B - Mark "X" in column 2a for each pollutant you know or have reason to believe is present. Mark "X" In column 2b for each pollutant you believe to be absent. If you mark column 2a for any pollutant which is limited either directly or Indirectly but expressly in an effluent limitations guideline, you must provide the results of at least -one analysis for that pollutant. For other pollutants for which you mark column 2a, you must provide quantitative data or an explanation of their presence in your discharge. Complete one table for each outfall See the instructions for additional dotal ls and requirements. 1. POLLUTANT 2. MARK"X" 2. EFFLUENT_ 3. UNITS 4. INTAKE (optional) AND CAS NO. (if avaliabie) a.pre. b.ab• a. MAXIMUM DAILY VALUE b. MAXIMUM 30.AY VALUE if available c. LONG TERM AVG. VALUE- it eva abte d NO: OF- a. Concen• b. Mass a. LONG TERM AVG. VALUE b. NO. OF 1 Concentration (2)Mass 1 Concentration 2 Mass 1 Concentration 2 Mass 1 Concentration 2 Mass sent sent ANALYSES traflon ANALYSES a. Bromide X < 0.8 < 4811 1 mg/I Ib/Day < 0.8 < 4542 1 24959-67-9 b. chlorine. X < 0.1 < 601 _ 1 mg/I Ib/Day < 0.1 < 568 1 Total Residual c Oou X 18 X 1 f'Ss X 30 X 1 d. Fecal X 350 X 1 Colonies X < 2 < X_ 1 Coliform /100 ml e. Floudde X < 0.1 < 601 1 mg/I Ib/Day < 0.1 < 568 1 16984-48-8 I. Nitrate. X 0:29 1744 1 mg/I Ib/fray 0.26 1476 1 Nitrite as N EPA Fonn.3510.2C (Rev. 2,851 PAGE V-1 - - - - - CONTINUE ON PAGE V-2 F y a Z a0� .mala+, 3 3 (3 m �m a o o $ n� [�o d{� o -i� g -� fn' IE _ 11 Z d 4 O N ,1 is f07 X X X X X X X X X X X X X X X X X X X X Q � Zc m v M - o A A A A A A A A A -n z O Op A O OBD po N A' O OD o i N co D { A A A A A A A A pN 8 c c $ t 0 X X X 'X $ N r C m w � a 0 � e. �3 � z c m W D w � N N Z3 cC n m -Zi o� co V m � N D m � r ' c i 6 8 m z N m y 3 3 3 3 3 3 3 3 3 3 3 3 3 3 �j �j �j 3 3 3 v 54 f0 0 P --f0 m R- a a a- a C C C C Z Cr g g Cr g g '� Cr !t g g g g g g v q 5c? Ec?' S S S X X X X S S A A A A A n A n A A n m r ZA O pOp O O i O O O V O N ?I �m G om A A A A A A A A N 3 D d o V pi t' �o Lit a' K) �' a X X X X o m o v � z O i i i i J i i i i i i J i i i i i T m rn t , EPA I.D. NUMBER (copy from Rem 1 of Fonn 1) OUTFALL NUMBER 1`.nNTINIIFn FRAM PACF 3 AF FARM 7d: Nrnnn4sR7 .r Form Approved OMB No. 2040-M Aooroval amlres 7-31-88 ` PART C - If you are a primary Industry and this outfall contains process wastewater, refer to Table 2c-2 In the Instructions to determine which of the GC/MS fractions you must test for. Mark "X' in column 2-a for all such GC/MS fractions that apply to your Industry and for ALL toxic metals, cyanides, and total phenols. If you are not required to mark column 2-a (secondary Industries, nonprocess wastewater outfalls, and nonrequired GC/MS fractions), mark "X" in column 2-b for each pollutant you know or have reason to believe is present. Mark "X" In column 2-c for each pollutant you believe Is absent. If you mark column 2a for any pollutant, you must provide the results of at least one analysis for that pollutant. if you mark column 2b for any pollutant, you must provide the results of at least one analysis for that pollutant if you know or have reason to believe it will be discharged In concentrations of 10 ppb or greater. If you mark column 2b for acrolein, acrylonitrile, 2, 4 dinitrophenol, or 2-meihyl4, 6 dinitrophenol, you must provide the results of at least one analysis for each of these pollutants which you know or have reason to believe that you discharge In concentrations•of 100 ppb or greater., Otherwise, for pollutants for which you mark column 2b, you must either submit at least one analysis or briefly describe the. reasons the pollutant Is expected to be discharged. Note that there are 7 pages to this part; please review each carefully. Complete one table (all 7 pages) for each outfall. See instructions for additional details and re uirements. 1. POLLUTANT 2. MARK "X" 3. EFFLUENT 4. UNITS 5. INTAKE (optionaD AND CAS NO. e.ro- b. c.ala a. MACIMU�A DAILY VALUE b. M IMU�130 DAY VALUE c LONG TF6 M G. VALUE a. LONG TERM AVG. VALUE (d avallatie) gkrir- r58 rt sent avails d evaila ava la d. NO.OF a. Conten- b: Mass d. NO. OF 1 Carxentratlan 2 Mass 1 Coneentratlon 2 Mess 1 Conceno-anon 2 Mass ed 1 Corleentratlon 2 Mass ANALYSES tration ANALYSES ' METALS CYANIDE AND TOTAL PHENOLS 1M.ArAmony, X < q < 6.0 1 ug/I Ib/Day < 1 < 5.7 1 Total 7440-38.0 2M. Arseric. Total X < 1 c 6.0 1 ug/I Ib/Day 5.9 33 1 7440-38.2 3M. Beryllium, X < 5 < 30 1 ug/I Ib/Day < 5 < 28 1 Total 7440-41-7 4MCedrNkm, € X +; 0 1 ` 0.60 1 ug/I Ib/Day 0.14 0.79 1 To6l 7440=43-9 5M. Chrorriun, X < 1 < 6.0 1 ug/1 Ib/Day < 1 < - 5.7 1 Total 7440-473 61VI..Copper, total X -Y 0:01:• 60 1 mg/I Ib/Day < 0.005 < 28 1 (7440-50-8)-" 7M. Lead, Total X < 2 < 12 1 ugn lb/Day < 2 < 11 1 7439.92-1 8M. Merary, Total X < 0.1 < 0.60 1 ug/I Ib/Day < 0.1 < 0.57 1 7439-97-6 9M. Nickel, Total X < 2 < 12 1 ug/I lb/Day < 2 < 11 1 7440.02-0 10M. Selenium. X < 1 < 6.0 1 ug/I Ib/Day 2.9 16 1 Total 7782-49-2 1.1McSINx jotab X all 2 pblg �� 1.2 - 1 ug/I Ib/.Day < 0.2 < 1.1 1 7440.22-4 12M. ThaRun, X < 0.06, < 361 1 mg/I lb/Day < 0.06 < 341 1 Total 7440.28-0 13N1: zinc; Total X Zp ( X0,02, -) 120 1 mg/I Ib/Day < ' 0.Q05 < 28 1 14M. Cyanide, X < ' 0.01 < 60 1 mg/I Ib/Day < 0.01 < 57 1 Total 57-12-5 15M.Phends, X < 0.01 < 60 1 - mg/I Ib/Day 0.08 454 1 Total DIOXIN 2,3,7.8 Tetra DESCRIBE RESULTS diorod@enxo P- X q2n 1764-01 6 _ EPA FOrM 3510-2C (ReV. 2-65) PAUL V-3 CONTINUE UN PAGE V-4 CONTINUED FROM PAGE V-3 1. POLLUTANT 2. MARK "X" AND CAS NO. a.re b.pro- c.ab a. MAXIMUM DAILY VALUE (n nvallable) qWr- sem sent if nveilable ed 1 ConeeMratlon 2 Mass GC/MS FRACTION -VOLATILE COMPOUNDS c. LONG TERM AVG. VALUE 1V.AcroWn X b. Mass a. LONG TERM AVG. VALUE < 2` < 12 107-02.8 2 Mass 1 Concentrntlon 2 Mess 1 Concentrntlan 2 Mass 2V. Aay" MieX < 3 < 16 107-131 3V. Benzene X 1 < 1 < 6.0 71-432 ` < 11 1 W. Bis (Chloro. 1 ug/I Ib/Day < 3 memyi) Ether 1 X X X (542-88.1 1 ug/I Ib/Day < 1 < 5.7 5v. Brornoforrn X ill Ml_ < 1 < 6.0 75-25-2 ug/I Ib/Day X X 1 6V. Carbon 1. Tetrnniorlde X < 1 < 5.7 < 1 < 6.0 235 1 ug/I CNorobenzene X < 5.7 1 < 1 < 6.0 -90-7Chlorod- L 1 ug/I Ib/Day < 1 < 5.7 1 onreemne X 1 ug/I < 1 < 6.0 Ether I X .I 1 1< 1 I< 6.0 EPA I.D. NUMBER (copy from Kern 1 of Forth 1) OUTFALL NUMBER Forth Approved OMB No. 2040.0088 NC0004R 001 Approved e*res7-31-88 ` 3. EFFLUENT 4. UNITS 5. INTAKE (optionao IMM DAY VALUE c. LONG TERM AVG. VALUE d No. of ANALYSES a. Conten- tration b. Mass a. LONG TERM AVG. VALUE d. NO. OF ANALYSES centratlon 2 Mass 1 Concentrntlon 2 Mess 1 Concentrntlan 2 Mass 1 ug/l Ib/Day < 2 < 11 1 1 ug/I Ib/Day < 3 < 17 1 1 ug/I Ib/Day < 1 < 5.7 1 ill Ml_ 1 ug/I Ib/Day X X 1 1. ug/I Ib/Day < 1 < 5.7 1 1 ug/I Ib/Day < 1 < 5.7 1 1 ug/I Ib/Day < 1 < 5.7 1 1 ug/I Ib/Day < 1 < 5.7 1 ug ay < 1< 1 ug/I Ib/Day < 1 < 5.7' 1 ug y < < cr,arlae 74-87-3 1 1 1 1 1• I I I I I I I W. I -".' r EPA Forth 3510.20 (Rev. 2-85) PAGE V-4 CONTINUE ON PAGE V3 0 ill Ml_ cr,arlae 74-87-3 1 1 1 1 1• I I I I I I I W. I -".' r EPA Forth 3510.20 (Rev. 2-85) PAGE V-4 CONTINUE ON PAGE V3 0 crA rorm.saurn: tnev..[-ao) PAGE V-0 CONTINUE ON PAGE V-6 LD. NUMBER (copy from Item 1 of Form 1) OUTFALL NUMBER Forth Approved CONTINUED FROM PAGE V-4 [EPA NC0004987 001 OMB No. 2040.0086 Approval mores 7-3148 ` 1. POLLUTANT 2. MARK "X" 3. EFFLUENT 4. UNITS 5. INTAKE (optional) AND CAS NO. aro- b.pre c.eb a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE c. LONG TERM AVG. VALUE a. LONG TERM AVG. VALUE (it available)_ qdr- sem sent if available if available if available d. NO. OF a. Concen- b. Mass d. NO. OF. 1 Concenbatlon 2 Mass II)Concentration 2 Mess 1 Concertratlon 2 Mass ed 1 Concentatlan 2 Mass ANALYSES tration ANALYSES GC/MS FRACTION -VOLATILE COMPOUNDS continu 22V. Methylene X < 1- < 6.0 1 ug/I Ib/Day < 1 < 5.7 1 Chloride 75-09-2 23V.1,1,2,2-Tetro- chloroetone 79-34-5 X < 1 < 6.0 1 ug/I Ib/Day < 1 < 5.7 1 24V.Tet-achloro- < <6.0 U ay < 1< e 127-1844 25V.ToUene < <15. uU y < < 10888-3 ' 26V.1,2-Trara- olworoet*m X < 1 < 6:0 1 ug/I Ib/Day < 1 < 5.7 1 156.60-5 . 27V.1,1,146- chloroethene X < 1 < 6.0 1 ug/I Ib/Day < 1 < 5.7 1 71-55.8 28V.1,1,2-Trl- chloro fine X -c 1 < 6.0 1 ug/I Ib/Day < _ 1 < 5.7 1 79.00-5 _ 29V.Tdchbro-< < u-Wray---< < ' 7s-ot-s 30V. TrlaVoro- tKwranearane X < 1 < 6.0 1 ug/I Ib/Day < 1 < 5.7 1 75.69-0 31V. VirrA X5.0 u y < 1 < Chloride 75-01-4 GC/MS FRACTION - ACID COMPOUNDS 1A.24Umophenol X < 10 -c 60 1 ug/I Ib/Day < 10 < 57 1 9557-8 2A 2,4-Dlchloro- < <60 U y < lu < phenol 120-83-2 _ 3A 2,4-D matt* _ <. < U y <10< - phenol 10"7-9 4A 4,6•DINto-O- < < U y < < Cresol 534-52-1 5A 2,4-Db9tro- < < u9 Y < < phenol 51-285 6A 2-NITophenol < - < - U y < < - 88-75-5 7A 4•NVophenoi < <60 1 U y < 10 < 100.02-7 8A P-cho m- 1- U y 10 < Cresol 59.50-7 - 9A. Penladity- < - < Ug y < < . 87-86-5 ICA Phenol <.10< - - ug ay 108-95-2 11A 2,4,6.Trl- chwropheral X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 88-06 2 ` crA rorm.saurn: tnev..[-ao) PAGE V-0 CONTINUE ON PAGE V-6 NOTE -15 THS compo" cannot be 8=98" quantitated using EPA Mettrod 625: reported concentrations should be regarded as approcimations. 'NOTE 2:i Compound also Identhled In Laboratory Blank EPA I.D. NUMBER (copy from Rem 1 of Fort 1) OUTFALL NUMBER Form Approved CONTINUED FROM PAGE V-5 —NC0004987001 OMS No, 2040-0086 Approval expires 7-31.88 1. POLLUTANT 2. MARK "X" 3. EFFLUENT 4. UNITS 5. INTAKE (optional) AND CAS NO. afrd b.pre c.ab. a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE c. LONG TERM AVG, VALUE a. LONG TERM AVG. VALUE (if available) q sBrrt nerd tfavaikbb if available If available d. NO. OF a. Conan- b. Mass d. NO. OF 1 Concentration 2 Mass 1 Concentration 2 Mass 1 Concentration 2 Mass 1 Concentration 2 Mass ANALYSES tration ANALYSES GC/MS FRACTION - BASE NEUTRAL COMPOUNDS 1B.Acermpldherb < < U y < < a3 -3z -s 2B.AcemThWre < < 60 1 U y < lu< 208-96-8 3B. Anthracene < < U y <10 < 57 (120-12-7 4B. Benzidine < < U ay < < 92-87-5 WOIE1 NOTE 1 5B. Benzo SO r (a) X < 10 < 60 1 Ug/I Ib/Day < 10 < 57 1 6B. Benzo (a) < < ug ay 10 < ane 5032-8 7B. 3,4-Benzo- woranthene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 205.99-z 8B. Benzo (gN) < 10 < 60Ug y < < P 191-24-2 9B. Benzo (k) Fluoranthene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 207.08-9 IOB. Bis (243ioro- attwxM) Methene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 111-91-1 11 B. Bis (z-CHoro• �) X < 10 < 60 1 ug/I Ib/Day < 10 < 57 - 1 444) 12B.Bls (2-CWordso- p ;ter X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 13B. Ella (2 -Ethyl rehalnte hexyl)1 X 389 229 ug/I Ib/Day 17 97 1 1811--7 117- (1i- Note 2� Note2 14B. 4•Bromo- tot X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 15B. Butyl Benny < 10< -60 1 U y < • < Phthalate 85Z&7 168.2-ChWo• naphmelene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 61-5&7 17B. 4-CHoro- phenyl M" X < 10 < 60 1 ug/I Ib/Day < 10 2 57 1 Ether 7005-723 18B.Chrysene <10 < 60 1 U y 218-01-9 19B. Dlbenzo (a,h) AnRrscene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 53.70.3 208.1,2-Dichtoro- < < ug y < 10 < benzene 95-50.1' 218.1,3-DlWoro- < < Ug y < < benzene 541-73 1 EPA Form 35%.2C rRev_ 2-A51 NOTE -15 THS compo" cannot be 8=98" quantitated using EPA Mettrod 625: reported concentrations should be regarded as approcimations. 'NOTE 2:i Compound also Identhled In Laboratory Blank EPA I.D. NUMBER (copy tom Item 1 of Form 1) OUTFALL NUMBER Form Approved CONTINUED FROM PAGE V-6 NC0004987 0� 01 A rovelemlAre�s7-31-88 1. POLLUTANT 2. MARK'X' 3. EFFLUENT 4. UNITS 5. INTAKE o lona AND CAS ate. b.pre- c.ab- a. MAXIMUM DAILY VALUE 'b. MAXIMUM 30 DAY VALUE c. LONG TERM AVG. VALUE a. LONG TERM AVG. VALUE sErm sent if available If available B available d. NO. OF B. Concen- b. Mass d. NO. OF 1 Concentration 2 Mess 1 Concentration 2 Mass 1 Cwcentratlon 2 Mass 1 Concentration 2 Mass ad ANALYSES tration ANALYSES GC/MS FRACTION - BASE/NEUTRAL COMPOUNDS (continued) 228.1,4-Dlworo X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 benzene 106-46-7 23B. 3Did*wo- benzl3t X < : 10 < 60 1 ugn Ib/Day < 10 < 57 1 91-941 248. Dietfryl Ptmhelate X < 10 < 60 11- ug/I Ib/Day < 10 < 57 1 8466-z Ptmfblete X < 10 < 60 1 - Ug/I Ib/Day < 10. < 57 1 131-11-3 26B. DI -N -DN Ph7ialate X < 10 r 60 - 1 ug/I Ib/Day < 10 -< 57 1 84742 279.2,4Dlritr0- X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 tobene 121-142 28B.2,6Dlnitro- X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 tohmne 60620.2 4ztteµOCy X < 10. < 60 1 Ug/I Ib/Day < 10 < 57 1 117-84-0 302napso-hydr n X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 benzene 122-667 31B, Fktoramhenm X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 z06aa o 32B.Fborene X < -10 < 60 - 1 - ug/I Ib/Day < 10 < 57 1 (8673.7 33B. HexacNoro- X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 benzene 116741 34B. Hexa- dyorobutadlens X < 10 < 60 1 ' ug/I Ib/Day < 10 < 57 1 87-68 3 chWo- cycloperoaene X < 10 < 60 1 ug/I Ib/Day. < 10 < 57 1 77-474 36B. Hwmd*ro- X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 ethane 67-72-1 37B.Indeno 1,2,3 w) Pyrene 11s3-39.5 X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 38B.Isophmm X < 10 < 60 1 ug/I Ib/Day. < 10 < 57 1 7659-1 39B. Naphthalene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 91-20-3 408. Nitrobenzene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 98 953 418. N -Wo. sodmefTywdrb X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 62-75-9 42B. N-Nftsod- - X < 10 < 60 1 ug/I Ib/Day < 10 < -57 1 s21Mna EPA Forth 3510-2C (Rev. 2-85) - PAGE V-7 CONTINUE ON PAGE V-8 EPR ram soiw,,u (hey. [-ao) PAGE V-8 CONTINUE ON PAGE V-9 EPA I.D. NUMBER (copyfromItem 1 of Form 1) OUTFALL NUMBER Form Approved OMB No. 2040-0086 CONTINUED FROM PAGE V-7 NC0004987 OD1 Approval mores? -31-88 1. POLLUTANT 2. MARK'X' 3. EFFLUENT 4. UNITS 5. INTAKE (optional) ANpp CAS NO. (it available) e:re q b.pro sam c.ab- sam a, M IMUM DAILY VALUE b. M IMUM 30'DAY VALUE A evaitelile If available C. LONG TE M AVG. VALUE H avatlaL _ d..NO. OF a. COnC6�- b. Md55 a. LONG TERM AVG. VALUE -d. NO. OF 1 Concentration 2 Masa 1 Concentration 2 Mass 1 Concentrallon 2 Mass ed ANALYSES tration 1 Concentralon 2 Mass ANALYSES GC/MS FRACTION - BASE/NEUTRAL COM UNDS(continued) 43B. N -Nitro- - - - sodowaylardne s6-30.6 X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 448. Phenanthrene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 85-01-8 458. Pyrene X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 129-00.0 46B.1,2,446- chbrobenz- X < 10 < 60 1 ug/I Ib/Day < 10 < 57 1 120-82-1 GC/MS FRACTION - PESTICIDES 1 P. Altrin X 309-oaz 2P. alpha -BHC X (3194 6 3P. beta -BHC X 315-85.7 ' 4P. gamma -BHC X 58.89-9 5P. delta -BHC X 319.86.8 612. CHordane X 57-749 7P. 4,4' -DDT X 50-29-3 8P. 4,4' -DDE X 72-55-9 912.4,4 -DDD X 72-54$ . 1012. DlelAin X 60.57-1 11P.a0ha-Endosulfan X 115-29.7 12P. beta-Erdosrilan X 115-29.7 - 13P. Endosutfan - - Srlfate X 1031-07-8 14P. Endrin X 72-20-8 15P. Endrin Alcle" X 74211-93.4 16P. Heptedior X 76.44-8 EPR ram soiw,,u (hey. [-ao) PAGE V-8 CONTINUE ON PAGE V-9 r� % .a.. p YAur V-9 EPA I.D. NUMBER (copy from Rem 1 of Form 1) OUTFALL NUMBER Form Approved OMB No. 2040-0086 CONTINUED FROM PAGE V-8 NC0004987 001 appra+ai e)#res 71-88 1. POLLUTANT 2. MARK "r 3. EFFLUENT 4. UNITS 5. INTAKE (optional) AN CAS NO. (d available) a.re- quU- b.pre serR c.eb- serit a. M IMU�A DAILY VALUE If avaim b. M IMUM 30 DAY VALUE available c. LO G �F� M AVG. VALUE eva la a d. NO. OF a. Concen- b. Mass a. LONG TERM AVG. VALUE d. NO. OF 1 C centratlon 2 Mass 1 Concerftlon 2 Mass 1 Ooneentralon 2 Mass 1 Concenlmton 2 Mass ed ANALYSES tration ANALYSES GC/MS FRACTION - PESTI ' 17P. Heptachlor Epo)dde x 1024-57-3 18P. PCB -1242 x 53469-21-9 19P. PCB -1254 x 11097-69.1 20P. PCB -1221 x 1110428-2 21 P.PCB•1232 x 11141-165 22P. PCB -1248 x 12672-29-6 23P. PCB -1260 x 11096-82-5 24P. PCB -1016 x 1267411-2 25P.Tozaphens x 8001-35-2 r� % .a.. p YAur V-9 PLEASE PRINT OR TYPE IN THE UNSHADED AREAS ONLY. You may report some or all of this information on separate sheets (use the same format) Instead of completing these pages. SEE INSTRUCTIONS EPA I.D. NUMBER (copy from Item 1 of Form 1) 1 FormApprwad OMB No. 2040-0086 Nrnf)f)49R7 V. INTAKE AND EFFLUENT CHARACTERISTICS (continued from page 3 of Form 2-C) \'e�i'iti`+ •yG\`'{ti`Z'k : OUTFALL NO. j PART A -You must Provide the results of at least one analysis for every pollutant in this table. Complete one table for each outfall. See instructions for additional details. ` 2. EFFLUENT 3. UNITS - 4. INTAKE o ions 1. POLLUTANT a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE c. LONG TERM AVG, VALUE a. LONGTERM AVG. VALUE H evadable if available d. NO. OF a. Concert• b. Mass b. NO. OF 1 Concentration 2 Mass 1 Concentration 2 Mass 1 Concentration 2 Mass 7 Concenbalort 2 Mess ANALYSES tration ANALYSES a. Biodwnical Oxygen L0v 50 1 mg/I IWDay 1 5677 1 Demand BOD.. b. Chemcal Oxygen < 10 < 630 1 mg/l Ib/Day 12 68125 1 Demand COD c. Total Organic 4.2 265 1 mg/I Ib/Day 0.97 5507 1 Carbon TOC d. Total SuTended 5 315 11.3 571 7.32 297 69 mg/I Ib/Day 5 28386 1 Sords TSS e. Ammonia (as N) < 0.05 < 3.2 1 mgfl Ib/Day 0.12 681 1 I. Flow VALUE VALUE VALUE MGD X VALUE 7.55 6.05 4.86, 127 CR 680.3 365 g.' entperature VALUE VALUE VALUE VALUE "A"t bEGREES CELSIUS h.7emperature VALUE VALUE VALUE VALUE surmer 26.1 DEGREES CELSIUS 20.3 1 L pH MINIMUM MAXIMUM. MINIMUM MAXIMUM + 4' �� \�� ' ' �`\\� \ MINI 6.9T a� NOIRE 1 STANDARD UNITS PART B - Mark 'X' In column 2a for each pollutant you know or have reason to believe is present. Mark W in column 2b for each pollutant you believe to be absent. If you mark column 2a for any pollutant which Is limited either directly or indirectly but expressly in an effluent limitations guideline, you must provide the results of at least one analysis for that pollutant. For other pollutants for which you mark column 2a, you must provide quantitative data or an explanation of their presence In your discharge. Complete one table for each outfall. See the Instructions for additional details and requirements. 1. POLLUTANTLZMAIRKW 2. EFFLUENT 3. UNITS 4. INTAKE o ionaAND CAS. NO, b.ab• a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE c. LONG TERM AVG. VALUE a. LONG TERM AVG. VALUE(If avallable) If available If available d. NO" OF e. Concen• b. Masa b. NO.OF 1 Concentration Masa 1 Concentration 2 Mass 7 Concentration 2 Mass f Concentration 2 Mass send ANALYSES tration ANALYSES e. Brornide X < 0.8 < s0 1 mg/I Ib/Day < 0.8 < 4542 1 24959.67-9 b. Chlorine, X < 0.1 < 6.3 1 mg/l Ib/Day < 0.1 < 568 1 Total Residual, c. Color X < 5 X 1 Std. Units X 30 X 1 d. Fecal X 5 X 1 Colonies X < 2 X 1 Coliform /100 ml e. Floudde X 0.25 16 1 mg/I Ib/Day < 0.1 < 568 1 16984-415-8 - ' f. Nitrate X < 0.05 < . 3.2 1 mg/I Ib/Day 0.26 1476. 1 Ndrite es N :j EPAI--1-51n-'>r1$2o 7-151 CONTINUE ON PAGE V-2 EPA rortn zbiv-2u jKev.2-=) YAUh V-2 CONTINUE ON PAGE V-3 EPA I.D. NUMBER (copyfrom Item 1 of Form 1) OUTFALL NUMBER Forth Approved ITEM V-13 CONTINUED FROM FRONT NC0004987 002 AA�ovaiwores 7 -361 -aa 1. POLLUTANT 2.MARK W I 3. EFFLUENT 3. UNITS 4. INTAKE o tion AN(Da CAS a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE a LONG TSF M AVG. VALUE a. LONG TERM AVG. VALUE IeNO. ® pro- b.ab d avalleble eve d. NO. OF a. Concert- b. Mass b. NO. OF 1 Concentration 2 Mass Corceatlon 1 ntr 2 Mass 1 Concentration 2 Mass 1 concentration 2 Mass sent sent ANALYSES Craton ANALYSES 9 N n Tofel Orga X < 0.1 < 6.3 1 mg/I Ib/Day 0.35 1987 1 Nc h. Oil and Grease X < 0.1 < 6.3 0.85 43 0.23 9.3 28 mg/I Ib/Day < 0.1 < 568 1 L Phosphorouss P1 X 0.006 0.4 0.01 0.4 12 mg/I Ib/Day 0.03 170 1 11� 1. Redioa ty (1)t Total X < 0.42 X 1 pCi/I X < 1 X 1 (2) Notal X 3.3 X 1 Pcul X 2.2 x 1 (3) RadiTotal X... <. 1 X 1 pCUI X < 1 X 1 (4) R 226 Total X < 1 X 1 PCUI X < 1 X 1 V sutlete X =85�? 5355 1 - mg/I - Ib/Day 7.7 43714 1 laaosO4 I. sulfide (ass) X < 1 < 63 1 mg/I Ib/Day < 1 < 5677 1 m. Sulfite (as X < 0.2 < 13 1 - mg/1 Ib/Day < 0.2 < 1135 1 1426SOso3)N - n. Surtactants X < 0.1 < 6.3 1 mg/I Ib/Day < 0.1 < 568 1 o. Ahartirwart, Toter X 4022�, 14 1 mg/I Ib/Day 0.05 284 1 7424945 p.Total V" X G0491 5.7 1 mg/I Ib/Day 0.02 114 1 7440.343 q. Boron, ohd X 0.38 24 1 mg/I Ib/Day 0.27 1533 1 7440 42 8 r. Cobalt Total X < 0.01 < 0.6 1 mg/I Ib/Day < 0.01 < 57 "1 7440-48-4 s. Iron, Total (7439 -as -s) X 0;08, 5.0 0.31 13 29 mg/I Ib/Day 0.22 1249 1 t Magnesl �, X r 3:8� 239 1 mg/I Ib/Day 1.4 7948 1 743495-0 u' Mol" n, X < 0.02 < 1.3 1 mg/I Ib/Day < 0.02 < 114 1 743498-7 Y. Manganese, Total �' X 8-.-7:;, 11 1 mg/I Ib/Day 0.47 2668 1 7434965 w. Tin, Total (7440-31-5) X <. 0.04 < 2.5 1 mg/I Ib/Day < 0.04 < 227 1 x TltaMum, TZ X < 0.01 < 0.6 1 mg/I Ib/Day < 0.01 < 57 1 7440 3z s EPA rortn zbiv-2u jKev.2-=) YAUh V-2 CONTINUE ON PAGE V-3 er. n r•onn zolu-zu (Rev. z-na) PAGE V-3 CONTINUE ON PAGE V-4 EPA I.D. NUMBER (copy,frorn Item 1 of Form 1) OUTFALL NUMBER Form Approved OMB No. 2040-0086 CONTINUED FROM PAGE 3 OF FORM 2-C NC0004987 002 Approval wores7.31.88 PART C - If you are a primary industry and this outfall contains process wastewater, refer to Table 2c-2 in the instructions to determine which of the GC/MS fractions you must test for. Mark -X- in column 2-a for all such GC/MS fractions that appy to your Industry and for ALL toxic metals, cyanides, and total phenols. If you are not required to mark column 2-a (secondary industries, nonprocess wastewater outfalls, and nonrequired GC/MS fractions), mark X- in column 2-b for each pollutant you know or have reason to believe is present. Mark -X- in column 2-c for each pollutant you believe is absent. If you mark column 2a for any pollutant,, you must provide the results of at least one analysis for that pollutant. If you mark column 2b for any pollutant, you must provide the results of at least one analysis for that pollutant If you know or have reason to believe it will be discharged In concentrations of 10 ppb or greater. If you mark column 2b for acrolein, acrylonitrile, 2, 4 dinkrophenol, or 2 -methyl -4, 6 dinitrophenol, you must provide the results of at least one analysis for each of these pollutants which you know or have reason to believe that you discharge in concentrations of 100 ppb or greater. Otherwise, for pollutants for which you mark column 2b, you must either submit at least one analysis or briefly describe the reasons the pollutant is expected to be discharged. Note that there are 7 pages to this part; please review each carefully. Complete one table (all 7 pages) for each outfall. See instructions for additional details and requirements. 1. POLLUTANT 2. MARK -X73. EFFLUENT 4. UNITS 5. INTAKE (optional) AN p CAS NO.. e.re b.pro- c.ab- a. MAX1 M DAILY VALUE b. MAIXIMUM 30 DAY VALUE c. LO. G TERM AVG. VALUE a. LONG TERM AVG. VALUE (F available) qulr- sertt sent H evai tie available d eve la d. NO. OF a. Concen- b. Mass d. NO. OF 1 CorMentratlon 2 Mess 1 Concentration 2 Mesa 1 Concentration 2 Mess 2 Mess ed ANALYSES trdtl0n ANALYSES, METALS CYANIDE AND TOTAL PHENOLS 1M.Antlmory, X < 1 < 0.06 1 ug/I Ib/Day n5.9 < 5.7 1 Total 7440.36-0 2M. Arsedc, Total X < 1 < 0.06 10 0.41 24 ug/I Ib/Day 33 1 (7440-38-2) 3M. Beryllium. X < 5 < 0.32 1 ug/I Ib/Day < 5 < 28 1 Total 744041-7 4M. Cadmium, X 0btA 114616 CO.V 0.01 ug/I Ib/Day 0.14 0.79 1 Total 7440-43-9 ! 5M. CtrorNum, X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 Total (74406-47-3) . 6M. Copper.. Total.. - X < 0.005 < - 0.32. - - 0.08 3.24 29 mg/I Ib/Day < 0.005 < 28 1 . 7440508 7M. Lead, Total X < 2 < 0.13 1 ug/I Ib/Day < 2 < 11 1 7439.92-1 8M. Mercury, Total X < 0.1 < 0.01 1 ug/I Ib/Day < 0.1 < 0.57 1 7439.97-6 sM. Nldcel, Total X 0.29 ugn lb/Day < 2 < 11 1 7440-02-0 '�L 10M.Selerrlum, ` X Arta abler c:L-41--' 0.09 X3:2e 0.13 24 cug/P Ib/Day 2.9 16 1 Total 7782-49-2 '10 4 11 M. Silver, Total X < 0.2 < 0.01 1 ug/I lb/Day < 0.2 < 1.1 1• 7440-224 12M. Thallium, X < 0.06 < 3.8 1 mg/I Ib/Day < 0.06 < 341 1 Total 7440.28-0 13M.Zinc, Total X rollo� Abl <O)0.01' 0.63 (�gu) 0.03 1.22 mg/I Ib/Day < 0.005 <, 28 1 7440-66-6 `I0 �%'17� 14M. Cyanide, X < 0.01 < 0.63 1 mg/I lb/Day < 0.01 < 57 1 Total 57-12-5 • 15M.Phenols, - X _ . - < 0.01 < 0.6 - -1 mg/I -Ib/Day - 0.08 454 1 Total DIE -_: DESCRIBE RESULTS X4-01-6 er. n r•onn zolu-zu (Rev. z-na) PAGE V-3 CONTINUE ON PAGE V-4 EPA Form 3510-2C (Rev. 2-85) - PAGE V-4 CONTINUE ON PAGE V-5 EPA I.D. NUMBER (eon from Item 1 of Form.1)OUTFALL NUMBER Forth Approved OMB No:2040.0088 CONTINUED FROM PAGE V-3 NC0004987 002 Approval expires 7-31-M ` 1. POLLUTANT 2. MARK'X" 3. EFFLUENT 4. UNITS 5. INTAKE (optlonaO AND CAS NO. e.w b.pro- C.ab• a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE C. LONG TERM AVG. VALUE a. LONGTERM AVG. VALUE (if available) quir- sam sent H evailebb - H aveilede H evelleble d. NO. OF a, Concen- b. Mass d. NO. OF 1 Concentration _.2 Mass 1 Concentratlon 2 Mass 1 Coneentralon 2 Mass ad 1 Concentration 2 Mass ANALYSES tfatlon ANALYSES GC/MS FRACTION - VOLATILE COMPOUNDS 1V.AcmWn X < 2 < 0.13 1 ug/I Ib/Day < 2 < 11 1 107-02-8 2v..Acylonimb X < 3 < 0.19 1 ug/I Ib(Day < 3 < 17 1 107-13-1 3v. Benzene X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 Z1-43-2 W. Bis (Chloro- - MOW) Ether X X X 1 Ug/I Ib/Day X X 1 54241&1 5V. Bromoform X < 1 < 0.06 1 Ug/I Ib/Day < 1 < 5.7 1 75-25-2 6V. Carbon Tetrachloride X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 56.235 TV. Chlorobenzene X < 1 4 0.06 1 ug/l Ib/Day < 1 < 5.7 1 108.90-7 8V. Chlorodl- . brornornetirane X 0:06.. 1 ug/l Ib/Day < 1 < 5.7 1 124-111 - 9V :.Chloroethane < - <...0.05 u _ ay 75.00-3 10V..24;Fdoro- - .... _ ... dwryt Ether X < 1 < 0.06 1 Ug/I Ib/Day < 1 < 5.7 1 � 10-75-B 11y. Chloroform < < U y < < s7-66-3 12V. Dichloro- brornornetrbne X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 T5-27-4 13V. Didiloro. diflumornalhane. X < 1 < 0.06 1 ug/l • Ib/Day < 1 < 5.7 1 75.51-8 14V.1,14Didito. 1<O.Oti I Ug y -c <0.1 ethane 75-34-3 15V.1,2-Didiloro- < < U y 1 5.7 ethane 1074)6-2 16V.1.1-DldVoro- x < U y 7Z < 7535.4 17V.1,2-Diddao < < U y < < propane 78.87-5 18V.1,3-Dld to. < <0.05 1 U ay 1< Kopoem 542-75 8 19V. Eftobenzene. < < U y < <5.7 100-41-4 20V. Methyl < < ug y - <--T-Bromide 74-539 21V. Methyl < < Ug y < < Chloride 74-87-3 EPA Form 3510-2C (Rev. 2-85) - PAGE V-4 CONTINUE ON PAGE V-5 -, - %^ -, rpA r v -o CONTINUE ON PAGE V-6 EPA LD. BER (copy nem 1 of Form 1) OUTFALL NUMBER Form Approved CONTINUED FROM PAGE V-4 NC0004987 002. AAmoNo. wplrees7-31-88 1. POLLUTANT 2. MARK W 3. EFFLUENT 4. UNITS 5. INTAKE (optional) AND CAS NO. a.re gg. c.ab. a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE c: LONG ERM AVG. VALUE a. LONG TERM AVG. VALUE (n available) or- s rb rt I serA (if available) n available) n a.,bia d. NO. OF .H. COnCOn- b. Mass 4 NO. OF Imcacentalon (2) Mass (1) Concentrason 10 Masa 1 Concentration 2 Mass ed 1 (1) Concentralon Im Mass ANALYSES tratlon ANALYSES GC/MS FRACTION - VOLATILE COMPOUNDS continu 22V. McBrykne X < 1 < 0.06 1 ug/I WDay < 1 < 5.7 1 CtWde 75-09-2 23V.1.1.2,2 -Tata-- diaoearane X < 1 < 0.06 1 ug/I Ib1Day < 1 < 5.7 1 7934-5 24V. Te"cMao• < < ug ay < < e 127-18-4 2`Y,ToWene < < U y < < 10&88-3 26V. 1,2 -Trans oldhioroeuMene X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 156-645 27V. 1,1,1-Trl- chbroemene X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 11 71-55-s - 'I 28V. 1,1,2 -Tri- dkroethane X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 79-045 -1 29V.TrIchWo. < < - __ u y < 1- < e 79-01-6 30V. Trldioro- - 1Woromemene X < 1 < 0.06 1 ug/I Ib/Day < 1 < 5.7 1 75-69-4 31V. Virro < < 0.06 1 ug y < I < Chloride 75-01-4 GC/MS FRACTION -ACID COMPOUNDS IA.2-Chimopheral X < 10 < 0.63 1 ug/I Ib/Day < 10 < 57 1 95-57-8 2A. 2,4-Dfdftv- < < ug y < < phenol 120.832 3A 2.4-Dlmet * < < - _ _ - ug ay. <. < 4A4,6aMo-O- _ < < - .. ug ay < 10 < Cresoi534-52-1 5A 2,4-OlWo- 10< u9 y < < 57 1 owid 51-28-5 6A 2-NWopheW < < ug-TgUay < < 88.75.5 7A 4-NWopheW c < 0.63 1 U y 10< (100-02-7 -. 8A P-ChWo-M- - < < - ug ay < 10 < Cresol 59.547 9A Peftchbro- - < - < - ug/Iay < _ .< phenol 87-86.5 1 OA Phenol - < < 108.95-2 11A.2,4,6•TrF - - ddorophendX <' 10 < 0.63 1 ug/I Ib/Day < 10 < 57 1 88-06.2 -, - %^ -, rpA r v -o CONTINUE ON PAGE V-6 _ EPAi.D. NUMBER (copy from item l of Form 1) OUTFALL NUMBER Form Approved CONTINUED FROM PAGE V-5 NC0004987 002 OMB No. 20404M � Approval wplres 731-88 1. POLLUTANT 2. MARK'X" 3. EFFLUENT 4. UNITS 5. INTAKE (optional) AND CAS NO. aro- b. e.etr a. MAXIMUM DAILY VALUE b. MAXIMUM 30 DAY VALUE c. LONG TERM G. VALUE a. LONG TERM AVG. VALUE In available) qulr- sem sent If available if available If avallable dNO.OF a. Concen- b - Mass d.NO. OF 1 (1) Coneen atlon 2 Mass 1 Concentration 2 Men 1 C^^--entrallM 2 Mass i Concentdon '2 Mess ed- _ - --__ ANALYSES tration ANALYSES GC/MS FRACTION - BASE NEUTRAL COMPOUNDS 1B.Aceneptdheae c10 u y < 10< -9 2B. Acenaphtylene X, 0.63 lb/Day < 10< 208.96-8 3B.Amhrecene < < U y < < ' 120-12-7 92 87-5 - NOTE 1NOTE 1 5B. Benzo (a) Waccrne X < 10� --c < 0.63 - 1 ug/I Ib/Day - < 10 < 56.8 1 6B. Benzo (a) - -U y < < 50-32-8 7B. 3,4 -Benzo - X < 10 < 0;63 1 ug/1 Ib/Day < 10 < 56.8 1 zo5.9s-z 8B.Benzo (gN) 10 < 0.631 U ay < 1 0 < 56.8 1 P 191-24-2 9B.Benzo (k) - - - Ftuorana>ene X < 10 < 0,63 1 ug/I Ib/Day < 10 < 56.8 1 207-08.9 10B. Bis (2-ChWo. - - -. - etfaxvl)Methene X < 10 < 0.63 1 ug/I Ib/Day < 10 < 56.8 1 t t t-91-1 11 B. Bis (2 -Chloro- - - - - M) X < 10 < 0,63 1 ug/I Ib/Day < 10 < 56.8 1 12B.Bls (2-CNordso- (plM.2 1her X < 10 < 0,63 1 ug/I Ib/Day < 10 < 56.8 1 13B. Bis (2-Ef* - - hexyl) Phehalate, X 19 1.2 1 ug/I Ib/Day 17 96.5 1 11 81-7 Note -2a Note 2 4-Bromo. o144B.. Emer 101- X < 10 < 0.63 1 Ug/I Ib/Day < 10 < 56.8 1 15B. Butyl Benzyl < < y < < , Phthalate(8"S-7)U 16B.2-CHoro--- - naphtt leve X < 10 < 0.63 1 ug/I Ib/Day < 10 < 56.8 1 91-58-7 178.4-ChWo-' ph" PherM X < 10 < 0,63 1 ug/I Ib/Day < 10 < 56.8 1 Ether 7005-72- 18B.Chrysene <10 < u9 y < <55.5 1 218-01-9 19B. Dlbenzo (a,h) An racene X < 10 < 0,63 1 ug/I Ib/Day < 10 < 56.8 1 5370.3 208.1,2-Dichloro. <10 < 0.63 Ug y < 10 < PIS9550-1 218.1,3DIchh < < Ug y < < benzene 541.731 EPA Form-MWLIA:(Rau 9.A51 NOTE t: This compound cannot be accurately quantitated using EPA Method 625 ;CONTINUE ON PAGE V-7 reported torxentrntlans should be regarded as epprodmatlons. NOTE 2: Compound also Identified in Laboratory Blank" ' fll A s ��N m T A N m A O Q' m W b m (� m W co Ol Oo' tT m y m gig Q (W� m W ¢ N Y' m W Oo J_Nz0 p W R O Ql N fD v m N ~ O� W N �I Go. N� ¢¢ m Ym N U¢¢ �� N A Y� N W �m m G/ (� Z 0 Q Z Z Z Gt (J L• ffGuul. b.. - �'C P f N8T�>0 _I 3 3 -S g B° JJ N a 8 mQ q—. 11�114 N4 4 gQga�l�12 �D orm r r Z ya IZD 7 T'QNN �+ -1 T 0 T W � Dco Ln z ^ a q X m < X X X X X X' X X X X X X X X X X X X X X X A n A A A n A A A A A A A A A A A A A n A �� m 01 K O _ O O _ _ 'C _ O _ O _ O. O _ O _ O O O O O O- O O J O O • J O 0 6 C O lwc O D A A A- A A A A A A A A A A- A A A A A A A A g N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0R m c w rn IM a m� -n o D z m C m -i ."O .. N G Z ol m o .p st� p V r 33 8 .A aa�Rz 3 om I � G O N. v c c m � J J J J ► J J J J � �.. J J J f`N O m C C C C G C C C G C C C C C C C C C C 1C C A Z Q A A A A A A A A A A A A A A A A A A A` A A d r Z N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 m> M 3 G A m OT A A A A n A A A A A A A A A A A A A A A A N u G) O m d ^o v CQ4 Q4 v `�{' `.i' v �.i v v Q4 m _w nzy P z O y rAae V -a CONTINUE ON PAGE V-9 EPA I.D. NUMBER (copyfrom Item 1 of Form 1) OUTFALL NUMBER Form Approved OMB No. 2040-0086 CONTINUED FROM PAGE V-7 NC0004987 002 Approval e�Ires 7-31-88 1. POLLUTANT 2. MARK "X" 3. EFFLUENT 4. UNITS 5. INTAKE o lona AN CAS NO. a.re D.pro- e.ab a. IMAM DAILY VALUE b. MP CIMU�IA 30 DAY VALUE c. LOf�G TFIjM AVG.'VALUE a. LONG TERM AVG. VALUE (Navalleble) quit- sorrt sent evel tris avails lel _- -- -- - - - ! eve la d. NO. OF a. Concen- b. Mass d NO.OF 1 Concentration 2 Mass 1 CorKentration 2 Mass 1 Concentralon 2 Mass ad 1 C rAntratlon 2 Mass ANALYSES tration ANALYSES GC/MS FRACTION - BASE/NEUTRAL COMPOUNDS continue 43B. N-Nitro- - soaphenytamne X < 10 < 0.63 1 ug/I Ib/Day < 10 < 57 1 86-306 44B. Pherantlrera X < 10 < 0.63 1 ug/I Ib/Day < 10 < 57 1 (85-01-8 45B. Pyrene X < 10 < 0.63 1 ug/1 Ib/Day < 10 < 57 1 129.00-0 46B. 1,2,4-Trl- chlorobenzene x10 < 0.63 1 ug/I Ib/Day < 10 < 57 1 tzo-a2-1 GC/MS FRACTION - PESTICIDES 1 P. AkHn X 309-002 2P. aWia-BHC X 319-84-0 3P. beta -BHC X 315-857 4P. gamma -BHC X 58-89.9 5P, Jetta -BHC X 319-86 8 6P. Chlordara X - 57-74-9 7P. 4,4' -DDT X - 5029 -3 8P.4,4' -DDE X 72-559 9P. DD X 72-54 8 1OP. Dieldrin X 6057-1 11P.alptm-Endow0an X 11529-7 12P. beta-Endosulfan X (11529-7 13P. Eridosulfan - Sulfate X , 1031-07-8 14P. Endrin X 72-20-8 15P. Endrin Aldehyde X _ 7421-93-4 16P. Heptachlor X 76.44-8 rAae V -a CONTINUE ON PAGE V-9 EPA I.D. NUMBER (copy from Rem 1 o1 Form 1) OUTFALL NUMBER Fero Approved OMB No. 2040-0086 CONTINUED FROM PAGE V-8 N00004987 002 AppvMeWres7-31.88 1. ,POLLUTANT 2. MARK"X" 3. EFFLUENT 4. UNITS 5. INTAKE o Iona AN(9 CA NO. a.re- qdr- b.pro- sorrt C.ab- Sant a. MI( IMV DAILY VALUE avaf --1(2 b. M IMU11130 DAY VALUE ava118 C. LO G TF M G. VALUE ava I d. NO. OF a. ConC6n- b.. Mass a. LONG TERM AVG. VALUE d.. NO. OF )Mass 1 Corcentralon 2 Mass 1 Concentraton (2),Mass f 1 Concentraton 2 Mass ad ANALYSES tration ANALYSES GC/MS FRACTION - PESTI ' 17P. HeptaWor Epo)dde X 1024-57-3 18P. PCB 1242 X 53469.21-9 19P.:PCB-1254 X 11097-69.1 20P. PCB -1221 X 11164-28.2 21P. PCB -1232 X 11141-16-5 - 22P. PCB -1248 X 12672-29-6 23P. PCB -1260 X - - 11096-82-5 24P. PCB -1016 ' X 12674-11-2 25P. Toxaphene X 8001-35-2 -- FUEL • UNLOADING AREA -, /, a KV L ITCHYARD / FUEL STORAGE TANK o OIL TRAP. TANK O \ POWERHOUSE 001 DISCHARGE o o o �� I CANAL 003 LAKE NORMAN L E G E N D DISCHARGE POINTS 500 0 500 1000 SCALE IN FEET 44 KV SWITCHYARD NPOES DISCHARGE POINTS OUTFALL DISCHARGE NO. IDENTIFICATION 001 ONCE THROUGH NON—CONTACT COOLING WATER DISCHARGE 002 ASH BASIN DISCHARGE rA„A., I.D. FAN CONTROL_ HOUSE_ N COAL YARD DUKE POWER COMPANY MARSHALL STEAM STATION NPDES DISCHARGE POINTS PERMIT NO . NCOOP 4987 NPDES Supplemental Information for Marshall Steam Station • NC #0004987 Permit Renewal Application December 15, 1994 Page 1 of 23 General Information Marshall Steam Station (MSS) is a coal-fired electric generating plant operated by Duke Power Company. MSS is located on Lake Norman at NC 150 six miles west of 1-77 in Catawba County near Terrell, North Carolina. The station derives its name from E.C. Marshall, President of Duke Power from 1949 to 1953. MSS is the second largest coal -burning station on the Duke system. The four unit facility has consistently ranked as one of the most efficient coal plants in the nation. MSS Units 1 and 2, which began operation in 1965 and 1966, can generate 385,000 kilowatts of electricity each. Units 3 and 4.were completed in 1969 and 1970. Each has a generating capacity of 660,000 kilowatts. When operating at full power, the station sends more than 2 million kilowatts of electricity over transmission lines to homes, schools, businesses and industries of the Piedmont Carolinas. Duke Power created Lake Norman in 1963 when it dammed up the Catawba River for Cowans Ford Hydroelectric Station. The lake supplies cooling water for MSS and McGuire Nuclear Station located about 11 miles downstream. An index to system descriptions and a line drawing showing the water flow through MSS follow, indicating sources of intake water, operations contributing to the effluent, and treatment provided. The approximated flows on the line drawing are representative of station operation for the period of 1/93 - 9/94. Following the line drawing is a brief narrative description of sources contributing to each outfall effluent:. Supnlementa/ Information NC #0004987 Permit Renewal Application December 15, 1994 Page 2 of 23 INDEX OF GENERAL INFORMATION L OUTFALL 001 - Once Through Non -Contact Cooling Water A. Filter Backwash from Raw Water Intake Screening Device Il. OUTFALL 002 - Ash Basin Treated Effluent A': Yard Drain Sumps 1. Sanitary System a. Genera/ plant sanitary wastewater b. Monex Resources, Inc. sanitary wastewater C. Laboratory drains 2. Turbine Room Sumps a. fFloorains b. Non -contact cooling water from Units 1 & 2 boiler feedpump turbine lube oil coolers 3. Boiler Room Sumps a. Water Treatment System (1). Clarifier (2): Gravity Filters (3). Activated Carbon Filters (4). Wastewater from demineralizer regeneration b. C/o_sed systemd ainage, cleanings t ting C. Turbine room sump o verflo w d -Boiler seal water e. Miscellaneous -system leakage's f. Moisiure-separator s on air compressor precipi#ators g, Floor 'wash-- w ter h. -Emergency fire fighting water L Pyrite (ash) removal system overflow f. Low-volume-wa�stewater k.Chemi_ca/ makeup tanks and_drum rinsate /. Boiler _1dwdo wn M. ChemZca/_clean1 g_of boilers 4. Storm Water a. Yard Drain Sump #I b. Yard Drain Sump #2 5, Induced Draft Fan Motor Bearing Cooling Water (o.x, uo®®ria. WA�StE 44Z3-da.(3)) Nc V0, Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 3 of 23 6. Track Hopper Sump 7. Tunnel Unwatering Sump 8. Turbine Non -Destructive Testing B. Ash Removal System C. Storm Water 1. Coal Pile Run-off ///. OUTFALL 003 - Unit 4 ID Fan Control House Cooling Water IV. Spill Prevention A. Oil Storage V. Hazardaous Substances VL Marshal/ Steam Station 316(a) Determination V//. Ash Basin Capacity Supplemental Information LINE DRAWING OF WATER FLOW TDecemHROUGH MARSHALL STEAM STATION NC#0 Permit App/. December 15, 1994 COUNTY: CATAWBA STATE: NC Page 4 of 23 JTAKE TUNNEL FROM LAKE NORMAN I845 MGD INDi3CED DRAF'I�FAN L' I+I{i^¢ 0.08 MGD 0.03 r , z�' WATER�(II A.31x cst �:5 �i. INTAKE SCREEN BACKWASH (I.A) 1 - 4 MAIN TURBINE LUBE OIL COOLERS (1) CONDENSATE COOLERS (I) EXHAUST STEAM CONDENSERS (I) MISCELLANEOUS CLOSED SYSTEM COOLERS( 0.2 MGD MGD 0.07 7 MGD G I MGD REMOV SYSTEh BOAl"ROpI TEVAPORATION a ra m F- �' 3 MCD AND SEEPAGE W � * nk FRO1N COAL PH.E,, r. ,ir . ID FAN CONTROL � s AREAS Al�D IJ�fE1y [ Y „,. w GD HOUSE (II 3�a..,.�r.��n��2^�D.'t.,..,.��i��?�..W S�'A7TREeiTME S7fsS7'E((i I � �Rcte+ r002 003 �Ct�SRI �a�i mE' `�DSe 5.5 MGD) (.2 MGD) ARBC)NCTBR,a 0.016 MGD ( , 001 LAKE NORMAN (841 MGD) Flows are approximated averages which have wide variability on a daily basis. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 5 of 23 L OUTFALL 007 - Once Through Non -Contact Cooling Water Raw water from Lake Norman is passed through condensers and auxiliary equipment on a ".once -through" basis to cool equipment and condense 'exhaust steam from the turbines. When MSS is operating at full power, it has a design capacity to pump 1463.04 MGD of cooling water through a network of tubes that runs through the condenser and selected heat exchangers (e.g. turbine lube oil coolers, condensate coolers, miscellaneous closed system coolers).. This raw water- in the condenser tubes absorbs heat from a closed system .of highly purified exhaust steam from the turbines and converts it back to water. The condensed exhaust steam is returned to the boilers and recycled in this loop a number of times. The raw cooling water is returned to the lake. No chemicals are added and only heat rejected from the condensers and auxiliary equipment is absorbed, hence the term. "once through, non -contact cooling water" is applied. The condensers at MSS are cleaned mechanically. Normally, amertap balls are cleaning the tubes on a continuous basis while the plant is operating. Periodically, metal scrapers, plastic scrapers or rubber plugs are forced through the tubes to rid them of scale or other deposits. Units 1 and 2 at MSS have two condenser cooling water (CCW) pumps. Units 3 and 4 have three CCW pumps. The capacities of these pumps are listed in Table 1. Normal plant operation of the CCW pumps is based on intake and discharge temperatures and unit load. To avoid a system trip that would suddenly reduce the discharge flow at outfall 001, each unit is on an independent system. This practice leads to a higher reliability factor for the units and protection of aquatic .life taking refuge in the discharge canal during cold weather. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 6 of 23 Table 1 f'_nridancar. Cnnlinn WatP_r Pumn Canacltles Unit No. 1 -Pump GPM 2 -Pump GPM 3 -Pump GPM 1 126,000 190,000 - 2 126,000 190,000 - . 3 150,000 253,000 318,000 4 150,000, 253,000 318,000 Design Rated Cooling.Water Capacity 1,016,000 GPM (1463.04 MGD) A. Filter Backwash from Raw Water Intake Screening Device (Permitted pursuant to G.S. 143-215.1(c) and Part III section I of current permit.) Raw water intake screens (32 total) at MSS are backwashed on an as needed basis. Normally, the screens require backwashing once a month for a period of approximately 5 minutes per screen. The screens. (10'x20') are stationary type and are removed for cleaning. The water required for backwashing is supplied by a low pressure service pump with a design capacity of 300 gpm. Therefore, the average flow of water used to backwash the screens is 0.002 MG.D. Should it become necessary to backwash the screens on a continuous basis the maximum flow .would be 0.43 MGD. This intake screen backwash is discharged back into the station intake. The debris collected on the screens consists mainly of twigs, leaves, and other material indigenous to Lake Norman. Supplemental Information a NC #0004987 Permit Renewal Application December 15, 1994 Page 7 of 23 ll. OUTFALL 002 - Ash Basin Treated Effluent The ash basin at MSS accommodates flows from two yard drain sumps, an ash removal system, low volume wastes and non -point source storm water.' 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.z Totalaverage-influentsfrom..these sources -combined -is} approximatel_y_6...5_MG.D. At times, due to unit loads, rainfall, evaporation and seepage of ash basin ponds, the amount of effluent may be different than influent volumes. A. Yard Drain Sumps The yard drain sumps are large concrete structures that have four level controlled pumps each that direct wastewater from the powerhouse area to the ash basin. These pumps are operated on a rotating basis. Usually two pumps are set so that one pump is primary and the other is backup. After a preselected period the controls are changed so that different pumps are utilized. The yard drain sumps collect wastewater from many sources, such as, the filtered water systemsanitary system; turbine arid -boiler room The yard drain sumps also ,powerhou rs oe ofs and_pa eq. menu. Ground water from a foundation drainage system under the track hopper is also intermittently discharged to the yard drain sumps. Thexombin.ed_average_flo_w f_ m-, pit erc stied to tthe yard drain sumps is approximately 1_.7 MGD, ,which`is pumped fo the,ash basin for pff- ::r and -biological reatment. 1 Application for permit to discharge storm water sent to EPA Region IV 9/30/92. 2 Low volume waste definition from 40 CFR 423 Steam Electric Point Source Category. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 8 of 23 1. Sanitary System Sanitary waste from the plant is transported to a modified package plant -via a gravity flow line. The sanitary waste from the plant receives primary treatment in the package plant. In the package plant, the volume of the tank provides a detention time for the wastewater to be aerated with station service air. Two submersible sump pumps, controlled by Level switches, pump the water to the yard drainage sumps where the yard drainage pumps transport the contents to the ash. basin for final treatment. This system has been permitted to treat 0.014 MGD.3 The sanitary system accommodates wastewater flow from the following sources: a. General p%ant sanitary wastewater b. Monex Resources, Inc. sanitary wastewater 3 Permit Application dated Feb. 20,1989. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 9 of 23 C. Laboratory drains (Small amounts of laboratory chemicals used to test wastewater effluents and high purity boiler water, see Table 2 below for non -hazardous and T'ab`le 4 for hazardous substances) C' 7% oil ILa) Table 2 KInn_Wn7nrriniic _AiihctanCes Used for Laboratory Water Analvsis Substance Quantity Location 2 -Propanol 1 gal Lab/Warehouse Ammonium molybdate 6.6 Ib Lab EDTA 3 Ib Lab Glycerin 6 gal Lab/Warehouse Indigo carmine 0.3 Ib Lab Oxalic acid 6.61b Lab Dimethylaminobenzaldehyde 2.2 Ib Lab Sodium Sulfite 10 Ib Lab Table 2 values represents typical quantities on-site at any given time and do not necessarily reflect quantities discharged. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 10 of 23 N,rCDEN:NR-will'_bejinstalled during- aterm of-the-new_NNutS� permit Mg--K�2000�, It will be composed of both a primary treatment and secondary treatment component and will eliminate the package plant near the intake structure of the plant. An aerated lagoon will provide the primary treatment with a 30 day retention time and have a total 'volume of 587,000 gallons. Effluent from the primary treatment system will be polished by allowing additional residence time in the ash basin which will perform the secondary treatment. The new system will be designed for 6,:100 gpd (normal) and 13,500 gpd (outage). The power house lift station will be installed as a central collection point to receive all the sanitary waste from MSS and pump it to the aerated lagoon. The present lift stations serving Monex and Units 3 and 4. will be upgraded. A gravity flow sewer line will also be installed to connect the Electric Systems Support (ESS) trailers to the plant sanitary system. 2. Turbine Room Sumps The .turbine room sumps collect approximately 0.2 MGD of wastewater from sources listed below. a. Floor Drains (1). Low volume wastewater. (2). Condensate from the feed water system (seal water, valve and pump leakage, cooling water, vents). (3). Equipment cooling water, e.g. air compressors (4). Floor wash water. (5). Boiler room sump overflow. Suvniemen tal Information • y NC #0004987 Permit Renewal Application December 75, 1994 Page 11 of 23 (6). Emergency fire fighting water. (7). Closed system condensates or drainage. (8). General mechanical maintenance activities. b. Non -contact cooling water from Units 7 & 2 boiler feedpump turbine lube oil coolers. 3. Boiler Room Sumps The average flow pumped from the boiler room sumps directly to the ash basin is approximately 1.3 MGD. The sources of input to the boiler room sumps includes the -following: a. Water Treatment System The filtered water treatment system at MSS consists of a clarifier, three gravity filters, two sets of activated carbon filters, and two sets of dernineralizers. Wastewater and filter media from the filtered water system and demineralizers are drained to the, boiler room sumps which ultimately discharge to the ash basin. (1). Clarifier The clarifier utilizes typical water treatment chemicals such as, aluminum sulfate (alum), sodium hydroxide, and chlorine for the primary treatment of raw water. The sedimentation wastes collected in the clarifier consists of solids that were suspended in the service water plus aluminum hydroxide precipitate formed as a result of adding aluminum sulfate (alum) and sodium hydroxide. The quantity of alum used per year is approximately 6,000 gallons. The total amount of caustic is roughly half the amount of alum. The average volume of water required for desludging the clarifier is approximately 0.008 MGD. These sedimentation wastes along with dilute water treatment chemicals and by-products are Supplemen tal lnforma tion NC #0004987 Permit Renewal Application December 75, 1994 Page 11 of 23 (6). Emergency fire fighting water. (7). Closed system condensates or drainage. (8). General mechanical maintenance activities. b. Non -contact cooling water from Units 7 & 2 boiler feedpump turbine lube oil coolers. 3. Boiler Room Sumps The average flow pumped from the boiler room sumps directly to the ash basin is approximately 1.3 MGD. The sources of input to the boiler room sumps includes the -following: a. Water Treatment System The filtered water treatment system at MSS consists of a clarifier, three gravity filters, two sets of activated carbon filters, and two sets of dernineralizers. Wastewater and filter media from the filtered water system and demineralizers are drained to the, boiler room sumps which ultimately discharge to the ash basin. (1). Clarifier The clarifier utilizes typical water treatment chemicals such as, aluminum sulfate (alum), sodium hydroxide, and chlorine for the primary treatment of raw water. The sedimentation wastes collected in the clarifier consists of solids that were suspended in the service water plus aluminum hydroxide precipitate formed as a result of adding aluminum sulfate (alum) and sodium hydroxide. The quantity of alum used per year is approximately 6,000 gallons. The total amount of caustic is roughly half the amount of alum. The average volume of water required for desludging the clarifier is approximately 0.008 MGD. These sedimentation wastes along with dilute water treatment chemicals and by-products are Supplemen tal lnforma tion NC #0004987 Permit Renewal Application December 15, 1994 Page 12 of 23 piped to a floor drain which flows to the boiler room sumps where they are pumped to the ash basin via the yard drain sumps. (2). Gravity Filters There are three gravity filters composed of anthracite (coal) which follow the clarifier in the water treatment process. Normally, one of these filters is backwashed each day. Approximately 0.007 MGD of backwash water is required for each filter. This wastewater flows through floor drains to .the boiler room sumps which pump to the yard drain sumps. The anthracite filter is changed on an as needed basis with the spent filter media,being sluiced I o the ash basin via the yard drain sumps. (3). Activated Carbon Filters The filtered water system includes two sets of activated carbon filters. These filters are typically backwashed _ once a month. The flow of water required to backwash one of these filters is 500 gallons per day. The backwash flows to the boiler room sumps and is pumped to the yard drain sumps. Activated carbon is replaced on an as needed basis with the spent carbon sluiced to the yard drain sumps. (4). Wastewater from demineralizer regeneration Demineralizers at MSS consists of two sets of mixed -bed cells which supply make-up water to the boilers and other closed systems. Normal plant operation requires that only one cell of each demineralizer set operates at any one time., Each cell has a capacity of 225 gpm. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 13 of 23 Each cell is regenerated approximately every other day. Each year MSS will use an estimated 42,000 gallons of 50% caustic and 12,000 gallons of 93% sulfuric acid for demineralizer regenerations. The dilute acid and caustic are discharged from the cell simultaneously through the same header for neutralization purposes. The regeneration wastes flow to the boiler room sumps where it is then pumped to the ash basin via the yard drain sumps. The useful life of the resin varies and when replacement is needed the spent resin is sluiced to the ash basin. b. Closed system drainage, cleanings, testing containing. Corrosion inhibitors, e.g. Calgon CS and Betz Powerline 32014 Biocides, e.g. Calgon H-300 and H-5105 Cleaningss (e.g. small heat exchangers) Dispersant, e.g, polyacrylamide Wetting agent, e.g. sodium lauryl sulfate Detergent, e.g. tri -sodium phosphate Leak testing, e.g. disodium fluorescing dye C. Turbine room sump overflow d. Boiler seal water (trace oil and grease) e. Miscellaneous system leakage's (small leaks from . pump packings and seals, valve seals, pipe connections) f. Moisture separators on air compressor precipitators g. Floor wash water h. Emergency fire fighting water L Pyrite (ash) removal system overflow j. Low Volume Wastewater 4 Molybdate based corrosion inhibitors are planned for future use. 5 Approval for Biocides Calgon H-300 and H-510 was given by letter to Ms. Dayna Russell (DPC) from Mr. Preston Howard (NCDEHNR) dated 8119193. 6 To date small closed system cleanings (e.g. heat exchangers) have not used these chemicals, reserved for future use. Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 14 of 23 k. Chemical makeup tanks and drum rinsate (Intermittent rinse water containing small amounts of aluminum sulfate, sodium hydroxide, hydrazine, and ammonium hydroxide). Boiler blowdown Primarily when units 1 & 2 startup and until water chemistry stabilizes the blowdown from these boilers is allowed to flash in a blowdown tank. During startup, a significant portion of this blowdown steam is vented to the atmosphere. After water chemistry has stabilized, blowdown venting is minimal and condensate flow is small. Trace amounts of hydrazine, ammonia, and silica oxide may be present in the condensate. The combined condensate flow from blowdown amounts to an average of approximately 0.002 MGD. This flow is routed to the boiler .room sumps and then to the ash basin. M. Chemical Cleaning of Boilers or an -as -needed -basis: Tube inspections are done during outages which indicate when cleaning needs scheduling. Boilers #1 and #2 are controlled circulation boilers and boilers #3 and #4 are supercritical boilers. The volume of the boilers determines the quantity of chemicals required for a cleaning. Boilers #1 and #2 each have a -water -side volume of 51,600 gallons. The volume of #3 and #4,boilers is 35,300 gallons each. The. total vo ume of dilute wastechemicals; includingrnses, l cfiarged�from#'1, or#2-boiler� s during a-cFe-mical, ,cleaning is 567,_600-galions. The total volume of dilute 3;700 gallons. This dilute wastewater is drained through temporary piping to permanent ash removal links Supplemental Information F � S NC #0004987 Permit Renewal Application December 15, 1994 Page 15 of 23 which flow to the ash basin. Prior to a boiler cleaning, the ash basin water level is lowered and additional stop loqs are added to the ash basin discharge structure. This Basin -Equivalency -Demonstration _(October_1.9-7.6). Chemicals and amounts required to clean the boilers at MSS follow as Table 3. 1 SuRplem en tal Information NC #0004987 Permit Renewal Application December 15, 1994 Page 16 of 23 Table 3 Boiler Cleaning Chemicals and Amounts Used Per Unit CTFP 1 - Alkaline Roilouts (only after maior boiler tube work) Chemical Boiler #1 or #2 Boiler #3 or #4 Soda Ash 4400 Ib NA Trisodium Phosphate NA 3000 Ib Triton X-100 Detergent (0.05%) 25.gal 18 gal Antifoam Agent (0.025%) 13 gal 9 gal Y0alIT:li:1:1111.1yr-I W-19111IIIUI Chemical Boiler #1 or #2 Boiler #3 or #4 Sodium Bromate 550 Ib NA ,Ammonium Bicarbonate 1000 Ib NA Ammonium Hydroxide (26°Be') 1000 gal NA Sodium Sulfite 100 Ib NA Chemical Boiler #1 or #2 Boiler #3 or #4 Hydrochloric Acid (31.5%) (20°Be') 7100 gal 4800 gal monium Bifluoride (0.5%) 2150 Ib 15.00 Ib opper Complexer (0.75%) Thiourea or equivalent rCRodine 2300 lb NA 213 (acid inhibitor) 142 Ib 96 Ib Citric Acid 400 Ib 300 Ib STFp 4 - NP_lltraI172TIon Somnon Chemical Boiler #1 or #2 Boiler #3 or #4 Soda Ash 4400 Ib NA Trisodium Phosphate NA 3000 lb Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 17 of 23 4. Storm (Nater (see footnote 1 on page 7) The yard drain sumps collect storm water runoff from a small portion of the coal pile, rail access, hopper roofs and paving around the powerhouse and pump it to the ash basin. A total of 14.7 acres drain to the yard drain sumps with an average daily runoff estimated at 0.03 MGD. Thee average daily r_un_o_ff_is ,ealculated-based on an annual rainfall of 49-inches4with--l-.0--and 0:5run-off coefficients applied appropriately. Trace amounts of oil and grease may be present in the first flush of storm water. a. Yard Drain Sump #I Yard drain sump #1 drainage area is approximately 7.2 acres including drainage from the plant yard and roofs of miscellaneous structures (total area approximately 20,000 sf). The yard area includes coal handling facilities, approximately one mile of rail and 0.25 miles of access road. Approximately 25% of the area is paved or roofed. An estimate of storm water drainage to this sump is 0.013 MGD. b. Yard Drain Sump #2 Yard drain sump #2 drainage area is approximately 7.5 acres including drainage from the plant yard and Units 1-3 roofs 0 61,600 A. The yard area includes approximately 1000 linear feet of plant access road and 1500 linear feet of rail access. The yard also includes the electrostatic precipitators, exhaust stacks and other miscellaneous ash handling facilities. (storage silos, baghouses, ash lines, etc.). The paved and roofed area represents approximately 85% of the total drainage area. Trace amounts of oil and grease may be present in the first flush of storm water. An estimate of storm water drainage to this sump is 0.014 MGD. Sup plem en tal In fo rm a do n NC #0004987 Permit Renewal Application December 15, 1994 Page 18 of 23 5. Induced Draft Fan Motor Bearing Cooling Water Once through non -contact cooling water is supplied to the 16 bearings on the eight induced -draft (ID) fans to remove excess heat. No chemicals are added to the once through raw lake water. The rate of flow through the ID fan heat exchangers which discharges to the yard drain sumps is approximately 0.08 MGD. 6. Track Hopper Sump The track hopper sump collects ground water from a foundation drain system underneath the track hopper. The flow is usually intermittent, however the pump capacity is 100 gpm. On -a daily basis it is estimated that the run time is only 50% which would correspond to a flow'of 0.07 MGD to the yard drain sumps. 7. Tunnel Un watering Sump In the event that maintenance activities are needed in the intake or discharge tunnels an unwatering sump is provided to remove water from the tunnel(s). Raw water in the tunnels can be removed by an unwatering pump which pumps to one of the yard drain sumps which ultimately discharges to the ash basin. 8. Turbine Bore sonic testing of turbine rotors is infrequent, once every 5 years. Demineralized water is mixed with a corrosion inhibitor, e.g. Immunol 1228, at a ratio of 100 parts water to 1 part inhibitor. The mixture is applied to the turbine rotors. The -excess is drained and mixed with low volume wastewater and discharged to the ash basin via the yard drain sumps... Supplemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 19 of 23 B. Ash Removal System MSS utilizes electrostatic precipitators as its air pollution control devices. Under normal plant operations, the dry flyash captured in these precipitators is collected in temporary storage silos for subsequent disposal in a .permitted on-site landfill or for recycling in off-site ash utilization projects. If the system that collects the dry flyash is not operating, then the flyash can be sluiced to the ash basin. Bottom ash from the boilers is usually water sluiced to holding cells for recycling activities. Pyrites from the mills are water sluiced to the ash basin. Approximately 2.5 MGD for bottom ash and pyrite removal is pumped through large steel pipes (ash lines) directly to the ash basin. Once through non -contact cooling water from the coal pulverizing mills is discharged to the bottom ash hopper and pumped to the ash basin. Electrostatic precipitators at MSS are normally cleaned by mechanically rapping the wires and the plates inside the precipitator. Before major precipitator work is performed they are cleaned by a wash down. The wash water is pumped to the ash basin from the yard drain sumps. C. Storm Water (see footnote 1 on page 7) Non -point sources of storm water to the ash basin .includes coal pile runoff, a pond area of 82.3 acres and an upgradient watershed area of 1097.7 acres. The estimate for storm water run-off is based on forty- nine (49) inches of rain per year with a 1.0 and 0.5 run-off coefficient for the pond -area and upgradient watershed respectively. The average non -point source storm_ water input for the ash basin is estimated at 2.3 MGD. 1. ZCo_al.P_ile_Ru o The coal pile at MSS covers an area of approximately 33 acres with anse timated storm water run=off -to the ash basin of -0-06-, IV G D. Supplemen tal Information NC #0004987 Permit Renewal Application December 15, 1994 Page 20 of 23 OUTFALL 003 - Unit 4 /D Fan Control House, Cooling Water 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. The rate of flow through the control equipment which discharges to Lake Norman is approximately 0.2 MGD7. IV. Spill Prevention A. Oil Storage MSS presently has five (5) above ground storage tanks - two (2) 500,000 gallon fuel oil tanks, one (1) 1000 gallon gasoline tank, one (1) 900 gallon used oil tank outside, and one (1) 8000 gallon used oil tank inside the powerhouse. Only one of the 500,000 gallon fuel oil tanks is used at any one time as a precaution against spills. All above ground tanks at MSS have secondary containment provided which are capable of containing the entire contents of the tank. All oil storage facilities are presently covered under. Spill Prevention Control and Countermeasure Plans8. 7 Outfall 003 added to NPDES permit March 12,1993. 8 SPCC Plan required by 40 CFR 112. SunDlemental Information NC #0004987 Permit Renewal Application December 15, 1994 Page 21 of 23 V. Hazardous Substances The following is a list of the hazardous substances located on site that are listed in Table 1 16.4A of 40 CFR 116. These substances are anticipated to be discharged to the ash basin on a continuous or intermittent basis within the scope of.relevant station operation. Table 4 LI --- rr1.,. ci 9hctnnnae at Mnmhall 4tAam Statiinn SUBSTANCE . QUANTITY LOCATION USE Acetic acid 8 gal Lab/Warehouse Water Analysis Acetone - 2 gal Lab Water Analysis Aluminum sulfate 6000 gal Powerhouse/Water. Treatment Clarifier Ammonia 5 lb (gas) Lab pH control Ammonium hydroxide 100 gal Powerhouse . pH control Chlorine (gas) 1200 Ib Powerhouse/Water Treatment Disinfectant Formaldehyde 2 gal Lab/Warehouse (to be deleted) Hydrazine* 55 gal Powerhouse/Warehouse Oxygen Scavenger Hydrochloric acid 4 gal Lab/Warehouse Water Analysis Nitric acid 3 gal Lab/Warehouse Sample Preservation Phosphoric acid 6 gal Lab/Warehouse Water Analysis Potassium hydroxide 201b Lab Water Analysis Potassium permanganate 1 lb Powerhouse/Lab Air/Water Analysis Sodium bisulfite 6.6 Ib Lab Water Analysis Sodium hydroxide 10000 gal Powerhouse Demineralizer Sodium hydroxide 2 Ib Lab Water Analysis Sodium hypochlorite (12.5%) 55 gal. Water Treatment Disinfectant Sodium phosphate (tribasic) 10001b Powerhouse Cleaning Sulfuric acid 5000 gal Powerhouse Demineralizer Sulfuric acid 4 gal Lab Water Analysis Table 4 values represent maximum quantities usually on-site at any given time and do not necessarily reflect quantities discharged. Various amounts of these substances may go to the ash basin for treatment due to use in site laboratories, small leaks, spills, or drainage from closed loop systems. Treatment of these substances and their�by,products is achieved by physical and hioloaical activity in the ash basin? Boiler cleaning chemicals are listed in Table 3. *Listed in 40 CFR 302.4 - Table 302.4 List of Hazardous Substances and Reportable Quantities. Supplemental Information 8 NC #0004987 Permit Renewal Application December 15, 1994 Page 22 of 23 V/. Marsha// Steam Station 316(a) Determination Duke Power Company's operating experience during the past five years under the thermal limitations imposed in NPDES Permit No. NC#0004987 substantiates EPA's 316(a) determination (May 1975) for Marshall that the "thermal component of the discharge assures the protection and propagation of shellfish, fish and wildlife in and on the receiving body of water." In Duke's judgement the operating characteristics of the station have a minimal effect on the aquatic environment of Lake Norman. The character of the thermal discharge has not changed since the original 316(a) determination. Accordingly, Duke Power requests that the thermal limitations in the present permit be continued. V//, Ash Basin Capacity Part III Section R of the existing NPDES permit for MSS requires the permittee to provide and maintain at all times a minimum free water volume (between the top of the sediment level and the minimum discharge elevation) equivalent to the sum of the maximum 24 hour plant discharges plus all direct rainfall and all runoff flows to the pond resulting from a 10 year, 24 hour rainfall event, when using a runoff coefficient of 1.0. Free water volume of ash basin at MSS: Estimate of runoff from 10yr/24 hr storm Natural drainage area of ash basin 1180 acres Yard Sumps 14.7 acres Precipitation from 10yr/24 hr storm 5 inches Total stormwater runoff to ash basin 497.8 Ac -ft Estimate max. 24 hr dry weather waste stream discharging to ash basin: From weekly station records, maximum recorded ash basin discharge. on 3/3/92 with no mention of rainfall = 16.92 MGD Supplemental Information 14 NC #0004987 Permit Renewal Application December 15, 1994 Page 23 of 23 For conservatism, increase maximum discharge recorded at station by 10%: (16,920,000 gal x 1.1)/325,872 gal/Ac-ft = 57.1 Ac -ft Free Water Volume = 497.8 + 57.1 = 554.9 Ac -ft Estimated quantity of solids (ash) to be discharged to ash basin from time of most recent physical survey (2/2/94) to expiration of permit 6/30/2000 using 6/2/94 PROMOD coal consumption forecast: Time Period Estimated Coal Consumption 0 000's tons) Assumed Ash % Estimated Ash Production (1000's tons) Estimated Ash Landfilled or Recycled (1000's tons) Estimated Ash Discharged to Ash Basin (1000's tons) Estimated Ash Discharged to Ash Basin (Ac -ft) 2/94-8/94 2728 10.3 281.9 260.4 21.6 18.0 9/94-12/94 1108 10.5 116.3 107.6 8.7 7.3 1995 4527 10.5 475.3 439.7 35.7 29.8 1996 4653 10.5 488.6 451.9 36.6 30.6 1997 4714 10.5 495.0 457.8 37.1 31.0 1998 4932 10.5 517.9 479.0 38.8 32.4 1999 4934 10.5 518.1 479.2 38.9 32.4 1/00-6/00 2233 10.5 234.5 216.9 17.6 14.7 Total 29829 1 3127.5. 2892.5 235 196.2 Estimate of total storage volume required for term of permit: Free Water Volume = 554.9 Ac -ft Estimated Solids to Ash Basin = 196.2 Ac -ft Required Volume 554.9 + 196.2 = 751.1 Ac -ft. From a 2/2/94 physical survey, estimate of total ash basin water volume = 986.8 Ac -ft (pond elev, 790 msl) Volume required = 751.1 Ac -ft < 986.8 Ac -ft Conclusion: The ash basin at MSS has sufficient capacity for the term of the new permit. Supplemental Information