Forwards General Info & Form 2C Info Required for Renewal of Sequoyah NPDES Permit TN002650,which Expires on 980831

ML20199J153
Person / Time
Site:	Sequoyah
Issue date:	01/15/1998
From:	Bajestani M TENNESSEE VALLEY AUTHORITY
To:	Stewart P, Whalen T TENNESSEE, STATE OF
References
NUDOCS 9802050236
Download: ML20199J153 (119)
v • d • e

Text

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Tennessee Valley Authority, Post Omco Box 2000, soddy Dasy, Terressee 37379 2000 Masoud Bajestani Site Vice Presdent Sequoyah Nuclear Plant January 15,1998 Mr. Philip Stewart, Manager Chattanooga Field Office Tennessee Department of ' .nment and Conservation Division of Water Pollution Control State Office Building, Suite 550 540 McCallie Avenue Chattanooga, Tennessee 37402-2013 ATTENTION: Mr. Terry Whalen SEQUOYAH NUCLEAR PLANT - NPDES PERMIT TN0026450 - RENEWAL APPLICATION Enclosed is the General information and Form 2C Information required for the renewal of the Sequoyah NPDES permit which expires on August 31,1998 s Please contact Debby Bodine at (423) 843-6700 or pager 1-800-323-4853,70343 if y' ou have any questions or comments.

Sincerely, y ._

Fl-Masoud Ba. , tani e

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./

Enclosu cc(Enct sure):

U.S. Nuclear Regulatory Commission Attention: Document Control Desk One White Flint, North 11555 Rockville Pike Rockville, Maryland 20852-2739 ,

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-.. 1 DEPARTMENT OF ENVIRONMENT AND CONSERVATION 9 DIVISION OF WATER POLLUTION CONTROL NPDES PERMIT APPLICATION ADDRESSES

-_- =____ - _

All addresses must be completed even if the same address is used:

TN0026450 NPDES PERMIT NUMBER:

CORPORATE HEADQU ARTERS (where permit should be sent):

Debra J. Bodine Environmental SupervisorIELEPHONE:(423 3 843-6700 CONTACT PERSON:

Nune Tide COMPANY N AhE: Sequoyah Nuclear Plant, Tennessee Valley Authority STREET AND/OR P.O. BOX:

Sequoyah Access Road, P.O. Box 2000 CITY: Soddy-Daisy STATE: TN ZIP CODE: 37379 PERMIT BILLING ADDRESS (where invoices should be sent):

Debra J. Bodine Environmental SupervisorlT.LEPHONE:(423 3 843-6700 CONTACT PERSON:

Sune Tiue FACILITY NAhE: Sequoyah Nuclear Plant. Tennessee Vallev Authoritv STREET AND/OR P.O. BOX: ._._Sequoyah Access Road . P.O. Box 2000 CITY: Soddy-Isaisy STATE: TN ZIP CODE: 17174 FACILITY LOCATION (actuallocation of permit site):

Debra J. Bodine Environmental Supervisor CONTACT PERSON:

Nune Tide FACILITY NAhE: Sequoyah Nuclear Plant, Tennessee Valley Authority STREET AND/OR P.O. BOX:

Sequoyah Access Road, P.O. Box 2000 CITY: Soddy-Daisy STATE: TN ZIP CODE: 37379 . _ _ .

COUNTY: Hamilton TELEPHONE:( 423 3843-6700 DMR MAILING ADDRESS (where preprinted Discharge Monitoring Reports should be sent):

CONTACT PERSON: Debra J. Bodine Environmental SupervisorTELEPHONE:(423 1843-6700 bune Tide FACILITY NAhE: Secuoyah Nuclear Plant. Tennessee Vallev Authority STREET AND/OR P.O. BOX: Secuoyah Access Road. P.O. Box 2000 CITY: Soddy-Daisv STATE: TN ZIP CODE: 37379 RDAs2352 AND 2366 CN 1090

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the Instruct'ons for detailed item descrip-t.OC ATIOf4 tions and f ar the legal authorizations under which this data is Collecttd, JCLLUT

>NSTRUCTIONS:

ANT CH AR ACTERISTICSComplete A through J to datermine whether you id needl ta submit any p nuestions, you murt submit this form andJch the supplemental question, you netd not form submit !!sted any of the:e in cisforms. parenthesis You may answer following "no"if yourthe activity question. Mark d terms.

'I ths supplemental form is attached, if you answer "no" tos sxcluded from ostmit requirementr;see S ,,,$.., .,.

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B. Ocet or wm this f acmty (cider emitting or proposect/

Mude a concarnnted, anhal feeding operetion or y s A. Is tos f acehty a publicly owned trsatment works X j whic h resuits in a discharge to wetars of the 115.7 EAU 8 tic anim*I production facirrty which results in a (,

discharge to wrters of the U.S.? (FORM 28) , ,, , ,,

(FORM Mi , ,, y D, as trus a proposeo facmty (orner snen cnos, cesencect a s ac.i.ty an.cn currently results in ducharves in A or 8 a'rore) which will result in a discharpe so X!

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to waters of the U.S. Other than those described in n n n wmri of the U.S ? IFOAM 201 A or B edove) IFr3RM 2C1 F. Do you of will you iniect at this f acility industrial or l X municipal effluent below the lowermost stratum con.

.. Ooes or w,st snis faceuty treat, store. or dispose of taining, within one quarter mile of the well bore, X hazardous wa.rtes? (FORfA 3) underground sources of drinking water? (FORM 4) , ,, ,,

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a go you or wiu you en,ect at this lacn.ty any procuced X g water or other fluids which are brought to the surface g p g in connect,on wette conventional oil or natural gas pro g duction, saract ftwids used for enhanced recovery o g g gg oil or natural gas, or inject fluida for storage of fequid ggy .. .. ..

.. n u hydrocareens? (FOk M al J. Is tnis f x;isty a orcposed stationary sou.sv wheen is la tnis f aceMy a proposed rutionary sourca an.cn es NOT one of the 23 industrial categories listed in the X 6.

one of the 28 industrial categories fitted in the in- X irrstructions and which will potentially emit 250 tons structions and which will potentially emit 100 tons per year of any air pollutant regulated under the Clean per year of any air polluta nt regulated under the Air Act and may aff act or be located in an attainment .

Clean Air Act and may aff ect or t>e located in an .. . ., erse? (FCRM 51 attainengnt arest (F O AM 51 S

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I NAME OF F ACit.lTY

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/. F ACIUTY CONTACT e. p e On c f aere co- . : own( M r ]dB ~ ~ ~ ~ ~ LH Water (CCW) Intake System ' es)l Potable Water !b 4 i  ! Pumps 4.03 E+01MGD ~ - n ' Hixson Utility '  : Cooling 4A

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~~ l Overflow { District 1 ~ ii ,, Towni 2; - j l Required wa, ==. eJ_, , Constr/ Demo. j i Condenser Circulating l . CCW Disch. Channel ; -> Fire Protection System {*j Yard Flushes (to ' I Landfill Stormwater i Drainage) Ds7 *! ' System f 145 E+03 MGD A i l, Runoff - 0.7 MGD 103 ~A { ' T > Low Volume Waste j ; -T Yard 2.48 Drainage Pond I I Treatm*nt Pond -

UnEned Metal Cleaning'

li d' Raw W Wmw Sparn N ' 8='a-== "N *=* - "'! l,'; MGD

• I Waste Pond 1.06 MGD -> q c

} DSN 107 - . ,  ; 3 row a,--v w.q l! jl i Ae i A l - T l + i Pa= === m% i jj (Yard Drainage System f i  ; A ~> } , !Various Building;h Raw Service Weer Syten  ; E ux.A Building Heat I i * . Lined Metal Cleaning h :} E [ Heat Loads Loads - 0.8 MGD ] jl l **'**S m*"* % % 0 @ " Waste Pond A [' i j ITurbine Building e_______ Y _ _ . - - , D*sa o'".,.,s8 *w*are. *S-i ' Sump  ! +=oo emia s+

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'__a 1_ _. .-___-__._.._m i1 "=c ar c=* m. a J i A~ATA rTurbine Building Floor ! - ' -' S'r' a. cm,o., *==w- eo a "r -an !. 1 ***** * ' ' ' * * ** rl l u Metal Cleaning Waste i i ! i

• 1J & Equipment Drains I  : [ Ice Co_ndenser I. ; Resin Disposal - ,,',=,.'.",,,,,,%,'"*,o,e.l

! . rY a 0.16 MGD i Waste l -- -- --- A m ore.  ; i " . l o, , , un,,,,.* a ora j Sump l ; i _______ - - _ _ - - - - - _ _ _ 4 Condensate-- '  : twe s n .. e are {  ! Miscellaneous 1' i: ! Cleanups! ! , . Regeneration Waste FE " 5'o *a "'** {N'- Plant Uses i 2 < m'~ e' 0.10 MGD .! ' i CCS S aste ' A ~! 3 ~ - - - - 4- a se n, cenermor eks, wi . ~ ~

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. Fiter Backwash . . 1 . o6MGD t Condensate j l Ptart Swnp - 30000 , d - GPD -{ - l ! Component I l _ _A I Demineralizer System - ._ i --#N f, 4 ~ e,c.,,,e A _e _ a _ 1  ! Cooling System j Secondary System- - - - - - -s _A ' 'e  ! ( Dispsal E - -. _ - __ - _;. _ ._ . , 8"'"* Leaks & Draindowns - - - J_ .-  %~a Radweste ' ._y. t- _ _ _ _ _ _ __ y Secondary Recycled __ p 7,,,,nert syneen , Alum Sludge 'a c-- - -

• System Product Water t o os uoD RO Reject -

g Ponds (2) --4 _ n - g-18000C GPD

7 3 g i am.... -r %undry and' MmisiiO g Supematant i ' no cm ,e= s""'

Hot Shower Drains ! ' 31300 GPD . . -- - Drains . - - - SoReneng Regenerwo.on.- e' -

• Studge' Disposal; ~ ~ Wades - N GPD Make-Up Water ,

meup weer raien ews ; - - - - - e op. A FRa'dioactiviFlooi~l g- g -- l Drains and Sumpsj msnmna e . __ _ . . . . . . g- -

• - 2 nocerentas L 4 Filtered Water ' Make-Up Water - .--

- 2 send meers  ; *, processing - ~ Primary . I 2 chier .,ess , or Filtrate 3_,,,,,,,,,,%,,,,,,-,,ou,,,,,,,,,,,.,,,,,,,,,,,,,,, __ _ ,,l g [ 2A q =s __ j m eup was' Sequoyah Nuclear Plant !"' DES Flow Diagram b ' FORM 1 - G:norcl Informa. tion - Item XI- Attachm:nt 2 4 sk%2gW OfMW:j%  % 'f f i# S""l' d 7 ~ *'

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. <asm x ._ - SEQUOYAH NUCLEAR PLANT SITE 1000 O 1000 2000 3000 , I MN 1 cw SCALE ieS.s:_i'er i BASE MAP FROM i ! ** "S U.S. GEOLOGICAL SURVEY- "J TENNESSEE. VALLEY AUTHORITY 7 t/2 MINUTE QUADRANGLE SHEET ,,,,,,,,,,,,, j SHOW HILL, TENNESSEE 1980 ,,,D(CteN ,,,, ,,,, , , ,T(R Of $ NCCT  ! Af 60N AT C(N ~ PREPARED BY MAPPNG SERV 1CES BRANCH L- _ J 5 e secomo A.P8887 ^ y 4'9'g g a (sprettri 3 ' ' ' , , (torrift ,, , ,, Ele:- !c Power Generation , . o.rounTw ,

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' ' ' ilP'C'l!) , 3 i i e (specsfyj I . . .s . Vill. OPE R ATOR INFORMATIC*, B. Is the nerne listeo le A,nA E , i i , , , i i i . . i i i i i i i iiiiiiiiiiiiii<i# i i i i """,,V,"'^*'"** , J Tennessee Va11ey Authority, O.D. Y Es O N O ,. i. , o. en on t serre ro.Ir a nn.)

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O - OTHER (spect/ys F A 423 843 6700 s - STATE T .. .. .. .. .. i . P = PRIV ATE ' t. sTn c tf o n v.o. so n ' , , i i i I i , 5 i i i I i i i i i i i i e i i i i i a 4 PO Box 2000 c.stavd n. zip coot IX. INOl AN LA

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i i i i . . . . . . . . . . . 4 i i i i i i i iii n ,,,,,,, , ,,,,,,,,,,,,,,,,,,,,, I I I l2 T.N 3.7.37.9 C YES GINO 0 S o d d y, ,D a 1.s, y . '  : l .. .. X. EXISTING ENVIRONMEN rAL PERMITS A, nro g s (DLscharges to Surface Wetrel O. *so tssir Ernissions eram Prot.osed Sourcets l . . . , i i i i i i i i . . . i i i i i i i i i i i i ' T.N.0.0.2.6.4.5.0, 9 P , , 9 N .. .. . . I . .

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? e, u sc (Underground (niection of flutds) i i i i i - i , 4 i , , , i i i i , i i ,,,,,,,, additional information a 1 i , , a j 9 U .g 9 see. attached sheet ,, .. ,,i.. i E. o YH E n tspecsfy) I c. n cn A (Heterdout Wnsstes} . . i. i i i i i . . L i i f,,,cify, . i , i . i i i i . . . T N.5 6 4 0 0,2 0 5 0 4 s T. N R 0. 5 0 0 1 5 General Stormwater Permit l 9 a 9 ' ' l g3.. . X I. M AP Attach to thl application a topographic map of the area extending to at least one mile beyond property bounderies. The map must s the outline of the facility, the location of each of its existing and proposed intake and discharge structures, each of its hazardous w treatment, storage, or disposal facilities, and each well where it injects fluids underground. Include all springs, rivers and oth water bodies in the map area. See instructions for precise requirements. Xn. N ATUR E O F BUSINESS (prov.de a bnel deschotrons Production of electric power by thermonuclear fission and other associated operations. l l \ Xill. C E R TI FIC ATiON (see instruc tionsf I certify under penalty of law that I have personally examinedand am familiar with the information submitted in this application a attachments and that, based on my inquiry of those' persons immediately reconsible for obtaining the information contained in the application, I believe that the information is trtie, accurate and complete. I am aware that there are significantpenalties fo {/ false information, including the possibility of fine and imprisonment. s / c. o ^ f t s ' G e' ' o e

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A c A t a o r r ecia n, rit ss trype or print / Masoud Bajestani Vice President, Sequoyah Nuclear Plan : f. [ g 7 [ ' Y27/78 COMMENTS FOR OFFICIA T . // . . _ EPA Form 35101 (6 90) 6 Form 1 - GeneralInformation Attachment 3 Additional Information - SQN PERMITS Air Permits from Hamilton County Air Pollution Control Bureau A. 4150-21099997-01C, SQN, Operating Permit, Cooling Tower, Unit 1. B. 4150 2199997-03C, SQN, Operating Permit, Cooling Tower, Unit 2. C. 4150-30700804-07C, SQN, Front Modifications Insulator Shop. D. 4150-30700804-06C, SQN, Insulator Shop, Back Modifications (Maintenance.) E. 150-10200501-08C Auxiliary boilers, Emergency Diesel Generators, Ss ..ty Diesel Generator, Fire Protection Diesel Generator, and Computer Backup Power Supply Generator. F. 4150-30900203-10C Abrasive - Blasting Operation G. WHITE Permit, SQN, Hamilton County - Open Burning Solid Waste Permit H. SQN Inert Landfill Permit No. DML331050021. avm % ,.ses AP A s.a. MwM e CWissy from /sm J et i..m Ji OMB No. N 86 Approval expires s.si.92 . . . 7 besse print er croe in the unsa.d.d are.s caly. TH0026450 - W.a EM VlwhM be E N T AL P4T EC TIsM rea 4M C Y pg APPLICATION FDA PEAMIT TO DISCHARCE WASTEYf ATER EXISTING MANUFACTURING, COMMERCIAL, MINING AND Sl!VICULTURAL OPERATIONS

• 2h {A ConsolidatedPermits Program ufDES l MFALL LOCATION p;r nach cutf all, list the latitude and longitude of its location to the nearert 15 seconds and the narne of the receMng wetar.

S. LA TITU D E C. s.O N G lTU C C . neerIviNo w A7en (name) A,QVTFAL6 ...... .... .....e. " "7 2,* " ___.,.... -. ....e. 12 35 85 05 14 TENNESSEE RIVER 101 35 13 23 85 05 09 IhTAKE FOREBAY 110 35 13 33 85 05 13 TENbESSEE RIVER 116 35 13 32 85 05 03 TENNESSEE RIVER 117 35 13 28 85 05 11 INTAKE FOREBAY 118 35

11. F LOWS, SOURCES O A. Attach a line drawing showing the water flow through the faciHty. Indierte sources of intake water, operstions contributing wa

, flows between intakes, operations, trastment units, and outfalls, if a watar balance cann pictortl descripdon of the nature and amount of any sources of water and any coUection or tnetment rnessures. (1) AH operations contributmg wasteweter to the effluent includmg process wastewater, sanitary wastewater

8. For each outf a!!, provide a descriptson of: cooling wetar; and storm water runoff; (2) The average flow contributad by eac on additional sheets if necessary. .

3. TREATMENT 2., orER ATioNist CoMTmisvTING Flow g g gy, '

AgLg . un[g a. D ESCRIPTIO N

a. oPr M ATION $1st) e gDgj

& A Diffuser discharge which 1.54 E+03 MGD Mixine bv submerged enleinnve 101 1 0 receives flow from the folloving: diffusers i A 1 45 E+03 MCD May be seasonally treated #nr A. Condenser c)oline water (Open Mode) control of Asiatic class. F Zebra mussels. and microbiole  ? gicallyinducedcorrocon(MIb). L A Condenser con 11ne unter 1.11F403 MCD ranling hv nntnrn1 drnft B. 2 F (Helper Mode) cooline towers C. Essential Raw Coolirig 4.01 F+01 MCD Mnv be trenPed fnr cnnern1 nf A A 9 M Asintic clnms. 7phrn muceple. Water (ERCW) and MIC. - See Attachment 1 - Form 2C, Page 1 of 4 D. Yard Drninage Pond which  ?.4R F+00 MCD Sedimanention nnd nil sle i m4- f  :- A A receives finw from the 9.5 MG Pond following: X X

1. Service Building 10,000 GFD None Sump

2. Office Building X X Floor and Eauin. 10 CPD None _,,

Drain Sump Y Y

3. Security Diesel 10 CPD None Generator Bldn. .

Drainage (continued) O P PICI A L W s E QM 6Y (stftuent guksekswa au Nefegerted) Form Approved Era e,s. Muu whopy from tem a u F#rm Ji OMB No. 204N)C86 g Approvd expires $4192 Zeese ' .rInt or type in the unshaded press only. TN0026450

• 6s.aNvuwNusNTAL muT.cTwN Av.Ncy

, p2,;g APPLICATION FOR PERMIT TO DISCHA.' IGE WASTEWATER (A EXISTING MANUFACTURING, COMMERCI AL, MINING AND SILVICULTURAL OPERATIONS 2gla ' wOcs g Comolidated Permks Program I, OUT F ALL LOCATION F:r each outfalf,Ilst the latitude and longitude of its location to the nearest 15 seconds and the name of the ree iving water,

a. L ATtT U D E C. LON GITU D E iA.ovjrgLL s.===. u~~. n. e = c.

ptres s.===. s. w =. a. m. CE C U/SC I CE III IC [0il!

11. FLOWS, SOURCES OF POLLUTION, AND TREATMENT TECHNOLOGIES ] f A. Attaca e line drawing showing the water flow through the facility. Indicate sources of intake water, opervtions contributing westeweier to the effluent, and treetinent unrts labeled to correspond to the more detailed descriptions in itern B. Conrtruct a water belance on the line drawing by showing svarage

- flows between intakas, operations, treatment units, and outfalls. If a water belance cannot be determined (e.g., for certa /n min /np actir/t/as), provide a picttrial description of the nature and emount of any sources of water and any collection or treatment rnessures. TFor each outfall, provide e descriptJon of: (1) All operations contributing wastewater to the affluent. induding procen wastewater, sanitary wartewater, cooling water, and storm water runoff; (2) The everage flow contributad by each operation; and (3) The ' treatment received by the wastewater. Continue en additirnel sheets if n- y. 3.TnEATMENT 8 OPER AT'oNIS) CONTR 3eUTIN G PLOW " " i s.out. ^ " a. cren ATroH (114t) D* Yn,"Ej[*,"n[u'; " a. osse narvioM A = (I t; Y Y

4. Solar Bu11 dine 10 GPD Nnno 101 Drainane None Y Y

5. Sodium Hvoochlorite 10 GPD Bldg. Sump None X X

6. Misc Air Conditioner 0.8 MGD _

cooling water None X X

7. Diesel Generator 10 GFD Blda. Sump None X X

8. Switchyard Bus 0.2 MGD Cooling Water 2,000 GPD None X X

9. Potable Water from watering of lawns line repairs. and High Pressure Fir e Protection System 100 GPD None X X

10. Demineralized Water with no chemicals added None X X

11. Electrical Sumos 100 GPD rnin nna gennna water inleakage 6900 GPD** Septic tank / sand filter systen1 T

12. DSN 112 flow recently connected to the l

1 U l POW for Hamilton County. I V (continued) vrvacias usE ONLY (effteeng guadeuNas sujMeregorges) . ___.......rur-- Nrm Apomved er A s.s. nU u.c.s r. ear from 44em 4 ci r,r-i 4; OMB No. 20404086 Approvd capires 5-3192 9 ,wse print or rype in the unsh.ded rees only. TN0026450 _, u.s. an ys.m n w a n r At e.ur scin,.n s.euncy h_RM APPLICATION FOR PERMIT TO OLSCHARGE WASMWATER

1. h EXISTING MANUFACTURING, COMMERCIALS MINING AND SILVICULTUR AL OPERATIONS 2A NPOES

[g g Consolidated Permits Program

• u

t. OUT F ALL LOCATION Fir each outfall, list the latitude and longitude of its location to the nearest 15 seconds and the name of the receiving water.

s. LATl TU D C C. LO N G B TU o E A.QUTFALL U ' " " C " ' # ' " " *

• T E " l""*'l

a. w'a. 8.*se. e..... a.==. a.sec.

/IYrh] i.eso. <;FF PACF l OF TNT s FODM

11. FLOWS, SOURCES OF POLLUTION, AND TREATMENT TECHNOLOG A. Attach a line drawing showing the water flow through the hcility. Indicate sources of intake water, operations contributing westewater to the utfluent.

and treettnant units labeled to correspond to the more detailed dem:riptions in item B. Construct a we*ur belance on the line drawing by showing average flows twtween intakes, operstfone, trestrnent units, and outfalls, if a water balance cannot be determined (e.g., for certain min /np activit/es), provide e pictortJ des 'iption of the nature and amount of any sources of water and any col;ection or treatment measures. B. For sace outf all, prowde a oescript2on of: (1) All oporrtions contributing wasteweter to tM effluent, including process wastewater, sanitary wartewater, cooling water, and storm water runoff; (2) The everage flow contributed by eac5 operation; and (3) The treetrnent received by the wastawater Conti ~ on add.tional sheets if necessary.

3. TM E A TM E NT

1. O PE R AT O N(SI CO NTMiB UTtN O rLOW t . O U T*

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(t g) a. OPE M ATION (!!.stf jgy 12. 11SN 112 flow (cont. ') Flow will normally be 0 urine a 2 7 this system is put into ser- 3 A vice as an alternative en the 1 c normal POTW alignment. 5 A 5 B 4 A Aux. Bldg. Heat Lord 0. 8 MGD None X X 13. 0.7 MGD None X X

14. Storm Water Runof f from 164 ar af facility and addi-tional rainfall directiv into ponds.

(Based on annual average rainfall. 10 MG Lined Pond 1 0 E. Low Volume Waste Treatment 1.06 MGD with oil skimming 1 U Pond (LVWTP) (Outfall 103) 2 K Which receives flow fron 4 A the following: Turbin Buildine Sumo wh'ich r._ceives flow fro n the followine (alternately aliened to the Yard . Drainnee Pond) _ (Continued) v e rici% was onLv rect.ent suwau~. worerom,; Fomi Approved A r A i.o. av m - w tew, fn,m /s,m 4 a gr.,, 4/ CM8 No.204 4C86 $ APProval ersres 541-92 ue print or type in thansheded arees only. TN0026450 "**""'"""'"'^'"'#'CT'""^" " ORM APPLICATION FOR PERMIT TO O!SCHARGE WA"STEWATER EXISTING MANUFACTURING, COMMERCIAL, MINING AND SILVICULTURAL OPERATIONS hh POES {n ~ Comol'dsted Pennits Prograrn EFALL LOCATION . - It each cutfalf, list the latitude and longitude of its locrtfon to the neerest 15 seconds and the name of the receiving water. C. LO N G IT V D E . Q U T F A L. 6 s. LA TITU D E "EcE8v'N * ^T * " Inam</ ""g"E/" ...... .... ...... ...... .... SEE PAG 3 1 OF T:lIS FOMI ~ ./~'> . -' - ? ,.E.  ; (.' , FLOWS, SOURCES OF POLLUTION, AND TRE.ATMENT TECHNOLOGIES . Attach a fine drawing showing the water flow through the fac;ldy, Indicate saurts: of intake water, operstions contributing wastewr:er to the effirent, and trsettnant urJts labeled to correspond to the rnore doulled descriptions in itern 9. Construct a wear botance on the line drawing by showing ave firws ber; ween intakas, operations, trestment units, and outfalls. If a water beJarsca cannot tg driermined la.st, for certain min /ng activ/ti,as), p pictorfIl description of the nature and amount of any snurtas of water tnd any coGection or trustrnent measures. Fct each tutf alf, prowde a descrtgrtaort of: (1) All operatJons contnhuting vestewater to the erfluent, induding process wastewater, sanatary wastewste cooling wat;rf and storrn water runoff;(2) The awroge flow contributrd by each operadon; and (3) The treatment received by the wastewater (n 6dditlurcl sheets if necessary 3, T M E A T M E N T . out.

2. orEn AvioMis) coNTmiaVTING FLOW *

a. D ESCRIPTioH TAs E C.

h"# a. O PE M ATION $1,r) ( g E. (continued) 01 X K

1. Sand Filter Backwash 20;000 GFD None from the majr.e-uo water treatment ninne. mav be _

discharged directly to the LVWTP. 10,000 CPD X X

2. Filtration Backwash None l

from the mnki-un water treatment plant, may be dis-charged directly to the LWrP. X X

3. Softening Regeneration 1.300GFD None from the make-up water treatment plant, may be dis-charged directly to the LVWTP.

X X 4.' DI Water Rinse _from i GPD None the make-up water treatment plant, may be discharged sl[rsgtly'to the (continued) F ic 46 u.E o uLy 1,nto.w ,uu.au, e.urwun - Form Approvec l arr s.t. nuu wteers trem hem a et item t> OMB No. 2040-0086

• 3 Approval n4s 54142 ense print or type la th? unshaded aroes only. TN0026450 u.e. cavi uau2n raL raTcCrium meanCy pg APPUCATION FOR PERMIT TO DISCHARGE WASMWATER n a==

EXISTING MANUFACT1) RING, COMMERCIAL, MINING AND SILVICULTURAL OF"dRATIONS 2h { Conso%ted Permks Program NrOEs ~

1. OUTF ALL LOCATION F:r each cutfall, list the latitude and longitude of its location to the nearert 15 seconds and the name of the receMng weter.

A.OUTFAkb 3. LATtTU Q E C LONGiTu DE

o. neccaviNo waTen (name)

""gd[" ...... ... .. . u . ...... ... ..e. SEE PAGE 1 0F THIS FOR1 ' OWS, SOURCES OF POLLUTION, AND TFtEATMENT MCHNOLOGIES ( A, Attwh a line drewing showin0 the water flow through We facility. Indicar:e sources of Intake water, operations contributing wortewater to the effluent, and tr:strnent unita labeled to correspond to the more detailed descripdons in item B. Construct a werer beLnce on the line drawing by showing everage flows between intakes, operations, tres* ment units, and outfalls if a water befence canttet be determined (e.g., for corte,n in/n/ng ectirhfes), provide e psctorti de'scription of the natute and amount of any sourtas of water and any collection or taannent trmeasures. S. For each outtell, proede e descriptaort Of; (1) All operations contributing wastewster to the effluent inctucing procats wastewater, senstary westewater, coollrq water!and storm water ti.inoff (2) The everage flow contributsd by each operation; and (3) The trsetment mesived by the wastewater. Continue a en additional sheets if necessary.

3. T R E A TM E N T t , O u T,

z. OPER ATION(S) CONTRiouTING PLOW " ' '

A $$^ge$',[ch" C=7" " Ng)" 4. Ortn ATION fmt) e. o rsCMIPTION g E. (continued) _ 180,000 GPD None L T

5. RO Reject from the Make-up water treat-ment plant. May be discharged directiv to the LWTP.

I U Jupernatant from the 31.30Q GFD Pcnd orovides n e r%e n e n e i nn

lum sludge ponds. and sludge thickening. 2,oords 5 L 100,000 gallons each. Land- 5 0 Consists of volumes fill disposal of ciudge when already listed for ,

filter backwashes,etc . necessary. _ , , , _ _ 0.10 MCD Neutralized 2 K

7. Regeneration vastes 4 A from Condensate .___

Demineralizer _ System. Y Y

8. Turbine Blda. Floor 0.16 MGD None and Eculo. Drains (which can conenin system leakage).

Y Y 9.' Steam Generator 0. 6 2qq, _ None Blowdown (alternatel v aligned to the Cooline Tower Blowdown and to Diffuser Pond) (continued) l a r r e c t A L w a s O n uv (mtuen g on seunes au s.ve tesocien form Approved ar A .% mu m m tm py trwm hem 4 cf ferai Jj CMS No. 2W.Ard6 7 12 Amd emphs M193 mese print or type in th: unsheded arnes only. TN0098i450 u.J. En v Num u s n r A L n,mi t cTh.n As s nC v (RM APPLICATION FOR PERMIT TO DISCHARGE WASTDVATER p n EXISTING MANUFACTURING. COMMERCIAL, MINING AND SILVICULTURAL OPERATIONS e ts h g Comolidated Permits Program e .

i. OUTF ALL LOCATION fcr each cutfalt, list the latitude and longitude of its ic<rtion to the nearett 15 pconds and the nerne of the receiving water.

e. LATtTU D C C. LO N GITu Q E LOUTFALL ' "eeeaviNo w AT:a (nam <1

""g*f,y " ...... . . . . ...... ...... 3EE PAGE 1 0F THIS FORP I. FLOvv3, SOURCES OF POLLUTION, AND TREATMENT TECHNCLOGIES Attach a line drawing showing the water f1ow through the facility. Indiczte sources of Intake water, operations contributing westewwter to the effluent, and tr:ctrnent units labeled to correspond to the more detailed descriptions in item F Construct a wetar balence on the fine drawir.0 by showing everage flows tmween intalues, operations,. trustrnent units, and outtalls. If e water belance annot te determined is.g., for certeln minlag actMtfer), provide pictorti descriptjon of the nature and ernount of any sources of water and any collection or tnetrnent rnessures. (1) All orgrations contnbutmg wastew7ter to the effluent, including process wastewater, senstary wartewater,

l. For each outfall, provida e desengt; ort of: cool!ng water, and storm water runoff; (2) . The everage' flow contributad by tech opers en additional sheets if necessary

3. TR E ATM E NT

2. ops:M ATIOH(Si CO N TMle UTIN G FLOW

.our. *

a. D ESC RtFTION Amt .

• INij"'

( e. ortM ATION (Isof) Ic u ) L (""""4""*dI L01 1 Mc linna nnna nna 1 Mc 1 n

10. Mern1 cienning 1sn00 CPn K

Waste Ponds - DSN 10 unlined cond which nrnvide 2 sedimentation, neutralization, 3 G ? r nernrinni nviancinn. nna Ona  ? A rhemical treniniencinn. L 1 R filtrnrion 14 need en re-nue algae and other particulate matter as necessary. a A F. Conline Tower Blowdown 4.05 F +01 MCD Mnne Flow Information. Receives flows that mix underwater and discharge to the Diffuser Pond.

1. FRcW (vninae innindaa n 7 H as 101 - C.) 4.0'l E+01 MCD Tr ated for control of Asiari cicms, Zebra mussels & MIC. 4 A Radwaste system provides 2 J

2. Liquid Radwaste 0.05 MGD treatment bv demineralizattor 1 0 and filtration as necessarv. 1 0 4

l 3. Condenser Cooline 1.11 E+03 MCD Coolink bv naturnt drafe A Water (Helner Mnde) encling towers wit h snma ~ evaporation to atmosphere. (continued) anua w w.n .,e_v.mu~. m .cm us Form Approved e r A s.w. Num o E w(20py pom hem J c/ E.rm Ji OM8 No. YM86 13 Approvd espires 5-3192 1eesa pri?.t or fyot in the unshooed areas 4 nly. TN0f1 N 50 u.S. EMvlW M M E M T AL W.wT E C Ta n M AsuMCY i p'gg APPLICATION FOR PERMIT TO DISCHARGE WASTEWATER l A EXISTING MANUFACTURING, COMMERCI AL, MINING AND SILVICULTURA!. OPERATIONS 2 urocs g Comolidated Permits Program e , EF ALL LOCATlON For each outfall. list the latitude and longitude of its location to the nearest 15 seconds and the name of the receiving water. C. LO N G l Tu o E A.ouTrAT e.LATrTuGE *'""V****T ' " ("'"'I ...... .. ....e. -_""ffEj" . . . . . .. ....e. SLt. FAGE 1 0F THJ S FORM

11. FLOWS, SOURCES OF POLLUTIO , AND TREATMENT TECHNOLOG A. Artsch a line drowing showing the water flow through the facility. Indicate sources of intake water, operations contributing westews er to the effluent, and tr:ettnent untts labeled to correspond to the more detailed descriptions in item 8. Construct a weist balanca on the line drawing by showing everage flows between intakes, opervtlons, treatment units, and outfalls, if a water balance cannot be determined lag., for cortein mining activ/t/es/, provide e pictorial description of the nature end amount of any sources t ? water and any colketion or treatment rneasures.

(1) AH operations contributing wastewater to tne effluent. including procsis westoweter, sanitary wasteweter, B. Fir each outf all, prowde e cascriptJon of: cooling water, and storm wetar runoff; (2) . The evernve flow mntributed by each op on additional sheets if necessary.

3. TR E A TM EN T

1. OP E R ATION {S) CO NTRis uTIN G FL.Ow

1. 0 ur. *

a. D ESCRlrTIC M TA E .

f gj

e. opt R ATIO N (II*ff cf un I """ " 4 "" " #

101 2 K

4. Rezen Wastes from 0.1 MCD Neutralized-A ^

Condensate Demineralize-(alternately aliened to TBS - flow is included in the volume for DSN 1M incensd nf ne chie location). A *

5. Steam Generator' O.6 MCD Mnne Blowdown (alternatelv to the TBS - flow is included in DSN 103 instead of at this location).

' c G. Raw Cooline Water 18 MCD Seasonn11v trent.ed fnr cnnerni of Asiatic clams, Zebra mussels and MIC. a a Racycled cooling water (closed 1.19 E+03 None 110 mode) - has been innerive fne . more than 5 years but; in described I in the license of the facilit" _ _ (continued) re scnau usa oMur terrtuent smaeun** euket.sanens r%4m ApprDveC E P A s.6. PeUM e C'J f tJy /Pom item J (f [ rm Ji OMB No. 2040 0C86 f Approv'J expires 5-3192 . 14 blesse orint or tvos in the unsheded erses only. TN00">6690 W.a. ENVleM M E N T AL PWT Ec TL M Aw E McY p^y APPUCATION F2R PERMIT TO DISCHARGE ftASTEWATER th EXISTING MANUFACTURING, COMMERCIAL. MINING AND SILVICULTURAL OPERATIONS l 2h Nrots { Consolidated Permits Prograrn Ftr each outfall. list the latitude and longitude of its location to the nearest 15 seer,nds and the name of the receiving weter.

e. LAT'T U D E C. LO N GITU D E I'~ouTeALL s. . . s.

D. A ECElvlNG W ATE R (namt)

s. s e c. i.... s. mm.

" "[th " ...... s. ... RFF PAnp 1 np 'Nf T c typ_q I i LOWS, SOURCES OF POLLUTION, AND TREATMENT TECHNOLOGIES , A. Attach a line drening showing the wetar flow through the facility, Indicate sources of intake water, operations contributing wortowster to the e l end treatment units labeled to corraspond to the more detailed des:riptionJ in item B. Construct a water belencs en the line drawing byeshowing / des) provide firws between intakas, operations, trustment units, erw:1 outfall4. If a wuter befence connot be determined (e.g. /or certe/n min /ng acor r pietrit:I descriptjon of the nature and amount o ny sourTes of water and any collection or trsetment measures. O) All operstac Ls contributing wastewater to the affluent. induding process wastewster, santtery wastewater, B. For each outf all, provide e cseecriptaon of: coding water lend storm wete runoff;(2) The everage flow contributed by sac ~ on additional sheets if necessary. .

3. T R E ATM E NT

1. OPE R ATIO N(s) CO NT Rie UTIN G 8' low r . ou T- e, DEscatrTioN D* TANE N.$" "

"* Y,"S ^g["u"n[$ * "#$[( e. cren ATto N (the) ' issued by the Nuclear Reculatc ry 110 Commission. Wou?d receive the foH owing flows: Ae4,* *

1. Essential Raw con 1tr g 4.0~4 E+01 MCh Trenrod fnv r nnern1 M tr 17 clams. Z eb ra yu m m e l e . nnd MT '

A ^

2. Licuid Radwante 0.05 Man o ndencre e y e e ,.m pmr4 A- 3 _t decineralization and f41erar inn 1 A as necessary 1 0 4 A

3. Condenner N rrdi nrir g 1.11 F*M VCn enn14ng ky n,e m 1 Apf t Seasonally. 2 H Water (closed mode) cooling tcwers.

would be treated for control of Asiatic clams. Zebra musse l' and MIC.

4. Regenera.; ion Wastes 0.1 MCD Neutralized 2 Y L A from Condensate Demineralizer (alternate 1 aligpecLto kW,TP via TBS).

A A

5. Reenn cenevnent 0.6 unn None Blowdown (alternatelv to TBS )

Raw Coolir2 Water 38 MCD Seasonally treated for contro) 2 H 6. of Asiatic clams, Zebra musse] s,4 A - (continued) and MlC a rr acm usn oMLv rera.ent amana. mer somn Form Approved OMB No. 20400086 l ar A :.u. numes-(son trem Jnm J of nrm h 15 4 proval c1pr : s.m.92 l ne orint or tyoe in +r unsheded erees ontv. TN0026450 I U.s. a n v s.u M u a n T A L ram. T e c ri ..n A s s n c y ORM - APPUCATION FOR PERMIT TO DtSCHARGE WASTEWATER pt a n " ' EXISTING MANUFACTURING, COMMERCIAL. MINING AND SILV4 CULTURAL OPERATIONS llg roes g Consolidated Permits Program . OUTF ALL LOCATION or each outfelt. Ust the latitude end longitude of its location to the nearest 15 seconds end the name of the receiving water. ,.QUTFALL 5. L A TIT U D E C. LO N GIT U D E ** " ** *'**" * * *'** ("***I ...... ..p .. ... ......

• *p"d>* " ...... ...

t S"E PAGE 1 0F THIS FORM. l LOWS, SOURCES OF POLLUTION, AND TREATMENT TECHNOLOGIES] ibutin0 westeweter to the effluent, i . Attach a line drowing showir*g the water flow through the f acility. Indicate sources of intake water, operat ons contr and treettner t units labeled to correspond to the more detailed descriptions in Itam B. Construct a water belence on the line drawing by showin flows between intakes, operations, treatment units, and outfalls, if a wotor belence cannot be determined (e.g., for certein min /n. xtiv/t/e pict: riel description of the nature and amount of any sources of water and any collection or treatment measures. ster, For each oudell, provuto e desenption of: (1) All operations contributing wastewater to the affluent. Including prrxms: westewater, sanitary ,,e cochng water, and storm water runoff; (2) The everage fiow contributed by each operation; and (3) The treatment received by the on additional theets if necassary.

3. T R E A~M E N T

2. OPER ATIOH(St CONTMteUTING FL.OW CUT *

• e. D ESCRIPTIO N TA E C=

a. OPER ATION (Wf) ' c) u a) g)

None 4 A CCW Intake Trash Sluice 0.06 MGD 116 None 4 A 117 ERCW Screen and 0.01 MGD Strainer Backwash l

• • • • • do*t**in service at this t he. 4 A 118 ERCW Dredge Pond Outfall is inactive, only 1 U stormwater from vegetated 1 Q ,

area discharges. No , industrial activity in _ area. Fond would provide sedimenta-: ion during dredging activities and $41rrar4mm n c Tnuar Aape'- Waste Waters. j s,,,c. ~ e.o LT,.r,m.s - ,.. . ,s , - -a === = -a lb )NTINtJf O Ff4044 THE FRONY . Encept for storm runoff, leeks, or spills, are any Cf tho discharlys described in items ll.A cr B intifmittent or seasonel? Q vse lismotets t\s fillsering C:bLt) Q NO (gs ts 3:ettsn !!!)

3. rREQU ENCY __, A. FLOW

,OUTFALL 2. OPER ATION[s) a. Days b.MoNyNs

• ga gg g,p gggy " g g p' CONTRIBtJTING FLOW Panweta PERvrAn ATION HUMGER (ep* City lopecify e. sen s n e en a. manemum s. 4ene ssaan s. u a nnuy, (jjgfl (list} average) euerage) areases e a st' avsmass one6, (in daysJ 107 Metal Cleaning Waste as Frequency and duration cannot be predicted fron the necessary; various plant past. Rainwate r collecus in the ponds and must be systems are cleaned / flushed discharged app roxima tely 4 times per year.

using any of the following: citric acid, hydrazine, hydrogen peroxide, EDTA, ammonium hydroxide, nitric acid, hydrochloric acid, hydrofluoric acid, EDA, dimethylamine, phosphoric acid, and corrosion inhibitor s. = S. PRO DUCTIO A. Doss an sffluent Guideline limitation promulgated b) EPA under Section 304 of the Clean Water Act apply to your facilityl Q v ts (compit *e item !!1.B) Q N o (to to Section lV) D. Are the limitations in the applicable effluent guideline expressed in terms of production (or othermeasure of operation)? Q YEs (complete frem III C) Q No (to to section IV) C. If you snswered "yes" to item ill B, list the quantity which represents an actual measurement of your level of production, expressed in the .erms and units used in the applicable effluent guideline, and indicate the affected outfalls. 1, AVERAGE DAILY PRODUCTION 7 ,,,,g,,g cuyrgg,gg c.**eaavie=,eneoves,uavening, ,,,,

e. swamervv een o , b. vasts or usasuna (specify) (list outfall num bers)

NA i V. IMPR OVEMENTS) L Are you now required by any Federal, State or local authority to meet any imp ementation schedul. for the construction. upgrading or operation of waste-wstsr 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 compfiance schedufe letters, stipulations, court orders, and grant or lotn conditions. 9 , ,, g,,,,g,,, gg, y,gg,,g,, g,yg,; 3 n a (,,g,gg, ,gy,3;

1. A FFECT ED QUTF ALLS py M$h hNy to:MTIFICATION OF CONDITION, s. SRIE F DESCRIPTION OF PROJECT _

e. .. tL souace on oescuanes NA D. OPTIONAL: You may attach e'iditional sheets describing any additional water poHutson control programs (cr other *enwronmenca/ projects which may affect or planned, and indecate vcar actual or your dischstges) you now have underway or which you plan. Indicate whether each program is now under" plInned schedules for construction. Quaaa x iF oesCai Tion or aooiviona' coNTao' aaoo - : isaTT CNro PAGE 2 OF 4 CONTINUE ON P AGE 3 6 AIML__ _ _ _ _ _ _ _ _ _ _

17 lONTINUED PROM THE FEONT C. Except for storm runoff, teoks, or spills, ero any tf th3 discherpes described in items ll A Er 8 intermitt:nt or seasonal? l Q Y:s (sz*nplet2 the fallswing table) Q NO (ts to Sestirn !!!) l

4. FLOW j

3. FREQUENCY _.

1. C UTP' A L L 1. OPE R ATION[t) a. DAYS b. M ON TMs ' g ,e mgd (spect wt g its e, D u n.

NUMCER COf4TRIBUTING FLOW PER wtEM PER YEAR ATl N (88 ' ' ' * * * * * " **"e*."6,"" [Ilff) [Illf) (8 s.8'.',II,Y or 3 see'r.',8IF e; -...e. '".*..'e'."" - **".*."iu'""" (la day.) 110 Recycled cooling water (closec Inactive during - 1.53E3 - 1.53E3 Cannot mode) has been inactive for last 5 years. MGD be 5 years but is described in Use not antici- predict-the facility license issued ed by the Nuclear Regulatory pated lut Commission. Would receive descrit ed in flow from Condenser Cooling Water, essential raw cooling the Fir al water, liquid radwaste Safety Analysis system, regeneration vastes Report as an from the condensate deminera-lizer (alternately aliped to OPeratJ onal the LVWTP via the TBS), Steam mode fc r the Generator Blowdown (alternatel rf y. aligned to,the LVWTP via the T3S)acilit , Raw Cooling Water. ill. P;iODUCT10 A, Oo:s an offluent guideline limitation promu' gated by EPA under Section 304 of the Clean Water Act apply to your f acility? G YEs (complete item !!!.8) Q NO (to to Section IV)

8. Are th3 limitations in the appilcable effluent guideline expressed in terms of production (or other measure of operation)?

D YEs (complete stem !!!.C) @ NO lie to Section (V) C. If you answered "yes" toltem ill 8, list the quantity which represents an actual measurement of your level of production, expressed in the terms and units used in the applicable effluent guideline, and indicate the affected outfalls.

1. AVERAGE DAll.Y PRODUCTION ,,,,,,g7,,

OUTFALLs

c. **e a afica, en eousv, u af s nia6. sve.

s.cWeaT8v? rem eat b. Watts ser u s a u n s (specify] (llet outfall num bers NA l l l . Are you now required by any Federal, State or local authority to meet any implementation schedule for the construction, upgrading or operation of waste. wIter treatment equipment or practices or any other environmental programs which may affect the discharges descr bed in this application 7 Thisincludes, but is not limited to, permit conditions, administrative or enforcement orders, enforcement compliance schedule letters, stipulations, court orders, and grant et losn conditions. Q , ,, g,,,,g,,, gg, y,gg,,g,, y,yg,, 3 u n g,,,,gg, ,gy,3, ICH OF CONDITION. P. AFFECTED OUTF ALLS pkfMh hNir

IDINTIFIC

,gn L*;,0,- ' e , .. th eevaca er euewanes NA 1 I l0. OPTION AL: You may attach additional sheets describing any additional water pollution control programs for other environmencat proper which may af/eet your dircharpe,) you now have underway of which you plan, indicate whether each program is now underway or planned, and indicate your actual or - plinned schedules for construction. @gng ..x.* IF DEsCRIPTtOM OF ADDITION AL CONTROL PROGRAMS is ATTACHED P A G E 2 O P' 4 CONTINUE ON PAGE 3 , l'A Fcrm 3510 2C (Rev. 2 85)__ 1 ONTINUEO F" TOM THE FnONT

. Except for storm runiff,les'::, or spills. are any cf tha discharges described in items ll.A or 8 int:rmin:nt or season:1?

@ Tss (asmoters ths faitseeing tale) No (as t:0 5settsn !!!)

3. FREQU ENCY _,

4. Flow

"" ^' I .OUTFALL 1. OPER ATION[t/ a.OAvs b. M oN TM s " '*' "" *" "* NUMMR CONTRIBUTING FLOW PER WEEK PER YE AR ATlO N (specify 1. teme T s a me s. es a m ias u es o.tometeam [ff,gt) (speci r avsaaes a. m aa s=, w m (in days) (((f() averese) suereg ) ave **e8 e m i6 ' o n e6 112 Sanitary waste, ground and No operation Frequercy and duration cannot be rain water contributions to anticip ated. predicted from past. Sy stem is being 1 sandfiltere Sewage for connected to tr e POTW r nd will be l facility is alternate use c aly, now cornected to the Hem 11tc n County POTW. E owever, this sy stem remains in the unlike] v event that re aioactis e nuclides are de tected.

11. PR ODUCTIO A. Dois an sffluent guideline limitation promulgated by EPA under Section 304 of the Clean Water Act apply to your facility?

Q v Es (complete item !!!.8) No (to to Section !V)

8. Are ths limitations in the applicable effluent guideline expressed in terms of production lot othermeasure of operation)?

Q YEs (complete !!em !!!.C) No Iso to Section IV) C. If you answered "yes** to item lli B. list the quantity which represents an actual measurement of your level of production. expressed irt the terms and units ussd in the applicable affluent guideline. and indicate the affected outfalls.

1. AVERAGE DAILY PRODUCTION 2,,77,cyg,

~ OUTFALL5 C. e*e m arien. pa oever. as ava nnah. evt. t3. u mste or as s a su e s lspecity) (list outfall num bers) l e, su mmertv es e ear NA A. Are you now required by any Federal, State or local authority to meet any implementation schedule for tne construction, Lpgrading or operation of waste. , watst trettment equipment or practices or any other environmental programs which may affect the discharges describec' in this application? This includes. but is not limited to. permit conditions, admir.istrative or enforcement orders, enforcement compliance schedule letters. ::ipulations. court orders, and grant or losn ' nditions. , ,, g,,,,g,,, gg, y,gga,,y,y g,yg,y , nn q,,g,gg, ,gy,g;

2. AFFECTED QU TP ALLS p"GE$h hh IDatMTIFIC ATION OF CONDITION.

AMEEM ENT. ETC. , ,,, gL,,u,,,,,,,,,,,,,, .e ,% .. } y l; NA

1. OFTION Au You may attach additional sheets describing any additional water pollution control programs for other environmentalprojects which may affect your aischarges) you now have underway of which you plan. Indicate whether each program is now underway or planned, and indicate your actual or planned schedules for construction. OMaan x ir oEsCairvioa or ^ooirica^' CoaTao' acca AMs is Arr4CwEo

.:LLLm *LufLM_ningsst r* A C E 2 o F 4 CONTINUE oN PAGE 3 ~ UTINUf D FROM THE FCONT iEscept for sicrm runoff, lasts, or spills, cre any cf the discheroes descrited in items ll.A or D intermitt:nt or seasond? Q vss istmplets ths hilswing tsti:) Q No its ts Srstisny)

3. FREQU ENCY _.

4. FLOW OUTFALL 2. OPER ATION[t) s.DAvs remwack b uoNTNs ramvrAm

" ) # "E fUMCER CONTRIDUTING FLOW (8PeeI/y 3. os am swww ATION [fff(/ [//tf/ (878 ever.fi/,1 u> eneroses b.be=evsau ,e.see e. s, s. .te.me . na 3. ue. ... v.e s as=,v u e. tin sare) 116 Condenser cooling water 7 12 0.060 0.120 0.021 screen and strainer backwash MGD and stormwater runoff. ,PyD . ] , , Do:s en sffluent guideline limitation promulgated by EPA under Section 304 of the Clean Water Act apply to your f acality? Q y ns (comPlate item !!!.8) Q N o (to to section (V) g {Ar3 the limitations in the applicable effluent guideline expressed in te.ms of production for other measure of operation)? Q Y us (complete item it! C) Q No (to to Section IV) If you enzwsred "r " to item lit.0, list the quantity which represents an actual measurement of your level of production, expressed in the terms and units us:d in the applicable effluent guideline, and indicate the affected outf alls.

1. AVERAGE DAILY PRODUCTION z.AFreCTro o ut r A LLs l

c.eeenarien **eaucs, sransas. ase. (gg, q ,, gy,gg ,,, y,,,, b.u=sv.e,us..u.e y avanviev esa saw g,,,,,fg L F l

NA l

l f ' ' l fMPROVEMENTS] . 1 -Jk . . j' l Ars you now r(quired by any Federal, State or local authority to rneet any implementation schedule for the construction, upgrading or operation of waste-wittr trsatment equipment or practices or any other environmental programs which may affect the discharges described i.s this apotication? This includes, ' but is not limited to, permit conditions, administrative or enforcement orders. enf or.ement compliance schedule letters, stipulations, court orders, and grant cr loan conditions. Q , , , g,, m,,, ,, ,g, y,gg,,gn , ,, yg,, 9 Ha q,,,,gg,m gy,y; p'[r # M[f" Mg p"1N TIFF C ATION OF CONotTION. 2. AFFECTED OU TF A LLS A c M m E N T, E TC. e . =. . tr eevne s or nies=4aea ,,a,"

• re Efff;;

OPTION Alt You rney attach addi*ional sheets describing any additional water pollution control programt (or other environmentalpro/ vers which may a/fect your diseApps) you now have underway or which you plan. Indicate wnether each program is now underway or planned. and indicate your actual of Pron d schedules for construction. Quang..x..,,oggen,pysonoraooirionagconynotpaoongusog4774cugo a r.m - 1r4 , a < rn , = nei P ACE 2 OF 8 CONTINUE ON PAGE 3 ONTINUED FROM THE FRONT .20

3. Enept for storm runoff, leeks, or spills. era sny of the discheroes described in items ll.A or B intermittant or seasonct ?

Q Yas teomplate the folloneing table) Q No (to to Ssettong)

3. FREQU ENCY 4. FLOW tt T o t A L v o s,t, u g

. OU T F A Lt. 2. OPER ATION[t) a.oAvs b.woNTMs a.$"wRATE " "# '""* HUMBER CONTRIBUTING FLOW PER watM PER vt Am ATION (specify .u (specify ih.a...." 8. m.. im um

s. e.

[fft() [ht() so m es> euerase; ev..... e.is, t. Seae..v .,. . . ..a .sn=,v . (in seye) ERCW Strainer backwash 3 12 0.008 0.033 0.008 0.033 0.024 117 and MGD MGD ERCW Traveling screen backwast 4 12 These backwashes together comprise the .008 MGD flow described. Strainers are backwashed 3 times per week for a duration of about 15 minutes. Screens are backwashed 4 times per week for a duration of about 30 minutes ll. PFIODUCTIO l A. Does en effluent guideline limitation promulgated by EPA under Section 304 of the Clean Water Act apply to your f acilityi @ v us (comple te Item 11!.D) Q No (no to Section IV) B. Are th. litmtations in the applicable effluent guideline expressed in terms of production (or othermeswre of operation)? Y ns (complete item !!!.C) No (to to Section (V) C, if you answered "yes"to item ill.B. list the qua ntity which represents an actual measurement of your level of production, expressed in the terms and units used in the applicable effluent guideline, and indicate the affected outf alls.

1. AVERAGE DAll,Y PRODUCTION ,, ,,

e....,,,,....., u...,,. .. .......

,.,;,-- ~ - (u.t tis ', n e, a, NA V. IMPFIOVEMENTS3 A. Are you now required by any Federal, State or local authority to meet any implementation schedule for the construction, upgrading or operation of wa ste.

water treatment equipment or practices or any other environmental programs which may affect the discharges described in this apolication? This includes, rant but is not limited to, permit conditions, administrative or enforcement orders, enforcement compliance schedule letters, stipulations. court orders, and g or losn conditions. Q , , , g,,,, g, ,, gg, y,y,,g,, ,,y,, 9 u n g,, g, gg,, gy 3,

2. APFECTEte OUTP ALL.s p'((A$ $ib hNar_

IDENTIPtC ATION OF CONQlTION, 3. smier ossCRIPTeoM OF PMoJECT

e. ... th. u.a.e. sissa....

NA 1 OPTION alt You may attach additional sheets describing any additional water pollution control programs for other environmentalprojects which may a al ffect or your dischar;ws) you now have underwey or v.hich you plan. Indicate whether each program is now underway or planned, and indicate your actu plantwj schedules for construction, @ang ..x,* IF otsCRipiloM oF ADDITloM AL COVTROL PROGR AM5 is ATTACMED = - m m eam~ m_mn _ PAGE 3 OP 6 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - CONTINUE ON PAGE 3 CONTINUliD FROM THE FRONT C. Er. cept for stirm runoff, leeks. or spills, ers any of th3 discharges described in items if A or B int:rmitt:nt or sessorci? 4 YCe g samplets ths fouswing table) Q No (to to section !!!)

3. FREQU ENCY _. 4. FLOW l.OUTFALL 2. OPER ATlON[s) a. o A vs b.=owTMs 'g\, "ma"df (sp est wYt u$lts c. ou R.

NUMEER CONTRIDUTING FLOW PER WEEK PER Y E AR . 6ame te em s. m am em.m t.6emevsem I 3. m amem.m ATioM l (speci/F (speggfy l (in days) fffst) [ffst) average) euerage) avsemee s ae6v avsaaes enes, g , I 118 ERCW Dredging Supernant No dredging operations have beenconduc ted in e past 5 years. Flow cannot be predic ted based on pas . Pond is presertly vegetated ard no industrial activity is ccnducted in the v icinity. Ill. PROOUCTIO - A. Doss an effluent guideline limitation promulgated by EPA urider Section 304 of the Clean Water Act apply to your facilityl D Y es (complete item !!! B) C No (to to Section IV)

8. Ara the limitations in the applicable effluent guideline expressed in terms of production (or other measure of operetion/?

Q Yts (complete item ill C) C no (to to Srction IV) C. If you snswered **yes"to ltam ill 8, list the quentity which represents an actual measurement of your level uf production. expressed in the terms and units ustd in the applicable effluent guideline. and indicate the effected outfalls. 1 AVERAGE DAILY PRODUCTION s. ArrscTro .............a. t,.....e e. m..e... . ,,;;p,; - . e-(m, V." ^nt ,e., , i > NA IV. IMPFtOVEMENTS] A. Are you now required by any Federal, State or local authority to meet any implementation schedule for the construction. upgrading or operation of waste-watfr 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. court orders, and grant or fotn conditions. Q , ,, g,,,,g, y, gg, fogg,,g,, y,,g,y g ,n g,,g,gg, ,gy,g;

s. AFFECTEo ouTP ALLS p' i n' $i

-t,to2NTIFIC loM oF CoMolTION.

e. ne. thee.eem er eseawanes .w,... ,,,,,,

NA 4 h B. OPTIONAL: You may attach additional sheets describing any additional water pollution control programs (or other anytronmentalprojvers which may s/fect 4 your desc/*arges/ you now have underway or which you plan. Indicate whether each program is now underway or planned, and indicate your actual or J pis,nned schedules for construction- O=^a= "x- iF oescai*rica or aooirtoaa' coarao' aooa*=s is arracaso 1 PAGC 2 OF 4 CONTINUE ON PAGE 3 EPA Form 3510 2C (Rev. 2 85) Analyses of the Sequoyah Intake were performed for information and comparison purposes. These results are provided for your review. t e A s o. Muu nt n ecopy frem item I ci fen's 2 9 W PLEASE PRINT OR TYPE IN THE UNSHADIO ARE AS UNLv. 4 vu mew . e -- 7,c - TE0026450 this information on smarate sheets (use the some formatl instead of comp!etmg these pops. SEE INSTnUCTIONS. V. INTAKE AND EFFLtJENT CHAR ACTERISTICS (continued from pape J of form 2-C h outfaff. See instructiorts for additional details. DART A - You must provide the results of at least one analysis for every pollutant in this table. Complete one table for eac " " "

2. EFFLUENT ' *'

, , (([r 'v'1",, w , o. or '~ ' " " 'r7,",.,Mf,7 * " ^ * ' , ^ ~ ^ ' " "

1. POLLUTANT .. u Axtuuu oneLv v Atur b' " ^ ^ 'W"df,$g7;' V ^ W E y

<>-a <>i--- . ... . t.'J. .,. N-a ^ " ^ ' " " *+'a a"E"i * " " " - .t.'... ~ '**--" . .y,jl!. ,,,,,, . ... . t1. ... . e.oen .. mg/L lbs 3 3.86E4 1

• • 0 ca"o"un '*"* (6.43E4

n. c> mic mg/L lbs 45 1 o.ve o-.ao tcoor mg/L lbs 2.I 2.70E4 1

• ~

Carbon* *' "r'OCJ f

d. Totet Suw.ed.d ag/L lbs 2 2.57E4 , 1 soim <rsss

• ^*'"*"" "' og/L lbs 0.02 2.57E2 1 v aws vatut vatut v a t.u t MGD 1.54E3 1764_

(6) vAtut v a t.ut vatus y ,, vatut 10.4 151 <=- e,rs (iy vA ^" t

• • '"" #^'"' ""'""

A TWet. ,C 16.8 214 r --ers (2) u,Neuum u n xsuuu uewiuuu M Axtuou ~ I svaNonnoUNtTs

i. pH 7.3 7.7 PART B - Mark **X~ in column 2.a for each pollutant you know or have reason to believe is present. M ark **X** in column 2-b for each pollutant you believe to be obse n which is limitsd either dieectty. or inderectly but eupressty, in an efffuent limit ations guideline, you must provide the resutts of at least one ansfysis for that po!1ut cofumn 2 a. you must provide quantitative data or en swptanstion of their presence in your discharge. Complete one table for each outf all.See the Instruction

4. UNITS 5. IN T A K E (cerkwe.lf

3. E FFt_U ENT "

f . PO LLUT. 2 " A " 't

• x -

" 6. u A x q,gg,gg v v Awt NNG y,M,,gf,p. V AW E : dNO Or . C ON(t N- Ass Avr AG v A t'Uf AN C AS NO 0*;* *((r .h. *.,IE 'M"*'" , ,' "**^'."g ,, , pA , ",,,,, , ,,,, , tt , ,,,,, e . . .. m i,i ... v,o v a a'=N , ,,, , w. , _ i . i . . .. on ru n.ai,, .... . c.i . . .. e,ow. og/L lbs < 0.1 41.29E3 , 1 (24959 67 9' X 1 & cwo""* in..g) mg/L lbs < 0.1 <l.29E3 X c., Coior PC 10 1 X [ l[ ^

d. F oc.4 <- 1 como, (7) X 100 ML I

.. r ivo,id. (16S84-484) X mg/L lbs 40.1 < l .29E3 . I t f.Nttret.- mg/L lbs 0.06 7.71E2 1 Nuret. t.. n; X P AGE V-1 CONTINUE ON REVERSE l rpA Fnem 3510-7C (8-90) ! TEM V-B CONTINUED FROM F RONT ' 4 UNITS S. IN T 6 M E (ryrknesef; POLLUT, t manu -x- 3. EFFLU ENT C.LON G T M ,VALUE c, t nu O F J  ; ,{; c. M AnsMuse onsLv vnLut A ** ^ ^'%"d,f,%jYVALUE g CA i, waarto~ m .u, ..r. n.sto .... .... ,,,,, , pA , ,,_ ,,, ... , _, , ej, , ,,_ ,,, .., , _, , t.j,, ,,_ ,,, ... ,,,, , , , . . .

s. Nitrosen, retn ore ** mg/L lbs 0.22 2.83E3 1

<= No X 45 46.43E4 $' U (7) X mg/L lbs i L Phosphorus (y,$'g [f'o',' X mg/L lbs (0.01 4 1.29E2 1

1. R.dio.ctivity iIn t.teh..

T"*' (4; X PCi/L lbs (2.09 0 1 (2) G t.::j (4; X pCi/L lbs d.99 2.56E-08 1 e aur.actum-

• % (4; X none detected I

(') R.dlum 22 4. Tr ts' (4; X k.toiv.t. l" # ",*c. ',, , , X m;;/L lbs 14 1.80E5 1

8. Euffid.

'** 8' X mg/L lbs 4 0.02 < 2.57El 1 m < suivi,i.( soa 7 ) 1 1 042ss4s.3i X mg/L lbs < 0. I < 1.29E3

n. sine.cunu X mg/L lbr 40.1 < 1.29E3 1

e. Alumirtum.

Tot;f

1. 7422 :o si X ug/L lbs 60 7. 71E 2 1

p. B.rlum.

T o til 17c4139-3) X ug[L lbs 20 2.57E 2 1 .. e , r s o. YEo.42 s X ug/L lbs < 500 4 6.43E3 1

r. Cob.it.

T ot7 8 si n o 4a 4: X ug/L lbs <,1 < 1.29El 1 .. Iron. Totat 7cas s9 el X ug/L lbs 170 2.18E3 1 c

t. u.en..eum.

[7$$ rs , X . mg/L lbs 5.2 6.68E4 1

u. u ovedenum.

i74399e7, E ug[L lbs < 20 < 2.57E2 1 .. u .ne.n.... Te t :.8 17c39 css X ug/L lbs <5 < 6.43E1 1 i w. Tin. Tot.1 l 8 'd 'o 315: X ug/L lbs < 50 46.43E2 1 l u. Tit nlum. [E' .32o s, , X ug/L lbs 8.0 1.03E2 1 PA E V-Z CONTINUE ON PAGE V - EPA Form 3510-2(, '8-90) < re a e.o. nuutu e tres y tee *v Itm i et fem a i cn*'""*** " . N TN0026450 Intake CONTINt3ED FROM PAGE 3 Or rOnv 7 C Mort T

• We PART C . If you ere e primary industry and this es**en coateins process westewstee, refer to Tese 2c-2 in the e m#; te d***rmm*

6rrrr'et A - W er* 2-3 for e such GC/MS fractions that opply to four 3 =dustryd eM fork ALL tow + etes cyv ides 2b r t sevf tetet for any Mutsat.pheeoIS r veu must prev If you er*

• ** the net rewired r"v'ts werfewefer ourfelfs. eminenrecurred GC/MS /rectens/. mark ~X'in cofumn 2-6 for each pe uten youy new If yet me k cduvan -J+. 2.4 bet eve is obsent. If you merk column 2e for any polluttet. vtra m.ist petmde the rest sts of at teest one one5 for2b ssreesco t*toter stt*Iacco+*.n.

reth sat.su , s veu r-er6 ce8ven yevff+=cbeet:* you know or have rassen to believe it vriN to drscher;*d ier cenecestmas r of 10 ppb er gres*er hav_ eve that M of et leest one enelyss for that poGutent 68 a direitrophanot. or 2-methy'.4. 6 db-M" ". yev mtsst prow da the resvMs of et least one enetysis for each vt t5*se v g=e tutems webach #yms krwyn datods and erus' tw --*nhar -- s subm+t et ** ceneentrwtions of 100 pub or greeter.Otherw*se. fer re"' stents 8 v tot e.ch you mark re'umn 2b. vou !tirry. Complet* ene tet*8 fe# 7 paper / for each evtf*Il See instruct *cas  %* #A w be discherg*d Note that there ere 7 pages to 154 pa-t. 7 ease r --- s eech caref 3. W T A M C 1, 7'1

8. UNITS l x" 3. Erf LUENT ,ety,~7t v,r,.7,t .,.c.,,

I. POLLUTANT r. m a L C.N D C A S N u M s cre

• ry' ?. n

-m

.. = a xe=uw o a et v v a t us 1 6 ^ ^'W" U,W w a tuu v.s ,,,..

e to-c gj.,=,,,ejgy.7. _ y,e, g,, v e tu e ., , , , , .., "f,07 , ee,ct,. v a =Teo= yy g-- ,,,.... *[s;I t O . , .;, ,,,,, ,3;y, , ,- i.,..., rer nf W .* *p. METALS, CYANIDE, AND TOTAL PHENOLS 1 ug/L lbs 41 <l.29El I " ^ ' ' ~ mes e"7c4o-a's'os g i }

w. Ar,*nie. rere 1 ug/L ifs 41 <lg,CEl 1

i tr44 ass 2 x 1 ug/L lbs '41 41.29El 1 De'.NoYd.73 X ug[b Ibs 0*7 0'00 ' 1 au. ceame - - 1 T*tel f 7cdo d3 9) X cu. cheome w a. 1 ug/L lbs 41 il_u20 El___C m .it7c4o ar.3: X 1 ug/L lbs < 10 41.29E2 1 [,% %

• X I ug/L lbs <1 41.29El 1 p'Ty.,f" '

y '"""v**' 1 ug/L lbs <0.2 42.57 , 1 , , _ , , x  ? 1 ug/L Ibs <1 <.1. 29 E l I "es tr *oor#- -of X '0"S*'**'""'- 1 ug/L lbs <1 <l.29El 1 Toes er7:2 ** 2' X

• • • ""*'*** 1 ug/L Ibs < 10 (1.29E2 1 (7c4o 22-41 X

" I ug/L lbs <2 <2.57El I m'2C e (7"c4o""s'2 - c) X

• d 1 ug/L lbs 410 <1.29E2 I

,'774,*gg3 X t au. cwo e. I mg/L lbs < 0.002 (2. 57El 1 me tsr.12 es (7;X I ug/L lbs gg

• I

• Apparent laboratorf probler is under investigation. 3 OE3 g'gN"*'S ( 7;y DIOXIN umscesoEwtsutTs 2.3. 7.te T et-e-cMocodibento-P.

D6e.sn (1764.o16) X CONTIN *JE ON Rf VERSE P A GE V-3 C4PA Form 3510-2C (S 90) XNTENUED FROM THE FRONT 4. UNITS sr.IM Y %M E ter'wa.t)

3. EFFLUENT ~~ -o o.

f. POLLUTC.NT cgg; 2..easen*a" x - w3.w - ~~- w. urc -' 4 -o o. yo c= tt uain Ahwr-. . . . . . eat a.*m -

t. . 3 ... .,,, . on. . m m

...... ...... m a n.-'--~~ a.n < e. :- t.r) n -~ s  :=q.=. . . e.. , . .._ . . . . . .-.r ... GC/MS FRACTION -VOLATILE COMPOUNDS ' ugyL lbs <100 ( l . 29E3, 1 tv. Ac.oe.tn 11:;742a y 2V. Acrytontifft. ug/L lbs (100 < 1.29E3, I ( (1 71511 X 46.t.3El 1 ug/L Ibs  : < 5.0 (71'-43-2) 7 av. o .rc w o o. s=sethyl) Eth.c r42es1: < (5) (10 41.29E2 I tv. cromod,m ug/L lbs t72-2s 23 y , g cv. C < tion ug/L lbs 4 10 < l . 29 Et, 17.w. chewed. us-as et X l < 10 <l.29E2; I 7V. Chlocot>.ns.a. ut/L lbs (108-90-7) 7 SV. Chiocodt- <10 < l .29E2 I ug/L lbs t>covenom.th.a. t :2S4s-in X < 10 < l . 29E2 I ev. Chio,0.th.a. ug/L lbs *** I . 10V. 2 Cheoro. ug[L lbs < 10 41.29E2 I .m, ways een.c (11472O) X < 10 < I .29E2 I 11V. Chloeoform ug/L lbs (37 66-3) 7 g 12V. Dichloro- ug/L lbs < 10 '41.29E2 tiromem.th. t7s 27.c3 X 13V. Olchlore-dIf tuorem.th.n. (7171C) (5) < 10 < l . 29E2 I icv.1 5 -Dichio,o- ug/L lbs ""* tis-34 si. X s 1CV.1 2-Olehtoco. ug/L lbs < 10 <l.49E2

.,h 1

74s-23' X l g

12V.1.1-Dichloro. ug/L lbs < 10 <l.29E2 hy w ars-ss-d' X , g 17V.1,2-Olchsoco. ug/L lbs s 10 < l . 4,9 E2 o,co tie ar-s' X 1ev.1.3 Oichter.- ug/L lbs < IG <l.29E2 1 " * * * " X <.10 <l.29E2 I 5:v. E versit>.n .,. ug/L lbs s toS414: y 2!V. M.thyl ug/L Ibs < 10 <1.29E2 1 8"**8 <X < 10 <I.29E2 I 2 tv. u.t+,vi ug/L lbs j l CMw. t7e a f-s' X PAGE V 4 CON TINUE ON PAGE V r; A Form 3510-2C (3 90)

m. - . av=.e. teory rr , se,., s or r- si ou eeato au~ eta TN0026450 INT

CONT NUro rnOM PAGF v4

3. pot.t.,UT AMT m. seman s:- 3. Errt.UENT 4. UNITS s. seeT AttE (M wonet/

M axtw ooe D ATLv v aLUE " ** h']*d* ? %p' * ** " ~ ' E

• 8 C"" T(('M,$[' * *W# 4wo * , ca cg, g

• g7,"uS Nt v t UM R

. . - - . .__.","E,T' o - '."

• ;!,** '),*;,j,;;,

m a. , .yf  := .=. . .w... _l t. .. . . w. . _ i . . . ,_.t .. i...... o,.. m. -- OC/US FM ACTION - VOLATTLE COMPOUNDS fee cf=oed) $7,$.,, ug/L lbs 4 10 <l.29E2 1 2 3V.1.1.9.2.T'6tr.- e* m a. x ug/L lbs < 10 <l.29E2 1 (79-34-8) 24v. T.t chio'*- ug/L lbs < 10 <l.29E2 1 .e vi (1271s-41 x ','M*-3 X ug/L lbs 4to 41.29E2 1 26V.1.2-Ti.e' - 1 o'emo o.ents t tse cou X ug/L lbs < 10 <l.29E2 1 27V.1,1,1-Tel-c*t.eca a y ug/L lbs < 10 <l.29E2 I (71-es 4) 28V.1.1,2-Tel-

• g[, " ,

y ug/L lbs < 10 <1.29E2 1 29V. Trfichs ro- .,hvi.e. t 7,o.ot.s3 g ug/L lbs < 10 <l.29E2 1 30V. Trichloes,- a "re es c.)s- ug/L lbs < 10 <1.29E2 I t cva* X S7e;,7/"I s ntw x ug/L lbs - 30 41.29E2 1 GC/MS FRACTION - ACID COMPGUNos _ 1 A. 2-Chforoph.aoi X tes s7e ug/L lbs < 5.tr 46.43El 1 2 A. 2.& olc h8ero-X < 6.43El ph.aoe ti23e2 ug/L lbs < ".0 1 3A. 2 &olen. thy .*.aostios-e ,.,l,- I < 6.43El ug/L lbs < 5.0 1 . 4A.e.o oi E o-cr its3*sz-t' X ug/L lbs < 30 < 3. 86E2 I s A. 2.e ones*

• • ~' (51 78 **

X ug/L lbs < 20 < 2. 57E2 1 SA. 2 Nitroph.nel tes-7&s' X ug/L lbs < 5.0 < 6. 43El 1 7A. 4 Nitroph.= tot s toc o2-73 X ug/L lbs < 30 < 3. 86E2 1 C A. P.Chle*o-M-c, i tsiso-73 X ug/L lbs < 30 43.86E2 I sA. r-t.chio,+ p*=i ta7-es si X ug/L lbs < 30 <3.86E2 1 10A.ch.aot s tos-es 23 X ug/L lbs < 5. 0 < 6.4 3E1 I t 1 A. 2.e,6-Tre l,",,T,7' X ug/L lbs <.20 < 2. 57E2 1 CONTINUEl FROM THE FRONT _

t. POLLUTA NT a. w a net a- 3. ErrLutNT 4.UNtYS 5.'N7CMCt+ W J d"?EIS  :::*la::.har. ==a'"~u"="'<^= " " ^ "'".'/ "J1W " * " * ""' W" NP " * "' dpy,77 e co c

.e ,, ,,,,, _d2.nMT" cyy,77 e r -- _ . tL . ... **--. nc s cs--- nc s N * * * * ' Ql = l * ~ ,,-.tL..-l _ . ':.'. . . *s-~~< ' ' ' :.*~~ . - ~ GCM FRACTION - BASE /NEUTR AL COMPOUNDS l

12. Aceasphtheae t 3 320 (3) X ug/L lbs < 5.0 <6.43El 1 21 Atenechtvlene (20s ssa (3) X ug/L lbs < 5.0 4 6. 43El 1 3F. AntNecene '

s t ro-12-7 X ug/L lbs < 5.0 < 6.43El (3) _ _ 1 4R. Bonaldine (92 C7-C) (3) X ug/L lbs < 30 < 6. 43 E2 1 c2entj*res Qa'""** . 3 33 (3) X ug/L lbs 45.0 (6.43El I c 2 e eco ser ev= e tso 32(ej ) X ug/L lbs__ <10 <l.29E2 1 7 2 3.ssev- - th.o-.aes.m. (2059944 (3) I ug[b lbs < 10 < l.29E2 1 CJ. Bentoerhi) [Y2 (3) X ug/L lbs (10 < l .29E2 1

98. Ben a th7 r w eath. .

X ug/L lbs <10 <l.29E2 (207osa (31 1 108. f ss i2 Chloro-athoxyl Methese citi u .is (3) X og/L lbs < 5.0 < 6. 43El I s ta u tz chw (thyff Ether yt i-4 e-o (3) X ug/L lbs 45.0 < 6. 4 3El I sta e 12m we tene, tio2 $' X ug/L lbs < 5.0 (6.43El 1 139. L 6e (2 Erhyl-I"Q,".*77*'y*3 ) X ug/L Ibs < 3.0 < < 6. 43El 1 t o. m-. ph"v' <h'av' Ether (1115Sj 3h X up/L 1bn <5.0 < 6.43El 1 is2. sveve eeAr'v's rht ..i.e. tes fi[ X ug/L lbs <5.0 46.43El 1

n. 2-chio o-M"3,"*,f g)

X ug/L lbs < 5.0 46.43El 1 172. C-Chloro-FA mylwhenyt E ther (7005-77.J{ X <5.0 < 6.43El i3 /I- 1. b e I i u. chev=ae"' (2 t xi-ti (3) X ug/L lbs < 10 <l.29E2 1 s a. o,se- oee.k> A n th,.c.a. , 3 X ug/L lbs C3 74 31 / < 10 <l.29E2 208.1.2 Okhloco- ""'"* '"~5f3') X ug/L lbs < 5.0 < 6.43El 1 212.1,3 Dichloro-6**

• a- (54' f3 f X] ug/L lbs < 5.0 < 6.43El I P AGE V-6 CONTINUE ON FAGE V-EPA Farm 3510-2C (8-90)

ten s.D. MU**eEW fcery M frem # of Fe I) CUyF ALL MU.894[W TN0026450 1hT CONTimoto rnOm eAct va '

a. unin s **7aat t =>

. cou.urc.nr z.-a-= w 2. tr ri.u tu r

• "" ^ "#/" ?,,?.VC7 " ^ '"* * ' "* 'l/'."/.fW,P " ^'"" $'*," o' MMG..En d~N$n .--,**,"J, '

.:. :-J.::;,J.;;. . =am'au= Daet.vvatue .-~ ,_ ' " a m"* 1:,a- -= N .n.+ers .yg :m c. .;. ,_ cf.,,,,,l ....... ,,,,, ;/,, _ er ... ,_,i,> ,, GC/M5 FRACTION - BASEfNEUTRAl. COMPOUNDS feenrineed-2211,4Dichloro- <6.43E1 a.sto g 7; x ug/L lbs < 5.0 1 239. 3.3'-Dachsoro, t=~r '** I ug/L lbs < 25 <3.21E2 I coi 4 4-tm (3) 289. Ot.thyt N'*** I ug/L lbs <50 < 6. 4 3 F.I I te44+2) (3) 2s ^ "'"'*"

• • '****8 (3) * "E/L lb8 45.0 <6.43El 1

(131-11-3) 266. OkN_.dutyi ug/L <6.43E1 y y (3) X lbs <5.0 1 -' 273.2.4 D8nftro- <6.43El toh=a.fi21jg2 X ug/L lbs 45.0 1 2e 2. 2.s.Dianuo. ug/L 45.0 <.6. 4 3 El

• • 'vea. tsosj agai lbs 1 X

298. Of-N-Octyt' EC"g.'},(3) X ug/L lbs 4 10 <1.29E2 1 309. f.2-Diph.evt- . hydr.:la.f.e Aro. jt Dear-ne)(12246-7) X 313. Fheer.nthen. X ug/L lbs < 5.0 <6.43El 1

(20s-44rs (3) 32a.rh,or.a.

196-73-7) . g g < 5.0 46.43El 1 X ug/L lbs < 5.0 <6.43r1 1 - nTe53ifI3J 34s. u 45.0 <6.43El $7 ss a u din) .chio.o-X ug/L lbs 1 ug/L < 30 (3.86E2 ENi"N X lbs 1 3es. u .chior - X ug/L lbs < 5.0 (6.43E1 1 'thaa' t37 7J-M I373,ted.no . < r.s.s<d) ry~~. X ug/L lbs <10.g (1. ,t9 E2 1 a t:3-39-te) (M , ana.e,oche on. '73ml ru X ug/L lbs 45.0 (6.43El 1 39s. n.chth.w i

• f3120 33 X ug/L lbs '<50 (G. "-%1 1 (3)

) j4oa.uotrod.ne.a. < 5.0 (6.43E1 i t9e-es-33 (3) X ug/L lbs 1

ei . w-ustro-

. e thvi.mio. X > 1 8 3 75-Cl 423. M-N ttro.edt- ,MUf,773) X ug/L lbs < 5.0 , <6.43El 1 iPQ@(C W-F - -. .- , . _ __. . _ _ .._ _ CONTINUE ON STEVEft1 CONT!NUED FROM THE FRONT

4. PC s.LU T A NT a . me n m et se - 3, Er rLUENT 4.UM Ts s IN T net t r-Ws l

m"~E.'Ed - 3::h.n; .. - a = ~ u = o a n v v a 'u e ' " ""W "JMW " """ " '" '.C .VJ " """ . > ~,o, g.' .co~<. =="o~ ,,,,,, Mr'u'A i !2,=- 'L.~".c,~ o,;.- , ...s N uw, lq:2-  :::;jt... i.i l ...... , ,,, , t J, , ,,,, ....... , ,,, , ri ,,,,, i..... .s.s . . - . . GC/MS FZACTION - BASE /NEUTH AL. COMPOUNDS (conts.ed) '13a. N-Nitro- g X 1 ug/L lbs < 5.0 (6.43El 1 .oo%$.e <ss 3ec3 *5) (. ~ X ug/i, Ibs 45.0 (6.43El 1 hIs'$ 7 '{3 X ug/L lbs < 5.0 (6.43E1 1

• 'dIoE'o~ (3) i 4 68.1,2,44. Tel-X ug/L lbs < 5.0 (6.43El i I

• tir **"or 2. i i .6**'"(3)

GC/MS FOAi TION - PESTICIDES 1P. Aldeln <3094021 X ug/L lbs 40.01 <1.29E-l' I (3) l L P. ache (3 '? G~4 8 I ug/L lbs (0.01 <l.29E 1 1 ( (3) 3P.OBHC {Q,01 (31d 85 7) y y *{ igg ({,2tt{_{ { 4P.pcuc (55 W (3) X ug/L lbs (0.01 < l . 2 9 E- l' ' se. 5.csc estoesci X ug/I, lbs (0.01 <l.29E-1 1 (3) .e. cssore.n. 15 7- 7*C ' X ug/L lbs (0.01 <l.29E-14 1 (3) FP. dft-DOT (502333 X ug/L lbs 40.01 <1.29E . (3) _

A*. off-DDE ir2cs4: X ug/L lbs <0.01 <1.29E-1 1 (3)

"J*. e.*1' - D D D ' < 72 5'2 C8 X ug/L lbs 4.0.01 <,1.29E-1 1 (3) ioP. oi. a.m C0 5 711 X ug/L lbs <0.01 <l.29E-1 1 (3) 11P. a E ndo uff en (855-29 78 X ug/L lbs <C 01 <l.29E-1 1 (3) i2P.0 E w o n.n (11s 29 71 X ugjt 133 40.01 <l.2)E-1 1 (3) 13P. E noo.vtf en IEE2*17 c) (3) X t.g/L lbs <0.01 %1.29E-1 1 14P. E rwfeM (12-2oci X ug/L lbs <. 0. 01 <l.29E-1 1 (3) isP. E, oren ug/L lbs <0.01 (1.29E-1 fr$5[3o (3) X 1 16P H.ptoch80e 17 x ct (3) X ug/L lbs j<0.01 <l.29E-1 1 PActv-e CONTINUE ON PAGE V-9 EPA Fctm 3510-2C (8-90) 3EPet f.D. MUM 9EM RT'P/ I't"'t J tm i ef I m 8 ) OJTratt MuwetM CONTINUED FROM PACE Va TN0026450 INT o uMeTs l s'MTantr, W p 1.FOLLUTANT C. w a s .e m 3. Errt UENT o**PEEE * *::'A::h, n .. M ax-u= oastv v a tur * " ^ * * # ". ??.W " * " * " ** W ."-.*A "<f~"^ " ' 437.* .to c.M "'a""~ , , , , , _MATO 'v*.'" s_'O,= - *r* m .a *i-s My- =4 e. :. ,_ , M.a i.-... , ,,, , r. . i. e . . .. , ,_, , r ... ea .... -ses 't.=- i.-- _WJMS FRACTION - FESTICIDES &cerimeed; i7P. m .e*4o, X ug/L lbs <0.01 <1.29E-1 1 ftYv.s> (3) 1SP. FCS-1 issass . .i-,242 ' I ug/L lbs <0.05 < 6. 4 3E- 1 1 (3) 19P. PC' N1254 titov7 es- ti (3) X ug/L lbs 40.05 < 6. 4 3 E- 1 1 20P. PC8-t221 tiiso*-252) (3) I ug/L lbs 40.05 < 6. 4 3 E- 1 1 2 tr. PC:41232 I ug/L lbs <0.05 46.43E-1 1 ti t t:t-*Js> (3) 22P.PCas2*s (82672 29 6' ( 3) X ug/L lbs 40.05 < 6. 43 E- 1 1 23P.PCO 1260 ' " o'*

• 2 5 '

(3) I ug/L lbs 40.05 46.43E-1 1 2 AP. PC31016 (1267 111-2) X ug/L lbs <0.05 < 6. 4 3 E- 1 1 (3) 25P. Tonophone (8001-35-28 (3) X ug/L los <. 0. 5 26.43 1 PAGE V-9 (1) Based on readings of intake temperature data for November 1996 - March 1997. (2) Based on readings of intake temperature data for April 1997 - October 1997. (3) Testing performed to ensure not detectable in intake water although pollutant not believed present. (4) Gross alpha, gross beta, and total gamma activity analyzed in lieu of radioactivity j. (1) through (4). This substitution was discussed.with Steve LeTendre of TbEC, WPC. (5) Compound is no longer on the Priority Pollutants List. (6) Based on average Diffuser Pond Discharge finw frota January 1993 to November 1997. (7) Based on average of 4 grab samples obtained during one 24-hour period. M v a ..o =vM e t = ee ,y s,c s t- t .-/ s e o rLEASE PHINT On TYPE iN THE UNNADED AREAS ONLY. You m.y repo t sw ce e'! et TN0026450 this 6 fo.metion .m seperste sheets (use t.Ae same fo.msf1 i steed of co. c9et6ng these erg s. l detailt PAFIT A - You must previtje the results of at least ene analysis for every poUute tt in this table.3.UMtTS Cornpfete erw tabfe4 for t M TeachA M Ecutfati. (, ,- 'e'! See e

2. EFFLU ENT ""i f' 'I *"

• I . ( .m v e w i

s. ~e. .--

v v a lu t . c.Lo a c. TrdE ' M A gnJ. v = Lu t a ,, y o ,, , ,vem m, ""a'"

t. pot.LUT AN T .. M a x ,w vM n asty v ,tu.- A " ^ ^ ' M v.Y *~* ' f."w^i =~ at+sc s 'f ""f,;"l t = a ss , _ . m.... f.i ...

i+8 i .i . . .. ..-.t'...... t.i ... , ~ i i. . .. i.i ... e.ummum, . e < w.i I mg/L lbs , .",p "*"* <2 < 2.75E4 ! c _... 1 mg/L 1bs co47' "*"d <5 <6.88E4

c. v. .: o.s ie 1 mg/L lbs c-6.a rrocJ 1.9 2.61E4

.t. Tetet Su.v.e e9.e 1.07ES 5 6.14E4 62 mg/L lbs sone r m i 14 1.93E5 8 ^ 'a f a. ni 1 mg/L lbs 0.01 1.38E2 vatut watog _VALUE y= Lug

v. r sew 1472 426 MCD 1649 1601 vatut y LUE y=(UE V=LUE

g. T.*.*g* .two.

f**-'"' (y) 37.33 33.64 27.09 243 **'"'

• • '"" **LUE "^'"'

T w . m. . 184 't .--ni 42.83 41.56 35.41 e g M Ap tMuM w NIMUM M A M tMvM Mf M tM UM S'*""^" """5 191 [ T' ART B . 7.2 7.9 7.4 7.8 M erk X~ in coiumn 2.s for each potiutent you know o have reason to baf3*va is presant. Mark X'~ in ce3umn r 1 2-b for each pe lutant you Mie.a se be ebsent. If yme which !s timit ed eith,r di ,ct'7.or indiract t y but e.pressfy. in en etriu.mt iimit:tiens guverina,you r.,ust prt. wide tha result. of it 1*est on eneWs fe. that venutentd Fer oth-r r e*3vir**** Column 28. you must provide teuerititative date er en emplenstItyn ci thalt presenre in your disch.rge Cerapf ata gne lebte far esch eutf eff. See ihe instructions 'er eddificeol 3, ErFLUENT 4. UNITS 5.tNTAMC(af< M1 t.POILUT. 2, u a n n n -

• .'.l1"J; '4"J.c '

,* ,e , ^cYs ^n"," * " ^ ~}, ",,,A?.M;' y v a '"5 e'o"" 'h" M E y *^'"' g y <>y ,vna _=~. , .,. : .g-t. a a x' mum o a st.v v atue , _ , !;j. , ,,,. _ ,1.A , .,,, ,, .r .. i .i - . .. . s. m .e.:-ws . . . .. .... ,_ 1.i. i,i ... i.i ... i . i - . .. LI,'C,, X /,. O.10 4,1.38E3 1 mg/L lbs

d. cww w.. (7) 4.01E2 0.012 1.47E2 435 mg/L lbs l **'"*'Kv*' X < 0.1 41.376E3 0.03

e. ceio' 1 l'C Units X 5 . _ _ .

il

4. r .e. I 100 ml ce'"em( 3) X <1 __

r tume. I CE/L lbs i t s9s e-4s -si X < 0.1 <l.38E3

f. witr..._ 1 mg/L lbs Niwit. (n N7 X 0.24 3.30E3

-,.e, .. erNTinUE on sitvtw _ ObiFALL }O1 f TEM V "1 CO*3T1NUTO F CO.A F T10MT s. IN T A M E i.., --'F 4.. UNITS

3. Errt.u ENT l

1. POLLtJT. 2. = s n -n-oe ,c ,,,, .

, g ,y,v n , t, , ,o,g.

• ~"' ;,yLif,g,v v a'u2 ;<'ua5 Mf ge g y wa'ua ,,,,,,, m ,en j"*,n^uff J!.;,9Jg a = n m.=uu oaetyvai.ue

, ,,, , rf. , ,,,,, , , , . . . ,,,,, y),, ,, , , , . ,,,, v = a r 'e = j i., m aew - . -+ , _ . . ff. . i.i ... . wtro 1 mg/L lbs 2.89E3

• • • • N*

e n'o X 0.21 i

n. on ms < 6.68E4 44 44.91E4 62 mg/L lbs o ,..** I <5 (6.88E4 <5

('- ra. m .'. 1 mg/L lbs ..s rr. rm x 0.03 4.13E2 i F 723-1 a OI

1. C.doo.ctl.Ity a si aiew

<5.57E-8 1 pCi/L lbs Tu.' . ,(D) X <4.05 (21 C tali u

v. X 3.40E-8 I nct /r. thn

(8) 2.47 s > e u-~. '

q 1 , None Detected rDa.-mma (8) X i 1 ta C.etwa J' 223.Tm.8 y (8) k.ieeti.t. 1.93E5 1 eg/L Ibs [.$'# ,7 e t 14

X. . _

( s ="'d* 1 mg/L lbs 'a Cs X <0.02 < 2.75E2 1 mg/L lbs l ,~.fs$)','* ( 4 ) J e s c2es.as-3, I < 0.1 41.38E3 l l "0"'**'*"" 1 ng/L lbs J X 40.1 < 1. 38E3 I w...--. ' 1 ug/L lbs f

• 6.88E2

<I2N eo si X 30

w. e.,ium.

T .. 1.38E2 1 ug/L lbs cremo 39 3 X 10

u. se 1 ug/L lbs

[127o c2 s, .. c . . .. X < 500 4 6.88E3 j 41.38E1 1 ug/L lbs 1 [72$4s 4: X <1 et te.,n. 1 ug/L lbs t res cuTot.I si X 110 1.51E3

t. u . .

X 4.7 6.47E4 I mg/L lbs [EN es ,, .

o. u. yt,o.a.m.

1 ug/L lbs [fj, ,,,.,, X 4 20 4 2.75E2

u. .

4.82E2 1 ug/L lbs [ES ,, ,, X 35 ve. Ylve. Tot.t 46.88E2 1 ug/L lbs tre osi si X < 50 .. iii.e . 8.0 1.10E2 1 ug/L lbs [fjf,3,. , . X F AGE V-2 CONTINUE ON P AGE V EPA Form 3510-2C (8-901 e n . sen e.o. n uu s.tn fever tw Item I of f **~ l f ** *" """* " 101 TN0026450 S teactions you must test fer. Merk ~~X'in eefuer CONTIN 11ED FROM PAGE 3 Of" FORM 2-C f 2-a(secone'eeriMusfr et. Vuecess PART C . If you ere e primery in fustry and this out?enk centains erocess r have reason to b*1*vewastewster. l is Dresent. Mark *T refer in column 1o 2-c isble 2c fer ePch wesfewaf er auffeffs. endnonrequired GC/AfS /rectionsh mark ~~X~ in column 2-b for each rdfutant you now oto wb or c' ester. If you me.t co s o trma 2b for otro8**n.

• crys c t,4. 2.4 believe is ebsent. If you mark column 2a for any poff utant. you must provide the results of at least h you know oneneoriefysis fortothat be!Wpoffutertf. If peu in rwk co of et least one snetysis for that poilutent if you know or here reason to bat;,v, it will be dischered rr in cencentratkms ofhavett.*

t sis o bri*ny d*scriba tesso9 thet yet, discherp rassons tbe ro"utant is eweeted te dinitrophenot, or 2-methys 4. 6 dinitrechenol, you must provide the resvfts of et least one onafys!s n e fori each of ti these s for pedetails edditional ufents andwhic reenwiremeds. corn *antrations of TOO ppb or greater. Otherwise.f or politr ients for which youd. UNITS mark eolumn3. I 2b. NTAM you E f."Pdmust eithe 'I

3. E rrt.UENT n , ege e. * *

1. Pol t.U T A N T r. M a n M *M* v v A Lu st c.Loces .gggyp v Atus ,g vu 4'.N D C A S e.Mantuuu omsty watus A " ^^ ],, MMy e n amn i e,r t.i ...

NUMBER "7,*," D,0%J,* g , ,,,, , gt, , ,,,, t,, ... ,,c, . r,c ::n . . ,,, , ey ,,_ v.s ... , ,,,, , yy, ,, _ t , . .. ffr ewstpfn H METZ.LS. CYANIDE. AND TOTAL PHENOLS I ug/L lbs j ? U ^"7 M g.o, 41 <1.38E1 < 1.38E1 1 ug/L lbs q 'N'4^ Y 2I '*' y 41 41.38E1 1 ug/L lbs '$.I,5UNN7 X 41 m.C 1 ug/L lbs -J vmes truo.43,' 0.1 <1.38 X cu. c*,n-i yene truo 47:31 41 4 1.38E1 1 ug/L lbs m X < 1.38E2 1 ug/L lbs [75M[*' X < 10 7M Leed.Totel 10 1.38E2 1 ug/L lbs pos s2.ti X '***' 2.75 1 ug/L lbs {,"d,Mi X < 0.2 4 1.38E1 1 ug/L lbs [U' N*oi" X <1 <1 41.38E1 1 ug/L lbs Ei![r72Y9'2 X 4 1.38E2 1 ug/L lbs lr'c"ioY2'~i " *' X < 10 '<2 2.75El 1 ug/L lbs N",iI,"$o"'2i.o, X 4 1.38EZ 1 ug/L lbs l,'"i,*$*f," X < 10 t 4M. CveaMe 1 rng/L lbs

m. tav.12 e)g X ( 0.002 ( 3.06El

+ nu. Pheno'=. 8.46E2 See labo ratory result for in ;ake. I uR/L lbs m *' X 62* Lab resu Lt investination br ine ennducted (4) OtoXtN Descrgset ntsutTs 2,3.7/4 T et.e-chloroditrente P-Oleala (t 764.ot-61 , X CONTtNUE ON M. VERSE e ,- e u

• _m _ _ _ _

QTWTATT 101 ONTINUED FROM THE FFtONT 4. UN tTs i S. IN T C M E firtsea+'l

a. wann n- 3. Er r LU EN T e v es ' , , , , , j,

i. POLLUTANT , ,

I *" $[,,,,Y, ,[( p# # #'U A

• 'O" ThMn ggv[ v ntu et =

fMS 'J . " Z' '), * ?-M,*,j", c. MnntwuM Dctt.v V At.U2 i.... .m ~~ i t:, --r u-- c2 -a.wo .gr :::; i .v.:. ,,,, ,<;t . ... c.i ... ,,_, , et . ,_ ,,i... . . , yt ,, _ JC/MS FRACTION -VOLATILE COMPOUNDS

v. Ae,oi. .

l 1 ug/L lbs

':742a X < 100 41.38E3 IV. Acfylonttflie 1 ug/L lbs

171111 X 4100 <1.38E3

w. s.m.a. 1 ug/L lbs 871-c3-21 I 45 46.88E1 CV. cle (chforo-m t M2th yl) 881)E t""!

i- (5) SV. Wometoevyn 1 ug/L i Ibs o &2 >2 X 4 10 41.38E2 tv. c..e a 1 ug/L lbs [gf3 ,'j"'d* X <10 <1.38E2 7v.chio od.m.a. (108 90-7) X <10 .' 1. 3 8 E2 1 t.x/L lbs s.v. cwo,o o. 'g G j"*"* _ X <10 41.38E2 1 un/L lbs tv.chim .h . 175 00-31 X <10 '41.38E2 1 ug/L lbs 10V. 2 -Ch oro-U",7A*7],*" X 410 41.38E2 1 ug/L, Ibs siv.cwo. vo,- t:7 ss ' < 10 41.38E2 1 ug/L lbs X _ 12v. oschioro-tyremerneth.n. (TJ-274) <10 41.3BE2 1 ug/L lbs 13v. Dich80'o-sich,0 mih 173-71GI (5) 1cv.1 1 oic w o e- ..h tra-ass) X <10 <1.38E2 1 un/L lbs 1Ev.1 .rh.a. 2-Olchto'o-i t:74sai . x <10 < 1.38E2 1 ug/L lbs

• 1'aV.1.1-01ch80'o-q .thys.a. us-as d' X-410 <1.38E2 1 u g /1. Ibn 17V.1,2-Olchtoto-

,,,m,.a. t . s a7 *' X (10 4.1. 38 E2 1 u g /I. Ihn 1K 1.3 D6eblo - ,w.e.is42 75 ai ,x <10 4.1.38E2 1 ugfl. Ibs 1:v. E thvid.ana* (1OO.ct-4) X <.10 It1.38E2 '- 1 ue/L lbs 20V. M A'vl cvemad. (74 sa.oi x <10 41.38E.t i ,, gf r. ine 2 v. u.shvi t.oorida pa-a10) X <10 <1.38E2 1 ue/t 15.: CONTINUE ON FAf. --. - -- a ea se.ofu . PAGE V 4 un s.o. eeuws n fec, y from stem a c( r = s; os, t r act *dG=-~ CONTINUED FROM PAGF V4 Tt:0926450 301

4. UNITS 3. IN T C M E (,*r**8eadi

1. POLLUTANT 2.M ann *x* 3. ErrLUENT

[Nhk m andres

• :.*,"ih::;.J.: , * = ^ ^ '= u u o m i t.v v a tu r

.y-  ::w .w. .. .!;)......I t a - ..

• ""^ '7.",1?.8(g " "" " * ' '" " W " %V,/ " "'" ' 4"y;p'

.. . !;). . ..  : i - .. . . .r).. .. ia - - so .. co c e -- A" Alid@dC,"J.7 '" !.*.'O' ' ' ' - " "" GC/MS FFt ACTION - VOLATILE COMPOUNDS (conff inedi 22v.u.thvi . Cwone. tis.co.2 X < 10 41.38E2 1 ug/L lbs 22V.1.1.2,2 7.tro- $73**'7"* , x < 10 <1.38E2 1 ug/L 1bs $4v. ..hys- T.t,.chie.a. t12 7 <1.38E2 X < 10 1 ug/L lbs 2 5V. Tokr.no tioses 3 lj y <1c <1.38E2 1 ug/L lbs 2 6 V. 1,2-T r .a.- ," ,$';"o*f V'" x <10 <1.38E2 1 ug/L lbs 2 7 V.1,1.1-Tel- {,"'""'"" x 4 10 41.38E2 1 ur'L lbs 28 V.1.1.2-Tri-

• • 7e"$** X <10 41. 38E2 1 , ug/L lbs 2]V. Trichloro-uhys.o. t? ,.ni.ni X 4 10 (1.38E2 1 ug/L lbs 3Ov. TeleMoro'-

' M *,'"*"* X 4 10 41.38E2 1 ug/L lbs siv e cm rio. vie [7s" y < 10 <1.38E2 1 ug/L lbs GC/MS FR ACTION - ACID COMI'OUNDS 1 A. 2-CMoropb.nol tes.;7ct X 45.0 < 6. 88El 1 ug/L lbs 2 A. 2 &Dichloro-ch.aos (120 83-2) X 4 6.88E1 < 5.0 1 ug/L lbs 3 A. 2,4-Olen.thys-ch.aoi t ios.s7-ei X < 5.0 <6.88E1 1 ug/L lbs 4 A. 4.G-Olnitro-O-Cr. 3 ts34 ss-n X < 30 < 4.13E2 1 ug/L lbs Dintere- 'd A. 2.4, ts t.2a ra ,,s.oo X <2.75E2 < 20 1 un/L lbs C A. 2 Nitroph.v-of tes 7s si X 45.0 < 6.88E1 1 ug/L lbs ' ioo ^ ' "o2' '7' , ' ' " * " ' 'X <4.13E2 4 30 1 ug/L lbs y A. C so.o . Cr..oi is; so-7: X < 30 < 4.13E2 1 ug/L lbs , A. ..nt chioro- i ,,,,,,oi va r.sa m i I < 30 < 4.13E2 1 i ug/L lbs ^ s'i oe'.,","*,", X < 5. 0 <.6.88E1 1 ug/L lbs 11 A. 2.4.0-Tel-tworoe s.aos X <20 <.2.75E2 f M fM 74 il ue/L lbs CONT NUED FROM THE FRONT JF G a.UraNT 3. u a n. a- 3.trrtutuT 4. units s. tMT AME f, E" ' .:e 3:na.:n . = a = =~u~ = aa v v a= * ~ ^ ^'7Mt.W """ " "" W'." t/MP " *" * ~,=. r .' co-o - ^ tYu'L'A"Gs ?'.ar i .i !! a.*rci .yg ::= .w. . .tf.. l i.: .. .. . _ . t!. . i.e -... ,,, , r.. . i .i - ... .sn " * " " " ' :.~.r ii--- "" i3C/MS F RACTION - BASE / NEUTRAL COMPOUNDS 1C. Ae.assehth.a. iss-2 43 X < 5.0 4 6.88E1 1 ug7L lbs (6)

13. Ae.a.sp*tyt.a.

ceee4:

(6) x < 5.0 < 6.88E1 1 ug/L lbs

• $$"$f*]6) x . 5.0 < 6.88E1 1 ug/L lbs

.e. a M-tr2474: r. (6) X 4 50 4 6.88E2 1 ug/L lbs os. s.ae.'(.s ^"s'*ss.*23 is - (6) X < 5.0 46.88E1 1 ug/L lbs ca. s.an t.# < y0 < 1.38E2 ry..a. rzo-s2 fig) X 1 ug/L lbs _ rs. s,e-e.a.. - $o*sW."2i (6; X < 10 < 1.38E2 1 og/L lbs os. s.ae. te ses [,"f,733 -(6) X < 10 41.38E2 1 ug/L lbs os. v.ae. ter [2Y o"e"cY (6) X < 10 < 1.38E2 1 ug/L lbs sos. ese ts cnere {;*,*'j!y,*'**(f) X < 5.0 < 6.88E1 1 ug/L lbs _ sso. es.<2 c o e-il",'/#.'d," (6) X < 5.0 4 6.38E1 1 ug/L lbs _ t 29. si. (2 OWisc.es.- ,,me ss-tior g y <5.0 < 6.88E1 1 ug/L lbs ' 133. 60. t2-Eth'yt! '[lr"7 [Y"*'*{*6) X < 5.0 < 6.88E1 1 ug/L lbs s ev. 4-ego.a.- , i,* ver*.avn X R 5.0 < 6.88E1 * " sib ID8 s.h., cios.ss bY) 150. Gutyt e.aryl rath.i.ietssg-I X < 5.0 <6.88E1 1 un/L lbs 139. 2 Cht e. ' E.'s'2Ti" (6) X < 5.0 < 6.88E1 1 ug/L lbs _ 179. 4 Ch1.e.- r*.av 63) r.h.av'r004-7j X i< 5.0 < 6.88E1 1 ug/L lbs E ther ( iss. Chey . <2is*143 (6) X < 10 ^ <1.38E2 1 ug/L lbs

isw. om .. v hi

^"3,',7 (6) X i< 10 < 1. 38E2 1 ug/L lbs { . 203.1,2 Dichlore-X < 5.0 46.88E1 1 ug/L lbc b.ai.a. tes-s@ 4 2is. i.s oichio o-n ..a. es*'-lf;{ X < 5.0 < 6.88E1 g og 3g P AGE V-6 CONTINUE ON PAGE f -- . _. - _ . _ m ..o. av.a:ca tw, s- s,- 1 or r- si oer r au. v ste- 1 TU0026450 101 CoNTini;to rnou rAct ves l

4. UH8 75 S '" T G " F (*T" '='I

' f. FOLt U RANT t.u cam *n* 3. E r r t.O E N T " h*'- .. w m x sMUM O a tt v v a *.U E ' "" * ],[,[,Nj#

• "'UE

• U "" '[/*MM[' * "'"U t

• mg w gy1'hh (y L *, " , " " "

g yT T*e- '.s' . , ' .' a a =" i !:,--- e .: - ... -.e. c3 .n.wr .- *j. ::n . . . ;. , ,_, , e;f_ , ,,,_ l i .i . . .. . , i;f,,,_ . .... :i i..... GC/MS FRACTION - t- ASE/NEUTH AL COMPOUNDS reeaffaced' 22a. v tr . coachaeo- . ti g 7. X 45.0 4 6.88E1 1 ug/L lbs 238. 3,3"-D8ch'e'o-y'Q (6) X < 25 4 3.44E2 1 ug/L lbs 2a. oi vi Q'*l7;{ (6) X 45.0 4 6.88E1 1 ug/L lbs 2e;. oim.thvi X 4 6 88E1 ug/L lbs Ejd*,'*sk (6) 45.0 1 e 2e8. o.n cheh. .. u.outr 46.88E1 ug/L lbs recra2 (6) X 45 0 1 2 72. 2.C.Ola'teo-2.w . t :2sg2 X 45.0 4 6.88EI 1 ug/L lbs 29 2. 2.Q-Otalteo- .w.m i;os mo;2' j X <f5.0 46.88E1 1 ug/L lbs ~ 2910t N-OitvI EiY'l 1 (6) X 10 4 1. 38E2 1 ug/L lbs 3o8.1.2-Olgih. avl-t hytew6n.i.eAro. 6en;enef (122 66 7l y 3i3.rso .eih.a. nos-ccan < 5. 0 4 6.88E1 ug/L rm X 1 lbs 32 a. r h,oe.n. . ta-7 3-73 .(6) X < 5. 0 4 6.88E1 1 ug/L lbs 339. 64eeJ' " sitenis - , , , - - - X 45.0 < 6.88E1 1 ug/L lbs (6) 3;;. N. 3 {$"$3' ***'Q) X 45.0 < 6.88E1 1 ug/L lbs N... chico-g {as2. , ff3*",Q*) X 4 30 4 4.13E2 1 ug/L lbs t 3GJ. l.4...chtoto-1.th a. t 7-'h'i X < 5.0 4 6.88E1 1 ug/L lbs 37.J.Ind.no $Mgli "' [*")* X <.10 41.3BE2 1 ug/L lbs so. i.,nheon. > t 7m-11 (6) X < 5.0 46.88El 1 ug/L lbs 393. N.phth.l.a. os awai X 45.0 < 6.88E1 1 ug/L lbs '6) aon. Ne,20t . . tes.os. ' (6) X 45.0 < 6.88E1 1 ug/L lbs 439. N-Nitto-endl=Xhyl.mla. (22 7J-Q X 2 '?. N Niteosodl. 1 (N crocr e .='a* 46.88E1 1 r 7tre 77 ( M lX 45.0 t I ug/L lbs OUTFALL 101 'ONTINUED FROM TifE FRONT 5. t N T A et t t ; '  :'s

4. UNSTs I, POI.LUT ANT a. es sen n- 3. E rr t. utter a~aJ;= ...... .... .. ... . .. . m . -- ,n.: w --<- ~ ~= w. u.v r ~ ~ e,. g. .,. -

gggggL-,-o,e _u.- u- , .., - " - - i- ...-.- --, n~ .yj. =  ! .w. .._, , e. . _l ...... . . e. .. _ ..... . . e.. .. -... GC/MS FR ACTION - B ASE/NEUTR At. COMPOUNUS te,=tsawed; 439. NWitro-

• • 4 6.88E1 1 ug/L lt's "m"'3am"*" ) X 450 soc. en ug/L tesaica X 45.0 46.88E1 1 lbs I (6)

. 2 .. 32 coo X 45.0 4 6.88E1 1 ug/L lbs (6) 46et.1,2.as - Tel-

• 7,To,'N6) X < 5.0 < 6.88E1 1 ug/r. Ibs CC/MS FR ACTION - PESTICIDES

$P. Ahfeln X ~40.01 41.38E-1 - 1 ug/L lbs 420m28 (6)

29. tt-(CHC ,

<319444' X 4 0.01 4.1.38E-1 1 ugiL lbs (6) 4HC 3P.fes.23 est X 40.01 <1.38E-1 1 egL lbs (6) <r.bnnC tu o' X <0.01 41.38E-1 1 ug/L lbs (6) SP. 8 -CHC isvoco4: ( <. I <0.01 <1.38E-1 1 ug/L lbs ,ce.Chio.e .ts? 7848 (( ; X 4 0.01 41.38E-1 1 ug/L lbs , TP. 4,&.007 (ss-23-3 X 4 0.01 4.1. 38 E-1 1 ug/L lbs (6) _ _ _ _. ! cr. 4.e.coe . t*2854 (6) X 40.01 <1.38E-1 1 ug/L lbs

99. 4.W.DDD '

172444: <0.01 <1.3dE-1 ug/L lbs d m X 1 __ ice, oi.ie,% X <0.01 <1.38E-1 1 ug/L lbs iso st.it (6) 3 t lP. G E nd..uff en t v is-n-ri (6) X 4 0.c <1.38E-1 1 ug/L lbs 3 27. p c,.4. ie t e is-n-7 I h0.01 <1.38E-1 1 ug/L lbs d (6) 1 , ise. sno uit i' i,*E3To2., (6) I <.0.01 <1.38E-1 1 ug/L lbs I ur. e wi. tr2204 X 0.01 < 1. 3B E- 1 1 ug/L lbs (6) e SEP. Enchen 1 ^ W g 83(6) , x <0.01 . <1.38E-1 1 ug/L lbs g i 1CP.54.pt.*ht.e tra44s' X < 0.01 <1.38E-1 . . ,I ug/L lbs (6) I CONTINUE ON PAGE PAGEv.s ! EPA Fsem 3510-2C (8-90) fes..a.~v-nn<~ertwsemserrnsr.eun.u~u-wa. TN0026450 101 CONTINUED FROM PAGE V.s i e u-ers s. e-vaat : , - :t

z. a. . a a a-s.tretocur a,x m.c:.:.c j t.ros.turANT

"= .=

.s:u.= . -...- - ... . -,. - - -

.u.w - - w. :.w- ......

.c,

' - " = ~ i t:. .u- i.i -. e- ,,_, , et . . ,, r .=j- := .w. .. .et. ...... ..>-. ... _ -a.w, n l

CC/MS F. ACTION PESTICIDES fecafsed7

ire. u ..o i ug/L lbs

'[l"o'2Ye*,.33 (6) X 40.01 <1.38E-1 u 187. PC^t1242 40.05 4 6.88E-1 1 un/L lbs ts34ss.21-s' (6) X t sP. Pcft.1754 1 ug/L lbs y ! siosr49-18 (6) X 40.05 4 6.8SE-1 2ee. PCO-1721 1 ug/L lbs u setto*.2s ti (6) X 40.05 < 6.88E-1 217. PCO-1'232 4 0.05 <6.88E-1 1 ,._ug/L lbs I"m-me (6) X ! 77e. rc=-n ae 46.88E-1 1 ug/L lbs .. j st2sr2-2 sci (6) X 4 0.05 _ __ I ! 23P.PcQ-t2so. i < 6.88E-1 1 ug/L lbs 8"'2se c24: (6) X 40.05 2 *e. rca-s e t s 40.05 4 6.88E-1 1 ug/L lbs > s t 2sra."-2 (6) X _ 2se.se. w tsoo t-as-2: < 0. 5 4 6.88 1 ug/L lbs l (6) X PAGc V-s (1) Based on readings from November 1, 1996 through March 31, .997. (2) Based on readings from April 1, 1997 through October 31, 1997. (3) Average of 4 grab samples obtained during a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. (4) Average of 4 grab samples obtained during a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. l (5) No longer on the priority pollutant list. l (6) Testing performed although pollutant believed not present. (7) During a period when CCW was being chlorinated. Most values are based on a calculated concentration rather than on .~ analytical values obtained at Outfall 101. The SQN method detection limit for TRC'is 0.1 mg/L, therefore concentrations are measured near the discharge point c,f chlorinated systems and Outfall 101 concentration calculated based on these valuc (8) Gross alpha, gross beta and total gara2a activity were performed in l'..ru ef these analyses. This was discussed j l with Steve LeTendre of TDEC, WPC. m b O . 't - 1 P A E.D. MUM WT ft (f9PF [e ***t IfM I af E W 0 I FLEASE rnfN T OR TYPE IN THE UNSH ADED ARE AS ONLY. Ymr may r*.roet s"ce* or s?! of TN0026450 this in4.% *lon on sepse ett sheets fine the same formaff iestead of cornp'eti7 these p*ges. c:: PART A. You enust previde the results of at least one analysis for every pollutant n this table. Complete ditional details.

3. UNITS one table fo4.each IN T A Moutfaff.

E ( *f*N"**3See instru i 4

2. Errt.U ENT * " ' " ,

8 m p ,. A 7E4 c LO N G T y. V A . At.5,s

f. POLLUTANT .. M a x eMuM c Arty v A tut A "^^' ] " ,,j,7,y$f vVAtut :

.co.ce~. ^" . - .t1-.. - '-'-'" v-A=~ .,_,,21.. .. i--- . m , M;. :i--- _L., ii-a . u.<%.. 11 1.94E2 1 mg/L lbs Rop =*ad

• . c a++e .i 1 mg/L lbs o.es.a 6--s 19 3.35E2 ecovo '

c. Tetst oes* ale 7.3 1.29E2 I mg/L lbs co t a trocs ef. Tetaf See,recarf*ef se'w tTns 17 2.99E2 9 8.04E1 4 3.10E1 89 mg/L lbs

• ^""""'"# 6.0 1.06E2 1 inc./ L Ibs vm(Ut WAtUt WAtVE V A t.U E

e. re 0.93 426 MGD 2.11 1_,07 vAtUt votUe v-tut vAtUe

. s ,,,,,,,,,, '*"'"' 12.5 1 (2) WAtUE W A t.U E WAtVE 7 , W a t.U E *C re-==+rs (3) ~ MfNtMUM M A M tM UM MIN t A UM M A 7t t M U M

• • ^" " """""

'"" 4.56 7.52 7.98 y 208 8.98 r r i f' ART B . Mstk **X~ In co?umn 2-a for eoch pailutent you know or have eeeson to bafleva is present. Mark **X~ in coivmn 2-b for esch po tutant yeu baleve toh be youobs mov which is 11mited either dir ectf n or indir ectfy but erpressfy. in e n af'fuant limitstions guidefirse.you must provide tha results os et feest one ensfysis for that pott columrt 2 8,you rnust proiride quentitstive dets or en esplanstion of thelt presence in your dischstge. Cemplef o one tabia for esch outf all. Sea the lnstruc

4. UNITS 3.1te T A M E (ar M r--*)

3. Errt UENT

1. P O tt.U T. ***^"M-i* ' " 'p "*L.Q P,7 "^tU u , , ,

,tg v4g,, >,

• " ^ ^'" uM o n ei.y v A tu e .se cAs $s"O$ ".;.* y8g.*e * " ^ ^m'Tf'7,,JB,yCf g ., .

• ^ ',u t,_ , p3 i,..., ,su = = ~ , ,,, , ty. , ,,_ toi-.-

nr tr.si,i .... .... , _ , ge, , ,,,,, i,.... .. n ,-w. tre m e M 1 X 1 eg/L lbs

4. O . I 1.76 t) Chletk mg/L veue ne.'e .: X < 0.1 < 1.76 1 lbs

• • C" 1 FC Unies X 10

• #/

,,. r .e.i 1 100 ml C'"'*"" (1) X <1

• F'""

I mg/L lbs (1G994 48-8) X g Q,1 ( },J6 ' *- L mg/L lbs '""'.f..1 nitrit X 0.19 3.35 s'At,E V-t CONTINUE ON ftEVERS' OffTTAT _f . t O't ITEM v.f1 CONTINUED FROM FRONT *

4. U NITS I s.9N T A M E ter;. f g, pog,,g gyy. 2. sa m a st *M* 3. EF FLU ENT

1. * >' * ' V v ALue e.LoMc. Tggg. w ALu a , , , , , ge d"b'w'E'*w h

,",O(( N

• . I n.+an -

' . ,~.' *]h.*' ,*' ,",,* ff), , ,,,,,"'""**"""',**'UE ,,,,, , g), , ,,,,, ,,,,,, rf,, ,,,,,, , , s . .. ,,e, =a=" *8 i.-... -ses t . , , s . ... e,s . ...

9. Nac a. .

[,*'j, *** .1 mg/L lbs X 8.0 1.41E2 on e , C'=* X <7' < 1. 23 E2 (5 < 4.46El <4 < 3.10E1 89 ag/L lbs

i. c l"rEi.ITo*l X 0.01 1.76E-1 1 mg/L lbs I. Mee'.o.ets.ory in aspe

., f9) X <6.69 <1.17E-10 1 pCi/L lbs (2) E.ta,8i f(9) X 2.06 3.63E-11 1 pC1/L lbs a si m e-n._ ' Yasas (9) X' No Activ ity Detect ed 1 (C1.st eesum 2 2 . v.t. (9) .x =. s e... EIo's##7e e, I :140 2.47E3 1 mg/L lbs I

t. Suff td,

'" 88 X < 0.02 < 3.52E-1 1 mg/L lbs m Swith. t so as nemes4sMg X < 0.1 <1.76 1 m3/L lbs "^"' mg/L N'3 X < 0.1 < 1. 7 6 1 lbs 4a Totst s t ars.,o-s e X 70 1.23 ~ 1 ug/L lbs . .. e ., h,m, i [IlUo ss-si X '20 3.52E-1 1 ug/L lbs e.,en. 1600 2.82E1 1 ug/L lbs IEE42 e X

e. cet=*t.

[72fo... X <1 <1.76E-2 1 ug/L 1h e.e m . Toi.e areases e3 X '170 2.99 1 ug/L lbs

t. M.gnet%m, ,

[7a5 ,s.., X 5.0 8.80E1 . I ag/L lbs

v. MetytMi num.

, l* $ ,..,, X <,20 < 3. 5 2F.-1 + 1 ug/L lbs

v. u.ne l75,, ,, X 35 I 9.69E-1 1 ug/L Ibs

. via. Toi.i is44asi-si - X f50 <8.80E-1 1 ug/L lbs

m. T it.ntum.

[7]f _.,, ,, . X. 5.0 8.80E-2 1 ug/L lbs emac v.z cowTowut os rAct v . . m . , ~ - - _ . - . . - - _ m . _.~ = m . _ . 2 . EPA e.D. MUMWEn (eppy gros.e (tga, g of feews if ou TF m Lg, pe up sE n N . TN0026450 103 COffyfNUED FROM PAGE 3 OF FORM 7-C PART C - If you ere e primary Industry end this outfeil centains orocess westewet er.rMer io teble 2c.2 in the Mstructions to deteembe wikh n of the 2-e for eri such GC/MS fractions that epply to your industry end for All,twic metals,tysnides, westewefer auffeffs, and stortreirtrired GC/Af5 freetionsf. merit 2f rt t and tetet pheno 6s. Jel; eve is etsent.lf you merk column 2e for any pollutent,yoJ must provide the restsits of et least ofw onelysis for that pottutent.lf you meth column b or any '4 po u en . tek. 2.4 ' of et lees; one enetysis for that pottutent if you know or beve r** son to believe it wi!! De dhcharged in conc *ntret**pr.s of 10 ppb er g,*etee. If you marke colu in dinitrophenot. of 2.enathyt.4. 6 dinitrophenot. You mtrs' provide the resu'ts of et least one snelysis ,-i fer exh ^ be discherged. Note that there ere 7 peges to this pert; pfesse review eseh cereftsffy. Cw. dete one tebte (ett 7 peres / ter er. cts outf att. See instructions for ed

4. UNITS 5. Stet A9tE 1, - *7

1. f*Ot.t.tJT ANT t.sgann N 3. Errt.UEN T T * *

• 9h SeO

• " Ast eMup o nst.v v at.ust * "^^'$",,3,j,%v v a tu t : e.LONG r ft g .vALUE , g y NU M B Eft *!.'.,"'},';,,j," , =^== i L. y i i -. . -w

.. . vste n- ero . .n..  := - e.~.i :...- i,i . .. . .i ... - t ,i . ... . . .i. . t. . -

METAL.s,CYANtDE. AND TOTAL. PHENOLS

~ e u. a-o- v. <1 (1.76E-2 1 ug/L lbs v.t. 744o.2+cs x . . zu. A,e t r64o-se-2 ie. Ye.: <1 41.76E-2 1 ug/L lbs X su. c.,,nw. re 8.7440. s73 <1 41.76E-2 1 ug/L lbs X 4u. c.4

n. s v e astv44o-a 't 40.1 (1.76 1 ug/L lbs j X L s u. cw o-h.

vous v744o.47.si <1 <1.76E-2 1 ug/L lbs j X ouc-wrar ug/L lbs i fnao M44 X 10 1.76E-1 1 i eM t 4.T.t.l 1 ug/L lbs 4 trans213 X <1 <1.76E-2 ! CM. M.eewry, Tot.I < 0. 2 (3.52E-3 1 ug/L lbs j v743947-6) x i tu. Nies.i. Tot.: 1744042-ol <1 (1.76E-2 1 ug/L lbs X ' t ou. s.i-h-n. <1 <1.76E-2 1 ug/L lbs voiss (7 7ez.49-2, x 1 t M. Effw.', Tot.l < 10 (1.76E-1 1 ug/L lbs 4 tr440-22 ** . I J f 12M. Th.t'10 , + 42 < 3. 52E-2 1 sg/L lbs Tot.:t x 40-2s-on X i 13M. Zine. Tot.t < 10 <' 1. 7 6E-1 1 ug/L lbs j t rees.as - X t t eu. cy. is.. m.y3712.sY19h < 0.002 43.52E-2 1 Ing/L lbs W **"e '*- * *See labo ratory result for In :ake. mt (1 1)X 174 3.06 Laborato v invest-fe fon het w ennanctma _ I ur/L lbn ~ ! DIOXIN 4 2.3.7 e-T.u.- g otscasos nasutts ! chsecedth are P. 7 j Osenta s t 764 ' i , a .. " ~ ~ * ~ ^ a a' * .' CONTINUE ON REVERSE OUTFALL 103 ' ONTINUED FTIOM Ti(E Ff10NT 4, UNITS 3. tMT A ME (-. ^'; c '1

3. EFFLUENT go es vvag

,., c.

i. POLLUTANT a M aa K ' A'

b. c.Lono t w pgg. v s.Lu a , ,

a,.... e..- .. omm xtuuM onBLv vmLuc M Aasguyggv v ALuc 1 3 . ... vsts g ts . .- 7" AT 'O" E.{,e,*y= *

6sej qi,a U$ '.".*, 18 g,p.... , I .,1, ,,,_ g,g .., ,, j.),,,_ g .g .. .. vsgs

~ 9 13clus FftACTION -VOLATILE COMPOUNDy l

av. Ae,.i.e. ( 1 ug/L lbs t air 7.s2 cl X < 100 <1.76

, iv. Aei yi.onen. ug/L lbs 1

i17-13-13 X ( 100 <1.76

< sv. c.a < 5. 0 ' < 8. 80E-2 1 ug/L lbs ! 7t-es.2 y i av. ci. tcww., , m.fhyf7EtStr (g} rsesm-is t' I

sv.on -oe.<m 4 10 1 ug/L lbs 73-2s-2: y < 1. 76E-1 ev.c.b..

1 ' "* 'd* tw"'23 e'*t T 4 10 <1.76E-1 1 uc/L lbs ev cm..b.m.= stoe-so-73 y < 10 <1.76E-1 1 ur/L lbs ev. chi.e.oo

'" Q '"*"* , < 10 <1.76E-1 1 ug/L lbs y

774$$*""*** y 4 10 <1.76E-1 1 ug/L lbs - iov. 2-chi-.- .<hvuovi sih" < 10 < 1. 7 6 E- 1 1 ..e m the f 4 (114734J) , X _ iiv. c*s .eem is7.es.3) X < 10 41.76E-1 1 ug/L lbs 4 a *32v.

• * " '

• oies

• ' "

• i" <.-

< 10 <1~76E-1 1 ur/L lbs (18-2741 X i3v. Dichlor.- c*tf tw com th.n. [g (FS-7 i 4) , 14v.1 1-Dichlepr.- .ih t73-34-sy. X < 10 <1.76E-1 1 ug/L lbs 13v.1 ch. 2-Dich. tis 74 i.si. lor.- 7 ( 10 < 1. 76E-1 1 ,, g / t . 1he 1Sv.1.1 Olcht . hysso. 7s 3.er.- ai 7 < 10 <1.76E-1 1 ue/L lbs 17V.1,2 Dichier.- ,,. . are er si g < 10 41. 76E-1 1 ug/L lbs teV.1.3 Dichlee.- ,,c: ;is42 7s-en 7 4 10 <1.76E-1 1 ua/L lbs  ; i .a. 4,nv.e=*vib 00 41-41 a y ( 10 <1.76E-1 1 ur/L lbs 2 v. u .thvi e,.mion 74esai g 4 10 <1.76E-1 1 ug/L lbs $7.',"oUt7Isf-1: g < 10 41.76E-1 1 ug/L lbs CONTINUE ON FAGI . . . . - , . ,. . . emot v-4 . . . ._. -- ~ .-. e.a..o. u naecor-r- se aerr- :i ouerati.au~o4= CONTiasuto rnou pact v 4 TN0026450 103 i

8. POLLUTANT ' a. ne a nn sr* 3. Errt.U ENT 4. UNITS s INT AME (erneaeff T- M8ER . J),* *h,* *,, e.waxtwuw ontLvVALust; ** " ** '7/ M.7,%;' ' ^ 'U E * * *"" 'gMLFd " ^ ' "" e F , mm E'n~ 'a*' *t 'y"a r (",* "

v 'a^~~ ""

4 .w. ,,,, ,t1. .. l i.i . . .. ,,_, , r!. . ., no i i -- .

-a. 6< >

• 'r'f

- i.i . . .. , ,,, , r.i. , ,,,_ io .... '!::-':- GC/R*S FRACTION - VOLATILE COMPOUNDS fee effnwed) 22 v. u .eu ,s cuo<se. tts-no-2: X 4 10 < 1. 76E-1 1 ug/L lbs ssv. s s.2.2-T.tr.- {$EI" X < 10 <.1. 7 6 E- 1 1 ug/L lbs z ev. T.te.ewo o. .t*v'~ 0 2 7-18-41 X ( 10 <1.76E-1 1 ug/L lbs rsv.  :.eo . X <' 10 <1.76E-1 1 ug/L lbs tiosse-28/ 2 W.1.2.-Ti o,emo o e* .e.- ug/L tizaso<a " ., I < 10 <1.76E-1 1 lbs 2 r V.1,1,1-T el- - =Qg*= ' X < 10 < 1. 76E-1 1 ug/L lbs 28 V.1.1.2 Tet-

• • ug/L lbs

$3ocs'I*~ X < 10 < 1. 76E-1 1 2Ov. TeleMeco-ma v t. . tts oi-se X < 10 <1.76E-1 1 ug/L lbs 30V. TricMo..- i M 7'*"* X < 10 < 1. 76E-1 1 ug/L lbs 3 v.vi,, cwose.lis-ni-as I < 10 <1.76E-1 1 ug/L lbs GC/MS FRACT80N - ACfD COMPOUNDS . i i A. 2 , tes e,cMoeoph.coi 4 X < 5.0 < 8. 80E-2 1 ug/L lbs 2 A. 2.* OleMoro-p*m: 02o a s.2) X < 5.0 <8.80E-2 1 ug/L lbs t 3 A. 2.4-Olmethv e-I < 5.0 '""' " 05 ' '-') < 8. 80E-2 1 ug/L lbs 4A. 4.e-08 ,,o10 . c ..oitss4.s2 ti I <30 < 5. 28 E-1 ug/L lbs 1 sA.2.* O witee-X '"~' (5 ' 28-57 ( 20 < 3.5 2E-1 , I ug/L lbs CA. 2 Nferoph. col , 00-7551 X < 5.0 < 8.80E-2 1 ug/L lbs 1 A. 4 Nf te ' " 00 02-7,oph. col X < 30 < 5. 28E-1 1 ug/L lbs e r. -cwo...u. c X ug/L i tse so 7, < 30 < 5. 28E-1 1 lbs 9 A. F.et scMoeo-c*'"' t3 7 -8" ' ' X < 30 < 5. 28E-1 1 ug/L lbs 10 A. Phenot ties-es-21 X (5.0 < 8.80E-2 1 ug/L lbs 11 A. 2.4.6-Tel-im"'c,'~' X < 20 < 3. 52E-1 , I ug/L lbs CONr:NWD FROM TiiE FRONT GUTFALL _103_

4. UNITS 5. IN T A M E f-arew=.ef;

t. POLLU .~A P4T z. w am es m* 3. EFFLUEN T

' " g, ,,o o. g- R * '. . ' ' . < . . . .h....e....

e. Maxeuus4 Dattv v4Luf 8 " "' ] " [T,, M y v watue eLu'.GYgj y g g.vALue 4.,.,. oL., .,,

<2 v e es.a . e e.f.). ... 'a " ' " .s s -e.w.i g.  ::n .w. , ,,,, , rf . .,l ...... ,,,,, ,91 , ,, , i.i ... . . ., s;J. . ,_ .i-... . s , i .i --.. GC/MS F R ACTION - BASE /NEUTHAL COMPOUNDS 1O.#.e.a.phth.a. X < 5. 0 < 8. 80E-2 1 ug/L lbs j es3-32 (5) ! 23.c.c.. hers.a. tros ssel X < 5.0 < 8. 80E-2 1 ug/L lbs r33

39. Aathe.e.a.

sirs.tz vi (5) X _ < 5.0 < 8. 80E-2 1 ug/L lbs an. c.assosa.

2c7.ca J (5) X < 30 < 8. 80E-2 1 ug/L lbs e2. c.ar 1.s g"'7,"37. (5) X 4'5.0 < 8. 80E-2 1 ug/L lbs e

c2.c.aiet.#(si) ry . in-32 X < 10 < 1. 76E-1 1 ug/L lbs _ r2. 3.a-c. m o. l {7E*",'$7(5) X 1 < 10 <1.76E-1 1 ug/L lbs C2. G.ar9 rahl) EtYiN21 (5) X < 10 < 1. 76E-1 1 ug/L lbs so.u. ~ o tho ['U'E7***rs) X <.10 < 1. 76E-1 1 ug/L lbs vos. ei.tr chrero

';~;l.",*'ag) x < 5.0 < 8. 80E-2 1 ug/t lbs 11*J. Lee (7 chioco

{l*,",'# 4 '.7," ( 5 ) X < 5.0 < 8. COE-2 1 ug/L lbs its e tr cha .- er.eretch tior,sogi g < 5.0 < 8. 80E-2 1 ug/L lbs - 13J. Ele r2-Erhyf h.. rei chih.' t i t re s-78 rea X

4. 5. O <8.80E-2 1 ug/L lbs c .. c o.no: '

p*.avi ra. avg- )) X < 5.0 < 8. 80E-2 1 ug/L lbs E th.e :101-55 1sa.cuevon.a.vi < 5.0 <8.80E-2 ug/L rhin.imtas[tf X 1 lbs SCa. 2-Ch9oto- "US',"S*" (5) X < 5.0 < 8. 80 E-2 1 ug/L lbs 173. 4-Chloeo- i ch. ave rh.av( 5) X *<.5.0 < 8. 80E-2 1 ug/L lbs E thw (7005-72-3) _

2. chev a.

(2is et-ti (5) X < 10 <1.76E-1 1 ug/L lbs e a.O m m .t h> $"3.E"3,"* (5) X < 10 < 1. 7 6E-1 1 ug/L lbs 209.1,2-Olchfoco-6.m.a. tes-so in -< 5.0 4 8. 80E-2 ug/L x 1 lbs 213,1.3-Olchto'o-X -< 5 . 0 4 8. 80E-2 ug/L lbs

• • "'*** tS * ' fR f 1 PAGE V-6 CONTINUE ON PAGE

e ,a io. u-a. r ,, r- see- 4 or r- si ouvrau au-wa CONTINUFD FROM Pact vc TN0026450 103

a. uNirs s.*NTamt (.ce--r fr.rotturnNT r.=aa=- 3. t r r tu tN r a,ygeze,o c,n :

J'PJN . . . . . . s . .. . . . . ........ ... ...<o. h.---.w ,.;3,u, -<u. ~ ~e w..n.v,7. . --'-- 4,3 ... 7,,e . . . . . . - r o-i . = . . := v ..,, 1 ....... . . . . ..... {GC/MS FRACTION - BASE / NEUTRAL COMPOUNDS (ccati.e.ed* ~223.1.4 0sehtero-6'"'***"08}'(( X < 5.0 (8.80E-2 1 ug/L lbs 238. J 3"-Dic6ter'o. b.aeld ia. X < 75 <4.40E-1 1 ug/L lbs vo t-sa in (5) 2.s. o th l <s who iso-2:,. . vi (5) X < 5.0 <8.80E-2 1 ug/L lbs 25 Otm.1hst vi s t.i t-a de (s) emiw..... X < 5.0 58.80E-2 1 ug/L lbs 2se.oLN-e.tri ch th.i... X T8.80E-2 1 ug/L lbs es unti (5) < 5.0 2 7 2. 2.d.0 8alte.- tow.-. 0 21- }gi y <5.0 18.80E-2 1 ug/L lbs 28 2.2.G Olettro-toiv.a. teosiM' X <5.0 T8.80E 7 1 ug/L lbs 29 J. Ot.N-Oct'rt ' It iE*'$1 ru X < 10 %1.76E-1 1 ug/L lbs 300.1.2-Olph.avk hyde.r tn. (ae A r o. t>ea 'e*;) q 122 66-7 ' X 313.7 Ner. nth.c. (20s e t8 (s) X %5.0 58.80E-2 1 ug/L lbs 22 2. v uor. . 18 }72 78 X < 5. 0 <8.80E-2 1 ug/L lbs . (s) 339 H.e. h r.na (118-74.11 (5) X < 5.0 T8.80E-2 1 ug/L lbs 34 2. N.o isY(D/*#'*"* rs3 X y 5.0 <8.80E-2 1 ug/L lbs Jo s. N2..chio..-

,IU'U*"[*7's3

. X < 30 <5.28E-1 1 ug/L lbs g .J6]. 64.e.chlero- , th.a. t;7 72/h X < 5.0 (8.80E-2 1 ug/L lbs a7c.. sad. p'i'3,7,"g*"q'3 X < 10 (1.76E-1 1 ug/L 1bs .se2.i.ophoe ' t7xas s (3) X  % 5.0 <8.80E-2 1 ug/L lbs 3s 2. Nephth.1.n. t;i-29-si (5) X < 5. 0 (8.80E-2 , I ug/L lbs dos Net,od.ar.n. l ug/L tos-ss (5) X  % 5.0 $8.80E-2 1 lbs 410. N-Nitro-om.thys-se. i 2 7;c) Y j C22. N-N1tro.edt- . N -Propyl. min. X  % 5.0 <8.80E-2 ug/L lbs t ::st ca7 (u 1 OUTFALL 103 ""ONTINUED FROM 754E FGONT

3. Er$- LU ENT 4.UNtTS 5. IN T A M E (.or::- 27

3. POLLUTANT '

r. m A n na x' ** een g,

.VALUE g ,

• * *f ' '),**;f,*,* *, e. Maxswum omeLv v ALUE A""*'j,M&Mj vwALUE C .LONG Ygj.

M ER ,. '"^*'*" i.-... , se s i !:.r.y

• r a.ms .y. ::n .w. ,,,,, cf.,,, l i.: .... :i i..... , ,,,,,r/ ,. i..... vses GC/MS FR ACTION - B ASE/NEUTR AL COMPOUNDS fron tin.ed; 438. N Nitro-

< 8.80E-2 1 ug/L lbs isfdF"*'"D) I < 5.0 ses.en n. esse ug/L lbc 1 '#8'c8 rs3 I -( 5. 0 48.80E-2 <ss. en ug/L lbs " 2'*o8 (s3 X < 5.0 4 8.80E-2 1 (68.1,2,s . Tel- 'tth8efots.naTr

20c2-t u X <5.0 < 8. 80E-2 1 ug/L lbs GC/MS FRACTION - PESTIC1 DES 19.' A edrin 830*-00-28 X 40.01 <1.76E-4 I ug/L lbs (5)

29. G4HC

'8 8' X < 0.01 <1.76E-4 1 ug/L lbs (5) se. <uc '38'[#78 X < 0.01 < 1. 76E-4 1 ug/L lbs (5) 4e. 'p" enc ug/L lbs rs) X <0.01 < 1. 7 6E-4 1 e se. 6. enc  ; X <0.01 < 1. 7 6E-4 1 cg/L lbs l83'34* si (5) er.cm., dmo. '57 7*58 I < 0.01 < 1. 7 6 E-4 1 = g/L lbs (5) 7P. 4.c.DDT <58 2#33 X < 0.01 < 1. 7 6E-4 1 ug/L lbs (5) ze. a.e-oos er2-ss ca X < 0.01 <1.76E-4 1 ug/L lbs (5) if*. 4.4* 00 0

• ug/L lbs

'728441 (5) X < 0.01 <1.76E-4 1 ice. os.io,so t w e7-13 X 4 0.01 < 1. 76E-4 1 ug/L lbs (5) i f P. G Endeo=stf en ina-za.r X < 0.01 < 1. 76E-4 1 ug/L lbs (5) 12P. $ Endosuffen tits 23 73 X 20.01 < 1. 76E-4 1 ug/L lbs (5) i se. e os..viv e. X <0.01 < 1. 7 6E-4 1 ug/L lbs N'$'0788 (5) . . _ t 4P. E ndeles t r z-204: I < 0.01 4.1.76E-4 1 ug/L lbs (5) isr. en+io ^$',d*3 at (5) , X < 0.01 < 1. 7 6E-4 1 ug/L lbs fir. H.ptechlor ers-44 en I < 0.01 4 1.76E-4 - I ug/L lbs (5) P AGE V-8 CONTINUE ON FAGE N EPA Farm 3510-2C (8-90) um e.o..euwegre feepp pesme seene i of f em 17 ouvraLL nuw et re CONTINUE'J FROM PACE V.8 TN0026450 103

s. invanc : . --,

• vairs j' r.rottur4Nr a.=aa= w 3. tr rtu tu r aum=L =r s?JO  : :. 3.::a= e.-. e-o- ..... .. -a^ r aw ~~~ ~~- w.: wr - = g- .<m. " " " " '

' tz.~.,_:- "<* tcu .=j. ::n ..r. ,,,,, , et , ,,,_ i .i . . .. . , , et,,,,,, i.i . .. ,,,,,,n,,,,,, i .i .... .sc, e.i -. OCJittS F'4ACTSON - PESTICfDES (re=r:-.- 21 i12r. neeseesser ] 1 ug/L. Ibs 'X <0.01 < 1. 76 E-4 li N 2.si '(5) teF. PC31242 3 X 4 0.05 < 8.80E-4 1 .ug/L lbs issees 23 ei (3) ese. rct>t n4 X 4 0.05 48.80E-4 1 ug/L lbs isioe2eeip(5) 2ce.eco. szt. ug/L tit soe-2e!'si x 0.05' 48.80E-4 1 lbs m 2 tP. PCS-12' 22 I d 0.05 4 8. 80E-4 1 ug/L lbs t e s tas.es.s: (5) 22e. ecs 12e X -4 0.05 < 8. 80E-4 1 ug/L lbs stre22.n es (5) t 2se. ecs.12eo is so,ec2.se (5) X 4 0.05 <8.80E-4 1 ug/L lbs f ee. PC9-t o t e X 4 0.05 4 8. 80E-4 1 ug/L lbs is2978-11 2: (5) 26P. Tomech.no X < 0.5 < 8.80E-3 1 ug/L lbs tecot-ss-21 -(5) l PAGc V-9 (1) Average. of - 4 grab samples coller:ted in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. Results were< 1, <1, < 1 and 1/100 ml. (2) Average of 4 grab samples collected in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. Results were 13.4, 13.5, 11.2 and 11.9 C. (3) Pond is approximately ambient temperature. Monitoring throughout year not conducted. , (4) Leakage of 0.001 MGD from TBS line to Yard Drainage Pond was occurring. Majority of TBS flow war to LWTP. pH at normal DSN 103 discharge was within permit limits as well as'pH at Yard Pond Discharge. Complete explanation is contained in DMR. (5) Testing conducted although pollutant believed absent. (6) No longer listed as a Priority Pollutant. (7) Average of 4 grab samples collected in a 26 hour3.009259e-4 days <br />0.00722 hours <br />4.298942e-5 weeks <br />9.893e-6 months <br /> period. Results were all<0.1 ag/L.

(8) Average of 4 grab samplas collected in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. Results were al1 <0.1 'ag/L.

(9) Gross alpha, gross beta and total' gamma activity analyzed in-lieu of t >dioactivity J. (1)-through (4). This substitution was discussed with Steve LeTendre of TDEC, WPC. } -(10) Average of 4 grab samples collected in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. -(11) Average of 3 grab samples collected in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period. A 4th sample was collected, however, the bottle was l broken at the laboratory before the sample was analyzed. I i i v - t ' '~ C) tes e.o. Muanen n tses y from it*-* 8 */ ! w Il ~T Pt.E ASE PRINT 00 TYPE IN T84E UN5HADCD ARE AS ONLY. You may r* port s*pne orTN0026450 aft of this bformstloft on sepseste sheets fure the same formats i* stead of cornoteting these pays. REE EN5TTtUCTf*3H' ble for each outf all. See instructions for a33itional detaifs.

4. IN T A M E (e7*iveuif PART A - You must provide the results of at least one analysis for every pollutant in this table. Complete 3. UNITS one ta l

2. ErrLtJENT W V?U A gQu n,usr

. t h oso. er pgf vaws cw n s g[= u,. p 4la p. v Aw E 6 *8--" .. u A x s u ve., o n L5 V At ut b.MAxe*j,u 91..-

• " ^ "

f.POLLUTANY i.--- ^"'d *#a"v%"* . ' <i-- . . . 0L . .. t i -- - . . . ' 1. .. o b 1 mg/L lbs ..~e. En"Er,7 ['-*"d 20 1.57El it. ca. *..e 1 mg/L lbs 67 5.26El 0 "otHtc '*" O***"d 1 mg/L lbs

c. Tot.t O*senic c w a froci 19 1.49El 1 et. Tet.I 5sess. east.ef 8.06 13 1.63 25 mg/L lbs 5*"da tr888 ' 32 2.51El 21 1 mg/L lbs

^~"'a t-* N s 0.38 2.98E-1 W ALtfE VmLUE VALUC Wm(UE 0.015 25 MGD

f. Flove 0.094 0.046 vALUE VALUE WAlUt C g.T;..,.retwe.

VALUE g(2) Io,4 vatut

e. e-rert vawe v a w- vawe g

,,, ,,,,,,,,,,,,, ~

r. u,,,

m a n iae vu usneuuu uaxiuum westuvu " ^ " ^" """ 8.06 8.96 8.06 8.96 / N 25 b t t If you math column 2e for any poitme Mark **X** in cofumn 2-a for mech potfutent you know or have reason to beffeve is present. Mark In column "'X 2-b for each po*1utsett you believe to e e nen .ide the resutts of et t PART 8 - f rt se. the wserucison,for estiones deteits and r%.R .g which is timited either direcity.o Indirectly but erpressfr. in en effluent r.mitations guideline.vou must prov cotumn 2s.you must proww quantitativ.idete or en a atenettoriof their pr sence in your discharg, comp:eie one t bre f.w each out o .s A M E (ar*rf***ff

5. IN )

4. UNITS

3. E r rLUENT aW"a 'v' "" e " .",rd t . PO LLUT. 2. u n n et x -

4,~,,ogy ..v caoac m"

e. ,,,,,,

vsel ^"/s  %" t..::eare, .. a a =~u- naitv v awe * """ W'." #.V,f'.".^.." ' . tL.._ v.i--- c ", ,,,, " ^, ^rt ,,,,,, "M "JAVc7 f i . .. " .a " *, pA , ,,,, ' , ,,,,, toi vse, . <rt ir.or,s  ::n t. ;. , ,,,, , s .A , ,,,,, i... .. ero., i . 1 mg/L lbs _ _ , 124959 67-9) X 35.4 2.78E1 6.cwimin.t4< 1 mg/L lbs X < 0.1 47.84E-2 rot.: n.. .g ' 1 PC

c. cos e X 80 i/

4. r.e.i t(1) 100 ml ce se iv .- X 47 (9)

.. F lueelet. 1 mg/L lbs tte9se 4s si X < 0.1 <( 7. 84E-2

s. Nsu ,.-

1 mg/L lbs Nttrite s n; X 2.4 1.88 CONTINUE ON BEVER eacE v i OUTFALL 107

• Tru vn cont nuto rnou rnonT

4. U MIT*t S. SNT AME fag.edrw.47

t. A n n -n' 3. Errt.tJENT

- f . pot.LtJT. h*

• v v aLue - c.L o M G T g g w g . v A Lu E , , , . ,gogn yg=e o ,

O' O ib d b "*''*"**"^'8*'#8"'E 'Y.Ni v a a v'ea 'O i=68 1 - -. -- ,,,,,,,8,-),,, ,,, ... ,,,,, , t). . i., ... ,_ , g), , ,,,, i,s ... ,,,, ,,,,, ,tf. ,,,,,, i.i ... ,,c, A =ar a. . mg/l lbs-Teun o saa'. f.e Nr X 4.7 3.69 1 on e c'*.=. - X 15 11.77 < 8.33 <3.20 <5.07 < 6.35E-1 25(5) mg/L lbs

s. c

7775 [.*'o',' . X 0.11 8.63E-2 1 mg/L lbs I. O.dte.ettetty ,

asi ais

• • ' X I pCi/L Ib8

gio) <4.40 <3.45E-12 4

t i s.ts'i 1 lbs i m.: (10) X 3.08 2/41E-12 PCi/L e n w omem.- X 1 d.r e* neem r1ni No Activ ity Detect ed d (C)it.dlwes 226. Tee.4 X . (10) r ii.(. .... '~ m e' X 170 1.33E2 1 mg/L lbs (1480s.79 8)

e. a.nese.

<= cs X < 0.02 < 1.57E-2 1 ag/L lbs

m. > .ev e,.

(",Gg',,.(3f) X <0.5 < 3. 92E-1 1 -/L lbs X 40.1 < 7.84E-2 1 mg/L lbs

w. 4 awmenwm.

T ot.f tressessi X 300 2.35E-1 1 ug/L lbs

w. e.,i .

PsN 39 33 X 4 10 < 7.84E-3 1 ug/L lbs

n. so.

[7Eo42 s, I ( 500 < 3. 92E-1 1 ug/L lbs

r. c we.

[78o4., X < <1 < 7.84E-4 1 ug/L lbs ,.a. r-t.. 1 tresse9 e:

• A 200(12) 9.41E-(12) I 730 2.80E-1 474 5.93E-2 25 ug/L lbs

3. u

[,*,'*,',,,, 3 X 2.0 1.57 . I mg/L ' 1 lbs uc ytr5.m.m. l,*,"'t ,, ,, X 30 2.35E-2 1 ug/L lbs uw. [r$cs s, X 160; 1.26E-1 1 ug/L lbs

w. tin Tot.t t r**S3155 K < 30 < 3.92E-2 1 ug/L lbs i....

l,*g,3,. , . I <5 <3. 92E-3 1 ug/L lbe PAGEV-z CONTINUE ON PAGE V . _ . . _ __- .- __. _. .. ~_ . _ = . - _. ~ b un o. nu= ica te,ri fe sem s et t- sitouvratt. nu=ven , ! TN0026450 107 , CONTINUED FROM PAGF.3 OF FORM 2.C PART C . If you ere e primary industry and this outf ait contains process wastewater. refer to Toble 2c.2 in the instettetions to deteemine whic 2-e for ett such GC/MS fractions that opply to your industry end for Al.l. tonic metets,cyanidos. and total phonets,if yet are not tequired 3 toeach 2 -c for ma-k column rolhrte"t Vo'8 2. waffewefer ot/ffeflS. erPd stenreesired GC/MS frectionsf. mark **f* In column 2-b for eeCh pollutant you know or have reason to I*efieve is prese"t. n M sett T in Co vmn

e. bel 4ve is ebsent if you merk column 2e for eny poffutant you must provide the resutts of et least one analysh for that pofhtter=t. If you rns*k t

i col B 2A rme of et feest one enetysis for thet pottutent if you know or beve f.eson to believe it will be dische+ged in concentrations of 10 pob ce seestee. If you mark colu dinitrophenot, or 2-enethyt.4. 6 dinitrophenot, you must provide the results of et least one analysis for each of these potiutents which you know or dhave to concentrstions of 100 ppb er grester. Otherwise.for pottutents for which you merk coIvmn 2b.you mus' mith ff 4.UN87S S. INY AME ferd

l. POLLUTANT z. M a n et x' 3. Ers"t UENT gy v,v,ng t,no

• .rJ' }. nc,:n .. = ^ x'=ua o a stv v atur - * =^^' g a,g, vatue AND CAs ' tous ry.,gg. v atue , , , , , , , ,v n amn _

' " " " t,,.... ,,, NuueEn *",7 tg ,. g-t't=4htel .}if-  ;*a .% ,,,,,,t),,,,_

t. . _ , a  ; y, ,,_ t.,.., t. , gg,,,,, ,

META 1.S, CYANIDE, AND TOTAt. NtENOLS

l. > ,1,,,

,.esmeny M. A,t 44o.3.f o, 41 < 7.84E-4 - 1 ug/L lbs 7 2M. Art. ale,. Tot.I t r4423s.2 2 1.57E-3 1 ug/L lbs 7 su.s v wm. n < 7. 84E-4 ug/L lbs Ystet. y440 4 t-7) y <1 1 ! AM. Cedm8 tem ug/L lbs ! r...e :7440-45,3 (O.1 < 7. 84 E-5 1 X su. v..aechr-wm:31 t144o.41 7 5.49E-3 1 ug/L lbs X l,"uTo * * ' X (40 43.14E-2 22.5 8.64E-3 12 1.50E-3 25 ug/L lbs FM teed.T.t.l sms sa.t <1 <7.84E-4 1 ug/L lbs 7 s u. u ty43, ey.e ev.y. T ot.: . <0.2 <1.57E-4 1 ug/L lbs X i C M. Nic6.I,T otof ciceo.o2.o' 220 1.73E-1 1 ug/L lbs

X

.,wm t ou. s v w f r7s2 4,.2 <1 <7.84E-4 1 ug/L lbs , y 11M. St?vw Totet puo 22.y ( 10 '47.84E-3 1 ug/L lbs 7 _ t ru. Th.nwm. < e. <1.57E-3 1 ug/L lbs T...e(7440 2s o' X c','74aS"*g3 (10 < 7. 84 E-3 1 ug/L lbs X $*,"g, C,',*",'d'g'- <0.002 <1.57E-3 1(I3) mg/L lbs X t su. ch ~*. <61* 44.79E-2 *See 1.aboratory result for Intake. 7) ug/L lbs Tot.: X Laboratcuy investigation being conducto Ol0XIN s,3 r.S t.,... nestnise nusuu s . chsweers.nue-v. 1 Otoman it 764-o16) -- __ IcTir76 GTMIUia2] CTGWR_ . . . . . _ . ._ .. _. ._ _ _ _ . _ - _. ,-. ~ . _ _ . OUTFALL 107 ONTINUED FROM T14E FRONT 5. INT AME (deticee.ff

4. tJNITS

. I. PCLLUTANT 2. a4 An n an* 3. EFFLU ENT T u

• 'U""ThMd k 'vALu hg**"tg y gk'n*_

"O 4LER *M[1,

• Lj,*, g a. M AxsMUS4 O AILY Y ALUE A " ^ ^8[,J#!aN)# Y ^I'"E O F g' m m.

a am" i g,; -y .... in *ar.s 3p := . . ;. , ,,,, , ej. ,,,,,, i.i ... ,,,,, , ej , ,,,,, i.i ... , ,,,,,p,.,_,_ . i.,i ... ,,,, i .i . . .. 5weis FRACTION -VOLATILE COMPOUNDS - sv. Aersi.in 1 ug/L lbs t en-o2cs X < 100 < 7. 84 E-2 IV. Acrylonitrll. 1 ug/L lbs ' t ic71313 X 4100 < 7. 84 E-2 sv. c.nr.o. 1 ug/L lbs 7: 4 3-21 X <5.0 < 3.92E-3 4V.. Els (Chiero-stef 8tyl) Ethy - -/ ts42C4-1) % SV. Eromc'f Orm 1 ug/L lbs ct2s-21 I <' 10 47.84E-3 ' OV. Casteen ug s X < 10 < 7. 84E-3 [s*$'27si"

• 1 ug/L lbs s

l,V,C$;f*"'*"* f y < 10 < 7. 84 E-3 flV. ChIorodl- 1 ug/L lbs lI? C U"*"*, y < 10 < 7. 84 E-3 sv. chi,ro.th. . 1 ug/L lbs . t rooo .it X <T IO 47.84E-3 1OV. 2 Chloro-I ug[L lbs chvMnyt Eth6r titoiset X < 10 < .E-3 i Ef 1 i t v. chterotono is74531 X 4 10 (7.84E-3 g

• 12V. O tchforo. "E 7

$*j"3$'h*"* '* - X < 10 47.84E-3 - ' 13V. Otchloro. dtfluotsm.then. (ig) (7s-71 4) __ 14V.1,1.Dichtero.

• • *"* 0 8-3 *-31 <10 ( 7. 84E-3 1 ug/L lbs X

1sV.1,2-Olenfor o. 1 ug/L lbs <thea* (10 7'"'*22 - X < 10 <7.84E-3 -- ISV.1,1 Dichtero- 1 ug/L lbs chy'*as t75-3Adi X ,< 10 (7.84E-3 3 7 v.1.2.Dichioro-g ug/L lbs propims (79 47-5) X *(10 <7.84E-3 ist i.3 om.- 1 "8/L lb *- pre,*a.164Ns e) X < 10 (7.84E-3 1 ug/L lbs in v. E thym.'nz n. 61008141 X < 10 (7.84E-3 1 2CV. Mathyl <7.84E-3 1 ug/L lbs tromsda u4*3 el I ( 10 l 21V Msthyt <.7.84E-3 1 ug/L lbs j chioeies tr4 rif.31 X ( 10 - - ~ ~ * *

• CONTINUE ON PA

tra e D. Peuu1En reepy (>c e it;m i of Form JJ ou v r a t.t. H u u at e ccNTrNuro rnOM P AGF V-4 TN0026450 107

s. roti_urant z. u a a n x- 3. trrtucnT 4. U NIT S

.U*T M E We W il cy' INS $ + *J 'A::;,'J.:n .. u a x .u uu o a s t.v v ai.u s 6 "^^"pf M&ty.y v ^'u c e t oaa y/'." c.%7 v ^

• u' .igogr ._ c c,,, c . ,,,,,,

g,$n%d'li."ut 6,"ar v a ^T 'o" i s==i e. .. ,- -s c m . n.or.i . .n,,  :::; .v.;. e ..e . .. i i. . . . i .i . .. c ..c ...i i. . . .. ,,i ... . e . . e . .v. .i. . , .. . i,i ... ,,,, i .i - . .. U7/MS FRACTION -VOLATILE COMPOUNDS (confinised) T10.0 (7.84E-3 1 ug/L lbs $71,Ug"/y.o",* 2 X 2 3V.1,1.2.2-chivo ahen.T.tes- T 10 /N7

• 84E-3 1 ug/L lbs (701L6 ._

24v. Ta,.chimo. an ve.n.(1271s.4i < 10 0 (7.84E-3 1 ug/L 'bs t y 2: v. Tasu.n. tios a.ss,r q 10 0 47.84E-3 1 ug/L lbs X 2 aV ,1.2 Tt.ne'. Ofehlofo ( 16 -w} t lh y l.n* T 10 ( 7 . 81. E-3 1 ug/L lbs X 2 7V.1,1,1 T el-e,hio :<thaa. T10.0 ( 7. 84 E-3 1 ug/L lbs ( 1-564) X 2

• V.1.1.2 T al-

$A*6%@" ' 10 0 (7.C4E-3 1 ug/L lbs X 2.V. Trichleco-uhys:n. 7s-oi-6i 10.0 ( 7. 84 E-3 1 ug/L lbs X 3ov. Trichloto: "f ="Qp * *"* T10.0 ( 7,34 g_3 1 ug/L lbs x 31V. Vfn chio.io2 I:f 6.o3,43 y T10.0 ( 7. 84 E-3 1 ug/L lbs GC/MS FM ACTION - SCID COMPOUNDS l ^g2 ,Cf,'* *""*" ' -( 5.0 43.92E-3 ug/L x 1 lbs 2 A 2,4-Ofehloro-nhces(120ea-n y 5.0 43.92E-3 1 ug/L lbs __ 3 A. 2,4 Olen.thvi-ph.nti (106-67 9) X < 5. 0 <3.92E-3 1 ug/L lbs $.li$fE4_'E'2 i X i 30 < 2. 35E-2 1 ug/L lbs 7A;28S'"EE 1 si . X i 20 <1.57E-2 1 ug/L lbs i 2 [pj [,""'"*"*' ~ < 5. 0 <3.92E-3 1 "8/L lbs god o",. / ,""'" ' ( 30 (2.35E-2 1 ug/L lbs - N."oi$s*s $ X $30 < 2. 35E-2 1 og/L lbs j T A. Ptntit hloro. ph:mt (87-86 5) 7 ( 30 < 2. 35E-2 1 ug/L lbr l,[f ,"3$", ' X (5.0 < 3. 92E-3 1 ug/L lbs 11 A. 2.4.6-T ri- t -MarenhannL . ( ?D di 5 7 F__1 __ i _1 u_u_!_I lm .__ __ . - ~ OUTFALL 107 L S . IN T A M E f **p******84 gNTINUED FROM THE FRONT 4. (JN g T S f , f*OLLUTA NT 2.P4Artet m*

3. E FFLUCH T C E *d %8eO Od L O"g Q g g

a. M ax eMuu O AILY W ALUE

b. M A M s e4 5fgjvvALUE c LON G Y M

fjyg.VALUE d MO O F i, m a s s a w AL- y a... I n u n t. " ^ " " 84 *7;*,* " t el = ==. '885 1

3. g -. u.t. e

..e - .c.e.e. . s,s ... vses ." I. UM .YJ. , ,, ,14, , ,,d ( 31 - . . . , ,, , 8,,' 3, , , ,,, l f .1 - . . . ,,8,,8,,,,,, y at Wef 3 %,m3 rnACTIOP' - BASE /NEUTR AL COf.* POUNDS i s. nc.p.ohih.c. l 1 ug/L lb a, iss s2u (8) X < 5.0 < 3. 92E-3

20. f.censphtyeen. 1 ug/L lbs t208 m c3 X <5.0 < 3. 9 2E-3 (8) 3L Antbrecen.

< 3. 9 2 E-3 1 ug/L lbs s i2o- s a-n X <5.0 (8) 4'J. asnsidin. (3.92E-3 1 ug/L lbs

2 ci ci L (g) X < 50 s o. con,o ips ug/L lbs 1

'"* X < 5.0 < 3. 9 2E-3 ^ "y "',**3 i (8) X - 1 ug/L lbs es. ev..n. canso tso a2 rasi (8) < 39 <7.84c-3 _ 7 0. 3.4 Usnao. X 47.84E-3 1 ug/L lbs j',737,'7;"* (8) (10 8 n. Wnse tshi)

• X 47.84E-3 1 ug/L lbs

[,,,'$72 (8) < 10 ,s. erneo f%) X (7.84E-3 1 ug/L lbs [];;?';"',"T"* (8) < 10 103. Eis (2 CMoro < :.92E-3 1 ng/L lbs

• 07,'i. i }"M X <5.0 118. Ole t t Chlore-X <5.0 43.92E-3 1 ug/L 'bs IO'//45'Ei (8) l 128 dis (2 fA8xonse- ug/L lbs ic tiher tm2 ggi X <5.0 < 3. 92E-3 1 l l

130. Cls (2 Ethpf-7, ,Z [.$'i g'*g 3 X < 5. 0 43.92E-3 1 ug/L lbs 1 o'"* X . I u;/L lbs L C*"l'[o"i,','(33 8 }4 0. 4 < 5.O < 3. 92E-3 _ ise.couveo.arvi rhihst**= s;5 M X < 5.0 < 3. 92E-3 1 un/L lbs ~ J 168. 2<htcro-j ",'?"s's".7f"* m X < 5.0 < 3.92E-3 1 ug/L 15s . 170. 4 Chloro- X 1 ug/L lbs $*",7'[o"o's".Y{ $) 45.0 4 3.92E-3 ](is=.ch< L 2 $a oi-ei van. X < 10 < 7. 84E-3 1 ug/L lbs __ (8) 19 8. Olt>*ns o (s.h ) - ^ 4 10 47.84E-3 og/L lbs sa"a'$'o*3$"' (g 3 X 209.1.2 - Dic hlor o-i X < 5.0 < 3. 92E-3 1 un/L .lbs baa=*a* (SS-5fg j 218. i.3 Dich;oro-eennene ts4i.gi- y 45.0 . < 3. 92E-3 1 uc/t ihn CONTINUE Of "1E % P AGE V-6 tess e.o. nuunn (copy from Irene I of Form i1 ouirnLL nuuutn TN0026450 107 CcNTINUED FROM PAGE V-G . i

4. UNITS 5. IN T mt E (e-er.ria eff l l1, POLLUTANT a. u nnM *n- 3. E F r t_UEN T IS7$5  :: - J.::;J. s = =^x'aua oa " *Le- " """7CJAW ""' * ' " We"J MTr"^"* 4,~,ogy e. c o nc. n-

'aane~ , . . , , __d&"20 'v"a"w1 i.i-... %"r.J? ' vses m to w, .w. .. ..i. . . . . ... I .~..i.i...... i.... ,se, i i. .o. .. -- - . .n.,  :::;. i.... ......i GC/MS F HACTION - BASE /NEtJTHAL COMPOUNDS (cominued. 22L 1.4Dichloro- ug/L lbs wa one (to6-g X 45.0 <3.92E-3 1 . 2 3 2. 3.3'-Dichloro- , j 75N X < 25 <1.96E-2 1 ug/L lbs (m 2%. Olethyt ((j"IN (g) X <5.0 < 3. 9 2 E-3 1 ug/L lbs 26 J. Olmethyl [E E.,'.$,l! ( g X <5.0 <3.92E-3 1 ug/L lbs 2 64. DON sutyt [INi$$ X < 5.0 < 3. 92 E-3 1 ug/L lbs (8) 2 7 fl. 2.4-Ofnf tso- ' unuw a i21. ' X (5.0 < 3. 9 2 E-3 1 ug/L lbs l 28 2. 2.6 Oinfero- {'otusaatro62pg] 2 X < 5.0 43.92E-3 1 ug/L lbs l2m.oin-ocvi [IE$2$1 (g) X < 10.0 < 7. 84E-3 1 ug/L lbs 30 0.1,2-D ephonyl-hydeis fra fes A ro-6entant) (122 66-7 ' E 310. Fluarcnthene (20644 0) (g) X <5.0 <3.92E-3 1 ug/L lbs 32 5. F luoren. (88-73 7) - (g) X < 5.0 < 3. 9 2 E-3 1 ug/L lbs ns. ne:scworannien. ti t e-7411 X < 5.0 <3.92E-3 1 ug/L lbs (8) 34L Hems- , y*3fd'*" 8 ) X < 5.0 < 3. 9 2 E-3 1 ug/L lbs ( 36 3. Hmchloeo-X < 30 < 2. 3 5 E-2 1 ug/L lbs U* S7$#'*"[8 ) 320. H na scMoro. , erh:<ia te7 72 /b X <5.0 < 3. 92E-3 1 ug/L lbs 379.Indcao jh[3 d["*g"8) X < 10 <7.84E-3 1 ug/L lbs 30 0. Isophorone * (73'59-1i X < 5.0 <3.92E-3 1 ug/L lbs (8) _ 323. N;;phtholene toi 20-33 X <5.0 < 3. 9 2E-3 1 ng/L lbs (8) 40 0. Hittobent one - ug/L lbs 190 96-31 (g) X < 5 . 0- < 3. 9 2 E-3 1 410. N Nitro-sodimIthylemine g t?2 75-f) X g 42tl. N Nitrosodl- , N Propytimine x < 5.0 <3.92E-3 1 ug/L lbs tto21ca7) (8) -. - -. _ 4 OUTFALL 107

ONTINUED FROM THE FRONT

4. UNITS 5. IN T AM E (.apeemef)

E . pot.LU T A NT 2. u A n M *N' 3. E F F t.U C N T VALUE c.Lo rd G 7 VMLUE Eo9 o vnM po yfggy a ve e4 tome. c. . e- e. M AXIM UM D Alt.Y V ALU E A ^ f, y g} O F RAG A LM g vses 7 " " T ' D- l' t ,=, y-*,*,* t..... vsss - wustpfe; . {* . CO /, ll, , ,,,, , g,1,,,,,,, j g .3 . . . . ,,,,,g,1,,,,,,, t.:.... , ,,,e , s i,s, , ,,,, t .: . . .. GC/MS FR ACTION - B ASE/ NEUTRAL COMPOUNDS fcontinued) 4 33. N-Nitre. ,nmenvi. min. X 45.0 < 3. 9 2E-3 . I ug/L lbs 186-31R) (R) I 1 yff"j,"*"'h"* X 4 5.0 <3.92E-3 g/L lbs (ai .X 4 5.0 < 3. 9 2E-3 ug/L lbs ',5*iIE'*'" 2 m 1 46s.1,2.4. Tri-

hio otum . I < 5.0 < 3. 92 E-3 1 ug/L lbs (120 821) $ (g)

GC/MS FRAC' TION - PESTICIDES - 1P. Aldrin 13os-oo-2: (8) X' < 0.01 <7.84E-6 - 1 ug/L lbs 2P. a enc 1319846: (8) X 4 0.01 < 7. 84 E-6 1 ug/L lbs 3P. p-suc . <3io4s.r' (8) X 4 0.01 < 7. 84E-6 1 ug/L lbs 4P. ass p3.si onc <0.01 47.84E-6 ug/L lbs () X 1 sP.5 enc r ais-se-a (R) X 40.01 47.84E-6 1 ug/L lbs _ GP. Chloedone ts7-34 Si (8) X <0.01 < 7. S ': E-6 1 ug/L lbs ' F P. 4.4*-D D T iso 23-31 (8) X < 0.01 < 7. 84E-6 1 ug/L lbs S P. 4.4* D D E 12-es-si - (8) X < 0. 01 <7.84E-6 1 ug/L lbs Itd4T[ (8) X < 0.01 1 ug/L lbs 7.84E-6 t OP. Ol49ein too 87 il (8) X < 0.01 < 7. 84E-6 1 ug/L lbs 11P. G Endosulf an ii15 23-71 (8) X < 0.01 < 7. 84E-6 1 ug/L lbs 12P.$ Endssultan tits 2e il. (8) X < 0.03 < 7.84E-6 1 ug/L lbs , ,13P. Endosultan l !"0!iYo7e '8) X < 0.01 <7.84E-6 1 ug/L lbs , 1(P. E ndeln cr2 2osi X <j 0.01 < 7.84E-6 1 ug/L lbs (8) ISP Endrin ^'N',7f:74: (8) , X < 0.01 < 7.84E-6 1 ug/L lbs 1(P. $ttptschlot s is-4 8 *1 (a) X 4 0.')1 < 7. 84E-6 - 1 ug/L lbs fME 8 N MEN N

EPA Form 35m2C (8 90)

EPM S D. PeUMesEt, (co.sy grosse iteme i af 6pme if OU YF ALL MU.4 BE FT TN0026450 107 'oNTINUED FROM PAGE V-8 S . IM T A 9( E (.or,fa=.eIJ 4 UNITS

5. f>O Lt_U Tf.N T a. M anet*m* 3. ErFLU L d "

"" E av AU VALUE "[ .'

s. M A x 5M UM O A tt Y W At.u t ' $[,d,N[ Mf"e eaYeh '

I ",G;O F ( concew g, 3% ER 9 7.'." M * *" h*,'f, vsts '"^ " '*!.*,.*,'.'.*.* 88"*" '' W ##i . ..,u t!. . ... . . . , D1. . .... . ..,, , fl,8. , , , , i.-...

• 1 8

• E- lat--a t.s -. ..

DC/MS FR ACTION - PESTICloES teontinesch

1. P. Heatechnos '

k oos w . ug/L lbs kie2c s7-si (8) X < 0.01 < 7.84E-8 1 tLP. PCO-t242 1 ug/L lbs 153<69-2191( g) X <0.05 < 3. 92E-5 s ICP. PC3 1254 X <0.05 < 3. 92E-5 1 ug/L lbs I ino91m (8) _ 20P. PCo-1 T21 j X <0.05 < 3.92E-5 1 ug/L lbs " "" 18 -13( 8 ) 91P. PCS 1232 X 4 0.05 < 3. 92E- 5 1 ug/L lbs " "

• t -'8 51( 8 ) .

72d*. PCS-1248 312372-29 6)(g) X <0.05 < 3. 9 2 E-5 1 ug/L lbs 2 3P. PCO-12LO (" 05: 82 s:(8) X < 0.05 < 3.92E-5 1 ug/L lbs 24P.PCS-toI6 X <0.05 43.92E-5 1 ug/L lbs 8120'*-18-2'( 8) _ 76P.Tomophane X < 0. 5 <3.92E-4 1 ug/L lbs cot as.2: (8) PAG E V-9 (1) Consists of average of 4 grab samples taken in one day. Results were 46, 53, 47, and 42/100 ml. (2) Consists of average of 4 grab samples taken in one day. Results were 11 *C, 10.2 *C, 10.4 *C, 10.1 *C. (3) Pond temperature is ambient. Temperature is not routinely measured. (4) Consists of average of 4 grab samples taken in one day. Results were all< 0.1 og/L (MDL) . (5) Con <ilsts of average of 4 grab samples taken in one day. Results were all 45 mg/L. (6) Consists of average of 4 grab samples taken in one day. Reselts were all<0.5 mg/L S0 3 (7) Consists of average of 4 grab samples taken in one day. Matrix interference appears to be a problem. No source of phenol to this pond is known. There were no influents to this pond, other than rainwater ~, for months prior to this release. Results were <40,110,54 and <40 ug/1.. (8) Testing conducted although pollutant believed absent. (9) Presence due to wildlife in area. '(10) Gross alpha, gross beta and total gamma activity analyzed. in'11eu of J. (1) through (4). This substitution was discussed 'with Steve LeTendre of TDEC, WC. (11) Compound is no longer on the Priority Pollutants List. (12) Analytical error believed to have occurred based on previous and subsequent data indicating less than one-half this value and no source of influent to the pond. (13) Consists of the avetage of 4 grab samples. Results were 0.002, 'O.002, <0.002 and <0.002 mg/L. (D te A s.o. nuM we n icepy from flem i el form 11 PLEASE PRtNT OR TYPE IN THE UNSHADED ARE AS ONLY. You may report some or ett of this inform: tion on separate sheets (use the same formatlinsteed of cwpieting these pages. TN0026450 I SEE INSTRUCTIONS. V. INTAKE AND EFFLUENT CHARACTERISTICS (continued from PART A - You must provide the results of at least one analysis for every pollutant in this table. Complete 3. UNITS one tabte for each

4. INT AMEoutfall.

f cprior ff See in'str

2. EFFLU ENT

. V A LU E I I8##f' Y 'f U*"H .LONQ .. M A M sMUM D Af tY V ALUE b, M A M I sg VALug C.LO N G Tg " ^"*"

1. POLLUTANT A-Atvse. Y,, A ,c,L"i e Mass

..-..m......- i.i - - m . . < .mmm i.i ... .....m...... t.,.... ....m....... m . .. .. Bloctenec.i 1.05 29 mg/L lbs S*J,T," C/j"'"d 35 20.16 24 3.20 14 _ .. c.,e,,ec2 1 mg/L lbs c'Jf,}"""*"d 24 1.38E1

c. retsi o,e.nic 1 mg/L lbs cMoon troc' 9.8 5.64

+ voices...neno.a 0.60 2 1.50E-1 29 mg/L lbs sono.a m s 8 4.61 4.5 1 mg/L lbs .. A - - o-\. t.. n 15 8.64 VALUE VAtuE vALuE VALUE

e. r tw 0.016 0.009 426 MGD 0.069 vALUE vAtue vA ut

. v ..,, ..u.. vatue *C 1 '*'"'"' 17.4 &atut vaLuc vatue "^ tut A Tempee. sue. *C tsummers (1) MlHAMUM M A MtM UM MIN IM UM M A M 8 MUM ST AN D A rlD t' NITS I' " " 7 PART B - Mark **X"in eclumn 2.s for each potiutant you know or have reason to believe is present. Mark ~~X~ in column 2-b for each potiutant you believe to be obsent.*f you which is limited sither dir octly, or Indirectly but espr e ssly. in an effluent limitstions guidefine,you must provide the results of at least one snelysis for thei pol columri 2 a. you must provide quantitative date or en em ptenation of their presence in your discharge. Complete one table for each outfell. See the instructio

4. UNITS 5. INT A K E (cr.rfr*neif

3. E FFLU ENT

s. POLLUT- 2. u a n i< M -

,go,ug v a,n y M, o ,

1. "sYo$ *.,.Jyk".*. .. M A MauuM ometY v AtuE b " ^ ^ "W;* M.V/jf' v ^'U E "G 'df" @ # ^ tu s , ,

v n a rion , ,,,, , 3;f , ,,,,,, m - . .. vs.. cA vsu irr enewe, ..~. .... , ,,,, ,19,, , ,,,,, i.i ... , ,,, , J.),, , , ,,,, m ... , ,,,, , ig,, , , ,,,, i,i . .. . o , . ,ia . 1 mg/L lbs v24ne sui X 40.1 < 0.06 t,. ct.io,: e. .6 4.51E-2 261 ppm lbs Tom nssiou.' X 1.9 1.09 0.9 1. 20E- 1 1 FC

c. caior X 50 29 #/

d ,Z, ',, X 145 77.5 < 16 100 ML .. F hsorld. 1 mg/L lbs tiesse 4am X 0.4 0.23 ~

f. Nttret.- 1 mg/L mt<"at= N) X 65 3.74E1 1hn PAGFV-1 CONTINUE ON REVERSE

l i J V U - E G C A P 1 N 4 O e E i

m. U r

p N 2 1 f .r M , I T N E O 1 M b"( T C L A O L T A N 'd" F T S t h U O d' Q( s s s s s s s s s s s s s s s s b b b b b s b b b b b b b b b l l l

• b b b s s l l l l l l l l l l l l l l b b S l l T

I h N U H L L L L L L L L L L L L L L L / / /

4. MCI/L L L /. L / / / / / / / / / / /

g g g g / / / g g g g g g g g g g g u u u u n g g 'C i u u u u u m gT a m e m p C m m m m gv P F ' 1 1 1 O. j[ 1 1 1 1 1 1 I 1 1 1 1 O" N 1 1 1 1 1 1 d" E U L , A , W ,

g. g p .

2 V T 1 E G 4 G N A O P L. C E T U , N La , E V m U g L Y, , g g F F E , 3 j I e x A d u. n e 2 1 1 2 2 J l 4 2 2 2 2 c - - - 1 & E E E-z 2 1 e 4 E E- 5 5 5 E & & E 5 3 8 4 u 1 1 t 5 0 6 8 ~76 8 6 1 0 3 L 9 8 4 e 7 8 7 6 5 1 7 8 y - - 1 3 7 8 n 7 8 8 E E D . . . . 6 v , 0 . . 5 2 5 4 1 1 1 2 9 6 2 1 2 5 2 y 9 2 4 y . y t g 8 1 . t 4 < 4 4 < < 4 4 2 sA O 0 i / i u t u , l c y , T M , 4 E A. 2 4 1 0 0 0 0 1 N 1, 0 5 5 6 . 0 0 0 O 6 1 a . 2 3 5

r. j 7 1 5 8 7 7 R

o 3 0 0 0 5 1 5 1 S 2 t n ItC F M 5 3 4 4 4 4 4 4 4 4 o. M O c 4 /, n r i X' L~e C F 'M 7[ T 7 X X X X X  ? D E R j^.: . n i T* X X X X X X X X X X M U M X X X X N - I GM N X X T 8 3 , m e N y ) ) ) . m . n O C T - ) t

• s it v 4 4 . 4 i s 3 u

n m) ) i ta) m:4 u. r 3 s ts1 t5

m. F P U.

f 6 n. u r, o'o it ( ,,4 ) ( m( u m u I. . 9 . s u n u 5 0 . 3 m9 - s , 4 i 8 t o6 T9 i.u s de . , .n s o-T1 u 2 A . 8 . 2 3 d hf c. h 7 i9 4 l n e n , o s 3 V t. t yl n .. pJ o p i. 6 t u idT 'a t. '*s. d i i n 3s .cm se n 9 u 3 O o1 o 4 i. b.4 4 n9 8

n. s y n.$ $ n0 ln.'o P F

nb I .( o.!. of o l io y,o' s - o f u0 e lui9 0 f lo , i u 'l r MO P e n. o83 h; d e iAa l e '" R . tu "8a fu88 s$ 2 s u A2 et 4 e Ot 4 ct 4 a3 r 5 iT. 4 i Tt.'ll E . g0 o L 6 4 4 4 4 N'*, k. <i S" R S=s .o7 I1 T I f 8 l n' o P 1.' y, j sa i (T ) 2, ts 3. )(4 2 2 t 8 .' .a mtetI n. .o 7 oTE .o7 4 o 7 pT( 4 Tv eT1 t [I M'l4D[)7 s. t l wt ml ev A n.v. n uM CE n (CoPT $MM El E 05 " ' O TN0026450 112 CONTINUED FROM PAGE 3 OF FGRM 2-C PART C - tf you sre a primaryindustry end this cutf ati cor tains process wastewater,ref er to Toble 2c.2 in the instructions to determine which of the 2-a for sti such GC/MS fractions thet apply to your industry and for ALL toxic metsis. 7snides. and total phenots. If you ere not " Mrequired coluren 2-ctoformark columnyou each poilutant 2.s (se wesf ewater ottr/a//s andnonrequired GC/MS /ractions). mark X"in column 2.b for each potlutant you know or beve reason to beiieve is present. Mark *'X believe is absent. lf you mark column 2a for any pollutant.you must provide the results of atleastone analysis for ihet pollutant.If you mark column t 24 2b of at feest one analysis for that pollutent if you know or have es anon to believe ft will be discharged in concentrations of 10 ppb or greater. lf you ma dinitrophenot, or 2-methyl-4,6 dinitropheno!. You must provids the results of et least one analysts for each of these pollutents which you know d o concentr a:lons of 100 ppb or greater. Otherwis e, f or pollutants for which you mark column 25.you must ei;her submit et feast one enaf ysis or brielty descri be discharged. Note that there are 7 pages to this part; pfesse revfew each carefu!!y. Complete or*3 table /s/17 papes) for each cutf all. See instruction

4. UNITS 5. INT AME (ortioneif

' t. POLLUTANT z. mo r nx wa 3. EFFLUENT r h"3gNO O C t ht R Mgtg AND CAs " 7,*,* *),

• 7cf, *,7,, a. M A x s M u u D A s ty v A tu t

b. M Ax e ygv v A Lu E c.LONG Ygu pyeg. v At_ut d NEOF ,7 a ^ y= " * " * " vsd NU KER .'. ;, . . .,, , DJ, , , ,,,, , ,,,, y), , ,,,,, i.,... ^v "sE b ! ,, ,*,n*,- t.-...

rt/ o rthre) .}ff. m; t. -... , ,,,, , 9),, , , ,,,, t.: ... _ METALS, CYANIDE, AND TOTAL PHENOLS iu ano,,ony.

5. 7 6E -4 I ug/L lbs re.o truo as os X (1 -

2 u. Ar..nic. T or. 1 ug/L lbs ( 7 440-se -21 x <1 4 5. 76E -4 aw eavmum. 1 ug/L lbs v out. ruo 4 5 71 X dl (5.76E-4 m cwmwm. 1 ug/L lbs roni t r44o 43 'l x 0.2 1.15E-4 s u. cwomium. 1 ug/L lbs Tous truo 47.si X <1 < 5. 7 6E-4 su. cer 7.. 1 ug/L lbs 04 e so al X (10 < 5. 7 6E-3 7u u.ce.t I ug/L lbs pos s2 il X <1 4 5. 7 6E-4 eu. u2.cu,v. Toni , I ug/L lbs (7439 97-61 X < 0. 2 (1.15E% _ eu. nia o. Tot.r 1 ug/L lbs (7440 o2 0 X 2 1.15E-3 _ i cu. szimium. 1 ug/L lbs rous tr7e2 49 28 x 41 45.76E-4 n u. siim. Toi.e 1 ug/L lbs 17440 22

• X (10 <5.76E-3 12u. Themum. I ug/L lbs Toni t7440 2s ol X (2 <1.15E-3 t au. zine, Toe.i 1 ug/L lbs (744o 66 C) X 70 4.03E-2 -

~ i <u. cyznia. I mg/L lbs youtasi.t2h X 0.0075 4.32E-3 1CM. Phsrsole. * *See labO ratory reS J1t for In :ake. 1 ug[L lbs T o ui X (42.5 < 2. 4 5 E- 2 1.nhornrnry in - r4 w i nn ut y ceducend. DtOXIN 2.3.7 C T ute ., j utscntetnasutvs chlorodibinno P. 7 Olouin it 764-ot 6: r emvemee sr sus nrgic otr OUTFALL 112 ONTINUED FilOM Tile Ft10NT . 5. INT AMC (ef tfosooff

4. U N t T S 8 POLLUTANT 2.uan84*M* 3. EI~f LU ENT

e. M Ax: mum o AtLv vALuz A "^"'Y",,jgi,D[ V"W 8 L O"" TM,",,MQf* V ^

E 4 ,Mo u of ,, e o g e,,, ta M Ass ahYaY8aN h ANgMo {,F "w A2ER

• l,*;'3*

, j*,j,*,{, v.- 5 a ^T'o" i !;:::n-- i.i -o**- v=== , ,,,, , ej, , ,,,,, , ,,, , , pf, , ,,,,, i ., . . . (o .a.ms - .fr i.i . . ..

.rt, , ,,,, , 9), , ,,,,, i.i ...

GC/MS FRACTION -VOLATit.E COMPOUNDS OV. Aceslein no7c243 4 100 < 5.76E-2 1 ug/L lbs y W. Acrylonitrile ner 13-in X < 100 <5.76E'$ 1 ur/L lbs 3V. Osasene - 971-42-2 X, 5.0 < 2.88E-3 1 ur/L lbs 4V. Sie (Chism airth yl) Ether - ts42 s.1);-! (5) i SV. stomofsam ug/L ( 7s-2 s.23 ' 4 10 < 5. 76E-3 1 lbs X:

sv.Ceroon . .

]s*jYj*d* X -. 4 10 < 5.76E-3 1 ue/L lbs ,7V. Chlorobens one

".oe sa7 < 10 <5.76E-3 1 ug/L lbs X

av. Chio,ool- -

Y4a"U"*"* X < 10 < 5. 76 E-3 1 un/L lbs 9v. Chloroethen* '878 00-31 4 10 < 5. 76E-3 I ug/L lbs X , TOV. 2-ChloeO-

• • E77T"$',""*' X 4 10 < 5. 76E-3 1 un/L lbs 11V. Chtnesform

.'t6 746-3) X 4 10 < 5. 7bE-3 1 ug/L lbs - 12V. Dichloro-j' @ '"*"* < 10 45.76E23 1 ug/L lbs 13V. Dichloe 9-dtfluoromathens (76714) (5) ' 14V.1.1.Dichtero-ethane 176 34-31 x 4 10 < 5.76E *3 1 ug/L- lbs 16 V.1.2 -D ic hooro-ethene (t o7-opl: X < 10 < 5. 7 6E-!3 1 ug/L lbs 16V.1,1 Dichtoro-ethyttrie (76 35-Al x < 10 < 5.76E-3 1 ug/L lbs 17V.1,2 Dict foro-neopene t7a-at.5) X * < 10 < 5. 7 6E-3 1 ug/L lbs _ ISV.1.3 OncNevo-pradea*1542-76 e' X < 10 < 5. 7 6E-3 1 ug/L lbs inv. Eihyth.nr en. 0004541 < 10 45.76E-3 1 ug/L lbs , X 20V. Msthyl erorn 4. (74 eso X < 10 < 5. 7 6E-3 1 ug/L lbs t 21 V. Mathyl Chio,io t74sbl X . < 10 < 5. 76E-3 1 ug/L lbs '-~ p a n g V.4 . CONTINUE ON PAGE ira s.o. nupnen (repy from lum i of Foren JJ C F As.L M um!iEs TN0026450 112 CONTINUED FROM PAGE V_4

5. It4T AME (apr(oneff

4. (I N S T S

3. E F~F LU ENT g NO O I. PO Lt.UTA NT 2. M a n n x- .VMLUE d N O. 0 F [h A ,GN T E n#4 g( g _

b. M #.X s V V f4 LU E c,LO N G T M) g y N

gf ^ a,ess. Is . . : c . .- a. M AXf M UM D AILY V ALUE ,, lil aa * ^""'- MM T n aTion -= ~

i. I, .c n..

e ,I - . . . ,ses (p wh6fe)

• * " , . *". .:.?,'. ,

' '.. ,,, , lal, ,,,,,l (.3=... ,,,,,,1,',1,,,,,, f el aase ,,,,,,,i,,,,,, UC/MS Fr4 ACTION - VOLATILE COMPOUNDS (rontinued/ 22V. M thytene 1 ug/L lbs chio iee 7aoo " X < 1') 45.76E-3 2 3 V.1.1.2.2-T ett e- 1 ug/L lbs

• "$*3fj7"* , y 4 10 < 5.76E-3 2

2 4V. Tttrechtovo- < 5. 7 6E-3 1 ug/L lbs Ethylen3 (127 ** 4) x 4 10 2 s V. Tasunne 1 ug/L lbs o os e s-an < 10 < 5. 76E-3 i; , 1 2 2v. i.2.Trene-45.76E-3 1 ug/L lbs OkhtovMthytene its240 s) X < 10 2 F V.1.1.1 Tri- 1 ug/L lbs d 10 < 5.76E-3 {'7jy" X_ 20V,1,1,2 T ri- 1 ug/L lbs

• ",;;'dy"

, y <10 < 5. 7 6E-3 25V. Telchloro-- < 5. 76E-3 1 ug/L lbs - ein ,sen cro-o ai X < 13 l ug/L 30V. Trichloeo- 1 lbs Hooremithen* < 10 <5.76E-3 os es-41 X l 3 v. ven i < 5. 76E-3 1 ug/L lbs chtorte> Irs os.42 y < 10 l OC/MS FR ACTION - ACtD COMPOUNDS 1 A. 2 Chlorophenol < 2.88E-3 1 ug/L lbs era sr al < 5.0 j

24. 2.4 orchio o- < 2. 88E-3 1 u8/L lbs  !

phenol (12o 83 7* < 5. 0  ; 2L i , , , .4.o nethvi. . isoser.o 45.0 < 2. 8SE-3 1 ug/L lbs X 4 A. 4.e.oinitro-c,..oi tss4.s2 u.' < 30 41. 73E-2 1 ug/L lbs _ X s A. 2.4- ""'"- ,henor ts'i 28 si < 20 4.I 15E-2 1 ug/L lbs ~ (. 2. 8 8E-3 1 ug/L lbs -(5.0 8,^g.h'j""* "' y . . _ . _ ,',^'go o", *',, ""*"" ' < 1. 7 3 E-2 1 ug/L lbs < 30 s A. P-chio<o M- < 30 41 ny I ug/L lbs c....i nso so.7.i X 9 A. P sntschfor o-phcnot (87-R6 s) y < 30 < 1 73L2 1 ug/L lbs i o ^ '"*" * ' < 2. 88E-3 1 ug/L lbs ticc es.28 X < 5.0 s i A. 2.4.o."' 41 15-2 1 ug/L lbs chi, ..o n nes ' y < 20 ~ _ - . . -- _ _ _ . . . . . . _ _ _. _. . _ . _ _ iONTINUED FROat THE FRONT - v OUTFALL_l_12

4. UNITS 5. INT A MC* fesp; ::ds l ***

• LU T A N T 2. u n a ss -a* 3. E rFLUCNT .

yoga i,c,=4 o >"axq g g,g,vvai.ue c.como ig,gp,7. v atua t ,, o o,  ;

• "^*'"" ^.y v acu e , ,,

p .i eN d.. *:.u'SJ:;,J.tt.

n; .v.: ,,,,,, t;),,,,,,,l - o -. . . ,,,, , p,s , , ,,,,, so .... vsas '"^n " ti,c,+-*

,, = -- i.--.. vnsg .d.68<> .Q GC/MS FRACYlON - BASE / NEUTRAL COMPOUNDS ' i o .. .. , ,,,, , g,i,, , ,,,,, l L is.ac.n.phthen. ug/L lbs tes-32-si (3) X- 45.0 42.88E-3 1

23. Acanaphtyten.

t2os-oss' X 45.0 < 2. 8 8E -3 1 .ug/L lbs (3) X 42. 88E -3 1 ug/L lbs ,i ntro-12 3a. Anth..c.n{3) 7: <5.0 ,i!*"s's? (3) X < 50 <2. 88E -2 1 ug/L lbs

63. Sento hs matheec== X; 45.0 < 2. 88 E -3 1 ug/L lbs

(56 55 33 - (3) sa. censo t.s - g 10 e v ,.n. no-32 fb _

X <5.76E-3 - 1 ug/L bs 7u.s.4-o.ne.2 ' es-2: "r*o*s'aa'h'a* c (3) X <' 10 <5.76E-3 1 ug/L lbs ea. conne tahis ug/L lbs ra v **a* (199242 (3) ,X d 10 <5.76E-3 1 X 1 ugE s JD. Sense th)(3) riuo,.nihen. '(207-08 91; < 10 <5.76E-3 ' 100. Els if chforo i;",';','! ",*'h*(3 ) X 4.5 . 0 <2.88E-3 1 ug/L lbs 119. 8tst2 Chlora-I!",'/!.UIi " (3) X 5.0 < 2.8SE-3 1 ug/L lbs i s. e it.carei. ,,erroris.,iiorgi X <5.0 < 2. 88E-3 1 ug/L 'lbs 138 gne (2 Eth'yt: he= re s rhihe'e'* t i i 7-o ' 71 ru X <5.0 <2.88&3 1: ug/L lbs-3 4 a. 4 e ** - ph.nyt r'*anyl(1) h X 4. '5 . 0 <2. 8SE-3 1 uE/L lbs E th.e (101-55 7T 158. Outyl Benryl rathai ne ses . .y <5.0 ( 2. 88 E-3 1 ug/L lbs 168. 2-Chloro-ug/L n.ph 'h***a* X <5.0 42.88E 3 1 lbs (91587: (3) - 170. 4 Chloro- X ~ 1 ug/L .- as phenylrhenvi E ther (7005-7 3y 45.0 < 2. 88 F3 10 0. Chrysene (2 ia-oi s' (3), 'X < 10 45.76 & 3 1 s.g/L lbs 190. Olbenro t h) ~ ug/L lbs A nthracen. (3s s 1 X < 10 4.5.76E-3 1 (53 70-3)- 209.1,2.Dichloro-t>.nasn. trs so-in 45.0 42.88E-3 1 ug/L lbs r, ag X 219.1,3 Olchloro-X 45.0 42.88 &3. 1 ug/L lbs i>.nn.n. c s 4 s.M P AGE V-6 CONTINUE ON PAGE % I t ra s.o. num; Eu (copy frone Jfine i of F.ma JJ oUT P ALL NUMEER I l

CONTINUED FROM PAGE V 6 TN0026450 112

3. Err LUCN T a. UNITS S. IN T A M E (hr=w*.f1 1POf.LUTANT 2. u a a n an-

• * ",fdf

• "'" "M!.WF ""' * ' *

• W'."J W ' ^ '" ' 4,",ogr .' coucm ^ O PA "t'v'a"t b v M$r$ * ::' 3.::;J. s aax'aua ='va'uc a at'o" t, u , , ,

i.-... n vses . = . . ::n to ..n.or,i .v.;, i... .. ...i i,... .....i.. ..... .sc. i i. . . . ... - . . . .m .i i. . . . .. I3C/MS FRACTION - DASE/ NEUTRAL COMPOUNDS (continued. 2 2 0.1.G Dichforo- I ug/L lbs temen. s t os-f q-[ X < 5.0 <2.88E-3 , 2 3 J. 3,3NDichlor'o tonalding y ug/L lbs t ;i-co-t (3) 4 25 4 1.44E-2 2 w. c,i.ihvi r*'**" X 1 ug/L lbs o +e:.22 (3) < 5.0 42.88E-3 25 s. Otmut'syt Phthitet3 J y 4. 2. 88E-3 1 ug/L lbs (131 11 311 (3) 45.0 2 6.,. 06 N-Suty t Phth:fc.1) ' y 1 ug/L lbs ta7ca (3) < 5.0 < 2. 88E-3 2 7 E. 2.CDfnitro- ug/L lbs mu.n > c t21.}gi X <5.0 < 2 38E-3 1 7':3. 2.0 Diniteo-iau.neteos g i X < 5.0 < 2. L Jr. -3 1 ug/L lbs 211 Di N-Octyl Phthtf :13 y < 10 <5.76E-3 1 ug/L lbs visic4 o (3) , , _ _ _ 30 2.1,2- Diphenyl-f ydtc s tro (.s A s o. y 6sa r ent) ( 12 2-E 6-7 ; _ 3 t il. F fuorr.,nt hene 20 ems X < 5.0 4.2.83E-3 1 ug/L lbs g3) 322.rin ,.n. te e 73-7) . g3) X < 5. 0 < 2. 88E-3 1 ug/L lbs 338 Heeschtnrebenzene IH8 78-il X < 5. 0 < 2. 88E-3 1 ug/L lbs (3) 340. H ase-chlor:butodiene y < 5. 0 <, 2 . 8 8 E-3 1 ug/L lbs is7.sa 3 (5) 35 J. Hssee:htoro-U; 1 ",'*d'*"*33 X 4 30 <.1.73E-2 1 ug/L lbs 36d. H w echloro-ethin2 (67 72.,1h - X < 5.0 ( 2.88E-3 1 ug/L lbs 371 Ind no {((3 3N"'g*"3) , X . < 10 A5.76E-3 1 ug/L lbs ~ 3:o. i.oph;ron. U s 59-11 l X 45.0 < 2.88E-3 1 ug/L lbs 73) 391 N: r,hth.lene ci 20-31 X '< 5.0 < 2.88E-3 1 ug/L lbs (M 4oa. Neirsbonn.n. is:-es-33 X < 5.0 <,2.88E-3 1 ug/L lbs 73) 410. N-Hitro-sodim t*iylemine y . (62 75-1) I 42 0. N-Nitro ods-N ernoviem'a' X 4. 5 . 0 <. 2 . 8 8E-3 1 ug/L lbs l te2s so7) (3) . . . . . . . . . . . , . . . . . -. - - . . - -.- ~ - - - . . . - . . - - - - . . . . - . ~ - - . . - - . .. ~ . - OUTFALL 112 "X)MTINUED FROM T11E FRONT

4. UNITS 5. 4 H Y A M E' (.sp-! :f I ..sarte q.UT A JT 's, M ann x" 3. E F F t.tJ EN T

.VALUd ON T W 8t.4 D. O M C i.O N G T y ER * ,Lj,*g a. M AXtMUM DA8LY V ALUE

b. M Axt gY V ALUE

' tt) , '""T'O" t.t . . . vsas O edsifel - '*f'. }M "e{* ' *, s'.*.i. J,1,,Q s.3 ... ,,,,,,l,1,,,,,,,, j t . g . . .. , ,,,,,p,8,,,,,,, t . 3 .. . . vses (1,*, f,***,*,* GC/MS FR ACTION - BASE / NEUTRAL. COMPOUNDS (es.ntineed) 433. N .N itro-ggg"J,"*"'U) X < 5.0 d 2.88E-3 1 ug/L- Ibs 443. Ph.n.nthrea. tes-once (3) .X < 5.0 < 2. 88E-3 1 ug/L lbs 4sa. evene  ! t ime-co4: .(3) .X 45.0 '< 2.88E-3 1 uc/L lbs 468.1.2.4. Tri-M 72 W7I3) X < 5.0 < 2.88E-3 1 ug/L lbs GC/MS FRACTION - PESTICIDES 1P. Aldrin - 12os-co.25 (3)' X <0.01 5.76E-6 - 1 ug/L lbs ,7 P. G-S HC t pais s4-en (3) X [ < 0.01 5. 76E -6 1 ug/L lbs hP.p aHe >tano ss-ri (3) X < 0. 01' 5. 76E -6 1 ug/L lbs A s'. i ina h-81HC .e ' (3) X <.0.01 5.76E-6 1 ug/L lbs  ! IsP.6-eHe . isis es-el ( a) X < 0.01 5.76E-6 1 ug/L lbs , GP Chisedene (57 74 51 (3) X .< 0.01 5.76E-6 1 ug/L lbs _ s FP. 4.4 -ua t iso-as.2: (3) X <.0.01 5.76E-6 1 ug/L lbs O P. 4.4*- O D E IF2 es.si (3) X < 0.01 5.76E-6 1 ug/L lbs 9 P. 4.4* 0 0 0 ' 172 se s (3) X 4 0.01 5.76E-6 1 ug/L lbs t OP. Olaldrin 16 o 5 7-11 (3) X < 0.01 5. 76E -6 1 ug/L lbs i1P. G-Endssulf an tiis-23 73 X <0.01 5. 7 6E -6 ug/L lbs (3) 1 12P h.Endosulfen a' (115 29 73 X <. 0.01 5. 76E -6 ug/L lbs (3) 1 . t 3P. E ndasult en 8,"E!Eo74: (3) X 4.0.01 5.76E-6 1 ug/L lbs 14P. E ndeln 5.76E-6 (72 2041 (3) X .c0.01 1 ug/L lbs 15P. Endren ^*dth,vd* X 4 0.01 5.76E-6 1 ug/L lbs (742 42-4: (3) s 6P. Htpgachlor tie 4441 X 4 0.01 5.76E-6 1 ug/L lbs (3) P AG E V.8 CONTINUE ON PAGE V4 i EP A Form 3510 2C . (8 90) .. w ,,s >~e-- _ - - . .i o u'va Lt. nuus t re era s.o. nuuatn tener from item I of form 11 TN0026450 112 /?ONTINUED FROM PAGE y s 4. un t's s. invant t Pee er eanti.orAnT . u a a n x-

2. crri_uenT a " Ma"#t V,"t st f,"f,7

* ^ ^ '7/".'8.f& " ^"" ** "" 'd/'." 37 * ^.." ' 4,",o go r .. conc . , , , , , < vus .. Maximum omity vatue v u ,' va^no* i::--f,- i .i - . . . e eb c^n* * ,' . , " 3:nf,:n , ,,, , pA , ,,,,, e,i .9 ::s . .r. , ,,,, , ri, , ,,,,, ,,s.... , ,,,,, , pt, , ,,,,, i.i ... e a.as<s lCC/MS FHACTION PESTICIDES (conit .aeds t pr. H;wtechlor 1 ug/L lbs X 40.01 < 5.76E-6 [U*/ Ult.si (3) 189. PC3.* 2 42 1 ug/L lbs X- < 0. 05 4 2.88E-5 ca:es.,2su (3) < 2.88E-5 1 ug/L lbs ( isP. PCpi254 ,o soor-es.it (3) X < 0.05 i 20P 1 ug/L lbs loss.PC'A 22: X < 0.05 42.88E-5 a2 ass (3) 2P.PC@1232 42.88E-5 1 ug/L lbs 40.05 , otidiini(3) X 22P. PCS 3240 < 2. 68E-5 1 ug/L lbs 02:r2-2>cs (3) X 4 0.05 23P PCLi2GO 1 ug/L lbs sinos;as s' (3) X < 0.05 < 2. 88E-5 zee.rCo.irse 1 ug/L lbs "'8'*-" 28 ( 3 ) X < 0.05 (2.88E-5 s1P.Tu.e s .n. y < 0. 5 < 2. 88E-4 l1 lug/L lbs troot 35-21 (3) ract v., l f l l (1) Temperature should be ambient, however, is not routinely measured at this outfall. Therefore, value measured is for day of sampling. (2) 4 pH values measured during day of sampling. All were averaged and equalled 7.18 per the reporting instructions. Individual values were 7.07, '.17, 7.25 and 7.23. (3) Testing performed although believed absent. This substitution was (4) Gross alpha, gross beta and total gamma activity analyzed in lieu of J. (1) through (4). 1 discussed with Steve LeTendre.of TDEC.'WPC. ~ (5)~ Compound is no longer on priority pollutants list. f (6) See Attachment 8 for explanation of the pure beta emission detected in this sample. l - 1 t i t t% O E9 A s.o. reuMotn teory from trem 2 of Forsee apj PLEAst: rtilNT OR TYPE IN THE UNSHADED AREAS,0NLY. You may report some or E!! of I this inform tion on sepstate sheets luse the same formstf mstssd of complating ttvass pages. Noncontact water for screen TN0026450 debris removal

• SEE INSTRUCTIONS.

V. INTAKE AND EFFLUENT CHAR ACTERISTICS (continued from page J of Form 2.Cf PART A. You must provide the results of at least one analysis for every pt .utant in this table. Complete one table for each outfall. See instructions for additional details.

2. EFFLU ENT 3. U N ITS 4. INT A K E (cpriorself l Wh U h4 I . Po s.LU T A N T . M AxeMvM oasty vaLuc " ^ ^'$$d,7 V,^jYV^WE " "" W.M d.V,7.vALuEa d uo or A E a fF h NO. OF

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s. a,6oc8wm4 cal

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c. Terre o.sanic carboa fract 1.8 0.90 1 mg/L lbs

d. Totts sv pend.d soiid frsst 4 2.00 1 mg/L lbs

'e. Ammon+a fa n' O.05 0.02 1 mg/L lbs VALUE VALUE VALUE VaLUE

f. Fisw 0.060 Est. MGD

g. Temoetsture VAbUE VALUE V AI UE VALUE t-e-re rs 14.1 10.4 (1) 18.6 151 v^"I v^'UE " ^ " " "*'"'

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'"""""' 26.6 16.8 .c (2) 27.2 214 i MlN4 MUM M AMtMUM MINIMUM M AX0 MUM '- P H ST A N L' .R D U NITS PART D - Mark **X"in column 2 a for each pollutant you know or have reason to believe is present. Mark **X"In column 2-b for each pottutant you believe to be ab nt. lf you mark column 2e for any pollutent which ts fimitad either directly, or indirectly but empressly. in en effluent ilmitations guideline you must provide the results ol at least one enetysis for that pollutant. For other poth ' ants for which you merk column 2 a, you must provide quantitstive deta or en orpla nsteon of their presence in your dischergo. Complete one toble for each outf all. See the instrLctions for edditional ..etails a M requirements.

1. PO LLU T- 1. M A R M 'X - 3. EFFLU ENT 4. UNITS 5. INT AKE (cerfoneff 3 o*

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s. Stomids (24959 47-9 ] X Z 0.10 4'O.05 1 mg/L lbs l 16)

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f. Nitrzts-

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• X 0.16 mg/L 0.08 1 lbs PAGE W CONTINU'i ON REVERSE EPA Form 3510-2C (8 90)

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4. 3O L L L / L L L L / / / / / / / /

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4. UNITS

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1AS FRACTION - PESTICIDES teentlosur : bteptschlor % 0.01 < 0.00 1 ug/L lbs @*r-si (3) X ( PC"> t242 <, 0 . 05 < 0.00 1 ug/L lbs 08S25{8(3) X L PCO-125 3 40.05 (0.00 1 ug/L lbs h69-il (3) X ) PC31221 $0.05 (0.00 1 ug/L lbs .co22s 21 (3) X ) 7CO-123 40.05 1 ug/L lbs 04 8-12Cl 3) X 50.00 ).eca.124a X S 0.05' <0.00 1 ug/L lbs 072-2>cl (3 )

5. rco s2ao ug/L lb s-0834248(3) X 40.05 40.00 1

>. PC'&1*113 X S0.05 50.00 1 ug/L lbs fross28(3) ).Trzephane X / T0.5 50.00 1 ug/L- lbs Es &28 (3) PAGE V-9 l(1) Bzsad on readings of intake temperature data for November 1996-March 1997. i l(2) Based on feadings of intake temperature data for April 1997-October 1997. l(3) Testing perfocmed to ensure not detectable although pollutant not believed present. !(4) Cross alpha, gross beta, and total gamma activity analyzed in Ife'u of J. (1)~ Chrough (4). This substitution was discussed with Steve LeTendre ot TDEC, WPC. l(5) Compound is no longer on the Priority Pollutants List. Testing was previously conducted. See (6) Testing performed to ensure not detectable although pollutant not believed preseat. Attachment. I 1 i I 6 Ferm 3510-2C (8 90) tavacatEdsooncncs A M N ' ' ~ 76 owSN$1cs RECElvED CHEMSTRY BRAC.t ~~~' Ni}/ 2'9 N E &&[h .. "I J ___ne.s i. mm,m - ' w. I n , . f r- l ivisiogg,$QN 8 ne.a a.s se d'A af .ge iW ' L V # 4, i Ks pgg j c ., . yI L4..}M m.a w \ w. yy ite_ o t_ a L . _ _ _ .__. us, core @ .e.muu . 3-  ; m c r.. o. ...u..Sinclair- .- l Mr. naipu H. - Mana5er, Permits Section g

• Division of Water PollutIUn"Ucntr'oT ~  :

4ennessee Department of Hecith _

and Environment ,,g , n, wcu [i

~ocu r*. wue_ J

TERRA Building 150 Ninth Avenue, North .,Amys @$.* S?/[M_'//2f Nashville, Tennessee 37219-5404 L01 8811280l6 Deer Mr. Sinclair

I SEQUOYAH NUCLEAR PLANT - NATIONAt POLLUTANT DISCHARGL~ ELIMINATION SYSTEM ' (NPDES) PERMIT NO. TN0026450 - TOTAL RESIDUAL CHLORINE (TRC) DATA FOR 1 INTAKE BACKWASMES \ t.o / 11/6 2 7 o ly - 9 L.6 fo/.R 9 7 This is in- follow-up to my hetober M letter to you regarding Environmental 4 Protection Agency form 3510 T 2C for outfr.ll 116, condenser coolint water intake j trash sluice, and outfall 117, essential raw cooling water screer. and strainer backwash. These forms were complete except for data en TRC. These discharges were sampled durin5 August, 'out because of intake water quality problems (high ' manganese concentratior.s due to the drought), reliable date or. TRC was not obtained. Those waste streams were resampled for TRC on October 13 using the amperome ;ic titration method. i Samples were col:.ected and analyzed from outfall 116 at 1-hour intervals for a period of 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> beginning at 7 a.r;.. on October 13. As chown in Table 1,

all samples ant.lyzed contained less than the minimum detectable amount of TRC. ,

Sam-les were collected and analyzed from outfall 117 at 2-minute intervals for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> between 9 and.10 a.m. on October 13. Samples 1 t.nd 7 yielded values for TR': OF 0.03 and 0.02 mg/L, respectively. As shown in Table 2, these values have been flagged as questionable. The amount of turbidity present at the time of collection of these two samples is believed to have interfered with their result.s. These questionable values were obtained when the backwash pump'was first activated, ~ ~ ~ ' - ~ ~ ' and during the first change of ~ " ' '"~-strainers'bding bacPwashc3. d 4 -r ~ . -, , .y,--y or,-. --3n, -:--p-- - -r,e. - -w-,. , - - ATTACHMENT 1 ,- 116 77 ~. ~ . Mr. Ralph M. Sinclair N[Ei 2 2 lO3h. If you or your staff have any questions regarding these data, please have them call Abraham H. Loudermilk, Jr. , at (615) 632-6714 in Knoxville. Sincercly, 01pra! tignED Dy T...Pau!E.sv:ihrbach M. Paul Schmierbach, Manager Environmental Quality FAM:MFB Enclosures cc (Enclosures): Mr. Bruce R. Barrett, Director Water Management Division U.S. Environmental Protection Agency Region IV 345 Courtland Street, NE. Atlanta, Georgia 30365 Ms. S. C. Black, Assistant Director I for Projects TVi Projects Division I U.S. Nuclear Regulatory Commission - One White Flint, North 11555 Rockville Pike Rockville, Maryland 20852 Mr. F. E. McCoy, Assistant Director f or Inspection Programs TVA Projects Division U.S. Nuclear Regulatory Commission Region II 101 Marietta Street, NW. , Suite 2900 Atlanta, Georgia 30323 Mr. Philip L. Stewart, Manager Chattanooga Field Office Division of Water Pollucion Control 2501 Milne Street Chattanoo5a, Tennessee 37406 - U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, D..C. 20555 Continued on page 3 l %% s.

• ATTACEMENT 1 - 116 7g TABLE 1 -%

SEQUOYAE FU2 LEAR PLAIC CONDENSER COOLING WATER IICAKE TRASE SLUICE - OUTTALL 116 OCTOBER 13, 1988 Amperometric Titrator . S ample Total Residual Chlorine Time (me/L) pemarks Number Date 1 10/13/88 0715 0 3 0800 0 3 0900 0 4 1000 0 5 1015 0.7 Tap veter 6 1100 0 7 1200 0 8 1300 0 9 1400 0 10 1500 0 11 1600 0 12 1700 0 13 1800 0 14 1900 0 1915 0.31 Tap water ' " ") 15 2000 0 J 16 , 17 2100 0 j 18 2200 0 - 19 2300 0 20 2400 0 21 ( 30 0 22 0200 0 23 0300 0 24 0400 0 25 0500 0 26 0600 0 27 0600 0.05 Tap water end 0383d t .l. 7= *

• i' ATTACH' MENT 1 - 116 .

79 l TO*J 2 i .re ~' SEOLOYAE }"JCLEA.R PLANT ESSE!";IAL RAW COOLING HATET SCREEN AND STRAINER BACKWMH - OUTTALL 117 - OCTOBER 13, 1988 Amperometric Titrator Sample Tota 2 kesidual Chlorine , Number Date Time (mc/L) Femarks 1 10/13/88 0914 0.03* Turbid 2 0916 0 3 0918 0 4 0920 0 5 0922 0 Turbid 6 0924 0 7 0926 0.02* Turbid 8 0928 0 9 0929 0 10 0931 0 11 0932 0 Turbid ' 12 0933 0 13 0934 0 Slightly turbid '14 0935 0 15 0937 0 3 16 0939 0 17 0944 0 Turbid - [ 16 0945 0 0947 0 ) 19 0948 0 ,_ / 20 21 0949 0 22 0950 0

• 0uestionable data 06S3d

{ ~' Noncontact water for screen-1r A Lo. nuucan icop> trem its== 4 of Form I) and strainer debris removal. ASE PRINT OR TYPE IN THE UNSHADED ARE AS ONLY. You may repost some or all of T!!0026450 etion en aparate ah..is tuse su same tomurf insi s of compiasing these pages. o UCTtONS. <D LNTAKE AND EFFLUENT CHAR ACTERLSTLCS scontinued from page 3 of Form 2 Cl ~ )RT A- You must provide the tesults o! at least one analysis for every pollutaat - '

3. U N ITS in this table.

(sper8/r it hisahl

4. sNTComplete AKE (opslunaff one table for e

2. EFFLU ENT ,

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a. 1 "EI' pA 7*"I

• 45 0.34 L .$ o.

g ,Ejg ,s a trocs 1.7 U.12 ,...,s.-... I "E,L ru. f ris) 2 0.14 1 mg/L

• • ~a'* 8'a m 0.05 0.30 , vAtua wALuc wAtua wALua

• n 0.01

~ VALUE vALug _, ~* A Lu g C y wALua 14.I 10.4 151 " I"" (1) vacus 18.6 w A L.,e wALuc wAcue jy

• 214 -

~ (2) 27.2 . u . m. ~ --..u. - - A A. uu ~ ST AND AR0 0 NITS .** (6) 7 47  !! t nt Mask **X** ta cotumn 2 a for each pottuaant you kno. or have esson to battave is psesant. Mank ~X**in column 2-b for each pollutant you be;lewe to be absanL if yo MRI C - wtJch ts larsused e.thes d.: ectf y,og indas ocuy but emps a. sly. in a n ettluent limitaticas guldsuno.you must prowide the a suits of at taast one ent y=Seta ons tabie lo column 2a .ou must prow s da quantitative dsta ca an espionationof thett presencein your dischaf 08.C-- 5. IN T A K E (opslunaff

4. U NITS g g o, g ,

3. EFFLUENT .VALUE 4 GHG{ERM i.PoLLuY, a.a.Asan*A- vVALut s.LONG T MA op ANALa Af'tT AND . . . ,  %** u Amamuu oAaLY v ALut h ** ^ "'% "mM)p 3 ANAL * '"^n " 4 uAss

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.m m (0) x 3 1 mg/L lbs s ma u. 0.g 0.00

, ia.a m a 1 1 .mg/L lbs ~ e mure- - muna #= N) I 0~28 0.02 pact v.s CONTINUE ON REVERSE _ ___E_P A _ Form 35 to-2C (s-rcl ' _ . . . _ _ . _ . . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . . _ . _. , _ . _ _ ~ ., , - . _ _ , . a a M W-ts LON 4 Stout D eHOM P HON O Af tT F A ? ? }]7

4. PO LLUT. a. me Amat *st- 3. E FFLU EH T . 4. U NIT 3 5. INT AKE (opslamall A*

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• /,75 l*$ X < 0.01 .

<0.00 1 mg/L lbs ~ g a. cia.isy t 18 Alph r . .: X 4,2.08 43.47E-13 pCi/L lbs (4) 1 mc. .: l (:4) ' X 2.22 3.71E-13 1 pCi/L lbs 136 R.% r.MEna(4) I Na Activi ty Detected 1 i ..a n.aa , 22s. Ten.: (4 y . ~ L s.af.i. lNh#7s ,, X 2 0.14 1 mg/L lbs a.s isu. i se x < 0.02 < 0.00 1 mg/L lbs s.nue l**[2k' 3, x ( 0.1 , < 0,01 1 mg/L lbs a 5*"*g X < 0.1 < 0.01 1 mg/L Ibs .A. . . . _.,.

• • X 110

[7.*2o sose , 0.01 1 ug/L lbs zi . 'a'IUa ss 3, X 30 0.00 1 ug/L lbs (s

• "* X ( 500 1 ug/L

,'3 .2 e, 0.03 lbs .. cas. c'78a4a4 I <l . 4 0.00 1 ug/L lbs 2 i,% Tes.: X l-4:43*caen 140 0.01 1 ug/L lbs y t um Ta.: X 5.5 0.37 1 mg/L lbs , i m ees4 _ . u. m. X 30 0.00 1 ug/L lbs [Y**.* 3 2. - > , , w :-- . ,'fg.... e, 1 29 0.00 1 ug/L lbs ug/L jwe.Thm, es asias Tat.: X < 50 4 0.00 1 l'3s a.1 W , i=. I <5 <0.00 1 ug/L lbs 074 432 C4 ,  ;. i PAGE V-2 CONTINUE CN pat E V 3 l EPA Foren 3510-2C (S-S0) . ., .. ~. ._ __ _ _ . _ _._._.__..-...__.m. - . , _ . . . _ _ . _ _ _ _ _ __ . _ _ _ . . . _ _ . . _ = . .- _ . . . - 8 - se A s.o. musasen (sepy /sean Isaan J et Fe<= JJ ou v r aa.a. m u ne sa n N

• TN0026450 117 WUED FROM PACE 3 OF FORM 2-C C - If you ase a psimary ladustry and this eutf au centains process wastewater. refer toTat.se 2c-2 in the nstructions to determine which of the GC/M5 fractions y , must test for. Mask "x"In~ column 2.o for su such GC/MS fa actions that apply to your industry and for ALL toxic metals, cyanides, and total phenots. !! you ata not equised to mark column 2-a lsacondas y indussries, nonprocess wesseweser custalls, anJnonsequired GC/AfS /sacslonsk mask **X"in column 2-b los each pollutant you krksw or have rcason so believe is present. Mark "X" in column 2.c for eoch pollutant you boGo e is absent. f p mank colu.nn 2a for any pollutant.you must prowkte the esuits of at least one analysis fur that po!!utant.If you : nark column 2b or any pollutans.you must psovide the sesuits of et least one analysis for that pollutant Li you know cs have reason .o believe it witt be discharged in concentsations of f 0 ppb or gesatar. If you mark column 2b for acrolein. acrylonitrile. 2.4 disutsophenot, or 2-methyl-4. 6 danitrophenot, you must provide the sesults of at least one analysis for each of these p >uutants which you know or tiave season to believe that you discherge in concents azions of 100 ppb or greater. Otherw' ,s for pouutants ic which you mas k column 2b.yoar must either subrnit at leest one analysis or briefly descsibe th= i ea sons the pollutant is espected to be dischenged. Note that these are 7 pages to this part; please saview each carefuny. Complete one table (aff 7 pagesJ for each outfall. See instructions far ad.htlonal details and requirements.

3. E FFt.U ENT ' ' _* 4. UNITS ' 5. INT A KE (optionasJ

.LUTANT a. me A m os *as* VAug g .VALUE 4 HO.Or' "

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<0.00 . 1 ug/L a.m lbs a sso 4t-2 x <1 , < 0.00 y ygjg 's._e42 < 0.00 lbs ci g (0.1 , 1 ug/L  ; _ u.....- . lbs tie 4a 43-si II < 0.00 1 ug/L X . foi x ( 10 ( 0.00 1 ug/L lbs 4t t lbs mn x (1 . < 0.00 1 ug/L < 0. 2 < 0.00 ug/L lbs E 7 ' **** x . 1 whet. Tes.:- 3 0.00 ug/L lbs < ss es X - 1 "'* (1 ID5' }NsI.43 23 x < 0.00 1 ug/L r.

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<0.00  ! I ug/L g, lbs [,Ca ei X (2 . < 0.00 1 ug/L lbs fg** I ( 10 , < 0.00 1 ug/L h* y,Q X ( 0.002 < 0.00 , 1 mg/L 1 lbs yi*- X ( 40 , < 0.00 y ug/L iXIN ? & 1.sner oescsessa assuLis t4e4 N P. x h. .h. (IM4414) CONTINUE ON REVERSE P AGE V-3 A forse 3518 2C (4 94 5 I hb5 hE h ,d $ h [Eyd 3$ 6% $$ g b5 T{ 30 h5 W OW hff U  ?> ~ Ib 9

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4. UNITS

3. EFFLU ENT kM e LUTANT 2, u m aeas *m*

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- - - * *; ** ',hy,fg', ia ... v.s. vaanea i.e,--..- i.i . g .w. ,,,,,,pi.,,,,,, io . m ,,, , p,i,, , , ,,, es  :::; ii ia ... H ETION - PESTICIDES tro=44 u. o usa ns.e 1 ug/L lbs osi (3) X < 0. 01 (0.00 h-i242 I "E/L lbs Mi (3) X 4 0.05 4 0.00 a- 3 264 1 ug/L lbs 0-il (3) X <0.05 (0.00 1 ug/L lbs m.i n s X < 0.05 (0.00 n al (3) a-i2n}' 1 ug/L lbs iscs(3) X <0.05 (0.00 L ug/L lbs s-324a X <.0.05 <0.00 gc: (3) S1260 1 ug/L lbs X < 0.05 ( 0.00 42cl(3) 1 ug/L lbs 3-ies3 t o-2: (3) X <.0.05 ( 0.00 ,,a 1 usjL lbs ts 2 X < 0. 5 < 0.00 (3) PAGE V.9 (1) ILnsed on readings of intake temperature data f;r November 1996-March 1997. (2) Based on readings of intake temperature data for April 1997-October 1997. believed present to ensure not detectable in. intake water. (3) Testing performed although pollutan; not (i)*through (4). This substitution was (4) Cross Alpha. Cross Beta and Total Camma Activity analyzed in lieu of j. - discussed with Steve-LeTendre. TDEC. WPC. (5) Compound is no longer on the Priority Pollutants List. , (6) Consists of 2 grab samples taken in one day. Results were 7.41 and 7.44 standard pil units. ) -(7) Consists of 2 grab samples taken in one day. Results were both <0.1 mg/L. (8) Consists of 2 grab samples taken in one day. Results were 2 and 3/100 mL. (9) Consists of 2 grab samples taken in onc day. Results were both 4 5 mg/L. (10) Consists of 2 grab samples taken in one day. Results were both less than detectable. , jerm 35tS-2C (R-90) s e A e.o. nuw es a te rme tram inom i et Isem 21 h7 TN0026450

oNTtNtJr0 FRoM Pact :

s A, B, 8, C: See instructions tafore proceeding - templete one set of tables for each outf all - Annotate the outtelirIumber in the space provided.

• NOTE: Tables V.A,V 9 and V C are inctuoed on separete sheets numbered V.1 inrough V 9.

D, Use the space below to list any of the poffutants listed in Table 2c 3 of the instr 6cteons, which you know or how reason to be discharged from any outioll. For every potivtant you list, briefly deerste the reasons you believe et to be present end report any analyti pouession, s.coLLu? ANT 3. SOURCE s.coLLuTpdT 4.sounce Dimethylamine Secondar" System Treatment and Steam Generator 1.ay-Up (See Attachment 3) Additional information concerning non Table 2c-3 . pollutants contained in DSNs in minute amounts is found in Chemicals Present by Discht rge Attachment 2. VI. POTENTjAL DISCHARGES NOT COVERED'bY AN ALYSl$ M is any pollutant listed in hem V C a substonce or e component of a substance wnscn you currenity use os manutecture as an int byproduct? N i 0 Y ES int DIl CMth POllu terits belgur) Ho ($O le llem Yl 8) i l l I? 1

• Part VI-B of this form has been deleted.

CONTINUE ON REVERSE P A G E 3 O F' 4 ., ..,..-..aa. ., . - . . . . . - . - ~ - - - - _ -- - . . - - - - - - - - . - ~ - - - - - = - - - - - - - - - -

NTINUtD F AoM THE FRONT. _ . . . .

QQ L DioLOGICAL TQXIC , go you have any knowiecpe or escson to Wisvg that any biological test for sevt. or chronic tonicity his teen msce on any of your escnarges or on a receiwng watpr in relation to your discherpe within the last 3 ye:rt? Q T ts lidentify the testino end describe their perpenas belowl Qno (go to Seetten Vl!!) The current NPDES Permit requires toxicity simpling 1/6 months at DSN 101. DSN 101 is DSN 103 is a portion of this j the major source of Sequoyah Nuclear Plant's discharge. ' discharge. There have been no indications of acute or chronic toxicity durinE the period of 1995 until pree t:n; (the period since SQN Fas uset its currenc secondary system) treatment chemictis. i I f 1 } i ' ' ' ,- 1 .1 - - ilcoNTHACT ANALYSIS INFoRMATioN Were any of the analyses reported in item V performed by a contract laboratory or consulting tirm? Q Y ns (tht the nome, Q No (to to Seetion !X) <.nelysed by, address. end each eueh telephone laboratory or raumber firm below of] and pollutants ^ ^"^ A.NAME 3. A DO R gs3 g,[,E, Ed oJ 615-758-5858 Bromide, Total Environmental Science Corp. 12065 Lebanon Road Phenol, Cyanide Mt. Juliet, TN 37122 1 Eckenfelder, Inc. 227 French Landing Drive 615- W 2288 Toxicity Nashville, TN 37228 2520 Regency Road 606-276-3506 Toxicity . Commonwealth Technology Inc Lexington, KY 40503 4 certify underpestty ollo w thet this document end ellettschments were prepared undermy direction or supervision in accordance with o system d tsure that qual:fiedpersonnelp?operty gether andevalvete the informatiort submitted. Basedon myinquiry of the person orpersons who menage the system or %osspersons directly tesponsible forgsthering the lnformatiers the information submartedis. to the best ofmy knowledge sndbelief. true. eccurate. sad cm sw:re that there are significant pensities for submitting 10/s0 information, including the possibility of fine andimprisonment for knowing violations.

s. FMon g No, f ares cosa e no.)

A. N AfstE & JFFICI AL T4 TL.e. (tyee or priati e O. D ATE $4G N ED C. SISM ATU R E

• .m s

a 98 90ELKinf& 00 *% _. . _,_ {^"'"' - - - - - - - . -. . _ _ _ ._ 'S'58 N 0606 001 ATTACHMENT 1 - 2C, RAW UATER TREATMENT , 91 ~ " ~ ~ ,, , . ~~ son VPs orFuce M 0 3'9Z STATE oF TENNESSEE . ""

• W DEPARTMENT OF ENVIRONMENT AND ' 7NSERVATION l "*

- 4 Olvision of Water Pollution Control Y7 l 401 Church Street,6th Floor Annex _, 6.Jeb , ' " * ' ' Neshville, TN 37243-1534 ggh/ "M M i l May 29,1997 , N cw~ m / R.J.Adney ' Site Vice President Sequoyah Nuclear Plant JUN O 6 '97 Tonnessen Valley Authority P O Box 2000 - ~

• " **w Soddy-Daisy TN 37379 2000 EtX Ba '

~ I Re: Approval of changes to Raw Water Treatment Use of Calgon H-130M for' raw water treatment j_ NPDES # TN0026450, Harnilton County , , , ILK WE The Division of Water Pollution Control approves the propose'cIE'hir?ges to haw water treatment chemicals as described in the February 12,1997 letter to Paul Davis. The Division may withdraw its approvaliit instream water quality problems are seen from these treatment chemicals. These changes include discontinuing use of PCL-10Z, and substitution of PCL 222 for the use of PCL 401 and CL 50, and use of Towerbrom 960 instead of the H-940. The intermittent use of the Caigon H-130M for control of zebra mussels is approved provided that an instream water quality value of 14.3 ug/l be met after mixing for chronic exposures. Where the application of the chemicalis for only a few days each year the chronic expoure will not be a concern and the acute toxicity should be the focus of water pollution concern. The level that should be met to protect for acute toxicity effects is 0.05 mg/L of quatemary -ammon. lum compound. Compliance with these values may be made by analytical testing or by an estimation based on the amount of chemical used. There is no EPA approved analytical method for detection of quatemary ammonium compounds. The manufacturers have developed an ara lytical method using a methyl orange extraction. It compliance is verified by analytical testing, the detection level will have to be known to be below the level of our regulatory concem (0.05 mg/L). Tt.c detection level of this method may vaiy with the laboratory setup and capabilities, so the Division requests that your laboratory document the practical quantitati. e detection level for those analyses which are reported as below detection. Please use a filtered sample for the analysis. The Division requests that samples be composited over the t;me frame of the treatment or for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, whichever is less. ATTACHMENT 1, FORM 2C, RAW VATER TREATMENT 92 Leifer Letendre to Adney n'sw Water Treatment Chemicals

• May 29.1997 ,

If compbance is verified by calculations based on the amount of chemical used, all chemical added will be assumed to be present in the discharge and there will be no decay or reaction of the chemical while it is in the system. The Division also requests that records be kept on the amount of chemical fed, the flow (estimated), and the time and duration of chemical ! addition so that an idealized concentration can be calculated. ! If you have any questions about this correspondence, please contact Larry Bunting at 615-532-0665. 2 Sincerely, hv/'d.h6/ h ' Stephen B. Letendre Assistant Manager, Industrial Facilities ~Section Division of Water Pollution Control ~ SBlJLCBu cc: Division of Water Pollution Control, Permits Section CFO J. 'T Herron, POB 23-SQN C. E. Kent, POB 2C-SQN J. M. Loney, WT 8C-K 's W. C. McArthur, BR SD-C . I J. D. Osborne, SB 2A-SQN ~ B. B. Walton, ET 10A-K RIMS, WT 3B-K-m

• e 4

ope ATTACHMENT 1, FORM 2C, RAW WATER TREATMENT 93 *- Mr. Paul Estill Davis, EM, Dirtetor Division of Water Pollution Control 6* Floor, L&C Annex 401 Church Street Nashville, Tennessee 372431534 f 4 j

Dear Mr. Davis:

TENNESSEE VALLEY AUTIIORITY, SEQUOYAII NUCLEAR PLANT (SQN), NPDES PERMIT NO. TN0026450 - REQUEST FOR CIIANGE IN RAW WATER TREATMENT CIIEMICAIJ Enclosed are five copies of the reports entitled "Calgon Simulated Effluent and Molluscicide Bionssay (Phase I)" and " Environmental Effects of Calgon Chemicals for Use in Nuclear Plant Raw Water Systems Phase 11 and III Report." These reports provide the results and conclusions of toxicity testing regarding emironmental acceptability of a raw water treament program recommended for the protection of safety related piping.

The Phase l ieport coluates the toxicity of various combinations of chemicals at feed and residual rates and toxicity of the Molluscicide Il 130M, to three trophic levels, (vertebrate, invertebrate, and plant) promoted nationally by EPA's technical guidance for evaluating whole effluent toxicity (WET) The test design specifically addressed use of conthmous feed and intermittent chemicals at Sequoyah Nuclear Plant (mixed instream waste concentration of 49 percent at the IQ20 Qs); however, results also are generally applicable for evaluating' environmental effects at other facilities, with due consideration given to discharge concentrations, discharge volumes, and amount ofinstream dilution available. Simulated Outfall 101 effluent dosed daily with continuous-feed che.c.icals, including a single-day's addition of the intermittent chemicals, was not problematic to daphnids or fish (water column species) or to amphipods, midges, or mussels (sediment dw elling species) based on projected discharge concentrations.

The Phases Il and III report evaluated the toxicity of various combinations of Calgon chemicals at feed and residual rates and the toxicity of the Molluscicide, H 130M, to the three sediment species tested. Also, the detoxification of the Molluscicide by silt was tested for the freshwater mussel. Simulated effluent with a single day addition ofintermittent chemicals did not demorstrate toxicity to freshwater mussels, either in the liquid media (with silt) test or as overlying water in the formulated sedimen' test. As overlying water, this simulated effluent also had no effect on the amphipods and midges.

Due to economic constr'ints associated with the installation of the new ERCW Chemical Treatment Feed System, there have been some minor changes in the proposed chemical treatment since the 1995 testing was conducted, TVA, Senior Toxicologist, Water Management,

ATTACIDiENT 1 -FOPJi 2C, RAW VATER TREATMENT 94 x .a ...

Donald C. Wade has evaluated these changes as having no effect on the test results. 25% Zine Sulfate, PCL TENNESSEE VALLEY AUTIIORITY, SEQUOYAll NUCLEAR PLANT (SQN), NPDES PERMIT NO. TN0026450 - REQUEST FOR CIIANGE IN RAW WATER TREATMENT CIIEMICALS 10-Z, has b en omitted. Oxidizing biocide H 940,(40% sodium bromide,10% sodium hypochlorite)has been replaced by the oxidizing biocide currently approved for TVA's Watts Bar Plant, Towerbrom 960,(7% sodium bromide,89% sodium dichloroisocyanurate). Copolymer, PCL 401, and polyphosphate, CL 50, have been replaced by one solution PCL 222. PCL 222 consists of the identical copolymer, and a blend of onhophosphate and hexametaphosphate.

Maximum Discharge concentrations would be as follows:

Continuous Feed Chemicals Maximum Discharge rancentration (pg/L)

PCL-222,(Steel Corrosion inhibitor & Deposit <100 copolymer Remover), 7.5% copolymer,11.5% 100 as phosphate orthophosphate,11.5% hexametaphosphate Intermittent Chemicals H 130M,(Non-oxidizmg Biocide for Clam and <$0 MusselControl),50% Didecyldimethyl Ammonium Chloride in P% ethanol /40% aqueous solution (Quat)

CL 363,(Fenetrant for defobiologically induced <100 DMAD corrosion (MIC.) Control),10% Dimethylamide (DMAD)in 40% isopropanol /50% aqueous solution Cuptostat PF, (Copper Corrosion Inhibitor), 5% 400 azole tolytriazole,5% sodium 5-pentoxybenzotria7 ele Towerbrom-960 (Oxidizing Biocide) 7% Sodium <58 (TRO as currently calculated for reportmg in Bromide,89% Sodium Dichloroisocyanurate the SON NPDES penr.it0 A sketch of the chemical feed system is provided for your review. The system will inject the oxidizing biocide to the suction side of the ERCW pumps. This enables the system to operate at a much lower pressure. The feed rate chemical concentration will be prevented from reaching Waters of the United States by the suction of the pumps. Procedures will be in place to prevent inadvertent isolation of a pump without prior isolation of chemical feed lines. All lines will be isolated and drained into the chemical tanks at a minimum of 3' F. above the freezing point of the chemical contairied in the applicable line.

We have included that material we consider to be essential for demonerating the environmental acceptability of this raw water treatment program. Whatever supporti 03 or other specific information your reviewers may need will be supplied upon request uunng the review process. It is our hope that you can allow the implementation of this treatment progrim by May 1997 so th t we can begin the enhanced protection of the plant piping in conjunction with the increased MIC associated with warm water temperatures.

95 Attachment 2 - Fcrm 2C - V.D. ..

DSN CHEMICALS PRESENT HY REASON FOR Maxiinum DISCHARGE USE Conc.

sodium hypochlorite, sodium control of Asiatic 0.58 mg/L -

101, Diffuser ,

bromide clams, zebra Cunent mussels, and Permit Limit i microbiologically for TRO induced corrosion unless chlorinating CCW 2 control of Asiatic 0.58 'mg5[-

Towerbrom 960 (7% sodium bromide,89% sodium clams, zebr a Current dichloroisocyanurate) mussels, and Permit Limit microbiologically for TRO induced corrosion urdess chlorinating CCW 2

PCL-222 (7.5% copolymer,11.5% steel conosion <100 pg/L orthophosphate,11.5% inhibitor and copolymer, hexametaphosphate) deposit remover 100 pg/L phosphate 2

HM-130 (50% didecyldimethyl- non-oxidizing <50 mg/L ammonium chloride in 10% biocide for zebra ethanol /40% aqueous solution) mussel and Asiatic clam control 2

CL-363 (10% Dimethylamide penetrant for <100 pg/L (DMAD) in 40% isopropanol /50% microbiologically DMAD aqueous solution) induced corrosioti control 2

Cuprostat PF (5% tolyltriazole,5% copper corrosion 400 pg/L sodium 5 pentoxybenzotriazole) inhibitor azole 1

hydrazine used in plant less than 20 101 via systems for pg/L, MDL radwaste and corrosion control in waste 103 (low water at 101 volume waste treatment pond) via low volume waste used in plant 1.5 rng/L 101 via 'moncethanolamine blowdown, systems for radwaste and corrosion control 103 via low volume waste 101 via ammonium hydroxide may be used in plant blowdown, systems for pH

M Attachment 2 - Form 2C - V.D. .

radwaste and control 103 sia low volume waste

' dimethyl amine may be used in plant less than i 101 via '

blowdown, systems for MDL of 0.1 corrosio i control mg/L  ;

radwane and 103 via low ,

volume waste

'carbohydrazide may be used in plant 0.14 mg/L 101 via blowdcwn, systems during layup conditions for radwaste and 103 via low conosion control volume waste

' ammonium chloride used in plant <MDLat 101 via systems for 101 blowdown, radwaste and conosion control 103 via low volume waste I

' boric acid used in plant <2.0 mg/L 101 via blowdown, *ystems for at 101 radwaste and corrosion and 103 via low reactivity control volume waste

'tolyltriazole used in the plant <l.0 mg/L 101 via blowdown, closed systems for MDL at 101 corrosion control, radwaste and 103 via low mey end up in the volume waste TBS due to system .

leakage, blowdown, or restoration of system chloride contamination levels to those required by the Nuclear Regulatory Commission.

' sodium molybdate used in the plant <0.5 mg/L 101 via blowdown, closed systems for MDL at 101 radwaste and corrosion control, 103 sialow may end up in the volume waste TBS due to system leakage, blowdown, or restoration of system chloride contaminationlevels __

97 Attachment 2 - Fcnn 2C V.D. . c m..

to those required by the Nuclear Regulatory Commission.

101 via lithium hydroxide used in plant blowdown, , systems for radwaste and corrosion control 103 via low volume waste 101 via sodium and phosphate cleaning plant maintenance radwaste and agents cleaning activities and metal cleaning 101 vialow volume waste and discharge of107 sodium tetraborate (sma'd quantities) replacement ofice less than 101 via condenserice hfDL at 101 radwaste during refueling outages biocides (small quantities of biocides used to control less than 101 and 103 such as Culligon C 321 and M- corrosion, algal MDL at 101 3008) used to control algal growth growth and pH in and pH in the OfIice building the Office building heating and cooling system and from heating and coohng diesel generator cooling system and from diesel generawr cooling ethylene and propylene glycol Used to cool the ice less than 101 and 103 condenser and MDL at 101 various loops of instruments. May end up in the discharge in trace quantities due to leakage.

DSN 107 all metals, mainly iron and copper, chemical and metol hydrogen peroxide, hydrazine, cleaning of plant ammonium hydroxide, EDTA, components and EDA, DMA, small amounts of uher systems corrosion inhibitors and conditioners, nitric acid, hydrochloric acid, sulfuric acid, phosphate cleanings, caustic, sodium hypochlorite, sodium bromide, hydrofluoric acid, and

90 Att:chme:t 2 - Ferm 2C - V.D. .

citric acid DSN 110, sodium hypochlorite, sodium control of Asiatic 0.1 mg/L -

Recycled bromide clams, zebra Current mussels, and Permit Limit Coolind Water microbiologically for TRO induced :orrosion  :

~

• Towerbrom 960 (7% sodium control of Asiatic 0.1"mg/L -  ;

. bromide,89% sodium clams, zebra Current diWoroisocyanurate) mussels, and Permit Limit microbiologically for TRO induced corrosion

'PCL-222 (7.5% copoly'ner,11.5% steel corrosion <100 pg/L orthophosphate,11.5% inhibitor and copolymer, hexametaphosphate) deposit remover 100 pg/L phosphate 2

HM-130 (50% didecyldimethyl- non-oxidizing ammonium chloride in 10% biocide for zebra ethanol /40% aqueous solution) mussel and Asiatic clam control CL-363 (10% Dimethylamide penetrant for (DMAD)in 40% isopropanol /50% microbiologically aqueous solution) induced corrosion control "Cuprostat PF (5% tolyltriazole, copper corTosion 5% sodium 5 pentoxybenzotriazole) inhibitor hydrazine sia blowdown and radwaste - used in plant systems for corrosion control 12 via blowdown and monoethanclamine radwaste - used in plant systems for corTosion control ammonium hydroxide via blowdown and i radwaste - may be used in plant systems for pH control

" dimethyl amine via blowdown and radwaste - may be used in plant systems for corrosion control "carbohydrazide via blowdowTi and radwaste - may be

4 1

99 Attachment 2 - Fcrm 2C - V.D.

used in plant systems during layup conditions for corrosion control "anunonium chloride via blowdown and radwnst)- used in plant systems for '

corrosion control

" boric acid via blowdown and radwaste - used in plant systems for corrosion and reactivity control "tolyltriazole via blowdown and radwaste - used in the plant closed systems for corrosion control,

" sodium molybdate via blowdown and radwaste - used in the plant closed systems for corrosion control lithium hydroxide via radwaste - used in plant systems for corrosion control sodium and phosphate cleaning via radwaste - plant agents maintenance cleaning activities and metal cleaning sodium tetraborate (small quantities) via radwaste -

replacement ofice condenser ice during refueling outages ethylene and propylene glycol Used to cool the ice condenser and various loops of instruments. May end up in the discharge in trace quantities due to leakage.

I12, Sewage sodium hypochlorite, organic matter - no flow is planned Treatment on a normal basis in

100 Attcchment 2 - Ferm 2C - V.D. . . .

Plant the future 116, CCW sodium hypochlorite less than Trash Sluice method detection limit of 0.1 mg/L.

Tests to verify have been conducted.

See Attachment with 2C Form for l

this DSN.

117, FRCW sodium hypochlorite,less than MDL Screen and of 0.1 mg/L Strainer Baclavash DSN 118, none - presently vegetated area of Dredge Pond no industrial activity.

d t

Att:chment 2 - Ferm 2C - V.D.

o,-

' Limit is for all total residual oxidant from all sources at the discharge cf 101.

• See Attachment 1, Form 2C for correspondence regarding use of these chemicals. These are not currently in use due to a project delay, however, their use is anticipated soon.

/ ' See Attachment 3 for correspondence regarding the use of ethanolamine.

• See Attachment 4 for correspondence regarding the use of dimethylamine.

' Ibid.

' See Attachment 5 for correspondence regarding the use of ammonium chloride.

' See Attachment 6 for correspondence regarding the use of boric acid.

• See Attachment 7 for correspondence regatding the use of tolyltriazole.

• Ibid.

Limit is for all total residual oxidant from all sources at the discharge of 101.

" See Attachment 1, Form 2C for correspondence regarding use of these chemicals. These are not currently in use oae to a project delay, however, their use is anticipated soon.

See Attachment 3 for correspondence regarding the use of ethanolamine

" See Attachment 4 for correspondence regarding the use of dimethylan-.e.

Ibid.

" See Attachment 5 for correspondence regarding the use of ammonium chloride.

See Attachment 6 for correspondence regarding the use of boric acid.

" See Attachment 7 for correspondence regarding the use of tolyltriazole.

Ibid.

e

' '~~ ~

J' TTACHMENT 3 - TORM '2C - V.D.~ ^ ~

102 L83 9333.,07 800 1/ l l

l

. - a 7

December 11, 1992 Mr.. Tom Roehm Division of Hater Follu*lon Control Tennessee Department of Environment and Conservation 6th Floor, LLC Annex '

401 Church Stroet Nashville, Tennessee 37243-1534

Dear Mr. Roehms ,

SEQUOYAH NUCLEAR PLANT (SON) - NATIONAL PCLLUTANT DISCHARGE ELIMINA1 ION SYSTEM (NPDES) PERMIT NUMBER TN0026450 - CORROSION IKHIBITION TVA proposes to substitute moncethanolamine (ETA) in the SQN secondary water system for morpho 11ne that is presently used. ETA offers equal or better pH control and corrosion inhibition properties at less expense and comparable aquatic toxicity potential. Enclosed is a revised page of chemical additions by discharge which refle, cts the proposed substitution.

In .'Arland P. Wiggins' letter of October 30, 1990, to M Paul Schmierbach, the Tennessee Department of Health and Environment , approved TVA's request to substitute morpholine for ammonia as a corrosion inhibitor in the secondary water system. Diffuser discharge (DSN101) toxicity testing during a three-month morpholine testing program showed no toxicity (survival, or growth or reproduction ef fects) to f athead minnows, Ceriodenhnia, or algae. Toxicity ssults were submitted to Phil Simmons of the Department on May 1, 1991. ,

ETA's aquatic toxicity is comparable to that for. morpholine (refer to the attached table). The optimal feed rate for ETA will be 50 gallons per day (2.5 milligrams per liter) as compared to 160 gallons per day (6.5 milligrams per liter) for morpholine. This should result in a discharge concentration to the Tennessee River (DSN 101) of less than the morpholine concentration of 1.5 mg/l proposed in our September 25, 1990, submittal to Mr. Higgins (copy enclosed) .

AT*IAC1DiENT .3 - Form 2C - V.D.

103 i

Mr. Tom Roehm Page 2 December 11, 1992 l Therefore', we do not expect any increase in effluent toxicity due to this substitution. Routine (semiannual) effluent toxicity testing (D 101) should verify this. TVA anticipates initial use of EiA in January .993.

A toxicity test will be scheduled shortly af twr initial use and te alts reported with the Discharge Monitoring Report for the period.

i If you do not agree with our proposal or require additional information,Otherwise, please contact Jim Mantooth at (615) 751-4033 in Chattanooga.

the above substitution will be made as proposed.

Sincerely,

. . /& W W. C. McArthur Manager, Technical Programs DWit:JGM:SME Enclosures cc (Enclosures):

W. F. Jocher, OPS 40-SON RIMS, MR 2F-C 4

1352V 4

A e

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ATTACHMENT 4 TORM 2 C - V.D.

S58 95L933 001 104

'Jh A

'dEh.

NQ STATE of TENNESSEE DEPARTb1ENT OF ENVIRONhtINT AND CONSFRVATION

. - , DIVISION OF WATER POLI.UTION con'ROL CliATTANOOCA ENVIRCNhtENTAL FIELD OFFICE s40 McCALL!L AVE.,stiTTE150 CllATTANOOGA. TENNESSEE 37402 2013 (615) 0 4 5745 FAX (615)04-089 September 14,1995 Debby Bodine Environmental Manager Tennessee yalley Authority P.O. Box 2000 Soddy-Daisy, TN 37379 Re: Request for Assistance Sequoyah Nuclear Plant Treatment of Chemical Distillate and New Chemical Additions to the Secondary Water Systems NPDES Permit No. TN0026450 Hamilton County

Dear Ms. Bodine:

This o5ce has received copies of your response to our letter of August 11,1995 in which we requested more information on two proposed projects involving wastewater discharges at Sequoyah Nuclear Plant. The two proposed projects,'a new DMA and carbohydrande addition and a process of having chemical cleaning 4:stillates treated by SEG, Inc. in Oak Ridge, Tennessee, are hereby approved, subject to the following suggestions:

• In your letter describing the proposed discharge of chemical cleaning distillate through discharge DSN 103, we would agree that complete monitorin; should be conducted on the first several tanker loads with regular sampling of the subsequent loads. Our omce should be notified when any loads returned to Sequoyah Nuclear Plant for discharge exceed the limits proposed in your letter for our evaluation prior to discharge. In order to keep our c5ce informed of the progress

- of this project, we are requesting that a simple monthly summary be sent to our o5ce during this project. This summary, which should be submitted around the first of each month after the project begins, should include a summary of roughly how many loads were sent for treatment during the preceding month, how much of the distillate was returned, about how much cleaning waste solution remains to be treated, the estimated duration of the project and some kind of summary of routine chemical analyses conducted on the returning distillates. Also, as Mark l

l- - - - _ _

ATTACEMENT 4 - FORM 2C -V.D. 105 Ms. Debby Bodine Page 2 9/14/95 Derrick discussed with you, progress on this project should also be included on the monthly monitoring reports that you submit to our o5ce.

If you have any questions regarding this le:ter or would like to discuss the operations at Sequoyah Nuclear Plant, please contact either Mark Derrick or me at 615/634-5745.

Sincerely, m

a l@0 /Ad Philip L. St'ewan, P.E.

Manager, Chattanooga Field 05ce Division of Water Pollution Control ,

TVA\sqn2mdml. doc cc: Steve Letendre, Industrial Facilities Section, Division of Water Pollution Control, Permitting Section, Nashville Sims Crownover, Enforcement and Compliance Section, Division of Water Pollution Control Nashville cc (9/22/95):

B. O. Grover, BR SD-C M. Hastings, ET 10A-K M. Iwanski, WI 8C-K C. E. Kept, POB 2C-SQN J. D. Osborne, SBT 3A-SQN R..Klipsch, ET 10A-K RIMS, WI 3B-K I

ATTACHMENT 4-f0P.M2C-Vb. 06 A

r.nnm.. ve., v , posi on.c. no, m scocy.o. ., t.nn. .. arm August 17,1995 Mr. Philip Stewart State of Tennesse ; Department of Emironment & Conservation Division of Water Pollution Control Chattanooga Environmental Field OfIice 540 McCallie Avenue, Suite 550 Chattanooga, Tennessee 37402-2013

Dear Mr. Stewart:

SEQUOYAH' NUCLEAR PLANT (SQN), NPDES PERMIT NO. TN0026450, REQUEST FOR INFORMATION RESPONSE Responses to'your questions regarding the proposed use of dimethylamine and carbohydrazide are provided below. Answers to the proposed discharge of chemical cleaning distillate questions will follow. While seeking details regarding SEG's process, SQN learned that SEG and Westinghouse were actively pursubg plans to treat the waste without* generation of distillate at SEG. The new method of treatment is more cost effective for Westinghouse and would climinate the need to discharge the distillate atSQN.

Use of Carbohydrazide The basis for the statement that the carbohydrazide use would not result in detectable quantities at the existing outfall DSN 101 is as follows. The maximum carbohydrazide concentration in the Steam Generators will be 200 ppm. The capacity of each Unit's four Steam Generators is approximately 80,000 gallons. Steam Generators (SG) can be drained down at a maximum rate of 400 gpm. Both Units' Steam Generators are not drained down simultaneously. Therefore, the maximum concentration of carbohydrazide at DSN 101 would be calculated as follows:

(200 com carbohydrazideV400 comT

• • 0.14 ppm at DSN 101 (187,000 gpm)(3)+(14,000 gpm)+(15,600 gpm)+(750 gpm)

Where:

200 ppm is the maximum concentration of carbohydrazide 400 gpm is the maximum draindown rate of the Steam Generators 187,000 gpm is the pump rate of one SQN Condenser Cooling Water Pump 3 is the minimum number of CCW Pumps Running with one Unit Operational 14,000 gpm is the flowrate of the Essential Raw Cooling Water System 15,600 gpm is the Dowrate of the Raw Water Cooling System 750 gpm is the average Turbine Building Sump Discharge flowrate

107 Mr. Philip Stewart August 17,1995 Page 2 This calculat$ maximum concentration does not account for the decomposition of the compound that occurs upon exposure to dissolved oxygen (See Attachment 1). This reaction occurs at the rate of 11.5 ppm of carbohydrazide per one ppm of dissolved oxygen and produces nitrogen and carbon dioxide. Dissolved oxygen levels in the turbine sump coupled with aeration upon discharge from Turbine Building Sump into the Low Volume Waste Treatment Pond should actually deplete most carbohydrazide to produce carbon dioxide and nitrogen. The method of detection limit (MDL) for carbohydrazide is 1 ppm.

As stated on the MSDS, Section 7 (See Attachment 2), this product is completely soluble in water and would not accumulate on the surface of the receiving water.

a The quantity used during a typical outage is 16 gallons. This is calculated below:

(80,000 gallons total 50 volume)(200 ppm carbohydrazide)/(1,000,000 ppm carbohydrazide)

= 16 gallons pure carbohydrazide Aquatic toxicity of a similar compound is provided in Section 12 of the MSDS (See Attachment 2). Biodegradation information is provided in Attachment 1.

Use of Dimethylamine The basis for the statement that the dimethylamine use would not result in detectable quantities at the existing outfall DSN 101 is as follows. The maximum dimethylamine concentration in the Steam Generators is 10 ppm during layup. The capacity of each Unit's four steam generators is approximately 80,000 gallons. Steam Generators (SG) can be drained down at a maximum rate of 400 gpm. Both Units' Steam Generators are not drained down simultaneously. Therefore, the maximum concentration of dHethylamine at DSN 101 would be calculated as follows:

(10 com dimethylamineV400 comT

• 0.007 ppm at DSN 101 (187,000 gpm)(3)+(14,000 gpm)+(15,600 gpm)+(750 gpm)

Where:

10 ppm is the maximum concentration of dimethylamine 400 gpm is the maximum draindown rate if the Steam Generators f

187,000 gpm is the pump rate of one SQN Condenser Cooling Water Pump 3 is the minimum number of CCW Pumps Running with one Unit Operstional 14,000 gpm is the flowrate of the Essential Raw Cooling Water System 15,600 gpm is the flowrate of the Raw Water Cooling System 750 gpm is the average Turbine Building Sump Discharge flowrate e

__ _ ~ . . . _ . . - . _ _ _ _ . . . _ _ . _ _ . _ _ _ _ _ ~ . . _ . _ . . _ . . _ . _ . . _ , _ _ _ . _ . _ . _ _

ATTACMMENT 4 - TURM 2C -V.D.

108 Mr. Philip Stewart

, August 17,'1995

~ Page 3 I

t

~

i DuIing operational periods, the maximum concentration of dimethylamine will be 2 ppm in f

3. the Secondary (non-radioactive) Systems. The avenge concentration is expected to be j

0.5 ppm. An average Turbine Building Sump discharge flow of 750 gpm would result in a

concentration at discharge ofless than the conc mtration calculated above. The MDL for ,

dimethylamine is 0.1 ppm.

4 As stated on the MSDS, Sectior 9 (See Attachment 3), this product is completely soluble in watet and would not accumulate on the surface of the receiving water.

The solution to be purchased for use at SQN is a 2% by weight solution (20,000 ppm).

l Toxicity data of a 10% solutien is provided in Section 12 of the MSDS (See Attachment 3).

Biodegradatica information is provided in Attachment 4.

l Please contact me It 843-6700 if you should require any further information to complete  ;

your evaluation. Thank you for your help in this m*~ ,

Sincerely, .

A e

[

O ebby Bodine, Environmentai Manager i i

i Radiological & Chemistry Control Attachments l

i cc (Attachments):

i Steve Lentendre Tennessee Department ofEnvironment & Conservation ,

Division ofWater Pollution Control 6th Floor, L & C Annex 401 Church Street

! Nashville, Tennessee 37243-1534 L Sims Crownover -

Tennessee Department ofEnvironment & Conservatic._ ,

Division of Water Pollution Control- l 6th Foor, L & C Annex i I

401 Church Street Nashville, Tennessee 37243-1534

=

. 109 ATTACE ENT 4 - TORM 2C -V.D.

January 29,1996 D. J. Bodine, OPS -2B-SQN PROPOSED DIMETINL. AMINE USE FOR SEQUOYAH 4

Per our discussion, this memorandum is provided to document the proposed use of dimethylamine at SQN. It is the intention of chemistry to use DMA prior to shutdown and on stanup at up to 2 ppm concentration in the feedwater. The purpose ofDMA addition prior to shutdown will be to move coppe.r from the feedwater heaters to the steam generators so that it can be removed during chemical cleaning. Continuous use ofDMA on Unit 2 will begin approximately April 1,1996 with your concurrence. It is not anticipatea that DMA will be used continuously on Unit i until approximately two weeks prior to the UIC8 outage.

During shutdowns DMA will be used as part of the wet lay-up chemistry program for SQN starting with the UIC7 outage. It is requested that the concentration in wet lay-up be increased from 5- 10 ppm that was used during the UIC7 outage to 20 - 25 ppm for wet lay-up for future outages.

The purpose of the DMA is to remove silic- mmpounds during wet lay-up and inhibit scale formation and fouling during operam_ . However due to the nature of DMA, any copper not removed by the chemical cleansg process will be solubilized during wet lay-up l2 and a plan needs to be addressed if the copper exceeds release limits. Please provide feedback on 'he acceptability of this p. m with our NPDES requirements. IfI can be of funher assistance please contact me at 7934-C.

/

SamHarvey c Program Manager, Chemistry and Environmental Protectior BR SD-C cc: M. 9. Hydas, OPS 2C-SQN G. L. Rich, OPS 2B-SQN R. E. Richie, OPS 2B-SQN

ATTACHMFNT 4'- FORM 2C - VlD. g k

Tennessee Valley Amonty, Post Omce Box 2000. Soddy Daisy, Tennessee 37379 2000 February 26,1996 Mr. Philip Stewart:

Tennessee Department of Environment and Conservation

- Division of Water Pollution Control e

Chattanooga Field Office 540 McCallie Avenue, Suite 550 Chattanooge. Tennessee 37402-2013 SEQUOYAH NUCLEAR PLANT (SQN), NPDES PERMIT NO TN0026450, INCREASED USE 4

OF DIMETHYLAMINE ,_,

'. ~

Dear Mr. Stewart:

As requested in August 1995, SQN now uses Dimethylamine to prevent scaling anc fouling in

' secondary systems. The maximum concentration used is now 10 ppm. Data collected ir.dicates that this concentration should be increased to 25 ppm for stearn generatorlay up. Data also i indicates that the average concentration used for operational periods should be 2 ppm.

The increased Dimethylamine concentration would not result in detectable quantities at the existing outfall DSN 101. The maximum concentration is calculated as follows:

The capacity of each unit's four steam generators is approximately 80,000 gallons. Steam generators (SG) can be drained down at a maximum rate of 400 gpm. Normally, only one unit is in lay up during any period of time. In any case, both units' steam genarators are not drained '

' down simultaneously. During operational periods, the average concentration of Dimethylamine will be 2 ppm in the r n:nndary (non-radioactive) systems. Therefore, the maximum concentration of Dimetnylamine at DSN 101 would be calculated by considering one unit to be draining down from lay up, while the other unit was operational and was conducting flushes of its secondary system via the turbine building sum'p. This calculation is as follows:

E5 com Dimethvfamine)(400 com)+ (2 com DimethvfamineV750 com) = 0.02 ppm (187,000 gpm)(3 )+(14,000 gpm)+(15,600 gpm)+(750 gpm)

Where: '

25 ppm is the tnaximum concentration of Dimethylamine -

r 400 gpm is th maximum drain down rate of the Steam Generators 187,000 gpa is the pump rate of one SQN Condenser Cooling Water Pum; 3 is the minimum number of COW Pumps Running With One Unit Operational 14,000 gpm is the flow rate of the Essential Raw Cooling Water System -

15,600 gpm is the flow rate of the Raw Water Coo'ing System

750 gpm is the average Turbine Building Sump Disenarge flow rate

The method of detection limit (NiDL) for Dimethytaniiae is 0.1 ppm. SQN does not believe that this increased cancentration will affect poMit oischarge characteristics. Therefore, we beliwe

- that no modification of the SQN NPDES Fermit wlIl be necessar/.

a Y , ,

i ATTACHMENT 4 - FORM 2C V.D. ,

Mr. Philip Stewart ,

Page 2 February 26,1996 Please contact me at (423) 843-6700 or Lamar Strickland at (423) 343-7748 if you have any questions or comments, Sincerely, edk/

De by Bodine Environmental Manager cc: Sims Crownover -

Tennessee Department of Environment and Conservation Division of Water Pollution Control 6th Floor, L & C Annex 401 Church Street -

Nashviiie, Tennessee 37243-1534 Steve Lentendre Tennessee Department of Environment and Conservatien Division of Water Pollution Control 6th Floor, L & C Annex 401 Church Street Nashville, Tennessee 37243-1534 3

1 i

k _ J

4- ATTACH' MENT 5 - FORM 2C -V.D.

. .=w 7

1 T.nnen.. va.,4,mgw on.c. 83 rm soooy.o...,1.nnen 3737,  ;

l January 27,1995 Mr. Tom Roehm Division of Water Pollution Ccntrol .

Tennessee Department of Environment and Conservation .

6th Floor, L&C Annex

401 Church Street Nashville, Tennessee 37243-1534

Dear Mr. Roehm:

SEQUOYAH NUCLEAR PLANT (SQN) - NATIONAL POLLUTANT DISCHARGE -

ELIMINATION SYSTEM (NPDES) PERMIT NUMBER TN-0026450 - CORROSION INHIBITION -TURBINE CYCLE in an effort to lessen the effects of intergranular stress cracking corrosion, TVA Nuclear will begin the addition of ammonium chloride (NH 4Cl) to the SON secondary turbine cycle water system steam generators. Presently, boric acid, monoethanolamine and '

hydrazine are added to ! hibit corrosion. Ammonium chloride will be added only in a 4 stoichior#'r% quantity necessary for the chloride ion to neutralize low levels of sodium in the Son steam generators. The ammonium chloride concentration will be less than fifty parts per billion in the secondary system water. No more than one hundred

. pounds of the ammonium chloride will be kept on site which is well below the RQ of

'10,000 lbs. Enclosed is a revised page of chemical additions by discharge which reflects the use of this chemical.

-t Discharges of this solutionwill oe well below detectable levels at the discharge to the Tennessee River (DSN 101); therefore, we do not expect any increase in effluent toxicity due to the-addition of this solution. Routine (semiannual) effluent toxicity testing (DSN 101) will substantiate this. A toxicity test will be scheduled shortly after

- initial use-and results reported in the Discharge Monitoring Report TVA anticipates.-

initial use in February 1996.

d

Mr. Tom Rothm ATTACHMENT 5 - FORM 2C - V.D.

O ii3 Pcg> 2  : t January 27,1995 If you require additional information, please contact Lamar Strickland at (615) 843-7746. Otherwise, the above addition will be made, Sincerely, "

. $rdia I D. J. Bodine Environmental Manager Enclosure

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• 615 751 733C P.(j g STATE OF TENNES$EE DEPARTMENT OF ENVIRONMENT AND CONSERVATION DIVISION OF WATER POLLUTION CONT 90L 401 CHURCH STREET L & C ANNEX STH FLOOR NASHVILLE TN 372431534 March 14,1994 Mr. Jim Mantooth Tennessee Valley Authority 1101 Market Street Chattanooga,TN 37402 *

Subject:

Siquoyah Nuclear Plant, NPDES No. TN0026450 Addition of Boric Acid to Secondary Systems

DearMr.Mantooth:

The Division of Water Pollution Control (the " Division") has reviewed your request for r

permission to add boric acid to the secondary (nonradiologica is to prevent stress cracking cor:osion in the Meam generators. TVA has calculated that maximum concentation of boron in the discharge should be in tbc range of 1.0 mg/l to 2.0 mg/1, and under normal operating conditions this value should average less than or eqcl to 1.0 tr.3/L Boron is primanly of concem under certain irrigation applications where it could inhibit certain emps at concen: rations of about 1.0 mg/l. In the pItsent case, die Division does not believe there is a risk of adverse water quality conditions due to the dilution ratio provided ~~ by th-Tennessee River at Outfail 101 Notwhnstanding this allowance, the Division will require tha; the permittee monitor Outfall 101 for boron on a monthly basis and report the results on the DMR's. There will be no limits prescribed for this addition at this time.

The Division maintains the right to reopen the current hTDES pemlit and modify it as necessary should the results of the boron analyses prove detrimental to Ortain water quality .

standards and conditions prescribed by Tennessee. A If you have any questions conceming this matter pleAse call Mr. Stephen B. Letenue at (615) 532 0673.

f <

W1 (-

Shg . etendre 4 Environm 4 ace ,

cc: Division of WaterPollnon Control, Permits Sec on Division of Wau:r Follution Control, Chattanooga Field Office SQNDORON. DOC

. --- TU-~ ATTACEMENT 7 - Form 2C - V.D.

w_m a . - 115- ,

. oansL

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JAN 181989 <---.* l

,_ N rci N 35" O 4

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RECEIVED j CHEMISTRY BRE, t -

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.n ;vpp ww /.

,,.,. g , ,

. "de.J. V i "3 ''" "E Mr. Ralph M. Sinclair ,

Manager, Permits Section #- .

<< n

{q Division of Water Pollution Control , g i

Tennessee Department of Health e ,

and Environment. 7'e g

- TERRA Suilding 150 Ninth Avenue, North N DN wh 4 '

M' "**

Nashville, Tennessee 37219-5404

?'!!PM,saNeka g jf

Dear Mr. Sinclair:

- . \

.i 4.

t SEQUOYAH NUCLEAR PLANT (SQN) - NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM

' (NPDES) PERMIT NO. TN0026450 - RENEWAL APPLICATION SUPPLEMENTAL INFORMAtION q

l This is in follow-up to Martin E. Rivers' October 1, 19~;7 letter to you regarding the NPDES permit applicatien for SQN and the December 9,1988 telephone request to discharge from the component e7oling water system (CCS).

During the telephone call, TVA requested permissio. to discharge the CCS blowdown to the turbine building sump. Additional information about the discharge was requested by your staff and is being provided herein. We request tnat this information be made a part of the permit applidati.7n for SQN.

The CCS is part of the primary water cystem. It is designed to remove residual heat from the Reactor Coolant System during plant cooldown, cool the spent fuel pit water and the letdown flow from the Chemical Volume Control System provide cooling to dissipate waste heat from various plant components, and provide cooling for safeguard loads af ter an accident. Enclosure 1 shows .

j the . administrative limits used by SQN to maintcin proper water quality in the

- CCS. The CCS is considered a closed system; however, water quality is

- maintained by adding chemicale and makeup water from the demineralized water system. This addition produces blowdown which must be discharged. The frequency of discharge is hard to predict. Discharge may occur several days in succession at times, and at or.her times may not occur for several months.

The average rate of discharge _ is approximately 5000 galloni per month, but during extreme conditions may be as high as 20,000 gallons per month.

^

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-,- - - , - .g

. ATTACIMENT 7 - FORM 2C - V.D. ,

116

~ ar. aalph x. sinele Ml8E i

The blowdown from the CCS has the potential to be radioactive; therefore, standard practice has been to discharge this blowdown to the liquid radwaste system. The permit application that the existing NPDES permit is based or identified the sources of wastewater to the radwaute system generically as river wat'er, potable water, and domineralized treatment water. Because of restart activities, demands on the radwaste system have been greater than normal. To reduce this demand, TVA requested permission on October 21, 1988 to reroute the CCS blowdown to the J ow volume waste treatment pond on an emergency basis. We have now determined that we would like to have the option of routing the CCS blowdown to the turbine building sump on an as-needed basis.

The pert..it application submitted in the October 1,19 letter reflects this .

option. In Enclosure 4 to that permit application, TVA identified that sodium molybdate and sodium tolyltriazole are added to the primary and secondary water systems to control corrosion and pH, and that these chemicals are subsequently discharged from the plant as a result of leakage or blowdown.

Form 3510-2C included with the permit application identified that the turbine building sump and the liquid radwaste treatment system receive system leakage. For clarification, Enclosure 2 contains revised pages to form 3510-2C. As cri t inally submitted the forms only indicated leakage; but have been revised to include blowdown. We have recently substituted potassium hydroxide for sodium tolyltriazolo as the pH control agent for the CCS. We I retain the optior. to uso either chemical for pH control.

The blowdown f rom the CCS meets the definition of a low volume waste ar defined in 40 Code of Federal Rer,ulations 423 and should be permitted as such. Since treatment of t'. tis low volume waste is provided in either the low volume waste treatment pond, yard holding pond, or liquid radwa':te treatment system which have the same effluent limitations as low volumm waste, we request the CCS blowdown be permitted without further monitoring requirements.

Enclosure 3 includes material safety data sheets for sodium molybdate and sodium tolyltriazole. Enclosure 4 is the analytical procedure used by the SQN lab to measure tolyltriazole. The minisum detectable concentration for tolyltrias. ole is 1 milligram per liter. The SQN lab uses ASTM method D2576-70 to measure molybdate. The minimum detectable amount for molybdate is 0.5 milligrams per liter.

As agreed to during the December 12, 1988 telephone call with your staff, we can begin discharging the CCS blowdown to the turbine building sump as needed upon your receipt of this letter. As requested by your staff, we will conduct a 48-hour static Ceriodaphnia toxicity test on the yard holding pond during the time we estimate that the CCS release would compt ' a portion of the yard holding pond ef fluent. To the e: .nt possitle, this toxicity test will be coordinated with the toxicity ti.a performed on the dif fuser discharge. We understand that the requiremant to conduct the 48-hour static test on the yard holding pond discharge only applies to the first time the CCS is routed to the

! yard holding pond.

i l

- l Page 111

. ATTACEMENT 7 - FORM 2C - V.D.

. - 117

. Mr. Ralph M. Sinclair JAN 181989 If you or your staff have ar.y questions regarding this information, please have them call Abraham H. Loudermilk, Jr. , at (615) 632-6656 in Knoxville.

4 Sincerely, 4

Signed by hUchael W. Eines M. Faul Schmierbach, Manager Environmental Quality FAM:MFB Enclosures cc (Enclosures):

Mr. Bruce R. Barrett, Director * ,

Water Management Division U.S. Environmental Protection Agency Region IV 345 Courtland Street, NE.

Atlanta, Ceorgia 30365 Ms. S. C. Black, Assistant Director for Projects TVA Projects Divisior,

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i Office of Special Projects U.S. Nuclear Regulatory Commission One White Flint, North 11555 Rockville Pike Rockville, Maryland 20852 Mr. F. R. McCoy, Assistant Dire.ctor for Inspection Programs TVA Projects Division U.S. Nuclear Sa'4ulatory Commission Region II 101 Marietta Street, NW., Suite 2900 Atlanta, Georgia 30323 Mr. Philip L. Stewart, Manager Chattanooga Field Office Division of Water Pollution Control 2501 Milne Street Chattanooga, Tennessee 37406 U.S. Nuclear Regulatory Commission Attention: Document Control Desk Washington, D.C. 20555 t

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Attachm2nt 8 -

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.112.Bata Emission Dstection -<-

L91 980106 800 ,

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B January 6,1998 Debbie Bodine, SB 2N-SQN ,

ANALYSIS RESULTS FOR SQN NPDES SAMPLES  :

(WARL SAMPLE NO. 706657,706786,706731,706899,706900,707206 and 707207)

Attached are the results for seven water samples submitted to the Westem Area Radiological Laboratory for NPDES permit analysis. All ramples were analyzed for gross alpha, gross beta -

and gamma activity. The gamma spectroscopy analysis of the samples identified only natural background radionuclides.

Ihe beta activity rsported for sample 706899 (SQN-112 RAD) was confmned by reanalysis of a separate submitted sample. The dissolved solids content of the sample was highsr than the other samples in the batch. This higher dissolved solids may contnhte to the beta activity by -

serving as a natural chelate for naturally occumng beta activity.

[- . Calculated sctivity concentration, propagated one sigma error and MDCs are reported in picoCuries perliter.

If you have any questions, please call me at 386-2088 or Bill Raines at 386-2536.

bI 'r amesW Dillard Chemist I

' Radioanalytical Laboratory WAR 1A M 1

Attachrnents cc (Attachments): *~

c- EDMS, WR4Q C a

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iPage 113

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