Text

Forwards Application for Renewal of Plant NPDES Permit Submitted to State of AL
	ML19332C935
Person / Time
Site:	Farley
Issue date:	11/21/1989
From:	Hairston W; ALABAMA POWER CO.
To:	; NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
	NUDOCS 8911290196
	Download: ML19332C935 (145)
	v • d • e

{{#Wiki_filter:- -q Alabama Power Company 40 inverness Center Purkway Post Office Box 1295 't . Birmingham, Alabama 35201 Telephone 205 8645581 W. G. Hairston,111 Senior Vice President Nuclear Operations Alabama Pbwer the.unthorn elmtnc systern November 21, 1989 Docket Nos. 50-348 50-364 V. S. Nuclear Regulatory Commission t Attention: Document Control Desk Washington, D. C. 20555 Joseph M. Farley Nuclear Plant NPDES Permit Application Submittal h Gentlemen: Enclosed is a copy of the application for renewal of the Farley Nuclear Plant NPDES Permit as submitted to the State of Alabama Department of Environmental Management. This submittal is being made pursuant to Subsection 3.2 of the Joseph M. Farley Nuclear Plant Environmental-Protection Plan, Appendix B'to Facility Operating License Nos. NPF-2 and NPF-8. Should you have any questions or comments, please advise. Respectfully submitted, l/Y -)b l' W. G. Hairston, Ill WGH,Ill/TCM Enclosure cc: Mr. S. D. Ebneter Mr. E. A. Reeves Mr. G. F. Maxwell 0k 0 V k L sata utade -P l- .O n

I N n Y sI 7 " Post Office Don 2641 "E[n!,IP$$.Eoo"o k b AlabamaPower er,--n m,,c y,,m November 1, 1989 Alabama Power Company NPDES Permit Applications Mr. James M. Moore, III Alabama Department of Environmental Management 1751 Cong. W. L. Dickinson Drive Montgomery, AL 36109

Dear Mr. Moore:

We are enclosing an original and one copy of an NPDES permit application for the following facilities: Barry Steam Plant Chickasaw Steam Plant Farley Nuclear Plant Gadsden Steam Plant E. C. Gaston Steam Plant Gorgas Steam Plant Greene County Steam Plant Miller Steam Plant Also, enclosed is a check covering the application fee in the amount of $12,950 (1 minor and 7 major facilities). As discussed with Mr. Mike Godfrey of this office, we are only providing analyses for items in EPA's Form 2C, Part A and B, which we feel are present. This is also based on historical data that has been included in the application. We request the reissued permit contain consecutively numbered discharge points and, where possible, each discharge point retain its number from the existing permit. Should you have any questions, please contact Mr. Godfrey I at 250-4194. Sin e ly, John D. Grogan, nager Environmental Compliance JMG:dy J

e' Mr. James M. Moore, 111 Page two L -- November 1, 1989 bec: T. H. Jones K. W. McCracken t File: GOV 02 09 02 i t l l t i f 0 f l

L i' l Alabama Power Company l NPDES Permit Application Facility NPDES Number Barry AL0002879 Chickasaw AL0002879 j Farley AL0024619 Gadsden AL0002887 Gaston AL0003140 Gorgas AL0002909 Greene Co. AL0002719 Miller AL0027146 t Enclosed are Forms 1, 20, ADEM's form and other pertinent information for the above " highlighted" facilities NPDES permit application. l All current discharge points have been included in Form 2C, Section II. Specific details for each plar.t's permitted outfalls are l included following Form 20. This information is provided to clarify modifications to a point or detail points which are no longer in existence. We again request the permits be assigned sequential numbering (with no letters) and where possible existing discharge points retain their current discharge number. Due to the large volume of data, conventional forms were not used exclusively. The format used for data reporting is similar to previously i submitted APCo NPDES permits. Since continuous flow monitors were not used the calculations were not " weighted by flow" and are reported as straight averages. "Less than" (<) values result when the concentration of a sample is less than the detection limit of the test. "Less than" data in this report will be computed as follows: To calculate a mean when a "less than" value appears in the data, the sensitivity of the test will be averages in as if it was a measurable value, and then "less than" (<) will be placed before the mean. Because we are reporting averages the "less than" symbol may appear t before rather large numbers; this only indicates that a "less than" value was used in the calculation. The significance of the "less than" symbol will be deter-mined by the number of analyses and the magnitude of the average. " Greater than"(>) values, although rare, are handled in a similar manner. Because flow values were not consistently measured at the time of some of our long-term grab sampling matching concentrations to flow to flow, to calculate individual mass units was not practical. Therefore, mass is calculated by using the average observed flow and the average observed concentration. The "less than" and " greater than" have been omitted in the reporting of mass. l ~.. -..

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"c. %. + + l 31NSTRUCT10NSIComplete A through J to determine whether you.need to submit any permit application forms to the EFA if you artswer"yes".to any l diuestiontryou must submit this f orm and the supplemental f orm listed in the parenthesis f ollowing the truestion Mark X"in the box in the third column Uf.'tWoupplementalform is attachedJil.you answer "no".to each questionfyou need not submit any of these formL You may answer *no* if your actMty l 9e escluded from permit recuirements:see Section C of the instructionL4ee also, Section D of the instructions for definitions of bold-faced termt '

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-s w.xuc. nces.quesarcous wastes) e i i i i i i i i i i i i i i i e i e a i i i i f,p,c,fyj 224 9 R 9 g " ", Atwqko'this.applicatiove. topographic map of the area extending to atlaast one. mile beyond property bounderies.The mapmust shofwPf. tree,t.monthstoiagehor disposal, facilities, and each wellfwhere it.finjects* fluids underground, inc the o'utline'of the'Wecility,';the. location of each of Ats' existing and; proposed intake and discharge structures. ese of its hazardous weste t s, N watei,tiodies in the, map area.5See instructions for precise requirements. ' 4 A.r. . Y N..s tyi.- 0 uss. NATURE OF,8ustNEss tproyior'a tireef oescription J l GENiRATION Of ELECTRIClTY QCE.R.TJF.aCATDON1000instisktions) ).. ~ ~ ' ' ' ~ f~~~' ~ I certify,'ininder pensity of law that I have personally examined andam. familiar with the information submitted in this application and ali& attachtpantsiandeth'at,4basedron.tnyl inquiry..of sthost persons.tmmediately responsible for. obtaining:the informstloro contained in the:,'t applicotly,21'b'lisn'that'the'information is true, amurste and completeAsm 'awair that thehr are.significant penalties for sutenitting e f:lae3nformationbincluding the possibility of fine andimprisonment.' ^1 D k' + k * * % ~ M ^t g m Aent n oc c ec a At. vif t.a (rype or prinr/ D sIGNATUnE C. D A T E sign L C ( R. E. Huffman - Vice President c.d d. ,a . m,w

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I i Air Pollution Control Permits l Barry Permit No. 503 1001 Chickasaw Permit No. 503-1002 t Gadsden Pernit No. 3-07-002 i I l Gaston Permit Nos. 4 11-0005, 411-0005-20006, 4-11-0005-2007 f Gorgas Permit No. 4-14-0001 l Greene County Permit Nos. 4-05-001, 1-05-0004-Z001, 1 05 0004 Z002 i4111er Permit Nos. 4-07-00!!-1301 (Construction of Generating Units 1, 2 and 3); 4-07-0011-1301 (Operation of Generating Unit No. 1); 4-07-0011-1302, 4-07-0012-3517 j 4-07-0011-1320 (Operation of Generating Unit No. 2); 4-07-0011-8701 (Gas Stations); 4-07-0011-8701 (Solvent Metal Cleaning) 4-07-0011-8901 (Operation of Generating Unit No. 3) i Powell Avenue Permit Nos. 4-07-0010-3301, 8501-8505, 8507; j 4-07-0009-1301, 1302 J i Birmingham Division Permit Nos. 4-07-1081 8601, 1579-8601, 1670 8601, ) 1688-8601, 2034-8601, 2035-8601, j 1233-8601, 1116-8601 Corporate Headquarters Permit Nos. 4-07-2037-8601 (Fleet Garage) i 4-07-4106-8601 (Tank Truck) l. 1 l r 1 4

? k t i; i WATER SUPPLY PERMITS Faricy Nuclear Plant. 86-1122; 86-1123 Gaston Steam Plant 86-1124; 89-506 ' Greene Co. Steam Plant 86-1125 Miller Steam Plant 86-1121; 88-522 Selma Warehouse 86-651 NPDES PERMITS l l Farley Nuclear Plant ALOO24619 Dankhead Hydro' Plant ALOO41432 / Bouldin Hydro Plant ALOO41611' ALOO48020 Harris Hydro Plant ALOO41441 / Henry Hydro Plant ALOO41459 Holt Hydro Plant ALOO43435 Jordan Hydro Plant ALOO41467 Lay Hydro Plant ALOO41475 Logan Martin Hydro Plant ALOO43397 Hartin Hydro Plant Mitchell Hydro Plant ALOO43427 ALOO41483 Smtth Hydro Plant Thurlow Hydro Plant ALOO43401 ALOO41424 Weiss Hydro' Plant i ALOO43419 Yates Hydro Plant AL0002879 Barry Steam Plant, Chickasaw Steam Plant AL0002895 Gadsden Steam Plant ,:.iAL0002887 i Gaston Steam Plant ALOOO3140 AL0002909 Gorgas Steam Plant ALOO25551 Gorgas Earge Loader Greene County Steam Plant AL0002917 ) Hiller Steam Plant ALOO27146 Powell Avenue Steam Plant AL0052400 General Services Compler, AL0056740 W- ~. - .--,,--,,,,-,,,w-,-

( l Alabama Department of Environmental Management Water Division-Industrial Waste Control ScCrion Supplementary information NPDES Permit Application Instructions: This form should be typed of printed i) ink. Do not Complete shaded bloCAs. CARD f ACitt1Y #

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.w t [, 6. Parent corporcti:n cf cppliccnt, if cny, cn3 mailing cddrc;o: Alcbn?a Pow r Comp ny, t P. O. Box 2641, B' ham.,AL 35291 i i Subsidiary corporation (s) of applicant operating in Alabama, if any: Southern Company Services t 8. Permit numbers and/or names of any Alabama water pollution control permits presently held by the applicants parent or subsidiary corporations: Permit Name Permit 4 Held By See Tabic 1 F l t t L t Provide a description of the location of all sites involved in the storage of solid or liquid waste generated by the facility for which the NPDES application is being made. Where possible the locations should be noted on the map required by item XI of the NPDES application being made Des'eription of Waste Description of Storage location Various waste _ oil, degreasers, etc. Facility has a 90-Day storage location are rencrated and stored on site. and waste oil storage location. These sites are operated in accordance with all applicable regulations. Page 2 of 3 J

10. Provica a daccription ci th? Icentien of the ultimato dispos:1 citos cf colid or liquid waste by products (such as sludges) from any treatment system for which this NPDES application is being made.

( Description of Waste Description of Ultimate Disposal fewage treatment plant sludge: The sewage sludge is removed and disposed of solid radioactive waste, in accordance with applicable regulations by a licensed vendor. Radioactive solid waste is sent to a permitted low level radioactive waste disposal facility.

11. The infermation in this form must be certified by a responsible official, as defined by NPDES regulations (See attached ' Signatory Requirements for Permit Applications')

I certify under pcnalty of law that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information including the possibility of fine and imprisonment for knowing violations. R. E. Huffman, Vice President Operating Services W /[ i - Name and Title of Responsible Official Signature Date Signed (: l Page 3 of 3 s-

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ceA s.o. NuMos Nicon troen Juani of f oren sp Pi,e, p, int, tvo in ine unineo d e,esi oniv. ALOO24619 rorrn Aom Paousevo. rss.norn 1 u.s. LNvenoNu t hi AL Pn ot cq) aON AC,L NC Y FORM gh , APPLICATION FOR PERMIT TO DISCHARGE WASTEWATER

2C g EXISTING MANUFACTURING, COMMERCIAL, MINING AND SILVICULTURAL OPERATIONS espOEs ConsolidatedPermits Program L OUT1 ALL F.,.ee,,0.t.ei...st t,,e.titu e,,d ior,gitude o, its ioce, ion to t,,e n.e,est a seo,r ds and the - o, t,,e recei.~ we,e,.

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. fu,o 009,012-0 l8 31 12 52 85 05 35 Chat tshoochee River 010-011 31 13 45 85 06 45 W11:<on creek 1 j

u. flows, aOURCES OF POLLUTION, ANO 1 AEATMENT TECHNOLOG A. Attach a line drawing showing the water flow through the facilityilndecote sources of intoke water, opervtlons contributing westewater to the effluent, and trestrnent units labeled to correspond to the more detailed descriptions in item 8. Construct a wetet botence on the line drawing by showing evere;s flows between intakes, operations, treatment units, and outfalls, if a water belance connot be determined (e.g., for certeln mining activities), provide e pictorial description of the nature and etnount of any sources of water and any collection or treatment measures.

8..For;oach;outtell,lprovide e descnption of; (1) All operations contributing mestoweter to the effluent, including process westowetes, sanitary westoweter,

' cooling water, and storm water runoff; (2).The everage flow contributed by each operation; and (3) The treatment received by the westeweter. Continue on addstional sheets il necessary. .i. t. OUT. E. OPER ATION(S) CONTRieUTING Ft.OW ' 1.1ACATMENT (fas t)

4. OPE R AT40H (llaf)

I & ni e

e. OEeCRIPTION a

E I 8 4 I 009 Main Sewane Treatment Plant 2.3x10 GPD 2-F.3-A. l-V. 4-A 010 Seware Treatment Plant - 2A 0.0 Plant not in operation 2-F.3-A. l4-A 4 3 011 Sewage Treatraent Plant - 2B 3x10 GFD 2-F.3-T 4-A i 012 Morni Clenninc Wastes 0.0 No metal 'leaninc vaste to date 4-A L L 013 Treated Chromate Bearing 500 gal / batch No longer in use 2-J, 4-A Wastewater ~ 5 014 Waste Settling Pond 3x10 GPD l-V, 4-A 4 015 Turbine Bldg. Sump Unit 1 1.2x10 GPD 4-A 4 016 h hine Ri dg. sump..llail._2 _L6x10_QPD 4-A_ 5 017 Steam Generator Blowdowa 1.2x10 GFD 4-A Unit I 5 018 stonm cenerator Blowdown 1.2x10 GFD 4-A Unit 2 OPracn AL usu ONov (efraa.ent guidet. nee sub-categories) J'ii_r. E ' M A Fnem SE1rk?r'(R.not. n o o-a < m..,

era s.o. noenst esvory trem item 4 of Iom, to P6 ease prent ets ivpe en the unshided trets ontv. A1.0024619 re,m Avor,,ev oua u ess notis FORM u.s e n venonsa c a v at. eno v e c t ion A c. Luc y ' APPL.lCATION FoR PtRMIT To DISCHAnCE WASTEWATER gg A 2D @ EXISTING MANUFACTURING, COMMERCIAL, MINING AND SILV1 CULTURAL OPER ATIONS NPots Consolidated F?rmits Program For eseh outfall. 'st the totitude and longitude of its location to the neerest 16 seconds and the name of the receiving water. K.,g,agw

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019-024 'l l 12 52 85 05 55 Chat t ahoochee Rf ver ,,m A. Attach a line drewing showing the water flow through the f acdtty. Indecote sources of intake water, operations contributing westewater to the effluent, and trestrnent units labeled to correspond to the more detailed descriptions in item B. Construct a water belence on the line drawing by showing overage flows between intakes, operations, treatment units, and outfalls. If a water bedence cannot be determined (e.g., for certeln mln/gp activities /, provide a pictorial description of the nature and amount of any sources of water and any collection or treatment enessures. B. For sech;outtell,iprovide e description of t di All operations contributmg westemeter to the effluent,induding process westewater, sanitary west

water, cooling water, and storm water runoff;(2).The overage flow contributed by edich operation; and (3) The trootmect received by the westeweter. Continue 4

on additional sheets if necessary. P. g, ppy. E. OPE R ATIONtel CONTRIeuYING FLOW +2. T M C A The E NT b. .'g est; 's. OPE R ATION flief)..' ~;. ai nite

4. DEsC MIPTION rg g

3 019 Licuid Radwaste System 5x10 GFD 2-J. 4--A Unit 1 4 _020 Liquid Radwaste System 5x10 GPD 2-J, 4-A Unir ? l I 7 021 Plant Transformer Area This point no longer receives a flow from the Runoff turbine b1dg. oil sump flows; only runoff goes thru. Th is is part-of DSN024 described belowy 4 022 River Water Bldg. Sump Unit 1 8.2x10 GFD 4-A 4 023 River Wnter Bldg SMap-Unit 2 8Jx10 GPD 4-A i l l _ 0_24 Southeast Yard Drainage See Attachment I for flows l ( Formerl y South Yard Drain) [ Waste Settline Pond (DSN01B . Tran n fnrmer..Arca..RunofL.(DSM21) No__more process water thru system 4 4-A [ ninen1 n1 a rr. hm n 4-A ( Circulating Water Pumps Sump Discharge - Un :t 1 4-A Service Bldg. HVAC Sump Discharge (DSN034) i 1 Diesel Generator Tank Unload ing Pad Utility Blde. Area Runof f Auxillary Boiler Diesel Tank Runoff or rice a o use Oni.y refn,,e,,.msm,,, w.,,,on,s; l < n.....

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ce A s.v. nuust nuors from item i si f orm oo Please orant or evpc in ths unshirled cecas oniv. ALOO24619 tonn Am-ova ous no. f ss nom FORM u.s. t u veRon.it ni ac enoi s c v eon n o t no v APPLICATION FOR PERMIT TO DISCHARGE W ASTEWATER gh 2p g EXISTING MANUFACTURING, COMMERCIAL, MINING AND $1LVICULTUR AL OPER ATIONS g fgroEs Consolidated Permits Program For seeh outfell, list the latitude and longitude of its location to the nearest 16 seconds ar d the norne of the receiving water. A. OU Ac6

e. 4. A T I T U DC C. LON Gt1 uDs.

aaa> ..a. ..e... 025 31 12 52 85 05 55 Chattahoochee River 026-028 Wfison Creek Wilson Creek ,I'J1A1 It. FLOWS, WOURCES OF POLLUTION, AND TREATMENT TECHNOLOG ) A. Attach e ime drawing showing the water flow through the f acilityilndacete sources of intake water, operations contributing westeweter to the efiluent, and trestrnant units labeled to correspond to the more detailed descriptions in item B. Construct a wetet belenOt on the line drawing by showing everage fiows between intakes, operations, treatment units, and outf alls, if a water belance cannot be determined (e.g., for cersein mining actMries), provide a pictorial description of the nature and amount of any sources of water and any collection or treatment measures. g, for sech,outtell, provede e coscriptson.of: (1) All operations contributing westoweter to the effissent,indudmg process westewater, senttery westeweter, cooling water, and storm water runoff; (2).The everage flow contributed by each operation; and (3) The treatment received by the westeweter. Continue on additional sheets if necessary. 1 L OPER ATION(SI CONT 54teUTING l' Low ' S. YR E. ATM E NT g, ggy. u t)

e. OPEH ATION Cist). '*

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4. DESC RIPTIo N gg g 025 East Yard Drainage See Attachment I for flows 4-A (Formerly East Yard Drain)

Tendon Access Gallery Sump Discharge Units 1&2 14-A Fire Pump Cooling Water (D 4N034) l Central AlaTm Station llVAC Water l ^ Coolince Tower System Overf low-Unit 1 (DSN( 06) Electrical Cable. Tunne1 Jump Discharce Miscellaneous East Drainaga i North Central Yard Drainage See Attachment 1 for flows 4-A l (Former1v DSN026-028 NW. N Cantral & NE Yd. Drain) i-Northwest Yard Drain See Attachment I for flows 4-A Northwest plant runoff Construction Air Compressor Cooling Water (Emergency use only) Construction Air Compressor Structure Dra: ns l, See Attachment I for flows 4-A o* West, Yard Drainage-- m._ ( West Plant Runoff 1 Construction Garage Car Wash 011/ Water Separator l l j urr C.As.u u CNurfem.,f te.u..e,su ueave.,uas GRmW g w,,,.. E I* A F f1** r' 44Rn y,. ,c. ,av

t rk e.o. Num pt en gsops from itsm J of Fome 2p Pleaw print or type in the unsheded earn only. AL0024619-rum enmoud ous uo. rss noin FORM ut a nvenonut ni as enot ec tion as,Lnc.y APPLICATION FOH PERMIT TO DISCHARGE WASTEWATE R 2gp th g EXISTING MANUFACTURING, COMMERCIAL, MINING AND SILVJCULTUR AL OPER ATIONS NPOEs Consolidated Penits Progran For sech outfelt,lest the totitude end longitude of its location to the neerest 15 seco% and the norne of the receiving water. A.,o,vgay i.

m. LAiiTuos c.i.onossvoc oaei 31 12-52 85 05 55 Chattahoochee River Wilson Creek it. FLOWS, SOURCES OF POLLUTION, AND TRE*.TMENT TECHNOLOG I'>.,

A -; A. Attach a line drewkig showing the water flow through the facilityilndicate sources of inteks water, operations contributing wasteweter to the effluent, and treettnent units labeled to correspond to the more detailed descriptions in item B. Construct a wetet balance on the line drawing by showing overage flows between intokes, operations, treatment units, and outfalls. If a water taelence connot tio determined te p., for cortsin mining activities /, provide a, f pictoriel description of the nature and emour t of any sources of wet.er end any cassection or treatment measures..

8. For each;outtell,: provide e description.of: (1) All operations contr6tauting weetoweter to the effluent.-. including process westeweter, sanitary westoweter, cooling water, and storm water runoff;(2).The everage flow contributed tay each operation; and (3) The treatment received by the westewater. Continue on additional sheets if necessary.

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g h ^ "' L ' t J2uthwest Yard Drainare See Attachment I for flows 4-A Southwest Yard Runoff 39 Fi re Trnininre Aron Fun 1 Oil Stornce Aren O il/Wnter Rennrntnr ( D RNO'> 9 ) Main Parkinc Lot Runoff Fire Training Center Runoff l '~ Service Water Structure Sump Discharge Uni ts 1-2 (DSNO31) Northeast Yard Drainage See Attachment I for flows 4-A Mi c:e n11 nne nn e: Ynrd Drainnn th 14ng Tnunt Rynene (k o r f i nu (DRNOOR) .e__ All of the above vard drainare contains flow which are intermittent to varying degrees. eura - m-mem w one.m i l I l orrscaa s. ubet oNov (effluent twidehnee euk.tesories) ~........ -...w ,w n-u, _, ~. . ~

. ~. - ~ i 1131:2536 FEDERAL REGULATIONS + inmitNtetO f Rues THE f RONT

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na e.,es a See Attachment I t L.' - '^ IIL PRODUCTIO i l A. Does en ef fluent guece'ene limitaten promungsted try EPA under Section 304 of tne Clean Vuter Act appey to your faceutyi @ v se tremo ete tum Ill Ol Deno (to se Besteen IVJ i n

s. Are tem inn wiens en one soph.enN emuent guessinw eseressed es wenu of produst6en tu es=, mesem er e oesan

@no tee to Seetion IVI I - vse teemreese tee.a III.cl C If yov enswered **yes"to teem lit.S. leet the guerstery whoch represente en actuai.. - _ J.of yourlevetof producteertesproceedinthetermeendunste l - used en the apphcet6e effluent gualehne, and endicate the effected suff4He. ,b AVERAGE DAILY PRODUCTION

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e-~,.m.-. ,== e, s _ .e. h..... t l' l tv. lManOVEhe8 ENTE] L. A, Are you nown reousrud by any Federal, Stme or local author 6ty to meet any impeenentat on schedu6e for the eenstruction, upgrad.no or operation of euesw. suetee treatment sousement or practices or any other enwronmental programs whsch mov eftest the discheroes esecr6hed in this apptecetson? This enetwees, but es not hauted to, permit cond tens,e$ministrotrue er enforsement orders, enforcement compliance scheduto setters, stipulations, court treers, and great er toen conostions' D vse itemperse she felleenine eeWeJ ~ @mo fe's se seem IV.as s.arescvse ouveALLs. g) g,

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t6 . e. e.. A,.g.,, g Aanseessest, svc. l. 1 C. OPTIONAL: You rney attach addit.oned sheets eseecr%ng any add.t.ones water posiution contros proerems der einer environmeneer pegiero ionese mer erreer reur decAeryss' you now tieve unden=ey or which yev p6en. lad.cate whether each progrera es now uaderwov or pleaned, and end. cow your actes er $lennetf schedu6es for eenstructeen. esAmet **M" fr oseCNe*ttoM or ADofTeoM AL CoNvpoL F#oGR A.ts es AvvACHso e CONTINUf. Oct PAGE. 3 PAGE 2 Or e % gg g g (Form 2C] 196 Environment Reporter l l .._m._ _.,._. _,... _. _., -

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cen e.o. numnats teory from item e of Form J 6 ALDO24619" Form Aporok oue no. rse nom i a myuNueo rnou enor e. i i A,8. & C: See instructions before proceeding - Complete one set of tables for each outfall-Annotate the outfall number in the space prowided. -i NOT.E: Tables V A. V 8, and V.c ore included on espsrete sheets numbered V.1 through V4. i D. Use the space below to list any of the pollutents listed in Table 2c 3 of the instructions, which you know or hows reason to believe is d echarged or may be ( ~- descharged from any outfall. For rwry pollutent you list, briefly describe the reasons you believe it to be present and report any enetytical date in your j> posesosion, t.poLLuvant a.sounca e.PoLLuvAnr a.sounct 1 1 NONE (s i I i ( l l l l~ WI.90TENTIAL DISCHARGES N d-hA. Sis any.gnottutent hsted in item V.C,e substance or a component of a substance which you do or.eapect,that you will owr.the next 6 years use o M'lMes en intermediate or.finet prod,uct or byproduct? ' o '..g' ' ' ' '.f; p. '-.t- %, ; - J* *

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Q v ge~Cis5 eli auch pollutants betone).'~ Ch. ' 2;*D, 4.. 3 y; < $$Ho llo to llem V59) ~.i: b Are your operatior such that your row meterials, procuses, or proEsets een reasonably be expected to wry so that your discharges of potiutents

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^ ,,t ,the next 5 years em eed two times the maximum wives reported in Item V7 %^ Q Y es (complete item V1 C below) '.$ no (go to settian Vill /,c.:lf you' enswered **Yes to item V8 8, explain betow and describe in detail the sources and expected levels of such poffutents which you anticipate t.ei ; discharged from each outferi owe the next 5 years, to the best of your ability et this time. continue on additionet sheets if you need enore specc. CONTINUE ON REVERSE EPA Form :tSt42C (640) PAGE 3 OF 4,

,s. . CON FlNUE T F'OM THE FPONT : gg;gg '%4. StOLootCAL. T XICITY TESTINJ EATA .1 Do you 1. we any knowlldge or exstn 13 tiotieve thIt (ny tiiologics! test f or Ecute or chtorne toucity hss tseen ansde on any of your cischv9cs or on a L - receiving sweter in (Iletion t3 your disch;#ge within the 1.I.st 3 yMn? Qvts lidentify the tential erad describe t hr purposes torlowl 0 No (go to Section Vill) r. 7 + t l A-a ii ? -a l. i1 . i Ef ' 4 /!hM. 'O q ~ i* ' > Vitt.CONTft ACTANALYSIS INFORMATION ',, S. ? - : ;.? '.,.. ' c f. ' ~ ).d'.W.- . Were any of the snelyses reported In' Item V performed by a contract laboratory or consulting firm? .i Q Es tlist the name, addreen, and telephone num ber of end pollutants lQ NO tgo to $ctlion EX) h - r....,,, onelysed by, each such laboontory or firns toetow/ s T L "C-n o J li e B. ADDetESS tareo cod 'A.HAME i.. r. f.. r i i I, 4 l . :.. : O. ? :TL&};.5:l. ' @ 'i"; 6_ ~.1-3p,J f.L } TJILk A2%l R 1 certify under penalty of law that I how personally examined and am familiar with the information submitted in this application attachments and that, based on my inquiry of those individuals immediately remonsible for obtaining the information, I believe that th formation is true, accurate and complete. I am aware that there are significant penalties for submitting false information, inciv6ing the possibility of fine and imprisonment. O. PHON E N O. (area code 4 no,1 A. N AM E as OFFICI AL. TITLE (type or print) l E. Huffman, Vice President Operating Services (205) 250-2408 u D. D A TL SIGNED .3 N ATU R E ^ f,, ~ ft9 y v ( eAoc4or4 EPA Form 3510-2C (640) - ~. - - _,. - ~. -.

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!r.:t Li i D farley Nuclear Plant - 1 Once-Through Equipment Cooling Water and Service Water Bypass (Units 1&2) -- We are requesting language concerning sampling read "When chlorination is occurring, grab samples should be taken once per 30 minute period of chlorination to verify compliance...". Main Sewage Treatment Plant - It should be noted that this plant was significantly modified, including the addition of a sand filter system providing tertiary treatment, and should be reflected in this plant's record. l ' Turbine Building Sump (Units 1&2) - The principal component of water discharged into.these sumps at the time the' current permit was issued consisted primarily of equipment and valve leakage from inside the turbine . building, which was primarily demineralized water. Due to recent changes in procedural and maintenance practices, the sump now receives considerable - amounts of circulating water (once-through cooling water). As before, this connects into the once-through cooling water stream prior to discharge. Storm Water Runoff from Plant Transformer Area - The turbine building oil sumps used to discharge through this path; however, discharge frca these sumps has been discontinued from this path which now only collects stormwater runoff. This then continues along the southeast yard drainage system. l --np y w y q

Cerrosion. Inhibitors, Biocides, and Chcmical Treatments Used at Farley' Nuclear Plant (.. i .i A. -Service Water System'- Units 1 and 2 (Service Water intake Structure) ] Chlorine Dioxide ' Added at a rate of 10 #/ unit /hr for approximately one hour three (3) times per day. Chlorine dioxide is generated using DREWCHLOR (sodium chlorite solution), sodium hypochlorite solution, and an HCL solution. Sodium Hvoochlorite Added at varying rates to accomplish Corbicula control in the service water system. Rate is controlled to assure that TRC values are in compliance with discharge limits. B. Circulating Water System 1. Unit 1 Circulating Water System Calcon AM-142 (HEDP/ZnC1/ hcl Solution) Added at a rate of 27 gal / day to maintain 25 PPM concentration in system. Calaon PCL-716 (Anionic Polymer) Added at a rate of 72 gal / day to maintain 40 PPM concentration in system. Caloon CL-361 (Surfactant) Added at a rate of 20 gal / day, three (3) times per week. Chlorine Dioxide Added at a rate of 100 #/hr for one hour three (3) days per week for a concentration of 2.67 PPM in the system and.no detectable TRC. Chlorine dioxide is generated using Calgon H-2515-(sodium chlorite solution) and an HCL solution. 2. Unit 2 Circulating Water System Chlorine Dioxide Added at a rate of 100 #/hr for one hour three (3) days per week-for a concentration of 2.67 PPM in the system and no detectable TRC. Chlorine dioxide is generated using DREWCHLOR (sodium chlorite solution), sodium hypochlorite solution, and an HCL solution, s Zinc Chlor'de i Added at a rate of 2.0 gal / day to maintain 0.2 PPM zinc in canal. Drew WPD 11-136 (Polvacrylate) Added at a rate of 5 gal / day to maintain concentration of 1.4 ppm product. l l l

a c r. ) i L k Drew WPD 11-343 (Hydroxvethylidene DiPhosphone Acid'(HEOP) and Tolvtriazolo Buffered with Potassium Hydroxide) Added at a rate of 25 gal / day to maintain 4.0 PPM of Ortho-Phosphate treatment level. Drewsperse'738 Dispersant Added at a rate of 25-30 gal / day, three (3) days per week. + + C. Reactor Coolant System Lithium Hydroxide Added at a rate to maintain 0.7-4.36 PPM concentration in system.- Boric Acid Added to maintain up to 4000 PPM in the system. Hydroaen Peroxide Treatment during shutdown uses approximately 32 quarts. D. Secondary System Chemical Control Morpholine Added as needed to maintain 4-10 PPM concentration. 1 Hydrazine Added as needed to maintain 20 PPB concentration. During wet layup process hydrazine concentration maintained at 75-200 PPM. Boric' Acid Added to maintain 5-10 PPM during operation. Added to maintain 45-50 PPM during startup. Ammonium Hydroxide. Added as needed to maintain 0.3-2 PPM. E. Component Cooling Water Potassium Chromate Added as needed to maintain 175-1000 PPM with 400 PPM as the normal range. Potassium Dichromate L Added as needed for pH control. Potassium Hydroxide l Added as needed for pH Control. F. Service Building / Turbine Building HVAC Systems. LCS-59 Proprietary Corrosion Treatment (4% Sodium Nitrite Solution) Added as needed to maintain 2000-3000 PPM concentration in system. l ll l

(; b- .l G. Diesel Generator Jacket Water. a 'fotassium Chromalg Added as needed to maintain operating level in excess of 300 ppm. Potassium iChromate 1 Added as needed for pH Control. Potassium Hydroxide Added as needed for pil Control. J H. Sewage Treatment Plants Main Plant Chlorine gas added at rate of 4 f/ day to maintain approximately 3 PPM in-the final effluent. Plant 28 Sodium hypochlorito added to maintain approximately 3 PPM in the final effluent. I. Drinking Water System Production -Chlorine gas added to maintain 0.5-2 PPM residual. Construction Sodium hypochlorite added to maintain 0.5 - 2 PPM residual. -f 4 m w - w -

u) . v.m Descriptive Information and Data for Water Uses NOTE: The following information'provides detail on water use at Farley ' Nuclear Plant required for the NPDES Permit renewal application. 1The information is categorized by system. Flow and other appropriate data are included in a separate attachment. Current i NPDES point' source designations are included in parentheses. ' River Water System (1) River Water Intake - Units 1 and 2 The river water intake structure for Unit I houses five (5) pumps with a total capacity of 48,750 GPM. Water withdrawal is also used for river water screen backwash, pump lube and cooling, and filter backwash.. Water for plant use is pumped to a storage pond. The Unit 2 system is identical to Unit 1. (2) River Water Intake Screen Backwash - Units 1 and 2 (DSN030) The screens are backwashed, as necessary, at different intervals during the day. The refuse from backwashing is disposed, a:: necessary, in the on-site solid waste landfill. (3) River Water Pumps Mini-Flow - Unit 1 (DSN032) The mini-flow provides pump protection by allowing a minimum flow from the pump discharge header to the wet pit. (4) River Water Pumps Mini-Flow - Unit 2 (DSN033) I Description same as Item #3, (5) River Water Building Sump Discharge - Unit 1 (DSN022) All cooling water and equipment leakages flow to the building sump and are subsequently discharged to the Chattahoochee River. Flows are itemized below: (a) River Water Pumps Lube and Cooling Water - Unit 1 l The lube and cooling water is supplied from the river water pump l-discharge header and is discharged to the building sump. l l (b) River Water Pumps Air Compressor Cooling Water - Unit 1 L Air compressor cooling water is supplied from the river water pumps discharge header and is discharged through the building sump.

...c (c) River Pumps Lube and Cooling Water-Filter Backwash Water - Unit-l -The backwash water is supplied from the river water pumps discharge header and flushes debris from the filter. The water is discharged to the building sump. (6) -River Water Building Sump Discharge - Unit 2 (DSN023) All cooling water and equipment-leakages flow ~to the building sump and are subsequently discharged to the Chattahoochee River. Flows are iteraized below. (a)_ River Water Pumps Lube and Cooling Water - Vait 2 ' The lube and cooling water is supplied from the river water pump discharge header and is discharged to the building sump. (b) River W'ater Pumps Air Compressor Cooling Water - Unit 2 l Air compressor cooling water is supplied from the river water pumps discharge header and is discharged through the building sump. (c) River Pumps Lube and Cooling Water-Filter Backwash Water - Unit 2 - The backwash water is supplied from the river water pumps t discharge header and flushes debris from the filter. The water is discharged to the building sump. Service Water System (7)- Service Water Intake Structure - Units 1 and 2 The service water system provides cooling water for various plant systems. It also provides watsr for clarification which is ultimately demineralized for plant use. The components of the-service water system are itemized below: (a) Intake Screen Backwash - Units 1 and 2 The intake screens are backwashed, as needed, at different intervals during the day. The refuse from backwashing is disposed in an on-site solid waste landfill. The backwash water is routed back to the service water pond. (b) Service Water Pumps Mini-Flow - Units 1 and 2 The mini-flow provides pump protection by allowing a minimum flow from the pump discharge header to the wet-pit. l

't i I (8): ' Service Water Structure Sump-Discharge - Units 1 and 2 (DSN031) g - All cooling waters and equipment leakages flow to the building sump and. are subsequently discharged to the southwest yard drainage. The components discharging to the building sump are itemized below: (a) Service Water Pump Lube and Cooling Water - Units 1-and 2 1 The lube and cooling water is supplied from the service water pumps and discharges to the building sump. j .) (b) Service Water Pumps Air Compressor Cooling Water - Units 1 and 2 Air compressor cooling water is supplied from the service water .J pumps discharge header and is discharged to the building sump. Once Through Cooling Water System (9) Once Through Cooling Water - Units 1 and 2 (DSN001, DSN002) ~ This discharge is composed of the combined flows of service water used for plant equipment cooling. The components contributing to this discharge are itemized below. (a) Auxiliary Building and Containment Building Equipment Cooling Water - Units 1 and 2 -Various equipment cooling waters in the auxiliary building and the containment building exchange heat to the service water system which is ultimately discharged as-once-through cooling water. (b) Diesel Generator Building Equipment Cooling Water - Units 1 and 2 This water provides cooling water for the emergency diesels and is discharged as once through cooling water. The system is supplied by service water. (c) Turbine Building Equipment Cooling Water - Units 1 and 2 The service water system provides cooling. water for various equipment heat exchangers in the turbine building. The water is ultimately discharged as once-through cooling water. (d) Dilution By-Pass - Units 1 and 2 By-pass lanes in the service water system are provided to allow flow in excess of demand to be discharged in order to protect plant components from over-pressurization.

E t - Turbine' Building' System j 7

(10) Turbine Building Sump - Units 1 and 2 (DSN015,.DSN016)

[ This discharge consists of all drains, cooling waters, and equipment i leakages collected in the turbine building. The components contributing = to this discharge are itemized below: (a) -Turbine Building Air. Compressor Cooling Water - Units 1 and 2 The service water system provides cooling water to the plant air compressors and the resulting water is discharged to the turbine building sump. ^ L (b). Turbine-Building Chemistry Lab Drains - Units 1 and 2 Wastes from routine chemical analyses on the steam system are discharged to the Unit 2 turbine building sump. (c) Turbine Building Floor Drains - Units'I and 2 ? The floor drain system collects equipment and valve leakage and routes it to the turbine building sump. (d) Auxiliary Boiler Blowdown The auxiliary boiler is not'in use. Should the boiler require use, blowdown to remove suspended and dissolved solids would be necessary. This blowdown would be routed to the Unit.1 turbine building sump. (e) Condenser Circulating Water Box Drain - Units 1 and 2 - This discharge is required periodically for maintenance of the condenser circulating water system and for investigation of-condenser tube leaks. This water will be discharged to the turbine building sump. (f) Circulating Water Canal Drainage - Units 1 and 2 During outages maintenance may require drainage of the circulating water system. A portion of this drainage is routed to the turbine building sump. l Diesel Butiding System (11) Diesel Building Sump Drains in the emergency diesel room are routed to a retention device outside the diesel building which is routed to the southeast yard drain. Diesel building air compressor cooling water (service water) continuously flows through this discharge path. (Note: A design change is being developed to re-route air compressor cooling water 1 l l [

~. s. ' discharge'back to once-through cooling water systems). The . components of this system currently are: l (a) Floor Drain System The floor drain system collects equipment and valve leakage and routes it to the diesel building sump. (b) Air Compressor Cooling Water Service water provided as air compressor cooling water is routed to the-diesel building sump. Liquid Radwaste System (12) Liquid Radwaste System - Units 1 and 2 (DSN019, DSN020) Reactor and auxiliary system leakages and other auxiliary building wastes which are not recyclable are processed, as necessary, to ensure that all-discharges are well below the limits established by the Nuclear Regulatory Commission. This discharge is also processed, as necessary, to remove chromates. Boron, which is used in the-reactor and auxiliary systems, may also be discharged in various concentrations, j (a). Refueling Water Storage Tank Retention Area Storm Runoff - Units 1 and 2 For radiological control, e retention area has been constructed around the refueling water storage tank which would contain the rupture volume of-the entire tank. Each time it rains, water collects in this area and must be drained, after being checked for radioactivity, to protect plant systems. ~This drainage is 4 routed to the liquid radwaste system. (b) Reactor Make-Up Water storage Tank Retention Area Storm Runoff - Units 1 and 2 ' For radiological control, a retention area has been constructed around the reactor make-up water storage tank which would contain the rupture volume of the entire tank. Each time it rains, water collects in this area and must be drained to protect plant equipment. This drainage is routed to the liquid radwaste system. l (c) Waste Solidification Building Sump - Units 1 and 2 All drains, cooling waters, and equipment leakages in the waste solidification. building are routed to the building sump. This sump is routed to the liquid radwaste system. ? I: 1

a 4 (d) Low Level Radwaste' Storage Building Sump - Units 1 and 2 This sump is provided as a captive sump to contain any emergency.' release. - (13) Steam Generator Blowdown'- Units 1 and 2 (DSN017, OSN018) -The steam generator must be blown down to minimize the dissolved and suspended solids, and to regulate treatment chemical concentrations in the system. Water Treatment Plant System (14) Waste Settling Pond (DSN014) The effluent from the water treatment plant complex sump and runoff from the water treatment plant bulk chemical storage area is discharged via this settling pond. The pond discharge is ultimately routed to the southeast yard drainage. (a) Water Treatment Plant Complex Sump This sump collects'all water treatment wastes, regeneration wastes, backwashes, and cooling water. The discharge from this sum is routed to the waste settling pond. The components are identified below: 1. []_arifier Backwash The clarifier uses alum, coagulant, chlorine, and a ph adjuster to convert service water to a purity level acceptable for demineralization. Backwash of the clarifier is required periodically each day to remove coagulated material which has come from the service water. This flow is routed to the water treatment plant complex sump. 2. Water Treatment Plant Carbon Filter Backwash - Units 1 and 2 The backwash removes suspended solids which are retained on top of the carbon during the demineralizer operation. This discharge is routed to the water treatment plant complex sump. L 3. Water Treatment Plant Sump - Units 1 and 2 All demineralizer regeneration wastes are discharged to this E sump. The effluent from this sump is discharged to the neutralization tank. 4. Neutralization Tank - Units 1 and 2 This tank is used in conjunction with the water treatment L plant sump to recirculate and neutralize regeneration wastes l prior to discharge. Tank capacity is 20,000 gallons. The L tank discharge is routed to the water treatment plant complex sump. l u l

}' (b) Acid and~ Caustic Tank Area Storm Runoff This discharge is the runoff from the pad on which the acid'and caustic bulk tanks are located. This discharge is, routed to the waste settling pond. (c) Treated Chromate Bearing Waste Water (DSN013) Discharge from portable demineralizer used to batch treat s chlorinated water. This system is not presently in use. Cooling Tower System (15) Cooling Tower System - Units 1 and 2 The cooling tower system is a closed circuit system which includes the condensers and cooling towers. (a) Cooling Tower System Evaporation - Units 1 and 2 The evaporation is estimated to be approximately 2% of the-cooling tower system flow rate. (b) Cooling Tower System Drift - Units 1 and 2 The drift is estimated to be approximately 0.2% of the cooling tower system flowrate. (c) Cooling Tower Blowdown - Units 1 and 2 (DSN005, DSN007) Blowdown of the cooling tower system is required to maintain the proper chemical balance in the cooling tower system. At times the blowdown will be isolated while chemical additions for corrosion protection are being made. (d) Cooling Tower System Overflow - Units I and 2 Periodically, due to imbalances or equipment malfunction in the cooling tower system, some of the system contents will overflow the basin and will flow to the yard drains. When this occurs action is initiated to correct the problem. Al a, the contents 'l of the system have to be drained periodically for maintenance. Main Discharge Surge Tank System (16) Main Discharge Surge Tank - Units 1 and 2 (DSN 003, DSN004) The main discharge surge tank provides a surge capacity for plant discharges. In addition, it provides a common sample point where once-through cooling water, liquid radwaste, cooling tower blowdown and turbine building sumps have all combined. L 1 l l

+ Condenser Drain System (17) Condenser Drain (Hot Well flush) - Units I and 2 This' discharge _is used periodically to control the level of cnntaminants in the steam cycle, especially during plant start-ups and in chemical control during chemical transients. i Sewage Plant System (18) Main Sewage Treatment Plant (DSN009) The main sewage treatment plant consists of two package sewage plants . designed with a combined capacity of 30,000 GPD with 95% B00 removal. A sand filter has been installed to improve plant efficiency. The effluent from the_ sand filter can be discharged through three separate paths: 1. East Yard Drainage System (Normal flow path) 2. Waste Se.ttling Pond (Alternate) 3. Southeast Yard Drainage System (Alternate) (19) Sewage Treatment Plant 2A (DSN010) This package sewage treatment plant is designed for a capacity of 20,000 GPD with 95% B00 removal. This unit is presently not in operation. (20) Sewage Treatment Plant 2B_ (DSN0ll) This package sewage treatment plant is designed for a capacity of 20,000 GPD with 95% B00 removal. Metal Cleaning Wastes System (21) Metal Cleaning Wastes (DSN012) Wastes which result from alkaline flushing or acid cleaning of plant systems will be routed to a suitable treatment facility which will be constructed if the need arises. Yard Drainage System (22) Southeast Yard Drainage (DSN024) This drainage receives storm runoff from buildings and yards in the southeast areas of the plant as well as equipment cooling water and other non-routine inputs. (a) Southeast Yard Drain This drain system provides a discharge path for the roof and yard drains in the southeast parts of the plant. Inputs to the system are' itemized below: J

.c. ; J 1. Diesel Buildina Sumn J The discharge from' tho' diesel building sump is routed to' the . Southeast yard drain.

2. - low Voltaae Switchyard Transformer Area Runoff (DSN021)'

All plant main power transformers are surrounded by a i concrete berm which will direct any transformer oil from a spill or rupture to an oil-separator. Any rainwater which _ collects in the-area passes through the oil separator prior

to discharge to the yard drains. The separator is designed to retain the entire volume of the largest transformer. in-case of rupture.

3. Circulatina Water Pumns Sumo Discharae - Unit 1 This water is primarily cooling water supplied by the circulating water pump discharge header. Sanitary water _is supplied as a back-up. ~ 4. Service Buildina HVAC Sumo Discharoe (DSNO34) This discharge is used to regulate the amount of suspended and dissolved solids in the HVAC System below the' allowable levels. Supply to this ' system is demineralized water or potable water. S. Diesel Generator Fuel Oil Storaae Tanks Unloadina Pad Storm Runoff ' The unloading pad is designed to provide containment for any diesel fuel spilled during unloading activities. Periodically, the rainwater that collects on the pad must be 4 drained. This drainage is routed to the southeast yard drain. (b) Utility Building Area Runnff General runoff from this area is routed to the southeast yard drain. (c) Auxiliary Boiler Diesel fuel Oil Tank Retention Area Storm Runoff The auxiliary boiler diesel fuel oil tank is surrounded by a containment structure ethich is designed te retain the entire contents of the tank in case of rupture. Periodically, rainwater which collects inside the containment structure must 1 be drained. This drainage is routed to the southeast yard drainage. (d) Waste Settling Pond. (DSN014) Discharge from the waste settling pond is routed to the southeast yard drainage.

e 9;h (23). East Yard Drainage (DSN025) This drainage receives storm runoff from buildings and yards in the east plant areas as well as equipment cooling water and other ,s non-routine inputs. (a) East Yard Drain The east yard drain is the collection point for all the various-plant _ water inputs to the east yard drainage. 'The inputs are ittmized below:- 1. Tendon Access Gallery Sumo Discharae - Units 1 and 2 This discharge consists primarily of ground water which seeps into the annulus around the containment-buildings. 2. Fire Pump Coolina Water (DSNO34)- The supply for this cooling water is the fire pump discharge header. The discharge is routed to the east yard drain. 3. Central Alarm Station HVAC Coolina Water The sanitary water system provides the cooling water to the-Central Alarm Station HVAC system. The discharge is routed to the cast yard drain. 1 4. Coolina Tower System Overflow - Unit 1 (DSN006) Periodically, due to imbalances or equipment malfunctions in 4 the cooling tower system, some of the system contents will. i overflow the basins and will flow-to the east yard drain. When this occurs immediate action'is initiated to correct the problem. Also, the contents of the system periodically have to be pumped out for maintenance. This volume of water is discharged to the east yard drain. 5. Electrical Cable Tunnel Sumo Discharae There is a concrete underground tunnel which connects the diesel generator building with~the Unit # 1 Auxiliary building. This tunnel provides a path for emergency power i to be supplied to the plant. The sump collects and discharges any ground water which may. collect in the tunnel to the east yard drain. i (b) Miscellaneous Storm Water Drains

y, - L (24) North Central' Yard Drainage (DSN026, DSN027, DSN028) ~ The north central yard drainage collects storm runoff from buildings and 1 yards,in the north central area of the plant as well as plant water inputs on a routine basis. The components of this system are itemized below: i (a) = North Central Yard Drain 1: The north central yard drain consists of three pipes which merge into one common discharge prior to contact with Rock Creek. The ' north. central yard drain collects storm water and the following discharges:' 1. Circulatina Water Pumo Sumo Discharae - Unit 2 i This water is primarily cooling water supplied by the circulating water pump discharge heater. Sanitary water is supplied as a backup. 2. Turbine Buildina Oil Sump - Unit 2 The turbine building oil sump collects small amounts of water in addition to the oil from various equipment. The water is discharged through a portable oil / water separator-to the north central yard drain. (25)- Northwest Yard Drain-(New Point) The northwest yard drain collects runoff from a small part of the y northwest area of the plant and receives the discharge from.the construction air compressor structure. The discharges from the air j compressor structure are listed below. (a) Construction Air Compressor Cooling Water The potable water system provides secondary cooling for the compressed air system. The discharge is routed through an oil / water separator to the northwest yard drain. (Note: Emergency use Only.) (b) Construction Air Compressor Structure Drains U The floor drains from the air compressor structure are routed through an oil / water separator to the northwest yard drain. (26) West Yard Drainage (New Point) The west yard drain collects runoff from the west portion of the plant and the construction garage and routes it to Rock Creek. (a) Construction Carage Wash Area 011/ Water Separator Discharge from the construction garage wash area is discharged { to an oil / water separator. The effluent from the oil / water separator discharges to the west yard drain which discharges to Rock Creek. i - - ~.....

H ui (27) Southwest Yard Drainage u I The southwest yard drainage system provides a discharge path for drainage from the southwest area of the plant, the main parking lot, and the Fire Training Center. (a) Fire Training Area Fuel Oil Storage Area 011/ water Separator .DSN029) ( The oil / water separator removes any oil. which may be combined with rainwater inside the oil storage area berm prior to-discharge. The discharge from this oil water separator is L routed to the southwest yard discharge. i: (b) Fire Training Area Storm Runoff The Fire Training Center is used to provide personnel training in combating fires in various types of plant structures and equipment. The storm runoff from this area is routed to the. southwest yard drainage. ~(c) Hain Parking Lot. Runoff Storm runoff from' the main parking lot is routed to the southwest yard drainage (d) Service Water Structure Sump Discharge - Units 1 and 2 (DSNO31) The service water building sump collects water from valve.and equipment leakages and floor drains in the service water building. This discharge is routed to the southwest yard drainage. (28) Northeast Yard Drainage The northeast yard drainage,provides a discharge path for drainage from the northeast area of the plant. This drainage system receives .no continuous input source (yard drainage only). \\ '(a) Cooling Tower System Overflow (DSN008) Periodically, due to imbalances or equipment malfunctions in the cooling tower system, some of the system contents will overflow the basin and will flow to the northeast yard drainage. When this occurs, immediate action is initiated to correct the n .w.i,.,.w 7- -s.. -r

Q ;5 problem. Also, the contents'of the system periodically have to be pumped out for maintenance. This volume of water is discharged to the northeast-yard drainage. Water _ Tank' Drainage System . (29)_ There' are several tank systems that store water for various plant uses. On occasion, these tanks require drainage for testing or maintenance operations. The tanks in this system are identified below:- -(a) Clarified /Well Water Storage Tank Drainage Drainage from this tank would be routed to the southeast yard drain. (b) Demineralizer. Water Storage Tank Drainage Drainage from these tanks would be routed to the _ southeast yard 4 drain. (c) Condensate Storage Tank Drainage ' Units 1 and 2 Drainage from these tanks would be routed to the east yard drain. (d) Sanitary Water Tank Drainage (Production & Construction) Drainage from these tanks would be routed to the east yard drain (Production) and the northwest yard drain (Construction). (e) ' Fire Protection Tank Drainage Drainage-from these tanks would be routed to the east yard drain. Well-Water System (30) Well Water Pump Flush On-site wells provide groundwater for the sanitary water system, for the fire protection system, and as back-up to the domineralizers. ~ Occasionally, if a well has not been used for a period of time, it must be flushed to produce water of acceptable quality for plant use. (31) Hiscellaneous Valve Boxes - Units 1 and 2 Miscellaneous valve boxes which collect and discharge any rainwater or valve leakoff to the yard drain system are located in various areas of the plant. g a

WATER USE FLOWS .~ A-8 NPDES Averaae Flow Maximum Flow Treatment i Description Outfall # Unit 1 Unit 2 Unit 1 Unit 2 Code ) 1. River Intake-Units 1 & 2 5.6 x'IO7 5.6 x 107 7.0 x 107 7.0 x 107 4A 2. River Water Intake Screen DSN030 4.5 x 104 Combined 1.4 x 105 Combined 4A Backwash 3. River Pumps Miniflow - Unit 1 DSN032 1.44 x 106 2.16 x 106 4A 1.44 x 106 2.16 x 106 4A 4. River Pumps Miniflow - Unit 2 DSN033 5. River Water Bldg. DSN022 8.2 x 104 1.6 x 105 4A A. River Pumps Lube & Cooling Water - Unit 1 9 x 102 9 x 102 4A B. River Pumps Air Comp. Cooling Water - Unit 1 7.2 x 104 7.2 x 104 4A C. River Pumps Lube & Cooling 1.6 x 103 7.9 x 104 4A Water Filter Backwash - Unit 1 6. River Water Building Sump Discharge - Unit 2 DSN023 8.2 x 104 1.6 x 105 4A A. River Pumps Lube & Cooling 9 x.02 9 x.02 4A Water - Unit 2 7.2 X 104 7.2 x 104 4A-B. River Pumps Air Comp. Cooling Water - Unit 2 1.7 x 103 7.9 x 104 4A C. River Pumps Lube & Cooling Water Filter Backwash - Unit 2 oNote: Al' ' lows in gallons per day unless otherwise indir-ted. ..<J a-r

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p t r 4 -ALABAMA' POWER. COMPANY 9' 7 Plant:LFARLEY NUCLEAR PLANT 7 '~ .Loca+,lons ONCE-THROUGH EQUIPMENT COOLING WATER.. UNIT 1 M i n i rn urn Ma x i rnurn Average Standard No. of ~ u

Test Name'

' Units-Values Value-Value .Value Deviat2on -Calor- ~ PCU 1 27. ' 27. 27. p C311 form, Total org/100ml Caliform, Fecal. org/10erni COnductiLvity umhom/cm Corrosivity ' Al k., Total. eng/l Alk., HCO3 -rng/l pH SU 1 6.80 6.80 6.80' ! Al k., CO3 mg/l Alk.,.OH-rng/l ' BOD tag /1 - 1 1. 1. 1. COD mg/l t [ H rdness, Total' rng/l

Oil and Greaso eng/l 1

(

1. 0

< 1. 0 'Opl i d s, Total rng/l Solids, Diss. mg/l Colids,-xTS 'mg/l 1 14. 14. 14. Tcmperature Degrees C 1 26.0 26.0 26.0-Turbidity NTU Total mg/l 1 1'.21

1. 21 1.21

,, - Tot al-rag /l 1 ( O.05 0.05 ( 0.05 A s. Total ing/l 1 0.01' O.01 0.01 55,: Total mg/l 1 0.02 0.02 0.02 B2,. Total 'mg/l 1 ( - 0.10 0.10 ( 0.10 B,' Total mg/l 1 0.03 0.03 0.03 Brorni de - mg/l l' ( 0.20 'O.20 ( 0.20 'Cd,-Total rng/l 1 ( 0.01 0.01 ( 0.01 Cc, Total rag /l J TOC. mg/l 1 5. 5. 5. CO2, Free .mg/l 3 CO2, Total rng / l Chlorine, Total rng/l 6003 ( 0.10 0.70 < 0.10-0.0089-Chloride,. Total rng/l Cr, Total mg/l 1 ( 0.05 0.05 ( 0.05 Co, Total rng / l 1 < 0.01 0.01 ( 0.01-Cu, Total rng/l 1 ( O. 01 0.01 ( 0.01 F 1, Total rnD/1 l' O.03 0.03 0.03 Fo, Total rog/l 1 0.79 0.79 0.79 Pb,' Total rng/l 1 ( 0.01 0.01 ( 0.01 Mg, Total mg/l 1 1.34 1.34 1.34 Mn,oTotal ing/l 1 0.06 0.06 0.06

Hg, Total mg/l 1

( 0.0002 0.0002 ( 0.0002 Mo, Total mg/l 1 < 0.01 0.01 ( 0.01 .Ni, Total eng / l 1 t 0.01 0.01 ( 0.01 <N mg/l 1 0.38 0.38 0.38 l 1 l

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i ALABAMA POWER COMPANY Planta FARI.EY NUCLEAR PLANT I L oca't i on : ONCE THROUGH EQU1PMENT CDOLING WATER. UNIT 2 No. of Mi nianum Maximum Average Standard l Name Units Values Value Value Value Deviation Test j C;1er PCU 1 26. 26. 26. l Coliform, Total org/100ml Co11 form, Fecal org/100ml Conductivity umhos/cm Corrosivity ' C1k.,' Total rag /1 ' C1 k., HCO3 eng/l I pH SU 2 6.33 6.70 6.52 0.2616 01k., CD3 mg/l f C1 k., OH ng/l DDD ~ mg/l 1 2. 2. 2. CDD mg/l H;rdness, Total mg/l Oil and Grease eng/1 1 (

1. 0

(

1. 0 Cclids, Total mg/l Calids, Diss.

mg/l Colids, TS eng/l 1 10. 10. l e. Temperature Degrees C 1 22.0 22.0 22.0 Turbidity NTU Total mg/l 1 1.27 1.27 1.27 Total mg/l 1 ( 0.05 0.05 ( 0.05 CO, Total mg/l 1 ( 0.01

0. 01

( 0.01 [ .Ca, Total rng/l 1 0.02 0.02 0.02 Co, Total mg/l 1 ( 0.10

e. 2 0

( e. 2 0 O, Total mg/l 1 0.03 0.03 0.03 Batmide mg/l 1 ( O.20 0.20 ( O.20 [ C2, Total rag /l 1 ( 0.01 0.01 < 0.01 r Cc, Total rag /l PDC' eng/l 1 5. 5. 5. CO2, Free mg/l CO2,. Total ing/l } Chlorine, Total mg/l 5683 ( 0.10 0.40 ( 0.10 0.0055 Chloride, Total rng/l Cr, Total mg/l 1 ( 0.05 0.05 ( 0.05 Co, Total mg/l 1 t 0.01 0.01 ( 0.01 Cu, Total eng/l 1 < 0.01

0. 01

( 0. 01 F 1, Total mg/l 1 0.05 0.05 0.05 FC, Total mg/l 1 0.85 0.85 0.85 P2,' Total mg/l 1 < 0.01 0.01 ( 0.01 ~ Mg, Total eng/l 1 1.36 1.36 1.36 Mn, Total: mg/l 1 0.06 0.06 0.06 r Hg, Total mg/l 1 ( 0.0002 0.0002 ( 0.0002 M3, Total mg/l 1 ( 0.01 0.01 ( 0.01 Ni, Total mg/l 1 ( O. 01

0. 01

( 0.01

MN mg/l 1

0.60 0.60 0.60

I ALADAMA POWER COMPANY L Planta FARLEY NUCLEAR PLANT ~ Locations ONCE THROUGH Et>UIPMENT COOLING WATER, UNIT 2 No. of Mi ni murn Maximum Average Standard Test Name Units Values Value Value Value Deviation rag /l 1 0.032 0.032 0.032 N, Arnmonia N, Nitrate rag /l 1 0.20 0.20 0.20 N, Nitrite ing/l 1 ( 0.005 0.005 ( 0.005 TON rng/l 1

0. 6

0. 6 I

N, Nitrate (LL) eng/l N, Nitrite (LL) mg/l P. Total-tag /l 1 0.047 0.047 0.047 Crtho Phosphate ing/l CC, Total rag /l 1 ( 0.05 0.05 ( 0.05 Cg, Total og/l 1 ( 0.01 0.01 ( 0.01 N, Total rag /l l Culfate ing/l T1, Total eng/l 1 ( 0.10 0.10 ( 0.10 T 1, Total tog /l 1 ( 0.01 0.01 ( 0.01 T 1, Total .ng/l 1 ( 0.01

0. 01

( 0.01 V, Total eng/l l Z n, Total mg/l 1 0.02 0.02 0.02 1 5 9 L h

m ALABAMA POWER COMPANY Plants.FARLEY NUCLEAR PLANT Location MAIN DISCHARGE SURGF. TANK, UNIT 1 i No. of Mi ni murn Ma ximurn Average Standard I L Test Name-Units Values Value Value Value Deviation l _ Color PCU 1 33. 33. 33. C;11 form, Total org/100ml C liform, Fecal org/10ern! L: C;nductivity urnhos/ern C rrosivity C1 k., Total eng/l 'Q1k., HCD3 rog/l t pH SU 225 6.30 8.92 7.39 0.3440 C1 k., CO3 mg/l C1k., OH mg/l BOD mg/l 1 2. 2. 2. CID _. eng / l } 'H;rdness, Total mg/l l Oil and Grease mg/l 1 (

1. 0

(

1. 0 Colids, Total eng/l Colids. Diss.

mg/l 0311ds, TS mg/l 1 8. 8. 8. Tcmperature Degrees C 225 10.0 45.0 23.4 6.5953 Turbidity NTU ,_ Total rag /l 1 1.55 1.55 1.55 Total mg/l 1 ( O.05 0.05 ( 0.05 f CO, Total ing/l 1 ( 0.01 0.01 ( 0.01 f O2, Total mg/l 1 0.03 0.03 0.03 Se, Total rng/l 1 ( 0.10 0.10 ( 0.10 O, Total rng/l 1 0.17 0.17 0.17 Crornide eng/l 1 ( 0.20 0.20 ( 0.20 CO, Total eng/l 1 ( 0.01 0.01 ( 0.01 CO, Total rng/l TOC rng/l 1 6. 6. 6. l CO2, Free mg/l CO2, Total rng / l Chlorine, Total rng/l 1328 ( 0. 01 0.64 ( 0.23 0.0849 i Chloride,cTotal mg/l Cr, Total rag /l 1 ( 0.05 0.05 f 0.05 CO, Total rag /l 1 ( 0.01 0.01 ( 0.01 i C u, Total eng/l 1 0.01 0.01 0.01 F 1, Total ing/l 1 0.03 0.03 0.03 FO, Total rag /l 1 0.97 0.97 0.97 Pb, Total mg/l 1 ( 0.01 0.01 ( 0.01 Mg, Total rng/l 1 1.78 1.78 1.78 Mn, Total ing / l 1 0.07 0.07 0.07 Hg, Total ing/l 1 ( 0.0002 0.0002 ( 0.0002 Mo, Total eng / l 1 0.01 0.01 0.01 i Ni, Total mg/l 1 ( 0.01 0.01 ( 0. 01 ~"N rng /l 1 0.46 0.46 0.46 i

LLfj Fs u Z V T T T C N C C O,P,N,N T,N,N,N ,n, 1 1,1 u,2,g C r O 1 l , t N T f hTNN. NNA T ToTTTaTTTooii ii me otoootooo ttt tt n s LP e tatttettt Parr rro t ol al aaa aaahl ia ian-ca l lll lll o 'tt tti N an. s ee eea a tt p m i e o h ( ( a LL nF t LL A s e ) ) R ML m' m n n ut mr m AE s i t t r t e i e r r n o i a o n n n n ggggggggggggg0ggg Y. ) / / / / / //////////// N l l l llll lllllll lll U N - n DU i I C t SL - s CE HA AR - VN R - ao GP EL - l. - u A A 1 1 1 1 1 1 1 1 1 1 1 - eo SN L - sf U T. A R B G A M E M ( ( ( ( ( ( - Vi A 0 0 0- an T A P 0 0 00 00 0 - li 1 00 0 ua N O n 0 001 00 2 032-eu ,K W E 3 1 1 0 1 5 0 4527 - n t R UN C M I O - Va T M 0 0 0 ax PA 000 0 000 00 - l t 1 0 ur N 1 n 0 001 00 2 032 eu Y 3 1 1 0 1 5 0 4527 - n r ( A ( ( ( ( ( - Vv 0 0 0- ae 000 - l r 0 000 00 0 ua 1 0 001 00 2 032-eg 3 1 1 0 1 5 0 4527 - e - D - eS - vt

i a

- an - td - ia - or - nd

I ALABAMA POWER COMPANY Plant: FARLEY NUCLEAR PLANT Location MAIN DISCHARGE SURGE TANK, UNIT 2 No. of Mi r.1 mum Ma x i murn Average. Standard Test Name Units Values Value Value Value Deviation Chlor. PCU 1 24. 24, 24. Coliform,. Total org/10erni C;11fortn, Fecal org/100ml C:nduct ivi t y umnos/em C;rrosivi t y C1k., Total-tag /l Q1 k., HCO3 mg/l i pH SU 225 6.35 8.69 7.34 0.3567 01 k., CO3 rog/l Al k., OH rng /l COD mg/l 1 1. 1. 1. CDD mg/l H rdness,- Total rng/l Oil and Grease mg/l 1 (

1. 0

(

1. 0

+ C311ds, Total mg/l C311ds, Diss. rng/l i Solids, TS mg/l 1 ( 1. 1. ( 1. 1 Traperat ure Degrees C 234 10.0 36.0 23.8 6.4993 Turbi d i t y - NTU Total rag /1 1 1.09 1.09 1.09 a, Total mg/l 1 ( 0.05 0.05 ( 0.05 CO, Total mg/l 1 ( 0.01 0.01 ( 0.01 CO, Total mg/l 1 0.02 0.02 0.02 s 00, Tot al mg/l 1 ( 0.10 0.10 ( 0.10 < C, Tot al eng/1 1 0.23 0.03 0.03 -l Cromide rog/l 2 ( 0.20 O.20 ( 0.20 Cd, Total rnD/1 1 ( 0.01 0.01 ( 0.01 C2, Total eng/l . TOC mg/l 1 6. 6. 6. ~ CO2, Free mg/l CO2, Tot al mg/l Chlori ne, Total mg/l 2003 ( 0. 01 1.65 ( 0.22 0.0955 Chloride, Total rng/l Cr, Tot a l _ rng / l 1 ( 0.05 0.05 ( 0.05 Co, Total mg/l 1 ( 0.01 0.01 ( 0.01 Cu, Total mg/l 1 0.01 0.01 0.01 F1, Total rng/l 1 0.03 0.03 0.03 FC, Total eng/1 1 0.66 0.66 0.66 Pb, Total mg/l 1 0.01 0.01 0.01 Mg, Total eng/1 1 1.39 1.39 1.39 Mn, Total mg/l 1 0.05 0.05 0.05 Hg, Total mg/l 1 ( 0.0002 0.0002 ( 0.0002 Mo, Tot al mg/l 1 ( 0.01 0.01 ( 0.01 Ni, Total mg/l 1 ( 0.01 0.01 ( 0.01 ~ N _ mg/1 1 9.52 0.52 0.52

F .l Z V T T T C N A S C,P,N,f T,N,N,N J O ,n, 1,1,i u,a g er l , t t N ,T f hTNN NNA_T ToTTTaTTTooi{ iim_e tt m_ LP otoootooo ttt rro.s ol ian.t t atttetttParr ca al aaa aaahli a eea_N tti an l lll l l l o tt tt .a s ee m ia p e o h ( ( a LL nF t LL A ) ) R e ML mr n mme n n n mmmr mmim AE r e r r n n n n ggggggggggggggggg I Y / //////////////// N l l lllllll lll l ll ll - U N - n DU - i I C SL .ts CE HA AR - VN R l.o GP a EL -- u A A 1 1 1 1 1 1 1 1 1 1 1 - eo SN L - sf UT A R B G A M E M 0 __ V i A < ( ( ( an T 0 0 li A P 0 000 00 0 0_ N O 0 00022_um 5550_eu ,K W 0 001 00 4 m E 2 1 1 0 1 5 5 R a UN C ~ M I O . Va T M 0 0 0.ax P . li 2 A 000 0 000 00 0. N 022.um 0 Y 5550_eu 0 001 00 4 m 2 1 1 0 1 5 5 A 0.Vv ( ( ( ( ae 0 0 000 . lr 0 000 00 0_ 0 022 ua n eg 0 001 00 4 2 1 1 0 1 5 5 5550-e _ D _ eS _ vt _ ia _ an _ td _ ia _ or _ nd

t l ALABAMA POWER COMPANY c Planta FARLEY NUCLEAR PLANT . Lccat ion s CDDLING TOWER BLOWDOWN - UNIT 1 No. of Mi ni murn Maxirnum Average Standard l Test Narne Units Values Value Value Value Deviation l C31or PCU 1 210. 210. 210. CD11 form, Total org/100ml Cal i f oran, Fecal org/100rel C nductivity urnhos/ ctn Corrosivity ' Ol k., Total rag / l lAlk., HCO3 rag /l CH. SU 1 8.80 8.80 8.80 l oC1 k., CO3 mg/l 01k., OH rng /l BOD rag /l 1 3. 3. 3. COD tag / l H;rdness, Total eng/l Dil and Grease mg/l 1 (

1. 0

(

1. 0 Solids, Total ing/l 5311 d s, Diss.

ing/l Solids, TS rng/l 1 123. 123. 123. Tcmperature Degrees C 1 29.5 29.5 29.5 K ' Turbidity NTU Total rng/l 1 22.55 22.55 22.55 y' Total rng / l 1 0.24 0.24 0.24 Cn, Total eng/l 1

0. 0G 0.06 0.06

. BO, Total mg/l 1 0.31 -0.31 0.31 D3,- Total rng/l 1 ( 0.10 0.10 < 0.10 . C, Total' rng/l 1 0.63 0.63 0.63 Brornido mg/l 1 ( 0.20 0.20 ( 0.20 C'j, Total mg'/1 1 ( 0.01 0.01 ( 0.01 Co, Total mg/l TOC mg/l 1 50. 50. 50. CO2, Free eng / l CO2, Total ang/l l Chlorine, Total rng/l 884 ( 0.10 0.22 ( 0.10 0.0306. Chloride, Total rng/l C r, Total ing/l 40 ( 0.05 0.05 ( 0.05 0.0000 Co, Total rag /l 1 ( 0.01 0.01 ( 0.01 Cu, Total rng/l 1 0.07 0.07 0.07 F 1, Total ing/l 1 1.32 1.32 1.32 FC, Total rag /l 1 12.28 12.28 12.28 Pb, Total rag /l 1 0.05 0.05 0.05 Mg, Total rng/l 1 19.04 19.04 19.04 Mn, Total mg/l 1 0.72 0.72 0.72 Hg, Total rng/l 1 ( 0.0002 0.0002 ( 0.0002 Mo,- Total-mg/l 1 0.03 0.03 0.03 3 Ni, Total rag /l 1 0.02 0.02 0.02 ~"N rng/ l 1 6.70 6.70 6.70 l<-

N r.- r s ALABAMA POWER COMPANY n Planta FARLEY NUCLEAR PLANT Location: CDDLING TOWER BLOWDOWN - UNIT 1 t-No. of Mi ni anurn Ma x i rnum Average Standard . Test Narne Units Values Value Value Value Deviation i N,LAmmonia ing/l 1 0.102 0.102 0.102 N, Nitrate eng/l 1 5.13 5.13 5.13 N,' Nitrite rng/l 1 0.011 0.011 0.011 r. TON mg/l 1

6. 6

6. 6 N,

Nitrate (LL).rng/l N, Nitrite (LL) eng/l P, Total mg/l 1 5.264 5.264 5.264 Crtho Phosphate mg/l Co, Total eng/l 1 0.09 0.09 0.09 Cg, Total mg/l 1 ( 0.01 0.01 ( 0.01 N2, Total eng/l Culfate mg/l i Ti,_ Total mg/l 1 1.00 1.00 1.00 T1, Total mg/l 1 0.16 0.16 0.16 .T1, Total rag /l 1 0.05 0.05 0.05 V, Total ing/l -2n,-Total rag /l 40 0.02 0.68 0.39 0.1743 i W 9 i .J ) i l-l 1

$~ r i e ALABAMA POWER COMPANY i I Plant FARLEY NUCLEAR PLANT. Locations. COOLING TOWER OVERFLOW - UNIT 1 'l ] No. of Mi ni rnum Ma x i rnurn Average Standard. Test Name Units Values Value Value Value Deviation Color PCU ~ Coliform, Total org/10ern1 C311 form, Feest org/ 2 0erna C;nductivity. urnhos/crn i li Corrosivity-h1'.C14., HCO3 rag /l 01k., Total mg/l pH SU C1k., CO3 mg/l i 'C1k., OH mg/l BOD rng/l CDD eng/l H:rdness, Tot al. ing/l C111and Grease eng/l C311 ds, Total mg/l C011ds,'Diss. eng/l C2 lids, Ts mg/l Tcmperature Degrees C Turbidity NTU .l Tot a'l inD/1 i s, Total eng/l CO,. Tot al. eng/l iBa, Total rog/1 Be, Total mg/l C, Total ing/l

Cromide mg/l

~ C+J, Total eng/l CO, Total mg/1. ' TOC mg/l CO2, Free mg/l l - CO2, Total mg/l Chlorine, Total mg/l 45 ( 0.10 0.10 < 0.10 0.0000 Chloride,-Total mg/l C r, Total mg/l 5 ( 0.05 0.05 ( 0.05 0.0000 C3, Total mg/l Cu, Total eng/l F1,: Total mg/l FC, Total mg/l Pb, Total rng/l 'Mg,' Total ing/l Mn,. Total mg/l Hg, Total mg/l M, Total mg/l Ni, Total eng/l ""N mg/l i l' L

(.. ALABAMA POWER COMPANY f Plants FARLEY NUCLEAR PLANT Locations - CDDLING TOWEP DVERFLOW - UNIT 1 I No. of Minimurn Ma x i anuen Average Standard . Test Naine ' Units Values Value Value Value Deviation - N, Ammonia eng/l ( ' N, Nitrate rag /l r N, Nitrite 'mg/l TON-sn g /1. N, Nitrate'(LL) ang/l l N, Nitrite (LL) mg/l P, Total mg/l f Detho' Phosphate rag /l S, Tot al rag /1 [ Cg, Total mg/l 4 N,_ Total rag /l 7 Oulfate ang/l j t ,Ti, Total _ rng/l -i - T1, Total eng/l . T1, Total eng/l i V, Total rag /l + l2n, Total mg/l 7 0.22 0.63 0.43 0.1498 i + t f 1 i l ~ ... ~..

t ~ p ALABAMA POWER COMPANY Plants FARLEY NUCLEAR PLANT Locations COOLING TOWER BLOWDOWN - UNIT 2 No. of Mi ni rnurn Maximum Average Standard ' Test Name Units Values Value Value Value Deviation Color' PCU 1 100. 100. 100. Caliform, Total org/100rn1 C311 form, Fecal org/10ern! L C:nductivity umhos/em L Corrosivity Ol k., Total eng/l C1k., HCO3 rng/l r g pH SU 1 5.76 5.76 5.76 .01k., CO3 rng/l o Olk., OH rng /l E CDD rng/l CDD rag /l 1 86. 86. 86. H H;rdness, Total mg/l 011 and Grease rng/l 1 (

1. 0

(

1. 0

,C311ds, Total rag /l Colids, Diss. tag /l Calide. TS rag / l 1 124. 124. 124. Temperature Degrees C Turbidity NTU , Total mg/l 1 13.22 13.22 13.22 s, Total rng/l 1 0.20 0.20 0.20 .Ac, Total eng/l 1 0.04 0.04 0.04 Oc, Total mg/l 1 0.26 0.26 0.26 Ca, Total mg/l 1 ( O.10 0.10 ( 0.10 0,. Total rng/l 1 0.41 0.41 0.41 Cr:mide rng/l 1 ( 0.20 0.20 ( 0.20 Cd, Total mg/l 1 ( 0.01 0.01 ( 0.01 'Cc,. Total mg/l 40. 40. 40. TOC ~ mg/l 1 CO2, Free rag / l CO2, Total mg/l Chlorine, Total rng/l 1222 ( 0.10 0.22 ( 0.10 0.0272 Chloride, Total rng/l Cr, Total mg/l 39 ( 0.05 0.13 ( 0.06 0.0173 C3, Total rng / l 1 < 0.01 0.01 ( 0.01 Cu, Total rng/l 1 0.07 0.07 0.07 F 1, Total rng/l 1 0.77 0.77 0.77 FC, Total mg/l 1 6.81 6.81 6.81 Pb, Total rng/l 1 0.03 0.03 0.03 Mg, Total rag /l 1 17.35 17.35 17.35 Mn, Total ing/l 1 0.63 0.63 0.63 Hg, Total mg/l 1 ( 0.0002 0.0002 ( 0.0002 Ma, Total mg/l 1 0.02 0.02 0.02 Ni, Total mg/l 1 0.01 0.01 0.01 ~'<N rng/l 1 3.06 3.06 3.06 \\ L

t F i ALABAMA POWER COMPANY f Planta FARLEY NUCLEAR PLANT Locations COOLING TOWER BLOWDOWN - UNIT 2 No. of Mi ni rnurn Maxirnurn Average Standard L Test Namt Units Values Value Value Value Deviation . N, Ammonia ing/l 1 0.074 0.074_ 0.074 l N,' Nitrate eng/l 1 1.41 1.41 1.41 .l N, Nitrite mg/l 1 0.009 0.009 0.009 TON mg/l 1

3. 0

3. 0 l

N, Nitrite (LL). mg/l l N, Nitrate (LL) mg/l j P, Total rng/l 1 3.496 3.496 3.496 LCrtho Phosphate eng/l 'CO, Total rag /l 1 0.09 0.09 0.09 Og, Total mg/l 1 ( 0.01 0.01 ( 0.01 N 2, Total mg/l Culfate eng/l Ti, Total mg/l 1 0.59 0.59 0.59 T 1, Total mg/l 1 0.11 0.11 0.11 i T1, Total-mg/l 3 ( 0.07 0.10 ( 0.09 0.0173 V, Total, mg/l Z n, Total mg/l 39 0.04 0.70 0.44 0.1719 l L i I ) L ,n-- m-- n , -,, +

m l l ? ALABAMA POWER COMPANY { Planta FARLEY NUC:. EAR PLANT Locations COOLING TOWER OVERFLOW - UNIT 2 li ' No. of Minimum Maximum Average Standard i Test Name Units Values Value Value Value Deviation [ , C21er, PCU Coliform, Total org/100ml C?11 form, Fecal org/100ml l Conductivity umhos/cm Ctreosivity l F - C1 k., Total rag /l Alk., HCO3 mg/l pH. SU 01k., CO3 mg/l l C1 k., OH mg/l DOD-rag /l

1 COD mg/l

=H;rdness, Total mg/1-011 and Grease-rng/l C311ds, Total rng/l C311 d s, Diss. rag /l Calids, TS rng/l [ Tcaperature-Degrees C Turbidity NTU ,. Total mg/l s, Total-mg/l ' C2, Total mg/l B2, Total rag /l Be, Total mg/l B, Total mg/l i Cromide rng/l Cd, Total rng/l Co, Total mg/l TOC - mg/l CO2, Free .mg/l CO2, Total mg/l . Chlorine, Total-mg/l 19 ( 0.10 0.10 ( 0.10 0.0000 Chloride, Total mg/l Cr, Total. mg/l 8 < 0.05 0.05 ( 0.05 0.0000 f Co, Total ' rng/l Cu,. Total eng/l j F1, Total mg/l - FC, Total rng/l Pb, Total mg/l Mg, Total mg/l Mn, Total rag /l Hg, Total mg/l Ma, Total mg/l Ni, Total mg/l ) ""N~ mg/l l l

9:- l; t ALABAMA POWER COMPANY f' Planta FARLEY NUCLEAR PLANT Locations CDDLING TOWER DVERFLOW - UNIT 2 l No. of Mi ni murn Ma x i murn Average. Standard i Test 64ame Unita Values Value Value Value Deviation t p. N,, Ammonia mg/l N,' Nitrate mg/l N, Nitrite rag /l N,. Nitrate (LL) ~ mg/l TON rng/l N, Nitrite-(LL) ang/l i P, Totel' mg/l + [ Crtho Phosphate ing/l L< 'Se, Total rng/l Cg, Total mg/l -N2,. Total eng/l Culfate ang/l T1, Total ing/l T 1, Total rag /l T 1,.. Tot a l ' rng/l V,.' Tot al ing/l Zn,. Total mg/l 9 0.32 0.62 0.52 0.1572 m i k t a f I 1 l l 1 l-l

{ ALABAMA POWER COMPANY Planta FARLEY NUCLEAR PLANT l' Location: MAIN SEWAGE TREATMENT PLANT 1 No. of Minirnum Max i rnurn Average Standard Test Navne Units Values Value Value Value Deviation Calor' PCU 1 2. 2. 2. C;11 form,- Total org/200n1 -C;1Aform, Fecal org/100ml 226 ( 1. 9999. ( 77. 713.7908 l' -Conductivity urnhos /crn C rrosivity l C1 k., Total-rng /1 - C1k.,-HCO3 rng/l pH SU 233 5.05 7.74 6.69 0.3532 - C1 k., CO3 mg/l C1k., OH rag /l COD mg/l 221 0. 370. 9. 28.6261 CDD tag /l H:rdness, Total rag /l i 011 and Grease mg/l 1 (

1. 0

(

1. 0 Calids, Total eng/l Colids, Diss.

rng/l 'Bolids, TS mg/l 229 ( 1. 4450. ( 48. 306.9256 ' Temperature Degrees C 1 24.0 24.0 24.0 Turbidity FJTU ,-Total ing/l s, Total rag /l C3, Total mg/l B3, Total rag / l H33, Total mg/l B, Total rag /l Crornide rog/l 1 ( 0.20 0.20 ( 0.20 Cd, Total mg/l Co, Total mg/l ' TOC mg/l 47 3. 113. 16. 16.3346 C23, Free mg/l CO2, Total rag /l Chlorine, Total rag /l 8 ( 0.01 22.00 ( 2.83 7.7474 Chloride, Total rag /l Cr, Total rng/l CO, Total mg/l Cu,' Total rng /l F1,_ Total mg/l 1 0.17 0.17 0.17 Fa, Total mg/l = Pb, Total mg/l Mg, Total rag /l Mn,. Total mg/l Hg, Total mg/l M P, Total mg/l Ni, Total mg/l "MN mg/l 1 1.67 1.67 1.67

P- ) ) ALABAMA POWER COMPANY Plants FARLEY NUCLEAR PLANT Location MAIN SEWAGE TREATMENT PLANT 1 No. of Mi ni murn Maximum Average Standard I Test Name Units Values Value Value Value Deviation i N, Ammonia mg/l 1 0.053 0.053 0.053 N, Nitrate mg/l 1 48.11 -48.11 48.11 N,'. Nitrite mg/l 1 ( 0.005-0.005 ( 0.005 TON rng/l 1

1. 6

1. 6 HN, Nitrate (LL) mg/l N,

Nitrite (LL) rng/l P,. Total mg/l 1 5.837 5.837 5.837 Crtho Phosphate eng/l 00, Total mg/l Cg, Total mg/l NO, Total mg/l Culfate eng/l Ti, Total mg/l T1,. Total mg/l T1, Total mg/l i V, Total mg/l In, Total mg/l l l l

i ? L ALABAMA POWER COMPANY a i Planta FARLEY NUCLEAR PLANT Location: SEWAGE TREATMENT PLANT 24 No. of Mi ni murn Maximum Average Standard Test Name Units Values Value Value Value Deviation Color PCU Caliform, Total org /100rn! j C;11 form, Fecal org/100rn1 13 ( 2. 3430. ( 279. 947.9552 C nductivity umhos/ctn 13 400. 1460.-

638, 262.4903 C:rrosivity G1 k., Total rng/l 01 k., HCO3 mg/l pH SU 58 6.03 8.40 7.18 0.5060 C1 k., CO3 ing/l Ol k., OH mg/l

} -COD rag /l 16 2. 10. 5. 2.4187 COD rng/l Hardness, Total mg/l Oil and Grease rng/l Colids, Total rng/l Calids, Diss. rng / l Calids, TS mg/l 16 ( 1. 61. ( 11. 16.4082 Tcmperature Degrees C 13

8. 9 27.0 19.9 6.1967 Turbidity NTU Total mg/l i

s, Total mg/l A3, Total mg/l CO, Total eng/l RDO, Total mg/l B, Total ing/l Cromide rng/l i L Cd, Total ing/l CO,-Yotal rng/l TOC rag / l 12 2. 39. 10. 10.4301 CO2, Free mg/l CO2, Total mg/l Chlorine, Total mg/l 16 ( 0.01 17.00 ( 2.76 4.7185 Chloride, Total mg/l Cr,_ Total rag /l Co, Total rag /l Cu, Total mg/l F1,-Total mg/l FC, Total rag /l Pb, Total ing/l Mg, Total mg/l Mn, Total-mg/l Hg, Total mg/l M3,_ Total ang/) N 1, Total rng/l ~'<N mg/l

p-t ALABAMA POWER COMPANY Planta FARLEY NUCLEAR PLANT Locations SEWAGE TREATMENT PLANT 2A No. of Minimum Ma x i enuta Average Standard Test Name Units Values Value Value Value Deviation N, Ammonia eng/l N, Nitrate. Ing/l N, Nitrite mg/l TON ng/l f N, Nitrate (LL) eng/l N, Nitrite'(LL) mg/l P. Total mg/l Cetho Phosphate eng/l Se, Total' rog/l Cg, Total eng/l .N2,-Total rag /l Culfate rag /l T1, Total eng/l T1, Total eng/l T1, Total mg/l ,[ V, Total rag /l 2 n, Total mg/l I' I l 5 e r l-t

i ALABAMA POWER COMPANY i k Plants FARLEY NUCLEAR PLANT Locations. SEWAGE TREATMENT PLANT 2B No. of Minimum Ma x i murn Average Standard 3 Test Name Units Values V,alue Value Value Deviation i 3 Color PCU 1 2. 2. 2. C;1Aform, Total org/10ern1 t Co11 form, Fecal org/200ml 55 ( 1. 9999. ( 246. 1370.9611 Cemduct i vi t y urnhos/ era 53 230. 11200. 919. 1468.8062 7 Corrosivity C1 k., Total mg/l l 01k., HCO3 ing/l pH~ SU 283 4.85 8.73 7.06 0.6411 C1k., CO3 ing/l f C1k., OH rng / l BOD tag /l 55 1. 103. 10. 17.5469 COD rng/1-H rdness, Total mg/l Diluand Grease eng/l 1 (

1. 0

(

1. 0 l

C311ds, Total ing/l C lids, Diss. ang /l Calids, TS rag /l 56 ( 1. 46. < 7. 9.7103 i TCzperature Degrees C 33 11.4 28.0 21.1 5.2127 l Turbidity NTU Total rng/l s, Total rng/l l A3,. Total rng/l 00, Tot al mg/l CD, Total ing/l B, Total mg/l Br:rnide mg/l 1 < 0. 20 0.20 ( 0.00 i Cd, Total rag /l CO, Total mg/l TOC rng/l 45 3. 36. 15. 7.9257 CO2, Fr'ee mg/l e CO2, Total eng/l -Chlorine, Total tag /l 32 ( 0.10 24.00 ( 2.99 4.8203 Chloride, Total rag /l Cr, Total rag /l CO, Total rng/l Cu, Total mg/l F1, Total rag /l 1 1.09 1.09 1.03 FC, Total rag /l P3,, Total rag /l Mg, Total rag /l i Mn, Total eng/l Hg, Total ing/l M 2, Total rng/l N 1, Total rag /1

MN' rng/l 1

0.94 0.94 0.94 l I

n e t I ALABAMA POWER COMPANY i Plants FARLEY NUCLEAR PLANT Location SEWAGE TREATMENT PLANT EB f a No. of Mi ni teurn Ma x i rnurn Average Standard Test Name Units Values Value Value Value Deviation 7 N, Ammonia ing/l 1 0.006 0.006 0.006 N, Nitrate eng/l 1 45.97 45.97 45.97 "N, Nitrito ing/l 1 0.033 0.033 0.033 TON rng/l 1

0. 9

0. 9 HN, Nitrate (LL) eng/l L'

N, Nitrite (LL) mg/l P, Total mg/l 1 11.693 11.693 11.693 o Ortho-Phosphat e tog /l ( CC. Total eng/l Cg, Total mg/l N2, Total rng/l l Culfate ing/l T1, Total eng/l T 1, Total eng/l - T 1, Total eng/l Vr Total-tog /l Z n, Total eng/l { i i i h l. l 1 s

i l 4 i i ALABAMA POWER COMPANY Plants FARLEY NUCLEAR PLANT Location METAL CLEANING WASTES r No. of Mi ni.wurn Ma x i rnum Average ' Standard Test,Name Units Values Value Value Value Deviation j-Color PCU C:liform, Total org/10erni L Co11 form, Fecal org/leern! Conductivity utnhos /crn l [ Corrosivity o C1 k., Total rag /l C1k...HCO3-ing/l pH SU j C1 k., CO3 mg/l i C1k., OH mg/l ' BOD rnn /1 COD mg/l i Hardness, Total eng /l l Cil arid Grease mg/1. i C011ds,. Total ing/l Solids, Diss. rng/l + Solids, TS rng/l Temperature Degrees C Turbidity NTU , Total eng/l s, Total rng / l C2, Total rag /l C3 Total eng/l Be,> Total eng/l C, Total mg/l _ Cromide mg/l C3, Total ang/l CO, Total ing/l TOC rng/l C02, Free mg/l CO2,-Total. mg/l Chlorine, Total rag /l Chloride,-Total ing/l Cr, Total' rng /l C3,-Total eng/l Cu, Total ing/l F1, Total rng/l - FO, Total mg/l Pb, Total eng/l Mg, Total mg/l Mn, Total rng/l

Hg, Total rng/l

' M 2, Total 99 /1 Ni, Total ing 1 ~MN rng/l

3-, ALABAMA POWER COMPANY Planti FARLEY NUCLEAR PLANT l l-Location: METAL CLEANING WASTES [ t No. of Mi ni anum Ma x irnurn Average Standard Test Name Units Values Value Value Value Deviation N, Ammonia ang/l N, Nitrate ang/l e . lf. Nitrite ing/l [ itN mg/l N, Nitrate (LL) ang/l N, Nit rite - (LL) rng/l ~ P, Total rng/1 Crtho Phosphate ing/l l Se,, Total ing/l Cg,= Total rng/l Na, Total. ' eng/1 - Sulfate rng/l T 1, Total tng/l T 1, Total rag /l T 1, Total ing/l V,' Total ing/l Zn,. Total rag / l .t P s l l' l 5 l 1 I-

ry - q h;. IX ll-ALABAMA POWER COMPANY e Plants FARLEY NUCLEAR PLANT Location TREATED CHROMATE BEARING WASTEWATER i No. of Minirnutn Maxirnurn Average Standard l C Test Name Units Values Value Value Value Deviation l Color PCU { C311 form, Total org/10erni CD11 f orrn, Fecal org/teeral 1 Conductivity umhos/cro C;rrosivity Olk., Total eng/l Olk., HCO3 rng/l pH SU C1 k., CO3 mg/l ' C1 k., OH rng/l i BOD eng/l CDD rng /l H;rdness, Tot al eng/l Cil and Grease ang/l Calids. Total eng/l Calids, Diss. ang/l Col i ds, Ts mg/3' Tcmperature Degrees C Turbidity NTU Total mg/l s, Total mg/l CO, Total reg /l Co,' Total rng/l 00, Total rag /l B,-Total rng/l Crornide rag /l Cd, Total rng/l C3, Total eng/l TOC mg/l CO2, Free tag /l CO2, Total rng/l Chlorine, Total rng/l Chloride, Total mg/l Cr, Total mg/l C3, Total mg/l ' Cu, Total rag / l F1,' Total ing/l FC, Total mg/l Pb,_ Total mg/l Mg, Total mg/l Mn, Total rng/l Hg, Total eng/l Mo, Total rng/l Ni, Total mg/l j ~%N rng /1 r

?_. ' o' a ALABAMA POWER COMPANY Planta FARLEY NUCLEAR PLANT j. Location: TREATED CHROMATE PEARING WASTEWATER i L 1 l' . Name Units Values Value Value Value Deviation No. of Mi nirnurn Ma x i rnurn Average Standard i ^ Test f l N, Ammonia rag /l N, Nitrate ing/l N, Nitrite mg/l h TON rng/1 i i N, Nitrate (LL) rag /l N, Nitrite (LL) rng /l I [ P, Total. vng/l Crtho Phosphate vog/1 + F Be,JTotal rng/l l Cg, Total rag /l N, Total eng/l Culfate ing/l ' T 1, Total. ing/l E T 1, Total eng/l T1, Total rng/l V, Total eng/l Z n, Total mg/l !i a I r I 9

g s t V t ALABAMA POWER COMPANY f i Plants FARLEY NUCLEAR PLANT Locations WASTE SETTLING POND + i-No. of Mi ni rnurn Ma x i rnurn Average Standard . Test'Name Units Valuen Value Value Value Deviation Color .PCU 1 4 4 4. C;11 form, Total org/10ern1 l' (Col i f oran, Fecal org/100ml Conductivity umhos/cm-l N Corrosivity C1k., Total mg/1 ( C1k..HCO3 eng/l LpH SU 227 6.15 10.74 7.65 0.7215 i C1k.,.CO3 eng/l C1k., OH rng/l -BOD eng/l 1 2. 2. 2. CID eng/l l H:rdness, Total rag /l Oil.and Grease rog/l 60 < 1. 0

4. 2

(

1. 2 0.5016

Colids, Total mg/l

.C: lids, Diss. eng/l Solids, TS eng/l 58 t 1. 17. ( 3. 3.2359 TCcperature Degrees C 2 30.0 34.0 32.0 2.8284 Turbidity NTU Total ing/l a, Total mg/l CO, Total mg/l Dc, Total eng/l - Co, Total mg/l C, Total mg/1 Br:mide rag /l 1 ( 0.20 0.20 ( 0.20 Cd, Total rag / l Co, Total mg/1 TOC mg/l 1 4. 4. 4. CO2, Free ing/l CO2, Total rng/l Chlorine, Tot al-rng/l 2 ( 0.10 0.10 ( 0.10 0.0000 Chloride, Total rag / l Cr, Total' mg/l CO, Total rag /l Cu, Total rag / l F 1, Total rag /l 1 0.26 0.26 0.26 FC, Total eng/l Pb, Total ing/l Mg,-Total ing/l Mn, Total rag /l Hg, Total ing/l Mo, Total rn g /1 - N 1, Total tng/l ~MN rng / l 1 0.44 0.44 0.44 1 4 w-- ~

I-i. ALABAMA POWER COMPANY Plants FARLEY NUCLEAR PLANT Location WAGTE SETTLING POND No. of Mi ni rnurn Ma x a rnurn Average Standard . Test Name-Units Values Value Value Value Deviation N, Ammonia mg/l 1 0.016 0.016 .0.016 N, Nitrate eng/3 1 0.42 0.42 9.42 N, Nitrite mg/l 1 0.008 0.000 0.000 TON . mg/3 1

0. 4

0. 4 N,

Nitrate (LL) ang/l N,.. Nitrit e - (LL) mg/l P,-Total mg/l 3 0.008 0.008 0.008 Ortho Phosphate mg/l L l CS, Total rng/3 Cg, Total rag /l N2, Total mg/l s Culfate ing/l . Ti, Total eng/l T 1, Total rng/l T1, Tota 3 mg/3 V,-Total rng/l 2 n, Total mg/l i t I b l

u= ? ALABAMA POWER COMPANY 'Planb: FARLEY' NUCLEAR PLANT Location TURBINE BUILDING SUMP - UNIT 1 No. of Mi n1:nurn Maxirnurn Average Standard Test Narne Uni t s Values Value Value Value Deviation Color PCU 1 22. 22. 22. Coliform, Total org /10erni Co11 form, Fecal org/100rn! Conductivity utnhos /cm Corrosivity C1k., Total rn g /1 - C1 k., HCO3 rag /l pH BU 101 6.81 8.88 7.84 0.4995 G1k., CO3 rng/l C1 k., OH tog /l BOD rag /l 1 1. 2. 1. COD rng/l H^rdness. Total tng/l Oil and-Grease mg/l 53 (

1. 0

6. 0

( 1. 2 0.7099 ' Solids, Total rng/l C011ds, Diss. rng/l Solids, TS mg/1-57 ( 1. 70. < 12. 9.5364 Tcraperat ure Degrees C 1 34.0 34.0

34. 0 Turbidity NTU Total mg/l s,

Total rnD/1 004 Total eng/l CO, Total rag /l C2, Total ing/l D, Total rng/l Br rnide rag /l 1 ( 0.20 0.20 ( 0.20 CO, Total inp/1 CO, Total rag /l TOC rag /l 1 5. 5. 5. CO2, Free rng/l CO2, Total rnn/1 Chlorine, Total rag /) =Shloride,-Total rag / l Cr, Total rag /l C3, Total rng/l Cu, Total ing/l F1, Total rag /l 1 0.03 0.05 0.03 Fo, Total mg/l Pb, Total rag /l Mg, Total eng/l Mn, Total rng/l Hg,. Total eng/l Mo, Totc1 tag /l N1,. Total eng/l 'N mg/l 1 1.95 1.95 1.95 .m_.

Q. / $ bty. 4 i s g F h ALABAMA POWER COMPANY ' Plant FARLEY NUCLEAR PLANT. l-Locations-TURB1NE BUILDING SUMP - UNIT 1 ~ No. of Mi ni rnurn Ma x i murn Average Standard

Test Name' Units Values Value Value Value Deviation N,

Arnmonia rng/l 1 1.180 1.180 1.180 HN,. Nitrate en g /1 - 1 0.22 0.22 0.22

N,' Nitrite.

mg/1-1 0.008 0.008 0.008 c TONE rag /l 1

0. 8

0. 8 i.

N,, Nitrate (LL) rag /l (-f N,: Nitrite ' (LL) rng/1' -P,lTotal rng/l 3 0.013 0.013 0.013 ' Drtho Phosphate eng/l !? tSe, Total ~ mg/l [;.

Cg,7 Tota 1 rag /1 1

"N;,. Total rng/l L Culfate. _ rap /1 -T1,. Total ing/l 'T1,_ Total mg/1' T1,. -Tot al rng/l

V,; Total rng/l

'2n.' Total mg/l l I i I i l 1 1 ) e ,w-v +, m - - - = -

+ g j G>'

t

$( j ALABAMA POWER COMPANY. Plant:~FARLE( NUCLEAR PLANT \\ Location: TURBINE' BUILDING SUMPE-' UNIT 2' No. of Mi ni rnum Ma x i rnurn Average Standard l LTest Name Units. Values Value Value Value. Deviation LC31or.

PCU 1

17, 17. 17. Cpliform, Total org/100ml C311 form, Fecal =org/100ml 'C:nductivity umbos /ctn ' 7 Carrosivity-i: sAlk., Total' mg/l i -:Alk., HCO3 rag /1 - 7.89 0.3842 SU 157 6.48 8.98 pH; Alk., CO3

rnD /1

'Olk.,sOH rag /l BOD - mg/l -COD mg/l 1 9. 9. 9. I

Hardness,. Total rag /l j; Oil and Grwase' rng /11 57

(

1. 0 13.5

( 2.1 2.2915 , C311 ds, c Tot al. rng /l 'C311ds,= Diss. . rng / l Colids,'TS rag / l 77' 2. 167. 17. 25.0736 Tcmperature Degrees C Turbidity-NTU. ,. Total. rng/l 1 0.63 0.63 0.63 s, Total rng/l 1 ( 0. G5 0.05 ( 0.05 - i A;,1 Total rng/l 1 ( 0.01 0.01 ( 0.01 1Ca, Total mg/l 1 0.02 0.02 0.02 i 103,. Tot al. rng/l 1 ( 0.10 0.10 ( 0.10

D,cTotal mg/1' 1

0.08 0.08 u0.08 ' Orornide ' mg/l 1 ( 0.20 0.20 < 0.20 Cd,DTotal mg/l 1 t 0. 01 0.01 < 0.01 'C;,cTotal. rng/l TOC; rng/l 1 3. 3. 3. CO2, Free mg/l CO2,tTotal. mg/l ' Chlorine, Total-mg/l ' Chloride, Total rng/l . Cr,. Total rng/l 1 ( 0.05 0.05 ( 0.05 Co, Total rag /l 1 < 0.01 0.01 ( 0.01 Cu, Total' mg/l l' O.02 0.02 0.02 F1, Total rag / l 1 0.17 0.17 0.17 FC,. Total mg/l 1 0.49 0.49 0.49 Pb,. Total rng /l 1 ( 0.01 0.01 < 0.01 Mg' Total mg/l 1 2.13 2.13 2.13 e 'Mn,= Total rng /l 1 0.06 0.06 0.06 Hg, Total. rng/l 1 ( O.0002 0.0002 ( 0.0002 ' Mo,; Total mg/l 1 ( 0.01 0.01 ( 0.01 Ni, Total rng / l 1 ( 0.01 0.01 ( 0.01

MN rng / l 1

0.86 0.86 0.86 l , --. ~...., ..c.-_,-.

3 <. 2 3 1 s 1 ALABAMA POWER COMPANY j Planta FARLEY NUCLEAR PLANT Location TURBINE BUILDING BUMP - UNIT 2 i No. of Minimum Max i rnurn Average-Standard Test Name Units Values Value Value Value Deviation [ HN, Ammonia in g /1. 1 1.060 1.060 1.060 N, Nitrate-mg/l 1 0.10 0.10 0.10 Nitrite rag /1 ~ 1 0.008 0.008 0.008 N,. mg/l 1 ( 0.1 0.1 - ( 1 0.1 - TON N,:: Nitrate (LL) rng/l N,. Nitrite (LL) mg/1-P,LTotal mg/l 1 0.032 0.032 0.032 Ortho Phosphate ing/l . 03,1 Total eng/l .1 ( 0.05 0.05 ( 0,.05 Ag, Total rng/l 1 ( 0.01 0.01 ( 0,01 N2, Total rng/l Culfate rng/l LTi,' Total rag /l 1 ( 0.10 0.10 ( 0.10 T 1, Total rag /l 1 ( 0.01 0.01 ( 0.01- .T1,1 Total rng / l 1 ( 0.01 0.01 ( 0.01 V,, Total rng/l In, Total rng/l 1 0.03 0.03 0.03 s 4 c-v

{.}u /? F \\ ALABAMA POWER COMPANY ~ Planta FARLEY NUCLEAR' PLANT Location -STEAM GENERATOR BLOWDOWN - UNIT 1 No. of Minimum Maximum Average,_ Standard Test'Name Units Valuez Value Value V a l u r. OS 'f at ion 3 (C3 lor. PCU 1 .1. 1. 2. V . Coliform, Total org/100ml-Caliform,-Fecal org/200ml Csnductivity -umhos/cm .Carrosivity LG1 k.,_ Total mg/l mW - Alk.,LHCO3. mg/l ,pH~ SU. 12 6.59 8.62 8.06 0.5146 Alk., CO3 mg/l ' Al k., OH-mg/l CDD mg/l .1 1. 1. 1. CDD -mg/l 1 3. 3. 3. ' Hardness,:Totalimg/l Oil and Grease mg/l 11 (

1. 0

(

1. 0 0.0000

.Colids,. Tot al-mg/l Colids, Diss. mg/l Colids,LTS mg/l II ( 1. 1. ( 1. 0.0000 -Tcmperature-Degrees C sTurbidity' NTU i .,: Total: mg/l 1 0.03 0.03 0.03 'l J,JTota13 mg/1-1- ( 0.05 0.05 ( 0.05 A:, Total. mg/l 1 ( 0. 01 0.01 ( 0.01 ~ Oc, ' Tot al-mg/l '1 (. 0.01 0.01 ( 0.01 - B3, 4 -Total mg/3' 1 ( 0.01 0.01 ( 0.01 ,D, Total .mg/l 8 6.20 10.60 7.49 1.4712 Cremide mg/l 1 ( 0.20 0.20 ( 0.20 .) 1Dd, Total mg/l 1 ( 0.01 0.01 ( 0.01 l CO,- Total mg/l TOC mg/l 1 3. 3. 3. CO2, Free mg/l

CO2,' Total mg/l Chlorine, Total mg/l Chloride,' Total mg/l 1

.Cr,; Total mg/l 1 ( 0.05 0.05 ( 0.05 . Co, ' Tot al-mg/l 1 ( 0.01 0.01 ( 0.01 - Cu, Total mg/l 1 < 0.01

0. 01

( 0.01 F1, Total mg/l 1 0.02 0.02 0.02 FC, Total mg/l 1 0.02 0.02 0.02 Pb,: Total mg/l 1 ( 0.01 0.01 ( 0.01 Mg, Total mg/l 1

0. 01 0.01

0. 01 Mn,. Total mg/l 1

( 0.01 0.01 ( 0.01 Hg,-Total-mg/l 1 ( 0.0002 0.0002 ( 0.0002 -Mo, Total mg/l 1 ( 0.01 0.01 ( B. 01 Ni, Total mg/l 1 ( 0.01 0.01 ( 0.01

- N mg/l 1

1.50 1.50 1.50 ~.-

n.< .h I b Li ALABAMA POWER COMPANY Plants FARLEY NUCLEAR PLANT Location: STEAM GENERATOR BLOWDOWN - UNIT 1 No. of Mi ni rnurn Ma x i rnurn Average Standard- . Test - Narne - Units Values Value Value Value ' Deviation - N, J Arnmoni a . tn g / 3 ' '1 0.800 0.800 0.800 N, Nitrate' rng/l 1 ( 0.01 0.01 ( 0.01 ,N,-Nitrite rng/l l' ( 0.005 0.005 ( 0.005 TON' rng /1, 1

0. 7

0. 7 N, ' Nit rate :(LL) rag /1 -

N, Ni t rite 1 (LL) rng/l P,. Total eng/l 1 ( 0.005 0.005 ( 0.005 3 i 'Crtho Phosphate mg/l Total - in g / l 1 ( O.05 0.05 ( 0.05 B;, Total mg/l ~ 1. ( 0.01 0.01 ( 0.01 Ag, ' .Ns, Total mg/1-Culfate. rng/l tTi,- Total mg/1' 1 ( 0.10 0.10 (. 0.10 T 1, Total rng/1 1-0.03 0.03 0.03 T1,-Total rng / l 1-( 0. 01 0.01 ( 0. 01 V, Total mg/l Z n, : LTotal mg/l 1 0.02 0.02 0.02 t 5 1 ~

Y t t AL ABAMA. POWER ' COMPANY ' Plants.FARLEY NUCLEAR PLANT Locataon: STEAM GENERATOR BLOWDOWN - UNIT.2 ' No. of' Mi ni rnutn Ma x t rnum Average ' Standard [; Test Narne Units Values Value Value-Value Deviation 4 ' C31or PCU-lC 11 form,' Total'org/100ml 6 C211 f orm,' Fecal org/ 2 00rn1 1 'l C:nd uct i v i t y . urnhos / cm C:rrosivi t y

Alk., ' Tot al rng/l C1k., HCO3 rng/1 pH

-. SU 12 7.35 8.97 B. 26 0.4779 Alk. O CO3 rng/1 ' Ctl k. ',. OH rng /1 ~ BOD rng/l CDD .rg/l Hirdness, - Tot al mg/l ' Oil-and Grease mg/l 9 (

1. 0

9. 9

( 3. 3 3.1839 - 0211ds,. Tot al rog/1 l4 Solids,- ' Di ss.' .mg/l ,S211ds,'TS mg/l 8 ( 1. 3. ( 1. 0.7072 Tcmperat ure - DeDrees C Turbidi t y NTU .-, Tot a l .mg/l ,, : Tot a l mg/1 A:, Tot a l ' rag /1 B:,' Total mg/l l B2, / Tot a l enD/1 B, Total mg/l 7 6.10 8.30 7.13 0.8051 L Bromide - 'mg/1 . Cd, Tot al rag /l CO, Total mg/l l' LTOC rn g /1 ' CO2, Free mg/l L CO2, Total - rag /1 Chlorine, : Total mg/l l Chloride, Total rng/l p Cr, Total rng/l p . Co, Tot al rng/l Cu,, Tot al ' reg / l F1, Tot al mg/l i l: FC, Total. eng/l l .Pb, Tot al. rng/l j. ' Mg, Total tog /l Mn, Tot s.1 rag / l Hg, Tot al mg/l Mo, Total mg/l L' Ni, Total-rag /1 l -"N. mg/l l l. 1

y=;- s i 4 4 1 4-3 ALABAMA' POWER COMPANY- ? ! Planta FARLEY? NUCLEAR PLANT y- !n Locations: STEAM GENERATOR BLOWDOWN - UNIT 2 l i No..of Mi ni rnum - Ma x i rnurn Average. Standard E4 - Test Name: LUnits ' Values Value 'Value Value Deviation P N,' ' Arnmoni a. mg/1= N, Nitrate: mg/11 4 [ NisNitrite mg/l TON rn g /1-i' LN, Nitrate (LL) E rng / 3 '- N, Nitrite 1(LL) rag /l { P, Total-tng/l Ortho Phosphate rng/1. i

S;,lTotali rng / l Ag,; Total rn g /1 -

' Nc,3f Tot al _ rng /1 - Culfate rag /1. i.

TiF Total-

.mg/1 J T1,' ) Tot a l mg/l T 1", J-Tot a l. rag /1 V,1 Total-mg/l Zn,. Total' mg/l s: 5 ) 4 5,l'[ i I;: At

1 g:,,+ m w -i' r ALABAMA POWER COMPANY a ) Plants: FARLEY NUCLEAR PLANT I Locations LIQUID-RADWASTE - UNIT,1 t E No. of Mi ni murn Maximum Average Standard ' Test-Name Units Values -Value Value Value Deviation Color PCU-q 'Cpliform, f Total org/100rn1' j C311 form,. Fecal org/100rnl-

C:nductivity utnhos/cm

'C rrosivity LAlk.,; Total mg/l 1 LAlk.,:HCO3 ra g /1 -

0H.

.SU Al k., CO3-mg/1' .Alk.,LOH rng/l COD l rng /1 ~ CDD mg/l Hardness, Tot a l ; rng / l

011 and, Grease-rng /l e

Colids, Total rng/l .Bolids, Diss. mg/l .Colids,JTS-rng/l ETcmperature Degrees C

Turbidity NTU Total.

mg/l ?," Total rag /1 .A,

Total, mg/l CO,. Total mg/1?

P fB3,:iTotal mg/l 0,; Total mg/l 'I Cromide rng/l Cd, Total mg/l .Co, Total. rn g /1. . TOC-mg/l CO2, Free mg/1: CO2, Total mg/l Chlorine, Total-rng/l . Chloride,7 Total mg/l t Cr, Total. rng/l 1 Co,; Total-mg/l Cu, Total rng/l F1, Total mg/l Fo, Total mg/l Pb, Total mg/l Mg,. Total mg/l Mn,JTotal rag / l 'Hg,-Total rag /1 Mo, Total rng/l N 1, Total rng/l ~'N mg/l

3-W: m c t ALABAMA POWER COMPANY l Plants FARLEY NUCLEAR PLANT

Locations-LIQUID RADWASTE - UNIT 1 4

Jj ! .No.-of ~ Mi nirnurn Ma x 1:nurn ' Average Standard . Test-Name _Unita. Values Value Value Value-Deviation N,yAmmonia' mg/l

N,9 Nitrate.

mg/1

.N,i Nitrite _

rn g /1 - STONL. mg/l ' N, L Nitrate 1(LL)Erng/l ~' N, Nitrite (LL) mg/l (P,[ Total. mg/1- .i A - Ortho: Phosphate rng/l O.;,; Total. rng/l [ l Ag,. Tot al' mg/1- -t sN,-Total mg/1. LCulfate-eng /1' j -'Ti,eTotal. ' rng / l - iT1, Total mg/l -T1, TTot al- . rn g / l V,-. Tot al c mg/l ~rng/l 2n,. Total' ) P L i i t 2 l I! t r

m,c nn c ' < Tc,, ne l( ' t + ' ALABAMA POWER COMPANY-20 / Plant's FARLEY NUCLEAR' PLANT.. [ (Locations LIQUID RADWASTE - UNIT 2-L' of Minimum ~ Maxircum ' Average Standard L No. ' Test:Name' Units. Values Value. Value Value Devaation 1 C31or lPCU' i . Coliform, Tot al~ 'org/100ml - i- ,- Coli form, - Focal 'org/100rnl i -Cunductivity-urnhos/cro a ' Cerrosivi ty-e YA l 'k., zTotal rnD/1' fAlk.,'HCO3-mg/1^ pH SU' ' Al k., ? CO3 rng/l

Alk., OH mg/l COD-mg/1'

'.g COD-mg/1' p L Hardness, -Total rng/l ,y 011 and' Grease-mg/1' Colids, Total ' rn g /1..

Colids,-Diss.

mg/l .Colids,-TS rog/l ) Temperature Degrees C

Turbidity NTU.

.,6 Total rag /1 s, Total ~ mg/l A,z, Total-mg/l Dn, Total .mg/1-B2,. Total. mg/1- [: -D,eTotal: mg/l 3rorni de. 'mg/1 + - Cd, ' Tot al mg/l Cn, Total rng/ l 5 ! TOC' -mg/1 CO2, Free. mg/l 4 CO2, Total .mg/l Chlorine, Total mg/l Chloride, Total rng/l L ( Cr,. Tot a l - mg/l b Co, ' ' Tot a l - mg/l L Cu,' Total rng/l F1,. - Tot a l - rag /l i Fo, Total mg/l Pb, Total mg/l Mg,. -Tot al mg/l 'Mn, Total-rog/1 Ng, Total mg/l e l '. Ma,LTotal rng/l '.Ni, Total rng /1 ~' < N rn9/1 i

. ~. n ') e

y w

p:.. ~ -] s !}, I .-ALABAMA POWER COMPANY- ' Plant:'FARLEY NUCLEAR' PLANT: i Locations-LIQUID RADWASTE - UNIT 2 v, b i -No.'of Mi ni rnurn Ma x i rnurn. Average ~ Standard Values Value

Value Valuu Deviation

' _U n i t s. _ ______ h Test'Name 9 JNC Ammonia' rng /1 l ' i ;!; 'N,y Nit rat e mg/l s Ni : Nitrite in g /1. ) f' LTON (LL).mg/1. mg/l y Nk Nitrate N,. Nitrite (LL) ( rng/11 ( L P, Total' =mg/l g( Detho.; Phosphate mg/1 T g Se,j otal rag /1 ' a ~ l Ag', ; Tot al: mg/l Ni,~ Total rag / l - Sulfate. -rng/l 3T1, Totel; rag /l .T1, Total- " mg/3' i ~ T1,- : Tot al - - rag / l V,' Total. mg/l 4' Znf' Total mg/1' i: n: n i + i f 1: 1 j; I ? I i l f l t l-I I t J.,4

~ );-! f ~

\\Yl -

_ i ;,i J l p 4 'g; if i h', ' ALABAMA: POWER COMPANY ' Plants'FARLEY NUCLEAR PLANT . Locations' TURBINE BUILDING OIL SUMPS UNITS 11& 2 No. of Minirnum Ma x i rnum ' Average Standard Test Name = Units _ Values _Value Value-Value ~ Deviation C51or' PCU Cbliform. Total org/100rn! C311 form,.- Fecal' org/100rn1 'C:nductivityL umhos/ctn

C:rrosivity-

'C1k.,yTotal rng/l [ A l k.', HCO3 rng /11 0.3254' 't pH: SU-46 6.17 7.77

6. 87 c Al k., CO3 mg/l LAlk., OH mg/l

$0D; rag /1 COD - -

.mg/1. Hardness,' Total ~ tog /l ~011.and Grease mg/1. 46 (' 1. 0 33.9 ( 8. 4 9.4257= L Cal. ids,' Tot al? mg/1 'f Oolids', / Diss. mg/l .. Col i d s, TS: mg/l 46' -( 1. 96. ( 10. 15.2310 Tcmperature' ' Degrees C 3 23.0 25.0 24.0 1.0000 .j-T ur bi d i t y. NTU ,fTotal .mg/1 ' ),. Tot al rng / l -A2p Total rng/l B,: Total-mg/3' Co,eTotal mg/l ^; B, Total-rng / l -Cromidel. rng/ l ~H Cd,. Total rag /1 yCc,. Total . rag / l . TOC-tag /1-CO2, Free ra g /1 - CO2,. Total ' rn g / l l-Chlorine, Total mg/l j Chlo' ride, Total mg/l L Cr, Total ing/1 (' -Co,~ Total mg/l 'Cu,; Total rag / l

F 1, Total rng/l j

B Fo,JTotal mg/l Pb, Total rag / l N, Mg,- Total rag / l L LMn,' Total mg/l Hg,. Total mg/l L Mo, Total mg/] Ni, Total mg/l "N. tng/l ,,.,.,..., ~.

g. y f( .' y 7 "{' e e ' u)et: r Qf} ? ' t v' c ,w l p % -. n e: i Y -ALABAMA POWER. COMPANY-n l lPlant: FARLEY NUCLEAR PLANT L ' Locat ions : TURBINE BUILDING OIL SUMPS UNITS t 1 - & 2 2-s' No. of' M i n i rnurn ' Ma x i rnurn ' Average Standard Test Name - - Units Values Value .Value - Value' Deviation t p i-.

N, ; Ammoni a mg/l p,

N,: Nitrate. . rng /1' N,~ Nitrite-en g /1. l mg/l . TON'. (1.L ). mg/1-i N, Nitrate b I N, Nitrito (LL) mg/l P,tjTot al - rng / l ' Ortho; Phosphate mg/l L' : Or, Total eng /1-N - Y:; Ag, Tot al. rag /1 l tNO,' Total mg/1-Culfate-rn g /1 - -T1, Total mg/1- ? T1, - Tot al.: rag /1-l '-T1, - Tot al, mg/1 i ' V, n Tot al. rag /l Zn,' Total mg/1 j

a

L 1 3 .s t j t ~.

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

e,y,.

n:- L a {. ?' i u [)j, W s ALABAMA POWER ~ COMPANY Plants FARLEY NUCLEAR PLANT-Location: RIVER WATER BUILDING SUMP DISCHARGE - UNIT l' l No.- of Mi nirnum Maxirnutn Average Standard Test Name Units -Values -Value Value Value Deviation Color PCU. 1 22. 22. 22. Coliform, Totalc org /100rn1 C311 form, Fecal ~ org/100rn)

COnductivityL umhos/cro

+, Carrosivity Alk.,= Total rng/l Alk., HCO3-tog /l pH SU 17 6.50 7.58 7.18 0.2724 ' Al k., CO3 rng/l Alk., DH ' mg/l CDD rng/l 1 1.- 1, 2. COD rng /l H;rdness, Total rng/l

011 and Grease mg/l 20

-(

1. 0

2. 8

(

1. 2 0.4736 Colids, Total rag /l

'Salids, Diss. mg/l Solids, TS rag /1 ' 1-7. 7. 7. JTcroperat ure _ Degrees C 1-28.5 28.5-28.5 Turbidity -NTU Total .mg/l ) a,- Total rng/1 . A3, Total 'mg/l Bn, : Total mg/l Do,; Total mg/1-1 D,. Total- - rn g / l a Bromide .mg/l 1 ( 0.20 0.20 ( 0.20' Cd,: Total mg/l i Cs,. Total _ .rng / l tTOC mg/1: 1 ' 4. - 4. 4. l / CO2, Free mg/l , CO2, Total rng/l ' Chlorine, Total rng /l 1 ( 0.01 0.01 < 0.01 Chloride, Total ing/l Cr, Total rng/ l ', Co, ' Tot a l rag /l =Cu, Total mg/l F1, Total rng/l 1 0.02 0.02 0.02 j Fo,- Total rng/l l L Pb, Total mg/l Mg, Total. mg/l e 1 Mn, Total rng/l Hg, Total mg/l HMo, Total mg/l l Ni,_ Total rng/l ~MN rng / l 1 0.53 0.53 0.53

w E? i 'l K ALABAMA POWER COMPANY < Plants: FARLEY NUCLEAR PLANT-Locations' RIVER WATER BUILDING BUMP. DISCHARGE --UNIT 1-t No. of Mi ni rnurn Ma x i rnurn - Average. Standard Test Name-Units Values Value Value-Value.. Deviation 'N,[ Ammonia mg/l 1 0.058 0.058 'O.058 p - N,; Nitrate rng/1' 1-0.22 0.22-0.22 '!;N,1 Nitrite an g /1 ' 1 -( 0.005 0.005 ( 0.005' rag /l 1

0. 5 -

0. 5

-TON = _ (LL) mg/1-N, Nitrate 4 N, Nitrite ~ (LL) rn g / ). P,(Total rng/l 1 0.034 0.034 0.034 Ortho Phosphate ang/l L CO,. Total mg/l

Ag,: Total-mg/1 No,fTotal-rng / l Culfate rag / )-

3 Ti,iTotal rng/l T1,' Total' rng/l T1,-Totalt rag /l ' V, Total'. - rn g / l

Zn, Total-rag /l 9,

t i i ? I i j

m. b / y. i T 'I i' ib v J. ALABAMA POWER COMPANY Y Planta FARLEY NUCLEAR PLANT Locations RIVER WATER BUILDING BUMP DISCHARGE - UNIT'S No. of Mi nirnurn " Maximum Average. Standard. Test Name Units Values Value Value Value Deviation icolor PCU 1 20. 20. 20. f ',, C611 forrn,. Tot al org/100rnl-C311 forrn, Fecal. org/100rs1 ~ ? urnhos/ cen -

C:nductivity-

.C rrosivity-201k.,' Total-mg/l EC Alk., HCO3 . rn g / l 'pH SU 18 6.91 7.62 7.24 0.2135 L Alk.,LCO3 mg/l Alk., OH rng / l iCOD mg/1-1 1. 1. 1. COD mg/l H;rdness,. Total rng/l Oil and_ Grease' rng/l 20 (

1. 0

2. 3

( 1.1 0.2996 Celids, Totali eng/l Colids,LDiss. rng/l -;Golids,: TS rng/l 1 12. 12. ,12. Tcmperature' Degrees C 1 24.5 24.5 24.5 Turbidity NTU. Total -mg/l 1, Total ' rng / I' A:( Total eng/l DO, 3 Total rng/l

Do, Total-rag /l 3

'B,; Total rag /l 1Cromide-mg/l 1 ( 0.20 0.20 < 0.20 Cd, Total' mg/1-CO, ' Tot al'. rng/1 TOC -mg/l 1 4. 4. 4. CO2, Free - rng / l CO2,: Total mg/l ~ Chlorine,. Total eng/l Chloride,. Total rng/l Cr, Total mg/1. " Co, Total mg/l Cu, Total' mg/l F1, Total mg/l 1 0.02 0.02 0.02 Fo, - - Tot a l rng/l Pb, Total mg/l Mg,sTotal mg/l Mn, Total rng/l l Hg, Total mg/l Mo, Total rng/l Ni,-Total rng / l 'MN mg/l 1 0.75 0.75 0.75 1.

'I s ALABAMA POWER COMPANY Plants FARLEY NUCLEAR PLANT i ' Location: RIVER WATER BUILDING SUMP DISCHARGE - UNIT 2 No. of Mi ni rnurn Ma x i rnurn Average Standard Test Name' Units Values Value Value Value -Deviation I N,

Ammonia, mg/l 1

0.019 0.019-0.019' N,: Nitrate, rng/l 1 0.72 0.72 0.72 'N,. Nitrite mg/l 1 ( 0.005 0.005 ( 0.005 -TON. rng/l 1

0. 7

0. 7 N,.: Nit rat e - (LL) '. rng / l

'N, Nitrite (LL). rag /l t P, 2 Total rng/l 1 0.033 0.033 0.033 ~ Ortho-Phosphate mg/l SO, Total. mg/l Ag,.. Total mg/l N:, Total-mg/l ~Culfate rag /1 - Ti, Total rag /2 .- T 1,. Tot a l' rag /1 T 1, Total rng/l V,' Total mg/l Zn, _ Total rng /1 - L' e l' l l l' i. b

D l' i .c l ALABAMA POWER COMPANY-d Planta FARLEY NUCLEAR PLANT l Location: MISCELLANEOUS LOW VOLUME, NDNCONTACT COOLING WATERS No. of Minirnurn Ma x i rnutn Average Standard j Test Name Units Val ues - Value. Value-Value-Deviation. I i ' C31or' PCU 1 3. 3. 3. C311 forrn, Tot al org/10ern! q t ' Coliform, < Fecal l org/ 2 00rna 'C:nductivity- - urnhos /ctn 'Carrosisity Al k., Total rag /l . Al k., HCD3 - rn g / l pH: BU 1 8.40 -8.40 8.40 Alk.,:CO3-mg/l Alk., OH rng/l BOD ~ mg/l i O. O. O. CDD: rag /1 H;rdness, Total mg/l Dillard Grease mg/l 1 (

1. 0.

1. 0

(

1. 0 Colids,' ~ Tot al mg/l

' Solids, Diss. rng/l Solids, TS mg/l 1 ( 1. 1. ( 1. Tcmperature Degrees C 1 24.0 24.0 24.0 / Turbidity. NTU, 4 , Total; mg/l . Total-rng/l A2, Total-rng/l 10c, i Tot al - rng/ l Os, Total mg/l + ' B, Total mg/l

Cr:rni de mg/l 1

( 0.20 0.20 < 0.20- 'Cd,' Total mg/l j, !Co,fTotal mg/l TOC 'mg/1-1 6. 6. 6. CO2, Free ing/l .CO2, Total rn g /1' < Chlorine, Total mg/l 56 ( 0.10 0.85 ( 3.14 0.1312 Chloride, Total mg/l Cr,, Tot al reg /l Co, Total rag /l Cu, Total-rng/l F1, Total rng/l 1 0.07 0.07 0.07 Fo, Total rng /l Pb, Total-rng / l Mg,. Total rng/l Mn, Total mg/l Hg,. Total rng/ l Mo, Total mg/l Ni, Total mg/l ~MN mg/l 1 0.25 0.25 0.25

[D ~ ~ ALABAMA-POWER' COMPANY Planta FARLEY NUCLEAR PLANT Location: MIGCELLANEDUS LOW VOLUME, NONCONTACT COOLING WATERS-6: 'No. of Minimurn Max i rnum Average-Standard 1 Test Narne Units ' Values Value Value Value Deviation L N, ' Arntnonia rn g /1 ' 1 ( 0.001 O.001 ( 0.001 N,' -Nitrate mg/1 1 0.16 0.16

0.16 l

e N, Nitrite eng/l 1 ( 0.005 0.005 ( 0.005 L. TON. rng / l 1

0. 3

0. 3.

0. 3 N,

Nitrate.(LL) rng/l i N, Nitrite (LL);mg/l P, 7 Total rng/l 1 0.019 0.019 0.019 -r Ortho Phosphate rng/l '92,. Total-ing/l Ag,. Total rag /1 . Na, Total rng /1 - Oulfate mg/l ' Ti': DTotal tag /1

T1, Total mg/l T1,. Total mg/1-V,. Total

- rng /1 - . Z n, Total-mg/l t ,.r.

j

s

? Cen:r I Tcst Lab: rat:ry - ' Buil< ding Number 8 ~ i P.O. Box 2641, AlabamaPower d l Birmingham, Al. 35291: t (Certificate of Analgsis 4

TO: MR. BOB WOOD REPORT DATE; 06/13/89 4

- ADDRESS FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/89 SAMPLE NUMBER : 890517-0064'

= DESCRIPTION::: INTAKE y TEST UNITS RESULT j Colorf PCU 20. 7, Diochemical Oxygen Demand, 5 Day mg/l '1. LSolids, Total Suspended mg/l 13. t . Aluminum, Total rng/l 0.69 Antimony, Total mg/l ( 0.01 Arsenic,< Total mg/l ( O.05 Barium,-Total. mg/l 0.02 Beryllium, Total mg/l ( 0.10 Boron, Total mg/l 0.02 Bromide mg/l ( 0.20-i 0.01 Cadmium, Total mg/l (- Organic Carbon,fTotal mg/1. 4. Chromium, Total' mg/l -( 0.05 obalt, Total mg/l ( 0.01 Copper, Total-mg/l ( 0.01 Fluoride mg/l 0.01 Iron mg/l 0.62 mg/l ( 0.01 ' Lead,. Total-., mg/1-1.35-l Magnesium, Total Manganese, Total mg/l 0.05 Mercury, Total mg/l ( 0.0002 Molybdenum, Total mg/l ( 0.01 Nickel,. Total mg/l 0.01 Nitrogen, Total Kjehldahl mg/l 0.64 Nitrogen, Ammonia mg/l 0.011 Nitrogen,-Nitrate mg/l 0.18

Nitrogen,. Nitrite mg/l 0.005-

' Nitrogen,: Total Organic mg/l

0. 6 -

Phosphorus,. Total mg/l 0.040 1 . Selenium, Total mg/l ( 0.05 Silver, Total mg/l ( 0.01 Titanium,' Total mg/l ( 0.10 Chomeet Oieenty c.nvoe 6iew. C:-_ Pag. of s.a m n.ses

y .m

= p ICeneralTCst Laborat ry: Building Number 8 AlabamaPower A I'

P.O. Box 2641 - Birmingham, Al. 35291. (' Certificate of Analgsis SAMPLE NUMBER : 890517-0064 L TEST. UNITS RESULT l L'

Thallium, Total mg/1-0.01 Tin,' Total mg/1-(

.0.01 i E Zinc, Total mg/l 0.02 '4 (;7 e i f-s

11

.c i k i-L t l l' 1 i lt CC : MR. W. S. HILL MR. J. M. GODFREY lI l l-Chenue Ousev Cenere $ww.C. P.ee BETTY CHAMBLESS g gy 2,, FILE: NC 11:1 ~.~

b General Tcst Laboratary, 4, Building Number 8 -l ' P.O. Box 2641 AlabamaPower a1 L ' Birmingham, Al. 35291. l Certificate of Analgsis l .TO 's MR. BOB WOOD-REPORT DATE

05/23/89 ADDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/89 SAMPLE NUMBER 890516-0067 DESCRIPTION.* INTAKE TEST UNITS RESULT SU

-7.50 pH Oil and Grease-mg/l (

1. 0 Temperature Degrees C 20.5 Chlorine, Total mg/l 0.10 I

r i i CC.:-MR. W. S. HILL MR. J. M. GODFREY 1 / n ca =i %c BETTY CHAMBLESS $ g q e.sm m.smsFILE: NC

1 L: < [G:ner;lTcst Laborattry Building Number 8 - P.O. Box 2641 - AlabamaPower-i i '- Birmingham, Al. 35291 A. Certificate of Attalgsis 4 E-TO- ,s.'MR. BOB WOOD REPORT DATE

05/17/89 ADDRESS : FARLEY' NUCLEAR PLANT SAMPLE:DATE

.: 05/17/89 SAMPLE NUMBER : 890517-0042 DESCRIPTION: INTAKE-TEST UNITS. RESULT Chlorine, Total ~- mg/1 ( 0.10 t t 1 f l ? 9 .i L l~ L I l l' CC : MR. W. S. HILL MR. J. M. GODFREY f c-o c.a,.i w.cu -_ e BETTY CHAMBLESS p g J + 2, s-ned'W. em ' FILE: NC ... -. ~. .....~.

p;. - ' ~~ i: lCr.noralTdst Laborat:ry_ _ Building Number 8 3 AlabamaPowerI P.O. Box 2641-p- ; Birmingham, Al. 35291 {es:ificate of Analgsis 70-3: MR. BOB WOOD REPORT DATE

06/13/89' ADDRESS :'FARLEY NUCLEAR PLANT SAMPLE DATE s'05/16/89' SAMPLE NUMBER 896517-0063 f

t DESCRIPTION s' RIVER' DISCHARGE-m. TEST UNITS RESULT PCU 24. ' Color Diochemical' Oxygen Demand, 5 Day mg/l - 7..

Colids,. Total. Suspended-mg/l 8.

Aluminum,_ Total m g / l _- 1.11 . Antimony, Total mg/l ( 0.01 Arsenic, Total mg/1: ( 0.05 1 mg/l S.02 - Bari um,' - Tot al mg/l ( 0.10 Cory111um, Total iBoren, Total mg/l 0.04 mg/l ( 0.20 . Bromide. mg/l - ( 0.01 Cadmium, Total = Organic Carbon,. Total mg/1-12. Chromium,' Total, mg/l ( 0.05. lobalt, Total mg/l ( 0.01' ~~ Cop per, : Total' lmg/1 0.01, ' Fluoride-mg/l 0.02 Iron.- mg/1 2.74-Lead, Total mg/l (~ 0.01

Magnesium, Total mg/1 1.32 i

. Manganese,. Total mg/l 0.06 C _ Mercury, Total mg/l ( 0.0002 Molybdenum,-Total mg/1-( 0.01 Nickel, Total-mg/l ( 0.01 ^ Nitrogenf Total KJehldahl mg/l 0.57 Nitrogen, Ammonia mg/l 0.032 Nitrogen, Nitrate mg/l 0.20 . Nitrogen, Nitrite mg/l ( 0.005-Nitrogen, Total Organic mg/l

0. 5 Phosphorus, Total mg/l 0.046

Selenium, Total mg/l

( 0.05 1 Silvur, Total mg/l ( 0.01 ' Titanium, Total mg/l ( 0.10 $yev. Ch.me.t P.g. ~ .nu.t Qw.my C.nUW Ch of e ano n.sies - m,.

01

q. W

';j 10:neralTest Laborat:ry . Building Number 8 P.O. Box 2641 AlabamaPoiver I Birmingham, Al. 35291 Certificate of Analysis SAMPLE ~ NUMBER : 890517-0063-TEST UNITS RESULT. -[ Th' allium,- Total. mg/l ' O. 01' -Tin, Total mg/l 0.01 h ' Zinc,-Total-mg/l 0.02 -) i i i; L .1 CC MR. W. S. HILL l MR. J. M. GODFREY i Omev centre key. Cnemat Pese BETTY CHAMBLESS g g gg y

Commia,

" FILE: NC 13:1

.. ~. _,

?; m ~ 4 honer;l Tcst Labortta.ry Building Number 8 ' P.O. Box 2641 AlabamaPower Birmingham, Al. 35291 - fertificate of Analgsis <TO ' :. MR. BOB WOOD REPORT DATE .05/17/89 ~ / ADDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/17/89 SAMPLE NUMBER : 890517-0043 DESCRIPTION RIVER' DISCHARGE TEST UNITS RESULT

' Chlor ine.. Total mg/l ( 0.10 .t i 'i s t CC MR. W. S. HILL MR. J. M. GODFREY oe came

w. c -.

em I_ I_ BETTY CHAMBLESS & 4__ s.nov ne.eies FILE: NC ~ u.

,g '--. L{',, [

1.,

General Test Laboratory , Building Number 8 A-P.O. Box 2641 Alabama Power mA Birmingham, Al 35291 Eertificate of Analgsis 'TO MR.. BOB WOOD REPORT DATE

05/23/89

-ADDRESS's FARLEY NUCLEAR PLANT SAMPLE _DATE

05/16/89' SAMPLE NUMBER-'.:l 890516-0066 DESCRIPTION s' RIVER DISCHARGE' TEST UNITS RESULT pH.

SU 7.80 01.1.and Grease mg/l (

1. 0 -

? Temperature Degrees C 24.O r I 5 I i.. CC : MR. W. S. HILL MR. J. M. GODFREY / 1 BETTY CHAMBLESS p g.-@'., o-c_.. .um

nw,, .e w

f. '.

r E - General Test Laboratory.

Building Number 8-AlabamaPowerA

. Birmingham, t.35291 Certificate of Analgsis TO-MR. TJOB WOOD. REPORT DATE-

-'06/14/89 ADDRESS

.FARLEY NJCLEAR PLANT SAMPLE DATE' 05/17/89 SAMPLE' NUMBER : 890517-0046' j d . DESCRIPTION : EAST YARD DRAIN i TEST UNITS RESULT Color PCU 29. lJ ' Biochemical Oxygen Demand, 5 Day mg/l 2. Solids, Total Suspended mg/1 5. ? Bromide mg/l 0 0.20 _ Organic. Carbon, Total mg/l

5..

Fluoride- -mg/l 0.22 J Nitrogen, Total Kjehldab< mg/l 0.88 Nitrogen, ~ Ammonia mg/l 0.075

Nitrogen, Nitrata mg/l 0.02 Nitrogen, Nitrite mg/l

( 0.005 Nitrogen, Total Organic -mg/1

0. 8

-Phosphorus, Total mg/1 0.310 1 s. i l L ,.l ~ 'I i ) CC : MR. W. S. HILL MR. J. M. GODFREY j h Owenty Convoi svow. G neme.t Page BETTY CHAMBLESS g g gg o, "~~T" n

l . General Test t.aborstory-i Building Number 8 abamaNw [ i P.O. Box 2641 / Birmingham, Al. 35291 (fertificate of Analgste j TO-MR. DOS WOOD REPORT DATE

85/22/89 ADDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/03 i

SAMPLE NUMBER 890516-0064 q l DESCRIPTION : EAST YARD DRAIN TEST UNITS RESULT l pH SU 7.70 Oil,and Grease mg/l (

1. 0 Temperature Degrees C 19.0 Chlorine, Total mg/l

( 0.01 i l h I i i CC MR. W. S. HILL MR.- J. M. GODFREY Chanum Quant Gemsw be Piye BETTY CHAMBLESS @ FILE: NC

e. f I General Test Laboratory Building Number 8 AlabamaPower d P.O. Box 2641 Birmingham, Al 35291 l (Certificate of Analysis TO t MR. BOB WOOD REPORT DATE

06/13/89 CDDRESS : FARLEY NUCLEAR PLANT SAMPLC DATE

05/16/89 SAMPLE NUMBER 890517-0062 DESCRIPTION : NORTH CENTRAL YARD DRAIN TEST UNITS RESULT Color PCU 36.

I Biochemical Oxygen Dernand, 5 Day mg/l ( 1. Solids, Total Suspended mg/l 4 Bromide mg/l ( 0.20 Organic Carbon, Total mg/l 5. Fluoride mg/l 0.19 (Ji t ro gen, Total KJehldahl rng /1 - 0.53 Nitrogen, Ammonia mg/l ( 0.001 Nitrogen. Nitrate ing/l 0.20 Nitrogen, Nitrite mg/l 0.007 Nit rogen, Total Organic mg/l

2. 5 Phosphorus, Total mg/l 0.071 1.

l CC : MR. W. S. HILL MR. 1. M. GODFREY l $IEYIY CHAMBLESS g g j " ' " ~ " ' " enat we a,i

t i I Gener;l Tcst Laborat:ry Building Number 8 l AlabamaPower d j Sirr$ingnam Al.35291 Certificate of balusis c e TO

MR. BOB WOOD REPORT DATE

05/22/89 i

CDDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/89 SAMPLE NUMBER : 890516-0062 DESCRIPTION : NORTH CENTRAL YARD DRAIN f

TEST UNITS RESULT pH SU 7.30 011 and Grease mg/l (

1. 0 Temperature Degrees C 19.0 Chlorine, Total mg/l

( 0.01 i F f l-l l CC : MR. W. S. HILL MR. J. M. GODFREY / o-c. % =_ BETTY CHAMBLESS g [g f4 N .e + u n .m.

+ General Test Laboratory i Building Number 8 AlabamaPower d i P.O. Box 2641 Birmingham, Al. 35291 j (Certificate of Analusis e TO t MR. BOB WOOD REPORT DATE

06/14/89

) CDDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/17/89.

SAMPLE NUMBER 890517-0045 i 8 DESCRIPTION : SOUTH YARD DRAIN TEST UNITS RESULT l PCU 45. j Color _ Biochernical Oxygen - Demand, 5 Day mg/l 3. Solids, Total Suspended mg/l 6. l 'l Crornide eng /l ( 0.20 i . Organic Carbon, Total mg/1 7. Fluoride mg/l 0.08 Nitrogen, Total Kjehldahl mg/l 0.87 Nitrogen, Ammonia mg/l 0.054 Nitrogen, Nitrate mg/l 0.02 Nitrogen, Nitrite mg/l 0.016 Nitrogen, Total Organte mg/l

0. 8 Phosphorus, Total mg/l 0.020 CC NR.

W. S. HILL MR. J. M. GODFREY "C8 eau.t Que.tv Conwei bev. C:-- -. P.O. BETTY CHAMBLESS g g, gm)

1 i j l L GeneralTcst Laboratory Building Number 8 abma Nw'er l' Sirmingham, Al. 35231 (fertificate of Analgsis TO MR. BOB WOOD REPORT DATE

85/23/89 CDDRESS t FARLEY NUCLEAR PLANT SAMPLE DATE

85/16/89 SAMPLE NUMBER : 890516-0065 i

DESCRIPTION . SOUTH YARD DRAIN TEST UNITS RESULT SU 7.30 pH 011 and Grease mg/l (

1. 0 Temperature Degrees C 20.0 l

Chlorine, Total mg/l ( 0.01 I i CC : MR. W. S. HILL MR. J. M. GODFREY / Cheauet Quemey Cameos 6.e. "" '. Page BETTY CHAMBLESS g ),_ um

I I General Test Laboratory Building Number 8 l ObOMO hN g i P.O. Box 2641 Birmingham, Al. 35291 g-i Lrtificate of Analgsis TO MR. BOB WOOD REPORT DATE

06/13/89 ADDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/89 j

SAMPLE NUMBER 890517-0049 DESCRIPTION : INTAME SCREEN BACKWASH UNITG 182 j TEST UNITS RESULT J Color PCU-22. pH SU 7.70 1 I Biochemical Oxygen Demand, 5 Day mg/l 1. ] 011 and Grease mg/l (

1. 0 Solids, Total Suspended mg/l 12.

t Temperature Degrees C 22.5 j Bromide mg/l ( 0.20 Organic Carbon, Total mg/l 5. Chlorine, Total mg/l 0.05 l Fluoride mg/l 0.03 Nitrogen, Total K,)ehldahl mg/l

0. 73 Nitrogen, Ammonia mg/l 2.019 Nitrogen, Nitrate mg/l 0.18 Nitrogen, Nitrite mg/l

( 0.005 Ni t rogen, Total Organic mg/l

0. 7 Phosphorus, Total mg/l 0.043 CC : MR.

W-S. HILL MR. J. M. GODFREY ewi o. ca. s c e BETTY CHAMDLESS g 4gg, .=n...

CeneralTest Laborst:ry Building Number 8 AlabamaPower A L P.O. Box 2641 Birmingham, Al. 35291 fertificate of ' nalysis r TO

MR. BOB WOOD REPORT DATE

06/13/89 CDDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/89 SAMPLE NUMBER : 890517-0061 DESCRIPTION : CONSTRUCTION AIR COMPRESSOR AND YARD DRAIN TEST UNITS RESULT

--------~~

Color PCU 2. Biochernical Oxygen Demand, 5 Day rng/l ( 1. I Solids, Total Suspended mg/l ( 1. i Bromide mg/l ( 0.20 Organic Carbon, Total mg/l 8. Fluoride mg/l 0.05 Nitrogen, Total Kjehldahl rog /l 0.25 Nitrogen, Ammonia mg/l ( 0.001 Nit rogen, Nitrate mg/l 0.01 Nitrogen, Nitrite mg/l ( 0.005 Nitrogen, Total Organic rng/l

0. 3 Phosphorus, Total mg/l 0.015 CC : MR.

W. S. HILL MR. J. M. GODFREY Com P'88 Ow**'ETT'*Y CHAMBLESS g g' C, yjg Chomet B " ~ a* pa w n ge 3,1

GeneralTcst Labor:t:ry Building Number 8 P.O. Box 2641 Alabama Power i Birmingham, Al. 35291 Certificate of Analysis TO MR. BOB WOOD REPORT DATE

85/22/89 CDDRESS : FARLEY NUCLEAR PLANT SAMPLE DATE

05/16/89 SAMPLE NUMBER : 890516-0061 DESCRIPTION : CONSTRUCTION AIR COMPRESSOR AND YARD DRAIN TEST UNITS RESULT t

pH SU 8.30 Oil and Grease mg/l (

1. 0 Temperature Degrees C 22.0 s

i A P 1 l l^ l CC : MR. W. S. HILL M R. J. M. GODFREY l / c o-, %. BETTY CHAMBLESS R //7 eV i .Tr . 9860R, NC., _.. _. _ _._

%eA# W+* %L,'.# l 9 t ? IIISTORICAL DATA

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.g._ 4 ,~ a_ PAGE I ALA8AMA POWER.CUHPAftY STATISTlCAL HISTORY nF THE NPDES. DATA . FRt* THE YEAR 1915 TO PRESENT LOCATIt*s SEMAGE PLANT DISCHARGE PolltTA 009 TEST.- UNIT CtWPOSITE FOR 24 HOURS LtH8G TERM DATA (GRA8 SAMPLE) MEAN No ME13 . STD DEV NO MAX MIN-FLOW (MGD) 0.0300 2 0.0353 0.1345 80 3.2200 O. ItEMPEHATURE (DEG C) 16.0500 2 -20.9333 6.2833 78 30.9000 7.5000 i PH 6.8500 2 7.0304 0.423I 143 8.2000 5.6700 CultR IPCU) I1.0000 1 4 FECAL CutIFORK (DRG./lOOML) O. I 7226.7700 22657.5000 77 99999.0000 0. RAD 10 ACTIVITY. TOTAL ALPHA PCs/ RADIOACTIVITY. TuTAL BETA PC8/L HAD10 ACTIVITY. TOTAL RADIUM PC8 s RADIDACTIVITY. TOTAL RADIUM 226 4 4 I 1 i d e s.. w>y-9 y-- v' -y v 4 yy d-3 wg t- - -.-h sueww-p.e 4 i% y 'er g -iWe-- ->gw q m

y. PAGE 2-ALABAMA power COIIPANY STATISTICAL HISTORY OF THE NPDES DATA FRt* THE YEAR 1975 TO PRESENT PLANT 8 FARLEY leJCLEAR LOCATIONS SEWAGE PLANT . DISCHARGE Pt3 INT 8 00f TEST CtMPt1 SITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE) NEAN(MG/L) No NASS(PPD) N EAN(MG/L) STD DEV NO -- NANGE (MASSIPPD) 1 87 [ C)O (MG/L) 42.0000 8 10.5 58.8615 88.2617' 87 -399.I500 j CCO - CHENICAL DAYGEN DEMAND (M 87.2494 84.7467 17 295.7745 25.7-j- CAWSON. URGANIC (MG/L) 15159.4000 60586.7998 16 42356.3926 4461.5 TOTAL SUSPENDED SOLIDS (MG/L) 97.0000 1 24.3 81.0188 183.9760 US 3223.0000 23.8 AMMONIA (AS N) (MG/L) 18.1570 2 4.5 0.8000 1 0. O.2 i BRtM IDt: - (MG/L) 0.5000 1 0.I 3 TOTAL CHLORINE (MG/L) 1.5500 2 0.4 4 7.4333 JI.3597 .322 I46.9000 2.2-F100 RIDE - F (mG/L) 0.2015 I 0.I NITRITE - NO2 (MG/L) 0.0999 I 0.0 NITROGEN.82GANIC - (MG/L) Oil AND GREASE (MG/L) I.2000 2 0.3 I.9667 1.4922 4 3.7000 0.6 i TOTAL PHOSPHURtIS - P (MG/L) SULFATE - 504 (MG/L) 38.2640 3 9.6 4 i SULFIDd iMG/L) 0.0582 2' O.0 SULFITE - (MG/L) 4.5000 2 I.! l 1 RBAS (MG/L) 0.0152 1 0.0 ALUMINUM. TOTAL - AL (MG/L) 2.3162 2 0.6 BARIUM - BA (MG/L) 0.1637 2 0.0 BORON. TOTAL - B (MG/L) 0.1415 I 0.0 CGBALT. TOTAL - CD (MG/L) .0.0185 2 0.0 JRON. TOTAL - FE (MG/L) 2.3447 2 0.6 CAGNESIUM MG (MG/L) II.5610 2 2.9 COLYBOENUN. TOTAL - MO (MG/LJ 0.0I00 2 0.0 CANGANESE. TuTAL MN (MG/L) 0.0503 2 0.0 TIN. TOTAL - SN (MG/L) 0.3296 2 0.0 . _.,.., _ ~ _.. _. -

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t 0 PACE C' ALAB ANA PUNTER. CUNPACty . STATfSTfCAL HISTORY OF THE IIPDES DATA ^ FRtm THE YEAR 1975 TO PRESENT PLANT: FAPLEY. NUCLEAR LOCATIONS COOLING 70WER BLtMDOWN - UNIT I DISCHARGE POINTE 2 2A TEST - UNIT CumPDSITE FOR 24 HOURS LtMG TERW DATA (GRAS SAMPLE) M EAN Mn MEAN. ._ STD DEV ' NO WAK NIN FLOW INGO) 2.1357 2.6487 - 1809 I4.1820 - O. 12.000b TOIPERATURE (DEG C) 27.6485 4.9859 15e 36.8000 PH 8.0464 0.3909 157 8.8500 6.9000 CULUR 4PCU) FECAL CULIFORA (ORG./IO0mL) RADIOACTIVITY. TOTAL ALPHA PCs/ RADIuACTIVITY. TOTAL BETA PCs/L d RADIDACTIVITY. TOTAL RADIUM PCs RADIOACTIVITY. TOTAL RADIUM 226 l 4 4 i t 4 -m,.. -e. m .wn ,-vew+---c -w-- ,wv-v, w-.c-e-- -.v. ---,,-._m .-m.. -.- - sM

g. _ M: SQ., Q ALA8 AWA PtmER COMPANY STATISTICAL HISTORY 05 THE NPDES DATA FRr4 THE YEAR 1975 TO PRESENT PLANTS FARLEY NUCLEAR LOCATION: COULING TtmER Blo4IXmN - UNIT I DISCHARGE POINTS 002A . LONG TERW DATA (GRAS SASPLE) TEST COMPUSITE FOR 24 HOURS MEAN(MG/L) STD DEY No RANGE (WASS(PPD)' NEAN(MG/L) - NO M ASS (PPD 3 C')D (MG/L) 01D - CHEMICAL DXYGEN DEMAND (M CARBON. URGANIC (MG/L) TOTAL SUSPENDE3 SOLIDS (MG/L) AMdoNIA iAS MJ (MG/L) BRodIDE - (dG/L) TOTAL CHLORINE (MG/L) 0.I000 356 0. I.8 FLouRIDE - F (dG/L) NITRITE - NO2 (dG/L) 9 NITROGEN.tMGANIC .(MG/L) OIL AND GREASE (dG/L) 10TAL FHOSh(URUS - P (MG/L) \\ SULFATd - 504 (MG/L) SULFIDE (MG/L) SULFITE - (dG/L) . CCAS (MG/L) ALU41MUE. TOTAL - AL (MG/L) CARIUM - BA (MG/L) BUROM. TOTAL - B (mG/L) CUBALT. TOTAL - CD (MG/L) IRON. TOTAL - FE (MG/L) 1' EAGNESIUM MG (dG/L) COLYBDENUM. TOTAL - MO (MG/L) 1 i CANGANESE. TOTAL MN (MG/L) TIN. TuTAL - SM (MG/L) . ~.

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g PAGE IS . ALABANA PtMER CtmPANY STATISTICAL HISTtRY OF THE NPDES DATA FRon THE YEAR 8990 To PRESENT .g PLANTe FAkLEY WUCLEAR. . LOCATION 8 COULING TtmER Blo4DtmN - UNIT 2 DISCHARGE POINTS 0029 TEST - UNIT CtMPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE) WEAM Mo AEAN STD DEV MU NAX. MIN FLtM (MGD) 3.49I5 S.5287 943 14.4000 c. TDEPERATURE (DEG C) 27.3695 6.7869 60 35.4000 2.7000 PH 8.3608 0.3702 59 8.8000 7.2800 COLOR APCU) FECAL COLIFORM (DRG./IDONL) CADIDACTIVITY, TOTAL ALPHA PCs/ RADIOACTIVITY, TOTAL BETA PCe/L CADI0 ACTIVITY. TOTAL RADIUM PCs RADIOACTIVITY, TOTAL RADIUM 226 t g y y.-p --.7 ~ .e, .w, ,r,.-wg --e's've'-ww ':--ev w w-w- -w%- W e v' -*evv*---e W

".3 ~~ PAGE 86 .... ALABANA POWBt CDetPAftY STATISTICAL.HISTuRY oc THE NPDES DATA FRom THE YEAR IPSO. TD PRESENT PLANT

FARLEY NUCLEAR-LDCATIONs COULING TtMER BL(MDEMN - UNIT 2 DISCHARGE POINTS 002B TEST CtWPOSITE FtM 24 HOURS

. LtMG TERN DATA (GRAB SApPLE)

EAN(MG/L)

No N ASS (PPD) MEAN(NGrt). STD DEV NO RANGE (NASS(PPD) BOD (NG/L) CCD - CHEMICAL DIYGEN DEMAND (N ~ CARBON. URGANIC (NG/L) TOTAL SUSPENDED SOLIDS (MG/L) AMMONIA (AS N) (#G/L) BROMIDE - (MG/L) TOTAL CHLtMINE (mG/L) 0.1000 0.0000 40 O. 2.9 FLOURIDE - F (WG/L) NITRITE - NO2 (dG/L3 NITWOGEN.tRGANIC - (MG/L) UIL AND GREASE (dG/L) TUTAL PHOSPHURUS - P (MG/L) SULFATE - 504 (dG/L) SULFIDE (MG/L) SULFITE - (dG/L) CBAS (WG/L) LLUMINUd. TOTAL - AL (MG/L) CARIUM - BA (MG/L) BORON. TUTAL - B (AG/L) COB ALT. TOTAL - Co (MG/L) IRUM. total - FE (MG/L) CAGNESIUM AG (mG/L) McLYBDEr4UW. TUTAL - so (MG/L) CANGANESE. TuTAL MN (MG/L) TIN. TUTAL - SN (NG/L)

~. ~ ~ PAGE. 37 1 At.ABAMA P(MER CutlPANY _ STATISTICAL HJSTORf IF THE 7 DES DATA FRtm THE YEAR 1990 TO PRESENT PLANT 8 FARLEY. NUCLEAR LOCAT1t** C(mLING TD#ER BLfMDowN - UNIT 2 DISCHARGE POINTS 0028 ~ TEST C(MPOSITE FOR 24 HOURS LONG TERN DATA (GRAB SApiPLE) MEAN(MG/L) . No m ASS (PPD) MEAN(NG/L3. STD DEV, . NO RANGE 45 ASS (PPD) TITANIUM TOTAL - TI (MG/L) ANTIMONY. TUTAL - SB (MG/L) .AOSENIC.TUTAL - AS (MG/L) BERYLLIUA. TOTAL - BE (MG/L) C AD4 iud. TOTAL.- CD (MG/L) CHRo41Um. TUTAL - CR (WG/L) COPPER. TuTAL - CU (MG/L) LEAD. TUTAL - PS (MG/L) CERCURY. TOTAL - HG (MG/L) MICKEL. TUTAL - MI (MG/L) SELENIUW. TUTAL - SE (mG/L) 0.0050 I O. O.1 ~ SILVER. TOTAL - AG (MG/L) THALLIUM. TuTAL - TL (m3/L) ZINC. TOTAL - ZN (MG/L) 0.0300 I O. O.3 CYANIDE - (MG/L) PHENDLS (WG/L) .e s4,,,. y-w.y. e -.ye.n p-p, y% + c~p ge ..y.., c m,-... .mg9. s, ,eg. y,.y w. y.,,, ,-pe ., ewe,-p ..-#yw p

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ALABAMA PDWBI QMPANY-STATISTICAL MISTORY OF THE NPDES DATA i

FRon THE YEAR 1975 fu PRESENT PLANTe F ARLEY WUCLEAR . LDCATIONs STEA4 GENERATOR BLowDOMM - UNIT I DISCMARGE POINTJ 0034 TEST - UNIT COMPuSITE FtWi 24 HOURS UWG TCIM DATA (GRAB SAMPLE) MEAN No MEAN . STD DEV NO WAK MIN FLOW INGD) 0.0992 0.0633 60 0.I700 0. TEMPERATURS (DEC CD ~ PH 7.8333 0.7893 3 8.3600 6.9000 COLOR JPCU) 4 FECAL COLIFORM (URG./100mL) RADI0 ACTIVITY TOTAL ALPHA PCs/ RADIDACTIVITY. TOTAL BETA PCs/L R ADI0 ACTIVITY TOTAL RADIUM PCs RADI0 ACTIVITY, TOTAL RADIUM 226 v e -,e-w =<v 4 4 -+t e-i-- ir &v'4--teu-- 4 y p-sM-a v en%,-W-A 4-yw9-s 9-m y e %-y%-9. gg.e9,.y-,99 3.wp_ ,y y4

~ s PAGE.-23 . ALABANA POWER CrimPAWY ' STATISTICAL >f! STORY UC THE NPDES DATA FRtw THE YEAR 3975 TO PRESENT PLANTS FARLEY NUCLt!AR IJ) CATION: STEAM GENERATOR BLo*DtMM - UNIT I DISCHARGE POINTS Oo3A TEST CtWPOSITE Fini 24 MKJRS LONG TER4 DATA (GRAB S4mPLE) DEAN (mG/L) No MASS (PPol m EAN (mG/IJ STD DEV . NO RAMGE (NASS(PPD) BOD (MG/L) CDD - OfEdICAL DXYGEN DEMAND (M CART)0N. URGANIC (MG/L) TOTAL SUSPENDED SOLIDS (mWL) 4.1304 8.8383 46 46.0000 J.4 Ca#0MIA ( AS N ) (MG/L) BRt*IDE - (MG/L) TOTAL CHLORINE (mG/L) FL(FJRIDE - F (dG/L) MITRITE - NO2 (#G/LP DITEOGeiN. ORGANIC - (MG/L) u!L AND GREASE (wG/L) t.3023 0.7002 43 J.1000 f.I TOTAL PHUSPHi%iUS - P (dG/L) SULFATE - 504 (MG/L) SULFIDE (4G/L) SULFITE - (MG/L) CBAS (dG/L) ALU41Nud. TUTAL - AL (MG/L) BA21UM - BA (MG/L) buRON. TOTAL - B (mG/L) CtCALT TOTAL - CD (WG/L) IRON. TOTAL - FE (MG/L) 1.6622 2.7696 . 45 30.4220 f.4 EAGNtiSIUM NG (MG/L) caLYBDENU4. TOTAL - mo (MG/L) CANGAMESE. TUTAL MN (EG/L) . TI2. TOTAL - SN (MG/L) =

m ^PROE 24 ALABAsA POWER COWPANY staff STICALJf3 STORY tF THE NPDES DATA FROM THE YEAR 1975 TO PRE 5iMT PLANTS FARLEY NUCLEAR LOCATJDNs STEAN GENERATOR BLCMDOWN - (MIT, I DISCHA3rGE POINTS 003A TEST CrusPcSITE FOR 24 HtXTRS LONG TERut DATA (G8AE SAMPLE) MEAN(DG/L) NO WASS(PPD). -NEAM(#G/L).. STD DEV NO RANGE (dASS(PPD)- TITANIUM. TUTAL - TI (mG/L) ANTIMONY. TUTAL - 58 (#G/L) ~ . A';SEMIC. TOTAL - AS (mG/L) 0.0050 2 9. 0.0 BERfLLIUs, TUTAL - ifE (MG/L) CADdIUd. TOTAL - CD (MG/L) .CHRUMIUd. TUTAL - CR (MG/L) CUPPER. TOTAL - CU (mG/L) 0.3966 0.6390 46 3.3753 0.3 LE.D. TOTAL - PB (MG/L) EERCURY. TOTAL - HG (MG/L) 0.0002 i O. 0.0 ..CICKEL. TOTAL - NI (dG/L) SELENIUM. TuTAL - SE (MG/L) 0.0050 2 0. 0.0 SILVER. TOTAL - AG (MG/L) l TMALLIU4. TOTAL - TL (4G/L) ZINC. TuTAL - IN (MG/L) CYAJIDE - (MG/L) ~ . PMENOLS (WG/L1 1

~ ~ s . 8 - PAGE 29 ALABANA POWER COMPANY STATISTICAL HISTORY (1F THE MPDES DATA FRtm THE YEAR 19t90 TO PRESBri PLANTS FARLEY NUCLEAR LOCATION: STEAM GENERATOR BLO*DtmN - UNIT 2 DISCHARGE POINT 8 0038 TEST - UNIT COMPUSITE FOR 24 HOURS LONG TERM DATA (GRA8 SAMPLE) MEAN No MEA 4 STD DEV NO WAK MIN Flon (NGO) 0.0592 0.0592 3I - D.1339-O. TEMPERATURE (DEG C) PH COLOR (PCU) FECAL CuLIFORM (ORG./IDONL) RADI0 ACTIVITY,' TOTAL ALPHA PCs/ GADioACTIVITY. TOTAL BETA PCs/L RADI0 ACTIVITY. TOTAL RADIU4 PCs RADIuACTIVITY. TOTAL RADIUM 226 I j t 'l 4 4 I 4 1 e e g --gy-9 y = -gy

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~ PAGE JI ALABAMA POWER CUNPAltY STATISTICAL HISTORY (F THE NPDES DATA FRIN THE YEAR 3900 To PRESENT PLANTS FARLEY. NUCLEAR LOCATION STEAM. GENERATOR SiodDonN 'JNIT 2 DISCHARGE. POINTS 0038 (MkSS(PPD) N EAN /L) NI SS(PPD) DEAN (MG/L3. S V O TITANIUM. TUTAL - T1 (MG/L) ANTIMONY, TUTAL - SB (MG/L) ARSENIC.TUTAL - AS (MG/L) BERYLLIUM. TUTAL - BE (MG/L) CADMIUM TOTAL.- CD (MG/LJ CHROMIUM. TOTAL - CR (MG/L) COPPER. TOTAL - CU (MG/L) 0.0456 0.0606 19 0.2236 0.,0 LEAD. TuTAL - PS (MG/L) MERCURY. TOTAL - HG (MG/L) NICKEL. INTAL - NI (MG/L) SELENIUM TOTAL - SE (MG/L) SILVER. TOTAL - AG (MG/L) THALLIUM. TUTAL - TL (MG/L) ZINC. TUTAL - ZN (MG/L) CYANIDE - (MG/L3 1 1 PHENOLS (MG/L) i .. ~...

_. ----~ e ^ - PAos : as - g. ALABAMA POWER COMPANY STATISTICAL J11 STORY OF THE NPDES DATA FRan THE YEAR 1975 To PRESENT g PLANTS FARLEY ss3 CLEAR LOCATIOMs TL'RBINE B31LDING SUmi' - UNIT I DISCHARGE POINTS 004A-g TEST - UNIT COWPa51TE FOR 24 HtFJRS LONG TERM DATA (GRAB SANPLE)' ~ M EAN Mo ~NEAM STD DEV . No MAX NIN s Floa (2003 0.0257 0.0356 267 0.3692 O. TE81'ERATURE (DEG CJ PH '7.6I98 D.5279 254 9.0026 .6.3700 e COLOR (PCU) FECAL COLIFORM (ORG./IDONL) RADIOACTIVITY. TDTAL ALPHA PCs/ i EADICACTIVITY. TUTAL BETA PCs/L 4 RADIuACTIVITY, TUTAL RADIUM PCs RADIOACTIVITY. TuTAL RADILM 226 1

?i . ALABANA power COMPANN STATISTICAL HISTDRf tF THE. NPDES DATA FRom THE YEAR 1975 TO PRESENT g PLANTS.FARLEY NUCLEAR LOCAT]DNe TURBINE BUILDING SUMP - UNIT-I-DISCHARGE POINTS 004A TEST CDWPOSITE FOR 24 terJRS . LONG TERN DATA IGRAS SAMPLE)

EAN(#G/L3

.ND EASS t PPD) . MEAN(MG/LJ STD DEV NO RANGE IMASS(PPD) BOD (MG/L) 0.9000 I O. O.2 cud - CHEMICAL OKYGEN DEMAND (N CARBON. ORGANIC (4G/L) TUTAL SUSPENDED SOLIDS (MG/L) 9.2935 . 23.5870 254 335.0000 2.1 ARMONIA (AS N) (MG/L) BHOWIDE - (dG/L) TOTAL CHLORINE (MG/L) FLOURIDE - F (MG/L) CITRITE - NO2 (WG/L) I DIT40 GEN.1MGANIC - (MG/L) DIL AND G4 EASE (MG/L) J.0885 6.4780 252 93.0000 0.7 TOTAL PHuSPHORUS - P (MG/L) SULFATE - S04 (dG/L3 1 SULFIDE (MG/L) SULFITE - (8G/L) NBAS (MG/L) ALUdINUs. TOTAL - AL (#G/L) BARILM - BA (MG/L) BORON. TOTAL - B (MG/L) CnBALT. TOTAL - CO (DG/L) [ IRON TOTAL - FE (WG/L3 CAGNESIUM WG (MG/L) poLYBDENU4. TOTAL - No (MG/L) CAMGANESE. TOTAL EN (MG/L) TI2. TOTAL - SN (#G/L) ,. ~, ~.

l a f PAGE 43 I AI.ABAN A POWBt COMPANY STATISTICAL. HISTORY OF THE NPDES DATA FRun THE YEAR 1990 TO PRESENT PLANTS FARLEY. NUCLEAR LOCAT10N8 TURBINE BUILDING SUMP - UNIT 2 DISCHARGE POINTS 0048 TEST - UNIT COMPOSITE FOR 24 HOURS LDMG TERN DATA (GRAB SAMPLE) ~ MEAN hu MEAN STD DEf . NO MAX EIN ,_4 FLOM iMGD) 0.0188 0.0369 136 '0.3798 0.. TEMPERATURE (DEG C) PH 7.4697 0.3433 65 8.5600 6.5500-COLOR IPCU) FECAL CULIFORM (URG./IOOML) RADIDACTIVITY. TOTAL ALPHA PC8/ - RADIDACT]VITY, TUTAL BETA PC8/L RADIOACTIVITY, TOTAL RADIUM PCs RADIDACTIVITY, TOTAL RADIUM 226 m e ~... - ~... ... m

, n. .~ "j PAGE-44 g.. A.ABAM A PtMER Cr MPANY STATISTICAL. HISTORY OF THE NPDES DATA FROM THE YEAR 1980 TO PRESENT PLANT

FARLEY. NUCLEAR LOCATIONS TURBINE BUILDING SUMP - UNIT 2 DISCHARGE POINT
0048-TEST COMPOSITE FOR 24 HOURS LtWG TERM DATA (GRA8 SAnPLE)

REAN(MG/L) NO M ASS (PPD) MEAN(MG/L) STD DEV . NO RANGE (MASS (PPD) BOD (MG/L) CUD - CHEMICAL OXYGEN DEM AND (M ^ CARetM. URGANIC (MG/L) 10TAL SUSPENDED SOLIDS (MG/L) 4.5454 6.7443 66 44.0000 D.7 APMONIA (AS N) (MG/L) BROMIDE - (MG/L) TOTAL CHLoulNE (NG/L7 FLOURIDE - F (MG/L) NITHITE - NO2 (MG/L) t NITRUGEN. ORGANIC - (MG/L) UIL AND GREASE (MG/L) 2.7578 .J.2552 66 (6.9000 0.4 TOTAL PHUSPHORUS - P (MG/L) 1 SULFATE - 504 (MG/L) i SULFIDE (MG/L) SULFITE - (MG/L) CBAS (MG/LP ALUMINUM. TOTAL - AL (MG/L) + BAulUM - BA (MG/L) if0 ROM. TOTAL - B (MG/L) CCCALT. TOTAL - CO (MG/L) IRON. TOTAL - FE (MG/L) CAGNESIUM MG (MG/L) COLY 8Di3UM. TOTAL - Mu (MG/L) CATANESE. TOTAL MM (MG/L) TIN. TOTAL - SM (MG/L)

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- PAGE -I 78 'e . ALABAMA PIDfEtt CollPANY . STAYlSTICAL HISTORY OF THE MPDES D4tA FROM THE YEAR 1975 To PRESENT ..y 'PLANTJ ~F ARLEY NUCLEAR LOCATIONS NASTE. SETTLING POND DISCHARGE POINT

005 TEST - UNIT COMPOSITE FOR ~ 24 HOURS.

. LONG TERM DATA (GRAB SAMPLE) MEAN NO MEAN . STD DEV. NO MAX MIN 7 FLOW 4MGO) ~ 0.2437 0.7090 196 9.0200 O. TEMPERATURE (DEG C) PH 7.6019 0.7773 182 10.6800 5.2100 COLOR (PCU) FECAL COLIFORM (ORG./100ML) -RADIuACTlVITY. TOTAL ALPHA PC / ~A RAD 10 ACTIVITY, TOTAL BETA PC /L RADICACTIVITY. TOTAL RADIUM PCs RADIDACTIVITY, TOTAL RADIUM 226 1 .. ~,.. _..

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R ANGE (NASS(PPD)

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.,... ~.. z.: PAGE 99~ .. ALABATA POWER COMPANY a STATISTICAL HISTORY OF THE NPDES DATA "r-FOR ' OCTOBER. 198 3 A) I PL*.N T 8 FARLEY NUCLEAR LOCATIDNs SOUTH YARD DRAIN. . DISCHARGE POINTS TEST.- UNIT -- COMPOSITE FOR'24 HOUR 9 LONG. TERM DATA (GRAB SAMPLE) 'AIN MEAN No MEAN STD DEV

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w. JPAGE 100' '. ALABAMA PtMER COMPANY STATISTICAL. HISTORY OF THE NPDES DATA - FOR _0CTOBER. 1981 . PLANT: FARLEY. NUCLEAR LOCATIONS SOUTH YARD DRAIN DISCHARGE POINT 8 TEST COMPOSITE FOR 24 NOURS . LONG. TERM DATA (GRAB SAMPLE) MEAN(MG/L) NO-N ASS ( PPD).. REAN(MG/L) .s. STD DEY ' NO RANGE (MASS (PPD) - i BOD (MG/L) 1.2000 1 0.5 CDD - CHEMICAL OXYGEN DEMAND (M 2.0000 1 0.8 CARBON URGANIC (MG/L) 50.0000 1 18.9 TOTAL SUSPENDED SOLIDS (MG/L) 3.0000 1 1.1 ACX1NI A (AS N) (MG/L) 0.1077 1 0.0 BROMIDE - (MG/L) 0.5000 i O.2 TOTAL CHLORINE (MG/L) 0.0100 1 0.0 FLOURIDE - F (MG/L) O.I252 I 0.0 NITRITE - NO2 (MG/L) 0.0145 1 0.0 NITRUGEN. ORGANIC - (MG/L) . 0.3491 1 0.1 OIL AND GHEASE (MG/L) 2.2000 1 0.8 $ TOTAL PHOSPHORUS - P (MG/L) 0.0420 1 0.0 SULFATE - 504 (MG/L) 7.1942 1 2.9 SULFIDE (MG/L) 0.0100 3 0.0 SULFITE - (MG/L) l.0000 1 0.4 ~ CBAS (MG/L) 0.0100 I O.0 ALUQINUM, TOTAL .AL (MG/L) '3.0239 I I.I BARIUM - BA (MG/L) 0.1000 1 0.0 BORON. TOTAL - 8 (MG/L) 0.1459 1 0.1 COBALT. TOTAL - CD (MG/L) 0.0100 1 0.0 IRON. TOTAL - FE (MG/L) 0.3 777 2' O.I CAGNESIUM MG (MG/L) 1.3896 I 0.5 COLYBDENUM TOTAL - MD (MG/L) 0.0300-1 0.0 MANGANESE. TOTAL MN (MG/L) 0.0300 I ' 010, TIN. TOTAL - SN (MG/L) 0.5523 1 0.2 m g ,.ye c ppp.- y-y ,osw-, e.-wy+ p.gg,

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,~ - .. -7g ._ 3 -3 PAGEL807 JU.ABAMA POWER C(WPANY STATISTICAL HISTORY OF THE NPDES DATA FOR THE MONTHS OF APRIL. & OCTOBER,- 1988 PLANT F ARLEY. NUCLEAR LOCATION UNIT 2. RIVER WATER STRUCTURE SUMP. DISCHAROE POINTS CtWPOSITE FOR 24 HOURS LONG TERM DATA (GRAB SAMPLE) TEST -.N EAN (MG/L) - - No MASS (PPD) MEANIMG/L) - -STD DEV.- No.. RANGE (M ASSA PPD) -. ~~3 BOD (MG/L) 0.9500 2 0.1 CUD - CHEMICAL OXYGEN DEMAND (M 7.5495 2 1.1 CARBON. (MGANIC (MG/L) 50.0000 2 7.3 TOTAL SUSPENDED SOLIDS (MG/L) 8.5000 2 1.2 AMMONIA (AS N) (MG/L) 0.1377-2 0.0 BROMIDE - (MG/L) 0.5000 2 0.1 TOTAL CHLORINE (MG/L) 0.0100 2 0.0 FLOURIDE - F (MG/L) 0.1053 2 0.0 NITRITE - NO2 (MG/L) 0.0180 2 0.0

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0.0 OIL AND GREASE (MG/L) I.4000 2 0.2 TOTAL PHOSPHORUS - P (MG/L) 0.0356 1 0.0 SULFATE - SO4 (MG/L) 7.7236 2 1.1 SULFIDE (MG/L) 0.0189 2 0.0 SULFITE - (MG/L) 1.0000 2 0.1 DBAS (MG/L) 0.0100 2 0.0 ALUMINUM. TOTAL - AL (MG/L) 2.2933 .2 0.3 BARIUM - BA (MG/L) 0.1000 2 0.0 BORON. TOTAL - B (MG/L) 0.0972 2 0.0 COBALT. TOTAL - CD (MG/L) 0.0185 2 0.0 IRON. TOTAL - FE (MG/L) 0.7212 3 0.1 CAGNESIUM MG (MG/L) 1.1992 2 0.2 00LYBDENUM. TOTAL - MO (MG/L) 0.0100-2 . 0.0 MANGANESE. TOTAL MN (MG/L) 0.0386 2 0.0 TIN. TOTAL - SN (MG/L} -C.5303 2' O.I.

g. PAGE-I13- .. ALABAMA PonER COMPANY - STATISTICAL HISTORY DF' THE NPDES DATA -=A - FOR THE MONTHS OF-APRIL & OCTOBER, 1981 PLANTS.F ARLEY NUCLEAR LOCATIONS. UNIT _ l RIVER MATER -STRUCTURE SUMP DISCHARGE POINTS TEST. - UNIT CtWPOSITE FOR 24 HOURS .LONG TERM DATA (GRAB SAMPLE)- MEAN No M EAN .-. STD DEV NO-WAX MIN 4 FLON IMGD) 0.0251 2-TEMPERATURE (DEG C) 23.4000 2 PH 6.7000 2 COLOR IPCU) 6.5000 2 t FECAL COLIFORK (ORG./100MLJ 10.0000 '2 - RADIDACTIVITY. TOTAL ALPHA PCs/ RADIDACTIVITY. TOTAL BETA PCs/L RAD 10 ACTIVITY. TOTAL RADIUM PCs RADI0 ACTIVITY, TOTAL R ADIUM 226 .I ( i L ~ 4 w. .uem- ->m.s -==m-- ne-H2A w -in:-.m-* -a-*;,.8 sa-w-_- ^

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,3 ~ u-PAGE 321-bN 9 ALABAMA PONER. C(MIPANY STATISTICAL HISTORY W THE NPDES DATA ~ ~ FOR OCTOBER,:1981 PLANTS FARLEY : LOCATION: EAST YARD-DRAIN DISCHARGE. POINT 8 2 - LONG. TERM DATA-(GRAB SAMPLE) TEST COMPOSITE FOR 24 HOURS MEAN(MG/L)- No NASS(PPD).. MEAN(MG/L).. STD DEV-NO RANGE - ( MASS ( PPD) < BOD (MG/LJ 0.~ 7000 - I-C00 - CHEMICAL OXYGEN DEMAND (M 9.0000 I CARBON. URGANIC (MG/L) TOTAL SUSPENDED SOLIDS (MG/L) 3.0000 I. AMMONIA (AS N) (MG/L) 0.1367 I BROMIDE - (MG/L) 0.5000 3 TOTAL CHLORINE (MG/L) 0.0100 I FLOURIDE - F (MG/L) 0.2422 I NITRITE - NO2 (MG/L) .0.0838 I NITROGEN. ORGANIC - (MG/L) 0.4873 i OIL AND GREASE (MG/L) 3.1000 I TOTAL PHOSPHORUS - P (MG/L) 0.0933 i SULFATE - 504 (MG/L) 28.8110 1-SULFIDE (MG/L) 0.0100 l' SULFITE - (MG/L) I.0000 I.. .CBAS (MG/L) 0.0100 1 ALUMINUM. TUTAL - AL (MG/L) 1.6529 i BARIUM - BA (MG/L) 0.1000 I BORON. TUTAL - B (MG/L) 0.3981 I COBALT. TOTAL - CD (MG/L) 0.0100 1 IRON. TOTAL - FE (MG/L) 1.2221 2 AAGNESIUM NG (MG/L) 6.0148 I NOLYBDENUM. TOTAL - MO (MG/L) 0.0100 1 M ANGANESE. TOTAL MN ' (MG/L) 'O.8552 I TIN. TOTAL - SN (84G/L) 0.8823 1- .-_i~.___... ___ _.L._.

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_i ~ - -_ * - - G ,j. 7 -q; h x-m. PAGE 127-: -~ .. - AL ABAM A PIMER. CtMP ANY - STATISTICAL HISrc9Y OF THE NPDES DATA' ~ ~FOR OCTOBER.-1983 . - FLANTs FARLEY: LOCATION 8 NORTHWEST YARD DRAIN- " . DISCHARGE. POINTS LONG TERM DATA (GRAB SAMPLE) i TEST A UNIT COMPOSITE FOR 24 HOURS MEAN-NO .MEAN -c STD DEV NO MAK ' MIN 4 FLod IMGD) 0.0300-I TEMPERATURE (DEG C) 27.2000 'I PH 7.3000 1 COLOR fPCU) O.8000 I FECAL COLIFORM (ORG./100ML) 360.0000 I HAD10AcrIVITY. TOTAL ALPHA PCs/ RADI0 ACTIVITY, TnTAL BETA PCs/L RADI0 ACTIVITY, TOTAL RADIUM PCs RAD 10ACTIYlTY. TOTAL RADIUM 226 O A 4 3 y ^- m, m +g-ye., ,st+-- rme e r- .,g--.-,, ..,r. +w_, e 2

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LOCATION: NORTH 4EST YARD DRAIN- ~ DISCHARGE POINTS TEST -COMPOSITE FOR 24 HOURS- 'LONG TERM DATA (GRAB SAMPLE)- MEAN(MG/L)- ' -NO-M ASS (PPD) JIEAN(MG/L) STD DEV NO RANGE (MASS (PPD)- BOD-(MG/L) 6.9000 1 1.7 C00 - diEMICAL OXYGEN DEMAND (M 'l92.0060 1 -- 48.0 CARBON. ORGANIC (MG/L) 95.7450 1 23.9 TOTAL SUSPENDED SOLIDS (MG/L) 4.0000 I 1.0 ACMONIA (AS N) (MG/L) 0.1029 'I 0.0 BROMIDE - (MG/L) 0.*000 I. 0.1 TOTAL CHLORINE (MG/L) 0.0100' I 0.0 FLOURIDE - F (MG/L) 0.1051 1 0.0 NITRITE - NO2 (MG/L) 0.0672 I U.0 N ITROGEN. ORGANIC - (MG/L) 0.7501 1 0.2 OIL AND GREASE (MG/L) 3.9000 I 0.5 TOIAL PHUSPHORUS - P (MG/1.) 0.0324 I 0.0 SULFATE - SO4 (MG/LI 7.2104 1 3.8 SULF IDti (MG/L) 0.0100-1 0.0 SULFITE - (MG/L) l.0000 1 0.3 I MBAS (MG/L) 0.0100 1 0.0 ALU4 INUM TOTAL - AL (MG/L) 1.5343 I 0.4 BARIUM - BA (MG/L) 0.1000 1 0.0 BORON, TOTAL - B (MG/L) 0.1341 1 0.0 Q)BALT. TOTAL - CO (MG/L) 0.0100 1 0.0 1RON. TOTAL - FE (MG/L) 0.2069 2 0.1 CAGNESIUM NG (MG/L) . 13.6490 1 3.4-COLYBDENUd. TOTAL - MO (MG/L) 0.0100 3 0.0 DANGANESE. TOTAL MN (MG/L) 'O.0300 I ' O.O ~ TIN, TOTAL - SM (MG/L) 0.5199 1 0.1 .=

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.7, 4 ~ _ :^ ~' ..PAGE 834c - ~ ALABAMA PtMER C(1HPANYc - STATISTICAL. HISTORY.0F THE NPDES DATA. FnR OCTOBER. 1988-PLANTS FARLEY -. LOCATIONS SERVICE WATER STRUCTUHE SUMP - UNITS 112. DISCHARGE POINTS TEST. UNIT COMPOSITE FOR 24 HOURS . LDMG TERM DATA '(GRAB SAMPLE) MEAN No

MEAN

~.- STD DEV No . MAX- . MIN-FLOW (MGD). TEMPERATURE (DEG C) 25.0000 I PH 6.8000 -1 COLOR IPCU) 1.0000 1 FECAL COLIFORM (ORG./lOONL) O. I. HAD10 ACTIVITY. TOTAL ALPHA PCs/ RADIDACTIVITY. TOTAL BETA PCs/L-RADI0 ACTIVITY. TOTAL RADIUM PCs-RADIDACTIVITY. TOTAL RADIUM 226 t e l I 2 u. 2... ....,_,_,.....a.._,...-_..;c

-ALABAMA POMst coupANY. STATISTICAL HISTORY OF THE NPDES. DATA. FOR UCTOBER. 1981. PLANTS FARLEY. LOCATI(Wis.. SERVICE MATER STRUCTURE SUMP - UNITS I&2 DISCHARGE POINTS .LONG TERM DATA (GRAB SAMPLEJ . TEST- .. COMPOSITE FOR 24 ffOURS

REAN(MG/L). STD DEV

- NO RANGE (NASS(PPD) MEAN(NG/L)- NO. -- MASS ( PPD). BOD (MG/L) 0.8000-I C00 - CHEMICAL OXYGEN DEMAND (M 0. I CARBON. URGANIC (MG/L) 50.0000 I . TOTAL SUSPENDED SOLIDS (MG/L) 6.0000 1 ARMONIA (AS N) (MG/L) 0.1246 1 BROMIDE - (MG/L) 0.5000 1 TOTAL CHLORINE (MG/L) 0.0100 1 FLOURIDE - F (MG/L) 0.1228 1 NITWITE - NO2 (MG/L) 0.0155 1 f. NITROGEN.UHGANIC - (MG/L) 0.3815 I I O!L AND GREASE (4G/L) l.0000 1 TOTAL PHOS 9HORUS - P (MG/L) 0.0308 I SULFATE - SO4 (mG/L) 6.6266 ~1 SULFIDS (MG/L) 0.0100 1 SULFITE - (MG/L) l.0000 I j MSAS (MG/L) 0.0100 I QLUMINUM. TOTAL - AL (MG/L) 2.9634 1 I BARIUM - BA (MG/L) 0.1000 1 BORuN. TOTAL - B (MG/L) 0.1735 1 COBALT. TOTAL - CD (MG/L) 0.0100 I JRON. TOTAL - FE (NG/L) 0.8088-2 RAGNESIUM MG (MG/L) 1.3896 i MULYSDENUM. TOTAL - MO (MG/L) '0.0100 1 OANGANESE. TOTAL NN (MG/L) 'O.0300 I TIN. TUTAL - SM (MG/L) O.II22 1 6- _ _ _ _ _ _.~. _.

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ML19332C935

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