ML17266A093
ML17266A093 | |
Person / Time | |
---|---|
Site: | Saint Lucie |
Issue date: | 09/10/1979 |
From: | UHRIG R E FLORIDA POWER & LIGHT CO. |
To: | EISENHUT D G Office of Nuclear Reactor Regulation |
References | |
L-79-248, NUDOCS 7909140353 | |
Download: ML17266A093 (72) | |
Text
~CilgFLQalOAPO"IQRcLIGHTCoti'BEANY OfficeofNuclearReactorRegulationAttention:
Nr.D.Eisenhut, ActingDirectorDivisionofOperating ReactorsU.S.NuclearRegulatory Commission 1Jashington, D.C.20555September 10,19/9L-79-248
Dearfair.Eisenhut:
Re:St.LucieUnitNo.1DocketHo.50-335ProposedAmndmenttoFacilityOperating LicenseDPR-67i~1ylettertoyoudatedApril12,1979(L-79-88),
requested thedeletionofcer-tainEnvironmental Technical Specifications (ETS)forSt.LucieUnitho.1on'hebasisoftherulinggiveninYellowCreek(ALAB-515).
TheseETSincludedlimitations andmonitoring requirements fornon-radiological effluniswhichfellunderthejurisdict'.on oftheU.S.Environmental Protectioni Agency(EPA)undertheFederal'I!aterPollution ControlAct(FlJPCA).
Asubsequen't;'review of'heSt.Lucie1ETShasuncovered anotherspecification whichwasinadvertently omittedfromtheApril12submittal.
lerequestthatthisproposalbemodifiedtoincludeSpecification 4.2,"Ninimu."
Effective ChlorineUsage."TheexistingNationalPollutant Discharge Elimination System(NPDES)permitforSt.Lucie1,issuedbyEPAonJure14,1978,(NPDESNo.FL0002208) containsprovisions dealingwiththissubjectonpage2ofPartI.Theaimof'hisrequest,aswiththeearlierone,istoeliminate overlapping andduplicative regulatory requirements.
Inaccordance with"lJPCA,regula-tionofthesemattersfallstoEPA.'Hebelievethatthecontinuation ofthoseETSrequirements forwhichwehaverequsteddeletionisnotconsistent withtheguidanceprovidedtotheCommission inALAB-515.
1Jethe.eforereiterate ourearlierrequestforexpedited considration.Thisproposedamendment hasbeenreviewedbyboththeCompanyEnvironmental Re-viewGroupandtheCompanyNuclearReviewBoardofFPL,andheyhavedetermined thattheproposedamendmient isadministrative innatureandwillresultinnoadverseeffectstotheenvironment.
Thisrequestis.tobeincorporated intoourearlierrequest.Thelicenseamendment feeforthatrequesthasalreadybeensubmitted.
Verytrulyyours,RobertE.UhrigVicePresident REU/dlhcc:Jlr.JamesP.O'ei1ly,RegionIIflaroldF.Reis,Esquireg$53PCOPLFS-nviiwGiEOPLE APPENDIXBPROPOSEDST.LUCIEPLANTPREOPERATXONAL ANDOPERATXONAL BIOLOGICAL MONITORING PROGRAM'I.GENERALTheecological baselinestudyofFloridaPower6LightCompany's (FPL)St.LucieUnit,No.1wasdesignedandimplemented bythestaffoftheFloridaDepartment ofNaturalResources MarineResearchLaboratory.
Fiveoffshoresamplingstationswereestablished (Figure1),andsamplingwasconducted fromJuly19/1toAugust1974.Thelastportionsofthedataanalysesandreportpreparation forthisbaselinestudyarebeingcompleted.
Following thesamplingforbaselinestudy,theEnvironmental Technical Specifications (ETS)fortheoperational monitoring program,contained.
intheoperating licenseforSt.LucieUnit.No.1issuedbytheNuclearRegulatory Commission (NRC),werewritten.Thesespecifications
~~~~delineated thebioticcommunities tobestudiedandstatedthatsamplingwastobeconducted atthesamefivestationsestablished forthebaselinestudy.Theobjective oftheoperational monitoring studyhasbeentogatherdataforcomparison withdataobtainedduringthebaselinestudy.XnMarch1976,samplingfortheoperational monitoring programwasbegunbyAppliedBiology,Inc.(ABI).Inadditiontothefivestationsestablished forthebaselinestudy,anearshore satesouthoftheplantwasselectedasacontrolstation.Thiscontrolstationwaslocateddistantfromtheplantandtherefore awayfrompossible~~~influence fromwarmwaterdischarges.
Xnaccordance withtheETS,collections weremadetoassessbenthicorganisms,
- plankton, nekton,
~~YARDSKlLOMETERS20001000012SCALE~gar1;,\aIVe~,'\t~>~aa~ala+pmSt.LuciPlaot."tIA'~r~~Figure1.Locationofthefiveoffshoresamplingstations(1-5)established forbaselinestudyandthecontrol(C)stationdesignated fortheoperational monitoring study.
~~
macrophytes, waterqualityandmigratory seaturtles.Theresultsandanalysesofthesecollections havebeenreportedannually(Re'f.1,2,3,16).~~Thefiveoffshorestationswereestablished bytheFloridaDepartment ofNaturalPesources (FDNR)beforeacomprehensive evaluation oftheoffshorecurrentswasavailable.
Morerecently, watercurrent.data(Ref.14)hasbeenobtainedwhichindicates thatifthestationswererelocated theycouldbetterrepresent thebiological conditions inareasofpotential plumeimpact,.AsshowninFigure2,thepredominant surfacecurrents, andsub-sequentplumeorientation fromthepointofdischarge (Station1),aretothenorth.Basedonwatercurrentevaluation andtheresultsofthebiological monitoring programtodate,FPLbelievesthat,1certainrevisions totheprogramprescribed intheETSareappropriate.
Theprogramdescribed hereinreflectstheserevisions andwouldbeusedbybothSt.LucieUnitNo.1(operational monitoring) andSt.LucieUnitNo.2(preoperational andoperational monitoring).
Xntheregulatory schemeestablished bytheFederalNaterPollution ControlActof1972(FWPCA),33USCA551251etsece,theEnvironmental Protection Agency(EPA)wasgivenjurisdiction overallwaterqualitymattersrelatingtonon-radiological liquideffluents.
XnitsYellowCreekdecision(ALAB-515),
theNRC'sAtomicSafetyandLicensing AppealBoardheldthattheNRCmaynotspecifywaterqualityrestrictions inexcessofthoseimposedby
~~
hI,lt~~'I,;~~r~tt~twtgO-~ogOKO0%~'lh~h'ttAt-'-"0\1~rItO(0'c.cP:4~FL.II',0,'gIgS,'Z0:Ct-'Q)KgrO..I-N-0hO0I~I'0~~:,;II.etl\H+'0:Lr~'t)St.Lucie'anIt'tt'IIlA6.5'vA\'Vh'OLOqOLOFigure2.Frequency distribution ofsurfacecurrentdirection inrelationtooperational monitoring samplingstations.
EPA..OnthebasisofALAB-515, andthewaterqualityeffluentlimitations andmonitoring requirements contained intheNationalttPollutant Discharge Elimination System(NPDES)permitissuedbyEPApursuanttoPWPCAforSt.LucieUnitNo.1,FPLhaspetitioned theNRCforthedeletionofsimilarconditions contained intheETSforSt.LucieUnitl.However,thisrequest,totheNRCdidnotaddresstheaquaticbiological monitoring requirements alsocontained intheSt.LucieUnitNo.1ETS.Inordertoremovethisstateofimplicitdualregulation, FPLproposestoincorporate appropriate aquaticbiological monitoring requirements intotheNPDESpermitforSt.LucieUnits1and2andtorequesttheirdeletionfromtheUnit.1ETS.(TheNRCoperating licenseandaccompanying ETSforSt.LucieUnit.No.2havenotyetbeenissued).Theprogramdescribed belowisherewithsubmitted to~,~4EPAforthatpurpose.III.PROPOSEDBIOLOGICAL MONITORING PROGRAMpopulations oftheAtlanticOceanneartheplantdischarge todetermine theextentthat.plantoperations maybeinfluencing theoffshoreecosystem.
Secification
-Thebiological conditions shallbeassessed1)intermsofabundance andcomposition ofthemarinebioticcommunity, and2)intermsoftherelationship betweencertainchemicalandphysicalproperties ofthewatersandthecharacter ofthebiological community.
Communities described belowareto
beevaluated todetermine potent'al alterations duetoplantoperation.
A.BenthicOranismsBenthicorganisms willbecollected quarterly andinventoried astotypeandabundance ofmajortaxonomic groupspresent.B.PlanktonPlanktonsampleswillbecollected monthly.Phytoplankton willbeanalyzedforkindandabundance.
Chlorophyll "a"willbeanalyzedasanestimateofphytoplankton biomass.Zooplankton willbeanalyzedforkindandabundance.
Duringalternate collection periods,vitalstainingwillbeusedtoestimatemortality ofselectedzooplankters.
C.NektonicOranismsSamplesw'llbecollected bygillnettingoncepermonthduringAprilthroughSeptember andtwicepermonthduringOctoberthroughYiarch.-Typesandnumbersoforganisms presentwillbedetermined.
Analysiswillbemadeonwatersamplestakenatthesurfacelevelatthesametimeasthephytoplankton samplecollection.
Parameters studiedwillbetemperature,
- salinity, dissolved oxygencontent,turbidity andcertainselectednutrients.
L.ReortinReuirements Resultsoftheaquaticbiological monitoring programpre-8 scribedaboveshallbereportedintheAnnualNon-Radiological Environmental Monitoring Reporttobesubmitted tobothEPA(2copies)andNRC(asspecified).
XIX.XMPLEMENTATXON OPPROPOSEDBIOLOGICAL MONITORING PROGRAMA.INTRODUCTION Themonitoring programstudydesignoriginated andwasimplemented in1971bytheFloridaDepartment.
ofNaturalResources MarineResearchLaboratory.
Thesamplingregimewasbasedontheecological information available atthetime.Samplelocations wereselectedinrelationtothepredicted plumedirection andextent(Ref.4),andthemajormacrohabitats knowntoexist.offHutchinson Island.Stations1,2and3werelocatedin'theprojected thermalplumeareawhile4and5wereestablished as,northandsouthcontrolslocatedinthesamemacrohabitats asStation2(Ref.5).Since1972,extensive dataonthebiological communities neartheSt.LuciePlanthavebeenobtained(Ref.1,2,3,6,7,8,9,10,11,12,16).Additional physicaldatahasbeengatheredonwinds(Ref.13),currents(Ref.14)andthethermalplume(Ref.15).Thesebiological andphysicalstudiesindicatethateffectsoftheSt.Luciedischarge maybelimitedtosurfaceareasnearthepointofdischarge.
Thestudydesignshouldtherefore evaluatethebiological conditions inthenear-field areaofpotential plumeimpact.Theproposedstudydesigntoimplement theprogram described inIIaboveishereingiven.B.BenthicOranismsToassessthepotential thattherearethermaleffectsonthelessfrequently encountered species,quarterly sampleswillbetakenatacontrolstation,Station1,andatastationtobelocatedjustnorthofthethermalplume'swarmestspot(Figure3).~Fourormorereplicates willbetaken.Station2willberetained'tohelpintegrate themodifiedprogramwiththeexistingdata.Allotherbenthicstations.attheoffshor'e stationsestablished byFDNRwillbeterminated.
C.PlanktonPhtoolankton Thre'e."replicates fromfiveoffshorestationswillbecollected monthlyfromsurfaceandbottomdepthsforanalysisofphytoplankton abundance andspeciescomposition.
Daoreplicates fromeachstationanddepthwillbecollected forchlorophyll "a"analysis.
Existingoffshorestationswillberelocated andconcentrated intheimmediate areaoftheoffshoredischarge.
Stationlocations, orientedwithrespecttoplumeconfiguration, willbe.inthethermalplume'swarmestspot(existing Station1)andat100mand450mfromthiswarmestspotintheplume(Figure4).Acontrolstationwillbelocated200mupcurrent fromthiswarmestspot.ExistingStation2willberetainedtohelpintegrate themodifiedprogramwiththeexistingdata.Allotheroffshorephytoplankton stationswillbedeleted.5
I~~r~YARDS200010000SCALE2.3KILOMETERS
- ,\~I~rr~0~1r'4*rGBa0BlSt.LuciPlapt.'-'fA'A0B2.0IrV0BC{CONTROLSTATION)r~~r.I~~Figure3.Locationofbenthicsamplingstations
~~I~~~I~I'~~III~s~e~I~~s~II~~~~~~~~~I~~~
ZoolanktonZooplankton samplesvillbecollected monthlyatfiveoffshorestations(Figure4).Tworeplicates villbecollected fromsurfaceandbottomdepthsateachstation.Onereplicate-wi3.l beanalyzedfortaxonomic composition andabundance andtheotherwillbeexaminedusingthevitaldyetechnique todetermine copepod.mortality duringalternate collection periods'.
.Stations willberelocated intheplumeandoriented.
inrelationtoplumeconfiguration atthetimeofsampling.
Stationswillbelocatedinthethermalplume'swarmestspot(existing Stationl)andat200mand450mfromthiswarmest.spot.Acontrolstationwillbelocated200mupcurrent fromthewarmestspot.Tomaintaincontinuity betveenprograms, existingStation2villcontinuetobemonitored.
Allotheroffshorestationswillbeeliminated.
Vitaldy'etestswillbecarriedoutatthethreeplumestationsandatthecontrolstation.D.NektonThesamplingprogramwillconsistofoffshoregillnetting.Twosamplingstationswillbeestablished neartheintakestructure andthreeinthedischarge area(Figure5).Thedischarge stationsamplesvillprovidedataonnear,intermediate anddistanteffectsoftheplumeonfishdistribution.
Stationswillbelocatedinthethermalplume'svarmestspotand200mand450mfromthiswarmestspot.Thesestationswillbesampledasfollows:oncepermonthduringAprilthroughSeptember when.thecommercially important.
migratory speciesaregenerally notpresentoffshoretheSt.Lucie ST.LUCIEPOPOVERPLANTOlSCHAIlCE CANALCrTls~rIlII~IIILPI4-\IIIll00.-NtACACQQ<AfMSlllVClVAEIIIIIITHERlAALPLUMEIINOTE:Thesestationswillbeoriented.asneededtomaintaintheirpositions relativetotheplume.'6CLNTAl(ECANAl..Il'I'<<SLRS6CG),~wraKEISIllVCTlJHEN0IANAlVEArl~'dLmFigure5.Locationofgillnetstations Plant;andtwicepermonthduringOctoberthroughMarch,whenthesespeciesarepresent.Also,Station2willberetainedto~~~~helpintegrate themodifiedprogramwiththeexistingdata.E.WaterQualitySamplesforwaterqualityanalysiswillbecollected concurrently withphytoplankton samples.Physicalandchemicalparameters willbemonitored onlyatthesurfacebecauseoffshorewatershavebeendemonstrated tobehomogeneous throughout thewatercolumn.Stationswillbelocatedintheimmediate areaoftheoffshoredischarge.
Stationlocations, orientedwithrespecttoplumeconfiguration, willbeinthethermalplumeswarmestlocation(existing Station1)and100mand450mfromStationl.Acontrolstationwillbelocated200mupcurrent fromStation1.Station2willberetainedtohelpintegrate thedatawithpreviousoperational monitoring results~IV-SIGNIFXCAI'7T CHANGESFROMTHEETSNOHITORXilG PROGRANTheprogramproposedinIIabovedifferssignificantly fromthatprescribed intheSt.LucieUnit.No.1ETSinseveralrespects.
Xndeed,theETSthemselves containaprovis'on.for modification oftheprogrambaseduponthedataaccumulated aftertwoyearsofoperation.
Thesechangesandtheir.basesaredescribed below.A.Plankton-Stationlocations andanalytical techniques havebeenrevised.13 Justification Except,forStation1intheimmediate discharge area,nomajor~~differences intheplanktoncommunities havebeennoted(Ref.3,pageD-17).Stationsshouldberelocated toassess-the degreeofinfluence intheplumearea.Stationlocations orientedinrelationtotheplumewillprovidedatatomakethisassessment.
Statistical comparison ofphytoplankton densityattheoffshorestationshasgenerally shownsignificantly highersurfaceandbottomphytoplankton densities atStation1.Chlorophyll "a."-concentration hasalsobeengenerally elevatedatStation1(Ref.3,pageD-22).Theincreases mayhaveresultedfromphytoplankton fromthedischarge canaland/orenhancedphytoplankton growthduetoincreased watertemperature.
Surfa'cezooplankton densities atStation1havebeensignificantly greaterthanthoseatStations0,2,3,and4(Ref.3,pageE-15).Xtislikelythatherbivorous zooplankters becameconcentrated throughemigration intotheareaofStation-1inresponsetoin-creasedphytoplankton abundance.
Theproposedsamplingstationsinthedischarge plumewillfacilitate assessment ofpossiblethermaleffectsonthezooplankton community.
Zooplankton mortality hasbeenestimated basedonmajor.physicaldamagetotheorganisms.
Amoresensitive methodistousevitaldyes.Vitaldyetestsshouldbemadeonzooplankters collected fromselectedstationsduringalternate collection periods.Theproposedstationlocations andanalytical techniques would.provide amoreaccuratedetermination ofplantimpact.B.NektonicOranisms-Collecting ofsamplesbytrawlingandseininghasbeendeletedandstationlocations havebeenrevi.ed.Justification TheETSallowscollection ofsamplesby"trawling, seining,orothersuitablemethod."Trawlingandbeachseiningaresamplingtechniques thatarehighlyselective forbottomdwellingandsurfzonedwellingforms.Duringoverthreeyearsofstudy,neitherofthesecommunities appearstobeinfluenced bythethermaldischarge (Ref.3,pageB-40andB-43).,Offshoregillnettingobtainssamplesinthewatercolumnandisaneffective methodology forcollecting sportandcommercial fishspecies.Theproposed'schedule emphasize's collections duringtheperiodoftheyearwhenmigratory speciessuchas-bluefish, SpanishmackerelandkingmackerelareinthevicinityoftheSt.LuciePlant.Stationlocations re-locatedtotheimmediate plumeareawillbetterassesstheinfluence oftheplumeonthemovements offishesinthearea.vegetation hasbeendeleted.Justification Thehighestdiversity ofalgae,88species,wascollected
"-duringthethirdyearofthestudy.The.numberofspeciescollected waslowest,inearlyspringandhighestinsummerandearlyfall.
Thisseasonalpatternwastypicalforsubtropical marinevegetation.
Diversity washighernearshorebecausedrift(unattached) algaewerethepredominate formsandthesewerecariedinshorebytheprevailing winds'andcurrents(Ref.3,pageF-4).~Vegetation distribution andgrowthatalloffshorestations'urveyed seemstobelimitedbyalackofappropriate substrate forvegetation attachment.
Welldeveloped macrophyte communities mayoccuronisolatedoffshorerockoutcroping butthechancesofthecollecting dredgeencountering theseoutcropings isremote.Becausetheoffshoremacrophyte community seemstobelimited,itisprobablynotimportant asafoodsourceorhabitatfororganisms livingintheSt.Luciearea.Since,basedontheabove,thesamplingprovideslittleusefuldata,thereisnoneedforfurther~~monitoring ofmacrophytes.
D.WaterQualit-Collection ofsamplesatthebottomandmid-depthlevelshasbeendeleted.Justxficatxon Datafromthecontrolstation,locateddistantfromtheSt.Luc'ePlant,werecomparedwithresultsfromstation-specific waterparameter analyses.
Literature dataformarinewatersofnearshore coastalenvironments adjacenttotheplantwerealsocomparedwiththepresent,study.Datacomparisons (Ref.3)indicated.
a.Nearlyallparameters measuredvariedsignificantlyduringdifferent monthsoftheyear.
I b.Therewerenosignificant differences inphysicalandchemicalparameters betweenoffshorestationsoratdifferent depths.Theseresultsindicatethat.theoperation oftheSt.LuciePlanthasnosignificant effectontheselectednutrients inthisstudy.Accordingly, primarymonitoring forphysicalandchemicalparameters shouldberequiredonlyatthesurface.Thiswillproviderepresentative datawhichcanbeusedtoassessanyrelationship thatmightexistbetweenthechemicalproperties ofthewaterandthecharacter ofthebiological community.
E.NiratorSeaTurtles-Variousrequirements relatingtothedetermination ofspecies,numbers,nestingcharacteristics, effects~~~ofthedischarge thermalplume,and temperature stress,hatchingandrearingfactorsformigratory seaturtleshavebeendeleted.Justification Therequirements ofthespecification havebeensatisfied.
Surveysofthespeciesnumbersandnestingcharacteristics ofseaturtlesthatnestalongPPLshoreline propertyandselectedadjacentcontrolareasin1975and1977werecompleted.
Areportofthiswasprepared(Ref.2)andsubmitted totheNRCbyPPLletterIL-78-109, dateQHarch30,1978.Thisreportalsodescribed studiesperformed todetermine theeffectsofthedischarge thermalplumeonturtlenestingpatternsanQturtlehatchling swimming.
Additionally, controlstudiesontemperature stress,hatchingandrearingfactors conducted usingturtleeggsfromdisplaced nestswerereported.
Thenestingstudiesshowedthefollowing:
l.TherearethreespeciesofturtlesnestingonE1utchinson Island.Themost.commonistheAtlanticloggerhead turtle,followedbythegreenturtleandtheleatherbacj turtle.2.In1975adeclineincrawlactivitywasobservedneartheSt.LuciePlantwhichwasmostprobablyduetotheconstruction oftheoffshoreintakeanddischarge systems,butnestingactivities returnedtonormalpatternsin1977.3.Sitespecificity ofnesting/renesting intervals, andtimingofnestingappearedtonotbeaffectedbyplantoperation during1977.4.Anestimated population of1491nestingfemaleswasdetermined for1977.Theresultsofthestudiesofturtlehatchlings shownoevidencethatpotential offshoresurfacetemperatures fromtheplantwillcausepermanent impairment ormortality (Ref.2).Basedontheabove,noapparentharmisbeingcausedtoseaturtlesbytheSt.LuciePlant.Therefore, therequiredstudiesandmonitoring need'notbeincluded.
intheoperational monitoring program.P.Entrainment ofAuaticOranisms(ETS4.1)-Variousrequire-mentsrelatingtoassessment.
oftheeffectsonplanktonic organisms ofpassagethroughtheplantcondensers havebeendeleted.'Justification Theresultsoftheichthyopla'nkton andzooplankton samplinghavebeenpresented intheAnnualNon-Radiological Environmental.
18
~vIIMonitoring Reportsfor1976,1977,1978and1979(Ref.1,2,3,16).ThesestudiesshowthattheoffshorewatersinthevicinityoftheSt.LuciePlantarenottypicalofafishnurseryareaandhaverepresentative zooplankton populations.
Physicalcharacter-isticsneededinanursery=areaareloworfluctuating salinities, silt-sand-mud-bottom, andextensive bedsofrootedaquaticvege-tation.Chemically, theoffshorewatersintheSt.LuciePlantareaarehomogeneous throughout withlittleseasonalvariations.
Physically, theoffshoreareasarecharacterized bythepresencePofrelatively constantsalinities, shell-hash sediments and.theabsenceofsignificant macrophytic grassbeds.
Impo'rtant sportfishwerenotfoundtobespawningoffshoreintheareaoftheSt.LuciePlant.Ingeneral,lowconcentrations offisheggsandlarvaehavebeenrecordedintheintakecanalwhichconfirmsthatentrainment isnotsignificant.
Zooplankton lossesthroughentrainment arenotsignificant.
Basedontheabove,therequiredEntrainment Studiesneednotbeincludedintheoperational monitoring program.19 vrv+I LITERATURE CITEDi.2.3~4~AppliedBiology,Inc.1977.Ecological monitoring attheFloridaPowerhLightCo.,St.LuciePlant,annualreport,1976-ReporttoFloridaPower5LightCo.,tliami,Fla..1978.Ecological monitoring attheFloridaPowergLightCo.,St-LuciePlant,annualreport,1977.ReporttoFloridaPower5lightCo.,miami,Fla.AppliedBiology,Inc.1979-FloridaPower8LightCompany,St-LuciePlantannualnon-radiologica1environmental monitoringreport,1978.Yol-I'IandIII.Bioticmonitoring.
ReporttoFloridaPower5LightCo.,tliami,Fla.FloridaPowerfmLightCo.1971.Hutchinson IslandPlantUnitNo.*1.Environmental reportDocketNo.50-335.20Hay1971.Flor-idaPower8LightCo-,Hiami,Fla.FloridaDepartment ofNaturalResources.
1972.Preliminary environmental studiesofcoastalwatersnearHutchinson Island,Florida.ProgressreporttoFloridaPower5LightCo.tliami,Fla.6.Gallagher, R.tl.1977a.Nearshore marineecologyatHutchinson Island,Florida:1971-1974.
I.Rationale andmethods-Fla.thar-Res-PubsNo.23:1-5.1977b.Nearshore marineecologyatHutchinson Is1and,F1orida:1971-1974.
II.Sediments.Fla.tlar.Res.Publ.No.23:6-24.9~lforth,D.F.,andtl-L-Hollinger.
1977.Nearshore marineecologyatHutchinsonIsland,Florida:1971-'1974.
'II~Physicalandchemicalenvironment.
'Fla.Mar.Res-Publ.'fo.
23:25-85.
Futch,C.R.,andS.F..Dwinell.1977.Nearshore marineecologyatHutchinson Island,Florida:1971-1974.
IV.Lancelets andfishes.Fla.Mar-Res.Publ.i(o.24:1-23.,10.Camp,D.K.,N.H.Whiting,'nd R.E.Hartin.1977.tfearshore marineecologyatHutchinsonIsland,Florida:1971-1974.
V.Arthropods-Fla.Har.Res-Pub'i~No.25:1-63.Gallagher, R.N.,N.L.Hollinger,R.fl.IngleandC.R.Futch,1972.t<ari'ne'urtle nestingonHutchinson Islandin1971.Fla.Dept-Nat.Resour-,Har.Res.Lab.Spec.Sci.Rept.No.37:1-11.12.Worth,D.F.,andJ.B.Smith.1976.HarineturtlenestingonHutchinson Islandin1973.Fla.Mar.Res-Publ.Wo.18:1-17.13.DamesHoore.1977.Graphical andtabularwindroses..St.Lucie,flutchinson Island,Florida,1973.ReporttoFloridaPower8LightCo.fliami,Fla.20 VA~L~
.LITERATURE CITED(continued) 14.Envirosphere Co.1976.St.LuciePlantsiteoceancurrentanalysis.
ReporttoFloridaPokier5LightCo.Viiami,Fla.Envirosphere Co.1977.Thermalevaluation study.St.LucieUnit1oceandiffuser.
ReporttoFloridaPower5LightCo.Miami,Fla.16.AppliedBiology,Inc.1980.FloridaPower5LightCompany,St.LuciePlantannualnon-radiological environmental monitoring report,1979.Vol.IIandIII.Bioticmonitoring.
ReporttoFloridaPower.8LightCo,,Miami,Fla.
J FLORIDAPOWER&LIGHTCOMPANY-ST.LUCIEPLANTUNITSNO.1&2LICENSENUMBERSDPR-67&NPF-16COMBINEDSEMI-ANNUAL RADIOACTIVE EFFLUENTRELEASEREPORTFORTHEPERIODJANUARY1,1989THROUGHJUNE30,1989 P~TABLEOFCONTENTSDESCRIPTION PAGEEFFLUENTANDHASTEDISPOSALSUPPLEMENTAL INFORMATION...
OFFSITEDOSECALCULATION MANUALREVISIONS.....
~I~~\SOLIDHASTEANDIRRADIATIED FUELSHIPMENTS......................
PROCESSCONTROLPROGRAMREVISIONS...........
LIQUIDEFFLUENT:
SUMMATION OFALLRELEASES&NUCLIDESUMMATION BYQUARTERUNIT¹1UNIT¹2810GASEOUSEFFLUENT:
SUMMATION OFALLRELEASES&NUCLIDESUMMATION BYQUARTERUNIT¹1UNIT¹21214SOLIDHASTE-SHIPMENTSUMMATION 16ATTACHMENT
-AUncontrolled LiquidRelease I
EFFLUENTANDWASTEDISPOSALSUPPLEMENTAL INFORMATION 1.1ForLiquidHasteEffluents A.Theconcentration ofradioactive materialreleasedfromthesiteshallbelimitedtotheconcentrations specified in10CFRPart20AppendixB,TableII,Column2forradionuclides otherthandissolved orentrained noblegases.Fordissolved orentrained noblegases,,the concentration shallbelimitedto2E-4micro-Curies/ml totalactivity.
B.Thedoseordosecommitment toaMEMBEROFTHEPUBLICfromradioactive materialinliquideffluents
- released, fromeachreactorunit,toUNRESTRICTED AREASshallbelimitedto:Duringanycalendarquarterto<=,1.5mremstotheTotalBodyandto<=5mremstoanyorgan,andDuringanycalendaryearto<=3mremstotheTotalBodyandto<=10mremstoanyorgan.1.2ForGaseousHasteEffluents:
A.ThedoserateinUNRESTRICTED AREASduetoradioactive materials releasedingaseouseffluents fromthesiteshallbelimitedto:ForNobleGases:<=500mrems/yrtothetotalbodyand3000mrems/yrtotheskin,andForIodine-131, Iodine-133, Tritium,andallradionuclides inparticulate formwithhalf-lives greaterthan8days:1500mrems/yrtoanyorgan.4B.Theairdoseduetonoblegasesreleasedingaseouseffluents fromeachreactorunit,toareasatandbeyondthe,SITEBOUNDARYshallbelimitedtothefollowing:
Duringanycalendarquarter,to<=5mradsforgammaradiation,and 10mradsforbetaradiation and,duringanycalendaryearto10mradsforgammaradiation and<=20mradsforbetaradiation.
4C.ThedosetoaMEMBEROFTHEPUBLICfromIodine-131, Iodine-133, Tritium,andallradionuclides inparticulate form,withhalf-lives>8Daysingaseouseffluents
- released, fromeachreactorunittoareasatandbeyondthesiteboundary, shallbelimitedtothe'following:
Duringanycalendarquarterto<=7.5mremtoanyorgan,andDuringanycalendaryearto<=15mrem'toanyorgan.Thecalculated dosescontained inasemi-annual reportshallnotapplytoanySTSLCO.Thereportedvaluesarebasedonactualreleaseconditions insteadofhistorical conditions thattheSTSLCOdosecalcuations arebasedon.TheSTSLCOdoselimitsaretherefore includedinItem1ofthereport,forinformation only.
II'I"Ifv' EFFLUENTANDWASTEDISPOSALSUPPLEMENTAL INFORMATION (Continued) 2.MaximumPermissible Concentrations Hater:Asper10CFRPart20,AppendixB,TableII,Column2,exceptforentrained ordissolved noblegasesasdescribed in1.1.Aofthisreport.Air:Releaseconcentrations arelimitedtodoseratelimitsdescribed in1.2.A.ofthisreport.3.AverageEnergyoffissionandactivation gasesingaseouseffluentsisnotapplicable.
4.Measurements andapproximations oftotalradioactivity Wherealpha,tritium,andlistednuclidesareshownaszeroCuriesreleased, thisshouldbeinterpreted as"noactivitywasdetectedonthesamplesusingthePlantTechnical Specification analysestechniques toachieverequiredLowerLimitofDetection (LLD)sensitivity forradioactive effluents.
Asummaryofliquideffluentaccounting methodsisdescribed inTable3.1.Asummaryofgaseouseffluentaccounting methodsisdescribed inTable3.2.4.1EstimateofErrorsLIQUIDGASEOUSErrorTopicAvg.%Max.%Avg.%Max.%ReleasePointMixingSamplingSamplePreparation SampleAnalysisReleaseVolume21132Total%955510530NA213410NA55101535Thepredictability oferrorforradioactive releasescanonlybeappliedtonuclidesthatarepredominant insamplespectrums.
Nuclidesthatarenearbackground relativetothepredominant nuclidesinagivensamplecouldeasilyhaveerrorsgreaterthantheabovelistedmaximums'
/Ir EFFLUENTANDHASTEDlSPOSALSUPPLEMENTAL INFORMATION (Continued) 4.Measurements andApproximations ofTotalRadioactivity (Cont.)4.1(Continued)
B.(Continued)
TABLE'3.1RADIOACTIVE LIQUIDEFFLUENTSAMPLINGANDANALYSISLiquidSourceSamplingFrequency TypeofAnalysisMethodofAnalysisEachBatchPrincipal GammaEmittersp.h.a.MonitorTank1ReleasesContinuous ReleasesMonthlyCompositeQuarterly Composite DailyGrabSamplesTritiumGrossAlphaSr-89,Sr-90,&Fe-55Principal GammaEmitters&I-131for4/MComposite AnalysisDissolved
&Entrained GasesOneBatch/MonthTritiumComposite MonthlyAlphaComposite MonthlySr-89,Sr-90,&Fe-55Composite Quarterly L.S.G.F.P.C.S.p.h.a.p.h.a.L.S.G.F.P.C.S.1-BoricAcidEvaporator Condensate isnormallyrecovered tothePrimaryHaterStorageTankforrecycling intothereactorcoolantsystemanddoesnotcontribute toLiquidHasteEffluentTotals.p.h.a.-Gamma SpectrumPulseHeightAnalysisusingLithiumGermanium Detectors.
Allpeaksareidentified andquantified.
L.S.-Liquid Scintillation CountingC.S.-Chemical Separation G.F.P.-GasFlowProportional Counting4/M-FourperMonth
EFFLUENTANDWASTEDISPOSALSUPPLEMENTAL INFORMATION (Continued) 4.Measurements andApproximations ofTotalRadioactivity (Continued) 4.1(Continued)
B.(Continued)
TABLE3.2RADIOACTIVE GASEOUSWASTESAMPLINGANDANALYSISGaseousSourceWasteGasDecayTankReleasesSamplingFrequency EachBatchTypeofAnalysisPrincipal GammaEmittersMethodofAnalysisp.h.a.Containment PurgeReleasesPlantVentEachPurge4/MMonthlyComposite Quarterly Composite Principal GammaEmittersTritiumPrincipal GammaEmittersTritiumParticulate GrossAlphaParticulate Sr-898cSr-90p.h.a.L.S.p.h.a.L.S.G.F.P.C.S.p.h.a.-GammaSpectrumPulseHeightAnalysisusingLithiumGermanium Detectors.
Allpeaksareidentified andquantified.
L.S.-Liquid Scintillation CountingC.S.-Chemical Separation G.F.P.-Gas FlowProportional Counting4/M-FourperMonth r
FLORIDAPOHER5LIGHTCOMPANYST.LUCIEUNIT01SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989EFFLUENT&HASTEDISPOSAL-SUPPLEMENTAL INFORMATION (CONTINUED) 5.BatchReleasesA.Liquid1~Numberofbatchreleases:
2.Totaltimeperiodforbatchreleases:
3.Maximumtimeperiodforabatchrelease:4.Averagetimeperiodforabatchrelease:5.Minimumtimeperiodforabatchrelease:6.Averagedilutionstreamflowduringtheperiod:31.014500.0minutes847minutes468minutes185minutes810,930gpmAllliquidreleasesaresummarized intablesBEGaseous1.Numberofbatchreleases:
2~Totaltimeperiodforbatchreleases:
3.Maximumtimeperiodforabatchrelease:4~Averagetimeperiodforabatchrelease:5.Minimumtimeperiodforabatchrelease:204326minutes715minutes216.3minutes1minutesAllgaseouswastereleasesaresummarized intables6.Unplanned ReleasesA.Liquid1.Numberofreleases:
2.Totalactivityreleases:
1,01.56E-03CuriesB.Gaseous1.Numberofreleases:
2.Totalactivityreleased:
00CuriesC.Seeattachments (ifapplicable)
.for:1.Adescription oftheeventandequipment involved.
2.Cause(s)fortheunplanned release.3.Actionstakentopreventarecurrence.
4.Consequences oftheunplanned release.
FLORIDAPOHER&LIGHTCOMPANYST.LUCIEUNIT02SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989EFFLUENT8rHASTEDISPOSAL-SUPPLEMENTAL INFORMATION (CONTINUED) 5.BatchReleasesA.Liquid2.3.45.Numberofbatchreleases:
Totaltimeperiodforbatchreleases:
Maximumtimeperiodforabatchrelease:Averagetimeperiodforabatchrelease:Minimumtimeperiodforabatchrelease:Averagedilutionstreamflowduringtheperiod:30.013565.0minutes847minutes452minutes185minutes810,930gpmAllliquidreleasesaresummarized intablesB.Gaseous1.Numberofbatchreleases:
2.Totaltimeperiodforbatchreleases:'.
Maximumtimeperiodforabatchrelease:4.Averagetimeperiodforabatchrelease:5.Minimumtimeperiodforabatchrelease:307532minutes755minutes251.1minutes49minutesAllgaseouswastereleasesaresummarized intables6.Unplanned ReleasesA.Liquid1.Numberofreleases:
2.Totalactivityreleases:
B.Gaseous00Curies1.Numberofreleases:
2.Totalactivityreleased:
C.Seeattachments (ifapplicable) for:00Curies1.Adescription oftheeventandequipment involved.
2.Cause(s)fortheunplanned release.3.Actionstakentopreventarecurrence.
4.Consequences oftheunplanned release.
FLORIDAPOHER&LIGHTCOMPANYST.LUCIEPLANTSUNITS1&2SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989EFFLUENTANDHASTEDISPOSAL-SUPPLEMENTAL INFORMATION (Continued) 8.OffsiteDoseCalculation ManualRevisions (ODCM):TheODCMwasnotrevisedduringthereporting interval.
I9.SolidHasteandIrradiated FuelShipments:
Noirradiated fuelshipments weremadefromthesite.CommonSolzdwastefromSt.Luce.eUnits1and2wereshippedjointly.Asummation oftheseshipments isgiveninTable3.9ofthisreport.10.ProcessControlProgram(PCP)Revisions:
ThePCPwasnotrevisedduringthereporting interval.
7.Assessment ofradiation dosefromradioactive effluents toMEMBERSOFTHEPUBLICisprovidedontheendofyearreport.
FLORIDAPOHER8rLIGHTCONPANYST.LUCIEUNITSEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.3.1IIQUIDEFFLUENTS
-SUNHATION OFALLRELEASESUNITQTR¹lA.FissionandActivation ProductsQTR¹21.TotalRelease-(Notincluding Tritium,Gases,Alpha)2.AverageDilutedConcentration DuringPeriodB.Tritium1.TotalRelease2.AverageDilutedConcentration DuringPeriodC.Dissolved andEntrained Gases1.TotalRelease2.AverageDilutedConcentration DuringPeriodD.GrossAlphaRadioactivity 1.TotalReleaseE.VolumeofHastereleased(PriortoDilution)
F.VolumeofDilutionHaterUsedDuringPerioduCi/mlCiuCi/mluCi/mlLitersLiters1.06E-014.94E-023.10E-101.08E-101.19E026'5K013.48E-071.39E-074.43E-018.35E-031~29E-091~82K-11O.OOE004.44E-062.08E061.17E063.42E114.58E11 FLORIDAPOWER5LIGHTCOMPANYST.LUCIEUNIT¹1SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.4.1LIQUIDEFFLUENTS NUCLIDESRELEASEDUNITContinuous ModeQTH¹1QTB¹2BatchModeQTR¹1QTR¹2NA-24CB-51MN-54FE-55CO-57CO-58FE-59CO-60AG-110SN-113SB-122SB-124NP-239BB-88SB-89SR-90ZB-95NB-95ZR-97NB-97TC-99MBU-103SB-125I-131TE-132I-132I-133CS-134CS-137CS-138BA-140LA-140CE-141CE-144TOTALFOR(ABOVE)CiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiPERIODCiO.OOE000~OOE00O.OOE000~OOE00O.OOE000~OOE00O.OOE00O.OOE00O.OOE00O.OOE000~OOE00O,OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O,OOE00O.OOE00O.OOE00O.OOE00O.OOE00O,OOE00O.OOE000~OOE00O.OOE00O.OOE00O.OOE005.78E-050~OOE000~OOE000~OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE000~OOE00O.OOE00O.OOE00O.OOE00O,OOE00O.OOE00O.OOE000~OOE000~OOE000~OOE00O.OOE00O,OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE001.63E-040~OOE00O.OOE00O.OOE00O.OOE000~OOE004.01E-051.23E-025'5K-042.33E-021.63E-052'2E-022.06E-031.01E-022,14E-031'8E-039'0K-052'2K-033.64E-05O.OOE00O.OOE00O.OOE002.24E-033.73E-033.48E-052.57E-032.10E-043'7E-041~45K-037'0E-034.04E-044'0E-041.32E-036'OE-047'5E-040~OOE004.09E-068.65E-042.69E-05O.OOE007.60E-OS1.48E-031.00E-031~11K-02O.OOE007.90E-031~80E-043'6E-031.02E-033'5E-041.52E-054.33E-03O.OOE004.91E-05O.OOE00O.OOE005.50E-041'7K-03O.OOE001.33E-03O.OOE003.84E-051.33E-021.70E-05O.OOE00O.OOE00O.OOE006.50E-048.20E-043.98E-05O.OOE002.63E-06O.OOE00O.OOE005.78E-051.63E041.06E-014.94E-02AH-41KH-85MXE-131MXE-133XE-133MXE-135TotalforPeriodCiCiCiCiCiCiCi0.OOEO.OOEO.OOEO.OOEO.OOEO.OOE0000000000000~OOE000~OOE00O.OOE00O.OOE000~OOE003'7E-046.25E-052.70E-034.33E-014.10E-03O.OOE002.44E-034.43E-014.23E-05O.OOE00O,OOE008.15E-03O.OOE001.62E-048.35E-03 FLORIDAPONER8r,LIGHTCOMPANYST.LUCIEUNIT¹2SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.3.2LIQUIDEFFLUENTS
-SUMMATION OFALLRELEASESUNITQTR¹1A.FissionandActivation ProductsQTR¹2l.TotalRelease-(Notincluding Tritium,Gases,Alpha}2.AverageDilutedConcentration DuringPeriodB.Tritium1.TotalRelease2.AverageDilutedConcentration DuringPeriodC.Dissolved andEntrained Gases1.TotalRelease2.AverageDilutedConcentration DuringPeriodD.GrossAlphaRadioactivity 1.TotalReleaseE.VolumeofWastereleased(PriortoDilution)
F.VolumeofDilutionHaterUsedDuringPerioduCi/mlCiuCi/mlCiuCi/mlCiLitersLiters1.06E-Ol4.94E-023.10E-10l.08E-101.19E026.35E013.48E-071.39E-074.43E-Ol8.35E-031~29K-091.82E-11O.OOE004.44E-062.08E061.17E063.42E114.58E1110 Ci FLORIDAPOWER8rLIGHTCONPAHYST.LUCIEUNIT¹2SENIANHUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.4.2LIQUIDEFFLUEHTS NUCLIDESRELEASEDUNITContinuous NodeQTB¹lQTR¹2BatchNodeQTB¹lQTB¹2HA-24CB-51NH-54FE-55CO-57CO-58FE-59CO-60AG-110SN-113SB-122SB-124NP-239BB-88SB-89SB-90ZR-95NB-95ZR-97NB-97TC-99NBU-103SB-125I-131TE-132I-132I-133CS-134CS-137CS-138BA-140LA-140CE-141CE-144TOTALFOB(ABOVE)PERIODCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiCiO.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE.OO0~OOE000OOE00O.OOE000~OOE00O.OOE000~OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOEOO0~OOE000~OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOEOoO.OOE00O,OOE00O.OOE000~OOE00O.OOE00O.OOE00O.OOE00O.OOE000~OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE004.01E-051.23E-025'5E-042.33E-021.63E-052.82E-022.06E-031.01E-022.14E-031.58E-039.10E-052.52E-033.64E-05O.OOE000~OOE000~OOE002'4E-033.73E-033'8E-052.57E-032.10E-043.67E-041.45E-037.90E-034.04E-044.70E-041.32E-036.00E-047.05E-04O.OOE004.0SE-068.65E-042.6SE-05O.OOE007.60E-051.48E-031.00E-031.11E-02O.OOE007.90E-031.80E-043.86E-031.02E-033.95E-041~52E-054.33E-03O.OOE004.91E-05O.OOE00O.OOE005.50E-041.27E-03O.OOE001.33E-03O.OOE003'4K-051.33E-021.70E-05O.OOE00O.OOE00O.OOE006.50E-048.20E-043.98E-05O.OOE002.63E-06O.OOE00O.OOE00O.OOE00O.OOE001.06E-014.S4E-02AR-41KR-85MXE-131MXE-133XE-133MXE-135TotalforPeriodCiCiCiCiCiCiCiO.OOE00O.OOE00O.OOE00O.OOE00O.OOE00O.OOE0011O.OOE00O.OOE00O.OOE000~OOE00O.OOE00O.OOE003.57E-046.25E-052.70E-034'3K-014.10E-03~2.44E-034.43E-014.23E-05O.OOE00O.OOE008.15E-03O.OOE001~62E-048.35E-03 C
FLORIDAPOWER5LIGHTCOMPANYST.LUCIEUNIT¹1SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.6.1GASEOUSEFFLUENTS
-SUMMATION OFALLRELEASESA.FissionandActivation GasesUNITQTB¹1QTR¹21.TotalReleaseCi3.47E021.65E032.Avg.ReleaseBateForPerioduCi/sec4.46E012.10E02b.IodinesTotalIodine-131I2.Avg.ReleaseBateForPeriodC.Particulates Particulates T-1/2>8Days2.Avg.ReleaseHateForPeriod3.GrossAlphaRadioactivity DETritium1~TotalRelease2.Avg.ReleaseRateForPeriodCiO.OOE00O.OOE00uCi/secO.OOE00O.OOE001.91E-072.73E-081'6K011.82E01uCi/sec1.88E002.31E001.74E-032.24E-03uCi/sec2.24E-042.85E-0412
FLORIDAPOHEB5LIGHTCOMPANYST.LUCIEUNIT¹1SEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.7.1GASEOUSEFFLUENTS
-GROUNDLEVELRELEASESNuclidesReleasedContinuous ModeQTR¹1QTB¹2BatohModeQTB¹lQTR¹21.FissionGasesAB-41KB-85KB-85MKB-87KR-88XE-131MXE-133XE-133MXE-135XE-135MXE-138CiCiCiCiCiCiCiCiCiCiCiO.OOE00O.OOE000~OOE00O.OOE00O.OOE000~OOE003.04E020~OOE002'8E010~OOE00O.OOE00O.OOE000~OOE009.89E00O.OOE009.71E00O.OOE001~34E038.81E001.03E02O.OOE000~OOE003.58E-Ol0~OOE002'1E-03O.OOE000~OOE001.81E-011~67E011.80E-019'8E-02O.OOE00O.OOE001.42E00O.OOE008.29E-Ol2.65E-025.24E-017.13E-011.57E023.66E001.55E01O.OOE00O.OOE00TOTALFORPERIOD2.IodinesCi3.30E021.47E031.75EOl1.80E02I-131I-132I-133I-134I-135CiCiCiCiCi1~74K-030~OOE007.08E-03O.OOE00O.OOE002.24E-032.37E-022.18E-023.74E-022.57E-,02 TOTALFORPERIOD3.Particulates SR-89SB-90CiCiCi8'2K-031~11E-OlO.OOE000~OOE00O.OOE000~OOE0013 r,5;I FLORIDAPOWER&LIGHTCOMPANYST.LUCIEUNIT¹2SEHIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.6.2GASEOUSEFFLUENTS
-SUHNATION OFALLRELEASESA.FissionandActivation GasesUNITQTH¹1QTB¹21.TotalReleaseCi1.84E031.39E022.Avg.ReleaseHateForPerioduCi/sec2.37E021.77E01b.Iodines1.TotalIodine-131Ci6.72E-037.19E-042.Avg.ReleaseBateForPeriodC.Particulates 1.Particulates T-1/2>8Days2~Avg.ReleaseRateForPeriod3.GrossAlphaRadioactivity D.Tritium1.TotalRelease2.Avg.ReleaseBateForPeriodCi3.72E-06O.OOE00uCi/sec4.78E-07O.OOE001.10E-073.82E-085.17E012.75E00uCi/sec6.65E003.50E-01uCi/sec8.64E-049.14E-0514 FLORIDAPOHER8r,LIGHTCONPANYST.LUCIEUNIT02SEHIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989TABLE3.7.2GASEOUSEFFLUENTS
-GROUNDLEVELRELEASESNuclidesReleasedContinuous NodeQTBP1QTB52BatchNodeQTBP1QTB521.FissionGasesAB-41KR-85KB-85MKR-87KR-88XE-131MXE-1.33XE-133MXE-135XE-135MXE-138CiCiCiCiCiCiCiCiCiCiCiO.OOE00O.OOE002.00E01O.OOE003.01E01O.OOE001.47E031.85E011.29E02O.OOE00O.OOE00O.OOE00O.OOE002.84E00O.OOE00O.OOE00O.OOE001.10E02O.OOE001.68E01O.OOE00O.OOE003.40E-015.98E-014.05E-02O.OOE004.36E-021,82E001.62E022.53E003.00E00O.OOE00O.OOE003.42E-01O.OOE003.06E-022.61E-031.18E-019.91E-038.02E001.63E-015.49E-010~OOE000~OOE00TOTALFORPERIOD2.IodinesI-131I-133I-135TOTALFORPERIOD3.Particulates CO-58SR-89SR-90CiCiCiCiCiCiCi1.67E031.30E026.72E-037.19E-048.62E-031.32E-03O.OOE000~OOE001.53E-022.04E-033.72E-06O.OOE00O.OOE000~OOE00O.OOE000~OOE001.70E029.24E00 1
FLORIDAPOWER&LIGHTCOMPANYST.LUCIEPLANTSEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989UNITS1AND2,TABLE3.9SolidWasteShippedOff-siteforBurialorDisposalb.Drycompressible MWaste(Note5)Cic.Irradiated M3Components Cid.OtherM31.Non-Compres-CisibleMetal(DAW)(Note6)1.TypeofWasteUnita.Spentresin,M3ProcessfiltersCi(Note7)6.Mo.Period1.506E+11.105E+21~277E+1.148E01.025E+11.149E12.EstimateofMajorNuclideComposition (ByTypeofWaste)Categorya~NuclidesCo60Co58FE55Ni63Cr51Cs137Nb95Mn54Sb125Zr95Cs134Fe594.65E+11.71E+11.20E+16.45E+o4.93E+o2.53E+o24E+o2.21E+o1.52E+01.32E08.02E17.51E1b.H3Co60Cs137Fe55Cs134Co58Ce144Ni63Zr95Nb95Sb125Cr51Mn542.31E+12.26E+1'.96E+17.74E+o744Eo7.27E+o3.02E+o2.54E+o1.57E+o1.56E+o1.07E+o1.06E+o1.05E+016 r
CategoryNuclidesc~d.n/aCs137Co60Cs134Fe55Co58Ni63Nb95Mn54Zr95Cr51n/a3.68E+12.80E+11.41E+193E+o4.85E+o2.87E+o2.85E+o1.74E+o1.64E+o1.08E+o3.SolidWasteDisposition NumberofShipments 31ModeofTransportation SoleUseTruckDestination
- Barnwell, S.C.NumberofShipments 0ModeofTransportation N/ADestination N/AN/A=NotApplicable 17 4I FLORIDAPOWERANDLIGHTCOMPANYST~LUCIEPLANTSEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989UNITS1AND2,TABLE3.9(CONT'D)WasteClassTotalTotalVolumeCuriesCubicFt.(Note1)Principal TypeofRadionuclides Waste(Notes1a2)(Note3)CategoryReg-Guide 1.21TypeofContainer (Note4)Solidification AentClassA4508.11.15N/APWRCompactible Trashl.bNon-Specification StrongTightPackageNone(Note5)ClassA361.91.15E-1N/APWRNon-Compactible Trashl.d.Non-Specification StrongTightPackageNone(Note6)ClassA411'45.82Cs137,Sr90,Ni63,Pu24lgTRUPWRIon-ExchangeResinl.a.NRCCertified LSA>TypeANone(Note7)ClassC120.364.69Co60,Csl37<I129,Sr90yNi63,Pu241pTRU,SumofNuclideswithT9<5years.PWRProcessFiltersl.a.NRCCertified TypeBNone
'wkI FLORIDAPOWERANDLIGHTCOMPANYST.LUCIEPLANTSEMIANNUAL REPORTJANUARY1,1989THROUGHJUNE30,1989UNITS1AND2TABLE3.9(CON'T)SOLIDWASTESUPPLEMENT Note1:Thetotalcuriequantityandradionuclide composition ofsolidwasteshippedfromtheSt.LuciePlant,Units1&2aredetermined usingacombination ofqualitative andquantitative techniques.
Ingeneral,theSt.LuciePlantfollowstheguidelines outlinedintheLowLevelWasteLicensing BranchTechnical Position(BTP)onRadioactive WasteClassification (5/ll/83) forthesedeterminations.
Themostfrequently usedtechniques fordetermining thetotalcuriequantityinapackagearethedosetocuriemethodsandthe(concentration) x(volumeormass)calculations.
Whereappropriate, engineering typeactivation analysesmaybeapplied.Sinceeachoftheabovemethodologies involvestosomeextentqualitative parameters, thetotalcuriequantityisconsidered tobeanestimate.
Thecomposition ofradionuclides inthewasteisdetermined bybothon-siteanalysesforprincipal gammaemittersandperiodicoff-siteanalysesforotherradionuclides.
Theon-siteanalysesareperformed eitheronabatchbasisoronaroutinebasisusingreasonably representative samplesasappropriate forthewastetype.Off-siteanalysesareusedtoestablish scalingfactorsorotherestimates forradionuclides suchas3H,14C,99Tc,129I,TRU,241Pu,242Cm,63Ni,55Fe,and90Sr.Note2:"Principal Radionuclides" refertothoseradionuclides contained inthewasteinconcentrations greaterthan.01timestheconcentration ofthenuclideslistedinTable1or.01timesthesmallestconcentration ofthenuclideslistedinTable2of10CFR61.Note3:"TypeofWaste"isgenerally specified asdescribed inNUREG0782,DraftEnvironment ImpactStatement on10CFR61,"Licensing Requirements forLandDisposalofRadioactive Waste".Note4:"TypeofContainer" referstothetransport package.Note5:ThevolumeandactivitylistedforDryCompressible Wasterepresent thequantityofmaterialthattodatehasbeensenttotheBarnwell, SouthCarolinaburialfacility.
Thismaterialwasshippedtoacontracted vendorforvolumereduction priortofinaldisposalattheBarnwell, SouthCarolinaburialfacility.
Duringthereporting period,sevenshipments ofDryCompressible Waste(6532cubicfeet,1.306E+Curies)weremadefromtheSt.LuciePlanttothevolumereduction facility.
Thismaterialwasshippedvia"SoleUseTruck"innon-specification strongtightpackages.
19 4
tNote6:Thevolumeandactivitylistedfornon-compressible metalrepresent thequantityofmaterialthatduringthereporting periodcouldnotberecycledbythecontracted vendorandrequireddisposal.
Note7:Duringthereporting period,fourshipments ofdewatered secondary beadresin(2400ft.,8.76ECi)weremadefromtheSt.LuciePlanttothevolumereduction facility.
ThusfarnoneoftheresinhasbeendisposedofattheBarnwell, SouthCarolinaburialfacility.
20
ATTACHMENT
-AUncontrolled liquidReleaseIncludes:
CopyofLicenseeEventReportdatedMay17,1989andsupporting documents relatingmaximumconcentrations asaresultoftherelease.
a