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| number = ML17054D432
| number = ML17054D432
| issue date = 05/28/1982
| issue date = 05/28/1982
| title = Valcor Valves & Gordos Limit Switches.
| title = Valcor Valves & Gordos Limit Switches
| author name =  
| author name =  
| author affiliation = NUS CORP.
| author affiliation = NUS CORP.
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{{#Wiki_filter:y~~S4dPN<We.'e"'fg>~+j/~+3gNineMilePointUnit2ER-OLE2.3WATER2.3.1Hydrology2.1.1SurfaceWater2.3.1.1.SeasonalTemperatureStructureofLakeOntarioLakeOntar'oisalargetemperatelakethatexperiencesseasonalchanesinitsthermalstructure,which,inturn,altersitsirculationpatterns.Thechangesinstratificationrsuitfromatmosphericheatexchangeandwind-inducedmixig.Naturalwarmingo+thelakebeginsinmid-Marchandcon-tinuesuntilmid-Septmber.Attheonsetofwarming,thesurfacewatertemperatreintheshallowlittoralzonerisesmorerapidlythaninrgionsjustoffshore.Thedisap-pearanceofanoffshoresurfacetemperatureof4C(39.2F)inlateJunesignalsthert,ofthesummerseasoninthelake.Ingeneral,verticastratificationovertheentirebasinisestablishedat,thist,ebythecombinedeffectsoflakewarmingandtheadvectznofthewarmer,nearshorewater.Thelake'smeansurfacetemperaturereaches21C(69.8F),andthetemperatureofehypolimnionvarieswithdepth,rangingbetween3.8Ca4.0C(38.8Fand39'F)InlateSeptemberthewarmingprocessds.Thelake'smeansurfacetemperaturedropsrapidlytobow17C(62.6F),andthethermoclinebeginstoweaken.Theverticaltem-peraturegradientdecreasesasthesurfaclayeranddeeperwatereffectivelymix.(Mixingisthecnsequenceofcon-vectioncausedbycoolingatthesurfaceanisenhancedbytheweakeningofthethermocline,whichperm'tswind-inducedturbulencetoextendtogreaterdepths.)ThefallcoolingprocessresemblesspringwarmingbutinreversThebreak-downoftemperaturestratificationthroughoutthlakemarkstheonsetofthewinterseason.Thedateofovturndif-fersfromyeartoyear,dependingontheoccuenceofstorms.Thelakesurfaceiscooledbelow4C(3F),andsurfaceisothermstendtobeparalleltoshore.Wihcon-tinuedcooling,iceformsinthenearshoreregion.2.3.1.1.2WaterCirculationinLakeOntarioTheannualaveragelarge-scalecirculationpatternofLakeOntarioiscounterclockwise(cyclonicflow),withflow+totheeastalongthesouthshoreinarelativelynarrowbandandasomewhatlesspronouncedflowtothewestalongth2.3-1 NineMilePoint,Unit2ER-OLSnorthshore.TheconceptualmodelexplainingthisgeneralcirculationpatternispresentedindetailintheJamesA.FitzPatrickNuclearPowerPlant(JAF)316(a)Demonstration'Thegeneralcirculationdescribedabovehasbeendocumentedbyobservationscollectedoverlongperiods(months).Thecirculationpatternsthatareobservedataspecifictime,however,aremorecomplexasaresultofthelake'sresponsetotheshiftingwinds.Attimes,amajorshiftinwinddis-tributioncanalterthecurrentsinamatterofhours,whileatothertimes,somefeaturesofthecurrentpatterncancontinueevenwithanopposingwind'woimportantexamplesofwind-inducedchangesinthegeneralcirculationpatternareupwellingandinternaloscillations.Upwellingischaracterizedbytherisingofcolder,heavier,bottomwatertowardthesurface.Avarietyofmechanismshasbeenproposedtoaccountfortheobservedoscillationsofthethermocline.Themostdirectex-planationisthatanupwellingdisplacesthethermoclinefromequilibriumbyconvertingkineticenergyofthewindtopotentialenergyofthethermoclineposition.Whenthewindstressisremoved,internalwavesaresetinmotionandcon-tributetothedissipationofthisenergy.Internalwavesincreaseinamplitudeafterstorms,andinLakeOntariotheoscillationshaveaperiodofnearly17.5hr,roughlythreecompleteoscillationsevery2days.TheseoscillationsareacommonfeatureoflaketemperaturerecordsandareprominentinintaketemperaturerecordssuchasthoseofNineMilePointUnit1(Unit1)andtheJAFplant.2.3.1.1.3GeomorphologyatNineMilePointNineMilePointisaslightpromontoryalongthesouthshoreofLakeOntario.Theoffshoreslopeattheplantissteep(5-10percentgrade)atthebeachandflattensto2-3per-centgradetothe5-m(15-ft)depth,thensteepenstoa4-percentslopelakeward.Theslopeat'the6-m(20-ft)depthcontourissteeperat,0heplantthantotheeastorwestoftheplant.AnumberofobservationsofthebottomsedimentsalongthesouthshoreofLakeOntariohavebeenmade.Suttonetal'~'xaminednearshorebottomsediments(0-33m{0-108ft])in1968and1969betweenRochesterandStonyPoint,andstatedseveralconclusionsrelevanttotheNineMilePointsite:1.Thereisgenerallyawest-to-easttransportofsediment.2032 NineMilePointUnit2ER-OLS2.Sitesofsedimentaccumulationoccurinnearshoreshallowareaswheretheshorelineisirregularandwheretherearelocaldeviationsfromtheabovetransportpattern.3.Ingeneral,thecoarsersands,boulders,pebbles,andcobbleslieinthebeachornearshorearea,andfinersedimentsarefoundlakeward.4.SeveralsmallpatchesofsandoccuroffshorebetweenOswegoandMexicoBay,anditishypothesizedthattheseoriginatefromtheOswegoRiver.VisualobservationsmadeintheNineMilePointvicinityduringthe1973-1976aquaticprograms(Section6.5.2.1.2.7)corroboratetheearlierobservationsofSuttonetal'.3.1.1.4CurrentsatNineMilePointCurrent,measurementsweremadeofftheNineMilePointpromontoryfromMaytoOctober1969andfromJulytoOctober1970''.Twofixedunderwatertowerswereplacedinthelake,onein7.3m(24ft)ofwaterandonein14.0m(46ft)ofwater,andprovidedaveragehourlycurrentspeedanddirectiondata.Inaddition,twodroguesurveyswereconductedin1969toobtaintheoverallcurrentpatternatthesite.ResultsfromthesestudiesarepresentedintheJAF316(a)Demonstration'andaresummarizedinthefol-lowingparagraphs.MethodsusedinthesestudiesaredescribedinSection6.3.1.Thewindspeed-frequencydataindicatethatovertheyearaspeedinexcessof9m/s(20mph)occurs21.6percentofthetime,basedonreadingsaveragedovera6-hrperiod.FromJunethroughSeptember,windsinexcessof9m/s(20mph)occur13.9percentofthetime.Thecurrentspeedof.6-hrdurationexceededwithcomparablefrequency(June-September)atthe6-m(19-ft)depthisabout0.06m/s(0.2fps).Thepredominantcurrent,directionintheprecedingstudiesisalongshore.Onthoseoccasionswhenonshoreoroffshorecurrentswereobserved,theirmagnitudesweresubstantiallylessthanthoseofalongshorecurrents'asedonthisnear-fielddata,alongshorecurrentsfromtheeastarejustslightlymorelikelytooccurthanfromthewest.OveralllakecirculationpatternsaretypicallywesttoeastalongthesouthshoreofLakeOntario(Section2.3.1.1.3).On-shoreandoffshorecurrentseachaccountforonlyabout5percentoftheobservations.Approximately30percentof2~33 NineMilePointUnit2ER-OLStheobservationswerebelowthemeterthreshold,0.03m/s(0.08fps).2.3.1.1.5AmbientThermalStructureatNineMilePointDataonthethermalstructureofthelakeinthevicinityofNineMilePointareavailablefromstudiesconductedfrom1969through1978intheOswegoand/orNineMilePointareas.Temperaturedataweregatheredaspartofallmonitoringstudies;however,thefrequencyofsamplingandlocationssampledvariedduringtheyears.AcompletedescriptionofthesamplingprogramsispresentedinSection6.1.1andtheyearlyreports'''.Theresultsofthesestudiesarealsoprovidedintheyearlyreports'ndaresummarizedinthefollowingparagraphs.Verticaltemperatureprofilesrevealedtheexistenceoftransientthermalgradientsequaltoorgreaterthan1C/m(1.8F/3.3ft)throughoutthestudyarea.Thegradientsexistedprimarilyinthesummertime.Theywerenotseasonallystable,sincetheyweregeneratedanddestroyedbysurfaceheatingandcoolingandmixingwithinthewatercolumnoverperiodsdependentuponmeteorologi=alconditions.Althoughgradientswereobservedinsequentialweeksforupto3-to4-weekperiods,thegradientsobservedwereatdifferenttemperaturesandatdifferentdepthsfromweektoweekandthereforewerenot,persistent.Whenthegradientswereobserved,theyappearedtobeuniformfromstationtostation.ThetemperaturedatarecordedduringJunethroughSeptember(1968-1972)intheexistingintakeoftheOswegoSteamStationwerestatisticallyanalyzedandshowthattem-peraturesinexcessof22.0C(74F)occurredonly12per-centofthetimeduringJunethroughSeptemberand,hence,lessthan4percentofthetimeonanannualbasis.Sincethelakeisgenerallyisothermalinthetop6m(20ft),thetemperatureobtainedattheintakedepthof4~9m(16ft)~canbeconsideredtoberepresentativeofthesurfacewatertemperature.ThenaturalseasonalprogressionoftemperaturesintheNineMilePointvicinityfrommid-AprilthroughDecember1976isshownonFigure2.3-1forthe12-m(40-ft)depthcontoursattheNMPEcontroltransect(approximately32km[20mi]eastofUnit2)'~'.Themaximumsurfacetemperaturesrecordedatthe6-and12-m(20-"and40-ft)contourswere23.2~C(738oF)and223oC(72loF)onAugust23and25,1976,respectively.Theminimumsurfacetemperatureatbothlocationswas1.1C(34.0F)duringmid-December.Theplot2.3-4 NineMilePointUnit2ER-OLS(Figure2.3-1)showsapproximately10occurrencesofcoldwaterintrusionsduringthesamplingperiod.ThelargestobservedintrusionsduringthesamplingyearoccurredonAugust2and10.AsecondaryintrusionoccurredonoraboutAugust25.2.3.1.1.6ExistingThermalPlumes2'.1~1.6.1NineMilePointUnit1ThermalPlumeSurveysThermalsurveysoftheUnit1plumeweremadeduringthefirst6yroftheplant'soperation(1970-1975).Atotalof29fieldsurveysoftheplumesresultingfromthedischargeofheatedcondensercoolingwaterintoLakeOntariohavebeenconducted''~'.Section6.1.2providesdescriptionsofthemethodsusedinthesesurveys.Theresultsaresum-marizedinTable2.3-1.Anexaminationofthesedatacoveringa6-yrperiodshowsthattheplumeextentanddirectionarestronglydependentonwind-inducedlakecurrents,waveaction,andupwelling.However,theextentoftheplumehasnodirectrelationshipwiththeactualwindspeed;thatis,highwindsdonotnecessarilycausethelongestplumes.Comparisonsofplumesurveyscondu=tedduringdaysofsimilarambienttemperaturesshownodefiniterelationshipbetweentheheatloadandtheareaofthermalinfluence.Also,thereisnosimplerelationshipbetweentheheatloadandtheplume's'ffshoreextent,evenforthesamewindspeedanddirection.Theseobservationsindicatethestochasticnatureoftheplumes,asinfluencedbythehydrodynamiccharacteristicsofthelake.TheEPAguidancefor316(a)demonstrationsrecommendsadis-chargezonedescriptionanddefinesthedischargezoneas"thatportionofthereceivingwaterswhichfallswithinthe2Cisothermoftheplume30%ormoreofthetime"''.Acumulativefrequencydistributionanalysisofthe29setsofdata(Table2.3-1)wasperformedtodefinethesurfaceplumearea.Themeasuredsurfaceareaswithinthe2C(3.6F)isothermwerearrangedinaseriesofdescendingsizes.Theareathatisexceededwithaselectedfrequencyisthenob-tainedfromtheresultingcumulativefrequencycurve(Figure2.3-2).Asshowninthefigure,thesurfaceplumeareaisgreaterthan81ha(200acres)30percentofthetime.Asimilaranalysiswasperformedfortheestimatedvolumesoftheplumewithinthe2C(3.6F)riseisotherm.ThecumulativefrequencycurveisshownonFigure2.3-3.Thevolumeexceeds5.2x10~cum(420acre-ft)30percentofthetime.Thus,thecalculatedmeandepthofthedis-2.3-5 NineMilePointUnit,2ER-OLSchargezonebasedontheestimatedsurfaceareaandthees-timatedvolumeis0.64m(2.1ft).Duetothestochasticnatureoftheplume,theactualshapeofaplumewhichextendsoveranareaof81ha(200acres)cannotbereadilydetermined.Thefoursurveyswith2'C(3.6F)isothermsclosesttothe81-ha(200-acre)sizehavecommonareasalmostsymmetricalaroundthepointofdis-chargealongtheplanttransect(NMPP).ArepresentativeareaenclosingthecommonareaofalltheplumesaroundthedischargepointisillustratedasthedischargezoneinFigure2.3-4.Therepresentativedischargezoneextendsabout572m(1,875ft)oneachsideofthedischargepointalongtheshore,andtoamaximumofabout721m(2,365ft)offshore.2.3.1.1.6.2JamesA.FitzPatrickPlantThermalPlumeSurveysTriaxialhydrothermalfieldsurveysoftheJAFplantthermalplumewereconductedduringJune,August,andOctoberof1976andinApril,June,andNovemberof1977'''.Thesur-veysincludedsimultaneoustriaxialmeasurementsoitem-peratureanddyeconcentrationalongfixedtransectsinthevicinityoftheJAFandUnit1plants.Lakecurrentsatthreedepths,lakelevel,andwindspeedanddirectionwerealsocontinuouslymonitoredbeforeandduringeachsurvey.Section6.1.1.3providesadescriptionofthesurveyprocedures.Table2.3-2containsthemaximumobserved5T,theambienttemperature,asummaryofthepertinentplantoperatingdata,andprevailinglakeconditionsduringeachofthe19triaxialsurveys.The1976and1977surveyswereconductedunderplantgeneratingloadsrangingbetween702and822MWe(86and100percentofcapacity).Currentvelocitiesweregenerallylow,asevidencedbythefactthatthelakecurrentexceeded15cm/sec(0.5fps)duringonlyoneofthesurveys.ThesurveyswereperformedduringApril,June,August,October,andNovember.Thesetimeperiodsareindicativeofconditionsduringlatewintertoearlyspring,latespringtoearlysummer,summer,fall,andlatefalltoearlywinter.Theresultsofthe19postoperationalhydrothermalsurveysindicatethatisothermalconditionsprevailinthestudyareathroughoutmostoftheyearduetothemechanical2.3-6 NineMilePointUnit2ER-OLSSeveralstudies-havebeenconductedbyinvestor-ownedutilities,includinga1973surveyperformedbyRochesterGasandElectricCompanyattheSterlingsite,approximately35km(22mi)westofNineMilePoint'"'.AcomprehensivewaterqualityinvestigationwasconductedintheMexicoBayareabyNewYorkStateElectricandGasCorporationduringApril1977toMarch1978'.NMPCandthePowerAuthorityoftheStateofNewYork(PASNY)sponsoredwaterqualitysurveysintheNineMilePointstudyareafrom1973through1978''.Lessextensivewaterqualitymonitoringreportswerecompiledin1979and1980byNMPC'~~,"'.The1978NMPC/PASNYsurveyprovidesthelatestextensivedatabaseandisusedinthisreportforanalysisofseasonaltrendsandforcomparisonwithpreviousstudiesforlong-termwaterqualitytrends''''2.3.3.3LakeOntarioWaterQualityOverviewLakeOntariohasbeendesignatedbyNYSDECasClassA-SpecialWaters(InternationalBoundaryWaters),6NYCRR702.1'~'tswatersaresuitableforuseaspublicwatersupplies,forculinaryorfood-processingpurposes,andforprimarycontactrecreation.Ingeneral,thewaterinLakeOntarionearNineMilePointhasbeenfoundtobeofgoodquality,withrelativelylownutrientconcentrations,lowbacterialdensities,andlittleindustrialcontamination.Relativelyhighlevelsofdissolvedoxygen,morethanadequateformostaquaticorganisms,werefoundduringallseasons.Thetotaldissolvedsolids(TDS)concentrationsinLakeOntariohaveincreasedsincetheearly1900sandarenowabovetheNewYorkStateWaterQualityStandard'ualityofthewaterintheNineMilePointstudyareawasdeterminedtobesimilartothegeneralwaterqualitypreviouslyreportedforthelake.Spatialandtemporalvariationsinwaterqualityhavebeenattributedtonaturalthermalstratification,actionofwind.andstorms,theOswegoRiver,west-to-eastlongshorecurrents,andhypolim-neticupwellingsofcold,oftennutrient-richwaters''''.2.3.3.4WaterQualityParametersMonitoredinNineMilePointRegionWatersIThe45waterqualityparametersmeasuredintheNineMilePointsitestudiesandreportedinthissectionarelistedinTable2.3-12.Parameters1through17wereusedtoas-sessthegeneralchemicalqualityofthewater.Parameters18through24arethemajornutrientsnecessaryforalgalgrowthandareusefulinidentifyinganypotentialinfluence2.3-11 NineMilePointUnit2ER-OLSfromagriculturalandsanitarywastedischarges.Parameters25through31aregenerallyusedtoindicatecontaminationofwatersbysanitaryandindustrialwastes.Tracemetalsanalyses,parameters32through45,provideabasisfortheevaluationoftoxicityimpactsonaquaticlife(Section5.5)andwereincludedtocharacterizeambientwaterqualityrelativetocriteriabasedontoxicity'toaquaticlife.Thesamplinglocations,surveydesigns,andanalyticalproceduresutilizedintheNineMilePointstudiesconductedforNMPCandPASNYaredescribedinSection6.6.2.3.3.5WaterQualityintheNineMilePointRegionofIakeOntarioTable2.3-13summarizesthewaterqualitydataforLakeOn-tariointhevicinityofNineMilePoint.An8-yrrecordofwaterqualityispresented.Inadditiontoyear-to-yeartrenddescription,datainTable2.3-13coverhistoricalhighandlowvaluesfortheNineMilePointregionandyearlymean,maximum,andminimumvaluesforeachsamplingyear.SignificantspatialwaterqualityvariabilityinLakeOntariowatersoftheNineMilePointregionwasnotevidentintherawtransectdata,exceptingsolidsandtemperature.Trendsevidentinimportantselectedwaterqualityparametersubsetsaresummarizedinthefollowingparagraphs.WaterTemeratureWatertemperatureinfluencesthekineticsofchemicalandbiochemicalreactions.Thisparameterdisplaysseasonalvariationsdirectlyrelatedtoairtemperature.Watertem-peraturewasmeasuredmonthlyortwicemonthlyinLakeOn-tariointhewaterqualitymonitoringprogram.Inaddition,continuousinsitumonitoringwasconducted'''.Long-termtrendsindicatenosignificantchangeinwatertemperatureovertime.Seasonalwatertemperaturevariationsareillus-tratedonFigure2.3-6.SpatialtemperaturevariationsareevidentintherawdatapresentedinReferences6through11and44and45.TheNineMilePointUnit,1(Unit1)dischargeelevateslakesur-facetemperature,particularlyinthenearshoreregion.TheJAFplanthaslessofatemperatureeffect,asevidencedbydatatakenfromthewatercolumninthevicinityofitsdis-charge(Section2.3.1.1.1).2.3-12 NineMilePointUnit2ER-OLSIronAllmeanannualironconcentrationsinthestudyareaarelessthanthestandardof300ug/l.Maximumironconcentrationsreportedfrom1973through1977exceededthestandard.Neartheendofthemonitoringprogram,atrendtowarddecreasingironconcentrationscanbenoted,withthe1978maximumof220ug/l.LZincSamplecontaminationhaspreviouslybeennotedforthe1974data.Excluding1974data,zincconcentrationsranged,onanaverageyearlybasis,fromlessthan14ug/1to50.6ug/1.Nolong-termtrendswereevidentinthedata.Maximumzincconcentrationsin1973and1978exceededthestatestandardof300ug/l.2.3.3.6WastewaterDischargesThemajorwasteconstituentreleasedtoLakeOntarioasaresultofsiteandvicinitywaterusageisheat.Unit1andtheJAFplantuseLakeOntariowaterforcooling.Heatedcoolingwaterdischargesarerapidlyassimilatedandcooledtoambient,watertemperaturesoutsidedefinedmixingzones(Section2.3.l.l.l).Wastedischargesfromtheprecedingfacilitiesplusef-fluentsfromtheUnit2sitecontributeminoramountsofTDStotheLakeOntarioNineMilePointregionalwaters.2.3-19 NineMilePointUnit2ER-OLS2.3.4ReferencesSweers,.H.E.Structure,DynamicsandChemistryofLakeOntario:InvestigationsBasedonMonitorCruisesin1966and1967.Mar.Sci.Branch,Dept.ofEnergy,MinesandResources,Ottawa,Canada.ManuscriptRept.,Series10,1969.2.PowerAuthorityoftheStateofNewYork.JamesA.FitzPatrickNuclearPowerPlant316(a)DemonstrationSubmission.PreparedforUnitedStatesAtomicEnergyCommission,1971.3.Csanady,G.T.TheCoastalBoundaryLayerinOntario.ChapterII.TheSummer-FallRegime.Physical.Oceanogr.,1972,Vol.2,p.168-176.LakeJ.Sutton,R.G.;Lewis,T.L.;andWoodrow,D.I.NearShoreSedimentsinSouthernLakeOntario,TheirDispersalPat-ternsandEconomicPotential.Proc.13thConf.GreatLakesRes.,1970,p.308-318.5.Gunwaldsen,R.W~;Brodfeld,B.;andHecker,G.E.Cur-rentandTemp'eratureSurveysinLakeOntarioforJamesA.FitzPatrickNuclearPowerPlant.Proc.13thConf.GreatLakesRes.,'970,p.914-926.6.Quirk,Lawler6MatuskyEngineers.1973NineMilePointAquaticEcologyStudies.PreparedforNiagaraMohawkPowerCorporationandPowerAuthorityoftheStateofNewYork,1974.7.Lawler,Matusky6SkellyEngineers.1974NineMilePointAquaticEcologyStudies.PreparedforNiagaraMohawkPowerCorporationandPowerAuthorityoftheStateofNewYork,1975.8.Lawler,Matusky6SkellyEngineers.1975NineMilePointAquaticEcologyStudies.PreparedforNiagaraMohawkPowerCorporation,1976.9.Iawler,Matusky6SkellyEngineers.1976NineMilePointAquaticEcologyStudies.2vols.PreparedforNiagaraMohawkPowerCorporationandPowerAuthorityoftheStateofNewYork,1977.10.TexasInstruments,Inc.NineMilePointAquaticEcologyStudies1977AnnualReport.PreparedforNiagaraMohawkPowerCorporationandPowerAuthorityoftheStateofNewYork,1978.2.3-20 NineMilePointUnit2ER-OLSTABLE2.3-3(Cont)MapNo.+NameofSystemIntakeCountDistance(km/mi)andDirection~fromUni2Distance(km/mi)byWaterfromUnit2AverageWithdrawaIRate18-81~oumda~mdProductionPopulationCaaci~TeofuseServedouu~tuda~md~commons15ChaumontVillage(JeffersonCounty)60/37NNE61/382650.07Domestic5509080.24Winter(Dec-Mar)usageisapprox.189cum/day(0.05mgd);summerusage(Jun-Sep)avg.341cum/day(0.09mgd)16CapeVincent65/41NVillage(JeffersonCounty)65/41757020Domestic7509080.24WithdrawaIsfluctuatebetweenJunandSepfrom473to1,136cum/day(0.125to0.3mgd)+LocationscorrespondingtomapnumbersareshownonFigure2.3-4.SOURCES:References20,22,24,25,and284of4 0
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NineMilePoint,Unit2ER-OLS2.4ECOLOGY2.4.1TerrestrialEcology2.4.1.1SiteandVicinityThefollowingdescriptionof,theexistingterrestrialeco-systemsinthevicinityofUnit2isderivedprimarilyfrom1)1979aerialphotographs,2)a1979terrestrialfieldsur-vey(seeSection6.5'formethodology),and3)reviewofpertinentliteratureasreferenced.StereoscopicfalsecolorinfraredandtruecoloraerialphotographsoftheUnit2siteweretakeninAugust,1979todelineateareasofexistingenvironmentalstressandtofacilitatevegetativemapping(Figures2.4-1and2.4-2).Inaddition,aterrestrialfieldsurveywasconductedinSep-tember1979toprovidequantitativeandqualitativedescrip-tionsofthefloralandfaunalcommunitieswithin1.6km(1.0mi)ofthegeographiccenteroftheUnit2site(Figure2.4-2).Toprovideinformationinthegeneralvicinityofthesite,upto80km(50mi),datawereobtainedfromthehabitatandwildlifeinventoryoftheOswegoCountyCoastalZone,conductedin1976,thePortOntarioHarborterrestrialvertebratestudy,conductedin1977,theNapaneeDistrictLandUseStrategyPlan,andfromcommunicationwithstateandlocalwildlifepersonnel'',2.4.1.1.1GeneralSiteCharacteristicsUnit2islocatedwithintheOneidaPlainphysiographicregionofOswegoCounty,NY'''.Thesitealsolieswithinthe93.8-sqkm(36.2-sqmi)areadefinedbytheSt.LawrenceEasternOntarioCommissionastheOswegoCountyCoastalZone'~'.ThetopographyoftheOneidaPlain,whichextendssouthofLakeOntario,ismostappropriatelydescribedasaseriesofundulatinghills'''.Thelakeplainrisesfromaminimumof76.2m(250ft)abovesealevelinthenumerouswetlandsalongtheLakeOntarioshorelinetoamaximumof93.9m(308ft)abovesealevelatDerbyHillinthetownofMexico'''.ThesouthshoreofLakeOntarioisbasicallyun-derlainbyOswegosandstone.ThecloseststateorfederalwildlifemanagementareaistheDeerCreekMarshWildlifeManagementArea,operatedbytheNewYorkStateDepartmentofEnvironmentalConservation(NYSDEC),locatedabout31km(19mi)east-southeastofthesite.TheclosestareatothenorthisthePointPetreProvincialWildlifeAreainPrinceEdwardCounty(Athol,Ontario)about69km(43mi)fromthesite'"'.Theonly2'-1 NineMilePointUnit2ER-OLSpotherwildlifemanagementareainthevicinityofthesiteisanAudubonbirdsanctuarylocated3km(1.9mi)fromthesiteontheLakeOntarioshore,east,ofNineMilePointRoad(Figure2.4-3).Thisistheclosestprotectedwildlifeareatothesite,andmanagementconsistsprimarilyoftheerec-tionofnestboxesandthemaintenanceofvisitortrails':aa42.4.1.1.2TerrestrialCommunitiesandTheirInteractionsWithTheirEnvironmentThecoastalzoneofOswegoCountyliesinatransitionalareabetweenborealforestandnortheasternhardwoodforest'''.TheproximityofLakeOntarioappreciablymodifiestheclimate,andthushasasignificanteffectonthefloralandfaunalassociationsoftheregion'''.Theclimaxcommunityisadeciduousforestwithanextensiveherbaceousgroundcover.Thebiotaoftheareaarecharac-teristicofatransitionalzonewithhighspeciesdiversity'wobasicecosystemsarepresentinthecoastalzone:wetlandsanduplandareas.Thewetlandsgenerallyresultfromdisruptionofdrainagecausedbythedrumlintopographyoftheregion'~Theyaregenerallytransitionalandin-cludeshallowponds,shrubswamps,woodswamps,andinter-mittentlywetbottomland-likeforests.MuchoftheoriginalmatureforestlandoftheOneidaPlainwasclearedinthepastforfarming,butagreatdealhassincebeenabandoned'~'.Assuch,theuplandsaremostlysecond-growthcommunitiesinavarietyofsuccessionalstages.Forthisregion,thematureclimaxhardwoodcom-munityiscomposedofthebeech-maple-hemlockassociation.Ironwood(~Carinuscaroliniana),witchhazel(Hamamelisunderstory.Groundcover,althoughgenerallysparseduetotheclosedcanopy,consistsoffalseSolomon'sseal"~2Thevegetationinthevicinityofthesitemaybedividedintoanumberofdistinctcommunitytypes(Figure2.4-2).Theforestedcovertypesdescribedinthefollowingpara-graphsweresampledquantitativelyalongthreetransectsusingapoint-quartersamplingtechnique(Section6.5.1.1)duringthe1979fieldsurvey.Theremainingcovertypesaredescribedqualitatively,basedonobservationsmadeduring2.4-2 NineMilePointUnit2ER-OLS2.5SOCIOECONOMICS2.5'DemographyUnit2islocatedonLakeOntariointhetownofScriba,inthenorthcentralportionofOswegoCounty,approximately10km(6.2mi)northeastofthecityofOswego.In1980,OswegoCountyhadanestimatedpopulationof113,901,atanaveragedensityof43.0people/sqkm(111people/sqmi)'hispopulationdensityisconsiderablylowerthanthestateaverageof137people/sqkm(356people/sqmi).The1980populationandthepopulationdensityforthe10townsand1citywithin20km(12.4mi)ofUnit2arelistedinTable2.5-1.TownandcityboundariesareshownonFigure2.5-1.The80-km(50-mi)areasurroundingthestationcontainsallorportionsof10NewYorkStatecountiesandportionsofCanada.Alsowithin80km(50mi)istheSyracuseStandardMetropolitanStatisticalArea(SMSA).Politicalboundariesofcountiesandpopulationcenterswithin80km(50mi)areshownonFigure2.5-2.Forpopulationprojectionpurposes,1985isusedastheyearofinitialplantoperation.Thedifferencebetweenthepopulationof1985and1986,theyearofactualcommercialoperation,shouldnotdiffertoanysignificantextent.Therefore,sinceprojectionsarecalculatedat5-yrinter-valsbasedonthedecennialcensus,1985providesthebestestimateofpopulationdistributionatthestartofcommer-cialoperation.2.5.1.1PopulationWithin20Km(12.4Mi)Thetotal1980populationwithin20km(12.4mi)ofUnit2isestimatedtobe46,349,al.l-percentincreaSeoverthe1970total.Thispopulationisprojectedtoincreasetoap-proximately64,970bytheyear2000andtoapproximately106,509by2030'''.The20-km(12.4-mi)areacontainsallorportionsof1cityand10towns:thecityofOswegoandthetownsofMinetto,Scriba,NewHaven,Oswego,Mexico,Palermo,Richland,Volney,Granby,andHannibal.CityandtownboundariesareshownonFigure2.5-1.'fthe10townsand1cityinthe20-km(12.4-mi)area,thecityofOswegoisthelargestinpopulationsize,containingapproximately19,793peoplein1980.Next,inorderofpopulation,areGranby,Richland,Scriba,andVolney,withestimated1980populationsof6,341,5,594,5,455,and5,358,respectively'''.Populationgrowthandthe2.5-1 NineMilePointUnit.2ER-OLS1970-1980percentchangeinpopulationforthetownsandcitywithinthe20-km(12.4-mi)areaarelistedinTable2.5-2.Itisexpectedthatalargeportionofinthe20-km(12.4-mi)areawillsoutheasternfringesof.thecityofroundingtownsofScriba,Palermo,Newabsorbingmuchofthecity'ssatellitethepopulationgrowthoccuraroundtheOswego,withthesur-Haven,andVolneygrowth'~'.Populationdistributionwithin8km(5mi)ofthestationisbasedonafieldhousecountconductedinOctober1981andtown-specificpeopleperhouseholdfactors.Between8and10km(5and6.2mi),populationdistributionisbasedonahousecounttakenfromU.S.GeologicalSurveymaps(photorevised1978)onwhichhouseshavebeensymbolicallyidentified'.Houseswereusedtoestimatetheareapopulationbyapplyingafactor'of2.65persons/householdforeachhouseinthetownofScribaand2.43persons/householdforeachhouseinthetownofNewHaven''.Populationfigureswithin10km(6.2mi)ofthesitewerethenprojectedbymultiplyingthebase-yearpopulationbytheOswegoCountygrowthfactor,suppliedbytheNewYorkStateDepartmentofCommerce,EconomicDevelop-mentBoard,whichusedthecohort-componentmethodtoobtainprojections'~'.Polar-gridsectorpopulationsbetween10and20km(6.2and12.4mi)arebasedon1980U.S.CensusdataandNewYorkStatepopulationprojections.Sectorpopulationsweredeterminedbyassumingthatthepopulationofaminorcivildivision(i.e.,atown)isevenlydistributedoveritslandarea.Theproportionofeachcivildivision'sareaineachgridsectorwasthendeterminedandappliedtoeachcivildivision'stotalpopulation,yieldingthepopulationineachgridsector.Populationprojections,basedon1978projectionssuppliedbytheNewYorkStateDepartmentofCommerce,EconomicDevelopmentBoard,wereappliedtoeachcivildivision,assumingthateachportionwouldmaintainitsrelativeshareofanypopulationchange.Populationdensitywascalculatedbydividingthepopulationineachsectorbyitslandarea'.Populationdistributionwithina20-km(12.4-mi)radiusoftheplantfor1980through2030isshownonFigures2.5-3through2.5-9andlistedinTables2.5-3through2.5-9.Transientpopulationwithin20km(12.4mi)ofUnit2islimitedduetotherural,undevelopedcharacterofthearea.Thereare,however,anumberofschool,industrial,andrecreationalfacilitiesintheareathatcreatesmall,daily2.5-2 NineMilePointUnit2ER-OLSTABLE2.5-11980POPULATIONANDPOPULATIONDENSITIESFORTOWNSANDCITIESWITHIN20KM(12.4MI)OFUNIT2CityofOswegoOswego(town)GranbyRichlandScribaVolneyMexicoHannibalPalermoNewHavenMinetto1980Poulation19,7937,8656,3415,5945,4555,3584,7904,0273,2532,4211,905PopulationDensityeoleskm1,029.0116.955.240.952.946.041.838.531.631.7125.5SOURCE:Reference11of1 V00 NineMilePointUnit2ER-OLSpacttheoverallvisualqualityofthearea.TheviewofthecoolingtowerwillbetheonlynoticeablechangersThecoolingtoweris165m(541ft)abovegroundlevelandisvisibleatsomelocations,asshownforselectedlocationsonFigures3.1-4through3.1-7.Dependingonmeteorologicalconditions,thenatural-draftcoolingtowerwillemitevaporativeplumesthatmaybevisiblefromlocationswithinthe16-km(10-mi)area.ExpectedvisibleplumeoccurrencesaredescribedinSection5.3.3.1,andpredictedfrequencyofplumeoccurrencesareshownonFigures5.3-1through5.3-25.Theanticipatedplumesfor5-percent,1-percent,andO.l-percentoccurrencesatselectedlocationsareshownonFigures3.1-4through3.1-7,andananalysisoftheirvisualimpactsispresentedinSection5.8.1.1.Theplumeoccurrencedenotesthemaximumextentofplumethatis,visibleforacertainpercentoftime,asshownonthefigures.StartinginAprilandcontinuingthroughSeptember,whenrecreationalactivitiesonthelakeandalongtheshorelinearefrequent,thecoolingtowerwillbevisiblefromtheshoresidebyfishermen,recreationalusers,andothersatfacilitiessuchastheOntarioBibleConferenceAssociationCamp(alakefrontfacilityborderingthesiteonthewest).Coolingtowerplumesarenotexpectedtohaveasignificantvisualimpact.Mostvisuallysensitivesites,listedinTable3'-1,arelocatedinvegetatedordevelopedareas,specificallywithinthecityofOswego.Therefore,distantviewsthatmightincludetheplumearenotpossiblefromthesesites.However,atlocationsalongtheshorelineatelevatedgrades,suchasFortOntario(Figure3.1-7),plumesmaybevisible.ThevisualimpactofUnit2isminimalduetothelimitednumberoflocationsfromwhichtheplantisvisible,thelackofvisibilityfrommanyvisuallysensitiveorintensivelanduseareas,andthesmallportionofplantstructuresthatcanbeseenabovethesurroundingvegetation.3.1.3ArchitecturalRendering'ofthePlantFigure3'-8showsanarchitecturalrenderingoftheUnit2facility,includingallmajorstationfeaturesandland-scapingwhetheractuallycompletedorplanned.3.1-3
 
NineMilePointUnit2ER-OLSAllcomponentscooledbytheservicewatersystemaredesignedbasedonamaximumservicewatersysteminlettemperatureof25C(77F).Table3.4-1providesthemaximumflowratesandheatgainsforeachofthefollowingplantconditions:1~Normaloperation.2.Normalshutdown.3.Loss-of-coolantaccident(LOCA)withoutlossofoffsitepower(LOP).4.LOCAcoincidentwithaLOP.TheactualservicewatersystemflowandheatgainwillvarybelowthemaximumvaluesgiveninTable3.4-1dependingonplantandambientconditions.3.4.1.3IntakeandDischargeSystems3.4.1.3.1SystemDescriptionThesourceanddischargepointofallcoolingwaterrequiredbyUnit2isLakeOntario..Sixservicewaterpumpssupplywaterforthetwocoolingsystems:theservicewatersystemandthecirculatingwatersystem.AdetaileddescriptionoftheintakeanddischargesystemsisprovidedinFSARSection9.2.5.3.4.1.3.2OperationalModesDuringnormalplantoperation,theintakeflowrequiredfortheservicewaterpumpsisconveyedthroughtwointakestructuresthatareconnectedtotheonshorescreenwellviapipeslocatedwithintunnelsbelowthelakebottom.Theplantdischargeisconveyedfromthedischargebaythroughthediffusernozzlestothelakeviathedischargetunnelbelowthelake'ottom.ThisisfurtherdiscussedinFSARSection9.2.5.3.4.1.3.3QuantitiesofHeatDistributedTheaverageheatrejectedtothelakebytheservicewaterdischargesystemis1.75x10g-cal/sec(2.5x10Btu/hr).Duringnormaloperation,themaximumheatrejectedis3.29x10~g-cal/sec(4.7x108Btu/hr).3~4-3 NineMilePoint.Unit2ER-OLS3.4.1.3.4QuantitiesofWaterWithdrawn,Consumed,andDischargedDuringnormaloperation,anaveragetotalflowof3,3801/s(53,600gpm)iswithdrawnfromthelake:2,4401/s(38,675gpm)fortheservicewatersystemrequirementsand940l/s(14,925gpm)forthefishdiversionsystem.Table3.3-1listsmonthlyminimum,average,andmaximumtotalintakeflows.Theclosed-loopcirculatingwatersystemusesdischargefromtheservicewatersystemforitsmakeuprequirements.Dependingonthemeteorologicalconditions,thecombinedplantdischargeflowrangesfromaminimumof1,450l/s(23,055gpm)toamaximumof2,2101/s(35,040gpm)duringnormaloperation.Duringanormalshutdown,themaximumplantdischargeisapproximately3,0801/s(48,800gpm)..DischargeflowsfromthewatertreatmentsystemandtheradwastesystemflowsarediscussedinSection3.3.FSARFigure9.2-1showstheservicewaterintakeanddischargesystems'ateruse.Themonthlyminimum,maximum,and-averagecoolingwaterintakeanddischargeflowsarelistedinTable3.3-1.3.4.1.3.5WaterTemperaturesThe,ambientlakewatertemperaturerangesfrom0Cto26C(32Fto78F).Whenint'akewatertemperatureislessthan3.3C(38F),temperingflowisprovidedtomaintainaminimummixedintakeflowtemperatureof3.3C(38F)..Thecombinedplantdischargetemperaturerangesfrom0.6OCto15.6C(1.0Fto28.0F)abovetheambientlaketemperature.Thesubmergeddischargediffuserwillcauseconsiderablecoldwaterdilutionoftheheateddischarge.Therefore,themaximumpredictedchangeinthelakesurfacetemperature,resultingfromtheplantdischarge,is1.3C(2.3F).ThisvalueisconsistentwiththeNewYorkStateWaterQualityStandardslimitinglakesurfacetemperaturetoamaximumof1.7C(3F)aboveambient.Themonthlyminimum,maximum,andaverageplantdischargedifferentialtemperaturesabovethelaketemperaturesarelistedinTable3.3-1.Duringnormaloperation,theplantdischargeflowandtemperaturevarywithfluctuationsinthemeteorologicalconditions(Section2.3.2).3.4>>4 NineMilePointUnit2ER-OLSDownstreamoftherotarygates,flowfrombothverticalshaftsmergesintoacommonbayandthendividesintotwo1.2-m(4-ft)widescreenbays.Atrashrackandanangled,flush-mountedtravelingwaterscreenarelocatedineachscreenbay.Thetwotravelingwaterscreensareangled25degtotheupstreamdirectionofflowwiththeirdownstreamendsconverging.Thetrashrackiscleanedbyarake,anddebriscollectedbytherackisdepositedintothetrashrakehopperanddisposedofinaNewYorkState-approvedlandfill.I.Afterpassingthroughthetravelingwaterscreens,thetwoscreenbaysmergeintoacommonintakebayfromwhichtheservicewaterpumpstakesuction.Twomotor-operatedrotaryvalves,arrangedinparallelandnormallyclosed,arelocatedupstreamofthetwoscreenbaystoprovidearedundantflowpathtotheservicewaterpumps.Afishbypassandreturn.systemisprovidedatthedownstreamendofthescreens.Fishenteringthescreenbayspassthroughthetrashracksandareguidedbytwoangled,flush-mountedtravelingwaterscreensinto15-cm(6-in)widebypassslotsatthedownstreamendofthescreens.Thetwoslotsconvergeandattheirjunctionthefisharetransportedthroughafunnel-shapedtransitionoftwo46-cm(18-in)pipeswhichcombineintoasingle61-cm(24-in)pipeleadingtothejetpump.ThejetpumpdischargesabypassflowandthefishintothefishdischargepipelocatedinTunnelNo.2,whichisnotutilizedforplantdischarge.Afishholdingtankisalsoprovidedatthejetpumpdischargeforperiodicsampling.Thefisharetransportedthroughthereturnpipetoaverticalriseranddischargedintothelakeinaneasterlydirection,paralleltothelake,bottom.3.4.2.2DischargeSystemThedischargeflowconsistsofservicewaterbypass(servicewaterdischargenotutilizedascirculatingwatersystemmakeup),circulatingwatersystemblowdown,watertreatmentsystemdischarge,andliquidradwaste;allofwhichdischargesintothedischargebay.Thedischargesystemconsistsofanonshoredischargebay,adischargeportionofTunnelNo.1,adischargetunnel,andatwo-portdiffuser,asshownonFigure3.4-4.Thedischargebayislocatedonthewest.sideofthetwointakeshaftsandisseparatedfromtheshaftsbyawallthatextendsupto3.4-'7 NineMilePointUnit2ER-OLSel85m(279ft)andwhichactsasaweir,asshownonFigure3.4-6.Stoplogslotsareprovidedfromthetopofeachweir,el85m(279ft),totheoperatingdeck,el87m(285ft),withastoploggatenormallyinplacebetweenthesouthshaftandthedischargebay.Thisprovidesanalternatedischargepath,asdiscussedinFSARSection9.2.5~Thedischargeflowentersa1.4-m(4.5-ft)diametersteeldischargepipethatislocatedonthenorthwallofthedischargebayandwhichconnectsthedischargebaytothedischargeportionofTunnelNo.1.TunnelNo.2doesnothavedischargecapability.AftertravelingthroughthedischargeportionofTunnelNo.1,thedischargeflowcontinuespastthepointwherethe1.4-m(4.5-ft)diameterintakepiperisestoitsintakest'ructure,andentersintothesmallerGunite-lineddischargetunnel,asshownonFigure3.4-4.Boththedischargeportionoftheintaketunnelandthedischargetunnelhavesufficientareafortheplantdischargeflow.ThedischargeportionofTunnelNo.1terminatesatapointapproximately457m(1,500ft)fromtheshoreline,wherethedischargflowentersa1.4-m(4.5-ft)diametersteelriserleadingtoatwo-port'diffuserlocatedonthelakebottom.The1.4-m(4.5-ft)diameterriserdividesintotwo0.9-m(3.0-ft)diametersteelpipeswith0.46-m(1.5-ft)diameternozzlesattheendofeach,asshownonFigure3.4-7.The~nozzlesareorientedtofaceoffshore120degapartandinclinedupwardata5-deganglefromhorizontaltominimizebottomscouring.Theinvertofthenozzleopeningsis0.9m(3.0ft)offthelakebottom,providing11.35m(37.25ft)ofwaterabovethenozzlecenterlinesatminimumcontrolledlakeel74.4m(244.0ft)(USLS1935Datum).ThelocationandorientationofthenozzlesweredesignedandlocatedtocomplywithNewYorkCodes,Rules,andRegulations(6NYCRR704),1976.Thisregulationstipulatesthatthelakesurfacetemperaturewillnotbeincreasedbymorethan1.7C(3F)aftertheadditionofheat,fromanartificalorigin.Tomeetthe1.7'C(3F)requirementof6NYCRR704,themathematicalmodeldevelopedbyKohandFanforarowofequallyspacedroundjetsdischargingatanarbitraryangleofinclinationtothehorizontalintostagnantwaterwasused'.Fromthismodel,standardnomogramspublishedbytheEPAweregenerated'~'..DepthcorrectionsbyRobideauwereappliedtotheEPAnomographstoobtainmoreconservativeresults'.NewYorkStateRegulation6NYCRR652(1976)governsdischargestohypolimneticwaters3.4-8 NineMilePointUnit2ER-OLSofalake.Throughanextensivelaketemperaturemonitoringprogramconductedin1973intheOswego-NineMilevicinity,itwasdeterminedthataseasonallystablestratifiedlayerorthermoclinedoesnotexi'statNineMilePoint.Therefore,thedischargedoesnotenterthehypolimnion.InputdatafortheprecedingmathematicalmodelsarelistedinTable3'-1.Analysisofworst-caseconditionsresultedinthepredictedtemperature.distributionpresentedonFigure5.3-6..Themodelpredictsthemaximumsurfacetemperaturerisetobe1~3C(2.3F)~3.4.2.3CoolingTowerThecoolingtowerisasingle-cell,wet-evaporative,natural-draftcoolingtowerutilizingacounterflow-typedesign.ThelocationofthetowerisshownonFigure3.1-1.Thecoolingtowerdesignpointisatanatmosphericconditionof23C(74F)wet-bulbtemperatureand50percentrelativehumidity.Duringthesemeteorologicalconditions,thetowerisdesignedtooperateatan8.9C(16F)approach,witha15C(27F)range.Dependingonthemeteorologicalconditions,thecoolingtowerisdesignedtosupplywaterrangingfrom6.7Cto34C(44Fto93F)tothemaincondenser.SelectionofthedesignconditionsforthecoolingtowerwasbaseduponmeteorologicaldatafromRochester,NY,fortheperiodJanuary1,1949,throughDecember31,1958.Onsitemeteorologicaldataobtainedduring1974and1978showtheRochesterdatatobesimilartositedata.Rochester,locatedapproximately113km(70mi)westoftheNineMilePointsiteontheshoreofLakeOntario,isthenearestmeteorologicalstationwithasufficientlylongperiodofdataandaclimateapproximatelythatofthesiteuponwhichthecoolingtowerdesigncouldbebased.Thefrequencydistributionofhourlyj.ointdry-bulbtemperature-wet-bulbtemperatureoccurrencesisplottedonFigure3.4-8,withtherelativehumiditycurvessuperimposed.Thecoolingtowerperformancecurveforthedesignconditionisalsoplottedonthisfigure.Thiscurvedefinesthe.frequencywithwhichthedesignpointisequaledorexceeded.FromFigure3.4-8,thedesignpointisequaledorexceededapproximately33hrperyear,orapproximately3percent,ofthesummertimehourswhenthewet-bulbtemperaturesareover18C(65F).ThecoolingtowerperformancecurvesareshownonFSARFigures2C-2and2C-3~Atthedesignpointof23C(74F)3~4-9 NineMilePointUnit2ER-OLSwet-bulbtemperatureand50percentrelativehumidity,thecoldwatertemperatureis31.9'C(89.5F)andtheevaporationrateis8201/s(12,950gpm);or2.2percentofthecirculatingwaterflow.Theconcretecoolingtoweris165m(541ft)inheight,withabottomdiameterof123m(405ft)andatopdiameterof83m(273ft)(Figure3.4-9).Thetopofthecoldwaterbasinwallisatel80.01m(262.5ft),providing0.6m(2ft)offreeboardabovethenormalwaterelevationinthebasin.Thebottomofthetowerfillisatel90.2m(295.8ft),thecenterlineoftheupperdistributionpipingisatel93.2m(305.75ft),andthedrifteliminator'sapproximatelyatel93.4m(306.3ft).Slidegatesareprovidedintheupperdistributionflumestoisolatethecentersectionofthetowerfillandforceallwatertotheperimeterofthetowerduringwinteroperation.Anicepreventionringisprovidedatthetopoftheairinletopeningaroundthetowerperimeter.Theicepreventionringprovidesaveilofwatertorestrict-theairinletopeningandpreventiceformationduringextremelycoldweatherconditions.Bypassgatesareprovidedonthreeofthesixinletrisersatthecoldwaterbasinlevelforwinterstartupandshutdownoperations.Thebypassgateseachhaveacapacityofapproximately14,1301/s(224,000gpm).Sixteenwindbaffles,spaced22.5degapart,arelocatedaroundtheperimeterofthetowerairinletopening.Thesebafflesminimizethelocalblow-throughfromthetowerduringhigh-windconditions.AircraftwarninglightsareprovidedonthetowerinaccordancewithFAArequirements.Anaccessrampisprovidedintothecoldwaterbasinforperiodicremovalofsedimentation.AllsedimentationremovedfromthetowerbasinisdisposedofinaNewYorkState-approvedlandfill.3.4.2.4MainCondenserThemaincondenserprovidesaheatsinkfortheturbineexhauststeam,turbinebypasssteam,andotherflows.Italsoprovidesdeaerationandholdupcapacityforthecondensatewhichisreusedafteraperiodofradioactivedecay.3.4-10 NineMilePointUnit2ER-OIScertainassumptionshavebeenmaderegardingquantityofleakage,removalintheturbinebuilding,radioactivitylevelsintheleakage,andpartitionfactors.Estimateddosesarebasedonalevelof50,000uCi/sec(after30-mindecay).Theturbinebuildingventilationsystemdischargesthroughthemainplantstack.Allreleasesfromthestackaremeasuredbyanonlineisotopiceffluentmonitor.TheradioactivegaseouseffluentfromtheturbinebuildingventilationsystemispresentedinTable3.5-9~IncalculatingdosesforSection5.4,activitieslistedinTable3.5-9wereused.3.5.2.1.6RadwasteBuildingVentilationCertaintanksandequipmentandsomeradwastebuildingserviceareasareventedtodischargegasestothecombinedradwaste/reactorbuildingexhaustvent.Thisreleasepointismonitoredtoensurethatthedischargeis-belowthelimitsrequiredbyapplicableregulations.FSARSection12.2.1.5presentsadescriptionofradiationsourcesintheradwastebuilding.3.5.2.2DescriptionoftheOff-GasSystemTheoff-gasprocessingsystemisprovidedtoreducethetotalamountofgaseousradwastesreleasedfromtheplant.Thepipingandinstrumentationdiagramfortheoff-gassystemisshownonFSARFigure11.3-1.Twotrainsoffourcharcoalbedseacharearrangedinseriestoprovidea522-hrdecayperiodforxenonisotopesanda29.6-hrdecayperiodforkryptonisotopes,'assuming25-scfmflowrate(precedingholdup-timevaluesarebasedonNUREG-0016,Revision',calculationmethods).Theminimumdecayperiodprovidedbythesystem,assuming52.5-cfmflowrate,is274hrforxenonand13.7hrforkrypton.Thesystemalsoprovidesforadelaytimeof7.6hrforArgon-41(calculatedusingNUREG-0016,Revision1).Thedesignisbasedon348,900uCi/seccontinuousactivityflowratefornoblegasesmeasuredaftera30-mindecayperiod.Consequently,theactivityflowrateusedasadesignbasisissignificantlyhigherthantheactivityflowrateof50,000uCi/secgiveninTable3.5-8,whichisanexpectedvalueandconsideredmorerepresentativefornormalplantoperation(Section5.4).Processoffgasisremovedfromthemaincondenserbysteamjetairejectors.Theestimatedmassflowratesforoffgastobehandledbyeachsteamjetairejectorunitis:Dryair63kg/hr(138lb/hr)3.5-7 NineMilePointUnit2ER-OLSHgOpHp0Noblegases20kg/hr(43lb/hr)156kg/hr(344lb/hr)1,696kg/hr(3,740lb/hr)(asdilutionsteam)NegligibleNOTE:Theoff-gassysteminlettemperatureisapproximately121C(250F).Theprecedingquantitiesareusedasthedesignbasisfortheoff-gassystem.Furthermore,thesystemisdesignedtoaccommodatevariationsinflowrateswithoutcompromisingperformanceabilities'heoff-gassystemislocatedintheturbinebuildingandoperatesinthefollowingmanner.Steamjetairejectorsremovenoncondensablegasesfromthemaincondenser,providetherequiredpressureattheinletoftheoff-gas=system,andmaintainthehydrogenconcentrationbelowthe4-percent(byvolume)flammabilitylimitbyprovidingtherequiredsteamflowfordilutionatallpowerlevels.-Hydrogenanalyzersareusedtoconfirmtheseconcentrations.Lowsteamflowissensedandresultsinanalarmsignal.Asteampreheaterraisesthetemperatureofthegasstreampriortoenteringthecatalyticrecombiner,whereallbutapproximately6.4kg/hr(14lb/hr)ofwatervaporrecombines.Furtherwaterremovaloccursinthefreezeoutdryer.Theactivityoftheoffgasisreducedbypassagethroughaseriesofambienttemperaturecharcoaladsorbertanks,andHEPAfiltersareusedtoremoveanyparticulatematter.Majorcomponentsoftheoff-gassystemareduplicatedtoprovidetwoparalleloff-gastrains.Componentsrequiringservicingareplacedinindividuallyshieldedcubiclestominimizepersonnelexposureduringmaintenance.The'off-gassystemincludesthefollowingequipmentandisshownonFSARFigure11.2-1.3.5.2.2.1PreheatersFollowingpressurizationofthegasstreamanddilutionbytheairejectors,theoff-gasmixtureentersapreheater.Thepreheaterusessteamfromtheauxiliarysteamsystemtoraisethetemperatureofthegaseousmixtureto143C(290'F).Thistemperatureriseservesto:l.Ensurecompletevaporizationofanyliquidwater.3.5-8 NineMilePointUnit2ER-OLS3.6NONRADIOACTIVEWASTESYSTEMS3.6.1WastesContainingChemicalsorBiocides3.6.1.1DischargestoWater3.6.1.1.1DescriptionofNonradioactiveWasteTreatmentSystemsandSourcesofDischargesTheUnit2chemicalwastetreatment.systemhandleswastewatersfromregenerationofionexchangeresinsusedinthemakeupdemineralizationwatertreatmentsystem..A227,100-1(60,000-gal)capacitywasteneutralizingtank,sizedfortwocompleteregenerationsofthemakeupdemineralizersystem,providesforacidandcausticwastewaterself-neutralization.Additionalneutralization,ifrequired,isachievedthroughtheadditionofconcentratedsulfuricacidorsodiumhydroxide(caustic).Theacidorcausticisaddedintothetankandmixedbyuseofafull-flowrecirculationlinetoachieveapHofnotlessthan6.5andnotgreaterthan8.5.Afterneutralizationandsampling,thewasteneutralizationtank'scontentsareroutedtothedischargebayandsubjectedtoextensivedilutionpriortodischarge,asdescribedinSection3.3.1.Figure3.3-1illustratestheflowpathways.Thecoolingtowerblowdownisaflowofwaterreleasedfromtheunittominimizethebuildupoftotaldissolvedsolids(TDS)inthecirculatingwater.Sodiumhypochloriteisaddedtothecoolingwaterimmediatelyupstreamofthecondensers,whilesulfuricacidisaddedimmediatelydownstreamofthecondensers.Afractionofthecoolingwateriscontinuallyremovedfromthesystem.ThiscoolingtowerblowdownisroutedtothedischargebayandreleasedtoLakeOntario,asdescribedinSection3.3.1andshownonFigure3.3-1.3.6.1.1.2ChemicalsProcessedThroughEachSystemTheaverageandmaximumquantitiesofchemicalsaddedtothecirculatingwaterandusedforregenerationofmakeupdemineralizerionexchangeresinsarelistedinTable3.3-3.ThefrequencyandpurposeoftheseadditionsarealsoindicatedinTable3.3-3.Sulfuricacidandsodiumhypochloriteareaddedtothecirculatingwatersystem.Sulfuricacidandsodiumhydroxideareusedforregenerationofmakeupwatertreatmentionexchangeresins.3.6-1 NineMilePointUnit2ER-OLS3.6.1.1.3AverageandMaximumConcentrationsofNaturalMaterialsinEffluentStreamsAverageandmaximumexpectedconcentrationsofselectedchemicalsdischargedintheUnit2combineddischarge(coolingtower,blowdown,demineralizerregenerationwastewater,andservicewaterbypass)arelistedinTable3.6-1.Theseelementsrepresenttheresponseofnaturallakewaterconstituentstoevaporativeconcentrationinthecoolingcycle.TraceconstituentslistedinTable2.3-13,butnotappearinginTable3.6-1,areconservativeandrespondinthemannerindicatedforelementsnot,subjecttoinplantadditions.AverageandmaximumwaterqualityconstituentvalueswerecalculatedusingNineMilePointregionalwaterqualitydata(Section2.3.3).Averagewaterqualityparameterconcentrationsandaveragecoolingtowerevaporationrateswereusedtoestimateaverageeffluentvalues;maximumvaluesofmonthlymeanwaterqualityconcentrationswerecoupledwithmaximumevaporationratestoestimatemaximumeffluentvalues.Chemicalsaddedtothisdischargeduetodemineralizerregenerationwastes,corrosionofcondensertubing,andbiofouling/corrosioncontrolwereincludedinthecalculations.ThechemicalconstituentslistedinTable3.6-1consistprimarilyoflakewaterconstituents,concentratedbytheevaporativecoolingprocess.Average(202mg/1)andmaximum(266mg/l)TDSconcentrationsofambientintakewatertakendirectlyfromthefakeexceedthe200mg/1TDSstandardforNewYorkStateClassA-SpecialWaters(discussedindetailinSection2.3.3).Sodiumhypochlorite,sodiumhydroxide,andsulfuricacidareaddedtotheplanteffluentasaresultofadditionstothecirculatingwatersystemanddischargesgeneratedduringtheregenerationofmakeupwaterdemineralizerionexchangeresins.Ingeneral,thechemicalcontributionofUnit2totheNineMilePointregionalwaterqualityofLakeOntarioisaminorincreaseinTDSlevelsofthereceivingwatersintheimmediatevicinityofthedischarge,asdiscussedindetailinSection5.5.3.6.1.1.4ConcentrationFactorasaSeasonalBasisforEvaporativeCoolingSystemsThecoolingtowerisexpectedtobeoperatedatayearlyaverageof1.67cyclesofconcentration,basedonaveragemonthlyconcentrationfactors.Themaximumhypothesizedmonthlyconcentrationfactoris2.23,whichmayoccurduringthemonthsofJulyandAugust.Seasonally,theconcentrationfactorsbasedonaverageevaporationratesare3.6-2 NineMilePoint.Unit2ER-OLSasfollows:fortheJanuary-Marchperiod,1.48;April-June,1.76;July-September,1.85;andOctober-December,1.60.3.6.1.1.5OperatingCyclesforEachWasteTreatmentSystemorDischargeThecoolingtowerblowdownrepresentsacontinuousandrelativelyconstantflowwastestreamduringnormalUnit2oper'ation.Theaverageblowdownrateis950l/s(15,068gpm);theminimumblowdownrate,whichdictatesthemaximumchemicalconcentrations,is7061/s(11,188gpm).Sodiumhypochloriteadditionisnotconstantanddependsonthechlorinedemandofthecirculatingwater.Inaddition,thedurationandfrequencyofsodiumhypochloriteadditionarealteredtoassurecompliancewithregulatoryrequirementsofnogreaterthan0.5.mg/1maximumfreeavailablechlorinefornolongerthan2hr/day.Sulfuricacidadditionstothecirculatingwatersystemarelikewisecontrolledbydemand,inthiscase,alkalinity.Quantitiesarenotlikelytofluctuatetoanygreatdegree,dueto'therathernarrowrangeofalkalinityvaluesreportedforLake-Ontario'sNineMile-Pointregion(Section2.3.3).Makeupdemineralizationwastewatersaregeneratedapproximatelyoncepermonth.Duringstartup,thelargeadditionaldemandofhigh-qualitywatrnecessitatesregenerationonceaday.ThequantitiesofsodiumhydroxideandsulfuricacidperregenerationarelistedinSection3.3.2.3.6.1.2DischargestoLand:CharacteristicsandQuantitiesofSludgesandProposedMethodsofUltimateDisposalSludgeandsedimentaccumulatedinthecoolingtowerbasinareprojectedtoberemovedat5-yrintervals.Thesematerialsconsistofsolidsincludingchemicalsandbiocides,concentratedthroughtheevaporativecoolingprocessandcollectedinthecoolingtowerbasin.The5-yrestimatedvolume-is1,668cum(58,900cuft).Thesludgewillbechemicallyanalyzed,removed,anddisposedofoffsiteinaNewYorkState-licenseddisposalfacilitysuitableforwastesofthisnature.Therearenootherplanneddischargestoland.3.6-3 NineMilePointUnit2ER-OLS3.6.1.3DischargestoAirThenatural-draftcoolingtowerrequires19to38millionl/s(40to80million,cfm)ofambientairtodissipatethewasteheatfromthemaincondenserinthecirculatingwatersystem.Theairflowrateisdependentonambientatmosphericconditionsandthereforevariesthroughouttheyear,reachingamaximuminthewinter.Theeffluentsarecommonlydescribedascoolingtowerdriftandvisibleplumes.3.6.1.3.1CoolingTowerDriftAsthecirculatingwaterflowsthroughthefillsectionofacoolingtower,theactionofthefallingwateroverthesplashbarscreatessmallwaterdroplets,someofwhichareentrainedintheairflowingthroughthetower.ThesizedistributionofthesedropletsisgiveninSection5.3.3.1~1.2.Mostdropletsarebetween10and600microns.Thosedropletswhichleavethetowerin-theexitairflowarereferredtoasdrift.Thedriftratefornatural-draftcoolingtowersvarieswiththeexitairflow.Basedon'anufacturers'tandarddesignsfornatural-draftcoolingtowers,amaximumdriftrateof0.0005percentofthecirculatingwaterflowisassumed.Thisresultsinamaximumdriftemissionrateofabout0.761/s(12gpm).3.6.1.3.2EvaporationAmbientairinducedthroughacoolingtowerbecomesheatedandmoisture-ladenasaresultoftheevaporativecoolingprocess,andavisibleplumeisformedwhentheairisdischargedfromthetower.Thefrequencyofoccurrenceandextentofthevisibleplumedependuponmeteorologicalconditionsexistingatthetimeanduponthedesignandphysicalparametersofthecoolingtower.AdetailedevaluationofvisibleplumeoccurrencesispresentedinSection5.3.3.1.1.1.Foragivenambientwet-bulbtemperature,anincreaseinrelativehumidityofambientairresultsinadecreaseintotalmoistureremovedbycoolingtowerexitairandadecreaseintheevaporativecooling.Conversely,adecreaseinambientrelativehumidityresultsinanincreaseincoolingtowerexitairmoisturecontentandanincreaseintheevaporativecooling.Atthedesignwet-bulbtemperatureof23C(74F)andarelativehumidityof50percent,theincreaseinmoisturecontentofairinthetoweris0.018kg(0.039lb)ofwaterper0.454kg(1lb)ofdryair.Withambientrelativehumiditiesof25and100percent,the3.6-4 NineMilePointUnit2,ER-OLSincreasesinmoisturecontentare0'24and0.012-kg(0.053and0.026lb)ofwaterper0.454kg(1lb)ofdryair,respectively.Theeffectsoftheseadditionalamounts,ofmoistureaddedtotheatmosphereonground-levelambientrelativehumidityarediscussedinSection5.3.3.1.1.5.3.6.2SanitaryWasteTreatmentThenormalsanitarywasteflowfromUnit2,basedonanormaloperatingforceof300people.,andanestimated1241/day/person(33gpd/person),is37,472l/day(9,900gpd)..Themaximumflow,basedonanestimatedmaintenanceoutageworkforceof1,500people,is187,3581/day(49,500gpd).SanitarywastesfromUnit2willbetreatedalongwithsanitarywastesgeneratedatUnit1.ThecombinedsanitarywasteflowswillbetreatedandmonitoredtocomplywiththefollowingStatePollutantDischargeEliminationSystem(SPDES)permiteffluentlimitations:ParameterLimitsSettleablesolidsTotalsuspendedsolids5-daybiochemicaloxygendemand(BOD>)ChlorineresidualpH0.1mg/1maximumdaily25mg/1averagedaily'i'5mg/1maximumdaily'5mg/1averagedaily'~'5.mg/1maximumdaily'~''ppmmaximumdaily6.0-9.0Fecalcoliforms200MPN/100ml-30-daygeomet-ricmean400MPN/100ml-7-daygeomet-ricmean'''Dailyaveragecalculatedbydividingmonthlydischargebynumberofdaysinmonth.'Dailymaximumisthemaximumdischargedin1day.3.6-5
-NineMilePointUnit2ER-OLS3.6.3OtherWastes3.6.3.1DescriptionsofMiscellaneousWastesWastestreamsdiscussedinthissectionincludefilterbackwash,stormwater,roofdrains,nonradioactiveplantdrains,treatedradioactivewastewater,transferpitdrain,andcoolingtowersludge.Filterbackwashconsistsofresuspendedfilteredlakewatersolids.Thequalityandquantityofstormwaterandroofdrainsareessentiallythatofincidentprecipitation.Thenonradioactiveplantdrainsconsist.ofadministrationbuilding,servicebuilding,andwatertreatmentanddemineralizerbuildingfloordrains.(Turbineandreactorbuildingdrainsgototheradwastetreatmentsystem.)Treatedradioactivewastewateriscomposedofdrainsandrejectwaterstreatedforremovalofradioactivesubstances(Section3.5).Thefloordrainforthedieselgeneratorbuildingandthetransferpitdrainhavethepotentialforcontaminationwithoil.Coolingtowersludgeconsistsofsuspendedsolidsretainedinthecoolingbasin.3.6.3.2EstimatesofWasteQuantitiestobeDisposedandTheirPollutantConcentrationatPointsofReleaseThefilterbackwashgenerates0.032cum/sec(50gpm)ofwastewaterfora15-minperiodonceevery3weeks.Thesuspendedsolidsconcentrationwillvaryasafunctionofthequantityofsuspendedmatterinthelakewaterfilteredtosupplythemakeupwatersystem.Thequantitiesofstormwaterandroofdrainagevaryandaredirectlydependentuponthestormeventthatgeneratesthem.Thedesignflowisbasedonamaximumdaily(24-hr)rainfallof12.7cm(5in),withareturnfrequencyof100yr.Nonradioactivefloordrainsaredischargedtothestormdrainsystematvariableflowrates,dependentuponmaintenanceandcleaningschedulesforthefacility.Thecombinednonradioactivefloordrains,stormwater,andtransferpitandroofdrainsareestimatedtogenerateaflownotgreaterthan14,000cum/day(3.7mgd).TreatedradioactivewastewatersarequantifiedinSection3.5.Thevolumeofcoolingtowersludgegeneratedin5yrisestimatedtobeapproximately1,668cum(58,900cuft).Thecoolingtowersludgeremovalfrequencyfromthecoolingtowerbasinisanticipatedtobeonceevery5yr.3.6-6 0NI284000E.LSHORELINEATIONCENTERINFOMNI2830000NugITDIY.Kg,XATT00(SYSTEMTgiI~RO06(EPBUNIT2REVETMENT-DITCHTOPEL263.00'-MAINSTACK99608TOP/BERMEL263.00TOP/BEAMEL265.00IDENTIFICATIONLEGENDAREACTORBUILDING8TURBINEBUILDINGCRADWASTEBUILDING0HEATERBAYSESCREENWELLBUILDINGFCONDENSATKSTORAGETANKBLDGGCONTROLBUILDINGHNORMALSWITCHGEARBUILDINGJADMIN1STRATONBUILDINGSEAGETJ(TMNTPT+1RLOCtOOt1P/BERM256.OO'iIIlpAVEPARIULOTuIIT~~~~03Yu5(gV~XRI)CTOWERAVEpalLolJIIytAIITRANSMISSIONLINESTOP/BERMEL2.00tTAJLEGENOORIGINALGROUNOCONTOURNEWGROUNDCONTOURFENCELINENI282000'RCIt266.CP/BKR273.GI~~NSMIoLINEI'GROi)i.hllY111<IlRAILROADNOTESI.GRIDCOORDINATESREFERTONEWYORKSTATECOORDINATESYSTKM2.ELEVATIONSREFERToMEANSEALKVEL3.ORIGINALCONTOURINTERVAL-2FKET<~(itltA~ttttEXISTNGNI28I000~RAILROADTOP/EL27RM00FIGURE3.1-1STATIONLAYOUT2000200400I100SCALEINFEETNIAGARAMOHAWKPOWERCORPORATIONNINEMlLEPOINT-UNIT2ENVIRONMENTALREPORT-OLS
+~,.O1~-
NineMilePointUnit2ER-OLSCHAPTER5TABLEOFCONTENTS(Cont)SectionTitlePacae.5.3.3.2.35.3;4EffectsofHeatDissipationSys-temOperationonWildlifeReferences5.3-445.3-495.4.15.4.1.15.4.1.1.15.4.1.1.25.4.1.1.35'.1.25.4.1.2.15.4.1.2.25,.4.1.2'5~4.25.4..2.15.4.2.25'.4.2.35.4,.2.3.15.4.2.3.25.4.35.4.3.15.4.3.25.4.3.35.4.45.4.4.15.4.4.25.4.4.35.4.4.45.4.4.4.15.4.4.4.25.4.55.4.6RADIOLOGICALIMPACTFROMROUTINEOPERATIONExposure,PathwaysExposureofFloraandFaunaGaseousPathwaysIiquidPathwaysDirectRadiationExposureofManGaseousPathwaysLiquidPathwaysDirectExposureRadioactivityintheEnvironmentRadioactivityinSurfaceWatersRadioactivityinAirRadionuclideConcentrationsLiquidEffluentsGaseousEffluentsDoseRateEstimatesforBiotaOtherthanMan.DosesthroughGaseousPathwaysDoses-throughLiquidPathways,DirectRadiationDosesDoseRateEstimatesforManLiquidPathwaysGaseousPathwaysDirectRadiationfromFacilityAnnualPopulationDosesEighty-Kilometer(Fifty-Mile)RadiusPopulationDosesContiguousU.S.PopulationDosesSummaryofAnnualRadiationDosesReference5.4-15.4-15.4-15.4-15.4-25.4-25.4-25,.4-3.5.4-454-55.4-55.4-55.4-.55'4-5'5.4-55'.4-..6.5.4-75.4-75.4-75.4-75.4-8'.4-8"5.4-85:4-95.4-95.4-95.4-9.,5.4-95.4-115.55.5.'15.5.25.5.2.15.5.2.1.1NONRADIOLOGICALWASTESYSTEMIMPACTSIdentificationofNonradiologicalEffluentDischargesCompliancewithEffluentStandar'dsDischargestoWaterCoolingSystemDischarge5.5-1~5.5-15.5-15.5-15.5-2 NineMilePoin'tUnit,2ER-OLSCHAPTER5TABLEOFCONTENTS(Cont)Section5.5.2.1.25.5.2.1.35.5.2.1.45.5.2.25.5.2.35'.35''..15.5.3.25.5.3.35.5.45.5.55.5.65.65.6.15.6.1.15.6.1.25.6'.35.6.25',F15.6.35.6.3.15.6.3.25.6.3.35.6.3.45.6.4Title.TreatedSanitaryEffluentStormWater,Roof,andYardDrainageFloorDrainageDischargestoAirDischargestoLandImpactsAssociatedwithNonradio-logicalEffluentDischargesDischargestoWaterDischargestoAirSolidWasteLandImpactsUnavoidableAdverseImpactsIrreversibleandIrretrievableCommitmentofResourcesReferencesTRANSMISSIONSYSTEMIMPACTSTerrestrialImpactonFloraImpactonFaunaRight-of-WayManagementAquaticIdentificationofOperationalandMaintenanceActivitiesAssociatedwithTransmissionFacilitiesTransmissionSystemImpactstoManLandUseImpactAudibleNoisefromTransmissionLinesMeanstoReduceImpactsofTrans-missionSystemsMaintenancePracticestoReduceVisualImpactsReferencesPacae5.5-35.5-35.5-35.5-45.5-45.5-55.5-55.5-65.5-65.5-75.5-75.5-85.6-15.6-15.6-1.,5.6-15.6-35.6-65.6-65.6-65.6-65.6-75.6-75.6-85.6-105.75.85.8.15.8.1.15.8.1'5.8.1.3URANIUMFUELCYCLEIMPACTSSOCIOECONOMICIMPACTSPhysicalImpactsLandUseImpactsNonradioactiveGaseousEmissionsPotentialAdverseImpactsDuetoNoise5.7-15.8-15.8-15.8-15.8-15.8-2 NineMilePointUnit2ER-OLSfractionofthestationwateruse.Table3.3-1detailstheevaporativelossesassociatedwithplantcoolingwateruse(amaximumof0.871cum/sec[13,800gpm],aminimumof0.246cum/sec[3,900gpm])andlistsservicewaterandfishdiversionsystemmaximum,average,andminimummonthlyflowrates.LakeOntariowaterisusedfordrinkingwatersupply,indus-trialwatersupply,agriculturalwatersupply,commercialfishing,sportfishing,swimming,boating,andcommercialshipping,"asdiscussedinSection2.3.2.Unit2operationwillnotimpacttheavailabilityofdrinking,agricultural,andindustrialwatersupplies,consideringthelowrateofconsumptionofLakeOntariowater(Section5.2.1).Noimpactonswimming,recreationalboating,orcommercialshippingwilloccurasaresultofUnit2operation.Thefacilityintakestructures,locatedapproximately304.8m(1,000ft)offshoreandapproximately146.3m(480ft)closertoshorethanthedischargestructure,arewellremoved'romanyswimmingreer'eationaluse(Section2.1.3);Theintakestructures(locatedatalesser'depththanthedischargestructure)aresubmerged3.05m(10ft)belowthemeanlowsurfacewaterelevation.Stationoperationwillnotchangesurfacewaterelevations,andnosignificantal-terationofcirculationpatternsisexpected(Section5.2.1);thusrecreationalboatingwillnotbeaf.-fectedbystationoperation.Commercialshippingvesselspassnocloserthan11.3km(7mi)fromtheintakeanddis-chargestructuresandwillnotbeaffectedbystationoperation(Section2.3.2).Commercialandsportfishingwateruseswillbeminimallyaf-fectedbyhydrologicalterationsresultingfromUnit2operation,withimpactsrestricted,tothedilutionzoneofthe,thermal.plumeandlocalizedregionsoftheintakestructures.Standingstocksofcommerciallyandrec-reationallyimportantspecieswillbesubjecttoinsig-nificantalterations,asdiscussedindetail,in.Sections5.3.1and5'.2.GroundwaterGroundwaterisusedforpublicandprivatewatersuppliesbyseveralcommunitiesinOswegoCounty(Section2.3.2).Noothergroundwater,usehasbeenidentified.Unit2operationwi-llnotaffectthiswateruse.Nostationeffluentswillbedischargedtogroundwater.Anongoinggroundwaterdewateringprogramforthereactorcontainmentfoundationwillproduceaminorconeofdepression(Section5.2.1).5.2-3 NineMilePointUnit2ER-OLSSinceallgroundwateruseoccursupgradientofthesiteandgroundwaterdischargeonsiteistowardthelake,nopresentoranticipatedgroundwateruseswillbeaffectedbystationoperation.5.2.2.2AnalysisofWaterQualityChangesandPotentialImpactstoWaterUseIakeOntariowaterusesthataresusceptibletoimpactsresultingfromstationoperation,duetochanges.inwaterquality,includeswimming,drinking,agriculturalandindus-trialwaterconsumption,commercialfishing,andsportfishing.AsdiscussedinSections5.3and5',thermalandchemicalreleasesfromUnit2becomesignificantlydilutedwithinadefinedregion,wellbeforethepointofwithdrawalorusefordrinkingwater,agriculturalorindus-trialwatersupplies,orswimming.EffluentchemicalconstituentsfromUnit2arelargelynaturallakeconstituentsconcentratedinthecirculatingwatersystembyamaximumfactorof2.33andanaveragefac-torof1.67(Section3.6.1).Table3.6-1liststheconcen-trations,ofimportantwaterqualityparametersattheedgeofthedilutionzoneofthethermalplumeandtheaverageconcentrationinNineMilePointregionalwaters.Thereisaminorincreaseoftheseconcentrationsattheedgeofthedilutionzoneasaresultofstationoperation.Extensiveadditionaldilutionpriortowithdrawalor.insituusewillresultin'anegligibleimpactofplantoperationonswimming,drinking,agricultural,and"industrialwateruses.Aquaticbiotawillbesubjecttoimpactsofheat,inducedflowpatterns,andelevatedconcentrationsofwaterqualityconstituentsinthedilutionzone(Sections5.3'and5.5).However,asdiscussedinSection5.3.2,thedilutionzoneisanextremelysmallvolumefractionofthe.receivingwaterbody,andwastesdischargedtothisvolumewillnotproduceasignificantimpactontheaveragestandingstockofcom-mercially.andrecreationallyimportantfishspecies.Consequently,therewillbenosignificantimpactstocom-mercialorrecreationalfishing.5.2.2.3MitigatingMeasuresImpactstoLakeOntariowateruseresulti'ngfromtheoperationofthefacilityareminimal.Impactstoaquaticbiotaaremitigatedbythefishdiversionsystem(Section5'.1).FurthermitigationoftheminorimpactsassociatedwiththewateruseofUnit2is,therefore,unwarranted.5.2-4 NineMilePointUnit2ER-OLSgenerallyexhibitaninitialfrightreactiontoelevatednoiselevels,followedbyaperiodofacclimation,dependingontheintensityofthenoiselevelandthedegreetowhichitismonotonousor,repetitive'.Onsite,thisreactionwillalsoberelatedtothenoiselevelspresentpriortothecommencementofplantoperation,sincepreviouscon-ditionsmayreducetheperiodofacclimation.Thepredictedmaximumnoiselevelatthepropertyboundaryduringoperationoftheplant(includingUnit1andambient)rangesfromabout32'to40dBA(Section5.8.1.3).Duringoperationofthetower,theintensityandqualityofthenoisewillremainmoreorlessconstant.Inthepresenceofthesemonotonoussounds,theanimalsareexpectedtoadapttothemandresumetheirnormalpatternsofbehavior.Consequently,thenoiseproducedbystationoperationshouldhavenopermanentadverseimpactonthewildlifeinthearea.Theheightandwidthofthecoolingtowerpresentapoten-tialhazardtomigratoryspeciesofbirds.Fromthebase(el79.3m[260ft],4.3m(14ft]abovelakelevel),thetowerextendsapproximately164.9m(541ft)abovegrade,anditswidthvariesfrom136m(446ft)atthebaseto83.2m(273ft)atthetop.Itwillalsooccasionallyproducevisibleplumesthatextendsomewhat.belowthetopofthetower(FSARFigures2.3-1through2.3-25)~Theassess-mentofpotentialimpact,discussedinthefollowingparagraphs,isbasedonconsiderationsofbirdmigratorypatterns,migratorycues,andmeteorologyintheOswegoarea.Hochbaumstatesthatabird'seyesarethebasicsensoryor-ganfromwhichitreceivesitsinitialorientation'~~'.Inflight,birdsmustmaintaintruespatialorientation.Oncleardayswithgoodvisibility,orientationisnotaproblem.However,atnightand/orunderadverseweatherconditions,suchaslowceilingswithprecipitationand/orfog,nocturnallymigratingbirdsmay.becomespatiallydisoriented.Herbertstatesthatforbirdstomaintainavisualhorizonunderadverseweatherconditions,theyareforcedtomigrateatlowerelevations'.Ingeneral,mostsmallbirdsmigrate.atelevationsabove152.4m(500ft)',.Shadowsandlights,suchasaircraftwarninglightsatoptallbuildings,television-radiotowers,andceilometers,mayspatiallydisorientbirdsthatnormallyutilizenaturallandandwatershadowsagainstthehorizonasvisualcues'.Inattemptingtoorientthemselves,birdsmayseeknewvisualreferencesandthusorientthem-selvestoafalsehorizon.Theirflightmaythenbecomeer-5.3-45 NineMilePointUnit2ER-OLSraticanduncontrolledwiththediscrepantvisualandsen-sorycues.Birdsmayalsoflydirectlyintotheground,building,towerguywires,orotherbrightlyilluminatedstructuresatnightbecauseofacompletelossofvisualcues''.'Thismayoccurwhenthelightsourceisconstantorisacontinuallyrotatingbeamandcompletelyobliteratesanybackground,causingbirdstolosetheirvisualcuestothehorizontal.Majorperiodsofpotentialbirdmortalitywouldbeexpectedtooccurduringpeakperiodsofnocturnalmigrationunderunfavorableweatherconditions,althoughlossesmayoccuratanytimeduringtheyear.Studieshaveshownthatmostbirdlossescoincidewithovercast,weatherconditions,windshiftsduetopassingcoldfronts,andprecipitationand/orfog.Somekills,however,haveoccurredonclearnights''.GuywiresassociatedwithradioandTVtowersappeartoberesponsibleforalargepercentageofbirdmortalities'omequantitativeinformationisavailableonbirdkillsatTVtowersandlargebuildings.Duringthe1972fallseason,561birdswerekilledatfourTVtowersinNorthDakota'talsohasbeenreportedthat576birdswerekilledduring1nightattheWashingtonMonumentinWashington,DC'irdcollisionswithcoolingtowershavebeenobservedandrecordedattheThreeMileIslandNuclearStationontheSusquehannaRivernearHarrisburg,PA;theDavis/BesseNu-clearPowerStationonthesoutheastshoreofLakeErienearPortClinton,OH;andtheBeaverValleyPowerStation-Unit1ontheOhioRiver''.AttheThree'ileIslandsite,66birdcollisionswerereportedfromJuly17,1973throughMay31,1975(predominantlypasserines,vireos,kinglets,andwarblers).AttheOhiosite,157birdcasualtieswerereportedduringthefallof1972andspringandfallof1973seasons.Itwasalsoreportedthat,ducksandgullsreadilyavoidedtheDavis/Bessetower.AttheBeaverValleysite,27birdcasualties(onlypasserines)wereobservedduring9seasonsofmonitoring.Themortalityofbirdsfromanuclearpowerplantwithcoolingtowersappearssmallcomparedtomortalityduetootherhazardsencounteredduringmigration.Forexample,migratinggamespeciesfaceanadditionalhazardduringthefallmigrationperiod.ThroughoutNewYorkState,aswellasotherpartsofthecountry,largenumbersofmigratorygamebirdsareharvestedduringannualhuntingseasons5.3-46 NineMilePointUnit2ER-OLS(Table2.4-7).Theharvestofgamebirdshasnotbeendetrimentaltothesurvivalofthesespecies.Inassessingthepotentialimpactofthenatural-draftcoolingtowerat,theUnit2site,alloftheprecedingfac-torsmustbetakenintoconsideration.Itisanticipatedthatthemajorityofthebirdmortalitiesassociatedwiththecoolingtowerwilloccurduringthespringandfallmigrationperiods,sincetheNineMilePointStationislocatedinamajorflyway'"'.Mortalitieswillprimarilyoccurwhenweatherconditionsareunfavorable,forcingbirdstomigratebelow152.4m(500ft)atnight.Thepotentialformassmortalitiesatthesiteisreducedforanumberofreasons:Thecoolingtowerassociatedwiththefacilityislocatedsouthoftheplantandislightedinac-cordancewithFAAregulations,usinghigh-intensitywhitebeaconsflashingat40flashes/minute'.Thetowerwilloccasionallyproducevisibleplumesthatextendbelowthe152.4-m(500-ft)level(Section5.3.3.1.1.1).Theseplumes,bythem-selves,arenotexpectedtoaffectoverallambientvisibility.Also,theheightofthetower(164.9m(541ft])iswellbelownormalmigrationlevels.2.AlongLakeOntario,thespringandfallmigrationperiodsmayextendover2to3months,withpeakmovementsexpectedovera6-to8-weekperiodduringtheyear.Thepotentialforlargemor-talitiesofmigratorybirdswithinthisperiodisfurtherreducedbythelowfrequencyof'ccurrenceofunfavorableweatherconditions.DataprovidedbytheRochesterweathertapes(1949to1958)in-dicatethatthetotalfrequencyinoccurrenceofceilingsbelow152.4m(500ft)withvisibilityofzeroto1.6km(1mi)are1.3percentofthetimeinthespring(March,April,andMay)and0.7percentofthetimeinthefall(September,October,andNovember).Duringa17-daystudycon-melodia)waskilledattheNineMilePointmeteorologicaltowerandnobirdmortalitiesoc-curredatthestacks'.LakeOntario,inthevicinityofthesite,ismoderatelyusedbymigratorywaterfowlandbirdsforrestingandfeedingduringmigration.Thepotentialformortalityfromwaterfowlandhawks5.3-47 NineMilePointUnit2ER-OfS(Falconiformes)flyingintothecoolingtowershouldbereducedbecausethesebirdsaremostac-tivediurnallywhenorientationisgenerallynotaproblem.Thisconclusionissupportedinotherstudiesonbirdmortalityattowers.Thesestudiesindicatethat,onlyasmallpercentageofthebirdsthatarekilledarewaterfowlorhawks'henthelowfrequencyofoccurrenceofceilingsbelow152.4m(500ft)iscombinedwiththeshortperiodof-timeofmoderatebirdmigrations(6to8weeks/yr),thepotentialformassmortalitiesatthesiteisgreatlyreduced.Somelossesofpasserinespeciesmayoccur,evenduringtheday,butthesearenotexpectedtobeappreciablewhencomparedtoothersourcesofbirdmortalityoccurringfromnaturalandmanmadehazardsduringmigration.5.3-48 NineMilePointVnit2ER-OLSTABLE5A-1(Cont)ParameterPrimaOranismsFishCrustaceansMollusksAlae~Muskrat.HeronDuckRaccoonDeerVegetationyield(kg/sqm)Vegetationexposureperiod(hr)Holduptime-cropexposuretoingestionbydeerEffectivesoilsurfacedensity(kg/sqm)Builduptimeonsoil,tb(hr)cropretentionfactorparticu-lates/iodineAbsolutehumidity(g/cum)FractionofyeardeerconsumescropC-10fractionalequilibriumratio:continuousreleaseintermittentrelease076,570.50.0200175+050.2partic-ulates;1.0iodine10.30751.00073NOTE:886-09=8.86x10+<<>Edgeofmixingxoneandnearestshoreline<<>1,603m(5,259ft)eastc>>Unit2stack(continuous)(+>Unit2stack(intermittent)c>>Radwaste/reactorbuildingvent(continuous)2of2
 
NineNilePointUnit2ER-OLSTABLESA-2(Cont)IncrementalRegions<>>km0to1010to2020to3030to4040to5050to6060to7070to80ApproximateDistanceFromSitetoPointofAnalysiskm152535556575DilutionFactor738307348404457504548589~Boatin1.5+041.5+0415t0415+0415+0415+041.5+0415+04RecreationShoreline31+054.7+056.9+0419+0518+0412+0414+05PopulationUsage~~eol~e/~rTransitTimetoPointofAnalysis~br~154676107137168199229OtherLocations<<>Edgeofinitialmixingzone<~iClosestaccessibleshoreline<>>ApproximateDistanceFromSitetoPointofIntakekm15DilutionFactor5.9307TransitTimetoIntakejar0.0(assumed)46NOTE:15+04=1Sx10i<<aPublicwatersupplysystemsusedtocalculate80-km(50-mi)radiuspopulationdosesfromingestionofpotablewater.<>>Publicwatersupplysystemusedtocalculatethedosetothemaximumoffsiteindividualsfromtheingestionofpotablewaterandirrigatedfoods.<>>Regionsusedtocalculate80-km(50-mi)radiuspopulationdosesfromingestionoffish,boating,shorelinerecreation(assumedone-eighthoffishcaughtineachregion),andswimming.<+>Locationsusedtocalculatedosestomaximumoffsiteindividualsfromingestionofaquaticfoods,andfromswimmingandboating.<>>Locationusedtocalculatedosestomaximumoffsiteindividualsfromshorelinerecreation.Closestaccessibleshoreline-closestoccupiedbeach.2of2
 
NineMilePointUnit2ER-OLS6.3HYDROLOGICAL6.3.1Preapplicationand/orPreoperationalMonitoringHydrologicmeasurementstodeterminethemagnitudeanddirectionofcurrentsintheNineMilePointvicinityweremadeofftheNineMilePointpromontoryin1969,1970,1976,and1977.The1976and1977studieswereconductedafterbothUnit1andtheJamesA.FitzPatrick(JAF)plantwereoperational.Thescopeofeachstudyissummarizedbelow;resultsareprovidedinSection2.3.1.CurrentsweremeasuredcontinuouslyfromMaythroughOctober1969andfromJulythroughOctober1970attwofixedtowersplacedoffshorefromtheNineMilePointsite,onein7-m(24ft)ofwaterandonein14m(46ft)ofwater.Hourlycurrentspeedanddirectionwererecordedsimultaneouslyfromthreedepthsat,eachlocation,utilizingreduced-sizedSavoniusrotormeters.Inaddition,driftingdrogueswerereleasedandtrackedduringthe1969study.ThesestudieshavebeenreportedbyGunwaldsenetal'''ndthePowerAuthorityoftheStateofNewYork'uring1976and1977,additionalpostoperationalhydrothermalsurveyswereconductedfortheJAFplant'~'.Thefocusofthisstudywasonthermalplumemapping.Currentspeedanddirection,laketemperature,andlakelevelwerealsomonitored.DuringthetwoJune1976surveys,thecurrentwasmonitored3m(10ft)belowthewatersurfaceatafixedtowerpositionedapproximately610m(2,000ft)eastandalongthesamedepthcontour(9m[30ft])oftheJAFplantdischarge.DuringthetwoAugust1976andOctober1976surveys,currentsweremonitoredatthe3-,6-,and9-m(10-,20-,and30-ft)depthsat.thesamelocation.Thefirst1977surveywasconductedonApril13and14.Threeinsitucurrentmonitoringlocationswereestablished:onewasthesameasthe1976location;thesecondwasapproximately0.8km(0.5mi)directlyoffshoreoftheJAFplant;andthethirdwasmidwaybetweentheJAFplantandUnit1and2sitesatthe9-m(30-ft)depthcontour(Figure6.6-1).Currentsweremonitoredatthe4.5-m(15-ft)depthatallthreelocationsduringthe2-dayAprilstudy.Subsequent1977surveyswereconductedonJune14withmonitoringatthesamelocationanddepth.ThelastsurveywasconductedonNovember2withcurrentmonitoringata4.5-m(15-ft)depthattheoriginalstationeastofthe6.3-1 NineMilePointUnit2ER-OLSJAFplant,andasecondstationlocated0.8km(0.5mi)offshoreoftheJAFplant'heresultsofallcurrentmeasurementprogramsaresummarizedinSection2.3.1.6.3.2SitePreparationandConstructionMonitoringDrainageofthesiteduringconstructionisprovidedbytwoditchesandfivestormwaterlines.Oneofthe'rainageditchesislocatedattheeasternedgeofthesiteandtheotheratthewesternedgeofthesite,asshownonFSARFigure2.4-6.Thewesternditchdrainsthemajorityofthesitearea,aswellasconveyingalldischargesfromthesanitarytreatmentplanttothelake.Flowsinthisditcharemeasuredonaweeklybasisbyarectangularweirlocatedat'hedischargeoutlet.Suspendedsolids,pH,settleablesolids,andoilandgreasearealso'easured.MonitoringdataarereportedtotheNewYorkStateDepartmentofEnvironmentalConservationi:naccordancewithStatePollutantDischargeEliminationSyst:emPermitrequirements.Theeasterndrainageditchandthestormwaterlineshandleonlyrunoffand,therefore,arenotrequiredtobemonitored.AsdiscussedinFSARSection2.5.duringconstructionaremonitoredlocatedatthereactorbuildingelevationdataarecollectedapproxima'telyonceeveryweek.piezometerswillcontinueuntilconstruction.4,groundwaterlevelsbyfourpiezometerssite.OnlygroundwaterateachpiezometerMonitoringbythesethecompletionof6.3.3OperationalMonitoringStationoperationwillnotaffectsurfacewaterfloworgroundwater;therefore,nooperationalhydrological-monitoringprogramsareplannedfortheseparameters.SedimenttransportinLakeOntariowillnotbealtered;therefore,sedimenttransportmonitoringisnotrequired.6."3-2 NineMilePointUnit,2ER-OLSSite1-1300hrSeptember27,1979to1200hrSeptember28,19790100hrSeptember29,1979to1500hrSeptember30,1979Site2-1500hrSeptember30,1979to1500hrOctober1,1979Site3-1500hrSeptember27,1979to1200hrSeptember28,1979Site4-1400hrSeptember29,1979to1400hrSeptember30,1979Duringtheambientnoise-measurementprogram,thenoise-monitoringsiteswerevisitedonceduringthedaytimeandonceduringthenighttimehours.Ateachvisittotheprimarynoise-monitoringsites,thesystemwasswitchedintothestandbymode,andthehourlystatisticaldata(Leq,Lg>,Lzz,.andL>p)storedintheanalyzermemorywasretrievedandrecordedonadatasheet.TheB&Ksystemwasthensetupandcalibratedforthehand-heldstatisticalmeasurements'hismethodofdatacollectionconsistedofusingastatisticalsamplingtechniguethatprovidesanaccuratedescriptionoftheshort-termvariationsintheambientnoiseenvironmentandasoundlevelmetertosampletheexistingA-weightedsoundlevelsin5-secintervals.Aseriesof50samples.wasgenerallymorethansufficienttoprovideastatisticallyreliablesampledefiningtheminimum(L9g)dBAnoiselevelsobtainableateachsite.Duringthe50-sampletimeperiod(4min,.10sec),allactivityintheareawasnotedandallnoisesourceswereidentified.Eachofthe50instantaneoussoundlevelreadingswasrecordedonadatasheetbyacheckmarknext.tothecorrectdBAlevel.Thecollecteddatawerelaterusedtodeterminetheappropriatestatisticaldescriptors,suchastheL>p,Lz,,Lzz,andLeqlevels,whichcorrespondtotheresidual,average,intrusive,andequivalentlevels,respectively.Residualoctavebandsoundlevelswerealsoobtained.Theresidualoctavebandsound.levelistheminimumrepeatablesoundlevelreadingobtainedineachoctaveband(63,125,250,500,1k,2k,4k,and8kHz)intheabsenceofanyidentifiableorintermittentlocalnoisesources,suchaspassingcarsandbarkingdogs.Fromtheresidualoctavebanddata,theresidualdBAnoiselevelcanbecalculatedateachsiteandshouldagreewiththeminimum(Lgg)dBAlevelsobtainedbyusingthehand-heldstatisticalsamplingtechnique.6.7-5 NineMilePointUnit2ER-OLSThisambientnoisemeasurementprocedurewasfollowedduringeachvisittothenoise-monitoringsites.Attheendofeachvisit,theCNAwasrecalibratedandswitchedfromthestandbymodetotheactivemode.tobeginanothernoisemeasurementperiod.Eachsitewasvisitedtwicedailyforatotaloffourorfiveambientnoisemeasurementsessionsduringthesurvey.Inaddition,theNAGRAtaperecorderwasusedtorecorda3-minambientnoisesampleateachoftheninenoise-monitoringsites.Thesetaperecordingswereobtainedduringthenighttime,whenthe.ambientnoiselevelsweregenerallylower,sothatpowerplantnoisewasusuallyaudibleateachofthenoise-monitoringsites.'hroughoutthesurvey,periodicobservationsandmeasurementsweremadeofthemeteorologicalconditions,including-windspeedanddire'ction,wet-bulbanddry-bulbambientairtemperature,andskyconditions'ortheentireambientnoisesurvey,thewindsweregenerallycalm,rangingfrom0to8km/h(5mph).Thisminimizedtheimpactofwindinthetrees,'whichtendstobeaproblemwhenmeasuringlowambientnoiselevels.6.7'SeismicMonitoring'ThereisnopreoperationalseismicmonitoringprogramplannedattheUnit2site.However,NiagaraMohawkPowerCorporation,inconjunctionwithotherstateutilities,isfundingaseismicmonitoringresearchprograminNewYorkstate,asdescribedinFSARSection2.5.6.7.3AirQualityMonitoringProgramsThepotentialsourcesofgaseousemissionsatUnit2aretwostandbydieselgenerators,oneHPCSdieselgenerator,'nediesel-drivenemergencyfirepump,andanatural-draftcoolingtower'(NDCT).ThedieselunitswillburnNo.2fueloil'0.5percentsu1furcontent)and,duetoinfrequentoperation,willemitsmallamounts'ofpollutants(i.e.,nitrogenoxides[NOx],sulfurdioxidefSOz],andparticulates),asdescribedinSection3.6.3.4.Criteria-pollutantemi'ssionsfromthese~sources',even"withtheadditionoftheparticulateemissionsfromtheNDCT,willnotexceed'nemissionrequirementof100tons/yrand.arenotconsideredamajorsource.'Therefore,thesourcesarenotsubject'topreventionofsignificantdeterioration(PSD)oremissionoffset(EO)regulations.Onthisbasis,-apost-operationalairqualitymonitoringprogramisneithernecessarynorrequiredbystateorfederal.regulationsforthisfacility.6.7-6 NineMilePointUnit2ER-OLS7A.2SYSTEMSANALYSISInlieuofdevelopingdetailedfaulttreesforsafety-relatedsystems,Unit2systemsareanalyzedinthesamemannerastheGG1study;thatis,systemfailuresaredeter-minedbywritingtheBooleanequationforthesystemandthensubstitutingfailureratedataintotheequationstocalculatesystemunavailability.Thesametypesoffailuresasanalyzedinafaulttreeareanalyzedintabularformat.Thesetypesoffailuresare:1.Hardwarefailures.2.Maintenanceoutage.3.Valveplugged.4.Testingoutage.5.Initiatingcircuitfailure.ThefollowingaccidentcaseswerechosenforUnit2:1.Transient,requiringreactorscraminitiatedbythelossofoffsitepower,designatedtransientTq.2.Transientrequiringreactorscraminitiatedbythelossofthepowerconversionsystem(PCS)orreac-torscraminitiatedbyothercauses(exceptlossofoffsitepower)wherethePCSisinitiallyavailable,designated,transientTz>.Offsiteand/oronsiteemergencypowerisassumedtobeavailableduringTzz.3.Smallloss-of-coolantaccident(LOCA)wheretheequivalentleakdiameterislessthan34cm(13.5in),designatedS..IntheGG1studyandintheRSS,thesecasesweretheinitiatingeventsthatmostlycontributedtorisk;therefore,systemunavailabilitiesarecalculatedforthesecasesonly.Transients,notLOCAs,stronglydominatetheriskinBWRs.TheBooleanreductionofthetransientandLOCAeventtreesinthisstudycamedirectly-fromtheGG1study.LargeLOCAswereseveralordersofmagnitudelesssignificantthansmallLOCAsandtransients.7A.2-1 NineMilePointUnit2ER-OLSThefollowingsafety-relatedsystemsareanalyzed:1.Reactorprotectionsystem(RPS).2.Emergencyacpowersystem(EPS).3.DCpowersystem(DCPS).4.Vaporsuppressionsystem(VSS)~5.High-pressurecorespraysystem(HPCS).6.Reactorcoreisolationcoolingsystem(RCIC).7.Low-pressurecorespraysystem(LPCS).8.Automaticdepressurizationsystem(ADS).9.Low-pressurecoolantinjectionsystem(LPCI).10.Residualheatremovalsystem(RHR).ll.Servicewatersystem(SW).Abriefsystemdescriptionispresentedinthefollowingparagraphs.Table7A.2-1providesalistingofthecal-'ulatedsystemunavailabilitiesforUnit2.7A.2.1ReactorProtectionSystemTheRPSconsistsoftwosubsystems:thereactorprotectionsystemlogic(RPSL)andthecontrolroddrive(CRD)system.TheRPSLmonitorsvariousplantparametersandsystemsstatusandinitiatesareactorscramifpredeterminedvaluesarereached.WhenascramisinitiatedbytheRPS,theCRDsysteminsertsnegativereactivitynecessarytoshutdownthereactor.Eachcontrolrodisindividuallycontrolledbyahydrauliccontrolunit(HCU).Whenascramsignalisreceived,high-pressurewaterstoredinanaccumulatorintheHCUorreactorpressureforcesthecontrolrodintothecore.PCompletedescriptionsofthesesubsystemsareprovidedinFSARSections7.1.3and3.9.4/4.6,respectively.7A.2-2 NineMilePointUnit.2ER-OLSTABLE7A.4-1CONTAINMENTFAILUREMODESYMBOLSContainmentFailureModesAfterCoreMeltContainmentfailureduetoRPVsteamexplosionContainmentfailureduetocontainmentsteamexplosionContainmentfailureduetooverpressurefromburningofacombustiblegasmixtureuIContainmentfailureduetodetonationofacombustiblegasmixtureY'ontainmentisolationfailureContainmentfailureduetowetwelloverpressureContainmentfailureduetodrywelloverpressureContainmentfailureduetolargeleakageStandbygastreatmentsystem(SGTS),failure
 
NineMilePointUnit2ER-OISThefinalresultsoftheCRAC2consequencemodelaredisplayedasasetofcomplementarycumulativedistributionfunctions(CCDFs).ACCDFisdefinedastheprobabilitythattheconsequenceswillexceedagivenmagnitude.CRAC2determinesthefinalCCDFsbysummingtheeffectsofalltrials.Atrialisdefinedasonecombinationofaccidentreleaseparameters,weatherconditions,anddownwindpopulation.ThecurvesproducedfromtheCRAC2CCDFoutputmaybethenusedtoevaluatethehealthandeconomicriskstothepublicfromalargescalecoremeltaccidentinagivenregionsurroundingtheplant.Figure7A.6.1providesanoverallviewofthesiteregion.Figure7A.6-2showsaschematicoftheCRAC2consequencemodel.Table7A.6-2providesonidentificationofthesourcesfortheinputparameterstoCRAC2forUnit2.Tables7A.6-3through7A~6-7providetheCRAC2inputforUnit2forthe,isotopes,releaseparameters,evacuation,population,andmeteorologicaldatarequirements,respectively.7A.6.2DiscussionofHealthandEconomicImpactsTheresultsofCRAC2computationsarepresentedinFigures7A~6-3through7A.6-7.CCDFsrepresentingacutefatalities,acuteinjuries,latentfatalities,totalwhole-bodyman-Rem,andpropertydamageareprovided.Table7A.6-8showsthesensitivityofearlyeffects(acutefatalitiesandinjuries),lateeffects(latentfatalities),andeconomiceffects(propertydamage)tovariousparameters.AcutefatalitiesaredominatedbythehighprobabilityofReleaseCategory2(Section7A.5).ReleaseCategory1,althoughpossessingratherrapidtimingandalargequantityofreleasedactivityisnotasconsequentialareleaseasCategory2.ReleaseCategory3hasarelativelyhighprobabilitybutaloweramountofreleasedactivity.Category4ischaracterizedbyreleasesthroughtheSGTS,thereforetheactivityreleasedismuchlower.Category4doesnotcontributetoacutefatalityconsequences.AcuteinjuriesaredominatedbyCategories2and3duetotheirrelativelyhighprobabilityofoccurrenceandhigherreleasefractions.TheloweractivitymagnitudeofReleaseCategory3isnotquiteasimportantforinjuriesasitisforfatalitiesbecauseofthelowerdosethresholdsfor NineMilePointUnit2ER-OLSinjuries.ReleaseCategory4makesasmallbutessentiallynegligiblecontributiontoacuteinjuries.TheOswegoCounty,NewYorkRadiologicalEmergencyResponsePlan(RERP)outlinessixevacuationscenarioscoveringthevariouscombinationsofseasonandtimeofday.Nooneevacuationmodeldominatedearlyeffects.Thedifferenceinearlyeffectconsequencesamongthe6modelsdifferedbynomorethan10percent.Latentfatalitiesresultfromlowerdosesthanthosethatproduceacutefatalities.Theseareintegraleffectsoverlargeareasandlongtimeperiods.AccordingtotheCommitteeoftheBiologicalEffectsofIonizingRadiation(BEIR)',solidtumorsmaytakeaslongas30yrtodevelop,whereasleukemiacanoccurwithin5yr.ReleaseCategories2and3withtheirhigherprobabilitiesofoccurrence,dominatethelatentfatalityCCDFs.Economicimpactisassessedintermsofthetotalcosttoallaffectedproperty.Aswithlatentfatalities,propertydamageCCDFsaredominatedbyReleaseCategories2and3.Theresultsindicatethattheprobabilityofcausing$1,000totalcostsisaboutthesameascausing$10,000,000totalcosts.Therefore,fortheaccidentspostulatedherein,$10,000,000totalcostswouldbeaminimumvalue.Figure7A.6-6indicatesthattheprobabilityofpropertydamagesisrelativelyconstanttoatotalcostofabout$10,000,000.ThedemographyandannualwindrosefrequenciesfortheUnit2sitearesuchthatapproximately46percentofthetimethewindblowsoutoverLakeOntarioincludingsectorscontainingbothlandandlake.,Therefore,thereisroughly50percentprobabilitythatareleasewillbeblowntowardanunpopulatedorsparselypopulatedarea.Only9percentofthetotal80-km(50-mi)regionalpopulationresidesinsectorswhichborderLakeOntario,andone-halfofthesepeoplelivebeyond72km(45mi)wherethereisessentiallyzeroriskoffatality.Thereislittledoubtthatreleasesblowninthesedirectionswillresultinconsiderablylowerhealthconsequencesduetothedepositionmechanismsandthelackofpeopleliabletoexposure.Exposurepathwayscouldresultfromtheingestionoffishcaughtfromthelake,ingestionofdrinkingwaterfromthelake,anddirectexposurefromcontaminatedbeachesandnearshoreland.Interdictingthesepathwaysisentirelypossible;however,thesocioeconomicimpactofsuchaction7A.6-4 NineMilePointUnit2ER-OLSisdifficulttoassess.Aliquidpathwayconsequenceanalysisisnotwithinthescopeofthisstudy;however,theeconomiceffectofthelossofdrinkingwatersupplyandrecreationalareaswouldbetemporarilyfelt.Somebeachesandrecreationalareasmightsufferpermanentclosureorabandonmentbythepublic.CommercialfishingdoestakeplaceonLakeOntario.However,itisconcentratedinthefarnortheastcornerofthelakeanddoesnotconstituteamajorindustry.Nearly90percentofallfishcommerciallycaughtinthelakearelandedbyCanadianfishermen.SomeofthesefishcouldbetemporarilyaffectedbyareleasefromUnit2.FortheUnit2site,theCRAC2resultsrevealedthatfatalitieswouldmostlikelyoccurwithin32km(20mi)oftheplantandinnocasewouldfatalitiesoccurbeyond72km(45mi).Injurieswouldmostlikelyoccur'within56km(35mi)oftheplant.Althoughtheriskofinjuryexistsbeyond80km(50mi);theprobabilityofoccurenceisverylow.Forcomparisonpurposes,theCCDFsforacuteandlatentfatalitiesforGG1,Limerick,andPB2(rebaselinedRSSresults)havebeenplottedagainsttheUnit2results.ThesecomparisonsareshownonFigures7A.6-8and7A.6-9.Becauseoftheuncertaintybandsassociatedwitheachcurve,theCCDFsforacuteandlatentfatalitiesforthefourplantsmaybeconsideredconsistent.7A.6.3RiskDuetoExternalCauses.Theforegoinganalysishasconfined"itselftoeventsequencesgeneratedbyinplantfailures(withtheexceptionoflossofoffsitepower).However,thepossibilityexiststhatsomelargeexternaleventcouldinitiateanaccidentoradverselyaffecttheplant'sresponsetoaninternalinitiatingevent.TheUnit2plantisnotconsideredsingularlyvulnerabletoexternalinitiators.Itislocatedinanareaoflowseismicactivity,farawayfromalargebodyofseawater,andinanareaofrelativelylowtornadoprobability.Therefore,earthquakes,hurricanes,tidalwaves,andtornadoesarenotexpectedtobehighprobabilityevents.Man-madehazardssuch"asaircraftimpact,accidentsatnearbyindustrialormilitaryfacilities,andpipelineaccidentsarenotconsideredviablebecausethesiteislocatedatleast32km(20mi)fromanymajorairtrafficlaneand64km(40mi)fromthenearestmajorairport(Syracuse,NewYork).Also,therearenolargeindustrial7A.6-5 NineMilePointUnit2ER-OLSormilitaryfacilitiesorpipelinesnearthesite.Theriskfromtransportationaccidentsexistsonlyfromdangerousmaterialsonvehicularandrailtrafficdestinedto/fromthesiteitself.Therearenomajorhighwaysorraillinescarryingdangerousmaterialsnearthesite.SinglerailspursandaccessroadsprovideegressroutesfromthethreeplantsonsiteincludingUnit2.ThehazardsduetofloodingfromLakeOntario,floodingfrominternalsources,fires,chemicalhazards,turbinemissilehazards,andsabotageexistataboutthesameprobabilityasatanyU.S.nuclearpowerplantandaretakenintoaccountinthebasicdesigncriteriaoftheplant.ThefollowingFSARsectionsprovideanindepthtreatmentofthesetopics:TitleFireProtectionFloodingTurbineMissilesChemicalHazardsSecuritySeismicDesignTornadoDesignFSARSection9.5.1,Appendix9A3.43.5.1.32.2,6F4.4.2,9'.113.63.7,3.83.3Someexternaleventswillaffectonlyoneaccidentsequencewhilesomeexternaleventswillaffectallaccidentsequences.Withexternalcausestakenintoaccount,itisexpectedthattheevent-sequenceprobabilitiesandhencethereleasecategoryprobabilitieswillincreaseslightly.However,becauseUnit2islessthanorequaltomostU.S.siteswithrespecttoexternalvulnerability,itisanticipatedthatexternaleventswillnotbesignificantcontributorstoriskatUnit2.7A.6.4LimitationsandSourcesofUncertainties7A.6.4.1LimitationsThefollowinglimitationsareidentifiedinthisstudy:1.FollowingtheRSSMAPmethodology,fullfaulttreeswerenot,developedfortheUnit2systemsanalysis.7A.6-6 NineMilePointUnit2EQDTABLEOFCONTENTSSection2.12.22.32.433.13.23.34.14.1.14.1.24.1.34.24.2.14.2.255.15.2TitleINTRODUCTIONENVIRONMENTALCONDITIONSTEMPERATURE,PRESSURE,'ANDRELIVEHUMIDITYRADIATIONENVIRONMENTCHEMICALENVIRONMENTSPRAY/SUBMERGENCEFUNCTIONALPERFORMANCREQUIREMENTSSYSTEMLISTSYSTEM/ACCIDENTMAIXPOST-ACCIDENTOPEBILITYTIMEQALIFICATIONTHODOLOGYHAHENVIRONNTBOPquipme-ElectricalNSSSquipment-ElectricalBOP/NSEquipment-MechanicalMILDEONMENTBOPEipmetMildEnvironmentQuaificatioProgramNSSMildEnvirnmentalificationPgramUALIFICATIONDOCUMTATIONMASTERLISTS(ML)SYSTEMCOMPONENT-EVALTIONWORK(SCEW)SHEETMAINTENANCE/SURVEILLANCEOGRAMPacae2-12-12-22-32-'44-105-15-15-26-1CO3-13-1P,P3-1g4-14-1~(P4-1p.4-4.4-6.4-84-9APPENDXESADP7-1SAFETY-RELATEDELECTRICALEQUIPNTMASTERLIST(ML)SYSTEMCOMPONENTEVALUATIONWORK(CESHEETSTESTANDACCIDENTENVIRONMENTALPROFLESAFETY-RELATEDMECHANICALEQUIPMENTAmendment16December1984 NineMilePointUnit2EQDLISTOFTABLESTableNo.Title2-1HarshEnvironmentZones2-22-33-13-23-35-15-2MildEnvironmentZonesMil'dEnvironmentZoneswithSpecialFiltersEquipm'entInsideContainmentSubjectto'ubmergence,Spray,orFrothSystemsListSystem/AccidentMatrixSWEC/GESystemCrossReferenceSafety-RelatedMechanicalEquipmentCategoriesEQDMasterList.FormatSystemComponentEvaluationWork(SCEW)SheetParametersIISTOFFIGURESFiureNo.Title5-1EQDSystemComponentEvaluationWork(SCEW)SheetFormatAmendment16December1984 NineMilePointUnit2EQDSECTION1INTRODUCTIONThepurposeofthisdocumentistoestablishthemethodologiesandsummarizetheresultsofthe,,environmentalqualificationprogramforNineMilePointUnit2.TheinformationsupportsSection3.11oftheFinalSafetyAnalysisReport(FSAR)andisprovidedinaccordancewith10CFR50.49andtheguidanceofAppendixE,NUREG0588,InterimStaffPositiononEnviron...entalQualificationofSafety-RelatedElectricalEquipment,December1979.Amendmen't16December.1984
 
NineMilePointUnit2EQD'SECTION2ENVIRONMENTALCONDITIONSTheEquipmentQualificationEnvironmentalDesignCriteria(EQEDC)'''ocumentsummarizestheindoorenvironmentaldesignconditionsfornormal,abnormal,and'accidentconditions.ThescopeoftheEQEDCislimitedtoestablishingtheenvironmentalconditionsoftemperature,pressure,humidity,and,radiation(beta,gamma,andneutron).SeismicandhydrodynamicloadingconditionsarenotwithinthescopeofthisEQEDC.Theseparametersaretheenvironmentaldesignlimitstowhichsafety-relatedequipmentisdesignedandqualified.Thesedatahavebeen-=incorporatedintosafety-relatedequipmentdesignorprocurementspecificationstoensurethattheproperfunctionalperformanceofthesystemorequipmentduringdesignmodeofoperationisadequatelydemonstrated.Theenvironmentaldatafortemperature,pressure,humidity,andradiationaredefinedintheEQEDCforeachbuildingzonethatcontainsequipmentwhichrequiresenvironmentalqualification.Dataarelistedfornormaloperatingconditions,abnormaloperatingconditions,andtheaccidenteventthatimpactsthezoneambientenvironment.TheharshenvironmentzonesarelistedinTable2-1.MildenvironmentalzonesarelistedinTable2-2.MildenvironmentalzoneswithspecialfiltersarelistedinTable2-3.2.1TEMPERATURE,PRESSURE,ANDRELATIVEHUMIDITYTheplantheating,ventilating,andairconditioning'(HVAC)systemsmaintainindoortemperatureandpressureconditionsinQACategoryIbuildingsforallnormaloperatingmodes.Minimum,average,andmaximumtemperaturesaredefinedandlistedintheEQEDC.Duringnormaloperationrelativehumidityisnotcontrolledbutislimitedtospecifiedmaximumpercentagesinareasthataremechanicallycooled.Elsewhere,relativehumidityislimitedonly,bytheeffectoftheindoorsensibleheatload.Normalconditionsareassumedtoexistonacontinuousbasisuntilanabnormaloraccidentconditionoccurs,withtheAmendment162-1December1984 NineMilePointUnit2EQDabnormaloraccidentconditionthenlastingforthedurationlistedintheEQEDC.Attheconclusionoftheabnormaloraccidentconditiondurationitisassumedthatconditions,exceptradiation,willreturntonormal.Abnormaloperatingconditionsarereasonablyexpectedoranticipateddeviationsfromnormalconditions,otherthanaccidentconditions.AbnormaloperatingconditionsnarcspecificallydefinedintheEQEDCandgenerallyinclude:thefailureofoperatingequipment,thelossofwhichdoesnorequitrequireimmediateplantshutdown;thelossofspecificttransformersorallgridconnections;thelossofnonsafey-relatedHVAC;andplantoperationduringtestconditions.Anaccidentconditionisanunexpectedevent,occurringduringthecourseofoperation,thathasbeenpostulatedforanalyticalpurposesandhasthecapabilityofcausingareleaseofradioactivitytotheenvironsthatcouldendangerpublicsafetyifnotmitigated.Amainsteamlinepressureboundaryruptureisanexampleofanaccidentcondition.Thetestpressure,durations,andfrequenciesforcontainmentleakratetestingareasfollows:TestFreuencTestPressure.siContainmentPreoperationalTest(1timeonly)4040PostoperationalTest(3per10yr)Thepressurizationperiodisapproximately5hr,followedyba4-hrpressurestabilizationperiodandaminimumtestof24hrafterstabilization.AllotherenvironmentalconditionsarethenormalconditionsaslistedintheEQEDC.2'RADIATIONENVIRONMENTIntegratedradiationenvironmentsarespecifiedintermsofradsforgammaandbetaradiation.Thegammavaluesarebasedonenergydepositionintissue(rads)orexposureinair(roentgen).However,thecorrespondingabsorbeddosewich'wouldoccurinequipmentmaterials(e.g.,carbon)whentinexposeposedtotheenvironmentwoulddifferonlyslighlymagnitude.Forequipmentqualificationtesting,theequivalenceof1radto1roentgenisanappropriateassumption.Thebetaenvironmentisstatedintermsofasurfaceairdose'anddoesnotaccountforanyshieldingAmendment162-2December1984 NineMilePointUnit2EQDbetweentheairborneorplateoutactivityandthematerialof,interest.Thetotalintegrateddoseequalsthenormalplustheaccidentconditions.Neutron-environmentsarespecifiedintermsofneutronfluence(neutrons/cm~)forthatportionofthespectrumhlMev.Fornormaloperatingconditions,theradiologicalenvironmentsarespecifiedas,dosesintegratedovera40-yrplantlifeforgammaandbetaradiation.Aplantcapacityfactorof0.8isusedtodeveloptheintegrateddosesforallequipmentwhichoperatesinconjunctionwithnormalreactoroperation.Expectedoperationtimeoverthe40-yrlifeoftheplantisusedtodetermineintegrateddosesinthevicinityofotherauxiliarysystemsandequipment,suchasfuelhandlingsystems.Radiationdosecontributionsduetoabnormalconditionsthatareexpectedduringthelifeoftheplantareincludedinthe40-yrnormaloperatingconditions.RadiationdosecontributionsduetoabnormalconditionsarefortheMSIVisolationeventresultingfromatransientcausedbyalossofcondenservacuum,anMSIVclosure,oraturbinetrip.Foraccidentconditions,accidentradiologicaldosesareinadditiontonormaloperationalconditions.Theaccidentdosecontributionisdeterminedforthesinglemostlimitingaccident.Doseprofilesasafunctionoftime(t)followingtheaccidentarespecified.Theactualaccidentdosethatequipmentisevaluatedagainstisdeterminedbasedontherequiredoperationtimeofthedevicefollowinganaccident.Inmostcases,thepost-LOCA(DBA)environmentalconditionswillbethebasisfortheradiologicalrequirements.Anticipatedtransientswithoutascramarealsoconsidered.Accidentintegrateddosesincludecombineddosecontributionsfromairborneandcontainedsourcesandrepresentthemaximumdosefortheareaspecified.2.3CHEMICALENVIRONMENTEngineeredSafetyFeature(ESF)systemsaredesignedtoperformtheirsafetyfunctionsinthetemperature,pressure,andhumidityconditionsdescribedintheEQEDC.Unit2doesnotutilizeanychemicaladditivestothewaterrecirculatedbytheECCSduringnormaloraccidentconditions.Amendment162-3December1984 NineMilePointUnit2EQDReactorWaterLimits'hutdownConditionanaccident,thecontainmentand,drywelldbelow5percent(byvolume)atmospheresaremaintainchydrogen,asdiscussedinFSARSection6.2.5~reactor(normaloperation),suppressionpool,WaterforthereacorndECCSisnotchemicallyfuelstoragpraeool,RHRsystem,anlldbionexchangesystemswithinin'nhibitedandiscontroeyiothefollowingnormaloperatinglimi'mits:'RefuelingandFuelSuppressionStorage,PoolWaterPoolWateQualityParameterConductivityChlorides(asCl-)510mho/cm925C50.5ppms3umho/cm925C60.5ppm510umho/cm925Ch50.5ppmpH5.3to8.6925oC5.3to7.5925C5.3to8.6925C51ppm55ppmTotalsuspendedsolids'nstationsareprovidedforperiodicanalysisofeaorwater,rfue'suppressionpoolwatertoassurecompiancewilimitsoftheplanttechnicalspecifications.2.4SPRAY/SUBMERGENCEnaroachforUnit2wastolocatedflood11db1'thcornonentsabovepostulateooawayfromsourcesofwaterspray,eredtions.orualificationundertheseconidtohsicalconstrainso'blbuildingarrangements,thisisnoteasietheplant.inAendix3CoftheFSAR,anevaluationhastesthatthereactoranbbeenperformedwhichdemonstratestaeeffectsofsafelysuhtdownwhenconsideringtheeecsoedboneofthespray/submergence.Thisisachieveyfollowing:Amendment16December1984 NineMilePointUnit2EQD1.Separationand/orprotectionofthesafety-relatedcomponentsfromwatersources.2.Qualificationofthecomponentsfortheexpectedspray/submergedcondition.3.Verificationthat'omponentfailurewillnotprecludesafeshutdownofthereactor.Ingeneral,onlyequipmentintheprimarycontainmentwetwellissubjecttosubmergedconditions.Inaddition,electricalcableinthelowestelevationsofsomebuildingsmaybelocatedbelowpostulatedfloodlevels.Intheseinstances,theequipmentisrequiredtobeenvironmentallyqualifiedforitsrequiredfunctionunderfloodedconditions.Duetothepresenceofwatercontainingsystemsinmanyareasoftheplant,andtherequirementforpipingbreak/crackpostulationinaccordancewithStandardReviewPlans3.6.1and3.6.2,manysafety-relatedelectricalcomponentsaresubjecttowatersprayconditions.Withfewexceptions,Class1Einstrumentation,electricalcables,motor-operatedandsolenoid-operatedvalvesanddampersarequalifiedtoLOCA,steam,andsprayenvironment.Motors,motorcontrolcenters,switchgear,andloadcentersaredrip-proofbutarenotspray-proof.Whencomponentsarenotqualifiedforoperationunderspraycondition,theyareseparatedorprotectedfromwatersprayiftheyarerequiredtoremainoperabletosafelyshutdownthereactor.Table2-4identifiesequipmentinsidethecontainmentsubjecttosubmergence,spray,orfrothduringpostulateddesignbasisevents.Amendment162-5December1984
 
NineHilePointUnit2CQDTABLE2-1iiARSNENVlRONMENTZONES7.oneAON17r503AON17504AON17r505ABN19614AON19615AON21523AON24031ABN2403?ABN24033ABS175()8ABS17509ABS17510ABS17511AOS19620AOS24034ABS24035AOS24036HST24044MS124045HST26146HS126147MSI28948MST28949PC1751017.onoPC199112PC215121PC240208PC240600PC240601PC240602PC?40603PC240604PC240605PC240606PC240607PC240608PC240609PC240610PC240611PC240612PC250618PC250619PC250620PC250621PC250622PC250623PC250624PC250627onePC2r50626PC250627PC250628PC250629PC250630PC261207PC261636PC261637PC261638PC261639PC261640PC261641PC261642PC261643PC261644PC261645PC261646PC261647PC261648PC261649PC261650PC261651PC279657PC?796587onePC279659PC280663PC280664PC280665PC287669PC287670PC287671PC287672PC287673PC287674PC289679PC289680PC289681PC289682PC289683PC289684PC289685PC289686PC297691PC297692PC297693PC299697PC299698PC299699ZonePC299700PC303705PC303706PC303707PC306711PC306712PC306713PC328185SC175102SC175103SC175104SC175lOrySC175106SCI15107SC175108SC175109SC175110SC175111SC196113SC196114SC196115SC'196116SC19611/SC1961187oneSC196119SC196120SC196204SC215122SC215123SC215124SC215125SC215127SC215128SC215129SC215130Sc215131SC215132SC215205SC215?06SC240135SC240136SC240137SC240138SC240139SC240140SC240141SC240142SC240143ZonaSC26114r5SC261146SC261147SC261149SC261150SC261151SC261152SC289155SC289156SC?89158SC289159SC289160SC289161SC289162SC289163SC289164SC289165SC289166SC289167SC289168SC289169SC289170SC306172SC3061737aneSC306174SC306175SC306176SC306177SC306178SC306179SC306180SC306181SC306182SC306183SC306184SC306215SC328186SC328187SC3?.8189SC328192SC328193SC3?8194SC328195SC3?8196SC328197SC3?8199SC328222SC353201ZoneSC353202SG261355SG261356Amendment161of1December1984
 
NineMilePointUnit2EQDTABIE2-2MIFDENVIRONMENTZONESZoneControlBuildinEl215'-0"CB215258CB215259CB215305CB215306CB215307El237'-0"CableVaultAreaCableVaultAreaCableVaultAreaCableVaultAreaCableVaultAreaCB237261CB237265CB237266CB237267CB237272CB237273CB237274El261'-0"CableVaultAreaCableVaultAreaCableVaultAreaCableVaultAreaCableVaultAreaCableVaultAreaCableVaultAreaCB261275CB261276CB261277CB261279CB261280CB261281CB261282CB261283CB261284CB261286CB261289CB261290CB261292CB261293CB261294CB261295StandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomStandbySwitchgearRoomAmendment161of3December1984
 
NineMilePointUnit2EQDTABLE2-2(Cont)ZoneEl289'-0"CB289297CB289298CB289301CB289394CB289395El306'-0"RelayRoomRelayRoomRelayRoomRelayRoomRelayRoomCB306311CB306312CB306313CB306314CB306315CB306317CB306321MainControlMainControlMainControlMainControlMainControlMainControlMainControlRoomRoomRoomRoomRoomRoomRoomEl261'-0"DG261330DG261331DG261332DG261333DG261334DG261335El272'-0"DieselGeneratorRoomsDieselGeneratorRoomsDieselGeneratorRoomsDieselGeneratorRoomsDieselGeneratorRoomsDieselGeneratorRoomsDG272337DG272338DG272339DG272340DG272341DG272342DieselDieselDieselDieselDieselDieselGeneratorGeneratorGeneratorGeneratorGeneratorGeneratorRoomsRoomsRoomsRoomsRoomsRoomsAmendment162of3December1984 L
NineMilePointUnit2EQDTABI.E2-2(Cont)ZoneElectricalTunnelsEl215'-0"DescritionET215239ET215240ET215241ET215243ET215244ServiceWaterBuildinElectricalElectricalElectricalElectricalElectricalTunnelsTunnelsTunnelsTunnelsTunnelsEl224'-0"SW224365SW224366El261'-0"SW261367SW261368ServiceWaterPumpRoomServiceWaterPumpRoomServiceWaterPumpRoomServiceWaterPumpRoomAmendment163of3December1984
 
NineMilePointUnit2EQDTABLE2-3MILDENVIRONMENTZONESWITHSPECIALFILTERSZoneControlBuildinEl289'-0"DescriptionsCB289297CB289298CB289301CB289394El306'-0"RelayRoomRelayRoomRelayRoomRelayRoomCB306311CB306312CB306313CB306314CB306315CB306317MainControlRoomMainControlRoomMainControlRoomMainControlRoomMainControlRoomMainControlRoomAmendment,161of1December1984
 
NineMilePointUnit2EQDTABIE2-4WILLBEPROVIDEDINAFUTUREAMENDMENTAmendment161of1,December1984
 
NineMilePointUnit2EQDSECTION3FUNCTIONALPERFORMANCEREQUIREMENTS3.1SYSTEMLISTThesystemsrequiredtomitigateanaccidentarelistedinTable3-1.Thistablealsolistscomponents/systemsthatarelistedinTable3.2-1oftheFSARwhichhaveaqualitygroupclassificationofA,B,orC,ordesignatedeitherQACategoryIorSeismicCategoryI.3.2SYSTEM/ACCIDENTMATRIXThesystem/accidentmatrixshowninTable3-2identifiesthosesystemsthatarerequiredtorespondtoaccidentswhichresultinharshenvironments.AsdiscussedinSections2.1and2.2andtheEQEDC,generallyonlytwooftheseveraldesignbasisaccidentsdiscussedinFSARSection15andFSARAppendix15Aareusedtodefineharshenvironment,forequipment.qualification.Thesetwoaccidents,lossofcoolantaccidentinsidetheprimarycontainmentandhighenergylinebreakoutsidethecontainment,envelopallotherplantconditionswithrespecttotheireffectontheequipmentenvironment.Withfewexceptions,allequipmentrequiredtofunctionfollowinganyaccidentisqualifiedforthisworstcaseenvironment.Forsomecomponents,thisworstcasecombinationofaccidentandenvironmentalconditionsresultsinsignificantqualificationproblems.Intheseinstances,anevaluationwasperformedtodeveloptheenvironmentalconditionsfortheaccidentsinwhichthesecomponentsarerequiredtooperate.Theseconditionsthenbecomethebasisfortheirqualification.NotallsystemslistedinTable3-1includeequipmentlocatedinharshenvironments.Somecomponents.listedinTable3-1arenotrequiredtooperatefollowingaccidentconditionsandthereforedonotrequireharshenvironmentqualification.JustificationforthisisgiveninthenotestoTable3-2.AcrossreferenceofGEandSWECsystemsisgiveninTable3-3.3.3POST-ACCIDENTOPERABIIITYTIMEEquipmentmustbequalifiedforthelengthoftimeitisrequiredtoperformitssafetyfunctionandmustremaininaAmendment163-1December1984 NineMilePointUnit2EQDsafemodeafterthefunctionisperformed.Thelengthoftimetheequipmentisrequiredtofunctionfollowingtheonsetofanaccidentisitspost-accidentoperabilityperiod(PAOP).EquipmentcanhaveaPAOPthatrangesfromashorttimeperiod,butnotlessthan1hrimmediatelyfollowingtheonsetofanaccident,to100daysforcomponentsrequiringoperationforanextendedperiodaftertheonsetofanaccident.Theapproachtodetermineoperabilitytimesissimilartothatusedforaccidentconditionsinthatthemostlimitingcaseisusedforenvironmentalqualification.Inmostcases,postaccidentoperabilitytimei'sbasedontheaccidentrequiringthelongestfunctionalcapability.Thisiscombinedwiththeworstcaseaccidentenvironment,eventhoughashorterPAOPmaybeapplicable.ThePAOPisindicatedintheEQDMasterList,AppendixA.Amendment163-2December1984 NineMilePointUnit2EQDTABLE3-1SYSTEMSLISTAbbreviation~SstemISCCISRDSSLSNMS/TIPRPSLDSPRM/ARMRHSCSLCSHICSFHESSPSFCADS/SVVIASSWPGTSEGSReactorSystemandNuclearBoilerContainmentIsolation(SeeNote1toTable3.1-2)ControlRodDriveStandbyLiquidControlNeutronMonitoring/TraversingIncoreProbeReactorProtectionSystemLeakDetection(SeeNote2toTable3.1-2)ProcessRadiationMonitoring/AreaRadiationMonitoringResidualHeatRemovalLowPressureCoreSprayHighPressureCoreSprayReactorCoreIsolationCoolingFuelService,ReactorVessel,Invessel,Storage,andRefuelingEquipmentPost-AccidentSamplingSystemSpentFuelPoolCoolingAutomaticDepressurization/MainSteamSafetyReliefInstrumentAirServiceWaterStandbyGasTreatmentEmergencyDieselGenerators(includingCSHDG)Amendment,161of2December1984
 
NineMilePointUnit2EQDAbbreviation~SstemTABLE3-1(Cont)EGFEGACMSGSNHCSHVNACPDCPRPCRRSCNSDFMDWSTMEDieselGeneratorFuelOil(includingCSHDG)DieselGeneratorStarting.Air(includingCSHDG)ContainmentMonitoringNitrogenInertingHydrogenRecombinerControlBuildingChilledWaterChilledWater-VentilationReactorBuildingVentilationDieselGeneratorBuildingVentilationYardStructuresVentilationControlBuildingAirConditioningAuxiliaryACPowerSystemDCPowerSystemsReactorBuildingPolarCraneRedundantReactivityControlCondensateMakeup/DrawoffMiscellaneousFloorDrainsDomesticWaterSystemTurbineGlandSealandExhaustAmendment162of2December1984
 
NineMilePointUnit2EQDAccidentTABLE3-2SYSTEM/ACCIDENTMATRIXFSARAbbreviationReferenceControlRodDropAccidentFuelHandlingAccidentLossofCoolantAccident(insideprimarycontainment)HighEnergyLineBreak(ICS/WCS)(outsideprimarycontainment)MainSteamLineBreak(outsideprimarycontainment)FeedwaterLineBreak(outsidepr..maryconta.nment)AnticipatedTransientsWithoutScramCRDAFHALOCAHELBMSLBFWLBATWS15.4.915.7.415.6.515.6.415.6.415.6.615.8Amendment.161of5December1984
 
NineMilePointUnit2EQDTABLE3-2(Cont)Accident~sstemCZS<1)CRDAXXFHALOCAHELBMSLBFWLBATWSISCXSLSNMS/TIPRPSLDS<2)PRM/ARMXXXCSLCSHICSFHE'SPSFCIASADS/SVVSWP'XXXGTSEGSEGFX'XXAmendment162ofSDecember1984
~~
NineMilePointUnit2EQDTABLE3-2(Cont)Accident~SstemEGACRDAFHALOCAHELBXXXXMSLBFWLBATWSCMSGSNXXXXHCSHVKHVNHVRXXXXXXXHVPHVCACPDCPRPC'4'XXXX'RRSCNS~~'WS'6'ME<<~Amendment163of5December1984 A
NineMilePointUnit2EQDTABLE3-2(Cont)NotesCIS,primarycontainmentisolation,includesthefollowingsystemswhoseonlypost-accidentfunctionisprimarycontainmentisolation(unless,otherwisenoted):~Reactorcoolantsystem(alsoservesanATWSfunction)~Reactorwatercleanupsystem(alsoservesanATWSfunctionandispartofLDS)~Serviceairsystem~Breathingairsystem~Reactorbuildingclosedloopcoolingwatersystem~Mainsteamsystem(alsopartofADS/SVVandLDS)~Feedwatersystem(alsoservesanATWSfunction)~Containmentpurgesystem~Reactorbuildingfloorandequipmentdrainsystems(alsopartofLDS)~Fireprotectionsystem~LeakagemonitoringsystemLDS,theleakdetectionsystem,includestemperature,flow,and/orlevelinstrumentation,inthefollowingsystems:MainsteamsystemReactorsystemReactorcoreisolationcoolingsystemReactorbuildingfloorandequipmentdrainsystemsResidualheatremovalsystemReactorwatercleanupsystemAmendment164of5December1984
 
NineMilePointUnit2EQDTABLE3-2(Cont)FHE,whichincludesfuelservice,reactorvessel,invessel,storage,andrefuelingequipment,performsnopostaccidentfunction.Selectedcomponentsareseismicallyqualifiedtoensureproperfunctioningduringrefuelingoperations.RefertoFSARSection9.1.RPC,thereactorbuildingpolarcrane,performsnopostaccidentfunction.Thecraneisseismicallyqualifiedtopreventfailurethatcouldjeopardizesafeoperationofthereactorandtoensureproperfunctioningduringrefuelingoperations.RefertoFSARSection9.1.OneCNSboundaryvalveisusedtopreventbypassleakageintheeventofaLOCAinsidetheprimarycontainment.DWSandTMErequireQACategoryIcomponentsbasedonspecialsystemconsiderations.Noenvironmentalqualificationisrequired.Amendment165of5December1984 t
NineMilePointUnit2EQDTABLE3-3SWEC/GESYSTEMCROSSREFERENCE~sstemNuclearBoilerMainsteamFeedwaterAutomaticDepressurizationRecirculationControlRodDriveRedundantReactivityControlStandbyLiquidControlNeutronMonitoringProcessRadiationMonitoringPostAccidentSamplingResidualHeatRemovalLow-PressureCoreSprayHigh-PressureCoreSprayIeakDetectionReactorCoreIsolationCoolingReactorWaterCleanupISCB22MSSB22FWSB22B22RCSB35RDSRRSC12C22SLS-C41NMSC51D13SSPD24E12CSLE21CSHLDSICSE22E31E51WCSG33SWECCodeGECodeAmendment161of1December1984 0
NineMilePointUnit2EQDSECTION4QUALIFICATIONMETHODOLOGY4.1HARSHENVIRONMENT4.1.1BOPEquipment-ElectricalThemethodologyestablishedfortheequipmentqualificationprogramisinaccordancewiththeguidelinesprovidedinNUREG-0588forCategoryIIplantandconsistentwithapplicableRegulatoryGuidesandconsensusnationalstandards(ANSIandIEEE),and'ncompliancewiththerequirementsof10CFR50.49.ThemethodologyconsistsofdevelopingtheEquipmentQualificationEnvironmentalDesignCriteria(EQEDC)''',whichestablishesthetemperature,pressure,humidity,andradiationdoselevels,fornormal,abnormal,andaccident'onditions.Post-accidentoperabilitytimeisdevelopedtoassurethattheequipmentwillbequalifiedtomaintainasafetyfunctionduringapost-accidenevent.TheserequirementsarespecificationforthesafetyThespecificationmandatesaccomplishedinaccordanceaccordancewiththequality10CFRSOAppendixB.includedi'ntheprocurementrelatedelectricalequipment.thatthequalificationwillbewithIEEE323-1974andinassuranceprogramreferencedinBasedonthesespecificationrequirements,theequipmentmanufacturerdevelopsanequipmentqualificationprogram.Safety-relatedequipmentisevaluatedbycomparingtheenvironmentalconditionsbywhichequipmentoperabilityhasbeendemonstratedwithrequiredconditions.Thisevaluationincludesreviewforboth40-yrnormalandabnormal'environmentsandaccidentenvironmentsresultingfromaspectrumofLOCAsandHELBs.Theequipmentjustificationisconsideredacceptablewhenitisdemonstratedthatequipmentcanperformitsrequiredsafetyfunctionunderpostulatedenvironmentalconditions.Allqualificationtestingandanalysisofsafety-relatedequipmentarebeingevaluatedforcompliancewithCategoryIINUREG-0588guidelines.Equipmenttestingisreviewedtodeterminetheextenttowhichitsimulatesplantconditionsandprovidessufficientmargin.FactorsconsideredduringthereviewoftestingincludetestAmendment164-1iDecember1984 NineMilePointUnit2EQDprocedures,testsetup,testsequence,margin,andtestanomalies.Supplementalanalyses(i.e.,betashieldingthermaldegradation)areperformed,asrequired,tosupportqualification.Allanalysesbasedonpartialtestdataarecompletedusingapprovedmethodologieswithadequatejustification.EquipmentspecificanalysesarecontainedintheEQfilealongwithappropriatejustification.ASystemComponentEvaluationWork(SCEW)'heetiscompletedforeachequipment/componentlistedonthemasterlist(AppendixA),withtheresultsofthequalificationdocumentreview,insummarizedform.ASCEWsheetwithadescriptionofitsentriesisprovidedinSection5.2ofthisdocument.SCEWsheetsdemonstratethateachrequiredparameteri;senvelopedbythequalifiedvalues.Additionally,SCENsheetsprovideequipmentdescription,safetyfunction,qualifiedlife,andreferencesofallapplicablequalificationdocumentsandexplanatorynotes.Acji~nAgingeffectsonallsafety-relatedelectricalequipmentareconsideredintheEQprogramtoconformtotherequirementsofSection4ofNUREG-0588.Arrheniusagingagingandistheaging.Whenjustificationismethodologyisusedforacceleratedthermalpreferredmethodforevaluatingequipmentothermethodsareused,appropriateprovided.Inthecasewhereacceleratedagingwasused,theprocedureemployedconsideredtheexpectedapplicationanddesignlifeofthedevicebeingtested.Synergisticeffects,whereknown,areconsideredintheacceleratedagingprogram.Specifically,whereasupplierhasidentifiedorisawareofsynergisticeffectsfor.,aparticularcomponent,ithasbeenaddressed.AppropriatedocumentationisincludedintheEQfile.Whererequired,amaintenanceorreplacementscheduleconsistentwithqualifiedlifeisprovidedaspartofthesupportdocumentationandisreferencedontheSCEWsheets.Whentypetestingwasselectedasthequalificationmethod,"thetypetestwasrunonthedevice(s)inaspecifiedsequencethatwassetdownaspartofthewrittentestprocedure.AllsequentialtestingwasperformedonthesameAmendment164-2December1984 NineMilePointUnit2EQDunit(s),includingaging.ThesequencegiveninIEEE323-1974,Paragraph6'.2,isgenerallyused.However,othersequencesusedarejustifiableonthebasisthat.itissevereenoughtoverifythatthedevicequalifiedwillperformitsintendedfunctionswithintherequirementsofthepurchasespecificationbefore,during,andafteradesignbasisaccident.MarcainQualificationtypetestresultswerereviewedtoverifythatadequatemarginexistsbetweenthemostseverespecifiedserviceconditionsfortheequipmentandtheconditionsusedintypetesting.Marginsareinadditiontoanyconservatismappliedduringthederivationoflocalenvironmentalconditionsoftheequipment.Marginaccountsforproductionvariationsofequipmentandinaccuracies.intestinstrumentation.Increasedlevelsoftesting,numberoftestcycles,andtestdurationareamongthemethodsusedforensuringadequatemargin.Someequipment'srequiredbythedesigntoperformitssafetyfunctiononlywithinthefirst10hrofan.accident.Forthisequipmentingeneral,atimemarginofatleast1hrinexcessofthetimeassumedintheaccidentanalysiswasused.Forallotherequipment,the10-percenttimemarginidentifiedinIEEE323-1974wasusedunlessa.reducedamount,couldbejustified.DoseRateandSneristicEffectsQualificationforradiationwasbasedonthecalculatedtotalintegrateddose.Safety-relatedelectricalequipmentqualifiedforuseinanuclearradiationenvironmentwasexposedtoradiationwhichsimulatedtheconservativelycalculatedintegrateddose(normalandaccident)thattheequipmentisexpectedtowithstandpriortocompletionofitsintendedsafetyfunction.Ingeneral,agammaradiationsource,typicallyC0-60,isusedtosimulateexpectedradiationexposuresWherebetaandgammaradiationexposureisexpected,betaradiationistakenintoaccounteitherduringsimulatedexposure(directlyorasagammaequivalent)orduringevaluationoftheresults.Reductioninthetotalbetadosewasallowedonlyafterconsideringappropriateshieldingfactors.Ifthebetaradiationdosecontributiontotheequipmentorcomponentwascalculatedtobelessthan10percentofthetotalgammaradiationdosetowhichtheequipmentorcomponenthadbeenqualified,thenAmendment16December1984 NineMilePointUnit2EQDtheequipmentorcomponentwasconsideredqualifiedfor.thebeta'ndgammaradiationenvironment.Thedoserate,energyspectrum,orparticletypewasaddressedtoarriveatagammaequivalenttotaldose'owhichtheequipmentmustbeexposed.,Actualtestingusingdoserate,energyspectrum,orparticletypeasqualificationparameterswasnotconsidered.Synergisticeffectsinvolvingdoseratearenotaddressed.However;wheresynergisticeffectsofradiationandtemperaturewereidentifiedpriortotheinitiationofqualification,theyare'includedintheprogram.~AnalsisITheuseofanalysisforqualificationisinconformancewith10CFR50.49(f).4.1.2NSSSEquipment-ElectricalSafety-relatedelectricNSSSequipmentlocatedinaharshenvironmentincludesallthreecategoriesof10CFR50.49(b).AMasterListofthisequipmentisprovidedinAppendixA.sCategory1,10CFR50.49(b)equipmentisthatequipmentclassifiedbytheNSSSvendorassafety-relatedintheMasterPartsList(MPL).Category2,10CFR50.49(b)equipmenthasbeenidentifiedthroughreviewoftheelectricalconnectionsforallequipment,classifiedasnonsafety-relatedintheMPL.ThoseitemsconnectedtoESForRPSpowerwithoutbeingelectricallyseparatedinaccordancewithRegulatoryGuide1.75areincludedinthequalificationprogram'.Category3,10CFR50.49(b)equipmenthasbeenidentifiedandisincludedinthequalificationprogram.TheapproachtakenbyGeneralElectrictoenvironmentallyqualifysafety-relatedequipmentwithintheNSSSScopeofSupplyforUnit2toalevelconsistentwithNUREG-0588isdescribedintheGELicensingTopicalReportNEDE-24326-1-P'"'.ThisreporthasbeenapprovedbytheNRC.ThemethodologydescribedinthisreportisconsistentwithapplicableRegulations(lOCFR50AppendixA),applicableRegulatoryGuides,andwithapplicableconsensusnationalstandards(ANSIandIEEE).TheworkperformedunderthisguidanceiscontrolledinamannerconsistentwiththecommitmentscontainedintheNRC-approvedGELicensingTopicalReportonQualityAssurance.Amendment16December1984 NineMilePointUnit2EQDTheapproachtoqualificationdescribedinNEDE-24326-1-P'spredicatedontypetestingbeingthepreferredapproach.Dependinguponeithertheuniquecharacteristicsofthespecificdevicesorontheavailabilityofothersourcesofqualificationdata,other,approachessuchaspartialtypetestwithjustificationbyanalysis,operatingexperience,analysisor.combinationoftheabovementionedapproachesmaybeused.Foranyoftheseapproachestheeventualapproachusedisjustifiedintheaccompanyingqualificationreport.Thisjustificationisbasedonthedemonstratedabilityoftheproducttomeetitsintende'dsafetyfunction.Wheretypetestingisperformed,theapproachusuallytakenisasfollows:Assurethedeviceconditionsaswellconditions.isfunctionalundernormalasunderextremes.ofsuch2.Deviceisagedtoanend-of-qualifiedlifecondition.3.Deviceissubjectedtodynamicsimulation.4.Deviceissubjectedtodesignbasiseventconditionsandpostdesignbasiseventconditions.5.Deviceisinspectedforfailureswhichmaynothavebeenapparentduringtheoperationalte'stingwhichmay-haveoccurred'uringexposuretoanenvironmentalextreme.Thespecificsequenceoftestsundertakenduringenvironmentalqualificationmayvarydependinguponthefunctionofthedeviceandthenatureoftheeventforwhichqualificationisbeingde'monstrated.Theassociatedqualificationreportcontainsajustificationoftheactualsequenceused.Whenaproductistested,wherepractical,theinterfaceassociatedwiththeproductisincludedinthetest.Thespecificsequencesofenvironmentsappliedduringthetestingaredetermined,usingengineeringjudgment,tobestselectthesequencetowhichtheproductwouldbesubjectedduringactualinstallation.Furthermore,wheresynergismsbetweenenvironmentsareknown,theseeffectsaretakenintoconsiderationduringtheplanningandconductingofthetest.AllteststhatareconductedincludeadequatemarginsasdescribedinNEDE-24361-1-P'~'..FollowingthecompletionofthetestsalloftheassociateddocumentationthatledtothetestandwasgeneratedduringAmendment16December1984 NineMilePointUnit2EQDthetestisformallyassembled.intoaqualificati'onreport.ThatreportisavailableforNRCaudit..Fordevicesnotqualifiedbytest(e.g.,device'sclassifiedassafety-relatedsolelybecausetheyperformapressureboundaryfunction;devicesthatperformtheirsafetyfunctionpriortotheonsetofharshenvironmentsinwhichtheydonotcontributetothemitigationoftheeventafterperformanceoftheintendedsafetyfunction',=etc)qualificationreportsarealsoprepareddemonstratingtheadequacyoftheirqualification.Aswithdevicesqualifiedbytest,thesequalificationreportsareinanauditableform.Thelaststepofqualificationitoensure'thatthedevicetestedissimilartothedeviceinstalledinthefield.Therefore,beforefullqualificationcanbeassured,thereisaverificationofthesimilaritybetweenthetesteddeviceandtheinstalleddevice.4.1.3BOP/NSSSEquipment-MechanicalTheMechanicalEquipmentQualification(MEQ)Programprovidesadocumentedanalysisofthenonmetallicmaterials,usedinsafety-relatedmechanicalequipment,todemonstratethattheenvironmentaleffectsduetoplantoperationandpostulatedaccidentswouldnotdegradethesematerialsinsuchawayastopreventthisequipmentfromperformingitsrequiredsafetyfunction.TheMEQProgramdetailstheenvironmentaldesignconformancereviewofsafety-relatedmechanicalequipmentlocatedin'harshenvironment.Theconformancereviewincludesnonmetallicsubcomponentsofmechanicalequipment.EquipmentcategoriesincludedinthisreviewarelistedinTable4-1.Safety-relatedmechanicalequipmentinc'ludedintheMEQprogramisidentifiedinAppendixD.EnvironmentalconditionslistedintheEQEDCareusedasthebasisfortheMEQreview.Generally,mechanicalequipmenthasnotbeenshowntobeassensitivetoradiationexposureaselectricalcomponents;Metallicportionsoftheequipmentareparticularlyresistanttoradiation.Nonmetallicpartsofmechanicalequipment,.whilemoresensitivetoradiationandtemperature,areusedintheequipmentsothatthedegradationofmechanicalpropertieswillnotsubstantiallyaffecttherequiredsafetyfunctionofthecomponent.IAmendment16December1984 NineMilePointUnit2EQDMethodoloThereviewconsistsofthefollowingfive-step.process.1.Identificationofsafety-relatedmechanicalequipment2.Identificationofnonmetalliccomponents3.Identificationofenvironmentaldesignconditions4.Identificationofnonmetallicmaterialcapabilities5.EvaluationofenvironmentaleffectsTheMEQProgramconsistsofanalysesofsafety-relatedequipmentlocatedinsystemsrequiredforthefollowingfunctions:1.Emergencyreactorshutdown2.Emergencycorecooling(short-term)3.Reactorcorecooling(long-termpostaccident)4.Primarycontainmentisolation5.Containmentintegrity6.PreventionofreleaseofradioactivematerialToaccomplishtheabovefunctions,completesystemsandportionsofsystemsareincludedintheMEQProgram.CategoryImechanicalequipmentwithinthosesystemsthatarelocatedinaharshenvironment,andrequiredforperformanceoftheabovefunctions,areincludedintheMEQProgram.Thereviewisperformedbyusingthespecifications,SWECdrawings,vendordrawings,andmanuals.Oftheenvironmentalconditions(temperature,pressure,humidity,andradiation)onlyradiationandtemperaturewereconsideredinthereview.Pressureandhumiditywerenotconsideredrelevantsincethedesignofnonmetallicportionsofmechanicalequipmentfortheseparametersisgovernedbysystemprocessconditionswhichhavebeenidentifiedinthespecificationandaddressedbythe.equipmentmanufacturer.EachmaterialidentifiedwasexaminedeffectoftheenvironmentalconditionstodeterminetheonthematerialAmendment16December1984 NineMilePointUnit2EQDproperties.Forinitialscreening,itwasconservativelychosentousethethresholdradiationlevelandmaximumservicetemperature.Materialshandbooks,textbooks,andindustryandgovernmentreportswereresearchedtoobtainmaterialdata.Insomecasesvendordatawereutilizedtosupplementtheabovesources.Aconservativeinitialscreeningofthe~nonmetalliccomponentswasmadebythecomparisonofthematerialcapabilities(thresholdradiationlevelandmaximumservicetemperature)withthemaximumpostulatedenvironmentalconditions.Thoseitemswhichwerenotshowntobeacceptablebasedonthecomparisonwereevaluatedinfurtherdetailconsidering:1.Degreeofmaterialdegradation.2.Materialpropertiesaffected.3.Equipment/componentfunction.4.Degreeoffunctionaldegradation.-~AccetanceCriteriaInordertobeconsideredacceptable,nonmetallicportionsofmechanicalequipmentmusteitherbeshowntobeacceptablefortheplantenvironmentbyeitherofthefollowing:I1.Exhibitingthresholdradiationvaluesandmaximumservicetemperaturesabovethemaximum.postulatedenvironmentalconditions.2.Demonstratingbyengineeringanalysisofmaterialcapabilitiesandfunctionthatthesafetyfunctionofthecomponentisnotcompromised.4.2MILDENVIRONMENTMildenvironmentplantareasarelistedinTable2-2.Theseareasorzoneswereselectedbasedonthefollowingguidelinesandcriteria:1.Safety-relatedequipmentinthesezonesislocatedoutsideofcontainment,andisnotsubjecttoaccidentenvironmentsduetoaLOCAorpipebreaks.2.Environmentalconditions:10CFR50.49,Paragraphc.(iii)definesamildenvironmentas:AnAmendment16December1984 NineMilePointUnit2EQDenvironmentthatwould;atnotimebesignificantlymoreseverethantheenvironmentthat.wouldoccurduringnormalplantoperation,includinganticipatedoperationaloccurrences.Anticipatedoperationaloccurrences,asdefinedin10CFRSOAppendixA,meansthoseconditionsofnormaloperationwhichareexpectedtooccuroneormoretimesduringthelifeofthenuclearpowerunitandinclude,butarenotlimitedto,lossofpowertoallrecirculationpumps,trippingoftheturbinegeneratorset,isolationofthemaincondenser,andlossofalloffsitepower.ReviewofUnit2environmentalconditionshasshownthatthereisnosignificantchangeinenvironmentalconditions,exceptradiation,inthesezonesduringanaccident.Thetotalintegrateddosefornormal40-yrserviceplus100-dayspost-accidentislessthan10"rads,whichislowerthanthethresholddamagelevelfororganicmaterials.Electroniccomponents(inparticular,metaloxidesemiconductordevices)mayhaveathresholddamagelevelatsomewhatlowerdoses.Justificationfortheuseoftheseelectroniccomponentsinthespecifiedradiationenvironmentshallbeprovided.PlantzoneslistedinTable2;3areservedbythespecialcontrolroomairfiltersandwillnotexperienceanysignificantincrease,inradiationduringnormal40-yrserviceoraccident;therefore,theuseofelectronicequipmentinthesezonesisconsideredjustified.Equipmentlocatedinthezonesliste'dinTable2-2arenotexposedtoenvironmentalconditionsthatmaycausecommonmodefailuresduetoenvironmentalconditionsduringDBE.ImmediateaccessfollowingaDBEisnotrequiredotherthannormalandperiodicmaintenance.Therefore,theseplant,zonesmaybeconsideredmildenvironmentareas.4.2.1BOPEquipmentMildEnvironmentQualificationProgramSafety-relatedequipmentlocatedinamildenvironmentmeetingthefollowingrequirementsisconsideredadequatelyqualified.ACertificateofCompliance(CofC)statingthatthefunctionalrequirementsoftheequipmentsubjectedtothespecifiedUnit2environmentalconditionshavebeenmet.2.TheCofCshallidentifythesuppliedequipmentbyequipmentmarknumber.Amendment16December1984 NineMilePointUnit2EQD3.The,equipmenthasbeenmanufacturedinaccordancewithaqualityassuranceprogramthatmeetstherequirementsof10CFR50,AppendixB,andstatescompliancewith10CFR21.4.2.2Therequirementsforanyscheduledsurveillance,maintenancecalibration,,periodictests,andpartsreplacementsnecessarytomaintainqualification.NSSSMildEnvironmentQualificationProgramSafety-relatedNSSSvendor-suppliedequipmentthatislocatedinamildenvironmentisconsideredqualifiedif:1.Theequipmentmanufacturer'sdesignenvironmentalparametersenveloptheUnit2specificenvironment.2.Theequipmentmanufacturer'sdesignfunctionalcharacteristicsenveloptheUnit2applicationspecificfunctionalperformancerequirements.3.TheNSSSvendorprovidesaProductQualityCertification(PQC)inaccordancewithNEDO11209'hePQCestablishesatiebetweenthesupplieditemandtherespectiveequipmentdrawingwhichinturnprovidesfurtherreferencetotheapplicableenvironmentalandfunctionalperformancespecifications.Amendment164-10December1984 NineMilePointUnit2EQDTABLE4-1SAFETY-RELATEDMECHANICALEQUIPMENTCATEGORIESAirTreatmentEuimentFansDampersAirtreatmentunitsHydrogenrecombinerUnitcoolersProcessFluidSstemEuimentPumpsValves-air-andelectric-operated,check,reliefHeatexchangerStrainerContainmentInteritandIsolationSstemEuimentLocksandhatchesIsolationvalvesPenetrationsealsandgasketsMiscellaneousEimentNonmetallicsusedinventilationsystemsNonmetallicsusedinprocessfluidsystemsAmendment161of1December1984 I
NineMilePointUnit2EQDSECTION5QUALIFICATIONDOCUMENTATION'5.1MASTERLISTS(ML)Theequipmentandcomponentsthatarewithinthescopeof10CFR50.49(b)arelistedintheMLinAppendixAandareincludedinthequalificationprogram.Thislistincludesandidentifies10CFR50.49(b)equipmentcategories1,2,and3.Allsafety-relatedequipmentaddedasaresultoftheTMIactionoitems(seeFSARSection1.10)havebeenincludedintheUnit2qualificationprogramandqualifiedasrequired.TheMLincludesandidentifiesthefollow'ing:Equipment/componentsassociatedwiththesystemsrequiredtomitigateanaccident.listedinTables3-1and3-2andlocated:inharshenvironment,Category1,10CFR50.49(b),areidentified.2.Nonsafety-relatedequipment/componentconnectedtosafety-relatedpowerbuseswithoutbeingelectricallyseparatedinaccordancewithRegulatoryGuide1.75,areunderreview.IfthereviewidentifiessuchcasestheywillbeincludedintheQualificationProgramandidentifiedintheMasterListaccordingly.3.Post-accidentmonitoringequipmentlocated'inharshenvironment,andisspecifiedasCategory1and2,Revision2,RegulatoryGuide1.97,areidentified.AnimportantfeatureoftheMLisitscapabilitytoidentifyallqualificationdocumentationas'sociatedwithanyofthelistedsafety-relatedelectricalequipmentorcomponentsthroughreferencetotheassociatedSCEWsheetsforthatparticularequipmentorcomponent.The~identityofanyqualificationdocumentassociatedwithanyofthelisteditemscanbeaccessedthrougheithertheindividualequipmentidentificationnumber,(e.g.,2CSI*FV114)orthroughagenericequipmentmanufacturerandmodelnumber(e.g.,Rosemount1153Bpressuretransmitter).Amendment165-1December'984 NineMilePointUnit2EQDExamplesofdocumentationaccessiblethroughtheMIreferencetotheSCEWsheetsarepurchasespecifications,vendorrecords(e.g.,testplansandtestreports),andSWEC-generateddocumentation(e.g.,aginganalysesofmechanicalequipmentandequipmentoperabilityperiods).Foreachdevice,theMLprovidesasummaryofthekeyelementsoftheEnvironmentalQualificationProgram.Table5-1containstheheadingfortheML,withadescriptionofeachentry.Thefirstfourcharactersofthedeviceindicatetheunitnumberandthemajorsysteminwhichthedeviceisused.Thesubsequentcharactersareusedtofurthersegregatethedevicesbyspecifictypeandnumber.5.2SYSTEMCOMPONENTEVALUATIONWORK(SCEW)SHEETTheSCEWsheetpresentsadescriptionoftheindividualequipmentanditslocation.Acomparisonismade,insummary,oftheactualenvironmentalparametersofthezonespecified,withtheenvironmentalparametersencompassedinthequalificationprcgram.Italsocontainsreferencestoallofthesuppor."iveenvironmentalqualificationdocumentswhichdemonstratethattheequipmentisqualifiedtoperformitssafetyfunctioninthepostulatedenvironmentalconditions.Referencetothequalificationdocumentsthatcontaindetailedsupportinginformation,includingtestdata,canbefoundlistedintheindividualequipmentorcomponentSCEWsheet.Ingeneral,thereisaSCEWsheetforeverylineitemontheML.SomeSCEWsheetsmayconsistofmorethanonepagewhentheindividualequipmenthascomponents,whicharelocatedindifferentzonesorareotherwisequalifiedseparately.ReferenceddocumentsaretestreportsandothersuchitemsthatareretainedinSupplier'sDocumentDataForm(SDDF)files.Otherdocumentswhichmaybereferenced'areequipmentspecifications,EquipmentQualificationEnvironmentalDesignCriteria(EQEDC),andcalculationsofcompositeenvironmentalzoneprofiles,qualifiedlife'andsupplementalanalysesforequivalentgammaradiationandthepost-accidentoperabilityperiod.TheSCEWsheetformatisshownonFigure5-1.ThedescriptionoftheentriesisgiveninTable5-2.SCEWsheetsarecompiledinAppendixB.Amendment165-2December1984 NineMilePointUnit2EQDAssociatedwiththeSCEWsheetsaregraphsoftimedependentenvironmentalparameters,suchastemperatureandpressureforbothspecifiedaccidentconditionsandqualificationtestconditions.TheseprofilesofaccidentandtestconditionsarecompiledinAppendixCandmaybeusedforcomparisonoftheapplicableaccidentconditionsandzonestotheenvironmentsimulatedinthequalificationtest.Amendment165-3December1984 lfII NINENILEPOIHT-UNIT2DOCKETNUMBER50-410QUALREF4REV'.Figure5-1SYSTBCONPONEHTEVALUATIOHNORKSHEETPAGE1OF113-Dec-84asENVIROHNEHTALCOHDITIONSANDQUALIFICATIONaaIEQUIPMENTDESCRIPTION~<<<<%~~<<~aIDOCUNENTREFERENCEaa'='='='='*====================tIPARANETERISPECIFIEDIQUALIFIEDsQUAL)MARGIH)'RENARKS(EQUIPHO.:ISPECHO.)lSYSTENlaaaa<TYPE((DESCRIPTIOH)aaaaaINANUFACTURER:aaINODELNO)t)SAFETYFUNCTIONSaaIOPaCODE)IACCURACY-"SPEC:sDENOl(ZONENO.lIFLOODLEVELtELEVATIOHtIABOVEFLOODsLEVEL?IABOVESPRAY/sFROTHLEVEL?IDOCUNEHTATIOHACCEPTABILITY:IVALUEsVALUEISPECIFIEDsQUALIFIEDINETHODtDEMOaaCft)I?ICCa'521~~aa1laaaaa>>aaaaIIOPTINEt2sIIIITBP(F)'aII""s"IINOTEI)INORMALs1I2IINAINOTE2alABNORMAL(a.1I2IIHAaaACCIDENT)Ia,1I'2laII'PRESS(PSIG)I"----I-----'----t----"I"-"--I---s-HOTEIlaHORNAL.Ias1I2IINAIlABHORNALIaII2IHAlsACCIDENT(aI1I2aa'IRH(X)'"----'----'----I--"--'-"--I---I-HOTE1tsNORNALI1I2IHAslABNORMAL)aI1t2IsNAllACCIDENT(a)1I2I~,sIaaRADIATIOH'--"--I-----I-----'-"--I""---I"--s"HOTEI)IHORNGAMMA)sI.1a2HAIIIACCGANMAI1t2IIItHORNBETAtIt1I2IINAIIACCBETAIa1s2IaaIINEUTRONIIs1a2aaattSPRAYsIHAIISUBNERGEHCEIaaHAIaaIe<<Ca@<<a<<<<>>C~sIIaIIaIIslOOCUNEHTREFERENCEtNOTES'.FORCONPLETEEHVIROHNENTALCONDITIONS,Ias1.EQUIPNEHTQUALIFICATIONENVIRONMEHTALDESIGH"SEETHEDOCUNENTREFERENCED.sICRITERIAeEQEDC1)REVI)NAY2)19842NORNAI.TENPERATURESARESHONHAS,IIa2,VEHDORENVIRONNEHTALQUALIFICATIONREPORT,NAXDESIGN/AVERAGE.lsSDDF4la3.EQUIPMENTOPERABILITYTINEDATASHEET)aaaaIssNUREG0588,CATII(aaaaaaatlaIIaaaaaaINAIHT/SURVEILL--"sREFERENCEsIIa(QUALIFIEDLIFE---aaI(YEARS)taREFEREHCE:ItalsaaaaaaIaaaaaAmendment161of1December1984 0,/
NineMilePointUnit2EQDSECTION6MAINTENANCE/SURVEIjjANCEPROGRAMApreventivemaintenanceandsurveillanceprogramisbeingdevelopedbyNMPCtoensurethecontinuedenvironmentalqualificationofequipment,duringplantoperation.Theobjectivesofthispreventive~maintenanceandsurveillanceprogramareandtoensurethat'hequalifiedequipment-willperformitsintendedfunctionintheenvironmentinwhichitisexpectedtooperateandtomaintainretrievablerecords.Thelistofenvironmentallyqualifiedequipmentidentifiesequipmenttobeincludedinthepreventivemaintenanceandsurveillanceprogram.Thelistwillbekeptcurrenttoincludemechanicalequipmentandensurethatequipmentaddedtotheplantbecauseofdesignmodificationsisincorporatedintothequalificationprogramandthepreventivemaintenanceandsurveillanceprogram.Foreachpieceofequipment,apreventivemaintenanceandsurveillanceprogramisbeingdevelopedbasedoninformationsuchasrequirementsresultingfromtheequipmentqualificationreport,andUnit2plantspecificthermalandradiationqualifiedlifecalculations,manufacturer'srecommendations,previousexperiencewithsimilarequipment,etc.Thequalificationspecificrequirementsareidentifiedforeachpieceofequipment.Theinitiallydevelopedpreventivemaintenanceandsurveillanceprogramswillbemodifiedduringplantlifeifadditionalinformation,suchascorrectivemaintenancefrequency,surveillancetesting,andindustryexperience(e.g.,NRCinformationnotices,circularsorbulletins,manufacturers'lert,TER's,reliabilitydatabases,etc.),identifiesanyunanticipateddegradationtrends.Inaddition,thepreventivemaintenanceandsurveillanceprogramidentifiesthelubricantssuitableforeachapplicationandenvironment.Thesepreventivemaintenanceandsurveillanceactivitiesareperformedbyappropriatelyqualifiedpersonnelusingdetailedprocedures,asnecessary.Theplantmaintenanceprogramwillincorporatetheschedulinganddocumentationofmaintenancerequirementsandactivities.Scheduleswillidentifywhenequipment.maintenance,replacement,testing,orcalibrationisrequired.AppropriateplantdepartmentswillcompletetheAmendment166-1December1984 NineMilePointUnit2EQDwork.Oncompletionofscheduledactivities,anotificationwillbemadeindicatingworkcompletion,whichwilldocumentcompletionandfacilitaterescheduling.'hisschedulingprogramwillbeusedtoalertappropriateplantdepartmentsofpreventivemaintenance,surveillance,andreplacementrequirementsforenvironmentallyqualifiedequipment.Qualityassuranceandcontrolprogramswillrequireinspections,verifications,andauditsofactivitiesandproceduresimportanttosafety.Theseprogramswillbeperformedonenvironmentallyqualifiedequ'ipmenttoensurethatschedules,maintenance,procedures,replacements,anddocumentationarecompletedinacorrectandtimelymanner.ThepreventivemaintenanceandsurveillanceprogramwillbeconsistentwithNRCrequirementsandwillbeimplementedatthetimeofplantheatup.Amendment166-2December1984 NineMilePointUnit2EQDSECTION7REFERENCES1.EquipmentQualificationEnvironmentalDesignCriteria,(EQEDC),Stone6WebsterEngineeringCorporation,DocumentNo.EQEDC-l,Revision1,May2,1984.2.Title10,CodeofFederalRegulations,Paragraph50.49,EnvironmentalQualificationofElectricEquipmentImportanttoSafetyforNuclearPowerPlants.FederalRegister,Vol.48,No.15.January21,1983.3.RegulatoryGuide1.75,PhysicalIndependenceofElectricSystems,Revision2,September1978.4.Shirley,N.C.etal.GeneralElectricQualificationProgram,LicensingTopicalReport,NEDE-,24326-1-P,January1983.5.GeneralElectricNuclearEnergyBusinessGroup,BWRQualizyAssurancProgram,NED0-11209-04A,March1978.6.NUREG-0588,InterimStaffPositiononEnvironmentalQualificationofSafety-RelatedElectricalEquipment.7.IEEEStandard323-1974,IEEEStandardforQualifyingClasslEEquipmentforNuclearPowerGeneratingStations.8.U.S.NuclearRegulatoryCommissionStandardReviewPlan,NUREG-0800.9.10CFR50,AppendixB.10.10CFR21.Amendment167-1December1984 0
PAGE1ENVIRONMENTALQUALIFICATIONDOCUMENTSAFETY-RELATEDELECTRICALEQUIPMENTMASTERLIST(M)EQ'JXP!lENTXD+2AASwHCV130+ZAAStHCV135+ZAAS<HCV136+ZAASvHCV137DESCRXPTXONBRTHGAXRCNTHTISOLVBRTHGAIRCNTHTXSOLVBRTHGAIRCNTHTISOLVBRTHGAXRCNTHTISOLVVENDORNAHEVELANVELANViLANVELANSPiCP30AHP30iHP30QHP30~HZONESC289155SCZC0100PCZ89581PCZ00503ZIQREFHHHHOPCODOPT+=RegulatoryGuide1.97.
PAGE2EQUIPtiEHTIDZCCP>>AGV37AZCCP>>AGV37BZCCPi'AGV3SAZCCP>AGV3SB+ZCCP>HQVXZZ+ZCCPw'.fCV12ctZCCP>>t!GVZQA+ZCCP>>t'GVIRB+ZCCP+t!GV15A+ZCCP<HGVX5B+ZCCPwt!OV16A+ZCCPwtfOVX6B+2CCPii!fGV17A+ZCCPtt!OV17BZCCP+t'QV~SAZCCPv'lGV'SBZCCP+tfCVZZAZCCP+tfGVZZB+ZCCPwtlOVZ65+iZCCP+!!GV273ZCCPwtfGV93AZCCP+!fGV93Bc,CCP+l'lGV94AZCCP>'.lQV9<BZCCPc'PT90AZCCPicPT9OBDESCRIPTIGNAIROPERATEDPLUSVALVEAIROPERATEDPLUSVALVEAIROPERATEDPLUSVALVEARCFERATFDPLUSVALVEORS-CONTISGZNBDDRS-CChTXSOCUTBDGATEVLVSFCicEZAI~VcTGATEVLVSFC+1BXHLETRCS-CONTISOOUTBORCS-CGilTISOGiJTBDRCS-CONTISOINBDRCS-CGiNTISOXHSORCS-CG!tTISOOUTBDRCS-CONTISGCUTBDGATEVLV.SFCYEXAOUTLETGATEVLV.SFC+EZBOJTLETGATEVLV.RCSOUTLETBLCCKVLVGATEVLV.RCSCUTLETO'LOCKVLVDPS-CONTZSOOUTc".DDRS-CONTZSOXHBDGATEVLV.RCSINLETBLOCKVLVGATEVLV.RCSZt!LETBLOCKVLVRCS-CONTZSOXt!BDRCS-CiiNTXSOXiHBDRBCLCHTOPCS-PlACLRSRBCLCHTOZRCS-PlACLRSVEHDORHAHEATTHGGDt.t!GRRILLATTHGDZ!lRRXLLATTHOGDtt!QRRZLLATTHCGDc'tlGRRILLVELAHVELAilVcLANVELANVELANVELAHVLAiNVELAtlENG.CO.VELANVELANVELANVELANVELANVELAHVELANVELANEhSCORPVELAHVELANViLAHVELANROSEVG'JNTROSEtlGUNTSPECP30LiKP30QKP30QKP304KP30QRP30QRP30>>RP304RP304RP30QRP3QQRP30<RP30cfRP304RP30>>RP30>>RP304RP3GQRP35QRP30clRP30QRP30qRP3CtlRP304RC071!fC071HZCNEABH1750%ABS17509AB!ll755/ABS17509PCZ%0612SCZtl0135SC215122SC215122SC261145SC261105PC2616%9PC2616ctlSC261105SC261105SC215122SC215122SC261145SC2611>>>>5SC2%0135PCZ50630SC2611i5SC2611q5PC261609PC2616Q1SCZ61145SCZ>>>>0135ZX%REFHHHHHHHHHHHHHHHHHHHHHHHHHHOPCODAAAAAAAAAAAAAAAkAAAAAAAACPT100DYS100OYS100DYS100OYS100DYS100OYS100OYS100DYS100DYS100DYS100DYS1GODYS100OYS100DYS100DYS100OYS100DYS100DYS100DYS100OYS100DYS1,00DYS1CODYS100DYS+=RegulatoryGuide1.97.
PAGE3EQUXPHKHTIDZCES<RAK105ZCES~RAK106CeS<WAK107ZCKSaRAK108ZCESi'RA)(109ZCES+RAK231ZCESwRAK232ZCKS<Z01EDESCRIPTIONIhSTRUtlEHTRACKXhSTRUHENTRACKXNSTRL4l:-NTRACKIHSTRB(EilTRACKIHSTRL".(KNTRAChXt(ST(((2(Ei(TRACKXt(STRL(KKHTRACKPENETRATXCNNEUTRONHiQH(B)VENGCRNAKEtlERCURYCO.ttERCVRYCO.tlERCURYCO.HERCURYCO.HERCURYCO.tlERCURYCO.HeRCURYCOCGiiAXCORPSPECC051PC051PC051PC051PC051PC061PC061PE021PZONESC261145SC261145SC26145SCc89155SCZ89155l(STZ8949HSTZ8949PC250621ZIGREFHHHHHHHHGPCOOGPTZCESRZOZEZCESvZ06EZCESxZ08EZCESKZ10EZCESwZ11EZCESwZXZEZCESxZX7EZCESNZ18EZCES<ZX9EZCESvcZZOKZCKSxZZXEZCES>ZZZEZCES~Z23EZCESwZ24EZCESAZ25EZCESKZ26EZCES<Z29KZCKSNZ30KZCES+Z5)EPENETRATIONHEUTRCNt(GN(B)PEHETRATIOliiNSTR(G)PEtiETRATIGNCOiiTRGL(G)PENETRATXGNCONTROL(G)PEiN-TRATIONiNEUTRONtlGl(G)PENETRATIGHNEUTRONHO,I(G)PENKTRATIOHRPSCONTROL(Y)CONAXCORPCGiNAXCORPCOiiA'(CORPCGNAXCORPCGNAXCORPCOt(AXCORPCO)iAXCORPPENETRATIO.'lCOitTRGL(Y)PEHETRATXONCCNTROL(Y)PEHKTRATXGN600VPOKER(Y)PcHETRATIONXhSTR(H)PENETRATICHNEUTRONHON(Y)PEHTRATIGHNEUTRONtG<t(Y)PENETRATIONCONTROL(Y)PENETRATXGilRPSCONTROL(Y)PENETRATIONNEUTRONtlOil(0)PENETRATXGNHKUTRGNHON(0)PENETRATIGHRPSCOitTROL(B)CONAXCORPCOtiAXCORPCGNAXCORPCGNAXCORPCGNAXCORPCOtiAXCORPCONAXCORPCONAXCORPCGNAXCORPCGNAXCORPCONAXCORPPEHETRPGHKRCONT&INSTR(Y)CCNAXCORPE021PPCZ40603HE021PPC240603HE021PPCc40603HE021PPC240603HE021PPC2506c.5HE021PPC240607HE021PPC250627HE021PPC240609HEOZiPPC~50627HE021PPC240609HEOZlPPC250627HE021PPC240609HE021PPCZ50627HE021PPC240609HE021PPC250527HE021PPCi.40609HE021PPCc.50630HE021PPCc.40612HE021PPC240601H PAGE0EG'JIPllENTIDZCKS>>Z52E2CES>>Z53EZCES>>Z54EZCES>>Z57EZCES<Z58EZCES>>Z59E2CES-Z03Ec,CESZONKc.CKS-Z13KZCKS-ZlQK2CES-Z15E2CES-Z16EZCES-Z27EZCESZZOKZCES-Z31E2CES-Z32E2CKS-Z33EZCKS-Z3QE2CES-Z355ZCKS-Z36E2CES-Z37EZCES-Z38E2CES-Z39EZCES-ZQOEDKSCRIPTXO".lPENETRATXGNRPSCONTROL(G)PENETRATIONHPCSCCiNTROL(P)VENDORNAHKCONAXCCRPCONAXCCRPPEhTRATICNRPISINSTR(N)PEiNKTRATIGilRPXSIhSTR(N)PEhETRATIONRPXSXNSTR(N)PENETRATIONRPISINSTR(N)PENETRATXOliRPISINSTR(N)PENETRATIONRPISIHSTR(H)P~NcTRATIONRPISINSTR(H)PEiNETRATXONRPXSINSTR(N)PENETRATION600VPCHER(N)PENKTRATICH600VPOiiZR(H)PEtiKTRATIGNCONTROL(N)PENETRATIONCONTROL(tl)PENETQATC"lINSTR(N)PFNKTRATIONINSTR(N)PEiiETRATXONCONTROL'(N)PENETRATICNCOiiTROL(H)PEhETRATXCNINSTR(N)PENKTRATXONCC.'lTROL(N)CGiNAXCORPCC:lAXCORPCGNAXCOicPCGNAXCORPCOr(AXCORPPKNETRATICNHPCSCCNTROL(0)CCiNAXCORPPKNETRF"HKRCO'NT2,IhSTR(G)PEhFTRPOHERCGiNT8XiNSTR(Y)COiNAXCCRPPENETRPOHERCChT8IhSTR(Y)COiNAXCCRPSPECE021PZCNEPC250623ZIOREFE021PPC261609H0"1PPC"506~0HE021PPCc,151Z1HE021PPC215121H021PPC2151Z1HKOc.lPPC250621HE021PPCZC0603HE021PPCZ50625HEOZIPPCZQ0607HE021PPC250627HE021PPCZO0609HE021PPC250630HEOc,lPPCZQ0612HE021PPCZ616%1HE021PPCZ61601HE021PPC261601HEOZ1PPC261601HE021PPC261601HE021PPC261641HE021PPC261601HK021PPC261601HE021PPCZ616cllHE021PPC261601HOPCODGPT PAGE'EQUIFHKNTID2CES-Z40EZCES-Z41EZCES-Z42EZCES-Z43E2CES-Z44E2CES-Z45EZCES-Z46EZCES-Z47EZCKS-Z40EZCES-Z49E2CES-ZSOEZCES-Z55E2CES-Z56EZCES-Z60EDESCRIPTIONPEHETRATIOHCONTROL(N)PEHETRATIOiHCOHTROL(N)PENETRATIONIHSTR(H)PENETRATIONCONTROL(H)PENETRATIONINSTR(H)PENETRATIOH13.8HV(H)PENETRATIOH13.8HV(H)PENETRATION600VPOHER(H)PENETRATIONUNASSIGNEDPEHETRATIOH600VFOHER(N)PENETRATIONUNASSIGNEDPENETRATION600VFOHER(H)VENDORHAHECCNAXCORPCOHAXCORPPEHETRATIOHUhSIGNEDPENETRPOHERCONT4INSTR(H)CONAXCORPSPECZONE~ZI%REFE021PPC261641HE021PFC261649HE021PPC261649HE021PPC261649HEOZlPPC261649HE021PPC261649HE021PPC261649HE021PPC261641HE021PPC261644HE021PPC261649HE021PPC261649HE021PPC261641HE021PPCZ15121HEOZIPPC215121HOFCODOPTA PAGE,6EGUIPHENTIDZCtS<<CAB)OAZCHS<<CAB)08ZCHS4ALT))A+2CHS>>LTl)BLUCIS>>LT9A+CCIIS<<LT98ZDS>>Phl.66AZCHS>>PtiL668+ZCPS<<PT)A+ZCHS>>PT)B+ZCHS<<PT2A+ZCVSvPTc.B+ZCt!S>>PT7A+ZVS<<PT782CHS<<SOVZ3AZCES>>SOV238ZCHS<<SOV23C2CHS<<SOV23DZCtlS>>SOV23EZCHS<<SOV23F+ZCtS<<SOV24A+ZCt!SvSOV248+2CHS<<SOV24C+2CtS<<SOV240'2CtS>>SOVZSAZCHS<<SOVZ58ZCIS<<SOV25CZCtS>>SOV25D+2CHS>>SOV26A+ZCHSvSOV268+-ZCKS>>SOV26D+ZCltS>>SOV32A+2CVS<<SOV3ZB+2CHS>>SOV33A+ZCHS>>SOV338+'ZCHS<<SOV34A+ZCt!S>>SOV348+ZCHSvSOV35A+2CI!S>>SOV358+ZCHS>>SOV60A+2CVIS>>SOV608+.ZCHS>>SOV6)A+ZCHS>>SOV618+'c.CtIS>>SOV62A+2CHS<<SOV628+iZCIS>>SCV63A+2CIS>>SOV638DESCRIPTIONCONTIITATHLEAKAGERADNCONTIITATtlLEAKAGERADNSUPPRESSIONPOOLLEVELSUPPRESSIONPOOLLEVELSUPPRESSICNPOOLLEVELSUPPRESSIO'IPOOILEVELH.ZANALYZERPNLAH.2ANALYZERPNL8COi'ITAINIIENTDRYHELLPRESSCO'iiTAINIIENTDRYIIELLPRESSCONTAINHEtlTDRYHELLPRESSCONTAINHEiNTDRYHELLPRESSSUPPRESSIONCHAISERPRESSSUPPRESSIONCHAHBERPRESSDRYHELLAIRSAIPLEDRYHELLAIRSAHPLEDRYilKLLAIRSAtPLEDRYHELLAIRSAtPLECRYHELLAIRSAIPLEDRYHELLAIRSAIPLEDHAIRCIPLINBDISOLCHAIRSIPLIhoDISCLDHAIRSIPLOUTBDISOLDHAIRSIPLOUTBDISOLSUPPCHt!8AIRSAIPLESUPPCHISAIRSAtPLESUPPCHHBAIRSAtPLESUPPCHHBAIRSAtPLESUPPCHt!8AIRStPLINBDZSOSI!PPCHIIBAIRSVIPLZNBDISOSUPPCHHBAIRSHPLOUTBDISODRYIIELLSIPLRTNOUTBDISOLDRYHELL<SIPLRTNCUTBDZSOLDRYHELLtSIPLRTNINBDISOLDRYKELIStPLRTHINBDZSOLSUPPCHHBStPLRTNIhBDISOLSUPPCHI!8SV<PLRTNIhBDISCLSUPPCHIIBSIPLRTNOUTBDISOLSUPPCHISSIPLRTNZNBDISOLDHRADNCUTBDZt>>ETISOLDHRADNCUTDDINLETZSOLDHRADNINBDINLETZSOLDHRADNZNSDINLETISOLDHRADNOUTBDOlfii.ETISOLDHRADNOUTBDOUTLETISOLDHRADNINBDOUTLETISCLDHRADNINBDOUTLETISOI.VENDORNAHKKAV~cINSTH~!ANINSTHROSEHOUNTROSEViCUiNTROSEHOUNTROSEROUNTCOtlSZPINC.CC'SIPIKC.ROSEt!CUNTROSEHCUNTROSEttOUNTROSEHOUiiTROSEt!0JNTTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETRCCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETRCCKCORPTARGETROCHCORPTARGETROCKCORPTARGKTROCKCCRPTARGETRCCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETRCCKCORPTARGETROCKCORPTARGETROCKCORPTA'RGETRCCKCCRPTARGETROCRCORPTARGETROCKCORoTARGETROCRCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCCRPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPC071HC07)HC07)HC07)HC001CC001CC07)HC07)HC071HC071HC071HC07)HP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XP304XSC)75102SC)75105SC175102SC)75102ABN24033ABS24036SC289155SC269155SC261145SCZ61145SC240135SC261145PC289680PC289681PC4289680PC289680PC289680PC289660PC28968)PC269681SC289155SC289155PCZ)5121PC21512)PCZ)5121PC215121PC215121PCZ)5121SC215122SC261145SC261145PCZ61644PC261649PCZ)5121PCZ)512)SC215122P304XSC215122P304XSC289155P304XSC306175P304XPC306713P304XP304XP304XP304XP304XPC306713SC289155SC261145PC261644PC261649SPECZONEPZB)FSC289155P28)FSC289155ZITREFHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH.HHHHHHHHHHOPCODAAAAAAAAAAAAAAAAAAACPT10010010010010010010010010010010010010010010010010010010010010010010010010066666666DAYDAYOAYDAYDAYOAYDAYDAYDAYDAYDAYDAYDAYDAYDAYDAYDYSDYSDYSDYSDYSDYSDYSDYSDYSHRSHRSHRSHRSHRSHRSHRSHRS+=RegulatoryGuide1.97.
PAGE7EWJIPIIEHTXDZCIISvSCV64AZCHSKSOV648ZCIIS<<SQV65AZCHS<cSGV74AZCIIS<'SQV74BZCI!S<SOV7SAZCllS<<SGV75BZCI!SccSQV76AZCIIS<'SOV76BZCHS<cSOV77AZCIIS<<SOV778+ZCIISccTE102+c.CftS<'<TE103+~>>CIISccTE104+ZCIIS<cTE105+>>".Cf!SxTE106+ZC!IS<<TE107+'ZCISccTE108+>>.CtIS<tTE109+ZCIS<<TEXI6+>>iCIIS<cTE117+ZCtlS>TE118+ZCIISsTE119+ZCHS<tTE120+ZCIIS<<TE121+CCHS<TE122+>>>>CtIS<<TE123+ZCHS<cTE124ZCIIS<<TESOAZCIIS<<TESOBZCIIS<fTESOCZCIIS)cTESODZCIISccTE51AZCtIS<<TE51B2CIIS<<TESXCZCIISc<TE510ZCIIS<<TESZAZCt$<TESZBZCHSv<TESZCZCHS<cTESZDZCIIS<TE53AcCtIS<<TE530c,CIIS<cTE53CC,CI!S<ETE53DZCIIS>lTE54AZCIIS<TE54BZCHS<cTE54C2CMS*TE101DESCRXPTXCHHc/0?ANALYZERXNXSOLHZ/02ANALYZERXHLXSOLHZ/02ANALYZEROUTXSGLPASSAIIPLEALOOPPASSAHPLE-0LOOPPASSAIIPLE-ALCQPPASSAtFLE-BLCQPFOSTLOCASA!!PLSUCTISCLVPOSTLOCASAH!<PLSUCTXSQLVPCSTLOCAS'I!PLRTHISCLVPOSTLOCASAHPLPTNXSCLVDRYKELLAREATEIIPDRYItELLAREATEtfPDRYHELLAREATEIIPDRYhELLAREATEI!?DRYhELLAREATEt!PSUPPCHAt!BERAREATEf!PSUPPCHA't!BERAREATEt!PSUPPCHAi'!BERAREATEt!PDRYHELLARc":ATEt!PDRYHELLAREATEI!PDRYhELLA'QEATEt!PDRYflELLAREATEIIPDRYHELLAREATEILDRYhELLAQEATEt!PSUPPCHAI!BERAREATEf!PSU?PCHANGERAREATEKPSUPPCHA!!BERAREATEI!PSUPPRPOCLHATERTEIIPSUFPP.POOLHATERTEt!PSUPPRPOOLhATERTI!PSUPPRPOOLltATERTBIPSUFPRPCQLhATERTEIPSUPPRPQQLHATERTEfPSUPPRPCCL!INTERTBIPSUPFRPCCLHATERTEI!FSUrPRFCQLHATERTB!PSUPFRPOOLNATc:RTEIPSUPPRFCQLHATERTEILSbrPRPOCLHATERTEIIPS<JPPPCCLhATERTEI!PSUPPPCCLHATERTEI!PSUPPPCQLHATERTEILoSUPPPOCLHATERTEI!PSUPPPCQ'ATERTEHPSL<rPPPOOLfiATERTEI!PSUPPPCLHATERTEHPDRYWELLAREATEMPTARGETTARGETTAPGE<TAr<GETTARGETTARGETTARGETTARGETTARGETTARGETTARGETPYCOPYCOPYCOPYCOPYCOPYCQPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYiCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOFYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYiOPYCOROCKCCRPROCKCCRPROCKCORPRGKROCKROCKROCKROCKROCKPOCKRi>>CKVENDORNAKESPECP304XP304XP304XP304nP304XP304XP304XP304XP304XP304XP304XCO41DC041DCC410C041DC041DC0410C041DC0410C0410C041DC041DC0410C0410C0410C041DC0410C041DC0410C0410CO41DC041DCO>>10C0410CO>>0C0410CO410C0410C041DC0410C041DCC410CO/10C0410,C0410C0410C0410C041DZONEABttc.403'3ABSc.>>036ADNZ4033SC240135SC245135SC"40135SC2>>0135SCZ40135SC240135SC240135SC"40135PC<289681PCZ51641PC261649PC250619PCc.40612SC215122PC215121PC215121PC306713PC269681PC261649PCZ61638PC250625FCZ>>0603SCc.1512?PC21511PC215121SC196113SC195113SC196113SC196113SC196113SC196113SC196113SC196113SC195113SC196113SC196113SC196113SC195116SC196116SC195116SC195116SC195116SC196116SC196116PC3067ZIHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH13HI!REFOPCODAAAAAAAAAAACPT1000YS100DYS100DYS100DYS100DYS100DYS100DYS+=REGULATORYGUIDE1.97.
PAGE8EQ)Ict.ENTXDZCt!StTK5%0ZC2iSxTE55AZCI!Si'TE5cBZCI!Si'TESSCZCISiiTE559ZC"cvTK"5AZCtISi'TE55BZCI!S>TE56CZCIISvTE5602CtIS>TE57AZCIISwTE57BZC!ISwTE57Ci.CtIS)sTE570ZCIIStTE58AZCIIS<TE58BZCIISiiTE58ZCIIS~TE589ZCIIS<TE59AZCIIS~TK599ZCI!SiiTES9CZCIISaTE590+ZCHS~TE67A+ZCI!SwTE67B+ettlS<TE68A+ZCtlSiTK58B+ZCIIS<TK59A+ZCIISiiTE69B+<<CtIS+TE70A+ZCHSwTE70BDESCRIPTIOHSUPPFOCLHATERTEtPS'L'PPFQQLHATERTFIPSUPPPQQLhATERTEiPS"i"PPOQ'ATERTEtPSUPPFOOLHATcRTEt!PSUPPPCQLHATERTEI!PSUPPPQQLhATERTctPSU"PFQCLHATERTEIPSU?PPQQLHATERTEt!PSL'FPFQCLV!ATERTEiSUPPFQQLHATERTEIPSU?i".PQLH"TERTEIPSUPPPCQLHATERTEIPSUPPPGQLHATERTE!PSUPPPOOLI;ATERTEIPSUPPPOQLHATERTEtPSucPPQCLhATERTEIPSUF?PQQLHATERTEtPSUPPPGQ'LHATERTEtPSUPPPQQ'ATERTEtPSUrPPQQLHATEiRTEt!PSUPPFQCLIIATERTEIIPSUPPPCQLHATERTEtPSUPPFQQLHATKRTEtPSUPPPQQLIIATERTEIPSUPPPQQLHATERTEIPSUPPPGQLVATERTEtPSUPPPOOLHATFRTE'IPSUPPPQQLHATERTEIIPVEHDQRHAH"PYCOPYCOPYCOPYCOFYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPCQPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCOPYCQPYCOPYCOSAECCOR10COQIDCO%10CO%10CO:I10CO%IDC0410CO%IDC0F10C0410CO%IDCO%10COi10CO%10C3010CO%10CceioCO%IDCO%10CO%10CO%IDC0019CO%IDCO~IDC0410CO%IDC040CO%19CO%10ZONK5C195116SCI96116SC196116SC195116SC196116SC196116SC196116SC195116SC196116SC196116SC195116SC196116SC196116SC196113SC195113SC196113SC196113SC195113SC196113SC196113SC196113PC215121PC215121PC215121FC215121PC215121PCZ15121SC215122SC215122ZiTREFHHHHHHHHHHHHHNHHHHHtlHHHHiHHH0?CODQPT+=RegulatoryGuide1,97, PAGE9EQUIP))EHTZO2CPSVAOV104ZCPSvAOV105+ZCPS>AOV106+ZCPSiikV107+ZCPS))AOV108+ZCPSi!AOVX09+ZCPSi!ACV110+ZCPSgAOV111+ZCPS>SOV119+ZCPS>SQV120+.ZCPci!SCV121+'ZCi"SxSCVIZZDESCRZPTZCH2CPS-FHlDHIhl.CUTBDVZC?S-FHZSUPPRXNLOUTGOVZCPS-FN1GHX!HLZhSOVZCPS-FN1SUPPRXhlXNSDVDRYHELLEYiHXHBDXSC'SUFPREXHXh=DZSQLVDRYHELLEXHOUTEDISOLVSJPPREXHCJTBDISQLVSUPPRXiPCUTBDISGLVDRYhELLIhiCiJTB'DISO!VSUPPRI)FXh=DXSGLVDRYHELLINLNSDXSOLVVENDORH!THEPOSI-SEALIHTFR.FOSX-SEALXNTERPOSI-SFi".LIHTER.FCSI-SEALZiNTER.POSZ-SEALINTER.POSZ-SEALXHT.PCSZ-SEALINTERPOSI-SEALINTER.TARGETROCKCCRPTk'RGETROCKCORPTARG<<TRCCKCORPTARGETROKCORPSPECP304DP304DP3045P304DF304DP3C4DP304DP304OP304XP304XP304XF304XZONSC269155SC215125PC269681PC215121PCZ89681PC215121SC289155SC21512ZSC2151!22SC289155FCZ15121PC289681ZXTREFHHHHHHHHHHHHCFCOOGPT88888888AAAA+=RegulatoryGuide1.97.
PAGE10EQUIPtlENTID+'ZCSttvAQV108CCSHwttCVICOQCSH<ttDESCRIPTIOit"CSH-PIDISCHTESTCHECKREACTORVESSELtlAltDCONTROLHFCSSYSPRESSL'REtlOTORVEtiDCRNAKEAhCHORr'DARLINGVELANGOULDSPUttPSINC.'P303HP300EPAPC306718PC306711SC175108SPECZOtlEZITREFOPCODOPTAAA+=RegulatoryGuide1.97.
PAGEllEQUXP!!ENTXD2CSLNFVXXQ+2CiLw"GV~OQ2CSLAiHGV107+CCSL+HGV112+2CSLA'AOV101DESCRXPTXGNCGRESPRAYPU."9TESTBYPASSLPCSXNJECTXGNVALVEGATEVALVELPCSPiNPSUCTVALVEINBDTESTABLECHECKVALVEVENDORNAHECGPES-VULCANVLANVELANCLGHCORPANCHOR/DA>T.INGSPECZONEZXC051HSC17503HP30iRSC289155HP304RABN17503HP3CQYSC196110HP303WPC306711HTREFAAAA100OYS100DYS100OYS100DYSGPCGDGPT+=RegulatoryGuide1.97.
PAGE12EQUXPttENTXDZDER<ttOV119ZDERwttOV120ZDER~ttOV128c.DERE!tOV129ZOER+ttOV130ZDERxttOV131DESCRXPTXONGATEVALVEGATEVALVEGLOBEVALVEGLOBEVALVEGLOBcVALVEGLOBEVALVEVENDORNAttEVELANVELANUELANVELANVELANVELANSPECP304SP30QSP304RP300RP30RSP304SZONEPCZ15121SC215125PC2%0606PC200506PC&0603S"2003.35ZX%REFHHHHHHOPCODAABBAAOPT6HRS6HRSN/AN/A6HRS6HRS PAGE13E'tttIPtitT102DFR>LS1432QFRvLS1442DFR>LS1452DFRvLS14620FRtLS14720FRMLS1482DFR<<LS3A2DFR>HQV120+2QFRattQV1212DFRxttQV139+2DFRxtlQV140DESCRIPTXONRHS8PtPRHFLDHTRLVLRHSCPttPRi'tFLOHTRLVLICSPttPRHiFLDHTRLVLCSHPt'.PRHFLDHTRLVLCSLPi't?RttFLOHTRLVLRHSAPHPRilFLDHTRLVL2RHSx51ACUBECLEFLOQDEOGATE'VALVEGATEVALVEGATEVALVEGATEVALVEVEtFQORNAttEHAGNETROLVAGttTRQLttAGNETRQt.ttAGNETRCLHAGNETt'OLHAGNETROLttAGNETRQLVELANVELAN'VELANVELANSPECC021LC021LC021LC02LC021LC021LC021LP304SP304SP304SP304SZONEABS17509ABS17508SC175106SC175108AB."t17503ABN17504ABN17505SC215123PC215121SCC't037PC240601ZZTREFHHHHHHHHHHHOPCODOPTAAAA+=RegulatoryGuide1.97.
PAGE10EQUIPHKNTID2DNStkKCAI2DMS+ttCCBIDESCRIPTION125li~aCViCCRBELEV.200125VDCHCCRBELEV.206VENDORNA!'iEGOtPDoINC.GOVLDSPECZONKZI'QRKFEDISONABNZ0033HEOIMABS20036HOPCODOPT PAGE15EQJIPHEHTID2EHStHCC102ZEHSditCC302DESCRIPTIOHST~~KOBYHCCCLASSlEEHERGHiCCVEHDCRHAHEGOLR.DGOULDSPECZOHEZIQREFE015QA""HZ%033HE015QABS20036HOPCODOPT PAGE16EQUIPHEtiTZDDESCRIPTZOHVFHDORHAIIESPECZOHEZZQREFOPCODOPTZEJANPHLIOOAZEJA<PtiL3005ZEJAxXDIOOAZEJA<XD3005RB120VHEATERPhLRB120VHEATERPHLDISTXFHR600V-ZOOY/1ZOVDZSTXFHR600V-ZOSY/120VBROHHBOVERIBRONHBOVERZSQUAREIDisSQUAREDE01RTABHZR033EOlRTABSZR036KE011TABHZR033HE011TABSZR036H PAGE17EQUIPHENTIDDESCRIPTIOi'lVEiNDCRNAHeSPECZONEZITREF~OPCODOPTZEJS>PNLIOIAZEJSwPiV103AZEJSxPNL104ASHSRRHAEHER600VPhl.AB-NEHER600VPhLAB-NtHER600VPNLZEJSvPh"303BZEJSxPNL304BAB-SEHER600VPNLAB-SEllKR600VPNLZEJSxPNL302BAB-SEHER600VPNLBRO!iNBOVERIBRCHNBOVFRIBROHilBOVERIBROh.lBOVERIBRO!iNBOVFRIBROhlGQVERIE014TABN24033E014TAGN24033HE014TABN24033HE014TABSZ4036HE014TABS24036HE014TABS24036H PAGs18EQUIPNENTIDZEPSvSH8001ZEPSvSHG002ZEPSwSHG003ZEPSwSHG004DESCRIPTIOil13.6HVEllERGSHG00113.6HVENERGShS00213.6HVEHFRGSHG00313.6HVEllERGShG004VENDORNAHEGOULDBROHNBOVEGOL"0BROHNBOVEGOULDBROHNBOVEGCULDBROSBOVESPCE015NE015NE015NE015NZOilEABN24033ON~4033ABS24036ABS24036ZIQREFHHHHOPCODOPT PAGE19EQUIPHENTID+ZFFHwSOV218+a.rPi4SQV19+RFPH<SOV220+ZFPKwSOV221DESCRIPTIONZRCS-PlAFIREPROTHTRCONTZRCS-P1AFIREPROTHTRCONT2RCS-P18FIREPROTHTRCONTZRCS-P18FIREPROTHTRCONTVENDORVMlETARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPSPECP30QXP30QXP30QXP30QXZONESC200135PC250625SC200135PC250619ZITREFHHHHOPCODOPT888+=RegulatoryGuide1.97.
PAGE20EGUIcVENTID+ZFHSiiAQV23A+ZfttS+AQV23B+ZFHSmtlQVZIA+ZFHSitlOVZIBDESCRIPTIONFEEOHATERTESTABLECHECKFFEDitATERTESTABLECHECKGATEVALVEGATEVALVEVEhDCRNAPEAh~NOR/DARLINGANCHOR/DARLIitBVELANVELANSPECP303HP303HP30CRP30~RZONEt(ST20005t!STZR045ttST24005HSTZQ005ZITREFHHHHQPCODQPTA006HRSA006HRSA006HRSA006HRSeguatoryGuide1.97.
PAGE21t(tUEPt!ENTIDZGTS((AOVIOIZGTS((CHIAZGTS((CH19c.GTSxDl!P1AZGTS((Ct!PXB2GTSRDt!P2AZGTS+Oit!PZBZGTS((FHZAZGTS((FNZBZGTS('t!GVIAZGTS((t!OVIDZGTS((t!GVZAZGTS('3!OVZBZGTS((lfOVZBAZGTS(3!GV2892STS((t!QV3AZGTSot!OV39ZGTSwt!CV4ZGTS((HOV49ZSTS((PDITZIAZS(S((PDITZZBZGTS((PV5AZGTS>PV59ZGTS+SGVI02ZGTS~TEX26AZSTS((TEX269ZGTS((TEY26AZGTS((TEY269ZSTS((TZS3AZGTS((TIS239ZGTS>XDIAZGTS<XO19DESCRIPTIONPRIlARYCONTPURGEISCLVFILTERTRAXHAHEATERFILTeRTRAXH9HEATERTCRNADODCIPER-SSTSBLDSTORNADODAt!PER-SSTSBLDGTORNADODAttPER-SSTSBLOSTORNADODAt!PER-SSTSBLDGwFLTXADISCHARGEFAN((FLTZBDISCHARGEFA",lBUTTERFLYORTRICEHTRXCVA'EBUTTERFLYGRTRXCEHTRZCVALVEBUTTERFLYCRTPyCet!TRICVA(VBUTTERFLYORTRICENTRICVALVECROSS-BLEEDLVLVCROSS-BLEEDLVLVBUTTERFLYORTRICENTRICVALVEB(JTTERFLYCRTRICE'iTRICVALVEGATEVALVEGATEVALVEZSTS((FLTlADIFFPRESSZGTS((FLT19DIFFPRESSRXBLDGIN/GUTDIFFPRESSRXBLDGIH('OUTDIFFPRFSSPRXttARYCONTPURGEISOLVFLTRTRAINHTRIHLETTEt!PFLTRTRAINHTRINLETTit!PFLTRTRAXNHTRCUTLETTEt!PFLTRTRAINHTRCUTLETTEHPCHARCCALADSCRBTet!PHCHARCOALADSORBTEt!PHXFHR600-480VXFHR600V-480VVENDORHAKEPOSX-SEALIHT.tliNESAeETYAPPLHit!ESA.FTYAPPLPACIFICAIRPRODPACIFICAZRPRCOPACXFICAIRPRODPACIFICAZRPRODBUFFALOFORGEBUFFALOFORGECLCHCORPCLOHCCRPCLGHCGPPCI.OHCORPCLO!lCORPCLC!iCORPCLOtlCORPCLOHCCRPVELAHVELANtlIHESAFETYAPPLHIHeSAFETYAPPLCLCHCORPCLCHCORPTARGETROCKCORPHINESAFETYAPPLtlI&#xb9;SAFETYAPPLHXNESAFETYAPPLt!XNESAFETYAPPLNINESAFETYAPPLllltiESAFETYAPFLHIHESAFETYAPPLllINESAFETYAPPLSPECP304DP243UP243UP413TP413TP413TP413TP413SF413SP304YP304YP304YP304YP304YP304YP304YP304YP304RP304RP243UP243UP304YP304YP30(tXP243UP243UPZ43UP243UP243UP243UPZ43UPZ43UZONESC306181SSZ61355SG261355SGZ61356SG26135550261355SS261355SS261355SG261355SC306181SC306181SS"61355SGc.613o5SS261355SS261355SS261355SS261355SG261356SG261355SG261356SS261355SS261355SS261355SC306181SG261356SS261355SG261356SG261355SG261355SS2613o5SGc.61356SS261355Zlt!REFHHHHHHHHHHHHHHHHHHHHHOPCODCAAB999AAAAAAAAAAAAAAAACAAAAAAAAGPT PAGEZZEt)UIP))EHTXDZHCSiiIPhLZZAZHCSsXPiV228+ZHCSit!QVlA+ZHCSxt!CV18+ZHCS+!!QVZA+ZHCSxt)OVZB+2)lCSiit!QV3A+ZHCSiit)QV38+ZHCSxt)OV4A+ZHCSw?IQVCB+ZPCSiit'QV>A+ZHCS~)!OV58+"HCSii)iQVi6+ZHCSx"QV68ZHCS+RBNRIA2HCS>RB))R18ZHCSiiSGVIOA2?iCSwSGV103ZHCS+SQVIIA?HCSxSOV118DESCRIPTZONHZRECOi)!8PHRCABH2RECCi?BIiNERCABRBihRlAOUTLETCUTBDZSOLRBNRlAOUTLETOUTBDISOLRBNR1AXhLETOUTLBDXSCLRBNRlAIhLETCUTLBDISCLRBNR1AXh>>ETGUTLBDISCLRBiiR18Zti"ETOUTLBDXSOLRBhRlAOUTLETXt)30ZSCLRBNR18CiJTLETZNBDXSQLRBN1AINLETXNSDISGLRBN18INLFTINBDISQLRBt)lAZN'TIHSDZSCLRBN18IiNLETINSDXSQLHYCRGGEHRECCHBlAHYDRCGEHRECO!iiB18RBNR1ACLGHTRIhLETRBNR18CLGl<TRXNLETRBNR1ACLGHTRDRAINRBNR18CLGHTRDRAINVENDORNA'))EATCi)ICINT.H2RECO!!3F)iRCABHZRECO)!3FhRCABRBNR1AOTLTOTBDXSCRBNRIAZh"TOTBQISOH2RECCH3P))RCABHZRECO)tBPhRCABHZRECOHBPHRCABVELAHVELA?)HZRECOHBPhRCABHZRECC!!3PHRCAB.HZRECC!!3Pi!RCABHZRECOH3FNRCABHZRFCO'i!8PHRCABH2RECCHBPi)RCABTARGETRGCHCCRPTARGETROCKCGRPTARGETROCHCORPTARGETROCKCORPSPECP28ZHP282HP304SP30>>>>SP30>>SP30>>SF3045P30>>SP300SP30>>SP30>>>>SP30QSP30>>SP30>>SPZBZHP28i.HP30>>XP30>>>>XP30>>XF30%XZCiKcAB))20033ABSZQ036SC215123SCZI5132SC215122SC215122SC240140SCZQ0103PC215121PC215121FC215121PC215121PC250621PC250629SCZQ0135SCZQ0135SC?))0135SCZ>>0135SCZQ0135SC240135ZlOREFHHHHHHHHHHHHHHHHHHHHOPCODOPTAAAAAAAAAAA1AA1AAAAA+=RegulatoryGuide1.97.
PAGE23EOUIPHENTID+<<ZHVR<<AODIA+ZHVR<<AODIB+<<ZHVR<<AODIOA+<<ZtiVR<<cAODIOBZHVR<<AGD114ZHVR<<r<<ODZOQ2H'VR<<AOD3QA<<.HVR<<iAGD3QB+rZHVR<<AGD5A+2HVR<<AGD58+wHVR<<AGD9A+<HVR<<AGD982HVR<<CAB14AZHVR<<CABIQBZtfVR<<Cr'832A2HVR<<CAB328ZHVR<<FE18AczifVR<<Fe188ZHVR<<FEISC2HVR<<FESDZHVrc<<cFE36AZHVR<<FF368<<.HVR<<eE37AZHVR<<FE3782HVR<<SGV235ZHVR<<TISI15ZHVQ<<TIS16A2HVR<<TXS1682Hl/R<<TIS19A?HVR<<TIS198<<HVQ<<TXS22AZHcVR<<TISZc.Bc.HVR<<TXS23A<<.ii'VR<<TISc2382fiVR<<TXS23C2HVR<<TXS3DZHVR<<TXS23EZHVR<<TISc23F2H'VR<<TISZQA2HVR<<TXS<<.QB2HVR<<TXSZ5AZHVR<<TXSZDDZtlVR<<TIS25CZHVR<<TIS258?hVR<<iTIS?6A2HVR<<TXS258ZHVR<<TXS25CDESCRIPTIONSUPPLYAIRISOLDtPRSUPPLYAIRISOLDtPREXHAXRISGLDtPREXHAXRISOLDHPRRCXRCAIROIPP.-RXBLDGRFACHOEVACFLT3DISCHDiPR<<UCQ13ATESTOtPRUC4138TESTDtPR<<UC413AXhiLETOFPR<<UC4138ItiLETCtPREXHAIRZSOLDtPREXHAIRZSOLD!PRRXBLDGABVREFUELFLFAONRXBLDGADVREFUELFLFADNRXBLDGBLHREFUELFLRAONRXBLDGBLHREeFUeLFLRADNRXBLDGEt!KRGRKCXRCUC413ARXBLDGKt!KQGRECXRCUC4138RXBLDGEHKRGRECIQCUC413ARXSLOGEt!KRGRKCXRCU4138ABVREFUELFLAIRFLOHABVREFUELFLAIRFLONBLHREFUEL'FLAIRFLOHBLHREFUELFLAXRFLO'riGLOVEVALVERHRHTE.cR'f8<<UC406KLKCtf"CARKAUCQ09AeLEClrCCAReAU4098ELECH"CAREA<<UCQOSAELECHCCAREA<<UCQOSBLPCSPPRtf<<UCQOZALPCSPPRH<<UC'f628RHRPPRtfAfcUCQOIARHRPPRHC<<UCQOIBPHRPPRt'I8<<UC>>OICRHRPPPt'lA<<UCQOIDRhPPPR"fC<<UCQOleRHRPPRfl8<<UC>>OIFHPCSPPRH<<UCQ03AHPCSPPRtf<<UC4038GENAREAEL175<<UCQOQAGEhAREAEL175<<UCQOQBGENAREAEL175<<UCQOQCGENAREA.EL175<<UCQOQDGENAREAEL215<<UC407AGENAREAELZ15<<UC4078GENAREAEL?15<<UC407CVeNDORN"'tfPACIFICAIRPACIFICAXRP"CXFXCAXRPACIFICAIRPACIFICAXRPACXFXCAIRPACXFICAXRPACIFICAXRPACIFICAXRPACIFICAIRPACXFICAXRPACIFICAIRHCCFOifERSHCCPOrfKiQSHCCPOHRSt!CCPOHERSHCCPCHKRSk!CCPCHKRSt!CCPOriE'RSl!CCPGHFRSTARGETROCKt!CCPOHKRSt'CCPOci'eRSt!CCPOiiERSHCCPCrieRSHCCFOHERSt!CCPOciKRSttCCPO!iKRSl!CCPGHERSHCCPGHERSHCCF""eRSHCCPC!tERSlfCCPC!fERSHCCPGHEQSHCCPCHERSHCCPCKKPSl!CCFOHKRSlfCFCciERSHCCPGHKRSHCCPCHEPSHcCCPOHKRSHCCPGiiKQSffCCPOHKRSPRODPRODPRODPRODPDFROGPRODPRODPRODPRODPRODPRODSPECPQI3TPQ13TPQ13TPQ13TPQ13TPQ13TP>>13TPQ13TPQ13TPQ13TFQ13TPQ157P<<.SIPc.SIFPZSIFP28IFC071AC071AC071AC071AC071AC671A'C071AC071AP3OQXC071AC071AC071AC071AC071AC071AC071AC071AC071AC071AC071AC671AC071AC071AC071AC071AC071AC071AC071AC071AC071AC071ASC289155SC289155SC289155SC209155SC306175SC289155SCc.89155SCZS9155SC289155SCZ89155SC289155SCZS9155SC328187SCGZ8187SC3281S7SC328187SCc.89155SCZ89155SC289155SC289155SC353ZOZSC353c202SC289155SCZ89155SCZ89155ABS19620ABSZ>>036ABSZQ035AEN24633ABNZ>>033AB!f17503ADN17503ABN17504ABSI7508ABS17509ADftl7504ABS17508r<<BSI7509SC196115SC196116SC195116SC196113SC196113C'96'15SC215122SC215122SC215122HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHPQ13T.02P413T.02P413T.02P413T.03P413T.OlPQ13T.01PQ13T.02PQIGT.02PQ13T.02P413T.02HHHHHHHHHZZfcREFHPQ13T.02OPCODOPT8888CC888888+=RegulatoryGuide1.97.
PAGE24EQUIP!!ENTZDZHVrRcvTXS259ZHVRxTXS~6cZHVR+TS27AZHVR+TXS228ZHVR+TZSZ7CZHavaR>TIS20AZHVRviTXSZSBZt!VR>TXSZOCZHVRaaTIS30AZHVR>TES303ZHVRxTXS3)AZHVR>TIS3)BZIIVR>>TZS35AZHVRaTIS353ZHVR>TIS3SAZHVRaaTZS30SZHVRaaaJC40)AZHVRxUC40)BZHVRaaUC40)CZHVR+UC40)OZHVR>aJC40)EZHVR+aJC40)FZHaac'aaUC402AZHVRNUC4023ZHVRvUC403Ac.HVR>>UC40'3ZHVRanJC404AZHIV~UC4048ZHVR~UC404CZHVR~UC4040ZHVRmUC405ZHV4aaUC405ZHVR+Ua.407AZHVRwUC4023ZHVR>U407CZHVrRaaUC4070ZHVR<UC407EZHVQ+UaC408AZHVR+UC4003ZHVR~aJC409AZHVrRa+UC4098ZHVRviUC4)OAZHVRtUC4)03HVQaaU"4)DCrHVRxUC4))AZHVR>UC4))S~ZHVRNUC4))CDESCRIPTIONGENAREAELZ)5xUC407DGiiARcAEL215%UC402EGENAREAEL240IaUC4)DAGEiia"'REAEI.240ViUC4)GSGNAREAEL?40xUC4)OCGEHAQEAEL261>UC4))AGENAREAEL251wUC4))8GEIIAREAEL261NLaC4~)CGENARFAEL261wLaC4)ZAGEiiAREAEL261taUC4)28UC413AINLETTEIPU41'33ihLETTFI!PGENAREAEL26)+aJC4)4AGsHAREAELZ6)taUC4)48GTSRHA~UC4)+AGTSRi'IAaaUC4)53RHRPU!PRiHA-UNZTCLRRHRPUlPRtlC-UNITCLRRHRPU!iPRH8-UtiITCLRRHRPUHPRtlA-UiNITCLRRHRPU!!?RtlC-UNITCLRRHRPPi!PRtlS-LiNiITCLRLPCSFU!PRtlUaNIT-.CLRLPCSPUt!PRllUNITCLRHPCSPU!PRtlUiNITCLRHPCSPU!IPRHUNITCLRRSEL175GENAREAU'IXTCLRRSEL175GEHARcAUNITCLRRBEL175GENAREAUNITCLRRBEL175GENAREAUNZTCLRRHRHEATEXCHRHUNITCLRRHRHEATEXCHRIILriPiTCLRRBEL215GcNAREAUNITCLRRBELZ)5GENAREAUNITCLRRBEL215GcNAREAU!IXTCLRRBELZ)5GENAREAL'NITCLRRBEL215GENARcAUNETCLRELECataiCCAREALNITCLRELECHCCARcAU!IITCLRELECI!CCAREAUNITCLRELECHCCAREAUNETCLRRBEL240GENAREAUNITCLRRBEL240GENAREAU!IITCLRRBEL240GcNAREALiNITCLRRSELZ61GENAREAUiN'ITCLRRBSPACECOOLERELEV261RBSPACECOOLERELEV261VEh~~ORNAIIEI!CCFCHERcSHCCPO!aERSHCCPOHERSHCCPO'riERSl!CCFOHERSPCCPCriRSHCCFOHERSIl"CPOHERSHCCPOHERSHCCPOHERSI!CCPCHERSI!CCPOHERSt!CCPCHERSHCCPOHERStaCCPCHERSHCCPCNERSA!IERiC'NAIRA!IERECANAIRAIIERICAHAIRAIIERiCANAIRA!IERICANAIRAHERICANAIRAIIERICANAIRAl!ERICANAERAtlERICANAERA!!ERICANAIRAtlERICANAiRAIIERICANAXRAclcRXCANAXQAHERXCANAIRAl!FRXCANAXRAailERICANAIRAHERXCANAiRA!IERICANAIRAHERXCANAIRAIIERICANAIRAt!ERICANAIRAttcRXCANAIaQAt!ERICAiNAiRAl!EPICANAXRA"FRICANAXRAHERICANAIRAIIcRICANAERAHERICANAXRAHERiCAtiAiRAHERICAtiAXRAHERZCA'IAIRFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTFLTC07)AC07)AC071AC02)AC07)AC071AC07)AC07)AC071ACD71AC07)AC07)AC07)ACD7)AC071AC02)AP412tlP41?JlF412HP41211P412ttP4)ZHP412tlF41211P4)ZHP>>1~I!P4)~"IP>>12HP412HP4)c.HP4)ZIIP4)ZtlP41?tIP4)ZHP412itaaP4)ZHP4)ZHP41211F412IIP412HP412HiP41211F412!IP4)Z'IP4)cZt1F4)ZHP4)ZHSCZ)5122SCc)5122SC240135SC24C)35SC240135SC26))45SC261)45SC261145SC)75)C5SC)73106SCZ69155SC209155SCc.6)145SC261)45SGZ61355SGc.61355ASN)7504ABS)7500ABS)75D9ABN)7504ASS)7508ABS)7509ABN)7503ABN)7503SC)75)00SC)25~09SC)96116SC)96113SC)96113SC)96116ASN)9615ABS19620SCZ)5122CZ5122SCZ)5122SC215)ZZSCZ)5122ABN24033ABN24033ABS24036ASS24036SC24O)35SCZ40135SC240135SCc.61145SC261.145SC261145SPECZONEZXhHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHQREFOPCOOOPT888888888888888888888888888888 PAGE25EOUIPt'ENTIDZHVRKUC412AZHVRxUC41ZBZHVR<UC413AZHVR)UC413BZHVRwUC414AZHVRYiUC414BZHVRKUC415AZHVRwUC415BDESCRIPTXONRCICPUt!PRCOHUNITCLRRCXCPL".PROONUNITCLREHERGENCYRECIRCUNITCLREHEFGENCYRECXRCUNITCLREL261GENAREAUNITCLREL261GENARFAU.'tXTCLRSGSPACECOOLEREL261SGSPACECOOLERELZ61VEtiDORNAtlEAl!ERICANAIRFLTAl!ERICAtAIRFLTAHERICANAIRFLTAtlERICANAXRFLTAtFRICANAIRFLTAt!ERICANAIRFLTAHERXCANAIRFLTAHERXCANAXRFLTSPECPRIZHP412tlP4i2HP412alP41ZHP412tlP412.HP412tlZONESC175106SC175106SC289155SC289155SC"61145SC261145SG261356SG261355ZXCREFHHHHHltHHOPCODOPTBBAABBBB PAGE26EGUIPtlEHTXO+ZXAS'>>PT161+'ZZASIPT186+ZZASiiPT230+GXASNPT231+ZXAStiPT232+ZIASvPT233+ZIASwPT23Q+ZIASvPT235+ZIAS<PT236ZIAS+SOVX161ZIASYSOVX186ZZASxSOVY1812IASgSOVY186+ZIASxSOV16Q+ZXAStSOV165+ZZASiiSOV166+ZXASKSOV167+ZZASwSOV168+ZIAS<SOV160+ZIAS>>SOVISQ+ZXASNSOV185DESCRZPTXG:IADSHEADERAPRESSUREADSHEADER8P?ESSUREADSACCUIFJLATORTK32AOSACCIP.".c%.ATORTK33ADSACCUI>>i%.ATCRTK34ADSACCLQIULATORTK35ADSACCUtn%ATORTK36ADSACClnfL>>ATGRTK37ADSACCUllULATGRTK38ADSHEADERAPRESSUREADSHADeR8PRESSUREADSHEAOEQAPRESSUREADSHEADEP8PRESSU?EIiNSTRAIRCCNTtlTISOLVIhSTRAIRCONTHTZSGLVIhSTRAIRCCHTtiiTISCLVZhSTRAXRCGIITtlTISGLVIHSTQAIRCGiITIITZSGLVINSTRAIRCOhTHTZSOLVINSTRAZRCOHTIITZSOLVIHSTRAIRCONTHTISOLVVEhOGRHAKEROSE!IOliHiTROSHIOUNTROSEitlOUitiROSt'OWiTROSEtQUNTROSEHOUilTROSBIGUiHTROSEtlOUiiTRGSBIOUIITTARGETRCCKT'RGETROCKTARGETROCKCORPTAQGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETRCCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETRGCKCORPSPECC071HC07ltlC07'lC071tlC071HC071HC071HC071HC07tlP30QXP30QXP304XP30QXP30QXP30cIXP30QXP30QXP30QXP30QXP30QXP304XZONSC269155SC269155SCZS9155SCZS9155.SC269155SC306175SC306175SC306175SC306175SC289155SC289155SC269155SC289155SC289155SC289155SCc.S9155SCZQ0135SC289155PC289681PCc.89681PCZQ0603ZXGREFHHHHHHHHHHHHHHHHHHHHHAAAAAAAAAAAADYSDYSOYSDYSDYSDYSHONNOHIIOiHt.lG'IHGH0?CODGPT+=RegulatoryGuide1.97.
PAGE27EOUXPHEHTID+ZICS<AOV156+ZXCS<AQV157ZXCS<FVZOSZXCSiit!GV116ZICSvt:OVZZO+ZXCS+i'OV121+'ZICS>t(OVZZZZXCSit(QV124+ZXCS<t(GVX26+ZZCS<t!QVIZSZZCS>!!OV129+ZICSiit'OV136+ZZCS>t(OV143+ZICSiitlGV148+iZZCSiii!'OV1~64+ZICSwtlQV170ZZCSxPCV115DESCRIPTZGiNTESTABLECHKCHVTESTAD'Cr".ECKVTESTBYPTOChDSSTORTHRCICLUBEOXLHATERSUPPLYRCICSTEA!lSPLYVTOTURBINESTEA)(SPLYLXHEXSOLV(OUTBD)RCICTURBEXHTOSUPFRPOOLRCICTESTFCVTOCNDSSTORTK.RCICXNJFCTIONSHUTOFFVALVERCICSTSPLYLINKISOLVPU!!PSUCTFRG!lCNQSSTGRTANHPCICPtPSUCTFRCHSU.""PRPGGLRCICHINFLOHTOSUPPP.POOLRCICVACSRHRZSGLV(ZNBRD)RCZCVACBRHRXSCLV(OJTBRD)RCXCSTEAtlLINKHARtl-UPL(iBKOJLCLRPRESSCGiiTVVENDORNisi!EANCHORi'DARLINGAt(CHCRi'DARLINGCOPES-VULCAtiVELANV"LANVELANVELAHVELAHVELANVELA)iEhG.CO.V~LAttVELA!iVELANVKLAH'VELANVELANCOPESVPCAHSPECP303HP303HC051HP304RP304RP304RP304RP304RP304RP304R'P304RP304RP304'RP304SP304SP304RC05ltlZGhESC289155PC328185SC175106SC175)06SC175106SCZ61150'C196118SC175106SCZ89155PC261649ABNZ4031SC196117SC196117SC196118SC196118PC261649SC175106ZI()REFHHHHHHHHHHHHHHHHHOPCODAAAAAAAAAAAAAAAAAGPTlZHRS12HRS6HRS12HRS1ZHRS12hRS12HRS6HRS12HRS12HRS1ZHRS12Hi%512HRS12HRS12HRS12HRS12HRS+=RegulatoryGuide1.97.
PAGE28EQJIPHEHTIODESCRIPTIOHVENDORHAKESPECZGHEZIQREFOPCODOPT2ISxSOV119ZISC+SOV120ZvSCi'SOVIZZISCxSOV12%SOLEHOIOOrERATEDSOLEHOIOOPERATEDSOLENOIDOPERATEDSOLEHOIDOPERATEDVALVEVALVEGLODcVgl'VFGLOSEVALVETARGETROCKTARGETROCKTARGETROCKTARGETROCKP30QXP30QXP30QXP30ElxSC200135SC2151"2SCZ00135SC215122HHHHA100DYSA100DYS PAGE29EQUIPHEHTZD+2LHSi'SOV152+c.Li!StiSOV153+.2LHS<SOV156+ZLHSwSOV157DESCRIPTZOHDRYHELLPRESSIHBZSOLDRYhELLPRESSOUTZSOLSUPPCHUBPRESSIHSZSOLSUPPCHUBPRESSOUTISOLVEhDORHAKETARGETROCKCORPTARGETRCCKCORPTARGETROCKCORPTARGETROCKCORPSPECP30VCP30QXP30QXP30QXZOHEPC299699SC289155PC215121SC215130ZZTREFHHHHOPCODBBBBOPT6HRS6HP.S6HRS6HRS+=RegulatoryGuide1.97.
PAGE30EttUIPtlENTZD+ZHSS!HYV6A+ZtlSSt<HYV6B+2ltSSaHYV6C+2<KSS!<HYV65+Zl'iSS>HYV7A+2tlSS!<HYV78+ZtlSSvHYV7C+ZHSSxHYV70ZttSS!<!tQV108+ZttSS!ttOVlll+ZtlSS<<tlQV1122lfSSwtlOV118ZtlSS+ttDV119~ZtSSxtlOV189ZttSSKtlOV207+ZHSSxKO'JZ08ZHSS<!RVV190ZHSS>SOV97AZtSSxSO'J978ZtSS>SOV97C.ZttSS<SOV970DESCRZPTZONHNSTtlLINEAINBDISOLVHNSTHLINEBXHBDZSOLVtlNSTHLIHcCIt!BDXSOLVKHSTtlLIHE0INBDISOLVli<HST<tlLIhEAOUTGOtSIVt"tSTHLlhEBOUTBDllSIVHtlSTtlLINECOUTBDllSIVHNSTFILIiNE0OUTEDHSIVREACBESSELHEADVENTVttNSTEANDRNXHSDZSOLVttNSTEA!tORNCUTBDXSOLVR=ACBeSS"-LHEADVettTVREACBESSFLHEADVENTVXSOLCLGSTHLltlEORVZSB5tSIVDRHISCLVXSB5tSIVORhXSOLVREACTORHEADVENTRELIEFBTKHHSXVLXtlE5RVBTKiHlSIVLIHEDRVBThittlSIVLZNEDRVDTKi'ltlSIVLIHEORVVENDORHAHEFLUIDSYSTEHSFLUIDSYSTElSFLUIDSYSTEttSFLUIDSYSTEtSFLUIDSYSTEtSFLUIDSYSTEtlSFLUIDSYSTEHSFLUIDSYSTEtSVELAHVELANVELANVELAHVELANVELANVELAilVELANGPECONTROLSTARGeTROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETPOCKCORPSPECP3030P3030P3035P303DP3030P303DP3030P3030P304RP304RP304RP304RP304RP304RP304RP304RP3055P304XP304XP304XP304XZONEPC250519PC250619PCZ50619PC250619HST24045tlSTZ4045HST24045llSTZ4045PC306711PCZ40601HST24045PC306711PC306711PC261649PCZ40600HSTZ4045PC240600HS!24045HST24045HST24045HST24045ZI@REFHHHHHHHHHHHHHHHHHHHHHOPCCDAAAAAAAACAACCCCAOPT006HRS006HRS006HRS006HRS006HRS006HRSOC6HRS006HRS006HRS006HRS006HRS+=RegulatoryGuidel.97.
PAGE31UZPllENTID+2RCSiiSOV104+2RCStiSOV65A+ERCSiiSOV65B+2RCS>SOV66A+2RCSvSQV66B+2RCSwSOV67A+2RCSvSOV61B+2RCSKSOV58A+2RCS~SOV68B+2RCSiiSOV79A+2RCS>SOV79B+2RCSxSGV80A+2RCSttSOV80B+2RCSvSOV81A+2RCSxSOV81B+2RCSwSOV82A+2RCSvSOVSCB+2RCS*SOV105DESCRIPTION2RCS-PlAOZSCHStPZN30ISOLRCSHYDRLZNEISOLSOVRCSHYDRLINEISOLSOV-RCSHYDRLINEISOLSOVRCSHYDRLINEISGLSOVRCSHYDRLItiEZSOLSOVRCSHYDRLINEZSO'OVRCSHYDRLINEISCLSOVRCSHYDRLZiiEISGLSGURCSZNBDHYDLINEISOLSOVRCSIiNSDHYOLZNEISOLSOVRCSINBOHYOLINEISQLSOVRCSINBDHYDLINEZSCLSOVRCSINSOHYOLIiNEZSGLSOVRCSZhSDHYDLINEISQLSOVRCSINSDHYOLItiEISOLSOVRCSINBDHYDLINEZSOLSOV2RCS-PlADISCHSMPOUTBDISOLVENDORNAttETARGETROCKCORPTARGETROCKCORPTARGETRO"KCO."PTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGETROCKCORPTARGcTROCKTARGFTROCKTARGETRCCKTARGETROCKTARGETROCKTARGcTROCKTARGETROCKTARiETROCKTARGETROCKSPECP30>>XP304XP30>>XP30>>XP30>>XP304XP304XP304XP304XP304XP304XP30>>'XP304XP304XP304XP304XP304XP304ZZTREFHHHHHHHHHHHHHHHHH5HZOhEFC261641SC261145SC261145SCZ61145SC261145SC261145SC261145SC261145SC261145FC261644PCZ61649-FC261644PC261649PC261644FC261649PC251644PCZ61649XPC26164OFCCDAAAAAAAAAAAAAAAAAAOPT006HRS006HRS.006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS006HRS+=RegulatoryGuide1.97.
PAGE32E'WZPIIKNTZDZRHS<<AGV163ZRHSvAGV16C'2R!IS'AOV39AZRHS~AOV393ZRHS<<EcV5ZRHSiiFV3SAZRHS<<FV383ZRHSwFV38ZRHS>HCV53AZRIIS<<HCV535ZRHS>HCV53CZRI!S~HCVSRA+ZRHS~HQVIC+ZRHS&#xc3;tIQVIGR+ZRHS<<t!QV112+ZRHS<<tlQV113ZRHSi<HQV115ZRHS<<tfQVZI6"RhSx"QVI"AZRHS~tfOVZZBRH~<<uQVIRZZRHS<'HOV1R9+ZRHSxtfQV15A+ZRHSwt!0<J153ZRHS<HO<JZBZRHSQ!GVZZAZRHSvitfQVZZBZRHS<<tfQV23AZRHSx!!OV233+ZRHS>tfOVZRA+ZRHS<'tfQVZRBZRHSwtDVZRC+ZRHSvctfQV25A+ZRHSxt!QV253+ZRHS<tlQV26A+ZRHSttfQV253+ZRHS<<tfQV27A+ZRHS<;t!QV27B+ZRHS<<tfQV30A+ZRHSwtfOV303ZRHSwHCV32AZRHSvtlQV323ZRHSPIQ<J33A+ZRHSwHQV33BZRIIS)<HQV37AZRHSntfQV373ZRHS<<KOVRADESCRZPTIOilRHRBTESTABLECHECKVALVEVCH090-E-i!f7RHRASHTDNCOOLINGCHKVALVERHR3SHTDNCCCLINGCHKVALVEZRHSNPDTISBRHRLCQPATESTRETURNRHRLCQPATESTRETURNRHRLGGPCTESTRETURNRHSLIhKATOc.HSS-RFV1RHSL.NEDTO2l!SS-RFV1RHSLiNECTOZl!SS-RiV12"ISS-<I~VISPUTDKNI."NEARHRP<t!PPlCSUCTIONRHRHEADSFPAYISLNRHRSHTQ."tCLGSUCTXSQLRHRSHTDNCLGSUCTXSGLRHRSFRVICENATFRCROSSTIERHRSKRVXCEHTRCROSSTZERHRH.E.AStl'ELL-SIDECUTLETRHRH.E.3SHELL-SIDEGUTLETRHRDXSCHARGETORAD!lASTKRHRDISCHARGETORADIIASTERHRARKACCNTIGITSPRAYPHR3REACCNT<nliSPRAYRHR3SHTDNCOOLINGSUCTRHRASTMLINKZSQLRHP.3STtfLXNEXSQLRKRASTHLINKXSO'.RHRBSTtlLINKISQLLPCIXh<.KTALPCZZii"ETBLPCXXii"ETCRHP.AREACCtlTICITSPRAYRHR3REACCHT!EITSPRAYRHRH.E.AVENTTOSU?PPOOLRHRH.E.BVENTTOSUPPPOOLRHRH.E.AVEi!TTOSUPPPGLRHRHEBV<:NTTOSUPPPCQ'HRAR<NTOSUPPPOOLZSGLRHRBRTNTCSL;PPOOLZSQLRHRHEAFLOhTORCICRHRHEEDBFLGHTORCICRHRASUPPPOC'PRAYRHRBSUPPPOOLSPRAYRHRH.E.AFLCHTOSL'?PPOCLRHRH.E.3FLCHTO,SUPPPCCLRHRAHINFLQHBYPASSVKNQQRh<At!KANCHCRIDARLZhGAt!CHGRIDARLINGANCHCRIDARLINGAiNCHCRIDARLIhGDRAGONVALVECOPIES-VU'ANCOPIES-VIFCANCOPIES-VIFCANVc:LANVELANVKLANVELAilCLOHVELANVLANh~COVKLANVKLANV"LLICLOHCORPCLCHCORPVKLANVELANVKLANVELANCLGHCGRPVELANVLANVELANVELAilVELANVELA'NVKLA<tVELANVELA!lVELANViL"N.ViLANVCLANCLCHCORPCLCHCORPVFLANKHGVELANVil.AiNVELAtlViLANViLANENG.CO.SPCP303HP303HP303HP303HC15CCG51!IC051!IC051HP30REP30REPSOREP30RP30RYP3GRRP30RRP30RRP3GRRP30RRP30RYP3GRYP30RRP3CRRP3CRRP3CRRP30RYP30RRP30RRP30RRP30RRPSGRRP3GRRP30RRP30RRP30RRP30R'RP30RRP30RRP30RRP30RYP30RYP30RRP30RRP30RRP30RRP30RRP3GRRP30RRZONEPC289685PC306711PC250620PC250628SCZR0135SC19511RSC215122SC215122PC305711PC305712PC30671ZPC2616R3SC175111SC"89155PC2506ZRSC2R01R2ABS17510ABS17510ABN17505ABS1751GADS175C9ABS17509SC289155SC289155SC175111SC215125SC215129SC175103SC175111SC209155SC269155SCc.89155SCZ89155SCZ69155ABN19615ADS196ZGABiN19615ABS19620SC196113SC195113ABN17505ABS17510SC215122SC215122ABN17505ABS17510SC19611RZZf!RKFHHHHHHHHHHHhHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA*AAAA100100100610010010010010010010010066-100100100666'00100100100100100100100100100100100100100CPCODOPTDYSDYSDYSHRSDYSDYSDYSDYSOYSDYSDYSDYSHRSHRSDYSDYSDYShRSHRSHRSDYSDYS0SDYSDYSDYSDYSDYSDYSDYSDYSDYSDYSDYS+=RegulatoryGuide1.97.
PAGe33EQUIPtlENTXDZRHSxHOVRC+ZRHS>PQVQCA+ZRHSt!!OVACB+ZRHSicHOV57A+ZRHSiittQY678ZRHSicHQVSAZRHSciPQYBBZRHSxttOVBOAZRHSxHOV808ZRHS>HOV9AZRHS~!!QV93ZRHSxPT99AZRHS'PT998ZRtSqcQV126ZRHSiSQV35AZR'tS~SOV358ZRHS>SQV35AZRHSccSQV358ZRHSc'SOV70AZRHSccSQV708ZRHS+SOV71AZRHS-SQV718+2RHSA'MOVlA+2RHS*MOV1B+2RHS*FT63A+2RHS*FT64A+2RHS*FT63B+2RHS*FT64BDiSCRIPTXONRHRCtlINFLOHBYPASSRHRASHTDhCLGRETURNRHR8SHTONCLGRETURNRHRASHTONCLGCVBYPASSRhR8SHTDilCLGCVBYPASSRHRH.E.ElABYPASSRHRH.E.E18BYPASSGiOBEVALVEGLOBEVAI.VERHRH.E.ASHELLSICc,Xt!LETRHRHE8SHcLLSIDEZtOcTRHSASTEAHSUPPLYRQQttXCSRHS8STEA!iiSUPPLYROONICSZR!tS<Ec'8S!!PCROSS-TIEDRiNRHRAREACSA!!PLZhSSYSXSOLVRHR8REACSA!lPLIhSSYSXSOLVRHRAREACSAPLINGSYSISQLVRHR8RACSAHPLZNSSYSISO'STEAtlLXhECRAIiiSTEA!lLZiVEDRAINSTEANLIhiORAIilSTEA!lLihEDRAINRHSDMPPlASUCTIONRHSDMPPlB.SUCTIONRHSACONTAINMENTRHSASUPPPOOLRHSBCONTAINMENTRHSBSUPP,POOLVENDORN"!!EVcLANVELANVELANVELANVcLAttCLOilCORPCLOHCCRPVcLANCLOHCORPCLOHCORPRQSEHCUiiTROSEI!CUiiTTARGETRCCHCORPTARGETRQCilCORPTARGETRQC'clCORPTARGETROilCORPTARGETROCHCORPTARGETPQCHCCRPTARGETRQCHCCRPTARGETRQ"HCCRPTARGETRCCHCQR?GLOWCORPGLOWCORPSPiCP30QRPBONRP30~RP30iRP30%RP3CQYP30QYPIC~QP30tloP3CQYP304YC071!lC071HP3CQXP30%VP30tlXP3CQXP3OQXo30"VP30QXP30QXP3CQXP304YP304Y.C071MC071MC071MC071MZCNEABS17508SCZtt0140SC200103PC250620PCZ305ZOAEN17505ABS17509SC213125SC215129ABi!19615ABS19520SC175105SC215122ABS17510ABN17505ABS17510ABill7303ABS17510SC175103SC1.75111SC175103S"175111ZZTREFHHHHHHHHHHHHHHHHHHHHHHOPCQOAAAAAAAAAAAAAAAAAAAAOPT100OYS100DYS100DYS100DYS100OYS100DYS100DYS6HRS6HRS100DYS100DYS100OYS100DYS100DYS100OYS100DYS6HRS6HRS+=RegulatoryGuide1.97.
PAGE34EQUIPHENTIO+2RHS>RE1A+2RHSiiRE13+2RMS+RElC+2RMS*RE1DDESCRIPTIONREACBLDGOHHATCHRADNRFACBLDGDHHATCHRADNREACBLDGINHRADNREACBLDGINHRADNVEiNDDRNAHEHAltANINSTHHAHANINSTHKAMANINSTMKAMANINSTMSPECZONEZIP281FPC2616WHP281FPC261699HP281FP281FTREFCPCDDOPT+=Reguiato~Guide.'l.'97.
PAGE35EQUXPttENTZD2RSSaFT1062RSS-PT10S2RSS-PT1092RSS-PT110ERSS-PTlllDESCRZPTXOHRCZCPttPDZSCHFLOHADSACCUttULATORTAh7(PRESSADSACCLHL"ATORTAhNPRESSADSACCUttULATORTAHNPRESSADSACCmtULATORTAHNPRESSVEtiDORhAatEROSEltOUHTROSEtlOU:tTROSEtiOUHTROSEt!OUitTROSEHOUi'tTSPECZOhEZZQREFC071HSC175105HC071HSC289155HC071ttSC289155HC071HSC306175HC071HSC306175HOPCODOPT PAGE36EOOIP}l=NTID+eSS~HCVX60+esAs>Hcv161ZSAS~HCV162+esAs<Hcv163DESCRIPTIONSERVICEAIRCNTHTXSOLVSERVICEAIRCNTHTISOLVScRV~CEAIRCNTHTISOLVSERVICEAIRCNTHTXSOLVVENDORNAHEVELANVELANVELANVELANSPECP304HP304HP304HP304HZONESCZ40135SCZ69155PC240503PC289601ZXTREFHHHHOPCODOPT+=RegulatoryGuide1.97.
PAGE37EQUIPHENTIDDESCRIPTIOilVENDORNAVESPECZONEZIQREFOPCODOPTZSCV+Fi<<101AZSCV~Ph"3018ZSCV>XO101AZSCV+%<)301BGTSt!ISC120/240VPhLGTSHISC120/240Pht.DISTXFt!R600V-120/240VDISTXFHR600V-120/240VBRO)LNBOVERIBROhNBOVERISQUAREDSQUARE<<0E014TABNZ4033HE014TABSZ4036HE011TABN24033HEOllTABS24036H PAGE38EIIUIFHENTZDZSFC<<AOV153ZSFC<<AOV1542SFC<<AGV19AZSFC<<AOVI9Bc.SFC<<AOV33A2SFC:AQV33B2SFC<<FT36AZSFC<<FT36B2SFC<<FT5SAc,SFC<<FT5852SFC<<HV1142SFC<<HV116ZSFCciHV121ZSFC<<HV148ZSFC<<HV149ZSFC<<HV17A2SFC<<KV17BZSFC<<HVISAZSFC<<HVISBZSFC<<HV35Ac.SFC<<HV37A2SFC<<HV37BZSFC<<HV54AZSFC<<HV6AZSFC<HV6B2SFC<<LS33AZSFC<<LS33BZSFC<<LS33C2SFC<<LS33D2SFC<<LS34Ac.SFC<<LS34B2SFC<<LS55AZSFC<<LS55B2SFC<<LT32AZSFC<<LT32BZSFCccHIAZSFC<<tllB2SFC<<PT3AZSFC<<PT3B2SFC<<PT30AFSFC<<PT30BZSFC<<TF31Ac.SFC<<TESAZSFC<<TESBDESCRXPTIOilFILTERHDRZhLISOLVCHFILTERHQRItiLISOLVCH2SFC-FLTlAOUTLETZSFC-FLTlBOUTLETSKIN!IERSURGETAhKLEVELSK>t!!IcRSU4GETAh".<LEVcLSFPQQ!.CLGSYSFLGHLSFPGQLCLGSYSFLCHLSFCFt!PDXSCHFLCHSFCP!!PDISCHFLOHFUFLXFRCHANGATEADRVCASKHQLGXFRPU!!PSUCTCASKHDLGXFRPL>PDISCHVCASKGATKDRAINVALVEGATEDRAIhSKGRISOLVLVZSFC-F1ABYPASSZSFC-FlBBYPASS2SFC-FlAXNLET2SFC-FlBXNLET2SFC-TKlAINLETV2SFC-HTEXChGRDISCHVZSFC-HTEXCKGRDISCHVSKIVJ!ERSURGETAhKCUTLETSFPCQLCLGHTRXCOtlNSFFOO'LGHTRXCC'NNSKItD!EP.SURGETAhKLEVELSKIt!it!ERSURGETAihKLEVELSKIIOIERSURGKTA!FKLEVELSKZID!ERSURGETANKLEVELSFCSKII!!IERSURGETKHZLVLSFPOOLHTRLVLLOHSFPOOLHTRLVLLCNSFPCQLSURGKTANKHATERLVLSFPOOLSURGETANKHATERLVLFUKLPOOLCHCt!QTORFUcLPOOLCHCl!GTCRSFPGQLCIRCPPASUCTPRESSSFPCOLCIRCPPBSUCTPRESSSFPQGLCIRCPNPDISCHPRESSSFPOOLCXRCPl!PDISCHPRKSSSFPOOLSURGETANKTEHPOUTLSFPGQLHTEXCHCUTTE!!PSFPOOLHTEXCHOUTTEtIPPOSX-SEALPGSX-ScALPCSI-SFALPOSE-SEALPOSI-SEALPOSI-SEALROSKHGUNTROSEVQ'Ji!TROSE!!CUNTXQ!!QXPOSE-SEALPOSE-SEALXC!!QXXG!ICXFGSI-ScALPQSI-ScALPOSE-SEAcPOSE-SEALPCSI-SEALIQSI-SEALPCSZ-SEALPOSX-SEALPQSI-SEALPOSZ-ScAHAGKKTRCLt!AGNETROLttAGNKTROLt!AGt!KTROLtlAGNKTRQLVASNETROLHAGNcTROLt!AGNETROLRGSEt!CUNTRQS=!!CUNTGOULDPIPiPGOULDPU!!PRQSEl!CUNTRGSKI!OWTRGSEi!O'-'NTRQScl!CUNTPYCOPYCOPYCOINTERNINTERNINTER.INTcR.iNTER.INTER.ZiNTER.INTER.XNTER.INTER.ZIITE.INTER.ZNTcRINTER~INTER.INTER.INTER.ZNTER.SINC.SINC.VEhTiGRNAKESPECP304DP304DP304DP304DP304DP304DC071HC071!IC021ttC071HP304KP304DP304DP304KP304KP304DP304DP304DP304DP304DF3040P304DP304DP3045P304DCC21LC021LC021LCOZlLCOZXLCOZlLCOZILC021LC071!IC071tlP222XIZAAKC071HC071IIC07ltlC021HC041DCC41DC041DZCNESCZS9162Scc.89162SC326193SC3061.76SC32S199SC326199SC215122SC2151c.ZSC269162SCZ89161SC306182SC328199SC328199SC306182SC30618ZSC26916ZSC289161SC269162SC2S9162SC328192SC215122SC215122SC328193SC269162SC289161SC328193SC328187SC328193SC3c.8167SC328193SC3281S7SC353202SC353202SC326197SC328187SC289162SCZ69161SCZ61145SC261145SC?61145SCZ61145SC3c.8193SC21512ZSC215122ZIQREFHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHOFCODGPT100DYS100DYS100DYS100OYS100DYSA100DYSA100DYSA100DYSA100DYSA100DYSA1000YSA100DYSA100DYSA100DYSA100DYSA100DYSA100DYSA100DYSA100DYSA100DYS PAGE39EQUIPHENTID2SLS>HCV)112SLSxt!OVIA2SLS~!.OVID+ESLS+fOV5A+eSS~t.OV55DESCRIPTIONSTBYLIQTESTTKVALVESEALEOGLOBEVALVESEALEDGLCSEVAL'VESTOPCHECKSTOPCHECKVENDORNAttEVELANVELANVELANVELANVELANSPECP30QLP30QSP30RSP300SP30RSZONESC289155SCc.89155SCc,89155SC289155SC289155ZIQREFHHHHHOPCODAAAA.AOPT7DYS7DYS7DYS7.OYS7DYS+=RegulatoryGuide1.97.
PAG40EQUXP&#xb9;NTXDZSHP+AQVZOAZShVwAOVZOBZShPWAOVZZAZShPNAOVZZBZSiiPMAOV97AZSHP+AOV97BZS!VwttOV)5AZSHP+t!QV15B2Sl!Put!QV17AZShPet!QV17BZShPxt!OV18AZSHo~t~OVIOBZShV<!!OV19AZShP+t!QV19BZSHPat!OVZIBZSHP+t!QV33AZSHPiit!QV33BZSHP+t!OV38AZSl!PxttQV38Bc.SHPat-!QV39AZShP+ttOV39BZSHP+HOV90AZShPvt!QV90BZSt&>PTXQOAZSHP>PTXQOB'ESCRXPTXQilSHPTORHSwPIASLCLRSH?TORHS<PIASLCLRSHPFRO!lRHSKPIASLCLRSHPFROHRHS>PXBSLCLRSHPFRCLGCOILZHVRaUC413ASHPFRCLGCOILZHVRIUCQ13BSVCEHTRTOZHVRQUC403ASVCEHTRTOZHVR<UCQ03BGATEVALVEGATEVALVEGATEVAI.VEGATEVALVEShPTOCCPHTEXCHISOLVSnPTOCCPHTEXCHXSCLVGATEVALVEBUTTERFLYORTRICENTRICVALVEBUTTERFLYQRTRXCENTRICVA'LVESHPTORBCLCHSYSSHPTORBCLCHSYSSHPTORBCLCHSYSSHPTORBCLCilSYSBUTTERFLYCRTRICENTRICVALVEBUTTERFLYORTRXCENTRICVALVESHPTOCCPHTEXCHSPRESSSnPTOCCPHTEXCHSPRESSVENDORNAt!EXO!!QXXQt!OXXO!!QXXOt!OXXOHQXVELANVELANVELANENGVFLAHVELANVLAilCLQHCORPCLC!lCORPVELANCt.OilCORPCLPHCQRPVELANVELAiNVELAitVELANCLOHCORPCLOHCORPROSE!!QU.'tTROSEHQUNTSPECP304HP30QHP30QHP304HP304HP30QHP30QRP304RP304RP30QRP30QRP30QRP304YP30QYP30QRP304YP304YP30QRP30QRP30QRP30QRP304YP304YC071tlC071HZO'l"ABN17504ABS17509ABN17504ASS17509SC289155SC289155SC175105SC195116SC196113SC175105SC196113SC196116ABN21523ABh21523SC328197ABti17505ABS17510SCc51145SC261145SC261145SCc.61145ABN17505ABS17510ABN17503ABN17503ZXTREFHHHHHHHHHHHHHHHHHHHHHHKHHOPCODAAAAAAAAAAAAAAAAAAAAAAOPT100DYS100DYS100DYS100DYSCONCON100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS100DYS PAGE41EQUXPHEt(TXD2VBS)Pt(LA1052VBSNPHLA1062VBS>FN'1052VBSxPNLB106DESCRIPTXONttSLIVDISTPtiL(G/H)HSLIVDISTPNLMSLXVDISTFNLttSLIVDISTPtiL(Y/H)VEhDORNAt(EBROhNBOVERIBRONNBOVERIBROHHBOVRXBROhNBOVERXSPECZONE-E014T-ABN24033ZXQREFE014TABS24036HE014TABN24033HE014TABSZ4036HOPCOD0?T PAGE42Et!UXPHENTIDZHCSW!!OV101+'ZhCSM!!OV1022&#xb9;SQtOVX03ZhCSx!lOV104ZnCSst!OV105+EhCS>HOV112+EhCS<t!OV200ZHCS-tlCV106ZhCS-HCV1072hCS-HOV108ZHCS-t!OV109Zt!CS-tlOVX10ZHCStOV111DESCRIPTIONQhCUREACVESSELDRNPHCUP1At'.P18SUCTXSOLVRHCUXtiLISOLVRHCUIt!LFRO!lRECIRC8RnCUIt!LFRO!!RECIRCARnCUPXA~PXBSUCTISOLVRhCURETUPNISOLR!iUDRnTOhASTECOLLTHVRhCUDXSCHTONUCO!!DVDRNRESTRXCTIt!8ORFBYPVRhCUREGEitHXDISCHVFLTRD!!!!LZRBYPVRliCUHXBYPVVENDORhAHEVELANVELANVELANVELAN'VELANVELANVELANVELANVELA!tVELAN'VELANVELANVELANSPECP304RP304RP304QP304RP304RP304RP304P.P304RP304RP304RP304RP304RP304RZOi!EPCZ61648PCZ40606PCZ40606PC240508PCc.40505SCZ40142HST26'46SC305176SC305176SC306176SC306176SC306176SC305176ZIt!REFHHHHHHHHHHHHHCAC,CCACCCCCC6HRS6HRSOPCODOPT+=RegulatoryGuide1.97.
 
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0 NINEMILEPOINT-UHIT2DOCKETNUMBER50-410QUALREFIC071MBFREV0SYSTEMCOMPONENTEVALUATIONNORKSHEET.PASE1OF113-Dec-84~~~~EQUIPMEHTDESCRIPTIONaaaaaaaaENVIRONMENTALCOHDITIOHSANDQUALIFICATIONaaaaaesEQUIPHO.s2SFCwFTSBBsSPECNOasC071MaSYSTEM:eSPENTFUELPOOLCODLINGaaeTYPE:(DESCRIPTIOH)lFLO)tTRANSMITTERaaaalMAHUFACTURERsROSEMOUNTaalMODELNOas1153aaeSAFETYFUNCTION:sTOMOHITORSPENTFUELPOOLeDISCHARGEFLOMaaeOPCODEsAaaaaaesACCURACY""HDTE5sSPECs0.25XDEMDs4.85XaatZONENO.sSC289161lFLOODLEVELIELEVATIOHsHA)ABOVEFLOODlLEVEL?NAeABOVESPRAY/liFRO'IHLEVEL?NAaaaDOCUMENTATIONACCEPTABILITY:lACCEPTABLE70HUREG0588,CATIaaeaaaaeNIHT/SURVEILL---lREFERENCEs2aasQUALIFIEOLIFE--"lYEARS)$10eiREFERENCEs2aaIDOCUMENTREFERENCEaeaPARAMETERiSPECIFIEDaQUALIFIEDeaQUALeMARGIHeaaeVALUEiVALUEISPECIFIEDeQUALIFIEDaMETHODiDEMOeREMARKSaaaaaaaaaaaaaaaaaaaasaOPTIMEse100DAYSe655DAYSe3'eTESTIDEHTlYESe''TEMP(F)'-----'----'----'----'----'--'NOTEIsINORMALee120/108ei120ei1I2eeTEST-IDENTaeHAeeNOTE2eesABNORMALalHAs'Aee1i'eTEST-IDENTlHAeeeeACCIDENTe175a303s1s2)TEST-IDENTeYESs''PRESSlPSIG)'-"--'"---'----'----'--""'--'NOTE1elNORMAl.s-0.25lATMOSlIl2lTEST-IDENTlHAlsABNORMALeHAaHAl1I2aTEST"IDENTaHAeleACCIDENTe2.8e55sII2e7EST-IDENTsYESeleRHlX)saIasassHOTEIeeaNORMALe50e95i'le2aTES7-IDEH7eaHAlssABHORMALlNlNAlIs2sTESTIDENTIHAealACCIDENTa100s100l1s2eTESTIDENTsHAI''RADIATION'-----'----'----'----'----'--'NOTE1eiatiORtlGAMMAl1.3E6eis1I2aTEST-IDENTeHAeNOTE4aeACCGAMMAI26E6Is1ei2aTEST-IDENTeYESeNOTE4eeNORMBETAINAees1se2eTEST-IDENTeeNAeeNOTE3saACCBETAa1~3E7s1a2)TEST-IDENTlHAaNOTE3leHEUTROHINAas1e2e7EST-IDEHTsHAataSPRAYeNAeYESaa2aeHAeeSUBMERGENCElNAlHAeaatNeaaaaaaaaaaaaaaalsDOCUMENTREFERENCEsHOTESs1~FORCOMPLETEENVIRONMENTALCONDITIONS,lll1.EQUIPMEHTQUALIFICATIONENVIROtiMENTALDESIGNSEETHEDOCUMENTREFERENCED.CRITERIA,EQEDC-I,REV1,MAY2,1984'.HORNLTEMPERATURESARESHONHASll2.VENDORENVIRONMENTALQUALIFICATIOHREPORT,NXDESIGN/AVERASE.SDDF0IEEE07.131-5000A3.UHI7ISCOMPLETELYSEALED.THEREISae3~EQUIPMEHTOPERABILITYTIMEDATASHEETsHOEFFECTOFBETARADIATIOHDNTHEaatLater)'RANSMITTER.4.VENDORIRRADIATEDTHETRANSMITTERSIllFORCOMBINEDVALUEOFACCIDENTAHDHORMALRADIATIONLEVELS.S.SPECACCURACYINCLUDESOHLYTHEEFFECTSOFLINEARITY,HYSTERESISANDaaREPEATABILI7Y.aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
 
NINEMILEPDINT-UNIT2DOCKETNUMBER50-410QUALREF8C071t(BGREV0SYSTEMCOMPONENTEVALUATIONNDRKSHEETPAGE1OFI13-Dec-84~g>>>>~ENVIRONMENTALCOHDITIOHSAHDQUALIFICATIOHEQUIPMENTDESCRIPTIONIDOCUMENTREFEREt(CE-IIPARAMETERISPECIFIEDIQUALIFIEDIIQUALIMARGINIIVALUEIVALUEISPECIFIEDIQUALIFIEDIMETHODaDEMOIREMARKSsEGUIPHO.:ISPECHO,:ISYSTEM:ISPENTFUELPOOLCOOLINGIIITYPE:(DESCRIPTION)aLEVELTRANSMITTERIIIIIMANUFACTURERlROSEMOUNTIIIMODELHO.:1153IIISAFE'TYFUNCTION)ITOMONITORSPENT'UELPOOLILEVELII(OP.CODElAIIIIIIIACCURACY--HOTE5SPEC:0'5XDEMO)3.IXIIOZONEHO.)SC328187(FLOODLEVELIELEVATIOtl:NAIABOVEFLOODILEVEL?HAIABOVESPRAY/siFROTHLEVEL?HAIIIDOCUMENTATIONACCEPTABILITY)IACCEPTABLETONUREG0588,CATIIIIIIIIIIMAINI'/SURVEILI.-"-siREFEREHCE:2IIIQUALIFIEDLIFE(YEARS)l10eiREFEREHCEl211IIIIIIIIIIIIIIIIIIIIOPTIME'100DAYSI655DAYSI3I2ITESTIDENTIYESI''TEMP(F)'-----'----'----'-"--'---"'--'NOTE1IssNORMALI104/89I120III2ITEST-IDEHTeHAIHOTE2eeABHORMALe133IHAI1I2ITEST-IDENTINAIseACCIDENTI175I303II'2ITESTIDENTIYESIIIPRESS(PSIG)I-----'I-----I-----I-----I-----I---I-NOTE1alNORMALI025IATMOSIII2iTESTIDENTIHAIIIABNORMALINAINAI1I2'TESTIDEHTI'NAIssACCIDENTe2.8I55I1a2ITEST-IDENTIYESII''RH(X)'INOTE1IIIIIIalNORMALI50I95III2)TESTIDENTIHAsslABNORHALIHAINAIII2ITESTIDENTaNAIIIACCIDEHTI100I100I1I2ITEST-IDENTIHAI''RADIATIOH'-----'----'----'----'----'--'NOTEIaiNORMGAMMA'II~BE3III2ITESTIDEHTIHAINOTE4taACCGAMMAI2.6E6IIII2ITEST-IDENTIYESINOTE4laHORNBETAINAII1I2ITESTIDEHTIHANOTElsACCBETAI1.3E7IIII2ITEST-IDENTIHAsNOTE3elNEUTRONIHAII1I2ITESTIDENTeHAIISPRAYIHAIYESII2IIHAIIISUBMERGENCEINAINAIIIsHAsIIIIIIIIIIIIIIIIIIIIIIIIIIDOCUMENTREFEREHCE:NOTES'~FORCOMPLETEEHVIROHMENTALCONDITIONS,Ils1.EGUIPMEHTQUALIFICATIONEHVIRONMEHTALDESIGNSEETHEDOCUMENTREFEREHCED.seCRITERIA,EQEDC-l,REV1,MAY2,1984.2ABNORMALTEMPERATURESARESHO)(HASII21VEHDORENVIRONMENTALQUALIFICATIOHREPORT)MAXDESIGN/AVERAGE.SDDF0IEEE07.131-5000A3.UHITISCOMPLETELYSEALED.THEREISel3.EQUIPMEHTOPERABILITYTIMEDATASHEET)HOEFFECTOFBETARADIATIONONTHEII(Later)TRANSMITTER.4~VENDORIRRADIATEDTHETRANSHITIERSFORCOMBINEDVALUEOFACCIDENTANDNORMALRADIATIOHLEVELS.5.SPECACCURACYINCLUDESONLYTHEEFFECTSOFLINEARITY)HYSTERESISANDREPEATABILITY~II
 
NINENILEPOINT-UNIT2DOCKETNUNBER50-410QUALREF4E015HAAREV0EQUIPNENTDESCRIPTIOHSYSTENCONPONENTEVALUATIONMORKSHEETPAGE1OF1ENVIRONMENTALCOHDITIONSANDQUALIFICATION10-Dec-84IIIIIIDOCUNEHTREFERENCEI=-"==""="=""""=======""""===-"""="I'ARANETERiSPECIFIEDaQUALIFIEDIQUALNARGIHaIVALUEIVALUEaSPECIFIEDIQUALIFIEDINETHODIDENOIRENARKSIIEQUIPHO2EPS4SMGOOI11I~IIII~IIIN1OI~aSPECHO.)E015H"IIOP.TINE:I100DAYSI100DAYSI3I2aAN+DATAaYESINOTE3IISYSTEN:asTENP(F)'-----I-----a-----I---"-I-----I---I-NOTEI(EPSSMGR)ENERGEHCY)13'KVIIHORNALI104/89I104/95I1I2ITESTSINIHAINOTE2IIITYPE)(DESCRIPTION)l15KV)1000NVANETALCLADISMITCHGEARIIINANUFACTURERlBROMN-BOVERIIIsiNODELHO,lHK-1000IIISAFETYFUNCTIOH:ITRIPPIHGOFRCSPUNPSAHDNVPIPENETRATIONPROTECTIONIIIOP.CODE)AIIIACCURACY--iiSPEC:NADENO:HAIZONENO.:ABH24033IFLOODLEVELIELEVATION:HAIRBOVEFLOODLEVEL?NAIABOVESPRAY/IFROTHLEVEL?HAIIIDOCUNENTATIOHACCEPTABILITY:IIABNORNALINAl48HRSQ(26(1I2ITEST-SININAI11ACCIDEHTiNAIIII2IHAINAII'PRESS(PSIG)'-""-'----'----'"---'----'--'NOTE111NORNALI"0'5MGIATNOSI1I2ITESTSININAIslABHORNALIHAIHAIII2'HAIHAIaIRCCIDEHTINAINAIII2IHAINAIaaRHtX)'IIIIIIt(OTE1IlNORNALI50I90III2aTESTSININAIABNORNALINAIHh''INAINA11ACCIDENTIHAINAt1I2IHAINAI1(RADIATION)I"aI""iIIaHOTEItsNORNGANNhaI,BE3I1I2tHAIHAIaACCGANIIAI2.2E4IIII2ITEST-SINsYESI11NORNBETAINAIIII2tNRINRIalRCCBETAINAII1I2INAINAltNEUTRONIHAIt2INRINA1.0E5CRITERIA)EQEDC"I,REV1)NAY2)1984'~NORNALTEMPERATURESARESHOMNAS2aVENDORENVIROHNEHTALQUALIFICATIONREPORT)NAXDESIGN/AVERAGE.11SDDFNIEEE(.330-50003C3.BASEDOHTHEARRHEHIUSCURVESIHREFss3.EQUIPNENTOPERABILITYTINEDATASHEET:2A(.LMATERIALSIHTHESMITCHGEARSHOMaLTRQUALIFIEDLIFESUBSTANTIALLYLONGERITHAN40YEARSt100DAYSATAVERAGEI1(SPRAYINAIIIIHhIHhsaSUBNERGENCEtHAIIsNAIHAIIIIIIIIIIIIIIIIIIIIIIllDOCUMENTREFERENCElNOTES:1.FORCONPLETEENVIRONNEHTALCONDITIONS,aII1.EQUIPNENTQUALIFICRTIONEHVIROHNENTALDESIGHSEETHEDOCUNENTREFERENCEDaIACCEPTABLETONUREG0588,CATllllTENPERATUREOF95FTOMHICHTHESMGRISQUALIFIEDBYVENDOR.SIHCEHNP2SMGRISOPERATEDAT89F,RATHERTHAN95F)ASQUALIFIED,ADDITIONALllOPERATIOHTINEBEYOHD100DAYSPOST"INAIHT/SURVEILL"--ACCIDENTISAVAILRBL.REFERENCEl2IIIQUALIFIEDLIFE"--I(YEARS)l40REFERENCEl211IIIIIIlsIII4,VENDORTESTEDVAI.UEINCLUDESCONBIHEDIVALUEOFBOTHACCIDENTANDHORNALRADIATIONVALUES~
0e NIHENILEPOINT-UNIT2DOCKETHUNGER50-410QUALREF4E015HABREV0SYSTENCONPOHENTEVALUATIONWORKSHEETPAGEOF10-Dec-84~>>~ENVIROHNENTALCONDITIONSANDQUALIFICATIONEQUIPNEHTDESCRIPTIONIIIIIIDOCUNENTREFERENCE'=============================''PARANETER'PECIFIED'UALIFIED'URL'HARBIN'EHARKSII(EQUIPNO~'.sSPECHO.:sSYSTEN:2EPS+SWG002E015NVALUEIVALUEISPECIFIEDIQUALIFIEDINETHODIDENOIIIIIIIIIIIIIIIIIIIIIIIIOP.TINE:I100DAYSI100DAYSI3I2IAHtDATAaYESINOTE3IITENP(FI:I-----I-----I-----I-----I-----I---I-NOTE1IEPS-SMGR)ENERGEHCY,13.8KVIINORNALI104/89I104/95I1I2ITEST-SINaNAaNOTE2IIITYPE:(DESCRIPTIOHIsl5KV)1000NVANETALCLADISWITCHGEARIIlNAHUFACTURERlBROWN-BOVERIIIINODELHo,lHK-1000IIISAFETYFUNCTION'TRIPPINGOFRCSPUNPS.ANDNVPIPENETRATIONPROTECTIONIIIOP.CODE:AIIIIIIIACCURACY--SPEC:NADENO:HAIIaZOHEHO.:ABH24033IFLOODLEVELIELEVATIOHlHA(ABOVEFLOODILEVEL?NA(ABOVESPRAY/IFROTHLEVEL?HAIIIDOCUNEHTATIONACCEPTABILITY'1ABNORNAL(HA148HRSQ(26(I(2ITEST-SINIHAI11ACCIDENT(HRI-(1I2IHAIHAI''PRESS(PSIGII-----t-----'---"'"---'----'--'HOTE1ssHORNALI-0'5'GIATNOSaII2ITEST-SININAIIIABHORNALINAINAI1I2'NAINAIIIACCIDENTIHAaHAI1I2IHAINAa>>))))IV)~NOTEIIIIII11NORNALI50s90I1I2ITESTSINIHAIlaABNORNALINAIHAI1s2IHAIHAa11ACCIDEHTaNAIHA(1I2IHAINAIIaRADIATION~IIItIIINOTEI11HORNGANNAI1'E3I1I2(HRIHA(11ACCGANNAs2.2EhI1,0E5IIs2ITEST-SINIYEStsaHORNBETAaHAIs1I2IHAIHAIlaACCBETAIHAIII2INAINAIlaNEUTRON'HAI1I2IHAtHAI1(SPRAYINAIIIsNAIHAHOTE4IISUBNERGEHCE(HAIIIIHAIHAIIIIIIIIIIIIIIII11IIIIIIItaOOCUNEHT
 
==REFERENCE:==
NOTES:1.FORCONPLETEENVIRONNENTALCONDITIONS,III1.EQUIPNENTQUALIFICATIOHENVIRONNENTALDESIGNSEETHEDOCUNENTREFERENCED,CRITERIA)EQEDC1)REVI)NAY2)1984~2.NORNALTENPERATURESARESHOWNASsl2.VENDORENVIRONNEHTALQUALIFICATIOHREPORT)NAXDESIGN/AVERAGE.SDDFIIEEE(.330-50003CABASEDOHTHERRRHEHIUSCURVESINREFla3~EQUIPNENTOPERABILITYTINEDATASHEETS2ALLMATERIALSIHTHESWITCHGEARSHOWIIILTRQUALIFIEDLIFESUBSTRHTIRLLY).O(IGERIlaTHAH40YEARSt100DAYSATAVERAGEtIACCEPTABLETOHUREG0588)CATIleaTENPERATUREOF95FTOWHICHTHESMGRIIIIIIII(HAIHT/SURVEILLREFEREHCE:2IIIQUALIFIEDLIFE---(YERRSI:40
 
==IREFERENCE:==
2I)ISQUALIFIEDBYVENDOR.SINCENNP2IISMGRISOPERATED'AT89F)RATHERTHANI1(95F,ASQUALIFIED)RDDITIOHALOPERATIONTINEBEYOND100DAYSPOST-I11ACCIDENTISAVAILABLEtl4~VENDORTESTEDVALUEINCLUDESCONBIHEDIIIVALUEOFBOTHACCIDENTANDHORNALIIRADIATIOHVALUES.IIII11IIIIIIIIIIIIIIIIIIIIII
 
NINENILEPOINT-UNIT2DOCKETHU)tBER50-410QUALREF4E015NACREV0SYSTEMCO)tPONENTEVALUATIONMORKSHEETPAGE1OF110-Dec-84~~ENVIRONMENTALCOHDITIONSAHDQUALIFICATIONEQUIPNENTDESCRIPTIONIIIIIIDOCUMENTREFERENCEaI1t==============================))PARA)tETERISPECIFIEDlQUALIFIEDsQUALatthRGIHIREMARKSIIIEQUIPNO.:eSPECNO.llSYSTEN:2EPS<SM6003E015HVALUElVALUEISPECIFIEDlQUALIFIEDlMETHODlDEMOlI11IIIIIIIIIIIIIIIIIIIlOP,TINE:I100DAYSI100DAYSI5I2IAN>DATAIYES1NOTE3IITEHP(F)'IIII"IaNOTEIIEPS-SMGR)E)IERGEHCY)13.8KVIINORMALI104/88I104/95I1I2ITEST-SININAINOTE2IITYPEt(DESCRIPTION)115KV,1000llVAttETALCLADlSMITCHGEARIIIHANUFACTURERlBROMH-BOVERIIItttODELHO.:HK-1000IIISAFETYFUHCTIONlaTRIPPINGOFRCSPU))PSANDNVPIPENETRATIONPROTECTIONIIlOP.CODEtAIIIIIIIACCURACY--1SPEC:HADEMO:HhII)ZONEHO.lABN24036aFLOODLEVELIELEVATION:tlAIABOVEFLOODLEVEL?Nh)ABOVESPRAY/IFROTHLEVEL?HAIIIDOCUNENTATIONACCEPTABILITY:IlABNORMAL)NAl46HRS81261II21TEST-SI)tINAIllACCIDENTINAa-I1I2aHAIHA''PRESS(PS16)'----'----'----'----'----'--'NOTE1alNORMALI-0'5'6IATMOSl1I2ITEST-SINlNA1asABHORHAL)HAINAI1I2'HAINAIslACCIDEHTINAINAaIl2IHAINhIIIIIIeINOTEIIIIIIIINORMALI50s9011I2ITEST-SillINhs11ABNORHALINAIHAl1s2IHAsHhIaIACCIDENT)HAIHAI1I2INAIHhIIIRADIATIOH'--"--t-----a---""I-----l-----a---l-NOTEIalNORMGAMMA)I,BEEI1I2INhlNhssACC6AKHAa2'E4s1OE5I1s2ITESTSiltIYESaaaNOR)lBETAIHAI1l2lHhlNh11ACCBETAaNAlI2IHAINA11NEUTRONaHAII1I2IHhIHAIIISPRAYINhIIIlHhIHhNOTE4saSUBHER6ENCEsHhIINhsNAsIII<<I11IIIIIIIIIIIIIIIIIIIllDOCUMENTREFEREHCE:NOTES:1.FORCOMPLETEENVIRON)tENTALCONDITIONS,Ill1.EQUIPNEHTQUALIFICATIONENVIRON))ENTALDESIGHSEETHEDOCUMENTREFERENCEDCRITERIA)EQEDC-1)REV1)HAY2)1984~2.NORMALTEMPERATURESARESHOMNASlt2.VENDORENVIRON)tENTALQUALIFICATIONREPORT,MAXDESIGN/AVERAGE.SDDF0IEEE1.550-50003C5.BASEDOHTHEARRHENIUSCURVESINREFsl3.EQUIP)IENTOPERABILITYTINEDATASHEET!2ALLMATERIALSINTHESMITCH6EARSHOMlLTRQUALIFIEDLIFESUBSTANTIALLYLONGERlIITHAN40YEARS+100DAYSATAVERAGE)ACCEPTABLETOHUREG0588)CATIllsTEMPERATUREOF95FTOMHICHTHESMGRIlaISQUALIFIEDBYVENDDR,SINCENHP2ISMGRISOPERATEDAT89F)RATHERTHAMIIl95F,ASQUALIFIED,ADDITIONALllOPERATIONTINEBEYOND100DAYSPOST-I)HAINT/SURVEILL---IIACCIDEHTISAVAILABLE.IREFEREHCE:24.VENDORTESTEDVALUEINCLUDESCOMBINEDIIIVALUEOFBOTHACCIDENTANDNORMALlQUALIFIEOLIFE---laRADIATIOHVALUES'IIYEARS)l40
 
==IIIREFERENCE:==
2IIIIIIlIIIIIIIIltIIIII I'l NINENILEPOINT"UNIT2DDCKETNUMBER50-410QUALREFIE015HADREV0SYSTENCOMPONENTEVALUATIONMDRKSHEETPAGE1OF1(0-Dec-84~I~ENVIRONMENTALCONDITIOHSANDQUALIFICATIOHEQUIP)(ENTDESCRIPTIOHIIIIIDOCUMENTREFERENCEal==============================aaPARAMETERISPECIFIEDlQUALIFIEDIIQUAL(NARGIH(lVALUElVALUElSPECIFIEDaQUALIFIEDallETHODlDEMOIREMARKSICallIsissailssnriiuihiss11iIiiI---------I-I-------------IiEQUIPHO1raeuarSaueICafu>u)IQVV'IssI~IIIIIIIaSPECHOilE015N'eOP1TINEll(00DAYSI100DAYSI3I2IAHtDATAaYESINOTE3s(SYSTEl(:''TEMP(F)'--"--'----'----'--"-'----'--'HOTE1eEPS-SM6R,EMERGENCY,13.8KVI(HORNAL'104/88I104/95l1a2ITEST-SINaNAINOTE2IIITYPE:(DESCRIPTIOH)115KV,1000NVANETALCLAD(SMITCHGEARIIlNANUFACTURER)BROMN-BOVERIII(NODELNO,lNK-1000IIISAFETYFUNCTION:ITRIPPIH6OFRCSPUNPSANDNVPlPENETRATIONPROTECTIONIlOP,CODElAIIIIIIlACCURACY-"lSPEC:NAIDEl(0:HAII(LONEHO.lABN24036(FLOODLEVELIELEVATION:NA(ABOVEFLOODlLEVEL?HAIABOVESPRAY/11ABNORMAL(NAl48KRS(1(2(st1l2ITEST-SINlNAIllACCIDENT(NAl-l1I2IKAIHAIl(PRESSlPSIG)l-----1----"I-----I-----I----"t---I-NOTE1lsKORNALl0125M6lATMOSI1i2ITESTSINsNAI11ABNORl(ALIHAINAIIl2'HAIHAI11ACCIDENT(HAlKAI1I2aHAINAI''RH(X)'-----I-----'----I-----'----'--I-NOTE1laNORNALI50t90IIl2lTEST-SININAalABNORNALINAIHA.I1I2iKAINAItlACCIDENT(HAIKAI1l2IHAINAlt(RADIATIONSa"-"--I-----I-----I-----a-----I---I-NOTEIasHORNGANNAa1.863II1l2IHAlHA11ACC6ANNAl22E4I1.0E5I1e2ITEST-SI)(lYESIaaNORNBETAIHAII1I2aHAlHAI11ACCBETAtNAlIIl2tNAINA11NEUTRONlHAIa1I2aHAlHAatSPRAYsNAIIIINAaHAIt(SUB)(ERGENCE(HAIIlNAaNAINOTE4ll1.EQUIPNENTQUALIFICATIOHENVIRONNEHTALDES16N,SEETHEDOCUMENTREFERENCED.CRITERIA)EQEDC1)REV1)NAY2)1984~2.NORNALTEMPERATURESARESHOMHASaa2.VENDORENVIRONMENTALQUALIFICATIONREPORT,NAXDESI6N/AVERAGE:iiiiSDDFIIEEE1.330-50003C3,BASEDONTHEARRHENIUSCURVESINREFIII11IIIIIIIIIIIIIIIIIIIlsDOCU)(ENT
 
==REFERENCE:==
NOTES!1.FORCONPLETEENVIRONNENTALCOHDITIOKS,IsFROTHLEVEL?HAEQUIPMENTOPERARILITYTINEDATASHEET:2ALLNATERIALSIHTHESMITCHGEARSHOM(LTRQUALIFIEDLIFESUBSTANTIALLYLONGERsIDOCUNEHTATIONACCEPTABILITY'iTHAN40YEARSi100DAYSATAVERAGEI(ACCEPTABLETOKUREG0588,CATllasTENPERATUREOF95FTOMHICHTHESMGRISQUALIFIEDBYVENDOR.SINCEKNP2SM6RISOPERATEDAT89F,RATHERTHANII95F)ASQUALIFIED)ADDITIOHALOPERATIONTINEBEYOND100DAYSPOST-tNAIHT/SURVEILL"--
 
==IREFERENCE:==
2lQUALIFIEDLIFE---I(YEARS)l40REFEREHCEl2IIIIIIACCIDENTISAVAILABLE.I41VEHDORTESTEDVALUEINCLUDESCONBINEDIVALUEOFBOTHACCIDENTANDNORNALRADIATIONVALUES~II11II11IIII(IIIIIltI
 
HlHEMILEPDIHT-UHIT2DOCKETNUMBER50-410QUALREF0PBOOABQREV0<<sSYSTENCOMPONENTEVALUATIONHORKSHEETPAGE1OF120-Dec-84.~<<<<I<<Ig<<>><<alRal>>~<<<<I<<Ijg<<p<<<<51NENVIRONMENTALCONDITIONSAHDQUALIFICATIONtEQUIPMEHTDESCRIPTIOHII(---ccaiosaeRsc<<05$I(EQUIPHO:B22-N073CLSPECHO,:aSYSTEMlaHUCLEARBOILER(TYPE)(DESCRIPTIOH)ILEVELTRANSNITTER)MANUFACTURER:RDSEMDUHTIMDDELHO.:11536,ISRFETYFUNCTIONSIREACTORl(ATERLEVEL-aSAFEGUARDSACTUATIOHtOP.CODElAIIIIIRCCURACY"-(NOTE4)aSPEC;>/-BXDEMOl=<t/-GXII(ZONEHo.lSC261145IFLOODLEVELIELEVATIOH;HA)ABOVEFLDODieLEVEL'?HAIABOVESPRAY/IFROTHLEVEL'?HAteiDOCUMEHTATIONACCEPTABILITY'HUREG0588,CATIQUALIFICATIOHINPROGRESSl(NOTE3)IIIMAIHT/SURVEILL---
 
==REFERENCE:==
LATERIIsQUALIFIEDLIFE---(YEARS)tLATERREFEREHCE:IIIIIlI'DOCUMENTREFERENCE<ItPARAMETERISPECIFIEDIQUALIFIEDItQUALtNRRBIHIREMARKSIIIIII(ItaHOTESc(CONTINUED)sl5.NORMALRHDABNORMALTEMPERATURESlsiARESIMULATEDBYACCELERATEDAGINGsaASDOCUNENTEDIHREFERENCE2~llIIIIIIIIII11IIIIllTHEDEVICEAHDFORTHEMOSTLINITIHBCONTRIBUtOR(I.e.',RRDIATIOH)TOIHACCURACY.VERIFICATIONOFaACCEPTRBILITYOFDEVICEAPPLICATIOHIMILLBE,COVEREDUNDERASEPARATEaPROGRAM'USIHBTHEPROPOSEDMETHODSOFITHELICEHSIH6REVIEHGROUPll(LRG"ll)eSETPOIHTNETHODOL06YPR06RAN.THERE-aSUL.TSOFTHISSEPARATEPROBRANHILLBEIISSUEDPEHDIHGHRC(IC6B)APPROVALOF'THELR6SETPOIHT.IIIVALUEIVALUEISPECIFIEDIQUALIFIEDIMETHODIDEMOIIeIIIIIII<zsIslOP~TIMEcI100DAYSs100DAYSs3I2IANtDATAIYESLITEMP(F)~IIItIIINOTEIslNORMALI85ISEEHOTESI1I2ITEST-SIMIHAINOTE2lsABHORMALL87ISEENOTESI1i2ITESTSINIHAINOTE5eaACCIDEHTI200I318III2sTESTSIMaYESssPRESS(PSIG)I-----I--"--I-----I-----I"""--I---I-NOTE1IIHORMALaAT)LOSaATMOSIII2aTEST"SINIHAIasABHORMALIATMOSISEEBELONI1I2IHAIHAIlsACCIDENT)2,8I63I1a2ITEST-SIMIYESII'RH(X)'-"---I"-""-'---"I"-"--'""--I---I-NOTEIIINORMALI50ISEEBELOHI1t2IHAIHAItaABNORNALI50ISEEBELONI1I2IHAaHAaetACCIDEHTt100ISTERN/100I1I2ITESTSIMI=HAIslRADIATIOH'--""-I-----L-----t-->>-"I---"-I---s-HOlEItsHORNGANMAI7.7E5tIHCLBELOHsII2aHA'HRIIiaACCGAMMAI2.6E6I2'E7III2ITEST-SINIYESIIIHORNBETA,'AISHIELDEDtII2(HAlHAIIACCBETAaI6E7ISHIELDEDI1I2INAI'AIIHEUTROHLHAliHAI't2IHA''AII(SPRAYIHAIHAIII)IAIHAIIISUBMERGEHCEIHAIHAIIHAIHAII==IIIIIIIIIIIIIDDCUMEHTREFEREHCE'OTES:1~FORCOMPLETEENVIRONMENTALCONDITIONS)Ilt1EQUIPMEHTQUALIFICRTIOHEHVIRONNEHTALDESIGNSEETHEDOCUMENTREFERENCED.aItCRITERIAIEQEDC-IrREVIsMRY2s1984.2.NORMALTEMPERATURESARESHONHASIII2VEHDORENVIRONMENTALQUALIFICRTIOHREPORTsMAXDESIGN/AVERA6E.IeSDDF53.QURLIFICATIDHDOCUMEHTATIOHIHI1(3EQUIPMEHTOPERABILITYTIMEDATASHEET'ROGRESS.SCHEDULEDPUBLICATIONISFEBRUARY,1985.4,THEACCURACYISEXPRESSEDAS'PERCENTAGEOFTHEUPPERRANGEDF
 
NINENILEPOINT-UNIT2DOCKETNUHBER50-410SYSTEMCOHPOHEHTEVALUATIONMURKSHEETPAGEIOFIQUALREFaPBOOAEXREV020-Dec-84~<<>><<<<<<~ENVIRONNENTALCDHDITIOHSANDQUALIFICATIONssEQUIPHEHTDESCRIPTIONal'IDOCUHENTREFERENCEsssl==============================asPARAHETER(SPECIFIEDaQUALIFIEDIeQUALIHARGIHIREHARKSeaVALUEsVALUEaSPECIFIEDaQUALIFIEDsHETHODIDEHOIssEQee1asashQesseaaen.Nee.nnlAss--s---s-ss-ssssC41F004hssssssssssISPECHO.:21A9370ABllOP.TINEA'1HOURISEENOTESI3I2ITEST-IDENTIYES'OTE3ISYSTEN:ssTENP(F):I-----a"--"-I-----a-----s-----e---e-NOTEIsSTANDBYLIQUIDCONTROLeaHORHALa103sSEEHOTESa1I2IHAaNAIslsABHORHALs141sSEENOTESIIs2IKAINAaHOTE4saTYPEl(DESCRIPTION)IaACCIDENTas175s'00I1ss2(TEST-IDENTsaYESasaCONTROLVALVE(EXPLOSIVE)l(PRESS(PS(6)I-----a-----I-----a-----5-----a---a-NOTEIsalKDRHALIATHOSIHAsII2sHAsHAIsalABHORHAL(ATHOSIKAa1a2aHAsNAIsIHANUFACTURERlCOHAXCORPssACCIDENT(28a165(1a2eTESTIDENTeYESsIIRH(X)'-----(-----'----'----I-----I---I-NOTE1sIHODELNO.:1832-159-01(VE)esNORMALa50aHAaIa2sHAsHAesI1532-159-01(REPLACEHENTKIT)ssABHORNA(.a90eNAIIa2INAaHAaSAFETYFUNCTION:---IaACCIDEHTI100e100I1I2eTEST-IDENTIYESasSLCINJECTIONVALVE''RADIATIOH'-----'----'----'----'----'--'NOTEIsseHORN6AHNAI4.9E4ISEEBELOMI1I2aNAaNAasIIACCGAHHAIl.19E4I4.IE5III2ITEST-IDENTIYESIHOTE5sOPCODE:AIIHORNBETAaNAsSEEABOVEIIs2INAsHAssaaACCBETAI1.2E5ISEEABOVEaII2aHAeHAaiNEUTRONaHAsHAI1I2(HAsNAaI(SPRAYaKAsKAIssHAINAsACCURACY--IISUBHERGENCEaHAsKAII-'AeHAIcess:n~Messs>>ssSPEC~NhsssDEHO:HAssssssessss>ZONENO.tSC28'9155aFLOODLEVELlaDOCUHENT
 
==REFERENCE:==
NDTES:1.FORCOHPLETEEHVIROHNEHTALCONDITIOHS,IELEVATIOH:NAlsI,EQUIPHENTQUALIFICATIONENVIRONNENTALDESIGNSEETHEDOCUHENTREFERENCED.IABDVEFLOODeaCRITERIA,EQEDC-I,REV1,NAY2,1984.2.HAINTEKANCEREQUIREHEHTSINORDERsLEVEL?HAss2.VENDORENVIRONHEKTALQUALIFICATIONREPORT)TONAINTAIHQUALIFIEDLIFE(REPLACEIaABOVESPRAY/IISDDFI(6EHEDC-30713)PRIHER/TRI66ERASSEHBLYAHDINLETsFROTHLEVEL?NAla3.EQUIPHENTOPERABILITYTIHEDATASHEET:FITTIH6EVERY3YEARS,ss3.THEVALVESELF-ACTUATEDAFTER34HIHaDOCUHEHTATIONACCEPTABILITY'lOFEXPOSURETODESIGNBASISLOCACONDIIACCEPTABLETONURE60588,CATIIIIANDDENOHSTRATEDTHEOPERABILITYOFsPERNEDE24326-I-PIeEXPLOSIVECHARGEINITSEND-OF-LIFEssCONDITIOH.THEPRESSUREBUILD-UPIHIsUNVEHTEDCHARGEeDUETOAGINGANDH16HI55'EHPERATURESINCREASESTHEVOLATILITYssHAINT/SURVEILL-NDTE2leOFTHEEXPLOSIVEANDRAISESTHEaaREFEREHCE:2IIHOTES:(CONTINUED)PROBABILITYFORIHADVERTENTSELF-ACT-sses5,THESPECIFIEDVALUEREPRESENTS10XUATION.SELF-ACTUATIOHOPENSTHEIQUALIFIEDLIFE---liOFTHE1HOURTOTALINTEGRATEDVALVEISACHAN6EINTHESAFEa(YEARS):40YEARS(NOTE2)s5DOSEFORDESIGNBASISLOCACONDITIONS,'IRECTION,ssssss
 
==REFERENCE:==
24.NORMALAHDABHORHALTEHPERATURESTOOlaMHICHTHEEQUIPNENTISSUBJECTEDMEREaSIHULATEDBYACCELERATEDAGINGASIDOCUHEHTEDIHREFEREKCE2.s
 
NINENILEPOINT-UHIT2DDCKETNUMBER50-410QUALREF4PBOOAFNREV0SYSTEMCOMPONENTEVALUATIONMORKSHEETPA6EOF120-Oec-84'>>IENVIROMHEHTALCONDITIONSANDQUALIFICATIONEQUIPMENTDESCRIPTIOH11IlDOCUMENTREFERENCEaIII>ttPARAMETER,(SPECIFIEDlQUALIFIEDIQUALlHARGIN(REMARKSsisEQUIPNO.tC51-K001AaSPECNO)112C2276(SYSTEMSHEUTROHMONITORINGIIaTYPE)(DESCRIPTIOH)IPULSEPREAMPLIFIERIIIIaHANUFACTURER:GEIIIHODELNO:(12C2276IIISAFETYFUNCTION:I"HOSAFETYFUNCTIONIIIIO(OP~CODEIC(REF2)IACCURACY--ISPECsMAIDEHOlHAII(ZONENO.:SC240135siFLOODLEVELsELEVATION'A(ABOVEFLOODLEVEL?HAtABOVESPRAY/IFROTHLEVEL?HAIIIDOCUHENTATIOHACCEPTABILITY:lACCEPTABLETONURE60588,CATIIaPERHEDE24326IPIIIIIIlHAINT/SURVEILL---
 
==REFERENCE:==
HAIIIQUALIFIEDLIFE---(YERRS):NAOsiREFEREHCElIlaVALUEIVALUElSPECIFIEDlQUALIFIEDaMETHODlDEMOtI>>>>I>>>>IIIIIIIIIIIIIII>>>>II(OP.TIHEllNAIHA13I"'(FHEAsNAs(TEMP(F)'Islt"IsNOTE1NORMALl90lNAl1l2lNAlNAlNOTE2slABNORHALI96tNAIII2IHAlHA'IslACCIDENTt175lNAt1I2IHAaHAIlIPRESS(PS(6)l-----I-----'----'""--'----I---I-NOTEIslHORHALIATHOSIHAI1I2(NAIHA11ABNORt(ALlATHOSINA1Ia2IHAlHAstACCIDENT(28INAl1t2INA1(RH(X)lII"Ita(lNOTEIllNORMALa50lNAI1I2INAIHA11ABNORHALI90lHAl1l2IHAit(AI<<lACCIDENT(100IHA(1I2IHAlHAIl(RADIATION:I-----(---'--t----"l-----l---"-t---l-NOTEIelHORHGAHHAI3.6E5eHAI1l2lHAlNAIsiACCGAHHAI17E7IHAI1l2iHAiNAttHORNBETAINAsHA=l1i2iNAINAetlACCBETAI6'E6aHAIIl2IHAINAIaaHEUTRONIHAIHAIIl2IHAIHAtaSPRAY(NAIHAIMAIHAItaSUBHERGENCElNAIHA(NAIHAII>>>>--IIIIIIIIIIIIIIIIIIIII11DOCUHENT
 
==REFERENCE:==
MOTES:1,FORCOMPLETEENVIRONMENTALCONDITIONS,Iaal.EQUIPMENTQUALIFICATIONENVIRONMENTALDESI6NSEETHEDOCUMENTREFERENCED.11CRITERIA,EQEDC"1,REV1,HAY2,1984.2.NORMALTEMPERATURESARESHOMHASII2~VENDORENVIRONMENTALQUALIFICATIONREPORT,HAXDESI6H/AVERAGE.tsSDDFI(6EHEDC-30422)EQUIPHEHTOPERABILITYTIHEDATASHEETlIIIIliiIIIIII11IIIIII11II11IIIIIIIIIIIIIIIIIIII
 
HIHEMILEPOINT-UHIT2DOCKETNUMBER50-410QUALREF4P800AJXREV0SYSTEMCONPOHEHTEVALUATIONWDRKSHEETPAGE1OFI20-Dec-84~~t~See<<t5<<>>>~~EQUIPMENTDESCRIPTIONssssENVIRDNMENTALCONDITIOHSANDQUALIFICAT(ONsssIstDOCUMEHTREFERENCEs>>tlPARAMETERISPECIFIEDsQUALIFIEDIaQUALIMAR61NsREMARKSlEQUIPHOlE22-N055ClSPECHO.:184C4775(SYSTEM:H16HPRESSUREsCORESPRAYss(TYPES'DESCRIPTION)ILEVELTRANSMITTERssI(MANUFACTURERS6OULD,IHC,ssaMDDELNO.:PD3218aSAFETYFUNCTION;sHIGHSUPPRESSIOHPOOLaLEVELsssOP.CODE:Assssss(ACCURACY--SPEC:+/-6.8'H20sDEMO:(+/-6.8'H20ss(ZONENOlSC175105aFLOODLEVELlELEVATIOHlNAaABOVEFLOODLEVEL?HAaABOVESPRAY/FROTHLEVEL?HAas(DDCUMEHTATIOHACCEPTABILITY:HUREG0588CATlQUALIFICATIONIHPROGRESS(HOTE3)sses(MAIHT/SURVEILL---sREFEREHCE:HAsssQUALIFIEDLIFE---lYEARS):15YEARSs
 
==REFERENCE:==
2ttsVALUEIVALUEaSPECIFIEDtQUALIFIEDaMETHOD(DEMOssssssssssa"si1-a->>---s------s----0--a-c-I----s------s->>---"--s----s---------sisisOPTIME'24HR(50DAYa3a2eTESTIDENT(YES,sssTEMp(F)(sssssasNOTEt(ORMALI85lSEENOTESl1I2lTEST-IDENTlHAINOTE2ABHORMALl104aSEENOTES(Il2(TEST"IDENTIHAINOTE4laACCIDENTl175a290IIt2aTEST-IDEHTsYESa''PRESS(PS(6)(-----'----'---"'---"'----'--'NOTEIHNORHALIATMOSlSEEBELOWs1I2I,HA'HAsttABNORMAL(ATMOStSEEBELOWIII2sHAIHAtsACCIDEHTs2.8l17's1s2aTESTIDENTIIttRH(X)'"---"'---"(---"-I-"---'----'-"a-NOTE1asNORMALI50,sSEEBELOWsI(2IH(}IHAaa(ABHDRHALl90iSEEBELOWl1s2iNAINAltsACCIDENTI100s100aII2aTEST"IDENTtHAs''RADIATION'-----'---"'----'---"'-"--'--'NOTEtt(NORMGAMHAt1.(E7iSEEBELOWIII2INAIHAa(iACCGAMMAI90E6a535E7I1s2aTESTIDENTIalNORMBETAaHAsSHIELDEDsIi2aHAsHAalaACCBETAIla2E7sSHIELDEDa1s2aNAIalaHEUTROHIHAsNAaIa2aNAIatsSPRAYINAaHAaaNAIHAsasSUBMERGEHCEaHAINAIsHAtHAIlls0asssssassaDOCUMEHTREFERENCE)NOTES:I.FORCOHPLETEENVIRONMENTALCOHDITIONSstat1.EQUIPMENTQUALIFICATIONENVIRONMENTALDES16NSEETHEDOCUMENTREFERENCED.aaCRITERIA,EQEDC-l,REV1,MAY2,1984.2.HORHALTEMPERATURESARESHOWHASls2.VENDORENVIRONMENTALQUALIFICATIONREPORT,MAXDESIGN/AVERAGE.tlSDDF43,QUALIFICATIONDOCUMENTATIONlt3EQUIPMEt(TOPERABILITYTIMEDATASHEETSIHPROGRESS.SCHEDULEDPUBLICATIONISFEBRUARY)1985,tt4.NORMALANDABNORMALTEMPERATURESIlltARESIMULATEDBYACCELERATEDA61HGseASDOCUMENTEDINREFERENCE2.saasssssssas\ssssssssIassssssssIsIssassssssssssIss
 
NINENILEPOIHT-UNIT2DOCKETNU)(BER50-410~IS~ISQUALREFIPGOOAOMREV0SYSTE)(CO)(PONENTEVALUATIONMORKSHEETPAGE1OF1ENVIROHHENTALCOHDITIOHSANDQUALIFICATIOH20-Oec-84EQUIPHEHTDESCRIPT(OHIallailDOCUNENTREFERENCE=ltPARANETERlSPECIFIEDlQUALIFIEDIQUALtt(ARGIHtIIIIIIREKARKSVALUE1VALUEISPECIFIED1QUALIFIEDIHETHODIDEl(OaIIIEQUIPHO.:E31-N092lSPECHO)163C1563ISYSTEHlILEAKAGEDETECTIONII(TYPEE(DESCRIPTIOH)IPRESSURETRANSMITTERIIIIatlAHUFACTURER'OSEt(OUNTIIltlODELNO.:(151IItSAFETYFUNCTION:PRESSUREINTEGRITY/Cl.ASSlEASSOCIATEDI(OPaCODE)8(REFERENCE2)IIIIIACCURACY"-SPEC:NADEMO:NAItLONEHO.lSC261145)FLOODLEVELIELEVATIOH)NAIABOVEFLOODLEVEL'?NAIABOVESPRAY/aFROTHLEVEL?HAI)DDCUHEHTATIONACCEPTABILITY:aACCEPTABLETGHUREG0588,CATtPERHEDE24326-1-PIIIIt(NAINT/SURVEILL---REFERENCE)NAIItQUALIFIEDLIFE---(YEARS):15tREFEREt(CE:2II--II<<I<<<<I<<>>IIAH4DATAl,NAa(OP,TI)(E:INAsNAs3l2I-'----t"--t-NOTEINA1NAlNOTE2'(TE)(P(F)'tNORHALt85sSEENOTESI,1l2laABHOR)(AL(104ISEEHOTESai1l2laACCIDENTI200a>200I1(2IHAtNAtNOTE3IAN~DATA1YESII'PRESSlPSIG)'-"--'----'----'---IIaNOTE1INAaNAaINAINAaaaNORNAL1AT)(OSIHAa1a2ABHORNAUHAINAI112IIACCIDENT)2.8aNAI1I2''RH(X)'lNOR)(AL150lNAI1t2saABNORNALi90tHAI1a2NAINANOTEIINAINAaiaNAINAIIACCIDENTI100a100I1I2'RADIATIOH'IIasNDRHGAHHA(1,1ESlit(CLBELOMlIa2IAN)DATAlNAtNOTE1lNAtNAIAN>DATAtYESaNAlNAlttACCGANNAs2a3E7sl<3EBI1t2laNORHBETAaHA(SHIELDEDIIl2II'IIIIIIIIIIII~IIII(IIIIIIIIIIIIIIIIREFERENCE2.IIIIIIIIIIIIIIIIasACCBETA's63E6aSHIELDEDI1i2INAINAIaaNEUTRONaat(AINAtIt2(HAlNAIslSPRAYIHAINAIaHAINAa(SUBHERGEHCE(NAIHAaIHAIHAIIIIII~IIIIIIIIIIIII(llDOCUMENT
 
==REFERENCE:==
NOTES:1.FORCOMPLETEENVIRON)(ENTALCONDITIONS,Ila1EQUIP)(ENTQUALIFICATIOHENVIROHHEHTALDESIGNSEETHEDOCUMENTREFERENCED~saCRITERIA)EQEDC-I)REV1)t(AY2,19842ABNORMALTEKPERATURESARESHOMNASta2VENDOREHVIROHNENTALQUALIFICATIONREPORT)HAXDESIGN/AVERAGE.lSDDF4(GENEDC"30409)3HORHALAHDABHDRKALTE)(PERATURES1asi3,EQUIPHEHTOPERABILITYTlt(EDATASHEETlTOMHICHTHEEQUIPMENTISSUBJECTEDlMEREACCDUNTEDFORIHTHEACCELERATEDlAGINGANALYSISASDOCUNENTEDIN
 
APPENDIXCReplacewithexistingAppendixCtabfromVolumel.
 
380380TESTPR0FILEP413TLIMITSWITCHES320300280280220n.2001801OO120100L0Q(TIMEINMINUTES)1009080e=.--TESTPR0FILEP413TLIMITSWITCHES503020100LOG(TIMINMINUTES)TESTPROFILEDATAFORP413TLINITSWITCHESTINELO6(NINUTES)TENP(F)PRES(PSIB)TINE(NIN)030sec50sec7hr7.5hr-3.00-0.30-0.082.622'51003703403403200100100100750.0010.50,83420450Iday2days3.163.463202607510144028804days5days30days3.763'64.642602002001010105760720043200
 
350TESTPR0FILFP413TSOLENOIDVALVES30O2504200I150100I-11LOC(TlMEINMINUTES)11010000~eoTES'TPROFILEP413TSOLENOIDVALVESCfiCL1JJCACll4JCLTO504020100-11LOC(TlMEINMINUT'ES)TESTPROFILEDATAFORP413TSOLENOIDVALVESTINELOSININUTES)TENP{F)PRES)PSI6)TINE<NIN)0Bain3hr3hr-3.000.902.262'603463463200110110750.0018180180.14days26days3.764.57250200150576037440
 
ACCIDENT,C0NDITI0N180ZONEABN1T50517'0180150I-140150120I110100-20,LOGQTIMEINMINUTEQ)ACC.IDENTC0NDITI0NZONEABN1750$2.82.82.422C/l1.81.81.4c/71Clllal10.80.80.40.200,,4LOG(TIMEINMINUTES)ACCIDENTCONDITONFOR1ONEABNI7503--4'CICDERHELDinSecondaryContainaentTEHPERATTIHELOB(HINUTES)TEHP(F)TIHE(HIN)PRESSURETIHELOB(HINUTES)PRES(PSIB)TINE(HIN)URE0-4.00104000010-40000.00011.0sec100sec-1.770.221751750.0171.67ihriday1.783.161501256014403days10days100days3.644.165.161151041044320144001440001.0sec100secihr3hrslday10days100days-1.770.221.782.263.164.165.162828130803000.0171.6760180144014400144000
 
ACCIDENTC0NDITI0NZONEMST2404434033032O3103002002802'BO2502402302202102001SIO1801TO1BO1%0140-204.I0G(TlMEINMINUTES)ACCIDENTC0NDITI0NZONKMST24044282820181B14121004-202I0G(TIMEINMINUTES)ACCIDENTCONDITIONSFORZONEHST24044--HainSteaaLineBreakinHainSteaaTunnelTURE00,05sec"4.00-3.101403400.00010.0008E-TEHPERATIHELOS(HINUTES)TEHP<F)TIHE(HIN)PRES8URTIHELOS(HINUTES)PRES(PSIG)TIHE(HIN)Ssec-1'03400F0800.(secisec-4.00-2.77-1'7020200.00010.00170.01710sec1hr(day10days100days-0.771.783~164.165.16275275175i401400'7601440144001440002secSsec10sec1hr1day10days100days-1'8-0.89-0.771.783.164,165.1627'27'50.80,3000.0330.130.1760144014400144000
 
ACCIDENTC0NDITI'NZONEPC1751012202102001901801701BO150130120110100BOLOG(TIMEINMINUTES)ACCIDENTC0NDITI0NZONKPC17510130201510LOG(TIME24.INMINVTES)ACCIDEHTCOHDITIOHSFORZOHEPC175101--DesignBasisAccidentAnalysisPriearyCantainaentTEMPERTIMELOS(MIHUTES)TEMPIj)TIME(MIH)PRESSUTIMELOS(MIHUTES)PRES{PSIS)TIMEIMIH)ATUR0-4.00900.0001RE0-4.0000.0001E0.5sec2hr-2.082.081502000.008333120lsec6hr-1.782.5640400.0166663606hrlday10days30days100days2.563.164.164.645.162122121501359036014401440043200144000lday5days10days30days100days3.163.864.164.645.162510750.8144072001440043200144000
 
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NineMilePointUnit2EQDAPPENDIXDWILLBEPROVIDEDINAFUTUREAMENDMENTAmendment16D-1December1984
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Latest revision as of 13:24, 9 January 2025

Valcor Valves & Gordos Limit Switches
ML17054D432
Person / Time
Site: Surry  Dominion icon.png
Issue date: 05/28/1982
From:
NUS CORP.
To:
Shared Package
ML17054D434 List:
References
QDR-5437-245-01, QDR-5437-245-1, NUDOCS 8303110359
Download: ML17054D432 (260)
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