ML17229A097: Difference between revisions
StriderTol (talk | contribs) (Created page by program invented by StriderTol) |
StriderTol (talk | contribs) (Created page by program invented by StriderTol) |
||
| Line 14: | Line 14: | ||
| document type = TECHNICAL SPECIFICATIONS & TEST REPORTS, TEST/INSPECTION/OPERATING PROCEDURES | | document type = TECHNICAL SPECIFICATIONS & TEST REPORTS, TEST/INSPECTION/OPERATING PROCEDURES | ||
| page count = 30 | | page count = 30 | ||
}} | |||
=Text= | |||
{{#Wiki_filter:TR-9419-CSE96-1101,Rev.0Attachment2Page1of23Attachment2TestProcedureandCompletedDataSheetsqezoa80<04qesm4PDRADQCK05000335,PPDRABBCombustionEngineeringNuclearOperations TR-9419-CSE96-110Attachment2Page2of23TP-9419-CSE96-2104,Rev.0Page1of11TestProcedureSteamGeneratorTubeIn-SituHydrostaticPressureTestToolHydroChamberPressureDeterminationProcedureNo.TP-9419-CSE96-2104Rev.0ABBCombustionEngineeringNuclearOperationsPreparedBy;ReviewedBy:54'cdt.4c~KF.AUea.CoaaeeheneEnynocrDate;ApprovedBy:+CeMerero+J.F.HalLFrmcepalCDate:ApprovedBy.J.D.FcrreLManager.FieldrOpcranexnABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page3of23TP-9419SE96-2104,Rev.0Page2of11TableofContentsSectionntentsP~aeNolo203,04.05.06.0ObjectiveReferencesQualityAssuranceDiscussionandBackgroundPrerequisitesLimitationsandPrecautions70TestProcedure7.172StaticTestDynamicTestFigure1DataSheet1,StaticPressureTestDataSheet2,DytmnicPressureTestDataSheet3,RemarkContinuationPageAttachment1FaxedcoversheetwithReviewandApprovalSignatures10ABBCombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,-Rev.0-Attachment2Page4of23TP-9419-CSE96-2104.Rav.0Page3of11I.OObjectiveTheobjectiveofthistestistodeterminetherelationshipbetweenthehydropumpoutletpressure,thehydrochamberpressureandthesealbladderpressureunderflowconditionsforthesteamgeneratorlocalizedin-situpresswetesttools.Inaddition,statictestingwillbeperformedtoestablishabaselinerelationshipundernon-flowconditions.Thedataunderflowconditionswillbeusedtoensurethatintheeventofaleakingdefectindication,theleakagerateismeasuredattheappropriatepressure(s)withinthehydrochamber.Testingwillbeperformedonboththeaxialandcircumferentialtools.20References2.1QAM-100,FourthEdition,Revison42.2FinalTestReportfortheSteamGeneratorTubeIn-SituHydrostaticTestTool.TR-ESE-'030,Rev,00,T.R.No.83D,datedApril5,1994.3.0QualityAssuranceThetestdescribedhereinistobetreatedasSafetyRelated,QualityClass1,inaccordancewiththerequirementsinReference2.1.4.0DiscussioriandBackgroundReference2.2describesthedevelopmentandqualificationtestingforthelocalizedin-situtesttool.ThetooldescribedinReference2.2wasdevelopedtopressuretestprimarilycircumferentialdefectindicationsinsteamgeneratortubesatthetubesheetregion.Itisalsoapplicabletothetestingofaxialindications.Anadditionaltoolwasevolvedforthctestingofaxialdefectswhicharegreaterinlengththanthosewhichcanbeaccommodatedbythehydrochamberinthcoriginaltool.Sincethetooldesignforthecircumferentialdefectshasgreaterrestrictionsthanthoseforaxialdefects,thctestreportisboundingfortheaxialtool.Thelocalizedtesttoolcontainstwopressurecircuits;oneforsealandgripperbladders,andoncforthehydrochamber.Thehydrochambercircuitispressurizedbyanairoperatedpositivedisplacementpump.Thebladdercircuitispressurizedbyeitheranairoperatedpositivedisplacementpumporahandpump.Thepositivedisplacementpumpsusedinthesystemareabletomaintainaprecisecontrolatagivenstaticpressure.Underflowconditions,suchasthoseexperiencedduringatubeleak.thepumpdischargepressurefluctuatesbetweenahighandlowlimitwitheachpumppulse.Themagnitudeofthisbandisafunctionoftheflowrateandtherestrictionswithinthehose/toolassembly.Duetothesedynamicheadlosses,theactualpressureinthchydrochamberwillbelessthanthatobservedatthepumpdischarge.ABBCombustionEngineennpNuciearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page50f23TP-9419-CSE96-2104,Rev:0Page4of11Reference2.2describestestingwhichwasperformedunderflowconditionstoestablishtherelationshipbetweenthehydropumpdischargepressureandthehydrochamberpressure.Thistestconsistedofmeasuriiigtheswingofthepressuregaugeatthedischargeofthehydropumpatvariousleakratesataninitialstatichydrochamberpressureof4,000psigasdirectlymeasuredinacontrolledleaktestfixture.Implementationofthisdatainanin-situfieldtestrequiresaniterativeprocessasthehydrochamberpressureisnotdirectlymeasurable.Theprocessinvolvesmatchingthepumpdischargepressureswingrelativetothedesiredpressureandobservethepumpstrokerateascomparedtothedatainthetestreport.Inaddition,thetestreportexplicitlystatesthattheleakratecorrectiondataapplyonlytotheas-testedconfiguration.ForthetestingatSt.I.ucieUnitI,itwasrequestedthatthecapabilitybeprovidedtotestinthestraighttubeportionsatelevationswellabovethetubesheet.ThisnecessitatedthefabricationofhoseslongerthanthosedescribedinReference2.2.Fornonleakingdefectindications.thelengthofthehosedoesnotaffectmeasuringthedesiredpressureinthehydrochamberasthesystemisstaticandthepressureisequaltothatatthepumpdischarge.Forleakingdefects,thechangeinsystemresistanceduetothechangeinhoselengthdoeshaveaneffectonthedynamicresponseofthepumpdischargepressuregaugeanditssubsequentrelationshiptothehydrochamberpressure.Consequently,foraleakingdefect,theactualpressureinthehydrochamberisindeterminatewithoutadditionaltesting.Inordertodeterminethepressureinthehydrochamberwiththecurrenthoseconfiguration,twomethodswillbeconsidered.I)Hydropumpdischargepressureswingcorrelationmethod,and,2)Sealbladderpressureintensificationmethod.ItemlisthemethoddescribedinReference2.2.Item2isbaseduponanobservationduringlaboratorytestingandfieldapplication.Experienceduringprevioustestinghasshownthatthebladdercircuitpressureincreasesasitsinitialpre-chargepressureisapproachedbytheincreasingpressureinthehydrochamber.Thispressureincreasehasbeentermed'intensification.'ncethebladderpre-chargepressureisreachedinthehydrochamber,thebladderpressurewillincreasewithincreasinghydrochamberpressure.Thispressurehasbeenobservedtobeapproximately200-300psidunderstaticconditions.Itisexpendthattherelationshipwillbesimilarunderflow(leak)conditions.Establishingthisrelationshipwillprovideanaccurate,indirectmethodofmeasuringthepressureinthehydrochamberunderleakingconditions.Asthebladdercircuitisnotinaflowpath,therearenoheadlossestoconsider.Pulsationsmaybeevidentinthebladdercircuitduetothereciprocatingnatureofthehydropump.However,thesepulsationswillreflectthetruepressureinthebladdercircuitindependentoftheheadlossesexperiencedABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperations | |||
TR-9419-CSE96-1101,Rev.0Attachment2Page6of23TP-941&CSE96-2104,Rev.0Page5of11bythehydrocircuit.Byinference,thepressureinthehydrochambercanthenbedeterminNLThistestwillfocusonestablishingmethod2asthemethodofchoicefordeterminingthehydrochamberpressureunderflowconditions.However,additionaldatawillberecordedinordertoprovidefortheuseofmethod1shouldmethod2provetobeinvalid.50LimitationsandPrecautions5.1AsnotedinSection4,themethod1correlationisaFunctionofsystemdynamicresistance.Useofthetestresultsinmethod1correlationsislimitedtosystemswithanidenticalconfigurationtothattested.ThehoseconfigurationinthistestisidenticaltothatinFigure2ofReference2.2withtheexceptionthatthelengthofthe3/16"braidedhosehasbeenincreasedfrom30feetto50feet.Useofthelongerhoselengthinthetestwillqualifymethod2fo'ruseintheastestedconfiguration..6.0Prerequisites6.1Allpressuregaugestobeusedinthetestshallbeverifiedtobewithinthecalibrationperiod.NoteThetestprocedureisintendedtoprovtdeaprotocol.Itisnotintendedtolimitthetypeoftestingconducted.Asanexample,<<ddittonalpressuresmaybetestedorconditionschangedinordertoadapttolessonslearnedduringthetest.AnychangesoradditionsshaHberecordedandexplainedontheappropriatedatasheet.Blankdatasheetsmaybecopiedtoprovideforeachparameterchange.NoteMinorleakagemayoccurduringtheconductofthistest.Acceptabilityofleakagewithrespecttocontinuedoperationofthetestisatthediscretionofthetestoperator.However,anyleakageshaHberecordedintheremarkssectionofthedatasheet.70TestProcedureNoteThestatictestwillbeperformedusingboththecircumferential/axialtoolandthelongaxialtool.Theorderofperformanceisatthediscretionofthetestoperator.Datasheet1isusedtorecordinformationforthestatictest.A88CombustionEngineeringNuciearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-110'1.Rev.0Attachment2Page7of23TP-9419-CSE96-2104,Rev.0Page6of117,1.1Assemblethetestfixture,in-situtoolandpumpcircuitsasshowninFigurel.Recordthetool(circ.orlongaxial),hydropumppressuregauge,hydrochamberpressuregaugeandbladderpressuregaugeserialnumbersonthedatasheet.712Operatethebladderpumptofillthebladdercircuittubingwithwater.Pressurizethebladdercircuittoapproximately4,000psig~200psigandreleasethepressureatthepumpdischarge.Repeatthisprocessatleast10timestoremoveairfromthebladderCIrcuit.713Usingthebladderpump,pressurizethebladdercircuittoaninitialpressureof1,500psig=100psigasindicatedbythebladderpressuregauge.Observethepressuregaugereadingtoensurethattherearenosignificantleaks.Recordtheinitialbladderpressure90psighydrochamberpressureonDataSheet1.7,1.4Close/verifyclosed'theleakratecontrolvalve.NoteThestatictestistobeconductedattargethydrochamberpressuresof1,500,1,600,1,800,3,000,4,000and5,000psig.7.1,5Pressurizethehydrocircuittothetargetpressures100psigasindicatedbythehydrochamberpressuregauge.Observeforleaksandsteadypressurereadingsonallgauges.Recordallpressuregaugeasreadvaluesonthedatasheet.Repeatthisstepforeachofthetargetpressuresfistedonthedatasheet.7.1,6Ensureallnecessarydatahavebeenrecordedonthedatasheet,signatureanddatesignifycompletion.71,7Repeatsteps7.1.3through7.1.6foraninitialbladderpressureof2,000psig<100psig.71.8Repeatsteps7.1.1through7.1,7forthesecondtool.72~Dggj~gNoteThedynamictestwillbeperformedusingboththecircumferential/axialtoolandthelongaxialtool.Theorderofperformanceisatthediscretionofthetestoperator.Datasheet2isusedtorecordinformationforthedynamictest.72,1Assemblethetestfixture,in-situtoolandpumpcircuitsasshowninFigure1.Recordthetool(circ.orlongaxial),hydropumppressuregauge,hydrochamberpressuregaugeandbladderpressuregaugeserialnumbersonthedatasheet.ABBCombustionEngineenngNuciearOperationsABBCombustionEngineeringNuclearOperationsI+W'/ | |||
TR-9419-CSE96-1101Rev.0.-.Attachment2Page8of23TP-94194SE96-2104,Rev.0Page7af11,NoteIfthehydrotoolhasnotbetaseparatedfromthehose,thebladdercircuitdoesnotrequiredegassingandthefollowingstepisN/A.7,2.2Operatethebladderpumptofillthebladdercircuittubingwithwater.Pressurizethebladdercircuittoapproximately4,000psiga200psigandreleasethepressureatthepumpdischarge.Repeatthisprocessatleast10timestoremoveairfromthebladderCircuit.7.2.3Usingthebladderpump,pressurizethebladdercircuitto1,500psig~100psigasindicatedbythebladderpressuregauge.Observetheprcssuregaugereadingtoensurethattherearenosignificantleaks.Recordtheinitialbladderpressure0psighydrochamberpressureonDataSheet2.7.2.4Close/verifyclosedtheleakratecontrolvalve.NoteThedynamictestistobeconductedattargethydrochamberpressuresof1,700,3,000,4,000and5,000psig.Eachtargetpressurerequiresaseparatedatasheet.7.2.5Pressurizethehydrocircuittothetargetpressure+100psigasindicatedbythehydrochamberpressuregauge.Observeforleaksandsteadypressurereadingsonallgauges.Recordallstaticpressuresasthezeropumpratevalues.PNoteIterativeadjustmentoftheleakratecontrolvalveaadthehydropumpaircontrolregulatorwillbeforestablishingthedesiredpumpstrokerateatagiventargethydrochamberpressure.72.6Slowlyopentheleakratecontrolvalvetoestablishahydropumpstrokerateof20strokes/minutewhilemaintainingthctargetpressureasindicatedbythchydrochamberpressuregauge.Adjustthehydropumpaircontrolregulatorandtheleakratecontrolvalveasnecessary.Ifthehydrochamberpressureisnotsteady,adjusttothetargetpressureatapproximatelythemiddleoftheswing.Recordallprcssurereading'sonthedatasheet.Repeatthisstepforeachofthepumpstrokerateslistedonthedatasheet.7,2.7Ensureallnecessarydatahavebeenrecordedonthedatasheet,signatureanddatesignifycompletion.7,2.8Repeatstep7.2.4through7,2.7foreachofthetargetpressurevalues.7.2.9Repeatsteps7.2.1through7.2.8forthesecondtool.ABBCombustionEngineeringNuciearOperationsABBCombustionEngineeringNuclearOperationsA.h CD0)O0UCr/l0DfllD(O(D(D(0ZCorDQ0(D0DVlOO3FLtOfn4.g82',Q0II-lydroPumpIlydroPumpGaugeIn-SituToolSteamGeneratorTubeBladderPressureGaugeHydroChamberFigure1TestApparatusConfigurationHydroChamberGaugeLeakRateControlValveBladderPump TR-9419-CSE96-1101,.Rev.0Attachment2Page10of23TP-941&CSE96-2104,Rev.0Page9of11DataSheet1StaticPressureTestTool(circ.orlongaxial)InitialBladderPressnre~sigTargetHydroChamberPressureS1ObservedHydroChamberPressureS1HydroPumpDischargePressure(siBladderPressureSIHydroPumpDischargePressureGaugeNo.HydroChamberPressureGaugeNo.BladderPumpDischargePressureGaugeNo.Remarks:Completedby:NametSitsaaatreDate:Witnessedby:Name~signattleDate:ABBCombustionEngineenngNudearOperationsABBCombustionEngineeringNuclearOperations/+w~g TR-9419-CSE96-1101,Rev.0Attachment2Page11of23TP-941&CSE96-2104,Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ.orlongaxial)initialBladderPressurepsigHydroChamberTargetPressurepstgPumpRateStrokes/min0static20406080100HydroChamberPressure"'tMaximumMinimumHydroPumpDischargePressure"(siMaximumBladderPressure"'siMaximumMinimumNotes:i)Fornon-fiuctuaungpressurevalues.recordpressureasthemaximumpressureachieved.HydroPumpDischargePressureGaugeNo.HydroChamberPressureGaugeNo.BladderPumpDischargePressureGaugeNo.Remarks:Completedby:Name.SignamreDate:Witnessedby:Nuns.signamnDate:ABBCombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101~ev0.Attachment2Page12of23TP-941&CSE96-2104,Rev.0DataSheet3RemarkContinuationPagePage11of11Test(staticordynamicInitialBladderPressureTool(circ.orlongaxial)psigHydroChamberTargetPressurepstgRemarks:Completedby:.'raneisigaatureDate:Witnessedby:.'raaasignamreDate:ABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-11Gi~aLQAttachment2Page13of23Z8d~ZG'%Md'WLQi~M:LZ966TWV~~~$w~fgQ~pj'y6'Msprd-2l/gcuoTP-941~EBS-2104.Rev.0Pe1of11TestProcedureStcamGeneratorTubeIn4ituHydrostaticPressureTestToolHydroChamberPressureDeterminationProcedureNo.TP-9419CSE96-2104Rev.0ABBCombuarionEngineeringhhclearOperationsPreparedBy:6,5.cdnse:~6-o-LApprovedBy:aRA<4Kaaa~r,fic14geary~Dare:ASSCombuarionEnqinwringNaalaaroperationsJulLG'96l4:51ZGrZG'dG6Z~~tOltelicSSZG98TOTALP.82ABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page14of23TP-9419-CSE96-2104,Rev.0Page9of11DataSheet1StaticPressureTestTI('*.Ig'd)~initialBladderPressure~Is~sigTargetHydroChamberPressureS1/tabsIge'/Ossa4>ssnhatt~ObservedHydroChamberPressureSl5'oo/4"cHydroPumpDischargePressureS1I5oc(ge-rZo~3cc=sstC~oSte&OBladderPressureS1g)h3v~K'43$,0+HydroPumpDischargePressureGaugeNo.5,-Io-r~~lHvdroChamberPressureGaugeNo.A oo0BladderPumpDischargePressureGaugeNo.W-n'zo>MRemarks:Completedby:C~>z,,~<~k.'NacmsSilttgureWitnessedby:3I~<lol.VattseSittaatttreDate:4<<~~Date:~<a/RteABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperationsp+->) | |||
TR-9419-CSE96-11Attachment2Page15of23TP-941&CSE96-2104,Rev.0Page9of11DataSheet1StaticPressureTestTool(circ.orlongaxial)InitialBladderPressnre~gee=sigTargetHydroChamberPressureSI1Ir"oaQtteIOOtasse~ObservedHydroChamberPressures1I5owdtOCHydroPumpDischargePressure(si/tssoo305o~ee=misoaBladderPressure(si+2SoHydroPumpDischargePressureGaugeNo.rS-r-IWIHydroChamberPressureGaugeNo.FS-II-o3~BladderPumpDischargePressureGaugeNo.--o<MRemarks:Completedby:Ct=-~Vane;SilsatstrnDate:~"~8slatsseSttnatttrtsABBCombustionEngineenngNuoiearOperationsABBCombustionEngineeringNuclearOperations | |||
TR-9419-CSE96-1101-,-Rev.0Attachment2Page16of23TP-941&CSE96-2104,RN'.0DataSheet1StaticPressureTestPage9of11Tool(circ.orlongaxial)rQC.InitialBladderPressure~/3'ucsigTargetHydroChamberPressure(si/4oo'3oooQeo0OOObservedHydroChamberPressureSIgooIbm'7ogooHydroPumpDischargePressurestigeoISoel8oG3ccQdf(g~BladderPressure(siI$0020m-aSl~Ct~I5ogtgoz.HydroPumpDischargePressureGaugeNo.-l-oHydroChamberPressureGaugeNo.S-I-loO3~BladderPumpDischargePressureGaugeNo.S-(7-laO33Remarks:GI<tLfLH~~Q~:Aowg5~,%Qj-spo,~5th'K-(<)SQCaw,t"Is4saMiwWk.gICompletedby:C~u~~al-r~kstunstSirtaarttrcWiutessedby:.~f'f:.'IarrscSiltarttrcDate:<'>~<Date:~d-VdABBCombustionEngineeringNuotearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page17of23TP-9419-CSE96-2104,Revs0Page9of11DataSheet1StaticPressureTestTool(circ.orlongaxial)CQCInitialBladderPressnre~2seosigTargetHydroChamberPressureSIt~aO/bt4igo~.tsocddfdtOa~C~ObservedHydroChamberPressureSIlg)cf7~~gg~oeeoc~ooHydroPumpDischargePressureSIt5ctQsoIGcc3~BladderPressureSI'CooOtsst35'OQgaQ820~(t)Qg6~ZHydroPumpDischargePressureGaugeNo.5-i3-LdeelHydroChamberPressureGaugeNo.PS-il-eo3BladderPumpDischargePressureGaugeNo.5-I-leossRemarkS:()5c,4gc.40O~6-~d~~R.A~i~.-~J.~~ADO~~S(2XS<4Ittt.a~-~L1t2uSAootes)n~.~Qal(S~ttusaaZ~~.OaWf'0Completedby:C~t-./eP/aDF/~IC.'staaluSittaatttteWitnessedby:.Woi.'sameStttatttreDate:~6//ptsDate:Co-/(-~4ABBCombustionEngineeringNuotearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0-Attachment2Page18of23TP-9419-CSE96-2104,Rev.0Page10of11DataSheetZDynamicPressureTestrTool(circ.orlongaxial)5t0LinitialBladderPressureI>~>psigHydroChamberTargetPrmeurefkeiopdgPumpRateStrokes/minHydroChamberPressure'"stHydroPumpDischargePressure"(siBladderPressure"'tMaximumMinimumMaximumMinimumMaximumMinimum0(static)100/&5olpgao/guOl7o~l9cc5ptooI'7>t=eI7am/~>oflo&/go>/g@oj9co/EoOr9suNotes:t)Fornon-ftuctuaungpressurevalues.recordpressureasthemaximumpressureachieved.HydroPumpDischargePressureGaugeNo.6's-l7-lc~teyechbp*Gre.~BladderPumpDischargePressureGaugeNo.F5-l'7-l<<~9Remarks:Completedby:VgmgrSithggttyg(:7Date:<I~<Witnessedby:VgmgignanaeDate:6-il-CABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperationsp4-5i TR-9419-CSE96-1101~ev.0Attachment2Page19of23TP-941&ZSE96-2104.Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ,orlongaxial)%tALInitialBladderPressurele~psigHydroChamberTargetPressure38~~psigPumpRateStrokesimin0static)HydroChamberPressure'"SIMaximumMinimumMaximumMinimumQqooHydroPumpDischargePressure"'lBladderPressure"'sitMaximumMinimumgeoPZgl40.QjQ100'3looQ)v35~qDgqoC0'%coA/00f+ooQ7oooc$2Oe-/googazooNotes:l)Fornon-lluctuatingpressurevalues.recordpressureasthemaximumpressureachieved.HydroPumpDischargePressureGaugeNo.HydroChamberPressureGaugeNo.-s-ls-I49'BladderPumpDischargePressureGaugeNo.A-(7-Ic933Remarks:Completedby:C~gCI-i~5vametSiltatureWitnessedby:eci~VtStttanareeDate:~iA88CombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperationsr~-:< | |||
TR-9419-CSE96-1101,>ev0Attachment2Page20of23Tp-9419-CSE96-2104,Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ.orlongaxial)'i(>I>~>aq~~InitialBladderPressureIzc0psigHydroChamberTargetPressure+~4+psigPumpRateStrokes/minHydroChamberPressure"'tMaximumMinimumHydroPumpDischargePressure'siMaximumMinimumBladderPressure'"slMaximumMinimum0static)b+~8'I~o&20t8+ceo!liOQ7E)C)80100Notes:i)Fornon-fluctuaungpressurevalues.recordpressureasthemaximumpressureachevcd.HydroPumpDischargePressureGaugeNo.PS-l1-Io~~IHydChbPGgNBladderPumpDischargePressureGaugeNo.Cs-t7-too33Remarks:Completedby:.'raneisignanueDate:rl'<9<Witnessedby:vsiyeneeDate:6~i5'6ABBCombustionEngineenngNuctearOperationsABBCombustionEngineeringNuclearOperations+-3i TR-9419-CSE96-1101;.Re.e---Attachment2Page21of23TP-941&CSE96-2104,Rev.0Page10of11sr'rrTool(circ.orlongaxial)DataSheet2DynamicPressureTestlultlalBladderPressure~the-'hpsigHydroChamberTargetPressureJ1+0pslgPumpRateStrokes/min.HydroChamberPressure"'IHydroPumpDischargePressure"slBladderPressure"(siMaximumMinimumMaximumMinimumMaximumMinimum0static)l~~l1+~tgOO60Qgether~oDesWee]gCu1'Voa<A-ai~5Q/Qoc:IZcy>>I3o~IQ~odtI0t-"s/dr'eo/6OO/4tao/betol7ZOl7om7oog.Ietot75ot160rPcycpNotes:t)Fornon-fluctuaungpressurevalues.recordpressureasthemaxtmumpressureachiared.HydroPumpDischargePressureGaugeNo.s-i7-foalhidChIIhoh*ha.~BladderPumpDischargePressureGaugeNo.5 Ia>>>Remarks:loICompletedby;CvzaI-h~kVgtttchStttgtttyeWitnessedby:V.SittgtttggDate:~th/rrABBCombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperations TR-94'i9-CSE96-1101,,R&V.0Attachment2Page22of23TP-9419-CSE96-2104,Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ.orlongaxial)A~<fnitialBladderPressuret~cs~psigHydroChamberTargetPressure3t"SopsigPumpRateStrokes/minHydroChamberPressure"'lHydroPumpDischargePressure"'lBladderPressure'"Sl0static)MaximumMinimumMaximum%55C'ryosMinimum3/o"MaximumMinimum100>So~neso3~odle~7~o$rfoo'3goo$gOO9(oestqOsOQv~0~QclasOggoQQ~c2IL9'~o39~DNotes:l)Fornon-Auctuaungpressurevalues.recordpressureasthemmumumpressureachieved.HvdroPumpDischargePressureGaugeNo.55-I1-loooIHvdroChamberPressureGaugeNo.s-I-I~>~BladderPumpDischargePressureGaugeNo.E5-f'7-0~2~Remarks:Completedby:VasnersignantteWimessedby.!4.SignatureDate:>>~>Date:~~ricABBCombustionEngineenngNuclearOperationsABBCombustionEngineeringNuclearOperations'/fw/ | |||
TR-9419-CSE96.-'iiG1,MKLQ.Attachment2Page23of23TP-9419-CSE96-2104,Rev.0Page10of11DataSheetZDynamicPressureTestTool(circ.orlongaxial)ClP<initialBladderPressureI>~psigHydroChamberTargetPressure&3oapsigPumpRateStrokes/minHydroChamberPressure"ISIHydroPumpDischargePressure"'siBladderPressure"'siMaximumMinimumMaximumMinimumMaximumMinimum0static)20AO"+z.100~r~+geoH5~~gleQ~9~CI~o%5oog'leo93~Itoes3'3goo"f5~oq$ocsNotes:I)Fornon-fluctuaungpressurevalues.recordpressureasthemaximumpressureactueved.HydroPumpDischargePressureGaugeNo.FS.t1-/chooIHydroChamberPressureGaugeNo.S-l-toe>~BladderPumpDischargePressureGaugeNo.C"-tv-(eassRemarks:LowL~KlentCompletedby:Wane.sigaamceDate:b"<<Witnessedby:NameSigncunABBCombustionEngineeringNuciearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment3Page1of5Attachment3PressureGaugeCalibrationRecordsABBCombustionEngineeringNuclearOperationsp-4/ | |||
~~~~~~~~~~~~k~:~~.~.~~.~0IireeIa.~.~>~'~'CS~~~0I~~~~~I~'~~~~~~~~~~~~~~~~~~~f>IrHEMy~I5~~~'~'~'~'~~~~~~~~~'~~'~~~~~~~-~ | |||
~~~~~s~~~~>0~~Ier~~~~:~~~~~~4~.~~~I~~~~~~~~~~'~~~~~t~~~~I~~,~~~0~N'%mrf%58W~~J'~~'~'~~'~~'~~~'~~~~~'j-o~~IJi~~~~~~~-~ | |||
TR-9419-CSE96-11Attachment3Page4of5STO-400-159Rev.00ABB-CombustionEngineering~¹xclearOperationsPage5of5Attachment1CERTlFICATEOFCAUBRATlONinstrunlentTypeManufaaurerRange0-'O@ccracyMfg.SerialNo.C.ElONoP'5-(7/dbZBCalibrationDateCalibrationDueDateCalibrationDocument:glProcedure[)ManutacturersSpecificationsTestEquipmentUsedToPerformCalibration:TestEquipmentK~~SenalorIDNo.V-oo<TestEquipmentSerialorloNo.CAiJBRATlONRESULTSStandardValueAsFoundiAsLeft(CgStandardValueAsFoundAsLeftloCAUSRATIONHASafEHP&FORMEOUnUDNQMEASUREMEHTOfvlcf5WHICHH*vEKNOWNRELATIONSIII&ToNssSTANOAAOSWlifafSUCHST*NO*ROSKXIS.WHcfaf5UCHSTAHOARO5OoNQTQ(IST,AHA~QVEOIVOCOUREWAnicNIHACCOROAHCEWnlTHMAHUFA~iRfcL'5RECQMMfiIQATIQNSHA5BfcENUSEQAHOTHESTAHOAAOSOOCUMEHico.REMAR(S:1ACCEPTEO(1REJECTEDCALlBRATEDBY:ORGANIZATION:ABBCombustionEngineeringNuclearOperations TR-9419-CSE96-110~evQ.Attachment3Page5of5STD-400-159Rev.00ABB-CombustionEngineeringNuclearOperationspage5of5Attachment1CERTlFICATEOFCALIBRATlONInstrunlentTypeManufacturerRange0-raeevraeyg~2FSMfg.SerialNo.C-EIDNo.CalibrarionDateCalibrationOueDateCalIbratIonOacurnent.(+Pracedure~~~)Manufacturer'sSpecificationsRev.TestEquipmentUsedToPerformCalibration:TestEquipmentHI=ISL=SerialorIONo.~rrTestSquIonlentSerialorIONo.CALIBRATIONRESULTSStandardValueAsFoundlAsLen0Rl<iIlaof46IlocpQ<ciLaoCIIZlou'2lrr0I~i~If~Io~oI~IloIioloStandardValueAsFoundAsLeftCAUSRATloNH*5IEKHPEaIFORMKOUnUZINOMEASUREMENTQEVIC'ESWHICHHAVKKNOWNRELATIONSHIPSTaNesSTANQARQSWHERESUCHSTANOARQSKXISi.WHERESUCH5iANOARQ5QONOTEXIST.ANAPPROVEQPROCEQURWRITTENINACCOROANCEVIPiilTHEMANUFA~iRER'5RFCOarIMEVQATloaISHASBEgaIUSEOANOTHESTANOAROSQOCUMENa=O.R":MAR(S()ClACC:?T"=DIlR"=J"=CT"-OCALIBRAT"0BY:ORGAraNaIZATION:ABBCombustionEngineeringNuclearOperationsIg( | |||
}} | }} | ||
Revision as of 14:52, 25 April 2018
| ML17229A097 | |
| Person / Time | |
|---|---|
| Site: | Saint Lucie  |
| Issue date: | 06/10/1996 |
| From: | FORD J D, ORSULAK R M ABB COMBUSTION ENGINEERING NUCLEAR FUEL (FORMERLY |
| To: | |
| Shared Package | |
| ML17229A091 | List: |
| References | |
| TP-9419-CSE96-2, TP-9419-CSE96-2104, NUDOCS 9610280104 | |
| Download: ML17229A097 (30) | |
Text
TR-9419-CSE96-1101,Rev.0Attachment2Page1of23Attachment2TestProcedureandCompletedDataSheetsqezoa80<04qesm4PDRADQCK05000335,PPDRABBCombustionEngineeringNuclearOperations TR-9419-CSE96-110Attachment2Page2of23TP-9419-CSE96-2104,Rev.0Page1of11TestProcedureSteamGeneratorTubeIn-SituHydrostaticPressureTestToolHydroChamberPressureDeterminationProcedureNo.TP-9419-CSE96-2104Rev.0ABBCombustionEngineeringNuclearOperationsPreparedBy;ReviewedBy:54'cdt.4c~KF.AUea.CoaaeeheneEnynocrDate;ApprovedBy:+CeMerero+J.F.HalLFrmcepalCDate:ApprovedBy.J.D.FcrreLManager.FieldrOpcranexnABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page3of23TP-9419SE96-2104,Rev.0Page2of11TableofContentsSectionntentsP~aeNolo203,04.05.06.0ObjectiveReferencesQualityAssuranceDiscussionandBackgroundPrerequisitesLimitationsandPrecautions70TestProcedure7.172StaticTestDynamicTestFigure1DataSheet1,StaticPressureTestDataSheet2,DytmnicPressureTestDataSheet3,RemarkContinuationPageAttachment1FaxedcoversheetwithReviewandApprovalSignatures10ABBCombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,-Rev.0-Attachment2Page4of23TP-9419-CSE96-2104.Rav.0Page3of11I.OObjectiveTheobjectiveofthistestistodeterminetherelationshipbetweenthehydropumpoutletpressure,thehydrochamberpressureandthesealbladderpressureunderflowconditionsforthesteamgeneratorlocalizedin-situpresswetesttools.Inaddition,statictestingwillbeperformedtoestablishabaselinerelationshipundernon-flowconditions.Thedataunderflowconditionswillbeusedtoensurethatintheeventofaleakingdefectindication,theleakagerateismeasuredattheappropriatepressure(s)withinthehydrochamber.Testingwillbeperformedonboththeaxialandcircumferentialtools.20References2.1QAM-100,FourthEdition,Revison42.2FinalTestReportfortheSteamGeneratorTubeIn-SituHydrostaticTestTool.TR-ESE-'030,Rev,00,T.R.No.83D,datedApril5,1994.3.0QualityAssuranceThetestdescribedhereinistobetreatedasSafetyRelated,QualityClass1,inaccordancewiththerequirementsinReference2.1.4.0DiscussioriandBackgroundReference2.2describesthedevelopmentandqualificationtestingforthelocalizedin-situtesttool.ThetooldescribedinReference2.2wasdevelopedtopressuretestprimarilycircumferentialdefectindicationsinsteamgeneratortubesatthetubesheetregion.Itisalsoapplicabletothetestingofaxialindications.Anadditionaltoolwasevolvedforthctestingofaxialdefectswhicharegreaterinlengththanthosewhichcanbeaccommodatedbythehydrochamberinthcoriginaltool.Sincethetooldesignforthecircumferentialdefectshasgreaterrestrictionsthanthoseforaxialdefects,thctestreportisboundingfortheaxialtool.Thelocalizedtesttoolcontainstwopressurecircuits;oneforsealandgripperbladders,andoncforthehydrochamber.Thehydrochambercircuitispressurizedbyanairoperatedpositivedisplacementpump.Thebladdercircuitispressurizedbyeitheranairoperatedpositivedisplacementpumporahandpump.Thepositivedisplacementpumpsusedinthesystemareabletomaintainaprecisecontrolatagivenstaticpressure.Underflowconditions,suchasthoseexperiencedduringatubeleak.thepumpdischargepressurefluctuatesbetweenahighandlowlimitwitheachpumppulse.Themagnitudeofthisbandisafunctionoftheflowrateandtherestrictionswithinthehose/toolassembly.Duetothesedynamicheadlosses,theactualpressureinthchydrochamberwillbelessthanthatobservedatthepumpdischarge.ABBCombustionEngineennpNuciearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page50f23TP-9419-CSE96-2104,Rev:0Page4of11Reference2.2describestestingwhichwasperformedunderflowconditionstoestablishtherelationshipbetweenthehydropumpdischargepressureandthehydrochamberpressure.Thistestconsistedofmeasuriiigtheswingofthepressuregaugeatthedischargeofthehydropumpatvariousleakratesataninitialstatichydrochamberpressureof4,000psigasdirectlymeasuredinacontrolledleaktestfixture.Implementationofthisdatainanin-situfieldtestrequiresaniterativeprocessasthehydrochamberpressureisnotdirectlymeasurable.Theprocessinvolvesmatchingthepumpdischargepressureswingrelativetothedesiredpressureandobservethepumpstrokerateascomparedtothedatainthetestreport.Inaddition,thetestreportexplicitlystatesthattheleakratecorrectiondataapplyonlytotheas-testedconfiguration.ForthetestingatSt.I.ucieUnitI,itwasrequestedthatthecapabilitybeprovidedtotestinthestraighttubeportionsatelevationswellabovethetubesheet.ThisnecessitatedthefabricationofhoseslongerthanthosedescribedinReference2.2.Fornonleakingdefectindications.thelengthofthehosedoesnotaffectmeasuringthedesiredpressureinthehydrochamberasthesystemisstaticandthepressureisequaltothatatthepumpdischarge.Forleakingdefects,thechangeinsystemresistanceduetothechangeinhoselengthdoeshaveaneffectonthedynamicresponseofthepumpdischargepressuregaugeanditssubsequentrelationshiptothehydrochamberpressure.Consequently,foraleakingdefect,theactualpressureinthehydrochamberisindeterminatewithoutadditionaltesting.Inordertodeterminethepressureinthehydrochamberwiththecurrenthoseconfiguration,twomethodswillbeconsidered.I)Hydropumpdischargepressureswingcorrelationmethod,and,2)Sealbladderpressureintensificationmethod.ItemlisthemethoddescribedinReference2.2.Item2isbaseduponanobservationduringlaboratorytestingandfieldapplication.Experienceduringprevioustestinghasshownthatthebladdercircuitpressureincreasesasitsinitialpre-chargepressureisapproachedbytheincreasingpressureinthehydrochamber.Thispressureincreasehasbeentermed'intensification.'ncethebladderpre-chargepressureisreachedinthehydrochamber,thebladderpressurewillincreasewithincreasinghydrochamberpressure.Thispressurehasbeenobservedtobeapproximately200-300psidunderstaticconditions.Itisexpendthattherelationshipwillbesimilarunderflow(leak)conditions.Establishingthisrelationshipwillprovideanaccurate,indirectmethodofmeasuringthepressureinthehydrochamberunderleakingconditions.Asthebladdercircuitisnotinaflowpath,therearenoheadlossestoconsider.Pulsationsmaybeevidentinthebladdercircuitduetothereciprocatingnatureofthehydropump.However,thesepulsationswillreflectthetruepressureinthebladdercircuitindependentoftheheadlossesexperiencedABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperations
TR-9419-CSE96-1101,Rev.0Attachment2Page6of23TP-941&CSE96-2104,Rev.0Page5of11bythehydrocircuit.Byinference,thepressureinthehydrochambercanthenbedeterminNLThistestwillfocusonestablishingmethod2asthemethodofchoicefordeterminingthehydrochamberpressureunderflowconditions.However,additionaldatawillberecordedinordertoprovidefortheuseofmethod1shouldmethod2provetobeinvalid.50LimitationsandPrecautions5.1AsnotedinSection4,themethod1correlationisaFunctionofsystemdynamicresistance.Useofthetestresultsinmethod1correlationsislimitedtosystemswithanidenticalconfigurationtothattested.ThehoseconfigurationinthistestisidenticaltothatinFigure2ofReference2.2withtheexceptionthatthelengthofthe3/16"braidedhosehasbeenincreasedfrom30feetto50feet.Useofthelongerhoselengthinthetestwillqualifymethod2fo'ruseintheastestedconfiguration..6.0Prerequisites6.1Allpressuregaugestobeusedinthetestshallbeverifiedtobewithinthecalibrationperiod.NoteThetestprocedureisintendedtoprovtdeaprotocol.Itisnotintendedtolimitthetypeoftestingconducted.Asanexample,<<ddittonalpressuresmaybetestedorconditionschangedinordertoadapttolessonslearnedduringthetest.AnychangesoradditionsshaHberecordedandexplainedontheappropriatedatasheet.Blankdatasheetsmaybecopiedtoprovideforeachparameterchange.NoteMinorleakagemayoccurduringtheconductofthistest.Acceptabilityofleakagewithrespecttocontinuedoperationofthetestisatthediscretionofthetestoperator.However,anyleakageshaHberecordedintheremarkssectionofthedatasheet.70TestProcedureNoteThestatictestwillbeperformedusingboththecircumferential/axialtoolandthelongaxialtool.Theorderofperformanceisatthediscretionofthetestoperator.Datasheet1isusedtorecordinformationforthestatictest.A88CombustionEngineeringNuciearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-110'1.Rev.0Attachment2Page7of23TP-9419-CSE96-2104,Rev.0Page6of117,1.1Assemblethetestfixture,in-situtoolandpumpcircuitsasshowninFigurel.Recordthetool(circ.orlongaxial),hydropumppressuregauge,hydrochamberpressuregaugeandbladderpressuregaugeserialnumbersonthedatasheet.712Operatethebladderpumptofillthebladdercircuittubingwithwater.Pressurizethebladdercircuittoapproximately4,000psig~200psigandreleasethepressureatthepumpdischarge.Repeatthisprocessatleast10timestoremoveairfromthebladderCIrcuit.713Usingthebladderpump,pressurizethebladdercircuittoaninitialpressureof1,500psig=100psigasindicatedbythebladderpressuregauge.Observethepressuregaugereadingtoensurethattherearenosignificantleaks.Recordtheinitialbladderpressure90psighydrochamberpressureonDataSheet1.7,1.4Close/verifyclosed'theleakratecontrolvalve.NoteThestatictestistobeconductedattargethydrochamberpressuresof1,500,1,600,1,800,3,000,4,000and5,000psig.7.1,5Pressurizethehydrocircuittothetargetpressures100psigasindicatedbythehydrochamberpressuregauge.Observeforleaksandsteadypressurereadingsonallgauges.Recordallpressuregaugeasreadvaluesonthedatasheet.Repeatthisstepforeachofthetargetpressuresfistedonthedatasheet.7.1,6Ensureallnecessarydatahavebeenrecordedonthedatasheet,signatureanddatesignifycompletion.71,7Repeatsteps7.1.3through7.1.6foraninitialbladderpressureof2,000psig<100psig.71.8Repeatsteps7.1.1through7.1,7forthesecondtool.72~Dggj~gNoteThedynamictestwillbeperformedusingboththecircumferential/axialtoolandthelongaxialtool.Theorderofperformanceisatthediscretionofthetestoperator.Datasheet2isusedtorecordinformationforthedynamictest.72,1Assemblethetestfixture,in-situtoolandpumpcircuitsasshowninFigure1.Recordthetool(circ.orlongaxial),hydropumppressuregauge,hydrochamberpressuregaugeandbladderpressuregaugeserialnumbersonthedatasheet.ABBCombustionEngineenngNuciearOperationsABBCombustionEngineeringNuclearOperationsI+W'/
TR-9419-CSE96-1101Rev.0.-.Attachment2Page8of23TP-94194SE96-2104,Rev.0Page7af11,NoteIfthehydrotoolhasnotbetaseparatedfromthehose,thebladdercircuitdoesnotrequiredegassingandthefollowingstepisN/A.7,2.2Operatethebladderpumptofillthebladdercircuittubingwithwater.Pressurizethebladdercircuittoapproximately4,000psiga200psigandreleasethepressureatthepumpdischarge.Repeatthisprocessatleast10timestoremoveairfromthebladderCircuit.7.2.3Usingthebladderpump,pressurizethebladdercircuitto1,500psig~100psigasindicatedbythebladderpressuregauge.Observetheprcssuregaugereadingtoensurethattherearenosignificantleaks.Recordtheinitialbladderpressure0psighydrochamberpressureonDataSheet2.7.2.4Close/verifyclosedtheleakratecontrolvalve.NoteThedynamictestistobeconductedattargethydrochamberpressuresof1,700,3,000,4,000and5,000psig.Eachtargetpressurerequiresaseparatedatasheet.7.2.5Pressurizethehydrocircuittothetargetpressure+100psigasindicatedbythehydrochamberpressuregauge.Observeforleaksandsteadypressurereadingsonallgauges.Recordallstaticpressuresasthezeropumpratevalues.PNoteIterativeadjustmentoftheleakratecontrolvalveaadthehydropumpaircontrolregulatorwillbeforestablishingthedesiredpumpstrokerateatagiventargethydrochamberpressure.72.6Slowlyopentheleakratecontrolvalvetoestablishahydropumpstrokerateof20strokes/minutewhilemaintainingthctargetpressureasindicatedbythchydrochamberpressuregauge.Adjustthehydropumpaircontrolregulatorandtheleakratecontrolvalveasnecessary.Ifthehydrochamberpressureisnotsteady,adjusttothetargetpressureatapproximatelythemiddleoftheswing.Recordallprcssurereading'sonthedatasheet.Repeatthisstepforeachofthepumpstrokerateslistedonthedatasheet.7,2.7Ensureallnecessarydatahavebeenrecordedonthedatasheet,signatureanddatesignifycompletion.7,2.8Repeatstep7.2.4through7,2.7foreachofthetargetpressurevalues.7.2.9Repeatsteps7.2.1through7.2.8forthesecondtool.ABBCombustionEngineeringNuciearOperationsABBCombustionEngineeringNuclearOperationsA.h CD0)O0UCr/l0DfllD(O(D(D(0ZCorDQ0(D0DVlOO3FLtOfn4.g82',Q0II-lydroPumpIlydroPumpGaugeIn-SituToolSteamGeneratorTubeBladderPressureGaugeHydroChamberFigure1TestApparatusConfigurationHydroChamberGaugeLeakRateControlValveBladderPump TR-9419-CSE96-1101,.Rev.0Attachment2Page10of23TP-941&CSE96-2104,Rev.0Page9of11DataSheet1StaticPressureTestTool(circ.orlongaxial)InitialBladderPressnre~sigTargetHydroChamberPressureS1ObservedHydroChamberPressureS1HydroPumpDischargePressure(siBladderPressureSIHydroPumpDischargePressureGaugeNo.HydroChamberPressureGaugeNo.BladderPumpDischargePressureGaugeNo.Remarks:Completedby:NametSitsaaatreDate:Witnessedby:Name~signattleDate:ABBCombustionEngineenngNudearOperationsABBCombustionEngineeringNuclearOperations/+w~g TR-9419-CSE96-1101,Rev.0Attachment2Page11of23TP-941&CSE96-2104,Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ.orlongaxial)initialBladderPressurepsigHydroChamberTargetPressurepstgPumpRateStrokes/min0static20406080100HydroChamberPressure"'tMaximumMinimumHydroPumpDischargePressure"(siMaximumBladderPressure"'siMaximumMinimumNotes:i)Fornon-fiuctuaungpressurevalues.recordpressureasthemaximumpressureachieved.HydroPumpDischargePressureGaugeNo.HydroChamberPressureGaugeNo.BladderPumpDischargePressureGaugeNo.Remarks:Completedby:Name.SignamreDate:Witnessedby:Nuns.signamnDate:ABBCombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101~ev0.Attachment2Page12of23TP-941&CSE96-2104,Rev.0DataSheet3RemarkContinuationPagePage11of11Test(staticordynamicInitialBladderPressureTool(circ.orlongaxial)psigHydroChamberTargetPressurepstgRemarks:Completedby:.'raneisigaatureDate:Witnessedby:.'raaasignamreDate:ABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-11Gi~aLQAttachment2Page13of23Z8d~ZG'%Md'WLQi~M:LZ966TWV~~~$w~fgQ~pj'y6'Msprd-2l/gcuoTP-941~EBS-2104.Rev.0Pe1of11TestProcedureStcamGeneratorTubeIn4ituHydrostaticPressureTestToolHydroChamberPressureDeterminationProcedureNo.TP-9419CSE96-2104Rev.0ABBCombuarionEngineeringhhclearOperationsPreparedBy:6,5.cdnse:~6-o-LApprovedBy:aRA<4Kaaa~r,fic14geary~Dare:ASSCombuarionEnqinwringNaalaaroperationsJulLG'96l4:51ZGrZG'dG6Z~~tOltelicSSZG98TOTALP.82ABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page14of23TP-9419-CSE96-2104,Rev.0Page9of11DataSheet1StaticPressureTestTI('*.Ig'd)~initialBladderPressure~Is~sigTargetHydroChamberPressureS1/tabsIge'/Ossa4>ssnhatt~ObservedHydroChamberPressureSl5'oo/4"cHydroPumpDischargePressureS1I5oc(ge-rZo~3cc=sstC~oSte&OBladderPressureS1g)h3v~K'43$,0+HydroPumpDischargePressureGaugeNo.5,-Io-r~~lHvdroChamberPressureGaugeNo.A oo0BladderPumpDischargePressureGaugeNo.W-n'zo>MRemarks:Completedby:C~>z,,~<~k.'NacmsSilttgureWitnessedby:3I~<lol.VattseSittaatttreDate:4<<~~Date:~<a/RteABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperationsp+->)
TR-9419-CSE96-11Attachment2Page15of23TP-941&CSE96-2104,Rev.0Page9of11DataSheet1StaticPressureTestTool(circ.orlongaxial)InitialBladderPressnre~gee=sigTargetHydroChamberPressureSI1Ir"oaQtteIOOtasse~ObservedHydroChamberPressures1I5owdtOCHydroPumpDischargePressure(si/tssoo305o~ee=misoaBladderPressure(si+2SoHydroPumpDischargePressureGaugeNo.rS-r-IWIHydroChamberPressureGaugeNo.FS-II-o3~BladderPumpDischargePressureGaugeNo.--o<MRemarks:Completedby:Ct=-~Vane;SilsatstrnDate:~"~8slatsseSttnatttrtsABBCombustionEngineenngNuoiearOperationsABBCombustionEngineeringNuclearOperations
TR-9419-CSE96-1101-,-Rev.0Attachment2Page16of23TP-941&CSE96-2104,RN'.0DataSheet1StaticPressureTestPage9of11Tool(circ.orlongaxial)rQC.InitialBladderPressure~/3'ucsigTargetHydroChamberPressure(si/4oo'3oooQeo0OOObservedHydroChamberPressureSIgooIbm'7ogooHydroPumpDischargePressurestigeoISoel8oG3ccQdf(g~BladderPressure(siI$0020m-aSl~Ct~I5ogtgoz.HydroPumpDischargePressureGaugeNo.-l-oHydroChamberPressureGaugeNo.S-I-loO3~BladderPumpDischargePressureGaugeNo.S-(7-laO33Remarks:GI<tLfLH~~Q~:Aowg5~,%Qj-spo,~5th'K-(<)SQCaw,t"Is4saMiwWk.gICompletedby:C~u~~al-r~kstunstSirtaarttrcWiutessedby:.~f'f:.'IarrscSiltarttrcDate:<'>~<Date:~d-VdABBCombustionEngineeringNuotearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment2Page17of23TP-9419-CSE96-2104,Revs0Page9of11DataSheet1StaticPressureTestTool(circ.orlongaxial)CQCInitialBladderPressnre~2seosigTargetHydroChamberPressureSIt~aO/bt4igo~.tsocddfdtOa~C~ObservedHydroChamberPressureSIlg)cf7~~gg~oeeoc~ooHydroPumpDischargePressureSIt5ctQsoIGcc3~BladderPressureSI'CooOtsst35'OQgaQ820~(t)Qg6~ZHydroPumpDischargePressureGaugeNo.5-i3-LdeelHydroChamberPressureGaugeNo.PS-il-eo3BladderPumpDischargePressureGaugeNo.5-I-leossRemarkS:()5c,4gc.40O~6-~d~~R.A~i~.-~J.~~ADO~~S(2XS<4Ittt.a~-~L1t2uSAootes)n~.~Qal(S~ttusaaZ~~.OaWf'0Completedby:C~t-./eP/aDF/~IC.'staaluSittaatttteWitnessedby:.Woi.'sameStttatttreDate:~6//ptsDate:Co-/(-~4ABBCombustionEngineeringNuotearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0-Attachment2Page18of23TP-9419-CSE96-2104,Rev.0Page10of11DataSheetZDynamicPressureTestrTool(circ.orlongaxial)5t0LinitialBladderPressureI>~>psigHydroChamberTargetPrmeurefkeiopdgPumpRateStrokes/minHydroChamberPressure'"stHydroPumpDischargePressure"(siBladderPressure"'tMaximumMinimumMaximumMinimumMaximumMinimum0(static)100/&5olpgao/guOl7o~l9cc5ptooI'7>t=eI7am/~>oflo&/go>/g@oj9co/EoOr9suNotes:t)Fornon-ftuctuaungpressurevalues.recordpressureasthemaximumpressureachieved.HydroPumpDischargePressureGaugeNo.6's-l7-lc~teyechbp*Gre.~BladderPumpDischargePressureGaugeNo.F5-l'7-l<<~9Remarks:Completedby:VgmgrSithggttyg(:7Date:<I~<Witnessedby:VgmgignanaeDate:6-il-CABBCombustionEngineeringNuctearOperationsABBCombustionEngineeringNuclearOperationsp4-5i TR-9419-CSE96-1101~ev.0Attachment2Page19of23TP-941&ZSE96-2104.Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ,orlongaxial)%tALInitialBladderPressurele~psigHydroChamberTargetPressure38~~psigPumpRateStrokesimin0static)HydroChamberPressure'"SIMaximumMinimumMaximumMinimumQqooHydroPumpDischargePressure"'lBladderPressure"'sitMaximumMinimumgeoPZgl40.QjQ100'3looQ)v35~qDgqoC0'%coA/00f+ooQ7oooc$2Oe-/googazooNotes:l)Fornon-lluctuatingpressurevalues.recordpressureasthemaximumpressureachieved.HydroPumpDischargePressureGaugeNo.HydroChamberPressureGaugeNo.-s-ls-I49'BladderPumpDischargePressureGaugeNo.A-(7-Ic933Remarks:Completedby:C~gCI-i~5vametSiltatureWitnessedby:eci~VtStttanareeDate:~iA88CombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperationsr~-:<
TR-9419-CSE96-1101,>ev0Attachment2Page20of23Tp-9419-CSE96-2104,Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ.orlongaxial)'i(>I>~>aq~~InitialBladderPressureIzc0psigHydroChamberTargetPressure+~4+psigPumpRateStrokes/minHydroChamberPressure"'tMaximumMinimumHydroPumpDischargePressure'siMaximumMinimumBladderPressure'"slMaximumMinimum0static)b+~8'I~o&20t8+ceo!liOQ7E)C)80100Notes:i)Fornon-fluctuaungpressurevalues.recordpressureasthemaximumpressureachevcd.HydroPumpDischargePressureGaugeNo.PS-l1-Io~~IHydChbPGgNBladderPumpDischargePressureGaugeNo.Cs-t7-too33Remarks:Completedby:.'raneisignanueDate:rl'<9<Witnessedby:vsiyeneeDate:6~i5'6ABBCombustionEngineenngNuctearOperationsABBCombustionEngineeringNuclearOperations+-3i TR-9419-CSE96-1101;.Re.e---Attachment2Page21of23TP-941&CSE96-2104,Rev.0Page10of11sr'rrTool(circ.orlongaxial)DataSheet2DynamicPressureTestlultlalBladderPressure~the-'hpsigHydroChamberTargetPressureJ1+0pslgPumpRateStrokes/min.HydroChamberPressure"'IHydroPumpDischargePressure"slBladderPressure"(siMaximumMinimumMaximumMinimumMaximumMinimum0static)l~~l1+~tgOO60Qgether~oDesWee]gCu1'Voa<A-ai~5Q/Qoc:IZcy>>I3o~IQ~odtI0t-"s/dr'eo/6OO/4tao/betol7ZOl7om7oog.Ietot75ot160rPcycpNotes:t)Fornon-fluctuaungpressurevalues.recordpressureasthemaxtmumpressureachiared.HydroPumpDischargePressureGaugeNo.s-i7-foalhidChIIhoh*ha.~BladderPumpDischargePressureGaugeNo.5 Ia>>>Remarks:loICompletedby;CvzaI-h~kVgtttchStttgtttyeWitnessedby:V.SittgtttggDate:~th/rrABBCombustionEngineeringNuclearOperationsABBCombustionEngineeringNuclearOperations TR-94'i9-CSE96-1101,,R&V.0Attachment2Page22of23TP-9419-CSE96-2104,Rev.0Page10of11DataSheet2DynamicPressureTestTool(circ.orlongaxial)A~<fnitialBladderPressuret~cs~psigHydroChamberTargetPressure3t"SopsigPumpRateStrokes/minHydroChamberPressure"'lHydroPumpDischargePressure"'lBladderPressure'"Sl0static)MaximumMinimumMaximum%55C'ryosMinimum3/o"MaximumMinimum100>So~neso3~odle~7~o$rfoo'3goo$gOO9(oestqOsOQv~0~QclasOggoQQ~c2IL9'~o39~DNotes:l)Fornon-Auctuaungpressurevalues.recordpressureasthemmumumpressureachieved.HvdroPumpDischargePressureGaugeNo.55-I1-loooIHvdroChamberPressureGaugeNo.s-I-I~>~BladderPumpDischargePressureGaugeNo.E5-f'7-0~2~Remarks:Completedby:VasnersignantteWimessedby.!4.SignatureDate:>>~>Date:~~ricABBCombustionEngineenngNuclearOperationsABBCombustionEngineeringNuclearOperations'/fw/
TR-9419-CSE96.-'iiG1,MKLQ.Attachment2Page23of23TP-9419-CSE96-2104,Rev.0Page10of11DataSheetZDynamicPressureTestTool(circ.orlongaxial)ClP<initialBladderPressureI>~psigHydroChamberTargetPressure&3oapsigPumpRateStrokes/minHydroChamberPressure"ISIHydroPumpDischargePressure"'siBladderPressure"'siMaximumMinimumMaximumMinimumMaximumMinimum0static)20AO"+z.100~r~+geoH5~~gleQ~9~CI~o%5oog'leo93~Itoes3'3goo"f5~oq$ocsNotes:I)Fornon-fluctuaungpressurevalues.recordpressureasthemaximumpressureactueved.HydroPumpDischargePressureGaugeNo.FS.t1-/chooIHydroChamberPressureGaugeNo.S-l-toe>~BladderPumpDischargePressureGaugeNo.C"-tv-(eassRemarks:LowL~KlentCompletedby:Wane.sigaamceDate:b"<<Witnessedby:NameSigncunABBCombustionEngineeringNuciearOperationsABBCombustionEngineeringNuclearOperations TR-9419-CSE96-1101,Rev.0Attachment3Page1of5Attachment3PressureGaugeCalibrationRecordsABBCombustionEngineeringNuclearOperationsp-4/
~~~~~~~~~~~~k~:~~.~.~~.~0IireeIa.~.~>~'~'CS~~~0I~~~~~I~'~~~~~~~~~~~~~~~~~~~f>IrHEMy~I5~~~'~'~'~'~~~~~~~~~'~~'~~~~~~~-~
~~~~~s~~~~>0~~Ier~~~~:~~~~~~4~.~~~I~~~~~~~~~~'~~~~~t~~~~I~~,~~~0~N'%mrf%58W~~J'~~'~'~~'~~'~~~'~~~~~'j-o~~IJi~~~~~~~-~
TR-9419-CSE96-11Attachment3Page4of5STO-400-159Rev.00ABB-CombustionEngineering~¹xclearOperationsPage5of5Attachment1CERTlFICATEOFCAUBRATlONinstrunlentTypeManufaaurerRange0-'O@ccracyMfg.SerialNo.C.ElONoP'5-(7/dbZBCalibrationDateCalibrationDueDateCalibrationDocument:glProcedure[)ManutacturersSpecificationsTestEquipmentUsedToPerformCalibration:TestEquipmentK~~SenalorIDNo.V-oo<TestEquipmentSerialorloNo.CAiJBRATlONRESULTSStandardValueAsFoundiAsLeft(CgStandardValueAsFoundAsLeftloCAUSRATIONHASafEHP&FORMEOUnUDNQMEASUREMEHTOfvlcf5WHICHH*vEKNOWNRELATIONSIII&ToNssSTANOAAOSWlifafSUCHST*NO*ROSKXIS.WHcfaf5UCHSTAHOARO5OoNQTQ(IST,AHA~QVEOIVOCOUREWAnicNIHACCOROAHCEWnlTHMAHUFA~iRfcL'5RECQMMfiIQATIQNSHA5BfcENUSEQAHOTHESTAHOAAOSOOCUMEHico.REMAR(S:1ACCEPTEO(1REJECTEDCALlBRATEDBY:ORGANIZATION:ABBCombustionEngineeringNuclearOperations TR-9419-CSE96-110~evQ.Attachment3Page5of5STD-400-159Rev.00ABB-CombustionEngineeringNuclearOperationspage5of5Attachment1CERTlFICATEOFCALIBRATlONInstrunlentTypeManufacturerRange0-raeevraeyg~2FSMfg.SerialNo.C-EIDNo.CalibrarionDateCalibrationOueDateCalIbratIonOacurnent.(+Pracedure~~~)Manufacturer'sSpecificationsRev.TestEquipmentUsedToPerformCalibration:TestEquipmentHI=ISL=SerialorIONo.~rrTestSquIonlentSerialorIONo.CALIBRATIONRESULTSStandardValueAsFoundlAsLen0Rl<iIlaof46IlocpQ<ciLaoCIIZlou'2lrr0I~i~If~Io~oI~IloIioloStandardValueAsFoundAsLeftCAUSRATloNH*5IEKHPEaIFORMKOUnUZINOMEASUREMENTQEVIC'ESWHICHHAVKKNOWNRELATIONSHIPSTaNesSTANQARQSWHERESUCHSTANOARQSKXISi.WHERESUCH5iANOARQ5QONOTEXIST.ANAPPROVEQPROCEQURWRITTENINACCOROANCEVIPiilTHEMANUFA~iRER'5RFCOarIMEVQATloaISHASBEgaIUSEOANOTHESTANOAROSQOCUMENa=O.R":MAR(S()ClACC:?T"=DIlR"=J"=CT"-OCALIBRAT"0BY:ORGAraNaIZATION:ABBCombustionEngineeringNuclearOperationsIg(