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Calvert Cliffs, Units 1 and 2, Response to NRC Request for Information Pursuant to 10 CFR 50.54(f) Regarding Recommendation 2.1 of the Near-Term Task Force Review of Insights from the Fukushima Dai-ichi Accident
	ML14365A138
Person / Time
Site:	Calvert Cliffs
Issue date:	12/17/2014
From:	Korsnick M G; Constellation Energy Nuclear Group, Exelon Generation Co
To:	; Document Control Desk, Office of Nuclear Reactor Regulation
References
	FLL-14-036
	Download: ML14365A138 (72)
	v • d • e

AMaria Korsnick4Senior Vice President, Northeast Operations1Exe0on Generation Chief Nuclear Officer, CENG100 Constellation WayConstellation Energy Nuclear Group, LLC Baltimore.MD 21202410-470-5133 Office443-213-6739 Faxwww.exeloncorp.commaria.korsnick@exeloncorp.com10 CFR 50.54(f)FLL- 14-036December 17, 2014U.S. Nuclear Regulatory CommissionATTN: Document Control DeskWashington, DC 20555-0001Calvert Cliffs Nuclear Power Plant, Units 1 and 2Renewed Facility Operating License Nos. DPR-53 and DPR-69NRC Docket Nos. 50-317 and 50-318

Subject:

Exelon Generation Company, LLC Expedited Seismic Evaluation Process Report(CEUS Sites), Response to NRC Request for Information Pursuant to 10 CFR50.54(f) Regarding Recommendation 2.1 of the Near-Term Task Force Review ofInsights from the Fukushima Dai-ichi Accident

References:

1. NRC Letter to All Power Reactor Licensees et al, Request for InformationPursuant to Title 10 of the Code of Federal Regulations 50.54(f) RegardingRecommendations 2.1, 2.3, and 9.3,of the Near-Term Task Force Review ofInsights from the Fukushima Dai-ichi Accident, dated March 12, 20122. Nuclear Energy Institute Letter to US NRC, Proposed Path Forward for NTTFRecommendation 2.1: Seismic Reevaluations dated April 9, 2013, ADAMSAccession No. ML13101A3793. US NRC Letter to Nuclear Energy Institute, Electric Power Research InstituteReport 3002000704, "Seismic Evaluation Guidance: Augmented Approachfor the Resolution of Fukushima Near-Term Task Force Recommendation2.1: Seismic", dated May 7, 2013, ADAMS Accession No. ML13106A3314. US NRC (E Leeds) Letter to All Power Reactor Licensees et al., "Screeningand Prioritization Results Regarding Information Pursuant to Title 10 of theCode of Federal Regulations 50.54(F) Regarding Seismic Hazard Re-Evaluations for Recommendation 2.1 of the Near-Term Task Force Review ofInsights From the Fukushima Dai-lchi Accident," May 9, 2014, ADAMSAccession No. ML14111A1475. Seismic Evaluation Guidance: Augmented Approach for the Resolution ofFukushima Near-Term Task Force Recommendation 2.1 -Seismic. EPRI,Palo Alto, CA: May 2013. 3002000704 A o 10 U. S. Nuclear Regulatory CommissionDecember 17, 2014Page 3scope relay review in accordance with the schedule provided in the October 3, 2013 letter fromthe NEI to the NRC (Reference 7). This commitment was based on the NRC screening CCNPP"Out" based on the adequacy of its IEEEE submittal. In Reference 4, the NRC has screenedCCNPP "In", based on its unfavorable judgment of the CCNPP IPEEE adequacy. EGCconsiders it appropriate to retract its commitment to perform the full scope relay chatter reviewmade in Reference 6.This letter contains no new regulatory commitments. If you have any questions regarding thissubmittal, please contact Mr. Douglas E. Lauver, Regulatory Assurance Manager, at (410) 495-5219.I declare under penalty of perjury that the foregoing is true and correct. Executed on the 17thday of December 2014.Respectfully,Mary G. KorsnickMGK/GGM

Enclosure:

Calvert Cliffs Nuclear Power Plant, Units 1 and 2, Expedited Seismic EvaluationProcess (ESEP) Reportcc: Director, Office of Nuclear Reactor RegulationNRC Project Manager, Calvert CliffsNRC Regional Administrator, Region INRC Resident Inspector, Calvert CliffsS. Gray, MD-DNR EnclosureCalvert Cliffs Nuclear Power Plant, Units 1 and 2Expedited Seismic Evaluation Process (ESEP) Report EXPEDITED SEISMIC EVALUATION PROCESS (ESEP) REPORTIN RESPONSE TO THE 50.54(f) INFORMATION REQUEST REGARDINGFUKUSHIMA NEAR-TERM TASK FORCE RECOMMENDATION 2.1: SEISMICfor theCALVERT CUFFS NUCLEAR POWER PLANT UNITS 1 AND 21650 Calvert Cliffs ParkwayLusby, MD, 20657Facility Operating License No. DPR-53 and DPR-69NRC Docket No. 50-317 and 50-31SA-- Exelon.Exelon Generation Company, LLC (Exelon)PO Box 805398Chicago, IL 60680-5398Prepared by.Stevenson & Associates1646 North Litchfleld Road, Suite 250Goodyear, AZ 85395Report Number 14Q4242-RPT-004, Rev. 2-~ q/8iKPreparer. Sarner E-Bahey. Ph DReviewer A. KaravausslanlsApprover:Lead ResponsibleEngineerBranch Manager:Senior ManagerDesign Engineering:Corporate Acceptance:A KareousalanlsFrank HigginsChris DabryBen ScutJeffrey S. Clark12=9)01412&9201412/902014Xv /awl 14Q4242-RPT-004 Rev. 2Page 2 of 33EXPEDITED SEISMIC EVALUATION PROCESS (ESEP) REPORT IN RESPONSE TOTHE 60.54(f) INFORMATION REQUEST REGARDING FUKUSHIMA NEAR-TERM TASKFORCE RECOMMENDATION 2.1: SEISMIC FOR THE CALVERT CLIFFS NUCLEARPOWER PLANT UNITS 1 AND 2Document Type: Report Report Number. 14Q4238-RPT-004Project Name:Exelon ESEP for Calvert CliffsJob No.: 14Q4242Client: ' ExeLon.This document has been prepared in-accordance with the S&A Quality Assurance ProgramManual, Revision 17 and project requirements:Revision Record: ..Revision Prepared by/ Reviewed by/ Approved b/ t r'Desciptioh of RevisibnNo. Date Date DateI Yg , Incorpo rate Client's editoral commentsSame7El.Bahey, A. Karavoussianis A. KaravoussianisPh.D 12/5/2014. .. 12/512014. 1215/2014.'2 Incorporate. Client's editorial commentsSa-meEI-:Bahey,. A. Karhvoussianis A: Karaveussianis.' h.D 12/91201AJ ,. 12/9/2014DOCUMENT CONTRACT NO.S A APPROVAL.SHEET .' .Stevenson & Associates .-.

14Q4242-RPT-004 Rev. 2Page 3 of 33Table of ContentsPURPOSE AND OBJECTtVE 6..................................................................................... 62 Brief Summary of the FLEX Seismic Implementation Strategies....... 73 Equipment Selection Process and ESEL ................ ..'.. .....3.1 Equipment Selection Process and ESEL ............................................................. 12"3.1.1 ESEL Development ............................................................. .. 133.1.2 .Power Operated Valves .................................. ................ 143.1.3 _,FP4I-qI~xps ...... n...... ............ ..........13.1.4 Term ination Cabinets ....................... ....... ............ ...... .... ....................... ....;:.'A3.1.5 Critical lnstrumentatio.lndict ... ............ .................3.1.6. Phase 2and Phase 3 Piping.Connections ...................................................15.3.2 Justification .thft the primary means for FLEXtfor use pf Equipment moasoroEimplementa'tion '.... .. .... 1......nt .... ........ ........................ L............. .................................. ... .......... 15 ' i4 , Ground MotiQn.R~espons~e 4Subrund'Wt F tt00..ed....t.he ..ensee........................................4.1. Plot of GMRS Submitted by e icese....... " ... .:....... ...........164.2 Com parison to SSE ............................................................................................. 185 Review Level Ground Motion (RLGM) ...................... ..........56.1,.. Description ofIR!LGM f.. ............. 5.2 Method to "siaeIR ..... ' ".22' '.2 M ethod to. Estim ate ISRS ,. ....................... .......... ..... ........ ................. ........ 22.6 SeismicMargin Evaluation Approach,,.:,..................... ............................ ý.236.1 Summary of Methodologies Used 3 ...... .............6.2 HCLPF ScreeningProcess.................... :............ ...................... ...... ........ 236.3 Se;lismit Wal kdown.-..: 24,:,-h .. 246.3.1 W alkdown Approach L ..................... ........................... ................................. 24... .. ... .--.., .--, ..6.3.2 A'p' pIca'_t f "Previous nfoatio n......, P ..'.. ....256.3.3 WSignficantWalkdown Findings ....... ........ ....;............... ......... 266.4 HCLPF Calculation Proc.s ...26.3.2 ... 14....26 .35 Sn gd fi t Wal kdo n f indings ............................................t..... n,-t... ...... .......2o...6.6 Tabulated..SEL. HLPF Values.including Key failure modes) .. ............. Z7 Inaccessible Items .rocess.......................... ... ..........................................................287.1 Identification of ESEL Items Inaccessible For Walkdowns ............................... 28 14Q4242-RPT-004 Rev. 2Page 4 of 337.2 Planned Walkdown I Evaluation Schedule I Close Out ..................................... 288 ESEP Conclusions and Results ........................................................................ 298.1 Supporting Information ...................................................................................... 298.2 Summary of ESEP Identified and Planned Modifications ................................. 308.3 Modification Implementation Schedule................................ ............................ 308.4 Summary of Regulatory Commitments .....3...............0............ ........ .................... 309 References .................................................................. ........................... 3110 Attachments ....................................................................................................... Al10.1 Attachment A Calvert Cliffs Unit I and Common Area ESEL .......................... Al10.2 Attachment B Calvert Cliffs Unit 2 ESEL ................................................................ B110.3 Attachment C ESEP HCLPF Valuesand Failure Modes Tabulation Unit I andCommon Area .......................................................................................... ........ C110.4 Attachment D ESEP HCLPF Values and Failure Modes Tabulation Unit 2 .......... D1 14Q4242-RPT-004 Rev. 2Page 5 of 33List of Tables and FiguresList of FiguresFigure 4.1-1 Calvert Cliffs GMRS (5% Damping) ..................................... ....17Figure 4.2-1 Calvert.Cliffs GMRS.vs. SSE (5% Damping). ...............19Figure 5.1-1 Calvert Cliffs RLGM, GMRS & SSE (5% Damping); ...22T, b" 0 hie 1-k9,aigle 2.1 CNP a .................... 9Table 2.2 CCNPP Phase 2 FLEX Strategy Summary ..................... 10Table 2.3 CCNPP Phase 3 FLEX Strategy Summary....................... 11Table 4.1-1 Calvert Cliffs GRS (5% Damping)....................................... 16Table 4.2-1 Calvert GMRS vs. SSE (5% Damping) ............................................ 18Table 5.1-1 Ratio between GMRS and SSE (5% Damping) ................................. 20 14Q4242-RPT-004 Rev. 2Page 6 of 33I PURPOSE AND OBJECTIVEFollowing the accident at the Fukushima Dai-ichi nuclear power plant resulting from the March1I, 2011, Great Tohoku Earthquake and subsequent tsunami, the Nuclear RegulatoryCommission (NRC) established a Near Term Task Force (NTTF) to conduct a systematic reviewof NRC processes and regulations and to determine if the agency should make additionalimprovements to its regulatory system. The NTTF developed a set of recommendationsintended to clarify and strengthen the regulatory framework forprotection against naturalphenomena. Subsequently, the NRC issued: a 50.54(f) letter on March 12,2012 (Ref. 1)requesting information to assure that these recommendations are addressed by ail U.S. nuclearpower plants. The 50.54(f) letter requests that licensees and holders of construction permitsunder 10 CFR Part 50 reevalUate the seismic' hazards at their sites against present-day NRCrequirements and guidance. Depending on the comparison between the reevaluated seismichazard and the current design basis, further risk assessment may be required. Assessmentapproaches acceptable to the staff include a seismic-probabilistic risk assessment (SPRA), or aseismic margin assessment,(SMA). Based upon the assessment results, the NRC staff willdetermine whether additional regulatory actions are necessary..This report describes the Expedited Seismic Evaluation Process (ESEP) undertaken for CalvertCliffs Nuclear Power Plant (CCNPP)." The intent of the ESEP is to perform an interim action inresponse to the NRC's 50.54(f) letter (Ref. 1) to demonstrate seismic margin through a reviewof a subset of the plant equipment that can be relied upon to protect the reactor core andcontainment following' beyond design basis seismic events.The ESEP is implemented using the methodologies in theL.NRC endorsed guidance in EPRI3002000704,,Seismic Evaluation Guidance- Augmented Approach for the Resolution of:.Fukushima Near-Term' Task Force Recommendation 2:1: SeiSmic (Reft 2).The objective-of this report is.to provide summary information describing the ESEP evaluationsand results. The level of detail provided in the report is iritended to'enable NRC tb understandthe inputs used,,-h.e evaluatian.s-performed, and the decisionsmade as a result of.the interimevaluations. -,Per Reference 22, -a brief summary of the FLEX. seismic implementation strategies and theequipment selection process and Expedited SeismicjEquipment: List (ESEL) are provided inSections 2 and'3&.." ~~~~~~~~~~~~~~. .. ' ..... "..... .. ." ,'*.. ,..S. , .. ..

14Q4242-RPT-004 Rev. 2Page 7 of 332 BRIEF SUMMARY OF THE FLEX SEISMIC IMPLEMENTATION STRATEGIES ;' TheCaf, ttli#tffs FLEX response strategies f6r Reactor Core Cooling and HeatRemov/al, Re~a~tdn'r entory Conftolilong-trtn' Subcriticality, Core Cooling and Heat, Reiroval (Modes 5 aid 6), Containment Function and Spent:Fuel Pool Control'are. .sumn'farized below. This. summaryis dedvedfrom the Overall Integrated-Plan (OIP) in.Response toi the March .12, 2012, Coommission Order EA-12-049 (Ref, 3).FlexPhase 1', flirt six hobs;" 'stratdgy relies oh installed'plant, equipment. Reactor corecooling, ,and heat removal is'achieved via-steam release from the Steam Generators(SGs) with $QG maketip from the Turbine Driven Auxiliary Feedwater Pump (TDAFVVP)durig FL.EX Phase I with suction from the fuly protected #12 Cpndensate StorageRCS heat removal is controlled,through local manual operation of the AtmosphericDump valves (ADV's) and local control of the.TDAFW pumps. RCS C0oo1own to350 F/250psia with a corrbsp onding ste'am Generfati' pressure"Of y12pisia is'the initial goal. Realtor Invehfory'controt relies On allowing the SafetyInjection-Tnhks to discharge into the'Reactor CoolahS!SVstem (RCS) if needed. .' -In Mode 5 or 6 if the steaM g'bnerators are'unavailable RCS i nvent6r yan berhia fntaihedby gravity feed of the RefuiIng Water by-use'0f p6itable flex'pumps...aligned to injection points to the RCS. .repctor parameters ,are obtained via-DC. powered instrmentation.ADCloadstripping strategy, is e 1Qyed life. ,, ,p.... .. ... ...d..t.e x , n .baf r i. .., : , -'!.... :No specific, ContainmentcoroWl is.irequired in Phase ,1 as b*th..eipperature;andpressure stay within design limit-.for.tpe first 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months pftho ev.e~rt.- Key Containmet :Parameters are obtained from DC powered instrumentation.NO specic Spent Fuel PdoI Ivel oitr6"l"reqiUire-l in".Phait-e I as both temnperatuir and'levtel stay Within design lmitrfhrft1'fitesV651h6urs of theevent. (asugst11ing the wotcdase -',heat load). Sperit Fuel, Pool,'le~el;is'obtairied .from.the'.hewWide;range-Spent Fuel 'PooQ:I.level instrumentation installed under Commission Order EA-12-051.Flex Phase2, hu, 11 6 t6 24, strartegy'telieqe ohlnitanl"a 'eip.ment and FLEXp'teimnportable.,equipment. If thb Stream' Gen'erator (SGs)r'dr avdaible rai actor core cobling.and. heat r6emvaflarb achiievedviiistebrf" releas' froh'themSGiiL local manualoperation of the ADVs and with SG makeup from the Turbine Driven Auxiliary Feedwater .APump (TDAFWP) during FLEX Phase 2 with suction from the fully protected #12Condensate ;StorageT -bnR., ef.usiresedlto replenish. the:#12 CST. --The Phase 2 altermte'sttategyil.ci Udes;SG:cooling~water:make-up via! a FLEX portable,pump, with suction from an alternate water sources such as any other surviving CST,,.. eFire Protection System water storage tanks, Well Water System or the Chesapeake Bayas a last resort. Reactor inventory control and heat removal is accomplished by SIT tankinjection. One FLEX portable 500KW 480VAC diesel generator per unit is installed andconnected to a 480 VAC Load Center. This repowered Load Center will provide power tobattery chargers, SIT tank MOVs, and a charging pump for inventory restoration. Analternate inventory control method is with a FLEX portable pump connected to the HPSIpiping via the FLEX mechanical connections located in the Auxiliary Building. Borationfor shutdown margin is not needed for up to 32 hours3.703704e-4 days 0.00889 hours 5.291005e-5 weeks 1.2176e-5 months , however, shutdown margin is 14Q4242-RPT-004 Rev. 2Page 8 of 33maintained by use of boric acid storage tanks with subsequent RCS injection using theCharging Pumps or a FLEX portable pump.In Mode 5 or 6 if the steam generators are unavailable RCS inventory can be maintainedby gravity feed of the RWT or by use of portable flex pumps aligned to injection points tothe RCS.Key reactor parameters are obtained via DC powered instrumentation or use of a100KW 480 VAC generator powering a reactor MCC and the inverters backup bus. (Thisis the alternate strategy to load center repower)No specific Containment control is required in Phase 2 as both temperature andpressure stay within design limit for the first 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months of the event. Key ContainmentParameters are obtained from DC powered instrumentation.No specific Spent Fuel Pool level control is required in Phase 2 as both temperature andlevel stay within design limit for the first 65 hours7.523148e-4 days 0.0181 hours 1.074735e-4 weeks 2.47325e-5 months of the event. Spent Fuel Pool level isobtained from the new wide range Spent Fuel Pool level instrumentation installed underCommission Order EA-12-051.Flex Phase 3, greater than 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , strategy relies on installed plant equipment, FLEXportable equipment, and off-site equipment from the National SAFER Response Center(NSRC). Reactor core cooling and heat removal are accomplished by continued use ofthe Phase 2 Strategies. Restoration of these 4KV buses allows for restoration of more480V busses for further redundancy. Key reactor parameters are obtained via DCpowered instrumentation or use of a vital AC instrumentation supported by portableFLEX or NSRC generators.No specific Containment control is required in Phase 3 -as both temperature andpressure stay within design limit for the first 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months sof the event.Key containment parameters are obtained via DC powered instrumentation or use of avital AC instrumentation supported by portable FLEX generators.Spent Fuel Pool makeup is provided using either FLEX or NSRC portable pumpsattached to exiting piping via flex mechanical connections. Spent Fuel level is obtainedfrom the new wide range Spent Fuel Pool level instrumentation installed underCommission Order EA-12-051.

-t.-I:* i,* 14Q4242-RPT-OO,4 Rev. 2-.* .*: ~.- ~Paie 9 of 33H* =- * =1 J=ITable 2-1I:C1'dPP' Ohase l"'UEX Strat'e'g'Summary', %SafetyFunctioA .. " ' .F.., ;PrImaryMbthod-: .., ..'. .. -, Alternate MethodReactor Core Cooling & Heat .TDAFW pumps with suction fro.m CST., -Use standby TDAFW pump -ifRemoval -Steam SGs via local manual ADV " needed"." RC$. cooldown to,350°F.I 250psia SG I0psia -.. .Set up FLEX portable AFW...... pumps such that final suctionD J ' and discharge connections can... ." "- , ".. ... .. bei accomplished in < 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months .RCS HeAt 'Ai6w Si Ts 'inject ino RCS If heedecr upon .":V SGs -Use of FLEX PortableE Removal, ..' r '.! :- m tidnrof 6oldbwn t6 35&,F-l.,250psla Pumps toprovide RCS makeup0- .'.,,'W/lOSG~s1j-,RWTgravity feed.,, .ad injectiiflowKey Reactor Parameters -Temperature, pressure, level (RCS, SG, SIT)'Use existirg battery powered indicntiOdn. ':., ."with9eepDCIoad stripping -..Jo ,aContainment Pressure Control & ... eqjw l pressure andhr emperature -Nonmperature below limits for 72Remove Heat ... e I,,rd_,for 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months :: ..None required -pressure andi: ..-' " :: " ;= "'"' ' r " hours ' ".Key ContainmenteParamntei p.. e:. T ,, erle ýtt.r d Iresiure ndicatioo] powered, !Temperature and pressure0.. .: , indication powered via vital:.. ..' YavtJb ss., .I.,,,,- ......, 2j,. '""*.. -, ' i..,;...... "... i. !:."............_ Spent Fuel Cooling -None required until T+65 hours (worst:cge) , .-.No'neirqlirn:l'until T+65 hours0 SFP Parameter *SFP Wide Range Level Indicator *SFP Wide Range Level Indicatora.0) 14Q4242-RPT-004 Rev. 2Page 10 of 33Table 2-2: CCNPP .Phase 2 FLEX Strategy SummarySafety Function Primary Method Alternate MethodReactor Core Cooling & *TDAFW pumps with.suction from CST -Use standby TDAFW pump -if neededHeat Removal -Steam SGs via local manual ADV -Move available tank fluid with FLEX(SID Mode with Steam -Replenish CST with FLEX portable pump portable pump to SIGGenerators Available) -Obtain water from Chesapeake BayRCS Inventory Control & ,SITs inject into RCS (if needed) after cooldown -Move RWT fluid with FLEX portable pumpHeat Removal, (Shutdown to 350°F / 250psia to HPSI headers -use boric acidModes with Steam .Repower SIT MOVs via vital 48oVAC MCC$' batching tanks to provide Boric AcidGenerators Not Available) powered by FLEX portable 480V DG*Repower a Charging pump via vital 480VACLoad Center powered by FLEX 480V DG*W/O SGs -RWT gravity feedKey Reactor Parameters .500KW 480VAC FLEX generator repower one .100KW 480VAC FLEX generator repowerVital Load center to repower battery charger one MCC feeding Inverter backup busand SIT MOVsContainment Pressure -None required -pressure and temperature -None required -pressure andControl & Remove Heat below limits for 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months temperature below limits for 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months sKey Containment -Temperature and pressure indication powered -Temperature and pressure indicationParameters via vital buses .powered via vital busesSpent Fuel Cooling -None required until T+65 hours -None required until T+65 hoursSFP Parameter -SFP Wide Range Level Indicator .SFP Wide Range Level Indicatore.L.U) 14Q4242-RPT-004 Rev. 2I Page 11 of 33Table 2-3:CCNPP'Phasii3 FLEX "trateg "'SmmarySafety '" Primary Methdd"". ." Alternate MethodReactor Core olig & .7.. , ..*. TDAFW pumps with suction frormCST -Use standby TDAFW pump -if neededHeat Removal' .-,. .Steam SGs via.local manual'ADV' -Move available tank fluid withFLEX.(S/D Mode With Ste'apn.., -Replenish CST With FLEX portable pu mp : portable pump to SIGGenerators Available) -Obtain water from Chesapedke BayS SIventory Control & inject rot RCS (if neeiied)afterc;olldowhn -Move RWT fluid with F.E), portat~ie pump,Heat Removal, (ShJtdown, to 3500F a. S , .... .. to HPSI eaders -use boric'acid" Modes with Steam .Repower S'IT: MOVs Viavitai 40VA&MCts'i." batching tanks to provide Boric Acidp Generators Not Available) powered by '48D. V,'.G.,Repower aCharging -p ump via vital 480VACLoad Center bY Fl-X..-80V D"*_W/O SGs -RWT gravity feed .' .. >. ".. "K~ey.Reactrarameters.,, .500KW.480V F..LFEX generator repow'wer.one. * .100KW 48oVAC FLEX generator iepowerVatal L6'ad' to' r6poW e'r b atte.iy charger one MCC feeding Inverter backup bus...... .... ..... .. ..... .....and S IT. M O V s ..C-None required -prssur and temperature ' -None required -pressure and* Control & Remove Heat below limits for 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months .......' ...temperature below limits for 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months sE--Temperature and pressure indication powered., -Temperature and pressure indication0 Parameters via vital buses powered via vital bus~esU , "".-. .."- ÷ .' : .' "c Spent Fuel Cooliing " -None required until T+65 hours -None required until T+65 hoursSFP Parameter *SFP Wide Range Level'*ndctýr 'SFP Wide Range Level Indicator.,U-rn 14Q4242-RPT-004 Rev. 2Page 12 of 333 EQUIPMENT SELECTION PROCESS AND ESELThe selection of equipment for the ESEL followed the guidelines of EPRI 3002000704 (Ref. 2).The ESELs for Unit 1 and Unit 2 are presented in Attachments A and B, respectively-3.1 Equipment Selection Process and ESELThe selection of equipment to be included on the ESEL was based on installed plant equipmentcredited in the FLEX strategies during Phase 1, 2 and 3 mitigation of a Beyond Design BasisExternal Event (BDBEE), as outlined in the Calvert Cliffs Overall Integrated Plan ý(OiP)(Ref.3),and August 2013(Ref.4a), February 2014 (Ref. 4b), and August 2014 (Ref. 4c) six monthupdates, in Response to theMarch 12, 2012, Commission Order EA-12-049 (Ref. 3). The OIPprovides the Calvert Cliffs FLEX mitigation strategy and serves as the basis forequipmentselected for the ESEP.The scope of "installed plant equipment" includes equipment relied upon for the FLEX strategiesto sustain the critical functions of core cooling and containment integrity consistent with theCalvert Cliffs OIP (Ref. 3). FLEX recovery actions are excluded from the ESEP scope per EPRI3002000704 (Ref. 2). The' overall list of planned FLEX modifications and the scope for' -consideration herein is limited to those required to support core cooling, reactor coolant-inventory and sub-criticality, and containment integrity functions. Portable and pre-staged FLEXequipment (not permanently installed)' are excluded from the ESEL per EPRI 3002000704 (Ref.2).The ESEL component selection followed the EPRI guidance outlined in Section 3.2.of EPRI3002000704 (Ref. 2).1. The scope of components is, limited to that required to accomplish the core cooling andcontainment safety functions identified in Table 3-2:of EPRI 3002000704. The,instrumentation monitoring requirements for core cooling/containment safety. functions are.limited to those outlined Ien the EPRI 3002000704 guidance, and are a subset of thoseoutlined in the Calie'rt Cliffs OIP (Ref. 3).2. The scope of,:components is, limited to installed plant equipment, and FLEX connectionsnecessary to imnlpeme'nt the Calver-t Cliffs QIP (Ref73).as described in Section 2.3. The scope of components assumes the creditedFLEX connection modifications areimplemented, and are limited to those requiredto support a single. FLEX success path (i.e.,either "Primary" or "Back-up/Alternate").'...4. The "Primary" FLEX success path is to be specified. -Selection of the ,"Back-up/Alternate".FLEX success.path must be justified.............,..,:!..5. Phase 3 coping strategies are included in the ESEP scope, whereas recovery strategies areexcluded.6. Structures, systems, and components excluded er the EPRA 3002000704 (Ref. 2) guidanceare:Structures (e.g. containment, reactor building, control building, auxiliary building, etc.),

14Q4242-RPT-004 Rev. 2........ ..-Page 13 of 33" Piping, cabling, conduit, HVAC, and.their supports, *.....* Manual valves and rupture disks.* Power-operated valves.not required to change state as part of the FLEX mitigationstrategies. *.. ... *SNuclar steamsupplsystem components (eig. reactor pressure vessel arid intderals,reactor coolant pumps and seals, etc.) .. .- ., * ,7. For cases in which neither train was specified as a primary or back-up strategy, then onlyone train component (generally 'A' train) is included in the ESEL.3 .3, ... * .., ... ... ...*~. ....3-. .3 3.3.1.1 ESEL-Development .' ., , .*,* .:;" 333 .3: : i ,"'.* =. : ." ' .. 3.:" " 3333,: ., ' "-' " "'3"3... .' L ' ' ' -The ESEL was deyeloped by reviewing the oI (Ref.. 3)!t determine thelnajor equipm.nrinvolved in the The bases fQr the. palvert OaI-are the actions iientifiedi in thefollowing site procedures: -,EOP 4 Calvert Cliffs .Nuclear P.lant Power Plant Technical Procedure Unit One EOP-7 Station.Blackout Revision ., .'l' "' ... , .....3 '.' .. ... .,EOP 2 Galvert Cliffsj"Nuclear,Piant Rower. Pilant Te~cnical Procedure-Unit Two EOP-7 Station.,,.Blackout Revrsion .7 ", ..'.: :. ...* .. " ...EOP-?T-B Calvert Cliffs Nuclear"P.laint; Power Plant Station! Blackout, EOP:-.7 .Technical BasisRevision 21Action Value Basis D'ocuments -i- Ven ous -These procedures have been.irh, place,:or:severalyears and:contain guidanceý of how to copewith an extended loss of oftsitek eI 3OP4-7 i's dart'or`p9ra`in tifi'iganbeehUs6d inmultiple sirmnU`lator sc6,naios fTd.dnllsi 11{e ba sis boVidesithe ba:6l'roind ahd-supporting'engiheering;. WVVeni istrridnhbnna f obrpfpt te rdcriqh1 pbintL ;ite dentified in theTechnical Basis a supporting engineering document, Action Value BasisDotcuenet (AVBby' iscreated. This 'dOcument s prodicce bV'e rrn.,n it e te ..instrumentation and associated ]Astruient quiificatlons 6 e.1 Q, SI6mic, PAM1 ,PAM2.Engineering standard ES&011rdvides airie-16kion -d'thesd varioJs6'blassifications.'As aft,example PAM!f tneans an instruet is eant-Uwifl be available as long as.C podwer,Station Batteries, are available. These documents are also used to identify specific parame!dneedsl0be take ,,andlth-'basis4for that vialue,: Aslan example, AVBD EOP-09.02 identifies the level at which the AFW pump suctionineeds to tbransferredito an' alternatesourceand~the-basisifor-that:Ievei .: , ." , ., -. -,The referenced AVBD's.were used. to identif the instruments ,elected f0r the ESEL The itemson the EtEL include the transmit er in the fieli as well as the various panels containing the.,,necessary indications. Only one channel of instruments was evaluated as defined on page 3-3of EPRI 30020b0704 (Ref 2)> 3 ..

14Q4242-RPT-004 Rev. 2Page 14 of 33As these procedures are all approved and have an engineering basis they were used inconjunction with the OIP to generate the ESEL. It was not necessary to retrace these previouslyengineered actions through the P&ID's and logic diagrams as they have all been previouslyverified.Connection points identified in the'OIP for Phase 2 and 3 actions were included in the ESEL. AtCalvert the electrical connections are being made via connection device (modified breaker)which will be placed In a spare cubicle, during Phase 2 or 3, on the designated load centers. Allof these load centers are included in the ESEL as well as downstream load centers needed toperform Phase 2 and 3 FLEX activities. These components were verified by review of the plantssingle line electrical drawings.Major mechanical, electrical, components, flowpaths and valves identified in the ESEL are thesame as those identified in the EOPand the OIP. The ESEL used the guidance as outlined inEPRI 3002000704 (Ref. 2) and the appropriate exemptions as discussed below.3.1.2 Power Operated ValvesPage 3-3 of EPRI 3002000704 (Ref. 2) notes that power operated Valves not required to changestate are excluded from the'ESEL. Page 3-2 also notes that "functional failure modes ofelectrical and mechanical portions of the installed Phase I equipment should be considered(e.g. RCIC/AFW trips)." TO addressthis concern, the following guidance is applied in theCalvert Cliffs ESEL for functional failure modes associated with power operated valves:" Power operated valves that remain energized during the Extehded Loss of all AC Power(ELAP) events (such as' DC powered valves), were included on the ESEL.* Power operated valves not required to change state as part ofthe FLEXW',itigationstrategies were not included on the ESEL. The seismic event also causes the ELAPevent; therefore, the valves are incapable of'spurious operation as they would be de-energized.* Power operated valves not required to change state as part of the FLEX mitigationstrategiesdUn"lr'ng Plh'ase "1, and arte reenergized and operated during subsequent Phase2 and 3 strategies, were not evaluated for spurious valve operation as the seismic eventthat caused the ELAP has passed before the valves are re-powered.3.1.3 Pull BoxesPull boxes were deemed unnecessary to add to the ESELs as these components providecompletely passive locations for pulling or installing cables. No breaks or connections in thecabling are included in pull boxes. Pull boxes were considered part of conduit and cabling,which are excluded in accordance with EPRI 3002000704 (Ref. 2).

14Q4242-RPT-004 Rev. 2Page 15 of 333.1.4, Termination Cabinets -Termination cabinets, including cabinets necessary for FLEX Phase 2 and Phage 3connections, provide consolidated locations for permanently connecting multiple cables. Thetermination cabinerts prid the internal connections provide a completely passive funtion;however, the cabinpts~are included in the ESEL to, ensure industry, powtedge on.,panel/anchorage failurg-yiýlnerabi.lities is addressed.3.1.5..Critical Instrumentation.lndice'tcrs ;- ..-Critical indicators and recorders are typically physically located on panelslcabinets and areincluded,'fts seliarate dbr6mpbnents; f-owever,; seisnlic evalUaition of the insti"rhent~indication maybe in'cluded inith'e pahetiabinet' eisrniic evaluationTdlue2.of-th-boc)k. .-,, a. ...-, ...... ., ; _ .: , ..-.' " , , ... '"if, .t' .. ." :t .3.1.6 Phase 2 and Phase 3 Piping ConnectionsItem 2 in Section 2.1 above notes that the scope of equipment in j "pclues "... FLEXconnections necessary to implement the Calvert Cliffs OIP (Ref. 3)-as describ6l'in Section 2."Itemi3 in Section-...1l-also notes.ht ".Thesope.,qflcomp nents assumes the -credited FLEX ,connection modifications.are inmplemented;anpd are limited to those required tq support a singleL..FLEX-success.path (i.pj. eithearPrimary" or "pBck-uptAltemp.e")."... ,a- .Item 6 in Septiqr-21 .aboveg-gpe no, txptain, that "Piping.-lpJing,. qnduit, HVAC, and theirsupports" are,,exctuded frm nthe.SE.Lscqp in.accor,danc.,,with EýR. .O2300200704 (Ref: 2).Theref, ore piping anda pipe suppor ate with **F.EX apd connectionsare excluded from thes.opef 1hES .evalutior, .However; anpy otivp valves in FLEXPhase 2..a d.;hase-3 ,Gonnectipn..flow @re i udedin t l, .,..,. , !- a re trc ude inJ a3.2 .Justjfication for. se of Equip!.p0enttht is ,not.tl primapympansfor FEX,,..implementationNo alternate equipment is ,u ed to support,.he Pnmary Means" forf.[exFimprentatin.,,~~~~~~~~~~~~~~~~.....-' .,.. !' ." .... -.. ..,. .... .. , ..' .,. ".5 : G ,,.t.. -.."".., -,_..,. ..7 b.-I ..:. ,"'.. ...a.. ';":,t " ' :: ... * -.. .. ;' :' ... v .., ,.,

14Q4242-RPT-004 Rev. 2Page 16 of 334 GROUND MOTION RESPONSE SPECTRUM (GMRS)4.1 Plot of GMRS Submitted by the LicenseeIn accordance with Section 2.4.2 of the SPID (Ref. 14), the licensing design basis definition ofthe SSE control point for CCNPP is used for comparison to the GMRS. March submittal report(Ref. 6) lists the Calvert Cliffs SSE PGA to be 0.15g.The GMRS per the March submittal report (Ref. 6) is tabulated and graphed below:.Table 4.1-1 Calvert Cliffs GMRS (5% Damping)Freq. (Hz) 7 Fq (Hz) 'MRS(unsca'led, g) (unscaled, g)100 0.112 3.5 0.17690 0.115 3 0.16480 0.119 2.5 0.14870 0.124 2 0.14360 0.13 1.5 0.12850 0.138 1.25 0.11740 0.149 1' '.0.09735 0.157 0.9 0.08730 0.168 0.8 0.082725 0.185 0.7 0.079520 0.18 0.6 0.06515 0.182 0.5 0.056812.5 0.188 0.4 0.045410 0.188 0.35 0.03989 0.194 0.3 0.03418 0.2 0.25 0.02847 0.204 0.2 0.02276 0.203 0.15 0.0175 0.2 0.125 0.01424 0.185 0.1 0.0114 14Q4242-RPT-004 Rev. 2..Page 17 of 330.250.2DI0.150.0 "S__~~ H __I I I.-k I I I..+la,1 .. :. .-FrequencylHz)10~100( '.Figure 4.1-1 Calvert Cliffs GMRS ,o% Damping)V' .' .* { :': , ". ' + , " A .S , ...

14Q4242-RPT-004 Rev. 2Page 18 of 334.2 Comparison to SSEAs identified in the March submittal report (Ref. 6), the GMRS exceeds the SSE in the 1-10 Hzrange as shown in the table and graph below:Table 4.2-1 Calvert GMRS vs. SSE (5% Damping)Freq. (Hz) SSE (g) GMIRS (g)10 0.16 0.1889 .0.168 0.1948 0.179 0.27 0.188 0.2046 0.197 0.2035 0.212 0.24 0.222 0.1853.5 0.226 0.176.3 0.226 0.1642.5 0.217 0.1482 0.198 0.1431.5 0.166 0.1281.25 0.145 0.1171 0.123 0.0970.9 0.112 0.0874_6_O. _ .0.104 0.08270.7 0.095 0.07950.6 0.085 0.0650.5 0.074 0.05680.4 0.063 0.04540.35 0.057 0.03980.3 0.049 0.03410.25 0.041 0.02840.2 0.029 0.02270.15 0.018 0.0170.125 0.012 0.01420.1 0.008 0.0114 14Q4242-RPT-004 Rev. 2Page 19 of 33*. "*,' 0.25s0.2CLw0.150.10.0502:rreque~icy (Hz) ..Figure-4.2-1 Caert-Cliffs G.MRS vs. SSE Damping)UJ4:7-ý W -tl ýACR~k ,~. , a .:-, ~.9...4'.

14Q4242-RPT-004 Rev. 2Page 20 of 335 REVIEW LEVEL GROUND MOTION (RLGM)5.1 Description of RLGM SelectedThe RLGM for Calvert Cliffs was determined in accordance with Section 4 of EPRI30020000704 (Ref. 2), and Generation of Scaled In-Structure Response Spectra for CCNPP(Ref. 21) as being derived by linearly scaling the SSE by the maximum ratio of the GMRS/SSEbetween the 1 and 10 hertz range.The ratio between the GMRS and SSE at 5% damping is tabulated below.Table 5.1-1 Ratio between GMRS and SSE (5% Damping)Freq. (Hz) SSE (g) GMRS (g) GMRSISSE10 1 .. 0.160.. .0.1.88 1.179 0.168 0.194 1.158 0.179 0.200 1.127 0.188 0.204 1.096 0.197 0.203 1.035 0.212 0.200 .0.944 0.222 0.185 0.833.5.. 0.226 0.176 0.783 0.226 0.164 0.732.5 0.217 0.148 .0.682 -0.198. 0:143 .....:0.721.5 '0.166 0.128 0.771.25 0.145 0.117 0.811 .0.123 0.097 0.790.9 0.112.- 0.087 0.780.8. 0A.04 .0.0827 0.800.7 0.095 0.0795 0.840.6 0.085 0.065 0.760.5 0.074 0.0568 0.770.4 0.063 0.0454 0.720.35 0.057 0.0398 0.700.3 0.049 0.0341 0.700.25 0.041 0.0284 0.690.2 0.029 0.0227 0.780.15 0.018 0.017 0.940.125 0.012 0.0142 1.180.1 0.008 0.0114 0.81 14Q4242-RPT-004 Rev. 2Page 21 of 33The maximum ratio between the 5% damping GMRS and horizontal SSE occurs at 10 Hz andequals 1.17. '"The resulting RLGM based on increasing the horizontal SSE by the maximum ratio of 1.17 isplotted below.Table 5.1-2 -Calvert Cliffs RLGM (5% Damping)t.... 100 ' V '16 -'3.5 0.26490 0.176 3 0.264".80 : ; :2 , 1.,6 : ,"2.5 0.253.70 76 2 0.23260 0.176 1.5 0.194,,50., 0'1"76 1251/4 -0.170.4.40 0.176 1- 0.1443 .- 5 ....0.-1-77 ... .g 13 ,'30 ... .'77 .. 08; 0.122'25 -I. ..'0 177- ..6:.: 20 -1.78 .06 09915 0-178 01.5. :.- 0.087125 70') 06.074510 .. 0;3 0.067;9 ..197 0.3. 0.057; 8 ..20 o.Z5 ..0. 8.'U. Q.2, 0.034..... ..o 0 01 o.021.-..... 624' "0- -.014 -4 01. 0.0094,2 .1*1.'2 -Z' 14Q4242-RPT-004 Rev. 2Page 22 of 330.3 -0.250.2-0M .15 -0.1 -0.05,0-1000.1 1-. *. -1Frequency (Hz)Figure 5.1-1 Calvert Cliffs RLGM, GMRS & SSE (5% Damping)5.2 Method to Estimate ISRSThe method used to-derive the ESEIP in-structure response spectra (ISRS)'was to scale theexisting ssE-based iS'RS obaihd from DCALC No. CA04085, Rev. 0 (Ref. 18) by themaximu.m ratio .of..1. !7. The. sca!ed JSRS" WS determined for all buildings and elevations whereESEL items are located at Calvert Cliffs.

14Q4242-RPT-004 Rev. 2Page 23 of 336 SEISMIC MARGIN EVALUATION APPROACHIt is necessary to demonstrate that ESEL items have sufficient seismic capacity to meet orexceed the demand characterized by-the RILGM. The seismic capacity is characterized as thepeak ground acceleration (PGA) for which there is a high confidence of a low probability offailure (HCLPF); The PGA is associated with a specific spectral shape, in this case the 50/o-damped RLGM spectral shape... The HCLPF capacity must be equal to or greater than theRLGM PGA. The criteria for seismic capacity determination are given in Section 5 of EPRI3002000704 (Ref. 2).There are two basic approaches for developing HCLPF capacities:1. Deterministic approach using the conservative deterministic failure margin (CDFM)methodology of EPRI NP-6041, A Methodology for Assessment of Nuclear Power PlantSeismic Margin (Revision 1) (Ref. 7).2. Probabilistic approach using the fragility analysis methodology of EPRI TR-103959,Methodology for Developin6 Seismic Fragilities (Ref. 8).For Calvert Cliffs, the deterministic approach using the CDFM methodology of EPRI NP-6041(Ref. 7) was used to determine.HC..C.PFs$ .,... .6.1 Summary of Methodologies UsedCalvert Cliffs conservatively applied the methodology of EPRI NPO41 (Reft. -)t6 all items onthe ESEL. The screening walkdowns used the screening tables from Chapter 2 of EPRI NP-6041 (Ref. 7). The walkdpwns were conducted by erngineerýwho as a minimum attendep theSQUG Wallkdown Screening and Seismic EvaluatiorTaIning "hu.waelkownsweredocumented on Screening' Evaluation Work 6t, fro I1l fr-,B041 (Ref. 7).' .ý."", -.' .I ' .- :: .. t ..., I " ." '. -, ý ':.:-" -ýr ,- -)" I" -. ;'1 --' " '. ý`bfkfs- :' -;capacity calculations the CDFM critenai fr6mr PRI NP-6041 (Ref. 1) with Calvert'Cliffsspecific allowables and material strengths used as applicable. Se" s ic, demand was based onthe RLGM provided in Table 5.1-2 and Figure 5.1-1.6.2 HCLPF Screening ProcessThe peak spectral acceleration for the RLGM equals to 0.264 g (Table 5.1-2). The screeningtables in EPRI NP-6041 (Ref. 7) are based on ground peak spectral accelerations of 0.8g and1.2g. All Calvert Cliffs ESEL components were screened against the caveats of the <0.8gcolumn of Table 2-4 of NP-6041 (Ref. 7). For components located 40 feet above grade, 14Q4242-RPT-004 Rev. 2Page 24 of 33screening based on ground peak spectral acceleration is not applicable and additionalconsideration is required. In accordance with Appendix B of EPRI 1019200 (Ref. 19),components that are above 40 feet from grade and have corresponding ISRS at the base ofcomponent not in exceedance of 1.2g in the component frequency range of interest may bescreened using the caveats of the 1st screening column.6.3 Seismic Walkd0Wn Approach6.3.1 Walkdown ApproachWalkdowns for Calvert Cliffs were performiled in accordance with the crteria provided in Section5 of EPRI 3002000704 (Ref. 2), which refers to EPRI NP-6041 (Ref. 7) for the Seismic MarginAssessment process., Pages 2-26 through 2-30 of EPRI NP-6041 (Ref. 7) describe the seismicwalkdown criteria, including the following key criteria."The SRT [Seismic Review Team] should Owalk by" 100% of all components which arereasonably accessible and iK non-radioactive or low radioactive environments. Seismiccapability assessment of components which are inaccessible, in high-radioactive'environments, or possibly within contaminated containment, will have to rely more onalternate means such as photographic inspection, more reliance on seismic reanalysis,and possibly, smallerinspection teams and more hurried inspections. A' 100% "walk by"does not mean complete inspection of each cO*mponent, nor does it mean requiring anelectrician or other technician to de-energize and or panels for detailedinspection of all components. This walkdown is not intended to be a QA orQC review ora review of the adequacy of the component at the SSE level.If the SRT has a reasonable basis for ass.uming that, the group of components are similarand are similarly anchored, then it is only necessary to inspect one component out ofthis group. The "similarity-basis" should be developed before the walkdown during theseismic capability preparatory work (Step 3),by reference to drawings, calculations orspecificatiobs.: The brie dcoiponent for each type which is selected should be thoroughlyinspected which probably does mean de-energizing and opening cabinets or panels forthis very limited sample. Generally, a spare representative component can be found soas to enable the ins'pection to be performed while the plant is in operation. At least forthe one component of each type which is selected, anchorage should be thoroughlyinspected.The walkdown procedure should be performed in an ad hoc manner. For each class ofcomponents the SRT should look closely at the first items and compare the fieldconfigurations with the construction drawings and/or specifications. If a one-to-onecorrespondence is found, then subsequent items do not have to be inspected in as greata detail. Ultimately the walkdown becomes a "walk by" of the component class as the

.' .7 Rev. 2Page 25 of 33SRT becomes cj nfident thapthe cohsiiv6tion pattem is typical. This procedure for..I p,. .dn' tha th I. --_' "., * "'. .. .This .hinspectionishoufd be repeated for each component'class; althou6gL, during the actuaPI!ivafkdown the SRT may be inspectinog several classes of components in parallel. Ifsero us exceptions to the drawings orquestionable construction Ipractices are fOund thenthe system or component class must be inspected in closer detail until the systematicdeficiency is defined.The 100% "walk by" is to look for outliers, lack of similarty, anchorage which is~different..from that shown on drawings or prescribed in criteria for that component, potential SI[Seismic Interaction]' (Ref 2, page 5-4) problems, situations thatmare at odds with theteam members' past experience, and any other areas of serious seismic concern. If anysuch concerns surface, then the limited sample size of one component of each type forthorough inspediion Will havye to iinreased. e increase in sample' size which: shouldbe' inspctded will.deleid upon the num.ber of outlier' bnd dlffereht anchorig~s, ea.,which are observed. It is up to the to ultimately select the samnple size'since the y*are the ones who are responsible for the seismic 6dequacy of & elements which thy'-. sprwep~f.om the marjin review. A. ppendixD, gives.guidance for samplipg selection" of,P, RI..300?000.704 (f,,2) ,which refers tq.EPRI NPr6O4..(Ref. 7)for the. SeismicMargin Assessment process. Pages.2-26-through 2,.,Opf,,RI, NP-6041, (Ref.,r)-despribe the seismcwal,,dyvncitcri inuding.the following key criteria. -,The Calved CHffs walkdowns included as aminimum a 1d0 / wailk-by 4 f alt items on the ESELexcept as rioted in Sedtion 7.0. rAy prevwous waIdown information that was relied upon forSRT jugment ips document~d in Sectionh6.3.2. ESEF'WalIkdWn anSncr~ening Report (Ref.20) documents the walkdowni reneiptS.t',A'lii~ti. W aklw'I " " ....6.3.2'. "Abbli'6tiori'f PreVious tWIkd6W lrifbirmatien .' .-, ' i ':" ..' -:, "" -:', ' '" .',. -'" ". , '.1" ; ', " " , ' :, " , ." ' ..; ..: "Previous seismic walkdowns wereo.used to, suppQft~t.he .9, sis..aiatons; .Somme of thecomp.onents on the ESEL.,were included, in1thlTT ,2:.esnri Several ESEL items were, previusl .th alvert Cliffs S'eisnmicli EEE,program. Those walkdowrh results. wi kre'e~ee nl th foiloiin s w .t tonflrmthat the previous walk own niclusio, re., ' a"'e, valid.A walk by was performed to confirm that the equipment material condition and c6nfiguration isconsistent withjthe walKdown, conclusions and that no new significant interactions related toblock walliý orpiping attached to tanks -xistt.If the ESEL item wf"asscre6hned o0i'based on th'e-preý6u"SWalkdoWn;'that screeninglevaluiationw~s_ reviewed'and reconflirmed____._ for the ESEP."... -"*. ..' .~.. ..""'. 7-"EPRI 3002000704 (Ref. 2) page 5-4 limits the ESEP seismic interaction reviews to "nearby block walls" and 'piping attached to tanks"which are reviewed "to address the possibility of failures due to differential displacements." Other potential seismic interactionevaluations are "deferred to the full seismic risk evaluations performed in accordance with EPRI 1025287 (Ref. 14)."

14Q4242-RPT-004 Rev. 2Page 26 of 33The seismic walkdowns for Calvert Cliffs included as a minimum a walk-by of all thecomponents on the ESEL with the exception of the items inside containment as they were notaccessible at the time of the walkdowns.6.3.3 Significant Walkdown FindingsConsistent with that guidance from NP-6041 (Ref. 7), no significant outliers or anchorageconcerns were identified during the CalveIt Cliffs seismic walkdowns. The following findingswere noted during the walkdowns.Several block walls were identified in the proximity of ESEL equipment. These blockwalls were assessed for their structural adequacy to withstand the seismic loadsresulting from the RLQM. For any cases where the block wall represented theHCLPF failure mode for.an ESEL item, it is noted in the tabulated HCLPF values inAttachments C and D described in Section 6.6.* The component 1PI-3988 was:screened in due to the fact that mcLunting :is missing amanufacturer screw, howaver the anchorage was judged adequate and no HCLPFwas calculated for the component. The missing screw is required to be replaced inorder for the component to.be screened out and.a-HCLPF greater than the RLGMcould be credited: CR-2014¶W03666 was entered into Corrective action process.Work Order C92642395 has been generated. to replace missing screw; thereforeIPI-3988 will screen out as the HCLPF wili.be greater, than RLGM...6.4 :HCLPF Calculation Process "ESEL items were evaluated.-using the. criteria in EPRI NP-6041 (Ref. ,7).. Those evaluationsincluded the following steps: :.. ,.. ., .** Performing seismic'capabiliýty wilkdowns for 'equipment to evaluate the equipmentinstalled plant conditions* Performing screening evalUations using the s6reening tables, in EPRI NP-6041 (Ref. 7)as described in Section 6.2,and '* Performing HCLPF calculations considering various-failure modes4tat include bothstructural failure modes (e.g. anchorage, load path etc.) and functional failure modes.All HCLPF calculations were performed Using the CDFM methodology and are documented inCDFM'HCLPF calculation (Ref. 9.

14Q4242-RPT-004 Rev. 2Page 27 of 33Anchorage for non-valve components was evaluated either by SRT judgment or CDFM HCLPFcalculation (Ref. 9).6.5 Functional Evaluation of RelaysNo relays existed in the Calvert Cliffs ESEL, therefore, no evaluations were performed for relayfunctionality.6.6 Tabulaed ESEL HC1LPF'Values (including Koy faifure mnodds~* '.Tabulated ESEL HCLPF values including the key failure modes are included in Attachment Cfor"1bnit 1 and commoinr-4itemia-nd"in" ,ttalirmerntb foFUfiif 2' italY's.* For itemstcreened out-using NP26041 (Ref.,7):scr eningtables, the screening level isP provided as -(0 53g).tindthe failure mode is listed',as .Screened outV. The PGAassociated with the 1 5'screeninglanem is calculated by obtaining the ratio between thepenakspectral_ acceleration of the,1 screening-,ane,(O.8J), and spectraabcelerationr (0.264g),' thehi multiplying it-by the RLGMrPGA (0..175g). as follows;(0.aglO.264g)*O: 175g=O.53g\ 'Henceany anchorage.HCLPF-caloulated is:beyond 0.53g.F-or itefnVfthat were'srei=hed out ýusing' SMA analysis' ih-,the) checklists and-no'HCLPFs-were caloulated,-.a HCLP ,Rvalue of."x.RLGMh is.aýsigned'tl :and the:-failutemodeis listedias,."S.eened, out".. i--. ,\L 'i:* For items ab~i 40 febtVhich are sireened outIfnr OnbhOrag,, the 'assoiated PGA iscalculated by obtaining the ratio between the peak spectral acceleration of the 2ndscreening lane (1 .2g) multiplied by 1.5 for above 40 feet criteria, and ISRS peak spectraacceleration above 40 feet (1.25g) per section 5.2 in Refrence 20,t%.Aenmutp.lying it by:the RLGM PGA (0.175g) as follows; (1.2g*1.5/1.25g)*0.175g=0.252g. The failure modeis also listed as "Screened out".SFor items' wher6 anbhorage C6ntrol's thte hCPF value'iýthejHCLPF, valuels:.listed in. thfe.table and the failure mode is noted as "Anchorage Capacity". ,* For items where anchorage HCLPF was, calculated to be higher than the PGA.: '; r'."* ..., " -,, .' .s,: -( -...-. --.. ... ..) '1 .,"associated wMh the sseeningane peE; RI NP6- 1'(Ref. 7), the anch orage is notidentified as the critical failure mode and the failure mode i shnoted as "Ecýiuipm'6intCapacity as thpe'anchorage oro the .,pacity-and an equiprent HCLPFcapacity of 0.53g (1st screening lane) is assigned to the equiPment.* For items whose capacities were controlled by nearby blockwalls as the nearbyr lower than, the 'equlprhent and the anchorage apacities, avglue of 6.i75g'ialculited' oer 14Q4242-CAL-002 (Ref."9) (Ref. 9) isassigned to the compor epjt. The failure mode is noted ,as "Interaction with Blockwalls"..* For components were functionality controls' the capacity a HCLIF value of "<RLGM" is.oassigned to the component, and the failure mode is noted as "Furnctionalit,".

14Q4242-RPT-004 Rev. 2Page 28 of 337 INACCESSIBLE ITEMS7.1 Identification of ESEL Items Inaccessible For WalkdownsAll items located inside containment were inaccessible. Photos of Unit I containment itemswere used for the screening and HCLPF evaluations. No photos were available for the Unit 2items, Calvert Cliffs states that the two units are sufficiently similar to bd considered identical;therefore Unit 1 screening,'and HCLPF- evaluations were applied to Unit 2 containment items.7.2 Planned Walkdown I Evaluation. Schedule I Close OutSince all items that were inaccessible during the ESEP were resolved by alternative means (i.e.confirmatory photos and similar states) to the satisfaction of the SRT, no. additional walkdownsare required. .... .. .I , -, .ý. ."'.. .., " ý ... ................... .. '.... "..'2. ...................2.,

14Q4242-RPT-004 Rev. 2Page-29 of 338 ESEP CONCLUSIONS AND RESULTS8.1 Supporting InformationCalvert Cliffshalsprrmed the le P, as qn interim ac ton in response j0 the NRC's 50.54(f)Screening and.Pripntization,lefttpridattedMay,9,, 201.4 (Ref. 13). Itwa.iperformed using themethodologies in the NRC endorsed guidance in EPRI;300200Q7r04 (R0f02). -n ...The ESEP provides an important demonstration of seismic margin and expedites plant safetyenhancements through evaluations and.-potbntiail nr-bri modifications of I2la1t equipmentthat can be relied upon to protect the reactor core following beyond design basis seismicevents.The ESEP is'padrbf the overall dC alvert Cliffs respdhse to'1he NRC's 50564(f) letter(Ref. 1). OnMarch 12, 2014, NEI submitted to the NRC results of a study (Ref. 11) of seismic cord'damagerisk estimates based on updated seismic hazard information as it applies to operating nuclearreactors in the Central and Eastern United States (CEUS). The study concluded that "site-specific seismic hazards show that there has not been an overall increase in seismic risk for thefleet of U.S. plants" based on the re-evaluated seismic hazards. As such, the "current seismicdesign of operating reactors continues to provide a safety margin to withstand potentialearthquakes exceeding the seismic design basis."The NRC's May 9, 2014 NTTF 2.1 Screening and Prioritization letter (Ref. 13) concluded thatthe "fleetwide seismic risk estimates are consistent with the approach and results used in theGI-1 99 safety/risk assessment." The letter also stated that "As a result, the staff has confirmedthat the conclusions reached in GI-199 safety/risk assessment remain valid and that the plantscan continue to operate while additional evaluations are conducted."An assessment of the change in seismic risk for Calvert Cliffs was included in the fleet riskevaluation submitted in the March 12, 2014 NEI letter (Ref. 11) therefore, the conclusions in theNRC's May 9 letter (Ref. 13) also apply to Calvert Cliffs.In addition, the March 12, 2014 NEI letter (Ref. 11) provided an attached "Perspectives on theSeismic Capacity of Operating Plants," which (1) assessed a number of qualitative reasons whythe design of SSCs inherently contain margin beyond their design level, (2) discussed industrialseismic experience databases of performance of industry facility components similar to nuclearSSCs, and (3) discussed earthquake experience at operating plants.The fleet of currently operating nuclear power plants was designed using conservativepractices, such that the plants have significant margin to withstand large ground motions safely.This has been borne out for those plants that have actually experienced significant earthquakes.The seismic design process has inherent (and intentional) conservatisms which result insignificant seismic margins within structures, systems and components (SSCs). Theseconservatisms are reflected in several key aspects of the seismic design process, including:

14Q4242-RPT-004 Rev. 2Page 30 of 33* Safety factors applied in design calculations* Damping values used in dynamic analysis of SSCs* Bounding synthetic time histories for in-structure response spectra calculations* Broadening criteria formn-structure response spectraResponse spectra enveloping criteria typically used in SSC analysis and testingapplicationsResponse spectra based frequency domain analysis rather than explicit time historybased time domain analysis ..Bounding requirements in codes and standards* Use of minimum strength requirements of structural components (concrete and steel)* Bounding testing requirementsDuctile behavior of the primary materials (that is, not crediting the additional capacity ofmaterials such as steel and, reinforced concrete beyond the essentially elastic rangeThese design practices combine to result in margins such that the tSCs wIll continue t fulfilltheir functions at ground motions well above the SSE.8.2 Summary of ESEP Identified and Planned Modifilations,The results of the Calvert Cliffs ESEP performed as an iptenm ,action in response to.the NRC's50.54(f) letter (Ref. 1) using the methodologies in the NRC endorsed guidance in EPRI3002000704 (Ref. 2) show that all equipment evaluated are adequate in resisting the seismicloads expected to result from the site RLGM. Therefore, no plant modifications are required as aresult. of the Calvert Cliffs ESER.8.3 Modification Implementation ScheduleNo modifications are required.8.4 Summary of Regulatory Commitments ...Noegiatry .t........... ..... .... " requirNoregulaor commitmentsare require. I " ..

14Q4242-RPT-004 Rev. 2.... .Page 31.of 339 REFERENCES1. NRC (E Leeds and M Johnson) Ltt.9r to..All Power Reactor, Licensesps et al., "Requestfor Information Pursuant to Title 10 of the Code of Federal Regulations 50.54(f)Regarding Recommendations 2.1,!2.3 and 9.3 of the Near-Term Task-ForceReview ofInsights from the Fukushima Dai-lchi Accident," March 12, 20122. Evaiu~~ri 'Gu'id 1ae: AugM'nteld Approach fr~the' Resolution of FukushimaNear-Term Task Force Recommendation 2.1 -Seismic. EPRI, P1alo Alto!* CA:ýMay2013. 3002000704 f3. Letter from M; G. Korsnick (CENG) toDocuiment .Control Desk-(NRC),.Suipplement toOverall Integrated Plan for Mitigation Strategies for Beyond-Design-Basis ExternalEvents, dated March 8, 2013 -4. (a) Letter'from E. D'. Dein (CENG)'to";Docdmdnt. Control Desk'(NRC), Calvert Cliffs-Nucle~rP6wer Planit; Uhitsil 'and Report-in Response to March 12,-2012 Commission Qrder ModifyiQg Licenses with Regard to Requirements for MitigationStrategies for B eyond-Design-Basis'External'Events '(Ordr Number EA-12-049),'datedAugust 27, 2013 (ADAMS AccessionNo- ML` 132 ,(b) Letter from M. G. Korsnick (CENG) to Document Control Desk (NRC), February2014 Six-Month Status .Repo6t in'A esonse to March 12",12012 Cbrimissieft Order.-Modifying Licenses with Regard to Requirements for Mitigation Strategies for Beyond-Deiign-B'asi External EleDt- Fder lumler EA-124109) , ated Februa1y 27, 2014O(,DAMSAes(Won No. MI14069AS18) -..(c) Letter from M. G. Korsnick (CENG) to Document Cotlrol!Desk.NR. August 2014.Six-Month Status Report in Response to March 12, 2012 Commission Order ModifyingLicenses with Regard to Requirements for Mitigation Strategies for Beyond-Design-Basis External Events (Order Number EA-1 -"04)O)ý, idd iUgUst26,;201,'1'4:"5. Reference Deleted.6. Seismic Hazard and Screening Report in Response to the 50.54(f) Information RequestRegarding Fukushima Near-Term Task Force Iecommendaton 2. 1: S ismi- for tlheCalvert Cliffs Nuclear Power Plant dated 3/12/14, (S&L. Report SL-0.12325, Revision 0)7. A Methodology for Assessment of Nuclear Power Plant Seismic Margin, Rev. 1, August1991, Electric Power Research Institute, Palo Alto, CA. EPRI NP 6041 14Q4242-RPT-004 Rev. 2Page 32 of 338. Methodology for Developing Seismic Fragilities, August 1991, EPRI, Palo Alto, CA.1994, TR-1039599. 14Q4242-CAL-002 Rev. 1 "Seismic Capacity of Components for ESEP"10. Nuclear Regulatory Commission, NUREG/CR-0098, Development of Crteria forSeismic Review of Selected Nuclear Power Plants, published May 197811. Nuclear Energy Institute (NEI), A. Pietrangelo, Letter to D. Skeen of the USNRC,"Seismic Core Damage Risk Estimates Using the Updated Seismic Hazards for theOperating Nuclear Plants in the Central and Eastern United States", March 12, 201412. Nuclear. Energy Institute (NEI), A. Pietrangelo, Letter to D. Skeen of the USNRC,"Proposed Path Forward for NTTF Recommendation 2.1: Seismic Reevaluations", April9, 201313. NRC (E Leeds) Letter to All Power Reactor Licensees et al., "Screening andPrioritization Results Regarding Information Pursuant to Title 10 of the Code of FederalRegulations 50.54(F) Regarding Seismic Hazard Re-Evaluations for Recommendation2.1 of the Near-Term Task Force Review of Insights From the Fukushima Dai-IchiAccident," May 9, 201414. Seismic Evaluation Guidance: Screening, Prioritization and Implementation Details(SPID) for the Resolution of Fukushima Near-Term Task Force Recommendation 2.1:Seismic. EPRI, Palo Alto, CA: February 2013 (EPRI 1025287)15. NRC (E Leeds) Letter to NEI (J Pollock), "Electric Power Research Institute Final DraftReport, "Seismic Evaluation Guidance: Augmented Approach for the Resolution ofFukushima Near-Term Task Force Recommendation 2.1: Seismic," as an AcceptableAltemative to the March 12, 2012, Information Request for Seismic Reevaluations," May7, 201316. NTTF 2.3 Seismic Walkdown Submittalsa. Letter from M. G. Korsnick (CENG) to Document Control Desk(NRC),"Response to IOCFR 50.54(f) Request for Information, Recommendation2.3, Seismic" Calvert Cliffs Nuclear Power Plant, Unit 1, Dated November 27,2012b. Letter from M. G. Korsnick (CENG) to Document Control Desk(NRC),"Response to IOCFR 50.54(f) Request for Information, Recommendation2.3, Seismic" Calvert Cliffs Nuclear Power Plant, Unit 2, Dated November 27,2012 14Q4242-RPT-004 Rev. 2Page 33 of 33....17. Calvert Cliffs Updated Final Safety Analysis Report (UFSAR)18. DCALC No. CA04085, Rev. 0" Numeric (Digitized) Seismic Response Spectras"19. EPRI Technical Report (TR) 1019200, "Seismic Fragility Applications Guide Update"December-2009. ., .. ....*.* .20. S&A Calculation 14Q4242-RPT-002 Rev. 0 "ESEP Walkdown and Screening Report forCalvert Cliffs" .21. 14Q4242-CALU001 :Rev. "4Gene'atlin. of.Scaled In-Structure,.Response Spectra forCCNPP".22. CCNPP trpnsmittal ler to S for sectiohs 2.and_3 for the ESEP Report dated23. CCNPP transmittal to S&A for Attachments A and B for the ESEP Report via emailreceived on.10/30/2014 J-, ., ....... .." " " " -'. , ,,U ;,; ',...P. '.? ."". .: ... .. i , ." ' -..'. :.< .,: ... .... ' .p'... .. .. .. .",:-' " : i' " * .-', : ... :" ": ..,,,. , ...- .;"' , P ... , .. " " "" '. .." : ; 1/4............... .., 7:: i.... :,- ,.

10 ATTACHMENTS10.1 Attachment ACalvert Cliffs Unit I and Common Area ESEL (Ref. 23)Page Al of A8 Calvert Cliffs Unit I and Common Area ESEL"ESEL perating State N0es!Comments.IeNu er *.)Equipment 0 r* aid NoeiofiinTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-71 11 TDAFW Pump Standby service Sation BlackoutTDAFVV Pp Steam Supply Manual in Instrument for local manual2 1 PI-3986 Press Standby service operation of AFWManual in Instrument for local manual3 1 P1-4501 TDAFW Pp Discharge Press Standby service operation of AFWTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-74 12 TDAFW Pump Standby service Sation BlackoutTDAFW Pp Steam Supply Manual in Instrument for local manual5 1PI-3988 Press Standby service operation of AFWManual in Instrument for local manual6 1 P1-4502 TDAF'W Pp Discharge Press Standby service operation of AFW12 S/G Atmospheric Dump Manual in EOP-0 Plant Trip, EOP-713 1CV3939 Valve Standby service Sation Blackout11 S/G Atmospheric Dump Manual in EOP-0 Plant Trip, EOP-714 1 CV3938 Valve Standby service Sation BlackoutEOP-0 Plant Trip, EOP-717 12 CST Condensate Storage Tank In service In service Sation Blackout18 0LT5610 12 CST Level Indication In service In service 1LIA-5610 on Panel 1C0419 0LT5611 12 CST Level Indication In service In service 1LIA-5611 on Panel 1C041A01 AP14KV BUS 11 2000 KW DG from NSRC20 (1BUS1AO1) In service Energized connection point1A04 AP/4KV BUS 14 2000 KW DG from NSRC21 (1BUSIA04) In service Energized connection pointPage A2 of A8 Calvert Cliffs Unit I and Common Area ESELESELmESEL ..Equipmbnt Operating State NotbslComments1D0122 (1BUS1D01) AP/125 VDC BUS 11 In service Energized Powerto VitalAC Inverter I1100223 (1IBUSI D02) AP/125 VDC BUS 12 In service Energized Power to Vital AC Inverter 121 D05 AP/BATTERY CHARGER 1124 (1CHGR11) In service Energized Power to DC Bus 111D06APBTEYCAGR125 (1CHGR12) AP/BATTERY CHARGER 12 In service Energized Power to DC Bus 12I D07 AP/BATTER0 CHARGER 1326 (1CHGR13) A In service- Energized Power to DC Bus 21I D081008 AP/BATTERY CHARGER 1427 (1CHGR14) In service. Energized Power to DC Bus 221D03/1004 API125VB.ERY1128 (1 BATTID0314)

In service Energized Power to DC Bus 111D09/1110 ,AP/125V BATTERY 1229 (1BATTID09110) In service Energized Power to DC Bus 121D11 AP/,125 VDC CONTROL Power to Vital AC Inv 1 and30 (1PNL1D1I) PANEL 11 In service Energized 211012 API125 VDC CONTROL ..Power to Vital AC Inv 13 and-.31 (1PNLID12) PANEL 12 In service Energized 231D13 AP/125 VDC.CONTROL Vital Instrumentation Power32 .(1PNL1D13) PANEL 13 In service Energized Supply1D14 .AP/125 VOC CONTROL Vital Instrumentation Power33 (1PNL1D14) PANEL 14 In service Energized Supply-1D15. API125 VDC CONTROL .Vital Instrumentation Power:34 (1PNL1D15) PANEL 15 .In service Energized Supply1016 AP/125 VDC CONTROL. Vital Instrumentation Power35 -(1PNL1D16) PANEL 16 in service Energized Supply.1017 AP/125 VDC. CONTROL Vital Instrumentation Power36 (1PNLID17) PANEL 17 In service Energized SupplyPage A3 of A8

.Calvert Cliffs Unit I and Common Area ESEL .....~, -Operatings/BMIte N um li ir r_ _ _ _ _ _ _ _ _ _ _ _ __,,',' 1Y 1".. " " P:20VAC " ""Y..". ..A. VAC VITAL DIST -Vital Ibstrumentation Power37 (1PNLI'0I) PANE,L 11 In service E ergized Supply,.,'iY01AOW 11 "" VutI Ilustrumentation Power38 (1INV1Y(I1A) I .... n service.. Energized Supply.",1 .Y02...API1 V.A.C..ITAL DIST .Vital Ihstrumentation"Power39 (1PNLIY02) PANEL 12--. In seric Energized Supply..Y02A : AP .I.V.RTER i- -Vit 4 Instrumentatioff-Power40 (11NVIY02A) -,., In service. Energized Suppl,, 1Y03 .2 ., APIP20 VACzVITAL DIST ..Vitalitnrumentation Power41 (1PNL1Y03) PANEL 13 .... in-service Energized Supply.'-. 1.Y03A'-. .P/IRER 1:3; --Vital InstrumentationPower42 (1 INViYO3A) .....___________1___ 1_ In service -Energized Supply, 4IY04.. -"AP/I.f2VACPVITAL DIST _ Vital Instrumentation.1Power43 (1PNLIY04) PANEL 14 IAn service Energized Supply1 .Y4A n'... .iain~triJmentation Power44.,..! : 1Y0 4A ) : -APiNVE TER -14V4 (NI.Y04A) ".in serve Energized Supply.1Y0.1-1*.1" -: APN12. VACVITALDIST I "itdIntrumentation Power45,1 .(,IPNLlY01-1) PANEL j.: ', rin.9etvT Ehbrgized Supply"1.Y02-1. AP120.VACTAL PANEL 12- v -Vital instrumentation Power46 .; (IPNL1Y,2-1) 1 : .:::; Tifh'rvi( .Erergized Supoly.,1YI1- V P.1-iO.VAC INVERTER Vital InstrumentationdPower..47 (1BUS1y'11) BACKUP BUS 11 ..frse- i ',Enbegized Sup-ly-IC03 ICICONDENSATE AND -.. ....(1PNLIC03) FEEDWATER CONTROL ." ..Main Cbntrol panel -Various76 .-, In service- "ir eiice OIP ind: cators and cofitrols..1C04 I-/AUXILIARY FEEDWATER .71': C'td ROL -..... .. Main'60ntrol panel -Various._ 77 .. ____. ____... .___ ,___._."-"____,__ _si_, .'In service O IP indicators and controls.! ..". ..Page A4 of A8 Calvert Cliffs Unit I and Common Area ESEL,ESELOprating State Notes/Comments1 COS(1PNL1C05) IC/REACTIVITY CONTROL Main Control panel -Various78 In service In service OIP Indicators and controlsIC06 IC/REACTOR COOLANT(1PNL1C06) SYSTEM CONTROL Main Control panel -Various79 In service In service OIP Indicators and controls1C07 ICICHEMICAL AND VOLUME(1PNLIC07) CONTROL Main Control panel -Various80 In service In service DIP indicators and controls1C08 IC/ENGINEERING(1PNL1C08) SAFEGUARDS CONTROL I Main Control panel -Various81 I_ In service In service OIP indicators and controls1C09 IC/ENGINEERING(1PNL1C09) SAFEGUARDS CONTROL Main Control panel -Various82 In service In service ,OIP Indicators and controls1C010 IC/ENGINEERING(1PNL1CI0) " SAFEGUARDS'CONTROL ""MainControl panel -Various83 ___ .1_AE AD-O R In service In service OIP indicators and controls92 11 A SIT 11 A Safety Injection Tank In service In service EOP47 Station Blackout11 A Safety Injection Tank93 1 -SI-624-MOV Outlet In service. In service EOP-7 requires isolation94 1LT321 11 A SIT Level Transmitter In service In service 1LI-321 on Panel 1C0995 1PT-321 12 A SIT Pressure Transmitter In service In service 1PI-321 on Panel 1CO996 11:B SIT 11 B Safety injection Tank In service In service EOP-7 Station Blackout11 B Safety Injection Tank97 1-SI-614-MOV -Outlet In service In service EOP-7 requires isolation98 1LT311 11 B SIT Level Transmitter In service in service 1LI-311 on Panel 1C0999 1PT-311 12 A SIT Pressure Transmitter In service In service 1PI-311 on Panel 1C09,100 12 A SIT 12 A Safety Injection Tank In service In service EOP-7 Station Blackout12 A SafetyInjection Tank101 1-SI-644-MOV. Outlet In service in service EOP-7 requires isolationPage AS of A8 CalveitCliffs Uhltkard Co'mmon rea ESEL,It e m N u mbCer1 ,-6 e ¶ ý ..No t e ,o , e n .44k seipien FnEWvc L-4 nPnl0102 1LT341 12 A SIT Level Transmitler In. sey Inservice 1LI-341 .on Panel 1009-103 'IPT-i-41' 12 A SIT Pressure Transrmitter in se~ice in service 41PI-341 or Panel 1C09104 12B SIT" 12 B Safet7 Iniection Tank ......In service In service EOP-7 Station Blackout12 B Safety Injection Tank ...105 1-SI-634WMOV Outlet ,, In service. -In service EOP-7 requires isolation* 106 ' 1-"f2 B SIT U2vel Transmitter In service .In service. 1LI-331 on. Panel 1C09107 1PT-331 12 B SIT Pressure Transmitter -.In service-. In service 1PI-331 on Panel 1C09Steam Generator Safety t. ..-;124' -IPT-"1013A Y" Chan 6eiiPr'-suf; -Inservice In.service 1PI-1013A on Panel 1C03Steam Generator Safety 1":. " ..125, 1PT'-1023A Channel Pressure :. .,inservice..l I.service 1 1PI-1023Aon Panel 1C03..7 "'Steam.GenerAtor Wide Range126 1 LT-1124A Level. In service In service 1LI-1124A on Panel 1C04' " "-:-'-: 'PAMS-- 1PNL2C182A, TT in127 .11-nTTA112HA Hot Leg emp 11 In service In service 1PNLC43E' .. PAMS- 1PNL2C182A,'Tr'in..125 , Tr-JI12CA Cold Leg Temp 11'A ..lnrsevlce,. Iserce 1PNILC43E..r -.- ... ': " ... .... ........... .PAMS-1PNL2C182A, TTin129 'TT22HA Hot Leg Temp 12: %'-. Irnservice ,In service 1PNLC43EPAMS -1PNL2C182A, TT in1h0o '. i1-122TA. .Cold LegTemp12A In service .Inservice'l1PILC43E131. ....... '1 F-4509A 'SGSteam T~rain XFW-Fl ': Inhservice 1FIl4509A:on 1PNLC43B132 I

1FT:4510A 'SG Stearmr'rain AFW'0lW4-': ..; Ih.gervice. 14iW5I0A on .1PNLC43B...-133 : -'0ressurLevel : ...lr -erviice I'-Lt I- on Panel ICO613.4 lLT-110Y .Pressurizer LeveIn selrvice, .. .1L1-110Y-1 on Panel.C006135 1LT-103 ..Pressuriner,,Level " -, ... In si§Ni.q i perM-e 1U-I&03;on Panel 1C061,36 ... 1PT-105A " rPressurizer Pressure. .inservice, In service1 P1105A on Panel 1C06137 .1NXO01 WR Log power Charnels-l. ", .In sevice- In service PAMS, Panel 1C05..138 1NX002 WR Log power Channels,.i., in'ervice 'In Seirvce PAMS, Panel 1C05'.139 INX003- WRLog-power Channels In service In service. .PAMSI Panel 1005.Page A6 of AB Calvert Cliffs Unit I and Common Area ESELSESEL -N m 6ia rng tate. Notes.Comrniets140 1NX004 WR Log power Channels In service In service PAMS, Panel 1CO5Containment Wide Range141 1PT-5307 Pressure In service In service 1PI-5307 on Panel 1C09Containment Wide Range142 1PT-5310 Pressure In service In service IPI-5310 on Panel 1C09143 1TE-5309 Containment Dome Temp In service In service 1TE-5310 on Panel 1C091V1-11 (1-E1-144 211) 11 Vital DC Bus Voltage In service In service Panel 1C241VI-12 (1-El-145 212) 12 Vital DC Bus Voltage In service In service Panel 1C24Various Indications requiredfor OIP'execution-RX power,165 IPNLlC182A PAMS In service In service level pressureVarious Indications requiredfor OIP execution-RX power,166 1PNL1C182B PAMS In servce In service level pressureOLT2001 ..EOP-7, AOP-6F Loss of SFP172 Spent Fuel pool Level 111 In service In service Cooling.0LT2002 EOP47,'AOP-6F Loss of SFP.173 .Spent Fuel pool Level 21 In service In service CoolingEOP-7, AOP-6F Loss of SFP174 0LT2003 New SFP WR level Standby In service Cooling0L12003A ..EOP-7, AOP-6F Loss of SFP175 New SFP WR level Standby In service Cooling0LT2004 EOP-7, AOP-6F Loss of SFP176 New SFP WR level Standby In service Cooling0L12004A EOP-7, AOP-6F Loss of SFP177 New SFP WR level Standby In service CoolingPage A7 of A8 Cbveirt Cliffs Uhit I and Common Area ESEL., " r ...tem.. I O -erting Statef;i *, .... -EE&4:AOP-6F Loss of SFP178 LNewSFP WR level Standby In service Cooling0L12004 c "= :' EOP-7. AOP-6F Loss of SFP* 179. ... New:SFP WR level Standby ,i tn.se~rice Cabling.' .. .B0IA '. A'480VBJS 11A.........- PotentiaiP500 KW DG180 (1BUSIB01A) 148. In service Energized conneotlon pointIB1BB AP/40v BUS 11B Battery Charger Power.. .BUS1B..B) API.OVB 1 .,. ., supply, 500 KW DG181 ...In service Energized Connection Point.B..A AP/480V BUS 14A Battery Charger Power1 (1BUS1B04A) In eUS 14A supply, 500 KW DG182 .In service Energized Connection Point1B04B AP/480V BUS 14B Potential 500 KW DG183 (1BUS1B04B) In service Energized connection point188 I CV-4670 TDAFW Pump Stm Supp Isol Open Open EOP-07189 TAO'WPump Stm Supp Isol Open ;.Open .EQP-07.190 , 1CV-4071 TDAFW Pump Stm Supp Isol Open" Open -EOP-07191 1CV-4071A T ,'DAFWPPmp S9tM Supp Isol Open , Open EOP-07A .B1B004 .AP/48OV MOTOR CONTROL Power, tqSIT Outlet Isolation19 (1MCC,04R) CENTER 104R: .Ice Energized valve&'I B014 AP/48OV MOTOR CONTROL -Power to.SIT Outlet Isolation197 (i MC!114R) CEINTER. .14R, An-servIce -Energized valves'200 1PNL1C13 SW,SRW,CCW Pa'nel In service In serQice SFP Level and Temp" ... ..',.:', ,.I ,.' .I. ....,IPage A8 of A8 10.2 Attachment BCalvert Cliffs Unit 2 ESEL (Ref. 23)Page B1 of B7 Calvert Cliffs Unit 2 ESELES EL Cý 6dZgVItem .Number ___ mn prtigSaeNtsWmetsTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-77 21 TDAFW Pump Standby service Sation BlackoutManual in Instrument for local manual8 2PI-3986 TDAFW Pp Steam Supply Press Standby service operation of AFWManual in Instrument for local manual9 2PI-4501 TDAFW Pp Discharge Press Standby service operation of AFWTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-710 222TDAFoW Pump D Standby service Sation BlackoutManual in Instrument for local manual11 2PI-3988 TDAFW Pp Steam Supply Press Standby service operation of AFWManual In Instrument for local manual12 2PI-4502 TDAFW Pp Discharge Press Standby service _op2eration of AFW2CV3939 Manual in EOP-0 Plant Trip, EOP-716 21 SIG Atmospheric Dump Valve Standby service Sation BlackoutManual in EOP-0 Plant Trip, EOP-716 2CV3938 22 SIG Atmospheric Dump Valve Standby service Sation Blackout2A01 API4KV BUS 21 2000 KW DG from NSRC48 (2BUS2A01) In service Energized connection point2A04 AP/4KV BUS 24 2000 KW DG from NSRC49 (2BUS2A04) In service Energized connection point2D01 Power to Vital AC Inverter50 (2BUS2DO1) AP/125 VDC BUS 21 In service Energized 222D02 Power to Vital AC inverter51 (2BUS2D02) API125 VDC BUS 22 In service Energized 24200312D042DO312DO4 AP/1 25V BATTERY 2152 (2BATT2D03104) In service Energized Power to DC Bus 21Page B2 of B7 Calvert Cliffs Unit 2 ESELi ;ESEL -:! iM~k-urgi~g~r qdi.e -_e oNotiWsCommet*item. Number ,J ___._._._.__ ..,. ; :,.. .:. p -, 53 (2D05R21) APIBATTERY CHARGER 21 n Power to DC Bus 21 and53 (2CHGR21) In service Energized battery 212D06

Power to DC Bus 22 and54 (2CHGR22) AP/BATTERI CHARGER 22 In service Energized battery 22,55____ (2CHGR23) AP/MATTERY CHARGER 23 In service Energized Power to DC Bus 112D08 APIBATrERY CHARGER 2455 (2CHGR24) In service Energized Power to DC Bus 242D09/2D1057 (2BATT2D010) AP/125V BATTERY 22 in service, Energized Power toDC Bus 222D11 AP/125 VDC CONTROL PANEL 21 Power to Vital AC Inv 1258 (2PNL2D1 1) In service Energized and 222D12 APi125 VDC CONTROL PANEL 22 Power to Vital AC Inv 1459 (2PNL2D12) In service Energized and 242013 3Vital Instrumentation Power2D13 API125 VDC CONTROL PANEL 23 In'service Energized Supply2D14 P 2 Vital Instrumentation Power61 (2PNL2D14) AP.125 VDC CONTROL PANEL 24 In service -Energized Supply,2D15 Vital instrumentation Power82 (PNL215) AP/125 VOC CONTROL PANEL 2562 (2PNL_2D_15) _P DCONTROPNEL2 In service Energized Supply2D16 Vital Instrumentation Power"63 (2PNL2D16) AP125 VC CONTROL PANEL26Supply2D17 API/12 .5 VDC CONTROL PANEL 27 Vital Instrumentation Power64 (2PNL2D17) In service Energized Supply2Y01.. Vital Instrumentation Power(2PL2D7) AP/125 VAC,\A DONTRO PANEL 276I (2PNL2Y01) In service Energized Supply2Y01-1 AP/120 VAC VITAL DIST PANEL Vital Instrumentation Power66' (2PNL2Y01-1) 21-1 In service Energized Supply2Y01AA Vital Instrumentation Power67 (21NV2Y01A) AP/INVERTER 21 In service Energized SupplyPage B3 of B7 Calvert Cliffs Unit 21SEL* .:.' .S:i ;.o.,: : ,, ... " + "' ....Item Number ..-' .w* :o- .p'en. .p* er .b -NotesIComments"quip0nin 0. -aIgS~af, t68 (22Y02' , V VAC'"TAL01- PAEL22Vital Instrumentation Power68 (2PNL2Y02)-.'." In service Energized Supply -69 (2PNi2Y02_) .: 'AP/1 20 VAC:VITAL DIST NE-" "Vital I.nstrumentation Power69. (2 NLIn service Energized Supply-~2Y02A APAN R 22ital. Instrumentation Power70", 21NV2Y02A) APJINVERTER 22 In service Energized Supply2Y03 20 ' .AP/120:VAC.VITAL DIST PANEL:;23 RVitalfnstrumentation Power71 2PNL2V03y In service Energized Supply.2YQ3A AIINVERTER 23, ' Vital Jnrstrumentation Power72... ....PVE In service Energized Supply..... .V D ". .. Vital Instrumentation Power73 (2PNL2Y04) AP10VCVTL0S AE 27VL3A- In service Energized Supply2Yi'4Ay., -'AP/INVERTER 24 ...... .Vital Instrumentation Power7 (21NV2Y.4A) -In service --*Energized Supply.2Y1I,' 1). , .,F /120 JAC " " Vital Instrumentation Power75 (2BS2y1) BUS 21- In-service Energized Supply2003..- I .. BUS 2 .d. ...: ,..'- :. i ..=:v ... 2C03 ".: ... "';.. I"C/,CONDENS ATE AND ' .. ... _.. '.P03) FEEDWATER CONTDO -...... Main Control panel -Various"84 ,i., .,.-FEEWATE COO " In serJ1 :e In service OIP indicators and controls8 4 ....... , ,.___.,_.___,_:_... .._.-., __ .-.2004?*. IC/AUXILIARY FEEDlATER,85 (2PNL2C04) ' ,. CONTROL-- , ~M-ain Control panel -Various85 In service Iniervice OIP indicators and controls', ..... , ....,....2005 .'" IIEAi(2PNL20.5.) IC/REACTiI CONTROL Main 9,ontrol panel -Various86 '.. 2P2 .i , -', service oIp indicators and controls-" 2C06':. IC/REACTOR COOLANTISYSTEMW "' .,:-- .. j.(2PN. 06) , CONTROL": .Main' Control panel -Various87 " ...... In service in service DIP indicators and'controlsPage B4 of B7 Calvert Cliffs Unit 2 ESELESEL EqulIte Nmir ipmiment Opem tate ,Note/c'ommints2C07 IC/CHEMICAL AND VOLUME(2PNL2CO7) CONTROL Main Control panel -Various88 In service In service OIP indicators and controls2C08 IC/ENGINEERING SAFEGUARDS(2PNL2CO8) CONTROL Main Control panel -Various89 In service In service OIP indicators and controls2C09 IC/ENGINEERING.SAFEGUARDS(2PNL2C09) CONTROL Main Control panel -Various90 In service In service OIP indicators and controls2C10 IC/ENGINEERING SAFEGUARDS(2PNL2C10) CONTROL

Main Control panel -Various91 In service In service OIP indicators and controls108 21 A SIT 21 A Safety Injection Tank In service In service EOP-7 Station Blackout109 2-SI-624-MOV 21 A Safety Injectiori Tank Outlet In service In service EOP-7 requires isolation110 2LT321 21 A SIT. Level Transmitter In service In service 2LI-321 on Panel 2C09111 2PT-321 12 ASIT Pressure Transmitter' .Inservl In service 2PI-321 on Panel 2C09112 21 B SIT 21 B Safety Injection Tank Jn service In service EOP-7 Station Blackout113 2-SI-614-MOV 21 B Safety Injection Tank Outlet In service'" In service EOP-7 requires isolation114 2LT311 21 BSIT Level Transmitter In service.. In service 2LI-311 on Panel 2C09115 .2PT-31.1 12 A SIT Pressure Transmitter In service In service 2PI-311 on Panel 2C09116 22A SIT 22 A Safety Injection Tank In service In service EOP-7Station Blackout117 2-SI-644-MOV 22 A Safety Injection Tank Outlet In service In service EOP-7 requires isolation118. .2LT341, .22 A SIT Leyel Transmitter In service _ In service 2LI-341 on Paner2C09119 2PT-341 12 A SIT PressureTransmhitter .In service In service 2P1-341 on Panel 2C09120 22 B SIT 22 BSafety. Injection Tank In service In service EOP-7 Station Blackout_ 121 2-SI-634-MOV 22 BSafety Injection Tank Outlet In service In service EOP-7 requires isolation122 2LT331 22 B SIT Level Transmitter In service In service 2LI-331 on Panel 2C09123 2PT-331 12 B SIT Pressure Transmitter In service In service -2PI-331 on Panel 2C092VI-21 (2-E21-146 221) 21 Vital DC Bus Voltage In service In service Panel 2C24S*..* " .Page B5 of B7 Calvert' Cliffs Unit 2 ESEL2Vi-22 (2-E1-1.47 222 .2 22 Vital DC Bus Voltage In service .. In service -Panel.2C241 Steam Generator Safety Channel ....148 2PT-1013A Pressure -IRsetvice..,. In service 2PI-l.l3A on Panel 2C03-Steam Generator Safety Channel ..49 2PT-1023A .Pressure" : ". .... In service In service -2P1I1023A on Panel 2C03150 2LT-1124A Steam Generator Wide.Range Level ip service, In service 2L1-1,124A on Panel 2C04t -,PAMS -2PNL2C182A, "T":15 " 2T'-112HA ' F-tot Leg"Tii.2-l1.. In service In service in 2PNLC43E1Z- .' !'-:' PAMS -2PNL2C182A, TT152 2"t-TICA Cold Leg Temp 21A In service ';:-" In service In 2PNLC43E1 .,., Leg Tem:o. .In" " PAMS -2PNL2C182A, TT153 " 2T~122HA .""" -Hot. Leg .... .lrvic...i In service in 2Pt&C43E15,'.. ... ... " " -'""C &old L' " A. .PAMS-2PNL2CI.2A, T-r"154 "2T122'CA -(od Leqt '22A ....... '"'- "In servic-, In service in 2PNLC43Ei56 2FT-4509A SG Stea TrainrAFW .' -I nf.serVice -.in service. .2FI-4509A on 2PNLC43B.1 2FT4510A .SG SteamkTfainAFw Flaw .In "ei'ce in service 2FI4510A on 2PILC43B:5"'-:' * "' 1rmssurize. Level- 'i-nservi6 -i servide' ýLl-I-10x'-1 on Pnel 2C06Ji58!"; -.21>liOY -iressui,4i ev~ I. n inice-- n service 2kL-110Y.1 on Pknel.2CO6"5.-- ' P0essurl3erieV ." lh -. In service 2Li 103 on Panel 2C06160: -. 2T105A Pressurizer Preissure In. i in service 2PI05AOon Panl12C061i611 " )(NXO01 WR Log power' Channeis ..: nsei In servicePane.......62..... nsrOe.: .ln ev~ 2C 05:16 Log power Channels .-" 'in s 7i 7 .in service PAMS, Phnel 2C05163 2NX003 "' WR Logpowef-Channels ' In s'.hi service PA MS:Panel2C05*-164 2NX004 "R Log power Channels -.tn:s'evice': In service PAMS, Panel 2C05-..i ~ .*-~ Vanots lnhdicatiohs required." ".-- .-for OIP executionmRX167 ...2PNL2C182A .PAMS ." " -I.- service.- In service power level pressureVanrous Indications required.." ... .. J for 6IP execution-RX168 PAMS .Inserice Iri service power, level pressurePage B6 of B7 Calvert Cliffs Unit 2 ESELU I e.t iiiig State. Notes/CormmentsIEm E, Number Equipment."' O " iO-eC met169 2PT-5307 Containment Wide Range Pressure In service In service 2PI-5307 on Panel 2C09170 2PT-5310 Containment Wide Range Pressure In service In service 2PI-5310 on Panel 2C09171 2TE-5309 Containment Dome Temp In service In service 2TE-5310 on Panel 2C092B01A AP/480V BUS 21A Potential 500 KW DG184 (2BUS2B01A) In service Energized connection point2B01B Battery Charger Power(2BUS2B01B) API480V BUS 21B supply, 500 KW DG185 In service Energized Connection Point2B04A Battery Charger Power(2BUSB04A) AP/4BOV BUS 24A supply, 500 KW DG186 In service Energized Connection Point2B04B AP/480V BUS 248 Potential 500 KW DG187 (2BUSB04B) In service Energized connection point192 2CV-4070 TDAFW Pump Stm Supp Isol Open Open EOP-07193 2CV-4070A TDAFW Pump Stm Supp Isol Open Open EOP-07194 2CV-4071 TDAFW Pump Stm Supp Isol Open Open EOP-07195 2CV-4071A TDAFW Pump Stm Supp Isol Open Open EOP-072B004 API480V MOTOR CONTROL Power to SIT Outlet198 (2MCC204R) CENTER 204R In service Energized Isolation valves2B014 API480V MOTOR CONTROL Power to SIT Outlet199 (2MCC214R) CENTER 214R In service Energized Isolation valvesPage B7 of B7 10.3 Attachment CESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area-4 ...' .4'U%?ia .i1.,:.~,. t j- i , ,i-', -. ..'I. ., ., .;.1.r*1'.. ., .'C)('4I.'j* 2.<-1<I.....2Page CI of C11 ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area17800L12003Screened out,0.53ganalysisInteraction with Component Anchorage HCLPF is175 .0 OL12003A o0.175g calculated per 14Q4242-CAL-002Blockwalls (e.9* (Ref. 9)179 0 012004 Screened out. 0.53g, Component screened by SRT17.... ...re u. .analysis177 0 0L12004A Screened out 0.53g' Component screened by SRTanalysisComponent screened by SRT172 0' OLT2001 Screened out 0.53g u..... "judgmentComponent screened by SRT173 0 .0LT2002 ....Scrdened Out 0.53g "'jdmn173 0judgment0Interaction with Component Anchorage HCLPF is174 0 0LT20031 ..... Bockwalls wi 0.175... calculated per 14Q4242-CAL-002(Ref. 9)176 0 0LT2004 Screened out 0.53g: Component sreened by SRT..... .... ,analysis-i[8 ,0LT561 0 Screened out.-;... 0.53g. Component screened by SIRT-..,analysis.'Component screened by SRT19 0 0LT5611 Screened out. O.-53g19- 0. 0 1 -.analysisComponent Anchorage HCLPF is92. 1 11 A SIT Anchorage 0.21 ig calculated per 14d4242-CAL-002Capacity .-(Ref.9)Component Anchorage HCLPF is96 1 11 B SITAnchorage- --... .. Anchrap 0.21 1g pcalculated per 14Q4242-CAL-002.96 " " "i ... 11 BSITQapacity : :.. * ' * .,," (Ref. 9) ,.Page C2 of Cl1

!'MI SEPiiIPF Values and Fail'UreModes Tabulation, Unit I and Common areatI11 TDAFWAnchorage -.Capacy ..0.51gComponent Anchorage HCLPF iscalculated per 14Q4242-CAq-002(Ref.-9)'.Anchoage ' -Comp~nent Anchorage HCLPF is100 1 12ASIT 0.21 1g calculated per 14Q4242-CAL-002* '. .' .-(Ref. 9)Component;Anchorage HCLPF is.104, '-1 7 -12BSI Anchage .0.21 1g calculated, er14Q4242-CAl,,002Capabity .(..., ... .. ....-:" :;;, .i; u ...,(R ef. ....,... .....Component Anchorage HCLPF is17 ..; 12 CST' -3qnchorag. 0.6 calcullited per 14Q4242-CAL-002Capacity (Ref. 9)Anchra7 ý-Compdnent Anchorage HCLPF is4 12TDAFW~ Anhoag 0.5Igl_ calculated per 14Q4242-CAL2-002I -,(Ref. 9)AInteraction: wth " '"Component Anchorage HCLPF is.... Anchoragei~ with20 1 1 TDAF .0. 1 75g calculated per 14Q4242-CAL-002" ... -"...... B cIk l.. ..B*o- -a*aiy..... ..(Ref. 9)-ter.~ w ,th, -" -Component Anchorage HCLPF is-I A01 Interactin with -196 1 (.I.UC1A04-$) .... BI ",7 0 .175g ca lculated per 14Q4242 -CAL-002.... ......... ...:..... ...... .. -.... * (Ref. )197 -.Component Anchorage HCLPF is>.~ ~ B0., '+,'" 04 : ....Interaction withb .. ...........S I .I-19. 1 0. 3g 5 calcated per -iQ4242-CAL,-002(1'M CCIB S A ,) Bloc wap. .,. ..( 9 .."-.-- ., i. .Component Anchorage HCLPF is180 AChorages u.52g; calculated per 14Q4242-CAL002(1 BU S C11 4A ) C a pac ity Q 4.. R ..M ..92--'" + ..-." .,,+ *Page C3 of Cll ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area181I.1B11013B(1BUSIB301B3)AnchorageCapacity0.52gComponent Anchorage HCLPF iscalculated per 14Q4242-CAL-002I (Ref. 9)Component Anchorage HCLPF is1 B04A Anchorage182 1 01BU A apcity 0.52g calculated per 14Q4242-CAL-002(IBUSIBO04A) Capacity (e.9' " (Ref. 9)'Component Anchorage HCLPF is183 1 1B04B Interaction with 0.175g calculated per 14Q4242-CAL-002(1BUSIB04B) Biock'walls (Ref. 9)Component Anchorage HCLPF is83 1ICOIO Interaction with83 1 (1 PNLICIO) Blockwalls 0.,175g calculated per 14Q4242-CAL-002(Ref. 9)1C03 Interaction With Component Anchorage HCLPF is76 1 0.175g calculated per 14Q4242-CAL-002(1PNLIC03)... Blockwalls (Ref. 9) .1 C Component Anchorage HCLPF is77 1 ...... IJnteraction with ..175g calculated per 14Q4242-CAL-002(IPNLICo4) Blockwalls (Ref. 9)S. -Component Anchorage HCLPF is78 11005 Interaction with78 C1 oca " 0.175g calculated per 14Q4242-CAL-002(1PNL1C05) Blockwalls' ..(Ref. 9),- 1006 Interaction with" Component Anchorage HCLPF is79 0.175g calculated per 14Q4242-CAL-002(1 PN LIC06) Blockwalls (e.9--(Ref. 9)nt o wh -" Component Anchorage HCLPF is80 is ,1C07 Interaction with' 0 175g calculated per 14Q4242-CAL-002(IPNLIC07) Blockwalls (Ref. 9)Component Anchorage HCLPF is8C08 Interaction 1 0.175§ "calculated per 1404242-CAL-00281 1 (1PNLICO8) Blockwalls(Ref. 9)Page C4 of Cll r-... iESEP HCLPF Values and Failure Modes Tabulation, Unit 1 and Common area.abulatin, Unit and onmon are821"1PC09(1PNL1C09)Interaction withBlockwalls0: 1 75gcalculated per 14Q4242-CAIL-002(Ref. 9)i,. ..+' 1' .' C24A

Screened -, ,Component screened by SRT("PNL1C24A) .... 0 analysisI..e.acti.n. ..Component-Anchorage HCLPF is.... .-' ' : " Interaction with1,4. 1, .1" 9398 k .175g calciulated per 14Q4242-CAL-002.(Ref. 9).. ... ..... ............ ... IComponent Anchorage HCL F is130. .1 .1 ,CV3.939 -.-,1,75j 4,alclated per 14Q4242-CAL-002........ +' .-. , "., Blockw alls .+ -.- + .(Rf 9)*Component screened by SRT1189. 1T. .ICV-4070 Screened out ..aa53glanalysig' -cn t -0g Component screened by SRT189 1 1 CV-4070A Screened out 0......053.!.. ... ..' , .-.., .analysisX.. .' '..- '.:-Component screened by S IRT190 "1:1CV-407! Screenepd out 01.53g: a. uae r analysis.canplysis........ : ... .... ..."10g -0.-. C omponent scree ned by S iRT",'I ,CV.-4(0171A 2, -.acpientd otv 4. 1g c...e per 1442alysiin'-----Component.Anchorage HCLPF is171 ,, 1D01

Anchora6ge6,_2 apit ,;: .Ql,,9g! calculated per 14Q4242-CAU-002-. (AO'AUSD03I) o> apacity'"-, Rf9'" ' + .. (Ref. 9...1... ........................-. Component Anchorage.HCLPF is4 1 (Rl)' a"21gl calculated per 14Q4242-CAL-002apa"",y t " (Ref. 9).... ..* .. ...... ... .. ......... .. .. ............ .... ...... ... ... Com ponenf Anch orage HCLPF is(lCHR11) Capaity(Ref. 9)Page C5 of Cl1 ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area25IkD06(1CHGR12)AnchorageCapacity0.52gI.,ompon"nI P, nunoragL n.Llrr i1calculated per 14Q4242ZCAL-002(Ref. 9)1 D07 Anchorage Component Anchorage HCLPF is26 1r 0.52g calculated per 14Q4242-CAL-002(1CHGR13) Capacity (Ref. 9):(Ref. 9)Component Anchorage HCLPF is27 " 1 1D08 Anchorage 0.52g calculated per 14Q4242-CAL-002(ICHGR14) Capacity (Ref. 9)1D09/ID1O Component Anchorage HCLPF is29 1 (IBATTID09/I Equipment. 0.53g calculated per 14Q4242-CAL-0020) .Capacity (Ref. 9)30 1D! 1 Screened out >RLGM 'Component screened by SRT(1PNLID11) analysis1D12 Component screened by SRT31N.... Screened out .. ..>RLGM.32 Dl 138Scendot >.RG Component screened by SIRT32, (1PNLID12) Scrend.ut...Manalysis10D14 Component screened by SRT33 1 (IPNLIDI4) 'Screened out. >ýRLGM analysis34 ~101I5 Scendot >LMComponent screened by SRT32 Screened out >RLGM(1PNLID15) analysis35ID,, SD1e out >RLGM Component screened by SRT35:' 1 (PLD.4 Screened out RL,, (IP-LI-,6) -' analysis,.,(ipNL!D15) .,. analysis11

Component screened by SIRT3616 Screened out >RLGM36 1 1017 , Screened out >RLGM Component screened by SRT(1PNLID17) .. ... .... analysisAnchorage Component Anchorage HCLPF is131 1. FT-4509A C0.3g.' calculated per 14Q4242-CAL-0021 1 I, , ., (Ref. 9)-Rf 9Page C6 of Cll

.ESEP HCLPF Values and Failure Modes TabulatiOn,'UnitlI and bommdJn areaScreened out0.53g*s-omponent screene1. 1. analysis'S.135.....LT-..103. ..sreenedou......RLGM Component screened by 135 1t:ib -i:ce'ereidbi' '>.' ManalysisComponent screened by SRT133 1 1-LT-11OX Screened out 0.53g a...... .... ...... .... .ly s is134 " "' "; ' 1:.'Euimet GCompqnentAndhorage HCLPF is134 Equapaty 0.53g, calculated Oer 14Q4242-CAL-002, Capacity"" : 1 ": .. .. ..-... .. .. ... .... ....... .. ......... .;., -.* .= .(.. .e f.Re .99Conr1pohie~t screened by SPT126 1 .LT-1124A Screened out.:`-' ;,,0.53gn sc S--,,4 ..... .:. .." " , :analysis98". ' " 1.LT.I.1 ~ ..... ..~ )omponený Anchorage HCLPF is* ..... ri I ...,,98 1- 1LT311 0.53g :' calculated Oer 14Q4242-CAL-002.. ... ... Capacity (Ref 9)"LT"1 Equipment,0:Component Anchorage HCLPF is* 9 -:. ... t ........ .1-T3 -1 ....... Equipmient .... ... .0 5 g! ....94 "-..; .. ... .... 0;----r----.. 53g4.- -Calculated -er 14Q4242-CALL002Caoaitv.4 -4;*(Ref. 9).................. .. Component Anchorage-HCLPF is"106" 1 .... ......= 1T 3 "- ... c ,alculated I~er apacity:. " "" , (Ref. 9)MCohoponent Anchor-ge is.quipmien't g ... ..-. ý. I102 1 1 LT341 ^ I 0.53g calculated per 14Q4242-CAL,-002*Capacity ......... 137 1 i~xol I .creend out 0 &3compornent screened b ~7 an 1ysis438 ...... .. -.1N02. .... ,ne.u,~ ........ -Component. screened ..by SRT* Sr.ee.d! ;.ot -1 ". Component screened by SIRT139 1ll""' 1 i. Screened out" 0.53g'..'1 ....,alysistPage C7 of ClI ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area14011 NX004Screened out0.53ganalysisComponent screened by SIRT2 1 1 PI-3986 Screened out >RLGM analsi s" analysisPressure Indicator is missing a5 1 IPI-3988. Functionality >RLGM manufacturer screw NOTE 11PI-4501 Screened out >Component screened by SRRT>RLGM analysis6 1 1 PI-4502 Screened out >RLGM

Component screened by SRTanalysis200 .1 1PNLIC13 Screened out .......053g Component screened by SRT200,1 I Screene out .... ,analysis"Equipmrnt .Component-Anchorage HCLPF is165 1 IPNLIC182A Capac -,0.53g, calculated per 14Q4242-CAL002(Ref. 9)Component Anchorage HCLPF is166 1 1PNLIC182B Equipment 0.53g calculated per 14Q4242-CAL-002.,Capacity .(Ref. 9)Component Anchorage HCLPF is124. 1 IT-1013A 1 --0.53g: -calculated per 14Q4242-CAL-002.Capacity, (Ref. 9)..Component screened by SRT125 ,1, IPT-1023A Screened out >RLGM~analysisComponent screened by SRT136 1 1PT-10SA Screened out 0.53g .analysisCom onent Anchorage HCLPF is99 1 1PT-311 Equipment 0.53g', calculated per 14Q4242-CAL-002.Capacity. (Ref.. 9)Page C8 of Cl1 Valbes and Failure Modes' Tabulation, Unit I and Coibn area951 PT-321,.quipmenl...Capacity"0.53gcalculated per 14Q4242-CAL-002(Ref. 9)! Component Anchorage HCLP, F is107 1... .Anch°iaage, ... 0.183g -.. calculated per-14Q4242-CAL-002i~i.-!"!r= i". -o apa~~y ,; [ " .;' (Ref. 9i,--- -ComponenftAnchor~ge HGCLPF is103 1 .1PT-341 -, "..quipren .0.53g alculated ger SCapaity (Ref. 9).-out- g .. Com'ponept screened by SRT141 .1PT-5307, "creened out -5" analysis.42 AP-30 -:.,c --:,; :,Component screened b9-SIlT1ScrPT-531u _eened out 0.53gay97 _- I

_ 1L..6 V ..en. '.Component screened by SRTo. RG .vanalysis3 , '- --SF-624MOV Screend o, >RLG-M ............-Component screened by SRT* ~~ ~ Sre~ .out... ,- .. ;,,- analysiso. ,:. j I, .-" Componewt screened by SRT105 1 1-SI-634-MOV Screened out >RLGM... .. ...... ....... .. .... ........ .... >R........ ... .. .. ........... .....-+/- , ...S'"Criond , sdreenecr'by SýTScendout'1: "~'IRLGM Cýi~n~101 1-SI-644-MOV analysis... .. .. ....... ....; ,-. ...... .. ... .......... .... .... .. .......... --...I ,'.L. .1 I screeried:by SRT128 1 1TT-112CA Screenqd out 0.53g} analysis. Cohiponentiis Rule & Box....... .. ....... toIP NLtC43E -. .* .,.,.14 Component screened by SRT127 ,-:1--'..1.2HA -Srreenqd-out.-...53g.-- analysis. Componentis Rule of Box' " .... ."' , .... ;to,1 PNLICr43E .-, " Component screenied by SIT'130- 1 .1TT22CA -Screeneldout -0.53g V.. analysis. Componentis-Rule of Boxto 1PNLIC43E-SPage C9 of Cl1 ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common areaES1TT122HAScreened out* omponem screenw -y -.K Ianalysis. Component is Rule of Boxto 1PNLIC43EComponent screened by SRTanalysis (Above 40 feet)Component screened by SRTanalysis. Component is Rule of Boxto IPNLIC24APage C10 of Cl1 ESEP HCLIPF Values aid Failure Modes Tailati6n, uWIt1 And :ommn'on area:'44'-P I(ilN`' '04A) I Screened out:.,.1-. ,I.V I T UQ. ..>RLGiMComponeht screened. byanalysis*i. 1......Interaction nt " .Component Anchorage HCLPF is47' 1'wall 0.26g c~lculated pRer 14Q4242-.AU-002L ..(1BUS1Y11) ( 9Blockwalls.... , "(Ref. 9)Note..1: Work order C92642395 replaces missing screw, therefore equiptent will sdreen-out.-.7 .7 ., , -. " -"" :. ." * .2~V. 22 2..........: .; ". :,- : --.....)~2 2~ ,~.... ~S.......4.......... 2~2. '-r7 .r~I"_ _..-.\ .~~ 2 --- ~......................>.:7 7, .~ <'r7'.;..2 22. ..~~ 0 1' .S.-..- 4-...-~.. ........~..-. ..2. .r r .~Page C11 of C11 10.4 Attachment DESEP HCLPF Values and Failure Modes Tabulation, Unit 2... .... ...Page D1 of D1O ESEP HCLPF Values and Failure Modes Tabulation, Unit 2108221 A SITAnchorageCapacity0.211guomponem Ancnorage MIL;LrI- IScalculated per 14Q4242-CAL-002(Ref. 9)7- ..Component Anchorage HCLPF is112 2 21 B SIT Anchorage 0.211 g calculated per 14Q4242-CAL-002Capacity (Ref. 9)Component Anchorage HCLPF is7 2 21 TDAFW Capacity 0.51g calculated per 14Q4242-CAL-002(Ref. 9)Component Anchorage HCLPF is116 2 22 A SIT Anchorage 0.211 g calculated per 14Q4242-CAL-002Capacity (Ref. 9)Component Anchorage HCLPF is120 2 22 B SIT Anchorage 0.21 1g calculated per 14Q4242-CAL-002Capacity (Ref. 9)Component Anchorage HCLPF is10 2 22 TDAFW Anchorage 0.51g calculated per 14Q4242-CAL-002Capacity (Ref. 9)2A01 Interaction with Component Anchorage HCLPF is48(2BS2AO) Blockwalls 0.175g calculated per 14Q4242-CAL-002(Ref. 9)2A04 Interaction with Component Anchorage HCLPF is49 2 ( O4 Itrciwith 0.175g calculated per 14Q4242-CAL-002(2BUS2A04) Block'walls (Ref. 9)213004 Interaction with Component Anchorage HCLPF is198 2 2B004 Itrctwith 0.175g calculated per 14Q4242-CAL-002(2MCC204R) BlockwalIls (Ref. 9)Component Anchorage HCLPF is199 2 2B014 Anchorage 0.33g calculated per 14Q4242-CAL-002(2MCC214R) Capacity (Ref. 9)Page D2 of D10 ESEP HCLPF Values and Failure Modes Tabulation, Unit 21842.2B01A(2BUS2BO1A)AnchorageCapacity0.52gcalculated per 14Q4242-CAL-002(Ref. 9)Component Anchorage HCLPF is* 185 2 2B1301B Anchorage 0.52g calculated per 14Q4242-CAL,002(2B3US2B1B01) Capacity (e.9; * (Ref. 9).,Component'Anchorage HCLPF is186 2 2B104A Anchorage p0.52g calculated per 14Q4242-CAL-002S (2BUSB4A) CapacityRef. 9)18 2B04B Anchorage ..... Component Anchorage HCLPF is(2BUSB04B) 'Capacity O0.52g

calculated per 14Q4242-CAL-002(Ref. 9)(Ref. 9)2ne owComponent Anchorage HCLPF is85 2 ( 2C03O ..n ctwiths 0.175g calculated per 14Q4242-CAL.0022 (2PNL2C03) ..Blockwalls (Ref. 9)Component Anchorage HCLPF is2C04 :Interaction with85 2 0.175g' calculated per 14Q4242-CAL-002(2PNL2CO4) .....Blockwalls .(Ref. 9).2C05 .Interaction with Component Anchorage HCLPF is-86 2 .(2PNC0) ,Blckl 0.175g calculated per 14Q4242-CAL-002S "(Ref. 9)12C06 Interaction with Component Anchorage HCLPF is.87 .2 0:(2PNC0 with 0175g calculated per 14Q4242-CAL-002Bloc.als -(Ref. 9)...Component Anchorage HCLPF is89 2C07 Interaction 2 0.175g: calculated per 14Q4242-CAL-002(2PNL2CO7) Blockwalls (Ref. 9)2C08: Iterctin ........ ... -component Anchorage HCLPF is89 2 0:175g .calculated, per 89. 2 (2PN1_2C08) Biockwalls ,," ' ...(e.9! ;(Rf.9Page D3 of D1O ESEP HCLPF Values ind Failure Mo~des Tabulatli',* Unit 2" -.,, ..960-(2PNL2CO9)-Interaction with*Blockwalls flF0 175g:,,om.ponenm ^ncnorage lLLrI- IScIputated per 14Q4242-CAL-002(Ref. 9).-4-. -'2010G interaction with"' -- Component Anchorage HCLIF is16 -2 .., 2CV3108 Interaction with" :'cpnn Acorg 'LFiB*ock~ _. ,:0.175g :calcujatkd per 14Q4242-CAU-002* (-2PNL2C10) Blockwalls (Ref. 9)1tomponent Anchorage HCLPF isf5 2. -CV399~ Interaction with*1Blockwlls 2 2CV, 0175g .. calQulated er 14Q4242-'CAIL-002'(Ref. 9)19..P. C crn iComponent Anchorage b , is! " :" "2 ;" ! , :rrderactioh witllý;' ..,. HCF* ,' ". nayi35 ., o.tCm175gp o ,ncalculated see ,ed24 ! Blockw~alls analysiý."Component screened by SRT-194. ;.,2' .Screenedi out O.59g ' ' .aa ,.; , ,;,:...r. ; ,;:."... ', ianalysis;!: ..... .... .... k... ... ......... .... ...Component-screened by SIRT..193' .', ._"..-_2__,___._'_____-__70_....._Sc__eenlo___......._....._0_53_g_194 2 2CV-4071' Screened out 0.53g Component screenedb SRT-_______ anatysis_ .R. nent s9ree)ed195 : ..2,-: 2C V -4071A, S creened out '-l P!' _:.1. 53g !. o... ... .an ys ;...:0 2. 2D01 ponent Anchorage HCLPF is51 9(2BUS20i) Capadity ' .u., g calcyjated per 14Q4242-CAL;-002: '(Ref. 9).52 -2 ( .2..o ' Equipment -s. C ormponent Anchorage HcLPF is....gp ....-.,.',-Anchorage ,' ,4) apacy ., ..-,.1 g -;calculated per 14Q4242-CAL-002.- (2BUS2D02) (paC~(Ref. 9) ,::2D03/2D04 , qimn" Q"o --: Ponent Anchorgtge HCLPF is:"52":.-2 : (2-BA'ft2D0:i10 .i...:3 ,"9culated I6er 14Q4:242bAlý-002,Pt, (Ref. 9) .idPage D4 of D1O ESEP HCLPF Values and Failure Modes, Tabulation, Unit 25322D05(2CHGR21)AnchorageCapacity0.52guomponent Ancnorage H.;L-'I- Iscalculated per 14Q4242-CAL-002(Ref. 9)* Anchog .Component Anchorage HCLPF is54 2 2D06 Anchorage 0.52g calculated per 14Q4242-CAL-002(2CHGR22) , CapacitY (Ref. 9)Component Anchorage HCLPF is55 2 2007 Anchoragep 0.52g calculated per 14Q4242-CAL-002(2CHGR23) -Capacity (Ref. 9)2008 AnchoraComponent Anchorage HCLPF is56 2 (2D08 Anchoragep 0.52g calculated per 14Q4242-CAL-0O2(2CHGR24) Capacity ,(Ref. 9)Component Anchorage HCLPF is57 2 2D0912D10 .Equipr~ent57 2B0/2010 Cupait 0.53g calculated per 14Q4242-CAL-0022 (2BATT2D0IO) Capacity (e.9' ~(Ref. 9)5 2 2D11 Component screened by SRT(2PNL2D1 1) Screened out >RLGM analysis59 .20122 < Screened out >RLGM: *Compoaent screened by SRT59 2 (2PNL2D12) Screened o R analysis2D13 Component screened by SRT...(2PNL2D13) S.r ...e ...ut.... ...analysis, 2D14 Component screened by SRT61 2 , (2PNL2D4) Screened out $RLGManalysis" 2D15 S o Component screened by SRT62 2 (2PNL2D15) .Sreened out" " >RLGM alysis2' 2016 oComponent screened by SRT63 .2 (2PND16) Screened out .RLGM .analysis2D17 Component screened. by SRT(2PNL2D17) Screened out analysisPage D5 of D10 ESEP HC'LPF Values and Failure Modes Tabulation, Unit 2..% ".:2"0539uomponent screeneaanalysis+I2 ';,2FT"4510A Screened out " >IGM... Component screenedbyST,.. (. analysis159 2 2LT-103 Screened out >RLGM Component screened by SRT.' ...... .... ..." analysis157 ' 2LT-110X; Screened out 6.' .53g .Corronent screened'by S T.....analysis"158.... 2"" 2LT-IY Equipment gomponent Anchorage HCLPF is156:" 2.. 2 Capit b 0.53g .calculated per 14Q4242-CAý-002(Ref. 9)1 '.-i........ ...... .. .'" A "Seene o .- Component screened by SRT, '150) '"'2 ..2.L.T,1?-, , outr'o : .'" * .anblysis1. .. ....'... ..' ." ComponentAnchorage HCLPF is::i .:, ...... 5quiprqent1 "'1' 22 .2LT311 .,.. , 53g 1,c a* lated per 14Q4242-CAL-002Capacity (Ref.9)... .... i ... .. ... ,I .............-......... .. ... '........,...p.e,., I Cbmponent Anchorage IICLPF is110 2 2LT321 0.53g c"lcu'lated Oer 14Q4242-CAL.-002.p.. ..-..Ref. 9)--.,r~ 3:. t M, -: C.'ompnbrnt Anchorage HCLPF is122" z ~31 -. nhrg -(I 183g,-- -aIa4 tedpe4Q4242-CAiL4002Capacity ,I(e.92 .-Qmon Anchorage dHCLPF: .:. ... ... ..... ...* ... ... ....... .... ...... ...i. .. ..~ m ponent n h r g H L F isIa 2, 2L/T41 .t53g calculatqd iOer 14Q4242-CAL-002L.~..Z2.. .-apaq~ -.......- (Ref. 9)2 2Z.O ;- ".Cmponent screened by SRT161 2NX001 Screened oui 0.53g analysis~analysis.5.. " S. -. Component sbreenedby SRT162 12: 2NX002' Screened out 0.53g -analysisPb

I- * .... "' analysis# ,,-Page D6of D10 ESEP HCLPF Values and Failure Modes Tabulation, Unit 216322NX003Screened outO.53ganalysisComponent screened by SRT1.64 2. 2NXW0 Screened out 0.53ganlis, ...... ..... .analysis, -Component screened by SIRT8 2 2PI-3986 Screened out >RLGM'alys.1 2 2 PI-3986 Screened out >RLGM .com ponent screened by SRTanalysis.11 2 2PI-3988 Screened out >RLGM "Component screened by SRTanalysis9 .2PI-4501 "Scieened'out ' RG Component screened by. SRTi.."" '. ... *analysis12 2 2PI-4502 Screened out' >RLGM ' Component screened by SRTanalysis....Equipment .Component Anchorage HCLPF is167 2 2PNL2C182A Equipment 0.53g calculated per 14Q4242-CAL-002Cat(Ref. 9)168 2 2PNL2C182B Elquipment i Component Anchorage HCLPF is0.53g calculated per 14Q4242-CAL-002C.. Capacity (Ref. 9)'Component Anchorage HCLPF is4. 2PT-1013A Equipment- -0.53g calculated per 14Q4242-CAL-002Capacity (Ref. 9)49:'2. 2P.T-1023 .......creene .... >RLGM Component screened by SRT149- , 2,T-2 ,. Screened.out .......analysis-Component screened by SIRT160 2- 2PT-105A Screened out 0.53g analsi S...... *analysisComponent Anchorage HCLPF is115 2 2PT-311 Equipment .0.53g. calculated per 14Q4242-CAL-002Capacity~. : , ,(Ref. 9).Page D7 of D10 E I Vus Fir eal ",'I Unit;: ESEP H'C&PF valuies Failure Modes'Tbulatl~n Unit 211122PT-321Equipment1Capaqity_0.53gyy.mpuIIUIL[ ]L;ncnotrage M,Lr-r ibscalculated per 14Q4242-CAL-002(Ref. -9)Component Anchorage HCLPF is123 " .. ' "2T;.331-4 " A "chrage- 0 183g -- calculated per 14Q4ý42-CAL-002" .-p .' .. pa ity-. (Ref. 9)--Component Anchorage HCLPF is... .... " : "" 23 1 .quipment,... .' ;- 53119 2 Pt 341 .q.Timn , _ O:53g ,"calcultted per 14Q4242-CAI.-002'I Capacity (Ref. 9)2PT-53,7 , -, Component screened by SRT169 .'2 2PT-5307: Screened out >RLGManalysis170... .0 ;;.. g ,Component screened ýby SIRT170 .2 2PT-5310, Screened out 0.53aay,; .analysi,.. .... ........- _i-.... ..... .'13- -2"- 2SI-614WMQV 1.,t&eenel out' " ,LGM .Component screened, by SRT...Corn analysis.-.O ". 2' -2.S"24-Mv .Screene-.........t ..-- .Componet screened by SRTI,.. : " "-... 'analysis121. -.Z ' Component screened by SRT.,121 .2 .-S-63LM V .. Screened out ..>RLGMI ...... ..:,-/ ...:. ....::, .:. ..:: t " ,! ......... 1 analysiý... .. ..7" ..,,D .117..S'-. .... re...n... out ' ....-Comlpdnent sdreened'by SRT117 ;2 2-SI-644-MOV Screene out .RLGMi ianalysii1712,,,n o 2 2 , ,...,Component screened: by SRT1n analysis (Above 40 ft):. ..-*- " ,, Compondnt screened by SPT152 2TT-1 12CA Screene. out 0.53g j analysis. Component is Rule of Box..' .... .' .. ..to;2PNL2C43E... ... ."" ... ... ...... i ,,r!.,, i *Component screened by SRT151 2' 2TT-1 12HA Screened out 0.53g analysis. Component! is Rule of BoxS-. ..to2PNL2C43EPage D8 of D1O ESEP HCLPF Values and Failure Modes Tabulation, Unit 22TT122CA.Screened out :L;omponent screenea Dy -sK Ianalysis. Component is Rule of Boxto 2PNL2C43Eanalysis. Component is Rule of Boxto 1PNLIC24AComponent screened by SRTanalysis. Component is Rule of Boxto 1PNLIC24APage D9 of D10 "SEl'OI.CLPF Values'anai Failure Modes "rabudation, Unit 2Y-073,2..2Y04,(2PNL2YO4)-.Anchorage.Capacity0. -.28gPMI.lG[UI dI~t l,cailculated per 1i4Q424-WAI.-002(Ref. 9)-.2Y04A .Cornponent scree~ned by §RT74 4A ) .Screened outs 4' ->RLGM 2, "I analysil's...5.2............. ... .Componerft Anchorbge-HCLPF isInteraction with 0.175g .;:',calculated per 14Q4242-CAL-0027.(2BUS2Y11) ,-.(Ref. 6)..uc ~ .4'.-.- -01 1L_JqJ Cý 'L-":%Y"_41 ':.'4 ý.jt APage DIO of DIO

@@ Line 13: / Line 13: @@
 | document type = Letter, Report, Miscellaneous
 | page count = 72
+| project =
+| stage = Response to RAI
 }}
+=Text=
+{{#Wiki_filter:AMaria Korsnick4Senior Vice President, Northeast Operations1Exe0on Generation Chief Nuclear Officer, CENG100 Constellation WayConstellation Energy Nuclear Group, LLC Baltimore.MD 21202410-470-5133 Office443-213-6739 Faxwww.exeloncorp.commaria.korsnick@exeloncorp.com10 CFR 50.54(f)FLL- 14-036December 17, 2014U.S. Nuclear Regulatory CommissionATTN: Document Control DeskWashington, DC 20555-0001Calvert Cliffs Nuclear Power Plant, Units 1 and 2Renewed Facility Operating License Nos. DPR-53 and DPR-69NRC Docket Nos. 50-317 and 50-318
+==Subject:==
+Exelon Generation Company, LLC Expedited Seismic Evaluation Process Report(CEUS Sites), Response to NRC Request for Information Pursuant to 10 CFR50.54(f) Regarding Recommendation 2.1 of the Near-Term Task Force Review ofInsights from the Fukushima Dai-ichi Accident
+==References:==
+: 1. NRC Letter to All Power Reactor Licensees et al, Request for InformationPursuant to Title 10 of the Code of Federal Regulations 50.54(f) RegardingRecommendations 2.1, 2.3, and 9.3,of the Near-Term Task Force Review ofInsights from the Fukushima Dai-ichi Accident, dated March 12, 20122. Nuclear Energy Institute Letter to US NRC, Proposed Path Forward for NTTFRecommendation 2.1: Seismic Reevaluations dated April 9, 2013, ADAMSAccession No. ML13101A3793. US NRC Letter to Nuclear Energy Institute, Electric Power Research InstituteReport 3002000704, "Seismic Evaluation Guidance: Augmented Approachfor the Resolution of Fukushima Near-Term Task Force Recommendation2.1: Seismic", dated May 7, 2013, ADAMS Accession No. ML13106A3314. US NRC (E Leeds) Letter to All Power Reactor Licensees et al., "Screeningand Prioritization Results Regarding Information Pursuant to Title 10 of theCode of Federal Regulations 50.54(F) Regarding Seismic Hazard Re-Evaluations for Recommendation 2.1 of the Near-Term Task Force Review ofInsights From the Fukushima Dai-lchi Accident," May 9, 2014, ADAMSAccession No. ML14111A1475. Seismic Evaluation Guidance: Augmented Approach for the Resolution ofFukushima Near-Term Task Force Recommendation 2.1 -Seismic. EPRI,Palo Alto, CA: May 2013. 3002000704 A o 10 U. S. Nuclear Regulatory CommissionDecember 17, 2014Page 3scope relay review in accordance with the schedule provided in the October 3, 2013 letter fromthe NEI to the NRC (Reference 7). This commitment was based on the NRC screening CCNPP"Out" based on the adequacy of its IEEEE submittal. In Reference 4, the NRC has screenedCCNPP "In", based on its unfavorable judgment of the CCNPP IPEEE adequacy. EGCconsiders it appropriate to retract its commitment to perform the full scope relay chatter reviewmade in Reference 6.This letter contains no new regulatory commitments. If you have any questions regarding thissubmittal, please contact Mr. Douglas E. Lauver, Regulatory Assurance Manager, at (410) 495-5219.I declare under penalty of perjury that the foregoing is true and correct. Executed on the 17thday of December 2014.Respectfully,Mary G. KorsnickMGK/GGM
+==Enclosure:==
+Calvert Cliffs Nuclear Power Plant, Units 1 and 2, Expedited Seismic EvaluationProcess (ESEP) Reportcc: Director, Office of Nuclear Reactor RegulationNRC Project Manager, Calvert CliffsNRC Regional Administrator, Region INRC Resident Inspector, Calvert CliffsS. Gray, MD-DNR EnclosureCalvert Cliffs Nuclear Power Plant, Units 1 and 2Expedited Seismic Evaluation Process (ESEP) Report EXPEDITED SEISMIC EVALUATION PROCESS (ESEP) REPORTIN RESPONSE TO THE 50.54(f) INFORMATION REQUEST REGARDINGFUKUSHIMA NEAR-TERM TASK FORCE RECOMMENDATION 2.1: SEISMICfor theCALVERT CUFFS NUCLEAR POWER PLANT UNITS 1 AND 21650 Calvert Cliffs ParkwayLusby, MD, 20657Facility Operating License No. DPR-53 and DPR-69NRC Docket No. 50-317 and 50-31SA-- Exelon.Exelon Generation Company, LLC (Exelon)PO Box 805398Chicago, IL 60680-5398Prepared by.Stevenson & Associates1646 North Litchfleld Road, Suite 250Goodyear, AZ 85395Report Number 14Q4242-RPT-004, Rev. 2-~ q/8iKPreparer. Sarner E-Bahey. Ph DReviewer A. KaravausslanlsApprover:Lead ResponsibleEngineerBranch Manager:Senior ManagerDesign Engineering:Corporate Acceptance:A KareousalanlsFrank HigginsChris DabryBen ScutJeffrey S. Clark12=9)01412&9201412/902014Xv /awl 14Q4242-RPT-004 Rev. 2Page 2 of 33EXPEDITED SEISMIC EVALUATION PROCESS (ESEP) REPORT IN RESPONSE TOTHE 60.54(f) INFORMATION REQUEST REGARDING FUKUSHIMA NEAR-TERM TASKFORCE RECOMMENDATION 2.1: SEISMIC FOR THE CALVERT CLIFFS NUCLEARPOWER PLANT UNITS 1 AND 2Document Type: Report Report Number. 14Q4238-RPT-004Project Name:Exelon ESEP for Calvert CliffsJob No.: 14Q4242Client: ' ExeLon.This document has been prepared in-accordance with the S&A Quality Assurance ProgramManual, Revision 17 and project requirements:Revision Record: ..Revision Prepared by/ Reviewed by/ Approved b/ t r'Desciptioh of RevisibnNo. Date Date DateI Yg , Incorpo rate Client's editoral commentsSame7El.Bahey, A. Karavoussianis A. KaravoussianisPh.D 12/5/2014. .. 12/512014. 1215/2014.'2 Incorporate. Client's editorial commentsSa-meEI-:Bahey,. A. Karhvoussianis A: Karaveussianis.' h.D 12/91201AJ ,. 12/9/2014DOCUMENT CONTRACT NO.S A APPROVAL.SHEET .' .Stevenson & Associates .-.
+Q4242-RPT-004 Rev. 2Page 3 of 33Table of ContentsPURPOSE AND OBJECTtVE 6..................................................................................... 62 Brief Summary of the FLEX Seismic Implementation Strategies....... 73 Equipment Selection Process and ESEL ................ ..'.. .....3.1 Equipment Selection Process and ESEL ............................................................. 12"3.1.1 ESEL Development ............................................................. .. 133.1.2 .Power Operated Valves .................................. ................ 143.1.3 _,FP4I-qI~xps ...... n...... ............ ..........13.1.4 Term ination Cabinets ....................... ....... ............ ...... .... ....................... ....;:.'A3.1.5 Critical lnstrumentatio.lndict ... ............ .................3.1.6. Phase 2and Phase 3 Piping.Connections ...................................................15.3.2 Justification .thft the primary means for FLEXtfor use pf Equipment moasoroEimplementa'tion '.... .. .... 1......nt .... ........ ........................ L............. .................................. ... .......... 15 ' i4 , Ground MotiQn.R~espons~e 4Subrund'Wt F tt00..ed....t.he ..ensee........................................4.1. Plot of GMRS Submitted by e icese....... " ... .:....... ...........164.2 Com parison to SSE ............................................................................................. 185 Review Level Ground Motion (RLGM) ...................... ..........56.1,.. Description ofIR!LGM f.. ............. 5.2 Method to "siaeIR ..... ' ".22' '.2 M ethod to. Estim ate ISRS ,. ....................... .......... ..... ........ ................. ........ 22.6 SeismicMargin Evaluation Approach,,.:,..................... ............................ &#xfd;.236.1 Summary of Methodologies Used 3 ...... .............6.2 HCLPF ScreeningProcess.................... :............ ...................... ...... ........ 236.3 Se;lismit Wal kdown.-..: 24,:,-h .. 246.3.1 W alkdown Approach L ..................... ........................... ................................. 24... .. ... .--.., .--, ..6.3.2 A'p' pIca'_t f "Previous nfoatio n......, P ..'.. ....256.3.3 WSignficantWalkdown Findings ....... ........ ....;............... ......... 266.4 HCLPF Calculation Proc.s ...26.3.2 ... 14....26 .35 Sn gd fi t Wal kdo n f indings ............................................t..... n,-t... ...... .......2o...6.6 Tabulated..SEL. HLPF Values.including Key failure modes) .. ............. Z7 Inaccessible Items .rocess.......................... ... ..........................................................287.1 Identification of ESEL Items Inaccessible For Walkdowns ............................... 28 14Q4242-RPT-004 Rev. 2Page 4 of 337.2 Planned Walkdown I Evaluation Schedule I Close Out ..................................... 288 ESEP Conclusions and Results ........................................................................ 298.1 Supporting Information ...................................................................................... 298.2 Summary of ESEP Identified and Planned Modifications ................................. 308.3 Modification Implementation Schedule................................ ............................ 308.4 Summary of Regulatory Commitments .....3...............0............ ........ .................... 309 References .................................................................. ........................... 3110 Attachments ....................................................................................................... Al10.1 Attachment A Calvert Cliffs Unit I and Common Area ESEL .......................... Al10.2 Attachment B Calvert Cliffs Unit 2 ESEL ................................................................ B110.3 Attachment C ESEP HCLPF Valuesand Failure Modes Tabulation Unit I andCommon Area .......................................................................................... ........ C110.4 Attachment D ESEP HCLPF Values and Failure Modes Tabulation Unit 2 .......... D1 14Q4242-RPT-004 Rev. 2Page 5 of 33List of Tables and FiguresList of FiguresFigure 4.1-1 Calvert Cliffs GMRS (5% Damping) ..................................... ....17Figure 4.2-1 Calvert.Cliffs GMRS.vs. SSE (5% Damping). ...............19Figure 5.1-1 Calvert Cliffs RLGM, GMRS & SSE (5% Damping); ...22T, b" 0 hie 1-k9,aigle 2.1 CNP a .................... 9Table 2.2 CCNPP Phase 2 FLEX Strategy Summary ..................... 10Table 2.3 CCNPP Phase 3 FLEX Strategy Summary....................... 11Table 4.1-1 Calvert Cliffs GRS (5% Damping)....................................... 16Table 4.2-1 Calvert GMRS vs. SSE (5% Damping) ............................................ 18Table 5.1-1 Ratio between GMRS and SSE (5% Damping) ................................. 20 14Q4242-RPT-004 Rev. 2Page 6 of 33I PURPOSE AND OBJECTIVEFollowing the accident at the Fukushima Dai-ichi nuclear power plant resulting from the March1I, 2011, Great Tohoku Earthquake and subsequent tsunami, the Nuclear RegulatoryCommission (NRC) established a Near Term Task Force (NTTF) to conduct a systematic reviewof NRC processes and regulations and to determine if the agency should make additionalimprovements to its regulatory system. The NTTF developed a set of recommendationsintended to clarify and strengthen the regulatory framework forprotection against naturalphenomena. Subsequently, the NRC issued: a 50.54(f) letter on March 12,2012 (Ref. 1)requesting information to assure that these recommendations are addressed by ail U.S. nuclearpower plants. The 50.54(f) letter requests that licensees and holders of construction permitsunder 10 CFR Part 50 reevalUate the seismic' hazards at their sites against present-day NRCrequirements and guidance. Depending on the comparison between the reevaluated seismichazard and the current design basis, further risk assessment may be required. Assessmentapproaches acceptable to the staff include a seismic-probabilistic risk assessment (SPRA), or aseismic margin assessment,(SMA). Based upon the assessment results, the NRC staff willdetermine whether additional regulatory actions are necessary..This report describes the Expedited Seismic Evaluation Process (ESEP) undertaken for CalvertCliffs Nuclear Power Plant (CCNPP)." The intent of the ESEP is to perform an interim action inresponse to the NRC's 50.54(f) letter (Ref. 1) to demonstrate seismic margin through a reviewof a subset of the plant equipment that can be relied upon to protect the reactor core andcontainment following' beyond design basis seismic events.The ESEP is implemented using the methodologies in theL.NRC endorsed guidance in EPRI3002000704,,Seismic Evaluation Guidance- Augmented Approach for the Resolution of:.Fukushima Near-Term' Task Force Recommendation 2:1: SeiSmic (Reft 2).The objective-of this report is.to provide summary information describing the ESEP evaluationsand results. The level of detail provided in the report is iritended to'enable NRC tb understandthe inputs used,,-h.e evaluatian.s-performed, and the decisionsmade as a result of.the interimevaluations. -,Per Reference 22, -a brief summary of the FLEX. seismic implementation strategies and theequipment selection process and Expedited SeismicjEquipment: List (ESEL) are provided inSections 2 and'3&.." ~~~~~~~~~~~~~~. .. ' ..... "..... .. ." ,'*.. ,..S. , .. ..
+Q4242-RPT-004 Rev. 2Page 7 of 332 BRIEF SUMMARY OF THE FLEX SEISMIC IMPLEMENTATION STRATEGIES ;' TheCaf, ttli#tffs FLEX response strategies f6r Reactor Core Cooling and HeatRemov/al, Re~a~tdn'r entory Conftolilong-trtn' Subcriticality, Core Cooling and Heat, Reiroval (Modes 5 aid 6), Containment Function and Spent:Fuel Pool Control'are. .sumn'farized below. This. summaryis dedvedfrom the Overall Integrated-Plan (OIP) in.Response toi the March .12, 2012, Coommission Order EA-12-049 (Ref, 3).FlexPhase 1', flirt six hobs;" 'stratdgy relies oh installed'plant, equipment. Reactor corecooling, ,and heat removal is'achieved via-steam release from the Steam Generators(SGs) with $QG maketip from the Turbine Driven Auxiliary Feedwater Pump (TDAFVVP)durig FL.EX Phase I with suction from the fuly protected #12 Cpndensate StorageRCS heat removal is controlled,through local manual operation of the AtmosphericDump valves (ADV's) and local control of the.TDAFW pumps. RCS C0oo1own to350 F/250psia with a corrbsp onding ste'am Generfati' pressure"Of y12pisia is'the initial goal. Realtor Invehfory'controt relies On allowing the SafetyInjection-Tnhks to discharge into the'Reactor CoolahS!SVstem (RCS) if needed. .' -In Mode 5 or 6 if the steaM g'bnerators are'unavailable RCS i nvent6r yan berhia fntaihedby gravity feed of the RefuiIng Water by-use'0f p6itable flex'pumps...aligned to injection points to the RCS. .repctor parameters ,are obtained via-DC. powered instrmentation.ADCloadstripping strategy, is e 1Qyed life. ,, ,p.... .. ... ...d..t.e x , n .baf r i. .., : , -'!.... :No specific, ContainmentcoroWl is.irequired in Phase ,1 as b*th..eipperature;andpressure stay within design limit-.for.tpe first 72 hours pftho ev.e~rt.- Key Containmet :Parameters are obtained from DC powered instrumentation.NO specic Spent Fuel PdoI Ivel oitr6"l"reqiUire-l in".Phait-e I as both temnperatuir and'levtel stay Within design lmitrfhrft1'fitesV651h6urs of theevent. (asugst11ing the wotcdase -',heat load). Sperit Fuel, Pool,'le~el;is'obtairied .from.the'.hewWide;range-Spent Fuel 'PooQ:I.level instrumentation installed under Commission Order EA-12-051.Flex Phase2, hu, 11 6 t6 24, strartegy'telieqe ohlnitanl"a 'eip.ment and FLEXp'teimnportable.,equipment. If thb Stream' Gen'erator (SGs)r'dr avdaible rai actor core cobling.and. heat r6emvaflarb achiievedviiistebrf" releas' froh'themSGiiL local manualoperation of the ADVs and with SG makeup from the Turbine Driven Auxiliary Feedwater .APump (TDAFWP) during FLEX Phase 2 with suction from the fully protected #12Condensate ;StorageT -bnR., ef.usiresedlto replenish. the:#12 CST. --The Phase 2 altermte'sttategyil.ci Udes;SG:cooling~water:make-up via! a FLEX portable,pump, with suction from an alternate water sources such as any other surviving CST,,.. eFire Protection System water storage tanks, Well Water System or the Chesapeake Bayas a last resort. Reactor inventory control and heat removal is accomplished by SIT tankinjection. One FLEX portable 500KW 480VAC diesel generator per unit is installed andconnected to a 480 VAC Load Center. This repowered Load Center will provide power tobattery chargers, SIT tank MOVs, and a charging pump for inventory restoration. Analternate inventory control method is with a FLEX portable pump connected to the HPSIpiping via the FLEX mechanical connections located in the Auxiliary Building. Borationfor shutdown margin is not needed for up to 32 hours, however, shutdown margin is 14Q4242-RPT-004 Rev. 2Page 8 of 33maintained by use of boric acid storage tanks with subsequent RCS injection using theCharging Pumps or a FLEX portable pump.In Mode 5 or 6 if the steam generators are unavailable RCS inventory can be maintainedby gravity feed of the RWT or by use of portable flex pumps aligned to injection points tothe RCS.Key reactor parameters are obtained via DC powered instrumentation or use of a100KW 480 VAC generator powering a reactor MCC and the inverters backup bus. (Thisis the alternate strategy to load center repower)No specific Containment control is required in Phase 2 as both temperature andpressure stay within design limit for the first 72 hours of the event. Key ContainmentParameters are obtained from DC powered instrumentation.No specific Spent Fuel Pool level control is required in Phase 2 as both temperature andlevel stay within design limit for the first 65 hours of the event. Spent Fuel Pool level isobtained from the new wide range Spent Fuel Pool level instrumentation installed underCommission Order EA-12-051.Flex Phase 3, greater than 24 hours, strategy relies on installed plant equipment, FLEXportable equipment, and off-site equipment from the National SAFER Response Center(NSRC). Reactor core cooling and heat removal are accomplished by continued use ofthe Phase 2 Strategies. Restoration of these 4KV buses allows for restoration of more480V busses for further redundancy. Key reactor parameters are obtained via DCpowered instrumentation or use of a vital AC instrumentation supported by portableFLEX or NSRC generators.No specific Containment control is required in Phase 3 -as both temperature andpressure stay within design limit for the first 72 hoursof the event.Key containment parameters are obtained via DC powered instrumentation or use of avital AC instrumentation supported by portable FLEX generators.Spent Fuel Pool makeup is provided using either FLEX or NSRC portable pumpsattached to exiting piping via flex mechanical connections. Spent Fuel level is obtainedfrom the new wide range Spent Fuel Pool level instrumentation installed underCommission Order EA-12-051.
+-t.-I:* i,* 14Q4242-RPT-OO,4 Rev. 2-.* .*: ~.- ~Paie 9 of 33H* =- * =1 J=ITable 2-1I:C1'dPP' Ohase l"'UEX Strat'e'g'Summary', %SafetyFunctioA .. " ' .F.., ;PrImaryMbthod-: .., ..'. .. -, Alternate MethodReactor Core Cooling & Heat .TDAFW pumps with suction fro.m CST., -Use standby TDAFW pump -ifRemoval -Steam SGs via local manual ADV " needed"." RC$. cooldown to,350&deg;F.I 250psia SG I0psia -.. .Set up FLEX portable AFW...... pumps such that final suctionD J ' and discharge connections can... ." "- , ".. ... .. bei accomplished in < 1 hour.RCS HeAt 'Ai6w Si Ts 'inject ino RCS If heedecr upon .":V SGs -Use of FLEX PortableE Removal, ..' r '.! :- m tidnrof 6oldbwn t6 35&,F-l.,250psla Pumps toprovide RCS makeup0- .'.,,'W/lOSG~s1j-,RWTgravity feed.,, .ad injectiiflowKey Reactor Parameters -Temperature, pressure, level (RCS, SG, SIT)'Use existirg battery powered indicntiOdn. ':., ."with9eepDCIoad stripping -..Jo ,aContainment Pressure Control & ... eqjw l pressure andhr emperature -Nonmperature below limits for 72Remove Heat ... e I,,rd_,for 72 hours :: ..None required -pressure andi: ..-' " :: " ;= "'"' ' r " hours ' ".Key ContainmenteParamntei p.. e:. T ,, erle &#xfd;tt.r d Iresiure ndicatioo] powered, !Temperature and pressure0.. .: , indication powered via vital:.. ..' YavtJb ss., .I.,,,,- ......, 2j,. '""*.. -, ' i..,;...... "... i. !:."............_ Spent Fuel Cooling -None required until T+65 hours (worst:cge) , .-.No'neirqlirn:l'until T+65 hours0 SFP Parameter *SFP Wide Range Level Indicator *SFP Wide Range Level Indicatora.0) 14Q4242-RPT-004 Rev. 2Page 10 of 33Table 2-2: CCNPP .Phase 2 FLEX Strategy SummarySafety Function Primary Method Alternate MethodReactor Core Cooling & *TDAFW pumps with.suction from CST -Use standby TDAFW pump -if neededHeat Removal -Steam SGs via local manual ADV -Move available tank fluid with FLEX(SID Mode with Steam -Replenish CST with FLEX portable pump portable pump to SIGGenerators Available) -Obtain water from Chesapeake BayRCS Inventory Control & ,SITs inject into RCS (if needed) after cooldown -Move RWT fluid with FLEX portable pumpHeat Removal, (Shutdown to 350&deg;F / 250psia to HPSI headers -use boric acidModes with Steam .Repower SIT MOVs via vital 48oVAC MCC$' batching tanks to provide Boric AcidGenerators Not Available) powered by FLEX portable 480V DG*Repower a Charging pump via vital 480VACLoad Center powered by FLEX 480V DG*W/O SGs -RWT gravity feedKey Reactor Parameters .500KW 480VAC FLEX generator repower one .100KW 480VAC FLEX generator repowerVital Load center to repower battery charger one MCC feeding Inverter backup busand SIT MOVsContainment Pressure -None required -pressure and temperature -None required -pressure andControl & Remove Heat below limits for 72 hours temperature below limits for 72 hoursKey Containment -Temperature and pressure indication powered -Temperature and pressure indicationParameters via vital buses .powered via vital busesSpent Fuel Cooling -None required until T+65 hours -None required until T+65 hoursSFP Parameter -SFP Wide Range Level Indicator .SFP Wide Range Level Indicatore.L.U) 14Q4242-RPT-004 Rev. 2I Page 11 of 33Table 2-3:CCNPP'Phasii3 FLEX "trateg "'SmmarySafety '" Primary Methdd"". ." Alternate MethodReactor Core olig & .7.. , ..*. TDAFW pumps with suction frormCST -Use standby TDAFW pump -if neededHeat Removal' .-,. .Steam SGs via.local manual'ADV' -Move available tank fluid withFLEX.(S/D Mode With Ste'apn.., -Replenish CST With FLEX portable pu mp : portable pump to SIGGenerators Available) -Obtain water from Chesapedke BayS SIventory Control & inject rot RCS (if neeiied)afterc;olldowhn -Move RWT fluid with F.E), portat~ie pump,Heat Removal, (ShJtdown, to 3500F a. S , .... .. to HPSI eaders -use boric'acid" Modes with Steam .Repower S'IT: MOVs Viavitai 40VA&MCts'i." batching tanks to provide Boric Acidp Generators Not Available) powered by '48D. V,'.G.,Repower aCharging -p ump via vital 480VACLoad Center bY Fl-X..-80V D"*_W/O SGs -RWT gravity feed .' .. >. ".. "K~ey.Reactrarameters.,, .500KW.480V F..LFEX generator repow'wer.one. * .100KW 48oVAC FLEX generator iepowerVatal L6'ad' to' r6poW e'r b atte.iy charger one MCC feeding Inverter backup bus...... .... ..... .. ..... .....and S IT. M O V s ..C-None required -prssur and temperature ' -None required -pressure and* Control & Remove Heat below limits for 72 hours .......' ...temperature below limits for 72 hoursE--Temperature and pressure indication powered., -Temperature and pressure indication0 Parameters via vital buses powered via vital bus~esU , "".-. .."- &#xf7; .' : .' "c Spent Fuel Cooliing " -None required until T+65 hours -None required until T+65 hoursSFP Parameter *SFP Wide Range Level'*ndct&#xfd;r 'SFP Wide Range Level Indicator.,U-rn 14Q4242-RPT-004 Rev. 2Page 12 of 333 EQUIPMENT SELECTION PROCESS AND ESELThe selection of equipment for the ESEL followed the guidelines of EPRI 3002000704 (Ref. 2).The ESELs for Unit 1 and Unit 2 are presented in Attachments A and B, respectively-3.1 Equipment Selection Process and ESELThe selection of equipment to be included on the ESEL was based on installed plant equipmentcredited in the FLEX strategies during Phase 1, 2 and 3 mitigation of a Beyond Design BasisExternal Event (BDBEE), as outlined in the Calvert Cliffs Overall Integrated Plan &#xfd;(OiP)(Ref.3),and August 2013(Ref.4a), February 2014 (Ref. 4b), and August 2014 (Ref. 4c) six monthupdates, in Response to theMarch 12, 2012, Commission Order EA-12-049 (Ref. 3). The OIPprovides the Calvert Cliffs FLEX mitigation strategy and serves as the basis forequipmentselected for the ESEP.The scope of "installed plant equipment" includes equipment relied upon for the FLEX strategiesto sustain the critical functions of core cooling and containment integrity consistent with theCalvert Cliffs OIP (Ref. 3). FLEX recovery actions are excluded from the ESEP scope per EPRI3002000704 (Ref. 2). The' overall list of planned FLEX modifications and the scope for' -consideration herein is limited to those required to support core cooling, reactor coolant-inventory and sub-criticality, and containment integrity functions. Portable and pre-staged FLEXequipment (not permanently installed)' are excluded from the ESEL per EPRI 3002000704 (Ref.2).The ESEL component selection followed the EPRI guidance outlined in Section 3.2.of EPRI3002000704 (Ref. 2).1. The scope of components is, limited to that required to accomplish the core cooling andcontainment safety functions identified in Table 3-2:of EPRI 3002000704. The,instrumentation monitoring requirements for core cooling/containment safety. functions are.limited to those outlined Ien the EPRI 3002000704 guidance, and are a subset of thoseoutlined in the Calie'rt Cliffs OIP (Ref. 3).2. The scope of,:components is, limited to installed plant equipment, and FLEX connectionsnecessary to imnlpeme'nt the Calver-t Cliffs QIP (Ref73).as described in Section 2.3. The scope of components assumes the creditedFLEX connection modifications areimplemented, and are limited to those requiredto support a single. FLEX success path (i.e.,either "Primary" or "Back-up/Alternate").'...4. The "Primary" FLEX success path is to be specified. -Selection of the ,"Back-up/Alternate".FLEX success.path must be justified.............,..,:!..5. Phase 3 coping strategies are included in the ESEP scope, whereas recovery strategies areexcluded.6. Structures, systems, and components excluded er the EPRA 3002000704 (Ref. 2) guidanceare:Structures (e.g. containment, reactor building, control building, auxiliary building, etc.),
+Q4242-RPT-004 Rev. 2........ ..-Page 13 of 33" Piping, cabling, conduit, HVAC, and.their supports, *.....* Manual valves and rupture disks.* Power-operated valves.not required to change state as part of the FLEX mitigationstrategies. *.. ... *SNuclar steamsupplsystem components (eig. reactor pressure vessel arid intderals,reactor coolant pumps and seals, etc.) .. .- ., * ,7. For cases in which neither train was specified as a primary or back-up strategy, then onlyone train component (generally 'A' train) is included in the ESEL.3 .3, ... * .., ... ... ...*~. ....3-. .3 3.3.1.1 ESEL-Development .' ., , .*,* .:;" 333 .3: : i ,"'.* =. : ." ' .. 3.:" " 3333,: ., ' "-' " "'3"3... .' L ' ' ' -The ESEL was deyeloped by reviewing the oI (Ref.. 3)!t determine thelnajor equipm.nrinvolved in the The bases fQr the. palvert OaI-are the actions iientifiedi in thefollowing site procedures: -,EOP 4 Calvert Cliffs .Nuclear P.lant Power Plant Technical Procedure Unit One EOP-7 Station.Blackout Revision ., .'l' "' ... , .....3 '.' .. ... .,EOP 2 Galvert Cliffsj"Nuclear,Piant Rower. Pilant Te~cnical Procedure-Unit Two EOP-7 Station.,,.Blackout Revrsion .7 ", ..'.: :. ...* .. " ...EOP-?T-B Calvert Cliffs Nuclear"P.laint; Power Plant Station! Blackout, EOP:-.7 .Technical BasisRevision 21Action Value Basis D'ocuments -i- Ven ous -These procedures have been.irh, place,:or:severalyears and:contain guidance&#xfd; of how to copewith an extended loss of oftsitek eI 3OP4-7 i's dart'or`p9ra`in tifi'iganbeehUs6d inmultiple sirmnU`lator sc6,naios fTd.dnllsi 11{e ba sis boVidesithe ba:6l'roind ahd-supporting'engiheering;. WVVeni istrridnhbnna f obrpfpt te rdcriqh1 pbintL ;ite dentified in theTechnical Basis a supporting engineering document, Action Value BasisDotcuenet (AVBby' iscreated. This 'dOcument s prodicce bV'e rrn.,n it e te ..instrumentation and associated ]Astruient quiificatlons 6 e.1 Q, SI6mic, PAM1 ,PAM2.Engineering standard ES&011rdvides airie-16kion -d'thesd varioJs6'blassifications.'As aft,example PAM!f tneans an instruet is eant-Uwifl be available as long as.C podwer,Station Batteries, are available. These documents are also used to identify specific parame!dneedsl0be take ,,andlth-'basis4for that vialue,: Aslan example, AVBD EOP-09.02 identifies the level at which the AFW pump suctionineeds to tbransferredito an' alternatesourceand~the-basisifor-that:Ievei .: , ." , ., -. -,The referenced AVBD's.were used. to identif the instruments ,elected f0r the ESEL The itemson the EtEL include the transmit er in the fieli as well as the various panels containing the.,,necessary indications. Only one channel of instruments was evaluated as defined on page 3-3of EPRI 30020b0704 (Ref 2)> 3 ..
+Q4242-RPT-004 Rev. 2Page 14 of 33As these procedures are all approved and have an engineering basis they were used inconjunction with the OIP to generate the ESEL. It was not necessary to retrace these previouslyengineered actions through the P&ID's and logic diagrams as they have all been previouslyverified.Connection points identified in the'OIP for Phase 2 and 3 actions were included in the ESEL. AtCalvert the electrical connections are being made via connection device (modified breaker)which will be placed In a spare cubicle, during Phase 2 or 3, on the designated load centers. Allof these load centers are included in the ESEL as well as downstream load centers needed toperform Phase 2 and 3 FLEX activities. These components were verified by review of the plantssingle line electrical drawings.Major mechanical, electrical, components, flowpaths and valves identified in the ESEL are thesame as those identified in the EOPand the OIP. The ESEL used the guidance as outlined inEPRI 3002000704 (Ref. 2) and the appropriate exemptions as discussed below.3.1.2 Power Operated ValvesPage 3-3 of EPRI 3002000704 (Ref. 2) notes that power operated Valves not required to changestate are excluded from the'ESEL. Page 3-2 also notes that "functional failure modes ofelectrical and mechanical portions of the installed Phase I equipment should be considered(e.g. RCIC/AFW trips)." TO addressthis concern, the following guidance is applied in theCalvert Cliffs ESEL for functional failure modes associated with power operated valves:" Power operated valves that remain energized during the Extehded Loss of all AC Power(ELAP) events (such as' DC powered valves), were included on the ESEL.* Power operated valves not required to change state as part ofthe FLEXW',itigationstrategies were not included on the ESEL. The seismic event also causes the ELAPevent; therefore, the valves are incapable of'spurious operation as they would be de-energized.* Power operated valves not required to change state as part of the FLEX mitigationstrategiesdUn"lr'ng Plh'ase "1, and arte reenergized and operated during subsequent Phase2 and 3 strategies, were not evaluated for spurious valve operation as the seismic eventthat caused the ELAP has passed before the valves are re-powered.3.1.3 Pull BoxesPull boxes were deemed unnecessary to add to the ESELs as these components providecompletely passive locations for pulling or installing cables. No breaks or connections in thecabling are included in pull boxes. Pull boxes were considered part of conduit and cabling,which are excluded in accordance with EPRI 3002000704 (Ref. 2).
+Q4242-RPT-004 Rev. 2Page 15 of 333.1.4, Termination Cabinets -Termination cabinets, including cabinets necessary for FLEX Phase 2 and Phage 3connections, provide consolidated locations for permanently connecting multiple cables. Thetermination cabinerts prid the internal connections provide a completely passive funtion;however, the cabinpts~are included in the ESEL to, ensure industry, powtedge on.,panel/anchorage failurg-yi&#xfd;lnerabi.lities is addressed.3.1.5..Critical Instrumentation.lndice'tcrs ;- ..-Critical indicators and recorders are typically physically located on panelslcabinets and areincluded,'fts seliarate dbr6mpbnents; f-owever,; seisnlic evalUaition of the insti"rhent~indication maybe in'cluded inith'e pahetiabinet' eisrniic evaluationTdlue2.of-th-boc)k. .-,, a. ...-, ...... ., ; _ .: , ..-.' " , , ... '"if, .t' .. ." :t .3.1.6 Phase 2 and Phase 3 Piping ConnectionsItem 2 in Section 2.1 above notes that the scope of equipment in j "pclues "... FLEXconnections necessary to implement the Calvert Cliffs OIP (Ref. 3)-as describ6l'in Section 2."Itemi3 in Section-...1l-also notes.ht ".Thesope.,qflcomp nents assumes the -credited FLEX ,connection modifications.are inmplemented;anpd are limited to those required tq support a singleL..FLEX-success.path (i.pj. eithearPrimary" or "pBck-uptAltemp.e")."... ,a- .Item 6 in Septiqr-21 .aboveg-gpe no, txptain, that "Piping.-lpJing,. qnduit, HVAC, and theirsupports" are,,exctuded frm nthe.SE.Lscqp in.accor,danc.,,with E&#xfd;R. .O2300200704 (Ref: 2).Theref, ore piping anda pipe suppor ate with **F.EX apd connectionsare excluded from thes.opef 1hES .evalutior, .However; anpy otivp valves in FLEXPhase 2..a d.;hase-3 ,Gonnectipn..flow @re i udedin t l, .,..,. , !- a re trc ude inJ a3.2 .Justjfication for. se of Equip!.p0enttht is ,not.tl primapympansfor FEX,,..implementationNo alternate equipment is ,u ed to support,.he Pnmary Means" forf.[exFimprentatin.,,~~~~~~~~~~~~~~~~.....-' .,.. !' ." .... -.. ..,. .... .. , ..' .,. ".5 : G ,,.t.. -.."".., -,_..,. ..7 b.-I ..:. ,"'.. ...a.. ';":,t " ' '':: ... * -.. .. ;' :' ... v .., ,.,
+Q4242-RPT-004 Rev. 2Page 16 of 334 GROUND MOTION RESPONSE SPECTRUM (GMRS)4.1 Plot of GMRS Submitted by the LicenseeIn accordance with Section 2.4.2 of the SPID (Ref. 14), the licensing design basis definition ofthe SSE control point for CCNPP is used for comparison to the GMRS. March submittal report(Ref. 6) lists the Calvert Cliffs SSE PGA to be 0.15g.The GMRS per the March submittal report (Ref. 6) is tabulated and graphed below:.Table 4.1-1 Calvert Cliffs GMRS (5% Damping)Freq. (Hz) 7 Fq (Hz) 'MRS(unsca'led, g) (unscaled, g)100 0.112 3.5 0.17690 0.115 3 0.16480 0.119 2.5 0.14870 0.124 2 0.14360 0.13 1.5 0.12850 0.138 1.25 0.11740 0.149 1' '.0.09735 0.157 0.9 0.08730 0.168 0.8 0.082725 0.185 0.7 0.079520 0.18 0.6 0.06515 0.182 0.5 0.056812.5 0.188 0.4 0.045410 0.188 0.35 0.03989 0.194 0.3 0.03418 0.2 0.25 0.02847 0.204 0.2 0.02276 0.203 0.15 0.0175 0.2 0.125 0.01424 0.185 0.1 0.0114 14Q4242-RPT-004 Rev. 2..Page 17 of 330.250.2DI0.150.0 "S__~~ H __I I I.-k I I I..+la,1 .. :. .-FrequencylHz)10~100( '.Figure 4.1-1 Calvert Cliffs GMRS ,o% Damping)V' .' .* { :': , ". ' + , " A .S , ...
+Q4242-RPT-004 Rev. 2Page 18 of 334.2 Comparison to SSEAs identified in the March submittal report (Ref. 6), the GMRS exceeds the SSE in the 1-10 Hzrange as shown in the table and graph below:Table 4.2-1 Calvert GMRS vs. SSE (5% Damping)Freq. (Hz) SSE (g) GMIRS (g)10 0.16 0.1889 .0.168 0.1948 0.179 0.27 0.188 0.2046 0.197 0.2035 0.212 0.24 0.222 0.1853.5 0.226 0.176.3 0.226 0.1642.5 0.217 0.1482 0.198 0.1431.5 0.166 0.1281.25 0.145 0.1171 0.123 0.0970.9 0.112 0.0874_6_O. _ .0.104 0.08270.7 0.095 0.07950.6 0.085 0.0650.5 0.074 0.05680.4 0.063 0.04540.35 0.057 0.03980.3 0.049 0.03410.25 0.041 0.02840.2 0.029 0.02270.15 0.018 0.0170.125 0.012 0.01420.1 0.008 0.0114 14Q4242-RPT-004 Rev. 2Page 19 of 33*. "*,' 0.25s0.2CLw0.150.10.0502:rreque~icy (Hz) ..Figure-4.2-1 Caert-Cliffs G.MRS vs. SSE Damping)UJ4:7-&#xfd; W -tl &#xfd;ACR~k ,~. , a .:-, ~.9...4'.
+Q4242-RPT-004 Rev. 2Page 20 of 335 REVIEW LEVEL GROUND MOTION (RLGM)5.1 Description of RLGM SelectedThe RLGM for Calvert Cliffs was determined in accordance with Section 4 of EPRI30020000704 (Ref. 2), and Generation of Scaled In-Structure Response Spectra for CCNPP(Ref. 21) as being derived by linearly scaling the SSE by the maximum ratio of the GMRS/SSEbetween the 1 and 10 hertz range.The ratio between the GMRS and SSE at 5% damping is tabulated below.Table 5.1-1 Ratio between GMRS and SSE (5% Damping)Freq. (Hz) SSE (g) GMRS (g) GMRSISSE10 1 .. 0.160.. .0.1.88 1.179 0.168 0.194 1.158 0.179 0.200 1.127 0.188 0.204 1.096 0.197 0.203 1.035 0.212 0.200 .0.944 0.222 0.185 0.833.5.. 0.226 0.176 0.783 0.226 0.164 0.732.5 0.217 0.148 .0.682 -0.198. 0:143 .....:0.721.5 '0.166 0.128 0.771.25 0.145 0.117 0.811 .0.123 0.097 0.790.9 0.112.- 0.087 0.780.8. 0A.04 .0.0827 0.800.7 0.095 0.0795 0.840.6 0.085 0.065 0.760.5 0.074 0.0568 0.770.4 0.063 0.0454 0.720.35 0.057 0.0398 0.700.3 0.049 0.0341 0.700.25 0.041 0.0284 0.690.2 0.029 0.0227 0.780.15 0.018 0.017 0.940.125 0.012 0.0142 1.180.1 0.008 0.0114 0.81 14Q4242-RPT-004 Rev. 2Page 21 of 33The maximum ratio between the 5% damping GMRS and horizontal SSE occurs at 10 Hz andequals 1.17. '"The resulting RLGM based on increasing the horizontal SSE by the maximum ratio of 1.17 isplotted below.Table 5.1-2 -Calvert Cliffs RLGM (5% Damping)t.... 100 ' V '16 -'3.5 0.26490 0.176 3 0.264".80 : ; :2 , 1.,6 : ,"2.5 0.253.70 76 2 0.23260 0.176 1.5 0.194,,50., 0'1"76 1251/4 -0.170.4.40 0.176 1- 0.1443 .- 5 ....0.-1-77 ... .g 13 ,'30 ... .'77 .. 08; 0.122'25 -I. ..'0 177- ..6:.: 20 -1.78 .06 09915 0-178 01.5. :.- 0.087125 70') 06.074510 .. 0;3 0.067;9 ..197 0.3. 0.057; 8 ..20 o.Z5 ..0. 8.'U. Q.2, 0.034..... ..o 0 01 o.021.-..... 624' "0- -.014 -4 01. 0.0094,2 .1*1.'2 -Z' 14Q4242-RPT-004 Rev. 2Page 22 of 330.3 -0.250.2-0M .15 -0.1 -0.05,0-1000.1 1-. *. -1Frequency (Hz)Figure 5.1-1 Calvert Cliffs RLGM, GMRS & SSE (5% Damping)5.2 Method to Estimate ISRSThe method used to-derive the ESEIP in-structure response spectra (ISRS)'was to scale theexisting ssE-based iS'RS obaihd from DCALC No. CA04085, Rev. 0 (Ref. 18) by themaximu.m ratio .of..1. !7. The. sca!ed JSRS" WS determined for all buildings and elevations whereESEL items are located at Calvert Cliffs.
+Q4242-RPT-004 Rev. 2Page 23 of 336 SEISMIC MARGIN EVALUATION APPROACHIt is necessary to demonstrate that ESEL items have sufficient seismic capacity to meet orexceed the demand characterized by-the RILGM. The seismic capacity is characterized as thepeak ground acceleration (PGA) for which there is a high confidence of a low probability offailure (HCLPF); The PGA is associated with a specific spectral shape, in this case the 50/o-damped RLGM spectral shape... The HCLPF capacity must be equal to or greater than theRLGM PGA. The criteria for seismic capacity determination are given in Section 5 of EPRI3002000704 (Ref. 2).There are two basic approaches for developing HCLPF capacities:1. Deterministic approach using the conservative deterministic failure margin (CDFM)methodology of EPRI NP-6041, A Methodology for Assessment of Nuclear Power PlantSeismic Margin (Revision 1) (Ref. 7).2. Probabilistic approach using the fragility analysis methodology of EPRI TR-103959,Methodology for Developin6 Seismic Fragilities (Ref. 8).For Calvert Cliffs, the deterministic approach using the CDFM methodology of EPRI NP-6041(Ref. 7) was used to determine.HC..C.PFs$ .,... .6.1 Summary of Methodologies UsedCalvert Cliffs conservatively applied the methodology of EPRI NPO41 (Reft. -)t6 all items onthe ESEL. The screening walkdowns used the screening tables from Chapter 2 of EPRI NP-6041 (Ref. 7). The walkdpwns were conducted by erngineer&#xfd;who as a minimum attendep theSQUG Wallkdown Screening and Seismic EvaluatiorTaIning "hu.waelkownsweredocumented on Screening' Evaluation Work 6t, fro I1l fr-,B041 (Ref. 7).' .&#xfd;."", -.' .I ' .- :: .. t ..., I " ." '. -, &#xfd; ':.:-" -&#xfd;r ,- -)" I" -. ;'1 --' " '. &#xfd;`bfkfs- :' -;capacity calculations the CDFM critenai fr6mr PRI NP-6041 (Ref. 1) with Calvert'Cliffsspecific allowables and material strengths used as applicable. Se" s ic, demand was based onthe RLGM provided in Table 5.1-2 and Figure 5.1-1.6.2 HCLPF Screening ProcessThe peak spectral acceleration for the RLGM equals to 0.264 g (Table 5.1-2). The screeningtables in EPRI NP-6041 (Ref. 7) are based on ground peak spectral accelerations of 0.8g and1.2g. All Calvert Cliffs ESEL components were screened against the caveats of the <0.8gcolumn of Table 2-4 of NP-6041 (Ref. 7). For components located 40 feet above grade, 14Q4242-RPT-004 Rev. 2Page 24 of 33screening based on ground peak spectral acceleration is not applicable and additionalconsideration is required. In accordance with Appendix B of EPRI 1019200 (Ref. 19),components that are above 40 feet from grade and have corresponding ISRS at the base ofcomponent not in exceedance of 1.2g in the component frequency range of interest may bescreened using the caveats of the 1st screening column.6.3 Seismic Walkd0Wn Approach6.3.1 Walkdown ApproachWalkdowns for Calvert Cliffs were performiled in accordance with the crteria provided in Section5 of EPRI 3002000704 (Ref. 2), which refers to EPRI NP-6041 (Ref. 7) for the Seismic MarginAssessment process., Pages 2-26 through 2-30 of EPRI NP-6041 (Ref. 7) describe the seismicwalkdown criteria, including the following key criteria."The SRT [Seismic Review Team] should Owalk by" 100% of all components which arereasonably accessible and iK non-radioactive or low radioactive environments. Seismiccapability assessment of components which are inaccessible, in high-radioactive'environments, or possibly within contaminated containment, will have to rely more onalternate means such as photographic inspection, more reliance on seismic reanalysis,and possibly, smallerinspection teams and more hurried inspections. A' 100% "walk by"does not mean complete inspection of each cO*mponent, nor does it mean requiring anelectrician or other technician to de-energize and or panels for detailedinspection of all components. This walkdown is not intended to be a QA orQC review ora review of the adequacy of the component at the SSE level.If the SRT has a reasonable basis for ass.uming that, the group of components are similarand are similarly anchored, then it is only necessary to inspect one component out ofthis group. The "similarity-basis" should be developed before the walkdown during theseismic capability preparatory work (Step 3),by reference to drawings, calculations orspecificatiobs.: The brie dcoiponent for each type which is selected should be thoroughlyinspected which probably does mean de-energizing and opening cabinets or panels forthis very limited sample. Generally, a spare representative component can be found soas to enable the ins'pection to be performed while the plant is in operation. At least forthe one component of each type which is selected, anchorage should be thoroughlyinspected.The walkdown procedure should be performed in an ad hoc manner. For each class ofcomponents the SRT should look closely at the first items and compare the fieldconfigurations with the construction drawings and/or specifications. If a one-to-onecorrespondence is found, then subsequent items do not have to be inspected in as greata detail. Ultimately the walkdown becomes a "walk by" of the component class as the
+.' .7 Rev. 2Page 25 of 33SRT becomes cj nfident thapthe cohsiiv6tion pattem is typical. This procedure for..I p,. .dn' tha th I. --_' "., * "'. .. .This .hinspectionishoufd be repeated for each component'class; althou6gL, during the actuaPI!ivafkdown the SRT may be inspectinog several classes of components in parallel. Ifsero us exceptions to the drawings orquestionable construction Ipractices are fOund thenthe system or component class must be inspected in closer detail until the systematicdeficiency is defined.The 100% "walk by" is to look for outliers, lack of similarty, anchorage which is~different..from that shown on drawings or prescribed in criteria for that component, potential SI[Seismic Interaction]' (Ref 2, page 5-4) problems, situations thatmare at odds with theteam members' past experience, and any other areas of serious seismic concern. If anysuch concerns surface, then the limited sample size of one component of each type forthorough inspediion Will havye to iinreased. e increase in sample' size which: shouldbe' inspctded will.deleid upon the num.ber of outlier' bnd dlffereht anchorig~s, ea.,which are observed. It is up to the to ultimately select the samnple size'since the y*are the ones who are responsible for the seismic 6dequacy of & elements which thy'-. sprwep~f.om the marjin review. A. ppendixD, gives.guidance for samplipg selection" of,P, RI..300?000.704 (f,,2) ,which refers tq.EPRI NPr6O4..(Ref. 7)for the. SeismicMargin Assessment process. Pages.2-26-through 2,.,Opf,,RI, NP-6041, (Ref.,r)-despribe the seismcwal,,dyvncitcri inuding.the following key criteria. -,The Calved CHffs walkdowns included as aminimum a 1d0 / wailk-by 4 f alt items on the ESELexcept as rioted in Sedtion 7.0. rAy prevwous waIdown information that was relied upon forSRT jugment ips document~d in Sectionh6.3.2. ESEF'WalIkdWn anSncr~ening Report (Ref.20) documents the walkdowni reneiptS.t',A'lii~ti. W aklw'I " " ....6.3.2'. "Abbli'6tiori'f PreVious tWIkd6W lrifbirmatien .' .-, ' i ':" ..' -:, "" -:', ' '" .',. -'" ". , '.1" ; ', " " , ' :, " , ." ' ..; ..: "Previous seismic walkdowns wereo.used to, suppQft~t.he .9, sis..aiatons; .Somme of thecomp.onents on the ESEL.,were included, in1thlTT ,2:.esnri Several ESEL items were, previusl .th alvert Cliffs S'eisnmicli EEE,program. Those walkdowrh results. wi kre'e~ee nl th foiloiin s w .t tonflrmthat the previous walk own niclusio, re., ' a"'e, valid.A walk by was performed to confirm that the equipment material condition and c6nfiguration isconsistent withjthe walKdown, conclusions and that no new significant interactions related toblock walli&#xfd; orpiping attached to tanks -xistt.If the ESEL item wf"asscre6hned o0i'based on th'e-pre&#xfd;6u"SWalkdoWn;'that screeninglevaluiationw~s_ reviewed'and reconflirmed____._ for the ESEP."... -"*. ..' .~.. ..""'. 7-"EPRI 3002000704 (Ref. 2) page 5-4 limits the ESEP seismic interaction reviews to "nearby block walls" and 'piping attached to tanks"which are reviewed "to address the possibility of failures due to differential displacements." Other potential seismic interactionevaluations are "deferred to the full seismic risk evaluations performed in accordance with EPRI 1025287 (Ref. 14)."
+Q4242-RPT-004 Rev. 2Page 26 of 33The seismic walkdowns for Calvert Cliffs included as a minimum a walk-by of all thecomponents on the ESEL with the exception of the items inside containment as they were notaccessible at the time of the walkdowns.6.3.3 Significant Walkdown FindingsConsistent with that guidance from NP-6041 (Ref. 7), no significant outliers or anchorageconcerns were identified during the CalveIt Cliffs seismic walkdowns. The following findingswere noted during the walkdowns.Several block walls were identified in the proximity of ESEL equipment. These blockwalls were assessed for their structural adequacy to withstand the seismic loadsresulting from the RLQM. For any cases where the block wall represented theHCLPF failure mode for.an ESEL item, it is noted in the tabulated HCLPF values inAttachments C and D described in Section 6.6.* The component 1PI-3988 was:screened in due to the fact that mcLunting :is missing amanufacturer screw, howaver the anchorage was judged adequate and no HCLPFwas calculated for the component. The missing screw is required to be replaced inorder for the component to.be screened out and.a-HCLPF greater than the RLGMcould be credited: CR-2014&#xb6;W03666 was entered into Corrective action process.Work Order C92642395 has been generated. to replace missing screw; thereforeIPI-3988 will screen out as the HCLPF wili.be greater, than RLGM...6.4 :HCLPF Calculation Process "ESEL items were evaluated.-using the. criteria in EPRI NP-6041 (Ref. ,7).. Those evaluationsincluded the following steps: :.. ,.. ., .** Performing seismic'capabili&#xfd;ty wilkdowns for 'equipment to evaluate the equipmentinstalled plant conditions* Performing screening evalUations using the s6reening tables, in EPRI NP-6041 (Ref. 7)as described in Section 6.2,and '* Performing HCLPF calculations considering various-failure modes4tat include bothstructural failure modes (e.g. anchorage, load path etc.) and functional failure modes.All HCLPF calculations were performed Using the CDFM methodology and are documented inCDFM'HCLPF calculation (Ref. 9.
+Q4242-RPT-004 Rev. 2Page 27 of 33Anchorage for non-valve components was evaluated either by SRT judgment or CDFM HCLPFcalculation (Ref. 9).6.5 Functional Evaluation of RelaysNo relays existed in the Calvert Cliffs ESEL, therefore, no evaluations were performed for relayfunctionality.6.6 Tabulaed ESEL HC1LPF'Values (including Koy faifure mnodds~* '.Tabulated ESEL HCLPF values including the key failure modes are included in Attachment Cfor"1bnit 1 and commoinr-4itemia-nd"in" ,ttalirmerntb foFUfiif 2' italY's.* For itemstcreened out-using NP26041 (Ref.,7):scr eningtables, the screening level isP provided as -(0 53g).tindthe failure mode is listed',as .Screened outV. The PGAassociated with the 1 5'screeninglanem is calculated by obtaining the ratio between thepenakspectral_ acceleration of the,1 screening-,ane,(O.8J), and spectraabcelerationr (0.264g),' thehi multiplying it-by the RLGMrPGA (0..175g). as follows;(0.aglO.264g)*O: 175g=O.53g\ 'Henceany anchorage.HCLPF-caloulated is:beyond 0.53g.F-or itefnVfthat were'srei=hed out &#xfd;using' SMA analysis' ih-,the) checklists and-no'HCLPFs-were caloulated,-.a HCLP ,Rvalue of."x.RLGMh is.a&#xfd;signed'tl :and the:-failutemodeis listedias,."S.eened, out".. i--. ,\L 'i:* For items ab~i 40 febtVhich are sireened outIfnr OnbhOrag,, the 'assoiated PGA iscalculated by obtaining the ratio between the peak spectral acceleration of the 2ndscreening lane (1 .2g) multiplied by 1.5 for above 40 feet criteria, and ISRS peak spectraacceleration above 40 feet (1.25g) per section 5.2 in Refrence 20,t%.Aenmutp.lying it by:the RLGM PGA (0.175g) as follows; (1.2g*1.5/1.25g)*0.175g=0.252g. The failure modeis also listed as "Screened out".SFor items' wher6 anbhorage C6ntrol's thte hCPF value'i&#xfd;thejHCLPF, valuels:.listed in. thfe.table and the failure mode is noted as "Anchorage Capacity". ,* For items where anchorage HCLPF was, calculated to be higher than the PGA.: '; r'."* ..., " -,, .' .s,: -( -...-. --.. ... ..) '1 .,"associated wMh the sseeningane peE; RI NP6- 1'(Ref. 7), the anch orage is notidentified as the critical failure mode and the failure mode i shnoted as "Ec&#xfd;iuipm'6intCapacity as thpe'anchorage oro the .,pacity-and an equiprent HCLPFcapacity of 0.53g (1st screening lane) is assigned to the equiPment.* For items whose capacities were controlled by nearby blockwalls as the nearbyr lower than, the 'equlprhent and the anchorage apacities, avglue of 6.i75g'ialculited' oer 14Q4242-CAL-002 (Ref."9) (Ref. 9) isassigned to the compor epjt. The failure mode is noted ,as "Interaction with Blockwalls"..* For components were functionality controls' the capacity a HCLIF value of "<RLGM" is.oassigned to the component, and the failure mode is noted as "Furnctionalit,".
+Q4242-RPT-004 Rev. 2Page 28 of 337 INACCESSIBLE ITEMS7.1 Identification of ESEL Items Inaccessible For WalkdownsAll items located inside containment were inaccessible. Photos of Unit I containment itemswere used for the screening and HCLPF evaluations. No photos were available for the Unit 2items, Calvert Cliffs states that the two units are sufficiently similar to bd considered identical;therefore Unit 1 screening,'and HCLPF- evaluations were applied to Unit 2 containment items.7.2 Planned Walkdown I Evaluation. Schedule I Close OutSince all items that were inaccessible during the ESEP were resolved by alternative means (i.e.confirmatory photos and similar states) to the satisfaction of the SRT, no. additional walkdownsare required. .... .. .I , -, .&#xfd;. ."'.. .., " &#xfd; ... ................... .. '.... "..'2. ...................2.,
+Q4242-RPT-004 Rev. 2Page-29 of 338 ESEP CONCLUSIONS AND RESULTS8.1 Supporting InformationCalvert Cliffshalsprrmed the le P, as qn interim ac ton in response j0 the NRC's 50.54(f)Screening and.Pripntization,lefttpridattedMay,9,, 201.4 (Ref. 13). Itwa.iperformed using themethodologies in the NRC endorsed guidance in EPRI;300200Q7r04 (R0f02). -n ...The ESEP provides an important demonstration of seismic margin and expedites plant safetyenhancements through evaluations and.-potbntiail nr-bri modifications of I2la1t equipmentthat can be relied upon to protect the reactor core following beyond design basis seismicevents.The ESEP is'padrbf the overall dC alvert Cliffs respdhse to'1he NRC's 50564(f) letter(Ref. 1). OnMarch 12, 2014, NEI submitted to the NRC results of a study (Ref. 11) of seismic cord'damagerisk estimates based on updated seismic hazard information as it applies to operating nuclearreactors in the Central and Eastern United States (CEUS). The study concluded that "site-specific seismic hazards show that there has not been an overall increase in seismic risk for thefleet of U.S. plants" based on the re-evaluated seismic hazards. As such, the "current seismicdesign of operating reactors continues to provide a safety margin to withstand potentialearthquakes exceeding the seismic design basis."The NRC's May 9, 2014 NTTF 2.1 Screening and Prioritization letter (Ref. 13) concluded thatthe "fleetwide seismic risk estimates are consistent with the approach and results used in theGI-1 99 safety/risk assessment." The letter also stated that "As a result, the staff has confirmedthat the conclusions reached in GI-199 safety/risk assessment remain valid and that the plantscan continue to operate while additional evaluations are conducted."An assessment of the change in seismic risk for Calvert Cliffs was included in the fleet riskevaluation submitted in the March 12, 2014 NEI letter (Ref. 11) therefore, the conclusions in theNRC's May 9 letter (Ref. 13) also apply to Calvert Cliffs.In addition, the March 12, 2014 NEI letter (Ref. 11) provided an attached "Perspectives on theSeismic Capacity of Operating Plants," which (1) assessed a number of qualitative reasons whythe design of SSCs inherently contain margin beyond their design level, (2) discussed industrialseismic experience databases of performance of industry facility components similar to nuclearSSCs, and (3) discussed earthquake experience at operating plants.The fleet of currently operating nuclear power plants was designed using conservativepractices, such that the plants have significant margin to withstand large ground motions safely.This has been borne out for those plants that have actually experienced significant earthquakes.The seismic design process has inherent (and intentional) conservatisms which result insignificant seismic margins within structures, systems and components (SSCs). Theseconservatisms are reflected in several key aspects of the seismic design process, including:
+Q4242-RPT-004 Rev. 2Page 30 of 33* Safety factors applied in design calculations* Damping values used in dynamic analysis of SSCs* Bounding synthetic time histories for in-structure response spectra calculations* Broadening criteria formn-structure response spectraResponse spectra enveloping criteria typically used in SSC analysis and testingapplicationsResponse spectra based frequency domain analysis rather than explicit time historybased time domain analysis ..Bounding requirements in codes and standards* Use of minimum strength requirements of structural components (concrete and steel)* Bounding testing requirementsDuctile behavior of the primary materials (that is, not crediting the additional capacity ofmaterials such as steel and, reinforced concrete beyond the essentially elastic rangeThese design practices combine to result in margins such that the tSCs wIll continue t fulfilltheir functions at ground motions well above the SSE.8.2 Summary of ESEP Identified and Planned Modifilations,The results of the Calvert Cliffs ESEP performed as an iptenm ,action in response to.the NRC's50.54(f) letter (Ref. 1) using the methodologies in the NRC endorsed guidance in EPRI3002000704 (Ref. 2) show that all equipment evaluated are adequate in resisting the seismicloads expected to result from the site RLGM. Therefore, no plant modifications are required as aresult. of the Calvert Cliffs ESER.8.3 Modification Implementation ScheduleNo modifications are required.8.4 Summary of Regulatory Commitments ...Noegiatry .t........... ..... .... " requirNoregulaor commitmentsare require. I " ..
+Q4242-RPT-004 Rev. 2.... .Page 31.of 339 REFERENCES1. NRC (E Leeds and M Johnson) Ltt.9r to..All Power Reactor, Licensesps et al., "Requestfor Information Pursuant to Title 10 of the Code of Federal Regulations 50.54(f)Regarding Recommendations 2.1,!2.3 and 9.3 of the Near-Term Task-ForceReview ofInsights from the Fukushima Dai-lchi Accident," March 12, 20122. Evaiu~~ri 'Gu'id 1ae: AugM'nteld Approach fr~the' Resolution of FukushimaNear-Term Task Force Recommendation 2.1 -Seismic. EPRI, P1alo Alto!* CA:&#xfd;May2013. 3002000704 f3. Letter from M; G. Korsnick (CENG) toDocuiment .Control Desk-(NRC),.Suipplement toOverall Integrated Plan for Mitigation Strategies for Beyond-Design-Basis ExternalEvents, dated March 8, 2013 -4. (a) Letter'from E. D'. Dein (CENG)'to";Docdmdnt. Control Desk'(NRC), Calvert Cliffs-Nucle~rP6wer Planit; Uhitsil 'and Report-in Response to March 12,-2012 Commission Qrder ModifyiQg Licenses with Regard to Requirements for MitigationStrategies for B eyond-Design-Basis'External'Events '(Ordr Number EA-12-049),'datedAugust 27, 2013 (ADAMS AccessionNo- ML` 132 ,(b) Letter from M. G. Korsnick (CENG) to Document Control Desk (NRC), February2014 Six-Month Status .Repo6t in'A esonse to March 12",12012 Cbrimissieft Order.-Modifying Licenses with Regard to Requirements for Mitigation Strategies for Beyond-Deiign-B'asi External EleDt- Fder lumler EA-124109) , ated Februa1y 27, 2014O(,DAMSAes(Won No. MI14069AS18) -..(c) Letter from M. G. Korsnick (CENG) to Document Cotlrol!Desk.NR. August 2014.Six-Month Status Report in Response to March 12, 2012 Commission Order ModifyingLicenses with Regard to Requirements for Mitigation Strategies for Beyond-Design-Basis External Events (Order Number EA-1 -"04)O)&#xfd;, idd iUgUst26,;201,'1'4:"5. Reference Deleted.6. Seismic Hazard and Screening Report in Response to the 50.54(f) Information RequestRegarding Fukushima Near-Term Task Force Iecommendaton 2. 1: S ismi- for tlheCalvert Cliffs Nuclear Power Plant dated 3/12/14, (S&L. Report SL-0.12325, Revision 0)7. A Methodology for Assessment of Nuclear Power Plant Seismic Margin, Rev. 1, August1991, Electric Power Research Institute, Palo Alto, CA. EPRI NP 6041 14Q4242-RPT-004 Rev. 2Page 32 of 338. Methodology for Developing Seismic Fragilities, August 1991, EPRI, Palo Alto, CA.1994, TR-1039599. 14Q4242-CAL-002 Rev. 1 "Seismic Capacity of Components for ESEP"10. Nuclear Regulatory Commission, NUREG/CR-0098, Development of Crteria forSeismic Review of Selected Nuclear Power Plants, published May 197811. Nuclear Energy Institute (NEI), A. Pietrangelo, Letter to D. Skeen of the USNRC,"Seismic Core Damage Risk Estimates Using the Updated Seismic Hazards for theOperating Nuclear Plants in the Central and Eastern United States", March 12, 201412. Nuclear. Energy Institute (NEI), A. Pietrangelo, Letter to D. Skeen of the USNRC,"Proposed Path Forward for NTTF Recommendation 2.1: Seismic Reevaluations", April9, 201313. NRC (E Leeds) Letter to All Power Reactor Licensees et al., "Screening andPrioritization Results Regarding Information Pursuant to Title 10 of the Code of FederalRegulations 50.54(F) Regarding Seismic Hazard Re-Evaluations for Recommendation2.1 of the Near-Term Task Force Review of Insights From the Fukushima Dai-IchiAccident," May 9, 201414. Seismic Evaluation Guidance: Screening, Prioritization and Implementation Details(SPID) for the Resolution of Fukushima Near-Term Task Force Recommendation 2.1:Seismic. EPRI, Palo Alto, CA: February 2013 (EPRI 1025287)15. NRC (E Leeds) Letter to NEI (J Pollock), "Electric Power Research Institute Final DraftReport, "Seismic Evaluation Guidance: Augmented Approach for the Resolution ofFukushima Near-Term Task Force Recommendation 2.1: Seismic," as an AcceptableAltemative to the March 12, 2012, Information Request for Seismic Reevaluations," May7, 201316. NTTF 2.3 Seismic Walkdown Submittalsa. Letter from M. G. Korsnick (CENG) to Document Control Desk(NRC),"Response to IOCFR 50.54(f) Request for Information, Recommendation2.3, Seismic" Calvert Cliffs Nuclear Power Plant, Unit 1, Dated November 27,2012b. Letter from M. G. Korsnick (CENG) to Document Control Desk(NRC),"Response to IOCFR 50.54(f) Request for Information, Recommendation2.3, Seismic" Calvert Cliffs Nuclear Power Plant, Unit 2, Dated November 27,2012 14Q4242-RPT-004 Rev. 2Page 33 of 33....17. Calvert Cliffs Updated Final Safety Analysis Report (UFSAR)18. DCALC No. CA04085, Rev. 0" Numeric (Digitized) Seismic Response Spectras"19. EPRI Technical Report (TR) 1019200, "Seismic Fragility Applications Guide Update"December-2009. ., .. ....*.* .20. S&A Calculation 14Q4242-RPT-002 Rev. 0 "ESEP Walkdown and Screening Report forCalvert Cliffs" .21. 14Q4242-CALU001 :Rev. "4Gene'atlin. of.Scaled In-Structure,.Response Spectra forCCNPP".22. CCNPP trpnsmittal ler to S for sectiohs 2.and_3 for the ESEP Report dated23. CCNPP transmittal to S&A for Attachments A and B for the ESEP Report via emailreceived on.10/30/2014 J-, ., ....... .." '' " " " -'. , ,,U ;,; ',...P. '.? ."". .: ... .. i , ." ' -..'. :.< .,: ... .... ' '' .p'... .. .. .. .",:-' " : i' " * .-', : ... :" ": ..,,,. , ...- .;"' , P ... , .. " " "" '. .." : ; 1/4............... .., 7:: i.... :,- ,.
+ATTACHMENTS10.1 Attachment ACalvert Cliffs Unit I and Common Area ESEL (Ref. 23)Page Al of A8 Calvert Cliffs Unit I and Common Area ESEL"ESEL perating State N0es!Comments.IeNu er *.)Equipment 0 r* aid NoeiofiinTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-71 11 TDAFW Pump Standby service Sation BlackoutTDAFVV Pp Steam Supply Manual in Instrument for local manual2 1 PI-3986 Press Standby service operation of AFWManual in Instrument for local manual3 1 P1-4501 TDAFW Pp Discharge Press Standby service operation of AFWTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-74 12 TDAFW Pump Standby service Sation BlackoutTDAFW Pp Steam Supply Manual in Instrument for local manual5 1PI-3988 Press Standby service operation of AFWManual in Instrument for local manual6 1 P1-4502 TDAF'W Pp Discharge Press Standby service operation of AFW12 S/G Atmospheric Dump Manual in EOP-0 Plant Trip, EOP-713 1CV3939 Valve Standby service Sation Blackout11 S/G Atmospheric Dump Manual in EOP-0 Plant Trip, EOP-714 1 CV3938 Valve Standby service Sation BlackoutEOP-0 Plant Trip, EOP-717 12 CST Condensate Storage Tank In service In service Sation Blackout18 0LT5610 12 CST Level Indication In service In service 1LIA-5610 on Panel 1C0419 0LT5611 12 CST Level Indication In service In service 1LIA-5611 on Panel 1C041A01 AP14KV BUS 11 2000 KW DG from NSRC20 (1BUS1AO1) In service Energized connection point1A04 AP/4KV BUS 14 2000 KW DG from NSRC21 (1BUSIA04) In service Energized connection pointPage A2 of A8 Calvert Cliffs Unit I and Common Area ESELESELmESEL ..Equipmbnt Operating State NotbslComments1D0122 (1BUS1D01) AP/125 VDC BUS 11 In service Energized Powerto VitalAC Inverter I1100223 (1IBUSI D02) AP/125 VDC BUS 12 In service Energized Power to Vital AC Inverter 121 D05 AP/BATTERY CHARGER 1124 (1CHGR11) In service Energized Power to DC Bus 111D06APBTEYCAGR125 (1CHGR12) AP/BATTERY CHARGER 12 In service Energized Power to DC Bus 12I D07 AP/BATTER0 CHARGER 1326 (1CHGR13) A In service- Energized Power to DC Bus 21I D081008 AP/BATTERY CHARGER 1427 (1CHGR14) In service. Energized Power to DC Bus 221D03/1004 API125VB.ERY1128 (1 BATTID0314)
+* In service Energized Power to DC Bus 111D09/1110 ,AP/125V BATTERY 1229 (1BATTID09110) In service Energized Power to DC Bus 121D11 AP/,125 VDC CONTROL Power to Vital AC Inv 1 and30 (1PNL1D1I) PANEL 11 In service Energized 211012 API125 VDC CONTROL ..Power to Vital AC Inv 13 and-.31 (1PNLID12) PANEL 12 In service Energized 231D13 AP/125 VDC.CONTROL Vital Instrumentation Power32 .(1PNL1D13) PANEL 13 In service Energized Supply1D14 .AP/125 VOC CONTROL Vital Instrumentation Power33 (1PNL1D14) PANEL 14 In service Energized Supply-1D15. API125 VDC CONTROL .Vital Instrumentation Power:34 (1PNL1D15) PANEL 15 .In service Energized Supply1016 AP/125 VDC CONTROL. Vital Instrumentation Power35 -(1PNL1D16) PANEL 16 in service Energized Supply.1017 AP/125 VDC. CONTROL Vital Instrumentation Power36 (1PNLID17) PANEL 17 In service Energized SupplyPage A3 of A8
+.Calvert Cliffs Unit I and Common Area ESEL .....~, -Operatings/BMIte N um li ir r_ _ _ _ _ _ _ _ _ _ _ _ __,,',' 1Y 1".. " " P:20VAC " ""Y..". ..A. VAC VITAL DIST -Vital Ibstrumentation Power37 (1PNLI'0I) PANE,L 11 In service E ergized Supply,.,'iY01AOW 11 "" VutI Ilustrumentation Power38 (1INV1Y(I1A) I .... n service.. Energized Supply.",1 .Y02...API1 V.A.C..ITAL DIST .Vital Ihstrumentation"Power39 (1PNLIY02) PANEL 12--. In seric Energized Supply..Y02A : AP .I.V.RTER i- -Vit 4 Instrumentatioff-Power40 (11NVIY02A) -,., In service. Energized Suppl,, 1Y03 .2 ., APIP20 VACzVITAL DIST ..Vitalitnrumentation Power41 (1PNL1Y03) PANEL 13 .... in-service Energized Supply.'-. 1.Y03A'-. .P/IRER 1:3; --Vital InstrumentationPower42 (1 INViYO3A) .....___________1___ 1_ In service -Energized Supply, 4IY04.. -"AP/I.f2VACPVITAL DIST _ Vital Instrumentation.1Power43 (1PNLIY04) PANEL 14 IAn service Energized Supply1 .Y4A n'... .iain~triJmentation Power44.,..! : 1Y0 4A ) : -''APiNVE TER -14V4 (NI.Y04A) ".in serve Energized Supply.1Y0.1-1*.1" -: APN12. VACVITALDIST I "itdIntrumentation Power45,1 .(,IPNLlY01-1) PANEL j.: ', rin.9etvT Ehbrgized Supply"1.Y02-1. AP120.VACTAL PANEL 12- v -Vital instrumentation Power46 .; (IPNL1Y,2-1) 1 : .:::; Tifh'rvi( .Erergized Supoly.,1YI1- V P.1-iO.VAC INVERTER Vital InstrumentationdPower..47 (1BUS1y'11) BACKUP BUS 11 ..frse- i ',Enbegized Sup-ly-IC03 ICICONDENSATE AND -.. ....(1PNLIC03) FEEDWATER CONTROL ." ..Main Cbntrol panel -Various76 .-, In service- "ir eiice OIP ind: cators and cofitrols..1C04 I-/AUXILIARY FEEDWATER .71': C'td ROL -..... .. Main'60ntrol panel -Various._ 77 .. ____. ____... .___ ,___._."-"____,__ _si_, .'In service O IP indicators and controls.! ..". ..Page A4 of A8 Calvert Cliffs Unit I and Common Area ESEL,ESELOprating State Notes/Comments1 COS(1PNL1C05) IC/REACTIVITY CONTROL Main Control panel -Various78 In service In service OIP Indicators and controlsIC06 IC/REACTOR COOLANT(1PNL1C06) SYSTEM CONTROL Main Control panel -Various79 In service In service OIP Indicators and controls1C07 ICICHEMICAL AND VOLUME(1PNLIC07) CONTROL Main Control panel -Various80 In service In service DIP indicators and controls1C08 IC/ENGINEERING(1PNL1C08) SAFEGUARDS CONTROL I Main Control panel -Various81 I_ In service In service OIP indicators and controls1C09 IC/ENGINEERING(1PNL1C09) SAFEGUARDS CONTROL Main Control panel -Various82 In service In service ,OIP Indicators and controls1C010 IC/ENGINEERING(1PNL1CI0) " SAFEGUARDS'CONTROL ""MainControl panel -Various83 ___ .1_AE AD-O R In service In service OIP indicators and controls92 11 A SIT 11 A Safety Injection Tank In service In service EOP47 Station Blackout11 A Safety Injection Tank93 1 -SI-624-MOV Outlet In service. In service EOP-7 requires isolation94 1LT321 11 A SIT Level Transmitter In service In service 1LI-321 on Panel 1C0995 1PT-321 12 A SIT Pressure Transmitter In service In service 1PI-321 on Panel 1CO996 11:B SIT 11 B Safety injection Tank In service In service EOP-7 Station Blackout11 B Safety Injection Tank97 1-SI-614-MOV -Outlet In service In service EOP-7 requires isolation98 1LT311 11 B SIT Level Transmitter In service in service 1LI-311 on Panel 1C0999 1PT-311 12 A SIT Pressure Transmitter In service In service 1PI-311 on Panel 1C09,100 12 A SIT 12 A Safety Injection Tank In service In service EOP-7 Station Blackout12 A SafetyInjection Tank101 1-SI-644-MOV. Outlet In service in service EOP-7 requires isolationPage AS of A8 CalveitCliffs Uhltkard Co'mmon rea ESEL,It e m N u mbCer1 ,-6 e &#xb6; &#xfd; ..No t e ,o , e n .44k seipien FnEWvc L-4 nPnl0102 1LT341 12 A SIT Level Transmitler In. sey Inservice 1LI-341 .on Panel 1009-103 'IPT-i-41' 12 A SIT Pressure Transrmitter in se~ice in service 41PI-341 or Panel 1C09104 12B SIT" 12 B Safet7 Iniection Tank ......In service In service EOP-7 Station Blackout12 B Safety Injection Tank ...105 1-SI-634WMOV Outlet ,, In service. -In service EOP-7 requires isolation* 106 ' 1-"f2 B SIT U2vel Transmitter In service .In service. 1LI-331 on. Panel 1C09107 1PT-331 12 B SIT Pressure Transmitter -.In service-. In service 1PI-331 on Panel 1C09Steam Generator Safety t. ..-;124' -IPT-"1013A Y" Chan 6eiiPr'-suf; -Inservice In.service 1PI-1013A on Panel 1C03Steam Generator Safety 1":. " ..125, 1PT'-1023A Channel Pressure :. .,inservice..l I.service 1 1PI-1023Aon Panel 1C03..7 "'Steam.GenerAtor Wide Range126 1 LT-1124A Level. In service In service 1LI-1124A on Panel 1C04' " "-:-'-: 'PAMS-- 1PNL2C182A, TT in127 .11-nTTA112HA Hot Leg emp 11 In service In service 1PNLC43E' .. PAMS- 1PNL2C182A,'Tr'in..125 , Tr-JI12CA Cold Leg Temp 11'A ..lnrsevlce,. Iserce 1PNILC43E..r -.- ... ': " ... .... ........... .PAMS-1PNL2C182A, TTin129 'TT22HA Hot Leg Temp 12: %'-. Irnservice ,In service 1PNLC43EPAMS -1PNL2C182A, TT in1h0o '. i1-122TA. .Cold LegTemp12A In service .Inservice'l1PILC43E131. ....... '1 F-4509A 'SGSteam T~rain XFW-Fl ': Inhservice 1FIl4509A:on 1PNLC43B132 I
+* 1FT:4510A 'SG Stearmr'rain AFW'0lW4-': ..; Ih.gervice. 14iW5I0A on .1PNLC43B...-133 : -'0ressurLevel : ...lr -erviice I'-Lt I- on Panel ICO613.4 lLT-110Y .Pressurizer LeveIn selrvice, .. .1L1-110Y-1 on Panel.C006135 1LT-103 ..Pressuriner,,Level " -, ... In si&sect;Ni.q i perM-e 1U-I&03;on Panel 1C061,36 ... 1PT-105A " rPressurizer Pressure. .inservice, In service1 P1105A on Panel 1C06137 .1NXO01 WR Log power Charnels-l. ", .In sevice- In service PAMS, Panel 1C05..138 1NX002 WR Log power Channels,.i., in'ervice 'In Seirvce PAMS, Panel 1C05'.139 INX003- WRLog-power Channels In service In service. .PAMSI Panel 1005.Page A6 of AB Calvert Cliffs Unit I and Common Area ESELSESEL -N m 6ia rng tate. Notes.Comrniets140 1NX004 WR Log power Channels In service In service PAMS, Panel 1CO5Containment Wide Range141 1PT-5307 Pressure In service In service 1PI-5307 on Panel 1C09Containment Wide Range142 1PT-5310 Pressure In service In service IPI-5310 on Panel 1C09143 1TE-5309 Containment Dome Temp In service In service 1TE-5310 on Panel 1C091V1-11 (1-E1-144 211) 11 Vital DC Bus Voltage In service In service Panel 1C241VI-12 (1-El-145 212) 12 Vital DC Bus Voltage In service In service Panel 1C24Various Indications requiredfor OIP'execution-RX power,165 IPNLlC182A PAMS In service In service level pressureVarious Indications requiredfor OIP execution-RX power,166 1PNL1C182B PAMS In servce In service level pressureOLT2001 ..EOP-7, AOP-6F Loss of SFP172 Spent Fuel pool Level 111 In service In service Cooling.0LT2002 EOP47,'AOP-6F Loss of SFP.173 .Spent Fuel pool Level 21 In service In service CoolingEOP-7, AOP-6F Loss of SFP174 0LT2003 New SFP WR level Standby In service Cooling0L12003A ..EOP-7, AOP-6F Loss of SFP175 New SFP WR level Standby In service Cooling0LT2004 EOP-7, AOP-6F Loss of SFP176 New SFP WR level Standby In service Cooling0L12004A EOP-7, AOP-6F Loss of SFP177 New SFP WR level Standby In service CoolingPage A7 of A8 Cbveirt Cliffs Uhit I and Common Area ESEL., " r ...tem.. I O -erting Statef;i *, .... -EE&4:AOP-6F Loss of SFP178 LNewSFP WR level Standby In service Cooling0L12004 c "= :' EOP-7. AOP-6F Loss of SFP* 179. ... New:SFP WR level Standby ,i tn.se~rice Cabling.' .. .B0IA '. A'480VBJS 11A.........- PotentiaiP500 KW DG180 (1BUSIB01A) 148. In service Energized conneotlon pointIB1BB AP/40v BUS 11B Battery Charger Power.. .BUS1B..B) API.OVB 1 .,. ., supply, 500 KW DG181 ...In service Energized Connection Point.B..A AP/480V BUS 14A Battery Charger Power1 (1BUS1B04A) In eUS 14A supply, 500 KW DG182 .In service Energized Connection Point1B04B AP/480V BUS 14B Potential 500 KW DG183 (1BUS1B04B) In service Energized connection point188 I CV-4670 TDAFW Pump Stm Supp Isol Open Open EOP-07189 TAO'WPump Stm Supp Isol Open ;.Open .EQP-07.190 , 1CV-4071 TDAFW Pump Stm Supp Isol Open" Open -EOP-07191 1CV-4071A T ,'DAFWPPmp S9tM Supp Isol Open , Open EOP-07A .B1B004 .AP/48OV MOTOR CONTROL Power, tqSIT Outlet Isolation19 (1MCC,04R) CENTER 104R: .Ice Energized valve&'I B014 AP/48OV MOTOR CONTROL -Power to.SIT Outlet Isolation197 (i MC!114R) CEINTER. .14R, An-servIce -Energized valves'200 1PNL1C13 SW,SRW,CCW Pa'nel In service In serQice SFP Level and Temp" ... ..',.:', ,.I ,.' .I. ....,IPage A8 of A8 10.2 Attachment BCalvert Cliffs Unit 2 ESEL (Ref. 23)Page B1 of B7 Calvert Cliffs Unit 2 ESELES EL C&#xfd; 6dZgVItem .Number ___ mn prtigSaeNtsWmetsTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-77 21 TDAFW Pump Standby service Sation BlackoutManual in Instrument for local manual8 2PI-3986 TDAFW Pp Steam Supply Press Standby service operation of AFWManual in Instrument for local manual9 2PI-4501 TDAFW Pp Discharge Press Standby service operation of AFWTurbine Driven Aux Feedwater Manual in EOP-0 Plant Trip, EOP-710 222TDAFoW Pump D Standby service Sation BlackoutManual in Instrument for local manual11 2PI-3988 TDAFW Pp Steam Supply Press Standby service operation of AFWManual In Instrument for local manual12 2PI-4502 TDAFW Pp Discharge Press Standby service _op2eration of AFW2CV3939 Manual in EOP-0 Plant Trip, EOP-716 21 SIG Atmospheric Dump Valve Standby service Sation BlackoutManual in EOP-0 Plant Trip, EOP-716 2CV3938 22 SIG Atmospheric Dump Valve Standby service Sation Blackout2A01 API4KV BUS 21 2000 KW DG from NSRC48 (2BUS2A01) In service Energized connection point2A04 AP/4KV BUS 24 2000 KW DG from NSRC49 (2BUS2A04) In service Energized connection point2D01 Power to Vital AC Inverter50 (2BUS2DO1) AP/125 VDC BUS 21 In service Energized 222D02 Power to Vital AC inverter51 (2BUS2D02) API125 VDC BUS 22 In service Energized 24200312D042DO312DO4 AP/1 25V BATTERY 2152 (2BATT2D03104) In service Energized Power to DC Bus 21Page B2 of B7 Calvert Cliffs Unit 2 ESELi ;ESEL -:! iM~k-urgi~g~r qdi.e -_e oNotiWsCommet*item. Number ,J ___._._._.__ ..,. ; :,.. .:. p -, 53 (2D05R21) APIBATTERY CHARGER 21 n Power to DC Bus 21 and53 (2CHGR21) In service Energized battery 212D06
+* Power to DC Bus 22 and54 (2CHGR22) AP/BATTERI CHARGER 22 In service Energized battery 22,55____ (2CHGR23) AP/MATTERY CHARGER 23 In service Energized Power to DC Bus 112D08 APIBATrERY CHARGER 2455 (2CHGR24) In service Energized Power to DC Bus 242D09/2D1057 (2BATT2D010) AP/125V BATTERY 22 in service, Energized Power toDC Bus 222D11 AP/125 VDC CONTROL PANEL 21 Power to Vital AC Inv 1258 (2PNL2D1 1) In service Energized and 222D12 APi125 VDC CONTROL PANEL 22 Power to Vital AC Inv 1459 (2PNL2D12) In service Energized and 242013 3Vital Instrumentation Power2D13 API125 VDC CONTROL PANEL 23 In'service Energized Supply2D14 P 2 Vital Instrumentation Power61 (2PNL2D14) AP.125 VDC CONTROL PANEL 24 In service -Energized Supply,2D15 Vital instrumentation Power82 (PNL215) AP/125 VOC CONTROL PANEL 2562 (2PNL_2D_15) _P DCONTROPNEL2 In service Energized Supply2D16 Vital Instrumentation Power"63 (2PNL2D16) AP125 VC CONTROL PANEL26Supply2D17 API/12 .5 VDC CONTROL PANEL 27 Vital Instrumentation Power64 (2PNL2D17) In service Energized Supply2Y01.. Vital Instrumentation Power(2PL2D7) AP/125 VAC,\A DONTRO PANEL 276I (2PNL2Y01) In service Energized Supply2Y01-1 AP/120 VAC VITAL DIST PANEL Vital Instrumentation Power66' (2PNL2Y01-1) 21-1 In service Energized Supply2Y01AA Vital Instrumentation Power67 (21NV2Y01A) AP/INVERTER 21 In service Energized SupplyPage B3 of B7 Calvert Cliffs Unit 21SEL* .:.' .S:i ;.o.,: : ,, ... " + "' ....Item Number ..-' .w* :o- .p'en. .p* er .b -NotesIComments"quip0nin 0. -aIgS~af, t68 (22Y02' , V VAC'"TAL01- PAEL22Vital Instrumentation Power68 (2PNL2Y02)-.'." In service Energized Supply -69 (2PNi2Y02_) .: 'AP/1 20 VAC:VITAL DIST NE-" "Vital I.nstrumentation Power69. (2 NLIn service Energized Supply-~2Y02A APAN R 22ital. Instrumentation Power70", 21NV2Y02A)'' APJINVERTER 22 In service Energized Supply2Y03 20 ' .AP/120:VAC.VITAL DIST PANEL:;23 RVitalfnstrumentation Power71 ''2PNL2V03y In service Energized Supply.2YQ3A AIINVERTER 23, ' Vital Jnrstrumentation Power72... ....PVE In service Energized Supply..... .V D ". .. Vital Instrumentation Power73 (2PNL2Y04) AP10VCVTL0S AE 27VL3A- In service Energized Supply2Yi'4Ay., -'AP/INVERTER 24 ...... .Vital Instrumentation Power7 (21NV2Y.4A) -In service --*Energized Supply.2Y1I,' 1). , .,F /120 JAC " " Vital Instrumentation Power75 (2BS2y1) BUS 21- In-service Energized Supply2003..- I .. BUS 2 .d. ...: ,..'- :. i ..=:v ... 2C03 ".: ... "';.. I"C/,CONDENS ATE AND ' .. ... _.. '.P03) FEEDWATER CONTDO -...... Main Control panel -Various"84 ,i., .,.-FEEWATE COO " In serJ1 :e In service OIP indicators and controls8 4 ....... , ,.___.,_.___,_:_... .._.-., __ .-.2004?*. IC/AUXILIARY FEEDlATER,85 (2PNL2C04) ' ,. CONTROL-- , ~M-ain Control panel -Various85 In service Iniervice OIP indicators and controls', ..... , ....,....2005 .'" IIEAi(2PNL20.5.) IC/REACTiI CONTROL Main 9,ontrol panel -Various86 '.. 2P2 .i , -', service oIp indicators and controls-" 2C06':. IC/REACTOR COOLANTISYSTEMW "' .,:-- .. j.(2PN. 06) , CONTROL": .Main' Control panel -Various87 " ...... In service in service DIP indicators and'controlsPage B4 of B7 Calvert Cliffs Unit 2 ESELESEL EqulIte Nmir ipmiment Opem tate ,Note/c'ommints2C07 IC/CHEMICAL AND VOLUME(2PNL2CO7) CONTROL Main Control panel -Various88 In service In service OIP indicators and controls2C08 IC/ENGINEERING SAFEGUARDS(2PNL2CO8) CONTROL Main Control panel -Various89 In service In service OIP indicators and controls2C09 IC/ENGINEERING.SAFEGUARDS(2PNL2C09) CONTROL Main Control panel -Various90 In service In service OIP indicators and controls2C10 IC/ENGINEERING SAFEGUARDS(2PNL2C10) CONTROL
+* Main Control panel -Various91 In service In service OIP indicators and controls108 21 A SIT 21 A Safety Injection Tank In service In service EOP-7 Station Blackout109 2-SI-624-MOV 21 A Safety Injectiori Tank Outlet In service In service EOP-7 requires isolation110 2LT321 21 A SIT. Level Transmitter In service In service 2LI-321 on Panel 2C09111 2PT-321 12 ASIT Pressure Transmitter' .Inservl In service 2PI-321 on Panel 2C09112 21 B SIT 21 B Safety Injection Tank Jn service In service EOP-7 Station Blackout113 2-SI-614-MOV 21 B Safety Injection Tank Outlet In service'" In service EOP-7 requires isolation114 2LT311 21 BSIT Level Transmitter In service.. In service 2LI-311 on Panel 2C09115 .2PT-31.1 12 A SIT Pressure Transmitter In service In service 2PI-311 on Panel 2C09116 22A SIT 22 A Safety Injection Tank In service In service EOP-7Station Blackout117 2-SI-644-MOV 22 A Safety Injection Tank Outlet In service In service EOP-7 requires isolation118. .2LT341, .22 A SIT Leyel Transmitter In service _ In service 2LI-341 on Paner2C09119 2PT-341 12 A SIT PressureTransmhitter .In service In service 2P1-341 on Panel 2C09120 22 B SIT 22 BSafety. Injection Tank In service In service EOP-7 Station Blackout_ 121 2-SI-634-MOV 22 BSafety Injection Tank Outlet In service In service EOP-7 requires isolation122 2LT331 22 B SIT Level Transmitter In service In service 2LI-331 on Panel 2C09123 2PT-331 12 B SIT Pressure Transmitter In service In service -2PI-331 on Panel 2C092VI-21 (2-E21-146 221) 21 Vital DC Bus Voltage In service In service Panel 2C24S*..* " .Page B5 of B7 Calvert' Cliffs Unit 2 ESEL2Vi-22 (2-E1-1.47 222 .2 22 Vital DC Bus Voltage In service .. In service -Panel.2C241 Steam Generator Safety Channel ....148 2PT-1013A Pressure -IRsetvice..,. In service 2PI-l.l3A on Panel 2C03-Steam Generator Safety Channel ..49 2PT-1023A .Pressure" : ". .... In service In service -2P1I1023A on Panel 2C03150 2LT-1124A Steam Generator Wide.Range Level ip service, In service 2L1-1,124A on Panel 2C04t -,PAMS -2PNL2C182A, "T":15 " 2T'-112HA ' F-tot Leg"Tii.2-l1.. In service In service in 2PNLC43E1Z- .' !'-:' PAMS -2PNL2C182A, TT152 2"t-TICA Cold Leg Temp 21A In service ';:-" In service In 2PNLC43E1 .,., Leg Tem:o. .In" " PAMS -2PNL2C182A, TT153 " 2T~122HA .""" -Hot. Leg .... .lrvic...i In service in 2Pt&C43E15,'.. ... ... " " -'""C &old L' " A. .PAMS-2PNL2CI.2A, T-r"154 "2T122'CA -(od Leqt '22A ....... '"'- "In servic-, In service in 2PNLC43Ei56 2FT-4509A SG Stea TrainrAFW .' -I nf.serVice -.in service. .2FI-4509A on 2PNLC43B.1 2FT4510A .SG SteamkTfainAFw Flaw .In "ei'ce in service 2FI4510A on 2PILC43B:5"'-:' * "' 1rmssurize. Level- 'i-nservi6 -i servide' &#xfd;Ll-I-10x'-1 on Pnel 2C06Ji58!"; -.21>liOY -iressui,4i ev~ I. n inice-- n service 2kL-110Y.1 on Pknel.2CO6"5.-- ' P0essurl3erieV ." lh -. In service 2Li 103 on Panel 2C06160: -. 2T105A Pressurizer Preissure In. i in service 2PI05AOon Panl12C061i611 " )(NXO01 WR Log power' Channeis ..: nsei In servicePane.......62..... nsrOe.: .ln ev~ 2C 05:16 Log power Channels .-" 'in s 7i 7 .in service PAMS, Phnel 2C05163 2NX003 "' WR Logpowef-Channels ' In s'.hi service PA MS:Panel2C05*-164 2NX004 "R Log power Channels -.tn:s'evice': In service PAMS, Panel 2C05-..i ~ .*-~ Vanots lnhdicatiohs required." ".-- .-for OIP executionmRX167 ...2PNL2C182A .PAMS ." " -I.- service.- In service power level pressureVanrous Indications required.." ... .. J for 6IP execution-RX168 PAMS .Inserice Iri service power, level pressurePage B6 of B7 Calvert Cliffs Unit 2 ESELU I e.t iiiig State. Notes/CormmentsIEm E, Number Equipment."' O " iO-eC met169 2PT-5307 Containment Wide Range Pressure In service In service 2PI-5307 on Panel 2C09170 2PT-5310 Containment Wide Range Pressure In service In service 2PI-5310 on Panel 2C09171 2TE-5309 Containment Dome Temp In service In service 2TE-5310 on Panel 2C092B01A AP/480V BUS 21A Potential 500 KW DG184 (2BUS2B01A) In service Energized connection point2B01B Battery Charger Power(2BUS2B01B) API480V BUS 21B supply, 500 KW DG185 In service Energized Connection Point2B04A Battery Charger Power(2BUSB04A) AP/4BOV BUS 24A supply, 500 KW DG186 In service Energized Connection Point2B04B AP/480V BUS 248 Potential 500 KW DG187 (2BUSB04B) In service Energized connection point192 2CV-4070 TDAFW Pump Stm Supp Isol Open Open EOP-07193 2CV-4070A TDAFW Pump Stm Supp Isol Open Open EOP-07194 2CV-4071 TDAFW Pump Stm Supp Isol Open Open EOP-07195 2CV-4071A TDAFW Pump Stm Supp Isol Open Open EOP-072B004 API480V MOTOR CONTROL Power to SIT Outlet198 (2MCC204R) CENTER 204R In service Energized Isolation valves2B014 API480V MOTOR CONTROL Power to SIT Outlet199 (2MCC214R) CENTER 214R In service Energized Isolation valvesPage B7 of B7 10.3 Attachment CESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area-4 ...' .4'U%?ia .i1.,:.~,. t j- i , ,i-', -. ..'I. ., ., .;.1.r*1'.. ., .'C)('4I.'j* 2.<-1<I.....2Page CI of C11 ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area17800L12003Screened out,0.53ganalysisInteraction with Component Anchorage HCLPF is175 .0 OL12003A o0.175g calculated per 14Q4242-CAL-002Blockwalls (e.9* (Ref. 9)179 0 012004 Screened out. 0.53g, Component screened by SRT17.... ...re u. .analysis177 0 0L12004A Screened out 0.53g' Component screened by SRTanalysisComponent screened by SRT172 0' OLT2001 Screened out 0.53g u..... "judgmentComponent screened by SRT173 0 .0LT2002 ....Scrdened Out 0.53g "'jdmn173 0judgment0Interaction with Component Anchorage HCLPF is174 0 0LT20031 ..... Bockwalls wi 0.175... calculated per 14Q4242-CAL-002(Ref. 9)176 0 0LT2004 Screened out 0.53g: Component sreened by SRT..... .... ,analysis-i[8 ,0LT561 0 Screened out.-;... 0.53g. Component screened by SIRT-..,analysis.'Component screened by SRT19 0 0LT5611 Screened out. O.-53g19- 0. 0 1 -.analysisComponent Anchorage HCLPF is92. 1 11 A SIT Anchorage 0.21 ig calculated per 14d4242-CAL-002Capacity .-(Ref.9)Component Anchorage HCLPF is96 1 11 B SITAnchorage- --... .. Anchrap 0.21 1g pcalculated per 14Q4242-CAL-002.96 " " "i ... 11 BSITQapacity : :.. * ' * .,," (Ref. 9) ,.Page C2 of Cl1
+!'MI SEPiiIPF Values and Fail'UreModes Tabulation, Unit I and Common areatI11 TDAFWAnchorage -.Capacy ..0.51gComponent Anchorage HCLPF iscalculated per 14Q4242-CAq-002(Ref.-9)'.Anchoage ' -Comp~nent Anchorage HCLPF is100 1 12ASIT 0.21 1g calculated per 14Q4242-CAL-002* '. .' .-(Ref. 9)Component;Anchorage HCLPF is.104, '-1 7 -12BSI Anchage .0.21 1g calculated, er14Q4242-CAl,,002Capabity .(..., ... .. ....-:" :;;, .i; u ...,(R ef. ....,... .....Component Anchorage HCLPF is17 ..; 12 CST' -3qnchorag. 0.6 calcullited per 14Q4242-CAL-002Capacity (Ref. 9)Anchra7 &#xfd;-Compdnent Anchorage HCLPF is4 12TDAFW~ Anhoag 0.5Igl_ calculated per 14Q4242-CAL2-002I -,(Ref. 9)AInteraction: wth " '"Component Anchorage HCLPF is.... Anchoragei~ with20 1 1 TDAF .0. 1 75g calculated per 14Q4242-CAL-002" ... -"...... B cIk l.. ..B*o- -a*aiy..... ..(Ref. 9)-ter.~ w ,th, -" -Component Anchorage HCLPF is-I A01 Interacti''n with -196 1 (.I.UC1A04-$) .... BI ",7 0 .175g ca lculated per 14Q4242 -CAL-002.... ......... ...:..... ...... .. -.... * (Ref. )197 -.Component Anchorage HCLPF is>.~ ~ B0., '+,'" 04 : ....Interaction withb .. ...........S I .I-19. 1 0. 3g 5 calcated per -iQ4242-CAL,-002(1'M CCIB S A ,) Bloc wap. .,. ..( 9 .."-.-- ., i. .Component Anchorage HCLPF is180 AChorages u.52g; calculated per 14Q4242-CAL002(1 BU S C11 4A ) C a pac ity Q 4.. R ..M ..92--'" + ..-." .,,+ *Page C3 of Cll ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area181I.1B11013B(1BUSIB301B3)AnchorageCapacity0.52gComponent Anchorage HCLPF iscalculated per 14Q4242-CAL-002I (Ref. 9)Component Anchorage HCLPF is1 B04A Anchorage182 1 01BU A apcity 0.52g calculated per 14Q4242-CAL-002(IBUSIBO04A) Capacity (e.9' " (Ref. 9)'Component Anchorage HCLPF is183 1 1B04B Interaction with 0.175g calculated per 14Q4242-CAL-002(1BUSIB04B) Biock'walls (Ref. 9)Component Anchorage HCLPF is83 1ICOIO Interaction with83 1 (1 PNLICIO) Blockwalls 0.,175g calculated per 14Q4242-CAL-002(Ref. 9)1C03 Interaction With Component Anchorage HCLPF is76 1 0.175g calculated per 14Q4242-CAL-002(1PNLIC03)... Blockwalls (Ref. 9) .1 C Component Anchorage HCLPF is77 1 ...... IJnteraction with ..175g calculated per 14Q4242-CAL-002(IPNLICo4) Blockwalls (Ref. 9)S. -Component Anchorage HCLPF is78 11005 Interaction with78 C1 oca " 0.175g calculated per 14Q4242-CAL-002(1PNL1C05) Blockwalls' ..(Ref. 9),- 1006 Interaction with" Component Anchorage HCLPF is79 0.175g calculated per 14Q4242-CAL-002(1 PN LIC06) Blockwalls (e.9--(Ref. 9)nt o wh -" Component Anchorage HCLPF is80 is ,1C07 Interaction with' 0 175g calculated per 14Q4242-CAL-002(IPNLIC07) Blockwalls (Ref. 9)Component Anchorage HCLPF is8C08 Interaction 1 0.175&sect; "calculated per 1404242-CAL-00281 1 (1PNLICO8) Blockwalls(Ref. 9)Page C4 of Cll r-... iESEP HCLPF Values and Failure Modes Tabulation, Unit 1 and Common area.abulatin, Unit and onmon are821"1PC09(1PNL1C09)Interaction withBlockwalls0: 1 75gcalculated per 14Q4242-CAIL-002(Ref. 9)i,. ..+' 1' .' C24A
+* Screened -, ,Component screened by SRT("PNL1C24A) .... 0 analysisI..e.acti.n. ..Component-Anchorage HCLPF is.... .-' ' : " Interaction with1,4. 1, .1" 9398 k .175g calciulated per 14Q4242-CAL-002.(Ref. 9).. ... ..... ............ ... IComponent Anchorage HCL F is130. .1 .1 ,CV3.939 -.-,1,75j 4,alclated per 14Q4242-CAL-002........ +' .-. , "., Blockw alls .+ -.- + .(Rf 9)*Component screened by SRT1189. 1T. .ICV-4070 Screened out ..aa53glanalysig' -cn t -0g Component screened by SRT189 1 1 CV-4070A Screened out 0......053.!.. ... ..' , .-.., .analysisX.. .' '..- '.:-Component screened by S IRT190 "1:1CV-407! Screenepd out 01.53g: a. uae r analysis.canplysis........ : ... .... ..."10g -0.-. C omponent scree ned by S iRT",'I ,CV.-4(0171A 2, -.acpientd otv 4. 1g c...e per 1442alysiin'-----Component.Anchorage HCLPF is171 ,, 1D01
+* Anchora6ge6,_2 apit ,;: .Ql,,9g! calculated per 14Q4242-CAU-002-. (AO'AUSD03I) o> apacity'"-, Rf9'" ' + .. (Ref. 9...1... ........................-. Component Anchorage.HCLPF is4 1 (Rl)' a"21gl calculated per 14Q4242-CAL-002apa"",y t " (Ref. 9).... ..* .. ...... ... .. ......... .. .. ............ .... ...... ... ... Com ponenf Anch orage HCLPF is(lCHR11) Capaity(Ref. 9)Page C5 of Cl1 ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area25IkD06(1CHGR12)AnchorageCapacity0.52gI.,ompon"nI P, nunoragL n.Llrr i1calculated per 14Q4242ZCAL-002(Ref. 9)1 D07 Anchorage Component Anchorage HCLPF is26 1r 0.52g calculated per 14Q4242-CAL-002(1CHGR13) Capacity (Ref. 9):(Ref. 9)Component Anchorage HCLPF is27 " 1 1D08 Anchorage 0.52g calculated per 14Q4242-CAL-002(ICHGR14) Capacity (Ref. 9)1D09/ID1O Component Anchorage HCLPF is29 1 (IBATTID09/I Equipment. 0.53g calculated per 14Q4242-CAL-0020) .Capacity (Ref. 9)30 1D! 1 Screened out >RLGM 'Component screened by SRT(1PNLID11) analysis1D12 Component screened by SRT31N.... Screened out .. ..>RLGM.32 Dl 138Scendot >.RG Component screened by SIRT32, (1PNLID12) Scrend.ut...Manalysis10D14 Component screened by SRT33 1 (IPNLIDI4) 'Screened out. >&#xfd;RLGM analysis34 ~101I5 Scendot >LMComponent screened by SRT32 Screened out >RLGM(1PNLID15) analysis35ID,, SD1e out >RLGM Component screened by SRT35:' 1 (PLD.4 Screened out RL,, (IP-LI-,6) -' analysis,.,(ipNL!D15) .,. analysis11
+* Component screened by SIRT3616 Screened out >RLGM36 1 1017 , Screened out >RLGM Component screened by SRT(1PNLID17) .. ... .... analysisAnchorage Component Anchorage HCLPF is131 1. FT-4509A C0.3g.' calculated per 14Q4242-CAL-0021 1 I, , ., (Ref. 9)-Rf 9Page C6 of Cll
+.ESEP HCLPF Values and Failure Modes TabulatiOn,'UnitlI and bommdJn areaScreened out0.53g*s-omponent screene1. 1. analysis'S.135.....LT-..103. ..sreenedou......RLGM Component screened by 135 1t:ib -i:ce'ereidbi' '>.' ManalysisComponent screened by SRT133 1 1-LT-11OX Screened out 0.53g a...... .... ...... .... .ly s is134 " "' "; ' 1:.'Euimet GCompqnentAndhorage HCLPF is134 Equapaty 0.53g, calculated Oer 14Q4242-CAL-002, Capacity"" : 1 ": .. .. ..-... .. .. ... .... ....... .. ......... .;., -.* .= .(.. .e f.Re .99Conr1pohie~t screened by SPT126 1 .LT-1124A Screened out.:`-' ;,,0.53gn sc S--,,4 ..... .:. .." " , :analysis98". ' " 1.LT.I.1 ~ ..... ..~ )omponen&#xfd; Anchorage HCLPF is* ..... ri I ...,,98 1- 1LT311 0.53g :' calculated Oer 14Q4242-CAL-002.. ... ... Capacity (Ref 9)"LT"1 Equipment,0:Component Anchorage HCLPF is* 9 -:. ... t ........ .1-T3 -1 ....... Equipmient .... ... .0 5 g! ....94 "-..; .. ... .... 0;----r----.. 53g4.- -Calculated -er 14Q4242-CALL002Caoaitv.4 -4;*(Ref. 9).................. .. Component Anchorage-HCLPF is"106" 1 .... ......= 1T 3 "- ... c ,alculated I~er apacity:. " "" , (Ref. 9)MCohoponent Anchor-ge is.quipmien't g ... ..-. &#xfd;. I102 1 1 LT341 ^ I 0.53g calculated per 14Q4242-CAL,-002*Capacity ......... 137 1 i~xol I .creend out 0 &3compornent screened b ~7 an 1ysis438 ...... .. -.1N02. .... ,ne.u,~ ........ -Component. screened ..by SRT* Sr.ee.d! ;.ot -1 ". Component screened by SIRT139 1ll""' 1 i. Screened out" 0.53g'..'1 ....,alysistPage C7 of ClI ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common area14011 NX004Screened out0.53ganalysisComponent screened by SIRT2 1 1 PI-3986 Screened out >RLGM analsi s" analysisPressure Indicator is missing a5 1 IPI-3988. Functionality >RLGM manufacturer screw NOTE 11PI-4501 Screened out >Component screened by SRRT>RLGM analysis6 1 1 PI-4502 Screened out >RLGM
+* Component screened by SRTanalysis200 .1 1PNLIC13 Screened out .......053g Component screened by SRT200,1 I Screene out .... ,analysis"Equipmrnt .Component-Anchorage HCLPF is165 1 IPNLIC182A Capac -,0.53g, calculated per 14Q4242-CAL002(Ref. 9)Component Anchorage HCLPF is166 1 1PNLIC182B Equipment 0.53g calculated per 14Q4242-CAL-002.,Capacity .(Ref. 9)Component Anchorage HCLPF is124. 1 IT-1013A 1 --0.53g: -calculated per 14Q4242-CAL-002.Capacity, (Ref. 9)..Component screened by SRT125 ,1, IPT-1023A Screened out >RLGM~analysisComponent screened by SRT136 1 1PT-10SA Screened out 0.53g .analysisCom onent Anchorage HCLPF is99 1 1PT-311 Equipment 0.53g', calculated per 14Q4242-CAL-002.Capacity. (Ref.. 9)Page C8 of Cl1 Valbes and Failure Modes' Tabulation, Unit I and Coibn area951 PT-321,.quipmenl...Capacity"0.53gcalculated per 14Q4242-CAL-002(Ref. 9)! Component Anchorage HCLP, F is107 1... .Anch&deg;iaage, ... 0.183g -.. calculated per-14Q4242-CAL-002i~i.-!"!r= i". -o apa~~y ,; [ " .;' (Ref. 9i,--- -ComponenftAnchor~ge HGCLPF is103 1 .1PT-341 -, "..quipren .0.53g alculated ger SCapaity (Ref. 9).-out- g .. Com'ponept screened by SRT141 .1PT-5307, "creened out -5" analysis.42 AP-30 -:.,c --:,; :,Component screened b9-SIlT1ScrPT-531u _eened out 0.53gay97 _- I
+* _ 1L..6 V ..en. '.Component screened by SRTo. RG .vanalysis3 , '- --SF-624MOV Screend o, >RLG-M ............-Component screened by SRT* ~~ ~ Sre~ .out... ,- .. ;,,- analysiso. ,:. j I, .-" Componewt screened by SRT105 1 1-SI-634-MOV Screened out >RLGM... .. ...... ....... .. .... ........ .... >R........ ... .. .. ........... .....-+/- , ...S'"Criond , sdreenecr'by S&#xfd;TScendout'1: "~'IRLGM C&#xfd;i~n~101 1-SI-644-MOV analysis... .. .. ....... ....; ,-. ...... .. ... .......... .... .... .. .......... --...I ,'.L. .1 I screeried:by SRT128 1 1TT-112CA Screenqd out 0.53g} analysis. Cohiponentiis Rule & Box....... .. ....... toIP NLtC43E -. .* .,.,.14 Component screened by SRT127 ,-:1--'..1.2HA -Srreenqd-out.-...53g.-- analysis. Componentis Rule of Box' " .... ."' , .... ;to,1 PNLICr43E .-, " Component screenied by SIT'130- 1 .1TT22CA -Screeneldout -0.53g V.. analysis. Componentis-Rule of Boxto 1PNLIC43E-SPage C9 of Cl1 ESEP HCLPF Values and Failure Modes Tabulation, Unit I and Common areaES1TT122HAScreened out* omponem screenw -y -.K Ianalysis. Component is Rule of Boxto 1PNLIC43EComponent screened by SRTanalysis (Above 40 feet)Component screened by SRTanalysis. Component is Rule of Boxto IPNLIC24APage C10 of Cl1 ESEP HCLIPF Values aid Failure Modes Tailati6n, uWIt1 And :ommn'on area:'44'-P I(ilN`' '04A) I Screened out:.,.1-. ,I.V I T UQ. ..>RLGiMComponeht screened. byanalysis*i. 1......Interaction nt " .Component Anchorage HCLPF is47' 1'wall 0.26g c~lculated pRer 14Q4242-.AU-002L ..(1BUS1Y11) ( 9Blockwalls.... , "(Ref. 9)Note..1: Work order C92642395 replaces missing screw, therefore equiptent will sdreen-out.-.7 .7 ., , -. " -"" :. ." * .2~V. 22 2..........: .; ". :,- : --.....)~2 2~ ,~.... ~S.......4.......... 2~2. '-r7 .r~I"_ _..-.\ .~~ 2 --- ~......................>.:7 7, .~ <'r7'.;..2 22. ..~~ 0 1' .S.-..- 4-...-~.. ........~..-. ..2. .r r .~Page C11 of C11 10.4 Attachment DESEP HCLPF Values and Failure Modes Tabulation, Unit 2... .... ...Page D1 of D1O ESEP HCLPF Values and Failure Modes Tabulation, Unit 2108221 A SITAnchorageCapacity0.211guomponem Ancnorage MIL;LrI- IScalculated per 14Q4242-CAL-002(Ref. 9)7- ..Component Anchorage HCLPF is112 2 21 B SIT Anchorage 0.211 g calculated per 14Q4242-CAL-002Capacity (Ref. 9)Component Anchorage HCLPF is7 2 21 TDAFW Capacity 0.51g calculated per 14Q4242-CAL-002(Ref. 9)Component Anchorage HCLPF is116 2 22 A SIT Anchorage 0.211 g calculated per 14Q4242-CAL-002Capacity (Ref. 9)Component Anchorage HCLPF is120 2 22 B SIT Anchorage 0.21 1g calculated per 14Q4242-CAL-002Capacity (Ref. 9)Component Anchorage HCLPF is10 2 22 TDAFW Anchorage 0.51g calculated per 14Q4242-CAL-002Capacity (Ref. 9)2A01 Interaction with Component Anchorage HCLPF is48(2BS2AO) Blockwalls 0.175g calculated per 14Q4242-CAL-002(Ref. 9)2A04 Interaction with Component Anchorage HCLPF is49 2 ( O4 Itrciwith 0.175g calculated per 14Q4242-CAL-002(2BUS2A04) Block'walls (Ref. 9)213004 Interaction with Component Anchorage HCLPF is198 2 2B004 Itrctwith 0.175g calculated per 14Q4242-CAL-002(2MCC204R) BlockwalIls (Ref. 9)Component Anchorage HCLPF is199 2 2B014 Anchorage 0.33g calculated per 14Q4242-CAL-002(2MCC214R) Capacity (Ref. 9)Page D2 of D10 ESEP HCLPF Values and Failure Modes Tabulation, Unit 21842.2B01A(2BUS2BO1A)AnchorageCapacity0.52gcalculated per 14Q4242-CAL-002(Ref. 9)Component Anchorage HCLPF is* 185 2 2B1301B Anchorage 0.52g calculated per 14Q4242-CAL,002(2B3US2B1B01) Capacity (e.9; * (Ref. 9).,Component'Anchorage HCLPF is186 2 2B104A Anchorage p0.52g calculated per 14Q4242-CAL-002S (2BUSB4A) CapacityRef. 9)18 2B04B Anchorage ..... Component Anchorage HCLPF is(2BUSB04B) 'Capacity O0.52g
+* calculated per 14Q4242-CAL-002(Ref. 9)(Ref. 9)2ne owComponent Anchorage HCLPF is85 2 ( 2C03O ..n ctwiths 0.175g calculated per 14Q4242-CAL.0022 (2PNL2C03) ..Blockwalls (Ref. 9)Component Anchorage HCLPF is2C04 :Interaction with85 2 0.175g' calculated per 14Q4242-CAL-002(2PNL2CO4) .....Blockwalls .(Ref. 9).2C05 .Interaction with Component Anchorage HCLPF is-86 2 .(2PNC0) ,Blckl 0.175g calculated per 14Q4242-CAL-002S "(Ref. 9)12C06 Interaction with Component Anchorage HCLPF is.87 .2 0:(2PNC0 with 0175g calculated per 14Q4242-CAL-002Bloc.als -(Ref. 9)...Component Anchorage HCLPF is89 2C07 Interaction 2 0.175g: calculated per 14Q4242-CAL-002(2PNL2CO7) Blockwalls (Ref. 9)2C08: Iterctin ........ ... -component Anchorage HCLPF is89 2 0:175g .calculated, per 89. 2 (2PN1_2C08) Biockwalls ,," ' ...(e.9! ;(Rf.9Page D3 of D1O ESEP HCLPF Values ind Failure Mo~des Tabulatli',* Unit 2" -.,, ..960-(2PNL2CO9)-Interaction with*Blockwalls flF0 175g:,,om.ponenm ^ncnorage lLLrI- IScIputated per 14Q4242-CAL-002(Ref. 9).-4-. -'2010G interaction with"' -- Component Anchorage HCLIF is16 -2 .., 2CV3108 Interaction with" :'cpnn Acorg 'LFiB*ock~ _. ,:0.175g :calcujatkd per 14Q4242-CAU-002* (-2PNL2C10) Blockwalls (Ref. 9)1tomponent Anchorage HCLPF isf5 2. -CV399~ Interaction with*1Blockwlls 2 2CV, 0175g .. calQulated er 14Q4242-'CAIL-002'(Ref. 9)19..P. C crn iComponent Anchorage b , is! " :" "2 ;" ! , :rrderactioh witll&#xfd;;' ..,. HCF* ,' ". nayi35 ., o.tCm175gp o ,ncalculated see ,ed24 ! Blockw~alls analysi&#xfd;."Component screened by SRT-194. ;.,2' .Screenedi out O.59g ' ' .aa ,.; , ,;,:...r. ; ,;:."... ', ianalysis;!: ..... .... .... k... ... ......... .... ...Component-screened by SIRT..193' .', ._"..-_2__,___._'_____-__70_....._Sc__eenlo___......._....._0_53_g_194 2 2CV-4071' Screened out 0.53g Component screenedb SRT-_______ anatysis_ .R. nent s9ree)ed195 : ..2,-: 2C V -4071A, S creened out '-l P!' _:.1. 53g !. o... ... .an ys ;...:0 2. 2D01 ponent Anchorage HCLPF is51 9(2BUS20i) Capadity ' .u., g calcyjated per 14Q4242-CAL;-002: '(Ref. 9).52 -2 ( .2..o ' Equipment -s. C ormponent Anchorage HcLPF is....gp ....-.,.',-Anchorage ,' ,4) apacy ., ..-,.1 g -;calculated per 14Q4242-CAL-002.- (2BUS2D02) (paC~(Ref. 9) ,::2D03/2D04 , qimn" Q"o --: Ponent Anchorgtge HCLPF is:"52":.-2 : (2-BA'ft2D0:i10 .i...:3 ,"9culated I6er 14Q4:242bAl&#xfd;-002,Pt, (Ref. 9) .idPage D4 of D1O ESEP HCLPF Values and Failure Modes, Tabulation, Unit 25322D05(2CHGR21)AnchorageCapacity0.52guomponent Ancnorage H.;L-'I- Iscalculated per 14Q4242-CAL-002(Ref. 9)* Anchog .Component Anchorage HCLPF is54 2 2D06 Anchorage 0.52g calculated per 14Q4242-CAL-002(2CHGR22) , CapacitY (Ref. 9)Component Anchorage HCLPF is55 2 2007 Anchoragep 0.52g calculated per 14Q4242-CAL-002(2CHGR23) -Capacity (Ref. 9)2008 AnchoraComponent Anchorage HCLPF is56 2 (2D08 Anchoragep 0.52g calculated per 14Q4242-CAL-0O2(2CHGR24) Capacity ,(Ref. 9)Component Anchorage HCLPF is57 2 2D0912D10 .Equipr~ent57 2B0/2010 Cupait 0.53g calculated per 14Q4242-CAL-0022 (2BATT2D0IO) Capacity (e.9' ~(Ref. 9)5 2 2D11 Component screened by SRT(2PNL2D1 1) Screened out >RLGM analysis59 .20122 < Screened out >RLGM: *Compoaent screened by SRT59 2 (2PNL2D12) Screened o R analysis2D13 Component screened by SRT...(2PNL2D13) S.r ...e ...ut.... ...analysis, 2D14 Component screened by SRT61 2 , (2PNL2D4) Screened out $RLGManalysis" 2D15 S o Component screened by SRT62 2 (2PNL2D15) .Sreened out" " >RLGM alysis2' 2016 oComponent screened by SRT63 .2 (2PND16) Screened out .RLGM .analysis2D17 Component screened. by SRT(2PNL2D17) Screened out analysisPage D5 of D10 ESEP HC'LPF Values and Failure Modes Tabulation, Unit 2..% ".:2"0539uomponent screeneaanalysis+I2 ';,2FT"4510A Screened out " >IGM... Component screenedbyST,.. (. analysis159 2 2LT-103 Screened out >RLGM Component screened by SRT.' ...... .... ..." analysis157 ' 2LT-110X; Screened out 6.' .53g .Corronent screened'by S T.....analysis"158.... 2"" 2LT-IY Equipment gomponent Anchorage HCLPF is156:" 2.. 2 Capit b 0.53g .calculated per 14Q4242-CA&#xfd;-002(Ref. 9)1 '.-i........ ...... .. .'" A "Seene o .- Component screened by SRT, '150) '"'2 ..2.L.T,1?-, , outr'o : .'" * .anblysis1. .. ....'... ..' ." ComponentAnchorage HCLPF is::i .:, ...... 5quiprqent1 "'1' 22 .2LT311 .,.. , 53g 1,c a* lated per 14Q4242-CAL-002Capacity (Ref.9)... .... i ... .. ... ,I .............-......... .. ... '........,...p.e,., I Cbmponent Anchorage IICLPF is110 2 2LT321 0.53g c"lcu'lated Oer 14Q4242-CAL.-002.p.. ..-..Ref. 9)--.,r~ 3:. t M, -: C.'ompnbrnt Anchorage HCLPF is122" z ~31 -. nhrg -(I 183g,-- -aIa4 tedpe4Q4242-CAiL4002Capacity ,I(e.92 .-Qmon Anchorage dHCLPF: .:. ... ... ..... ...* ... ... ....... .... ...... ...i. .. ..~ m ponent n h r g H L F isIa 2, 2L/T41 .t53g calculatqd iOer 14Q4242-CAL-002L.~..Z2.. .-apaq~ -.......- '' (Ref. 9)2 2Z.O ;- ".Cmponent screened by SRT161 2NX001 Screened oui 0.53g analysis~analysis.5.. " S. -. Component sbreenedby SRT162 12: 2NX002' Screened out 0.53g -analysisPb
+* I- * .... "' analysis# ,,-Page D6of D10 ESEP HCLPF Values and Failure Modes Tabulation, Unit 216322NX003Screened outO.53ganalysisComponent screened by SRT1.64 2. 2NXW0 Screened out 0.53ganlis, ...... ..... .analysis, -Component screened by SIRT8 2 2PI-3986 Screened out >RLGM'alys.1 2 2 PI-3986 Screened out >RLGM .com ponent screened by SRTanalysis.11 2 2PI-3988 Screened out >RLGM "Component screened by SRTanalysis9 .2PI-4501 "Scieened'out ' RG Component screened by. SRTi.."" '. ... *analysis12 2 2PI-4502 Screened out' >RLGM ' Component screened by SRTanalysis....Equipment .Component Anchorage HCLPF is167 2 2PNL2C182A Equipment 0.53g calculated per 14Q4242-CAL-002Cat(Ref. 9)168 2 2PNL2C182B Elquipment i Component Anchorage HCLPF is0.53g calculated per 14Q4242-CAL-002C.. Capacity (Ref. 9)'Component Anchorage HCLPF is4. 2PT-1013A Equipment- -0.53g calculated per 14Q4242-CAL-002Capacity (Ref. 9)49:'2. 2P.T-1023 .......creene .... >RLGM Component screened by SRT149- , 2,T-2 ,. Screened.out .......analysis-Component screened by SIRT160 2- 2PT-105A Screened out 0.53g analsi S...... *analysisComponent Anchorage HCLPF is115 2 2PT-311 Equipment .0.53g. calculated per 14Q4242-CAL-002Capacity~. : , ,(Ref. 9).Page D7 of D10 E I Vus Fir eal ",'I Unit;: ESEP H'C&PF valuies Failure Modes'Tbulatl~n Unit 211122PT-321Equipment1Capaqity_0.53gyy.mpuIIUIL[ ]L;ncnotrage M,Lr-r ibscalculated per 14Q4242-CAL-002(Ref. -9)Component Anchorage HCLPF is123 " .. ' "2T;.331-4  " A "chrage- 0 183g -- calculated per 14Q4&#xfd;42-CAL-002" .-p .' .. pa ity-. (Ref. 9)--Component Anchorage HCLPF is... .... " : "" 23 1 .quipment,... .' ;- 53119 2 Pt 341 .q.Timn , _ O:53g ,"calcultted per 14Q4242-CAI.-002'I Capacity (Ref. 9)2PT-53,7 , -, Component screened by SRT169 .'2 2PT-5307: Screened out >RLGManalysis170... .0 ;;.. g ,Component screened &#xfd;by SIRT170 .2 2PT-5310, Screened out 0.53aay,; .analysi,.. .... ........- _i-.... ..... .'13- -2"- 2SI-614WMQV 1.,t&eenel out' " ,LGM .Component screened, by SRT...Corn analysis.-.O ". 2' -2.S"24-Mv .Screene-.........t ..-- .Componet screened by SRTI,.. : " "-... 'analysis121. -.Z ' Component screened by SRT.,121 .2 .-S-63LM V .. Screened out ..>RLGMI ...... ..:,-/ ...:. ....::, .:. ..:: t " ,! ......... 1 analysi&#xfd;... .. ..7" ..,,D .117..S'-. .... re...n... out ' ....-Comlpdnent sdreened'by SRT117 ;2 2-SI-644-MOV Screene out .RLGMi ianalysii1712,,,n o 2 2 , ,...,Component screened: by SRT1n analysis (Above 40 ft):. ..-*- " ,, Compondnt screened by SPT152 2TT-1 12CA Screene. out 0.53g j analysis. Component is Rule of Box..' .... .' .. ..to;2PNL2C43E... ... ."" ... ... ...... i ,,r!.,, i *Component screened by SRT151 2' 2TT-1 12HA Screened out 0.53g analysis. Component! is Rule of BoxS-. ..to2PNL2C43EPage D8 of D1O ESEP HCLPF Values and Failure Modes Tabulation, Unit 22TT122CA.Screened out :L;omponent screenea Dy -sK Ianalysis. Component is Rule of Boxto 2PNL2C43Eanalysis. Component is Rule of Boxto 1PNLIC24AComponent screened by SRTanalysis. Component is Rule of Boxto 1PNLIC24APage D9 of D10 "SEl'OI.CLPF Values'anai Failure Modes "rabudation, Unit 2Y-073,2..2Y04,(2PNL2YO4)-.Anchorage.Capacity0. -.28gPMI.lG[UI dI~t l,cailculated per 1i4Q424-WAI.-002(Ref. 9)-.2Y04A .Cornponent scree~ned by &sect;RT74 4A ) .Screened outs 4' ->RLGM 2, "I analysil's...5.2............. ... .Componerft Anchorbge-HCLPF isInteraction with 0.175g .;:',calculated per 14Q4242-CAL-0027.(2BUS2Y11) ,-.(Ref. 6)..uc ~ .4'.-.- -01 1L_JqJ C&#xfd; 'L-":%Y"_41 ':.'4 &#xfd;.jt APage DIO of DIO}}

v t e Letter Sequence Response to RAI
CAC:MF2534, (Approved, Closed) TAC:MF5231, (Approved, Closed)
Initiation Acceptance... Administration Questions Answers 23 June 2015 17 December 2014 Results Approval Other: ML15231A397, ML16069A139
MONTHYEAR2015-08-10 [Table View]

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