,", ,.'....:..."/"

* PREPAREDI REVISE'D BY: JPM 57AP2 Page 1 of 10 Rev 3 SEQUOYAH NUCLEAR PLANT JOB PERFORMANCE MEASURE 8.1.a JPM 57-AP2 Respond to High Containment Pressure, Place RHR Spray in Service Date/VALIDATED BY: APPROVED BY: CONCURRED:

***(Operations Training Manager)(Operations Representative)

Datel Datel Date/*Validation not required for minor enhancements, procedure Rev changes that do not affect the JPM, or individual ste.p changes that do not affect the flow of the JPM.**Operations Concurrence re*quired for new JPMs and changes that affect the flow of the JPM(if not driven by a procedure revision).

JPM 57AP2 Page 2 of 10 Rev 3 I NUCLEAR TRAINING REVISION/USAGE LOG Revision Description Pages Prepared/Number Of Revision V Date Affected Revised By: 0 Initial issue Y 12/3/01 All L.Pauley Used in 2000 NRC initial exam as 57 AP 1 Revised to latest revision of FR-Z.1 N 8/20/02 4JP Kearney 2 Made back into simulator JPM (was set up to be run in Y 8/4/05 All MG Croteau actual MCR).Set up for current IC and procedure revision.Updated references, wrote and referenced SCENS file N 10/20105 3,4 JJ Tricoglou 3 Reworded turnover information, referenced FR-Z.1 rev 4,10 17, revised instructions, added handout sheet, modified standards wording.v-Specify if the JPM change will require another validation (Y or N).See cover sheet for criteria.-

JPM 57AP2 Page 3 of 10 Rev 3 SEQUOYAH NUCLEAR PLANT ROISRO JOB PERFORMANCE MEASURE Task: Respond to High Containment Pressure, Place RHR Spray in Service Note: This JPM satisfies Simulator Manipulation"IN13".JAITA task#: 3110160601 KIA Ratings: 022000 A3.01 (4.1-4.4)026000 GA 13 (3.6-3.6)(RO)022000 A4.04 (3.1-3.20 026000 GAg (3.6-3.6)Task Standard: Attempt to establish one train of RHR spray in service per FR-Z.1.Evaluation Method: Simulator__X__In-Plant.:..-==========="========================================================================

Performance Rating: SAT Evaluator:

NAME UNSAT SIGNATURE Performance Time DATE Start Time_Finish Time_===================================================================================

COMMENTS JPM 57AP2 Page 4 of 10 Rev 3 SPECIAL INSTRUCTIONS TO EVALUATOR:

1.Sequenced steps identified by an"s" 2.Any UNSAT requires comments 3.Initialize simulator in IC#176.If Ie 176 is not available the reset to IC#24 and complete substeps below.a.Activate MF#TH01A at 350/0.b.Activate MFs#CH01 A thru D at 70%(-10.2 psid)c.Complete the actions of ES-1.3, Sump Swapover.Stop RCPs.d.Activate Override ZDIHS6393A OPEN, to prevent FCV-63-93 from closing.e.Activate Override ZDIHS7241A CLOSE*, to prevent FCV-72-41 from opening.4.Activate the following, as necessary, to prevent nuisance alarms:*AN:OVRN[96]

to OFF, prevents Saturation Monitor alarm*AN:OVRN[304]

to OFF, prevents SG Pressure Lo 5.Insert Remote Function RHR14 ON, places power on FCV-63-1.6.FREEZE the simulator until the operator is ready to commence task.7.Console operator will need to acknowledge alarms*not associated with JPM.8.Ensure operator performs the following required actions for SELF-CHECKING; a.Identifies the correct unit, train, component, etc.b.Reviews the intended action and expected response.c.Compares the actual response to the expected response.Validation Time: CR.8 mins Tools/Equipment/Procedures Needed: FR-Z.1, step 13  

 

==References:==

 

Local-----Reference FR-Z.1 Title Hi h Containment Pressure Rev No.17===========,===============================================================================

READ TO OPERATOR Directions to Trainee: I will explain the initial conditions, and state the task to be performed.

All control room steps shall be performed for this JPM.I will provide initiating cues and reports on other actions when directed by you.When you complete the task successfully, the objective for this job performance measure will be satisfied.

Ensure you indicate to me when you understand your assigned task.To indicate that you have completed your assigned task return the handout sheet I provided you.INITIAL CONDITIONS:

1.Unit 1 has experienced a reactor trip and Safety Injection in conjunction with a large break LOCA.2.The crew has been monitoring step 13 of FR-Z.1 since FR-Z.1 was implemented.

3.1 hour has elapsed since the accident.INITIATING CUES: 1.The US directs you to perform FR-Z.1, Step 13 to initiate one train of RHR spray.2.Inform the US when Step 13 has been completed.

Job Performance Checklist STEP/STANDARD JPM 57AP2 Page 5 of 10 Rev 3 SAT/UNSAT STEP 1.: Obtain copy of appropriate procedure.

Start Time--STANDARD: Operator obtains a copy of FR-Z.1 (begin at Step 13).COMMENTS: STEP 2.:[FR-Z.1, Step 13]MONITOR if RHR Spray should be placed in-SAT service.-UNSAT CHECK Containment press greater than 9.5 psid.STANDARD: Operator checks PDIS-30-42 through 45 and determines that pressure is greater than 9.5.COMMENTS: STEP 3.: CHECK at least 1 hour has elapsed since beginning of accident.-SAT Cue: IF asked, 1 hour has elapsed since beginning of accident.-UNSAT STANDARD: Operator determines from initiating cues (or asks US)that 1 hour has elapsed.COMMENTS: STEP 4.: CHECK RHR suction ALIGNED to containment sump.-SAT Cue: If asked, ES-1.3 has been completed.

-UNSAT STANDARD: Operator check FCV-63-72 and 73 open AND FCV-74-3 and 21 closed.OR asks US if ES-1.3"Transfer to RHR Containment Sump" has been completed.

COMMENTS:

Job Performance Checklist STEP/ST AN DARD JPM 57AP2 Page 6 of 10 Rev 3 SAT/UNSAT STEP 5.: CHECK at least one CCP AND one SI pump RUNNING.-SAT STANDARD: Operator ensures at least one CCP is running as indicated by red-UNSAT light on 1-HS-62-1 04A or 1-HS-62-1 08A LIT.AND Ensures at least one SI pump is running as indicated by red lights on 1-HS-63-1 OA or 1-HS-63-15A"LIT".COMMENTS: STEP 6.:[13.b]CHECK both RHR pumps RUNNING.-SAT STANDARD: Operator checks that both RHR pumps are running as indicated by red-UNSAT lights on 1-HS-20A"LIT".COMMENTS: STEP 7.:[13.c]ESTABLISH Train B RHR spray:-SAT 1.CHECK Train B RHR pump RUNNING.-UNSAT STANDARD: Operator checks that 1 B-B RHR pump is running as indicated by red light on 1-HS-74-20A"LIT".COMMENTS: STEP 8.:[13.c.2)]ENSURE RHR crosstie FCV-74-35 CLOSED.-SAT STAN'DARD:

Operator verifies FCV-74-35 in the CLOSE position as indicated by-UNSAT 1-HS-74-35A green light ON and red light off.COMMENT.S:

-SAT-UNSAT STANDARD: Operator places handswitch 1-HS-63-94A for RHR injection FCV-63-94 in the CLOSE position.Critical Step COMMENTS:

JobPerformance Checklist STEP/STANDARD JPM 57AP2 Page 7 of 10 Rev 3 SAT/UN SAT NOTE: This is the alternate path.-SAT STEP 10.:[13.c.4)]OPEN RHR Spray FCV-72-41.

-UNSAT NOTE: FCV-72-41 will NOT open the operator must go to the RNO and align the A train RHR spray.STANDARD: Operator places handswitch1-HS-72-41A for RHR injection FCV-72-41 in the OPEN position and recognizes that the green light stays ON and the red light is OFF, goes to RNO column.COMMENTS: NOTE: The following steps are from FR-Z.1, step 13.c RNO-SAT STEP 11.:[13.c RNO a)]ENSURE RHR Spray FCV-72-41 CLOSED.-UNSAT STANDARD: Operator verifies FCV-72-41 is closed as indicated by green light ON and red light OFF on 1-HS-72-41A.

COMMENTS: STEP 12.:[13.c RNO b)]IF RHR aligned for cold leg recirculation, THEN-SAT ENSURE FCV-63-94 OPEN.-UNSAT STANDARD: Operator places handswitch 1-HS-63-94A for RHR injection FCV-63-94 in the OPEN position.Critical Step COMMENTS: STEP 13.:[13.c RNO c)]ESTABLISH Train A RHR spray:-SAT (1)ENSURE RHR crosstie CLOSED.-UNSAT STANDARD: Operator verifies RHR crosstie FCV-74-33 in the CLOSE position as indicated by green light LIT on handswitch 1-HS-74-33A.

COMMENTS:

Job Performance Checklist STEP/STANDARD JPM 57AP2 Page 8 of 10 Rev 3 SAT/UNSAT STEP 14.:[13.c RNO c)(2)]CLOSE RHR Injection FCV-63-93.

-SAT-UNSAT STANDARD: Operator places handswitch 1-HS-63-93A for RHR injection FCV-63-93 in the CLOSE position.Critical COMMENTS: Step STEP 15.: OPEN RHR spray FCV-72-40.

-SAT STANDARD: Operator places handswitch 1-HS-72-40A for FCV-72-40 in the-UNSAT OPEN position.Critical Step COMMENTS: STEP 16.:[13.d]MONITOR containment pressure greaterthan 4 psig.-SAT-UNSAT STANDARD: Operator checks PDIS-30-42 through 45 and determines that pressure is greater 4 psig and continues to the next step.This completes Step 13 and the JPM COMMENTS: STEP 17.: Communicates with SRO and informs him RHR spray status.-SAT-UNSAT STANDARD: Operator informs SRO that the Train A RHR spray has been placed in service in accordance with FR-Z.1 and that FCV-72-41 failed to open.Stop Time__COMMENTS: END OF JPM ECCS Simplified Drawing*------------1

------,

CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK)DIRECTION TO T*RAINEE: I will explain the initial conditions, a.nd state the task to be performed.

I will provide initiating cues and reports on other actions when directed by you.Ensure you indicate to me when you understand your assigned task.To indicate that you have com*pleted your assigned task return the handout sheet I provided you.INITIAL CONDITIONS:

1.Unit 1 has experienced a reactor trip and Safety Injection in conjunction with a large break LOCA.2.The crew has been monitoring step 13 of FR-Z.1 since FR-Z.1 was implemented.

3.1 hour has elapsed since the accident.INITIATING CUES: 1.The US directs you to performFR-Z.1, Step 13 to initiate one train of RHR spray.2.Inform the US when Step 13 has been completed.

TENNESSEE VALLEY AUTHORITY SEQUOYAH NUCLEAR PLANT EOI PROGRAM MANUAL FUNCTION RESTORATION PROCEDURE FR-Z.1 HIGH CONTAINMENT PRESSURE Revision 17 QUALITY RELATED D.A.PORTER PREPARED/PROOFREAD BY:-----------

RESPONSIBLE ORGANIZATION:

Updated ES-1.3 step number reference in Step 5.c RNO.This procedure contains a Handout Page (2 copies).

SQN STEP I HIGH CONTAINMENT PRESSURE HANDOUT Page 1 of 1 ACTION FR-Z.1 Rev.17 1.4.d RNO 6.10.RNO.12.12.a RNO 12.d 13.MONITOR RWST level greater than 27%.(if any S/G is faulted and air return fans are NOT running)WHEN 10 minutes have elapsed from Phase B actuation, THEN ENSURE containment air return fans running.MONITOR containment air return fans:*WHEN 10 minutes have elapsed from Phase B actuation, THEN ENSURE containment air return fans running.IF all S/Gs Faulted, THEN CONTROL feed flow at greater than or equal to 25 gpm to each S/G.MONITOR if hydrogen igniters and recombiners should be turned on: WHEN hydrogen analyzers have been in ANALYZE for at least 5 minutes, THEN CHECK if hydrogen igniters and recombiners are required.WHEN ice condenser AHU breakers are open, THEN ENERGIZE hydrogen igniters (if hydrogen concentration less than 6%).MONITOR if RHR spray should be placed in service:*Containment pressure greater than 9.5 psig***AND at least 1 hour has elapsed since of accident AND RHR suction ALIGNED to containment sump AND at least one CCP AND one SI pump RUNNING.13.d.(if RHR spray in service)RNO WHEN Containment pressure is less than 4 psig, THEN REMOVE RHR spray from service.14.MONITOR if containment spray should be stopped: (containment pressure less than 2.0 psig)14.c (if containment spray suction aligned to sump)RNO WHEN directed by TSC, THEN STOP containment spray.1a of 16 SQN STEP i HIGH CONTAINMENT PRESSURE HANDOUT Page 1 of 1 ACTION FR-Z.1 Rev.17 1.4.d RNO 6.10.RNO.12.12.a RNO 12.d 13.MONITOR RWST level greater than 27%.(if any S/G is faulted and air return fans are NOT running)WHEN 10 minutes have elapsed from Phase B actuation, THEN ENSURE containment air return fans running.MONITOR containment air return fans:*WHEN 10 minutes have elapsed from Phase B actuation, THEN ENSURE containment air return fans running.IF all S/Gs Faulted, THEN CONTROL feed flow at greater than or equal to 25 gpm to each S/G.MONITOR if hydrogen igniters and recombiners should be turned on: WHEN hydrogen analyzers have been in ANALYZE for at least 5 minutes, THEN CHECK if hydrogen igniters and recombiners are required.WHEN ice condenser AHU breakers are open, THEN ENERGIZE hydrogen igniters (if hydrogen concentration less than 6%).MONITOR if RHR spray should be placed in service:*Containment pressure greater than 9.5 psig***AND at least 1 hourhaselapsed since beginning of accident AND RHR suction ALIGNED to containment sump AND at least one CCP AND one SI pump RUNNING.13.d.(if RHR spray in service)RNO WHEN Containment pressure is less than 4 psig, THEN REMOVE RHR spray from service.14.MONITOR if containment spray should be stopped: (containment pressure less than 2.0 psig)14.c (if containment spray suction aligned to sump)RNO WHEN directed by TSC, THEN STOP containment spray.1b of 16 SQN 1.0 PURPOSE HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 This procedure provides actions to respond to a high containment pressure.2.0 SYMPTOMS AND ENTRY CONDITIONS 2.1 ENTRY CONDITIONS FR-O Status Trees:*F-O.5, Containment RED condition:

Containment pressure greater than or equal to 12.0 psig.*F-O.5, Containment ORANGE condition:

Containment pressure less than 12.0 psig AND Containment pressure greater than or equal to 2.8 psig.3.0 OPERATOR ACTIONS Page 2 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE I I RESPONSE NOT OBTAINED NOTE If this procedure has been entered for an orange path and performance of ECA-1.1 (Loss of RHR Sump Recirculation) is required, FR-Z.1 may be performed concurrently with ECA-1.1.1.2.MONITOR RWST level greater than 27%.VERIFY Phase B valves CLOSED: Panel 6K PHASE B GREEN Panel 6L PHASE B GREEN.IF ES-1.3 has NOT been entered, THEN GO TO ES-1.3, Transfer to RHR Containment Sump.----..---IF 1-FCV-32-110 (2-FCV-32-111)

&is NOT closed, THEN PERFORM EA-32-3, Isolating Non-Essential Air to Containment.

IF other valves NOT closed AND flow path is NOT necessary, THEN CLOSE valves.3.ENSURE RCPs STOPPED.Page 3 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE II RESPONSE NOT OBTAINED 4.DETERMINE if this procedure should be exited: a.CHECK for faulted S/G: a.GO TO Step 5..Any S/G pressure DROPPINGin an uncontrolled manner OR.Any S/G pressure less than 140 psig.b.CHECK containment pressure b.GO TO Step 5.less than 12 psig.=--c.CHECK at least one containment spray pump RUNNING and delivering flow.d.CHECK at least one containment air return fan RUNNING.e.RETURN to procedure and step in effect.----.---c.IF containment pressure is greater than 2.8 psig, THEN GO TO Step 5.d.WHEN 10 minutes have elapsed from Phase B actuation, THEN ENSURE air return fans RUNNING.Page 4 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 5.VERIFY containment spray operation:

a.CHECK RHR sump recirculation capability AVAILABLE.

b.VERIFY containment spray pumps RUNNING.c.CHECK RWST level greater than 27%.II RESPONSE NOT OBTAINED a.IF ECA-1.1 , Loss of RHR Sump Recirculation, is IN EFFECT, THEN PERFORM the following:1)OPERATE containment spray as directed by ECA-1.1.2)GO TO Step 6.b.IF containment pressure is greaterthan2.8 psig, THEN START containment spray pumps.c.IF any of following conditions met:*RWST level less than or equal to 8%OR*containment sump level greater than 560/0, THEN PERFORM the following:

1)ENSURE cntmt spray pump suction aligned for sump recirc USING ES-1.3, Transfer to RHR Containment Sump, Step 21.2)GOTO Substep 5.e.(step continued on next page)Page 5 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17.I STEP I I ACTION/EXPECTED RESPONSE II RESPONSE NOT OBTAINED 5.d.VERIFY containment spray suction ALIGNED to RWST:*FCV-72-22 OPEN*FCV-72-21 OPEN.d.ALIGN valves as necessary.

e.VERIFY containment spray discharge e.OPEN valves for running valves OPEN: containment spray pumps.*FCV-72-39*FCV-72-2.f.VERIFY containment spray recirc valves CLOSED:*FCV-72-34*FCV-72-13.

g.VERIFY containment spray flow greater than 4750 gpm on each train.f.CLOSE valves as necessary.

g.IF NO train of containment spray is available, THEN PERFORM the following:

1)CONTINUE efforts to restore at least one train of containment spray.2)NOTIFY TSC to evaluate restoring normal containment cooling USING EA-30-4, Restoring Containment Coolers.Page 6 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEP I I ACTION/EXPECTED RESPONSE 6.MONITOR containment air return fans:*WHEN at least 10 minutes have elapsed from Phase B, THEN ENSURE containment air return fans RUNNING.II RESPONSE NOT OBTAINED 7.8.9.VERIFY containment ventilation dampers CLOSED: Panel 6K CNTMT VENT GREEN Panel6L CNTMT VENT GREEN.VERIFY Phase A valves CLOSED: Panel 6K PHASE A GREEN Panel6L PHASE A GREEN.VERIFY MSIVs and MSIVbypassvalves CLOSED.CLOSE dampers.IF flow path NOT necessary, THEN CLOSE valves.CLOSE valves.IF any MSIV CANNOT be closed, THEN CLOSE MSIV locally USING EA-1-1, ClosingMSIVsLocally.

Page 7 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 10.DETERMINE if any S/G Intact: a.CHECK at least one S/G pressure:*CONTROLLED or RISING AND*Greater than 140 psig.II RESPONSE NOT OBTAINED IF all S/Gs Faulted, THEN PERFORM the following:

*Any S/G pressure DROPPING in an uncontrolled manner OR*Any S/G pressure less than 140 psig.b.ISOLATE feed flow to affected S/G: MFW*AFW Page 8 of 16 a.GO TO Step 12.

SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 12.MONITOR if hydrogen igniters and recombiners should be turned on: a.DISPATCH personnel to open ice condenser AHU breakers USING EA-201-1, 480 V Board Room Breaker Alignments.

b.CHECK hydrogen concentration measurement AVAILABLE:

*Hydrogen analyzers have been in ANALYZE for at least 5 minutes.c.CHECK containment hydrogen concentration less than 6%.d.WHEN ice condenser AHU breakers have been opened, THEN ENERGIZE hydrogen igniters USING Appendix D, Placing Hydrogen Analyzers and Igniters In Service.II RESPONSE NOT OBTAINED b.PERFORM the following:

1)DISPATCH operator to place hydrogen analyzers in service USING Appendix D.(also contained in ES-0.5)2)WHEN hydrogen analyzers have been in ANALYZE for at least 5 minutes, THEN PERFORM substeps 12.c through 12.e.3)GO TO Step 13.=---c.CONSUL T TSC.GO TO Step 13.=---(Step continued on next page.)Page 9 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEP I I ACTION/EXPECTED RESPONSE 12.e.CHECK containment hydrogen concentration less than 0.5%.13.MONITOR if RHR spray should be placed in service: a.CHECK the following:

Containment pressure greater than 9.5 psig AND At least 1 hour has elapsed since beginning of accident AND RHR suction ALIGNED tocontainmentsump AND At least one CCP AND one SI pump RUNNING.II RESPONSE NOT OBTAINED e.PLACE hydrogen recombiners in service USING EA-268-1, Placing Hydrogen Recombiners in Service.IF hydrogen recombiners NOT available, THEN CONSULT TSC.a.GO TO Step 14.(Step continued on next page.)'Page 10 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE II RESPONSE NOT OBTAINED 13.b.CHECK both RHR pumps RUNNING.b.IF only one RHR pump running, THEN PERFORM the following:

2)PLACE non-operating CCP in PULL TO LOCK.3)ENSURE only one SI pump RUNNING (same train as running RHR pump preferred).

4)PLACE non-operating SI pump in PULL TO LOCK.(Step continued on next page.)Page 11 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 13.c.ESTABLISH Train B RHR spray: 1)CHECK Train B RHR pump RUNNING.2)ENSURE RHR crosstie FCV-74-35 CLOSED.3)CLOSE RHR injection FCV-63-94.

b)IF RHR aligned for cold leg recirculation, THEN ENSURE FCV-63-93 OPEN.(Step continued on next page.)Page 12 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 13.d.MONITOR containment pressure greater than 4 psig.II RESPONSE NOT OBTAINED d.WHEN containment pressure is less than 4 psig, THEN PERFORM the following:

1)ENSURE FCV-72-40 and FCV-72-41 CLOSED.2)IF RHR aligned for cold leg recirculation, THEN ENSURE FCV-63-93 and FCV-63-94 OPEN.3)IF ECCS is aligned for hot leg recirculation, THEN ENSURE RHR crosstie valves FCV-74-33 and FCV-74-35 aligned as required by ES-1.4.Page 13 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 14.MONITOR if containment spray should be stopped: a.CHECK any containment spray pump RUNNING.b.CHECK containment pressure less than 2.0 psig.c.CHECK containment spray suction aligned to RWST.d.RESET Containment Spray.e.STOP containment spray pumps and PLACE in A-AUTO.f.CLOSE containment spray discharge valves:*FCV-72-39, Train A*FCV-72-2, Train B.II RESPONSE NOT OBTAINED a.GO TO Step 15.b.GO TO Step 15.c.NOTIFY TSC to determine when one or both trains of cntmt spray should be stopped.WHEN directed by TSC, THEN PERFORM Substeps 14.d through 14.f.GO TO Step 15.Page 14 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 I STEPII ACTION/EXPECTED RESPONSE 15.RETURN TO procedure and step in effect.----..---II RESPONSE NOT OBTAINED END Page 15 of 16 SQN HIGH CONTAINMENT PRESSURE FR-Z.1 Rev.17 Page 1 of 1 APPENDIX D PLACING HYDROGEN ANALYZERS AND IGNITERS IN SERVICE 1.PLACE hydrogen analyzers in service: a.ENSURE the following switches in ANALYZE position:[M-10]*HS-43-200A, Cntmt H2 Analyzer Fan A*HS-43-210A, Cntmt H2 Analyzer Fan B.b.RECORD time:_c.NOTIFY Unit Supervisor of time that hydrogen analyzers were placed in ANALYZE.D D D D NOTE The following step is performed when directed by an EOP step (after hydrogen concentration has been verified and ice condenser AHU breakers have been opened).2.WHEN directed to energize hydrogen igniters, THEN ENSURE the following switches in ON position:[M-10]*HS-268-73, H2 Igniters Group A*HS-268-74, H2 Igniters Group B.END OF TEXT Page 16 of 16 D D  

 

PREPAREDI REVISED BY: VALIDATED BY:*APPROVED BY: JPM B.1.b Page 1 of 11 Rev.0 SEQUOYAH NUCLEAR PLANT JOB PERFORMANCE MEASURE B.1.b JPM Respond to a#1 Rep Seal Failure Date/Date/Date/(Operations Training Manager)CONCURRED:

**Date/(Operations Representative)

*Validation not required for minor enhancements, procedure Rev changes that do not affect the JPM, or individual step changes that do not affect the flow of the JPM.**Operations Concurrence required for new JPMs and changes that affect the flow of the JPM (if not driven by a procedure revision).

JPM B.1.b Page 2 of 11 Rev.0 NUCLEAR TRAINING REVISION/USAGE LOG REVISION DESCRIPTION OF V DATE PAGES PREPARED/NUMBER REVISION AFFECTED REVISED BY: 0 New, modifiedfromJPM 403 Y Allv-Specify if the JPM change will require another validation (Y or N).See cover sheet for criteria.

JPM B.1.b Page 3 of 11 Rev.0 SEQUOYAH NUCLEAR PLANT ROISRO JOB PERFORMANCE MEASURE Task: Respond to an RCP Seal Failure JAITA task:#0000820501 (RO)KIA Ratings: 003 Reactor Coolant Pump System A2.01 3.5/3.9 Task Standard: 1)Candidate determines the#1 RCP has a seal malfunction and enters AOP-R.04 2)Candidate trips reactor, removes the#1 RCP from service, and closes the seal return valve from the pump.Evaluation Method: Simulator__X__In-Plant_===================================================================================

Performance Rating: SAT NAME UNSAT Performance Time Start Time_Finish Time_Evaluator:

COMMENTS JPM B.1.b Page 4 of 11 Rev.0 SPECIAL INSTRUCTIONS TO EVALUATOR:

1.Sequenced steps identified by an"s" 2.Any UNSAT requires comments 3.This task is to be performed using the simulator in IC-10, 14%power ready to roll turbine 4.Put MODE 1 sign on simulator 5.When ready to start, insert malfunction CV17 A f: 0.60 6.Ensure operator performs the following required actions for SELF-CHECKING; a.Identifies the correct unit, train, component, etc.b.Reviews the intended action and expected response.c.Compares the actual response to the expected response.Validation Time: CR.14 min Local-----Tools/Equipment/Procedures Needed: AOP-R.04  

 

==References:==

 

1.AOP-R.04 Reference Title Reactor Coolant Pum Malfunctions Rev No.22=============================================================================

READ TO OPERATOR Directions to Trainee: I will explain the initial conditions, and state the task to be performed.

All control room steps shall be performed for this JPM.I will provide initiating cues and reports on other actions when directed by you.When you complete the task successfully, the objective for this job performance measure will be satisfied.

Ensure you indicate to me when you understand your assigned task.To indicate that you have completed your assigned task return the handout sheet I provided you.INITIAL CONDITIONS:

1.Unit 1 is in MODE 1 at 140/0 reactor power preparing to roll the main turbine.Currently awaiting completion of maintenance activities.

INITIATING CUES: 1.You are the OATC and are to monitor the control board and respond to conditions as required.This JPM contains Time Critical steps Job Performance Checklist STEP/STANDARD JPM B.1.b Page 5 of 11 Rev.0 SAT/UNSAT STEP 1.: Obtain the appropriate procedure.

SAT UNSAT STANDARD: Operator identifies window B-3, FS-62-11 REAC COOL PMPS SEAL LEAKOFF HIGH FLOW lit and uses 1-AR-M5-B to respond.The following 2 steps are from 1-AR-M5-B Window B-3 STEP 2.:[1]Verify High Leakoff condition on affected RCP(s)with the following instruments Start Time__SAT UNSAT Pump RCP 1 RCP2 RCP3 RCP4 Leakoff Instrumentation 1-FR-62-24 1-FR-62-24 1-FR-62-50 1-FR-62-50 f STANDARD: Candidate determines that#1 RCP has high Seal flow on 1-FR-62-24 or by looking at the ICS.COMMENTS: STEP 3.:[2]GO TO AOP-R.04, Reactor Coolant Pump Malfunctions.

STANDARD: Candidate enters AOP-R.04 COMMENTS: The following steps are from AOP-R.04 STEP 4.: 1.DIAGNOSE the failure: STANDARD: Candidate determines Section 2.2 is the appropriate section and goes to section 2.2 COMMENTS: SAT UNSAT SAT UNSAT Job Performance Checklist STEP/STANDARD JPM B.1.b Page 6 of 11 Rev.0 SAT/UNSAT STEP 5.: 1.MONITOR#1 sealleakoff less than 6 gpm per pump:-SAT*FR-62-24[RCP1&2]-UNSAT*FR-62-50[RCP3&4]STANDARD: Candidate uses 1-FR-62-24 or by looking at the ICS to determine seal flow on#1 RCP is greater than 6 gpm and goes to the RNO.COMMENTS: STEP 6.: a.MONITOR RCP lower bearing temperature and seal temperature.

-SAT IF RCP lower bearing temperature OR seal temperature are rising-UNSAT uncontrolled, THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1][C.2]STANDARD: Candidate uses 1-TI-62-3 and 1-TI-62-4 to determine lower bearing temperature and seal temperature are rising and goes to Section 2.1, Reactor Coolant Pump(s)Tripped or Shutdown Required COMMENTS: STEP 7.: 1.CHECK reactor power greater than 10%-SAT-UNSAT STANDARD: Candidate determines reactor power is greater than 100/0 and continues to the next step.COMMENTS:

Job Performance Checklist STEP/STAN DARD STEP 8.: 2.TRIP the reactor and GO TO E-O, Reactor Trip or Safety Injection, WHILE continuing in this procedure.

After candidate completes the immediate actions, state that the SRO and another operator will perform E-O.STANDARD: Candidate trips the reactor by placing reactor trip switch to the trip position.COMMENTS: STEP 9.: 3.STOP and LOCK OUT affected RCP(s).STANDARD: Candidate places handswitch 1-HS-68-8A to the stop position (critical).

Handswitch placed in the Pull to Lock position (non-critical).

Record time pump is stopped_COMMENTS: STEP 10.: 4.MONITOR RCP sealleakoff less than 8 gpm per pump:*FR-62-24[RCP 1&2]*FR-62-50[RCP 3&4]Evaluator Note: Scale on recorder is 0-10 gpm STANDARD: Candidate determines that#1 RCP sealleakoff flow on 1-FR-62-24 is greater than 8 gpm.COMMENTS: JPM B.1.b Page 7 of 11 Rev.0 SAT/UNSAT SAT UNSAT Critical Step SAT UNSAT Critical Step SAT UNSAT Job Performance Checklist STEP/STANDARD STEP 11.: WHEN the RCP has coasted down (30 sec.), THEN CLOSE affected RCP seal return FCV:[C.2]*FCV-62-9[RCP 1]*FCV-62-22[RCP 2]*FCV-62-35[RCP 3]*FCV-62-48[RCP 4]STANDARD: Candidate place 1-HS-62-9 to the Close position within 5 minutes of stopping the RCP Record time FCV is closed_COMMENTS: STEP 12.: 5.PULL TO DEFEAT affected loop 1\T and T-avg:*XS-68-2D (1\T)*XS-68-2M (T-avg)STANDARD: Candidate places 1-XS-68-2D and 1-XS-68 2M to Loop 1 position and pulls each out.COMMENTS: STEP 13.: 6.CHECK RCPs 1 and 2 RUNNING.STANDARD: Candidate determines that#1 Reactor coolant pump is not running.COMMENTS: STEP 14.: 6.RNO CLOSE affected loop's pressurizer spray valve.STANDARD: Candidate verifies Loop 1 PZR Spray Valve 1-PIC68-340D is closed.May place the controller to manual.COMMENTS: JPM B.1.b Page 8 of 11 Rev.0 SAT/UNSAT SAT UNSAT Critical Step Time Critical Step SAT UNSAT SAT UNSAT SAT UNSAT Job Performance Checklist STEP/STANDARD STEP 15.: 7.IF RCP Seal T em peratures or Bearing Tem peratures are increasing uncontrolled due to loss of Seal Injection, THEN EVALUATE initiating RCS cooldown.Cue: When step addressed state"Shift Manager is evaluating the need to cooldown" STANDARD: Candidate addresses the need for the cooldown evaluation.

COMMENTS: STEP 16.: 8.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.Cue: When step addressed state"Shift Manager will evaluate EPIPs" STANDARD: Candidate addresses the step COMMENTS: STEP 17.: 9.EVALUATE the following Tech Specs for applicability:

-Startup and Power Operation*3.4.1.2, Reactor Coolant System-Hot Standby*3.4.1.3, Reactor Coolant System-Shutdown*3.4.6.2, RCS Operational Leakage Cue: When step addressed state"SRO will evaluate Tech Specs" STANDARD: Candidate notifies SRO to evaluate Tech Spec.COMMENTS: JPM B.1.b Page 9 of 11 Rev.0 SAT/UNSAT SAT UNSAT SAT UNSAT SAT UNSAT Job Performance Checklist STEP/STANDARD STEP 18.: 10.GO TO appropriate plant procedure.

END OF SECTION Cue: To candidate"'We will stop here" STANDARD: Candidate recognizes that a transition from the AOP is required.End of JPM JPM B.1.b Page 10 of 11 Rev.0 SAT/UNSAT SAT UNSAT Stop Time__

CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK)Directions to Trainee: I will explain the initial conditions, and state the task to be performed.

All control room steps shall be performed for this JPM.I will provide initiating cues and reports on other actions when directed by you.When you complete the task successfully, the objective for this job performance measure will be satisfied.

Ensure you indicate to me when you understand your assigned task.To indicate that you have completed your assigned task return the handout sheet I provided you.INITIAL CONDITIONS:

1.Unit 1 is in MODE 1 at 14%reactor power preparing to roll the main turbine.Currently awaiting completion of maintenance activities.

INITIATING CUES: 1.You are the OATe and are to monitor the control board and respond to conditions as required.This JPM contains Time Critical steps TENNESSEE VALLEY AUTHORITY SEQUOYAH NUCLEAR PLANT AOI PROGRAM MANUAL ABNORMAL OPERATING PROCEDURES AOP-R.04 REACTOR COOLANT PUMP MALFUNCTIONS Revision 22 QUALITY RELATED PREPARED/PROOFREAD BY: D.A.PORTER RESPONSI BLE ORGAN IZATION: OPERATIONS APPROVED BY: W.T.LEARY EFFECTIVE DATE: 12/19/2005 REVISION DESCRIPTION:

Revised to clarify actions if neither RCP lower bearing temperature nor RCP seal temperature indication is available (PER 93845).Corrected inconsistency between caution in Section 2.0 and Appendix B.

SQN 1.0 PURPOSE REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 This procedure provides the actions necessary to mitigate the effects of a Reactor Coolant Pump (RCP)trip below P-8 (35%power), excessive RCP seal leakage, and various RCP malfunctions.

Page 2 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.0 OPERATOR ACTIONS RESPONSE NOT OBTAINED CAUTION: Exceeding the following limitations requires trip of the affected RCP, unless RCP operation is required by FR-C.1, Inadequate Core Cooling or FR-C.2, Degraded Core Cooling:*RCP#1 Seal less than 220 psid*RCP#1 Seal Temperature greater than 225°F*RCP Lower Bearing Temperature greater than 225°F*RCP Upper Motor Bearing Temperature greater than 200°F*RCP Lower Motor Bearing Temperature greater than 200°F*RCP Motor Voltage less than 5940V or greater than 7260V*RCP Motor Amps greater than 608 amps*RCP Vibration greater than 20 mils on any axis (x and/or y)[C.3]NOTE 1: During plant startup following seal maintenance, the seal package should seat and operate normally following 24 hours of run time.NOTE 2: RCP trip criteria is also located in Appendix B.This appendix should be referred to throughout the performance of this procedure.

1.DIAGNOSE the failure: IF...GOTO SECTION PAGE Reactor Coolant Pump(s)tripped or shutdown required 2.1 4 RCP#1 Seal Leakoff high flow (high flow Alarm)2.2 7 RCP#1 Seal Leakoff low flow (low flow Alarm)2.3 13 RCP#2 Seal Leakoff high flow (high RCP standpipe level)2.4 17 RCP#3 Seal Leakoff high flow (low RCP standpipe level)2.5 20 RCP Motor Stator Temperature High 2.6 23 Page 3 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 2.1 Reactor Coolant Pump Tripped or Shutdown Required CAUTION: A rapid drop in level and steam flow on the affected loop SIG may occur when RCP is tripped.1.CHECK reactor power greater than 10%.SHUT DOWN to MODE 3 within 1 hour.GO TO Step 3.NOTE: This procedure is intended to be performed concurrently with E-O, Reactor Trip or Safety Injection.

2.TRIP the reactor, and GO TO E-O, Reactor Trip or Safety Injection, WHILE continuing in this procedure.

___11"---3.STOP and LOCK OUT affected RCP(s).Page 4 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 2.1 Reactor Coolant Pump Tripped or Shutdown Required (cont'd)CAUTION: If the RCP seal return flow control valve (FCV)is NOT closed within 5 minutes of stopping the Rep with excessive leakoff, seal damage may occur.[C.2]4.MONITOR RCP seal leakoff less than 8 gpm per pump:*FR-62-24[RCP 1&2]*FR-62-50[RCP 3&4]5.PULL TO DEFEAT affected loopT and T-avg:*XS-68-2D*XS-68-2M (T-avg)6.CHECK RCPs 1 and 2 RUNNING.WHEN the RCP has coasted down (30 sec.), THEN CLOSE affected RCP seal return FCV:[C.2]*FCV-62-9[RCP 1]*FCV-62-22[RCP 2]*FCV-62-35[RCP 3]*FCV-62-48[RCP 4]CLOSE affected loop's pressurizer spray valve.Page 5 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE RESPONSE NOT OBTAINED 2.1 Reactor Coolant Pump Tripped or Shutdown Required (cont'd)CAUTION: Restoring seal water injection to a hot seal package could result in failure of the RCP seals.NOTE: The plant should be cooled down to reduce heat input into the pump seal package if RCP seal injection flow has been lost and cannot be restored prior to exceeding temperature limits.7.IF RCP Seal Temperatures or Bearing Temperatures are increasing uncontrolled due to loss of Seal Injection, THEN EVALUATE initiating RCS cooldown.8.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.9.EVALUATE the following Tech Specs for applicability:

-Startup and Power Operation*3.4.1.2, Reactor Coolant SystemHot Standby*3.4.1.3, Reactor Coolant SystemShutdown*3.4.6.2, RCS Operational Leakage 10.GO TO appropriate plant procedure.

___111"---END OF SECTION Page 6 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.2 RCP#1 Seal Leakoff High Flow RESPONSE NOT OBTAINED*CAUTION:*CAUTION: RCP bearing damage may occur if temperature exceeds 225°F.If the RCP seal return flow control valve is NOT closed within 5 minutes of stopping the RCP with excessive leakoff, seal damage may occur.[C.2]1.MONITOR#1 seal leakoff less than 6 gpm per pump:*FR-62-24[RCP 1&2]*FR-62-50[RCP 3&4]a.MONITOR RCP lower bearing temperature and seal temperature.

IF RCP lower bearing temperature OR seal temperature are rising uncontrolled, THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1][C.2]----=---IF lower bearing temperature AND seal temperature indication are NOT available for affected RCP, THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1]..(Step continued on next page.)Page 7 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE ,.2.2 RCP#1 Seal Leakoff High Flow (cont'd)1.(Continued)

1)INITIATE plant shutdown at 2-5%per minute USING AOP-C.03, Emergency Shutdown.2)WHEN reactor is tripped, THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1]___;11--..IF#1 sealleakoff flow less than 8 gpm, THEN PERFORM the following:

1)CONTROL RCP seal injection flow for the affected RCP greater than or equal to 9 gpm.2)CONTACT Engineering for recommendations WHILE continuing with this procedure.(Step continued on next page.)Page 8 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.2 RCP#1 Seal Leakoff High Flow (cont'd)1.(Continued) 2.MONITOR RCP lower bearing and seal water temperatures less than 225°F.Page 9 of 34 RESPONSE NOT OBTAINED 3)IMPLEMENT Engineering recommendations to address specific RCP seal performance conditions.

OR COMPLETE normal plant shutdown within 8 hours USING appropriate plant procedure.

4)WHEN reactor is shutdown or tripped, THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1]--_..IF any of the following conditions met:*RCP lower bearing temperature or seal water temperature greater than 225°F OR*seal leakoff flow greater than 6 gpm AND lower bearing and seal temp NOT available for affected RCP THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1]

SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.2 RCP#1 Seal Leakoff High Flow (cont'd)3.MONITOR RCP#1 seal ilP greater than 220 psid:*PDI-62-8A*PDI-62-21A

*PDI-62-47A 4.ENSURE RCP seal water supply flow 6-10 gpm per pump:*FI-62-1A*FI-62-14A*FI-62-27A*FI-62-40A 5.CONTACT Engineering for recommendations WHILE continuing with this procedure.

6.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.RESPONSE NOT OBTAINED GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1]___:e---IF seal water supply flow is less than 6 gpm AND CANNOT be restored, THEN ENSURE CCS supply to thermal barriers is less than 105°F:*TR-70-161[CCS HX1A1(2A1)/1A2(2A2)

Outlet Temp]Page 10 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.2 RCP#1 Seal Leakoff High Flow (cont'd)7.EVALUATE the following Tech Specs for applicability:

-Startup and Power Operation*3.4.1.2, Reactor Coolant SystemHot Standby*3.4.1.3, Reactor Coolant SystemShutdown*3.4.6.2, RCS Operational Leakage RESPONSE NOT OBTAINED CAUTION: Slow and uniform temperature adjustments (approx.50°F in one hour)will prevent thermal shock to the seals.8.CHECK VCT outlet temperature less than 130°F[TI-62-131].

ADJUST HIC-62-78A to reduce VCT temperature to less than 130°F.Page 11 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.2 RCP#1 Seal Leakoff High Flow (cont'd)10.CHECK RCP lower bearing and seal water temperature less than 180°F: 11.GO TO appropriate plant procedure.

----.---RESPONSE NOT OBTAINED IF any of the following conditions met:*affected RCP lower bearing or seal water temperature greater than 180°F OR*lower bearing and seal water temp indication NOT available for affected RCP, THEN GO TO Step 1.___;11-.END OF SECTION Page 12 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.3 RCP#1 Seal Leakoff Low Flow 1.CHECK#1 seal leakoff flow greater than 0.8 gpm per pump:*FR-62-23[RCP 1&2]*FR-62-49[RCP 3&4]2.CHECK#1 seal leakoff flow greater than 0.9 gpm per pump and NOT decreasing:

*FR-62-23[RCP 1&2]*FR-62-49[RCP 3&4]3.GO TO appropriate plant procedure.

Outlet Temp]Page 13 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.3 RCP#1 Seal Leakoff Low Flow (cont'd)5.CONTACT Engineering for recommendations WHILE continuing with this procedure.

a.RCOT parameters (O-L-2 AB, el.669)*Level, LI-77-1*Pressure, PI-77-2*Temperature, TI-77-21 b.Cntmt FI.&Eq.Sump Level rate of rise (ICS pt.U0969)Page 14 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.3 RCP#1 Seal Leakoff Low Flow (cont'd)8.VERIFY RCP#2 seal leakoff less than or equal to 0.5 gpm USING Appendix A, RCDT Level Rate-of-Change.

9.MONITOR RCP lower bearing temperature and seal water temperature are stable and within limits (less than 225°F).RESPONSE NOT OBTAINED GO TO Section 2.4, RCP#2 Seal Leakoff High Flow.IF any of the following conditions met:*affected RCP lower bearing temp or seal water temp rising uncontrolled OR*affected RCP lower bearing temp or seal water temp greater than 225°F OR*affected RCP lower bearing temp and seal temp indication NOT available THEN GO TO Section 2.1, RCP Tripped or Shutdown Required.[C.1]

Page 15 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.3 RCP#1 Seal Leakoff Low Flow (cont'd)RESPONSE NOT OBTAINED CAUTION: NOTE: If low seal leakoff compensatory actions are NOT successful, seal failure may result as indicated by a sudden increase in seal leakoff flow(greaterthan 8 gpm).Plant shutdown may be terminated if Seal Leakoff flow stabilizes at greater than 0.8 gpm with pump Lower Bearing temperature and Seal Water Temperature remaining stable (no indications of seal failure).10.MONITOR RCP#1 sealleakoff flow greater than 0.8 gpm:*FR-62-23[RCP 1&2]*FR-62-49[RCP 3&4]11.CHECK#1 seal leakoff flow greater than 0.9 gpm per pump and NOT decreasing:

*FR-62-23[RCP 1&2]*FR-62-49[RCP 3&4]INITIATE normal plant shutdown USING appropriate plant procedures AND STOP affected RCP within 8 hours.IF RCP#1 seal leakoff flow reverts to high leakage (greater than 8.0 gpm):*FR-62-24[RCP 1&2]*FR-62-50[RCP 3&4]THEN GO TO Section 2.1 , RCP Tripped or Shutdown Required...GO TO Step 1...Page 16 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.3 Rep#1 Seal Leakoff Low Flow (cont'd)12.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.13.EVALUATE the following Tech Specs for applicability:

-Startup and Power Operation*3.4.1.2, Reactor Coolant SystemHot Standby*3.4.1.3, Reactor Coolant SystemShutdown*3.4.6.2, RCS Operational Leakage 14.GO TO appropriate plant procedure.

___111._---END OF SECTION Page 17 of 34 RESPONSE NOT OBTAINED SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.4 RCP#2 Seal Leakoff High Flow RESPONSE NOT OBTAINED NOTE: A leakoff of greater than 0.5 gpm indicates that a seal problem exists.1.NOTIFY Engineering to consult with Westinghouse for continued RCP operation as necessary.

2.CHECK RCP standpipe level alarm(s)LIT[M-5B, A-2, B-2, C-2, D-2].a.MONITOR RCOT parameters at Radwaste Panel[Aux Bldg, 669'elev.]:*Level, LI-77-1*Pressure, PI-77-2*Temperature, TI-77-21 b.FILL affected RCP standpipe USING AR-M-5B, Annunciator Response.*RCP 1[A-2]*RCP 2[B-2]*RCP 3[C-2]*RCP 4[0-2]c.IF RCP standpipe level alarm clears, THEN GO TO Section 2.5, RCP#3 Seal Leakoff High Flow.GO TO Step 3.Page 18 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.4 RCP#2 Seal Leakoff High Flow (cont'd)3.MONITOR RCP#2 seal INTACT:*VERIFY RCP#2 seal leakoff less than or equal to 0.5 gpm USING Appendix A, RCOT Level Rate-of-Change.

*VERIFY RCP vibration is within limits of annunciator response 1-AR-M5-A (window 0-,3)VIBRATION&LOOSE PARTS MONITORING ALM.*CONTACT Engineering for recommendations.

RESPONSE NOT OBTAINED PERFORM the following within 8 hours: a.PERFORM normal plant shutdown USING appropriate plant procedure.

b.WHEN reactor is shutdown or tripped, THEN STOP and LOCK OUT affected RCP.c.PULL TO DEFEAT affected loopT and T-avg:*XS-68-20*XS-68-2M (T-avg)Page 19 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.4 RCP#2 Seal Leakoff High Flow (cont'd)4.CHECK RCPs 1 and 2 RUNNING.5.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.6.EVALUATE the following Tech Specs for applicability:

*3.4.1.3, Reactor Coolant SystemShutdown*3.4.6.2, RCS Operational Leakage 7.GO TO appropriate plant procedure.

RESPONSE NOT OBTAINED CLOSE affected loop's pressurizer spray valve.END OF SECTION Page 20 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.5 RCP#3 Seal Leakoff High Flow 1.CHECK RCP standpipe level alarms DARK[M-5B, A-2, B-2, C-2, 0-2].RESPONSE NOT OBTAINED PERFORM the following:

a.MONITOR Cntmt FI.&Eq.Sump Level rise rate (ICS pt.U0969)b.FILL affected RCP standpipe USING AR-M-5B, Annunciator Response:*RCP 1[A-2]*RCP 2[B-2]*RCP 3[C-2]*RCP 4[0-2]c.IF RCP bearing temperature rising, THEN GO TO Section 2.4, RCP#2 Seal Leakoff High Flow, Step 1.

Page 21 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.5 RCP#3 Seal Leakoff High Flow (cont'd)RESPONSE NOT OBTAINED NOTE: A leakoff rate of greater than 500 cc/hr indicates that a seal problem exists.The frequency and length of time filling the RCP standpipe may indicate the severity of the leak.2.MONITOR RCP#3 seal intact:*VERIFY RCP vibration is within limits of annunciator response 1-AR-M5-A (window D-3)VIBRATION&LOOSE PARTS MONITORING ALM.*CONTACT Engineering for assistance in determining acceptable leak rate for continued RCP operation.

3.CHECK RCPs 1 and 2 RUNNING.4.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.PERFORM the following within 8 hours: a.PERFORM non:nal plant shutdown USING appropriateplantprocedure.

b.WHEN reactor is shutdown or tripped, THEN STOP and LOCK OUT affected RCP.c.PULL TO DEFEAT affected loopT and T-avg:*XS-68-2D*XS-68-2M (T-avg)CLOSE affectedloop'spressurizer spray valve.Page 22 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.5 Rep#3 Seal Leakoff High Flow (cont'd)5.EVALUATE the following Tech Specs for applicability:

-Startup and Power Operation*3.4.1.2, Reactor Coolant SystemHot Standby*3.4.1.3, Reactor Coolant SystemShutdown*3.4.6.2, RCS Operational Leakage 6.GO TO appropriate plant procedure.

----..---END OF SECTION Page 23 of 34 RESPONSE NOT OBTAINED SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.6 RCP Motor Stator Temperature High RESPONSE NOT OBTAINED CAUTION: Operating the RCP with excess winding temperature will reduce the expected life of the motor insulation.

NOTE: RCP motor winding temperature limits are as follows:*329°F if RCS temperature is less than 540°F.*311°F if RCS temperature is greater than or equal to 540°F.1.MONITOR RCP Motor Stator temperature less than applicable limit by monitoring the following computer points.:*Pump 1: T0409A, 411A or 412A*Pump 2: T0429A, 431A or 432A*Pump 3: T0449A, 451A or 452A*Pump 4: T0469A, 471A or 472A a.IF RCP Motor Stator temperature reaches applicable limit AND indication is verified valid, THEN PERFORM the following:

Page 24 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 I STEP I ACTION/EXPECTED RESPONSE 2.6 Rep Motor Stator Temperature High (continued) 2.EVALUATE EPIP-1, Emergency Plan Initiating Conditions Matrix.3.EVALUATE the following Tech Specs for applicability:

-Startup and Power Operation*3.4.1.2, Reactor Coolant SystemHot Standby*3.4.1.3, Reactor Coolant SystemShutdown*3.4.6.2, ReS Operational Leakage 4.GO TO appropriate plant procedure.

----..---END OF SECTION Page 25 of 34 RESPONSE NOT OBTAINED SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 3.0 SYMPTOMS AND ENTRY CONDITIONS 3.1 Symptoms A.Any of the following annunciators may indicate a RCP malfunction:

PANEL 0-XA-55-27-B-A, COMPONENT COOLING 0-2 RC PUMP 1 OIL COOLERS OUTLET FLOW LOW 0-3 RC PUMP 2 OIL COOLERS OUTLET FLOW LOW 0-4 RC PUMP 3 OIL COOLERS OUTLET FLOW LOW 0-5 RC PUMP 4 OIL COOLERS OUTLET FLOW LOW PANEL 0-XA-55-27-B-E, COMPONENT COOLING/MiSe 0-2 RC PUMP 1 OIL COOLERS OUTLET FLOW LOW 0-3 RC PUMP 2 OIL COOLERS OUTLET FLOW LOW 0-4 RC PUMP 3 OIL COOLERS OUTLET FLOW LOW 0-5 RC PUMP 4 OIL COOLERS OUTLET FLOW LOW PANEL 1(2)-XA-55-1B, AUXILIARY POWER/STATION SERVICE A-1 6900V UNIT BO 1 (2)A TRANSFER A-2 6900V UNIT BO 1 (2)B TRANSFER A-3 6900V UNIT BO 1 (2)C TRANSFER A-4 6900V UNIT BO 1 (2)0 TRANSFER B-1 6900V UNIT BO 1 (2)A FAILURE OR UNOERVOLTAGE B-2 6900V UNIT BO 1(2)B FAILURE OR UNOERVOLTAGE B-3 6900V UNIT BO 1 (2)C FAILURE OR UNOERVOL TAGE B-4 6900V UNIT BO 1 (2)0 FAILURE OR UNOERVOL TAGE E-3 MOTOR TRIPOUTPNL1 (2)-M-1 THRU 1 (2)-M-6 Page 26 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 3.1 Symptoms (cont'd)PANEL XA-55-5A, REACTOR COOLANT-STM-FW A-6 TS-68-2M/N REACTOR COOLANT LOOPS T AVG/AUCT T AVG OEVN HIGH-LOW B-5 CNTMT FLOOR&EQUIP DRAIN SUMP HI-HI-HI B-6 TS-68-2A1B REACTOR COOLANT LOOPS L1 T OEVN HIGH-LOW 0-3 VIBRATION&LOOSE PARTS MONITOR ALARM PANEL XA-55-5B, evcs SEAL WATER AND RCP A-2 LS-62-6A REAC COOL PMP 1 STANDPIPE LVL HIGH-LOW A-3 FS-62-10 REAC COOL PMPS SEAL LEAKOFF LOW FLOW A-4 PdIS-62-96 SEAL WATER INJECTION FILTER HIGH L1P A-5 LS-68-10AlB REAC COOL PMP 1 OIL RESERVOIR LEVEL HI-LOW B-2 LS-62-19A REAC COOL PMP 2 STANDPIPE LVL HIGH-LOW B-3 FS-62-11 REAC COOL PMPS SEAL LEAKOFF HIGH FLOW B-4 PdIS-62-97 SEAL WATER INJECTION FILTER 2 HIGH L1P B-5 LS-68-34A1B REAC COOL PMP 2 OIL RESERVOIR LEVEL HI-LOW C-2 LS-62-32A REAC COOL PMP 3 STANDPIPE LVL HIGH-LOW C-3 FS-62-1 REAC COOL PMPS SEAL WATER FLOW LOW C-5 LS-68-53A1B REAC COOL PMP 3 OIL RESERVOIR LEVEL HI-LOW 0-2 LS-62-45A REAC COOL PMP 4 STANDPIPE LVL HIGH-LOW 0-3 PdS-62-8 REAC COOL PMPS SHAFT SEAL WATER L1P 0-5 LS-68-76A1B REAC COOL PMP 4 OIL RESERVOIR LEVEL HI-LOW E-1 REAC COOL PMPS MOTOR STATOR TEMPERATURE HIGH E-2 TS-62-42 REAC COOL PMPS LOWER BEARING TEMP HIGH E-3 REACTOR COOLANT PUMPS MOTOR THRUST BEARING TEMP HIGH E-4 TS-62-43 REAC COOL PMPS SEAL WATER TEMP HI E-5 FIS-62-12 RCP NO 1 SEAL BYPASS FLOW LOW Page 27 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 3.1 Symptoms (cont'd)PANEL XA-55-6A COMPONENT COOLING A-4 FS-68-6A REACTOR COOLANT LOOP 1 LOW FLOW B-4 FS-68-29A REACTOR COOLANT LOOP 2 LOW FLOW C-4 FS-68-48A REACTOR COOLANT LOOP 3 LOW FLOW 0-4 FS-68-71A REACTOR COOLANT LOOP 4 LOW FLOW E-4 RCP BUS UNDERFREQUENCY I UNDERVOL TAGE B.Deviations or unexpected indication on any of the following may indicate a RCP malfunction:

1.Erratic or abnormal RCP motor current 2.Erratic RCP motor frequency 3.Erratic or low RCS Loop Flow indications 4.Plant Computer RCP temperature alarms 5.Indication of high vibrations on a RCP 6.Low RCP#1 seal LlP 7.High or low RCP#1 Seal leakoff flow 8.High or low RCP#1 Seal supply flow 9.Increasing RCP#1 Seal temperature 10.Increasing RCP lower bearing temperature 11.High VCT temperature 12.High VCT pressure 13.High VCT level 14.Increasing Reactor Coolant Drain Tank level 15.High Containment Floor&Equipment Sump Level rate of rise Page 28 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 3.1 Symptoms (cont'd)C.Any of the following automatic actions may indicate a RCP malfunction:

1.RCP trip from motor faults 2.Reactor Trip 3.Safety Injection 3.2 Entry Conditions None END OF SECTION Page 29 of 34 SQN

 

==4.0 REFERENCES==

 

4.1 Performance REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 A.EPIP-1, Emergency Plan Initiating Conditions Matrix B.E-O, Reactor Trip or Safety Injection C.AR-M-5B, Annunciator Response 4.2 Technical Specifications A.3.2.5, DNB Parameters B.3.4.1.1, Reactor Coolant Loops and Coolant Circulation

-Startup and Power Operation C.3.4.1.2, Reactor Coolant System-Hot Standby D.3.4.1.3, Reactor Coolant System-Shutdown E.3.4.6.2, RCS Operational Leakage Page 30 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 4.3 Plant Drawings A.47W600, Sheets 57,60 B.47W61 0-68, Sheets 1,2,3,4,6 C.47W61 0-77-3 D.47W61 0-62-2 E.47W61 0-72-1 F.47W61 0-74-1 G.47W61 0-63-1 H.47W61 0-67-1 I.47W61 0-3-3 J.47W61 0-70-1 K.47W61 0-30-2 L.47W61 0-47-1 M.47W61 0-82-1 N.45N765, Sheets 1, 2 O.45N724, Sheets 1, 2, 3, 4 P.45N751, Sheets 1, 2, 3,4, 5, 6, 7, 8 Q.45N732, Sheets 1, 2 4.4 10 CFR A.1 OCFR50, Appendix R Page 31 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS AOP-R.04 Rev.22 APPENOIXA Page 1 of 1 RCOT LEVEL RATE OF CHANGE CALCULATE RCDT level rate of change to obtain RCP#2 seal leakoff flowrate.FINAL VOLUME (gal)-INITIAL VOLUME (gal)=LEVEL RATE OF CHANGE gpm L1 TIME (minutes)----Figure C.20 Page 1 of 1 REACTOR COOLANT DRAIN TANK LEVEL INDICATION ON LI-77-1 t-100 Z 1LI 90 (J 0=: 80 LU 0-70..J 60 LLI 50>lIJ 40...I 0 30 LLI 20 J--(5 10-C 0 Z-/l-'V V....v//'v.....v...,vI.'" l/VV l/i""l/ J'V\vl/l/.....v...... V:;/v l,,'v"\..",'""../'7,,-7-,,/N".'" ru"N.T RJ.NI i(/V"./V""...v....,..v".V./""-JI".../VOLUME*GALLONS 350 300 250 200 150 100 oj lso 10 GAL.INCREMENTS NOTE: LEVEL TAP NOT AT TANK BOTTOM Page 32 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS APPENDIX B PAGE 1 of 1 RCPTRIPCRITERIA AOP-R.04 Rev.22 Exceeding the following limitations requires trip of the affected RCP, unless RCP operation is required by FR-C.1, Inadequate Core Cooling or FR-C.2, Degraded Core Cooling[C.1]:*RCP#1 Seal less than 220 psid*RCP#1 Seal Temperature greater than 225°F*RCP Lower Bearing Temperature greater than 225°F*RCP Upper Motor Bearing Temperature greater than 200°F*RCP Lower Motor Bearing Temperature greater than 200°F*RCP Motor Voltage less than 5940V or greater than 7260V*RCP Motor Amps greater than 608 amps*RCP Vibration greater than 20 mils on any axis (x and/or y)[C.3]Page 33 of 34 SQN REACTOR COOLANT PUMP MALFUNCTIONS COMMITMENT LIST AOP-R.04 Rev.22 COMMITMENT ID C.1 C.2 C.3  

 

==SUMMARY==

OF COMMITMENT Provide clear instructions to the operators should any seal temperature, pressure, or leakage alarms annunciate.

Include conditions for continued operation or immediate shutdown.Update procedural guidance to conform to most recent Westinghouse recommendations on RCP shutdown with No.1 seal leakage outside the operating limits.Update procedural guidance to include RCP vibration as a limitation.

Page 34 of 34 COMMITMENT CORRESPONDENCE NER 82-005 INPO SOER 81-007 INPO SOER 82-005 NER 930512001 Westinghouse Tech Bulletin NSD-TB-93-01-R1 NER 970134001 TROIINPO SER 97-002  

 

PREPAREDI REVISED BY: VALIDATED BY: APPROVED BY:*JPM B.1.c Page 1 of 11 Rev.0 SEQUOY AH NUCLEAR PLANT JOB PERFORMANCE MEASURE B.1.c JPM WITHDRAW SHUTDOWN BANKS Datel Datel Datel (Operations Training Manager)CONCURRED:

**(Operations Representative)

Datel*Validation not required for minor enhancements, procedure Rev changes that do not affect the JPM, or individual step changes that do not affect the flow of the JPM.**Operations Concurrence required for new JPMs and changes that affect the flow of the JPM (if not driven by a procedure revision).

JPM B.1.c Page 2 of 11 Rev.0 NUCLEAR TRAINING REVISION/USAGE LOG REVISION DESCRIPTION OF V DATE PAGES PREPARED/NUMBER REVISION AFFECTED REVISED BY: 0 Modified JPM Y Allv-Specify if the JPM change will require another validation (Y or N).See cover sheet for criteria.

JPM B.1.c Page 3 of 11 Rev.0 SEQUOYAH NUCLEAR PLANT ROISRO JOB PERFORMANCE MEASURE Task: Withdraw Shutdown Banks JAITA task:#0010180101 (RO)Withdraw shutdown Banks KIA Ratings: 001 Control Rod Drive System A3 Ability to monitor automatic operation of the CRDS, including: (CFR: 41.7/45.13)

A3.05 Individual vs.group rod position 3.5/3.5 Task Standard:1)Initiation of withdrawal of shutdown banks is initiated starting with Shutdown Bank A.2)Following failure of the group step counters, the reactor trip breakers are opened in accordance with Technical Requirement 3.1.3.3.x Evaluation Method: Simulator----In-Plant_===================================================================================

Performance Rating: SAT NAME UNSAT Performance Time Start Time_Finish Time_Evaluator:

COMMENTS JPM B.1.c Page 4 of 11 Rev.0 SPECIAL INSTRUCTIONS TO EVALUATOR:1.Sequenced steps identified by an"s" 2.Any UNSAT requires comments 3.Place MODE 3 sign on the simulator.

4.This task is to be performed using the simulator in IC 183.If not available then raise boron to 1800ppm and withdraw rods to D@216;Trip reactor;Close Reactor trip breakers;Reset FWI and one MFPT, Stop TD AFW pump, and Reset M/D LCVs and stabilize SG levels.Place Rod Control Mode Selector Switch to the Manual position and rest startup switch.5.When the candidate withdraws Shutdown bank A approximately 100 steps, insert I/O Override/RD control rod drive system/Logical Output ZROSCSBAG1 (RESET)to ON to fail the Shutdown Bank A step counters to'0'6.Ensure operator performs the following required actions for SELF-CHECKING; a.Identifies the correct unit, train, component, etc.b.Reviews the intended action and expected response.c.Compares the actual response to the expected response.Validation Time: CR.16 min Local-----Tools/Equipment/Procedures Needed: 0-GO-2 0-GO-85-1 TR 3.1.3.3 AOP-C.01 TI-28  

 

==References:==

 

Reference Title Rev No, 1.0-GO-2 Unit startup From Hot Standby to Reactor Critical 28 2.0-SO-85-1 Control Rod Drive System 33 3.TR 3.1.3.3 Reactivity Control Systems, Position Indicating 13 System-Shutdown 4.AOP-C.01 Rod Control System Malfunctions 17 5.T1-28 Curve Book 215=============================================================================

READ TO OPERATOR Directions to Trainee: I will explain the initial conditions, and state the task to be performed.

All control room steps shall be performed for this JPM.I will provide initiating cues and reports on other actions when directed by you.When you complete the task successfully, the objective for this job performance measure will be satisfied.

Ensure you indicate to me when you understand your assigned task.To indicate that you have completed your assigned task return the handout sheet I provided you.INITIAL CONDITIONS:

1.Unit startup in progress following a trip from 100%powerdue to a generator electrical relay malfunction.

2.Per TI-28, the shutdown banks fully withdrawn positon is 228 steps INITIATING CUES: 1.You are to withdraw the shutdown banks in accordance with 0-GO-2, Unit Startup From Hot Standby to Reactor Critical, Section 5.1, Step[26.2]2.Notify the SRO when the shutdown banks are fully withdrawn.

Job Performance Checklist STEP/STANDARD JPM B.1.c Page 5 of 11 Rev.0 SAT/U N SAT STEP 1.: Obtain the appropriate procedure.

SAT UNSAT STANDARD: Operator identifies 0-SO-85-1 and goes to Section 6.3"Manual Operation of Rod Control System Below 15 Percent Power".STEP 2.:[1]ENSURE Section 5.2,Reset/CloseReactor Trip Breakers has been completed.

STANDARD: Candidate determines by looking at procedure that section 5.2 is complete.COMMENTS: STEP 3.:[2]IF the shutdown and control rods were withdrawn 5 steps to prevent thermal lockup during an RCS cooldown, THEN ENSURE rods are fully inserted prior to withdrawal.

Cue: If asked"Rods were not withdrawn 5 steps" STANDARD: Candidate N/As the step.COMMENTS: STEP 4.:[3]MOMENTARILY PLACE[SUS], Rod Control Startup Step Counter Reset to the STARTUP position to reset Control Rod Drive System.STANDARD: Candidate places Rod control Startup Step Counter Reset, 1-SUS, to startup and then releases switch.COMMENTS: Start Time__SAT_UNSAT SAT_UNSAT SAT UNSAT Job Performance Checklist STEP/STANDARD JPM B.1.c Page 6 of 11 Rev.a SAT/UNSAT STEP 5.:[4]ENSURE all Full Length Rod step counters reset to zero.-SAT-UNSAT STANDARD: Candidate verifies all 14stepcounters are reading'000'COMMENTS: STEP 6.:[5]VERIFY rod control IN-OUT direction lights are NOT LIT.-SAT-UNSAT STANDARD: Candidate verifies that both the RODS IN and the RODS OUT lights are not lit on 1-M-4.COMMENTS: STEP 7.:[6]DEPRESS[RCAS], Rod Urgent Failure Alarm Reset.-SAT-UNSAT STANDARD: Candidate pushes Rod Urgent Failure Alarm Reset, 1-RCAS COMMENTS: STEP 8.:[7]RESET Window 6 (A-6), ROD CONTROL SYSTEM URGENT-SAT FAILURE alarm on panel[XA-55-4B]

using[XS-55-4A], UNSAT Annunciator RESET/ACKITEST Switch.-STANDARD: Candidate resets the ROD CONTROL SYSTEM URGENT FAILURE alarm using 1-XS-55-4A if lit.COMMENTS:

Job Performance Checklist STEP/STANDARD JPM 8.1.c Page 7 of 11 Rev.0 SAT/UNSAT[8]VERIFY the following rod control system alarms on panel[XA-55-4B]

are NOT LIT: STEP 9.::WfNOOW NitlMBER NOT LITSAT UNSAT STANDARD: Candidate verifies listed windows on 1-M-4 overhead annunciatot55-48 are not lit COMMENTS: STEP 10.:[9]ENSURE Plant computer points for rod bank position are ZERO using the following computer points: SAT UNSAT o o o o o o o o Cue: After candidate demonstrates ability to access computer points'All listed points have been verified to be'0'.STANDARD: Candidate verifies listed computer points are reading'0'on ICS.There are several methods/screens to access the points COMMENTS:

Job Performance Checklist STEP/STANDARD JPM B.1.c Page 8 of 11 Rev.0 SAT/UNSAT STEP 11.:[10]MONITOR Control Rod position USING Rod Position Indicators

-SAT ICS screen 30 minute trend during SO&Control Banks UNSAT withdrawal to aid in detecting rod misalignment.

-STANDARD: Candidate locates the Rod Position Indicator RPI TREND screen on the ICS.(when on RPI screen, the RPI TREND screen can be accessed via clicking on TREND.)COMMENTS: STEP 12.:[11]IF Individual Rod Position Indication does not indicate proper rod-SAT position during withdrawal of SO Banks, THEN UNSAT[a]STOP rod withdrawal.

[d]IF troubleshooting does not resolve the problem, OR subcriticality can NOT be verified, THEN INITIATE Reactor TRIP.STANDARD: Candidate acknowledges the requirement of the IF/THEN step for individual RPls.No action required.STEP 13.:[12]IF Individual Rod Position Indication does not indicate proper rod-SAT position during withdrawal of Control Banks, THEN UNSAT GO TO AOP-C.01 section 2.6 Rod Position Indicator (RPI)-Malfunction

-Modes 1 or 2.STANDARD: Candidate acknowledges the step, realizes it refers to control banks, and No action is required for this task of withdrawing shutdown banks COMMENTS:

Job Performance Checklist STEP/ST AN DARD JPM B.1.c Page 9 of 11 Rev.0 SAT/UNSAT STEP 14.:[13]PLACE[HS-85-5110], Rod Control Mode Selector to the SBA-SAT position.UNSAT-STANDARD: Candidate rotates Mode Control Mode Selector, 1-HS-85-511 0, counterclockwise to the SBA position Critical Step COMMENTS: STEP 15.:[14]VERIFY Rod Speed Indicator[51-412], indicates-SAT 64 Steps/minute.

UNSAT-STANDARD: Candidate determines SI-412, Rod Speed, on 1-M-4 vertical panel is reading 64 steps/min COMMENTS: STEP 16.:[15]ENSURE Shutdown Bank A demand position counters-SAT operational by performing the following:

B.INITIATE WO to have counter repaired.C.WHEN counter is repaired, THEN 1.ENSURE Shutdown Bank A fully INSERTED.2.RETURN to beginning of this step.STANDARD: Candidate uses Rod Control, 1-HS-85-5111, IN-OUT switch to withdraw SBA rods 2 steps in 12 step increments while checking the group step counters are operating properly.COMMENTS:

Job Performance Checklist STEP/STANDARD Note to evaluator:

Malfunction to fail step counters is to be inserted when the rods reach approximately 100 steps.Candidate may refer to TR-3.1.3.3.

If so the required action is to open the Reactor Trip breakers.STEP 18.: Open the Reactor Trip Breakers Cue: After the reactor trip breakers have been opened state'We will stop here" STANDARD: Candidate determines the Group 1 step counter is not capable of determining the demand position for each of the Shutdown bank a rods within2 steps and opens the reactor trip breakers.COMMENTS: JPM B.1.c Page 10 of 11 Rev.0 SAT/UNSAT SAT UNSAT Critical Step SAT UNSAT Critical Step Stop Time__

CANDIDATE CUE SHEET (TO BE RETURNED TO EXAMINER UPON COMPLETION OF TASK)DIRECTIONTOTRAINEE:

I will provide initiating cues and reports on other actions when directed by you.Ensure you indicate to me when you understand your assigned task.To indicate that you have completed your assigned task return the handout sheet I provided you.INITIAL CONDITIONS:

1.Unit startup in progress following a trip from 1000/0 power due to a generator electrical relay malfunction.

2.Per TI-28, the shutdown banks fully withdrawn positon is 228 steps INITIATING CUES: 1.You are to withdraw the shutdown banks in accordance with 0-GO-2, Unit Startup From Hot Standby to Reactor Critical, Section 5.1, Step[26.2]2.Notify the SRO when the shutdown banks are fully withdrawn.

Sequoyah Nuclear Plant Unit 0 General Operating Instructions O-GO-2 UNIT STARTUP FROM HOT STANDBY TO REACTOR CRITICAL Revision 0028 Quality Related Level of Use: Conti"nuous Use Effective Date: 10-31-2007 Responsible Organization:

OPS, Operations Prepared By: D.A.Porter Approved By: W.T.Leary Current Revision Description Revised Section 5.1 steps[28]and[29]to clarify applicability of Sect.5.2 and 5.3.Added Sect.5.2 step[67].Modified title of Sect.5.2 and 5.3.Added limitation associated with minimum temp for criticality.

Provided more specific guidance on S/G level control in Sect.4.0 Step[7].THIS PROCEDURE IMPACTS REACTIVITY SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 2 of 85 Table of Contents 1.0 FI*RST SECT.ION 3 1.*1 Purpose: 3 1.2 Scope 3  

 

==2.0 REFERENCES==

 

3 2.1 Performance References 3 2.2 Developmental References 5 3.0 PRECAUTIONS AND LIMITATIONS

6 3.1 PRECAUTIONS 6 3.2 LIMITATIONS 8 4.0 PREREQUiSiTES

......................*..........................9 5.0 INSTRUCTIONS 12 5.1 Actions to be performed prior to a reactor startup 12 5.2 Reactor Startup with Low Power Physics Testing 21 5.3 Reactor Startup without Physics Testing 45 6.0 RECORDS 69 A*ppendix A: DELETED70 Appendix B: MODE 3 TO MODE 2, 1 REVIEW AND APPROVAL 71 Appendix C: DETERMINING SOURCE RANGE COUNT RATE DOUBLING 79 Appendix D: ACTIONS IF REACTOR STARTUP MUST BE ABORTED 80, Appendix E: ACTIONS IF BANK D RODS REACH FULL OUT POSITION PRIOR TO CRITICALITY 81 Source Notes 83 ATTACHMENTS Attachment 1: UNIT STARTUP FROM HOT STANDBY TO REACTOR CRITICAL SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 70f 85 3.1 PRECAUTIONS (continued) 2.During Rod Movement a.Ensure RO has peer check b.EnsureRO is following procedure c.EnsureRO understands criteria for stopping rod motion (based upon number of steps and/or nuclear instrument response)d.Watch performance*

of rod manipulation while listening to audible indication of rod.step e.Ensure peer checking meets expectations (OPDP-1)f.Re-verifyitems of initial evaluation (on previous page)g.Monitor plant for expected response SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 8of8S 3.2 LIMITATIONS A.Simultaneous reactivity addition by rod withdrawal and dilution is NOT allowed while in the source range.B.If at any point during the approach to criticality, ONE of the two source range detectors shows an unexplained increase in count rate equal to or greater than a factor of 5, or if BOTH source range detectors show an unexplained increase in count rate equal to or greater than a factor of 2, the approach to criticality shall be SUSPEN*DED IMMEDIATELY (Le., all rod withdrawals and/or boron dilutions shall be terminated).

Further positive reactivity changes shall not be resumed until an evaluation is performed and the Shift Manager authorizes a resumption in the approach to criticality.

C.After refueling operations, the NIS indications may be inaccurate until calibration at higher power levels.The NIS calibration procedures will adjust the PRM trip set points to ensure that the excore detectors do not contribute to an overpower condition.

Prior to startup, the PRM high range flux trip setpoint will be adjusted from 109 to 60%, with the rod stop (C-2)remaining at 103%.[C.3]D.While in Mode 3, maintain the Reactor Coolant System boron concentration in accordance with 0-SI-NUC-000-038.0, Shutdown Margin requirements.

E.The stepping or tripping of the.Control Rod during periods when coolant crud level are high should be kept to a minimum.This will limit the possibility of CRDMmis-stepping due to crud contamination of CRDM latch assemblies.

F.The lowest operating loop temperature (T-avg)shall be greater than or equal to 541°F (LCO 3.1.1.4, Minimum Temperature for Criticality).

SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 9 of 85 4.0 STARTUP No.---PREREQUISITES Unit---NOTES1)Throughout this Instruction where an IFITHEN statement exists, the step should be N/A'd if the condition does not exist.2)Prerequisites may be completed in any order.3)Management oversight is required for a Reactor Startup after a non-refueling outage.A Reactor Startup after a refueling outage is a CIPTE.[1]ENSURE Instruction to be used is the latest copy of effective version.t v 1A[2]REVIEW Precautions and Limitations.

[3]INDICATE below which instruction this GO is being entered from:*0-GO-1 (cold shutdown to hot standby)*0-GO-6 (30%reactor power to hot standby)*0-GO-7 (hot standby to cold shutdown)*0-GO-5 (normal power operation)

[4]MAINTAIN pressurizer pressure within the normal operating band by use of the pressurizer heaters and spray valves.o o o[5]MAINTAIN pressurizer level greater than or equal to 25%.

Unit-i-NOTE Due to instru*ment inaccuracies the steam dump or SG atmospheric relief valve setpoint of 84%or 1005 psig maybe+/-1%or+/-12 psig off.[6]MAINTAIN T AVG stable at approximately 547°F with steam dumps in pressure mode or with SG atmospheric relief valves.NOTE Minor S/G level variations which exceed the plus or minus 7%band should not be considered a procedural violation.

[7][8][9]MAINTAIN steady-state S/G levels at approximately 33%(plus or minus 7%)using Auxiliary Feedwater.

ENSURE all reactor coolant pumps are in operation in accordance with 1,2-S0-68-2, Reactor Coolant Pumps.[C.12]IF the reactor vessel head has been removed, THEN ENSURE conditional performance of 0-SI-SXX-085-043.0, Rod Drop Time Measurements, has been performed to comply with SR 4.1.3.4.a.

[10]REQUEST Periodic Test Coordinate to confirm that the following checklists have been distributed:

.[10.1]Mode 3 to Mode 2, 1, Surveillance Checklist (NA if previously performed for this startup).[10.2]Reactor Trip Breaker Checklist (NA if previously performed for this startup).[11]ENSURE East Valve Vault Room Vent Chute dampers OPEN.(inside door near SPING Room, Ref.PER 03-002446-000).

SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 11 of 85 4.0 STARTUP No.---PREREQUISITES

[12]NOTIFY MIGto LR-3-43A and LR-3-98A, Steam Generator Wide Range Level Recorders, to 80 0/0-90 0/0.[13]E*NSURE each performer documents their name and initials: Date L!l I Print Name Initials Print Name InitialsAbbot fA°Jk\L 6..!END OF TEXT SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 12 of 85 5.0 STARTUP No.---INSTRUCTIONS Unit 5.1 Actions to be performed prior to a reactor startup[1]ENSURE Section 4.0, Prerequisites complete.WItt NOTE Steps 5.1[2]through 5.1[11]may be performed in any order.[2]INTIATE Appendix B, , Mode 3 to Mode 2,1 Review And Approval while continuing with this instruction.

[3]OBTAIN assistance from Systems Engineering to complete Appendix B steps associated with Pressurizer Spray line bypass valves.NOTE Steps for MFPT startup maybe performed in parallel with other activities.

The MFPT trip busses shall be energized prior to entering Mod'e 2 (LeO 3.3.2.1 or 3.3.2)except as allowed by LCO 3.0.4.[C.1][4]INITIATE applicable section(s) of 1, 2-S0-2/3-1 to prepare at least one MFP for startup, while continuing with this instruction.(N/Aif no MFPT available)

[5]ENSURE TDAFW LCVs are in NORMAL.y/1A 1st SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 13 of 85 STARTUP No.Unit+-Date 5.1 Actions to be performed prior to a reactor startup (continued)

CAUTION Rapid changes in pressurizer enclosure temperature may result in pressurizer safety valve simmer.[6]IF lower compartment coolers are not in service, THEN[6.1][6.2]ALIGN lower compartment coolers to maintain pressurizer enclosure temperature less than 11 oaF in accordance withO-SO-30-5.

MONITOR Pressurizer enclosure temperature using Plant Computer pt.T1001A.[7]IF control roddrivecoolers are not in service, THEN[7.1][7.2]ALIGN control rod drive coolers to maintain shroud enclosure temperature less than 164°F in accordance with 0-SO-30-6.

MONITOR Reactor Cavity Air temperature using Plant Computer pt.T1014A.NOTE New analysis is not required for this startup.Routine analysis is sufficient unless there is reason to suspect che.mistry has been changed.[8]NOTIFY Chemistry Supervisor that mode change from 3 to 2 requires sampling in accordance with O-SI-CEM-OOO-050.0,

.2, and O-SI-CEM-030-415.0 requirements.

SQN UNIT STARTUP FROM HOT STANDBY O-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 14 of 85 5.1 STARTUP No.Unit 4-to be performed prior to a reactor startup (continued)

UNIT TRAIN BREAKER 250V DC POSITION INITIALS WIll TRAINA 1-BKRD-47-KA/516 BATT Bd 1 CLOSED 1st 1TRAINB 1-BKRD-47-KB/516 BATT Bd 2 CLOSED 1 st lJ/l{)TRAIN A 2-BKRD-47-KA/519 BATT Bd 1 CLOSED 1st 2 i,vf If TRAIN B 2-BKRD-47-KB/519 BATT Bd 2 CLOSED 1st NOTE Step 5.1[10]may be marked N/A if not required.[10]PERFORM 0-PI-OPS-047-723.0, 20IAST, 201ET, 20-110PC, and 20-210PC Operability Verification (N/A if not performed).

STARTUP No.---Unit 1 CAUTION Operation of the EHCpumps without the turbine being reset will result in overheating of the EHC fluid and"pumps.NOTE Startup of EHC and turbine reset"may be postponed until later in startup.(N/Aif postponed) oj/if-LuiII Date[11][12][13]ENSURE EHC system in service in accordance with 1,2-80-47-2 (NA if previously performed).

IFno MFPT is ready for start up per 1,2-80-2/3-1, THEN GO TO Section 5.1[18].ENSURE MFPT designated for startup has been tested and ready for start up per 1, 2-80-2/3-1 PRIOR to proceeding with the next step.U/1{)Initials SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 16 of 85 STARTUP No.Unit--1-Date 5.1 Actions to be performed prior to a reactor startup (continued)

The MFPT trip busses shall be energized prior to entering Mode 2 (LCO 3.3.2.1 or 3.3.2)except as allowed by LeO 3.0.4.[C.1]2)Power is placed on only ONE MFPT trip bus in Step 5.1[14]to prevent inadvertent AFWP start.[14]ENSURE power restored to ONLY ONE of MFPT tri.p busses on the applicable unit: (N/A breakers not applicable.)

[C.1]ELECTRICAL BREAKER INITIALS PUMP BREAKER NO.BOARD POSITION 250v DC MFPT 1A 1-BKRD-46-KA/523 Battery Bd I CLOSED 1st CV 250v DC 0'iA-MFPT 18 1-BKRD-46-KA/524 Battery Bd I CLOSED 1st 250v DC MFPT 2A 2-BKRD-46-KB/523 Battery Bd 2 CLOSED 1st CV 250v DC MFPT 28 2-BKRD-46-KB/524 Battery Bd 2 CLOSED 1st CV SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 I TO REACTOR CRITICAL Rev.0028 Page 17 of 85 STARTUP No.Unit--l-Date 5.1 Actions to be performed prior to a reactor startup (continued)

CAUTION Failure to reset a MFPT prior to energizing the remai"ning MFPT trip buss will initiate an ESF actuation.

NOTE If 81 signal or Hi/Hi steam generator level has occurred, Reactor Trip Breakers will have to be cycled.[15]RESET MFPT energized in step 5.1[14]above.vV1A 1st o&4f tJ Time ate 0041 6\/j{/oJ Time Date NOTE IF the remaining NON-running MFPT is not available, THENN/A step 5.1[16]and 5.1[17][16]RESTORE power to remaining MFPT Trip Bus on applicable unit.(N/A breakers not applicable)

PUMP BREAKER NO.ELECTRICAL BREAKER INITIALS BOARD POSITI"ON 250v DC Battery MFPT 1A 1-BKRD-"46-KA/523 Bd I CLOSED 18t CV 250v"DC Battery MFPT 1B 1-BKRD-46-KA/524 Bdl CLOSED 1st CV 250v DC Battery MFPT 2A 2-BKRD-46-KB/523 Bd 2 CLOSED 1st CV 250v DC Battery MFPT 28 2-BKRD-46-KB/524 Bd 2 CLOSED 1st CV SQN UNIT STARTUP FROM.HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 18 of 85 5.1 STARTUP No.

[17]RESET MFPT energized in step 5.1[16]above.1 st CV Time Time Date Date[18]SELECT one source range channel and one intermediate range channel with the highest readings to record on NR 45.[19]ENSURE audio count rate channel isin operation and selected for source range channel with highest reading.[C.11][20]ENSURE all reactor first out alarms reset.NOTE Refer to 1-PI-OPS-000-021.1 (Unit 1)or 2-PI-OPS-000-023.1 (Unit 2)for updating the Plant Computer.[21]IF ICS is available, THEN ENSURE Plant Computer is reset and updating (NA if previously performed).

[C.S]NOTE Closing of the RTB's for performance of O-SI-OPS-085-011.0 (SR4.1.3.3) is addressed in Licensing and NRC TelephoneNisit Report RIMs#S10 960521 800.[22]IF is out-of-frequency, THEN[22.1]CLOSE RTB's provided Group Demand counters have no known deficiencies.

[22.2]PERFORM 0-SI-OPS-085-011.0 (NA if above step cannot be performed).

[23]IF control rods were withdrawn 5 steps to prevent thermal lockup during ReS heatup, THEN INSERT control rods in accordance with 0-SO-85-1.

[24]ENSURE Rod Bank Update completed by performing the following:

[26.1]VERIFY sufficient shutdown reactivity exists USING 0-SI-NUC-000-038.0, Shutdown Margin.[26.2]WITHDRAW Shutdown Rods to fully withdrawn position in accordance with 0-SO-85-1.

1st CV SQN UNIT STARTUP FROM HO'T STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 20 of 85 STARTUP No.Unit Date5.1 Actions to be performed prior to a reactor startup (continued)

[27]CONDUCT a pre-evolution briefing, stressing the following points:*Management Expectations

*Avoid activities which distract the operators[SQ990136PERJ

*Appropriate Contingencies

*Chain of Command*Requirements for conservative actions and strict compliance with written procedures when repositioning control rods.[C.11]SRO[28]IF this start up is after a refueling outage AND Low Power Physics Testing has NOT been performed, THEN[28.1]VERIFY applicable actions in Section 5.1 completed or initiated.

[28.2]GO TO Section 5.2.[29]IF this start up is after a non-refueling outage OR Low Power Physics Testing has already been completed, THEN[29.1]VERIFY applicable actions in Section 5.1 completed or initiated.

[29.2]GO TO Section 5.3.[30]IF unit is to be shutdown, THEN GO TO 0-GO-7, Unit Shutdown from Hot Standby to Cold shutdown.END OF TEXT SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 21 of 85 5.2 STARTUP No.Unit---Reactor Startup with Low Power Physics Testing[1]VERIFY applicable actions in Section 5.1 completed or initiated.

Date---NOTE Steps 5.2[2]through 5.2[9]may be performed out of sequence.[2]IF anyMFPT trip buss is NOT energized, THEN[2.1]ENSURE requirements of LCO 3.0.4 are satisfied.

[2.2]NOTIFY UnitSRO that LCO 3.3.2.1 (3.3.2)action 20 will apply when Mode 2 is entered.[3]ENSURE Appendix B, Mode 3 to Mode 2, 1 Review and Approval has been completed to ensure all restraints to Mode 2, 1 entry have been resolved and approvals for mode change granted.[4]BLOCK the Source Range High Flux At Shutdown alarm:[4.1]PLACE both HI FLUX AT SHUTDOWN switches on panel M-13 to BLOCK position.[4.2]VERIFY annunciator XA-55-4B, window C-1, SOURCE RANGE HIGH SHUTDOWN FLUX ALARM is LIT.[C.2]BLOCK SM o[5]VERIFY greater than or equal to 0.5 cps on highest reading SR instrument.

o SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 22 of 85 STARTUP No.Unit Date----5.2 Reactor Startup with Low Power Physics Testing (continued)

[C.2](NIA instruments not used) (N31)cps XI-92-5002A (N32)cps OR XI-92-5001 B XI-92-5002B (N31)(N32)CAUTION___cps___cps Date Time After refueling, NIS indications may be inaccurate until calibration at higher power levels.Therefore, NIS calibration procedures will reduce PRM trip setpoints from 109 to 60%to ensure that excore detectors do NOT contribute to an overpower condition.(Rod Stop will remain at 103%).ReS loop!:l T indicators should" be used for power indication below 30%.[7]ENSURE Power Range high flux trip setpoints reduced to 60%in accordance with following:

[C.3]*1,2-SI-ICC-092-N41.1 0*1,2-SI-ICC-092-N42.2 0*1,2-SI-ICC-092-N43.3 0*1,2-SI-ICC-092-N44.4 0 Instrument Maintenance Time Date SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 23 of 85 5.2 STARTUP No.Unit---Reactor Startup with Low Power Physics Testing (continued)

[8]ENSURE PRM calibration values set to startup values.[C.3]Date----Reactor Engineer Time Date NOTE O-RT-NUC-OOO-003.0, Low Power Physics Testing is performed by RxEngineering concurrently with this procedure.

[9]RECORD estimated critical position calculated in accordance with 0-RT-NUC-OOO-003.0, Low Power Physics Testing.Estimated critical position: Boron concentration:

[11]IF actual RCS boron concentration does NOT approximately equal estimated critical boron concentration determined in O-RT-NUC-OOO-003.0, THEN[11.1]DETERMINE the appropriate boration/dilution requirements to achieve estimated boron conc.0[11.2]DILUTE/BORATE in accordance withO-SO-62-7 to the estimated critical boron concentration.

[C.12]0[11.3]OPERA TE pressurizer heaters/spray as necessary to equalize boron concentration (within 50 ppm)between reactor coolant loops and the pressurizer.

[C.12]0[11.4]WHEN sufficient mixing has occurred, THEN OBTAIN a new boron sample.0[11.5]ENSURE actual boron concentration is approximately equal to the estimated critical boron concentration.

Date----[12]RECORD minimum and maximum rod positions corresponding to+/-1000 pcm ALLOWABLE LIMITS (Tech Spec Limit)determined by 0-SI-NUC-000-001.0, Estimated Critical Conditions.

[C.11]Minimum allowable rod position Maximum allowable rod position steps on bank steps on bank Initials Time Date[13]VERIFY all shutdown rods are fully withdrawn in accordance with O-SI-OPS-OOO-004.0, Surveillance Requirements Performed on Increased Frequency with no Specific Frequency, within 15 minutes prior to withdrawing control rods.Time NOTE SR 4.1.1.4.a required verifying lowest T-avggreater than or equal to 541°F within 15 minutes prior to achieving criticality.

[14]IF 0-SI-SXX-068-127.0 is NOT in progress, THEN INITIATE applicable sections of 0-SI-SXX-068-127.0 to satisfy SR 4.1.1.4.a., Minimum Temperature For Criticality.

Date SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 25 of 85 5.2 STARTUP No.Unit---Reactor Startup with Low Power Physics Testing (continued)

Date----[15]NOTIFY onsite personnel of reactor startup over PIA system.0 CAUTION Avoid operations that could produce sudden changes of temperature or unplanned boron-concentration changes during approach to criticality or low power.NOTES1)Nuclear instrumentation shall be monitored very closely for indications of unplanned reactivity rate of change.[C.11]2)Activities that can distract operators and supervisors involved with reactor startup, such as shift turnover and surveillance testing during approach to criticality, SHALL BE avoided.[C.12]3)ICS points N0031A, N0032A, N0035A, and N0036A may be used as an aid for monitoring NIS indications.

[16]MONITOR nuclear instruments during approach to criticality:

[16.1]MONITOR source range and intermediate range NIS to identify potential reactivity anomalies.

[C.11][16.2]IF desired to place NR-45 recorder in fast speed, THEN ADJUST chart speed to high.D SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 26 of 85 STARTUP No.Unit Date---5.2 Reactor Startup with Low Power Physics Testing (continued)

[17]INITIATE a reactor startup by performing the following:

[17.1]RECORD both source range readings for ICRR base counts.N-31 CPS---.--.-N-32 CPS---Initials[17.2]RECORD intermediate range readings.N-35 0/0---N-36 0/0---Initials[17.3]CALCULATE initial source range count doubling value USING Appendix C.MODE 2[17.4]INITIATE withdrawal of control banks in accordance with 0-80-85-1 to first stop point: CONTROL BANK A 128 STEPS[17.5]ENSURE Mode 2 entry is logged (log entry may be performed out of sequence later).o SQN*UNIT STARTUP FROM HOT STANDBY O-GO-2 UnitO TO REACTOR CRITICAL Rev.0028 Page 27 of 85 5.2 STARTUP No.Unit---Reactor Startup with Low Power Physics Testing (continued)

[18.2]WAIT for approximately two minutes.[18.3]NOTIFYRx Engineering to perform ICRR calculation in accordance with

[C.11]CAUTION Date---Lowest loop T-avg must be verified greater than or equal to 541°F 15 minutes prior to achieving criticality.

NOTES1)Approximately five to seven count doublings are expected to result in criticality.

However, criticality should be anticipated at any time.2)Proper bank overlap must be verified using 0-80-85-1 as each successive rod bank is withdrawn.

[19]WHEN concurrence obtained from Rx Engineering, THEN INITIATE rod withdrawal to first count doubling (determined in App.C)USING 0-80-85-1.

o SQNUNITSTARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 28 of 85 STARTUP No.Unit Date------5.2 Reactor Startup with Low Power Physics Testing (continued)

NOTE Steps 5.2[20]and 5.2[21]may be repeated as necessary if rod motion is stopped prior to reaching doubling value.[20]WHEN any of the following conditions are met:*Source range count rate is approximately equal to first doubling value determined in Appendix C OR*Control bank being withdrawn reaches 128 steps (requires verifying overlap in 0-SO-85-1)

OR*Operators orRx Engineer determine that rod motion should be stopped THEN STOP outward rod motion.[21]IF rod motion was stopped prior to reaching doubling range AND Unit Supervisor concurrence is o*btained to resume, THEN RESUME rod withdrawal to first count doubling USING 0-80-85-1.

[22.1]ENSURE rod motion STOPPED.[22.2]WAIT approximately 2-3*minutes to allow count rate to rise.DODD DODD[22.3]NOTIFY Rx Engineering to perform leRR calculations in accordance with 0-RT-NUC-000-003.0.

[C.11]0[22.4]DETERMINE new count doubling range USING Appendix C.

[23]IF ICRR plot indicates criticality will fall outside+/-1000 pcm ECC termination band, THEN[23.1]NOTIFY SM and OutyPlant Manager.

EVALUATE if ECC should be recalculated prior to continuing startup.[23.3]IF startup must be aborted, THEN PERFORM Appendix 0, Actions if Reactor Startup Must Be Aborted.D[24]WHEN concurrence obtained from Rx Engineering, THEN INITIATE rod withdrawal to second doubling range (determined in App.C)USING 0-SO-85-1.

NOTE Steps 5.2[25]and-5.2[26]may be repeated as n-ecessary if rod motion is stopped prior to reaching doubling range.[25]WHEN any of the following conditions are met:*Source range count rate reaches or exceeds second doubling range determined-in Appendix C OR*Control bank being withdrawn reaches 128 steps (requires verifying overlap in 0-SO-85-1)

OR*Operators or Rx Engineer determine that rod motion should be stopped THEN STOP outward rod motion.D DODD DODD SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 30 of 85 STARTUP No.Unit Date---5.2 Reactor Startup with Low Power Physics Testing (continued)

[26]IF rod motion was stopped prior to reaching doubling ra"nge AND Unit Supervisor concurrence is obtained to resume, THEN RESUME rod withdrawal to second doubling range USING 0-SO-85-1.

[27.1]ENSURE rod motion STOPPED.[27.2]WAIT approximately 2-3 minutes to allow count rate to rise.[27.3]NOTIFY Rx Engineering to perform ICRR calculations in accordance with 0-RT-NUC-000-003.0.

[C.11]0[27.4]DETERMINE new count doubling range USING Appendix C.[28]IF ICRR plot indicates criticality will fall outside+/-1000 pcm ECC termination band, THEN[28.1]NOTIFY SM and Duty Plant Manager.[28.2]EVALUATE if EGG should be recalculated prior to continuing startup.[28.3]IF startup must be aborted, THEN PERFORM Appendix D, Actions if Reactor Startup Must Be Aborted.D[29]IF leRR plot trend indicates acceptable EGC, THEN INITIATE rod withdrawal to third doubling range (determined in App.G)USING 0-80-85-1.

D SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 31 of 85 5.2 STARTUP No.Unit---Reactor Startup with Low Power Physics Testing (continued)

Date----NOTE Steps 5.2[30]and 5.2[31]may be repeated as necessary if rod motion is stopped prior to reaching doubling range.[30]WHEN any of the following conditions are met:*Source range count rate reaches or exceeds third doubling range determined in Appendix C OR*Control bank being withdrawn reaches 128 steps (requires verifying overlap in 0-SO-85-1)

OR*Operators or Rx Engineer determine that rod motion should be stopped THEN STOP outward rod motion.[31]IF rod motion was stopped prior to reaching doubling range AND Unit Supervisor concurrence is obtaine*d to resume, THEN RESUME rod withdrawal to third doubling range USINGO-SO-85-1.

[32.1]ENSURE rod motion STOPPED.[32.2]WA*IT approximately 2-3 minutes to allow count rate to rise.DODO DODD[32.3]NOTIFYRx Engineering to perform leRR calculations in accordance with 0-RT-NUC-000-003.0.

[C.11]0[32.4]DETERMINE new count doubling range USING Appendix C.

SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 32 of 85[33.1]NOTIFY SM and Duty Plant Manager.[33.2]EVALUATE if EGG should be recalculated prior to continuing startup.[33.3]IF startup must be aborted, THEN PERFORM Appendix D, Actions if Reactor Startup Must Be Aborted.0[34]IF ICRR plot trend indicates acceptable ECG, THEN INITIATE rod withdrawal USING 0-SO-85-1 to fourth doubling range (App.G)or criticality.

[35]WHEN any of the following conditions are met:*Source range count rate reaches or exceeds fourth doubling range determined in Appendix C OR*Control bank being withdrawn reaches 128 steps (requires verifying overlap in 0-SO-85-1)

OR*Bank D rods reach fully withdrawn position OR D*Operators or Rx Engineer determine that rod motion should be stopped THEN STOP outward rod motion.DODD SQN UNIT STARTUP FROM HOT STANDBY O-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 33 of 85 STARTUP No.Unit Date----5.2.Reactor Startup with Low Power Physics Testing (continued)

[36]IF reactor is critical, THEN GO TO Step 5.2[59](N/A Steps 5.2[37]through 5.2[58]).[37]IF ALL of the following conditions are met:*rod motion was stopped prior to reaching doubling range or criticality

*Bank D rods are below fully withdrawn position*Unit Supervisor concurrence is obtained to resume, THEN RESUME rod withdrawal USING 0-SO-85-1 to fourth doubling range or criticality (whichever comes first).[38]IF source range count rate has reached or exceeded fourth doubling range, THEN PERFORM the following:

[38.1]ENSURE rod motion STOPPED.[38.2]WAIT approximately 2-3 minutes to allow count rate to rise.DODD[38.3]NOTIFY Rx Engineering to perform ICRR calculations in accordance with 0-RT-NUC-000-003.0.

[C.11]0[38.4]DETERMINE new count doubling range US.ING Appendix C.[39]IF reactor is subcritical with Bank D rods at fully withdrawn position, THEN PERFORM Appendix E, Actions if Reactor is Subcritical with Rods Fully Withdrawn.

0 SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 34 of 85 STARTUP No.Unit Date---5.2 Reactor Startup with Low Power Physics Testing (continued)

[40]IF IGRR plot indicates criticality will fall outside+/-1000 pcm EGG termination band, THEN[40.1]NOTIFY SM*andDuty Plant Manager.[40.2]EVALUATE if EGG should be recalculated prior to continuing startup.[40.3]IF startup mustbe aborted, THEN PERFORM Appendix 0, Acti*ons if Reactor Startup Must Be Aborted.0[41]IF IGRR plot trend indicates acceptable EGG, THEN INITIATE rod withdrawal USING 0-SO-85-1 to fifth doubling range (App.G)or criticality.

[42]WHEN any of the following conditions are met:*Source range count rate reaches or exceeds fifth doubling range determined in Appendix G OR*Bank D rods reach fully withdrawn position OR D*Operators or Rx Engineer determine that rod motion should be stopped THEN STOP outward rod motion.[43]IF reactor is critical, THEN GO TO Step 5.2[59](N/A Steps 5.2[44]through 5.2[58]).DDDD SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 35 of 85 5.2 STARTUP No.Unit---Reactor Startup with Low Power Physics Testing (continued)

[44]IF ALL of the following conditions are met:*rod motion was stopped prior to reaching doubling range or criticality

*Bank D rods are below fully withdrawn position*Unit Supervisor concurrence is obtained to resume, THEN RESUME rod withdrawal USING 0-SO-85-1 to fifth*doubling range or criticality (whichever comes first).[45]IF source range*count rate has reached or exceeded fifth doubling range, THEN PERFORM the following:

[45.1]ENSURE rod motion STOPPED.[45.2]WAIT approximately 2-3 minutes to allow count rate to rise.Date----DODO[45.3]NOTIFY Rx Engineering to perform ICRR calculations in accordance with O-RT-NUC-000-003.0.

[C.11]0[45.4]DETERMINE new count doubling range USING Appendix C.[46]IF reactor is subcritical with Bank D rods at fully withdrawn position, THEN PERFORM Appendix E, Actions if Reactor is Subcritical with Rods Fully Withdrawn.

o SQN UNIT STARTUP FROM HOT STANDBY 0-GO-2 Unit 0 TO REACTOR CRITICAL Rev.0028 Page 36 of 85 STARTUP No.Unit Date--"-'_5.2 Reactor Startup with Low Power Physics Testing (continued)

[47]IF ICRR plot indicates criticality will fall outside+/-1000 pcm ECG termination band, THEN[47.1]NOTIFY SM and Duty Plant Manager.[47.2]EVALUATE if EGC should be recalculated prior to continuing startup.[47.3]IF startup must be aborted, THEN PERFORM Appendix D, Actions if Reactor Startup Must Be Aborted.D[48]IF ICRR plot trend indicates acceptable ECC, THEN INITIATE rod withdrawal USING 0-SO-85-1 to sixth doubling range (App.G)or criticality.