Initial Exam 2012-301 Draft Sim IN-Plant JPMs

ML13032A237
Person / Time
Site:	Brunswick
Issue date:	01/29/2013
From:	NRC/RGN-II
To:	Duke Energy Corp
References
50-324/12-301, 50-325/12-301, LOT-SIM-JP-26.0-01
Download: ML13032A237 (110)
v • d • e

Text

Simulator JPMs

a. Secure Main Turbine with failure of PCB to open (4) 245000 A2.01 AbiUty to predict impacts of a turbine trip on the Main Turbine Generator and Auxiliary Systems; and based on those predictions, use procedures to correct, control or mitigate consequences of those abnormal conditions.

This is a previously used (NRC Exam in April. 2010) JPM that will require the examinee to shutdown the turbine. As an alternate path one of the PCBs will fail to auto open and the examinee will have to open the PCB manually.

b. Actions for a total loss of TCC (8) 295018 AAI.02 Ability to operate system loads as a result of a complete loss of component cooling water This is a banked JPM that will require the examinee to complete the actions lAW the AOP for a total loss of TCC.

c. Manual Start of CREV (9) (U-SRO) 290003 A4.01 Ability to manually operate and/or monitor in the control room: Intiate I reset system This is a banked JPM that will require the examinee to manually start CREV in the high radiation mode for an inspection test. This is an Engineered Safety System.

d. Energize 230 kV Bus (6) 262001 A4.01 Ability to manually operate and/or monitor in the control room: All breakers and disconnects (including available switchyard)

This is a banked JPM requiring the student to energize 230 kV Bus 2B in accordance with 20P-50.

e. Place SPC in service with SW release (5) 219000 A4.01 Ability to operate and/or monitor in the control room: Pumps This is an alternate path JPM from the bank that requires the student to place the B Loop of RHR in Suppression Pool Cooling. As an alternate path the RHR Hx tubes break causing hi conductivity alarms and the RHR pumps trip establishing a release path. The student will isolate the system.

f.

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate (2)

(U-SRO) 295031 EA1.05 Ability to operate and/or monitor the following as they apply to Reactor Low Water Level: Reactor Core Isolation System (plant specific)

This is a banked JPM. Unit has scrammed due to a loss of feedwater; level is below LLI with HPCI under clearance. RCIC is to be started lAW the hard card. Alternate path JPM, RCIC should isolate from the steam line break and actions must be taken to manually isolate.

g. Startup second Reactor Recirc Pump wI trip of pump(1) (U-SRO) 202001 A4.01 Ability to manually operate and/or monitor in the control room:

Recirculation Pumps This is a modified Alternate path JPM (no longer have MG Sets) that have the examinees preparing to start the second recirc pump. When the pump is started and the discharge valve is being throttled open the ijyjjnning pump will trip requiring a scram to be inserted.

h. Bypass control rod from RWM (RO Only) (7) 201006 A2.05 Ability to use procedures to correct or control out of sequence rod movement This is a banked JPM. Modified to a different control rod. A control rod has been inserted to suppress a fuel leak. The student is to bypass the control rod in the RWM sequence.

In-Plant JPMs i.

SLC with Demin Water (2) (U-SRO) 295031 EAI.08 Ability to operate and/or monitor the following as they apply to Reactor Low Water Level: Alternate Injection Systems This is a banked JPM that is performed in the RCA. The control room has directed alternate coolant injection with demin water using the SLC pumps per EOP-01-LEP-01.

j.

HCU Accumulator charging

- scram occurs (1) (U-SRO) 201001 A2.10 Ability to (a) predict the impacts of the following on the CR D Hydraulic System and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations: tLow HCU accumulator pressure/high level This is a banked JPM that is performed in the RCA. The student will determine that the cause of a control room alarm is low pressure on an HCU and take actions to re-charge the accumulator. While re-charging the accumulator a reactor scram will occur requiring actions to isolate the drain valve on the HCU.

k. Alignment of RCC Pump from RCC to ADHR Mode (9) 233000 K4.07 Knowledge of Fuel Pool Cooling and Cleanup design features which provide for Supplemental heat removal capability.

This is a new JPM for a new system (ADHR) that was installed in the plant in the last refueling outage. This JPM is performed in the RCA aligning a RCC pump for ADHR operation during a refueling outage (low power).

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR 2012 NRC SIMA LESSON TITLE:

LESSON NUMBER:

Main Turbine Shutdown With PCB Failure LOT-SIM-J P-26.0-01 REVISION NO:

PREPARED BY:

CONCURRED BY:

01 VALIDATED BY:

DATE Operations Department Rep.

APPROVED BY:

DATE Facility Representative C,

Operations Instructor/Developer Robert Bolin 9/04/2012 DATE Operations Instructor/Developer DATE

Main Turbine Shutdown With PCB Failure SIMULATOR SETUP:

A.

Initial Conditions:

1.

Recommended Initial Conditions IC 15 Rx.Pwr.

15%

Core Age EOC 2.

Required Plant Conditions None B.

Overrides Tag ID Description PosiUon/

Actual Override Rmpim ctirne Dactime Trig Target Value Value Q3101UR8 BUS 2A GEN 2 230 KV BKR ON ON/OFF ON ON RED Q31O1DG8 BUS 2A GEN 2 230 KV BKR OFF ON/OFF ON OFF GREEN Q8182LG8 230 KV Bkr ON Red (XU-5 Panel)

ON/OFF ON ON Q8182RR8 230 KV Bkr ON Green (XU-5 ON/OFF ON OFF Panel)

D.

Remote Function None F.

Special Instructions El PCB 29A CS not in Normal will delete Q31OIUR8 (trc:l,dod:q3lOlur8)

E2 PCB 29A CS in TRIP will delete Q31O1DG8 (trc:2,dod:q3lOldg8).

E3 PCB 29A CS not in Normal will delete Q8182LG3 (trc:3,docf: Q8182LG8)

E4 PCB 29A CS in TRIP will delete Q8182RR8 (trc:4,dod: Q8182RR8).

LOT-SI M-J P-26.0-01 Page 2 of 11 Rev. 1

Main Turbine Shutdown With PCB Failure SAFETY CONSIDERATIONS:

None EVALUATOR NOTES: (Do not read to examinee)

1. The applicable procedure section WILL be provided to the examinee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained in NUREG 1021, Appendix E, or similar to the examinee.

Read the following to the JPM performer.

TASK CONDITIONS:

1.

Auxiliary power has been transferred to the SAT.

2.

Load Dispatcher has been notified of impending grid separation.

3.

OGP-05, Unit Shutdown is in progress.

4.

Turbine load has been reduced to between 100 to 110 MWe.

5.

Second stage reheat has been removed from service.

6.

20P-26 Section 7.1 has been completed through step 7.1.2.2.

INITIATING CUE:

You are directed to shutdown Main Turbine in accordance with 20P-26 and inform the Unit SCO when the actions are complete.

LOT-SIM-JP-26.0-01 Page 3 of 11 Rev. 1

Main Turbine Shutdown With PCB Failure PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Obtain/provide a copy of 2OP-26, Section 7.1.

Procedure obtained.

SAT/U NSAT TIME STARTED:

NOTE:

Turbine load can be verified I monitored on PPC, ERFIS, Control Panel XU-O1 (GEN-MW-727), or XU-04 (GEN-WMR-760)

NOTE:

Steps 2-4 may be performed in any order prior to tripping the main turbine.

NOTE:

The MN STM LEAD AFTER CV-3 DRN, MVD-DV3, operates with the limit switch position of the CV-1/CV-2 drain valves and the position can be confirmed with the indicating light on Panel XU-3.

NOTE:

The drain valves are throttle valves.

Step 2

- Open the following drain valves located on Panel XU-3:

Valve Position SAT UNSAT MN STM LN BEFORE SV DRNS, MS-V46147148149 Open MAIN SV & CV ABOVE SEAT DRN, MVD-CV Opei MN STM LEAD AFTER CV-1 DRN, MVD-CV2 Open MN STM LEAD AFTER CV-2 DRN, MVD-CV4 Open Drain valve control switches are placed in open.

SATIUNSAT LOT-SIM-JP-26.O-O1 Page 4 of 11 Rev. 1

Main Turbine Shutdown With PCB Failure PROMPT:

Inform examinee that the Turbine Building AO has rotated the Cuno filters T handles.

Step 3 Perform the following to align the Turbine Lube Oil System:

a. Rotate the five Cuno filters T-handles clockwise two complete revolutions to clean the lift pumps Cuno filters.

TB AO communicates Cuno filters rotated.

SATIUNSAT NOTE:

Alarm UA-02 (2-3) MOTOR SUCTION PUMP RUNNING will annunciate when the MSP is started, examinee may review the alarm prior to starting the MSP.

b. Start the motor suction pump.

Motor suction pump start switch pushbutton is depressed.

SAT/UNSAT NOTE:

Alarm UA-02 (4-2) TURNING GEAR OIL PUMP RUNNING will annunciate when the TGOP is started, examinee may review the arm prior to starting the TGOP.

c. Start the turning gear oil pump and ensure the lift pumps start by observing all six amber PRESS NORM lights come on.

Turning gear oil pump Start Switch pushbutton is depressed and all six lift pump Press Norm lights are verified on.

SATIUNSAT LOT-SIM-JP-26.O-O1 Page 5 of 11 Rev. 1

Main Turbine Shutdown With PCB Failure Step 4 Perform the following to test the operation of LOW CONDENSER VACUUM SWITCHES, OG-PS-11O and OG-PS-111, the pressure set control, and the bypass valves:

a. Depress Bypass Valve Opening Jack INCREASE push button to open a bypass valve 12% to 18%.

Turbine Bypass Valve opened 12% to 18%.

SATIUNSAT

b. Depress Bypass Valve Opening Jack DECREASE push button to fully close the bypass valve.

Turbine Bypass Valve closed.

SAT/UNSAT Step 5 Monitor main generator megawatts using computer point B059 or Net Unit Megawatts 2-GEN-WMR-760.

Monitors main generator megawatts chart recorder on the XU-4 Panel or establishes monitoring of the computer point on PPC.

SATIU NSAT NOTE:

This starts the alternate path portion to diagnose failure of PCB 29A.

NOTE:

Steps 6 and 7 should be reviewed prior to performing step 6. This happens in a very short time period.

LOT-S!M-JP-26.O-O1 Page6of 11 Rev. 1

Main Turbine Shutdown With PCB Failure Step 6 Depress the Emergency Trip System push button Emergency Trip System push button depressed.

And ensure the followinci:

Valve positions verified.

• • CRITICAL STEP ** SAT/UNSAT SATIUNSAT NOTE:

Examinee may determine the PCB 29A failed to open and decide to implement 20P-50.O, Section 8.31 (Emergency Isolation of 230KV Bus 2A).

Step 7 When main generator MWe decrease to zero, then ensure both generator output breakers GENERATOR 2 TO BUS 2A 230 KV PCB 29A and GENERATOR 2 TO BUS 2B 230 KV PCB 29B, are open.

Recognizes PCB 29A failed to open and takes control switch to trip.

• • CRITICAL STEP ** SATIUNSAT NOTE:

Acknowledge PCB 29A failure and direct continue with Main Turbine shutdown.

Valve Position SAT UNSAT All four main stop valves Closed All four control valves Closed Bypass valves maintain reactor pressure Throttled constant at 928 psig All four intercept valves Closed LOT-SIM-JP-26.0-01 Page 7 of 11 Rev. 1

ir Main Turbine Shutdown With PCB Failure Step 8

Notifies SRO PCB 29A failed to automatically open and was manually opened.

SRO notified of PCB 29A failure.

SATIUNSAT TERMINATING CUE: When both main open, this JPM is complete.

Comments required for any step evaluated as UNSAT.

TIME COMPLETED:

LOT-SIM-JP-26.O-O1 Page 8 of 11 Rev. 1

Main Turbine Shutdown With PCB Failure RELATED TASKS:

245012B101, Shutdown the Main Turbine per 20P-26 KIA REFERENCE AND IMPORTANCE RATING:

245000 A2.01 3.7/3.9 Ability to (a) predict the impacts of the following on the MAIN TURBINE GENERATOR AND AUXILIARY SYSTEMS ; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those abnormal conditions or operations:

Turbine trip

REFERENCES:

GP-05 OP-26 TOOLS AND EQUIPMENT:

None SAFETY FUNCTION (from NUREG 1123, Rev. 2) 4, Heat Removal REASON FOR REVISION:

Minor editorial changes and format change to the current template LOT-SIM-JP-26.0-01 Page 9 of 11 Rev. 1

Main Turbine Shutdown With PCB Failure Validation Time:

13 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes V

No EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

L*JLZ Comments:

Comments reviewed with Student Evaluator Signature:

Date:

LOT-SIM-JP-26.O-O1 Page 10 of 11 Rev. 1

TASK CONDITIONS:

1.

Auxiliary power has been transferred to the SAT.

2.

Load Dispatcher has been notified of impending grid separation.

3.

OGP-05, Unit Shutdown is in progress.

4.

Turbine load has been reduced to between 100 to 110 MWe.

5.

Second stage reheat has been removed from service.

6.

20P-26 Section 7.1 has been completed through step 7.1.2.2.

INITIATING CUE:

You are directed to shutdown Main Turbine in accordance with 20P26 and inform the Unit SCO when the actions are complete.

Page 11 of 11

LESSON TITLE:

LESSON NUMBER:

Actions for a Complete Loss of TBCCW LOT-SI M-J P-044-A0 1 REVISION NO:

02 PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Robert Bolin 9/04/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE Facility Representative DATE

\\\\

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR 2012 NRC SIMB

Actions for a Complete Loss of TBCCW SIMULATOR SETUP IC-13 EOC RxPwr 100%

Core Age EOC Triggers None Malfunctions Active CWO14F (TBCCW HX DISCH HDR RUPTURE)

Overrides None Remote Functions None Special Instructions Ensure Malfunctions and Remote Functions are ACTIVE.

Scram the reactor and perform scram immediate actions LOT-SIM-JR-044-A01 Page 2 of 11 REV. 02

Actions for a Complete Loss of TBCCW SAFETY CONSIDERATIONS:

None.

EVALUATOR NOTES: (Do not read to trainee)

1. The applicable procedure section WILL be provided to the trainee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained NUREG 1021, Appendix E, or similar to the trainee.

Read the following to trainee.

TASK CONDITIONS:

1.

The Unit Two TBCCW Discharge Header has ruptured and OAOP-17 has been entered and announced.

2.

Unit Two reactor has been scrammed and the scram immediate actions are complete.

3.

The Unit CRS is executing the Reactor Scram Procedure.

4.

2C TBCCW pump is in service supplying Unit One.

5.

AOs are available to assist with field actions.

INITIATING CUE:

You are directed by the Unit CRS to complete the steps for a total loss of TBCCW lAW OAOP-17 step 3.2.7 and to inform the CRS when these actions have been completed.

LOT-SIM-JP-044-A01 Page 3 of 11 REV. 02

Actions for a Complete Loss of TBCCW PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Obtain latest revision of OAOP-17 Section 3.2.7.

Current revision of OAOP-1 7 Section 3.2.7 obtained.

Determines step 3.2.7. us already met.

Determines step 3.2.7.2 is already met also.

• SATIUNSAT*

TIME STARTED:___________

Step 2-IF TBCCWHEAD TANK LEVEL HI/LO (UA-03 1-4) is in alarm AND level is low, THEN UNLOCK AND CLOSE HEAD TANK SUPPLY TO UNIT 1(2), TCC-V1, for the affected unit.

Direct AO to close 2TCC-V1. (Step 3.2.7.3)

CRITICAL STEP

• • SATIUNSAT*

[OMPT: Report that the Unit 2 TCC-V1 is closed after being dispatched to clo valve.

Step 3 TRIP the Main Turbine.

Verify Main Turbine Tripped. (Various indications at XU Mechanical Trip light

TRIPPED, All Valves Closed light lit, Emergency Trip System light lit, 2-UA-23 1-3 AND 1-4 annunciators sealed in) (Step 3.2.7.4)

• SATIUNSAT*

Step 4

TRIP both Reactor Feed Pumps.

Verify RFP A and RFP B are tripped by verifying RFP A and B HP and LP Stop valves closed and/or annunciators 2-UA-04 1-2 and 1-4. (Step 3.2.7.5)

• SATIUNSAT*

LOT-SIM-JP-044-AO1 Page 4 of 11 REV. 02

Actions for a Complete Loss of TBCCW NOTE:

Pumps should be placed to manual before stopping as a good operating practice to prevent the pumps from Auto starting, but that is not evaluated as Unsat.

If a pump does Auto Start and is not stopped then that would be Unsat.

Step 5 TRIP all Condensate Pumps and Condensate Booster Pumps.

Condensate Pumps and Condensate Booster Pumps are placed to STOP. (Step 3.2.7.6) j i

/á/

i2

• • CRITICAL STEP

• • SATIUNSAT*

f NOTE:

Heater Drain Pumps should be tripped Step 6

TRIP all Heater Drain Pumps.

2 Verify Heater Drain Pumps tripped. (Step 3.2.7.7)

• SAT/UNSAT*

Step 7

TRIP TBCCW Pumps supplying the affected unit.

Place 2A and 2B TBCCWpumps in OFF, Leave 2C TBCCW pump in service on Unit One. (Step 3.2.7.8)

• • CRITICAL STEP

• • SATIUNSAT*

Step S ISOLATE the Service Air System header by placing contro switch SERVICE AIR ISOL VLVS, SA-PV-706-1&2, to CLOSE.

Place SERVICE AIR ISOL VLVS, SA-PV-706-1&2, to CLOSE. (Step 3.2.7.9)

• SATIUNSAT*

PROMPT: When examinee requests Status of Unit One Air, report 1 D air compressor is running and 1 B is in standby and that the Ui SA-PV-5071 is open.

LOT-SIM-JP-044-AO1 Page 5 of 11 REV. 02

Actions for a Complete Loss of TBCCW Step 9

ENSURE the unaffected units air compressors have sufficient capacity to support air demand.

Determines that UI has sufficient capacity to handle air loads. (Step 3.2.7. IOa)

SATIUNSAT*

Step 10 ENSURE the unaffected units D Service Air Compressor is operating Determines that 10 air compressor is running. (Step 3.2.7. lOb)

SATIUNSAT*

Step 11 IF the Unit 1 and Unit 2 Service Air Systems are NOT cross-tied AND it is possible to cross-tie.

Determines that the air system is cross tied and that step 3.2. 7.11 is N/A.

SATIUNSAT*

Step 12 TRIP the affected units air compressors.

Place 2B and 2D air compressor to STOP. (Step 3.2.7.12)

• • CRITICAL STEP

• • SATIUNSAT*

Step 13-IF air pressure can NOT be maintained, REFER to OAOP-20.0.

Determines air pressure can be maintained and AOP-20 does not need to be referenced. (Step 3.2.7.13)

• SATIUNSAT*

LOT-SIM-JP-044-A01 Page 6 of 11 REV. 02

Actions for a Complete Loss of TBCCW SJAE SPE Mechanical Vacuum Pump(s), if running Not running N/A. (Step 3.2.7.1 5c)

Step 14 PLACE all MSIV switches to CLOSE.

Place B21-F022 A-D and B21-F028A-D MS/V control switches in CLOSE. (Step 3.2.7.14)

Step 15 TRIP the following:

At XU-8O depresses OFF/RESET pushbutton for SJAE A and B and verifies that valves reposition. (Step 3.2.7.1 5a)

At XU-2 places SPE A control switch in STOP. (Step 3.2.7.1 5b)

• • CRITICAL STEP

• • SATIUNSAT*

• • CRITICAL STEP

• • SATIUNSAT*

• • CRITICAL STEP

• • SATIUNSAT*

• SATIUNSAT*

Step 16-OPEN condenser vacuum breakers.

Places condenser vacuum breaker control switch to OPEN. (Step 3.2.7.16)

• • CRITICAL STEP

• • SAT/UNSAT*

LOT-SI M-J P-044-AO 1 Page 7 of 11 REV. 02

Actions for a Complete Loss of TBCCW Step 17 Inform the Unit CRS when all the steps for a total loss of TBCCW per OAOP-17 are complete.

Unit CRS informed all steps for a total loss of TBCCVVperAOP-17 are complete.

• SATIUNSAT*

TERMINATING CUE:

When all steps for a total loss of T8CCW per OAOP-17 are complete, this JPM is complete.

TIME COMPLETED:________

• Comments required for any step evaluated as UNSAT.

LOT-SIM-JP-044-AO1 Page 8 of 11 REV. 02

Actions for a Complete Loss of TBCCW RELATED TASKS:

274001 B401, Respond to a Complete Loss of TBCCW per AOP17.0.

KIA REFERENCE AND IMPORTANCE RATING:

295018 AA1.02 3.3/3.4-Ability to operate system loads as a result of a Complete Loss of Component Cooling Water.

REFERENCES:

OAOP-17.0 TOOLS AND EQUIPMENT:

None.

SAFETY FUNCTION (from NUREG 1123, Rev 2.):

8 Plant Service Systems

- Component Cooling Water REASON FOR REVISION:

Revised to match current revision of procedure.

LOT-SIM-JP-044-A01 Page 9 of 11 REV. 02

Actions for a Complete Loss of TBCCW Validation Time:

12 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes No V

EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments reviewed with Student Evaluator Signature:

Date:

LOT-SIM-JP-044-AO1 Page 10 of 11 REV. 02

TASK CONDITIONS:

1.

The Unit Two TBCCW Discharge Header has ruptured and OAOP17 has been entered and announced.

2.

Unit Two reactor has been scrammed and the scram immediate actions are complete.

3.

The Unit CRS is executing the Reactor Scram Procedure.

4.

2C TBCCW pump is in service supplying Unit One.

5.

AOs are available to assist with field actions.

INITIATING CUE:

You are directed by the Unit CRS to complete the steps for a total Toss of TBCCW lAW OAOP-17 step 3.2.7 and to inform the CRS when these actions have been completed.

Page 11 of 11

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR 2012 NRC SIMC LESSON TITLE:

LESSON NUMBER:

Manual Startup of Control Building Emergency Recirculation System LOT-SI M-J P-037-A05 REVISION NO:

PREPARED BY:

CONCURRED BY:

01 VALIDATED BY:

DATE Operations Department Rep.

APPROVED BY:

DATE Facility Representative

\\

Operations Instructor/Developer Robert Bolin 9/04/2012 DATE Operations Instructor/Developer DATE

Manual Startup of Control Building Emergency Recirculation System SIMULATOR SETUP:

A.

Initial Conditions:

1.

Recommended Initial Conditions IC 11 Rx. Pwr.

100%

Core Age BOC 2.

Required Plant Conditions None B.

Malfunctions None C.

Overrides None.

D.

Remote Function On Trigger 1: Ml_ZVACS918_1 to OFF to turn off Unit 1 Mechanical Equip Room Vent Fans.

On Trigger 2: MI IACBLRMI to OFF to turn off the Unit I Cable Spread Room Fans E.

Special Instructions None LOT-SIM-JP-037-A05 Page 2 of 9 Rev. 01

Manual Startup of Control Building Emergency Recirculation System SAFETY CONSIDERATIONS:

None EVALUATOR NOTES: (Do not read to examinee)

1. The applicable procedure section WILL be provided to the examinee, once it is demonstrated he/she knows the correct procedure.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained in NUREG 1021, Appendix F, or similar to the examinee.

Read the foIIowng to the JPM performer.

TASK CONDITIONS:

1.

Inspection test of the Control Building Emergency Recirculation System is required.

2.

Prerequisites of OOP-37 are met.

INITIATING CUE:

You are directed to perform a Manual Startup of the Control Building Emergency Recirculation System in the high radiation mode per OOP-37 and inform the Unit SCO when the actions are complete.

LOT-SIM-JP-037-A05 Page 3 of 9 Rev. 01

Manual Startup of Control Building Emergency Recirculation System PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Obtain copy of OOP-37 Section 5.3.

Procedure obtained.

SATIUNSAT TIME STARTED:

1 1

oI Step 2

PLACE CB Emergency Recirculation Fan, 2A(B)-ERF-CB in ON.

2A(B)-ERF-CB control switch placed to ON. (Step Ia)

• • CRITICAL STEP ** SATIUNSAT Step 3

ENSURE Control Room Norma? Makeup Damper, 2L-D--CB, Closes.

2L-D-CB, Control Room Normal Makeup Damper verified closed. (Step Ib)

CRITICAL STEP ** SATIUNSAT Step 4

ENSURE Control Building Emergency Recirculation Damper, VA-2J-D-CB, Opens.

VA-2J-D-CB, Control Building Emergency Recirculation Damper verified OPEN.

(Step ic)

• • CRITICAL STEP ** SATIUNSAT LOT-SI M-J P-037-A05 Page 4 of 9 Rev. 01

Manual Startup of Control Building Emergency Recirculation System Step 5

STOP Control Building Washroom Exhaust Fan, 2D-EF-CB, and ENSURE associated damper closes.

2D-EF-CB, Control Building Washroom Exhaust Fan, stopped and associated damper verified closed. (Step Id)

• • CRITICAL STEP ** SATIUNSAT PROMPT: When requested to STOP (Unit One) Mechanical Equipment Room Vent Fans initiate Event TRIGGER 1. Fans will not turn off until both units switches are in OFF.

Step 6

STOP Control Building Mechanical Equipment Room Vent Fans, 2F-SF-CB and 2E-EF-CB, and ENSURE associated Supply and Exhaust Dampers CLOSE.

2F-SF-CB and 2E-EF-CB, Control Building Mechanical Equipment Room Vent Fans stopped and associated Supply and Exhaust Dampers verified closed.

(Step le)

• • CRITICAL STEP ** SATIUNSAT Step 8 STOP Cable Spread Room 2 Vent Fans, 2A-SF-CB and 2A-EF-CB, and ENSURE associated Supply and Exhaust Dampers CLOSE.

2A-SF-CB and 2A-EF-CB, Cable Spread Room 2 Vent Fans stopped and associated Supply and Exhaust Dampers verified closed. (Step It)

• • CRITICAL STEP ** SATIUNSAT PROMPT: When requested to STOP (Unit One) Cable Spread Room I VentFans initiate Event TRIGGER 2.

Step 9

STOP Cable Spread Room 1 Vent Fans, lA-SF-C B aria 1A-EF-CB, and ENSURE associated Supply and Exhaust Dampers CLOSE.

IA-SF-CB and IA-EF-CB, Cable Spread Room I Vent Fans stopped and associated Supply and Exhaust Dampers verified closed. (Step Ig)

SATIUNSAT LOT-SIM-JP-037-A05 Page 5 of 9 Rev. 01

Manual Startup of Control Building Emergency Recirculation System Step 10 Inform Unit SCO that the actions for Manual Startup of the Control Building Emergency Recirculation System in the high radiation mode are complete.

Unit SCO notified.

SATIU NSAT TERMINATING Cue: When the Control Building Emergency Recirculation System has been started and isolated per the hard card, this JPM is complete.

Comments required for any step evaluated as UNSAT.

TIME COMPLETED:

LOT-SI M-J P-037-A05 Page 6 of 9 Rev. 01

Manual Startup of Control Building Emergency RecculaflonS_ystem RELATED TASKS:

288202B1 01, Start the Control Building ventilation System per OP-37 K/A REFERENCE AND IMPORTANCE RATING:

290003 A4.01 3.2/3.2 Ability to manually operate and/or monitor in the control room: Initiate I reset system.

REFERENCES:

Hard Card S/i 067 TOOLS AND EQUIPMENT:

None SAFETY FUNCTION (from NUREG 1123, Rev. 2) 9, Radioactivity Release REASON FOR REVISION:

Minor editorial changes.

LOT-SIM-JP-037A05 Page 7 of 9 Rev. 01

Manual Startup of Control Building Emergencyfecirculation System Validation Time:

10 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes No V

TZ f

EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments reviewed with Student Evaluator Signature:

Date:_______________

LOT-SIM-JP-037-A05 Page 8 of 9 Rev. 01

jzzz TASK CONDITIONS:

1.

Inspection test of the Control Building Emergency Recirculation System is required.

2.

Prerequisites of OOP-37 are met.

INITIATING CUE:

You are directed to perform a Manual Startup of the Control Building Emergency Recirculation System in the high radiation mode per OOP-37 and inform the Unit SCO when the actions are complete.

Page 9 of 9

2012 NRC SIMD LESSON TITLE:

LESSON NUMBER:

REVISION NO:

PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Energize 230 kV Bus 2B.

1 LOT-St M-J P-050-A06 Robert Bolin 9/04/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE Facility Representative DATE DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR

EnegJe 230 kV Bus 2B.

SIMULATOR SETUP:

Recommended Initial Conditions IC-lI, 100% Power, BOC Required Plant Conditions Open PCBs 26B, 27B, 28B, 29B, 30B, and 31B.

Triggers Malfunctions Overrides Remotes SAFETY CONSIDERATIONS:

None LOT-SIM-JP-050-A06 Page 2 of 9 Rev. 1

Energize 230 kV Bus 2B.

EVALUATOR NOTES: (Do not read to performer) 1.

The applicable procedure section WILL be provided to the performer.

2.

Provide examinee with a copy of 20P-50, Section 5.1, marked complete through step 5.1.2.7 3.

If this is the first JPM of the JPM set, read the JPM briefing contaned in NUREG 1021, Appendix E, or similar to the performer.

Read the following to the JPM performer.

TASK CONDITIONS:

1. 230 kV Bus 2B tripped due to a lightning strike.

2. 230 kV Bus 2A is energized and supplying power to the SAT.

3. The bus has been inspected and determined to be ready for energizing.

4. The load dispatcher has directed T

5. 20P-50, Section 5.1 is in progress and is completed up to and including step 5.1.2.7.

INITIATING CUE:

You are directed to energize 230 kV Bus 2B in accordance wiii2OP-50ection 5.1.

Inform the Unit CRS when 230 kV Bus 2B is energizewoh-RGB34B.

LOT-SIM-JP-050-A06 Page 3 of 9 Rev. 1

Energize 230 kV Bus 2B.

PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Obtain current revision of 20P-50, Section 5.1.

Current revision of 20P-50, Section 5.1 obtained.

SATIU NSAT*

TIME START NOTE:

The examinee should determine actions associated with 230 kV Bus 2A are not applicable. Although they may check the 2A Bus indicating lights for each breaker.

PROMPT:

If requested, as Unit CRS concur that all steps associated with 230 kV Bus 2A are not applicable.

Step 2

Confirm the white indicating lights on Panel XU-5 above the following are illuminated:

a. Bus 2B Whiteville 230 kV Breaker 31 B synchronizing switch.

D

b. Bus 2B Delco West 230 kV Breaker 30B synchronizing switch.

D

c. Bus 2B Wallace 230 kV Breaker 28B synchronizing switch.

D

d. Bus 2B Wilmington Corning 230 kV Breaker 27B synchronizing switch.

D White indicating lights confirmed to be illuminated.

SAT/U NSAT*

NOTE:

The supervisory switch must be in local before the PCB can be operated from the control room panel XU-5.

Step 3

Place Bus 2B Whiteville 230 kV Breaker 31 B PCB Super\\Jisory Local/Remote switch in Local.

Supervisory switch is in Local.

• • CRITICAL STEP**SAT/UNSAT*

Step 4

Place Bus 2B Whiteville 230 kV Breaker 31 B PCB Synchronizing switch in ON.

Synchronizing switch is ON.

• • CRITICAL STEP**SAT/UNSAT*

LOT-SIM-JP-050-A06 Page 4 of 9 Rev. 1

Energize 230 kV Bus 2B.

Step 5

Place Bus 2B Voltmeter switch in ON.

Voltmeter switch is ON.

SATIUNSAT*

,t I

c:* /t NOTE:

230 kV Bus 2B is deenergized so only incoming volts will indicate voltage.

c

/) :

) J/,(

Step 6

Close the 230 kV breaker.

PCB 31B is closed.

• • CRITICAL STEP**SAT/UNSAT*

Step 7

Confirm 230 kV breaker has closed by observing indicating light.

PCB 31B confirmed closed.

SAT/U NSAT*

Step 8

Confirm running and incoming voltmeters indicate the same value.

Voltmeters confirmed to be indicating approximately the same value.

SAT/U NSAT*

Step 9

Place Bus 2B Voltmeter Switch in OFF.

Voltmeter switch is in OFF.

SAT/U NSAT*

Step 10

Place Bus 2B Whiteville 230 kV Breaker 31 B PCB Synchronizing switch in OFF.

Synchronizing switch is OFF.

SAT/U NSAT*

LOT-SIM-JP-050-A06 Page 5 of 9 Rev. 1

Energize 230 kV Bus 2B.

Step 11

Place Bus 2B Whiteville 230 kV Breaker 31 B PCB Supervisory Local/Remote switch in Remote.

Supeiso switch is in Remote.

/

SATIUNSAT*

Step 12 Place Bus 2B Whiteville 230 kV Breaker 31B Auto Reclose Control Switch in AUTO.

Auto Reclose control switch is in AUTO.

/

SAT/U NSAT*

Step 13 Informs Unit CRS that 230 kV Bus 2B is energized.

Unit CRS is informed 230 kV Bus 2B is energized.

SAT/U NSAT*

TERMINATING CUE:

When PCB 31B is closed and 230 kV Bus 2B has been energized this JPM is complete.

TIME COMPLETED LOT-SIM-JP-050-A06 Page 6 of 9 Rev. 1

Energize 230 kV Bus 2B.

LIST OF REFERENCES RELATED TASKS:

262 201 Bl 01 KIA REFERENCE AND IMPORTANCE RATING:

262001 A4.01 3.4/3.7 Ability to manually operate and/or monitor in the control room: All breaker and disconnects (including available switchyard)

REFERENCES:

20P-50 TOOLS AND EQUIPMENT:

None.

SAFETY FUNCTION (from NUREG 1123, Rev 2.):

6

- Electrical REASON FOR REVISION:

Updated to current template.

LOT-SIM-JP-050-A06 Page 7 of 9 Rev. 1

Energize 230 kV Bus 2B.

Validation Time:

12 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes No V

EVALUATION Performer:_______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments reviewed with Student Evaluator Signature:

Date:

LOT-SIM-JP-050-A06 Page 8 of 9 Rev. 1

TASK CONDITIONS:

1. 230 kV Bus 2B tripped due to a lightning strike.

2. 230 kV Bus 2A is energized and supplying power to the SAT.

3. The bus has been inspected and determined to be ready for energizing.

4. The load dispatcher has directed energizing 230 kV Bus 2B by closing PCB 31 B.

5. 20P-50, Section 5.1 is in progress and is completed up to and including step 5.1.2.7.

INITIATING CUE:

You are directed to energize 230 kV Bus 2B in accordance with 20P-50, Section 5.1.

Inform the Unit CRS when 230 kV Bus 2B is energized through PCB 31 B.

Page 9 of 9

LESSON TITLE:

REVISION NO:

02 PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Robert Boin 9/11/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE DATE DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR 2012 NRC SIME Suppression Pool Cooling per Hard Card

- SW Release.

LESSON NUMBER:

LOT-SIM-JP-017-A12 Facility Representative

Suppression Pool Cooling per Hard Card

- SW Release.

SIMULATOR SETUP:

Recommended Initial Conditions IC-lI, 100% Power, BOC Required Plant Conditions Open SRV K. When Suppression Pool Temperature is >95 deg. F close the SRV and turn off the indicating lights to simulate pulling the fuses, Start both NSW pumps.

Place a red cap on RHR SW Pump 2D.

Triggers Trigger 1

- K17O8JCN, El 1-F048B to close.

Malfunctions CWO1 3F, RHR B HX Tube Leak to 100% on trigger 1.

CWOO9F, RHR SW Pump B Bkr Fault to TRUE with 5 sec. TD on trigger 1.

Overrides ZUA355 Service WTR Effluent Rad High to ON with 10 sec TD on trigger 1.

Remotes RS_IARHBYPB, El 1-F068B Auto Close Bypass Switch, to BYPASS.

ED_IABKCJ16, Bkr Ctl DC Fuses RHR SW 2D OUT.

LOT-SIM-JP-017-A12 Page 2 of 9 Rev. 02

Suppression Pool Cooling per Hard Card

- SW Release.

SAFETY CONSIDERATIONS:

None EVALUATOR NOTES: (Do not read to performer) 1.

The applicable procedure section WILL be provided to the performer.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained in NUREG 1021, Appendix E, or similar to the performer.

Read the foIIowng to the JPM performer.

TASK CONDITIONS:

1.

SRV K has been closed by pulling its fuses lAW OAOP-30.

2.

Torus temperature is >95 deg. F.

3.

RHR SW Pump 2D is under clearance.

INITIATING CUE:

You are directed to place the B Loop of RHR in Suppression Pool Cooling in accordance with the hard card using NSW and inform the Unit SCO when the required actions are complete.

LOT-SIM-JP-017-A12 Page 3 of 9 Rev. 02

Suppression Pool Cooling per Hard Card

- SW Release.

PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Obtain Hard Card for placing B Loop RHR in SPC.

Hard Card obtained.

SAT/U N SAT*

TIME START Step 2

Open SW-V105.

SW-V105 is open.

• • CRIFICAL STEP**SAT/UNSAT*

Step 3

Close SW-V143.

SW-V143 is closed.

SAT/UN SAT*

Step 3

Start Pumps On NSW HDR as needed.

Determines that both NSW pumps are running and no action required.

SATIU N SAT*

NOTE:

The performer should recognize that a LOCA signal does not exist and N/A the step for using the manual override switch.

RHR SW Pump 2D is under clearance and is not available.

Step 4 Starts RHR SW Pump 2B.

2B RHR SW Pump is running.

• • CRITICAL STEP**SATIUNSAT*

Step 5 Adjust El 1-F068B.

F068B is opened to adjust SW flow to 2000

- 4000 gpm.

• • CRITICAL STEP**SATIUNSAT*

LOT-SIM-JP-Ol 7-Al 2 Page 4 of 9 Rev. 02

Suppression Pool Cooling per Hard Card

- SW Release.

NOTE:

Opens the SW-V1 17, NSW to Vital Header, or Opens the SW-V ii CSW to Vital header valve. Either valve is acceptable. The Vi 17 is a throttle valve while the Vi 1 1 is not.

Step 6

Establish Cooling Water to the Vital Header.

Opens the SW-V111 orthe SW-V117 valve.

• • CRITICAL STEP**SATIUNSAT*

NOTE:

The performer should recognize that RHR SW Pump 2D is under clearance and is not available for starting additional RHR SW pumps.

NOTE:

The performer should recognize that a LOCA signal does not exist and that the FO15B is closed and N/A these two steps on the hard card.

Step 7

Start a Loop B RHR Pump(s).

Starts a pump in the B Loop RHR.

STEP**SAT/LJNSAT*

Step 8

Open El 1-F028B.

F028B is open.

• • CRITICAL STEP**SAT/UNSAT*

Step 9

Throttle open El l-F024B.

Throttles open F024B to obtain, 6000 to 10,000 gpm for 1 pump operation.

• • CRITICAL STEP**SATIUNSAT*

LOT-SIM-JP-017-A12 Page 5 of 9 Rev. 02

Suppression Pool Cooling per Hard Card

- SW Release.

When the performer begins to throttle the F048B the RHRHX tubesw41-Fuptuesulting initially in a RHR Hi Conductivity alarm followed by goft RHRSW Pump)id the F068B will fail to close resulting in high service water radiation alarm.

I TERMINATING CUE:

When the service water radiation release has been terminated this JPM is complete.

TIME COMPLETED NOTE:

Step 10 Throttle close E11-F048B.

Throttles closed F048B.

• • CRITICAL STEP**SAT/UNSAT*

PROMPT:

If informed as Unit SRO of the service water rad release 2

concur with any means of isolation of the release that is recommended by the examinee.

NOTE:

There are several ways to terminate the release, closing the F068B, stopping the running RHR pumps, or closing F047B and FOO3B. The critical action is to terminate the release.

F068B should be closed as this is an automatic action that failed to occur.

Step 11

Terminates the Service Water radiation release.

Terminates release.

• • CRITICAL STEP**SAT/UNSAT*

PROMPT:

If informed as Unit SRO that B Loop cannot be placed in SPC, inform the performer that another operator will be assigned to complete isolation of RHR Loop B.

Step 12 Informs Unit SCO RHR B Loop cannot be placed in SPC.

Acknowledge report.

SAT/UNSAT*

LOT-SIM-JP-0l 7-Al 2 Page 6 of 9 Rev. 02

Suppression Pool Cooling per Hard Card

- SW Release.

LIST OF REFERENCES RELATED TASKS:

205 014 BI 01 K1A REFERENCE AND IMPORTANCE RATING:

219000 A4.01 3.8/3.7 Ability to manually operate and/or monitor in the control room: Pumps

REFERENCES:

Hard Card TOOLS AND EQUIPMENT:

None.

SAFETY FUNCTION (from NUREG 1123, Rev 2.):

5

- Containment Integrity REASON FOR REVISION:

Updated format to to new JPM template. Steps changed slightly due to procedure change.

Changed to SRV K, since this SRV can be closed

. Removed RWCU isolation and resin leak from initial conditions.

LOT-SIM-JP-017-A12 Page 7 of 9 Rev. 02

Suppression Pool Cooling per Hard Card

- SW Release.

Validation Time:

10 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes V

No EVALUATION Performer:

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments reviewed with Student Evaluator Signature:

Date:_______________

LOT-SIM-JP-017-A12 Page 8 of 9 Rev. 02

TASK CONDITIONS:

1.

SRV K was not properly seated, subsequently it has been closed.

2.

Torus temperature is >95 deg. F.

3.

RHR SW Pump 2D is under clearance.

INITIATING CUE:

You are directed to place the B Loop of RHR in Suppression Pool Cooling in accordance with the hard card using NSW and inform the Unit SCO when the required actions are complete.

Page 9 of 9

2012 NRC SIMF LESSON TITLE:

LESSON NUMBER:

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate LOT-SIM-JP-01 6-A05 REVISION NO:

03 PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Robert Bolin 9/04/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE Facility Representative DATE 7

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate SIMULATOR SETUP Recommended Initial Conditions IC-Il 100%

BOO Required Plant Conditions:

RPV level <170 inches RFPTs tripped and HPCI not available Triggers:

Create Trigger 1: E51-F013 Red Light Equal to TRUE.

Malfunctions:

Event System Tag Title Value!

Activate Deactivate Ramp Time Time (sec)

Rate (sec)

N/A ES E5055F E51-F007, Failure to Auto Close N/A N/A N/A N/A ES ES056F E51-F008, Failure to Auto Close N/A N/A N/A 1

ES ESO25F RCIC Stm Brk S RHR Room 20%!

30 sec N/A N

Overrides:

Event Panel or Tag Title Value Activate Deactivate System (ramp Time Time (sec) rate)

(sec) 1 P601 Q1619RRM E51-F013 Red Light Equal to 0

N/A N/A True LOT-SIM-JP-016-A05 Page 2 of 9 Rev. 03

RCIC Start Steam Line Ruptures and RCIC Fails to IsDiate Remotes None Special Instructions:

Trip RFPTs and place HPCI in PTL to reduce RPV level below +170 inches.

Place a red cap on HPCI AOP.

Complete scram immediate actions.

When RPV level is <170 inches, place simulator in Freeze.

SAFETY CONSIDERATIONS:

None EVALUATOR NOTES: (Do not read to trainee)

1. The applicable procedure section WILL NOT be provided to the trainee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained NUREG 1021 Appendix F, or similar to the trainee.

Read the following to trainee.

TASK CONDITIONS:

1.

Both Reactor Feed Pumps have tripped and are not available.

2. Reactor level has decreased to <170 inches.

3.

HPCI is not available.

INITIATING CUE:

You are directed by the Unit SCO to place RCIC in service per the Hard Oard and restore Reactor level to 170 to 200 inches. Notify the Unit SCO wn1l r&Iuired actions are complete.

LOT-SIM-JP-016-A05 Page 3 of 9 Rev. 03

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Obtain Hard Card RCIC Operations For EOPs.

Hard Card RCIC Operations For EOPs obtained at P601.

SATIUNSAT*

Time Start:

Step 2 Ensure the following valves are open: Turbine Trip & Throttle Valve, E51-V8, and Turbine Trip & Throttle Valve Actuator, E51-V8, and Turbine Governor Valve, E51-V9.

E51-V8 (valve position) E51-V8 (actuator position) and E51-V9 are open.

SATIUNSAT*

Step 3

Open Cooling Water Supply Valve, E51-F046.

E51-F046 is full open.

• • CRITICAL STEP

• • SATIUNSAT*

Step 4 Start Vacuum Pump and leave switch in START.

Vacuum Pump running with switch in Start.

SAT/U NSAT*

Step 5 Open Turbine Steam Supply Valve, E51-F045.

E51-F045 is full open.

• • CRITICAL STEP

• • SAT/UNSAT*

LOT-SIM-JP-016-A05 Page 4 of 9 Rev. 03

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate NOTE:

The steam rupture will initiate 30 seconds after the E51-F01 3 red light is illuminated. The F008 and F007 must be manually closed to isolate the leak.

Event System Tag Title Ramp Activate Deactivate Rate Time Time (sec) 1 ES ESO25F RCIC Stm Brk S RHR Room 20%!

30 sec N/A Step 6 Open RCIC Injection Valve, E51-F013.

E51-F013 is full open.

• • CRITICAL STEP

• • SATIUNSAT*

NOTE:

Step may not be evaluated depending upon the Performers response to the steam rupture.

Step 7

Ensure that the RCIC turbine starts and comes up to speed as directed by RCIC FLOW CONTROL.

RCIC Turbine speed observed to come up to speed.

SATIUNSAT/NE*

NOTE:

The RCIC system will trip when the isolation logic is actuated.

Step 8

cognize the RCIC isolation and trip.

RCIC isolation and trip is recognized.

SATIUNSATINE

• LOT-SlM-JP01 6-A05 Page 5 of 9 Rev. 03

RCIC Start Steam Line Ruptures and ROtC Fails to Isolate Step 9 Recognize the failure of the RCIC Steam Supply Valves, E51-F007 and E51-F008, to close.

Failure of E51-F007 and E51-F008 to close Is recognized.

SAT/U NSAT*

Step 10 Manually close RCIC Steam Supply Valve, E51 -F007 OR RCIC Steam Supply Valve, E51-F008 OR both.

E51-F007 or E51-F008 or both are closed.

• • CRITICAL STEP

• • SATIUNSAT*

Step 11 Notify the Unit SCO that the RCIC Steam Pipe has ruptured and that E51-F007 and E51-F008 were manually closed to isolate the leak.

Unit SCO is notified SATIUNSAT*

TERMINATING CUE: When the RCIC Steam L notified, this JPM is Time Completed:

LOT-SIM-JP-016-A05 Page 6 of 9 Rev. 03

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate RELATED TASKS:

217003B101, Manually Startup The RCIC System Per OP-16 KIA REFERENCE AND IMPORTANCE RATING:

295031 EA1.05 4.3/4.3 Ability to operate and/or monitor the following as they apply to Reactor Low Water Level:

Reactor Core Isolation System (plant specific

REFERENCES:

Sf969 (RCIC Hard Card)

TOOLS AND EQUIPMENT:

None.

SAFETY FUNCTION (from NUREG 1123, Rev 2.):

2

- Inventory Control REASON FOR REVISION:

Updated to current template.

LOT-SIM-JP-016-A05 Page 7 of 9 Rev. 03

RCIC Start Steam Line Ruptures and RCIC Fails to Isolate Validation Time:

10 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes V

No EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments reviewed with Student Evaluator Signature:

Date:_______________

LOT-SIM-JP-016-A05 Page 8 of 9 Rev. 03

TASK CONDITIONS:

1.

Both Reactor Feed Pumps have tripped and are not available.

2. Reactor level has decreased to <170 inches.

3.

HPCI is not available.

INITIATING CUE:

You are directed by the Unit SCO to place RCIC in service per the Hard Card and restore Reactor level to +170 to 200 inches. Notify the Unit SCO when all required actions are complete.

LOT-SIM-JP-016-A05 Page 9 of 9 Rev. 03

2012 NRC SIMG LESSON TITLE:

LESSON NUMBER:

REVISION NO:

PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Recirculation Pump Start

- Dual Recirculation Pump Trip.

LOT-SI M-J P-002-A03 08 Robert Bolin 9/03/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE DATE DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR Facility Representative

\\*

Reactor Recirc Pump Start

- Dual Pump Trip SIMULATOR SETUP:

Initial Conditions 10-09 RxPwr-50%

Core Age

- BOC Required Plant Conditions Recirculation Pump 2B secured with Pump 2A flow <23,500 gpm and rod line <80%

Malfunctions Trigger El

- EE026F

- Loss Of 4160 VAC Bus 2B Overrides None Special Instructions Trip Recirc Pump 2B Place B32-V17 (seal staging valve) to Manual/Open Operate Recirc 2A to maintain core flow >30.8 mlbm/hr bit as low as possible Reduce CRD flow to 30 gpm Reduce Recirc Pump 2B speed control to 16%

Do NOT initiate malfunction until specified in JPM LOT-SIM-JP-002-A03 Page 2 of 12 Rev. 08

Reactor Recirc Pump Start - Dual Pump Trip SAFETY CONSIDERATIONS:

None EVALUATOR NOTES: (Do not read to trainee)

1. The applicable procedure section WILL be provided to the trainee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained NUREG 1021, Appendix E, or similar to the trainee.

3.

Copy of OP-02, Section 5.2 marked up to step 5.2.2.17 should be provided to the examinee.

Read the following to the JPM performer TASK CONDITIONS:

1.

Recirculation pump 2B is being restarted.

2. APRM trip and alarm setpoints were NOT changed to support single loop operation.

3, An off-going operator has completed 20P-02, Section 5.2 up to step 5.2.2.17.

4. Another operator is available to make the required log entries.

INITIATING CUE:

You are to continue the startup of Recirculation Pump 2B and inform the Unit CRS when 20P-02, Section 5.2 has been completed.

LOT-SIM-JP-002-A03 Page 3 of 12 Rev. 08

,II Reactor Recirc Pump Start - Dual Pump Trip PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

TIME START:

PROMPT:

Report to the performer that another operator will make the log book entry after the values have been determined.

Step I Ensure temperature differential between reactor coolant in the dome and bottom head drain is <145°F.

Records Reactor Pressure and adds 14.7 Reactor Pressure to obtain Dome pressure. (Step 17a)

Uses Steam tables to convert to Dome Temperature. (Step I 7b)

Determines bottom head temperature using TI-607 point 5. (Step 1 7c)

Determines differential temperature by subtracting bottom head temperature from Dome Temperature (Step 1 7d)

Records temperature and time data was obtained in IDç book. (Step I 7e)

SATIU NSAT*

Step 2-Determine step 5.2.2.18 & 19 are not required Step 18 and 19 determined to be not applicable SATIU NSAT*

Step 3 Verifies operating pump flow is <24,500 gpm.

Recirculation Pump 2A is operating at <24,500 gpm. (Step 20)

SATIUNSAT*

LOT-SIM-JP-002-A03 Page 4 of 12 Rev. 08

Reactor Recirc Pump Start

- Dual Pump Trip PROMPT:

Report to the performer that another operator will make the log book entry after the values have been determined.

Step 4 Ensure the temperature differential between operating and idle loop is <500 and the idle loop flow is <24.500 gpm.

Records operating ioop temperature (Step 20a)

Records idle loop temperature (Step 20b)

Subtracts idle loop temperature from operating loop temperature and records time (Step 20c)

Records differential temperature and time in CO logbook (Step 20d)

Records Operating loop flow and time (Step 20e).

Records operating loop flow and time in CO logbook. (Step 20f)

SATIU NSAT*

Step 5 Determine 5.2.2.21 is not required Step 5.2.2.21 determined to be not applicable SAT/UNSAT*

PROMPT:

As the CRS inform the performer to continue in the procedure if the F031 B valve is closed for more than 5 minutes and the performer questions as to what to do.

Step 6 Ensure Recirc Pump 2B discharge valve B32-F031 B is closed Recirc pump B discharge valve (B32-FO3IB) is fully closed by placing the control switch in the closed position providing the following indication:

green light illuminated and red light off

• • CRITICAL STEP

• • SATIUNSAT*

Step 7 Determine 5.2.2.23 is not required Step 5.2.2.23 determined to be not applicable SATIUNSAT*

LOT-SIM-JP-002-A03 Page 5 of 12 Rev. 08

Reactor Recirc Pump Start - Dual Pump Trip Step 8 Confirms RECIRC PUMP B START PERMISSIVES MET white light is lit.

Verifies RECIRC PUMP B START PERMISSIVES MET white light is illuminated. (Step 24)

SATIU NSAT*

Step 9 Idenfifies RECIRC VFD 2B 4KV SUPPLY BRK is not closed.

Determines that RECIRC VFD 2B 4KV SUPPLY BRK is NOT closed and continues in procedure. (Step 25)

SAT/U NSAT*

Step 10

- Determines that READY TO PRECHARGE white light is lit and on the control room HMI REDUN LOSS light is not lit and goes to step 5.2.2.28.

Identifies on P603 panel that the READY TO PRECHARGE white light is lit.

(Step 26a)

Identifies on the control room HMI that the REDUN LOSS lights are not lit for VFD B (Step 26b)

Goes to step 5.2.2.28 SAT/UNSAT*

Step 11

- Confirms Recirc VFD B READY TO PRECHARGE white light is lit.

Identifies on P603 panel that the READY TO PRECHARGE white light is lit.

(Step 28)

SATIU NSAT*

Step 12

- Depresses VFD B PRECHARGE pushbutton and confirm PRECHARGE IN PROGRESS white light is lit.

Depresses PRE-CHARGE pushbutton on P603 panel.

Identifies on P603 panel that the PRECHARGE IN PROGRESS white light is lit. (Step 29)

SATIU NSAT*

LOT-SIM-JP-002-A03 Page 6 of 12 Rev. 08

Reactor Recirc Pump Start

- Dual Pump Trip Step 13

- Identifies that the 4KV Supply breaker closes and N/As step 5.2.2.30 RECIRC VFD 2B 4KV SUPPLY BRK is closed and N/As the step. (Step 30)

SATIUNSAT*

Step 14

- Confirms RECIRC VFD 2B 4KV SUPPLY BRK closes to supply power to the Recirc VFD.

Determines that RECIRC VFD 2B 4KV SUPPLY BRK is closed. (Step 31)

SATIUNSAT*

Step 15

- Confirms VFD B READY TO START white light is lit.

Determines that VFD B READY TO START white light is illuminated.

(Step 32)

SATIU NSAT*

Step 16

- Depress the VFD B FAULT RESET pushbutton twice.

Depresses VFD B FAULT RESET pushbutton twice on P603 panel. (Step 33)

SAT/UNSAT*

Step 17

- Confirm PRECHARGE IN PROGRESS white light is OFF.

Confirms PRECHARGE IN PROGRESS white light is not illuminated on P603 panel. (Step 34)

SATIU NSAT*

LOT-SIM-JP-002-A03 Page 7 of 12 Rev. 08

Reactor Recirc Pump Start

- Dual Pump Trip Step 18-Checks the status of the control room HMI.

Redundancy Status-Master A NXG in service indicated by blue light Communications Status-Control A, Control B, CSC, and Customer (RFCS) available, as indicated by blue light Alarms! faults status indicated by grey light Input Power-Voltage greater than 3900 V Input Power-Frequency approximately 60 Hz (Step 35)

SATIUNSAT*

Step 19

- Determine <30 minutes has elapsed since ATs and flow rate were determined

<30 minutes has elapsed since ATs and flow rate were determined (Step 36)

SATIUNSAT*

Step 20

- Depress Recirc VFD B VFD START pushbutton.

Recirc VFD B VFD START pushbutton is depressed. (Step 37)

• • CRITICAL STEP ** SATIUNSAT*

Step 21

- Confirms the following indications.

RECIRC PUMP B SPEED DEMAND is approximately 20%.

RECIRC PUMP B CALCULATED SPEED ramps to approximately 20%.

RECIRC PUMP B ACTUAL SPEED ramps to approximately 20%.

VFD B RUNNING red light is lit. (Step 38)

SAT/UNSAT*

fl PROMPT:

Report to the performer that another operator will make the log book entry]

Step 22

- Record time at which the Recirc Pump was started.

Determines that a log entry is required for the time that the Recirc Pump was started. (Step 39)

SATIU NSAT*

LOT-SIM-JP-002-A03 Page 8 of 12 Rev. 08

Reactor Recirc Pump Start

- Dual Pump Trip NOTE:

When B32-F031 is jogged open on the second occurrence initiate trigger El to trip 4KV Bus 2B.

Step 23

- Using 2 second jogs and 10 second rest times for first minute, jog open recirc Pump B discharge valve.

B32-FO3IB is opened using 2 secondjogs and 40 second rest times for the 1

st minute. (Step 40a)

• • CRITICAL STEP ** SATIUNSAT*

PROMPT:

If examinee informs Unit SCO of dua pump trip, direct examinee as the CRS to perform any required immediate actions Step 24

- Insert a manual reactor scram.

Manual Reactor scram is inserted.

• • CRITICAL STEP ** SATIUNSAT*

PROMPT:

When examinee has inserted a manual reactor scram, inform exam inee that the JPM is complete.

I TERMINATING CUE: When amanual reactor scram has been inserted, this JPM is j

• Comments required for any step evaluated as UNSAT.

TIME COMPLETED:

LOT-SIM-JP-002-A03 Page 9 of 12 Rev. 08

Reactor Recirc Pump Start

- Dual Pump Trip RELATED TASKS:

202017B401, Respond To Recirc Pump Trip(s) Per AOP-04.0 202004B1 01, Startup A Reactor Recirculation Pump Per OP-02 KIA REFERENCE AND IMPORTANCE RATING:

202001 A4.01 3.7/3.7 Ability to operate and/or monitor in the control room Recirculation Pumps

REFERENCES:

20P-02, Revision 104 2AOP-04.0, Revision 7 TOOLS AND EQUIPMENT:

None.

SAFETY FUNCTION (from NUREG 1123, Rev 2.):

1

- Reactivity Control REASON FOR REVISION:

Revision due to VFD equipment modification.

LOT-SIM-JP-002-A03 Page 10 of 12 Rev. 08

Reactor Recirc Pump Start

- Dual Pump Trip Validation Time:

21 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes V

No EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 I for evaluation guidance)

Comments:

Comments Reviewed With Performer Evaluator Signature:

Date:_______________

LOT-SIM-JP-002-A03 Page 11 of 12 Rev. 08

TASK CONDITIONS:

1.

Recirculation pump 2B is being restarted.

2. APRM trip and alarm setpoints were NOT changed to support single loop operation.

3. An off-going operator has completed 20P-02, Section 5.2 up to step 5.2.2.17.

4. Another operator is available to make the required log entries.

INITIATING CUE:

You are to continue the startup of Recirculation Pump 2B and inform the Unit CRS when 20P-02, Section 5.2 has been completed.

Page 12 of 12

2012 NRC SIMH LESSON TITLE:

Bypass a Control Rod From the RWM Sequence LESSON NUMBER:

LOT-SIM-JP-007-AO1 REVISION NO:

6 PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Robert Bolin 9/05/2012 Operations nstructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE DATE Facility Representative DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE SIMULATOR

Bypass a Control Rod from the RWM Sequence SIMULATOR SETUP Initial Condition Any simulator IC, with RWM operable Triggers None Malfunctions None Overrides None Remotes None Special Instructions NOTE:

Control Rod 46-19 must be unbypassed in the RWM upon completion of this JPM.

Resetting the simulator when this JPM is complete DOES NOT clear the bypassed rod in the RWM.

1.

Check the Rod Worth Minimizer (RWM) to ensure the absence of any bypassed control rod. The instructor should use 20P-07, Section 8.17: Unbypassing a Control Rod in the Rod Worth Minimizer to unbypass control rod(s) as needed.

2.

FULLY INSERT Control Rod 46-19.

3.

ENSURE the Rod Worth Minimizer (RWM) displays Control Rod 46-19 at Position 00.

LOT-SIM-JP-007-A01 Page 2 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence SAFETY CONSIDERATIONS:

None.

EVALUATOR NOTES: (Do not read to performer) 1.

When the performer has identified the proper procedure and section to be used, a copy of 20P-07, Section 8.13: Bypassing a Control Rod in the Rod Worth Minimizer, WILL be given to the performer.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained NUREG 1021, Appendix E, or similar to the performer.

Read the following to JPM Performer:

TASK CONDITIONS:

1.

Control Rod 46-19 has been fully inserted to suppress a fuel leak ard-hasrrofbeen bypassed inihe Rod Worth MihirniZer.

22OP-07Section 4.0Prerequisitesaremet

3. The Reactor Engineer has been contacted.

4. Technical Specifications have been reviewed for applicability.

INITIATING CUE:

The Unit CRS directs you to bypass Control Rod 46-19 in the Rod Worth Minimizer and inform him when the control rod has been bypassed.

LOT-SM-JP-O07-A01 Page 3 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence PERFORMANCE CHECKLIST Step 2 Initial Condition 8.13.1.2, RWM does NOT have a critical self test failure.

Performer assess RWM and determines that it does NOT have a critical self test failure by checking SELF TEST: OK and MODE: OPERATE.

Step 3

OBTAIN key to RWM Computer Display (P607).

SATIUNSAT*

Key for RWM Computer display obtained from the key locker. [Key #37] (Step Ia)

Step 4 ENSURE ROD SELECT POWER control switch is in ON.

Rod Select Power is turned to ON. (Step Ib)

SATIUNSAT*

SATIU NSAT*

NOTE:

Sequence is assumed unless denoted in the Comments.

Step 1 Obtain a current revision of 20P-07, Section 8.13.

Current Revision of 20P-07, Section 8.13 obtained.

SAT/U NSAT*

TIME START:

NOTE:

Critical Self-Test Failure determination for 2OP-07, Section 8.13, Initial Condition 8.13.1.2, may be satisfied from direct indication of SELF TEST: OK and MODE:

OPERATE.

PROMPT:

If asked regarding the presence of a critical self test failure, tell the performer that RWM status is as it appears.

LOT-SIM-J P-007-A0 1 Page 4 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence Step 5

SELECT the control rod to be bypassed.

Control Rod 46-19 is selectedçj recorded on procedure. (Step ic)

SATIU NSAT*

NOTE; Placing the RWM keylock switch to INOP wHI cause ROD BLOCK RWM/RMCS SYS TROUBLE (A-05, 5-2) annunciator.

Step 6

PLACE RWM Computer Display (P607) keylock switch in INOR RWM Computer Display keylock switch is in INOP (Step Id)

• • CRITICAL STEP

• • SATIUNSAT*

Step 7 PRESS ETC softkey until ROD BYPASS OPTIONS appears ROD BYPASS OPTIONS is displayed. (Step le)

SATIUNSAT*

Step 8 PRESS the ROD BYPASS OPTIONS softkey.

Rod Bypass Options softkey is pressed. (Step if)

• • CRITICAL STEP

• • SATIUNSAT*

Step 9

ENSURE correct ID of rod to bypass (use UP/DOWN cursor to change).

Control Rod 46-19 is selected for bypass (Step Ig)

• • CRITICAL STEP

• • SATIUNSAT*

Step 10 PRESS BYPASS ROD softkey BYPASS ROD softkey is pressed. (Step lh)

• • CRITICAL STEP

• • SAT/U NSAT*

LOT-SIM-JP-007-A01 Page 5 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence NOTE:

Control Rod 46-19 should be the only control rod displayed as a bypassed control rod.

Step 11 CONFIRM selected rod is added to display of bypassed control rods.

Control Rod 46-19 is displayed on the list. (Step Ii)

SATIUNSAT*

Step 12 PLACE RWM COMPUTER DISPLAY (P607) keylock switch in OPER (OPERATE).

RWM COMPUTER DISPLAY keylock switch in OPER. (Step ii)

• • CRITICAL STEP

• • SATIUNSAT*

Step 13 Press DISPLAY OFF softkey to extinguish screen.

DISPLAY OFF pressed and screen extinguished. (Step 1k)

SATIU NSAT*

Step 14 ENSURE annunciator ROD BLOCK RWM/RMCS SYS TROUBLE (A-05 5-2) is clear.

ROD BLOCK RWM/RMCS SYS TROUBLE (A-05 5-2) alarm verified clear. (Step ii)

SATIUNSAT*

PROMPT:

If asked as Unit CRS regarding a soft shutdown, respond that that a soft shutdown is not desired. (Step Im)

PROMPT:

If asked as Unit CRS whether or not the bypassed control rod is inoperable, respond that the control rod is OPERABLE. (Step In)

PROMPT:

Notify the JPM performer that a Caution Tag idenVfying the bypassed control rod(s) in the RWM will be posted by another Operator. (Step lo)

LOT-SlM-J P-007-A0 1 Page 6 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence Step 16 Inform the Unit CRS that Control Rod 46-19 is bypassed Unit CRS informed Rod 46-19 is bypassed.

SATIUNSAT*

I TERMINATING CUE:

Control Rod 46-19 is bypassed in the RWM.

TIME COMPLETED:

NOTE: Control Rod 46-19 must be unbypassed in the RWM upon completion of this JPM.

Resetting the simulator when this JPM is complete DOES NOT clear the bypassed rod intheRWM.

J LOT-SIM-JP-007-AO1 Page 7 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence RELATED TASKS:

214201B401:

Bypass! unbypass a control rod from the Rod Worth Minimizer Computer Display KIA REFERENCE AND IMPORTANCE RATING:

201006 A2.05 3.1/3.5 Ability to use procedures to correct or control out of sequence rod movement.

REFERENCES:

001-53, Rod Worth Minimizer (NUMAC-RWM) 20P-07, Reactor Manual Control System Operating Procedure SD-07.1, Rod Worth Minimizer System (RWM)

TOOLS AND EQUIPMENT:

Key [#37] for RWM Computer Display.

SAFETY FUNCTION (from NUREG 1123 Revision 2, Supplement 1):

7 Instrumentation REASON FOR REVISION:

Updated to the current JPM template.

LOT-SIM-JP-007-A01 Page 8 of 10 Rev. 6

Bypass a Control Rod from the RWM Sequence Validation Time:

11 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate Actual V

Unit:

2 Setting:

In-Plant Simulator V

Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes No V

EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-411 for evaluation guidance)

Comments:

Comments reviewed with Student Evaluator Signature:

Date:

LOT-SIM-JP-007-AO1 Page 9 of 10 Rev. 6

TASK CONDITIONS:

1.

Control Rod 46-19 has been fully inserted to suppress a fual leak and has not been bypassed in the Rod Worth Minimizer.

2. 20P-07, Section 4.0 Prerequisites are met.

3. The Reactor Engineer has been contacted.

4. Technical Specifications have been reviewed for applicability.

INITIATING CUE:

The Unit CRS directs you to bypass Control Rod 46-19 in the Rod Worth Minimizer and inform him when the control rod has been bypassed.

Page 10 of 10

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE IN-PLANT JPM I LESSON TITLE:

LESSON NUMBER:

REVISION NO:

PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Alternate Coolant Injection

- EOP-LEP-01

- Coolant Injection with SLC Pumps Aligned To Demineralized Water AOT-OJT-J P-300-J 10 07 Robert Bolin 8/30/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE Facility Representative DATE

Alternate Coolant Injection

- EOP-LEP-01 Coolant Injection with SLC Pumps Aligned To Demineralized Water SAFETY CONSIDERATIONS:

1.

Radiological hazards.

2.

Operating equipment hazards.

EVALUATOR NOTES: (Do not read to trainee) 1.

The applicable procedure section WILL be supplied to the trainee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained in NUREG 1021, Appendix E, or similar to the trainee.

3.

The task standard (i.e. pass fail criteria) is italicized.

4.

This JPM may be performed on either Unit, as selected by the evaluator.

Read the foIIowng to the JPM performer TASK CONDITIONS:

1.

This JPM will be performed on Unit (Designated by the evaluator) 2.

The SLC system and the Demineralized Water system are operable and /

accessible.

3.

Reactor pressure is b ew4he-uppariangeoftheSLC pump discharge

/\\

(0i 380-psig).-

4.

EOP-01 has directed control operators to enter LEP-Ol to restore and/or maintain RPV level above TAF.

5.

All control rods are fully inserted.

INITIATING CUE:

You are the Reactor Building AO. You are directed by the Control Operator (with CRS approval) to perform the Auxiliary Operator actions associated with aligning Unit SLC using Demineralized Water per LEP-Ol, Section 1 and inform the control room when you have completed the actions.

AOT-OJT-JP-300-J10 Page 2 of 10 Rev. 07

Alternate Coolant Injection

- EOP-LEP-01 Coolant Injection with SLC Pumps Aligned To Demheralized Water PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1

- Determines that EOP-01-LEP-01, Section 1, Step 4 is the starting point and proceed to the Reactor Building 80 elevation.

Identifies that steps 1 through 3 have been marked off by the RO in the procedure and starts with the first AC step.

SAT/UNSAT Start Time:

Ii NOTE: All actions are performed locally in the reactor building Step 2-Unlock and close SLC storage tank outlet isolation valve, C41-F001.

C41-FOO1 unlocked (locking tab cut and chain removed from handwheel) and manually closed by turning the handwheel in the closed direction until full resistance is met. (Step 4a).

• • CRITICAL STEP** SAT/UNSAT NOTE: The student should not remove items from or open the LEP Toolbox, but they should state where the equipment is located.

Step 3 Obtain pipe wrench and Demineralized Water to SLC Jumper Hose from 80 LEP Toolbox.

Demineralized Water to SLC Jumper Hose (picture attached) and pipe wrench is obtained from LEP Toolbox.

• • CRITICAL STEP** SATIUNSAT AOT-OJT-JP-300-J10 Page 3 of 10 Rev. 07

Alternate Coolant Injection

- EOP-LEP-01 Coolant Injection with SLC Pumps Aligned To Demineralized Water NOTE: The LEP toolbox key is issued to the reactor building AO at turnover. Alternate method would be to obtain the key from the key locker in the control room.

NOTE: LEP Toolbox is located on the RB 80 elevation next to the South stairs.

NOTE: Picture provided of the SLC Jumper to help with explanation of connections.

NOTE: The examinee should indicate that a pipe cap will have to be removed to install the threaded connection.

Step 4 Connect one end of the Demineralized Water to SLC Jumper Hose to the threaded connection at the SLC Demineralized Water Supply Isolation Valve, C41-V5000.

Demineralized Water to SLC Jumper Hose is connected to threaded connection at V5000 (Step 4b).

• • CRITICAL STEP** SATIUNSAT NOTE: The examinee should indicate that a pipe cap will have to he removed to install the threaded connection.

Step 5 Connect the other end of the Demineralized Water to SLC Jumper Hose to the threaded connection upstream of the SLC Test Tank Outlet Demineralized Water Supply Isolation Valve, C41-F014.

Demineralized Water to SLC Jumper Hose is connected to threaded connection at F014 (Step 4c).

• • CRITICAL STEP** SAT/UNSAT AOT-OJT-JP-300-J10 Page 4 of 10 Rev. 07

Alternate Coolant Injection

- EOP-LEP-O1 Coolant Injection with SLC Pumps Aligned To Demineralized Water Step 6 Open the SLC Demin Water Supply Isolation Valve, C41-V5000.

C41-V5000 is manually opened by turning handle 90° so that it/s in-line with the piping, at 80 Rx Bldg (Step 4d).

• • CRITICAL STEP** SATIUNSAT Step 7

- Unlock and open SLC Test Tank Outlet Demineralized Water Supply Isolation Valve, C41-F014.

C41-F014 unlocked (locking tab cut and chain removed from handwheel) and manually opened valve by turning valve handle in the counterclockwise direction until full resistance is met, at 80 Rx Bldg above SLC test tank. (Step 4e)

• • CRITICAL STEP** SATIUNSAT NOTE:

Steps 5a-e of the procedure are N/A (Fire protection water is not being used).

PROMPT:

If asked, as the Reactor Operator, report that air sparging of the SLC tank is not in progress. (Step 6)

Step 8

- Verify sparging of the SLC tank is NOT in progress.

The student may contact the Control Room for verification or the student may verify thattlJy&ve-ts closed by attempting to close the valve in the closed (clockwis) direction. (Step 6)

/

//

SATIUNSAT AOT-OJT-JP-300-J1O Page 5 of 10 Rev. 07

Alternate Coolant Injection

- EOP-LEP-O1 Coolant Injection with SLC Pumps Aligned To DemieraIized Water Step 9

- Contact the control room to start the SLC pumps.

Control room informed that SLC is aligned to Demineralized Water and that the pumps can be started. (Step 7)

SATIU NSAT TERMINATING CUE: All AC actions complete and Control Room notified to start pumps.

TIME COMPLETED:___________

Comments required for any step evaluated as UNSAT.

AOT-OJT-JP-300-J1O Page 6 of 10 Rev. 07

Alternate Coolant Injection

- EOP-LEP-01 Coolant Injection with SLC Pumps Aligned To Demineralized Water RELATED TASKS:

200071 B504 Perform Alternate Coolant Injection With SLC Pumps Per OEOP-01-LEP-01.

K/A REFERENCE AND IMPORTANCE RATING:

295031 EA1.08 3.8/3.9 Ability to operate and/or monitor the following as they apply to REACTOR LOW WATER LEVEL: Alternate injection systems: Plant-specific

REFERENCES:

1.

EOP-01-LEP-01, Alternate Coolant Injection, Section 1.

TOOLS AND EQUIPMENT:

1.

1 LEP Toolbox Key 2.

Pipe wrench 3.

Demineralized Water to SLC Jumper hose SAFETY FUNCTION (from NUREG 1123, Rev. 2)

Safety Function 2, Reactor Water Inventory Control REASON FOR REVISION:

Minor format changes.

AOT-OJT-JP-300-J10 Page 7 of 10 Rev. 07

Alternate Coolant Injection

- EOP-LEP-O1 Coolant Injection with SLC Pumps Aligned To Demineralized Water Validation Time:

12 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate V

Actual Unit:

1 / 2 Setting:

In-Plant V

Simulator Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes No v

EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments Reviewed With Performer Evaluator Signature:

Date:_______________

AOT-OJT-JP-300-J1O Page 8 of 10 Rev. 07

t3 Ca CD CD 0

-h 0

I I

1

TASK CONDITIONS:

1.

This JPM will be performed on Unit (Designated by the evaluator) 2.

The SLC system and the Demineralized Water system are operable and accessible.

3.

Reactor pressure is below the upper range of the SLC pump discharge pressure (0-1380 psig).

4.

EOP-01 has directed control operators to enter LEP-Ol to restore and/or maintain RPV level above TAF.

5.

All control rods are fully inserted.

INITIATING CUE:

You are the Reactor Building AO. You are directed by th3 Control Operator (with CRS approval) to perform the Auxiliary Operator actions associated with aligning Unit SLC using Demineralized Water per LEP-Ol, Section 1 and inform the control room when you have completed the actions.

Page 10 of 10

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE IN-PLANT JPM J LESSON TITLE:

Charging Hydraulic Control Unit Accumulators Alt Path LESSON NUMBER: AOT-OJT-JP-008-04 REVISION NO:

0 PREPARED BY:

CONCURRED BY:

VALIDATED BY:

Robert Bolin 8/30/2012 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE APPROVED BY:

Facility Representative DATE

Charging Hydraulic Control Unit Accumulators SAFETY CONSIDERATIONS:

1.

Inform SM/CRS of JPM performance prior to commencing In-plant JPM.

2.

Observe radiological conditions to achieve ALARA.

3.

High Pressure N2 and water will be trapped between the N2 charging connection and the scram accumulator gas-side drain isolation valve.

4.

Potentially contaminated water.

EVALUATOR NOTES: (Do not read to performer) 1.

The applicable procedure section WILL be provided to the trainee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained NUREG 1021, Appendix E, or similar to the trainee.

3.

This JPM may be performed on either on the north or south bank of accumulators, as selected by the evaluator. Cli is the predecessor for Unit 1 valving and 012 is the predecessor for Unit 2 valving.

Accumulator 42-47 for the North Bank.

Accumulator 14-47 for the South Bank.

Read the following to the JPM performer.

TASK CONDITIONS:

1.

This task will be performed on Unit Two.

2.

All applicable prerequisites of OP-08 have been met.

3.

Control annunciator on panel A-07, CRD ACCUM LO PRESS!HI LEVEL, has alarmed for HCU 42-47 114-47 (select one).

INITIATING CUE:

-oti--afd+Fete4-by-t4-C-antrUl-OratUr-to heeuter.

L*ui/

(iLk AOT-OJT-JP-008-04 Page 2 of 8 Rev.0

Charging Hydraulic Control Unit Accumulators PERFORMANCE CHECKLIST:

NOTE: Sequence is assumed unless denoted in the Comments.

START TIME:

It NOTE:

The student must determine if the HCU is low/Pressure or high water at the local HCU panel. When the HCU light on the locfli panel is depressed the light will remained ilIuminated.The-[igN-remaiusJlliim[naid.iara.low pressure condition esl and the light will go out if the condition is due to high water in the HCU.

PROMPT:

Inform examinee that HCU Accumulator light remains on when depressed on the local HCU panel.

Step 1 Locates HCU Accumulator on the local panel and depresses light.

/

/

1 /

/ /

/

Cl//fl SATIUNSAT*

NOTE:

If the performer identifies incorrectly that it is a high water condition provide the performer with the identified procedure, provide cues for a small amount of water discharging as the nitrogen capJs.removedand nowates only aijJs djsjjar[

the C12-1 11 valve is opi. After completion of the section when the light is to be flfid aEETTj3ffThe light is still illuminated.

Step 2 Reports to the control room that a low pressure condition exists.

If exam/flee reports low pressure, inform exam/flee as the CRS to recharge the HCU IA W OP-08 Section 8.9 and provide the performer with a copy of the procedure.

If examinee reports high water condition, inform examinee as the CRS to drain the HCU lAW OP-08 Section 8.11 and provide the performer with a copy of the procedure. (Critical step is UNSA T)

• • CRITICAL STEP**SATIUNSAT AOT-OJT-JP-008-04 Page 3 of 8 Rev.O

Charging Hydraulic Control Unit Accumulators PROMPT:

Inform the performer that the HCU pressure is 950 psig.

Step 3 Records initial HCU accumulator pressure on Attachment 10.

Records initial HCU accumulator pressure of 950 psig on Attachment 10. (Step 1)

SATIUNSAT Step 4-Close CHARGING-WATER-RISER ISOLATION VALVE, C12-113.

C12-1 13 valve closed as indicated by turning the handwheel in the clockwise direction until full resistance is obtained. (Step 2)

SATIUNSAT NOTE:

High pressure nitrogen and water will be trapped between the nitrogen charging connection P6 and Scram Accumulator Gas-Side Drain lsoation Valve, 012-111. The examinee needs to collect any leakage from the HCU into a suitable container (i.e.

plastic bag) while performing the next step. A wrench is required to remove the cap from the nitrogen charging connection P6 which can be found on the HCU charging rig.

Step 5 Remove cap from outlet side of SCRAM ACCUMULATOR WATER-SIDE DRAIN ISOLATION VALVE, C12-107.

While providing a means for capturing any leakage the CAP is turned in the counterclockwise direction with the wrench to loosen and relieve the pressure then the CAP is continued to rotate in the counterclockwise direction until fully removed.

(Step 3)

SATIU N SAT*

NOTE:

A suitable means may be a bucket to catch the water or the running of tygon tubing to a floor drain. Either can be obtained from Stores or any other acceptable location.

AOT-OJT-JP-008-04 Page 4 of 8 Rev.0

Charging Hydraulic Control Unit Accumulators Step 6

- Provide a means of routing water from outlet of SCRAM ACCUMULATOR WATER-SIDE DRAIN ISOLATION VALVE, C12-107, to a floor drain or a suitable container.

Drain path established by setting up tygon tubing to a floor drain or by using a bucket to collect the water and then pouring the water into the floor drain. (Step 4)

SATIUN SAT CAUTION If a reactor scram occurs while the 1ICU is being charged, SCRAM ACCUMULATOR WATER-SIDE DRAIN ISOLATION VALVE, C12-107, should be immediately closed to prevent spraying contaminated water.

Step 7-Discharge water accumulator by slowly opening SCRAM ACCUMULATOR WATER-SIDE DRAIN ISOLATION VALVE, C12-107.

C12-107 valve is opened by turning the valve handwheel slowly in the counterclockwise direction and verifying that the collection means is capable of handling flow from drain valve. (Step 5)

• • CRITICAL STEP**SATIUNSAT*

PROMPT:

After opening the C11(C12)-V107 valve, inform the performer that water discharge has stopped.

If asked, the accumulator gas pressure reads 550 psig and steady.

NOTE:

Student should determine that water pressure is completely discharged by observing steady gas pressure and lack of water discharging from drain valve.

Step 8-Close SCRAM ACCUMULATOR GAS-SIDE DRAIN ISOLATION VALVE, C12-111, finger tight to prevent valve damage resulting in body-to-bonnet leaks.

C12-1 11 is closed by rotating the valve handwheel in the clockwise direction until finger tight. (Step 6a)

SATIUN SAT AOT-OJT-JP-008-04 Page 5 of 8 Rev.0

Charging Hydraulic Control Unit Accumulators Prompt:

Inform the performe9fjjjollowLrig PA announcement: Unit Two is inserting arnafljN Reactor Scram. Tter a few seconds inform rf&mer that the scram valves have ned.

Note:

The operator should refer back to the caution prior to step 8.9.2.5 of the procedure and determine that the C12-107 should be closed immediately to prevent spraying contaminated water.

Prompt:

If C12-1Q7, is not immediately closed, inform the operator that catch container (drain mechanism established in step 7) is overflowing to the floor.

Step 9-Close SCRAM ACCUMULATOR WATER-SIDE DRAIN ISOLATION VALVE, C12-107.

C12-107 valve is closed by rotating valve handwheel in the clockwise direction until full resistance is obtained. (Procedural Caution Step

- Alternate Path)

• • CRITICAL STEP**SATIUNSAT*

NOTE:

May not notify the control room, but should determine that the procedure cannot be completed with the current plant conditions.

Step 10 Notify control room that C12-107 is closed and report that charging the accumulator cannot be completed with current plant conditions.

Acknowledge report from the performer.

SATIUNSAT TERMINATING CUE: When the HCU C12-107 valve is isolated this JPM is complete.

TIME COMPLETED NOTE: Comments required for any step evaluated as UNSAT AOT-OJT-JP-008-04 Page 6 of 8 Rev.0

Charging Hydraulic Control Unit Accumulators RELATED TASKS:

201009B104 Charge Hydraulic Control Unit Accumulator Per 1(2)OP-08.

KIA REFERENCE AND IMPORTANCE RATING:

201001 A2.10 3.5/

3.6 REFERENCES

20P-08, Control Rod Drive Hydraulic System TOOLS AND EQUIPMENT:

Proper PPE must be worn.

Wrench.

Suitable container for catching potenVally contaminated water (i.e. bucket, plastic bag, tygon tubing).

Soap solution for leak checks is needed.

SAFETY FUNCTION (from NUREG 1123, Rev. 2, Supp. 1):

3.1 Reactivity Control REASON FOR REVISION:

Minor editorial changes AOT-OJT-JP-008-04 Page 7 of 8 Rev.0

Charging Hydraulic Control Unit Accumulators Validation Time:

16 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate V

Actual Unit:

2 Setting:

In-Plant V

Simulator Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes V

No EVALUATION Performer:_____________________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No Comments:

Comments reviewed with Performer Evaluator Signature:

Date:__________

AOT-OJT-JP-008-04 Page 8 of 8 Rev.O

TASK CONDITIONS:

1. This task will be performed on Unit Two 2.

All applicable Prerequisites of OP-08 have been met.

3.

Control annunciator on panel A-07, CRD ACCUM LO PRESS/HI LEVEL, has alarmed for HCU 42-47 I 14-47 (select one).

INITIATING CUE:

You are directed by the Control Operator to perform the field actions to clear the control room annunciator for the HCU accumulator.

DUKE ENERGY BRUNSWICK TRAINING SECTION JOB PERFORMANCE MEASURE IN-PLANT JPM K LESSON TITLE:

LESSON NUMBER:

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode REVISION NO:

0 PREPARED BY:

CONCURRED BY:

VALIDATED BY:

APPROVED BY:

Robert Bolin 9/03/20 12 Operations Instructor/Developer DATE Operations Instructor/Developer DATE Operations Department Rep.

DATE Facility Representative DATE

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode SAFETY CONSIDERATIONS:

1.

Radiological hazards.

2.

Operating equipment hazards.

EVALUATOR NOTES: (Do not read to trainee) 1.

The applicable procedure section WILL be supplied to the trainee.

2.

If this is the first JPM of the JPM set, read the JPM briefing contained in NUREG 1021, Appendix E, or similar to the trainee.

3.

The task standard (i.e. pass fail criteria) is italicized.

Read the following to the JPM performer TASK CONDITIONS:

1.

1A RBCCW Heat Exchanger is aligned to ADHR Mode 2.

RBCCW Pump 1 D control switch is in OFF.

INITIATING CUE:

You are directed by the Unit One Control Operator to align the 1 D RBCCW pump from RBCCW Mode to ADHR Mode lAW 1OP-21 Section 8.18 and inform the control room when you have completed the actions.

AOT-OJT-JP-300-J10 Page 2 of 8 Rev. 07

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode PERFORMANCE CHECKLIST NOTE: Sequence is assumed unless denoted in the Comments.

Step 1 Determines that initial conditions are met and determines starting point is procedure is Step 2b.

Determines that an RCC Heat Exchanger is lined up for ADHR Mode and marks the initial conditions as complete.

Determines that IA Pump is not being used and N/As Step I.

° Determines that ID RBCCWpump is in OFF and marks Sj l-fas complete.

SATIUNSAT Start Time:

Step 2-Close RBCCWPUMP ID RBCCW MODE SUCTION VALVE, RCC-V5107.

Closes RCC-V5107 valve by rotating the valve handwheel in the clockwise direction until full resistance is met. (Step 2b).

• • CRITICAL STEP** SATIUNSAT Step 3 Close RBCCW PUMP 1 D RBCCW MODE DISCHARGE VALVE, RCC-V51 11.

Closes RCC-V51 11 valve by rotating the valve handwheel in the clockwise direction until full resistance is met. (Step 2c).

• • CRITICAL STEP** SATIUNSAT Step 4-Open RBCCW PUMP ID ADHR MODE SUCTION VALVE, RCC-V5I04.

Opens RCC-V5104 valve by rotating the valve handwheel in the counter clockwise direction until full resistance is met. (Step 2d).

• • CRITICAL STEP** SATIUNSAT AOT-OJT-JP-300-J1O Page 3 of 8 Rev. 07

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode Step 5-Open RBCCW PUMP ID ADHR MODE DISCHARGE VALVE, RCC-V5113.

Opens RCC-V51 13 valve by rotating the valve handwheel in the counter clockwise direction until full resistance is met. (Step 2e).

• • CRITICAL STEP** SATIUNSAT Step 6-Open RBCCW PUMP 1D CASING VENT VALVE, RCC-V5139.

Opens RCC-V5139 valve by rotating in the counter ciockwise direction just far enough to establish a flow of water. (Step 2f).

SATIU NSAT After RCCN5 139 has been opened inforeorr tta steady streaj Step 7

- When a steady stream of water is present, Then close RBCCW PUMP 10 CASING VENT VALVE, RCC-V5139.

Closes RCC-V5139 valve by rotating the valve handwheel in the clockwise direction until full resistance is met. (Step 2g)

SATIUNSAT I I NOTE:

The key required for the next step is AOT-OJT-JP-300-J1O Page 4 of 8 Rev. 07

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode Step 8-Ensure PUMP ID RBCCW/ADHR MODE SELECTOR SWITCH, 1-RCC-SS-7668, located at MCC 1XD, in ADHR with the key removed.

At MCC IXD (20 Rx Bldg SE) Compartment DIF places selector switch RCC SS-7668 to the ADHR position and removes the key (Step 2h)

SATIUNSAT PROMPT:

Inform the performer that the white indicati It for 1D RBCCW PtJflijD is on.

Step 9

- Confirm the ADHR white indicating light on the RTGB for RBCCW Pump 1 D is illuminated.

Contacts control room to verify ADHR white indicating light for ID RBCCW pump is on. (Step 2i)

SATIUNSAT TERMINATING CUE:

When valving operations are complete and the Control Room is notified then this JPM is complete.

TIME COMPLETED:___________

Comments required for any step evaluated as UNSAT.

AOT-OJT-JP-300-J1O Page 5 of 8 Rev. 07

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode RELATED TASKS:

Under development K/A REFERENCE AND IMPORTANCE RATING:

233000 K4.07 2.7/2.9 Knowledge of Fuel Pool Cooling and Cleanup design features and/or interlocks which provide for the following: Supplemental heat removal capability.

REFERENCES:

1.

1OP-21, Section 8.18.

TOOLS AND EQUIPMENT:

SAFETY FUNCTION (from NUREG 1123, Rev. 2)

Safety Function 9, Radioactivity Release (subsystem of Fuei Pool Cooling)

REASON FOR REVISION:

New JPM for a new system installed for outage.

AOT-OJT-JP-300-J10 Page 6 of 8 Rev. 07

Alignment of 1 D RBCCW Pump from RBCCW Mode to ADHR Mode Validation Time:

15 Minutes (approximate).

Time Taken:

APPLICABLE METHOD OF TESTING Performance:

Simulate V

Actual Unit:

Setting:

In-Plant V

Simulator Admin Time Critical:

Yes No V

Time Limit N/A Alternate Path:

Yes No V

EVALUATION Performer:______________________________________

JPM:

Pass Fail Remedial Training Required:

Yes No (Reference TAP-41 1 for evaluation guidance)

Comments:

Comments Reviewed With Performer Evaluator Signature:

Date:_______________

AOT-OJT-JP-300-J1O Page 7 of 8 Rev. 07

TASK CONDITIONS:

1.

1A RBCCW Heat Exchanger is aligned to ADHR Mode 2.

RBCCW Pump ID control switch is in OFF.

INITIATING CUE:

You are directed by the Unit One Control Operator to aUgn the 1 D RBCCW pump from RBCCW Mode to ADHR Mode lAW 1OP-21 Section 8.18 and inform the control room when you have completed the actions.

Page 8 of 8