Initial Exam 2009-301 Draft Sim/In-Plant JPMs

ML092120012
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Site:	Harris
Issue date:	07/31/2009
From:	NRC/RGN-II
To:	Progress Energy Carolinas
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Appendix C Page 1 of 13 Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 062008H601 Task

Title:

Restore Power to Emergency Buses JPM No.: 2009A NRC JPM a KIA

Reference:

062 A4.01 3.3/3.1 Examinee: NRC Examiner:

Facility Evaluator: Date: _ _ __

Method of testing:

Simulated Performance: Actual Performance: x Classroom ---

Simulator ---

x Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: A loss of All AC power and a Reactor trip has occurred. Neither EDG will start manually or from an SI signal.

Task Standard: Offsite Power restore to BOTH emergency buses Required Materials: None General

References:

EOP-EPP-001 (Rev. 31) Attachment 1 Initiating Cue: The SCO has directed you to restore offsite power to the emergency buses using EOP-EPP-001 Attachment 1.

The Load Dispatcher has given permission to restore offsite power to HNP's 6.9 KV buses and to reset any tripped Start Up XFMR lockout relays.

Time Critical Task: No Validation Time: 10 minutes 2009A NRC Exam JPM a Rev. 1

Appendix C Page 2 of 13 Form ES-C-1 Worksheet

(

SIMULATOR SETUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-161

• Go to RUN and Delete EPS01 w/o_delay

• Silence and Acknowledge annunicators

• For the first setup and between candidates move both EDG sync switch keys to EDG A-SA and EDG B-SB positions so the candidate will have to place the sync switch keys in the proper places

• (IF NEEDED) The 86 relays should roll when the simulator is placed in run. If not then run the APP file "Roll 86 Gen" or they can be manually overridden with override LO's

• XGA0018A GEN LOCKOUT G1A-TRIP COIL ON

• XGB0017A GEN LOCKOUT G1B-TRIP RELAY ON

(

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup has been saved to IC-161 on the Master Portable Hard Drive

• Initial Simulator IC was IC-19

• Insert DSG01 BOTH to fail both EDG's from operating

• Insert EPS01 w/o_delay to actuate a Loss of Offsite Power

• Shut 1CS-7&8, 1CS-1 &2

• Manually actuate SI

• After 60 seconds have elapsed reset SI

• Delete EPS01 w/o_delay

(

• Silence Acknowledge and Reset Annunciators

• Freeze and Snap to IC 2009A NRC Exam JPM a Rev. 1

Appendix C Page 3 of 13 Form ES-C-1 PERFORMANCE INFORMATION START TIME:

Simulator Operator: Go to run when the candidate indicates they are ready.

Performance Step: 1 OBTAIN PROCEDURE Standard: Obtains EPP-001 Attachment 1 Comment:

Performance Step: 2 Review CAUTION prior to step 1 Standard: Reads and initials CAUTION: Tripping of a Start Up XFMR lockout relay indicates a major fault on the XFMR. Re-energizing the XFMR may cause additional damage and should NOT be done without dispatcher's permission.

Comment:

( Step 1 Performance Step: 3 1. Obtain Load Dispatcher's permission prior to performing the following:

a. Restoring offsite power to 6.9 KV buses

b. Resetting any tripped Start Up XFMR lockout relays Standard: Reads step and recalls that the Load Dispatcher's permission to restore offsite power and reset any tripped Start Up XFMR lockout relays has been given in initiating cue.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 4 of 13 Form ES-C-1 PERFORMANCE INFORMATION Performance Step: 4 Review NOTE prior to step 2 Standard: Reads and initials NOTE: Steps 2 through 8 restore power to Bus A-SA and Steps 9 through 15 restore power to Bus B-SB Comment:

Step 2 Performance Step: 5 At Start Up XFMR Protective Relay Panel 1A, verify off-site power to Start Up XFMR A:

a. Verify the Start Up XFMR 1A Lockout SU 1A Relay is reset.

Standard: Locates relay and verifies relay is not tripped Comment:

Step 2.b

./ Performance Step: 6 b. Verify closed any of the following switch yard tie breakers to energize Start Up XFMR A:

• Breaker 52-2

• Breaker 52-3 Standard: Locates and CLOSES MCB switch for Breaker 52-2 and/or 52-3 Comment: Evaluator note: Closing either breaker will energize the Start Up XFMR A.

Throughout this JPM the Candidate may check MCB winding voltages after closing breakers or energizing a Transformer. It is NOT a required action .

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 5 of 13 Form ES-C-1 PERFORMANCE INFORMATION Step 3.a Performance Step: 7 Restore offsite power to 6.9 KV Aux Bus D:

a. Place Start Up XFMR To Aux Buses A & D Synchronizer control switch to BREAKER 101 position Standard: Obtains switch and places in Breaker 101 position Comment:

Step 3.b

./ Performance Step: 8 b. Close Start Up XFMR A To Aux Bus D Breaker 101 Standard: Locates and CLOSES Start Up XFMR A to Aux Bus D Breaker 101.

Comment: Examiners note: After closing the breaker the candidate may check Start Up XFMR voltages on MCB indicator EI-561 Step 3.c Performance Step: 9 Place Start Up XFMR To Aux Buses A & D Synchronizer control switch to OFF.

Standard: Takes Start Up XFMR To Aux Buses A & D Synchronizer control switch to OFF Comment:

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 6 of 13 Form ES-C-1 PERFORMANCE INFORMATION Step 4

./ Performance Step: 10 Verify Aux Bus D To Emergency Bus A-SA Breaker 104-CLOSED Standard: Locates and CLOSES Aux Bus D To Emergency Bus A-SA Breaker 104 Comment:

Step 5 Performance Step: 11 Verify Diesel Generator A-SA Breaker 106 A SA - OPEN Standard: Locates and verifies Diesel Generator A-SA Breaker 106 A SA is OPEN Comment:

Step 6.a Performance Step: 12 Energize 6.9 KV Bus A-SA:

a. Place Emergency Bus A-SA To Aux Bus D Synchronizer control switch to SYNC.

Standard: Locates and places Emergency Bus A-SA To Aux Bus Synchronizer control switch to the SYNC position Comment:

Step 6.b

./ Performance Step: 13 b.Close Emergency Bus A-SA To Aux Bus D Tie Breaker 105 Standard: Locates and CLOSES Emergency Bus A-SA To Aux Bus D Tie Breaker 105 Comment: Evaluator note: Candidate may check all 3 phases on MCR bus volts on indicator EI-6956A1 SA

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 7 of 13 Form ES-C-1 PERFORMANCE INFORMATION

( Step 6.c Performance Step: 14 Place Emergency Bus A-SA To Aux Bus D Synchronizer control switch to OFF.

Standard: Takes synchronizer control switch to OFF Comment:

Step 7

../ Performance Step: 15 Close the following 6.9 KV breakers:

• Emergency Bus A-SA To XFMR A 1 Breaker A 1 A-SA Standard: Locates and CLOSES Emergency Bus A-SA To XFMR A1 Breaker A 1 A-SA Comment:

Evaluator note: MCR lights will come back on when the breaker A3 A-SA is closed in the next step that supplies power to the MCR emergency lights.

Step 7 continued

../ Performance Step: 16

• Emergency Bus A-SA To XFMR A3-SA Breaker A3 A-SA Standard: Locates and CLOSES Emergency Bus A-SA To XFMR A3-SA Breaker A3 A-SA Comment:

../ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 8 of 13 Form ES-C-1 PERFORMANCE INFORMATION Step 8 Performance Step: 17 Verify 6.9 KV Emergency Bus A-SA To XFMR A2-SA Breaker A2 A-SA - CLOSED Standard: Locates and verifies 6.9 KV Emergency Bus A-SA To XFMR A2-SA Breaker A2 A-SA is CLOSED Comment:

Step 9 Performance Step: 18 On Start Up XFMR Protective Relay Panel 1B, verify off-site power to Start Up Aux XFMR B by performing the following:

a. Verify the Start Up XFMR 1B Lockout SU 1B Relay is reset.

Standard: Locates and verifies the Start Up XFMR 1B Lockout SU 1B Relay is reset

( Comment:

Step 9.b

./ Performance Step: 19 Verify any of the following switch yard tie breakers are closed to energize Start Up XFMR B:

• Breaker 52-13

• Breaker 52-14 Standard: Locates and CLOSES either/both Breaker 52-13 and Breaker 52-14 Comment:

Step 10

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 9 of 13 Form ES-C-1 PERFORMANCE INFORMATION Performance Step: 20 Restore offsite power to 6.9 KV Aux Bus E:

a. Place Start Up XFMR To Aux Buses B & E Synchronizer control switch to BREAKER 121 position.

Standard: Locates and places Start Up XFMR To Aux Buses B & E Synchronizer control switch to the BREAKER 121 position.

Comment:

Step 10.b

./ Performance Step: 21 b. Close Start Up XFMR B To Aux Bus E Breaker 121.

Standard: Locates and CLOSES Start Up XFMR B To Aux Bus E Breaker 121. (May check all 3 phases on MCB indicator EI-564)

Comment:

Step 10.c Performance Step: 22 c. Place Start Up XFMR To Aux Buses B & E Synchronizer control switch to OFF Standard: Takes Start Up XFMR To Aux Buses B & E Synchronizer control switch to OFF Comment:

Step 11 Performance Step: 23 Verify Aux Bus E To Emergency Bus B-SB Breaker 124-CLOSED Standard: Verifies Aux Bus E To Emergency Bus B-SB Breaker 124 is CLOSED Comment:

Step 12

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 10 of 13 Form ES-C-1 PERFORMANCE INFORMATION Performance Step: 24 Verify Diesel Generator B-SB Breaker 126 B SB - OPEN Standard: Locates and verifies Diesel Generator B-SB Breaker 126 B SB OPEN Comment:

Step 13.a Performance Step: 25 Energize 6.9 KV Bus B-SB:

a. Place Emergency Bus B-SB To Aux Bus E Synchronizer control switch to SYNC.

Standard: Locates switch and positions Emergency Bus B-SB To Aux Bus E Synchronizer control switch to SYNC Comment:

( Step 13.b

./ Performance Step: 26 b. Close Emergency Bus B-SB To Aux Bus E Tie Breaker 125 .

Standard: Locates and CLOSES Emergency Bus B-SB To Aux Bus E Tie Breaker 125 Comment:

Step 13.c Performance Step: 27 c. Place Emergency Bus B-SB To Aux Bus E Synchronizer control switch to OFF.

Standard: Takes Emergency Bus B-SB To Aux Bus E Synchronizer control switch to OFF Comment:

Step 14

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 11 of 13 Form ES-C-1 PERFORMANCE INFORMATION

./ Performance Step: 28 14. Close the following 6.9 KV breakers:

• Emergency Bus B-SB To XFMR B1-SB Breaker B1 A-SB Standard: Locates and CLOSES Emergency Bus B-SB To XFMR B1-SB Breaker B1 A-SB Comment:

Step 14 continued

./ Performance Step: 29 Close 6.9 KV breaker

• Emergency Bus B-SB To XFMR B3-SB Breaker B3 A-SB Standard: Locates and CLOSES Emergency Bus B-SB To XFMR B3-SB Breaker B3 A-SB (NOTE: the remainder of MCR emergency lights come on)

Comment:

Step 15 Performance Step: 30 15. Verify 6.9 KV Emergency Bus B-SB To XFMR B2-SB Breaker B2 A-SB - CLOSED Standard: Locates and verifies 6.9 KV Emergency Bus B-SB To XFMR B2-SB Breaker B2 A-SB is CLOSED Comment:

Step N/A Performance Step: 31 Report to SCO EPP-001 Attachment 1 is completed and Offsite Power is restored Comment:

Evaluator Cue: SCQ acknowledges completion of Attachment 1 and Offsite Power is restored Terminating Cue: END OF JPM STOP TIME:

./ - Denotes Critical Steps 2009A NRC Exam Rev. 1 JPM a

Appendix C Page 12 of 13 Form ES-C-1 VERIFICATION OF COMPLETION

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Job Performance Measure No.: 2009A NRC JPM a - Restore Power to Emergency Buses Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

(

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM a Rev. 1

Appendix C Page 13 of 13 Form ES-C-1 JPM CUE SHEET Initial Conditions: A loss of All AC power and a Reactor trip has occurred. Neither EDG will start manually or from an SI signal.

INITIATING CUE: The SCO has directed you to restore offsite power to the emergency buses using EOP-EPP-001 Attachment 1.

The Load Dispatcher has given permission to restore offsite power to HNP's 6.9 KV buses and to reset any tripped Start Up XFMR lockout relays.

(

2009A NRC Exam JPM a Rev. 1

LOSS OF AC POWER TO lA-SA AND lB-SB BUSES Attachment 1 Sheet 1 of 3 RESTORATION OF OFFSITE POWER TO EMERGENCY BUSES CAUTION Tripping of a Start Up XFMR lockout relay indicates a major fault on the XFMR. Re-energizing the XFMR may cause additional damage and should NOT be done without dispatcher's permission.

1. Obtain Load Dispatcher's permission prior to performing the following:

a. Restoring offsite power to 6.9 KV buses

b. Resetting any tripped Start Up XFMR lockout relays NOTE: Steps 2 through 8 restore power to Bus A-SA and Steps 9 through 15 restore power to Bus B-SB.

2. At Start Up XFMR Protective Relay Panel lA, verify off-site power to Start Up XFMR A:

a. Verify the Start Up XFMR lA Lockout SU lA Relay is reset.

b. Verify closed any of the following switch yard tie breakers to energize Start Up XFMR A:

o Breaker 52-2 o Breaker 52-3

3. Restore offsite power to 6.9 KV Aux Bus D:

a. Place Start Up XFMR To Aux Buses A & D Synchronizer control switch to BREAKER 101 position.

b. Close Start Up XFMR A To Aux Bus D Breaker 101.

c. Place Start Up XFMR To Aux Buses A & D Synchronizer control switch to OFF.

4. Verify Aux Bus D To Emergency Bus A-SA Breaker 104 - CLOSED

5. Verify Diesel Generator A-SA Breaker 106 A SA - OPEN

(

EOP-EPP-OOI I Rev. 31 I Page 50 of 66

LOSS OF AC POWER TO lA-SA AND IB-SB BUSES

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Attachment 1 Sheet 2 of 3 RESTORATION OF OFFSITE POWER TO EMERGENCY BUSES

6. Energize 6.9 KV Bus A-SA:

a. Place Emergency Bus A-SA To Aux Bus D Synchronizer control switch to SYNC.

b. Close Emergency Bus A-SA To Aux Bus D Tie Breaker 105.

c. Place Emergency Bus A-SA To Aux Bus D Synchronizer control switch to OFF.

7. Close the following 6.9 KV breakers:

o Emergency Bus A-SA To XFMR Al Breaker Al A-SA o Emergency Bus A-SA To XFMR A3-SA Breaker A3 A-SA

8. Verify 6.9 KV Emergency Bus A-SA To XFMR A2-SA Breaker A2 A-SA

- CLOSED

9. On Start Up XFMR Protective Relay Panel IB, verify off-site power to Start Up Aux XFMR B by performing the following:

a. Verify the Start Up XFMR IB Lockout SU IB Relay is reset.

b. Verify any of the following switch yard tie breakers are closed to energize Start Up XFMR B:

o Breaker 52-13 o Breaker 52-14

10. Restore offsite power to 6.9 KV Aux Bus E:

a. Place Start Up XFMR To Aux Buses B & E Synchronizer control switch to BREAKER 121 position.

b. Close Start Up XFMR B To Aux Bus E Breaker 121.

c. Place Start Up XFMR To Aux Buses B & E Synchronizer control switch to OFF.

11. Verify Aux Bus E To Emergency Bus B-SB Breaker 124 - CLOSED

12. Verify Diesel Generator B-SB Breaker 126 B SB - OPEN EOP-EPP-OOI I Rev. 31 I Page 51 of 66

LOSS OF AC POWER TO lA-SA AND 1B-SB BUSES Attachment 1 Sheet 3 of 3 RESTORATION OF OFFSITE POWER TO EMERGENCY BUSES

13. Energize 6.9 KV Bus B-SB:

a. Place Emergency Bus B-SB To Aux Bus E Synchronizer control switch to SYNC.

b. Close Emergency Bus B-SB To Aux Bus E Tie Breaker 125.

c. Place Emergency Bus B-SB To Aux Bus E Synchronizer control switch to OFF.

14. Close the following 6.9 KV breakers:

o Emergency Bus B-SB To XFMR B1-SB Breaker B1 A-SB o Emergency Bus B-SB To XFMR B3-SB Breaker B3 A-SB

15. Verify 6.9 KV Emergency Bus B-SB To XFMR B2-SB Breaker B2 A-SB

- CLOSED EOP-EPP-001 I Rev. 31 I Page 52 of 66

Appendix C Job Performance Measure Form ES-C-1 Worksheet

( Facility: Shearon Harris Task No.: 061007H101 Task

Title:

Using ESW System As A Backul2 JPM No.: 2009A NRC JPM b Source Of Water To AFW KIA

Reference:

054AA1.01 4.5/4.4 Examinee: NRC Examiner:

Facility Evaluator: Date: _ _ __

Method of testing:

Simulated Performance: Actual Performance: X Classroom ---

Simulator X Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: A LOCA has occurred and PATH-1 is being implemented. Both A and B Motor Driven AFW pumps are in operation.

Task Standard: Train A ESW is supplying AFW pumps.

Required Materials: None General

References:

OP-137 Initiating Cue: A leak has developed in the Condensate Storage Tank (CST) and level has decreased to less than 10 percent.

Your directions are to secure the B Motor Drive AFW pump then switch the AFW water supply from the CST to ESW Header A for the A Motor Driven AFW pump and the Turbine Driven AFW pump per OP-137, Section 8.1.

ONLY one Train of ESW will be aligned to the suction of the AFW pumps to prevent both Trains of Containment Fan Coolers from becoming inoperable.

Time Critical Task: No Validation Time: 9 Minutes 2009A NRC Exam Rev. 1 JPM b Rev. 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SETUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-1S2

• Go to RUN

• Silence and Acknowledge annunicators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup has been saved to IC-162 on the Master Portable Hard Drive

• Initial Simulator IC was IC-19

(

• IMF LT:901 a (n 0 0) 8.50 (Level transmitter U-9010A1 SA should read 8.5 %)

• IMF LT:901 b (n 0 0) 8.30 (Level transmitter U-901 OB1 SB should read 8.3%)

3 Annunciators will be on due to these actions:

ALB-017-4-5 CST Empty ALB-017-5-5 CST Low Minimum Level ALB-017-6-5 CST Hi-HilLa-La Level

• IMF RCS18A (n 0 0) 150 Small Break LOCA A Loop 15% of 4.5" line

• Implement PATH-1

• Secure the TDAFW Pump 0 Close 1MS-70 0 Close 1MS-72

• Restore power to 1A-1 and 1B-1

• Reduce AFW flow to 300 KPPH total

• Silence, acknowledge and reset annunicators

• GO TO FREEZE and create a snap IC

(-

2009A NRC Exam Rev. 1 JPM b Rev. 1

Appendix C Page 3 of 12 Form ES-C-1 PERFORMANCE INFORAMTION START TIME:

Simulator Operator: Go to RUN when directed by Lead Examiner Evaluator Note: There isn't a step in OP-137 that directs when to secure the B MDAFW Pump. It will be at the candidate's discretion when to stop the pump. The JPM step to stop the pump is placed after lining up ESW to the A MDAFW Pump just as a place keeper. The candidate can secure the B MDAFW at any time prior to, during, or after the ESW alignment.

Performance Step: 1 OBTAIN PROCEDURE Standard: Locates OP-137 and refers to Section 8.1. and reviews initial conditions.

Evaluator Cue: Initial conditions have been met.

Comment:

(

Performance Step: 2 Review CAUTIONS prior to step 1 Standard: Reads and initials CAUTIONS:

The Emergency Service Water System serves as a backup source of water to the Auxiliary Feedwater System if the Condensate Storage Tank volume is exhausted or unavailable.

Since the Emergency Service Water System uses raw reservoir water, it is only used in extreme emergencies.

Isolating Service Water to the Containment Fan Coolers will make the Coolers inoperable, therefore only one Train of ESW should be aligned to the suction of the AFW pumps unless a determination has been made on the desirability of making both Trains of Containment Fan Coolers inoperable.

Comment:

(

\

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 4 of 12 Form ES-C-1 PERFORMANCE INFORAMTION

( Step 1 Performance Step: 3 TO SUPPLY AFW PUMP 1A-SA FROM ESW HEADER A:

a. DECLARE A TRAIN CONTAINMENT FAN COOLERS INOPERABLE Standard: Notifies SCO to declare A Train of Containment Fan Coolers INOPERABLE Evaluator Cue: usce acknowledges 'A' CFCs Inoperable.

Comment:

Step 1.b Performance Step: 4 Verify A Train Containment Fan Coolers are secured per OP-169 Standard: Obtains copy of OP-169 Rev. 17 and secures AH-2 A-SA and

( AH-3 A-SA per step 2 Comment:

Step 1.c Performance Step: 5 SHUT 1SW-92 SA, CNMT FAN COOLER AH-3 INLET Standard: Locates switch for 1SW-92. Positions switch to SHUT Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 5 of 12 Form ES-C-1 PERFORMANCE INFORAMTION Step 1.d Performance Step: 6 SHUT 1SW-97 SA, CNMT FAN COOLER AH-3 OUTLET Standard: Locates switch for 1SW-97. Positions switch to SHUT Comment:

Step 1.e Performance Step: 7 SHUT 1SW-91 SA, CNMT FAN COOLER AH-2 INLET Standard: Locates switch for 1SW-91. Positions switch to SHUT Comment:

Step 1.f Performance Step: 8 SHUT 1SW-109 SA, CNMT FAN COOLERAH-2 OUTLET Standard: Locates switch for 1SW-1 09. Positions switch to SHUT Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 6 of 12 Form ES-C-1 PERFORMANCE INFORAMTION Step 1.g Performance Step: 9 CLOSE 1SW-122, AFW PUMP 1A-SA SW DRAIN ISOLATION.

Standard: Directs AO to SHUT 1SW -122 Evaluator Cue: AO acknowledges direction to shut 1SW-122, AFW Pump 1A-SA SW Drain Isolation.

(Pause) AO reports 1SW-122 closed.

Comment:

Step 1.h

./ Performance Step: 10 OPEN 1SW-121SA, SW HEADER A TO AUX FW MOTOR PUMP A-SA.

Standard: Locates control switch for 1SW-121 and takes it to OPEN.

(

Comment:

Step 1.i

./ Performance Step: 11 OPEN 1SW-123SA, SW HEADER A TO AUX FW MOTOR PUMP A-SA.

Standard: Locates control switch for 1SW-123 and takes it to OPEN.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 7 of 12 Form ES-C-1 PERFORMANCE INFORAMTION Step 1.j Performance Step: 12 MONITOR AFW SYSTEM PARAMETERS TO ENSURE PROPER OPERATION.

Standard: Monitors PI-2150A1 A DISCH PRESS and PI-2250A1 A SUCT PRESS/ Monitors Aux Feedwater Flow on FI-2050A 1, B 1, and C1.

(Candidate may report to SCO that ESW is aligned to A AFW Pump. If so acknowledge information and direct candidate to continue lineup)

Comment:

Performance Step: 13 STOPS B MDAFW PUMP Standard: Locates control switch for B MDAFW and positions switch to

( STOP.

Comment:

Step 3 Performance Step: 14 TO SUPPLY AFW PUMP 1X-SAB FROM ESW HEADER A:

a. DECLARE A TRAIN CONTAINMENT FAN COOLERS INOPERABLE Standard: No action required (already declared)

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 8 of 12 Form ES-C-1 PERFORMANCE INFORAMTION Step 3.b Performance Step: 15 VERIFY A TRAIN CONTAINMENT FAN COOLERS ARE SECURED PER OP-169 Standard: No action required (already performed)

Comment:

Step 3.c Performance Step: 16 VERIFY SHUT 1SW-92 SA, CNMT FAN COOLER AH-3INLET' Standard: No action required (already performed)

Comment:

Step 3.d Performance Step: 17 SHUT 1SW-91 SA, CNMT FAN COOLER AH-2 INLET Standard: No action required (already performed)

Comment:

Step 3.e Performance Step: 18 VERIFY SHUT 1SW-91 SA, CNMT FAN COOLER AH-2INLET Standard: No action required (already performed)

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 9 of 12 Form ES-C-1 PERFORMANCE INFORAMTION Step 3.f Performance Step: 19 VERIFY SHUT 1SW-1 09 SA, CNMT FAN COOLER AH-2 OUTLET Standard: No action required (already performed)

Comment:

Step 3.g Performance Step: 20 SHUT 1SW-125, AFW PUMP 1X-SAB SW HEADER A DRAIN ISOLATION.

Standard: Contacts AO and tells him to close 1SW-125.

Evaluator Cue: AO acknowledges direction to shut 1SW-125, AFW Pump 1X-SAB SW Header A Drain Isolation.

C* (Pause) AO reports 1SW-125 closed.

Comment:

Step 3.h

./ Performance Step: 21 OPEN 1SW-124SA, SW HEADER A TO AUX FW TURBINE PMP.

Standard: Locates control switch for 1SW-124 and takes it to OPEN.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 10 of 12 Form ES-C-1 PERFORMANCE INFORAMTION

( Step 3.i

./ Performance Step: 22 OPEN 1SW-126SA, SW HEADER A TO AUX FW TURBINE PMP.

Standard: Locates control switch for 1SW-126 and takes it to OPEN.

Comment:

Step 3.j Performance Step: 23 MONITOR AFW SYSTEM TO ENSURE PROPER OPERATION.

Standard: No action required 1X-SAB AFW pump is not running but TD AFW pump Suction pressure should be seen to increase.

Report to SCO that 'A' ESW Header is supplying the 'A' MDAFW pump and the TDAFW pump.

Evaluator Cue: SCQ acknowledges that 'A' ESW Header is supplying the 'A' MDAFW Pump and the TDAFW Pump.

End of JPM Comment:

Terminating Cue: Completion of ESW line up and report to SCQ that 'A' ESW Header supplying both A MDAFW Pump and the TDAFW pump.

STOP TIME:

./ - Denotes Critical Steps 2009A NRC Exam JPM b Rev. 1

Appendix C Page 11 of 12 Form ES-C-1 VERIFICATION OF COMPLETION Job Performance Measure No.: 2009A NRC JPM b Using ESW System As A Backup Source Of Water To AFW Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

---

~

2009A NRC Exam JPM b Rev. 1

Appendix C Page12of12 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: A LOCA has occurred and PATH-1 is being implemented. Both A and B Motor Driven AFW pumps are in operation.

INITIATING CUE: A leak has developed in the Condensate Storage Tank (CST) and level has decreased to less than 10 percent.

Your directions are to secure the B Motor Drive AFW pump then switch the AFW water supply from the CST to ESW Header A for the A Motor Driven AFW pump and the Turbine Driven AFW pump per OP-137, Section 8.1.

ONLY one Train of ESW will be aligned to the suction of the AFW pumps to prevent both Trains of Containment Fan Coolers from becoming inoperable.

(

2009A NRC Exam JPM b Rev. 1

7.0 SHUTDOWN

( 7.1. Shutdown of Containment Fan Cooler Units (Normal Cooling mode) 7.1.1. Initial Conditions

1. System in operation as per Section 5.1 of this procedure.

7.1.2. Procedural Steps NOTE: In winter months, the operating train should be secured prior to starting the idle train, to minimize the potential for opening the Containment Vacuum Breakers.

1. Start idle train fans per Section 5.1 of this procedure prior to removing operating train from service, or monitor CNMT temperature and ensure it remains less than 118°F.

2. Place the control switch for each fan to be removed from service to STOP.

1 OP-169 Rev. 17 Page 12 of 361

8.0 INFREQUENT OPERATIONS 8.1. Using Emergency Service Water System as a Backup Source of Water to Auxiliary Feedwater System 8.1.1. Initial Conditions R 1. Condensate storage tank unavailable or level less than 10%.

(Reference 2.3.2)

2. Service Water System in operation per OP-139.

8.1.2. Procedural Steps CAUTION The Emergency Service Water System serves as a backup source of water to the Auxiliary Feedwater System if the Condensate Storage Tank volume is exhausted or unavailable. Since the Emergency Service Water System uses raw reservoir water, it is only used in extreme emergencies.

CAUTION Isolating Service Water to the Containment Fan Coolers will make the Coolers inoperable, therefore only one Train of ESW should be aligned to the suction of the AFW pumps unless a determination has been made on the desirability of making both Trains of Containment Fan Coolers inoperable.

1. To supply AFW pump 1A-SA from ESW Header A, PERFORM the following:

a. DECLARE A Train Containment Fan Coolers inoperable.

b. VERIFY A Train Containment Fan Coolers are secured per OP-169.

c. SHUT 1SW-92 SA, CNMT FAN COOLER AH-3 INLET.

d. SHUT 1SW-97 SA, CNMT FAN COOLER AH-3 OUTLET.

e. SHUT 1SW-91 SA, CNMT FAN COOLER AH-2 INLET.

f. SHUT 1SW-1 09 SA, CNMT FAN COOLER AH-2 OUTLET.

g. SHUT 1 SW-122, AFWP 1A SW Drain Isol.

h. OPEN 1SW-121SA, SW HEADER A TO AUX FW MOTOR PMP A-SA.

i. OPEN 1SW-123SA, SW HEADER A TO AUX FW MOTOR PMP A-SA.

j. MONITOR AFW system parameters to ensure proper operation.

I OP-137 Rev. 26 Page 33 of 751

8.1.2 Procedural Steps (continued)

2. To supply AFW pump 1 B-SB from ESW Header B, PERFORM the following:

a. DECLARE B TRAIN Containment Fan Coolers inoperable.

b. VERIFY B Train Containment Fan Coolers are secured per OP-169.

c. SHUT 1SW-227 SB, CNMT FAN COOLER AH-4 INLET.

d. SHUT 1SW-110 SB, CNMT FAN COOLER AH-4 OUTLET.

e. SHUT 1SW-225 SB, CNMT FAN COOLER AH-1 INLET.

f. SHUT 1SW-98 SB, CNMT FAN COOLER AH-1 OUTLET.

g. SHUT 1SW-131, AFWP 1B SW Drain Isol.

h. OPEN 1SW-130SB, SW HEADER B TO AUX FW MOTOR PMP B-SB.

i. OPEN 1SW-132SB, SW HEADER B TO AUX FW MOTOR PMP B-SB.

j. MONITOR AFW system parameters to ensure proper operation.

(~

CAUTION Do NOT cross tie the ESW trains together via the TDAFW pump suction supply from ESW. Crosstie is prevented by performing only Step 8.1.2.3 OR 8.1.2.3.h.

3. To supply AFW pump 1X-SAB from ESW Header A, PERFORM the following:

a. DECLARE A Train Containment Fan Coolers inoperable.

b. VERIFY A Train Containment Fan Coolers are secured per OP-169.

c. VERIFY SHUT 1SW-92 SA, CNMT FAN COOLER AH-3 INLET.

d. VERIFY SHUT 1SW-97 SA, CNMT FAN COOLER AH-3 OUTLET.

e. VERIFY SHUT 1SW-91 SA, CNMT FAN COOLER AH-2 INLET.

f. VERIFY SHUT 1SW-1 09 SA, CNMT FAN COOLER AH-2 OUTLET.

g. SHUT 1SW-125, AFWP 1X SW Header A Drain Isol.

(-- IOP-137 Rev. 26 Page 34 of 75 I

8.1.2 Procedural Steps (continued)

h. OPEN 1SW-124SA, SW HEADER A TO AUX FW TURBINE PMP.

(

i. OPEN 1SW*126SA, SW HEADERATOAUX FWTURBINE PMP.

j. MONITOR AFW system to ensure proper operation.

4. To supply AFW pump 1X-SAB, from ESW Header B, PERFORM the following:

a. DECLARE B Train Containment Fan Coolers inoperable.

b. VERIFY B Train Containment Fan Coolers are secured per OP-169.

c. VERIFY SHUT 1SW-227 SB, CNMT FAN COOLER AH-4 INLET.

d. VERIFY SHUT 1SW-11 0 SB, CNMT FAN COOLER AH-4 OUTLET.

e. VERIFY SHUT 1SW-225 SB, CNMT FAN COOLER AH-1 INLET.

f. VERIFY SHUT 1SW-98 SB, CNMT FAN COOLER AH-1 OUTLET.

g. SHUT 1SW-128, AFWP 1X SW Header B Drain Isol.

h. OPEN 1SW-127SB, SW HEADER B TO AUX FW TURBINE PMP.

C- i. OPEN 1SW-129SB, SW HEADER B TO AUX FWTURBINE PMP.

j. MONITOR AFW system to ensure proper operation.

IOP~137 Rev. 26 Page 35 of 751

Appendix C Job Performance Measure Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 301142H601 Task

Title:

Manually Align SI Equipment After JPM No.: 2009A NRC JPM c ALQSP KIA

Reference:

006 A4.02 4.0/3.8 ALTERNATE PATH Examinee: NRC Examiner:

Facility Evaluator: Oate: _ __

Method of testing:

Simulated Performance: Actual Performance: X Classroom ---

Simulator X Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: The plant was operating at 100 % power when a loss of offsite power occurred. The reactor is tripped. The 'A' and 'B' Diesels failed to start. EPP-001 was entered and followed until power could be restored to 1A-SA and 1B-SB from off-site. The crew is continuing efforts to stabilize the plant. The SCQ has completed EPP-001 and has transitioned to EPP-003, 'Loss of All AC Power Recovery With SI Required'.

Task Standard: SI valves have been manually aligned.

Required Materials: None General

References:

EQP-EPP-003 Rev. 20 Initiating Cue: The Unit SCQ has directed you to manually align SI valves per EPP-003, Step 3 in preparation for establishing SI flow Time Critical Task: No Validation Time: 5 minutes 2009A NRC Exam JPM c Rev. 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet

/

t SIMULATOR SETUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-163

• Go to RUN

• (IF NEEDED) The 86 relays should roll when the simulator is placed in run. If not then run the APP file "Roll 86 Gen" or they can be manually overridden with override LO's

• XGA0018A GEN LOCKOUT G1A-TRIP COIL ON

• XGB0017A GEN LOCKOUT G1B-TRIP RELAY ON

• Silence and Acknowledge annunciators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup has been saved to IC-163 on the Master Portable Hard Drive

• Initialized to IC-19 (100 % power condition)

• Insert a failure of the "A" EDG and "B" EDG to start <IMF DSG01 BOTH>. Then insert a loss of all AC <IMF EPS01 WIO DELAY>.

• Once the plant is stable, initiate an SI and wait 60 seconds. RESET the SI signal. Using Simulator MSC Drawing for EPP01 Open the breakers for the sequencers, remove control power for both CCW pumps, both Containment Spray pumps and 1A and 1B AFW pump.

• Then insert RCS leakage to the extent that a safety injection is needed. <IMF RCS 18A 6 0> Allow the Pressurizer to empty and pressure to drop to ~ 1250 psig.

• Then delete the loss of all AC malfunction <DMF EPS01> and restore power to all buses. Use the EOP-001 Attachment 1 to restore power to 1A-SA and 1B-SB from off-site. Perform actions in EPP-001 after power restoration which includes EPP-001 step 36.c including setting SG PORV set points to 84%,

transition to EPP-003, EPP-003 steps 1 & 2 are satisfied.

• Fail 1CS-746 in the OPEN position <ILO XA20189G OFF and 10L XA20189R ON>. Acknowledge and reset all alarms and place the simulator in FREEZE.

Snap this to an IC

• When you reset to this condition you would want to have the 86 relays rolled.

2009A NRC Exam JPM c Rev. 1

Appendix C Page 3 of 8 Form ES-C-1 PERFORMANCE INFORMATION START TIME:

Performance Step: 1 OBTAIN PROCEDURE Standard: Obtains copy of EPP-003 and goes to Step 3.

Comment:

Step 3.a

./ Performance Step: 2 a. OPEN CSIP SUCTION FROM RWST VALVES:

LCV-115B LCV-115D Standard: Locates control switch for LCV-115B and takes switch to OPEN Locates control switch for LCV-115D and takes switch to OPEN.

Comment:

Step 3.b

./ Performance Step: 3 SHUT VCT OUTLET VALVES:

LCV-115C LCV-115E Standard: Locates control switch for LCV-115C and takes switch to SHUT Locates control switch for LCV-115E and takes switch to SHUT.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM c Rev. 1

Appendix C Page 4 of 8 Form ES-C-1 PERFORMANCE INFORMATION Step 3.c

" Performance Step: 4 SHUT CHARGING LINE ISOLATION VALVES:

1CS-235 1CS-238 Standard: Locates control switch for 1CS-235 and takes switch to SHUT Locates control switch for 1CS-238 and takes switch to SHUT.

Comment:

Step 3.d Performance Step: 5 CHECK RCS PRESSURE LESS THAN OR EQUAL TO 1800 PSIG.

Standard: Checks RCS pressure on ERFIS or MCB indicators and

( identifies pressure as < 1800 psig.

Comment:

Step 3.e Performance Step: 6 Check CSIP alternate miniflow isolation valves-SHUT:

1CS-746 (TRAIN A CSIP) 1CS-752 (TRAIN B CSIP)

Standard: Locates control switches for 1CS-746 and 1CS-752 and checks positions Identifies 1CS-746 is NOT shut Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM c Rev. 1

Appendix C Page 5 of 8 Form ES-C-1 PERFORMANCE INFORMATION Step 3.e RNO

./ Performance Step: 7 Shut the associated block valve:

1CS-745 (Train A CSIP)

Standard: Locates control switch for 1CS-745 and takes switch to SHUT.

Comment:

c

./ - Denotes Critical Steps 2009A NRC Exam JPM c Rev. 1

Appendix C Page 6 of 8 Form ES-C-1 PERFORMANCE INFORMATION Step 3.f

./ Performance Step: 8 SHUT NORMAL MINIFLOW ISOLATION VALVES:

1CS-182 1CS-196 1CS-210 1CS-214 Standard: Locates control switches for 1CS-182, 1CS-196, 1CS-21 0, and 1CS-214 and takes them to SHUT.

Comment:

Step 3.g

./ Performance Step: 9 OPEN BIT OUTLET VALVES:

1SI-3 1SI-4 Standard: Locates control switch for 1SI-3 and takes switch to OPEN Locates control switch for 1SI-4 and takes switch to OPEN Reports to SCO that SI valves have been manually aligned to establish SI Injection Mode Evaluator Cue: SCQ acknowledges that SI valves have been manually aligned to establish SI Injection Mode.

End of JPM Comment:

Terminating Cue: BIT outlet valves are aligned.

STOP TIME:

./ - Denotes Critical Steps 2009A NRC Exam JPM c Rev. 1

Appendix C Page 7 of 8 Form ES-C-1 VERIFICATION OF COMPLETION

(

Job Performance Measure No.: . 2009A NRC JPM c Manually Align SI Equipment After A LOSP Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Date:

Signature:

2009A NRC Exam JPM c Rev. 1

Appendix C Page 8 of 8 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: The plant was operating at 100 % power whim a loss of offsite power occurred. The reactor is tripped. The 'A' and

'B' Diesels failed to start. EPP-001 was entered and followed until power could be restored to 1A-SA and 1B-SB from off-site. The crew is continuing efforts to stabilize the plant. The SCO has completed EPP-001 and has transitioned to EPP-003, 'Loss of All AC Power Recovery With SI Required'.

INITIATING CUE: The Unit SCO has directed you to manually align SI valves per EPP-003, Step 3 in preparation for establishing SI flow.

2009A NRC Exam JPM c Rev. 1

LOSS OF ALL AC POWER RECOVERY WITH SI REQUIRED

( rl Instructions L . . - -_ _ _ _ _ _ ---I Response Not Obtained L . . - -_ _ _ _ _ _

~

---Ir-

3. Manually Align SI Valves To Establish SI Injection Mode:

a. Open CSIP suction from RWST valves:

LCV-llSB LCV-llSD

b. Shut VCT outlet valves:

LCV-llSC LCV-llSE

c. Shut charging line isolation valves:

1CS-23S 1CS-238

d. Check RCS pressure - LESS d. WHEN pressure less than THAN OR EQUAL TO 1800 PSIG 1800 PSIG, THEN do Step 3e.

Continue with Step 3f.

( e. Check CSIP alternate e. Shut the associated block miniflow isolation valves - valve:

SHUT 1CS-74S (Train A CSIP) 1CS-746 (Train A CSIP) 1CS-7S3 (Train B CSIP) 1CS-7S2 (Train B CSIP)

f. Shut normal miniflow isolation valves:

1CS-182 1CS-196 1CS-210 1CS-214

g. Open BIT outlet valves:

lSI-3 lSI-4 EOP-EPP-003 I Rev. 20 I Page 6 of 37

Appendix C Job Performance Measure Form ES-C-1 Worksheet

{ Facility: Shearon Harris Task No.: 004003H101

\

Task

Title:

Place Normal Letdown In Service JPM No.: 2009A NRC JPM d KIA

Reference:

004 A4.06 3.6/3.1 AL TERNATE PATH Examinee: NRC Examiner:

Facility Evaluator: Oate: _ __

Method of testing:

Simulated Performance: Actual Performance: X Classroom ---

Simulator X Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job c Performance Measure will be satisfied.

Initial Conditions: The plant is operating at 100 percent power. Letdown was out of service for maintenance. Maintenance has been completed and the clearance has been removed. Excess letdown was in service but has just been removed. Charging is in service per OP-107, Section 5.4.

Task Standard: In-service letdown orifice isolation valve is shut OR PK-145.1 is returned to MANUAL and 1CS-38 is adjusted to lower letdown pressure.

Required Materials: None General

References:

OP-107, Section 5.4 Rev. 77; APP-ALB-007 (3-5) Rev. 14 Initiating Cue: The seo instructs you to restore normal letdown, with a 60 gpm orifice in service, and return charging to normal.

Time Critical Task: No Validation Time: 10 Minutes 2009A NRC Exam JPM d Rev. 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SeTUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-164

• Go to RUN

• Silence and Acknowledge annunciators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup has been saved to IC-164 on the Master Portable Hard Drive

• Initialize to IC -19

• Isolate letdown by closing all orifice isolation valves (1CS-7, -8, -9), then closing 1CS-1, 1CS-2, and 1CS-11.

• Verify TK-144 in AUTO set to 4.0 and PK-145.1 in AUTO set to 58 percent.

• Place 1CS-231 (FK-122.1) in manual and close.

• Reduce RCP seal injection flow to - 8 gpm/RCP

• Insert malfunction < IMF CVC07 0 0 > of PK-145.1 such that the valve fails closed in AUTO.

2009A NRC Exam JPM d Rev. 1

Appendix C Page 3 of 11 Form ES-C-1 PERFORMANCE INFORMATION

( START TIME:

Performance Step: 1 OBTAIN PROCEDURE OP-107.

Standard: Obtains OP-107 and refers to Section 5.4, Initiating Normal Letdown. Reviews and verifies Initial Conditions Charging flow has been established Pressurizer level is greater than 17%

The following valves are shut

• 1CS-7, 45 GPM LETDOWN ORIFICE A

• 1CS-8, 60 GPM LETDOWN ORIFICE B

• 1CS-9, 60 GPM LETDOWN ORIFICE C Comment:

Caution prior to Step 1 c Performance Step: 2 If Charging flow was stopped or greatly reduced prior to letdown being secured, there is a possibility that the Letdown line contains voids due to insufficient cooling. This is a precursor to water hammer, and should be evaluated prior to initiating letdown flow.

Standard: Reviews and initials caution Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 4 of 11 Form ES-C-1 PERFORMANCE INFORMATION

( Step 1 Performance Step: 3 VERIFY 1CC-337, TK-144 LTON TEMPERATURE, controller is:

• In AUTO AND

• Set for 110-120DF (4.0 TO 4.7 ON POTENTIOMETER) normal operation OR

• Set for 90 to 120 0 (2.67 to 4.7 on potentiometer) if operating per Section 8.11 Standard: Locates TK-144 and observes potentiometer is adjusted to between 4.0 and 4.7.

Comment:

NOTE prior to Step 2

( Performance Step: 4 PK-145.1 LTON PRESSURE, 1CS-38, may have to be adjusted to control at lower pressures.

Standard: Reviews and initials note Comment:

Step 2 Performance Step: 5 VERIFY 1CS-38 Controller, PK-145.1 LTDN PRESSURE, IN MAN with output set at 50%.

Standard: Locates PK-145.1 and checks indication. Depresses MAN pushbutton and raises output to 50%

Comment:

(

./ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 5 of 11 Form ES-C-1 PERFORMANCE INFORMATION Step 3

../ Performance Step: 6 VERIFY OPEN THE FOLLOWING LETDOWN ISOLATION VALVES:

• 1CS-2, LETDOWN ISOLATION LCV-459

• 1CS-1, LETDOWN ISOLATION LCV-460 Standard: Locates control switch for 1CS-1 and takes switch to OPEN Locates control switch for 1CS-2 and takes switch to OPEN Comment:

Step 4

../ Performance Step: 7 VERIFY OPEN 1CS-11, LETDOWN ISOLATION.

Standard: Locates control switch for 1CS-11 and takes switch to OPEN

(~

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 6 of 11 Form ES-C-1 PERFORMANCE INFORMATION

( NOTE prior to Step 5 Performance Step: 8 The following table gives the minimum charging flow required to keep the regenerative heat exchanger temperature below the high temperature alarm when letdown is established Letdown flow (to be established) Min Charging Flow need 45gpm 20 gpm 60gpm 26 gpm 105 gpm 46gpm 120 gpm 53 gpm If Pressurizer level is above the programmed level setpoint, charging flow should be adjusted to a point above the minimum required to prevent regenerative heat exchanger high temperature alarm but low enough to reduce pressurizer level.

Standard: Reviews and initials note, from table determines min charging flow needed will be 26 gpm Comment:

Step 5

./ Performance Step: 9 ADJUST controller 1CS-231, FK-122.1 CHARGING FLOW, AS REQUIRED to:

• maintain normal pressurizer level program

• keep regenerative heat exchanger temperature below the high temperature alarm when the desired letdown orifice is placed in service Standard: Locates/observes FI-122A.1 and determines charging flow is 0 gpm, raises flow rate using 1CS-231 to.::: 26 gpm Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 7 of 11 Form ES-C-1 PERFORMANCE INFORMATION NOTE prior to Step 6 Performance Step: 10 If CVCS Demins have cooled from normal operating temperature, an increased reactivity affect may be observed.

Consideration may be given to increasing CVCS Demins to operating temperature by flushing them to the RHT prior to restoring letdown.

Standard: Reviews and initials note, asks SCO if it will be necessary to flush CVCS Demins to the RHT prior to restoring letdown.

Evaluator Cue: It will not be necessary to flush the CVCS Demins to the RHT.

Comment:

Step 6 Performance Step: 11 IF flushing CVCS Demins to the RHT is desired for increasing temperature, THEN PERFORM the following:

a. NOTIFY Radwaste Control Room that letdown flow will be diverted to the RHT.

b. PLACE 1CS-120, LETDOWN TO VCT/HOLDUP TANK LCV-115A to the RHT position.

Standard: Determines step 6 is N/A Step 7

./ Performance Step: 12 OPEN an Orifice Isolation Valve (1CS-7, 1CS-8, 1CS-9) for the orifice to be placed in service.

Standard: Locates control switch for 1CS-8 OR 1CS-9 and takes switch to OPEN. Observes flow rate on FI-150.1 and pressure changes on PI-145.1 Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 8 of 11 Form ES-C-1 PERFORMANCE INFORMATION

( Step 8

./ Performance Step: 13 ADJUST 1CS-38 position by adjusting PK-145.1 output as necessary to control LP LTON Pressure (PI-145.1) at 340 to 360 psig, to prevent lifting the LP Letdown Relief.

Standard: Locates PK-145.1 and adjusts controller to maintain pressure between 340-360 psig.

Comment:

Step 9

./ Performance Step: 14 WHEN Letdown pressure has stabilized at 340 to 360 psig on PI-145.1, LP LTON PRESS, THEN PERFORM the following:

• ADJUST PK-145.1 LTON PRESSURE setpoint to 58%

• PLACE the controller in AUTO Standard: Locates PI-145.1 and checks pressure. Adjusts PK-145.1 setpoint to 58%.

Depresses AUTO pushbutton.

Comment:

Step 10

./ Performance Step: 15 VERIFY PK-145.1 LTDN PRESSURE Controller maintains Letdown pressure stable at 340 to 360 psig.

Standard: Locates PI-145.1 and checks pressure.

Identifies PK-145.1 malfunctioning in AUTO resulting in high letdown pressure. Reports malfunction to SCO Note: PK-145.1 can be taken to manual and 1CS-38 operated to lower pressure, utilizing OMM-001, section 5.1.20, directions to control failed Automatic controllers Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 9 of 11 Form ES-C-1 PERFORMANCE INFORMATION Performance Step: 16 Acknowledges alarm condition and obtains APP-ALB-OO?

Standard: Refers to APP-ALB-OO?-3-5 for "LOW PRESSURE LETDOWN HIGH PRESSURE" and confirms alarm using PI-145.1, LP Ltdn Press.

Determines that 1CS-38 (letdown PCV) can NOT maintain letdown pressure in automatic.

Comment:

./ Performance Step: 17 LOWERS LETDOWN PRESSURE Standard: Removes in-service letdown orifice and uses PK-145.1 in manual to lower pressure OR Places PK-145.1 in MANUAL AND OPENS 1CS-38 to lower letdown pressure (APP-ALB-OO? or OMM-001).

Comment:

(

Performance Step: 18 Reports Letdown Isolated Or PK-145.1 is in Manual and controlling pressure Standard: Informs SeQ that letdown is isolated or PK-145.1 is in manual and controlling pressure Evaluator Cue: Acknowledge report: Letdown is isolated (OR)

PK-145.1 is in manual and controlling pressure.

END OF JPM Comment:

Terminating Cue: Operator reports to examiner that high letdown pressure has been addressed by shutting orifice isolation valves or by manual control of PK-145.1.

( STOP TIME:

../ - Denotes Critical Steps 2009A NRC Exam JPM d Rev. 1

Appendix C Page 10 of 11 Form ES-C-1 VERIFICATION OF COMPLETION Job Performance Measure No.: 2009A NRC JPM d Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM d Rev. 1

Appendix C Page 11 of 11 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: The plant is operating at 100 percent power. Letdown was out of service for maintenance. Maintenance has been completed and the clearance has been removed. Excess letdown was in service but has just been removed. Charging is in service per OP-1 07, Section 5.4.

INITIATING CUE: The SCO instructs you to restore normal letdown, with a 60 gpm orifice in service, and return charging to normal.

(

2009A NRC Exam JPM d Rev. 1

5.4. Initiating Normal Letdown 5.4.1. Initial Conditions

1. Charging flow has been established per Section 5.3.

2. Pressurizer level is greater than 17%.

3. The following valves are shut:

• 1CS-7, 45 GPM LETDOWN ORIFICE A

• 1CS-8, 60 GPM LETDOWN ORIFICE B

• 1CS-9, 60 GPM LETDOWN ORIFICE C 5.4.2. Procedural Steps CAUTION If Charging flow was stopped or greatly reduced prior to letdown being secured, there is a possibility that the Letdown line contains voids due to insufficient cooling. This is a precursor to water hammer, and should be 'evaluated prior to initiating letdown flow.

1. VERIFY 1CC-337, TK-144 LTDN TEMPERATURE, controller is:

• in AUTO AND

• set for 110 to 120°F (4.0 to 4.7 on potentiometer) normal operation OR

• set for 90 to 120°F (2.67 to 4.7 on potentiometer) if operating per Section 8.11 NOTE: PK-145.1 LTON PRESSURE, 1CS-38, may have to be adjusted to control at lower pressures.

2. VERIFY 1CS-38 Controller, PK-145.1 LTON PRESSURE, in MAN with output set at 50%.

I OP-107 Rev. 77 Page 25 of 131 I

5.4.2 Procedural Steps (continued)

3. VERIFY open the following Letdown Isolation Valves:

• 1CS-2, LETDOWN ISOLATION LCV-459

• 1CS-1, LETDOWN ISOLATION LCV-460

4. VERIFY open 1CS-11, LETDOWN ISOLATION.

NOTE: The following table gives the minimum charging flow required to keep the regenerative heat exchanger temperature below the high temperature alarm when letdown is established Letdown flow (to be established) Minimum Charging Flow necessary when letdown is established 45gpm 20 gpm 60 gpm 26 gpm 105 gpm 46 gpm 120 gpm 53 gpm NOTE: If Pressurizer level is above the programmed level setpoint, charging flow should be adjusted to a point above the minimum required to prevent regenerative heat exchanger high temperature alarm but low enough to reduce pressurizer level. (Reference ESR 9500066)

5. ADJUST controller 1CS-231, FK-122.1 CHARGING FLOW, as required to:

• maintain normal pressurizer level program

• keep regenerative heat exchanger temperature below the high temperature alarm when the desired letdown orifice is placed in service.

I OP-107 Rev. 77 Page 26 of 131

5.4.2 Procedural Steps (continued)

NOTE: If CVCS Demins have cooled from normal operating temperature, an increased reactivity affect may be observed. Consideration may be given to increasing CVCS Demins to operating temperature by flushing them to the RHT prior to restoring letdown.

6. IF flushing CVCS Demins to the RHT is desired for increasing temperature, THEN PERFORM the following:

a. NOTIFY Radwaste Control Room that letdown flow will be diverted to the RHT.

b. PLACE 1CS-120, LETDOWN TO VCT/HOLDUP TANK LCV-115A to the RHT position.

7. OPEN an Orifice Isolation Valve (1CS-7, 1CS-8, 1CS-9) for the orifice to be placed in service.

8. ADJUST 1CS-38 position by adjusting PK-145.1 output as necessary to control LP LTON Pressure (PI-145.1) at 340 to 360 psig, to prevent lifting the LP Letdown Relief.

9. WHEN Letdown pressure has stabilized at 340 to 360 psig on PI-145.1, LP LTON PRESS, THEN PERFORM the following:

a. ADJUST PK-145.1 LTDN PRESSURE setpoint to 58%

b. PLACE the controller in AUTO.

10. VERIFY PK-145.1 LTDN PRESSURE Controller maintains Letdown pressure stable at 340 to 360 psig.

11. IF Step 5.4.2.6 was performed AND CVCS Demin temperature is at normal operating temperature, THEN PERFORM the following:

a. PLACE 1CS-120, LETDOWN TO VCT/HOLDUP TANK LCV-115A to the AUTO position.

b. NOTIFY Radwaste Control Room that diversion to the RHT has been terminated.

I OP-107 Rev. 77 Page 27 of 131

c 5.4.2 Procedural Steps (continued)

12. OPEN additional orifice isolation valves (1CS-7, 1CS-8, 1CS-9) as required.

13. ADJUST charging flow as necessary to:

• prevent high temperature alarm (per table above)

• maintain pressurizer programmed level.

14. PLACE PRZ level controller, LK-459F, in MAN to cancel any integrated signal.

15. PLACE PRZ level controller, LK-459F, in AUTO.

16. WHEN the following occurs:

• Program pressurizer level is matching the current pressurizer level AND

• Letdown and seal return are balanced with seal injection flow and charging flow.

THEN place controller 1CS-231, FK-122.1 CHARGING FLOW, in AUTO.

17. COMPLETE Section 5.4.3.

l I OP-107 Rev. 77 Page 28 of 131

5.4.3. Initiating Normal Letdown Configuration Control Closeout

1. When more than one POSITION is listed, circle the required position.

COMPONENT NUMBER COMPONENT DESCRIPTION POSITION CHECK VERIFY 1CC-337 TK-144 LTDN TEMPERATURE SETPOINT4.0 -

4.7 (2.67 - 4.7 if Section 8.27 in effect) 1CS-38 PK-145.1 LTDN PRESSURE SETPOINT 58%

AUTO 1CS-2 LETDOWN ISOLATION LCV-459 OPEN 1CS-1 LETDOWN ISOLATION LCV-460 OPEN 1CS-11 LETDOWN ISOLATION OPEN 1CS-7 45 GPM LETDOWN ORIFICE A OPEN/SHUT 1CS-8 60 GPM LETDOWN ORIFICE B OPEN/SHUT

(~ 1CS-9 60 GPM LETDOWN ORIFICE C OPEN/SHUT 1CS-120 LETDOWN TO VCT/HOLD UP AUTO TANK LCV-115A 1CS-231 FK-122.1 CHARGING FLOW AUTO LK-459F Pressurizer Level controller AUTO All personnel performing this section for alignment or verification must supply their initials and name below.

Initials Name (Print) Initials Name (Print)

Approved by _ _ _ _ _ _ _ _ _ _ _ _ __

Unit SCO Date After receiving the final review signature, this OP Section becomes a QA RECORD.

I OP-107 Rev. 77 Page 29 of 131 I

3-5 DEVICES: PS-01CS-0145W SETPOINT: 540 psig LOW PRESSURE LETDOWN HIGH PRESS REFLASH: NO OPERATOR ACTIONS:

1. CONFIRM alarm using PI-145.1, LP Ltdn Press.

2. VERIFY Automatic Functions: None

3. PERFORM Corrective Actions:

a. IF necessary to lower letdown pressure, THEN:

(1) REFER TO OP-107, Chemical and Volume Control System.

(2) REMOVE OR CHANGE in-service letdown orifices.

b. TAKE manual control of PK-145.1, Ltdn Pressure, AND ADJUST 1CS-38 to lower letdown pressure.

c. IF letdown pressure can NOT be lowered, THEN:

(1) REFER TO OP-107, Chemical and Volume Control System (2) PERFORM the following:

(a) REMOVE letdown from service.

(b) IF desired, THEN PLACE Excess Letdown in service.

CAUSES:

1. Failure of letdown flow orifice

2. Orifice isolation valve leaks by

3. 1CS-38, Letdown PCV Isol Vlv (PK-145.1) failed shut

4. PS-01CS-0145W failure

5. Alarm circuit failure

REFERENCES:

1. OP-107, Chemical and Volume Control System

2. 5-S-1303, 1304

3. 6-8-401 0937 APP-AL8-007 I Rev. 14 I Page 16 of 21

Appendix C Job Performance Measure Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 022001H101 Task

Title:

Place Containment Cooling to Max JPM No.: 2009A NRC JPM e Cooling Mode KIA

Reference:

022 A4.01 3.6/3.6 Examinee: NRC Examiner:

Facility Evaluator: Date: _ _ __

Method of testing:

Simulated Performance: Actual Performance: x Classroom ---

Simulator ---

x Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: The reactor is at 100 percent power. Containment entry is required and plant management desires containment cooling in the Maximum Cooling Mode. Train A fans are currently running in high speed, and service water is aligned to both A and B ESW headers.

Task Standard: Containment cooling in the Maximum Cooling Mode.

Required Materials: None General

References:

OP-169 Rev 17, Section 8.1 Initiating Cue: The SCQ directs you to place Containment Cooling in the Maximum Cooling Mode per QP-169 Section 8.1.

Time Critical Task: No Validation Time: 8 Minutes 2009A NRC Exam JPM e Rev. 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SETUP For the 2009a ILC NRC exam (no saved IC is required)

• Simulator Operator - Exam Setup

• Resetto IC-19

• Goto RUN

• Silence and Acknowledge annunciators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

2009A NRC Exam JPM e Rev. 1

Appendix C Page 3 of 10 Form ES-C-1 PERFORMANCE INFORMATION START TIME:

Simulator Operator: Place Simulator in RUN when directed by Lead Examiner Performance Step: 1 OBTAIN PROCEDURE Standard: Obtains OP-169 and refers to Section 8.1 Verifies the initial conditions are met Fan Cooler Units in operation as per Section 5.1 of this procedure Both ESW headers are in service Evaluator Note: (Initial conditions are satisfied)

Comment:

Note Prior to Step 1 Performance Step: 2 Reviews and initials note Standard: Reads and initials Notes:

If at any time, additional CNMT cooling is needed, one or both ESW pumps may be placed in service (preferably after fans have been started).

During this mode of operation, both Train A and Train B are in operation. AH-3 and AH-4 will be discharging to the post accident dampers.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM e Rev. 1

Appendix C Page 4 of 10 Form ES-C-1 PERFORMANCE INFORMATION

(

Step 1

. ./ Performance Step: 3 With Train A in operation as per Section 5.1 of this procedure, perform the following steps:

a. Place the control switch for one fan cooler in AH-1 to LO-SPD.

Standard: Locates control switch for one fan cooler in AH-1 and places the switch to the LO-SPD position.

Comment:

Note Prior to Step 1.b Performance Step: 3 Review and initial note Standard: Read and initial note:

Steps 8.1.2.1.b and 8.1.2.1.c must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

(

Comment:

Step 1.b Performance Step: 4 Place control switch for fan started in step 8.1.2.1.a TO STOP.

Standard: Places fan, started in step 8.1.2.1.a, control switch to STOP position.

Comment:

Step 1.c

./ Performance Step: 5 Place the control switch for the fan stopped in Step 8.1.2.1.b to HI SPD.

Standard: Locates and places control switch for fan stopped in Step 8.1.2.1.b to HI SPD position.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM e Rev. 1

Appendix C Page 5 of 10 Form ES-C-1 PERFORMANCE INFORMATION

(

Step 1.d Performance Step: 6 Stop one fan in AH-2.

Standard: Locates and places one fan in AH-2 switch to the STOP position.

Comment:

Step 1.e

./ Performance Step: 7 Place the control switches for fan cooler AH-4 A-SB to LO- SPD.

Standard: Locates and places control switches for AH-4 A-SB to LO SPD Comment:

Step 1.f

( ./ Performance Step: 8 Place the control switch for fan cooler AH-4 B-SB to LO- SPD.

Standard: Locates and places control switch for AH-4 B-SB to LO-SPD Comment:

Note prior to step 8.1.2.1.9 Performance Step: 9 Review and initial note Standard: Read and initials note: Steps 8.1.2.1.g and 8.1.2.1.h must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM e Rev. 1

Appendix C Page 6 of 10 Form ES-C-1 PERFORMANCE INFORMATION Step 8.1.2.1.9 Performance Step: 10 Place the control switch for fan cooler AH-4 A-SB to STOP.

Standard: Locates control switch for fan cooler AH-4 A-SB and places switch to STOP Comment:

Step 8.1.2.1.h

./ Performance Step: 11 Place the control switch for fan cooler AHA A-SB to HI-SPD Standard: Locates control switch for fan cooler AH-4A B-SB and places control switch to HI SPD.

(NOTE: expect annunciator ALB 029-4-2 for this fan configuration to occur. The candidate should state it is an expected alarm due to his/her action and review the APP when conditions allow)

Comment:

Note prior to Step 8.1.2.1.i Performance Step: 12 Reviews and initials note PLACE CONTROL SWITCH FOR FAN COOLER AH-4 B-SB TO STOP.

Standard: Reads and initials note:

Steps 8.1.2.1.i and 8.1.2.1.j must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

Locates and places AH-4A B-SB control switch to STOP.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM e Rev. 1

Appendix C Page 7 of 10 Form ES-C-1 PERFORMANCE INFORMATION Step 8.1.2.1.i Performance Step: 13 Place the control switch for fan cooler AH-4 B-SB to STOP ..

Standard: Locates control switch for AH-4B B-SB and places switch to STOP Comment:

Step 8.1.2.1.j

./ Performance Step: 14 Place the control switch for fan cooler AH-4 B-SB to HI-SPD.

Standard: Locates control switch and places AH-4B B-SB control switch to HI SPD.

(Annunciator ALB-028-5-1 'Containment Air High Vacuum' will come in shortly after placing cooling in max cooling mode due to additional cooling that has been aligned. The candidate should acknowledge the alarm and review the APP. A one hour TS action is identified in the APP. TS 3.6.1.4 this should be reported to the SCO and the time that the alarm occurred should be

<: recorded.)

Comment:

Step 8.1.2.1.k Performance Step: 15 Verify CV-D5 is OPEN on Status Light Box 5.

Standard: Locates indications for CV-D5 and verifies damper is OPEN Comment:

Step 8.1.2.1.1 Performance Step: 16 Verify CV-D7 is OPEN on Status Light Box 6.

Standard: Locates indications for CV-D7 and verifies damper is OPEN Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM e Rev. 1

Appendix C Page 8 of 10 Form ES-C-1 PERFORMANCE INFORMATION Step 8.1.2.1.1 Performance Step: 17 Report to SCO that Containment Cooling is in Maximum Cooling Mode.

Standard: Report to SCO that Containment Cooling is in Maximum Cooling Mode.

Evaluator Cue: SCO acknowledges that Containment Cooling is in Maximum Cooling Mode.

End of JPM Comment:

Terminating Cue: After completion of SCO report and verification that CV-D5 is open on SLB-5 and CV-D7 is open on SLB-6.

STOP TIME:

,;' - Denotes Critical Steps 2009A NRC Exam JPM e Rev. 1

Appendix C Page 9 of 10 Form ES-C-1 VERIFICATION OF COMPLETION

(

Job Performance Measure No.: 2009A NRC JPM e Place Containment Cooling to Max Cooling Mode Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM e Rev. 1

Appendix C Page 10 of 10 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: The reactor is at 100 percent power. Containment entry is required and plant management desires containment cooling in the Maximum Cooling Mode. Train A fans are currently running in high speed, and service water is aligned to both A and B ESW headers.

INITIATING CUE: The SCO directs you to place containment cooling in the Maximum Cooling Mode per OP-169 Section 8.1.

(

2009A NRC Exam JPM e Rev. 1

8.0 INFREQUENT OPERATIONS

( 8.1. Start Up of Fan Cooler Units (Maximum Cooling mode) 8.1.1. Initial Conditions

1. Fan Cooler Units in operation as per Section 5.1 of this procedure.

2. Both ESW headers are in service.

8.1.2. Procedural Steps NOTE: If at any time, additional CNMT cooling is needed, one or both ESW pumps may be placed in service (preferably after fans have been started).

NOTE: During this mode of operation, both Train A and Train B are in operation.

AH-3 and AH-4 will be discharging to the post accident dampers.

1. With Train A in operation as per Section 5.1 of this procedure, perform the foHowing steps:

a. Place the control switch for one fan cooler in AH-1 to LO-SPD.

(

NOTE: Steps 8.1.2.1 .b and 8.1.2.1.c must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

b. Place the control switch for the fan started in Step 8.1.2.1.a to STOP.

c. Place the control switch for the fan stopped in Step 8.1 .2.1.b to HI-SPD.

d. Stop one fan in AH-2.

e. Place the control switch for fan cooler AH-4 A-SB to LO-SPD.

f. Place the control switch for fan cooler AH-4 B-SB to LO-SPD.

1OP-169 Rev. 17 Page 17 of 361

8.1.2 Procedural Steps (continued)

NOTE: Steps 8.1.2.1.g and 8.1.2.1.h must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

g. Place the control switch for fan cooler AH-4 A-SB to STOP.

h. Place the control switch for fan cooler AH-4 A-SB to HI-SPD.

NOTE: Steps 8.1.2.1.i and 8.1.2.1.j must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

i. Place the control switch for fan cooler AH-4 B-SB to STOP.

j. Place the control switch for fan cooler AH-4 B-SB to HI-SPD.

k. Verify CV-D5 is OPEN on Status Light Box 5.

I. Verify CV-D7 is OPEN on Status Light Box 6.

2. With Train B in operation as per Section 5.1 of this procedure, perform the following steps:

(

a. Place the control switch for one fan cooler in AH-2 to LO-SPD.

NOTE: Steps 8.1.2.2.b and 8.1.2.2.c must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

b. Place the control switch for the fan started in Step 8.2.2.1.a to STOP.

c. Place the control switch for the fan stopped in Step 8.2.2.1.b to HI-SPD.

d. Stop one fan in AH-1.

e. Place the control switch for fan cooler AH-3 A-SA to LO-SPD.

f. Place the control switch for fan cooler AH-3 B-SA to LO-SPD.

1 OP-169 Rev. 17 Page 18 of 361

8.1.2 Procedural Steps (continued)

NOTE: Steps 8.1.2.2.g and 8.1.2.2.h must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

g. Place the control switch for fan cooler AH-3 A-SA to STOP.

h. Place the control switch for fan cooler AH-3 A-SA to HI-SPO.

NOTE: Steps 8.1.2.2.i and 8.1.2.2.j must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

i. Place the control switch for fan cooler AH-3 B-SA to STOP.

j. Place the control switch for fan cooler AH-3 B-SA to HI-SPO.

k. Verify CV-05 is OPEN on Status Light Box 5.

I. Verify CV-07 is OPEN on Status Light Box 6.

NOTE: Performing the following steps will place both trains in service with all fans running in fast speed with nozzle dampers closed and discharging to the concrete air shaft.

3. If containment average temperature continues to rise or if additional cooling is desired, perform the following steps:

a. Place the control switch for the spare fan cooler in AH-1 to LO-SPO.

NOTE: Steps 8.1.2.3.b and 8.1.2.3.c must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

b. Place the control switch for the fan started in Step 8.1.2.3.a to STOP.

1 OP-169 Rev. 17 Page 19 of 361

8.1.2 Procedural Steps (continued)

~ ~ c

c. Place the control switch for the fan stopped in Step 8.1.2.3.b to

( HI-SPD.

d. Verify CV-D1 and CV-D7 are SHUT on Status Light Box 6.

e. Place the control switch for the spare fan cooler in AH-2 to LO-SPD.

NOTE: Steps 8.1.2.3.f and 8.1.2.3.g must be done without delay. The fan should not be allowed to coast down before being started in fast speed.

f. Place the control switch for the fan started in step 8.1.2.3.e to STOP.

g. Place the control switch for the fan stopped in Step 8.1.2.3.f to HI-SPD.

h. Verify CV-D3 and CV-D5 are SHUT on Status Light Box 5.

4. If needed, ESW Pumps may be started for additional cooling.

(Otherwise N/A)

IOP-169 Rev. 17 Page 20 of 36 I

4-2 DEVICES: SETPOINT: CONTAINMENT FS-01CV-7574AS, Cont Clg Fan AH-4 10 fps Out Lo (1A-SB) FAN COOLERS AH-4 FS-01CV-7574BS, Cont Clg Fan AH-4 10 fps Out Lo (1 B-SB) LOW FLOW - OIL REFLASH: NO NOTE AR 211935211935evaluated that this alarm could be caused when starting the air handler in low speed with other air handlers going to the same concrete shaft running in high speed. This alarm should clear when the air handler is shifted to high speed. The low flow condition should not cause any damage, as long as the time in this configuration is minimized.

OPERATOR ACTIONS:

1. CONFIRM alarm using:

a. AH-4 fans running indication

b. AH-4 fan trouble indication

c. Damper position indication

2. VERIFY Automatic Functions:

a. Fans trip on overload

3. PERFORM Corrective Actions:

a. CHECK the fan status indication.

b. IF running fan has tripped, THEN START the standby containment fan using OP-169, Containment Cooling and Ventilation.

c. CHECK proper damper alignment using OP-169, Containment Cooling and Ventilation.

d. DISPATCH an operator to check status of the following breakers:

• 1B34-SB-2A, AH-4(1A-SB) Cnmt Fan Cooler

• 1B34-SB-3A, AH-4(1 B-SB) Cnmt Fan Cooler

e. IF maintenance is to be performed, THEN REFER TO OWP-CV, Containment Ventilation.

CAUSES:

1. Loss of power to either fan

2. Thermal overload of either fan

3. Damper misalignment

4. Instrument or alarm malfunction

REFERENCES:

1. Tech Spec 3.6.1.5

2. Tech Spec 3.6.2.3

3. OP-169, Containment Cooling and Ventilation

4. OWP-CV, Containment Ventilation

5. 6-B-401, 3085 APP-ALB-029 I Rev. 6 I Page 8 of 11

5-1 DEVICES: PDS-01 CB-7680A3 SETPOINT: -1.0 INWC CONTAINMENT PDS-01 CB-7680B3 -1.0INWC AIR HIGH VACUUM REFLASH: NO OPERATOR ACTIONS:

1. CONFIRM alarm using:

a. PDI-7680A SA and PDI-7680B SB, CNMT LlP To Outside

b. ERFIS point PCP7611, Containment Delta Pressure (Containment to Outside LlP)

c. NCPMU fans (AH-82) running status

d. CPPMU fans (AH-81) running status

e. Vacuum Relief Valves position indication

2. VERIFY Automatic Functions:

a. Vacuum relief valves 1CB-2 and 1CB-6 along with dampers CB-D51A and CB-D52 open at

-2.25 in. water differential pressure as measured between Containment and Atmosphere.

3. PERFORM Corrective Actions:

a. CHECK Containment differential pressure on PDI-7680A(B) and PCP7611.

b. VERIFY the vacuum relief valves open if required.

c. VERIFY the Containment Ventilation System is operating properly.

d. RESTORE Containment pressure to more positive than -1 in. water within one hour to comply with Tech Spec 3.6.1.4.

(

CAUSES:

1. Insufficient flow from the normal Containment purge make-up unit (NCPMU) AH-82

2. Insufficient flow from the Containment Pre-entry purge make-up unit (CPPMU) AH-81

3. Increased cooling of Containment, either by a ventilation or service water alignment.

4. Defective vacuum relief valves

5. Instrument or alarm malfunction

REFERENCES:

1. Tech Specs 3.6.1.4, 3.6.1.1, 3.6.3, 3.6.5 and 3.9.4

2. 6-B-401 2688, 2689 APP-ALB-028 I Rev. 15 I Page 17 of 24

Appendix C Page 1 of 11 Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 301058H401 Task

Title:

Take corrective action for Loss of JPM No.: 2009A NRC JPM f Both CCW Pumps KIA

Reference:

008 A2.01 3.3/3.6 ALTERNATE PATH Examinee: NRC Examiner:

Facility Evaluator: Date: _ _ __

Method of testing:

Simulated Performance: Actual Performance: X Classroom ---

Simulator X Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: The plant is at 100 percent power The following equipment is under clearance:

o Component Cooling Water Pump uB" o Heater Drain Pump "A" o Reactor Makeup Water Pump uB" Task Standard:

• Specified CCW loads isolated.

• Charging isolated.

• Reactor tripped and all RCP's stopped (in that order).

Required Materials: None General

References:

AOP-014, LOSS OF COMPONENT COOLING WATER, Rev. 31 Initiating Cue: You are the RO. Maintain current plant conditions.

Time Critical Task: NO Validation Time: 8 minutes 2009A NRC Exam JPM f Rev. 1

Appendix C Page 2 of 11 Form ES-C-1 Worksheet SIMULATOR SETUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-165

• Go to RUN Place CIT's on:

o 'A' HD Pump o 'B' RMUW Pump o 'B' CCW Pump

• Place a protected Train placard on 'A' CCW Pump switch

• Silence and Acknowledge annunciators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to

(~ the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup information is how IC-165 was developed.

• Initialize to a 100 percent steady-state condition (IC-19).

• Secure "A" HOP

• Place IMF CCW01A on trigger 1

• IRF CCW076 CP_OFF CCW Pump 8 is under clearance

• IRF CCW 039 RACK_OUT CCW Pump 8 is under clearance

• IRF CN0065 RACK_OUT HOP A is under clearance

• IRF MCS022 8KR_OFF RMUW Pump 8 is under clearance Placed clearance tags on the following to mask upcoming fault:

• CCW Pump "8"

• HO Pump "A"

• RMUW Pump "8" 2009A NRC Exam JPM f Rev. 1

Appendix C Page 3 of 11 Form ES-C-1 PERFORMANCE INFORMATION

(

START TIME:

Simulator Operator: Actuate trigger for IMF CCW01A when directed by the Lead Evaluator (approximately 15-30 seconds after the candidate assumes the watch)

Performance Step: 1 Respond to multiple CCW alarms Standard: Announce entry conditions for AOP-014 and enters AOP-014.

Reads purpose and enters at Section 3.0.

Comment: (May contact Maintenance for support in restoring CCW "8" acknowledge request)

Step 3.1 Performance Step: 2 Refer to PEP-110, Emergency Classification and Protective Action Recommendations, and enter the EAL Network at Entry Point X.

Standard: Informs SS-O.

Evaluator Cue: Acknowledge.

Comment:

Step 3.2 Performance Step: 3 Evaluate Plant Conditions and go to appropriate section.

Standard: Identifies condition as Loss of CCW Pump and goes to Section 3.3.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 4 of 11 Form ES-C-1 PERFORMANCE INFORMATION

( Note prior to Step 3.3.1 Performance Step: 4 Reviews note Standard: Reviews and initials note: The standby CCW pump starts at 52 psig discharge pressure Comment:

Step 3.3.1 Performance Step: 5 CHECK the Standby CCW Pump has STARTED.

Standard: Determines no CCW Pump running and none available.

Comment:

Step 3.3.2 Performance Step: 6 CHECK CCW Header Pressure greater than 52 psig.

Standard: Determines CCW header pressure is less than 52 PSIG and proceeds to RNO column.

Comment:

Step 3.3.2.a RNO Column (ALTERNATE PATH begins)

Performance Step: 7 IF CCW is lost, THEN PREFORM the following:

VERIFY the following valves SHUT:

Evaluator Note: Valve operation/verification may be performed in any order.

-v Performance Step: 8

• 1CS-7, 45 g pm Letdown Orifice A.

Standard: Locates control switch for 1CS-7 and takes switch to SHUT.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 5 of 11 Form ES-C-1 PERFORMANCE INFORMATION

-v Performance Step: 9

• 1CS-8, 60 gpm Letdown Orifice B.

Standard: Locates control switch for 1CS-8 and takes switch to SHUT.

Comment:

Performance Step: 10

• 1CS-9, 60 gpm Letdown Orifice C.

Standard: Locates and verifies 1CS-9 is shut.

Comment:

Performance Step: 11

• 1CS-460, EXCESS LETDOWN Standard: Locates and verifies 1CS-460 is shut.

Comment:

Performance Step: 12

• 1CS-461, EXCESS LETDOWN Standard: Locates and verifies 1CS-461 is shut.

Comment:

-v Performance Step: 13

• 1SP-948, RCS LOOPS B&C HOT LEG CNMT ISOL Standard: Locates control switch for 1SP-948 and takes switch to SHUT.

Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 6 of 11 Form ES-C-1 PERFORMANCE INFORMATION

,f Performance Step: 14

• 1SP-949, RCS LOOP B&C HOT LEG CNMT ISOL Standard: Locates control switch for 1SP-949 and takes switch to SHUT.

Comment:

Performance Step: 15

• 1SP-40, SB PRESSURIZER LIQUID SAMPLE ISOL Standard: Locates and verifies 1SP-40 SB is shut.

Comment:

Performance Step: 16

• 1SP-41 SA, PRESSURIZER LIQUID SAMPLE CNMT ISOL Standard: Locates and verifies 1SP-41 SA is shut.

Comment:

Performance Step: 17

• 1SP-59 SB, PRESSURIZER STM SPACE SAMPLE ISOL Standard: Locates and verifies 1SP-59 SB is shut.

Comment:

Performance Step: 18

• 1SP-60 SA, PRESSURIZER STM SPACE SAMPLE ISOL Standard: Locates and verifies 1SP-60 SA is shut.

Comment:

,/ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 7 of 11 Form ES-C-1 PERFORMANCE INFORMATION c ,j Performance Step: 19 Step 3.3.2.b RNO Column ISOLATE CHARGING FLOW AS FOLLOWS:

1. Place controller FK-122.1 in MANUAL and shut.

2. SHUT 1CS-235 S8, Charging Flow Line Isolation.

3. SHUT 1CS-238 SA, Charging Flow Line Isolation.

Standard:

• Places FK-122.1 in MANUAL and adjusts to ZERO demand and/or SHUT light lit.

• Locates control switch for 1CS-235 and turns to SHUT.

• Locates control switch for 1CS-238 and turns to SHUT.

Comment:

Step 3.3.2.c RNO Column Performance Step: 20 If the RCS is solid, then stop the running CSIP.

Standard: Determines RCS NOT solid.

Comment:

Step 3.3.2.d RNO Column Performance Step: 21 If RHR is in service, then shut 1CS-28, RHR LETDOWN (HC-142.1)

Standard: Determines RHR NOT in service.

Comment:

Step 3.3.2.e.1 RNO Column Performance Step: 22 If CCW is expected to be lost for greater than or equal to 10 minutes, then perform the following:

1. Check the reactor is tripped.

Standard: Reports/identifies reactor not tripped.

./ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 8 of 11 Form ES-C-1 PERFORMANCE INFORMATION

( Evaluator Cue: After the step "If CCW is expected to be lost for greater than or equal to 10 minutes, then perform the following" is read:

No CCW Pump will be available for at least 15 minutes Comment:

Step 3.3.2.e.2 RNO Column

.y Performance Step: 23 If CCW is expected to be lost for greater than or equal to 10 minutes, then perform the following:

2. IF the reactor is not tripped, THEN TRIP the reactor AND TO TO EOP PATH-1 (Continue with this procedure as time permits).

Standard: Locates MCB Reactor Trip switch and Initiates a MANUAL reactor trip.

Evaluator Cue: (As candidate starts to perform PATH-1 immediate actions)

Another operator will perform EOP PATH-1 immediate actions. Continue performing AOP-014.

C Comment:

Step 3.3.2.e.3 RNO Column

.y Performance Step: 24 If CCW is expected to be lost for greater than or equal to 10 minutes, then perform the following:

3. STOP all running RCP's.

Standard: Stops each RCP (3).

Comment:

Step 3.3.2.e.4 RNO Column Performance Step: 25 If CCW is expected to be lost for greater than or equal to 10 minutes, then perform the following:

4. SHUT 1RC-1 07, PRZ Spray Loop A Standard: Locates control for 1RC-1 07 and takes to SHUT Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 9 of 11 Form ES-C-1 PERFORMANCE INFORMATION c* Step 3.3.2.e.5 RNO Column Performance Step: 26 If CCW is expected to be lost for greater than or equal to 10 minutes, then perform the following:

5. SHUT 1RC-1 03, PRZ Spray Loop B Standard: Locates control for 1RC-1 03 and takes to SHUT Comment:

Evaluator Cue: When the candidate reads AOP-014 "Go to Step 4" END OF JPM.

Terminating Cue: When the candidate reads AOP-014 "Go to Step 4":

Evaluation on this JPM is complete.

STOP TIME:

(

./ - Denotes Critical Steps 2009A NRC Exam JPM f Rev. 1

Appendix C Page 10 of 11 Form ES-C-1 VERIFICATION OF COMPLETION

(

Job Performance Measure No.: 2009A NRC JPM f Take corrective action for Loss of Both CCW Pumps Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

(

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM f Rev. 1

Appendix C Page 11 of 11 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS:

• The plant is at 100 percent power.

• The following equipment is under clearance:

• Component Cooling Water Pump "8"

• Heater Drain Pump "A"

• Reactor Makeup Water Pump "8" INITIATING CUE: You are the RO. Maintain current plant conditions.

(

2009A NRC Exam JPM f Rev. 1

LOSS OF COMPONENT COOLING WATER INSTRUCTIONS RESPONSE NOT OBTAINED

(

3.3 Loss of a CCW Pump NOTE The standby CCW pump starts at 52 psig discharge pressure.

01. CHECK the standby CCW pump has 01. START the standby CCW pump.

STARTED.

• 02. CHECK CCW header pressure 2. IF CCW is LOST, greater than 52 psig. THEN PERFORM the following:

a. VERIFY the following valves SHUT 0

• 1CS-7, 45 gpm Letdown Orifice A 0

• 1CS-8, 60 gpm Letdown Orifice B 0

• 1CS-9, 60 gpm Letdown Orifice C 0

• 1CS-460, Excess Letdown 0

• 1CS-461, Excess Letdown 0

• 1SP-948, RCS Loop B & C Hot Leg Cnmt Isol 0

• 1SP-949, RCS Loop B & C Hot Leg Cnmt Isol 0

• 1SP-40 SB, Pressurizer Liquid Sample Isol 0

• 1SP-41 SA, Pressurizer Liquid Sample Cnmt Isol 0

• 1SP-59 SB, Pressurizer Stm Space Sample Isol 0

• 1SP-60 SA, Pressurizer Stm Space Sample Isol (Continued on Next Page)

AOP-014 Rev. 31 Pa e 32 of 61

I LOSS OF COMPONENT COOLING WATER I

~ INSTRUCTIONS RESPONSE NOT OBTAINED

~

3.3 Loss of a CCW Pump

2. (continued)

b. ISOLATE Charging flow as follows:

0 (1) PLACE controller FK-122.1 ,

Charging Flow, in MANUAL AND SHUT.

0 (2) SHUT 1CS-235 SB, Charging Line Isolation.

0 (3) SHUT 1CS-238 SB, Charging Line Isolation.

0 c. IF the RCS is SOLID, THEN STOP the running CSIP.

0 d. IF RHR is operating, THEN SHUT 1CS-28, RHR

( .. Letdown (HC-142.1).

e. IF CCW is expected to be lost for greater than 10 minutes, THEN PERFORM the following:

0 (1) CHECK the Reactor is TRIPPED.

0 (2) IF the reactor is NOT TRIPPED, THEN TRIP the Reactor AND GO TO EOP PATH-1.

(Continue with this procedure as time permits.)

0 (3) STOP ALL running RCPs.

(4) SHUT 1RC-107, PRZ Spray Loop A.

(5) SHUT 1RC-1 03, PRZ Spray Loop B.

0 f. GO TO Step 4.

AOP-014 J Rev. 31 I Page 33 of 61

Appendix C Job Performance Measure Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 301074H401 Task

Title:

High RCS Pressure while Solid JPM No.: 2009A NRC JPM g KIA

Reference:

010A1.07 3.7/3.7 Examinee: NRC Examiner:

Facility Evaluator: Oate: _ _ __

Method of testing:

Simulated Performance: Actual Performance: X Classroom ---

Simulator X Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: The plant is in Mode 4, with RCS temperature at 208°F, and water solid. "A" CSIP, all three RCPs, and both RHR Pumps are in service. Normal charging and letdown are aligned.

Task Standard: "A" CSIP is stopped within 2 minutes from memory.

Required Materials: None General

References:

None Initiating Cue: You are the RO. Maintain current plant conditions.

Time Critical Task: Yes Validation Time: 2 Minutes 2009A NRC Exam JPM g Rev 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SETUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-166

• Go to RUN

• Silence and Acknowledge annunciators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup information is how IC-166 was developed.

• Initialize to IC-1

• Plant should be in Mode 4 and water solid consistent with GP-007

• CSIP "A" is in service; both RHR Pumps in service

• All three RCPs in service

• Normal charging and letdown are in service

• RCS temperature at -208°F and RCS pressure at -300 psig

• Trigger 1 Fail PCV-145 shut, IMF CVC07 (1 00:00:0000:00:00) 0.0 00:00:00 2009A NRC Exam JPM 9 Rev 1

Appendix C Job Performance Measure Form ES-C-1 PERFORMANCE INFORMATION EVALUATOR NOTE: THIS JPM IS TIME CRITICAL and an immediate action JPM where NO procedure should be referenced during the performance of the JPM. The start time should be logged when the trigger is activated.

The stop time should be logged whenever the terminating cue of the JPM is met. A blank has been provided to log the stop time just after the JPM step which contains the terminating cue.

START TIME:

Simulator Operator: Actuate trigger for IMF CVC07 when directed by the Lead Evaluator (approximately 15-30 seconds after the candidate assumes the watch)

Performance Step: 1 Multiple annunciators associated with RCS high pressure Standard: Identifies multiple annunciators associated with RCS high pressure with the plant in solid conditions and announces that AOP-019 entry conditions are met. Performs the immediate actions of AOP-019, Malfunction of RCS Pressure Control.

(

Comment:

Step 1 Performance Step: 2 NOTE prior to step 1 Steps 1 through 3 are immediate actions.

CAUTION prior to step 1 A pressure transmitter or indicator malfunction may exist. When referred to throughout this procedure, actual RCS pressure should be obtained by cross-checking of diverse instrumentation, such as PI-455.1, PI-456, and PI-457.

1. CHECK that a bubble exists in the PRZ.

Standard: States plant is "water solid" (per given Initial Conditions) or locates PZR level indicators to verify no bubble in the PRZ.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM g Rev 1

Appendix C Job Performance Measure Form ES-C-1 PERFORMANCE INFORMATION Step 1 RNO (ALTERNATE PATH begins)

./ Performance Step: 3 1. PERFORM the following:

a. IF PRZ pressure is GREATER THAN 360 PSIG, THEN STOP the running charging pump.

Standard: Determines RCS pressure> 360 psig, locates CSIP "A" control switch and takes it to STOP.

Comment:

Performance Step: 4 Enter AOP-019, Malfunction of RCS Pressure Control.

Standard: Announces immediate actions are complete and enters AOP-019, Malfunction of RCS Pressure Control Comment:

C" STOP TIME:

Performance Step: 5 Obtains AOP-019, Malfunction of RCS Pressure Control.

Standard: Obtains AOP-019 and reads note and caution prior to step 1.

Then reads step 1 and RNO 1.a RNO step 1.b GO TO Section 3.2, Pressure Control Malfunctions During Solid Plant Operation.

Comment:

Evaluator Cue: (When candidate goes to section 3.2, Pressure Control Malfunctions During Solid Plant Operation)

END OF JPM Terminating Cue: "A" CSIP secured.

l

./ - Denotes Critical Steps 2009A NRC Exam JPM g Rev 1

Appendix C Job Performance Measure Form ES-C-1 VERIFICATION OF COMPLETION Job Performance Measure No.: 2009A NRC JPM 9 High RCS Pressure While Solid Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM g Rev 1

Appendix C Page 6 of 6 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: The plant is in Mode 4, with RCS temperature at 208°F, and water solid. "A" CSIP, all three RCPs, and both RHR Pumps are in service. Normal charging and letdown are aligned.

INITIATING CUE: You are the RO. Maintain current plant conditions.

(

2009A NRC Exam JPM g Rev 1

MALFUNCTION OF RCS PRESSURE CONTROL INSTRUCTIONS RESPONSE NOT OBTAINED 3.0 OPERATOR ACTIONS NOTE Steps 1 through 3 are immediate actions.

CAUTION A pressure transmitter or indicator malfunction may exist. When referred to throughout this procedure, actual RCS pressure should be obtained by cross-checking of diverse instrumentation, such as PI-455.1, PI-456, and PI-457.

01. CHECK that a bubble exists in the 1. PERFORM the following:

PRZ.

o a. IF PRZ pressure is GREATER THAN 360 PSIG, THEN STOP the running charging pump.

o b. GO TO Section 3.2, Pressure Control Malfunctions During Solid Plant Operation.

NOTE Failure of a PRZ PORV to fully reseat after operation may require initiation of the Emergency Plan.

02. VERIFY ALL PRZ PORVs 02. IF ANY PRZ PORV will NOT shut AND associated block valves properly when required, positioned for current PRZ pressure THEN SHUT its associated block and plant conditions. valve.

AOP-019 Rev. 21 Page 4 of 26

Appendix C Job Performance Measure Form ES-C-1 Worksheet

( Facility: Shearon Harris Task No.: 003001H101 Task

Title:

Start An RCP JPM No.: 2009A NRC JPM h KIA

Reference:

003 A2.02 3.7/3.9 Examinee: NRC Examiner:

Facility Evaluator: Date: ----

Method of testing:

Simulated Performance: Actual Performance: X Classroom - - - Simulator ---

X Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: A GP-002 heat-up is in progress. Two hours ago the "C" RCP was removed from service for maintenance. Maintenance has been completed and the 'C' RCP is ready for operation.

Task Standard: Start an RCP and secure the RCP when vibrations exceed RCP trip limits per AOP-018, Reactor Coolant Pump Abnormal Conditions.

Required Materials: None General

References:

OP-100, Rev. 28 and AOP-018, Rev. 34 Initiating Cue: The SCO has instructed you to start "C" RCP in accordance with OP-100 Section 5.1.

Time Critical Task: No Validation Time: 17 minutes 2009A NRC Exam JPM h Rev 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet

(

SIMULATOR SETUP For the 2009a ILC NRC exam

• Simulator Operator - Exam Setup

• Reset to IC-167

• Go to RUN

• Silence and Acknowledge annunciators

• GO TO FREEZE and inform the lead examiner the Simulator is ready. DO NOT GO TO RUN until directed by the lead examiner. (The examiner has provided to the candidate with initial conditions and the initiating cues prior to placing the simulator in RUN.)

The following setup information is how IC-166 was developed.

• Initialize to IC-2 Mode 4 HSD conditions. RCS 335°F and -355 psig.

• Secure the "C" RCP and operate Pressurizer sprays as necessary to stabilize RCs

( pressure.

• Adjust RHR if needed to stabilize RCS temperature.

• Place RCP 'C' high vibrations (30 mils with 60 second ramp on Trigger 1 -

IMF RCS09C (1 00:00:00 00:00:00) 28.0 00:00:60 2009A NRC Exam JPM h Rev 1

Appendix C Page 3 of 12 Form ES-C-1 PERFORMANCE INFORMATION Simulator Operator: Actuate Trigger 1 for IMF RCS09C when directed by the Lead Evaluator (After the RCP oil lift pump is secured)

Evaluator Note: The candidate may use either MCB indication or ERFIS indications when reviewing RCP pump indications.

START TIME:

Performance Step: 1 OBTAIN PROCEDURE Standard: Obtains OP-100 and reviews P & L's and Section 5.1 for 'C' RCP startup. Reviews and verifies initial conditions are satisfied.

Evaluator Cue: When candidate starts checking the initial conditions for RCP start provide the cue: All initial conditions have been satisfied.

Comment:

Section 5.1.2 Caution prior to Step 1 Performance Step: 2 Only one RCP is to be started at anyone time. If the motor is allowed to coast to a stop between starts, two successive starts are permitted. A third start may be made when the winding and the core have cooled by running for 20 minutes, or by standing idle for 45 minutes.

Standard: Reviews and initials caution prior to step 1.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 4 of 12 Form ES-C-1 PERFORMANCE INFORMATION Steps 1a, b Performance Step: 3 1. VERIFY the following before pump start:

a. IF jogging RCPs per GP-001, THEN VERIFY RCS Pressure is greater than 325 psig.

b. VERIFY # 1 Seal ~P is greater than 200 psid.

Standard: Step 1a is N/A Step 1b - Locates PI-154A 1 and verifies that the 'C' RCP #1 Seal ~P is greater than 200 psid.

Comment:

Note prior to Step 1.c Performance Step: 4 Reviews note prior to step 1.c Standard: Reads and initials note:

( VCT Outlet Temp TE-116 should be used for seal injection water temperature.

Comment:

Step 1.c Performance Step: 5 c. VERIFY Seal Injection flow is between 8 and 13 gpm at a temperature between 60 and 130°F.

Standard: Locates seal injection flow indication FI-154A and verifies flow between 8-13 gpm and also verifies temperature indicator TI-116.1 reading between 60-130°F.

Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 5 of 12 Form ES-C-1 PERFORMANCE INFORMATION Step 1.d Performance Step: 6 d. VERIFY # 1 Seal Leakoff is in the normal operating range of Attachment 3.

Standard: Locates #1 Seal Leakoff flow indicator FR-154A and verifies that it meets Attachment 3 requirements.

Comment:

Caution prior to Step 2 Performance Step: 7 Reviews caution Standard: Reviews and initials caution.

RCPs shall not be started with one or more of the RCS cold leg temperatures less than or equal to 325°F unless the secondary water temperature is less than 50°F above each of the RCS cold leg temperatures. This caution is only applicable to the first Rep to be started.

Understands the caution is N/A.

(

Comment:

Step 2 Performance Step: 8 START the RCP Oil Lift Pump.

../ Standard: Locates 'C' RCP Oil Lift Pump switch and starts the oil lift pump.

Comment: START Time _ _ _ __

Step 3 Performance Step: 9 VERIFY the amber permissive light on the lift pump control switch is lit indicating proper lift oil pressure has been achieved.

Standard: Locates amber permissive light on the 'C' RCP Oil Lift Pump Switch and verifies it is lit.

Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 6 of 12 Form ES-C-1 PERFORMANCE INFORMATION Step 4 Performance Step: 10 ALLOW the RCP Oil Lift Pump to run for a minimum of 2 minutes before starting an RCP.

Standard: Waits minimum of 2 minutes after starting the oil lift pump prior to starting the 'c' RCP.

Comment:

Note prior to Step 5 Performance Step: 11 When an RCP is started, the RCP ammeter will go off scale high, and then decrease to the normal hot or cold running amps after 15 to 25 seconds.

Standard: Reads and initials Note.

Comment:

Step 5 Performance Step: 12 START the RCP .

./ Standard: Locates control switch for 'c' RCP and starts 'c' RCP Comment: START Time ______ (~2minutes since lift pump start)

Step 6 Performance Step: 13 VERIFY the following normal operating parameters:

• Running amps: Hot 460 to 540 amps Cold 715 amps

• RCS flow: Greater than or equal to 98%

• # 1 Seal b.P Greater than 200 psid

• # 1 Seal leakoff in the normal operating range of

• Attachment 3

• Motor Winding temperature <300°F Standard: Locates and verifies each parameter is in the normal operating range (ERFIS or MCB indications may be used)

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 7 of 12 Form ES-C-1 PERFORMANCE INFORMATION

( EVALUATOR NOTE: After the oil lift pump is secured in this next step have the Simulator operator insert Trigger 1 to start 'C' RCP vibrations to increase.

Note prior to Step 7 Performance Step: 14 The oil lift pump should be run at least 1 minute after starting an RCP .

./ Standard: Waits at least 1 minute then secures the 'C' RCP oil lift pump.

Comment: Secure Time ______ (~ 1 minute since RCP start)

Performance Step: 15 Identifies 'C' RCP Trouble alarm ALB-010 window 3-5 and enters AOP-018 based on RCP vibration indicators YT 439A

'C' RCP Shaft Vibration and YT 439B 'C' RCP Frame Vibration indicator increase

./ Standard: Acknowledges alarm, reviews APP (may note increase in 'c' RCP vibrations) and performs immediate action of AOP-018.

• CHECK ANY CSIP RUNNING.

(CHECKS 'A' CSIP is running - voices immediate actions complete)

Comment:

Enters AOP-018 NOTE prior to Step 1 Performance Step: 16

• Step 1 is an immediate action

• RCP abnormal conditions may require implementation of the SHNPP Emergency Plan.

Standard: Reads and initials Note.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 8 of 12 Form ES-C-1 PERFORMANCE INFORMATION

( AOP-018 Step 1 Performance Step: 17 CHECK ANY CSIP RUNNING.

Standard: Check has been completed during immediate action.

Comment:

AOP-018 Step 2 Performance Step: 18 REFER TO PEP-11 0, Emergency Classification And Protective Action Recommendations, AND ENTER the EAL Network at entry point X.

Standard: Informs SCO or S-SO to Refer to PEP-110 and enter EAL Network at entry point X.

Evaluator Cue: SCO (S-SO) understands Refer to PEP-11 0 and enter EAL Network at entry point X.

Comment:

(

AOP-018 NOTE prior to Step 3 Performance Step: 19 Review note prior to step 3 Standard: Reads and initials note NOTE: Minimum allowable flow for a CSIP is 60 gpm which is provided by normal miniflow during normal operation and alternate miniflow during safety injection. Maintaining CSIPflow greater than or equal to 60 gpm also satisfies this requirement.

Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 9 of 12 Form ES-C-1 PERFORMANCE INFORMATION AOP-018 Step 3 Performance Step: 20 EVALUATE plant conditions AND GO TO the appropriate section: High Reactor Coolant Pump Vibration Section 3.2 Standard: Reads step and goes to section 3.2 Comment:

AOP-018 Section 3.2 High RCP Vibration Step 1 Performance Step: 21 CHECK ALL RCPs operating within the limits of Attachment 1 Refers to Attachment .1 step 5 for RCP vibrations Standard: Reads RCP Trip Limits associated with RCP vibrations (step 5) and checks vibration readings Comment:

Performance Step: 22 Identify 'C' RCP vibrations are above the trip limits of AOP-018 Attachment 1 Standard: Informs SCO that 'c' RCP vibrations are above the trip limits of AOP-018 Attachment 1 Evaluator Cue: SCO acknowledges report Comment:

Step 1 RNO (Alternate Path)

Performance Step: 23 GO TO Step 3 Standard: Reads Step 1 RNO and goes to step 3 Comment:

v' - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 10 of 12 Form ES-C-1 PERFORMANCE INFORMATION

( S~p3 Performance Step: 24 CHECK Rx Power is greater than P-8 (49%)

Standard: Checks NO Rx Power is not greater than P-8 (49%)

RNO Step 3 GO TO Step 5 Comment:

Step 5 Performance Step: 25 CHECK more than ONE RCP affected Standard: Checks NO only 'C' RCP affected RNO Step 5 GO TO Step 5 Comment: .

Step 5 RNO Performance Step: 26 PERFORM the following:

a. STOP the affected RCP

b. REFER TO Attachment 7, Operation With Two RCPs.

c. GO TO Step 11

.;' Standard: Locates control switch for 'C' RCP and STOPs 'C' RCP.

Reports to SCO that 'C' RCP has been secured.

Comment:

Evaluator Cue: SCO acknowledges report END OF JPM Terminating Cue: Operator reports to the examiner that RCP is operating above trip limit for vibrations and SECURES 'c' RCP.

STOP TIME:

.;' - Denotes Critical Steps 2009A NRC Exam JPM h Rev 1

Appendix C Page 11 of 12 Form ES-C-1 VERIFICATION OF COMPLETION Job Performance Measure No.: 2009A NRC JPM h Start An RCP Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM h Rev 1

Appendix C Page 12 of 12 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: A GP-002 heat-up is in progress. Two hours ago the "C" RCP was removed from service for maintenance. Maintenance has been completed and the 'C ' RCP is ready for operation.

INITIATING CUE: The SCO has instructed you to start 'C ' RCP in accordance with OP-100 Section 5.1

(

2009A NRC Exam JPM h Rev 1

3.0 PREREQUISITES

( 1. VERIFY the following systems are aligned to support operation of the Reactor Coolant System and its components:

• Primary Sample System per OP-1 01

• Primary Make-up System per OP-1 02

• Chemical and Volume Control System per OP-1 07

• Radioactive Equipment Drain System per OP-120.08

• Component Cooling Water System per OP-145

• Instrument Air System per OP-151.01

• Compressed Gas System Nitrogen per OP-152.01

• DC Electrical Distribution per OP-156.01

• AC Electrical Distribution per OP-156.02

• RCP Vibration Monitor 4.0 PRECAUTIONS AND LIMITATIONS

1. Start only one RCP at a time.

2. Apply the following starting duty for the RCPs:

• If the motor is allowed to coast to a stop between starts, two successive starts are permitted.

• A third start is permitted when the winding and the core have cooled by running for a period of 20 minutes, OR by standing idle for a period of 45 minutes.

3. CCW flow through the thermal barrier heat exchanger should be supplied at all times when RCS temperature exceeds 200°F.

4. The temperature of CCW supplied to components should not exceed 105°F during normal operation. During the transition to Residual Heat Removal cooling in service, the temperature may increase to 125°F.

5. Volume Control Tank pressure should be maintained greater than 15 psig to insure sufficient cooling water is supplied to # 2 RCP Seal.

6. RCP seal injection temperature should be limited to a maximum of 135°F. For special operation, RCP seal injection temperature may be increased to a maximum of 150°F provided RCS temperature is maintained less than 400°F.

7. Seal injection flow should be maintained to the RCPs at all times when RCS pressure is above Containment pressure or the RCS is being filled.

IOP-100 Rev. 28 Page 5 of 81 I

4.0 PRECAUTIONS AND LIMITATIONS (continued)

8. To prevent backflow of potentially dirty water from the Volume Control Tank, # 1 Seal leakoff valves must be shut when RCP seal injection is not supplied and RCS pressure is less than 100 psig.

9. If # 1 Seal leakoff flow required by Attachment 3 cannot be established, do not start an RCP. Refer to Section 8.13.

10. If the possibility exists for Volume Control Tank pressure to equal or exceed RCS pressure, keep the Seal Water Return Line isolated when not running the RCP.

11. RCP Standpipes must contain sufficient water to ensure the standpipes do not operate dry (no RCP Standpipe level alarms).

12. Cooling water to the motor bearing oil coolers should be maintained for at least 30 minutes after stopping an RCP.

13. An RCP should not be operated beyond the low and the high level alarms in the upper and lower oil pots. Local RAB level indication is provided for these parameters.

14. The RCP Oil Lift Pump should be started at least 2 minutes before starting the RCP, and run for 1 minute after the RCP comes up to speed.

( 15. The RCS must be filled and all major air pockets vented before starting a RCP.

16. An RCP should not be operated continuously until the RCS has been thoroughly vented.

17. RCS pressure must be greater than 325 psig to start an RCP during fill and vent operations. However, the minimum loop pressure for subsequent RCP operation is controlled by the minimum LlP (200 psid) across the # 1 Seal. [R - Reference FSAR 4.4.3]

18. RCP # 1 Seal Bypass Valve should remain shut unless RCP RADIAL BRG TEMP OR RCP SEAL WTR INLET TEMP approaches the alarm level of 220°F. If the following conditions are met, the bypass valve should then be opened: (Reference 2.5.1)

• Seal injection flow to each RCP is between 8 and 13 gpm.

• # 1 Seal leakoff from any pump is less than 1 gpm.

• RCS pressure is less than 1000 psig.

( I OP-100 Rev. 28 Page 6 of 81 I

4.0 PRECAUTIONS AND LIMITATIONS (continued)

19. During Res fill and vent, the # 1 Seal bypass valve should be opened

( briefly to vent the lines. The bypass valve should not be opened until ReS pressure is at least 100 psig and the # 1 Seal leakoff line is opened. After venting the lines, the # 1 Seal bypass valve should be closed and remain closed unless the conditions described in 18 above occur.

20. Whenever ReS temperature is greater than 160°F, at least one Rep must be in operation. [R - Reference 85H0635]

21. Rep seal flow has a normal operating range of between 8 and 13 gpm per pump. However, at no time should the total to all three Reps exceed 31 gpm with ReS pressure at 2215 to 2255 psig. This is the maximum controlled leakage allowed by Tech Spec 3.4.6.2e. If plant conditions dictate, seal flow to each Rep may be reduced to a minimum of6 gpm.

22. Reps shall not be started with one or more of the ReS cold leg temperatures less than or equal to 325°F unless the secondary water temperature is less than 50°F above each of the ReS cold leg temperatures. (Reference 2.2.2)

23. When starting an Rep while the plant is solid, pressure surges large enough to lift an LTOP relief should be anticipated. Prompt action wi" be required to prevent LTOP actuation.

24. When ReS pressure is being maintained by the low pressure letdown control valve, changes to the RHR flow rate by throttling valves or starting and stopping the RHR pumps will result in changes in ReS pressure.

25. Maximize purification system use during periods when high coolant activity levels are anticipated:

• Fo"owing hydrogen peroxide addition before cooldown

• Fo"owing Rep jog

• Reactor Startup

26. Pressurizer Relief Tank (PRT) temperature should be maintained less than 120°F.

27. A nitrogen cover pressure of 2 to 4 psig should be maintained in the pressurizer relief tank to prevent the formation of an explosive hydrogen-oxygen mixture. Explosive mixtures of oxygen and hydrogen in the PRT must be avoided at a" times. The oxygen content in the tank must not exceed 4% by volume with hydrogen present.

(Reference 2.7.1)

IOP-100 Rev. 28 Page 7 of 81 I

4.0 PRECAUTIONS AND LIMITATIONS (continued)

28. The maximum # 1 Seal leakoff permitted is 6.5 gpm. (Reference 2.5.1

( and 2.1.13). '

29. Maintain RCS pressure greater than or equal to PRT pressure to prevent PRT backleakage into the RCS or Containment atmosphere.

30. When turning off the Pressurizer Back Up Heaters with Pressure Control PK-444A in Automatic the potential exists for Pressurizer pressure to decrease below the Tech Spec DNB limit of 2185 psig (2205 psig MCB indication Ref OST-1 021). To prevent this problem, the back up heaters should be turned off one at a time while allowing the system time to respond in AUTO. Bank D should be the last heater group turned off. Another acceptable method would be to place PK-444A in manual and adjust the output to 25% to partially energize the Control Group C Heaters, de-energize the back up heaters and then place PK-444A back in auto.

31. When energizing the Pressurizer Backup Heaters Groups "A" or "B",

the following sequence should minimize the pressure increase and subsequent power transient. Place PK-444A in manual and raise the output to between 40% and 45% and then place PK-444A back in AUTO. Then promptly turn on the backup heaters.

32. When starting or stopping an RCP the effect on Pressurizer Spray flow, RCS temperature and pressure, Steam Generator parameters and RHR flow and temperature, should be evaluated and compensatory measures formulated as necessary.

33. Continued RCP operation (beyond one hour) during a Loss of Seal Injection with the No.1 Seal leaking less than 2.5 GPM, CCWat minimum flow (35 GPM) and maximum temperature (105°F) may result in pump bearing and seal water inlet temperatures which exceed the maximum normal operating temperature (220°F). Closely monitor the pump bearing and seal water inlet temperatures of RCPs with No.1 seal leak-off below 2.5 GPM. Expedited cooling of the RCS may prevent exceeding the maximum temperature (220°F). Secure RCP if pump bearing or seal water inlet temperature exceeds 230°F.

34. The RCP No.1 Seal may be damaged if an RCP is operating during an LTOPs (COMS) event (Reference 2.7.6). Operations should contact the System Engineer (System 2025) prior to restarting an RCP.

IOP-100 Rev. 28 Page 8 of 81 I

5.0 STARTUP 5.1. Reactor Coolant Pump Start-up 5.1.1. Initial Conditions

1. The ReS is filled and vented per GP-001 OR initial pump start per GP-001.

2. Attachment 1 is complete.

3. Attachment 2 is complete.

4. # 1 Seal Leakoff Flow is in the normal operating range of Attachment 3.

(Reference 2.5.1)

5. Reactor power is less than 25%. [R - Reference FSAR 15.4.4]

6. If starting Reps for ReS fill and vent per GP-001, ReS pressure is greater than 325 psig. [R - Reference FSAR 4.4.3]

7. # 1 Seal.6.P is greater than 200 psid. [R - Reference FSAR 4.4.3]

8. Seal injection flow is 8 to 13 gpm. [R - Reference FSAR 4.4.3]

9. VeT temperature is between 60 and 130°F.

( 10. veT pressure is greater than 15 psig.

NOTE: ERFIS GO AOP-018, Locked Rotor Monitor, may be used for the following step.

11. No Rep related annunciators are in alarm which could adversely affect Rep operation.

I OP-100 Rev. 28 Page 9 of 81 I

5.1.2. Procedure Steps CAUTION Only one Rep is to be started at anyone time. If the motor is allowed to coast to a stop between starts, two successive starts are permitted. A third start may be made when the winding and the core have cooled by running for 20 minutes, or by standing idle for 45 minutes.

1. VERIFY the following before pump start:

a. IF jogging Reps per GP-001 ,

THEN VERIFY ReS Pressure is greater than 325 psig.

[R - Reference FSAR 4.4.3]

b. VERIFY # 1 Seal ~P is greater than 200 psid.

NOTE: VeT Outlet Temp TE-116 should be used for seal injection water temperature.

c. VERIFY Seal Injection flow is between 8 and 13 gpm at a temperature between 60 and 130°F. [R - Reference FSAR 4.4.3]

d. VERIFY # 1 Seal Leakoff is in the normal operating range of Attachment 3.

CAUTION Reps shall not be started with one or more of the ReS cold leg temperatures less than or equal to 325°F unless the secondary water temperature is less than 50°F above each of the ReS cold leg temperatures. This caution is only applicable to the first Rep to be started.

2. START the Rep Oil Lift Pump.

3. VERIFY the amber permissive light on the lift pump control switch is lit indicating proper lift oil pressure has been achieved.

4. ALLOW the Rep Oil Lift Pump to run for a minimum of 2 minutes before starting an Rep.

IOP-100 Rev. 28 Page 10 of 81 I

5.1.2 Procedure Steps (continued)

( NOTE: When an RCP is started, the RCP ammeter will go off scale high, and then decrease to the normal hot or cold running amps after 15 to 25 seconds.

5. START the RCP.

6. VERIFY the following normal operating parameters:

• Running amps: Hot 460 to 540 amps Cold 715 amps

• RCS flow: Greater than or equal to 98%

• # 1 Seal LlP Greater than 200 psid.

• # 1 Seal leakoff In the normal operating range of Attachment 3.

• Motor Winding temperature: Less than 300°F NOTE: The oil lift pump should be run at least 1 minute after starting an RCP.

7. After at least 1 minute, STOP the RCP OIL LIFT PUMP.

8. COMPLETE Section 5.1.3.

IOP-100 Rev. 28 Page 11 of 81 I

5.1.3. Reactor Coolant Pump Start-up Configuration Control Closeout COMPONENT NUMBER COMPONENT DESCRIPTION POSITION CHECK VERIFY Control Switch RCP Oil Lift Pump A STOP Control Switch RCP Oil Lift Pump B STOP Control Switch RCP Oil Lift Pump C STOP All personnel performing this Section for alignment or verification must supply their initials and name below.

Initials Name (Print) Initials Name (Print)

Approved by _ _ _ _ _ _ _ _ _ _ _ _ _ __

Unit SCO Date After receiving the final review signature, this OP Section becomes a QA RECORD.

IOP-100 Rev. 28 Page 12 of 81 I

Attachment 3 - # 1 Seal Performance Parameters Sheet 1 of 1 s.O+---_r--~----+_--_r--~----+_--_r--~----+_--_r--~

Ec.

S 4.0 +---_r--~----+_--_r--~----+_--__+_=

~

u:::

11=

] ~.O +_--_r--~----+_----:

1:1 al

...I "ii

~ 2.0 +----+----+---:

ci z

.l.O+--

0.2 o.o+----r---1----+----r---1----+----r---+----+----r---1-r--~--~

o 200 "l00 600 800 1000 1200 1"100 1600 1800 2000 220q 2"l00 2600 2250 No.1 Seal Differential Pressure (psi d)

Drawing Reference VM-MRF, Section 4 Product Update S-009, Mar 1988 Plant Startup/Shutdown Normal Range Minimum Maximum Notes FLOW (GPM) N/A 0.2 N/A a, b, C, d (0 <iP Continuous Operation N/A Normal Range 200 Minimum N/A Maximum a, b, C Notes FLOW (GPM) 1.0 TO 5.0 0.8 6.5 a, d, e, f

<iP 2250 2150 2300 N/A NOTES

a. Inform Responsible Engineer (RCP) to evaluate the operating and troubleshooting guidelines in the RCP Technical manual for leak rates outside the specified values. (Reference 2.5.1)

b. Minimum RCP startup requirements are 0.2 gpm at a LlP of 200 psi. If 0.2 gpm at 200 psi is not met then inform Responsible Engineer (RCP) and refer to Section 8.13 for guidance.

c. For start-up at LlPS greater than 200 psi, the minimum # 1 seal leakoff is determined from the # 1 Seal Normal Operating Range curve. For example, at a LlP of 1000 psi the minimum seal leakrate is 0.5 gpm.

d. High flow alarm setpoint is 6.5 gpm per PCR-2249.

e. If the # 1 Sealleakoffs are outside the Normal Operating Range (1.0 to 5.0 gpm) but within the Normal Operating Limits (0.8 to 6.5 gpm) continue pump operation. Ensure that seal injection flow exceeds # 1 Seal leakoff for the affected RCP. Closely monitor pump and seal parameters and contact Responsible Engineer (RCP) for further instructions. Westinghouse may need to be consulted.

f. For # 1 Seal leakoffs outside the Normal Operating Limits (0.8 to 6.5 gpm) for Continuous Operation go to AOP-018.

g. RCP operation (beyond one hour) during a Loss of Seal Injection with the No.1 Seal leaking less than 2.5 GPM and CCWat minimum flow (35 GPM) and maximum temperature (105°F), may result in pump bearing and seal water inlet temperatures exceeding the maximum normal operating temperature (220°F). Closely monitor the pump bearing and seal water inlet temperatures of RCPs with No.1 seal leak-off below 2.5 GPM. Expedited cooling of the RCS may prevent exceeding the maximum teQ1perature (220°F).

IOP-100 Rev. 28 Page 80 of 81

3-5 DEVICES: S7M SETPOINT: 10A RCP-C

( 50F-1/A, 50F-2A 512A TROUBLE 50/51 SOOA 64 5A 74 De-energized YIS-01 RC-0429B 15.0 mils YIS-01 RC-0429A 3.0 mils REFLASH: NO OPERATOR ACTIONS:

1. CONFIRM alarm using:

a. Reactor Coolant Pump C breaker trip:

(1) RCP-C current, EI-0162, on MCB (2) RCP-C loop flow (3) RCP-C breaker indicating lights

b. Vibration Monitor Cab (Bentley-Nevada) indication of vibration level for pump frame & shaft

2. VERIFY Automatic Functions:

a. If above P-S, trip of the RCP will cause the Reactor to trip on low flow.

3. PERFORM Corrective Actions:

a. If reactor power was above P-S AND RCP C tripped, THEN:

(1) VERIFY the reactor tripped.

(2) GOTO EOP PATH-1.

b. If reactor power is less than P-S AND RCP C tripped:

THEN GO TO GP-006, Normal Plant Shutdown from Power Operation to Hot Standby, AND COMMENCE plant shutdown.

c. DISPATCH an Operator to Auxiliary Bus 1C-2 to determine the cause of the pump trip.

d. IF pump vibration is abnormal, THEN GO TO AOP-01S, Reactor Coolant Pump Abnormal Conditions.

e. IF all indicating lights are extinguished on MCB for RCP-C, THEN DISPATCH an Operator to verify the following control power circuits are closed:

(1) Trip Coil #1 125 VDC Distr. PaneI1A-SA-12 (2) Trip Coil #2 125 VDC Distr. PaneI1B-SB-12 CAUSES:

1. Overcurrent or instantaneous overcurrent

2. Differential current

3. Underfrequency

4. 6.9 KV power ground

5. Loss of breaker control power

6. High vibration pump frame or shaft

7. Alarm circuit or instrumentation malfunction

REFERENCES:

1. Tech. Specs. 3.1.3, 3.3.2, 3.4.1.1, 3.4.1.2, 3.4.1.3, 3.S.1.1, and 3.S.1.2

2. GP-006, Normal Plant Shutdown from Power Operation to Hot Standby

3. AOP-01S, Reactor Coolant Pump Abnormal Conditions

4. 2166-B-401 0115,0119,1623,1627 APP-ALB-010 I Rev. 23 I Page 18 of 49

REACTOR COOLANT PUMP ABNORMAL CONDITIONS INSTRUCTIONS RESPONSE NOT OBTAINED 3.0 OPERATOR ACTIONS NOTE

• Step 1 is an immediate action.

• RCP abnormal conditions may require implementation of the SHNPP Emergency Plan. [C.1]

01. CHECK ANY CSIP RUNNING. 01. ISOLATE letdown by verifying the following valves SHUT:

• 1CS-7, 45 GPM Letdown Orifice A

• 1CS-8, 60 GPM Letdown Orifice B

• 1CS-9, 60 GPM Letdown Orifice C

02. REFER TO PEP-11 0, Emergency Classification And Protective Action Recommendations,

( AND ENTER the EAL Network at entry point X.

NOTE Minimum allowable flow for a CSIP is 60 gpm which is provided by normal miniflow during normal operation and alternate miniflow during safety injection. Maintaining CSIP flow greater than or equal to 60 gpm also satisfies this requirement.

3. EVALUATE plant conditions AND GO TO the appropriate section:

MALFUNCTION SECTION Page o Loss of CCW and/or Seal Injection to RCPs 3.1 5 o High Reactor Coolant Pump Vibration 3.2 9 o Reactor Coolant Pump Seal Malfunction 3.3 12 o Reactor Coolant Pump Motor Trouble 3.4 21

--END OF SECTION 3.0 --

l AOP-018 Rev. 34 Page 4 of 53

I REACTOR COOLANT PUMP ABNORMAL CONDITIONS I

( r-1 INSTRUCTIONS RESPONSE NOT OBTAINED

~

3.2 High Reactor Coolant Pump Vibration

• 01. CHECK ALL RCPs operating within 01. GO TO Step 3.

the limits of Attachment 1 (Page 27).

[A.1]

02. GO TO Step 11 .

03. CHECK Rx Power is greater than P-8 03. GO TO Step 5.

(49%).

04. GO TO Step 6.

05. CHECK more than ONE RCP 5. PERFORM the following:

affected.

0 a. STOP the affected RCP.

0 b. REFER TO Attachment 7, Operation With Two RCPs.

0 c. GO TO Step 11.

(

06. VERIFY the Reactor is TRIPPED AND GO TO EOP PATH-1. (Perform Steps 7 through 10 as time permits.)

07. STOP affected RCP(s).

08. CHECK RCP A RUNNING. 08. SHUT 1RC-1 07, PRZ Spray Loop A.

09. CHECK RCP B RUNNING. 09. SHUT 1RC-1 03, PRZ Spray Loop B.

010. EXIT this procedure.

AOP-018 I Rev. 34 Page 9 of 53

REACTOR COOLANT PUMP ABNORMAL CONDITIONS Attachment 1

( Sheet 1 of 2 Reactor Coolant Pump Trip Limits NOTE False indications such as step changes or spikes on both the upper and lower thrust bearings are signs that the instrumentation transient may not be valid.

Validation of the temperatures should be performed by observing positive indications of any of the following:

• Simultaneous temperature increases in upper and lower thrust bearing and upper guide bearing (may indicate loss of CCW cooling or oil viscosity problems common to the upper reservoir)

• Vibration levels increasing along with increasing bearing temperatures.

• High or low RCP oil level alarms along with increasing bearing temperatures.

01. ANY of the following Motor Bearing temperatures exceeding 190°F: [A.1]

ERFIS Points RCPA RCP B RCPC (e~ Mtr Upper Thrust Brg Temp TRC0417A TRC0427A TRC0437A Mtr Lower Thrust Brg Temp TRC0417B TRC0427B TRC0437B Mtr Upper Radial Brg Temp TRC0418A TRC0428A TRC0438A Mtr Lower Radial Brg Temp TRC0419 TRC0429 TRC0439

02. ANY of the following Pump temperatures exceeding 230°F: [A.1]

ERFIS Points RCPA RCP B RCPC Pump Radial Brg Temp TRC0131 TRC0128 TRC0125 Seal Water Inlet Temp TRC0132 TRC0129 TRC0126

03. RCP Stator Winding temperature exceeding 300°F:

ERFIS Points RCP A RCP B RCP C TRC0418B TRC0428B TRC0438B

(

AOP-018 Rev. 34 Page 27 of 53

REACTOR COOLANT PUMP ABNORMAL CONDITIONS Attachment 1 Sheet 2 of 2 Reactor Coolant Pump Trip Limits NOTE ALB-5-1-2B, RCP THERM BAR HDR LOW FLOW, indicates loss of CCW to all RCP thermal barriers.

04. Loss of RCP seal injection when ANY of the following conditions exist:

• CCW flow is lost to the associated RCP Thermal Barrier HX

• RCS temperature is greater than or equal to 400°F AND CCW HX outlet temperature is greater than 105°F

• RCS temperature is less than 400°F AND CCW HX outlet temperature is greater than 125°F

05. RCP vibration in excess of the following: [A.1]

• 20 mils shaft

• 15 mils shaft and increasing greater than 1 mil/hr

• 5 mils frame

(

• For A and C RCPs ONLY: 3 mils frame and increasing greater than 0.2 mil/hr

• For B RCP ONLY: 3.5 mils frame and increasing greater than 0.2 mils/hr

06. RCP Motor current fluctuations of 40 amps peak-to-peak:

ERFIS Points RCPA RCP B RCP C Motor Current IRC0160 IRC0161 IRC0162

07. Loss of CCW to an RCP or RCP Motor when:

• An RCP has operated for 10 minutes without CCW flow to either motor oil cooler

[A.2]

• Isolation of CCW to an RCP is necessary to stop excessive CCW System leakage

-- END OF ATTACHMENT 1 --

(

AOP-018 Rev. 34 Page 28 of 53

Appendix C Job Performance Measure Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 301135H601 Task

Title:

Reset SI Locally JPM No.: 2009A NRC JPM i KIA

Reference:

006 A4.08 4.2/4.3 Examinee: NRC Examiner:

Facility Evaluator: Date: _ _ __

Method of testing:

Simulated Performance: x Actual Performance:

Classroom ---

Simulator ---

Plant X READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: The plant was operating at 100 percent power when an inadvertent SI occurred.

The crew is responding to the SI signal and has met SI termination criteria per PATH-1. The RQ attempted to reset the SI signal but only the 'A' Train of SI reset.

Task Standard: The 'B' Train of SI is reset locally at SSPS per PATH-1 Attachment 12 directions.

Required Materials: None General

References:

PATH-1 Attachment 12, Rev. 23 Initiating Cue: The SCQ has directed you to locally reset Safeguards Train 'B' at SSPS per Attachment 12 of PATH-1 Guide Time Critical Task: No

(~

Validation Time: 8 minutes (not including time for logging out key) 2009A NRC Exam JPM I Rev 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SETUP

• N/A In-Plant JPM Examiners Note: Key #40 (CH 751) is required to open the SSPS cabinets.

Prior to exam administration, the key will be checked out by someone from the Exam Development team and given to the NRC Lead Examiner. The key will be checked back in at the end of the day by the person that originally checked the key out.

Details of how to obtain a key will be left to the Examiner. One method to obtain a key and return it after use is listed below:

• Obtain Safety Key Locker key from the SCO's desk

• Identify which key is required based on the list in key locker area

• Unlock the Safety Key Locker door and obtain proper key (in this case key CH 751 - NOTE: there are more than one CH 751 keys, key #40 is C~~

• one of them) then re-Iock the key locker door Sign key out

• Return the Safety Key Locker key to the SCO's desk

• At conclusion of task the key to the Safety Key Locker should again be obtained from the SCO's desk

• Unlock the Safety Key Locker and return key (CH 751) to its Safety Key Locker location and re-Iock the locker door

• The key should be signed back in

• The Safety Key Locker SCO key should be returned to the desk By getting a key ahead of time and just asking the candidates how to obtain a key will alleviate the need to check out and check in the key each time the JPM is administered to the candidates for this JPM. This will reduce the overall time required to perform this JPM.

2009A NRC Exam JPM I Rev 1

Appendix C Page 3 of 7 Form ES-C-1 PERFORMANCE INFORMATION START TIME:

Evaluator Cue: Provide the candidate a copy of PATH-1 Attachment 12.

Note: The candidate will need to check out key (CH 751) to open the SSPS cabinet. Allow the candidate to either start to obtain a cabinet door key OR go to the cabinets then realize the need for a key when the cabinets are attempted to be opened.

When the need for a key is determined ask the candidate how to obtain the proper key and note the response. (See details on previous page for obtaining a cabinet door key). Then provide the candidate with the cabinet key.

Performance Step: 1 Obtain key to open SSPS cabinet (this may not happen until the candidate gets to the cabinet and determines a key is required)

Standard: Discuss how to obtain key - see previous page write up.

Obtains key from SCO's desk to unlock Safety Key locker and checks out key #40 (CH 751). Proceeds to Protection System Train 8 Logic Cabinet and opens the cabinet door.

( Comment:

NOTE Prior to Step 1 Performance Step: 2 Reviews note Standard: Reads and initials NOTE: Steps 1, 2 AND 3 reset output signals from "A" Train SSPS. Step 4, 5 AND 6 reset output signals from "8" Train SSPS.

IF SI will NOT reset due to failure of the associated reactor trip breaker to OPEN, THEN attempts to manually or locally OPEN the breaker should be completed before performing this attachment.

Identifies that steps 4-6 will be performed and steps 1-3 do not apply.

Comment:

.(' - Denotes Critical Steps 2009A NRC Exam JPM I Rev 1

Appendix C Page 4 of 7 Form ES-C-1 PERFORMANCE INFORMATION

( Step 4

./ Performance Step: 3 At Protection System Train B, Logic Cabinet, Place The Following Breakers In OFF:

• Tripped OV.P Breaker 48V (top power supply)

• Tripped OV.P Breaker 48V (bottom power supply)

Standard: Unlocks door and opens Protection System Train B, Logic Cabinet, locates switch and places Tripped OV.P Breaker 48V (top power supply) breaker to down (OFF) position Locates switch and places Tripped OV.P Breaker 48V (bottom power supply) breaker to down (OFF) position Evaluator: CUE: Tripped O.V.P. Breaker 48V (top power supply) switch is in the down (OFF) position Tripped O.V.P. Breaker 48V (bottom power supply) switch is in the down (OFF) position Comment:

(~

Evaluator Note: If the candidate states that the cabinet door 48 volt power supply green lights de-energize and the red General Warning light has energized (when the first power supply breaker is turned OFF) then:

CUE: The green light 48 Volt power supply light is off and the red General Warning light is lit.

Step 5

./ Performance Step: 4 At Protection System Safeguards Test Train B, Cabinet No.1, Momentarily Position Switch S821 To RESET.

Standard: Unlocks door with key and locates switch S821 and momentarily positions the switch to the RESET position (to the right)

Evaluator: CUE: Switch S821 has been taken to RESET Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM I Rev 1

Appendix C Page 5 of 7 Form ES-C-1 PERFORMANCE INFORMATION Step 6

./ Performance Step: 5 At the Protection System Train B, Output Cabinet No.1, Place the Mode Selector Switch To TEST.

Standard: Unlocks door with key and locates Protection System Train B, Output Cabinet No.1, and places the Mode Selector Switch To TEST (to counter clockwise direction)

Evaluator: CUE: Mode selector switch has been taken to TEST Comment:

Performance Step: Contact MCR Standard: Contact MCR and informs SCO that Train 'B' Safeguards has been reset at SSPS

( Evaluator: CUE: SCO acknowledges that Train '8' Safeguards has been reset at SSPS END OF JPM Comment:

Terminating Cue: Train '8' of Safeguards has been reset locally at SSPS and SCQ has been informed Evaluator Note: PRIOR to leaving the area, ensure that the candidate relocks all 3 cabinet doors AND then returns the key back to the Examiner.

STOP TIME:

./ - Denotes Critical Steps 2009A NRC Exam JPM I Rev 1

Appendix C Page 6 of 7 Form ES-C-1 VERIFICATION OF COMPLETION Job Performance Measure No.: 2009A NRC JPM i Reset SI Locally Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM I Rev 1

Appendix C Page 7 of 7 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: The plant was operating at 100 percent power when an inadvertent SI occurred.

The crew is responding to the SI signal and has met SI termination criteria per PATH-1. The RO attempted to reset the SI signal but only the 'A' Train of SI reset.

INITIATING CUE: The SCO has directed you to locally reset Safeguards Train'S' at SSPS per Attachment 12 of PATH-1 Guide c

2009A NRC Exam JPM I Rev 1

PATH-1 GUIDE Instructions Response Not Obtained

19. Reset S1. IF any train of SI will NOT reset at MCB, THEN reset at SSPS using Attachment 12.

20. Manually Realign Safeguards Equipment Following A Loss Of Offsite Power.

(Refer to Attachment 2.)

21. Stop All But One CSIP.

22. Check RCS Pressure - STABLE OR GO TO EPP-009, "POST LOCA INCREASING COOLDOWN AND DEPRESSURIZATION",

Step 1.

23. Isolate High Head SI Flow:

a. Open normal miniflow a. Observe NOTE prior to isolation valves: Step 24 AND GO TO Step 24.

( 1CS-182 1CS-196 1CS-210 1CS-214

b. Shut BIT outlet valves: b. Locally shut OR isolate valves.

lSI-3 lSI-4 lSI-3 (A-230-FX32-W6-S1) lSI-4 (A-230-FX32-W3-S2)

c. Verify cold leg AND hot leg c. Locally shut valves.

injection valves - SHUT lSI-52 (A-250-GY38-W2-S6) lSI-52 lSI-86 (A-230-FX25-W4-N3) lSI-86 lSI-107 (A-245-FV20-W6-N9) lSI-107

d. Observe CAUTION prior to Step 25 AND GO TO Step 25.

EOP - GUIDE-1 Rev. 23 Page 29 of 96

Appendix C Job Performance Measure Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 301117H401 Task

Title:

Local Inspection of Annunciator JPM No.: 2009A NRC JPM J Cabinets KIA

Reference:

016 A2.02 2.9/3.2 Examinee: NRC Examiner:

Facility Evaluator: Oate: _ _ __

Method of testing:

Simulated Performance: x Actual Performance:

Classroom - - - Simulator ---

Plant x READ TO THE EXAMINEE I will'explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: ANNUN SYS 1 POWER SUPPLY FAILURE alarm, ALB 26-1-4 has alarmed in the main control room, and the control room has entered AOP-037, "Loss of Main Control Room Annunciators."

Task Standard: Status reported to Control Room correctly.

Required Materials: Annunciator cabinet key #48 General

References:

AOP-037, Rev 12 Attachment 1 Initiating Cue: You have been directed to check the status of System 1 annunciator power supplies per Attachment 1 of AOP-037.

Time Critical Task: No Validation Time: 10 Minutes 2009A NRC Exam JPM j Rev 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SETUP

• N/A In-Plant JPM Examiners Note: Key #48 is required to open the Annunciator power supply cabinets.

Prior to exam administration, the key will be checked out by someone from the Exam Development team and given to the NRC Lead Examiner. The key will be checked back in at the end of the day by the person that originally checked the key out.

Details of how to obtain a key will be left to the Examiner. Qne method to obtain a key and return it after use is listed below:

• Obtain Safety Key Locker key from the SCQ's desk

• Identify which key is required based on the list in key locker area

• Unlock the Safety Key Locker door and obtain proper key

• Sign key out

• Return the Safety Key Locker key to the SCQ's desk

• At conclusion of task the key to the Safety Key Locker should again be obtained from the SCQ's desk

• Unlock the Safety Key Locker and return key to its Safety Key Locker location and re-Iock the locker door

• The key should be signed back in

• The Safety Key Locker SCO key should be returned to the desk By getting a key ahead of time and just asking the candidates how to obtain a key will alleviate the need to check out and check in the key each time the JPM is administered to the candidates for this JPM. This will reduce the overall time required to perform this JPM 2009A NRC Exam JPM j Rev 1

Appendix C Page 3 of 11 Form ES-C-1 PERFORMANCE INFORMATION Evaluator Cue: Provide the candidate a copy of AOP-037, Attachment 1.

Note: The candidate will need to check out key #48 to open the Annunciator power supply cabinets. Allow the candidate to either start to obtain a cabinet door key OR go to the cabinets then realize the need for a key when the cabinets are attempted to be opened. When the need for a key is determined ask the candidate how to obtain the proper key and note the response.

(See details on previous page for obtaining a cabinet door key).

Then provide the candidate with the correct cabinet key.

Step 1 Performance Step: 1 OBTAIN Annunciator Cabinet key (this may not happen until the candidate gets to the cabinet and determines a key is required)

Standard: Discuss how to obtain key - see previous page write up.

Obtains key from SCQ's desk to unlock Safety Key locker and checks out key #48. Proceeds to Annunciator Power Supply Cabinet door area.

Comment:

START TIME:

NOTE prior to Step 2 Performance Step: 2 Review note Standard: Reads and initials note:

• All power supplies are located in the east side of the cabinets. Indicating lights for the 24 VDC and 12 VDC are on the top side of the power supply.

• Equipment designators used below in brackets [ ] are those listed in the MCB Annunciator Reference Guide.

The equipment is not labeled in the field.

Locates annunciator cabinet, System 1, Bay 1 unlocks and opens door.

Comment:

(

./ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page 4 of 11 Form ES-C-1 PERFORMANCE INFORMATION Step 2 Performance Step: 3 CHECK the indicated lights for each of the following Annunciator Cabinets (drawing page 2 of attachment) AND INITIAL if LIT.

Standard: Reviews table (may check operator aid posted inside cabinet door which is the same drawing as sheet 2 in procedure)

Comment:

Evaluator Cue: I will provide you the light indication for each light that you are inspecting after you identify to me where the light location is and tell me what indication you are looking for.

(LIT OR NOT LIT)

Step 2 continued

./ Performance Step: 4 SYSTEM 1, BAY 1 INV (TOP ROW LEFT)

LIGHT-LIT Standard: Checks INV light LIT, INITIALS Attachment Evaluator Cue: INV light is LIT.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page 5 of 11 Form ES-C-1 PERFORMANCE INFORMATION Step 2 continued

./ Performance Step: 5 SYSTEM 1, BAY 1 AC (TOP ROW LEFT)

LIGHT-LIT Standard: Checks AC light LIT, does NOT initial sheet Evaluator Cue: AC light is OUT.

Comment:

Step 2 continued

./ Performance Step: 6 SYSTEM 1, BAY 1

( 125 VDC PWR ON (TOP ROW)

LIGHT (RIGHT) - LIT Standard: Checks 125 VDC light LIT. INITIALS Attachment Evaluator Cue: 125 VDC PWR ON light is LIT.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page 6 of 11 Form ES-C-1 PERFORMANCE INFORMATION Step 2 continued

./ Performance Step: 7 SYSTEM 1, BAY 1 12 VDC PWR ON (SECOND ROW, OUTSIDE (SMALLER))

LIGHT (LEFT) - LIT LIGHT (RIGHT) - LIT Standard: Checks both 12 VDC power supply indicating lights lit. INITIALS Attachment Evaluator Cue: Both 12 VDC PWR ON lights are LIT.

Comment:

Step 2 continued

./ Performance Step: 8

( SYSTEM 1, BAY 1 24 VDC PWR ON (SECOND ROW, INNER (LARGER))

LIGHT (LEFT) - LIT LIGHT (RIGHT) - LIT Standard: Checks both 24 VDC power supply indicating lights lit. INITIALS Attachment Evaluator Cue: Both 24 VDC PWR ON lights are LIT.

Comment:

Evaluator NOTE The actual power supply light is hard to see that it really is LIT. To the candidate it may appear to be off and they may want to report this to the MCR. Allow them to AFTER the JPM is completed if they desire to. The light is LIT and can be verified by obtaining a small step ladder or stool and looking down at the top of the light. This information can be found in the Operator OE data base for AOP-037 .

./ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page 7 of 11 Form ES-C-1 PERFORMANCE INFORMATION Step 2 continued

./ Performance Step: 9 SYSTEM 1, BAY 3 INV (TOP ROW LEFT)

LIGHT-LIT Standard:

Locates annunciator cabinet, System 1 Bay 3 Checks INV light LIT, INITIALS Attachment Evaluator Cue: INV light is LIT.

Comment:

Step 2 continued

./ Performance Step: 10 SYSTEM 1, BAY 3 AC (TOP ROW LEFT)

LIGHT-LIT Standard: Checks AC light LIT, INITIALS Attachment Evaluator Cue: AC light is LIT.

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page 8 of 11 Form ES-C-1 PERFORMANCE INFORMATION Step 2 continued

../ Performance Step: 11 SYSTEM 1, BAY 3 125 VDC PWR ON (TOP ROW)

LIGHT (RIGHT) - LIT.

Standard: Checks 125 VDC light LIT, INITIALS Attachment.

Evaluator Cue: 125 VDC PWR ON light is LIT.

Comment:

Step 2 continued

../ Performance Step: 12 SYSTEM 1, BAY 3 12 VDC PWR ON (SECOND ROW, OUTSIDE (SMALLER))

( LIGHT (LEFT) - LIT Standard: Checks 12 VDC power supply indicating light lit., INITIALS Attachment Evaluator Cue: 12 VDC PWR ON light is LIT.

Comment:

../ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page 9 of 11 Form ES-C-1 PERFORMANCE INFORMATION c ./ Performance Step: 13 Step 2 continued SYSTEM 1, BAY 3 24 VDC PWR ON (SECOND ROW, INNER (LARGER>>

LIGHT (LEFT) - LIT Standard: Checks 24 VDC power supply indicating light lit, INITIALS Attachment.

Evaluator Cue: 24 VDC PWR ON light is LIT.

Comment:

Performance Step:14 NOTIFY CONTROL ROOM OF SYSTEM 1, BAY 1 AND BAY 3 CHECKS.

Standard: Notifies control room that, for Bay 1 of System 1, the AC power available light is out; all other lights are lit.

Evaluator Cue: Control room acknowledges report.

END OF JPM Comment:

Terminating Cue: Control Room notified of results of System 1 checks. End of JPM STOP TIME:

(~

./ - Denotes Critical Steps 2009A NRC Exam JPM j Rev 1

Appendix C Page10of11 Form ES-C-1 VERIFICATION OF COMPLETION.

Job Performance Measure No.: 2009A NRC JPM J Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM j Rev 1

Appendix C Page 11 of 11 Form ES-C-1 JPM CUE SHEET INITIAL CONDITIONS: ANNUN SYS 1 POWER SUPPLY FAILURE alarm, ALB 26-1-4 has alarmed in the main control room, and the control room has entered AOP-037, "Loss of Main Control Room Annunciators."

INITIATING CUE: You have been directed to check the status of System 1 annunciator power supplies per Attachment 1 of AOP-037.

(

2009A NRC Exam JPM j Rev 1

~\

C LOSS OF MAIN CONTROL ROOM ANNUNCIATORS Attachment 1 Sheet 1 of 2 System 1 Annunciator Power Supply Status Determination

01. OBTAIN Annunciator Cabinet key.

NOTE

• All power supplies are located in the east side of the cabinets. Indicating lights for the 24 VDC and 12 VDC are on the top side of the power supply.

• Equipment designators used below in brackets [ ] are those listed in the MCB Annunciator Reference Guide. The equipment is not labeled in the field.

02. CHECK the indicated lights for each of the following Annunciator Cabinets (drawing page 2 of attachment) AND INITIAL if LIT.

CABINET INV AC 125 VDC PWR ON 12VDC PWRON 24 VDC PWRON (Top Row Left) (Top Row Left) (Top Row) (Second Row, Outside [Smaller]) (Second Row, Inner [Larger])

Light Initial Light Initial Light (Loc) Initial Light (Loc) Initial Light (Loc) Initial Light (Loc) Initial Light (Loc) Initial System 1 LIT LIT LIT LIT LIT LIT LIT Bay 1 ([1A] right) ([1 A#1] left) ([1A#2] right) ([1A#1] left) ([1A#2] right)

System 1 Bay 3 LIT LIT LIT

([1 C] right)

LIT

([1 C#1] left)

. ;. :" . "i.~l~:::.'

i;:.*> . . . <.\

N/A>

i .. -. . ,., ........

LIT

([1 C#1] left) .,., . :.""""*:.**.* ***

, ,*.:~/~,.*./ '.'.' .*,i* .* '.i**:N;~

'ii AOP-037 L_ Rev. 12 - -_._-_.- I _____ Page 10 of 52

('-.

I,

('-,

1

-'\.

LOSS OF MAIN CONTROL ROOM ANNUNCIATORS Attachment 1 Sheet 2 of 2 System 1 Annunciator Power Supply Status Determination

.BYPASS DC INVERTER AC~ OFF OFF

~ON NORMAL 125 VDC POWER SUPPLY SYS 1 BAY1-1A SYS 1 BAY3-1C POWER AVAILABLE LIGHTS Note: Lights on 12VDC and 24VDC power supplies are on SYS 1 BAY 1 -1A#1 SYS 1 BAY 1 -1A#2 top of power supply B SYS 1 BAY 3 -1C#1 SYS 1 BAY 3 - NONE ,---lB-..,.-:-:--:::-::::-

12 VDC 12 VDC SYS 1 BAY 1-1A#1 SYS 1 BAY 1 -1A#2 SYS 1 BAY 3 -1C#1 SYS 1 BAY3-NONE ANNUNCIATOR CARDS SW-1 ANNUNCIATOR CARDS @

Note: SW-1 is located in Bay 1 of System 1 Cabinets.

SYSTEM 1 BAY 1 and 3 AOP-037 1 Rev. 12 I Page 11 of 52

LOSS OF MAIN CONTROL ROOM ANNUNCIATORS Attachment 2 Sheet 1 of 2 System 2 Annunciator Power Supply Status Determination

01. OBTAIN Annunciator Cabinet key.

NOTE

• All power supplies are located in the east side of the cabinets. Indicating lights for the 24 VDC and 12 VDC are on the top side of the power supply.

• Equipment designators used below in brackets [] are those listed in the MCB Annunciator Reference Guide. The equipment is not labeled in the field.

02. CHECK the indicated lights for each of the following Annunciator Cabinets (drawing page 2 of attachment) AND INITIAL if LIT.

CABINET I INV AC 125 VDC PWR ON 12VDC PWRON 24 VDC PWR ON I(Top Row Left) (Top Row Left) (Top Row) (Second Row, Outside [Smaller]) (Second Row, Inner [Larger])

I Light Initial Light Initial Light (Loc) I Initial Light (Loc) I Initial I Light (Loc) Initial! Light (Loc) I Initial I Light (Lee) Initial System 2 LIT LIT LIT LIT LIT LIT LIT Bay 1 ([2A#1] rig ht) ([2A#1] left) ([2A#2] right) ([2A#1] left) ([2A#2] right)

System 2 LIT LIT LIT LIT LIT LIT LIT Bay 3 ([2C#1] right) ([2C#1] left) ([2C#2] right) ([2C#1] left) ([2C#2] right)

System 2 LIT LIT LIT Bay 5 ([2E#1] right)

LIT

([20#1] left)

System 2 Bay4 I.* .* * .*.*.* * (/A . . I. ***.* ~./~ *.*,* * .**. N/J*.** *I N/A.**.!([20#2]

LIT right)

LIT

([20#3]

second row)

AOP-037 Rev. 12 Paae 12 of 52

,(1.*..*"*.,,\

f'-""

C LOSS OF MAIN CONTROL ROOM ANNUNCIATORS Attachment 2 Sheet 2 of 2 System 2 Annunciator Power Supply Status Determination BYPASS DC 125 VDC INVERTER 125 VDC AC@) OFF ~ POWER SUPPLY POWER SUPPLY NORMAL OFF ON 125 VDC POWER SUPPLY SYS 2 BAY 1 - 2A#1 SYS 2 BAY 3 -1C#1 SYS 2 BAY 5 -1E#1 RESET IN~ A<\  !*

" 125 VDC

/j

~ POWER AVAILABLE LIGHTS Note: Lights on 12VDC and POWER SUPPLY 24 VDC 24 VDC 24VDC power supplies are or SYS 2 BAY 1 - 2A#1 SYS 2 BAY 1 - 2 A # 2 , top of power supply.

SYS 2 BAY 3 - 2C#1 SYS 2 BAY 3 - 2C#2 ~,

12VDC SYS 2 BAY 5 - 2E#1 SYS 2 BAY 5 - NONE rl-""1C':2=-V=-=D=-C=-

SYS 2 BAY 1 - 2A#1 SYS 2 BAY 3 - 2C#1 SYS 2 BAY 5 - 2E#1 SYS 2 BAY 1 - 2A#2 SYS 2 BAY 3 - 2C#2 SYS 2 BAY 5 - NONE

• ANNUNCIATOR CARDS ANNUNCIATOR CARDS SW-1 ANNUNCIATOR ANNUNCIATOR CARDS @ CARDS Note: SW-1 is located in Bay 1 of System 2 Cabinets.

SYSTEM 2 BAY 1,3 and 5 SYSTEM 2, BAY 4 AOP-037 Rev. 12 I Page 13 of 52

~,

AC PIS Inverter ............. BVPASS DC INVERTER Power ~c@) OFF @-ON ...._-- ----L_ DC NORMAl. OFF' Power to 125 VDC POWER SUPPLY Inverter SYS1MY1-V, Q'f!H BAV 1- Hl Switch Relay Reset

.-. ----+-_-L-:AC Input to 125 VDC PIS aye 1 BAY::;* NONE

~YS 'II BAY 1 .' fH"I SYS1 BAY 1-~

Primary <8Ya 11 MY 3 -10*1 9VQ 1 BAY 3-NOMS Source Selector ANNUNCIATOR CARDS SW-1 ANINIUN1CIlATOR System CARDS @ Clock Nde:: 'ENlI-1 is loca1ed iIn Bay ~ of System t Cabi nels. Reset SYSTEM 1 BAY 1 and 3.

~ Progress Energy (O~kI-or A.,£e..)

Appendix C Job Performance Measure Form ES-C-1 Worksheet Facility: Shearon Harris Task No.: 301011H401 Task

Title:

Local Makeup to the VCT using the JPM No.: 2009A NRC JPM k Manual Emergency Boration Valve KIA

Reference:

004 A2.14 3.8/3.9 Examinee: NRC Examiner:

Facility Evaluator: Date: _ _ __

Method of testing:

Simulated Performance: x Actual Performance:

Classroom - - - Simulator ---

Plant x READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

Initial Conditions: The plant is operating at 100 percent power. The Reactor Makeup Control System is inoperable; FCV-113B and FCV-114A will not open.

A boric acid pump and a Reactor Makeup Water pump are running but VCT level is slowly decreasing since makeup cannot be established.

Task Standard: 1CS-274 and 1CS-287 have been located and opening of these valves has been simulated.

Required Materials: None General

References:

AOP-003 Rev. 26, Attachment 2 Initiating Cue: You are the RAB NLO. The SCO has informed you that AOP-003, Attachment 2 is being performed in the MCR. You are to establish makeup flow to the VCT. Go to the 236' RAB Emergency Boration Valve Gallery and contact the control room when you are there. The MCR will provide you with directions Time Critical Task: No Validation Time: 9 Minutes 2009A NRC Exam JPM k n Rev 1

Appendix C Job Performance Measure Form ES-C-1 Worksheet SIMULATOR SETUP

• N/A Evaluation will be performed by Simulating in plant activities. Cues will be provided to the candidate by the examiner.

c-2009A NRC Exam JPM k n Rev 1

Appendix C Page 3 of 8 Form ES-C-1 PERFORMANCE INFORMATION c Standard: The RAB NLO would have the locked valve key and radio. The candidate should go to the 236' RAB Emergency Boration Valve Gallery and simulate contacting the MCR by radio (not in an area that is radio restricted) or by telephone. There is a connection for headset communication in the area. The candidate may suggest that communications would be performed by headset.

Evaluator NOTE: The Control Room will direct the local operator from AOP-003 Attachment 2 starting at step 10-16 (attached).

The directions that would be communicated from the MCR to the local operator are written into this JPM.

Evaluator Cue: (Inform the candidate by whatever means the candidate determined suitable for communication. There is no standard communication for this task. It could be a radio, headset or telephone.) NOTE: Some communication methods may require using a second operator to perform.

CUE: I will "simulate" all Control Room communications and provide you with verbal directions required to accomplish AOP-003 Attachment 2.

START TIME:

(Start time is when operator is in the VCT valve gallery area and ready to communicate with the MCR).

v' - Denotes Critical Steps 2009A NRC Exam JPM k Rev 1

Appendix C ' Page 4 of 8 Form ES-C-1 PERFORMANCE INFORMATION

(

Performance Step: 1 When at the required location report to the MCR Standard: Contacts the MCR and informs them they are ready to receive directions Evaluator Cue: The Control Room directs you to UNLOCK 1CS-274, RMUW Manual Blend from RMWST and then UNLOCK 1CS-286, Manual Alternate Emergency Boration.

Standard: Acknowledges MCR directions with 3 way communications Comment:

./ Performance Step: 2 Unlocks the following

• 1CS-274, RMUW Manual Blend From RMWST

• 1CS-287, Manual Alternate Emergency Boration Standard: Locates and unlocks 1CS-274 and 1CS-287 and reports completion to the MCR Evaluator Cue: 1. The locks have been removed from 1CS-274 and 1CS-287

2. The MCR acknowledges that the locks have been removed.

Evaluator Cue: The Control Room directs you to perform the following as close together as possible to achieve an even makeup.

First throttle OPEN 1CS-287 until directed to STOP Then throttle OPEN 1CS-274 until directed to STOP (Candidate should simulate opening the valves until you tell them to stop.)

Standard: Acknowledges MCR directions with 3 way communications

( Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM k Rev 1

Appendix C Page 5 of 8 Form ES-C-1 PERFORMANCE INFORMATION

./ Performance Step: 3 Locally perform the following:

Throttle open 1CS-287, Manual Alternate Emergency Boration, to obtain the required boric acid flow rate.

Standard: Informs the Control Room that he/she is throttling opening 1CS-287 and opens the valve until the Control Room directs him to stop.

Evaluator Cue: The MCR acknowledges that 1CS-287 is being throttled open.

(Pause) The Control Room directions are to for you to STOP opening 1CS-287. The required flow has been established.

(Once the candidate reports that they have stopped provide the next direction)

Now throttle open 1CS-274 until you are directed to stop by the control room's mark.

Standard: Acknowledges MCR directions with 3 way communications

(

Comment:

./ - Denotes Critical Steps 2009A NRC Exam JPM k Rev 1

Appendix C Page 6 of 8 Form ES-C-1 PERFORMANCE INFORMATION Step

./ Performance Step: 4 Throttle OPEN 1CS-274, RMUW Manual Blend from RMWST, to obtain the required dilution water flow rate.

Standard: Informs the Control Room that he/she is throttling opening 1CS-274 and opens the valve until the Control Room directs him/her to stop.

Evaluator Cue: The Control Room directions are to STOP opening 1CS-274.

The required flow has been established. The VCT is now filling.

(A few moments later inform the candidate that time compression is being used)

The VCT is now at the required level.

The MCR is directing you to SHUT and then lock both 1CS-274 and 1CS-287 and report when complete.

Standard: Simulates-shutting and then locking both 1CS-274 and 1CS-287.

Informs the Control Room that both valves are shut and locked using 3 way communications.

Evaluator Cue: 1CS-274 is SHUT and locked 1CS-287 is SHUT and locked The MCR acknowledges that both 1CS-274 and 1CS-287 are SHUT and LOCKED.

END OF JPM Comment:

Terminating Cue: The control room is informed that the lineup is secured.

STOP TIME:

./ - Denotes Critical Steps 2009A NRC Exam JPM k Rev 1

Appendix C Page 7 of 8 Form ES-C-1 VERIFICATION OF COMPLETION Job Performance Measure No.: 2009A NRC JPM k Examinee's Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

(~

Response

Result: SAT UNSAT Examiner's Signature: Date:

2009A NRC Exam JPM k Rev 1

Appendix C Page 8 of 8 Form ES-C-1 JPM CUE SHEET

( INITIAL CONDITIONS: The plant is at 100 percent power. The Reactor Makeup Control System is inoperable; FCV-113B and FCV-114A will not open. A boric acid pump and an RMW pump are running but VCT level is slowly decreasing since makeup cannot be established.

INITIATING CUE: You are the RAB NLO. The SCO has informed you that AOP-003, Attachment 2 is being performed in the MCR. You are to establish makeup flow to the VCT. Go to the 236' RAB Emergency Boration Valve Gallery and contact the control room when you are there. The MCR will provide you with directions c~

2009A NRC Exam JPM k Rev 1

MALFUNCTION OF REACTOR MAKEUP CONTROL

( Attachment 2 Sheet 1 of 8 Manual Makeup in Modes 1 through 4 H INSTRUCTIONS 1 . . . - -_ _ _- - - '

RESPONSE NOT OBTAINED CAUTION Due to accident analysis, this attachment can only be used in Modes 1 throLigh4..

01. RECORD desired boron concentration of the makeup solution:

CSLEND = ____ ppm NOTE If RCS boron concentration is above 1750 ppm, blended makeup at 120 gpm may not be possible, due to the inability of the system to reliably deliver more than 30 gpm

( boric acid flow. In those cases, either select a conservatively low total makeup flow, or consult Attachment 7 of OP-1 07.01 to determine the maximum possible makeup flow.

02. RECORD desired total makeup flow rate:

MSLEND = ____ gpm

03. RECORD most recent Boric Acid Tank boron concentration from Unit Status Board:

CSAT = ____ ppm

4. CHECK BOTH of the following: 04. GO TO Step 17.

o

• FT-113, Boric Acid to Blender Flow, is known to be operative o

• 1CS-283 (FCV-113A), Boric Acid Filter to Boric Acid Blender Flow Control Valve, can be opened OR is failed open

(

AOP-003 I Rev. 26 I Page 19 of 38

MALFUNCTION OF REACTOR MAKEUP CONTROL

( Attachment 2 Sheet 2 of 8 Manual Makeup in Modes 1 through 4 H INSTRUCTIONS L . . . - - -_ _ _ - - - - - - '

RESPONSE NOT OBTAINED

05. DETERMINE required boric acid flow rate:

MBA =[(CBLEND) x (MBLEND)] / (CBAT)

=[ x ]/ _ _

Step 1 Step 2 Step 3

= ____ gpm

06. RECORD in Step 13a the result from the previous step.

07. DETERMINE required dilution flow rate:

=

Step 2 Step 5

= ____ gpm

08. RECORD in Step 13b the result from the previous calculation.

09. Independently VERIFY boric acid flow rate and dilution flow rate calculations made in Steps 5 and 7.

10. DIRECT an operator to perform the following:

o a. OBTAIN a radio and a locked valve key.

o b. ESTABLISH communication between 236' RAB Emergency Soration Valve Gallery and the Control Room.

(Continued on Next Page)

AOP-003 I Rev. 26 I Page 20 of 38

MALFUNCTION OF REACTOR MAKEUP CONTROL Attachment 2 Sheet 3 of 8 Manual Makeup in Modes 1 through 4

~ INSTRUCTIONS RESPONSE NOT OBTAINED 1'----_ _ _---'

10. (continued)

c. UNLOCK the following:

D

• 1CS-274, RMUW Manual Blend from RMWST D

• 1CS-287, Manual Alternate Emergency Boration

11. VERIFY the following:

D

• One Boric Acid Transfer Pump-RUNNING D

• One Reactor Makeup Water Pump-RUNNING D

• 1CS-283 (FCV-113A), Boric Acid Filter to Boric Acid Blender Flow Control Valve-OPEN D 12. Prior to continuing, CHECK that all previous steps are complete.

AOP-003 I Rev. 26 I Page 21 of 38

MALFUNCTION OF REACTOR MAKEUP CONTROL Attachment 2 Sheet 4 of 8 Manual Makeup in Modes 1 through 4 H '------------'

INSTRUCTIONS RESPONSE NOT OBTAINED NOTE

• Boric acid flow can be monitored on ERFIS point FCS0113A, or locally in 236' RAB Emergency Boration Valve Gallery.

• Dilution water flow can be monitored on ERFIS point FCS011 0, or on FI-11 0 on the MCB.

• Actions in the next step should be performed as closely together as possible to achieve an even makeup.

13. As closely together as possible, Locally PERFORM the following:

o a. THROTTLE OPEN 1CS-287, Manual Alternate Emergency Boration, to obtain gpm boric acid flow rate (from Step 5).

o b. THROTTLE OPEN 1CS-274, RMUW Manual Blend from RMWST, to obtain gpm dilution water flow rate (from Step 7).

• 014. MONITOR the following for expected response:

• Tavg

• Reactor power

• Control rod motion

• VCT level AOP-003 I Rev. 26 I Page 22 of 38

MALFUNCTION OF REACTOR MAKEUP CONTROL

( Attachment 2 Sheet 5 of 8 Manual Makeup in Modes 1 through 4

~

~L---

INSTRUCTIONS RESPONSE NOT OBTAINED

15. WHEN desired VCT level has been reached, THEN:

a. Locally SHUT AND LOCK the following:

o

• 1CS-274, RMUW Manual Blend from RMWST o

• 1CS-287, Manual Alternate Emergency Boration o b. CHECK instrument air o b. EXIT this attachment.

AVAILABLE.

o c. SHUT 1CS-283 (FCV-113A),

Boric Acid Filter to Boric Acid Blender Flow Control Valve.

016. EXIT this attachment.

017. DETERMINE required boric acid flow rate:

MBA = [(CBLEND) x (120)] I (CBAT)

=[ x (120)] I _ _

Step 1 Step 3

= _ _ _ _ gpm 018. RECORD in Step 23a the result from the previous step.

019. Independently VERIFY boric acid flow rate calculation made in Step 17.

AOP-003 I Rev. 26 I Page 23 of 38