Draft - Section B Operating

ML031840255
Person / Time
Site:	Seabrook
Issue date:	06/05/2003
From:	Roy D Florida Power & Light Energy Seabrook
To:	Conte R NRC/RGN-I/DRS/OSB
Conte R
References
50-443/03-301 50-443/03-301
Download: ML031840255 (85)
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JOB PERFORMANCE MEASURE #I POWER INCREASE TO CRITICALITY Student Name:

Badge #:

Evaluator Name:

Evaluator Signature:

Date:

JPM RESULTS SAT UNSAT (Circle One)

USNRC Initial Licensing Exam Seabrook Station June 2003

JOB PERFORMANCE WORKSHEET 1.0 Task Number and

Description:

Task number is N/A.

Applicant is to enter a power increase to criticality in progress. Shut down banks have been withdrawn. Applicant should take actions to bring reactor critical. Reactor will achieve criticality before reaching the -500 pcm rod height.

2.0 e

e e

e e

e

3.0 Conditions

Plant is in mode 3.

All shutdown banks are withdrawn.

Control banks A and B are withdrawn.

Control bank C is at steps.

All steps of OS1000.07 are complete up to and including 4.3.

Procedure is currently in step 4.4 (WITHDRAW control banks to criticality)

Standards:

Perform rod shims and monitor boration necessary to safely achieve criticality. Identify early criticality. Take necessary corrective actions for criticality prior to the -500 pcm point.

4.0 Student Materials:

Copy of the Tear-Off Sheet.

ECP and boration paperwork.

Procedure OS1 000.07, Approach to Criticality.

5.0 Limitations on performance:

The evaluator will function as the peer checker. The peer checker will only concur with the applicant and acknowledge hidher actions.

6.0

References:

OS1 000.07, Approach to Criticality.

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion.

JPM #I Page 2 of 9

JOB PERFORMANCE WORKSHEET Rod Control Detailed System Text 7.0 Setting Simulator 7.O Safety Conside ra ti0 ns :

None 8.0 Approximate Completion Time:

10.0 Initial Cue A. You were called in to take the place of a reactor operator that has been sent to the hospital due to sickness. You are to continue a reactor startup to criticality in accordance with OS1 000.07, Approach to Criticality.

6. Your task is to raise reactor power in accordance with OS1000.07 until you reach I 0-8 amps on one of the intermediate range power channels.

C. Plant conditions:

The plant is in mode 3.

Control Bank Cy is at steps.

D. The ECP, boration, and I/M calculation is available for you.

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion.

JPM #I Page 3 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENT/STEP STANDARD EVALUATION I NITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

1.

P Start t i

m e

Initiating cue read.

CUE:

the applicant that reactor engineering is present performing the I/M plot. Applicant will inform US of various steps through the procedure such as rod movements, start up rate and power level. The applicant may also request permission for reactivity additions. Acknowledge the candidates statements as the US.

The candidate should review the ECP, boration calculations and possibly the I/M plot. Inform

2.

S Step 4.4.1 1/M plot verification Asks for status of I/M plot.

• 3.

P Step 4.4.6 Commence rod Verifies all shutdown banks withdrawn and goes to OUT on the full length rod movement switch withdrawal of the control banks IAW 1007.01 step 4.3 Note: as rods are withdrawn, the RO will verify rod speed is 48 steps per minute and proper overlap is taking place when applicable. The RO will verify that the rods in the group are within 1 step of each other and that DRPl is within 12 steps of the group demand counter.

4.

P Step 4.4.7 monitor nuclear Does not achieve a stable SUR greater than I DPM during approach to criticality.

instrumentation and do NOT exceed a STABLE start up rate of 1 decade per minute.

CUE: Acknowledge RO as he/she reports status of count level and rod position following Step 4.4.9.

5.

P Step 4.4.9 STOP control Stops rod withdrawal bank withdrawal when the count rate doubles OR approximately every 50 alignment and steps, whichever occurs first.

at appropriate time.

Verifies proper rod reports count level to be plotted on I/M plot.

CUE : Give permission to RO to continue rod withdrawal when requested. Inform the applicant that the I/M plot indicates that the control bank height at criticality will be above the rod insertion limit.

~~

~

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion.

JPM #I Page 4 of 9

~~

~~

PERFORMANCE CHECKLIST D=Discuss E LEM E NT/STEP STANDARD EVALUATION INITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT NOTE: The applicant will repeat step 4.4.9 until criticality or until a problem exists.

6.

P Criticality is achieved.

Applicant declares criticality when with no rod motion there a constant positive startup rate.

! is

7.

P Criticality is outside of +/-

500 pcm limit.

Applicant determines that the criticality was achieved outside of the allowed 500 pcm band. Goes to step 4.5.2.

CUE: When applicant informs shift supervision that criticality was achieved outside + M O O pcm, inform them: The JPM is complete Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion.

JPM #I Page 5 of 9

PERFORMANCE

SUMMARY

Provide comments on unsatisfactory performance of an elementlstep or for deviation from performance as stated. Record interruptions in performance such as retraining, shift change, and processing of procedure changes. Recommend remedial training, if necessary.

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion.

JPM #I Page 6 of 9

PERFORMANCE

SUMMARY

A. You were called in to take the place of a reactor operator that has been sent to the hospital due to sickness. You are to continue a reactor startup to criticality in accordance with OS1 000.07, Approach to Criticality.

B. Your task is to raise reactor power in accordance with OS1 000.07 until you reach IO-* amps on one of the intermediate range power channels.

C. Plant conditions:

The plant is in mode 3.

Control Bank C is at steps.

D. The ECP, boration, and 1/M calculation is available for you.

r Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion.

JPM #I Page 7 of 9

JOB PERFORMANCE MEASURE WORKSHEET JPM #2: TRANSFER SI TO COLD LEG RECIRCULATION (CBS-VI4 FAILS)

ALTERNATE PATH Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Classroom:

Simulator:

Plant:

WA reference: 006A4.05 Ability to manuallv operate and monitor in the control room:

Transfer of ECCS flowpaths prior to recirculation.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B. 1 J PM #2 Page 1 of 9

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinee's Name:

Examiner's Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiner's signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #2 Page 2 of 9

JOB PERFORMANCE MEASURE WORKSHEET KA Description I

.o 2.0 3.0 A.

B.

4.0 5.0 6.0 Value ROISRO Task Number and

Description:

013 013 01 3 01 3 Position:

RO A I.06 Predicffmonitor changes in RWST levels.

3.613.9 A I.08 Predicffmonitor changes in Ctmt sump level.

3.713.8 A3.02 Monitor operation of actuated equipment.

4.114.2 A4.03 Manually operate ESFAS initiation.

4.5147 0050500601 Align RH For SI Recirculation, Cold Leg 0060500301 Transfer SI To Cold Leg Recirculation Conditions:

A. A reactor trip with SI occurred from 100% power.

B. The US has transitioned through E-0 to E-1, and is ready to transition to ES-C. RWST level is decreasing toward the RWST LEVEL LO-LO setpoint.

1.3. Standards

Align ECCS equipment to the Cold Leg Recirculation Mode within the time limits specified in the body of this JPM. The tine limits were determined in DCR 00-0013, "Manual Transfer to Cold Leg Recirculation Timing".

Student Materials:

Copy of the Tear-Off Sheet.

Copy of ES-1.3, "Transfer To Cold Leg Recirculation", Rev. 19 Limitations On Performance:

Simulate/Perform all steps. Verbalize all actions to the evaluator.

References :

CR 01-07468-01 [DCR 00-0013, Manual Transfer to Cold Leg Recirculation Timing (Entire JPM)]

Procedures:

0 ES-1.3, Transfer To Cold Leg Recirculation 0

OGP-1, Control Switch Operation USNRC initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #E Page 3 of 9

JOB PERFORMANCE MEASURE WORKSHEET

7.0 Setting

Simulator:

A. The simulator can be initialized to any mode 1 IC, or to a snapshot IC for the JPM.

B. Insert the following overrides to simulate inability to open CBS-V14.

1. ON (CBS-VI4 S signal reset lamp for RWST lo-lo, pg. PBFI I)

2. RESET (CBS-VI4 S signal reset switch, pg. PBFI 1)

3. CLOSE (CBS-V-I4 control switch, pg. PBF12)

C. Insert the double-ended RCS Cold Leg malfunction.

D. Run the simulator while performing the following per E-0 and E-I:

1. Trip RCPs.

2. Reset SI.

3. Throttle EFW.

4. Shutdown both EDGs by stopping both, shutting SW-V16, and 18, resetting both diesels.

5. Place the simulator in freeze when the RWST is approximately 130,000 gallons to ensure the automatic swap-over signal has not actuated.

8.0 Safety Considerations:

None 9.0 Approximate Completion Time:

20 minutes 10.0 Initiating Cue A. Initial Conditions:

0 A reactor trip with SI occurred from 100% power.

The US has transitioned through E-0 to E-I, and is ready to transition to ES-1.3.

0 RWST level has decreased to approximately 130,000 gallons.

B. You are the Primary Operator. You are going to transfer ECCS to the cold leg recirculation mode when we receive the RWST LEVEL LO-LO alarm.

C. Perform the task using ES-1.3, Transfer to Cold Leg Recirculation.

US to Primary Operator, Primary Operator (or students name), let me know when we receive the RWST LEVEL LO-LO alarm, then you will transfer the Emergency Core Cooling System to Cold Leg Recirculation per ES-1.3.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #2 Page 4 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENTISTEP STANDARD EVALUATION I NITIALSDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT This JPM is faulted - CBS-VI4 fails to open. The student must use the RNO Column in Step 2 of ES-1.3. Under this condition, certain ES-1.3 actions have time limits that must be met to pass the JPM. The actions and time limits are:

I.

RH-PSB & CBS-P-9B in PTL: I 3 min. from RWST LEVEL LO-LO alarm actuation;

2. CBS-V2 & CBS-V5 CLOSED: I 5 min. 48 sec. from RWST LEVEL LOCO alarm actuation;

3. All CCPs and SIPS STOPPED: 5 I I min. from RWST EMPTY alarm actuation.

NOTE: VERIFY THAT THE CONTROL SWITCH FOR CBS-VI4 IS IN THE AUTO POSITION!

NOTE:

Ensure that the person reading the procedure reads the caution prior to step 1 of ES 1.3 to the student.

1.

P Start time:

Initiating cue read.

CUE:

check your actions. Please continue with the task.

If the student requests a Peer Check at any time during the JPM, respond: NO one is available to peer RWST LEVEL LO-LO alarm Record time:

actuation:

2.

P Reset SI.

• Verifies SI reset.

• 3.

P Verify Containment sump recirc.

valves - FULL OPEN:

0 TRAIN A - CBS-V8

• O Verifies CBS-V-8 is open.

TRAIN B -CBS-VI4

• O Verifies CBS-V-14 is open.

a. Perform RNO - manually

• a. Attempts to open CBS-open valves.

VI 4.

b. If a valve cannot be fully

• b. Places CBS-P-9B and opened then place corresponding RHR and CBS pumps in PTL.

RH-P-8B in PTL.

P-SB & P-9B in PTL Time ATime

• 4.

P Simultaneously close RWST USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #2 I 3 min.

Page 5 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENTETEP STANDARD EVALUATION IN1 TIALS/OATE P=Perform

• denotes a

• denotes critical S=Simulate,

critical step standard SAT UNSAT suction valves.

TRAIN A - CBS-V2 Closes CBS-V-2.

TRAIN B-CBS-V5 Closes CBS-V-5.

CBS-V2 & V5 Fully Closed Time ATime I 5 min. 48 sec.

NOTE: If the RWST EMPTY alarm occurs prior to opening RH-V35 & 36, the student is expected to stop all pumps taking suction from the RWST (CCPs & SIPS). The student must leave the Train A RHR and CBS pumps running.

If the RWST EMPTY alarm does nd actuate, the following two times are not applicable.

RWST EMPTY alarm actuation Time All CCPs & SIPS stopped Time ATime

• 5.

P Align ECCS for Cold Leg Aligns ECCS for Cold Leg recirculation:

recirculation:

a. Verify RHR Pumps - at

• a. Verifies RH-P-8A least one running.

running.

b. Place running RHR pump

• b. Places RH-P-8A switches in NA-START.

switch in NA-START.

c. Close SI pump mini-flow

• c. Closes:

valves:

SI-V89 SI-V89 SI-V90 SI-V90

. SI-V93

. SI-V93

d. Energize MCC-E522 and

• d. Energizes MCC-522 622.

and 622.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #2 I

I 1 min. after RWST EMPTY Page 6 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENTISTEP STANDARD EVALUATION I NITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

e. Close RH-V14, RHR

• e. Closes RH-V-14.

discharge to cold legs 1 and 2.

f.

Open SI and CCP suction

• f. Opens/ checks open:

cross-connects:

CS-V460 CS-V460 CS-V461 CS-V461

. cs-v475

. cs-v475

g. Open RHR supplies to SI

• g. Opens:

and CCP suctions:

RH-V35 RH-V35 RH-V36 RH-V36 interlock with CBS-VI4 keeps it shut.

h. Start any pump that was

• h. No action required stopped due to RWST empty alarm.

since the empty alarm should not come in.

• 6.

P Isolate RWST feed to CCPs and Isolates RWST feed to SI pumps.

CCPs and SI pumps.

a. Close SI pump suction

• a. Closes:

valves:

CBS-V47 CBS-V47 CBS-V51 CBS-V51

b. Close CCP suction valves:

• b. Closes:

CS-LCV-112D CS-LCV-I 12D CS-LCV-112E CS-LCV-I 12E CUE:

The JPM is complete.

7.

Stop time Time to complete the task I

20 minutes.

Evaluator calculates time to complete task.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #2 Page 7 of 9

Tear-Off Sheet for Applicant A. Initial Conditions:

A reactor trip with SI occurred from 100% power.

0 The US has transitioned through E-0 to E-I, and is ready to transition to ES-1.3.

0 RWST level has decreased to approximately 130,000 gallons.

B. You are the Primary Operator. You are going to transfer ECCS to the cold leg recirculation mode when we receive the RWST LEVEL LO-LO alarm.

C. Perform the task using ES-1.3, Transfer to Cold Leg Recirculation.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #2 Page 8 of 9

Simulator Operator Instructions A. The simulator can be initialized to any mode 1 IC, or to a snapshot IC for the JPM.

B. Insert the following overrides to simulate inability to open CBS-V14.

ON (CBS-VI4 S signal reset lamp for RWST 10-10, pg. PBFI I)

RESET (CBS-VI4 S signal reset switch, pg. PBFI 1)

CLOSE (CBS-V-14 control switch, pg. PBF12)

C. Insert the double-ended RCS Cold Leg malfunction.

D. Run the simulator while performing the following per E-0 and E-I :

TripRCPs.

0 Reset SI.

0 Throttle EFW.

Shutdown both EDGs by stopping both, shutting SW-V16, and 18, resetting both diesels.

0 Place the simulator in freeze when the RWST is approximately 130,000 gallons to ensure the automatic swap-over signal has not actuated.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #2 Page 9 of 9

JOB PERFORMANCE MEASURE WORKSHEET JPM #3: DEPRESSURIZE THE RCS DURING A NATURAL CIRCULATION COOLDOWN ALTERNATE PATH Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Plant:

Classroom:

Simulator:

WA reference: 004A4.09 Ability to manually operate and monitor in the control room:

PZR spray and heater controls.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 6.1 JPM #3 Page 1 of 8

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinee's Name:

Examiner's Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiner's signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #3 Page 2 of 8

JOB PERFORMANCE MEASURE WORKSHEET 1.0 Task Number and

Description:

Task number is N/A.

Applicant is to depressurize the RCS during a natural circulation cooldown in accordance with ES-0.2, "Natural Circulation Cooldown". The letdown system will failhsolate forcing an alternate method of depressurization in the procedure. The JPM is complete when the applicant depressurizes the RCS to 1900 psig in accordance with step 8 of ES-0.2.

2.0 Conditions

A. The crew is performing ES-0.2, "Natural Circulation Cooldown".

B. Steps 1-7 are complete or are in progress.

C. The reactor is tripped. RCPs are secured.

D. RCS pressure is 2300 psig.

3.0 Standards

The applicant is to reduce RCS pressure to 1900 psig using both the auxiliary spray followed by using the PZR PORVs when the letdown system fails.

4.0 Student Materials:

0 ES-0.2, "Natural Circulation Cooldown" 0

OS1 202.01, "Loss of Letdown" 5.0 Limitations on performance:

Peer checks will be performed by the examiner. A Peer check will only consist of an acknowledgement or concurrence of the action peer checked.

6.0

References:

Procedures 0

ES-0.2, "Natural Circulation Cooldown" 0

OS1202.01, "Loss of Letdown" Detailed Systems cs

. PPLC 7.0 Setting Simulator USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #3 Page 3 of 8

JOB PERFORMANCE MEASURE WORKSHEET 8.0 Safety Considerations:

None 9.0 Approximate Completion Time:

15 minutes 10.0 Initial Cue Initial Conditions:

0 The crew is performing ES-0.2, "Natural Circulation Cooldown".

0 Steps 1-7 are complete or are in progress.

0 The reactor is tripped. RCPs are secured.

0 RCS pressure is 2300 psig.

You are the primary reactor operator. The crew is cooling down and depressurizing the plant in accordance with ES-0.2, "Natural Circulation Cooldown". Steps 1-7 are complete. Your task is to complete step 8 of ES0.2, "Depressurize RCS to 1900 PSIG".

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #3 Page 4 of 8

PERFORMANCE CHECKLIST D=Discuss ELEMENTSTEP STANDARD EVALUATION IN ITIALSIDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

1.

P Start time Initiating cue read.

2.

P Step 8.b. Turn PZR heaters Turns all PZR heaters OFF.

OFF.

• 3.

P Step 8.c. Use auxiliary spray Lines up auxiliary spray IAW attachment A.

Uses auxiliary spray to reduce RCS pressure.

per ATTACHMENT A.

Place normal PZR spray valves controller(s) in manual and open normal PZR spray valves OPEN CS-VI42, CHG TO REGEN IS0 OPEN CS-V143, CHG TO REGEN IS0 OPEN CS-V185, PZR AUX SPRAY Close normal charging loop isolation valves:

CLOSE CS-VI 77 CLOSE CS-VI 80 Place CS-FK-121 in manual and charge at desired rate Control RCS pressure as follows:

Throttle normal PZR spray valves, as necessary.

Adjust charging flow, as necessary.

Adjust seal injection USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #3 Page 5 of 8

PERFORMANCE CHECKLIST D=Discuss ELEMENTKTEP P=Perform

• denotes a S=Simulate critical step STANDARD EVALUATJON INITIALWDATE

• denotes critical standard SAT UNSAT flow as necessary using CS-HCV-182.

Note: When applicant completes spray lineup and initiates spray, letdown will be isolated and remains unavailable.

CUE: After applicant informs US of letdown isolation, inform applicant that letdown will remain unavailable for the remainder of the procedure.

5.

P Blocks SI actuation before If pressure drops below 1950 psig then rises above 1950 psig, the SI PZR pressure block will have to be reset.

1950 psig.

Note: the above step may be not applicable if PZR pressure does not rise above 1950 psig during the performance of this procedure.

• 6.

P WHEN auxiliary spray is no OPEN desired normal longer required, then perform charging loop isolation the following:

valve:

OPEN CS-VI77 OPEN CS-VI~O OR CLOSE CS-VI 85, PZR AUX SPRAY Place CS-FK-121 in AUTO Close normal PZR spray valves as necessary.

CUE: the operator may not execute the RNO without instruction from the US. If required, allow the RO to inform you that letdown is isolated. If necessary, order the RO to reduce pressure to 1900 psig using the PZR PORV in accordance with the step 8 RNO column.

• 7.

P Step RNO 8.a. IF letdown can Use one PZR PORV to NOT be established, THEN use one PZR PORV.

psig.

reduce pressure to 1900 CUE: When pressure is reduced to 1900 psig using PZR PORVs, inform the applicant: The JPM is complete.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #3 Page 6 of 8

Tear-Off Sheet for Applicant Initial Conditions:

0 The crew is performing ES-0.2, "Natural Circulation Cooldown".

0 Steps 1-7 are complete or are in progress.

0 The reactor is tripped. RCPs are secured.

0 RCS pressure is 2300 psig.

You are the primary reactor operator. The crew is cooling down and depressurizing the plant in accordance with ES-0.2, "Natural Circulation Cooldown". Steps 1-7 are complete. Your task is to complete step 8 of ES0.2, "Depressurize RCS to 1900 PSIG".

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #3 Page 7 of 8

Simulator Operator Instructions Establish plant conditions for the cooldown (post-tnp). Snap the IC the first day of exam week for exam security reasons. Save the IC and password protect it.

IC:

When the applicant complete the auxiliary spray line-up and initiates spray, fail letdown isolation valve CS-VI 50.

Sim Diagram CS1 cpCSV150 AOV Fails Closed USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #3 Page 8 of 8

JOB PERFORMANCE MEASURE WORKSHEET JPM #4: MANUAL START AND LOAD OF EDG AFTER LOSS OF ALL AC POWER ALTERNATE PATH Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Classroom:

Simulator:

Plant:

K/A reference: 064A4.01 Abilitv to manually operate and monitor in the control room:

local and remote operation of the EDG.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #4 Page I of 9

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinee's Name:

Examiner's Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiner's signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #4 Page 2 of 9

JOB PERFORMANCE MEASURE WORKSHEET 1.0 Task Number and

Description:

Task number is N/A.

Applicant is to restore power to at least one AC bus by restoring the A EDG in accordance with ECA-0.0 step 5. Both EDGs will fail to start automatically. EDG I B will not start under any circumstance. EDG 1As output breaker will fail to close automatically upon manual start. EDG 1A will not be able to start via the emergency start pushbutton but will start with the normal start pushbutton. Charging pump CS-P-2A will fail to start automatically on restoration of bus E5.

2.0 Conditions

0 A loss of all AC power has occurred from 100% power.

0 The reactor is tripped.

Both EDGs have failed to automatically start.

0 Steps 1 -5.b of ECA-0.0 are complete.

3.0 Standards

The applicant must get EDG A started, shut its output breaker, and restore all loads prescribed by ECA-0.0 step 5.

4.0 Student Materials:

0 ECA-0.0, Loss of All AC Power 5.0 Limitations on performance:

Peer checks will be performed by the examiner. The only response given by the examiner in a peer check will be a simple acknowledgement or concurrence.

6.0

References:

i ECA-0.0, Loss of All AC Power 7.0 Setting Simulator 8.0 Safety Considerations:

None USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM ##4 Page 3 of 9

JOB PERFORMANCE MEASURE WORKSHEET 9.0 Approximate Completion Time:

20 minutes.

10.0 Initial Cue Initial conditions:

0 The plant was operating at 100% power.

A loss of offsite power resulted in a plant trip.

0 Both EDGs failed to start automatically.

0 The crew is in ECA-0.0, Loss of All AC Power.

0 Steps 1 through 5.b have been completed.

Your task is to restore power to at least one emergency AC bus and restore vital loads in accordance with ECA-0.0 step 5.c-f.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #4 Page 4 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENT/STEP STANDARD EVALUATION INITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standhard SAT UNSAT

1.

P Start time:

Initiating cue read.

Note: The applicant will begin by verifying at least one EDG is running. Neither EDG is running. The operator should enter the RNO column for step 5.c. EDG B will not start under any circumstance.

2.

P Start EDG I B using the Presses the emergency start pushbutton for EDG 1B. EDG 1 B does NOT start.

emergency start pushbutton.

3.

P Start EDG 1B using the normal Presses the normal start pushbutton for EDG 1 B.

EDG 1B does NOT start.

start pushbutton.

4.

S Calls NSO to attempt EDG 1B Simulator operator start using slave relay K603 using test switch S909 at SSPS.

using relays.

simulates a FAILED attempt to start EDG 1B NOTE: the applicant may attempt to start EDG 1A before attempting the manual starts below, if so, skip to step

11.

CUE: Simulator operator to control room: EDG I B did not start using test switch S909 at SSPS

5.

S Calls diesel operator to start Simulator operator simulates a FAILED attempt to start EDG I B using local control.

EDG 1B locally.

6.

P RO orders EDG operator to CUE: simulator place EDG 1 B generator breaker control selector switch in LOCAL.

breaker control selector operator: Report when EDG 1 B generator switch is in LOCAL.

7.

P RO orders EDG operator to depress EDG 1 B ENGINE RESET PUSHBUTTON.

8.

P RO orders EDG operator to USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #4 CUE: simulator operator: Report when EDG 1B ENGINE RESET PUSHBUTTON has been depressed.

CUE: simulator Page 5 of 9

PERFORMANCE CHECKLIST D=Discuss P=Perform S=Simulate

9.

P IO.

P ELEMENTSTEP

• denotes a critical step depress EDG 1B EMERGENCY START PUSHBUTTON RO orders EDG operator to depress the TEST START pushbutton.

RO orders EDG operator to STANDARD EVALUATION INITIALS/DATE

• denotes critical standard SAT UNSAT operator: Report when EDG I B EMERGENCY START PUSHBUTTON has been depressed and that the diesel has NOT started.

CUE: simulator operator: Report when the TEST START pushbutton hasbeen depressed and inform control room that the diesel has not started.

CUE: simulator manually overridemain air start valve@).

operator: Report that the diesel did not start when the main air start valve(s) were opened.

NOTE: At this point, all attempts to start EDG 1 B have failed, applicant will try to start EDG IA.

11.

P Start EDG 1A using the Presses the emergency start pushbutton for EDG IA. EDG 1Adoes NOT start.

emergency start pushbutton.

• 12.

P Start the A EDG using Applicant starts A EDG NORMAL start.

using normal start pushbutton.

Note: EDG A starts but the output breaker does not shut.

• 13.

P Step 5.e.2 Diesel generator Manually closes the A breaker - CLOSED - NO EDG output breaker.

Note: the operator should verify that the EPS is sequencing properly by observing the EPS status lights Simulator Operator: delete override for CS-P-2A when the applicant attempts to start pump manually.

progress sequentially.

• 14.

P Step 5.e.3 Verify the following Start CS-P-24 equipment loaded. The A manually.

CCP failed to start automatically.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #4 Page 6 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENTETEP STANDARD EVALUATION INITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT CUE: When emergency bus E5 is energized and step 5.f has been completed, inform the applicant The JPM is complete USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #4 Page 7 of 9

Tear-Off Sheet for Applicant Initial conditions:

0 The plant was operating at 100% power.

0 A loss of offsite power resulted in a plant trip.

0 Both EDGs failed to start automatically.

0 The crew is in ECA-0.0, "Loss of All AC Power".

0 Steps I through 5.b have been completed.

Your task is to restore power to at least one emergency AC bus and restore vital loads in accordance with ECA-0.0 step 5.c-f.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #4 Page 8 of 9

Simulator Operator Instructions Reset simulator to IC 100.

Failure of A EDG to start automatically.

MFED031 DGIA AUTO START FAILURE OVERRIDE DGIA EMERGENCY START PB TO RELEASE Failure of B EDG to start manually or automatically MFED033 DGI B AUTO START FAILURE OVERRIDE DGIB EMERGENCY START PB TO RELEASE I OVERRIDE DGI B NORMAL START SWITCH TO NORMAL Failure of CS-P-2A to start automatically MFCSOOI CS-P-2A FAILS TO AUTO START MFEPSOOI EPS TRAIN A PRI DOES NOT ENERGIZE 1 NFEPS002 EPS TRAIN A PRIX DOES NOT ENERGIZE Simulator operator is to act as NSO when locally starting the EDGs as written in the Performance Checklist.

Delete OVERRIDE on CS-P-2A when operator attempts to start pump manually.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.1 JPM #4 Page 9 of 9

JOB PERFORMANCE MEASURE WORKSHEET JPM #5: START HYDROGEN RECOMBINERS Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Classroom:

Simulator:

Plant:

WA reference: 028A4.01 Ability to operate and monitor in the control room: HRPS controls.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 1 of 9

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinee's Name:

Examiner's Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiner's signature and date:

USNRC initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 2 of 9

JOB PERFORMANCE MEASURE WORKSHEET 1.0 Task Number and

Description:

Position:

RO 0280500201 Start 'A' H2 Recombiner From The Main Control Room.

2.0 Conditions

This JPM can be implemented with any plant conditions such that the electric plant can support operation of the recombiners.

3.0 Standards

Place a hydrogen recombiner in senrice.

4.0 Student Materials:

Copy of the Tear-Off Sheet.

Copy of OS1023.40, Hydrogen Recombiner Operation, Rev. 7, Chg. 1.

Calculator.

5.0 Limitations On Performance:

Simulate/Perform all steps. Verbalize ail actions to the evaluator.

Even if requested, no Peer Checks will be provided during the JPM.

6.0

References:

Procedures:

0 FR-C.1, Response To Inadequate Core Cooling.

0 OS1 023.40, Hydrogen Recombiner Operation.

0 OGP-I, Control Switch Operation.

Technical Specifications:

0 3.6.4.2, Combustible Gas Control - Electric Hydrogen Recombiners USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 3 of 9

JOB PERFORMANCE MEASURE WORKSHEET SYS 2.1 2.1 KA Description Value 2.1 23 Ability to perform specific system and integrated 3.914.0 2.1.21 Abilitv to obtain and verifv controlled Drocedure CODY. 3.113.2 RO/SRO plant procedures during all modes of operation.

TI--

2.1 2 0 Ability to execute procedure steps.

4.3/4.2 I

2.1 2.1.31 Ability to locate control room switches, controls, and

. 4.23.9 I

I I reflectina the desired plant lineup.

I indications, and determine that they are correctly

7.0 Setting

Simulator: Any IC may be used. Perform this JPM on the back of the MCB at the recombiner control panel. The simulator must be in RUN to allow the PWR OUT meter to respond to the potentiometer.

Verify the PWR OUT potentiometer is at MINIMUM prior to beginning the JPM.

8.0 Safety Considerations:

None 9.0 Approximate Completion Time:

20 minutes 10.0 Initial Cue:

US to Secondary Operator, Secondary Operator (or students name), we are in FR-C.1, and containment hydrogen concentration is presently 3.4%. Place Hydrogen Recombiner A in service per OS1023.40, Hydrogen Recombiner Operation. Report to me when the recombiner is in sewice.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 4 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENTSTEP STANDARD EVALUATION IN ITIALS/DATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

1.

P Start time:

Initiating cue read.

CUE:

If the student request a Peer Check at any time during the JPM, respond: No one is available to peer check your actions. Please continue with the task.

NOTE: Place the Simulator in RUN.

NOTE: If asked by the student, The electrical lineup has been completed.

CUE:

When student checks light, evaluator to student, The light is energized. --

2.

S Verify the white PWR. IN Verifies the PWR. IN AVAIL.

AVAIL. light is energized.

light is energized.

3.

P Set the PWR. ADJ.

potentiometer to zero.

Turns PWR ADJ pot to 000.

• 4.

P Place the PWR. OUT SW.

Moves switch to ON switch to the ON position and VERIFY that the red light on the switch plate comes on.

position.

Verifies the red light is on.

CUE:

AT EACH POWER LEVEL, INFORM THE OPERATOR THE STATED TIME HAS ELAPSED

• 5.

Energize the Hydrogen Energizes the recombiner:

Recombiner heater by PERFORMING the following:

P

a. TURN the PWR. ADJ.

• a. Turns the PWR ADJ pot Potentiometer clockwise until 5 kW is indicated on the PWR. OUT meter.

MAINTAIN the 5 kW value for at least 10 minutes.

clockwise until 5 kW is indicated. Maintain 5 kW for 10 minutes.

P

b. TURN the PWR. ADJ.

• b. Turns the PWR ADJ pot clockwise until 10 kW is kW for 10 minutes.

Potentiometer clockwise until 10 kW is indicated on indicated. Maintain 10 the PWR. OUT meter.

MAINTAIN the 10 kW value for at least 10 minutes.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.1 JPM #5 Page 5 of 9

PERFORMANCE CHECKLIST D=Discuss P=Perform S=Simulate P

P P

ELEMENTSTEP STANDARD EVALUATION INITIALS/DATE

• denotes a

• denotes critical critical step standard SAT UNSAT

c. TURN the PWR. ADJ.

• c. Turns the PWR ADJ pot clockwise until 20 kW is kW for 5 minutes.

Potentiometer clockwise until 20 kW is indicated on indicated. Maintain 20 the PWR. OUT meter.

MAINTAIN the 20 kW value for at least 5 minutes.

d. DETERMINE the

d. Refers to Form A.

recombiner power setting per Form A, Power Out Setpoint Calculation.

e. Calculate the & recombiner e. Determines power power setpoint by setting:

performing the following:

CUE:

When the student locates any of the required pressure instruments, cue the student: Containment pressure is 4 psig.

0 DETERMINE the current Determines the current containment pressure from SI-PI-934 or SI-PI-935, MCB containment pressure indicators.

cntmnt pressure from SI-PI-934 or 935.

0 Current Containment Convertscntmnt Pressure + 14.7 psi = psia pressure to psia and records on data sheet

(= 18.7 psia).

Pre-accident Containment No action required.

Average Temperature is 120°F.

0 Using containment absolute

• Determines Cp and --

pressure, pre-accident temperature and Figure 2, Recombiner Power determine the Pressure Factor (Cp).

Records on data sheet -

containment average (Cp = 1.I 7 - 1.20).

Enter student C,, value:

Correction Factor Curve cp =

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 6 of 9

PERFORMANCE CHECKLIST D=Discuss ELEMENT/STEP P=Perform

• denotes a S=Simulate critical step STANDARD EVALUATION I NITIALSIDATE

• denotes critical standard SAT UNSAT 0

MULTIPLY the Pressure Multiplies C, by the Factor (C,,) by Reference Power (45.24 kw).

(C,) x 45.24 = Power Setting kW reference power.

Records on data sheet -

(52.9 - 54.3 kw).

Enter student kW value:

Kw=

CUE:

If the student requests a second person verification, respond: For the purpose of this evaluation, a second verification will not be performed. Please continue with the procedure.

Have a second person Requests second VERIFY the power setting calculation.

person verification.

P

f. Turn the PWR. ADJ.

• f. Turns the PWR ADJ pot potentiometer clockwise dockwise until the until the power setpoint, as calculated in Step 4.2.4.4, is indicated on the PWR OUT meter.

power setpoint is indicated on the PWR OUT meter.

CUE:

When student mentions that conference withthe TSC is necessary to determine recombiner effectiveness, inform the student, The STED is aware of this and in contact with the TSC on this matter.

P

g. CONFER with the TSC to

g. Attempts to confer with determine recombiner the TSC.

effectiveness and the need to make adjustments to recombiner power.

CUE:

The JPM is complete.

6.

Stop time Time to complete the task I; 20 minutes.

Evaluator calculates time to complete task.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 7 of 9

Tear-Off Sheet for Applicant US to Secondary Operator, Secondary Operator (or students name), we are in FR-C.1, and containment hydrogen concentration is presently 3.4%. Place Hydrogen Recombiner A in service per OS1 023.40, Hydrogen Recombiner Operation.

Report to me when the recombiner is in service.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 8 of 9

Simulator Operator Instructions Reset the simulator to any convenient IC.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #5 Page 9 of 9

JOB PERFORMANCE MEASURE WORKSHEET JPM ##6: POWER RANGE NI FAILURE Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Classroom:

Simulator:

Plant:

WA reference: 015A2.01 Abilitv to predict the impacts of the foltowina malfunctions on the NIS and use procedures to mitigate, control, or correct the mnswuences of those malfunctions: power supply loss or erratic operation.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #6 Page 1 of 8

~~

~

~

~-

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinee's Name:

Examiner's Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiner's signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM $6 Page 2 of 8

JOB PERFORMANCE MEASURE WORKSHEET I.o 2.0 3.0 4.0 5.0 6.0 Task Number and

Description:

Position:

RO 01504021 01 Electronically Remove A Failed NI Detector Conditions:

A. Plant is in mode I at 100% power.

B. The US entered OS121 1.04, Power Range NI Instrument Failure, in response to channel N42 failing high.

Standards:

Remove NI channel N42 from service per OS121 1.04.

Student Materials:

A. Copy of the Tear-Off sheet.

B. Copy of OS121 1.04, Power Range NI Instrument Failure, Rev. 9, Chg. 1.

Limitations on performance:

Simulate/Perform all steps. Verbalize all actions to the evaluator.

Even if requested, no Peer Checks will be provided during the JPM.

References:

Procedures:

OS121 1.04, Power Range NI Instrument Failure OGP-1, Control Switch Operation Technical Specifications:

3.3.1 RX Trip System Instrumentation 3.2.4 QPTR Drawings:

I-NHY-509043,509044 NI Functional Diagrams USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #6 Page 3 of 8

JOB PERFORMANCE MEASURE WORKSHEET SYS KA Description 01 5 AI.04 Quadrant power tilt ratio.

01 5 A2.02 Faulty operation.

01 5 A4.01 Selection of controlling NIS channel.

01 5 A2.01 Power supply loss or erratic operation.

Value ROISRO 3.513.7 3.113.5 3.613.6 3.513.9 7.0 8.0 9.0 10.0 e

e e

Setting:

Simulator A. Initialize the simulator to a 100% power IC. Place the simulator in RUN.

Safety Considerations:

None Approximate Completion Time:

15 minutes Initiating Cue:

Initial conditions:

The plant is at 100% power.

Power range channel, NI-42, has failed.

The US entered OS121 1.04, "Power Range NI Instrument Failure*, in response to channel N42 failing high.

US to applicant: "Reactor operator, remove power range channel N42 from service in accordance with OS121 1.04,"Power Range NI Instrument Failure".

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #6 Page 4 of 8

PERFORMANCE CHECKLIST D=Discuss ELEMENTETEP STANDARD EVALUATION INITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

1.

P Start time Initiating cue read.

CUE:

If the student requests a Peer Check at any time during the JPM, respond: NO one is available to peer check your actions. Please continue with the task.

CUE:

If the student asks if electrical load is decreasing, the US should respond that it is not.

• 2.

P Check Power Range Channel - Reports NI-42 failed high. --

FAILED HIGH.

a. Place rod control in Manual.

a. Verifies rods in Manual. --

b. Select Rod Stop Bypass switch - TO FAILED CHANNEL

• b. Selects N42 on the rod stop bypass switch.

C. Check Taw - within 1°F Of C.

ChecksKontrols Taw --

Tref.

within 1°F of TM.

If Taw > TEf by more than IOF, manually control rod motion or turbine load to restore temperature.

• 3.

P Bypass The Failed Power Bypasses the failed channel:

Range Channel:

a. Select the following NI

a.

Positions switches as cabinet switches to the failed channel (N42):

follows:

0 Upper Section Detector Selects N42 on the --

Current Comparator upper section switch.

detector current comparator switch.

Lower Section Detector

• 0 Selects N42 on the --

Current Comparator lower section switch.

detector current comparator switch.

e Power Mismatch Bypass

• 0 Selects N42 on the --

switch.

power mismatch bypass switch.

0 IF NOT selected e

VerifiesN42 USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #6 Page 5 of 8

PERFORMANCE CHECKLIST D=Discuss ELEMENTKTEP STANDARD EVALUATION INITIALSDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT previously, Rod Stop Bypass switch.

0 Comparator Channel Defeat switch to N42.

b. Trip affected channel bistables

1) Verify redundant channel bistables - U T TRIPPED.

UL RCS LOOP OTAT PR High TRIP PR HIGH RATE TRIP POWER RANGE LOW If power is less than P-IO:

TRIP selected on the rod stop bypass switch. --

SelectsN42on the comparator channel defeat switch.

• 1) Verifies and reports redundant channel bistables - U T TRIPPED for N41, N43, N44 0

RCS Loop OTAT 0

PRHighTrip 0

PR High Rate Trip

2) Remove control power fuses for affected power range channel.

• 2) Removes N42 control power fuses.

CUE:

The JPM is complete.

4.

Stop time Time to complete the task 5 15 minutes.

Evaluator calculates the time to complete the task.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM #6 Page 6 of 8

Tear-Off Sheet for Applicant Initial conditions:

0 The plant is at 100% power.

0 Power range channel, NI-42, has failed.

0 The US entered OS121 1.04, "Power Range NI Instrument Failure", in response to channel N42 failing high.

US to applicant: "Reactor operator, remove power range channel N42 from service in accordance with OS121 1.04,"Power Range NI Instrument Failure".

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B. 1 J PM #6 Page 7 of 8

Simulator Operator Instructions Reset the simulator to a 100% power IC.

Fail the power range channel N1-42 to 120%

MFN1002 value: 120 USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.l JPM $6 Page 8 of 8

JOB PERFORMANCE MEASURE LOlT #01 Rev. 01 RWST BLENDED MAKEUP CALCULATION AND PERFORMANCE Student Name:

Badge #:

Evaluator Name:

Badge #:

Student Signature:

Date:

(optional)

Evaluator Signature:

Date:

Training Coordinator Signature:

Date:

SAT UNSAT This JPM was administered for qualification: NO This material is developed for North Atlantic training programs by the Training Group. Text materials and figures contained in this document are developed for purposes of instruction and should not be used in connection with either plant maintenance or plant operation. This material may not be reproduced without the authorization of the Training Manager.

PREPARED BY:

DATE:

INSTRUCTOR REVIEWED BY:

DATE:

SUBJECT MATTER EXPERT (OPTIONAL)

APPROVED BY:

DATE:

TRAINING SUPERVISOR

JOB PERFORMANCE WORKSHEET 004 A4.04 Calculation of boron concentration changes 004 A4.12 Boration / dilution batch control 1.o 2.0 3.0 4.0 5.0 6.0 3.2 J 3.6 3.8 J 3.3 Task Number and

Description:

Position: RO 00401 00601 Perform a boron change calculation 0040103401 Operate the CVCS to makeup to the RWST Conditions:

A manual makeup to the RWST is required due to normal system usage. The present RWST born concentration is 2735 ppm.

Standards:

A.

B.

Calculate the required flow controller and totalizer setpoints for a 1000 gallon manual blended makeup to the RWST.

Perform a blended makeup to the RWST.

Student Materials:

Copy of the Tear-Off Sheet RSI 735, REACTIVITY CALCULATIONS OS1008.01, CVCS MAKEUP OPERATIONS Limitations on performance:

Perform all steps. Verbalize all actions to the evaluator.

References:

Procedures:

RSI 735, REACTIVITY CALCULATIONS OS1 008.01, CVCS MAKEUP OPERATIONS

7.0 Setting

Simulator A.

Initialize the simulator to any available, stable, at power IC.

Note to Evaluator - Obtain Tear-Off sheets from student following JPM completion.

LOlT #01 Page 1 of 12

JOB PERFORMANCE WORKSHEET 8.0 Safety Considerations:

None 9.0 Approximate Completion Time:

20 minutes 10.0 Directions to the Student:

Evaluator gives Tear-Off sheet to the student.

Evaluator reads the following to the student (Optional for multiple JPMs).

Student I.

2.

Ensures task is done correctly.

May be asked follow-up questions to confirm knowledge of task.

A.

B.

You are the Primary Operator.

The following information is provided to you:

1.

2.

3.

The performance must meet the following standard:

1.

2.

Perform the task using RS1735, REACTIVITY CALCULATIONS and OS1008.01, CVCS MAKEUP OPERATIONS.

To perform the task successfully, you must perform all critical steps correctly and verbalize all your actions to the evaluator. Practicing STAR techniques and using the station communication standard will safeguard successful completion of the task.

A manual makeup to the RWST is required due to normal system usage.

The RWST boron concentration is 2735 ppm.

The boron concentration of both BASTS is 7200 ppm.

C.

(NA for NRC Exam)

Calculate the required flow controller and totalizer setpoints for a 1000 gallon manual blended makeup to the RWST.

Perform a blended makeup to the RWST.

D.

(NA for NRC Exam)

E.

(NA for NRC Exam)

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion (Ops only).

LOlT #01 Page 2 of 12

JOB PERFORMANCE WORKSHEET F.

(NA for NRC Exam)

During the course of the walk-through examination, there may be some tasks you will be asked to perform that may require you to implement an alternative method directed by plant procedures in order to complete the assigned task. You are expected to make decisions and take actions based on the facility's procedural guidance and the indications available.

Failure to perform a critical element within the prescribed standard will result in a failure of the task.

I will inform you when the JPM is complete.

We will begin after the "Initiating Cue" is read.

I am the US in the control room. I will provide the cues and communications for this JPM. Do you have any questions?

G.

(NA for NRC Exam)

H.

(NA for NRC Exam)

1.

(NA for NRC Exam)

J.

I1.O Initiating Cue:

US to Primary Operator, "Primary Operator, (or student's name) determine the required flow controller and totalizer setpoints for a I000 gallon blended makeup to the RWST. When you have completed your calculations makeup to the RWST at a flowrate of 75 gpm for a total of I000 gallons".

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion (Ops only).

LOlT #01 Page 3 of 12

PERFORMANCE CHECKLIST D=Discuss ELEMENTlSTEP STANDARD WALUATI ON INlTlALSlDATE P=Perfom denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

1.

Start time Initiating cue read.

• 2.

P Complete Worksheet Gets copy of RSI7358, Part (Form RS1735B Part 2)

2.

a. ENTERS Name/Date

b. ENTERS CMu (current RWST boron concentration -

2735 ppm)

c. ENTERS FTOT (Total MU flowrate = 75 gpm)

d. ENTERS CMST (7200 PPm)

• e. CALCULATES Fw (28.5 GPM f 2 gpm)

NOTE: Student may set boric acid supply counter and total flow counter at any time before turning the BLENDER MODE START SWITCH to start.

NOTE: Boric acid counter setting may be computed by various methods, One is (F84/FT0~)

X total gallons.

• 3.

P Manual Blend MU to RWST

• a. SETS CS-FK-110 (Fw value) to 28.5 f 2 gpm.

• b. SETS boric acid supply counter to 380 gallons.

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion (Ops only).

LOlT #01 Page4 of 12

PERFORMANCE CHECKLIST D=Discuss ELEMENTlSTEP STANDARD EVALUATION INITlALSlDATE P=Perform

• denotes a

• denotes critical S=Sirnulate critical step standard SAT UNSAT

• c. SETS CS-FK-111 (FTOT --

value to 75 e 5 gpm).

• d. SET total flow counter to I000 gallons.

NOTE:

Simulator Operator must open CS-V444/446 using Remote Function CS005 Instructor CUE: NSO to Primary Operator,"CS-V444 and CS-V446 have been opened".

• e. CONTACTS primary NSO to open CS-V444 in Boric Acid tank room.

• f. CONTACTS NSO to open CS-V446 in Boric Acid tank room.

g. TURNS Blender Mode Start Switch to STOP.

• h. TURNS Boric Acid Blender Mode Selector Switch to MANUAL.

• i. TURNS Blender Mode Start Switch to START.

4.

NOTE:

P VERIFY response CHECKS the following:

Boric acid and total MU flowrates match their selected values.

The JPM can be considered complete when a 75 gpm flowrate is established with the correct boric acid flowrate. Evaluator may CUE student that total flow counter has reached I000 gallons.

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion (Ops only).

LOlT #01 Page 5 of 12

PERFORMANCE CHECKLIST D=Discuss ELEMENTlSTEP STANDARD EVALUATION INITIALSKIATE P=Perfotm

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

5.

P Blender to OFF CUE:

The JPM is complete.

6.

Stop time Verifies Makeup System shutdown when totalizer reaches I000 gallons.

PLACES the Boric Acid Blender Mode Selector Switch To OFF.

Start time minus stop time3 20 minutes.

Note to Evaluator - Obtain Tear-Off Sheets from student following JPM completion (Ops only).

LOlT #01 Page 6 of 12

PERFORMANCE

SUMMARY

Provide comments on unsatisfactory performance of an elementlstep or for deviation from performance as stated. Record interruptions in performance such as retraining, shift change, and processing of procedure changes. Recommend remedial training, if necessary.

Note to Evaluator - Obtain Tear& sheetsfrom student following JPM completion.

LOlT #01 Page 7 of 12

FOLLOWUP QUESTIONS QUESTION: LOIT #I follow up question I Answer with the aid of reference materials.

The Unit Supervisor notices that the main plant computer point for RCS unidentified leakage indicates 0.32 gpm.

He asks you to perform a manual steady state leak rate calculation to confirm that value. The following information is provided to you:

The VCT chart level recorder shows a level decrease from 50% to 47.5% in 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. The operating crew has diluted a total of 75 gallons during that time. TAVG and PZR level have been stable at 587 degrees and 61 %

respectively. PRT and RCDT level have not changed over the 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> period.

I TIME:

ANSWER Refer to OXI401.02B, manual leak rate calculation - answer key attached SYS:

I K A : l DESCRIPTION:

I VALUE:

004 I A1.06 I VCT level 13.013.2

REFERENCE:

OX1401.02, RCS Steady State Leak Rate Calculation.

Previous RESPONSE COMMENTS:

I SAT (=70%) UNSAT Note to Evaluator - Obtain Tear-off sheets from student fdlm'ng JPM completion.

LOIT #01 Page 8 of 12

FOLLOWUP QUESTIONS QUESTION: LOlT #I follow up question 2 Answer without the aid of reference materials The plant is in MODE 1. Chemistry has just reported to you that the RWST boron concentration is 2695 ppm.

What action is required by Technical Specifications?

I TIME:

ANSWER The RWST is INOPERABLE. Tech Spec minimum is 2700 ppm. Restore it to an OPERABLE condition in 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in COLD SHUTDOWN within the next 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

SYS:

I KA:

I DESCRIPTION:

1 VALUE:

004 1 A2.27 I improper RWST boron concentration 1 3.5l4.2

REFERENCE:

Technical Specification 3.1.2.6 Previous RESPONSE COMMENTS:

SAT (=70%) UNSAT Note to Evaluator - Obtain Tear-off sheets from student follawing JPM completion.

LOlT #01 Page 9 of 12

FOLLOWUP QUESTIONS QUESTION: LOIT #I follow up question 2 Answer without the aid of reference materials The plant is in MODE 1. Chemistry has just reported to you that the RWST boron concentration is 2695 ppm.

What action is required by Technical Specifications?

Note to Evaluator - Obtain Tear-off sheets from student following JPM completion.

LOIT #01 Page 10 of 12

FOLLOWUP QUESTIONS QUESTION: LOlT #I follow up question 1 Answer with the aid of reference materials.

The Unit Supenrisor notices that the main plant computer point for RCS unidentified leakage indicates 0.32 gpm. He asks you to perform a manual steady state leak rate calculation to confirm that value. The following information is provided to you:

The VCT chart level recorder shows a level decrease from 50% to 47.5% in 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. The operating crew has diluted a total of 75 gallons during that time. TAVG and PZR level have been stable at 587 degrees and 61 % respectively. PRT and RCDT level have not changed over the 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> period.

Note to Evaluator -Obtain Tear-off sheets from student following JPM completion.

LOlT #01 Page 11 of 12

FOLLOWUP QUESTIONS Directions to the Student:

Evaluator gives Tear-off sheet to the student.

Evaluator reads the following to the student (Optional for multiple JPMs).

Student

1. Ensures task is done correctly.

2. May be asked follow-up questions to confirm knowledge of task.

A. You are the Primary Operator. You are going to calculate and perform a lo00 gallon blended makeup to the RWST.

B. The following information is provided to you:

1. A manual makeup to the RWST is required due to normal system usage.

2. The RWST boron concentration is 2735 ppm.

3. The boron concentration of both BASTS is 7200 ppm.

C. I am the US in the control room. I will provide the cues and communications for this JPM. Do you have any questions?

I I

.O Initiating Cue:

US to Primary Operator, Primary Operator, (or students name) determine the required flow controller and totalizer setpoints for a I000 gallon blended makeup to the RWST. When you have completed your calculations makeup to the RWST at a flowrate of 75 gpm for a total of 1000 gallons.

Note to Evaluator - Obtain Tear-off sheets from student following JPM completion.

LOIT #01 Page 12 of 12

FOLLOWUP QUESTIONS Modified as required to reflect Rev. 2 of the KA Catalog. Minor formatting changes.

JPM UPDATE SWK Item #

1.

2.

3.

JPM Number:

LOlT#01 Reviewed By:

Title:

RWST BLENDED MAKEUP Date:

CALCULATION &

PERFORMANCE Revision:

00 Comment Initials Initial Issue I TCC I

I Action Taken Initials Validated for LOUT 96 exam I TCC 1

Revised JPM per NRC request to minimize instructions read to student, identify evaluator / instructor cues, note that JPM is faulted on cover and in body, incorporated followup questions, (with tear-off) into JPM.

SWK Date Review 9/25/96 I

I I

011 3/98

JOB PERFORMANCE MEASURE WORKSHEET JPM #8: MANUAL OPERATION OF RHR TCV FOR MID-LOOP OPERATIONS Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Plant:

Classroom:

Simulator:

WA reference: 005K4.02. K4.03 Knowledne of RHRS desian features and/or interlocks which provide for modes of operation, RHR heat exchanger bypass flow control.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #8 Page 1 of 6

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinees Name:

Examiners Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiners signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #8 Page 2 of 6

JOB PERFORMANCE MEASURE WORKSHEET 2.1 078 1.0 Task Number and

Description:

RO/SRO 2.1.20 Ability to execute procedure steps.

4.314.2 K3.02 Loss of IAS on systems having pneumatic valves 3.413.6 Position:

NSO

2. I 005 1 1501 01004 Position Any Valve and controls.

local controls.

2.1.30 Ability to locate and operate components, including 3.9/3.4 K3.01

. RCS.

3.9/4.0

2.0 Conditions

A. The Plant is in mode 6 with fuel in the vessel.

B. In preparation for installing SG nozzle dams, Complex Procedure OS1 000.12, "Operation With The RCS At Reduced InventoryMidtoop Conditions", is being used to drain the RCS to mid-loop.

C. All Prerequisites of OS1000.12 are complete, and RHR train A is in service.

D. OS1 000.12 is completed through step 6.1.I 1.2.

3.0 Standards

Simulate manually blocking RH-HCV-606 per OS1000.12.

4.0 Student Materials:

Copy of the Tear-Off sheet Copy of OS1000.12, "Operation with The RCS At Reduced Inventory/Midloop Conditions", Revision 3, Change 11, pages 18 through 21.

Wrench to operate the 1 %inch jam nut. (Simulate obtaining from the Tool Crib.)

Flashlight 5.0 Limitations on performance:

Simulate all steps. Verbalize all actions to the evaluator.

Even if requested, no Peer Checks will be prouded during the JPM.

6.0

References:

OS1 000.12, "Operation With The RCS At Reduced Inventory/Midloop Conditions", Rev.3, Chg.9.

I SYS I K A I Description I Value I

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #8 Page 3 of 6

~

~~

~

JOB PERFORMANCE MEASURE WORKSHEET

7.0 Setting

In plant: -25 ft elevation, A RHRvault stairwell (B RHR vault stairwell).

8.0 Safety Considerations:

JPM is in RCA.

Review HP radiological maps/postings prior to entry. NRC examiners should enter RCA under RWP 4 task 1.

There is a posted area in the RHR Vault stairway with radiation levels near 25mremhr.

9.0 Approximate Completion Time:

15 minutes 10.0 Directions to the Student:

Initial Conditions:

0 The Plant is in mode 6 with fuel in the vessel.

In preparation for installing SG nozzle dams, Complex Procedure OS1000.12, Operation With The RCS At Reduced Inventory/Midloop Conditions, is being used to drain the RCS to mid-loop.

All Prerequisites of OS1000.12 are complete, and RHR train A is in service.

OS1 000.12 is completed through step 6.1.I 1.2.

You are the Primary NSO. You are going to manually gag RH-HCV-606, Train A temperature control to limit fail open flow rate to 3500 gpm.

US to Primary Operator, Primary Operator (or students name), train A RHR flow has been stabilized at 3500 gpm in accordance with OS1000.12, step 6.1.I I.2. Complete section 6.1.1 I and report when the required actions are complete.

USNRC Initial Licensing Examination Seabrook Stat ion June 2003 Section 8.2 JPM #8 Page 4 of 6

PERFORMANCE CHECKLIST D=Discuss ELEMENTKTEP STANDARD EVALUATION IN IT1 ALSIDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT

1.

P Start time Initiating cue read.

CUE:

If the student request valve location from the control room, RH-HCV-606 is located on the (-)25 ft elevation, A vault, northwest corner by stairs.

CUE:

peer check your actions. Please continue with the task.

If the student requests a Peer Check at any time during the JPM, respond: NO one is available to

• 2.

S Prepare RH-HCV-606 handjack Simulates preparing for operation.

handjack for operation.

CUE:

If the student contacts the control room for permission to unlock the handjack, You have permission to unlock RH-HCV-606.

CUE:

When student simulates unlocking the lock, The lock unlocks.

a. Unlock handjack

a. Using Best key from NSO key ring, simulates unlocking the handjack for RH-HCV-606.

CUE:

When student simulates turning the jam nut in the counter clockwise direction, The nut backs off.

NOTE: The jam nut may be finger tight which would eliminate the requirement for using a wrench in the next step.

b. Back off jam nlrt

• b. Simulates turning the jam nut counter-clockwise.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #8 Page 5 of 6

Initial Conditions:

0 The Plant is in mode 6 with fuel in the vessel.

0 in preparation for installing SG nozzle dams, Complex Procedure OS1 000.12, Operation Wrth The RCS At Reduced Inventory/Midloop Conditions, is being used to drain the RCS to mid-loop.

0 All Prerequisites of OS1000.12 are complete, and RHR train A is in service.

0 OSIOOO. 12 is completed through step 6.1.1 1.2.

You are the Primary NSO. You are going to manually gag RH-HCV-606, Train A temperature control valve to limit fail open flow rate to 3500 gpm.

US to Primary Operator, Primary Operator (or students name), train A RHR flow has been stabilized at 3500 gpm in accordance with OS1000.12, step 6.1.I 1.2. Complete section 6.1.I 1 and report when the required actions are complete.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.2 JPM #8 Page 6 of 6

JOB PERFORMANCE MEASURE WORKSHEET JPM #9: LOCAL EDG NORMAL START AND LOAD Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Classroom:

Simulator:

Plant:

KIA reference: 2.4.35 Knowledge of local auxiliary operator tasks during emergency operations includina system geoaraphv and svstem implications.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Page 1 of 8

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinee's Name:

Examiner's Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiner's signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Page 2 of 8

JOB PERFORMANCE MEASURE WORKSHEET 1.0 Task Number and

Description:

Position:

NSO 0640400204 Locally Start And Load An EDG.

2.0 Conditions

A.

B.

C.

D.

E.

The plant is in mode 5.

DG 1 B is being locally started and loaded for posCmaintenance testing.

Precautions 3.1 - 3.3, 3.7, 3.8, 3.12, 3.20 and 3.21 of OSl026.09are All prerequisites of OS1026.09 are satisfied.

The pre-start logs were completed 15 minutes ago by another NSO.

satisfied.

3.0 Standards

Simulate a local start of DG 1B and parallel it to bus E-6.

4.0 Student Materials:

Copy of the Tear-Off Sheet.

Copy of OS1026.09, Operation Of DG IB, Rev. 8, Chg. 22.

5.0 Limitations On Performance:

Simulate all steps, and verbalize all actions to the evaluator.

Even if requested, no Peer Checks will be provided during the JPM.

6.0

References:

Procedures 1 Good practices:

0 OS1026.09, Operation Of DG 1 B.

0 OGP-1, Control Switch Operation Detailed Systems:

Technical Specifications:

0 3.8.1.1, AC Sources Operating 3.8.1.2, AC Sources Shutdown USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Page 3 of 8

JOB PERFORMANCE MEASURE WORKSHEET SYS KA 2.4 2.4.35 Drawings:

Description Value Knowledge of local auxiliary operator tasks during emergency operations including.

RO/SRO 3.313.5 EDE: 1-NHY-310102 DG: 1-NHY-310857

7.0 Setting

6 EDG Room.

8.0 Safety Considerations:

High noise area.

DO NOT OPERATE any controls since the potential for an inadvertent ESF actuation exists.

9.0 Approximate Completion Time:

20 minutes 10.0 Directions To The Student(s):

Initial Conditions:

1. The plant is in mode 5.

2. DG 1 B is being locally started and loaded for post-maintenance testing.

3. All applicable Precautions of OS1026.09 are satisfied.

4. All prerequisites of OSt026.09 are satisfied.

5. The pre-start logs were completed 15 minutes ago by another NSO.

You are a spare NSO. You are going to simulate the local NSO actions required to start and parallel DG 1B to bus E-6.

US to Spare NSO, Spare NSO (or students name), simulate local starting and paralleling of DG I B IAW OS1026.09 starting at step 4.2.2. Operate the EDG in AUTO voltage control. Desired load is 5500 kW f 500 kW. The ROVER has completed step 4.2.1. The DG I B pre-start logs are complete and satisfactory.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Page 4 of 8

D=Discuss ELEMENTSTEP P=Perform

• denotes a S=Simulate critical step

1.

CUE:

CUE:

NOTE:

• 2.

CUE:

CUE:

3.

CUE:

4.

• 5.

6.

PERFORMANCE CHECKLIST STANDARD EVALUATION INITIALWDATE

• denotes critical standard SAT UNSAT P

Start time Initiating cue read.

If the student requests a Peer Check at any time during the JPM, respond: NO one is available to peer check your actions. Please continue with the task.

Evaluator to NSO, The DG breaker control switch is in REMOTE.

NSOs carry keys. Student may simulate having and placing a key in the switch.

S Place DG breaker control Simulates placing the selector switch to LOCAL.

breaker control SS to local:

• a. Place key in breaker

• b. Rotate SS to local.

switch.

Control Room to NSO, We show that DG 1B is in LOCAL.

Evaluator to NSO, The voltage regulator mode selector switch is in AUTO.

S Place the voltage regulator Verifies the voltage mode selector switch in AUTO. regulator mode SS in AUTO.

Evaluator to NSO, The manual voltage regulator switch is pulled out in the TRACK position.

Check the manual voltage regulator switch pulled out in the TRACK position.

Press both EMERGENCY STOP push-buttons at the same time to prevent an uncontrolled diesel start after reset.

Notify local personnel of loud noise due to venting high-pressure air.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Verifies the manual voltage regulator switch pulled out in TRACK.

Simulates pushing both EMERGENCY STOP push-buttons.

Notifies local personnel of venting high-pressure air.

Page 5 of 8

PERFORMANCE CHECKLIST D=Discuss ELEMENTISTEP P=Perform

• denotes a S=Simutate critical step STANDARD EVALUATION INITIALSDATE

• denotes critical standard SAT UNSAT CUE:

When the engine reset button is pressed, the air shutdown relay resets and produces a whoosh.y

• 7.

S Press the ENGINE RESET Simulates resetting the push-button.

diesel engine.

8.

S Check DG-P-227B off prior to Checks the rocker arm pre starting the DG.

lube pump off.

NOTE: If ENGINE RESET is not pushed, the DG will not start.

• 9.

S Press the TEST START push-Simulates starting the button.

diesel engine.

CUE:

Evaluator to NSO, The engine starts. Output is 59.5 Hz and 4,190 AC volts.

10.

s Check DG 1B comes up to Checks DG 1B at rated rated frequency and voltage, 60 frequency and voltage.

Hz (58.8 to 61.2 Hz) and 4,160 volts (3,740 to 4,580 volts).

CUE:

The student should not ask, about manually flashing the field since both voltage and frequency are indicated and normal. If asked, restate that frequency is 59.5 Hz & voltage is 4,190 VAC.

CUE:

Control room to NSO, SW-VI8 is open and FI-6191 indicates 1840 gpm.

11.

s At the MCB, check SW-V Contacts the control room

12.

s At the MCB, check SW flow to Checks SW flow > 1,800 OPEN.

and asks them to verify SW-V-18 open.

gpm.

DG 1 B greater than:

900 gpm - on ocean 1800 gpm - on cooling tower CUE:

When asked, evaluator to NSO, The bus E-6 synchronizing switch is in OFF.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Page 6 of 8

PERFORMANCE CHECKLIST D=Discuss ELEMENTISTEP P=Perform

• denotes a S=Simulate critical step STANDARD EVALUATION INITIALSIDATE

• denotes critical standard SAT UNSAT

13.

S Place the bus E-6 Simulates placing the SNS synchronizing switch to - DG TO BUS.

to DG TO BUS.

CUE:

After SNS is positioned to DG TO BUS, evaluator to NSO, Bus E-6 incoming volts is 130 volb; bus 4

running volts is 120 volts. The synchroscope is rotating CCW slowly; the tights go out at 12 oclock and are bright at 6 oclock.

NOTE: The DG is read on the incoming meter, and the bus is read on the running meter. Therefore, the incoming meter rises when the student RAISES on the voltage regulator, and conversely, the incoming meter lowers when student LOWERS on voltage regulator.

• I

4.

CUE:

• I

5.

S Adjust DG 18 voltage so that Simulates matching bus E-6 INCOMING VOLTS and INCOMING VOLTS to RUNNING VOLTS match.

RUNNING VOLTS.

If speed is raised, evaluator to NSO, The synchroscope needle slows, stops and begins to rotate clockwise.

If speed is lowered, evaluator to NSO, The synchroscope needle speeds up in the CCW direction.

S Adjust engine speed until the Simulates adjusting speed SYNCH meter rotates slowly in until the SYNCH meter the fast direction.

rotates CW slowly.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #9 Page 7 of 8

Tear-Off Sheet for Applicant Initial Conditions:

The plant is in mode 5.

DG 1 B is being locally started and loaded for postmaintenance testing.

All applicable Precautions of 081026.09 are satisfied.

All prerequisites of OS1026.09 are satisfied.

The pre-start logs were completed 15 minutes ago by another NSO.

You are a spare NSO. You are going to simulate the local NSO actions required to start and parallel OG 1B to bus E-6.

US to Spare NSO, Spare NSO (or students name), simulate local starting and paralleling of DG 1 B IAW OS1026.09 starting at step 4.2.2. Operate the EDG in AUTO voltage control. Desired load is 5500 kW f 500 kW. The ROVER has completed step 4.2.1. The DG I B pre-start logs are complete and satisfactory.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.2 JPM #9 Page 8 of 8

JOB PERFORMANCE MEASURE WORKSHEET JPM # I O : RESET THE TDEFW PUMP TURBINE TRIP THROTTLE VALVE Examinee:

NRC Examiner:

Facility Evaluator:

Date:

Method of Testing Simulated Performance:

Actual Performance:

Classroom:

Simulator:

Plant:

K/A reference: 2.4.35 Knowledge of local auxiliary operator tasks durinq emergency operations including system geowaphy and system implications.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM # I O Page 1 of 7

JOB PERFORMANCE MEASURE WORKSHEET VERIFICATION OF COMPLETION Examinees Name:

Examiners Name:

Date Performed:

Facility Evaluator:

Number of attempts:

Time to complete:

Question documentation Responses to questions Result: SAT or UNSAT (circle one)

Examiners signature and date:

USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM #I 0

Page 2 of 7

JOB PERFORMANCE MEASURE WORKSHEET I

.O Task Number and

Description:

Position:

NSO 061 0401 204 Reset The Turbine Driven EFW Pump Trip Valve.

2.0 Conditions

A. The plant is in Mode 3 following a trip from 100% power.

B. All station AC electrical power has been lost.

C. The Turbine Driven EFW Pump started and then tripped.

3.0 Standards

Reset the turbine driven EFW pump trip valve and start FW-P-37A per OS1036.03, Resetting The Steam Driven EFW Pump Trip Valve.

4.0 Student Materials:

0 Copy of the Tear-Off Sheet.

Copy of OS1 036.03, Resetting The Steam Driven EFW Pump Trip Valve, Rev. 2, Chg. 3.

0 Copy of OS1 090.01, Manual Operation Of Remote Operated Valves, Rev.

5, Chg. 1 1, page I through 6 and 18 & 19.

5.0 Limitations On Performance:

Simulate/Perform all steps. Verbalize all actions to the evaluator.

Even if requested, no Peer Checks will be provided during the JPM.

6.0

References:

Procedures:

0 OS1036.03, Resetting The Steam Driven EFW Pump Trip Valve 0

OSlO90.01, Manual Operation Of Remote Operated Valves Technical Specifications:

3.7.1.2, AFWSystem 0

3.7.1.3, CST 0

3.7.1 0, Area Temperature Monitoring Drawings:

I

-NHY-503584 I

-NHY-503585 USNRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM # I O Page 3 of 7

JOB PERFORMANCE MEASURE WORKSHEET 061

. - r i svs I K A I Description I Value 1

RO/SRO A2.04 Ability to predict impact and use procedure to 3.413.8 2.4 correct, control, mitigate ARN pump failure.

2.4.35 Knowledge of local auxiliary operator tasks during 3.3/3.5 1 emergency operations.

I I

7.0 Setting

Plant, EFW Pump house.

8.0 Safety Considerations:

0 Hot steam piping.

0 Possible automatic pump start.

0 Rotating equipment hazard.

0 Hearing protection as posted.

0 Stand clear of drain valves located on the east side of the turbine.

9.0 Approximate Completion Time:

10 minutes 10.0 Initial Cue:

Initial Conditions:

0 The plant is in Mode 3 following a trip from 100% power.

0 All station AC electrical power has been lost.

0 The Turbine Driven ERN Pump started and then tripped.

You are the Roving NSO. You are going to reset the Turbine Driven ERN pump trip valve and restart the pump.

US to Roving NSO, Roving NSO (or students name), simulate resetting MS-V-I 29, the trip valve for emergency feed pump turbine using OS1 036.03, Resetting The Steam Driven EFW Pump Trip Valve, then restart the steam driven EFW pump.

USMRC Initial Licensing Examination Seabrook Station June 2003 Section 8.2 JPM # I O Page 4 of 7

PERFORMANCE CHECKLIST D=Discuss ELEMENTISTEP P=Perform

• denotes a S=Simulate critical step STANDARD

• denotes critical standard EVALUATION I NITIALSDATE SAT UNSAT

1.

P Start time Initiating cue read.

CUE:

If the student requests a Peer Check at any time during the JPM, respond: NO one is available to peer check your actions. Please continue with the task.

• 2.

S Reset MS-V-129, EFW pump Simulates resetting turbine trip valve:

MS-V-129:

a. Pull and hold the tripping

• a. Simulates pulling and rod toward MS-V-129.

holding the trip rod toward MS-V-129.

b. ChecWplace the flat of the

• b. Simulates checking /

placing the flat of the washer against the trip rod.

washer against the trip rod.

c. Verify the trip plunger drops c. Simulates verifying the trip plunger is in place.

into place. Gently depress the plunger, if required.

d. Release the tripping rod.

d. Simulates releasing the tripping rod.

e. Turn the handwheel for

• e. Simulates turning the MS-V-129 CW until the latch snaps into place.

handwheel CW until the latch snaps into place.

CUE:

If the control room is contacted, acknowledge, then US to NSO, Restart the steam driven EFW pump locally.

• 3.

S Restart the steam driven EFW Simulates restarting the pump:

steam driven ERN pump:

a. Check MS-V-I 29 - RESET. a. Verifies MS-V-I 29 is reset.

CUE:

If the student checks the position of FW-V-346 locally, evaluator to student, The valve is shut.

CUE:

If the control room is contacted regarding status of FW-V-346, US to NSO, NO power is available to remotely open Fw-V-346. Open FW-V-346 locally.yy USNRC initial Licensing Examination Seabrook Station June 2003 Section B.2 JPM #IO Page 5 of 7

PERFORMANCE CHECKLIST D=Discuss ELEMENT/STEP STANDARD EVALUATION INITIALWDATE P=Perform

• denotes a

• denotes critical S=Simulate critical step standard SAT UNSAT CUE:

If the control room is contacted regarding step 3.2.4 of OS1090.01 in reference to the de-clutch lever limitations on RN-V-346, US to NSO, This is an emergency. Locally open FW-V-346.

b. Check open/open

• b. Simulates opening RN-V-346, ERN pump A mini-flow.

depressing the de-FW-V-346 locally by clutch lever and rotating the handwheel ccw.

CUE:

As MS-V-129 is opened, evaluator to student, Speed is increasing to 3600 rprn.

c. Slowly open MS-V-129 to

• c. Simulates slowly increase speed to 3600 rpm (3500 - 3700 rpm).

opening MS-V-I 29 by turning the handwheel ccw.

CUE:

When the student verifies ERN pump speed remains below 3750 rpm, evaluator to student, Speed is steady at 3675 rprn.

d. Verify the ERN pump

d. Verifies the ERN pump governor is governor is operating properly:

operating properly:

Verify pump speed remains 0

Verifies pump below 3750 rpm.

speed remains Fully open MS-V-129.

below 3750 rpm.

Remove MS-V-129 from its Simulates fully opening MS-V-129.

Simulates closing MS-V-129 %turn.

backseat by closing 1/4 turn.

CUE:

The JPM is complete.

4.

Stop time Time to complete the task I

I O minutes.

Evaluator calculates time to complete task.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.2 JPM # I O Page 6 of 7

Tear-Off Sheet for Applicant Initial Conditions:

The plant is in Mode3 following a trip from iOO% power.

All station AC electrical power has been lost.

The Turbine Driven ERN Pump started and then tripped.

You are the Roving NSO. You are going to reset the Turbine Driven EFW pump trip valve and restart the pump.

US to Roving NSO, Roving NSO (or students name), simulate resetting MS-V-129, the trip valve for emergency feed pump turbine using OS1036.03, Resetting The Steam Driven EFW Pump Trip Valve, then restart the steam driven EFW pump.

USNRC Initial Licensing Examination Seabrook Station June 2003 Section B.2 JPM # I O Page 7 of 7