ML083040111

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Draft - Section B Operating Exam (Folder 2), Nine Mile Point Unit 1, Operator Job Performance Measure
ML083040111
Person / Time
Site: Nine Mile Point Constellation icon.png
Issue date: 09/01/2008
From:
Constellation Energy Group
To: D'Antonio J
Operations Branch I
Hansell S
Shared Package
ML081060454 List:
References
50-220/08-302, NRC 2008, TAC U01690 50-220/08-302
Download: ML083040111 (102)
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Text

NfSC JPM S-I Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Initiate Liquid Poison Injection, RWCU Fails Revision: NRC 2008 To Isolate (Alternate Path)

Task Number: N1-211000-01006 NIA - Exam Security I Gedral Sdpervisck Date General Supervisor Date Operations Training (Designee) Operations (Designee)

N/A - Exam Security I Configuration Control Date Performer: (RO/SRO)

TrainerIEvaluator:

Evaluation Method: X Perform - Simulate Evaluation Location: Plant - X Simulator Expected Completion Time: 15 minutes Time Critical Task: No Alternate Path Task: Yes Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fail NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM S-1 October 2008

Recommended Start Location: (Completion time biised on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize Simulator to IC 181
2. Verify malfunctions RD33B and RD33D are inserted at position 36, and RP03 is inserted to establish failure to scram
3. Verify malfunctions CU12 and CU13 are inserted to establish RWCU isolation failure
4. Verify mode switch is in SHUTDOWN
5. Verify RRPs are tripped
4. Allow conditions to stabilize Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / (:SO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function.as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not iivailable and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independent/peer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas PasdFail.
2. During Evaluated JPM:

0 Self verification shall be demonstrated.

3. During Training JPM:

0 Self verification shall be demonstrated.

No other verification shall be demonstrated.

NRC 2008 JPM S-1 October 2008

References:

1. NUREG 1123,211000, A1.08, RO 3.7, SRO 3.8
2. N1-EOP-HC, Attachment 9 Tools and Equipment:

None Task Standard: Liquid Poison pump 11 injecting into the Reactor Vessel and Reactor Water Cleanup isolated.

Initial Conditions:

1. The plant was operating at 100% power.
2. A failure to scram has occurred.
3. Instructor to ask operator for any questions.

Initiating Cues:

(Operators name), inject Liquid Poison into the Reactor Vessel with Liquid Poison pump 11 in accordance with Nl-EOP-HC, Attachment 9.

Performance Steps Standard Grade __

1. Provide repeat back of initiating cue. Proper communications used for repeat back Sat/Unsat Evaluator acknowledge repeat back (GAP-OPS-01) providing correction if necessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-EOP-HC, Attachment 9 obtained SaWnsat and reviewhtilize the correct section of the procedure
3. Place Liquid Poison System keylock Keylock selector switch is rotated CW to SYS Pass/Fail selector switch to SYS 11 11
4. Confirm:

0 Both explosive valves fire Squib valves 11 and 12 continuity lights SatAJnsat verified extinguished 0 LiquidPoisonpump 11 Starts Liquid Poison pump 11 red light ON, green SaWnsat light OFF, amps and pressure rise 0 RWCU System isolates Diagnoses failure of RWCU to isolate: Pass/Fail RWCU system isolation valves remain open Note: RWCU will fail to isolate with green lights OFF, red lights ON, RWCU pump in service NRC 2008 JPM S-1 October 2008

Performance Steps Standard Grade

5. Notify CRS that the RWCU system failed Proper communication used (GAP-OPS-01) Sat/Unsat to isolate Role Plav: Acknowledge RWCU System failed to isolate
6. IF RWCU does NOT automatically isolate Refers to N1-OP-3, Section H.11 Sat/Unsat THEN manually isolate the RWCU system IAW N1-OP-3

-Note: Refers to N1-OP-3, Section H.11, Rapid System Isolation

7. Provide close signal to both valves below Closes33-02R & 33-0413 by rotating Pass/Fail at H panel individual control switches CCW 0 Close 33-02R Close 33-04R
8. Secure all operating cleanup pumps Secures RWCU pump 12 by rotating control SaWnsat switches CCW to STOP
9. Open ONE of the following valves Opens ONE of the following valves using SaWnsat common control switch 33-10, Cleanup to Waste Disposal BV 33-10, Cleanup to Waste Disposal BV 0 33-11, Cleanup to condenser BV 33-11, Cleanup to condenser BV Role Plav: When asked, state that Rapid Depressurization is NOT required and that RWCU system is to remain pressurized
10. If high pressure system is to remain Closes 33-41, A 0 Blocking Valve by rotating SaWnsat pressurized, THEN close 33-41, A 0 control switch CCW Blocking Valve.
11. Provide close signal at H Panel to 33-01R7 Provides close signal at H Panel to 33-01R, Passmail CU Return Isolation Valve 1 (inside) CU Return Isolation Valve 1 (inside), by rotating control switch CCW
12. Adjust inservice PCV AND 33-165, Adjusts inservice PCV AND 33-165, Cleanup Sat/Unsat Cleanup to Cond & Waste Flow, as to Cond & Waste Flow, as required to required to maintain Cleanup system maintain Cleanup system pressure less than pressure less than 110 psig AND minimize 110 psig AND minimize reject flow reject flow NRC 2008 JPM S-1 October 2008

Performance Steps Standard Grade

13. Verify closed the following valves Verifies closed the following valves (green Sat/Unsat light ON, red light OFF)

IV-33-02R IV-33-02R IV-33-04R IV-33-04R IV-33-01R IV-33-01R Note: Once this step is performed, the JPM is complete Terminating Cue: Liquid Poison pump 11 injecting into the Reactor Vessel and Reactor Water Cleanup isolated.

RECORD STOP TIME NRC 2008 JPM S-1 October 2008

Initial Conditions:

1. The plant was operating at 100% power.
2. A failure to scram has occurred.

Initiating Cues:

(Operators name), inject Liquid Poj son into the Reactor Vessel with Liquid Poison pump 1 1 in accordance with N l -EOP-HC,Attachment 9.

NRC 2008 JPM S-1 October 2008

Sheet Iof 1 1 .O Step Deleted.

2.0 Place the key fock selector switch to S/S 11 OR SYS 12 ..,. ..................................... LA 3.0 Confirm the following:

Both explosive valves fire ..,_,.. ..................................................................................... (I s The setected pump starts .................... ....... ....... ....... (A Reactor Water Cleanup System isotates .......... ..........................................................

4.0 IF the selected Liquid Poison pump fail!; to start THEN start the standby pump by placing the keylock switch to the position NQT selected in step 2.0................................. I-)

5.0 1F Reactor Water Cleanup System doe:; automatically isolate THEN manually isolate the Reactor Water Cleanup Sys1,emin accordance with N1-OP-3 ..............................(-)

Fcye 12 N 1-EOP-HC Rev 00

H. OFF-NORMAL PROCEDURES (Cont) 11.O Rapid Svstem Isolation (SOP)

NOTES: 1. Performance of this section will result in the loss of the in-service filter bed.

2. Pressure relief valve 33-145 may lift to provide thermal overpressure protectionfor the regenerative heat exchanger shell side.
3. The sequence for rapidly securing the RWCU system is established to isola1:ethe system while minimizing probability of causing an automatic isolation signal. The pumps are secured and reject establishedwhile the isolations valves are going closed.

11.I Provide close signal to both valves below at H Panel

a. 33-02RI CU SUPPLY ISOLATION VALVE 11 (INSIDE) ........................................... (-1
b.33-04R, CU SUPPLY ISOLATION VALVE 12 (OUTSIDE) ....................................... (-1 11.2 Secure all operating cleanup pumps ............................................................................... (-1

(-) Auxiliary CU Pump 11

(-) Cleanup Pump 11

(-) Cleanup Pump 12 11.3 Open ONE of the following valves ................................................................................... (-)

(-) 33-10, CLEANUP TO WASTE DISPOSAL BV

(-) 33-11, CLEANUP TO CONDENSER BV NOTE: IF rapid depressurizatiori is required while an isolation signal is present, then the control switch for 33-41 may be held in the open position (as directed by the SSS) to facilitate depressurization.

11.4 IF rapid depressurization is requlred, THEN perform the following:

NIA, rapid depressurization NOT required....................................................................... (-1 11-4.1 Verify Open 33-41, A 0 EjLOCKING VALVE ....................................................... (-1 11.4.2 Manually control in-service PCV AND 33-165 to depressurize Cleanup System ................................................................................................. (-1 Page 180 N1-0P-3 Rev 28

H. OFF-NORMAL PROCEDURES (Cont) 11.5 IF high pressure system is to remain pressurized, THEN Close 33-41, A 0 BLOCKING VALVE ................................................................... (-1 NIA, Cleanup system is to be depressurized................................................................... (-1 11.6 Provide close signal at H Panel to 33-01R, CU RETURN ISOLATION VALVE 1 (INSIDE)........................................................................................................... (-1 1I.7 Adjust inservice PCV AND 33-165, CLEANUP TO COND & WASTE FLOW, as required to maintain Cleanup System pressure less than 110 psig AND minimize reject flow ................................................................................................. (-1 11.8 Verify closed the following valves:

0 IV-33-02R ........................................................................................................... (-1 0 IV-33-04R ........................................................................................................... (-1 0 IV-33-01R ........................................................................................................... (-1 11.9 When time permits, continue with Section H.l.O for system isolation recovery ...............(-)

Page 180a N1-OP-3 Rev 28

NRC JPM S-2 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Transfer Torus Water to the Waste Collector Tank Using Revision: NRC 2008 Containment Spray Loop 111 Task Number: N1-22600 1-01015 Approvals-G$,z)-

Gener Supervisor Operations Training (Designee) b,;si!ibf N/A - Exam General Supervisor Security Operations (Designee)

/

Date N/A -- Exam Securitv /

Configuration Control Date Performer: (ROJSRO)

TrainedEvaluator:

Evaluation Method: X Perform - Simulate Evaluation Location: Plant - X Simulator Expected Completion Time: 15 Minutes Time Critical Task: No Alternate Path Task No Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fad NOTE: A JPM overall rating of fail shall be giver1 if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM S-2 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize Simulator to IC 182
2. Verify torus water level raised to -1 1.3 per Nl-EOP-1 Attachment 18 Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / (:SO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and ;icknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requeskd.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independentlpeer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas Pass/Fail. All steps are sequenced critical unless denoted by a (6 99 0 .
2. During Evaluated JPM:

0 Self verification shall be demonstrated.

3. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

References:

1. N1-EOP-1, Attachment 15
2. NUREG 1123 295029 EA 1.03 RO 2.9 SRO 3.0 Tools and Equipment:

None NRC 2008 JPM S-2 October 2008

Task Standard: Torus water level is being lowered via the Containment Spray System.

Initial Conditions:

1. Torus water level is 11.3 feet and rising slowly.
2. N1-EOP-4 has been entered.
3. Containment Spray pumps are in Pull to Lock:.

Initiating Cues:

(Operators name), lower torus level by discharging water to the Waste Collector Tank using Containment Spray Loop 111 in accordance with N1-EOP-1, Attachment 15.

Performance Steps Standard Grade

1. Provide repeat back of initiating cue Proper communications used for repeat back SatAJnsat Evaluator acknowledge repeat back (GAP-OPS-0 1) providing correction ifnecessary RECORD START TIME
2. Obtain a copy of the reference procedure N1 -EOP-1, Attachment 15 obtained SaWnsat and reviewhtilize the correct section of the procedure
3. Notify Radwaste of intent to pump down Proper communications used SaWnsat Torus to Waste Collector Tank (GAP-OPS-0 1)

Role Play: Acknowledge report

4. Close valve 80-45, Cont Spray Bypass BV Valve 80-45 is closed by turning control Passmail 122 switch CCW and then observing green light on, red light off
5. Open valve 80-1 18, Cont Spray Test to Valve 80-1 18 is opened by turning control Pass/Fai1 Torus FCV switch CW to open and verifying green light off, red light on Note: 80-1 18 is a throttlable valve, and must be held in the open position until fully open
6. Verify closed valve 80-16, Cont Spray Valve 80-16, Cont Spray Discharge J Y 111, is Passmail Discharge IV 1 11 closed by turning control switch CCW and then observing green light on, red light off
7. Verify open 80-40, Cont Spray Bypass BV Verifies valve 80-40 is open by observing red SaWnsat 111 light on, green light off NRC 2008 JPM S-2 October 2008

Performance Steps Standard Grade

8. Start Containment Spray Raw Water Pump Starts Containment Spray Raw Water Pump Pass/Fail 111 111 by turning control switch CW to the start position and verifying one or more of the following:

0 Green light off, red light on Pump amps increase Flow increases

9. Start Containment Spray Pump 111 Starts Containment Spray Pump 111 by Pass/Fail turning control switch CW to the start position and verifying one or more of the following:

0 Green light off, red light on Pump amps increase 0 Flow increases 0 System pressure rises

10. Open valve 80-1 5, Cont Spray to Valve 80-1 15 is opened by turning control Pass/Fail Radwaste IV 12 switch CW and then observing green light off, red light on
11. Open valve 80-1 4, Cont Spray to Valve 80-114 is opened by turning control Pass/Fail Radwaste lV 11 switch CW and then observing green light off, red light on
12. Throttle valve 80-118, Cont Spray Test to Valve 80-118 is throttled closed by turning Sat/Unsat Torus FCV as required to control flow to control switch CCW and then verifying green Waste Collector Tank light on Role Plav: If requested, inform that Radwaste has indication of sufficient flow
13. Monitor 58-05A and 58-06A TORUS H20 TORUS H20 LEVEL indicators58-05A and Sat/Unsat LEVEL indicators for level response 58-06A monitored for level response
14. Inform CRS that flow to the Waste Proper communications used Sat/Unsat Collector Tank has been established using (GAP-OPS-01)

Containment Spray Loop 111 Role Plav: Acknowledge report Terminating Cue: Torus water level is being 1owe:red via Containment Spray Loop 111.

RECORD STOP TIME NRC 2008 JPM S-2 October 2008

Initial Conditions:

1. Torus water level is 11.3 feet and rising slowly.
2. N l -EOP-4 has been entered.
3. Containment Spray pumps are in Pull to Lock.

Initiating Cues:

(Operators name), lower torus level by discharging water to the Waste Collector Tank using Containment Spray Loop 111 in accordance with N1 -EOP- 1, Attachment 15.

NRC 2008 JPM S-2 October 2008

ATTACHMENT 15 Torus Water to Waste Collector Page 1 of 3 1.0 PURPOSE Provide instructionsto control Torus water level through the Cont Spray System.

2.0 TOOLS AND MATERIALS None 3.0 PROCEDURE NOTE: Any one of the four Containmerlt Spray Pumps and its associated Raw Water Pump may be used. Identification of the applicable valves and pumps for each loop is provided.

3.1 Notify Radwaste of intent to pump down Torus to Waste Collector Tank .................(-1

!SAUTIONS

1. Incorrect valve lineup could result in spraying the Drywell.
2. Operation of Loop Bypass to Tcrus valve may affect ability to maintain a water seal.

3.2 Close CONT SPRAY BYPASS BVs for selected loop:

Loop -

Valve 0

111 80-45 CONT SPRAY BYPASS BV 122.......................................... (-1 0

112 80-40 CONT SPRAY BYPASS BV 111.......................................... (-1 80-45 CONT SPRAY BYPASS BV 122 .......................................... (---I 0 121 80-40 CONT SPRAY BYPASS BV 111 .......................................... (-1 80-45 CONT SPRAY BYPASS BV 122 .......................................... (-1 0 122 80-40 CONT SPRAY BYPASS BV 111 .......................................... (-1 3.3 Open 80-118, CONT SPRAY TEST TO TORUS FCV.............................................. (-1 Page 56 N1-EOP-1 Rev 00700

ATTACHMENT 15 Torus Waler to Waste Collector Page 2 of 3 3.4 Verify closed Cont Spray Discharge IV using Keylock Switch for selected loop:

Loop -

Valve 0 111 80-16, CONT SPRAY CIISCHARGE IV I 11.................................... (-1 0 112 80-36, CONT SPRAY DISCHARGE IV 112.................................... (-1 0 121 80-15, CONT SPRAY [)ISCHARGE IV 121.................................... (-1 0 122 80-35, CONT SPRAY DISCHARGE IV 122.................................... (-1 3.5 Verify open CONT SPRAY BYPASS BV for selected loop:

loop -

BV 0

111 80-40, CONT SPRAY EiYPASS BV 111......................................... (-)

0 112 80-44, CONT SPRAY I3YPASS BV 112 ......................................... (-1 0

121 80-41, CONT SPRAY @YPASSBV 121 ......................................... (-1 a 122 80-45, CONT SPRAY BYPASS BV 122 ......................................... (-1 3.6 Start CONTAINMENT SPRAY RAW WATER PUMP in selected loop ..................... (A 3.7 Start CONTAINMENT SPRAY PUMP in selected loop............................................. (-1 3.8 Open 80-115, CONT SPRAY TO RAD WASTE IV 12.............................................. (-1 3.9 Open 80-114, CONT SPRAY TO RAD WASTE IV 11.............................................. (-1 3.10 Throttle 80-118, CONT SPRAY TEST TO TORUS FCV as required to control flow to Waste Collector Tank ........................................................................ (-1 3.11 Monitor 58-05A and 58-06A, TORUS HzO LEVEL indicators, for level response ..... (-)

Page 57 N1-EOP-1 Rev 00700

ATTACHMENT 15 Torus Waler to Waste Collector Page 3 of 3 3.12 WHEN the torus reaches the desired level, open 80-118 to reduce flow to Waste Collector Tank ........................................................................................... (-)

3.13 Close 80-115, CONT SPRAY TO RAD WASTE IV 12.............................................. (-1 3.14 Close 80-114, CONT SPRAY TO RAD WASTE IV 11.............................................. (-1 3.15 Stop CONTAINMENT SPRAY PUMP....................................................................... (-)

3.16 Stop CONTAINMENT SPRAY RAW WATER PUMP ............................................... (-1 4.0 RESTORATION INlTlALSlDATE NOTE: This section is not performed urltil specifically directed by the SM.

4.1 WHEN Torus Water level no longer is requiredto be lowered, return system to normal standby lineup per N1-OP-14, Section G, Draining Containment Spray Raw Water Heat Exchanger Tube and Shell side for the selected Containment Spray Loop selected.

0 Loop 111 ........................................................................................ (-1 0 Loop 112 ........................................................................................ (-1 0 Loop 121 ........................................................................................ (-1 0 Loop 122 ........................................................................................ (-) I 4.2 SM verify that restoration is complete. Fiecord comments in Remarks below:

Remarks:

I I SM (Signature) Date Time Page 58 N1-EOP-1 Rev 00700

NRC JPM S-3 Constellation Energy Group NINE MIILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Transfer Load from #11 and #12 Feedwater Pumps to #13 Revision: NRC 2008 Feedwater Pump, #13 Feedwater FCV fails closed (Alternate Path)

Task Number: N1-259001-01010 N/A - Exam Security /

Gederal Supervidr Date General Supervisor Date Operations Training (Designee) Operations (Designee)

NIA - Exam Security I Configuration Control Date Performer: (ROISRO)

TrainerEvahator :

Evaluation Method: X Perform - Simulate Evaluation Location: Plant - X Simulator Expected Completion Time: 20 Minutes Time Critical Task: No Alternate Path Task: Yes Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fai 1 NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires; a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM S-3 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize Simulator to IC 182
2. Verify Feedwater flow is - 3 . 0 ~ 1 0lb&

~

3. Verify #11 Feedwater Pump is running with its FCV in AUTO
4. Verify #12 Feedwater Pump is running with its FCV in MANUAL
5. Verify #13 Feedwater Pump is running unloaded with its FCV in MANUAL
6. Verify malfunction FW24 is on TRG1, initial severity = 65.5, final severity = 68, ramp time = 10 seconds
7. Verify TRGl is set to actuate with the following event (13 FCV M/A station not in manual and FW Master controller in manual) 0 zdfwmst4==l&&zdfwmacm!=l Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / (:SO general permission to open equipment cabinets and inspection covers. If opening the equipment ca'inet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plznt equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods clf verification are expected to be used. Therefore, either another individual or I will act as the independenupeer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas Pass/Fail. During Evaluated JPM:

Self verification shall be demonstrated.

2. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

NRC 2008 JPM S-3 October 2008

References:

1. NUREG 1123,259001, A2.07, RO 3.7, SRO 3.8
2. N1-OP-16 Tools and Equipment:
1. None Task Standard: #11 or #12 Feedwater pumps maintaining RPV water level in manual.

Initial Conditions:

1. Plant startup is in progress
2. Feedwater flow is 3 . 0 ~ 1 lbm/hr 0~
3. #11 Feedwater pump is operating with its FCV in AUTO
4. #12 Feedwater pump is operating with its FCV in MANUAL
5. #13 Feedwater pump has just been started
6. MCPR has been verified SAT
7. All recirc loops are operating
8. Instructor to ask operator for any questions Initiating Cues:

(Operators name), transfer Feedwater flow to #13 Feedwater pump and place #13 Feedwater FCV in automatic, then shutdown #11 and #12 Feedwater pumps, in accordance with N1-OP-16, section E.10.

Performance Steps Standard Grade -

1. Provide repeat back of initiating cue Proper communications used for repeat back SatLJnsat Evaluator Acknowledge repeat back (GAP-OPS-0 1) providing correction fi necessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-OP-16 obtained SaWnsat and reviewhtilize the correct section of the Precautions & limitations reviewed procedure Section E. 10 referenced
3. Verify MCPR > minimum MCPR in the Verifies MCPR is SAT per initial conditions SaWnsat CRC book Note: Given in the initial conditions
4. Transfer load from the Feedwater pump Rotate knob CW to increase flow on FWP 13 Pass/Fail with its FCV in Manual (1 1 or 12) to the FCV and rotate knob CCW to lower flow on Shaft Pump by slowly opening 13 FCV FWP 12 FCV, and then verify FWP 12 FCV AND slowly closing the FCV in Manual output is zero by observing controller until the manual FWP FCV output is zero indication NRC 2008 JPM S-3 October 2008
5. Transfer load from the Feedwater pump Rotate h o b CW to increase flow on FWP 13 Pass/Fail with its FCV in AUTO (1 1 or 12) to the FCV and then observe approximately zero Shaft Pump by slowly opening 13 FCV flow on FWP 11 until the AUTO Feedwater Pump FCV output is approximately zero
6. Verify Manual output knob on M/A station Verifies Manual output knob on M/A station SaWnsat of FCV in AUTO (1 1 or 12) fully of FWP 11 FCV is rotated fully CCW counterclockwise
7. Place VALVE CONTROL M/A station in Places VALVE CONTROL M/A station in Pass/Fail AUTO (1 1 or 12) to MAN AUTO (1 1) to MAN by rotating mode switch CW
8. Control Vessel level using FWP 13 FCV Adjusts Manual output knob on M/A station SaWnsat in Manual of FWP 13 FCV as necessary to control Vessel level
9. Place FWP 13 Valve Control M/A station in AUTOBAL by performing the following:

0 Verify Feedwater Master Controller Mode switch on Feedwater Master Controller Pass/Fail M/A station in Manual aligned to MANUAL 0 Null FWP 13 Valve Control by Rotates knob on Feedwater Master Controller SaWnsat adjusting knob on Feedwater Master CW or CCW and observes deviation meter on Controller until deviation meter reads FWP 13 Valve Controller at 50% (red dot) 50% (red dot) on F W 13 Valve Control GEMAC 0 Place FWP 13 Valve Control mode Rotates mode switch on Feedwater Master Pass/Fail switch to AUTO or BAL Controller CCW to AUTO or BAL Note: Verify TRGl goes active when the following two conditions are met:

13 FW FCV M/A station is NOT in manual 0 FW Master controller is in manual TRGl activates malfunction FW24, causing FWP 13 FCV to fail in the closed direction to 32% open over 10 seconds Note: The applicant should observe faulty response of FCV and must refer to N1-SOP-16.1, Feedwater System Failures, to control FUV' level. JPM steps 10-12 will only be performed until the applicant recognizes the slow failure of 13 FW FCV.

NRC 2008 JPM S-3 October 2008

Performance Steps Standard Grade

10. Null setpoint error on Feedwater Master Rotates thumbwheel on Feedwater Master Sat/Unsat/

Controller by adjusting Controller up or down and observes orange NA Thumbwheel/Setpoint tape to align needle under green band on setpoint deviation Manual Setpoint (orange arrow) directly meter under Automatic Setpoint (green band)

11. Place Feedwater Master Controller M/A Rotates Feedwater Master Controller mode Sat/Unsat/

station in AUTO or BAL switch CCW to AUTO or BAL NA

12. Confirm 13 FCV response to FW Master Recognizes faulty response of 13 FCV Sat/Unsat/

control adjustment by observing NA position indicator POI 29-134

13. Per N1-SOP- 16.1, using available FCVs, Injects to the RPV with 11 and/or 12 Passmail take manual control of FWLC at M/A Feedpump by rotating respective M/A station stations placing controllers in Manual, and knob CW, and observes RPV level response attempt to control RPV level
14. Restore RPV level 65 - 83 Restores and maintains RPV level 65 - 83 Passmail
15. Inform CRS that FWP 11 and/or 12 is Proper communications used SaWnsat in service in manual maintaining vessel level 65 to 83 Terminating Cue: #11 or #12 Feedwater pumps maintaining RPV water level in manual RECORD STOP TIME NRC 2008 JPM S-3 October 2008

Initial Conditions:

1. Plant startup is in progress
2. Feedwater flow is - 3 . 0 ~ 1 0lbm/hr

~

3. #11 Feedwater pump is operating with its FCV in AUTO
4. #12 Feedwater pump is operating with its FCV in MANUAL
5. # 13 Feedwater pump has just been stilrted
6. MCPR has been verified SAT
7. All recirc loops are operating Initiating Cues:

(Operators name), transfer Feedwater flow to #13 Feedwater pump and place #13 Feedwater FCV in automatic, then shutdown # 11 and # 12 Feedwater pumps, in accordance with N1 -0P- 16, section El. 10.

NRC 2008 JPM S-3 October 2008

E. STARTUP (Cont) Initials 10.0 Transfer Load from Motor-Driven Pumps to Shaft Pump NOTE: The Minimum Flow Vatves operate1 as follows:

0 29-51 (29-52), 6 Inch Flow Control Valve FWP 11(12), opens on low pump flow at approx. 0.9 x 106 Ibm/hr AND is fully opened at approx. 0.376 x 106 Ibmlhr'.

0 29-25, Minimum Flow Valve FWP 13, closes on rising FWP 13 flow AND is fully closed at .77 x 106 lbmlhr.

- -ON CAUTl Failure to maintain MCPR > minimum MCF'R logged in the CRC book will result in the plant being in an unanalyzed condition.

10.1 Verify MCPR > minimum MCPR lolgged in the CRC book.

NOTE: Reactor Vessel Water Level must be monitored closely while performing the following:

CAUTION While manually transferring load from the feedwater pump in manual (I Ior 12) to the Shaft Pump, load on the feedwater purntp in AUTO should be maintained less than 1.6 x 106 lbmlhr.

10.2 Transfer load from the feedwater pump with its FCV in Manual (11 or 12) to the Shaft Pump by slowly opening 13 FCV AND slowly closing the FCV in Manual until the manual FWP FCV output is zero 10.3 Transfer load from the feedwater pl.rmp with its FCV in AUTO (11 or 12) to the Shaft Pump by slowly opening 13 FCV until the AUTO Feedwater Pump FCV output is approximately zero 10.4 Verify Manual output knob on MIA station of FCV in AUTO (1 1 or 12) fully counterclockwise Page 59 N1-OP-I 6 Rev 34

E. STARTUP (Cont) -

Initials 10.5 Place VALVE CONTROL M/A station in AUTO (11 or 12) to MAN 10.6 Control Vessel level using FWP 13 FCV in Manual NOTES: 1. The FEEDWATER MASTER CONTROL deviation meter indicates the difference between AUTO and MANUAL Signals in the BAL4NCE mode AND the difference between the AUTO setpoint level and actual level in the MANUAL mode.

2. The MANUAL signal is nulled to the automatic setpoint in BALANCE when required.
3. The AUTO setpoint is nulled to the actual level in MANUAL when required.
4. FW Control Systeri is tuned for only one FCV in AUTO at any one time, operation with more than one FCV in AUTO may cause unstable system performance.

10.7 Place FWP 13 VALVE CONTROL MIA station in AUTOIBAL by performing the following:

10.7.1 Verify FEEDWATER MASTER CONTROLLER MIA station in MAN 10.7.2 Null FWP 13 VALVE CON'-ROL by adjusting manual knob on FEEDWATER MASTER CONTROLLER UNTIL deviation meter reads 50% (red dot) on FWP 13 VALVE CONTROL GEMAC.

10.7.3 Place FWP 13 VALVE CONTROL MIA station mode switch to AUTO or BAL 10.8 Null setpoint error on FEEDWATER MASTER CONTROL by adjusting ThumbwheelISetpoint tape to align manual setpoint (orange arrow) directly under automatic setpoint (green band).

10.9 Place FEEDWATER MASTER CONTROL MIA station in AUTO or BAL 10.10 Confirm FW MASTER CONTROL response by adjusting thumbwheel to maintain vessel level.

10.11 Confirm # I 3 FCV response to FW Master control adjustment by observing position indicator POI 29-134 Page 60 N1-OP-16 Rev 34

E. STARTUP (Cont) -Initials 10.12 Shut down one motor-driven Feedwater Pump 0 Confirm aux oil pump running by observing red light lit e Confirm pump shaft is u:rotating backwards 10.13 Shut down the remaining motor-driven Feedwater Pump 0 Confirm aux oil pump running by observing red light lit 0 Confirm pump shaft rotating backwards 10.14 Raise AND maintain FWP 13 flow above 3.5 x 106 Ibmlhr load 10.15 IF Seal Water Booster Pump is to remain running THEN, Perform Section F. Adjustinlg FWP Seal Booster Pump Pressure and Flow, to ensure proper FWP seal flows and pressures NIA, Seal Water Booster Pump to be removed from service (-1 10.16 IF it is desired to remove the Seal Water Booster Pump from service THEN, perform Secton G, Shutdown Feedwater Seal Booster Pump NIA, Seal Water Booster Pump to remain in-service (-)

Page 61 N1-0P-16 Rev 34

N1-SOP-l6.1 FEEDWIATER SYSTEM FAILURES E: Entry into this SOP may require classificationof the Per EP1P-EPP61.

( EVE.NT DESCRIPTION F2-3-3, REACT VESSEL LEVEL HIGH-LOW

  • Feedwater Feedwater Level Control Malfunction Loss of FWPump HealinTrip Immediate Actions Shadowed r

THEN 3 RPV level is lowering, Reduut Reactor Dower oer N1-SOP-1.1 as necessarvto maintain lev&

A Reactor Scram occurs, Exit thij urocedureAND enter N1-SOP-I.

A Turbine trip occurs, Exit thi; uroceduie AND enter N1-SOP-31.1, 13 FWP trips AND level can NOT be maintained, SCRpll the Reactor,exit this DrocedureAND enter N1-SOP-I.

FW Heating FCV lockup?

FW Pumps LAssess magnitude and rate of heatingloss by IF possible, time permits, observing the following:

reset FCVs per Attachment 1. Number of heaters t Heater location in string Duration of loss Feedwater temperature (CPs A390, A392, A393, A394, A395) versus Minimum FW I TempTable.

No P

11 Using availableFCVs, take manual control of If necessary, take manual control of feedwater heaters per N1-OP-16, Section H, Feedwater Heater Level t

FWLC at M/A stations (Ni-OP-16, Section F) Control - AutomatidManual Transfer placingcontrollers in Manual, AND attempt to System Operation, restore.

control RPV level.

L maintain the following:

THEN Reactor power 5 1850 MWth

1. Dispatch operator to Feedwater temperature (CPs A390, A392) take manual control of FCV per:

I control from above minimumtemperature at M/A station is Attach.Z-FWPIl(12) unsuccessful, -

Attach. 3 FWP 13 c

2. Establish communications with operator at FCV.
3. Provide direction for continue with normal controlledshutdown manual throttling of FCV. seauence to restore FW temoerature above the minimum temperature at B until power is 25% of rated.

IF THEN THEN A feedlsteam flow B narrow Shift Reactor PressureAtwl Columns or range levelinstrument is Feedwater Modes per N1-OP-16, Section F AND malfunctioning, return FWLC to auto.

FCV was placed in manual When desired, return FCV to automatic per:

control, -

Attachment 2 FWP ll(12)

Attachment 3 - FWP 13 Transient was caused by FW 1. Place the TRIPPED motor driven FW PUMP pump trip, control switch to STOP.

2. Confirm Aux Oil Pump is running by observing red light.
3. Confirm pump shaft is NOT rotating backwards. I NINE MILE POINT NUCLEAR STATION UNIT 1 SPECIAL OPERATING PROCEDURE PROCEDURE INUMBER N1-SOP-16.1 I K E R 02 IREVISION NUMBER 0

N I X JPM S-4 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Startup Control Room Ventilation System Revision: NRC 2008 Task Number: N1-288003-Ol OOl N/A - Exam Security /

General upe Date General Supervisor Date Operations Training (Designee) Operations (Designee)

N/A -. Exam Security I Configuration Control Date Performer: (ROISRO)

TrainerIEvaluator:

Evaluation Method: X Perform - Simulate Evaluation Location: Plant - X Simulator Expected Completion Time: 15 Minutes Time Critical Task: No Alternate Path Task No Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fai 1 NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: -~ Date:

NRC 2008 JPM S-4 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize Simulator to IC 184
2. Verify control room ventilation is secured in accordance with N1-OP-49, section G
3. Verify Cooling Coil Block Valve selected N t 3 12
4. Verify EVS Fan 11 in AUTO Directions to the InstructorEvaluator:

Prior to performance of this JPM, obtain SM / (:SO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independent/peer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas PasdFail. During Evaluated JPM:

0 Self verification shall be demonstrated.

2. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

References:

1. NUREG 1123,290003, A4.01 (RO 3.2, SRO 3.2)
2. N1-OP-49 NRC 2008 JPM S-4 October 2008

Tools and Equipment:

1. None Task Standard: Startup the Control Room Ventilation System per N1-OP-49.

Initial Conditions:

1. The control room ventilation system is being restarted following maintenance
2. N 1-0P-49, Attachment 1 valve lineup is complete
3. N 1-0P-49, Attachment 2 electrical lineup is complete
4. Instructor to ask operator for any questions Initiating Cues:

(Operators name), startup the Control Room Ventilation System in accordance with N1-OP-49, with the following lineup:

0 Emergency Fan 12 in AUTO 0 Cooling Coil 11 in service 0 Chilled Water Circulating Pump 11 in service 0 Control Room Circulating Fan 11 in service Performance Steps Standard Grade

1. Provide repeat back of initiating cue Proper communications used for repeat back Sat/Unsat Evaluator Acknowledge repeat back (GAP-OPS-01) providing correction if necessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-OP-49 obtained Sat/Unsat and reviewhtilize the correct section of the Precautions & limitations reviewed procedure Section E referenced Note: Step E. 1.O is NOT required since the valve and electrical lineups are complete per the initial conditions
3. Verify the following are open:

210-08, INLET BV 12 Observes 210-08 red light on, green light off Satnrnsat 0 210-39, INLET BV 11 Observes 2 10-39 red light on, green light off Sat/Unsat

4. Verify the following are closed:

0 2 10-40, 1 1 CR Emergency Fan Inlet Observes 2 10-40 green light on, red light off Satnrnsat BV NRC 2008 JPM S-4 October 2008

Performance Steps Standard Grade 2 1 0 41, 12 CR Emergency Fan Inlet Observes 2 10-41 green light on, red light off SatLJnsat BV

5. Place EMER FAN 12 control switch in Places Control Room Emergency Fan 12 Passmail AUTO control switch in AUTO
6. Place EMER FAN 11 control switch in Places Control Room Emergency Fan 11 Pass/Fail OFF control switch in OFF
7. Place COOLING COIL 11 BLOCK Places Cooling Coil 11 in service by rotating Sat/Unsat VALVE selector switch in position 11 selector switch CCW
8. Depress START pushbutton for CHILLED Depressed START pushbutton for Chilled PassMail WATER CIRCULATING PUMP 11 and Water Circulating Pump 11, and then confirm red indicator light lit observes red light lit
9. Start 111 CHILLER COMPRESSOR 112 or 121 CHILLER COMPRESSOR 122:
a. Place 111 CHILLER COMPRESSOR 112 control Rotates 111 CHILLER COMPRESSOR 1 12 Passmail switch in RUN control switch CW to RUN
b. Place 121 CHILLER COMPRESSOR 122 control Rotates 121 CHILLER COMPRESSOR 122 Passmail switch in RUN control switch CW to RUN
c. Depress CHILLER 11 START pushbutton Depresses CHILLER 11 pushbutton, and then Pass/Fail observes red light lit
d. Depress CHILLER 12 START pushbutton Depresses CHILLER 12 pushbutton, and then Pass/Fail observes red light lit
e. Confirm at least one lead chiller compressor red light lit. Observes red lights lit for 111 CHILLER Sat/Unsat COMPRESSOR 112 and 121 CHILLER Note: The red lights for the Chiller COMPRESSOR 122 Compressors do not energize for approximately 2-3 minutes while the compressor timer cycles Cue: Time compression is in effect, 111 and 121 Chiller Compressor red lights are lit 10 Start CR Circulating Fan by performing the following:
a. If Control Room Emergency Circulating Fan 11 control switch rotated CW Pass/Fail NRC 2008 JPM S-4 October 2008

Performance Steps Standard Grade Fan 12 was placed in AUTO, to RUN then place Circulating Fan 11 in RUN

11. Inform CRS that the Control Room Proper communications used SatAJnsat Ventilation System is operating (GAP-OPS-01)

Role Play: Acknowledge report Terminating Cue: Control Room Ventilation system is operating with the following lineup:

0 Emergency Fan 12 in AUTO 0 Cooling Coil 11 in service 0 Chilled Water Circulating Pump 11 in service 0 Control Room Circulating Fan 11 in service RECORD STOP TIME NRC 2008 JPM S-4 October 2008

Initial Conditions:

1. The control room ventilation system is being restarted following maintenance
2. N1-OP-49, Attachment 1 valve lineup is complete
3. Nl-OP-49, Attachment 2 electrical lineup is complete Initiating Cues:

(Operators name), startup the Ccmtrol Room Ventizition System in accorc .ance with N1-OP-49, with the following lineup:

Emergency Fan 12 in AUTO Cooling Coil 11 in sc:rvice Chilled Water Circulating Pump 11 in service Control Room Circulating Fan 11 in service NRC 2008 JPM S-4 October 2008

E. STARTUP Initials 1.o Perform the following at the direction of the SM: I

1. I Valve Lineup completed per Attachment 1 1.2 Electrical Lineup performed per Attachment 2 2.0 IF EMER. VENT SYS. CHANNEL 11 or 12 alarm lights are lit, THEN depress RESET 3.0 Verify open the following:

0 210-08, INLET BV 12 0 210-39, INLET BV 11 4.0 Verify closed the following:

0 210-40,ll CR Emergency Fan Inlet BV (DAMPER) 0 210-41,12 CR Emergency Fan Inlet BV (DAMPER) 5.0 Place EMER FAN 11 (12), control switch in AUTO 6.0 Place EMER FAN 12 (1I), control switch in OFF 7.0 Place COOLING COIL 11(12) BLOCK VALVE selector switch in position 11 (12) 8.0 Depress START pushbutton for CHILLED WATER CIRCULATING PUMP 11 (12)

AND confirm red indicator light lit 9.0 Starting 111 CHILLER COMPRESSOR 'I 12 or 121 CHILLER COMPRESSOR 122:

9.1 Place 111 CHILLER COMPRESSOR 112 Control Switch in RUN 9.2 Place 121 CHILLER COMPRESSOR 122 Control Switch in RUN 9.3 Depress CHILLER 11 START pushbutton 9.4 Depress CHILLER 12 START pushbutton 9.5 Confirm at least one lead chiller compressor red indicator light lit 10.0 Starting CR Circulating Fan by performingone of the following:

10.1 IF Control Room EMER FAN 11 was placed in AUTO, THEN place CONTROL ROOM CIRCULATING FAN 12 in RUN 10.2 IF Control Room EMER FAN 12 was placed in AUTO, THEN place CONTROL ROOM CIRCULATING FAN 11 in RUN Page 6 N1-OP-49 Rev 17

NRC JPM S-5 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

EDG 103 S D - PB 103 Return to Normal P'Dwer Revision: NRC 2008 (Alternate Path)

Task Number: N1-26200 1-01005

/

6 NIA - Exam Security I General Supervisor Date Operations Training (Designee) Operations (Designee)

NIA - Exam Security /

Configuration Control Date Performer: (RO/SRO)

TrainedEvaluator:

Evaluation Method: X Perform - Simulate Evaluation Location: Plant X Simulator Expected Completion Time: 20 Minutes Time Critical Task: No Alternate Path Task: Yes Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fail NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM S-5 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize Simulator to IC 185
2. Verify PB 103 is supplied by EDG 103 per N1-OP-45 section E.3
3. Verify CRD Pump 11 in service
4. Verify the Annunciator L1-4-5 is overridden to Fail Off, to simulate alternate SFP pump in service
5. Verify malfunction RD35B is inserted as TRUE, to simulate prevent start of 12 CRD pump
6. Verify override 5DS267L02348 is inserted as OFF, to simulate prevent start of 12 CRD pump
7. Verify malfunction DGO5B is inserted as TRUE7for failure of EDG 103 to stop Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / (:SO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and ;tcknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independe:nt/peerverifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas PadFail. During Evaluated JPM:

0 Self verification shall be demonstrated.

2. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

NRC 2008 JPM S-5 October 2008

References:

1. NUREG 1123,264000, A4.05, RO 3.6, SRO 3.7
2. N1-OP-45 Tools and Equipment:
1. None Task Standard: Shutdown EDG 103 and reenergize,PB 103.

h iti a1 Conditions:

1. EDG 103 is supplying PB 103 due to maintenance on breaker R1013
2. EDG 103 has been at minimum load for the past hour, and at 700 KW for the previous 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />
3. 1 15 KV power is stable
4. N1-OP-45 section G.2 is complete through step 2.6
5. Instructor to ask operator for any questions Initiating Cues:

(Operators name), shutdown EDG 103 and return PB 103 to normal power in accordance with N1-OP-45, beginning at step G.2.7.

Perfonnance Steps Standard Grade ~

1. Provide repeat back of initiating cue Proper communications used for repeat back SaWnsat Evaluator Acknowledge repeat back (GAP-OPS-01) providing correction ifnecessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-OP-45 obtained SaWnsat and reviewhtilize the correct section of the Precautions & limitations reviewed procedure Section G.2 referenced
3. Verify GREEN flagged R10 13, PB 103 Rotates R1013 control switch CW from PTL PassEail Normal Power Supply Breaker to neutral
4. Place and HOLD in TRIP position R1032, Rotates R1032 control switch CCW and holds PassEail Diesel Generator 103 Output Breaker in trip position
5. When 3 to 5 seconds has elapsed, close Rotates R1013 control switch CW, observes Passmail R1013 red light on, green light off
6. Confirm normal voltage on PB 103 and PB Observes -4160 VAC on PB 103 voltmeter, Sat/Unsat 17B and observes -600 VAC on PB 17B voltmeter NRC 2008 JPM S-5 October 2008

Performance Steps Standard Grade

7. Return R1032 to Neutral Position Releases R1032 to the neutral position Passmail
8. Reset Lockout 86-17 device Rotates 86-17 control switch CW to reset PassLFaiV position NA Note: Lockout device may not need to be reset if R1013 is closed closer to 3 seconds than 5 seconds (Step 5 above)
9. Install Close fuse for CRD pump 12 Proper communications used Satnrnsat (GAP-OPS-01)

Cue: Field operators will install fuse

-Note: Delete malfunction RD35B &

override 5DS267L02348, then report close fuse for CRD pump 12 has been installed and verified

10. Verify Green light ON for CRD pump 12 Observes CRD pump 12 green light on Satnrns at Note: The green light will not be lit until the instructor note in step 9 above is completed
11. Verify EDG Raw Water Cooling Pump Proper communications used Satnrnsat started. (GAP-OPS-01)

Cue: EDG 103 Raw Water Cooling Pump has started

12. Restore normal loads on PB 17B Proper communications used Satnrnsat (GAP-OPS-01)

Cue: Another operator will restore PB 17B 7

loads

13. IF EDG has run idle for 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> OR Determines step is N/A based on initial Sat/Unsat operated less than 500 KW for 41/2 hours, conditions THEN shutdown EDG per Section G, Recovery after Light Load Operation Note: This step is N/A based on initial conditions
14. Verify Speed Droop set to zero Proper communications used Satnrnsat (GAP-OPS-01)

-Cue: EDG 103 Speed Droop set to zero NRC 2008 JPM S-5 October 2008

Performance Steps Standard Grade

15. Adjust Governor to achieve greater than or equal to 60.1 Hz synchronous speed AND the Governor high speed light lit as follows.
a. Adjust speed until governor yellow Raises EDG 103 speed as necessary by SaWnsat high speed light is lit rotating governor control switch CCW, observes yellow high speed light lit
b. Adjust speed to achieve greater than Raises EDG 103 speed as necessary by Sat/Unsat or equal to 60.1 Hz with a maximum rotating governor control switch CCW, and of 60.2 Hz. observes EDG 103 frequency of 60.1-60.2 Hz Note: This step may be N/A based on EDG speed
16. Independently verify speed greater than or Proper communications used Sat/Unsat equal to 60.1 HZ (max 60.2 Hz) (GAP-0PS-0 1)

Cue: Speed is as you adjusted it.

17. Adjust voltage to 4200 V using VOLT Raises EDG 103 voltage as necessary by Sat/Unsat A D J RHEO GEN 103 rotating voltage regulator control switch CCW, and observes voltage -4200V
18. Place DIESEL GEN 103 control switch in Rotates EDG 103 control switch CCW to Pass/Fail STOP STOP position, observes EDG 103 output voltage lower
19. When approximately 3 minute cooldown Recognizes that EDG did not stop as it should Sat/Unsat has elapsed, verify EDG 103 stopped have Cue: Time compression is in effect, 4 minutes have elapsed Note: The applicant should recognize that the EDG should have stopped
20. If the EDG did not shutdown, refer to Refers to N1-OP-45 section G.7.0, Emergency SaWnsat Section G.7.0, Emergency Shutdown Shutdown
21. If offsite power is not available, THEN Determines offsite power is available per Satmnsat verify R10 12 OR 1013 in Pull-To-Lock initial conditions Note: This step is N/A, Offsite power is available per the initial conditions NRC 2008 JPM S-5 October 2008

Performance Steps Standard Grade

22. If a loss of 125 VDC power is lost due to Determines 125 VDC power is available SaWnsat loss of battery board 1 1 or 12, then restore based on various control room indications power per SOP-47.A1 Note: This step is N/A, 125 VDC is available
23. Place DIESEL GEN control switch to EM Rotates EDG 103 control switch CCW to EM Pass/Fail STOP STOP position, observes EDG 103 frequency lower Terminating Cue: EDG 103 stopped and PB 103 energized RECORD STOP TIME NRC 2008 JPM S-5 October 2008

Initial Conditions:

1. EDG 103 is supplying PB 103 due to maintenance on breaker R10 13
2. EDG 103 has been at minimum lo,ad for the past hour, and at 700 KW for the previous 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />
3. 115 KV power is stable
4. N1-OP-45 section G.2 is complete through step 2.6 Initiating Cues:

(Operators name), shutdown EDG 1 03 and return PB 103 to normal power in accordance with N1-OP-45, beginning at step G.2.7.

NRC 2008 JPM S-5 October 2008

G. S H U T ~ ~ W N(Cont) 2.0 -

EDG 103 SID PB 103 Return to Normal Power (C2) Restoration of multiple trains simultaneously can increase station vulnerability. Restarationshould be prioriiitedsuch that trains are restored one at B time.

(C2) 2.3 Confirm 115KV System available,stable AND reliable....................................................

L t 2.2 Obtain SSS permissionto shutdown EDE 103 ...............................................................

{-I NOES: 1. Attachment 4 contains a listing of major PB toads and KW ratings to be us& as a guide.

2, Deenergizing PB 103 requires entry into the f o l l ~ i T.S.

n ~ LCOs:

e -

3.1.S,b (ADS) 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> 0 -

3.1.4.c (CoreSpray) 7 day 3.3.4.b (PCIV's) 4 hour4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> e

3.1.6. b ( i X D Pumps) - 7 day

  • 3.2.7.c(I3x Coolant IVs) - 1110 hour0.0128 days <br />0.308 hours <br />0.00184 weeks <br />4.22355e-4 months <br /> e 3.3.7.c (Gont. Spray) - 7 day e 3.4.4.e(IWEVS) - 7 day
  • 3.1.2.b (Liquid Poison) - 7 day 8 3.6.3.h (Battery Charger) - 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> e 3.4.5.e(CREVSdueto ESWpurnplost) -7day a 3.6,3,c ('102 Diesel Gen) - 14 day 3.1,8.b (I-IPCITrain 11) 15 day The above listed 1.CO times assume that PB 102 loads are qx?rabk%.
3. Reenergizing P6 '103will auto start CRD Pump 12.

2.3 Shift required loads from PB 178 to an alternate power supply ......................................L"J Page 26 M I -0P-45 Rev 26

G. SHUTDOWN (Cont)

NOTE: 12 SFP Cooling Pump receives a trip signal when Lockout Relay 86-17 actuates.

2.4 Verify 11 SFP Gooling Pump in service.. ......................................................................... I-)

NOTE: Controi Rod Drive Pump Coolant Injection V.S. 3.1 -61applies when close fuses are removed from pump breaker.

2.5 IF CRO Pump 12 is in standby, THEM remove CLOSE fuse from pump ~ r e a.....~......{-~ ~~r NIA, CRD Pump 12 in service ........................................................................................ I-)

2.6 Confirm minimum load on EDG 103................................................................................ d-1 1, The following step will remove power from the Raw Water Cooling pump, and cooling water flow to the Diesel will be momentarily interrupted (PB 1718).

2, Operating a Diesel Generator in parallel with Oftsite power while unstable grid conditions are occuning can result in the loss of the Diesel Generator and the Bus during a grid transient.

i t n * * * * ~ t t

  • t i n w n *
  • n ~ n * * ~ * * * ~ * ~
  • w ~ ~ n n ~ ~ ~ * . * ~ ~
  • a * * ~ n a 4 * ~ & ~

2.7 V e r i green flagged R1013, PB 103 Normal Power Supply Breaker .............................. L) 2.8 Place AND hdd in TRIP position 131032, Diesel Generator 103 Output Breaker ............ (-)

2.9 WHEN 3 t O 5 seconds has elapsed, close R1013 ........................................................ ...(-)

2.10 Confirm normal voltage on P8 10;3and PB 178.............................................................. (-)

2.11 Return R1032 to Neutra~P ~...................................................................................

~ i ~ ~ I-)

2,12 Reset LOCKOUT 86-17 device ......................................................................................(-)

2.13 Install CLOSE fuse for CRD Pump 12 ............................................................................. {-)

2.14 Independent verify CLOSE fuse iristalledfor CRD Pump 12~..s...s ...................................L-1 2.15 Verify Green Light ON for CRD Pump 1%........................................................................ f-1 NOTE: Control Rod Drive Pump Coolant Injection F.S.3.1.63entered above may be exited applies when close fuses art?instialled in pump breaker.

2.16 Verify Diesel Generator Raw Wa&r Cooling Pump started ............................................. (-1 2.17 Restore normal loads on PB 178 ................................................................................... L-1 2.18 IF EDG 103 has run idle for 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> operated less than 500 kw for 4% hours, THEN shutdown EDG 103 pet Section G., EDG 103 Recovery After Light Load Operation.........................................................................................................................

L)

NIA - EDG 103 has not run idle for 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> OR operated less than 500 kw for 4 If2 hours ...............................................................................................................................

(-1 F'age26a N1-0P-45 Rev 26

G. SHUTDOWN (Cont) 2.19 Verify Speed Droop set to 0 ........................................................................................... I-I NOTE: The "GovernorHigh Speed Stop" limit switch has a tight tolerance, The limit switch may not light the lamp until 60.3 Hz is achieved and could extinguish at 59.8 Hz. When adjusting the governor to 60 Hz, the adjustment may require slightly exceeding 60 Hz and th6n lowering to greater than or equal to 60 Hz (maximum 60.2 Hz) to ensure the yc!llow Governor High Speed Stop light will stay lit. (See

~ I ~ I T A T ~AND O N PRECAUTION 19.0) 2.20 Adjust Governor to achieve greater than or equal to 60.1 Hz Synchronous speed AND the Governor yellow high speed light lit as f # l ~ ~ w s

a. Adjust speed unlil Governor yellow high speed stop light is lit .............. E-.-)

b, Adjust speed to achieve greater than or equal to50.1 Hz with- a rna~rn~m of 60.2 Hz .................................................. f-I 2.21 Independentlyverify speed to greater than or equal to 60.1 Hz (maximum 60.2)............(-1 NOTE: Voltage can not be adjusted ifou:put breaker was not closed after starting of EDE.

222 Adjust voltage to 4200 volts using VOLT ADJ RHEQ GEN 103 ...................................... (-J 2.23 Place DIESEL GEN 103 control switch in STOP ............................................................. (-1 2.24 WHEN approximately 3 minute cooldown has elapsed, verify EDG 303 stopped .................................................................................................. (-I NOTE: If 125 VDC power is lost, power i!; not available to energize the shutdown solenoid to shut-down the diesel.

2.25 IF the diesel did not shut dawn, THEN go to Section 6.78, EDG I3nsrgsncy Shutdown.

2.26 Confirm annunciator A5-2-3, DSL-GEN 103 START, clears ........................................... E---)

2.27 Vsrify the following pumps operating:

e Turbooil Pump .................................................................................................. I-)

e Circulating Oil Pump operating........................................................................... E-)

Page 26b N1-UP-45 Rev 26

G. S ~ U T ~ ~ W (ICont)

N 7.0 EDG Emerqencv Shutdown 7.11 IF off-site power is NOT available THEN verify R10i2 or RiOt3 in PULL-TO-LOCK...........................................................(-)

NIA -Offsite power is available ...............................................................................

<......,(-)

NOTE: If 125 VDC power is lost, power is not availabie to energize the shutdown solenoid to shut-down the diesel.

72 IF loss of 125 VDC power is lost clue to loss of Battery Board 11 or 12, THEN enter N1-SbP-47A,1to restore 125 VDC power.

NIA, 125 VDC power not lost...........,,................,............,....................,..,....~~)..~....... (-~

MOTE: The emergency stop bypasses ?be time delay associated with a normal stop signa!.

P 7.3 Ptace DIESEL GEN control switch to EM STOP ............................................................. I-}

7.4 IF diese&still ~nnjng, THEN perform the following locally as required.............................................................. (-)

NIA .Diesel stopped running..........................................................................................

(-)

0 Place EDG, RAW WATER PUMP control Switch to MAN 0 Depross alarm RESET AIVD FAST STOP Pushbutton (preferred)

  • Raise Fuel Rack Lever to the no fuel position Pull 82-75 (82-77) BV DG 102 (103) ~ M E ~ FUEL G EOIL~SHUTOFF ~ ~

handle ~Non- ref err^}, L nequal injector shutoff).

7.5 IF outside temperature is less than 50°F AND Oiesel Generator stopped, THEN verify rotlup doors closed ......................................................................................

(-)

NIA .Outside temperature not less than 50°F OR Diesel Generator not stoppsd ..........(-)

7.6 WHEN ERG is shutdown, verify E DG,RAW WATER PUMP control switch placed in AUT0 ....................................................................................................

(-)

Page 3f N1-OP-45 Rev 26

NRC JPM S-6 Constel1ai;ionEnergy Group NINE MILE POINT UNIT 1 OPERATOR JOB PIERFOFWANCE MEASURE

Title:

Perform RWM Diagnostic & Rod Block Tests Revision: NRC 2008 Task Number: N1-201003-01001 NIA - Exam Security I General Supervisor Date Operations (Designee)

N/A - Exam Security I -

Configuration Control Date Performer: (ROISRO)

TrainedEvaluator:

Evaluation Method: X Perform Simulate Evaluation Location: Plant X Simulator Expected Completion Time: 20 minutes Time Critical Task: No Alternate Path Task: No Start Time: Stop Time: - Completion Time:

JPM Overall Rating: Pass Fail NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 P M S-6 October 2008

Recommended Start Location: (Completion time baised on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize simulator to IC 183
2. Verify RWM Bypass Switch in OFF Directions to the InstructorlEvaluator:

Prior to performance of this JPM, obtain SM I CIS0 general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, ohtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional I concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, the use of applicable methods of verification and checking are expected.

Therefore, either another individual or I will act ;as the independent verifier or peer checker.

Notes to Instructor I Evaluator:

1. Critical steps are identified in grading areas PasdFail.
2. During Evaluated JPM:

0 Self checking shall be demonstrated.

3. During Training JPM:

0 Self checking shall be demonstrated.

Peer checking shall be demonstrated.

References:

1. Nl-ST-V3
2. KIA 201006 A4.01 thru A4.06 2.912.9 to 3.313.4 Tools and Equipment:
1. None NRC 2008 JPM S-6 October 2008

Task Standard: RWM system diagnostic test and rod block test complete Initial Conditions:

1. The plant is shutdown
2. The Rod Worth Minimizer must be retested following corrective maintenance
3. An approved work order requires completion of steps in Nl-ST-V3 for the Post Maintenance Testing
4. Instructor to ask for any questions Initiating Cues:

(Operators name), perform the following sectionshteps of N1-ST-V3 for Post Maintenance Testing of the Rod Worth Minimizer:

1 . Section 8.2 RWM Diagnostic Test - CompleteALL steps

2. Section 8.3 RWM Select Error test- Step 8.3.1 through Step 8.3.5 ONLY
3. Section 8.4 RWM Rod Block Test - Complete ALL steps Performance Steps Standard Grade -
1. Provide repeat back of initiating cue :Proper communicationsused SatAJnsat Evaluator acknowledge repeat back ([GAP-OPS-01) providing correction ifnecessary RECORD START TIME
2. Obtain a copy of the reference procedure N1 -ST-V3 is obtained SaWnsat and reviewhtilize the correct section of the :Precautions & Limitations reviewed procedure Sections 8.2, 8.3 and 8.4 referenced Note : The following Steps are for Section 8.2
3. Place RWM BYPASS Switch in ON ]Rotates RWM BYPASS Switch CW to ON Pass/Fail position position
4. Place RWM BYPASS Switch in OFF ]Rotates RWM BYPASS Switch CCW to Pass/Fail position OFFposition
5. Press CLEAR BYPASS llepresses CLEAR BYPASS pushbutton Pass/Fail
6. Press ERROR CLEAR Depresses ERROR CLEAR pushbutton Pass/Fail
7. Press RESET llepresses RESET pushbutton Pass/Fail
8. Press SYSTEM START Ilepresses SYSTEM START pushbutton Pass/Fail NRC 2008 JPM S-6 October 2008

Performance Steps Standard Grade

9. Momentarily depress SYSTEM Momentarily depresses SYSTEM Pass/Fail DIAGNOSTIC Button AND confirm the DIAGNOSTIC Button AND confirms the following lights cycle ON/OFF: following lights cycle ON/OFF:
a. INSERT BLOCK light at Rod Worth a. INSERT BLOCK light at Rod Worth Minimizer Display Panel [INSERT Minimizer Display Panel [INSERT BLOCK light ON then OFF] BLOCK light ON then OFF]
b. WITHDRAW BLOCK light at Rod b. WITHDRAW BLOCK light at Rod Worth Minimizer Display Panel Worth Minimizer Display Panel

[WITHDRAW BLOCK light ON then [WITHDRAW BLOCK light ON then OFF] OFF]

c. Annunciator F3-4-4, ROD BLOCK c. Annunciator F3-4-4, ROD BLOCK

[F3-4-4 ON then OFF] [F3-4-4 ON then OFF]

10. Place RWM BYPASS Switch in ON Rotates RWM BYPASS Switch CW to ON Passmail position position
11. WHEN RWM has sequenced, THEN 'WHEN RWM has sequenced, THEN SatAJnsat confirm following lights remain OFF: confirms following lights remain OFF:
a. INSERT BLOCK light [INSERT a. INSERT BLOCK light [INSERT BLOCK light OFF] BLOCK light OFF]
b. WITHDRAW BLOCK light b. WITHDRAW BLOCK light

[WITHDRAW BLOCK light OFF] [WITHDRAW BLOCK light OFF]

c. Annunciator F3-4-4, ROD BLOCK c. Annunciator F3-4-4, ROD BLOCK

[F3-4-4 OFF] [F3-4-4 OFF]

12. Complete Section 10.1.2, Acceptance Proper communications used SatAJnsat Criteria, for System Diagnostic Testing (GAP-OPS-01)

Cue: Another operator has completed Section 10.1.2 Note: The applicant should now proceed to Section 8.3 and perform steps 8.3.1 thru 8.3.5 ONLY

13. Place RWM BYPASS Switch in OFF Rotates RWM BYPASS Switch CCW to OFF Pass/Fail position position
14. Press CLEAR BYPASS Depresses CLEAR BYPASS pushbutton PasdFail
15. Press ERROR CLEAR Depresses ERROR CLEAR pushbutton Passmail
16. Press RESET Depresses RESET pushbutton Pass/Fail
17. Press SYSTEM START Depresses SYSTEM START pushbutton Pass/Fail NRC 2008 JPM S-6 October 2008

Performance Steps Standard Grade Note: The applicant should now proceed to Section 8.4 for the Rod Block Test

18. Select an "out of sequence" Rod at position Selects an "out of sequence" Rod at position Pass/Fail 00 as designated by Reactor Engineering 00 as designated by Reactor Engineering AND record Rod Selected AND records Rod Selected Cue: Select Rod 22-5 1
19. Confirm SELECT ERROR light ON at {ConfirmsSELECT ERROR light ON at Rod Sat/Unsat Rod Worth Minimizer Display Panel Worth Minimizer Display Panel
20. lJsing CONTROL ROD MOVEMENT Using CONTROL ROD MOVEMENT PasdFail Switch in ROD OUT NOTCH mode, Switch in ROD OUT NOTCH mode, withdraw designate Control Rod to "04" .withdrawsdesignate Control Rod to "04" position .position Cue: Inform Candidate that you are performing the role of both the reactivity SRO and the peer checker. Agree with Candidate's actions as necessary.
21. Verify Rod motion to position 04 'Verifies Rod motion to position 04 Sat/Unsat
22. TJsing CONTROL ROD MOVEMENT 'Using CONTROL ROD MOVEMENT Pass/Fail Switch in ROD OUT NOTCH mode, Switch in ROD OUT NOTCH mode, attempts attempt to withdraw designated Control 110 withdraw designated Control Rod to "06" Rod to"06" position AND confirm Rod position AND confirms Rod motion is motion is blocked beyond position "04" is 13locked beyond position "04" is blocked blocked
23. Confirm the following indications ON: Confirms the following indications ON: SaWnsat
a. WITHDRAW BLOCK light ON at a. WITHDRAW BLOCK light ON at RWM Display Panel [WITHDRAW RWM Display Panel [WITHDRAW BLOCK light ON] BLOCK light ON]
b. ROD WORTH MINIMIZER light b. ROD WORTH MINIMIZER light ON at Rod Block Monitor Display ON at Rod Block Monitor Display Panel [ROD WORTH MINIMIZER Panel [ROD WORTH MINIMIZER light ON] light ON]
c. Annunciator F3-4-4, ROD BLOCK - c. Annunciator F3-4-4, ROD BLOCK ON [F3-4-4 ON] - ON [F3-4-4 ON]
24. Re-select designated rod if deselected lletermines rod has NOT deselected Sat/Unsat Note: Step is NIA
25. Attempt to withdraw designated rod to '4ttempts to withdraw designated rod to Pass/Fail position 06 position 06 NRC 2008 JPM S-6 October 2008

Performance Steps Standard Grade

26. Confirm no rod movement Confirms no rod movement Sat/Unsat
27. Re-select designated rod if deselected Determines rod has NOT deselected Sat/Unsat Note: Step is NIA
28. Insert Control Rod to position 00 by Inserts Control Rod to position 00 by placing Pass/Fail placing CONTROL ROD MOVEMENT CONTROL ROD MOVEMENT Switch to Switch to ROD IN ROD IN
29. Confirm following lights OFF: Confirms following lights OFF: SatAJnsat
a. WITHDRAW BLOCK light OFF at a. WITHDRAW BLOCK light OFF at Rod Worth Minimizer Display Panel Rod Worth Minimizer Display
b. ROD WORTH MINIMIZER light Panel OFF at Rod block Monitor Display b. ROD WORTH MINIMIZER light Panel OFF at Rod block Monitor Display
c. Annunciator F3-4-4, ROD BLOCK - Panel OFF c. Annunciator F3-4-4, ROD BLOCK

- OFF

30. Select a Rod which is In Sequence with Selects Rod 06-27 AND confirms SELECT Pass/Fail prescribed Rod Withdrawal Sequence ERROR light OFF AND confirm SELECT ERROR light OFF Cue: Select rod 06-27
31. Complete Section 10.1.4, Acceptance Proper communications used SaWnsat Criteria, for RWM Rod Block Testing (GAP-OPS-01)

Cue: Another operator will complete section 10.1.4 Terminating Cue: RWM Diagnostic and Rod 13lock Tests complete RECORD STOP TIME NRC 2008 P M S-6 October 2008

Initial Conditions:

1. The plant is shutdown
2. The Rod Worth Minimizer must be retested following corrective maintenance
3. An approved work order requires completion of steps in N 1-ST-V3 for the Post Maintenance Testing Initiating Cues:

(Operators name), perform the following sections/steps of Nl -ST-V3 for Post Maintenance Testing of the Rod Worth Minimizer:

1. Section 8.2 RWM Diagnostic Test- Complete ALL steps
2. Section 8.3 RWM Select Error test - Step 8.3.1 through Step 8.3.5 ONLY
3. Section 8.4 RWM Rod Block Test- Complete ALL steps NRC 2008 JPM S-6 October 2008

I Initials/Date 8.2 RWM System D i a q n o s t i c Test m: T h i s t e s t i s perfclrmed i n Control Room a t Rod Worth Minimizer D i s p l a y Panel.

I 8.2.1 Place RWM BYPASS Switch i n "ON" p o s i t i o n 8.2.2 Place RWM BYPASS Switch i n "OFF" p o s i t i o n . I 8.2.3 Press CLEAR BYPASS I 8.2.4 Press ERROR CLEAR. I 8.2.5 Press RESET I I

8 2.6 Press SYSTEM START.

E: L i g h t s and annunciator w i l l c y c l e on and o f f u n t i l step 8.21.8i s performed.

8.2.7 Momentarily depress SYSTEM DIAGNOSTIC B u t t o n AND

[-risi c o n f i r m t h e f o l l owing 1i g h t s c y c l e ONIOFF:

a. INSERT BLOCK l i g h t a t Flod Worth Minimizer D i s p l a y Panel. [INSEFlT BLOCK 1i g h t ON t h e n OFF] I
b. WITHDRAW BLOCK l i g h t at. Rod Worth Minimizer D i s p l a y Panel. [WITHDRAW BLOCK 1i g h t ON t h e n OFF] I
c. Annunci a t o r F3-4-4,ROD BLOCK.

[F3-4-4ON t h e n OFF] /

8.2.8 Place RWM BYPASS Switch i n ON p o s i t i o n . I WHEN RWM has sequenced, THEN c o n f i r m f o l l o w i n g l i g h t s remain OFF:

a. INSERT BLOCK l i g h t . [INSERT BLOCK l i g h t OFF] I
b. WITHDRAW BLOCK l i g h t . [WITHDRAW BLOCK l i g h t OFF] I
c. Annunciator F3-4-4,ROD BLOCK. [F3-4-4OFF] I Page 6 Nl-ST-V3 Rev 09

i n i t i a Is/l)ate 8.2,10 Complete S e c t i o n 1 0 . 1 . 2 , AcceptLnce C r i t e r i a , f o r System D i a g n o s t i c T e s t i n g . I 8.3 RWM S e l e c t E r r o r Test 8.3.1 Place RWM BYPASS Switch i n OFF p o s i t i o n . I 8.3.2 Press CLEAR BYPASS. I 8.3.3 Press ERROR CLEAR. I 8.3.4 Press RESET. I 8.3.5 Press SYSTEM START. I NOTES : 1. The I n Sequence Rod i s t h e f i r s t rod i n t h e 1atcht.d group (group A i f a l l rods are i n ) .

2. For Rods tha-; a r e I n Sequence, designate a p p l i c a b l e s-zeps as N I A .
3. Control Rods withdrawals s h a l l not be attempted d u r i n g S e l e c t E r r o r Testing .
4. I f performinq t h i s s e c t i o n a f t e r completely in s e r t i ng o r withdrawing o f e n t i r e group, RWM w i l l consider a l l rods i n both (previous and subsequent) groups t o be " c o r r e c t l y selected" ( e . g . SELECT ERROR l i g h t w i l l remain o f f ) .

8.3.6 Perform t h e f o l l o w i n g f o r f i r s t Rod o f each l e t t e r group which a r e Out of Sequence w i t h prescribed Control Rod Withdrawal Sequmce OR designate as N I A Rods t h a t are I n Sequence:

8.3.7 For Rod Group A perform t h e f o l l o w i n g :

a. Select f i r s t Rod o f Group A AND c o n f i r m

[TIS1 SELECT ERROR l i g h t ON. [SELECT ERROR ON]

N I A , f i r s t Rod o f Group A In Sequence.. . . . . . . ( __ ) I

b. Select an I n Sequence Rod, AND c o n f i r m SELECT ERROR l i g h t OFF.

N I A , f i r s t Rod o f Group A I n Sequence.. . . ... . (- I For Rod Group B perform t h e f o l l o w i n g :

a. Select f i r s t Rod o f Group B AND c o n f i r m SELECT ERROR l i g h t ON. [SELECT ERROR ON]

N I A . f i r s t Rod o f Group B I n Sequence.. . . . . . . ( -) I Page 7 N1-ST- V3 Rev 09

I Initials/Date 8.3.28 (Cont)

b. S e l e c t an I n Sequence Rod. AND c o n f i r m SELECT ERROR l i g h t OFF.

N / A . f i r s t Rod o f Group V I n Sequence.. . . . . . . ( -) /

8.3.29 For Rod Group W perform t h e f o l l o w i n g :

a. S e l e c t f i r s t Rod o f Group W AND c o n f i r m

[ r/s1 SELECT ERROR l i g h t ON. [SELECT ERROR ON]

N/A, f i r s t Rod of Group W I n Sequence.. . . . . . . (- /

b. S e l e c t an I n Sequence IRod, AND c o n f i r m SELECT ERROR l i g h t OFF.

N/A, f i r s t Rod o f Groul) W I n Sequence.. . . . . . . (-1 /

8.3.30 For Rod Group X perform t h e f o l l o w i n g :

a. S e l e c t f i r s t Rod o f Gr2up X AND c o n f i r m U/SI SELECT ERROR l i g h t ON. [SELECT ERROR ON]

N / A , f i r s t Rod o f GrouJ X I n Sequence.. . . . . . . ( -1 /

b. S e l e c t an I n Sequence Rod, AND c o n f i r m SELECT ERROR l i g h t OFF.

N/A, f i r s t Rod o f Group X I n Sequence.. . . . . . . ( -) /

8 . 3 . 3 1 S e l e c t f i r s t Rod o f L e t t e r Sroup t h a t i s I n Sequence w i t h p r e s c r i b e d Rod W i thdrainlal Sequence. I 8 . 3 . 3 2 Confirm SELECT ERROR l i g h t OFF. /

8 . 3 . 3 3 Complete S e c t i o n 1 0 . 1 . 3 , Acceptance C r i t e r i a , f o r RWM Rod S e l e c t E r r o r T e s t . I 8 .4 RWM Rod Block Test m: RWM Rod Block T e s t i n g i s performed by a t t e m p t i n g t o withdraw an Out-of-Sequence Control Rod p r i o r t o :;tartup, between t h e LPSP and 10% power d u r i n g shutdown.

8.4.1 S e l e c t an "out o f sequence" Rod a t p o s i t i o n 00 as designated by Reactor Engineering AND r e c o r d Rod Selected .

ROD SELECTED : /

Page 13 N 1 - ST- V3 Rev 09

InitialsIDate 8.4.2 Confirm SELECT ERROR l i g h t ON a t Rod Worth Minimizer Display Panel. I 8.4.3 Using CONTROL ROD MOVEMENT ';witch i n ROD OUT NOTCH mode, withdraw designate C o , i t r o l Rod t o "04" p o s i t i o n . I 8.4.4 V e r i f y Rod motion t o p o s i t i l m 04. I 8.4.5 Using CONTROL ROD MOVEMENT Switch i n ROD OUT NOTCH

[ITIS] mode, attempt t o withdraw d'2signated Control Rod t o "06" p o s i t i o n AND confirm R2d motion i s blocked beyond p o s i t i o n "04" i s blocked. I 8.4.6 Confirm t h e f o l l o w i n g i n d i c a t i o n s ON:

(T I S )

a. WITHDRAW BLOCK l i g h t OW a t RWM Display Panel. [WITHDRAW BLOCK l i g h t ON] I
b. ROD WORTH M I N I M I Z E R l i g h t ON a t Rod Block Monitor D i s p l a y Panel .

[ROD WORTH M I N I M I Z E R l i g h t ON] I

c. Annunciator F3-4-4, ROD BLOCK - ON.

[F3-4-4 ON] I 8.4.7 Re-sel e c t designated r o d if deselected. I NA, r o d d i d n o t d e s e l e c t . . . . . . . . . . . . . . (-1 8.4.8 Att,empt t o withdraw designated r o d t o p o s i t i o n 06. I 8.4.9 Corifi r m no r o d movement. I 8 . 4 . 1 0 Re-select designated r o d i f deselected. /

NA, r o d d i d n o t d e s e l e c t . . . . . . . . . . . . . . ( 1 8 . 4 . 1 1 I n s e r t Control Rod t o p o s i t i o n 00 by p l a c i n g CONTROL ROD MOVEMENT Switch t o ROD I N . I 8 . 4 . 1 2 Confirm f o l l o w i n g l i g h t s OFF:

a. WITHDRAW BLOCK l i g h t OFF a t Rod Worth Minimizer D i s p l ay Panel . I
b. ROD WORTH M I N I M I Z E R l i g h t OFF a t Rod block Monitor D i s p l ay Panel . I
c. Annunciator F3-4-4, RCD BLOCK - OFF. I 8 . 4 . 1 3 Select a Rod which i s I n Sequence w i t h r e s c r i b e d Rod Withdrawal Sequence ANC c o n f i r m SEL CT ERROR l i g h t OFF.

F I 13.4.14 Complete Secti on 1 0 . 1 . 4 , Acceptance C r i t e r i a , f o r RWM Rod Block T e s t i n g . I Page 14 N 1 - ST- V3 Rev 09

NRC JPM S-7 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Remove the Generator from the Grid and Perform Revision: NRC 2008 Emergency Governor Trip Test vw Task Number: N1-245000-01041 I

Gen a1 SuDervisor ~~~~~~/ NIA - Exam General Supervisor Security Date Operations Training (Designee) Operations (Designee)

NIA - Exam Security I Configuration Control Date Performer: (ROISRO)

TrainedEvaluator:

Evaluation Method: X Perform - Simulate Evaluation Location: Plant - X Simulator Expected Completion Time: 20 Minutes Time Critical Task: No Alternate Path Task: No Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fai 1 NOTE: A JPM overall rating of fail shall be giver1 if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM S-7 October 2008

Recommended Start Location: (Completion time biised on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize simulator to IC 186
2. Verify main generator output 90-120 MWe and 50-100 MVARs to the bus
3. Verify turbine ready to be removed from thl: grid Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / (:SO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, abtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will functiori as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plzit equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independendpeer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas PasdFail. During Evaluated JPM:

0 Self verification shall be demonstrated.

2. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

References:

1. NUREG 1 123, WA 245000, A4.02 (RO 3.1, SR.0 2.9), A4.06 (RO 2.7, SRO 2.6)
2. N1-OP-31
3. Nl-PM-V7 NRC 2008 JPM S-7 October 2008

Tools and Equipment:

1. None Task Standard Generator removed from the grid and Emergency Governor Trip Test complete Initial Conditions:
1. Plant shutdown is in progress
2. The Main Generator is at 90 MWE and ready to be removed fi-om the grid
3. Instructor to ask operator for any questions Initiating Cues:

(Operators name), remove the Generator from the grid in accordance with N1-OP-31, Section G.2.0 and perform the Emergency Governor Trip with Lockout Test in accordance with Nl-PM-V7, Section 8.1.

Performance Steps Standard Grade __

1. Provide repeat back of initiating cue Proper communications used for repeat back SaWnsat Evaluator acknowledge repeat back (GAP-OPS-01) providing correction $necessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-OP-3 1 obtained Sat/Unsat and reviewhtilize the correct section of the Precautions & limitations reviewed procedure Section G.2.0 referenced
3. Turn off Auto Reclosure for R925 and Rotates control switch CCW to OFF for: PasdFail R915:

R925 AUTO RECLOSURE off R925 AUTO RECLOSURE R9 15 AUTO RECLOSURE off R915 AUTO RECLOSURE

4. Bring Governor (speedload changer) in Rotates Governor control switch CW to Passmail control AND continue to lower generator LOWER, observes lowering Governor load to 40-50 MWe setpoint indication, observes lowering MWe, releases Governor control switch to obtain 40-50 MWe Note: Expected that annunciators AI-4-6

& F 1-4-8 will alarm

5. Lower Megavars to zero Rotates Voltage Regulator Adjustment control Passmail switch CW to LOWER, observes lowering MVAR, releases switch to obtain zero MVAR NRC 2008 JPM S-7 October 2008

t I Performance Steps Standard Grade

6. Open R925 and R9 15 Opens R925 and R9 15 by placing associated Pass/Fail control switches to TRIP, observes green lights on, red lights off
7. Open SW 18 Opens SW 18 by rotating control switch CCW SatAJnsat to TRIP, observes green light on, red light on
8. Place the control switch for SW 18 in Pull- Rotates control switch CCW and pulls to Sat/Unsat to-Lock retain in Pull-to-Lock, observes green light off
9. Place VOLTAGE REG TRANSFER Rotates VOLTAGE REG TRANSFER switch SatAJnsat switch to OFF CCW to OFF, observes green light on, red light off
10. Place EXCITER switch to TRIP Rotates EXCITER switch CCW to TRIP, Sat/Unsat observes green light on, red light off
11. Perform Turbine Overspeed testing per Refers to Nl-PM-V7, Section 8.1 SatAJnsat N1 -PM-V7

-Cue: Nl-PM-V7 Section 8.1 is required

12. Verify NORMAL (green) light on, above Observes NORMAL (green) light on, above Sat/Unsat Turbine speed indicator (Panel 1B) Turbine speed indicator (Panel 1B)
13. Turn EMERG GOV OIL TRIP Rotates EMERG GOV OIL TRIP LOCKOUT Pass/Fail LOCKOUT switch to LOCKOUT switch CW to LOCKOUT
14. Confirm LOCKOUT (yellow) light ON Observes LOCKOUT (yellow) light ON SatAJnsat
15. Turn EMERG GOV OIL TRIP TEST Rotates EMERG GOV OIL TRIP TEST Pass/Fail switch to TRIP position, AND verify the switch CCW to TRIP position, AND observes following: the following:

( ) NORMAL (green) light off ( ) NORMAL (green) light off

( ) TRIP (red) light on (Emergency ( ) TRIP (red) light on (Emergency Governor Governor tripped) tripped)

( ) Annunciator A1-3-7, TURBINE ( ) Annunciator A1-3-7, TURBINE EMERGENCY GOVERNOR TRIP, EMERGENCY GOVERNOR TRIP, ON ON Cue: Annunciator A1-3-7 is ON.

NRC 2008 JPM S-7 October 2008

I /

Performance Steps Standard Grade

16. Turn EMERG GOV OIL TRIP TEST Rotates EMERG GOV OIL TRIP TEST PasdFail switch to RESET position, AND verify the switch CW to RESET position, AND following: observes the following:

( ) NORMAL (green) light on ( ) NORMAL, (green) light on

( ) TRIP (red) light off ( ) TKIP (red) light off

( ) Annunciator A1-3-7, TURBINE ( ) Annunciator A1-3-7, TURBINE EMERGENCY GOVERNOR TRIP, EMERGENCY GOVERNOR TRIP, OFF OFF Cue: Annunciator A1-3-7 is OFF.

17. Release EMERG GOV OIL TRIP TEST, Ensures EMERG GOV OIL TRIP TEST Sat/Unsat switch spring return to neutral switch has returned to neutral Note: This is a spring return switch which will return to neutral when step 16 above is performed
18. Turn EMERG OIL TRIP LOCKOUT Rotates EMERG OIL TRIP LOCKOUT Pass/Fail switch to OFF switch CCW to OFF
19. Verify LOCKOUT (yellow) light off Observes LOCKOUT (yellow) light off Sat/Unsat (Emergency Governor Trip function back in service)

Terminating Cue: Generator removed from the Grid and Emergency Governor Trip Lockout Test complete RECORD STOP TIME NRC 2008 JPM S-7 October 2008

Initial Conditions:

1. A shutdown is in progress
2. The Main Generator is at 90 MWE and ready to be removed from the grid Initiating Cues:

(Operators name), remove the Generator from the grid in accordance with N1 -0P-3 1, Section G.2.0 and perform the Emergency Governor Trip with Lockout Test in accordance with N1 -PM-V7, Section 8.1.

NRC 2008 JPM S-7 October 2008

G. SHUTDOWN PROCEDURE (Cont)

NOTE: The following section is performed when Turbine Overspeed Testing per NI-PM-V7, TURBINE TRIP TESTS, is performed.

2.0 Removinq Generator from Grid with Turtiine at 1800 RPM 2.1 Turn off Auto Reclosure for R92!j and R915:

R925 AUTO RECLOSURE off ............................................................................ (-)

R915 AUTO RECLOSURE off ............................................................................ (--)

NOTE: The Pressure Regulator will opeii By-Pass valves as reactor steam flow exceeds required Turbine flow.

2.2 Bring Governor (speedlload changer) in control AND continue to lower generator load to 40-50 MWe ......................................................................................................... (-)

2.3 Lower Megavars to zero ................................................................................................. (-I NOTE: HPCl initiation and turbine trip will NOT occur.

2.4 Open R925 and R915...................................................................................................... (A 2.5 OpenSW18 .................................................................................................................... (-1 2.6 Place the control switch for SW "8 in Pull-to-Lock .......................................................... (-1 2.7 Place VOLTAGE REG TRANSFER switch to OFF .......................................................... (-1 2.8 Place EXCITER switch to TRIP ....................................................................................... (-1 2.9 Perform Turbine Overspeed testing per NI-PM-V7......................................................... (-)

3.0 Removinq Generator from Grid with Turbine Trip 3.1 Turn off Auto Reclosure R925 and R915......................................................................... (-1 NOTES: 1. The Pressure Regulatorwill open By-Pass valves as reactor steam flow exceeds required Turbine flow.

2. GOVERNOR (speedlload changer) will not work from panel A unless sync key switch for either 915 or 925 breaker is ON.

3.2 Bring GOVERNOR (speedlload changer) in control AND continue to lower generator load to 40-50 MWe.......................................................................................... (-1 Page 62 N1-0P-31 Rev 22

Initials 8.0 PROCEDURE 8.1 Exercisinq Emerqency Governor Trip with Lockout (Turbine in Service)

NOTES : 1. This section is normally performed when the Turbine Generator is Synchronized to the Grid. It may be performed with the Turbine at any speed greate:: than 1660 RPM.

2. If the EMERG GOV OIL TRIP LOCKOUT switch is returned to OFF while the EMERG GOV 011; TRIP TEST switch is in TRIP or not RESET, THEN a turbine trip will occur.

8.1.1 Verify NORMAL (green) light on, above Turbine speed indicator (Panel 1B).

8.1.2 Step deleted.

8.1.3 Turn EMERG GOV OIL TRIP LOCKOUT switch to LOCKOUT.

8.1.4 Confirm LOCKOUT (yellow) light ON.

-CAI-JTION Failure of LOCKOUT (yellow) light to energize with EMERG GOV OIL TRIP LOCKOUT switch in LOCKOUT, indicates failure of the emergency governor t:cip lockout function.

8.1.5 Turn EMERG GOV OIL TRIP TEST switch to TRIP position, AND verify the following:

(-1 NORMAL (green) light off

(-1 TRIP (red) light on (Emergency Governor tripped)

(-1 Annunciator A1-3-'7,TURBINE EMERGENCY GOVERNOR TRIP, ON 8.1.6 Turn EMERG GOV OIL TRIP TEST switch to RESET position, AND verify the fo:llowing:

(-1 NORMAL (green) light on

(-1 TRIP (red) light off (J Annunciator A1-3-'7,TURBINE EMERGENCY GOVERNOR TRIP, OF17 Page 6 Nl-PM-V7 Rev 02

Initials 8.1.7 Release EMERG GOV OIL TRIP TEST switch, spring return to neutral.

NOTE : Failure to verify Normal (green) light ON and Trip (red) liqht OFF prior to turning the EMERG GOV OIL TRIP LOCKOUT switch to OFF may result in a turbine trip.

8.1.8 Turn EMERG OIL TRIP LOCKOUT switch to OFF.

8.1.9 Step deleted.

8.1.10 Verify LOCKOUT (yellow) light off (Emergency Governor Trip function, back in service).

8.2 Testinq Emerqency Governor Trip with Lockout (Turbine not in Service/Startup)

NOTES : 1. This section is normally performed when the Turbine Generator is being brought up to speed prior to reaching 1600 RPM.

2. If the EMERG GOV OIL TRIP LOCKOUT switch is returned to OFF while the EMERG GOV O I L TRIP TEST switch is in TRIP or not RESET with the Turbine speed greate:? than 1650 RPM, THEN a turbine trip will occur.

8.2.1 Confirm the following:

(-1 Annunciator F3-4-6, FIRST STAGE BOWL PRESSURE LOW, ON

(-) Hood spray in service (or available) to prevent hood high temperature Turbine Trip (225OF)

(-1 Turbine Oil Temperature greater than 100 OF

(-1 NORMAL (green) light 011, above Turbine speed indicator (Panel B1) .

8.2.2 Step deleted.

8.2.3 Turn EMERG GOV OIL TRIP LOCKOUT switch to LOCKOUT.

8.2.4 Confirm LOCKOUT (yellow) light ON.

Page 7 Nl-PM-V7 Rev 02

NRC JPM S-8 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Alternate RPV Blowdown Through the Emergency Revision: NRC 2008 Condenser Vents to Torus Task Number: N1-EOP-8-01001 N/A - Exam Security I General Supervisor Date Operations Training (Designee) Operations (Designee)

NIA - Exam Security I Configuration Control Date Performer: (RO/SRO)

Evaluation Method: X Perform - Simulate Evaluation Location: Plant - X Simulator Expected Completion Time: 15 minutes Time Critical Task: No Alternate Path Task: No Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fa11 NOTE: A JPM overall rating of fail shall be giver1 if any critical step is graded as fail. Any grade of unsat or individual competency area unsat require:; a comment.

Comments:

Evaluators Signature: Date:

NMP1 2008 NRC JPM S-8 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Simulator Simulator Set-up (if required):

1. Initialize simulator to IC 184
2. Verify the following malfunctions are inserted:

o AD07B, ERV 112 FAILS SHUT o AD07C, ERVll3 FAILS SHUT o AD07D, ERV121 FAILS SHU'T o AD07E, ERV122 FAILS SHUT AD07F, ERV123 FAILS SHUT o MS03A, ONE MSJY FAILS CLOSED (VALVE 122) o MS03B, ONE MSIV FAILS CLOSED (VALVE 112)

3. Verify RPV pressure is at least 72 psi above torus pressure
4. Verify torus water level is above 8.5 feet Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / CSO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you. with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requeste'd.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independent/peer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas PasidFail. During Evaluated JPM:

0 Self verification shall be demonstrated.

2. During Training JPM:

Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

NMP1 2008 NRC JPM S-8 October 2008

References:

1. N1-EOP-8
2. N1-EOP-1, Attachment 14
3. WA 207000, A1.05 (RO 4.0, SRO 4.2), A4.05 (RO 3.5, SRO 3.7), A4.07 (RO 4.2, SRO 4.3)

Tools and Equipment:

1. MSIV EOP Jumpers Task Standard: Emergency Depressurize the RPV through the Emergency Condenser Vents to the Torus Initial Conditions:
1. The reactor has scrammed
2. MSIVs are closed
3. RPV blowdown is required per Emergency Operating Procedures
4. Instructor to ask operator for any questions Initiating cue:

(Operators name), commencing an RPV Blow down. Initiate Emergency Condensers and open 3 ERVs.

Performance Steps Standard Grade

1. Provide repeat back of initiating cue Proper communications used SatAJnsat Evaluator acknowledge repeat back (GAP-OPS-01) providing correction if necessary RECORD START TIME Note: It is not necessary to reference N1-EOP-8 since this action is normally directed by the CRS
2. Initiate Emergency Condensers as follows:
a. Place 39-05, EMERG CNDSR Rotates 39-05, EMERG CNDSR RET Passmail RET ISOLATION VALVE 11 ISOLATION VALVE 11 control switch CW control switch to OPEN to OPEN
b. Place 39-06, EMERG CNDSR Rotates 39-06, EMERG CNDSR RET Pass/Fail RET ISOLATION VALVE 12 ISOLATION VALVE 12 control switch CW control switch to OPEN to OPEN
3. Opens ERV 111 Rotates ERV 111 control switch CW to Pass/Fail OPEN observes green and blue lights off, both Note: All other ERVs will fail to open red lights on when attempted
4. Attempts to open ERVs 112, 113, 121, Rotates control switches for ERVs 112, 113, SatAJnsat 122, and 123 121, 122, and 123 CW to OPEN, observes green and blue lights off, both red lights off NMP1 2008 NRC JPM S-8 October 2008

Performance Steps Standard Grade

5. Reports only ERV 111 is open Proper communications used Sat/Unsat (GAP-OPS-01)

Role Play: Acknowledge report and then direct the candidate to depressurize the RPV using the Emergency Condenser vents to the torus per N1-EOP-1, Attachment 14

6. Obtain a copy of the reference procedure N1-EOP-1 obtained Sat/Unsat and reviewhtilize the correct section Attachment 14 referenced
7. Verify the Bypass MSIV Isolation jumpers Inserts EOP jumpers 15, 16,22,23 Passmail at EOP ISOLATION BYPASS JUMPER SUBPANEL installed
8. Depressurize the RPV using EC Vents to Proceeds to Step 2.4, EC Vents to Torus Sat/Unsat Torus
9. Confirm Torus level is above 8.5 feet Observes torus level indicator is >8.5 feet Sat/Unsat
10. Verify open the following Emergency Condenser Vents to Torus at Panel K:
a. 05-05, EC VENT TO TORUS BV Rotates 05-05 control switch CW to OPEN, Passmail 11 observes red light on, green light off
b. 05-07, EC VENT TO TORUS BV Rotates 05-07 control switch CW to OPEN, Pass/Fail 12 observes red light on, green light off C. 05-1 1, EMERG COND VENT Observes 05-1 1 red light on and green light Sat/Unsat ISOLATION VALVE 112 off
d. 05-0 1R, EMERG COND VENT Observes05-01R red light on and green light Sat/Unsat ISOLATION VALVE 111 off
e.05-04R, EMERG COND VENT Observes05-04R red light on and green light Sat/Unsat ISOLATION VALVE 121 off
f. 05-12, EMERG COND VENT Observes 05-12 red light on and green light Sat/Unsat ISOLATION VALVE 122 off
11. Reports that the reactor is being Proper communications used SaWnsat depressurized using the Emergency (GAP-OPS-01)

Condenser vents to the torus Role Play: Acknowledge report Terminating Cue: The RPV is depressurized using the Emergency Condenser Vents to the Torus.

RECORD STOP TIME NMP1 2008 NRC JPM S-8 October 2008

Initial Conditions:

1. The reactor has scrammed
2. MSIVs are closed
3. RPV blowdown is required per Emergency Operating Procedures Initiating cue:

(Operators name), commencing an IWV Blowdown. Initiate Emergency Condensers and open 3 ERVs.

NMP12008 NRC JPM S-8 October 2008

Torus water level Y I Initiate ECs.

I I I 12 1

RVs.

- LolLo Rosemounts may be At or below 8.0R

< A' Torus w p r level >

\f

.o eliable following rapid

/

tressurlzation below 500 psig.

to exceed 1OVFlhr cooldown. Above 8.0 li Open 3 ERVs.

A -

HilLo L o / L o Rosemounts may be TO LEVEL C O N T R O L unreliable following rapid depressurization below 500 psig.

r EOP-3 at @ while nuing here. J, IC OK to exceed 100'Flhr cooldown.

f IF THEN I Less than 3 ERVs are open AND Rapidly depressurize the RPV using one or more Blowdown Systems (Detail 0) --_I until RPV pressure is less than 75 psi above I torus pressure. I I

A -

HULo L o l L o Rosemounts may be I I

unreliable following rapid I depressurization below 500 psig. I I

IC OK to exceed IOO'FIhr cooldown. I IC OK to exceed release rate limits I I

IC OK to defeat isolations I I

I 15 I I

I BlowdownSystems I

the shutdown cooling pressure ERVs torus water level IS above 8 0 ft interlock clears IC OK to use N1-DRP-OPS-001, Section 7 10 1 TBVS (EOP-I Att 1)

ECs

- Reactor head vent valves (EOP-1 Att 22)

EC vents (EOP-1 Att 14)

All control rods are inserted to at least position 04 SJAES (EOP-1 Att 1)

OR Offgas mixing jet (EOP-1 Att 21)

The reactor will stay shutdown without boron OR

- RWCU, recirculation mode (EOP-1 Att 9) u  ?;pass dcn-:ns Cold Shutdown Boron injected (1050 gal) R W U , reject mode gnJJ no boron injected or the OR reactor will stay shutdown The reactor is shutdown without boron (EOP-1 Att 8)

I

ATTACHMENT 14 RPV Depressurization thru EC Vents Page 1 of 4 1.o PURPOSE Provide alternate depressurization path for RPV.

2.0 TOOLS AND MATERIALS TOOUMATER IAL -

QTY LOCATION Jumpers 4 EOP TOOL BOX 4, Control Room 3.0 PROCEDURE

@ 3.1 WHEN directed by SM or CRS, VERIFY the Bypass MSlV ISOLATIONjumpers at EOP ISOLATION BYPASS JUMPER SUBPANEL installed (inside Panel N, between 1N 1A and 1N 1B):

JUMPER LABEL INSTALLED e 15 MSIV ISOLATION BYPASS ........................................................... (-)

RELAY 11K19A TO RELAY 11K73 e

16 MSIV ISOLATION BYPA% ........................................................... (A RELAY 11GOA TO RELAY 11K74 e 22 MSlV ISOLATION BYPASS ........................................................... (-1 RELAY 12K19A TO RELAY 12K73 e 23 MSIV ISOLATION BYPASS ........................................................... (-1 RELAY 12K20A TO RELAY 12K74 3.2 Depressurize the RPV by performing one of the following:

e Subsection 3.3, EC Vents to Main Condenser............................................. (-1 e Subsection 3.4, EC Vents to Toru~; .............................................................. (-1 P'sge52 N1-EOP-1 Rev 00700

ATTACHMENT 14 RPV Depressurizationthru EC Vents Page 2 of 4 3.3 EC Vents to Main Condenser 3.3.1 Open Main Turbine Bypass Valves, Panel A with BOJM.......................................... (-)

3.3.2 IF Main Turbine Bypass Valves can NOT be opened, open 02-03 DRAIN VALVE TO CONDENSER, at Panel ................................................ (-1 3.3.3 Verify open the following Emergency Condenser Vents at Panel K a 05-02, EMERG COND VENT TO MN STM ISOLATIONVALVE 11............(-)

a 05-11, EMERG COND VENT ISOLATION VALVE 112...............................

a 05-01R, EMERG COND VENT ISOLATION VALVE 111 ............................ (-1 a 05-03, EMERG COND VENT TO MN STM ISOLATION VALVE 12............ L) a 05-04R, EMERG COND VENT ISOLATION VALVE 121 ............................

a 05-12, EMERG COND VENT ISOLATION VALVE 12................................. (-A 3.4 EC Vents to Torus CAUTION Torus Water Level must be above 8.5 feet before opening Emergency Condenser Vents to Torus.

3.4.1 Confirm Torus level above 8.5 feet........................................................................... (-)

3.4.2 Verify open the following Emergency Condenser Vents to Torus at Panel K:

a 05-05, EC VENTTOTORUS BV 11............................................................ (-1 0 05-07, EC VENT TO TORUS BV 12............................................................ (-)

a 05-11, EMERG COND VENT ISOLATION VALVE 112............................... (-)

a 05-01R, EMERG COND VENT ISOLATION VALVE 111 ............................ (-1 a 05-04R, EMERG COND VENT ISOLATION VALVE 121 ............................ (-1 0 05-12, EMERG COND VENT ISOLATION VALVE 122............................... (-1 P13ge53 N1-EOP-l Rev 00700

ATTACHMENT 14 Page 3 of 4 RPV Depressurizationthru EC Vents 4.0 RESTORATION INITIALSIDATE NOTE: This section is not performed until specifically directed by the SM.

4.1 WHEN EC Vents to Main Condenser are rio longer required for RPV Depressurization, perform the following:

4.1.1 Verify closed Main Turbine Bypass Valves (Panel A) 4.1.2 Verify closed 02-03 DRAIN VALVE TO CONDENSER (Panel N)

I I.V.

4.1.3 Remove jumpers installed at the EOP ISOLATION BYPASS JUMPER SUBPANEL (inside Panel N, between IN1A and INIS):

JUMPER LABEL e 15 MSlV ISOLATtON BYPASS RELAY 11K19A TO RELAY 11K73 I

I.V.

e 16 MSlV ISOLATION BYPASS I RELAY 11K20A TO REMY 11K74 I

I.V.

e 22 ~ MSlV ISOLATION BYPASS RELAY 12K19A TO RELAY 12K73 I

I.V.

e 23 MSlV ISOLATION BYPASS I RELAY 12K20A TO RELAY 12K74 I

I.V.

Page 54 N1-EOP-1 Rev 00700

ATTACHMENT 14 Page 4 of 4 RPV Depressurization thru EC Vents 4.2 WHEN EC Vents to Torus are no longer required for RPV Depressurization, verify closed:

0 05-05, EC VENT TO TORUS BV 11 I

I.V.

0 05-07, EC VENT TO TORUS BV 12 I

I.v.

4.3 SM verify that restoration is complete. Record comments in Remarks below:

Remarks:

SM (Signature) Daie Time Page 55 N1-EOP-1 Rev 00700

NR.C JPM P-1 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Air Start the Diesel Fire Pump Revision: NRC 2008 Task Number: N1-286000-04039 I / 8 k Y / -/ NIA-Examsecurity I Date General Supervisor Date Operations Training (Designee) Operations (Designee)

N/A - Exam Security /

Configuration Control Date Performer: (RO/SRO)

Trainer/Evaluator:

Evaluation Method: Perform - X Simulate Evaluation Location: X Plant --___ Simulator Expected Completion Time: 15 minutes Time Critical Task: No Alternate Path Task: No Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fail NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM P-1 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Screen House Simulator Set-up (if required):

None Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / CSO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO plant equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and a8Acnowledgedby my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not a.vailable and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independentlpeer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas as P'asdFail.During Evaluated JPM:

0 Self verification shall be demonstrated.

2. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

References:

1. NUREG 1123,286000, A3.01 (RO 3.4, SRO 3.4)
2. N1-OP-21A Tools and Equipment:

None NRC 2008 JPM P-1 October 2008

Task Standard: The Diesel Fire Pump is running Initial Conditions:

1. The plant is shutdown
2. A total loss of DC power has occurred
3. Instructor to ask operator for any questions Initiating Cues:

(Operators name), start the Diesel Fire Pump1 per Nl-OP-21A, Section H.6.

Performance Steps Standard Grade

~ _ _

1. Provide repeat back of initiating cue Proper communications used SaWnsat Evaluator acknowledge repeat back (GAP-OPS-01) providing correction if necessary RECORD START TIME
2. Obtain a copy of the reference procedure N 1-0P-2 1A obtained SaWnsat and reviewhtilize the correct section of the Precautions & limitations reviewed procedure Section H.6 referenced Cue: Step 6.1 is complete
3. Place Diesel Fire Pump Control Switch to Local Control Switch rotated CW to OFF in Sat/Unsat OFF Diesel Fire Pump Room
4. Manually open 100-12 1 1, Solenoid Manually opens 100-12 11 by rotating PasdFail Operated Inlet Valve, to the Woodward override lever CW Governor
5. Manually close 100-1212, Outlet Blocking Manually closes 100-1212 by rotating Pass/Fail Valve, from the Woodward Governor handwheel CW
6. Manually open 100-1213, Pump Manually opens 100-1213 by rotating Pass/Fail Lubrication Solenoid Valve override lever CW
7. Open 100.4-04 (LA-222) OR 100.4-03 (IA- IA-222 or IA-223 opened by turning lever on Pass/Fail 223), Starting Air Bypass valves to valve such that the operating lever is in-line provide starting air supply with the piping Cue: Engine started and is running NRC 2008 JPM P-1 October 2008

Performance Steps Standard Grade

8. Upon successful Diesel Fire Pump engine IA-222 or IA-223 (whichever one was opened SaWnsat start, close 100.4-04 (IA-222) OR 100.4- in step 7 above) is closed by turning lever on 03 (IA-223) valve until the operating lever is perpendicular to the piping
9. Notifies Control Room that the Diesel Fire Proper communications used SaWnsat Pump is running (GAP-OPS-01)

Role Plav: Acknowledge report Terminating Cue: Diesel Fire Pump is running RECORD STOP TIME NRC 2008 JPM P-1 October 2008

Initial Conditions:

1. The plant is shutdown
2. A total loss of DC power has occurred Initiating Cues:

(Operators name), start the Diesel Fire Pump per Nl-OP-21A, Section H.6.

NRC 2008 JPM P-1 October 2008

Initials H. OFF-NORMAL PROCEDURES (Cont) 6.0 Diesel Fire Pump Start With No Control NOTE: Due to the unavailability of DC Power, no automatic Diesel Fire Pump Engine Protection is provided.

6.1 IF available, station a qualified person at Diesel Fire Pump to monitor engine condition during operation in this mode.

6.2 Place Diesel Fire Pump Control Switch to OFF.

6.3 Manually open 100-1211, Solenoid Operated Inlet Valve, to the Woodward Governor.

6.4 Manually close 100-1212, Outlet t3locking Valve, from Woodward Governor.

6.5 Manually open 100-1213, Pump Lubrication Solenoid Valve.

6.6 Open 100.4-04 (IA-222) OR 100.403 (IA-223), Starting Air Bypass valves to provide starting air supply.

6.7 Upon successful Diesel Fire Pump engine start, close 100.4-04 (IA-2221, OR 100.4-03 (IA-223).

6.8 WHEN restoration of control power and conditions permit stopping Diesel Fire Pump, proceed as follows:

6.8.1 Open 100-1212, Outlet Blocking Valve ........................................... (-1 6.8.2 Close 100-121 1, Solenoid Operated Inlet Valve ............................. (-1 6.8.3 Close 100-1213, Pump LlJbrication Solenoid Valve ........................ (-1 6.8.4 Confirm at least 85 psig in starting air tank 11 AND 12, as indicated on local pressure indicators ............................................. (-1 6.8.5 Place Diesel Fire Pump Control Switch in AUTO ............................ (A 6.8.6 As soon as practical, perform N1-PM-W9, Fire Protection System - Weekly Operatilm Of Fire Pumps Sections 6.2 AND 6.3, Diesel Fire Pump aui.omatic start test ...................................... (-1 Page 54 N1-0P-21A Rev 12

RRC JPM P-2 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Perform Initiation of ECs from Remote ShJtdown Revision: NRC 2008 Panel 12 (Alternate Path)

Task Number: N1-296000-0 1009 N/A - Exam Security I Ge era1 Supervi or Date General Supervisor Date Operations Training (Designee) Operations (Designee)

N/A - Exam Security /

Configuration Control Date Performer: (RO/SRO)

TrainedEvaluator:

Evaluation Method: Perform - X Simulate Evaluation Location: X Plant - - Simulator

~

Expected Completion Time: 15 minutes Time Critical Task: No Alternate Path Task: Yes Start Time: Stop Time: Completion Time:

JPM Overall Rating: Pass Fail NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM P-2 October 2008

Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Turbine Building Elevation 26 1' Simulator Set-up (if required):

None Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / ICSOgeneral permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, {obtainspecific SM / CSO permission.

Directions to Operators:

Read Before Every JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide you with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO ple.nt equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance :

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independrntlpeer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas Pa!rs/Fail. All steps are sequenced critical unless denoted by a 66 19 0 .
2. During Evaluated JPM:

0 Self verification shall be demonstrated.

3. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

References:

1. NUREG 1123 KA 295016, AA1.09, RO 4.0, SRO 4.0
2. N1-SOP-21.2 Tools and Equipment:
1. VA-1 Key NRC 2008 P M P-2 October 2,008

Task Standard: Emergency Cooling Loop 11 placed in service from Remote Shutdown Panel 11 and shell side water level controlled in manual.

Initial Conditions:

1. Control Room evacuation has occurred
2. All control room actions were completed
3. All control rods are in
4. RPV pressure is 900 psig and slowly rising
5. RPV level is 72 and stable
6. The Remote Shutdown Keys have been obtained
7. You are the Chief Shift Operator
8. Offsite power is available
9. FW and CRD are available
10. Other operators are performing the manual vessel isolation and removing ERV fuses
11. Instructor to ask operator for any questions Initiating Cues:

(Operators name), place Emergency Cooling,Loop 11 in service in accordance with N1-SOP-21.2.

Performance Steus Standard Grade -

1. Provide repeat back of initiating cue Proper communications used SaWnsat Evaluator acknowledge repeat back (GAP-OPS-01) providing correction if necessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-SOP-21.2 obtained SatAJnsat and reviewhtilize the correct section of the Section B is reviewed procedure
3. Go to Remote Shutdown Panel #11 Proceed to RSP 11, TB 250 South SaWnsat Cue: EC System has NOT isolated
4. Place the Channel 11 CONTROL Rotate control switch CW to the emergency Pass/Fail TRANSFER keylock switch in EMERG position position to transfer control to RSP
5. Verify open 39-07 and 39-09 Observe red lights on, green lights off Satmnsat Cue:39-07 and 39-09 are open
6. Control RPV cooldown by cycling open Rotate control switch for valve 39-05 CW to Pass/Fail and closed 39-05, EMERGENCY the open position, observe red light energized, CONDENSER COND RTN IV 11 green light extinguished Cue: 39-05 is open, Reactor pressure is 900 psig and slowly lowering, RPV level is 72 inches and stable NRC 2008 JPM P-2 October 2008

Performance Steps Standard Grade __

Note: The following cue indicates that AUTO shell level control has failed Cue: If the Candidate references EC shell water level indicator, inform them that EC shell water level is 5.5 and slowly lowering

7. Place EC 11 1/112 Level Control Transfer Rotate control switch CW to the Local Pass/Fail Switch to Local position
8. Verify AUTO control by observing A on Observe A illuminated on status panel SaWnsat status panel Cue: EC shell water level is 5.0 and slowly lowering
9. Depress A/M key pad Manual mode selected by depressing the A/M Pass/Fail key pad
10. Verify M is displayed Observe M is illuminated on status panel SaWnsat Cue: M is illuminated
11. Control level by depressing arrows on key Level is raised in the EC Condenser Shell by Pass/Fail Pad depressing the key pad arrows Cue: EC Condenser Shell is 6.4 and stable, Reactor pressure is 850 psig and slowly lowering
12. Report that #11 EC Condenser in service, Proper communications used SaWnsat EC shell level control is in Manual (GAP-OPS-01)

Terminating Cue: Emergency Cooling Loop 11 placed in service in accordance with N1-SOP-21.2, and EC Shell Level controlled Manual RECORD STOP TIME NRC 2008 P M P-2 October 2008

Initial Conditions:

1. Control Room evacuation has occurred
2. All control room actions were completed
3. All control rods are in
4. RPV pressure is 900 psig and slowly rising
5. RPV level is 72 and stable
6. The Remote Shutdown Keys have been obtained
7. You are the Chief Shift Operator
8. Offsite power is available
9. FW and CRD are available 1O.Other operators are performing the manual vessel isolation and removing ERV fuses Initiating Cues:

(Operators name), place Emergency Cooling Loop 11 in service in accordance with N1 -SOP-2 1.2.

NRC 2008 JPM P-2 October 2008

N1-SOP=Z1.2 = CONTROL ROOM EVACUATION

-+

~ ~ ' E DESCRIPTION N T A fire ha6 rest lted in Control Room evacuation.

WHILE EXfiCUTlNG THIS PROCEDURE:

iF I THEN Normal instrumentat%on is off-scale 9s unavailable The EC at the RSP is NOT operating correctly.

Cooldown rate exceeds l W F h r ,

Plant experiences Station Blackout

\

1 Place Reactor Mode Swltch in SHUTDOWN 2 Venfy All Control Rods inserted 3 Place both VESSEL ISOLATIONswitches to isolate AND venfy all MSlVs close 1 IF time permits Verify the following House seMce loads transfer TurbinelGeneretor trip MPCl Initiation FW Pump 13 clutch disengaged 2 IF time permits. Sound the statwn alann and announce Control Room evacuation 3 Obtain two sets of RSP keys (VA-1, GI:-75, PA-235) AND obtain radios 4 Evecuate Control Room through East-\Nest comdor. south side of Control Rooin Perform SM/STA actions at (this page) actions at (Page 3)

CI SMISTA Proceed to TSC &Q perform the following Duties of Emergency Director UNTIL relieved Sari Emergency Notifications Direct CommunicationsAide to report to TSC Nohfy On-call Supervlsor of plant status Contact the Unit 2 Control Room to provide ComniunlcationAide per EPIP-EPP-18 Review EPIP-EPP-01for classlricatlonof an emergency (see EAL 7 2 2 & 7 2 4)

NoI@ On-call Supervisor of plant status Provide overall direction, delegating specdc respcnsibilitw to CRS/STA as conditionswarrant Evaluate consequencesof a radiological emergency as It pertains to nuclear safety and overall operahon of the plant Evaluate use of DamageControlTeams to minimize, control and terminate emergency condition I Direct Damage Repair Coordinator (DRC) to determine effect on Cold Shutdown&Q Vessel inventory makeup capability (Cl)oer N1-DRP-OPS-001.N1-DRP-GEN-004 ANI) -EPlP-EPP-22 L

I I

THEN 1 Monitor progress of Damage Repair Teams 2 Maintain listing of abnormal operating requirements as DRP(s) are completed

I Nl-SOP-21.2 /

= CRSlCSCb IF I 9 THEN Direct ROlNOA> to perform Manual Veswl ltolauonpEr I , - ~... - I t

N1-SOF-212 An 2 Whin Ihour otevent 1 Restore and maintain RPV water levelbetaeen +53 in and +95 in using CondensatelFWand/or CRD 2 Keep SM informed d R W level and pressure RSP 11 IF

......................................... WEN ..

EC System Place EMERGENCY COOLING ISOLATIONBYPASS keylock wit:

isaiates I In BYPASS per CRS direction.

i 39-05can ~ 9 1cornmi RPV cooidow as to~tom:

I be do&, 1. Verify open 39-07, EC STh4 ISCUTIONVALVE 112 1 2 Cycle mi1and closed 39-09, EC STM ISOLATION

.. 111

..VALVE

- l - ^ ...... . - - ....................

........ ".,"" l . "

RPV level can 1. Verify low pressure sys!emems ~ied up NOT be 2. Reinsiall ERV (uses mainlainec011 3. Directoperators lo maintain RPV level 3 Dired oprators to maiiiiainRPV level SCalC (UPSCahO ktw n t53 and 95 in:

or doanscaloj &e w a y (localpump dmit breaker q d i may be required) 1 Firewater to Feedwater f

CAUTIO&: Opening 39-07 and 39-09too rapidly may cause waterhammer Using PULL-TO-STOPwill control valve motion Commcncc a normal RPV cooldown (el0D"Flhr) with EC 11 1 Place CHANNEL 11 CONTROL TRANSFER keylock switch in EMERG positionto transfer conlrol t o RSP 2 Verify open 39-07 .&Q 39-09 3 Control RPV cooldown by cycling open and closed 39-05, EMERGENCYCONDENSER COND RTN IV 11 I

aintain RPV level 121/122 LEVEL CONTROL TRANSFER switch c

A-I WEN commence Cold Shutdown as S

directed J

M by I NINE MILE POINT NUCLEARSTATION IJNIT 1

/e END] PROCEDURE NUMBER SPECIAL OPERATINO PROCEDURE N1-SOP-21 2

PIRC JPM P-3 Constellation Energy Group NINE MILE POINT UNIT 1 OPERATOR JOB PERFORMANCE MEASURE

Title:

Place UPS 162A in Standby from Shutdown Condition, Revision: NRC 2008 Transfer to Supply RPS 11 Task Number: N1-2 12000-04001, N1-2 12000-04002 NIA - Exam Securitv I General SuDervisor Date Operations Training (Designee) Operations (Designee)

N/A - Exam Security I Configuration Control Date Performer: (RO/SRO)

TrainedEvaluator:

Evaluation Method: Perform - X Simulate Evaluation Location: X Plant -- Simulator Expected Completion Time: 30 Minutes Time Critical Task: No Alternate Path Task: No Start Time: StopTime: - Completion Time:

JPM Overall Rating: Pass Fail NOTE: A JPM overall rating of fail shall be given if any critical step is graded as fail. Any grade of unsat or individual competency area unsat requires a comment.

Comments:

Evaluators Signature: Date:

NRC 2008 JPM P-3 October 2008

I Recommended Start Location: (Completion time based on the start location)

NMP Unit 1 Turbine Building Elevation 26 1 Simulator Set-up (if required):

None Directions to the Instructor/Evaluator:

Prior to performance of this JPM, obtain SM / CSO general permission to open equipment cabinets and inspection covers. If opening the equipment cabinet or inspection cover will affect Tech. Spec. Operability, operational status, or the effects are unknown, obtain specific SM / CSO permission.

Directions to Operators:

Read Before Even JPM Performance:

For the performance of this JPM, I will function as the SM, CSO, and Auxiliary Operators. Prior to providing direction to perform this task, I will provide yca with the initial conditions and answer any questions. During task performance, I will identify the steps to be simulated, or discuss and provide cues as necessary.

With the exception of accessing panels, NO p h t equipment will be physically manipulated. Repositioning of devices will be simulated by discussion and acknowledged by my cues.

Read Before Each Evaluated JPM Performance:

This evaluated JPM is a measure of your ability to perform this task independently. The Control Room Supervisor has determined that a verifier is not available and that additional / concurrent verification will not be provided; therefore, it should not be requested.

Read Before Each Training JPM Performance:

During this Training JPM, applicable methods of verification are expected to be used. Therefore, either another individual or I will act as the independlzntlpeer verifier.

Notes to Instructor / Evaluator:

1. Critical steps are identified in grading areas as Pass/Fail. All steps are sequenced critical unless denoted by a 0.
2. During Evaluated JPM:

0 Self verification shall be demonstrated.

3. During Training JPM:

0 Self verification shall be demonstrated.

0 No other verification shall be demonstrated.

References:

1. N1-OP-40
2. NUREG 1123 WA 212000 A1.04 (RO 2.8, SRO 3.0), A1.05 (RO 2.6, SRO 2.7)

Tools and Equipment:

None NRC 2008 JPM P-3 October 2008

Task Standard: RPS Bus 11 is supplied from UPS 162A.

Initial Conditions:

1. UPS 162B is supplying RPS Bus 11
2. Control Switch and Electrical Lineups are complete per N1-OP-40 Attachments 1 and 2
3. The Electrical Safety requirements for the upcoming job have been determined to be as follows:

Leather gloves Safety glasses or goggles 100% cotton long sleeve shirt and pants, OR 100% cotton short sleeve shirt and pants under flame-resistant lab coat

4. Instructor to ask for any questions Initiating Cues:

(Operatorsname), place UPS 162A in standhy in accordance with N1-OP-40, section E.l, and then transfer RPS Bus 11 supply from UPS 162B to UPS 162A in accordance with N1-OP-40, section F.2.

Performance Steps Standard Grade __

1. Provide repeat back of initiating cue Proper communications used Sat/Unsat Evaluator Acknowledge repeat back (GAP-OPS-01) providing correction if necessary RECORD START TIME
2. Obtain a copy of the reference procedure N1-OP-40 obtained SaWnsat and reviewhtilize the correct section of the Prec,autions& limitations reviewed procedure Section E. 1 and F.2 referenced
3. Verify Control Switch Lineup performed Determines Lineups complete per initial Sat/Unsat per Attachment 1 and Electrical Lineup conditions performed per Attachment 2
4. Verify open the following breakers, at Verifies open the following breakers at UPS SaWnsat UPS to be started: 162A:

0 B40 1, RECTIFIER INPUT BKR 0 B40 1,RECTIFIER INPUT BKR 0 B402, RECTIFIER OUTPUT BKR 0 B402, RECTIFIER OUTPUT BKR 0 B 1, INVERTER INPUT BKR 0 B 1, INVERTER INPUT BKR 0 B2, INVERTER OUTPUT BKR 0 B2, INVERTER OUTPUT BKR 0 B20 1, STATIC SW INPUT BKR B20 1, STATIC SW INPUT BKR

5. Perform the following at UPS control Verifies closed the following at UPS 162 Pass/Fail cabinets: control cabinet:
a. Close ACISW, AC INPUT DISC SW a. Close ACISW, AC INPUT DISC SW
b. Close BPSW, BYPASS DISC SW b. Close BPSW, BYPASS DISC SW
c. Close DCISW, DC INPUT DISC SW c. Close DCISW, DC INPUT DISC SW NRC 2008 JPM P-3 October 2008

. I Performance Steps Standard Grade

6. Confirm Bypass Transformer PRIMARY Observes Bypass Transformer PRIMARY Sat/Unsat VOLTAGE V80 1 indicates approximately VOLTAGE V80 1 indicates approximately 600 VAC 600 VAC Cue:Voltage indicates 600 VAC
7. Confirm BYPASS AC INPUT V20 1 Observes BYPASS AC INPUT V20 1 Sat/Unsat indicates 118-126 VAC indicates 118-126 VAC Cue:AC Input indicates 121 VAC
8. Close B 1, INVERTER INPUT BKR as follows:
a. Depress PRE-CHARGE Depresses PRE-CHARGE PUSHBUTTON, Pass/Fail PUSHBUTTON, UNTIL UNTIL PRECHARGE light (P7) becomes PRECHARGE light (P7) becomes energized energized Cue: P7 light is energized
b. WHEN PRE-CHARGE light is Closes B1 AND observes the following: Pass/Fail energized, close B1 AND confirm the following:

0 BATTERY DC INPUT V1 BATTERY DC INPUT V1 133-135 Sat/Unsat 133-135 VDC VDC INVERTER OUTPUT V2 INVERTER OUTPUT V2 118-126 Sat/Unsat 118-126 VAC VAC INVERTER FREQUENCY INVERTER FREQUENCY El 59.5- Sat/Unsat E l 59.5-60.5 HZ 60.5 Hz Cue: Battery DC Input V1 is 134 VDC Inverter Output V2 is 120 VAC Inverter Frequency E l is 60 Hz

9. Close B40 1 RECTIFIER INPUT BKR Closes B40 1, RECTIFIER INPUT BKR and Pass/Fail and confirm the following: confirms the following:

RECTIFIER INPUT V40 1, RECTIFIER INPUT V40 1, V402, SaWnsat V402, V403 approximately V403 approximately 600 VAC 600 VAC RECTIFIER OUTPUT V404 137-145 SatRJnsat 0 RECTIFIER OUTPUT V404 VDC 137-145 VDC Cue: Rectifier Input V401,V402, V403 indicate 600 VAC Rectifier Output V404 is 140 VDC NRC 2008 JPM P-3 October 2008

Performance Steps Standard Grade

10. Close B402, RECTIFIER OUTPUT BKR Closes B402, RECTIFIER OUTPUT BKR Pass/Fail
11. Confirm BATTERY DC INPUT A1 Observes BATTERY DC INPUT A1 Sat/Unsat indicates 0 amps indicates 0 amps Cue: Battery DC Input A1 indicates 0 amps
12. Close B2, INVERTER OUTPUT BKR Closes B2, INVERTER OUTPUT BKR Pass/Fail
13. Close B20 1, STATIC SW INPUT BKR Closes B20 1, STATIC SW INPUT BKR and Pass/Fail and confirm the following: observes the following:

0 STATIC SWITCH OUTPUT 0 STATIC SWITCH OUTPUT V202 Sat/Unsat V202 indicates 118-126 VAC indicates 118-126 VAC 0 IN SYNC light (P3) energized IN SYNC light (P3) energized Sat/Unsat Cue: Static Switch Output V202 indicates 122 VAC In Sync light is energized

14. IF the IN SYNC light (P3) is not Determines step is N/A SatAJnsat energized, THEN contact Electrical Maintenance to adjust R5 on oscillator board X2 as needed to energize the IN SYNC light (P3)
15. Once the IN SYNC light is energized, Once the IN SYNC light is energized, Samnsat confirm the following occurs within observes the following occurs within approximately 30 seconds: approximately 30 seconds:

0 INVERTER TO LOAD light 0 INVERTER TO LOAD light (P201)

(P201) energized energized 0 BYPASS AC TO LOAD light 0 BYPASS AC TO LOAD light (P202)

(P202) extinguished extinguished Cue: INVERTER TO LOAD light is on BYPASS AC TO LOAD light is off

16. Depress ALARM RESET (S2) to clear all Depress ALARM RESET (S2) to clear all Sat/Unsat alarm lights on UPS alarm lights on U P S Cue: All alarms are clear NRC 2008 JPM P-3 October 2008

Performance Steps Standard Grade __

17. Close ACOSW, AC OUTPUT DISC SW Closes ACOSW, AC OUTPUT DISC SW and Pass/Fail and confirm UPS output voltage by: observes UPS output voltage by:

0 Place the SYNCHROSCOPE Places the SYNCHROSCOPE SaWnsat CONTROL switch (S701) in CONTROL switch (S701) in the ON the ON position position 0 Confirm 118-126 VAC on 0 Observes 118-126 VAC on UPS A SaWnsat UPS A VOLTS TO VOLTS TO SYNCHROSCOPE SYNCHROSCOPE V701 or V701 or UPS B VOLTS TO UPS B VOLTS TO SYNCHROSCOPE V702 as SYNCHROSCOPE V702, as appropriate appropriate Cue:Volts indicate 120 VAC 0 Place SYNCHROSCOPE Places SYNCHROSCOPE S a w nsat CONTROL switch (S70 1) in CONTROL switch (S70 1) in OFF OFF

18. Eight hour warm up time is utilized when Notes 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> warmup time SaWnsat energizing shutdown UPS after N1-EPM-UPS-003 Cue: 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> is complete
19. Re-confirms UPS output 117-125 VAC by the following steps:

0 Place the SYNCHROSCOPE 0 Places the SYNCHROSCOPE SaWnsat CONTROL switch (S701) in CONTROL switch (S701) in the ON the ON position position 0 Confirm 118-126 VAC on 0 Observes 118-126 VAC on UPS A Sat/Unsat UPS A VOLTS TO VOLTS TO SYNCHROSCOPE SYNCHROSCOPE V701 or V701 or UPS B VOLTS TO UPS B VOLTS TO SYNCHROSCOPE V702 as SYNCHROSCOPE V702 as appropriate appropriate Cue: Volts indicate 120 VAC 0 Place SYNCHROSCOPE Places SYNCHROSCOPE SaWnsat CONTROL switch (S701) in CONTROL switch (S701) in OFF OFF NRC 2008 JPM P-3 October 2008

Performance Steps Standard Grade Note: Continues at procedure step F.2

20. Notify Control Room that RF'S Bus 11 will Proper communications used SaWnsat be transferred from UPS 162B to UPS (GAP-OPS-01) 162A Role Plav: Acknowledge report 2 1. Confirm UPS 162A in Standby by Confirms UPS 162A in Standby by observing Sat/Unsat observing the following: the following:

0 RECTIFIER OUTPUT A404 0 RECTIFIER OUTPUT A404 approximately 40 amps approximately 40 amps 0 BATTERY DC INPUT A1 0 0 BATTERY DC INPUT A1 0 amps amps 0 INVERTER OUTPUT V2 greater 0 INVERTER OUTPUT V2 than OR equal to 120 VAC greater than OR equal to 120 0 STATIC SWITCH OUTPUT V202 VAC greater than OR equal to 120 VAC 0 STATIC SWITCH OUTPUT V202 greater than OR equal to 120 VAC Cue: RECTIFIER OUTPUT A404 is 40 amps BATTERY DC INPUT A1 is 0 amps INVERTER OUTPUT V2 is 120 VAC STATIC SWITCH OUTPUT V202 is 120 VAC

22. Place SYNCHROSCOPE CONTROL Places SYNCHROSCOPE CONTROL (S70 1) Sat/Unsat (S701) in ON position AND confirm the in ON position AND observes the following: following:

UPS A VOLTS TO UPS A VOLTS TO SYNCHROSCOPE V701 SYNCHROSCOPE V70 1 approximately 120 VAC approximately 120 VAC 0 UPSBVOLTSTO 0 UPSBVOLTSTO SYNCHROSCOPE V702 SYNCHROSCOPE V702 approximately 120 VAC approximately 120 VAC Cue: UPS A VOLTS TO SYNCHROSCOPE V701 is 120 VAC UPS B VOLTS TO SYNCHROSCOPE V702 is 120 VAC

23. IF synchroscope is NOT within 10 degrees Checks synchroscope position, determines Sat/Unsat of the 12 o'clock position, THEN contact step NIA Electrical Maintenance to perform adjustment Cue: Synchroscope is at 12 o'clock NRC 2008 JPM P-3 October 2008

Performance Stem Standard Grade -

24. WHEN needle of synchroscope is within WHEN needle of synchroscope is within 10 Pass/Fail 10 degrees of 12 oklock position, place degrees of 12 o'clock position, places MANUAL TRANSFER SWITCH (S702) MANUAL TRANSFER SWITCH (S702) to to the UPS A SUPPLYING LOAD the UPS A SUPPLYING LOAD position position
25. Confirm load transfer by observing the Confirms load transfer by observing the Satmnsat following: following:

0 UPS B SUPPLYING LOAD 0 UPS B SUPPLYING LOAD light light OFF and/or UPS 162B OFF and/or UPS 162B STATIC STATIC SWITCH OUTPUT SWITCH OUTPUT A202 0 amps A202 0 amps UPS A SUPPLYING LOAD light ON UPS A SUPPLYING LOAD and/or UPS 162A STATIC SWITCH light ON and/or UPS 162A OUTPUT A202 approximately 80-90 STATIC SWITCH OUTPUT amps A202 approximately 80-90 amps Cue: UPS B Supplying load light is OFF Switch Output is 0 amps UPS A Supplying Load light is ON Switch Output is 85 amps

26. Verify NO unanticipated annunciators OR Verifies NO unanticipated annunciators OR SatAJnsat computer points present due to computer points present due to U P S 162A U P S 162A supply power supply power Cue: No unanticipated annunciators or computer points are present
27. Place SYNCHROSCOPE CONTROL Places SYNCHROSCOPE CONTROL (S701) SaWnsat (S701) in OFF position in OFF position
28. Place "STANDBY UPS" sign on 162B Places "STANDBY UPS" sign on 162B Satmnsat Power Supply Power Supply
29. Notify Control Room transfer complete Proper communications used Sat/Unsat (GAP-OPS-01)

Role Plav: Acknowledge report Terminating Cue: UPS 162A is powering RPS 11 RECORD STOP TIME NRC 2008 JPM P-3 October 2008

Initial Conditions:

1. UPS 162B is supplying RPS Bus 1 1
2. Control Switch and Electrical Lineups are complete per Nl-OP-40 Attachments 1 and 2
3. The Electrical Safety requirements for the upcoming job have been determined to be as follows:

Leather gloves Safety glasses or goggles 100% cotton long sleeve shirt and pants, OR 100% cotton short sleeve shirt and pants under flame-resistant lab coat Initiating Cues:

(Operators name), place UPS 162A in standby in accordance with N1-OP-40, section E. 1, and then transfer RPS Bus 11 supply from UPS 162B to UPS 162A in accordance with Nl-OP-40, section F.2.

NRC 2008 JPM P-3 October 2008

E. STARTUP Initials NOTES: 1. This section is used to place any one of the four UPS units in Standby from a powered down condition WHEN one UPS in a channel is supplying power to RPS Bus.

2. Section E.3.0 is to be used to place any one of four UPS units in Standby when BOTH UPS supplies for a channel are in a powered down condition.
3. Eight hours warn up time is utilized when energizing shutdown UPS fdlowing the ten year PM, N1-EPM-UPS-003.
4. The SM may waive the warm up time provided UPS output voltage has been verified to be 120 (+/- 2) VAC with a digital volt meter (DVM).

1.0 Placinq UPS in Standbv from Shutdown Condition 1.1 Verify Control Switch Lineup performed per Attachment 1 1.2 Verify Electrical Lineup performed per Attachment 2 1.3 Verify open the following breakers, at UPS to be started:

0 6401, RECTIFIER INPUT BKR 0 6402, RECTIFIER OUTPUT BKR 0 B1, INVERTER INPUT BKR 0 82, INVERTER OUTPlJT BKR 0 6201, STATIC SW INPUT BKR 1.4 Perform the following at UPS control cabinets:

1.4.1 Close ACISW, AC INPIJT DISC SW 1.4.2 Close BPSW, BYPASS DISC SW 1.4.3 Close DCISW, DC INF'UT DISC SW Page 13 N1-0P-40 Rev 18

E. STARTUP (Cont) Initials 1.5 Confirm Bypass Transformer PRIMARY VOLTAGE V801 indicates approximately 600 VAC 1.6 Confirm BYPASS AC INPUT V201 indicates 118-126 VAC NOTE: The following steps should be reviewed to prevent tripping B l due to low precharge voltage. B1 should be closed immediately after the precharge light (P7) becomes energized.

1.7 Close B1, INVERTER INPUT BKR as follows:

1.7.1 Depress PRE-CHARGE PUSHBUTTON, UNTIL PRE-CHARGE light (P7) becomes energized 1.7.2 WHEN PRE-CHARGE light is energized, close B1 AND confirm the following:

0 BATTERY DC INPUT V I 133-135 VDC 0 INVERTER OUTPUT V2 118-126 VAC 0 INVERTER FREQUENCY E l 59.5-60.5HZ 1.8 Close B401, RECTIFIER INPU'i BKR and confirm the following:

0 RECTIFIER INPUT V401 , V402, V403 approximately 600 VAC 0 RECTIFIER OUTPUT V404 137-145 VDC I.9 Close B402, RECTIFIER OUTPUT BKR 1-10 Confirm BATTERY DC INPUT A1 indicates 0 amps 1.II Close B2, INVERTER OUTPUT BKR 1.I2 Close B201, STATIC SW INPUT BKR and confirm the following:

0 STATIC SWITCH OUTPUT V202 indicates 118-126 VAC 0 IN SYNC light (P3) erlergized --

Page 14 N1-OP-40 Rev 18

F. NORMAL OPERATION (Cont) -

Initials 1.6 Confirm load transfer by observing the following:

0 UPS A SUPPLYING LOAD light OFF andlor UPS 16% STATIC SWITCH OUTPUT A202 0 amps 0 UPS B SUPPLYING LOAD light ON andlor UPS 1626 STATIC SWITCH OUTPUT A202 approximately 80-90 amps I.7 Verify NO unanticipated annunciators OR computer points present due to UPS 162B supply power 1.8 Place SYNCHROSCOPE CONTROL (S701) in OFF position 1.9 Place "STANDBY UPS" sign on 'I62A Power Supply

1. I O Notify Control Room transfer coniplete 2.0 Transfer of Loads from UPS 1626 to UP!: 16%

2.1 Notify Control Room that RPS BJS11 will be transferred from UPS 1628 to UPS 162A 2.2 Confirm UPS 162A in Standby by observing the following:

0 RECTIFIER OUTPUT A404 approximately 40 amps 0 BATTERY DC INPUT A1 0 amps 0 INVERTER OUTPUT V2 greater than OR equal to 120 VAC 0 STATIC SWITCH OUTPUT V202 greater than OR equal to 120 VAC 2.3 Place SYNCHROSCOPE CONTROL (S701) in ON position AND confirm the following:

0 UPS A VOLTS TO SYNCHROSCOPE V701 approximately 120 VAC 0 UPS B VOLTS TO SYNCHROSCOPE V702 approximately 120 VAC Page 26 N1-0P-40 Rev 18

F. NORMAL OPERATION (Cont) -

Initials 2.4 IF synchroscope is NOT within 10 degrees of the 12 o'clock position, THEN contact Electrical Maintenance to perform adjustment NIA, Synchroscope IS within 10 degrees of the 12 o'clock position ...........,,(-)

NOTE: The MANUAL TRANSFER SWITCH (S702) is a strong, spring loaded make before break contactor. Switch ro'tation should be firm, quick and continuous in the direction of the incoming UPS, to a point beyond horizontal.

2.5 WHEN needle of synchroscope is; within 10 degrees of 12 o'clock position, place MANUAL TRANSFER SWITCH (S702) to the UPS A SUPPLYING LOAD position 2.6 Confirm load transfer by observirig the following:

e UPS B SUPPLYING LOAD light OFF andlor UPS 1626 STATIC SWITCH OUTPUT A202! 0 amps e UPS A SUPPLYING LOAD light ON andlor UPS 16% STATIC SWITCH OUTPUT A202 approximately 80-90 amps 2.7 Verify NO unanticipated annunciators OR computer points present due to UPS 162A supply power 2.8 Place SYNCHROSCOPE CONTROL (S701) in OFF position 2.9 Place "STANDBY UPS sign on 162B Power Supply 2.1 0 Notify Control Room transfer complete Page 27 N1-0P-40 Rev 18

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