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Post Exam Question RO-25, NRC Exam, Comments, and Reference Documents, AOP-9A, Rev. 14
	ML082590058
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Site:	Calvert Cliffs
Issue date:	02/01/2008
From:	Dean E; Calvert Cliffs
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	Hansell S
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CALVERT CLIFFS NUCLEAR POWER PLANT CALVERT CLIFFS NUCLEAR POWER PLANT CALVERT CLIFFS NUCLEAR POWER PLANT TECHNICAL PROCEDURE TECHNICAL PROCEDURE TECHNICAL PROCEDURE UNIT ONE UNIT ONE UNIT ONE AOP-9A AOP-9A AOP-9A CONTROL ROOM EVACUATION AND SAFE SHUTDOWN DUE TO A CONTROL ROOM EVACUATION AND SAFE SHUTDOWN DUE TO A CONTROL ROOM EVACUATION AND SAFE SHUTDOWN DUE TO A SEVERE CONTROL ROOM FIRE SEVERE CONTROL ROOM FIRE SEVERE CONTROL ROOM FIRE REVISION 14 REVISION 14 REVISION 14 Safety Related Safety Related Safety Related Approval Authority: ________________________________________

Approval Authority: ________________________________________

signature/date signature/date Effective Date: _______________

Effective Date: _______________

E.D. Dean III 1/30/08 2/1/08

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 2 of 90 Page 2 of 90 LIST OF EFFECTIVE PAGES LIST OF EFFECTIVE PAGES LIST OF EFFECTIVE PAGES PAGE NUMBERS PAGE NUMBERS PAGE NUMBERS REVISION REVISION REVISION 1-90 1-90 14 14 APPENDIX NUMBER APPENDIX NUMBER APPENDIX NUMBER REVISION REVISION REVISION 11 14 14 PROCEDURE ALTERATIONS PROCEDURE ALTERATIONS PROCEDURE ALTERATIONS REVISION/CHANGE REVISION/CHANGE REVISION/CHANGE PAGE NUMBERS PAGE NUMBERS PAGE NUMBERS 1400 1400 7,11,12,13,16,19,63,73 7,11,12,13,16,19,63,73

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 3 of 90 Page 3 of 90 TABLE OF CONTENTS TABLE OF CONTENTS TABLE OF CONTENTS SECTION SECTION SECTION TITLE TITLE TITLE PAGE PAGE PAGE I.I.

PURPOSE PURPOSE............................................................................................

44 II.

II.

ENTRY CONDITIONS ENTRY CONDITIONS..........................................................................

44 III.

III.

PRECAUTIONS PRECAUTIONS....................................................................................

44 IV.

IV.

ACTIONS ACTIONS..............................................................................................

66 V.

V.

SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST 88 88 APPENDIX (1) AOP-9A PLACEKEEPER APPENDIX (1) AOP-9A PLACEKEEPER

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 4 of 90 Page 4 of 90 I.I.

PURPOSE PURPOSE The purpose of this procedure is to place the plant in Cold Shutdown within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months after a The purpose of this procedure is to place the plant in Cold Shutdown within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months after a severe Control Room fire.

severe Control Room fire.

II.

ENTRY CONDITIONS ENTRY CONDITIONS A.

A.

This procedure is to be implemented in the event a severe fire has occurred or is in This procedure is to be implemented in the event a severe fire has occurred or is in progress. A severe fire is a fire located in an Alternate/Dedicated Shutdown area which progress. A severe fire is a fire located in an Alternate/Dedicated Shutdown area which inhibits or prohibits the use of normal shutdown procedures, such as OPs, EOPs, and inhibits or prohibits the use of normal shutdown procedures, such as OPs, EOPs, and OIs.

OIs.

III.

PRECAUTIONS PRECAUTIONS The following specific precautions apply prior to or throughout this procedure.

The following specific precautions apply prior to or throughout this procedure.

A.

WARNINGS WARNINGS WARNINGS 1.

1. None None B.

B.

CAUTIONS CAUTIONS CAUTIONS 1.

1. All Outside Operator actions will be performed under this procedure. Unit 2 All Outside Operator actions will be performed under this procedure. Unit 2 AOP-9A contains identical steps as a placekeeper. If the step is not performed AOP-9A contains identical steps as a placekeeper. If the step is not performed using this procedure, then the OSO step should be performed with the Unit 2 using this procedure, then the OSO step should be performed with the Unit 2 AOP-9A.

AOP-9A.

2.

2. Valid ESFAS and AFAS signals to equipment shall Valid ESFAS and AFAS signals to equipment shall NOT NOT NOT be overridden or blocked be overridden or blocked unless specifically directed in this procedure. A valid signal is a signal that at the unless specifically directed in this procedure. A valid signal is a signal that at the time of initiation, correlated to plant parameters (e.g., the monitored parameter time of initiation, correlated to plant parameters (e.g., the monitored parameter actually reached its setpoint value).

actually reached its setpoint value).

3.

3. This procedure contains reactivity sensitive steps, actions or consequences.

This procedure contains reactivity sensitive steps, actions or consequences.

Caution should be used to control plant parameters that affect reactivity.

4.

4. A fire in this room could affect all four(4) safety related DGs. The 0C DG will be A fire in this room could affect all four(4) safety related DGs. The 0C DG will be used to supply 24 4KV Bus in addition to 11 4KV Bus. Loading of the 0C DG onto used to supply 24 4KV Bus in addition to 11 4KV Bus. Loading of the 0C DG onto 11 4KV Bus, as well as operation of the other four(4) DGs will be controlled from 11 4KV Bus, as well as operation of the other four(4) DGs will be controlled from this procedure. Unit 2 procedures will load the 0C DG onto 24 4KV Bus. Actions this procedure. Unit 2 procedures will load the 0C DG onto 24 4KV Bus. Actions should be coordinated with Unit 2 and 0C DG loading carefully monitored. The should be coordinated with Unit 2 and 0C DG loading carefully monitored. The continuous load limit for the 0C DG is 5400 KW. The 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months load limit is 5940 KW.

continuous load limit for the 0C DG is 5400 KW. The 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months load limit is 5940 KW.

(continue)

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 5 of 90 Page 5 of 90 III. (continued)

III. (continued)

C.

NOTES NOTES NOTES 1.

1. Offsite power may be lost at any time during this event. Evolutions are performed Offsite power may be lost at any time during this event. Evolutions are performed to place 0C Diesel Generator on 4KV Bus 24 and 4KV Bus 11 and to secure the to place 0C Diesel Generator on 4KV Bus 24 and 4KV Bus 11 and to secure the remaining 4KV Busses. In the event a loss of offsite power occurs within the first remaining 4KV Busses. In the event a loss of offsite power occurs within the first hour, a Station Blackout will be in effect until the 0C Diesel Generator and hour, a Station Blackout will be in effect until the 0C Diesel Generator and necessary support equipment are re-aligned.

necessary support equipment are re-aligned.

2.

2. The 0C DG must be started within 30 minutes of a loss of power to 07 4KV Bus to The 0C DG must be started within 30 minutes of a loss of power to 07 4KV Bus to prevent the need for prelubing the 0C DG using the pneumatic prelube pumps.

prevent the need for prelubing the 0C DG using the pneumatic prelube pumps.

3.

3. It is important to establish Auxiliary Feedwater flow within 30 minutes and Charging It is important to establish Auxiliary Feedwater flow within 30 minutes and Charging flow within 60 minutes.

flow within 60 minutes.

4.

4. During the post-fire shutdown, the Reactor Coolant System parameters shall be During the post-fire shutdown, the Reactor Coolant System parameters shall be maintained within those predicted for a loss of offsite power. The fission product maintained within those predicted for a loss of offsite power. The fission product boundary integrity shall not be affected. The Reactor Coolant makeup function boundary integrity shall not be affected. The Reactor Coolant makeup function shall be capable of maintaining level indication in the Pressurizer. No other plant shall be capable of maintaining level indication in the Pressurizer. No other plant accidents are assumed to occur except as precipitated by the fire.

accidents are assumed to occur except as precipitated by the fire.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 6 of 90 Page 6 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS A.

A.

(SM)

(SM) DETERMINE IF A SEVERE FIRE IS IN PROGRESS OR HAS OCCURRED IN DETERMINE IF A SEVERE FIRE IS IN PROGRESS OR HAS OCCURRED IN THE CONTROL ROOM THE CONTROL ROOM NOTE NOTE NOTE This procedure has parallel operations assigned to specific watchstations. When a boxed This procedure has parallel operations assigned to specific watchstations. When a boxed function is completed, it shall be reported to 1C43 and the next boxed function specific to function is completed, it shall be reported to 1C43 and the next boxed function specific to that Operator shall be implemented. Where it is necessary to ensure supporting evolutions that Operator shall be implemented. Where it is necessary to ensure supporting evolutions are completed before execution of another, a conditional statement is used.

are completed before execution of another, a conditional statement is used.

NOTE NOTE NOTE A severe fire is a fire located in an Alternate/Dedicated Shutdown area which inhibits or A severe fire is a fire located in an Alternate/Dedicated Shutdown area which inhibits or prohibits the use of normal shutdown procedures, such as OPs, EOPs, and OIs.

prohibits the use of normal shutdown procedures, such as OPs, EOPs, and OIs.

1.

1. Evaluate plant conditions to determine if a severe fire condition exists.

Evaluate plant conditions to determine if a severe fire condition exists.

2.

2. Consider the following characteristics to determine if the fire will require implementation Consider the following characteristics to determine if the fire will require implementation of this procedure:

of this procedure:

Physical damage to redundant Safe Shutdown equipment trains which renders Physical damage to redundant Safe Shutdown equipment trains which renders them incapable of performing their design function as a result of the fire and/or fire them incapable of performing their design function as a result of the fire and/or fire fighting efforts.

fighting efforts.

Fires which occur in an Alternative/Dedicated Shutdown area and it can Fires which occur in an Alternative/Dedicated Shutdown area and it can NOT NOT NOT be be readily determined that Safe Shutdown equipment is free of fire damage.

readily determined that Safe Shutdown equipment is free of fire damage.

B.

(RO)

(RO) TRIP THE REACTOR TRIP THE REACTOR NOTE NOTE NOTE This procedure has parallel operations assigned to specific watchstations. When a boxed This procedure has parallel operations assigned to specific watchstations. When a boxed function is completed, it shall be reported to 1C43 and the next boxed function specific to function is completed, it shall be reported to 1C43 and the next boxed function specific to that Operator shall be implemented. Where it is necessary to ensure supporting evolutions that Operator shall be implemented. Where it is necessary to ensure supporting evolutions are completed before execution of another, a conditional statement is used.

are completed before execution of another, a conditional statement is used.

1.

1. Trip the Reactor by depressing Trip the Reactor by depressing ONE ONE ONE set of Manual Reactor Trip Buttons at 1C05 or set of Manual Reactor Trip Buttons at 1C05 or 1C15.

1C15.

2.

2. GO TO GO TO GO TO the Main Turbine Front Standard.

the Main Turbine Front Standard.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 7 of 90 Page 7 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS C.

C.

(CRO (CRO (CRO OR OR OR RO)

RO)

RO) ATTEMPT TO TRIP THE MAIN TURBINE, SGFPS, AND SHUT MSIVS ATTEMPT TO TRIP THE MAIN TURBINE, SGFPS, AND SHUT MSIVS NOTE NOTE NOTE This procedure has parallel operations assigned to specific watchstations. When a boxed This procedure has parallel operations assigned to specific watchstations. When a boxed function is completed, it shall be reported to 1C43 and the next boxed function specific to function is completed, it shall be reported to 1C43 and the next boxed function specific to that Operator shall be implemented. Where it is necessary to ensure supporting evolutions that Operator shall be implemented. Where it is necessary to ensure supporting evolutions are completed before execution of another, a conditional statement is used.

are completed before execution of another, a conditional statement is used.

1.

1. Before leaving the Control Room:

Before leaving the Control Room:

a.

a. Attempt to trip the Main Turbine at 1C02.

Attempt to trip the Main Turbine at 1C02.

b.

b. Attempt to trip 11 and 12 SGFPs at 1C03.

Attempt to trip 11 and 12 SGFPs at 1C03.

c.c.

Attempt to shut 11 and 12 MSIVs at 1C03.

d.

d. Attempt to trip Attempt to trip ALL ALL ALL RCPs at 1C06 or 1C19.

RCPs at 1C06 or 1C19.

1400 1400 e.

e. Attempt to depress the 0C DG EMERGENCY START Pushbutton on 1C19C.

Attempt to depress the 0C DG EMERGENCY START Pushbutton on 1C19C.

D.

(ALL PERSONNEL)

(ALL PERSONNEL) EVACUATE THE CONTROL ROOM EVACUATE THE CONTROL ROOM 1.

1. WHEN WHEN WHEN evacuation is ordered, evacuation is ordered, THEN THEN THEN ALL ALL ALL personnel are to leave the Control Room.

personnel are to leave the Control Room.

2.

2. Personnel assigned to operate Safe Shutdown Equipment are to report Personnel assigned to operate Safe Shutdown Equipment are to report to their Safe Shutdown Station.

to their Safe Shutdown Station.

E.

(RO)

(RO) MANUALLY TRIP THE MAIN TURBINE MANUALLY TRIP THE MAIN TURBINE 1.

1. Manually trip the Unit 1 Main Turbine at the Front Standard.

Manually trip the Unit 1 Main Turbine at the Front Standard.

2.

2. GO TO GO TO GO TO Unit 1 45' Switchgear Room.

Unit 1 45' Switchgear Room.

3.

3. Notify 1C43 that the Main Turbine is tripped.

Notify 1C43 that the Main Turbine is tripped.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 8 of 90 Page 8 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS F.

F.

(UNIT 1 PERSONNEL)

(UNIT 1 PERSONNEL) UNLOCK SAFE SHUTDOWN KEY LOCKER AND UNLOCK SAFE SHUTDOWN KEY LOCKER AND EQUIPMENT LOCKER EQUIPMENT LOCKER 1.

1. Open 11 ADV Handvalve enclosure.

Open 11 ADV Handvalve enclosure.

2.

2. Obtain the Safe Shutdown Key Locker door key.

Obtain the Safe Shutdown Key Locker door key.

3.

3. Open the Safe Shutdown Key Locker.

Open the Safe Shutdown Key Locker.

NOTE NOTE NOTE The key for the Safe Shutdown Equipment Locker is on the 1C43 Panel key ring.

The key for the Safe Shutdown Equipment Locker is on the 1C43 Panel key ring.

4.

4. Obtain the Safe Shutdown Equipment Locker key.

Obtain the Safe Shutdown Equipment Locker key.

5.

5. Open the Safe Shutdown Equipment Locker.

Open the Safe Shutdown Equipment Locker.

G.

(CRO)

(CRO) OBTAIN SAFE SHUTDOWN EQUIPMENT OBTAIN SAFE SHUTDOWN EQUIPMENT 1.

1. Obtain designated key ring and equipment at Safe Shutdown Key and Equipment Obtain designated key ring and equipment at Safe Shutdown Key and Equipment Lockers.

Lockers.

H.

(CRO)

(CRO) SHUTDOWN 11 AND 12 CEDM MG SETS SHUTDOWN 11 AND 12 CEDM MG SETS 1.

1. On the CEDM MG Set Control Panel:

On the CEDM MG Set Control Panel:

a.

a. Depress the Local LOAD OFF Pushbutton.

Depress the Local LOAD OFF Pushbutton.

b.

b. Depress the Remote LOAD OFF Pushbutton.

Depress the Remote LOAD OFF Pushbutton.

c.c.

Depress and hold the Local MOTOR OFF Pushbutton until the MOTOR ON light Depress and hold the Local MOTOR OFF Pushbutton until the MOTOR ON light deenergizes.

deenergizes.

d.

d. Depress and hold the Remote MOTOR OFF Pushbutton until the MOTOR ON light Depress and hold the Remote MOTOR OFF Pushbutton until the MOTOR ON light deenergizes.

deenergizes.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 9 of 90 Page 9 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS I.I.

(CRO)

(CRO) VERIFY REACTOR IS SHUTDOWN VERIFY REACTOR IS SHUTDOWN 1.

1. Isolate Channel B WRNI from the Control Room.

Isolate Channel B WRNI from the Control Room.

a.

a. Open OPT. ISOL, 1-NX-002B1 (behind CEDM MG Set).

Open OPT. ISOL, 1-NX-002B1 (behind CEDM MG Set).

b.

b. Place 1-HS-002B1 in OFF.

Place 1-HS-002B1 in OFF.

c.c.

On 1C43, verify 1-HS-015B selected to B.

2.

2. Verify Reactor Power is trending to or is less than 10 Verify Reactor Power is trending to or is less than 10-4

-4% power and lowering.

% power and lowering.

3.

3. WHEN WHEN WHEN Reactor Power is less than 10 Reactor Power is less than 10-4

-4% power and constant or lowering,

% power and constant or lowering, THEN THEN THEN Reactivity Control is satisfactory.

Reactivity Control is satisfactory.

J.J.

(SM)

(SM) DETERMINE EMERGENCY RESPONSE ACTION DETERMINE EMERGENCY RESPONSE ACTION NOTE NOTE NOTE The Shift Manager may designate personnel to notify the Offsite Agencies.

The Shift Manager may designate personnel to notify the Offsite Agencies.

1.

1. Determine the appropriate emergency response actions Determine the appropriate emergency response actions PER PER PER the ERPIP.

the ERPIP.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 10 of 90 Page 10 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS K.

K.

(CRO)

(CRO) CONSERVE RCS AND S/G INVENTORY CONSERVE RCS AND S/G INVENTORY 1.

1. Insert the key for RCP Bleedoff Isolation, 1-CV-505-CV.

Insert the key for RCP Bleedoff Isolation, 1-CV-505-CV.

2.

2. Rotate the key to CLOSE.

Rotate the key to CLOSE.

3.

3. Insert the key for CVCS Letdown Isolation, 1-CV-516-CV.

Insert the key for CVCS Letdown Isolation, 1-CV-516-CV.

4.

4. Rotate the key to CLOSE.

Rotate the key to CLOSE.

5.

5. Insert the key for RCS Sample Isolation, 1-PS-5464-SV.

Insert the key for RCS Sample Isolation, 1-PS-5464-SV.

6.

6. Rotate the key to CLOSE.

Rotate the key to CLOSE.

7.

7. Insert the key for 11 S/G SURF AND BOT B/D, 1-BD-4010-CV / 1-BD-4011-CV.

Insert the key for 11 S/G SURF AND BOT B/D, 1-BD-4010-CV / 1-BD-4011-CV.

8.

8. Rotate the key to CLOSE.

Rotate the key to CLOSE.

9.

9. Insert the key for 12 S/G SURF AND BOT B/D, 1-BD-4012-CV / 1-BD-4013-CV.

Insert the key for 12 S/G SURF AND BOT B/D, 1-BD-4012-CV / 1-BD-4013-CV.

10.

10. Rotate the key to CLOSE.

Rotate the key to CLOSE.

L.

(CRO)

(CRO) SECURE PRESSURIZER BACKUP HEATER BANKS 11 AND 13 SECURE PRESSURIZER BACKUP HEATER BANKS 11 AND 13 1.

1. Insert the key for 11 BACK UP HTR TRANSFER CONTR, in 1-HS-100-4A.

Insert the key for 11 BACK UP HTR TRANSFER CONTR, in 1-HS-100-4A.

2.

2. Rotate the key to OFF.

Rotate the key to OFF.

3.

3. Insert the key for 13 BACK UP HTR TRANSFER CONTR, in 1-HS-100-6A.

Insert the key for 13 BACK UP HTR TRANSFER CONTR, in 1-HS-100-6A.

4.

4. Rotate the key to OFF.

Rotate the key to OFF.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 11 of 90 Page 11 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS M.

M.

(TBO)

(TBO) OBTAIN SAFE SHUTDOWN EQUIPMENT OBTAIN SAFE SHUTDOWN EQUIPMENT 1400 1400 NOTE NOTE NOTE This procedure has parallel operations assigned to specific watchstations. When a boxed This procedure has parallel operations assigned to specific watchstations. When a boxed 1400 1400 function is completed, it shall be reported to 1C43 and the next boxed function specific to function is completed, it shall be reported to 1C43 and the next boxed function specific to

that Operator shall be implemented. Where it is necessary to ensure supporting evolutions that Operator shall be implemented. Where it is necessary to ensure supporting evolutions

are completed before execution of another, a conditional statement is used.

1.

1. Obtain designated key ring and equipment (including headlamp) at Safe Shutdown Key Obtain designated key ring and equipment (including headlamp) at Safe Shutdown Key

and Equipment Lockers.

2.

2. GO TO GO TO GO TO U-1 Cable Spreading Room to perform Step N.

U-1 Cable Spreading Room to perform Step N.

N.

(TBO)

(TBO) DE-ENERGIZE CV-517, CV-518, CV-519 AND PRZR AND REACTOR VESSEL DE-ENERGIZE CV-517, CV-518, CV-519 AND PRZR AND REACTOR VESSEL 1400 1400 HEAD VENTS.

HEAD VENTS.

NOTE NOTE NOTE Step N should be reported complete after Step O is completed.

Step N should be reported complete after Step O is completed.

1400 1400

1.

1. Open CONTROL ROOM 1C07 Breaker, 1D17-01.

Open CONTROL ROOM 1C07 Breaker, 1D17-01.

2.

2. Open CONTROL ROOM 1C07 Breaker, 1D11-05 Open CONTROL ROOM 1C07 Breaker, 1D11-05

3.

3. GO TO GO TO GO TO 27' Switchgear Room to perform Step O.

27' Switchgear Room to perform Step O.

O.

(TBO)

(TBO) TRIP MCC 114R LOAD CENTER BREAKER TRIP MCC 114R LOAD CENTER BREAKER 1400 1400 1.

1. ON 11B 480V Load Center, trip 114R REACTOR MCC, Breaker 52-1119 ON 11B 480V Load Center, trip 114R REACTOR MCC, Breaker 52-1119 1400 1400

2.

2. Notify 1C43 Load Center Breaker for MCC 114 is tripped and CV-517, CV-518, Notify 1C43 Load Center Breaker for MCC 114 is tripped and CV-517, CV-518,

CV-519, PZR and Head Vents are de-energized.

3.

3. GO TO GO TO GO TO the SGFPs 12' Turbine Building to perform Step W.

the SGFPs 12' Turbine Building to perform Step W.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 12 of 90 Page 12 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS P.

P.

(RO)

(RO) OBTAIN SAFE SHUTDOWN EQUIPMENT OBTAIN SAFE SHUTDOWN EQUIPMENT 1400 1400 1.

1. Obtain designated key ring and equipment (including headlamp and PPE for operating Obtain designated key ring and equipment (including headlamp and PPE for operating 1400 1400 13KV breakers) at Safe Shutdown Key and Equipment Lockers.

13KV breakers) at Safe Shutdown Key and Equipment Lockers.

2.

2. GO TO GO TO GO TO 14A 480V Load Center to perform Step Q.

14A 480V Load Center to perform Step Q.

Q.

(RO)

(RO) TRIP MCC 104R LOAD CENTER BREAKER TRIP MCC 104R LOAD CENTER BREAKER 1400 1400 1.

1. ON 14A 480V Load Center, trip 104R REACTOR MCC, Breaker 52-1409.

ON 14A 480V Load Center, trip 104R REACTOR MCC, Breaker 52-1409.

1400 1400

2.

2. Notify 1C43 Load Center Breaker MCC 104 is tripped.

Notify 1C43 Load Center Breaker MCC 104 is tripped.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 13 of 90 Page 13 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS R.

R.

(RO)

(RO) TRIP 11B AND 12B REACTOR COOLANT PUMPS TRIP 11B AND 12B REACTOR COOLANT PUMPS WARNING WARNING WARNING If available, a Safety Observer should be stationed when working on energized If available, a Safety Observer should be stationed when working on energized If available, a Safety Observer should be stationed when working on energized equipment.

equipment.

1.

1. Trip each Reactor Coolant Pump Breaker in the 45' Switchgear Room:

Trip each Reactor Coolant Pump Breaker in the 45' Switchgear Room:

(11B RCP) 252-13P01:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button

(12B RCP) 252-14P01:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button

(11B RCP) 252-13P02:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button

(12B RCP) 252-14P02:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button NOTE NOTE NOTE PPE for operating 13KV breakers will be required in the 27' Switchgear Room.

PPE for operating 13KV breakers will be required in the 27' Switchgear Room.

1400 1400 2.

2. Notify 1C43 that 11B and 12B Reactor Coolant Pumps are tripped.

Notify 1C43 that 11B and 12B Reactor Coolant Pumps are tripped.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 14 of 90 Page 14 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS S.

S.

(RO)

(RO) DE-ENERGIZE PRESSURIZER HEATER 112 PH AND NO. 12 PRESSURIZER DE-ENERGIZE PRESSURIZER HEATER 112 PH AND NO. 12 PRESSURIZER PROPORTIONAL HEATER (MCC 1N430)

PROPORTIONAL HEATER (MCC 1N430)

NOTE NOTE NOTE Control Power fuses for 112 PH PRESS HTR MCC Breaker are located inside the left-hand Control Power fuses for 112 PH PRESS HTR MCC Breaker are located inside the left-hand cabinet (1B03B), bottom row, third set from the left.

cabinet (1B03B), bottom row, third set from the left.

1.

1. Remove the Control Power Fuses for 112 PH PRESS HTR. MCC Breaker, 52-1318.

Remove the Control Power Fuses for 112 PH PRESS HTR. MCC Breaker, 52-1318.

2.

2. Depress the TRIP pushbutton for 112 PH PRESS HTR. MCC Breaker, 52-1318.

Depress the TRIP pushbutton for 112 PH PRESS HTR. MCC Breaker, 52-1318.

NOTE NOTE NOTE Control Power fuses for NO. 12 PRESS HTR PROP. CONT. are located inside the Control Power fuses for NO. 12 PRESS HTR PROP. CONT. are located inside the left-hand cabinet (1B04A), top row, second set from the left.

left-hand cabinet (1B04A), top row, second set from the left.

3.

3. Remove the Control Power Fuses for NO.12 PRESS. HTR. PROP. CONT. Breaker, Remove the Control Power Fuses for NO.12 PRESS. HTR. PROP. CONT. Breaker, 52-1430.

52-1430.

4.

4. Depress the TRIP pushbutton for NO.12 PRESS. HTR. PROP. CONT. Breaker, Depress the TRIP pushbutton for NO.12 PRESS. HTR. PROP. CONT. Breaker, 52-1430.

52-1430.

T.

(RO)

(RO) TAKE LOCAL CONTROL AND OPEN 1B DIESEL GENERATOR OUTPUT TAKE LOCAL CONTROL AND OPEN 1B DIESEL GENERATOR OUTPUT BREAKER BREAKER 1.

1. Insert the Local/Remote Key into 1B DIESEL GENERATOR OUTPUT BREAKER Insert the Local/Remote Key into 1B DIESEL GENERATOR OUTPUT BREAKER handswitch, 1-HS-1403A.

handswitch, 1-HS-1403A.

2.

2. Rotate the key to LOCAL.

Rotate the key to LOCAL.

3.

3. Place the Local Control handswitch, 1-HS-1403B, to TRIP.

Place the Local Control handswitch, 1-HS-1403B, to TRIP.

4.

4. Notify 1C43 that 1B DIESEL GENERATOR OUTPUT BREAKER is in local control.

Notify 1C43 that 1B DIESEL GENERATOR OUTPUT BREAKER is in local control.

5.

5. GO TO GO TO GO TO 27' Switchgear Room to perform Step AK.

27' Switchgear Room to perform Step AK.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 15 of 90 Page 15 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS U.

U.

(OSO)

(OSO) OBTAIN RADIOS AND REPORT TO 1C43 AND 2C43 OBTAIN RADIOS AND REPORT TO 1C43 AND 2C43 NOTE NOTE NOTE This procedure has parallel operations assigned to specific watchstations. When a boxed This procedure has parallel operations assigned to specific watchstations. When a boxed function is completed, it shall be reported to 1C43 and the next boxed function specific to function is completed, it shall be reported to 1C43 and the next boxed function specific to that Operator shall be implemented. Where it is necessary to ensure supporting evolutions that Operator shall be implemented. Where it is necessary to ensure supporting evolutions are completed before execution of another, a conditional statement is used.

are completed before execution of another, a conditional statement is used.

1.

1. GO TO GO TO GO TO the Fire Brigade Locker and retrieve two portable radios.

the Fire Brigade Locker and retrieve two portable radios.

2.

2. GO TO GO TO GO TO 1C43 and give one radio to the SM.

1C43 and give one radio to the SM.

3.

3. Obtain designated key ring and equipment (including headlamp) at Safe Shutdown Key Obtain designated key ring and equipment (including headlamp) at Safe Shutdown Key and Equipment Lockers.

and Equipment Lockers.

4.

4. GO TO GO TO GO TO 2C43 and give the other radio to the CRS.

2C43 and give the other radio to the CRS.

5.

5. GO TO GO TO GO TO the 2B Diesel Building to perform Step V.

the 2B Diesel Building to perform Step V.

CAUTION CAUTION CAUTION If offsite power has been lost, the next boxed function will cause a loss of both 4KV If offsite power has been lost, the next boxed function will cause a loss of both 4KV If offsite power has been lost, the next boxed function will cause a loss of both 4KV Vital Buses on Unit 2 and a loss of 14 4KV Vital Bus on Unit 1 while the 0C DG is being Vital Buses on Unit 2 and a loss of 14 4KV Vital Bus on Unit 1 while the 0C DG is being Vital Buses on Unit 2 and a loss of 14 4KV Vital Bus on Unit 1 while the 0C DG is being aligned to 11 and 24 4KV Vital Bus.

aligned to 11 and 24 4KV Vital Bus.

V.

(OSO)

(OSO) SHUTDOWN FAIRBANKS DIESEL GENERATORS SHUTDOWN FAIRBANKS DIESEL GENERATORS 1.

1. Depress the 2B DG EMERGENCY SHUTDOWN Pushbutton (trip the fuel racks).

Depress the 2B DG EMERGENCY SHUTDOWN Pushbutton (trip the fuel racks).

2.

2. GO TO GO TO GO TO 1B Diesel Building.

1B Diesel Building.

3.

3. Depress the 1B DG EMERGENCY SHUTDOWN Pushbutton (trip the fuel racks).

Depress the 1B DG EMERGENCY SHUTDOWN Pushbutton (trip the fuel racks).

4.

4. GO TO GO TO GO TO 2A Diesel Building.

2A Diesel Building.

5.

5. Depress the 2A DG EMERGENCY SHUTDOWN Pushbutton (trip the fuel racks).

Depress the 2A DG EMERGENCY SHUTDOWN Pushbutton (trip the fuel racks).

6.

6. Notify Notify 1C43 1C43 1C43 and and 2C43 2C43 2C43 that the 1B DG, 2A DG and 2B DG are shutdown that the 1B DG, 2A DG and 2B DG are shutdown AND AND AND the fuel racks are tripped.

the fuel racks are tripped.

7.

7. GO TO GO TO GO TO 0C Diesel Building to perform Step AH.

0C Diesel Building to perform Step AH.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 16 of 90 Page 16 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS W.

W.

(TBO)

(TBO) TRIP 11 AND 12 SGFPS TRIP 11 AND 12 SGFPS 1400 1400 1.

1. Manually trip the SGFPs.

Manually trip the SGFPs.

PULL-TO-TRIP 11 SGFP PULL-TO-TRIP 11 SGFP

PULL-TO-TRIP 12 SGFP PULL-TO-TRIP 12 SGFP 2.

2. GO TO GO TO GO TO Condenser Makeup Control Valve, 1-CD-4406-CV at the North End of the Condenser Makeup Control Valve, 1-CD-4406-CV at the North End of the Condenser Pit to perform Step X.

Condenser Pit to perform Step X.

X.

(TBO)

(TBO) ISOLATE CONDENSER MAKEUP ISOLATE CONDENSER MAKEUP 1.

1. Shut Instrument Air Isolation to Main Condenser Makeup Control Valve, 1-IA-387.

Shut Instrument Air Isolation to Main Condenser Makeup Control Valve, 1-IA-387.

2.

2. Using a wrench, disconnect the air fitting between the solenoid and the valve actuator Using a wrench, disconnect the air fitting between the solenoid and the valve actuator to relieve air pressure.

to relieve air pressure.

3.

3. Notify 1C43 that the SGFPs have been tripped, and condenser makeup is isolated.

Notify 1C43 that the SGFPs have been tripped, and condenser makeup is isolated.

4.

4. GO TO GO TO GO TO the AFW Pump Room to perform step AD.

the AFW Pump Room to perform step AD.

Y.

(ABO)

(ABO) OBTAIN SAFE SHUTDOWN EQUIPMENT THEN STRIP MCC 114R OBTAIN SAFE SHUTDOWN EQUIPMENT THEN STRIP MCC 114R NOTE NOTE NOTE This procedure has parallel operations assigned to specific watchstations. When a boxed This procedure has parallel operations assigned to specific watchstations. When a boxed function is completed, it shall be reported to 1C43 and the next boxed function specific to function is completed, it shall be reported to 1C43 and the next boxed function specific to that Operator shall be implemented. Where it is necessary to ensure supporting evolutions that Operator shall be implemented. Where it is necessary to ensure supporting evolutions are completed before execution of another, a conditional statement is used.

are completed before execution of another, a conditional statement is used.

1.

1. Obtain designated key ring and equipment (including headlamp) at Safe Shutdown Key Obtain designated key ring and equipment (including headlamp) at Safe Shutdown Key and Equipment Lockers.

and Equipment Lockers.

2.

2. GO TO GO TO GO TO MCC 114R in the Auxiliary Building.

MCC 114R in the Auxiliary Building.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 17 of 90 Page 17 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS Y. (continued)

Y. (continued)

NOTE NOTE NOTE Chemistry does Chemistry does NOT NOT NOT have to be notified for placing MAIN VENT PARTICULATE/TRITIUM have to be notified for placing MAIN VENT PARTICULATE/TRITIUM SAMPLE SKID Breaker, 52-11451 in OFF.

SAMPLE SKID Breaker, 52-11451 in OFF.

CAUTION CAUTION CAUTION Do NOT place ANY breakers on the P-Panel to OFF.

Do NOT place ANY breakers on the P-Panel to OFF.

3.

3. Place Place ALL ALL ALL 480V breakers on MCC 114R to OFF.

480V breakers on MCC 114R to OFF.

NOTE NOTE NOTE The following breakers are arranged from left to right, facing the MCC.

The following breakers are arranged from left to right, facing the MCC.

4.

4. Place the following Breakers to ON:

Place the following Breakers to ON:

11 SALTWATER AIR COMPRESSOR...........52-11404 11 SALTWATER AIR COMPRESSOR...........52-11404

11 INSTRUMENT BUS TRANSFORMER.........52-11429 11 INSTRUMENT BUS TRANSFORMER.........52-11429

MAIN FEEDER BREAKER...................52-11401 MAIN FEEDER BREAKER...................52-11401

AUX. FDWTR. FAN VENT FAN 11...........52-11412 AUX. FDWTR. FAN VENT FAN 11...........52-11412

SWGR ROOM HVAC UNIT 11 FAN............52-11436 SWGR ROOM HVAC UNIT 11 FAN............52-11436

CAVITY COOLING FAN 11 DAMPER..........52-11454 CAVITY COOLING FAN 11 DAMPER..........52-11454

MAIN LIGHTING BREAKER.................52-11427 MAIN LIGHTING BREAKER.................52-11427 5.

5. GO TO GO TO GO TO the MSIV Room to perform Step AC.

the MSIV Room to perform Step AC.

Z.

(CRO)

(CRO) INITIALIZE ADV CONTROLLERS ON 1C43 INITIALIZE ADV CONTROLLERS ON 1C43 NOTE NOTE NOTE Adjustment of ADV Controllers past the controller detent pin will stop valve motion.

Adjustment of ADV Controllers past the controller detent pin will stop valve motion.

1.

1. Place 11 ADV CONTR, 1-HC-4056A, to SHUT.

Place 11 ADV CONTR, 1-HC-4056A, to SHUT.

2.

2. Place 12 ADV CONTR, 1-HC-4056B, to SHUT.

Place 12 ADV CONTR, 1-HC-4056B, to SHUT.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 18 of 90 Page 18 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AA.

AA.

(CRO)

(CRO) ALIGN 11 AND 12 ADVS TO 1C43 ALIGN 11 AND 12 ADVS TO 1C43 1.

1. Place the following Handvalves to POSITION 2:

Place the following Handvalves to POSITION 2:

11 ADV Aux Shutdown Control Transfer, 1-HV-3938A 11 ADV Aux Shutdown Control Transfer, 1-HV-3938A

11 ADV Quick Open Override Handvalve, 1-HV-3938B 11 ADV Quick Open Override Handvalve, 1-HV-3938B

12 ADV Aux Shutdown Control Transfer, 1-HV-3939A 12 ADV Aux Shutdown Control Transfer, 1-HV-3939A

12 ADV Quick Open Override Handvalve, 1-HV-3939B 12 ADV Quick Open Override Handvalve, 1-HV-3939B AB.

AB.

(CRO)

(CRO) COMPLETE INITIALIZATION OF CONTROLLERS ON 1C43 COMPLETE INITIALIZATION OF CONTROLLERS ON 1C43 NOTE NOTE NOTE Adjustment of Controllers past the controller detent pin will stop valve motion.

Adjustment of Controllers past the controller detent pin will stop valve motion.

1.

1. Place 11 AFW PP SPEED CONTR, 1-HC-3987B, to MIN SPD.

Place 11 AFW PP SPEED CONTR, 1-HC-3987B, to MIN SPD.

2.

2. Place 12 AFW PP SPEED CONTR, 1-HC-3989B, to MIN SPD.

Place 12 AFW PP SPEED CONTR, 1-HC-3989B, to MIN SPD.

3.

3. Place 11 S/G FLOW CONTR, 1-HC-4511B, to MIN FLOW.

Place 11 S/G FLOW CONTR, 1-HC-4511B, to MIN FLOW.

4.

4. Place 12 S/G FLOW CONTR, 1-HC-4512B, to MIN FLOW.

Place 12 S/G FLOW CONTR, 1-HC-4512B, to MIN FLOW.

5.

5. Place 11 S/G FLOW CONTR, 1-HC-4525B, to MIN FLOW.

Place 11 S/G FLOW CONTR, 1-HC-4525B, to MIN FLOW.

6.

6. Place 12 S/G FLOW CONTR, 1-HC-4535B, to MIN FLOW.

Place 12 S/G FLOW CONTR, 1-HC-4535B, to MIN FLOW.

7.

7. Notify the TBO to align AFW Pump Speed Control to 1C43 Notify the TBO to align AFW Pump Speed Control to 1C43 PER PER PER Step AD.

Step AD.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 19 of 90 Page 19 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AC.

AC.

(ABO)

(ABO) VERIFY MSIVS ARE SHUT VERIFY MSIVS ARE SHUT 1.

1. Shut Instrument Air Isolation to 11 MSIV Hydraulic Pump, 1-IA-1069.

Shut Instrument Air Isolation to 11 MSIV Hydraulic Pump, 1-IA-1069.

2.

2. IF IF IF 11 MSIV is open, 11 MSIV is open, THEN THEN THEN::

a.

a. Remove the Dump Solenoid Valve Cap on Remove the Dump Solenoid Valve Cap on ONE ONE ONE of the following:

of the following:

11 MSIV Dump SV Channel A, 1-MSH-4042A-SV 11 MSIV Dump SV Channel A, 1-MSH-4042A-SV OR OR OR

11 MSIV Dump SV Channel B, 1-MSH-4042B-SV 11 MSIV Dump SV Channel B, 1-MSH-4042B-SV b.

b. Place a wrench on the selected Dump Solenoid stem nut.

Place a wrench on the selected Dump Solenoid stem nut.

c.c.

Rotate the wrench in the clockwise direction (approximately five turns) to bleed Rotate the wrench in the clockwise direction (approximately five turns) to bleed 1400 1400 hydraulic fluid back to the reservoir.

hydraulic fluid back to the reservoir.

3.

3. Shut Instrument Air Isolation to 12 MSIV Hydraulic Pump, 1-IA-1070.

Shut Instrument Air Isolation to 12 MSIV Hydraulic Pump, 1-IA-1070.

4.

4. IF IF IF 12 MSIV is open, 12 MSIV is open, THEN THEN THEN::

a.

a. Remove the Dump Solenoid Valve Cap on Remove the Dump Solenoid Valve Cap on ONE ONE ONE of the following:

of the following:

12 MSIV Dump SV Channel A, 1-MSH-4047A-SV 12 MSIV Dump SV Channel A, 1-MSH-4047A-SV OR OR OR

12 MSIV Dump SV Channel B, 1-MSH-4047B-SV 12 MSIV Dump SV Channel B, 1-MSH-4047B-SV b.

b. Place a wrench on the selected Dump Solenoid stem nut.

Place a wrench on the selected Dump Solenoid stem nut.

c.c.

Rotate the wrench in the clockwise direction (approximately five turns) to bleed Rotate the wrench in the clockwise direction (approximately five turns) to bleed 1400 1400 hydraulic fluid back to the reservoir.

hydraulic fluid back to the reservoir.

5.

5. Notify 1C43 the MSIVs are shut.

Notify 1C43 the MSIVs are shut.

6.

6. GO TO GO TO GO TO 5' Auxiliary Building level to the CONTMT NORMAL SUMP DRN valve 5' Auxiliary Building level to the CONTMT NORMAL SUMP DRN valve 1-EAD-5462-MOV to perform Step AQ.

1-EAD-5462-MOV to perform Step AQ.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 20 of 90 Page 20 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AD.

AD.

(TBO)

(TBO) ALIGN AFW PUMP SPEED CONTROL TO 1C43 ALIGN AFW PUMP SPEED CONTROL TO 1C43 1.

1. WHEN WHEN WHEN notified to align AFW Pump Speed Control to 1C43, notified to align AFW Pump Speed Control to 1C43, THEN THEN THEN::

a.

a. Place 11 AFW Pump Speed Control Handvalve, 1-HV-3987, to POSITION 2.

Place 11 AFW Pump Speed Control Handvalve, 1-HV-3987, to POSITION 2.

b.

b. Place 12 AFW Pump Speed Control Handvalve, 1-HV-3989, to POSITION 2.

Place 12 AFW Pump Speed Control Handvalve, 1-HV-3989, to POSITION 2.

2.

2. Insert the key for 11 AFW Pump Trip Solenoid, 1-HS-3986A.

Insert the key for 11 AFW Pump Trip Solenoid, 1-HS-3986A.

3.

3. Rotate the key to DISABLE.

Rotate the key to DISABLE.

4.

4. Insert the key for 12 AFW Pump Trip Solenoid, 1-HS-3988A.

Insert the key for 12 AFW Pump Trip Solenoid, 1-HS-3988A.

5.

5. Rotate the key to DISABLE.

Rotate the key to DISABLE.

6.

6. IF IF IF the in-service AFW Pump Trip Solenoid has actuated, the in-service AFW Pump Trip Solenoid has actuated, THEN THEN THEN reset the Throttle/Stop Valve:

reset the Throttle/Stop Valve:

a.

a. Turn the handwheel clockwise until the Trip Latch and Hook are fully engaged.

Turn the handwheel clockwise until the Trip Latch and Hook are fully engaged.

b.

b. Slowly rotate the handwheel counterclockwise until the 11(12) AFW PP TURB Slowly rotate the handwheel counterclockwise until the 11(12) AFW PP TURB THROTTLE/STOP valve, 1-MS-3986 (1-MS-3988), is fully open.

THROTTLE/STOP valve, 1-MS-3986 (1-MS-3988), is fully open.

7.

7. Notify 1C43 that AFW Speed Control is aligned to 1C43.

Notify 1C43 that AFW Speed Control is aligned to 1C43.

8.

8. GO TO GO TO GO TO Unit 1 SRW Pump Room to perform Step AE.

Unit 1 SRW Pump Room to perform Step AE.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 21 of 90 Page 21 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AE.

AE.

(TBO)

(TBO) ALIGN AFW FLOW CONTROL TO 1C43 ALIGN AFW FLOW CONTROL TO 1C43 1.

1. In the SRW Room Upper Level, In the SRW Room Upper Level, Place in POSITION 2 Place in POSITION 2 ALL ALL ALL AFW System Valves listed below:

AFW System Valves listed below:

NORTH WALL NORTH WALL NORTH WALL (Left to Right)

(Left to Right)

NOTE NOTE NOTE 1-IA -4511-HV and 1-IA-4512 are located in the Hand Transfer Box.

1-IA -4511-HV and 1-IA-4512 are located in the Hand Transfer Box.

1-IA-4511-HV 1-IA-4511-HV

1-IA-4512-HV 1-IA-4512-HV

1-IA-4531-HV 1-IA-4531-HV

1-IA-4521-HV 1-IA-4521-HV

1-IA-4530-HV 1-IA-4530-HV

1-IA-4520-HV 1-IA-4520-HV

1-IA-4532-HV 1-IA-4532-HV

1-IA-4522-HV 1-IA-4522-HV

1-IA-4533-HV 1-IA-4533-HV

1-IA-4523-HV 1-IA-4523-HV

Stanchion L.O.9 Stanchion L.O.9 Stanchion L.O.9 between 1-AFW-4525-CV and 1-AFW-4535-CV (In Hand Transfer between 1-AFW-4525-CV and 1-AFW-4535-CV (In Hand Transfer Box)

Box)

1-IA-4525-HV 1-IA-4525-HV

1-IA-4535-HV 1-IA-4535-HV

Southwest Corner Southwest Corner Southwest Corner next to U-1 to U-2 AFW X-conn CV, 1-AFW-4550-CV. (Left to next to U-1 to U-2 AFW X-conn CV, 1-AFW-4550-CV. (Left to right) right)

1-IA-4070-HV 1-IA-4070-HV

1-IA-4071-HV 1-IA-4071-HV

1-IA-4550-HV 1-IA-4550-HV NOTE NOTE NOTE SWAC TO IA AMP STA ISOL, 1-IA-728 is located directly above the AFW Air Amplifier in SWAC TO IA AMP STA ISOL, 1-IA-728 is located directly above the AFW Air Amplifier in the Unit 1 SRW Room Lower Level the Unit 1 SRW Room Lower Level 2.

2. Open SWAC TO IA AMP STA ISOL, 1-IA-728.

Open SWAC TO IA AMP STA ISOL, 1-IA-728.

3.

3. Notify 1C43 that AFW flow control is aligned to 1C43 and SWAC air is aligned to the Notify 1C43 that AFW flow control is aligned to 1C43 and SWAC air is aligned to the AFW CVs.

AFW CVs.

4.

4. GO TO GO TO GO TO the AFW Pump Room to briefly monitor the operating AFW Pump the AFW Pump Room to briefly monitor the operating AFW Pump PER PER PER Step Step AG, AG, THEN THEN THEN return to the SRW Pump Room to perform Step AP.

return to the SRW Pump Room to perform Step AP.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 22 of 90 Page 22 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AF.

AF.

(CRO)

(CRO) INITIATE AFW FLOW INITIATE AFW FLOW NOTE NOTE NOTE 11 and 12 AFW Pumps fail to maximum speed on loss of Instrument Air.

11 and 12 AFW Pumps fail to maximum speed on loss of Instrument Air.

1.

1. WHEN WHEN WHEN notified by the TBO that the AFW flow control is aligned to 1C43, notified by the TBO that the AFW flow control is aligned to 1C43, THEN THEN THEN slowly feed the S/Gs by slowly feed the S/Gs by ANY ANY ANY of the following methods of the following methods AND AND AND restore S/G level to 0 inches indicated.

restore S/G level to 0 inches indicated.

Adjusting 11 AFW PP SPEED CONTR, 1-HC-3987B Adjusting 11 AFW PP SPEED CONTR, 1-HC-3987B

Adjusting 12 AFW PP SPEED CONTR, 1-HC-3989B Adjusting 12 AFW PP SPEED CONTR, 1-HC-3989B

Direct the TBO to control AFW Pump discharge pressure locally Direct the TBO to control AFW Pump discharge pressure locally PER PER PER Step AG Step AG

Adjusting 11 SG STM DRIVEN AFW CONTR, 1-HC-4511B Adjusting 11 SG STM DRIVEN AFW CONTR, 1-HC-4511B

Adjusting 12 SG STM DRIVEN AFW CONTR, 1-HC-4512B Adjusting 12 SG STM DRIVEN AFW CONTR, 1-HC-4512B 2.

2. IF IF IF the AFW Pump trips, the AFW Pump trips, THEN THEN THEN inform the TBO to reset the AFW Pump inform the TBO to reset the AFW Pump PER PER PER Step AG.

Step AG.

3.

3. WHEN WHEN WHEN AFW flow is established, AFW flow is established, THEN THEN THEN perform Step AN.

perform Step AN.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 23 of 90 Page 23 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AG.

AG.

(TBO)

(TBO) OPERATE THE SELECTED AFW PUMP OPERATE THE SELECTED AFW PUMP NOTE NOTE NOTE 11 and 12 AFW Pumps fail to maximum speed on loss of Instrument Air.

11 and 12 AFW Pumps fail to maximum speed on loss of Instrument Air.

1.

1. IF IF IF 1C43 directs, 1C43 directs, THEN THEN THEN control AFW Pump discharge pressure locally as follows:

control AFW Pump discharge pressure locally as follows:

a.

a. Isolate the Instrument Air to the Turbine Governor Controller(s) by shutting the Isolate the Instrument Air to the Turbine Governor Controller(s) by shutting the following valves:

following valves:

11 AFW PP 11 AFW PP

1-AFW-3987A I/P ISOL, 1-IA-24 1-AFW-3987A I/P ISOL, 1-IA-24

1-AFW-3987B I/P ISOL, 1-IA-23 1-AFW-3987B I/P ISOL, 1-IA-23 12 AFW PP 12 AFW PP

1-AFW-3989A I/P ISOL, 1-IA-22 1-AFW-3989A I/P ISOL, 1-IA-22

1-AFW-3989B I/P ISOL, 1-IA-21 1-AFW-3989B I/P ISOL, 1-IA-21 b.

b. Adjust 11 or 12 AFW PP governor MANUAL ADJUSTMENT knob to maintain Adjust 11 or 12 AFW PP governor MANUAL ADJUSTMENT knob to maintain discharge pressure at least 100 PSI greater than S/G pressure.

discharge pressure at least 100 PSI greater than S/G pressure.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 24 of 90 Page 24 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AG. (continued)

AG. (continued) 2.

2. IF IF IF the in-service AFW Pump has tripped, the in-service AFW Pump has tripped, THEN THEN THEN reset the Throttle/Stop Valve, 1-MS-3986 (1-MS-3988):

reset the Throttle/Stop Valve, 1-MS-3986 (1-MS-3988):

NOTE NOTE NOTE Cycling the governor MANUAL ADJUSTMENT knob after Turbine Operation releases a Cycling the governor MANUAL ADJUSTMENT knob after Turbine Operation releases a hydraulic lock on the speed setting piston.

hydraulic lock on the speed setting piston.

a.

a. Reset the Turbine Governor Speed Control as follows:

Reset the Turbine Governor Speed Control as follows:

(1)

Turn the governor MANUAL ADJUSTMENT knob fully counterclockwise to Turn the governor MANUAL ADJUSTMENT knob fully counterclockwise to MINIMUM position.

MINIMUM position.

(2)

Turn the governor MANUAL ADJUSTMENT knob fully clockwise to MAXIMUM Turn the governor MANUAL ADJUSTMENT knob fully clockwise to MAXIMUM position.

position.

b.

b. IF IF IF the Overspeed Device has been tripped, the Overspeed Device has been tripped, THEN THEN THEN reset the Overspeed Trip by momentarily pulling the VALVE TRIP LEVER reset the Overspeed Trip by momentarily pulling the VALVE TRIP LEVER LINKAGE Connecting Rod (3) against spring tension toward the AFW Pump LINKAGE Connecting Rod (3) against spring tension toward the AFW Pump Turbine.

Turbine.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 25 of 90 Page 25 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AG.2.b (continued)

AG.2.b (continued)

NOTE NOTE NOTE Proper engagement between the Tappet Nut and the Head Lever is critical to prevent Proper engagement between the Tappet Nut and the Head Lever is critical to prevent inadvertent tripping of the AFW Pump.

inadvertent tripping of the AFW Pump.

c.c.

Ensure the flat side of the TAPPET NUT (9) is seated firmly against the HEAD Ensure the flat side of the TAPPET NUT (9) is seated firmly against the HEAD LEVER (2).

LEVER (2).

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 26 of 90 Page 26 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AG.2 (continued)

AG.2 (continued) d.

d. Reset the Throttle/Stop Valve:

Reset the Throttle/Stop Valve:

(1)

Rotate the handwheel clockwise until the Trip/Latch Lever is lifted over the Trip Rotate the handwheel clockwise until the Trip/Latch Lever is lifted over the Trip Hook.

Hook.

(2)

Ensure the Trip/Latch Lever and the Trip Hook are fully engaged.

e.

e. Slowly rotate the handwheel counterclockwise until the Throttle/Stop Valve, Slowly rotate the handwheel counterclockwise until the Throttle/Stop Valve, 1-MS-3986 (1-MS-3988), is fully open.

1-MS-3986 (1-MS-3988), is fully open.

3.

3. Periodically monitor the operating AFW Pump.

Periodically monitor the operating AFW Pump.

4.

4. Perform the next TBO assigned step.

Perform the next TBO assigned step.

AH.

(OSO)

(OSO) TAKE LOCAL CONTROL AND START 0C DIESEL GENERATOR TAKE LOCAL CONTROL AND START 0C DIESEL GENERATOR 1.

1. IF IF IF 0C Diesel Generator is 0C Diesel Generator is NOT NOT NOT running running AND AND AND the 07 4KV Bus has been de-energized for 30 minutes or longer, the 07 4KV Bus has been de-energized for 30 minutes or longer, THEN THEN THEN initiate pneumatic prelube as follows:

initiate pneumatic prelube as follows:

a.

a. Open 0C1 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C1-DLO-2 (at 0C1 Open 0C1 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C1-DLO-2 (at 0C1 pneumatic prelube pump).

pneumatic prelube pump).

b.

b. Open 0C1 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C1-DLO-14 Open 0C1 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C1-DLO-14 (under 0C1 Aux Desk).

(under 0C1 Aux Desk).

c.c.

Open 0C2 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C2-DLO-2 (at 0C2 Open 0C2 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C2-DLO-2 (at 0C2 pneumatic prelube pump).

pneumatic prelube pump).

d.

d. Open 0C2 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C2-DLO-14 Open 0C2 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C2-DLO-14 (under 0C2 Aux Desk).

(under 0C2 Aux Desk).

e.

e. Open one 0C Pneumatic Prelube Pump Air Bottle outlet valve (35' elevation).

Open one 0C Pneumatic Prelube Pump Air Bottle outlet valve (35' elevation).

f.f.

Adjust 0C PNEUMATIC PRELUBE PUMP AIR REGULATOR, 0-DLO-10180-PCV, Adjust 0C PNEUMATIC PRELUBE PUMP AIR REGULATOR, 0-DLO-10180-PCV, to a maximum of 110 PSIG on 0C PNEUMATIC PRELUBE PUMP AIR SUPPLY to a maximum of 110 PSIG on 0C PNEUMATIC PRELUBE PUMP AIR SUPPLY REGULATOR OUTLET PI, 0-PI-10180, to start the Prelube Pump turning.

REGULATOR OUTLET PI, 0-PI-10180, to start the Prelube Pump turning.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 27 of 90 Page 27 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AH.1 (continued)

AH.1 (continued) g.

g. WHEN WHEN WHEN both Prelube Pumps have been started, both Prelube Pumps have been started, THEN THEN THEN THROTTLE THROTTLE THROTTLE 0C PNEUMATIC PRELUBE PUMP AIR REGULATOR, 0C PNEUMATIC PRELUBE PUMP AIR REGULATOR, 0-DLO-10180-PCV, to obtain 35 (30 to 40) psig on 0C PNEUMATIC PRELUBE 0-DLO-10180-PCV, to obtain 35 (30 to 40) psig on 0C PNEUMATIC PRELUBE PUMP AIR SUPPLY REGULATOR OUTLET PI, 0-PI-10180.

PUMP AIR SUPPLY REGULATOR OUTLET PI, 0-PI-10180.

h.

h. Note time prelube started.

Note time prelube started.

2.

2. Perform the following to open 0C DG Output Breaker, 152-0703:

Perform the following to open 0C DG Output Breaker, 152-0703:

a.

a. Insert the Local/Remote Key into 0C DG Output Breaker LOCAL/REMOTE Insert the Local/Remote Key into 0C DG Output Breaker LOCAL/REMOTE handswitch 0-HS-152-0703A and unlock it.

handswitch 0-HS-152-0703A and unlock it.

b.

b. Place 0C DG Output Breaker LOCAL/REMOTE handswitch 0-HS-152-0703A to Place 0C DG Output Breaker LOCAL/REMOTE handswitch 0-HS-152-0703A to LOCAL.

LOCAL.

c.c.

Place 0C DG OUT BKR Local Control handswitch 0-HS-152-0703B to TRIP Place 0C DG OUT BKR Local Control handswitch 0-HS-152-0703B to TRIP AND AND AND verify Breaker 152-0703 open.

verify Breaker 152-0703 open.

3.

3. Perform the following to place 07 4KV Feeder Breaker, 152-0704 in local control:

Perform the following to place 07 4KV Feeder Breaker, 152-0704 in local control:

a.

a. Insert the Local/Remote key into 07 4KV Feeder Breaker LOCAL/REMOTE Insert the Local/Remote key into 07 4KV Feeder Breaker LOCAL/REMOTE handswitch 0-HS-152-0704A and unlock it.

handswitch 0-HS-152-0704A and unlock it.

b.

b. Place 07 4KV Feeder Breaker LOCAL/REMOTE handswitch 0-HS-152-0704A to Place 07 4KV Feeder Breaker LOCAL/REMOTE handswitch 0-HS-152-0704A to LOCAL LOCAL AND AND AND verify Breaker 152-0704 open.

verify Breaker 152-0704 open.

4.

4. Perform the following to place 07 4KV Bus Tie Breaker, 152-0701 in local control:

Perform the following to place 07 4KV Bus Tie Breaker, 152-0701 in local control:

a.

a. Insert the Local/Remote key into 07 4KV Bus Tie LOCAL/REMOTE handswitch Insert the Local/Remote key into 07 4KV Bus Tie LOCAL/REMOTE handswitch 0-HS-152-0701A and unlock it.

0-HS-152-0701A and unlock it.

b.

b. Place 07 4KV Bus Tie LOCAL/REMOTE handswitch 0-HS-152-0701A to LOCAL Place 07 4KV Bus Tie LOCAL/REMOTE handswitch 0-HS-152-0701A to LOCAL AND AND AND verify Breaker 152-0701 open.

verify Breaker 152-0701 open.

5.

5. Perform the following to place U440-07 4KV Feeder Breaker, 152-0702 in local control:

Perform the following to place U440-07 4KV Feeder Breaker, 152-0702 in local control:

a.

a. Insert the Local/Remote key into U440-07 4KV Feeder Breaker LOCAL/REMOTE Insert the Local/Remote key into U440-07 4KV Feeder Breaker LOCAL/REMOTE handswitch 0-HS-152-0702A and unlock it.

handswitch 0-HS-152-0702A and unlock it.

b.

b. Place U440-07 4KV Feeder Breaker LOCAL/REMOTE handswitch Place U440-07 4KV Feeder Breaker LOCAL/REMOTE handswitch 0-HS-152-0702A to LOCAL 0-HS-152-0702A to LOCAL AND AND AND verify Breaker 152-0702 closed.

verify Breaker 152-0702 closed.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 28 of 90 Page 28 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AH. (continued)

AH. (continued)

NOTE NOTE NOTE The next breaker is a The next breaker is a 480V 480V 480V Breaker.

Breaker.

6.

6. Perform the following to place 07 480V Bus Feeder Breaker, 52-0701 in local control:

Perform the following to place 07 480V Bus Feeder Breaker, 52-0701 in local control:

a.

a. Insert the Local/Remote Key into 07 480V Bus Feeder Breaker LOCAL/REMOTE Insert the Local/Remote Key into 07 480V Bus Feeder Breaker LOCAL/REMOTE handswitch 0-HS-52-0701A and unlock it.

handswitch 0-HS-52-0701A and unlock it.

b.

b. Place 07 480V Bus Feeder Breaker LOCAL/REMOTE handswitch 0-HS-52-0701A Place 07 480V Bus Feeder Breaker LOCAL/REMOTE handswitch 0-HS-52-0701A to LOCAL.

to LOCAL.

7.

7. GO TO GO TO GO TO the back of the 0C DG LOCAL CONTROL PANEL, 0C188-4 (second door from the back of the 0C DG LOCAL CONTROL PANEL, 0C188-4 (second door from left) and open door.

left) and open door.

8.

8. Insert key and unlock the 43/LR switch.

Insert key and unlock the 43/LR switch.

9.

9. Place the 43/LR switch handle in the upper, LOCAL position.

Place the 43/LR switch handle in the upper, LOCAL position.

10.

10. Lock 43/LR switch, remove key, and close the door.

Lock 43/LR switch, remove key, and close the door.

11.

11. IF IF IF 0C Diesel Generator is running, 0C Diesel Generator is running, THEN THEN THEN::

a.

a. Simultaneously depress Simultaneously depress BOTH BOTH BOTH local emergency stop pushbuttons, 0C LOCAL local emergency stop pushbuttons, 0C LOCAL EMER STOP PB, 0-HS-10335 AND 0-HS-10336.

EMER STOP PB, 0-HS-10335 AND 0-HS-10336.

b.

b. Reset 0C Diesel Generator by depressing 0C GEN EMER S/D RESET PB, Reset 0C Diesel Generator by depressing 0C GEN EMER S/D RESET PB, 0-HS-10337.

0-HS-10337.

12.

12. Verify 0C GEN CONTR MODE SEL SW, 0-HS-10322, in REMOTE/AUTO.

Verify 0C GEN CONTR MODE SEL SW, 0-HS-10322, in REMOTE/AUTO.

13.

13. IF IF IF pneumatic prelube of 0C DG was initiated, pneumatic prelube of 0C DG was initiated, THEN THEN THEN ensure at least 5 minutes has elapsed since prelube was started.

ensure at least 5 minutes has elapsed since prelube was started.

14.

14. Start 0C DG by momentarily depressing 0C MANUAL EMER START PB, 0-HS-10334.

Start 0C DG by momentarily depressing 0C MANUAL EMER START PB, 0-HS-10334.

15.

15. CHECK 0C DG rated frequency (58.8 to 61.2 HZ)

CHECK 0C DG rated frequency (58.8 to 61.2 HZ)

AND AND AND voltage (3.74KV to 4.58KV) are established:

voltage (3.74KV to 4.58KV) are established:

0C GEN FREQ IND, 0-SI-10332 0C GEN FREQ IND, 0-SI-10332

0C GEN PHASE A VOLT IND, 0-EI-10321 0C GEN PHASE A VOLT IND, 0-EI-10321 16.

16. Place Synchronizing Jack 0SJ to SYNC.

Place Synchronizing Jack 0SJ to SYNC.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 29 of 90 Page 29 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AH. (continued)

AH. (continued) 17.

17. Close 0C DG OUT BKR 152-0703, by placing 0-HS-152-0703C to CLOSE.

Close 0C DG OUT BKR 152-0703, by placing 0-HS-152-0703C to CLOSE.

18.

18. Place Synchronizing Jack 0SJ to OFF.

Place Synchronizing Jack 0SJ to OFF.

19.

19. Verify the following equipment RUNNING by observing the associated red indicating Verify the following equipment RUNNING by observing the associated red indicating light is illuminated on 0C188:

light is illuminated on 0C188:

0C1 HT RAD FAN SEL SW, 0-HS-10082 0C1 HT RAD FAN SEL SW, 0-HS-10082

0C2 HT RAD FAN SEL SW, 0-HS-10102 0C2 HT RAD FAN SEL SW, 0-HS-10102

0C1 FO B/U PP SEL SW, 0-HS-10051 0C1 FO B/U PP SEL SW, 0-HS-10051

0C2 FO B/U PP SEL SW, 0-HS-10061 0C2 FO B/U PP SEL SW, 0-HS-10061 20.

20. Notify Notify 1C43 1C43 1C43 and and 2C43 2C43 2C43 that the 0C Diesel Generator is running on 07 4KV Bus with its that the 0C Diesel Generator is running on 07 4KV Bus with its breakers in local control.

breakers in local control.

21.

21. Close the 07 4KV Bus Tie Breaker, 152-0701 per Step AI.

Close the 07 4KV Bus Tie Breaker, 152-0701 per Step AI.

AI.

(OSO)

(OSO) CLOSE 07 4KV BUS TIE BREAKER, 152-0701.

CLOSE 07 4KV BUS TIE BREAKER, 152-0701.

1.

1. Close 07 4KV BUS TIE breaker 152-0701, using 0-HS-152-0701B.

Close 07 4KV BUS TIE breaker 152-0701, using 0-HS-152-0701B.

2.

2. Notify Notify 1C43 1C43 1C43 and and 2C43 2C43 2C43 that 07 4KV BUS TIE Breaker, 152-0701 is closed.

that 07 4KV BUS TIE Breaker, 152-0701 is closed.

3.

3. GO TO GO TO GO TO 1A DG building to perform Step AM.

1A DG building to perform Step AM.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 30 of 90 Page 30 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AJ.

AJ.

(STA)

(STA) COMMENCE SAFETY PARAMETERS CHECKLIST COMMENCE SAFETY PARAMETERS CHECKLIST 1.

1. Monitor the status of both Units Monitor the status of both Units PER PER PER Section V.,

Section V., SAFETY PARAMETERS SAFETY PARAMETERS CHECKLIST CHECKLIST..

2.

2. IF IF IF notified to attempt to monitor parameters at PAMS Cabinet, 1C144A (in the 27' notified to attempt to monitor parameters at PAMS Cabinet, 1C144A (in the 27' Switchgear Room),

Switchgear Room),

THEN THEN THEN::

a.

a. Obtain PAMS Cabinet Door key from 1C43.

Obtain PAMS Cabinet Door key from 1C43.

b.

b. Unlock and open PAMS Cabinet, 1C144A (in 27' Switchgear Room).

Unlock and open PAMS Cabinet, 1C144A (in 27' Switchgear Room).

NOTE NOTE NOTE Proper operation is indicated by green lit fonts. Degraded operation is indicated by back lit Proper operation is indicated by green lit fonts. Degraded operation is indicated by back lit magenta fonts.

magenta fonts.

c.c.

Touch the desired function menus on the FPD to:

Obtain CET temperature Obtain CET temperature

Monitor Reactor Vessel level for voiding Monitor Reactor Vessel level for voiding 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 31 of 90 Page 31 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AK.

AK.

(RO)

(RO) TRIP 11A AND 12A REACTOR COOLANT PUMPS TRIP 11A AND 12A REACTOR COOLANT PUMPS WARNING WARNING WARNING A Safety Observer, if available, should be stationed when working on energized A Safety Observer, if available, should be stationed when working on energized A Safety Observer, if available, should be stationed when working on energized equipment.

equipment.

1.

1. Trip each Reactor Coolant Pump Breaker in the 27' Switchgear Room:

Trip each Reactor Coolant Pump Breaker in the 27' Switchgear Room:

(11A RCP) 252-11P01:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button

(12A RCP) 252-12P01:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button

(11A RCP) 252-11P02:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button

(12A RCP) 252-12P02:

Remove the CLOSE CIR fuses Remove the CLOSE CIR fuses

Push the PUSH TO TRIP button Push the PUSH TO TRIP button 2.

2. Notify 1C43 that 11A and 12A Reactor Coolant Pumps are TRIPPED.

Notify 1C43 that 11A and 12A Reactor Coolant Pumps are TRIPPED.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 32 of 90 Page 32 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AL.

AL.

(RO)

(RO) DE-ENERGIZE PRESSURIZER HEATER MCC 110PH AND NO. 11 DE-ENERGIZE PRESSURIZER HEATER MCC 110PH AND NO. 11 PRESSURIZER PROPORTIONAL HEATER (MCC 1N130)

PRESSURIZER PROPORTIONAL HEATER (MCC 1N130)

NOTE NOTE NOTE Control Power Fuses are located inside the cabinet (1B01A), on the end of the Load Control Power Fuses are located inside the cabinet (1B01A), on the end of the Load Center, top row, second set from the left.

Center, top row, second set from the left.

1.

1. Remove the Control Power Fuses for NO.11 PRESS. HTR. PROP. CONT. BKR, Remove the Control Power Fuses for NO.11 PRESS. HTR. PROP. CONT. BKR, 52-1130.

52-1130.

2.

2. At 11A 480V Load Center, depress the TRIP pushbutton for NO.11 PRESS. HTR.

At 11A 480V Load Center, depress the TRIP pushbutton for NO.11 PRESS. HTR.

PROP. CONT. BKR, 52-1130.

NOTE NOTE NOTE Control Power Fuses are located inside the right-hand cabinet (1B02B), bottom row, third Control Power Fuses are located inside the right-hand cabinet (1B02B), bottom row, third set from the left.

set from the left.

3.

3. Remove the Control Power Fuses for 110PH PRESS HTR. MCC BKR, 52-1218.

Remove the Control Power Fuses for 110PH PRESS HTR. MCC BKR, 52-1218.

4.

4. At 12B 480V Load Center, depress the TRIP pushbutton for 110PH PRESS HTR. MCC At 12B 480V Load Center, depress the TRIP pushbutton for 110PH PRESS HTR. MCC BKR, 52-1218.

BKR, 52-1218.

5.

5. Perform Step AO.

Perform Step AO.

AM.

(OSO)

(OSO) TAKE LOCAL CONTROL AND OPEN 1A DIESEL GENERATOR OUTPUT TAKE LOCAL CONTROL AND OPEN 1A DIESEL GENERATOR OUTPUT BREAKER BREAKER 1.

1. Perform the following to open 1A DG Output Breaker, 152-1703:

Perform the following to open 1A DG Output Breaker, 152-1703:

a.

a. Place a Local/Remote Key into 1A DG Output Breaker LOCAL/REMOTE Place a Local/Remote Key into 1A DG Output Breaker LOCAL/REMOTE handswitch, 1-HS-152-1703A, and unlock it.

handswitch, 1-HS-152-1703A, and unlock it.

b.

b. Place 1A DG Output Breaker LOCAL/REMOTE handswitch, 1-HS-152-1703A to Place 1A DG Output Breaker LOCAL/REMOTE handswitch, 1-HS-152-1703A to LOCAL.

LOCAL.

c.c.

Place 1A DG OUT BKR Local Control handswitch, 1-HS-152-1703B to TRIP.

2.

2. Notify 1C43 that 1A Diesel Generator Output Breaker is in LOCAL and TRIPPED.

Notify 1C43 that 1A Diesel Generator Output Breaker is in LOCAL and TRIPPED.

3.

3. Perform Step AZ.

Perform Step AZ.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 33 of 90 Page 33 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AN.

AN.

((CRO)

CRO)

CRO) CONTROL RCS TEMPERATURE AND VERIFY NATURAL CIRCULATION CONTROL RCS TEMPERATURE AND VERIFY NATURAL CIRCULATION 1.

1. Adjust 11 and 12 ADV CONTRS, 1-HC-4056A and 1-HC-4056B, to achieve RCS Tcold Adjust 11 and 12 ADV CONTRS, 1-HC-4056A and 1-HC-4056B, to achieve RCS Tcold of 515 of 515F to 535 F to 535F.

F.

IF IF IF ADV(s) do ADV(s) do NOT NOT NOT operate from 1C43, operate from 1C43, THEN THEN THEN contact the ABO to manually operate ADV(s) locally.

contact the ABO to manually operate ADV(s) locally.

2.

2. Attempt to monitor parameters at PAMS cabinet:

Attempt to monitor parameters at PAMS cabinet:

a.

a. Unlock and open PAMS Cabinet, 1C144B (in 45' Switchgear Room).

Unlock and open PAMS Cabinet, 1C144B (in 45' Switchgear Room).

NOTE NOTE NOTE Proper operation is indicated by green lit fonts. Degraded operation is indicaed by back lit Proper operation is indicated by green lit fonts. Degraded operation is indicaed by back lit magenta fonts.

magenta fonts.

b.

b. Touch the desired function menus on the FPD to:

Touch the desired function menus on the FPD to:

Obtain CET temperature Obtain CET temperature

Monitor Reactor Vessel level for voiding Monitor Reactor Vessel level for voiding c.c.

IF IF IF parameters can parameters can NOT NOT NOT be monitored at 1C144B, be monitored at 1C144B, THEN THEN THEN notify the STA to attempt to monitor parameters at PAMS Cabinet, 1C144A notify the STA to attempt to monitor parameters at PAMS Cabinet, 1C144A (in the 27' Switchgear Room)

(in the 27' Switchgear Room) PER PER PER Step AJ.2.

Step AJ.2.

3.

3. Verify Natural Circulation in at least one loop:

Verify Natural Circulation in at least one loop:

IF IF IF CETs can be monitored:

CETs can be monitored:

RCS subcooling is at least 30 RCS subcooling is at least 30F based on CET Temperatures F based on CET Temperatures

CET temperatures trend consistent with T CET temperatures trend consistent with T HOT HOT

TT HOT HOT minus T minus T COLD COLD less than 50 less than 50FF

TT COLD COLD constant or lowering constant or lowering

TT HOT HOT constant or lowering constant or lowering

Steaming rate affects RCS temperature Steaming rate affects RCS temperature 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 34 of 90 Page 34 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AO.

AO.

(RO)

(RO) ELECTRICALLY ISOLATE 4KV BUS 11 FROM THE CONTROL ROOM ELECTRICALLY ISOLATE 4KV BUS 11 FROM THE CONTROL ROOM 1.

1. Pull the CLOSE Fuses Pull the CLOSE Fuses AND AND AND depress the TRIP pushbutton for the following 4KV Breakers:

depress the TRIP pushbutton for the following 4KV Breakers:

13 AFW Pump.................................152-1116 13 AFW Pump.................................152-1116

11 CONTAINMENT SPRAY PUMP...................152-1107 11 CONTAINMENT SPRAY PUMP...................152-1107

11 HIGH PRESS SAFETY INJ. PUMP..............152-1108 11 HIGH PRESS SAFETY INJ. PUMP..............152-1108

13 HIGH PRESS SAFETY INJ. PUMP..............152-1110 13 HIGH PRESS SAFETY INJ. PUMP..............152-1110

SWITCHYARD FEEDER (500KVA)..................152-1113 SWITCHYARD FEEDER (500KVA)..................152-1113

U-440-11A SERVICE TRANSF....................152-1114 U-440-11A SERVICE TRANSF....................152-1114 2.

2. Insert the Local/Remote Keys into the following breakers Insert the Local/Remote Keys into the following breakers AND AND AND rotate the key to LOCAL:

rotate the key to LOCAL:

BKR 152-1112 13 SW PUMP..................1-HS-5201C BKR 152-1112 13 SW PUMP..................1-HS-5201C

BKR 152-1111 13 SRW PUMP.................1-HS-1572C BKR 152-1111 13 SRW PUMP.................1-HS-1572C

BKR 152-1109 11 SRW PUMP.................1-HS-1570A BKR 152-1109 11 SRW PUMP.................1-HS-1570A

BKR 152-1105 11 SW PUMP..................1-HS-5199A BKR 152-1105 11 SW PUMP..................1-HS-5199A

BKR 152-1104 11 LPSI PUMP................1-HS-302XB BKR 152-1104 11 LPSI PUMP................1-HS-302XB

BKR 152-1103 11-17 4KV BUS TIE...........1-HS-1103A BKR 152-1103 11-17 4KV BUS TIE...........1-HS-1103A

BKR 152-1102 U-440-11B SERVICE TRANSF... 1-HS-1102A BKR 152-1102 U-440-11B SERVICE TRANSF... 1-HS-1102A (continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 35 of 90 Page 35 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AO. (continued)

AO. (continued) 3.

3. Place the following Local Control handswitches to STOP Place the following Local Control handswitches to STOP OR OR OR TRIP:

TRIP:

BKR 152-1102 U-440-11B SERVICE TRANSF....1-HS-1102B BKR 152-1102 U-440-11B SERVICE TRANSF....1-HS-1102B

BKR 152-1103 11-17 4KV BUS TIE...........1-HS-1103B BKR 152-1103 11-17 4KV BUS TIE...........1-HS-1103B

BKR 152-1104 11 LPSI PUMP................1-HS-302XC BKR 152-1104 11 LPSI PUMP................1-HS-302XC

BKR 152-1105 11 SW PUMP..................1-HS-5199B BKR 152-1105 11 SW PUMP..................1-HS-5199B

BKR 152-1109 11 SRW PUMP.................1-HS-1570B BKR 152-1109 11 SRW PUMP.................1-HS-1570B

BKR 152-1111 13 SRW PUMP.................1-HS-1572D BKR 152-1111 13 SRW PUMP.................1-HS-1572D

BKR 152-1112 13 SW PUMP..................1-HS-5201D BKR 152-1112 13 SW PUMP..................1-HS-5201D 4.

4. Notify 1C43 of the following:

Notify 1C43 of the following:

4KV Bus 11 is electrically isolated from the Control Room.

Loads are secured that support energizing 11 4KV Bus Loads are secured that support energizing 11 4KV Bus 5.

5. Have 1C43 notify the TBO to override Saltwater to the Service Water Heat Exchangers Have 1C43 notify the TBO to override Saltwater to the Service Water Heat Exchangers PER PER PER Step AP.

Step AP.

6.

6. Perform Step AT.

Perform Step AT.

AP.

(TBO)

(TBO) OVERRIDE SALTWATER TO THE SERVICE WATER HEAT EXCHANGERS OVERRIDE SALTWATER TO THE SERVICE WATER HEAT EXCHANGERS 1.

1. WHEN WHEN WHEN notified to override Saltwater to the Service Water Heat Exchangers, notified to override Saltwater to the Service Water Heat Exchangers, THEN THEN THEN insert the Key into 1-HS-5149 and place the Saltwater System Emergency insert the Key into 1-HS-5149 and place the Saltwater System Emergency Overboard, 1-CV-5149, to OVERRIDE TO CLOSE.

Overboard, 1-CV-5149, to OVERRIDE TO CLOSE.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 36 of 90 Page 36 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AP. (continued)

AP. (continued) 2.

2. Place the following Handvalves to OVERRIDE (from left to right):

Place the following Handvalves to OVERRIDE (from left to right):

East HV transfer stanchion East HV transfer stanchion a.

a. 11B SRW HX SW OUTLET, 1-HV-5210 11B SRW HX SW OUTLET, 1-HV-5210 b.

b. 11A SRW HX SW OUTLET, 1-HV-5209 11A SRW HX SW OUTLET, 1-HV-5209 c.c.

11A & 11B SRW HXs SW BYPASS, 1-HV-5154 11A & 11B SRW HXs SW BYPASS, 1-HV-5154 d.

d. 11B SRW HX SW STNR FLUSH, 1-HV-5151A 11B SRW HX SW STNR FLUSH, 1-HV-5151A e.

e. 11B SRW HX SW STNR DIVERTER, 1-HV-5151 11B SRW HX SW STNR DIVERTER, 1-HV-5151 f.f.

11A SRW HX SW STNR FLUSH, 1-HV-5148A 11A SRW HX SW STNR FLUSH, 1-HV-5148A g.

g. 11A SRW HX SW STNR DIVERTER, 1-HV-5148 11A SRW HX SW STNR DIVERTER, 1-HV-5148 h.

h. 12A & 12B SRW HXs SW AUX OUT, 1-HV-5155 12A & 12B SRW HXs SW AUX OUT, 1-HV-5155 i.i.

12A & 12B SRW HXs SW AUX B/U OUT, 1-HV-5156 12A & 12B SRW HXs SW AUX B/U OUT, 1-HV-5156 j.j.

11A & 11B SRW HXs SW INLET, 1-HV-5150 11A & 11B SRW HXs SW INLET, 1-HV-5150

West HV transfer stanchion West HV transfer stanchion a.

a. 12A SRW HX SW STNR DIVERTER, 1-HV-5158 12A SRW HX SW STNR DIVERTER, 1-HV-5158 b.

b. 12A SRW HX SW STNR FLUSH, 1-HV-5158A 12A SRW HX SW STNR FLUSH, 1-HV-5158A c.c.

12B SRW HX SW STNR DIVERTER, 1-HV-5159 12B SRW HX SW STNR DIVERTER, 1-HV-5159 d.

d. 12B SRW HX SW STNR FLUSH, 1-HV-5159A 12B SRW HX SW STNR FLUSH, 1-HV-5159A e.

e. 12A & 12B SRW HXs SW INLET, 1-HV-5152 12A & 12B SRW HXs SW INLET, 1-HV-5152 f.f.

12A & 12B SRW HXs SW B/U OUT, 1-HV-5153 12A & 12B SRW HXs SW B/U OUT, 1-HV-5153 g.

g. 12A & 12B SRW HXs SW BYPASS, 1-HV-5157 12A & 12B SRW HXs SW BYPASS, 1-HV-5157 h.

h. 12A SRW HX SW OUTLET, 1-HV-5211 12A SRW HX SW OUTLET, 1-HV-5211 i.i.

12B SRW HX SW OUTLET, 1-HV-5212 12B SRW HX SW OUTLET, 1-HV-5212 3.

3. Perform the next TBO assigned step.

Perform the next TBO assigned step.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 37 of 90 Page 37 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AQ.

AQ.

(ABO)

(ABO) MANUALLY SHUT CONTAINMENT NORMAL SUMP VALVE MANUALLY SHUT CONTAINMENT NORMAL SUMP VALVE 1.

1. Manually shut CNTMT NORMAL SUMP DRN valve, 1-EAD-5462-MOV.

Manually shut CNTMT NORMAL SUMP DRN valve, 1-EAD-5462-MOV.

2.

2. Notify 1C43 that the Containment Normal Sump Drain valve, 1-EAD-5462-MOV is shut.

Notify 1C43 that the Containment Normal Sump Drain valve, 1-EAD-5462-MOV is shut.

3.

3. GO TO GO TO GO TO the Boric Acid Storage Tank Room to perform Step AS.

the Boric Acid Storage Tank Room to perform Step AS.

AR.

(TBO)

(TBO) ISOLATE SERVICE WATER TO THE TURBINE BUILDING ISOLATE SERVICE WATER TO THE TURBINE BUILDING 1.

1. Isolate Instrument Air to the Turbine Building SRW Isolation, 1-SRW-1600-CV as Isolate Instrument Air to the Turbine Building SRW Isolation, 1-SRW-1600-CV as follows:

follows:

a.

a. Shut 1-SRW-1600-CV ISOL, 1-IA-789.

Shut 1-SRW-1600-CV ISOL, 1-IA-789.

b.

b. Using a wrench, disconnect the air fitting between the solenoid and the valve Using a wrench, disconnect the air fitting between the solenoid and the valve actuator to relieve air pressure.

actuator to relieve air pressure.

2.

2. Isolate Instrument Air to the Turbine Building SRW Isolation, 1-SRW-1637-CV as Isolate Instrument Air to the Turbine Building SRW Isolation, 1-SRW-1637-CV as follows:

follows:

a.

a. Shut 1-SRW-1637-CV ISOL, 1-IA-786.

Shut 1-SRW-1637-CV ISOL, 1-IA-786.

b.

b. Using a wrench, disconnect the air fitting between the solenoid and the valve Using a wrench, disconnect the air fitting between the solenoid and the valve actuator to relieve air pressure.

actuator to relieve air pressure.

3.

3. Notify 1C43 that Service Water has been isolated to the Turbine Building.

Notify 1C43 that Service Water has been isolated to the Turbine Building.

4.

4. WHEN WHEN WHEN notified that a Salt Water Pump is running, notified that a Salt Water Pump is running, THEN THEN THEN Perform Step AY.

Perform Step AY.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 38 of 90 Page 38 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AS.

AS.

(ABO)

(ABO) LINEUP CHARGING PUMP SUCTION TO THE BORIC ACID STORAGE LINEUP CHARGING PUMP SUCTION TO THE BORIC ACID STORAGE TANKS TANKS 1.

1. Manually open the 11 BAST GRAVITY FD, 1-CVC-509-MOV.

Manually open the 11 BAST GRAVITY FD, 1-CVC-509-MOV.

2.

2. Manually open the 12 BAST GRAVITY FD, 1-CVC-508-MOV.

Manually open the 12 BAST GRAVITY FD, 1-CVC-508-MOV.

3.

3. Manually shut BA DIRECT M/U, 1-CVC-514-MOV.

Manually shut BA DIRECT M/U, 1-CVC-514-MOV.

4.

4. GO TO GO TO GO TO the VCT Room.

the VCT Room.

5.

5. Manually shut RWT CHG PP SUCT, 1-CVC-504-MOV.

Manually shut RWT CHG PP SUCT, 1-CVC-504-MOV.

6.

6. GO TO GO TO GO TO the Charging Pump Room.

the Charging Pump Room.

7.

7. Manually shut the VCT OUT, 1-CVC-501-MOV.

Manually shut the VCT OUT, 1-CVC-501-MOV.

8.

8. Manually shut CHG DISCH TO SI, 1-CVC-269-MOV.

Manually shut CHG DISCH TO SI, 1-CVC-269-MOV.

9.

9. Notify 1C43 that Charging Pump suction is aligned to the Boric Acid Storage Tanks.

Notify 1C43 that Charging Pump suction is aligned to the Boric Acid Storage Tanks.

10.

10. GO TO GO TO GO TO the 69' Electrical Penetration Room to perform Step BH.

the 69' Electrical Penetration Room to perform Step BH.

AT.

(RO)

(RO) OPEN THE FEEDER BREAKERS FOR 4KV BUS 11 OPEN THE FEEDER BREAKERS FOR 4KV BUS 11 1.

1. Remove the CLOSE Fuses for U-4000-21 SERVICE TRANSF. BKR, 152-1101.

Remove the CLOSE Fuses for U-4000-21 SERVICE TRANSF. BKR, 152-1101.

2.

2. Trip U-4000-21 SERVICE TRANSF. BKR, 152-1101.

Trip U-4000-21 SERVICE TRANSF. BKR, 152-1101.

3.

3. Remove the CLOSE Fuses for U-4000-11 SERVICE TRANSF. BKR, 152-1115.

Remove the CLOSE Fuses for U-4000-11 SERVICE TRANSF. BKR, 152-1115.

4.

4. Trip U-4000-11 SERVICE TRANSF. BKR, 152-1115.

Trip U-4000-11 SERVICE TRANSF. BKR, 152-1115.

5.

5. Notify 1C43 Notify 1C43 BOTH BOTH BOTH 4KV Bus 11 feeder breakers are open.

4KV Bus 11 feeder breakers are open.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 39 of 90 Page 39 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AU.

AU.

(RO)

(RO) ALIGN 0C DIESEL GENERATOR TO 4KV BUS 11 ALIGN 0C DIESEL GENERATOR TO 4KV BUS 11 1.

1. Take local control of 0C DG Output Breaker to 11 4KV bus, 152-1106 by performing Take local control of 0C DG Output Breaker to 11 4KV bus, 152-1106 by performing the following:

the following:

a.

a. Insert Local/Remote Key into 0C DG Output Breaker handswitch, 1-HS-1106A.

Insert Local/Remote Key into 0C DG Output Breaker handswitch, 1-HS-1106A.

b.

b. Rotate the key to LOCAL.

Rotate the key to LOCAL.

c.c.

Place the Local Control handswitch, 1-HS-1106B, to TRIP.

d.

d. Verify 0C DG Output Breaker, 152-1106 is open.

Verify 0C DG Output Breaker, 152-1106 is open.

WARNING WARNING WARNING Improper operation of disconnects can result in serious injury. Keep body and head Improper operation of disconnects can result in serious injury. Keep body and head Improper operation of disconnects can result in serious injury. Keep body and head clear of the operating arc of the disconnect handle. Do NOT release handle prior to clear of the operating arc of the disconnect handle. Do NOT release handle prior to clear of the operating arc of the disconnect handle. Do NOT release handle prior to full travel. When the disconnect is opened, a very loud bang will be heard, and a full travel. When the disconnect is opened, a very loud bang will be heard, and a full travel. When the disconnect is opened, a very loud bang will be heard, and a switch position flag indication will be visible indicating disconnect position.

switch position flag indication will be visible indicating disconnect position.

2.

2. Close 0C DG to 4KV Bus 11 Disconnect 189-1106 by performing the following:

Close 0C DG to 4KV Bus 11 Disconnect 189-1106 by performing the following:

a.

a. Insert upper keys Insert upper keys AND AND AND unlock 0C DG to 4KV Bus 11 Disconnect, 189-1106.

unlock 0C DG to 4KV Bus 11 Disconnect, 189-1106.

b.

b. Close disconnect 189-1106.

Close disconnect 189-1106.

c.c.

Insert lower key Insert lower key AND AND AND lock disconnect 189-1106, in the closed position.

lock disconnect 189-1106, in the closed position.

3.

3. Notify 1C43 that 0C Diesel Generator Output Breaker to 11 4 KV Bus, 152-1106 is in Notify 1C43 that 0C Diesel Generator Output Breaker to 11 4 KV Bus, 152-1106 is in local and tripped and the 0C DG Disconnect to 4KV bus 11, 189-1106 is closed.

local and tripped and the 0C DG Disconnect to 4KV bus 11, 189-1106 is closed.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 40 of 90 Page 40 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AV.

AV.

(CRO)

(CRO) COORDINATE WITH UNIT 2 FOR 0C DIESEL GENERATOR LOADING ON COORDINATE WITH UNIT 2 FOR 0C DIESEL GENERATOR LOADING ON 4KV BUS 11 4KV BUS 11 CAUTION CAUTION CAUTION Careful coordination is required between Unit 1 and Unit 2 CRO's to ensure 0C DG Careful coordination is required between Unit 1 and Unit 2 CRO's to ensure 0C DG Careful coordination is required between Unit 1 and Unit 2 CRO's to ensure 0C DG loading is performed in a controlled manner. Loading of 11 and 24 4KV Buses (Salt loading is performed in a controlled manner. Loading of 11 and 24 4KV Buses (Salt loading is performed in a controlled manner. Loading of 11 and 24 4KV Buses (Salt Water and Service Water Pumps) onto the OC Diesel Generator shall NOT be Water and Service Water Pumps) onto the OC Diesel Generator shall NOT be Water and Service Water Pumps) onto the OC Diesel Generator shall NOT be performed at the same time.

performed at the same time.

CAUTION CAUTION CAUTION After the 0C DG 11 4KV Output Breaker is shut, 11 SW and 11 SRW Pumps should be After the 0C DG 11 4KV Output Breaker is shut, 11 SW and 11 SRW Pumps should be After the 0C DG 11 4KV Output Breaker is shut, 11 SW and 11 SRW Pumps should be started prior to Unit 2 shutting 0C DG 24 4KV Output Breaker, unless Unit 2 has started prior to Unit 2 shutting 0C DG 24 4KV Output Breaker, unless Unit 2 has started prior to Unit 2 shutting 0C DG 24 4KV Output Breaker, unless Unit 2 has already placed 24 4KV Bus on the 0C DG.

already placed 24 4KV Bus on the 0C DG.

CAUTION CAUTION CAUTION The continuous load limit for the 0C DG is 5400 KW. The 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months load limit is 5940 KW.

The continuous load limit for the 0C DG is 5400 KW. The 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months load limit is 5940 KW.

1.

1. Coordinate placing 0C Diesel Generator on 4kV Bus 11 as follows:

Coordinate placing 0C Diesel Generator on 4kV Bus 11 as follows:

a.

a. Verify the following:

Verify the following:

07 4KV Bus Tie Breaker, 152-0701 is closed 07 4KV Bus Tie Breaker, 152-0701 is closed PER PER PER Step AI Step AI

1A Diesel Generator Output Breaker is open 1A Diesel Generator Output Breaker is open PER PER PER Step AM Step AM

4KV Bus 11 is isolated from the Control Room 4KV Bus 11 is isolated from the Control Room PER PER PER Step AO Step AO

4KV Bus 11 Feeder Breakers are open 4KV Bus 11 Feeder Breakers are open PER PER PER Step AT Step AT

0C Diesel Generator is aligned to 4KV Bus 11 0C Diesel Generator is aligned to 4KV Bus 11 PER PER PER Step AU Step AU b.

b. Notify Unit 2 (2C43) that Unit 1 will be placing the 0C DG on 11 4KV Bus.

Notify Unit 2 (2C43) that Unit 1 will be placing the 0C DG on 11 4KV Bus.

c.c.

Notify the RO to close 0C DG 11 4KV BUS FDR, 152-1106 Notify the RO to close 0C DG 11 4KV BUS FDR, 152-1106 PER PER PER Step AW.

Step AW.

AW.

(RO)

(RO) ENERGIZE 11 4KV BUS.

ENERGIZE 11 4KV BUS.

1.

1. WHEN WHEN WHEN notified by 1C43, notified by 1C43, THEN THEN THEN close 0C DG 11 4KV BUS FDR, 152-1106.

close 0C DG 11 4KV BUS FDR, 152-1106.

2.

2. Notify 1C43 that 0C DG 11 4KV BUS FDR, 152-1106, is closed Notify 1C43 that 0C DG 11 4KV BUS FDR, 152-1106, is closed AND AND AND 0C Diesel Generator is supplying 4KV Bus 11.

0C Diesel Generator is supplying 4KV Bus 11.

3.

3. Perform Step AX.

Perform Step AX.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 41 of 90 Page 41 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AX.

AX.

(RO)

(RO) START 11 SERVICE WATER AND 11 SALTWATER PUMPS START 11 SERVICE WATER AND 11 SALTWATER PUMPS 1.

1. WHEN WHEN WHEN the 0C D/G is supplying 11 4KV Bus, the 0C D/G is supplying 11 4KV Bus, THEN THEN THEN place 11 Service Water Pump Local Control handswitch, 1-HS-1570B, to place 11 Service Water Pump Local Control handswitch, 1-HS-1570B, to START.

START.

2.

2. WHEN WHEN WHEN 11 Service Water pump has been running for at least 5 seconds, 11 Service Water pump has been running for at least 5 seconds, THEN THEN THEN Start 11 Saltwater Pump by placing its Local Control handswitch, 1-HS-5199B, Start 11 Saltwater Pump by placing its Local Control handswitch, 1-HS-5199B, to START.

to START.

3.

3. Notify 1C43 11 Service Water and 11 Saltwater Pumps are running Notify 1C43 11 Service Water and 11 Saltwater Pumps are running AND AND AND to have 1C43 notify the TBO to monitor SRW HX flow to have 1C43 notify the TBO to monitor SRW HX flow PER PER PER Step AY.

Step AY.

4.

4. Have 1C43 notify the OSO that SW and SRW Pumps are energized and to monitor the Have 1C43 notify the OSO that SW and SRW Pumps are energized and to monitor the 0C Diesel Generator 0C Diesel Generator PER PER PER Step BG.

Step BG.

5.

5. Perform Step BB.

Perform Step BB.

AY.

((TBO TBO TBO) MONITOR SRW HX FLOW

) MONITOR SRW HX FLOW 1.

1. Periodically monitor SRW HX Flow Periodically monitor SRW HX Flow AND AND AND flush strainer as needed:

flush strainer as needed:

a.

a. Check in-service HX flow greater than 4,150 GPM.

Check in-service HX flow greater than 4,150 GPM.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 42 of 90 Page 42 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AY.1 (continued)

AY.1 (continued) b.

b. IF IF IF HX flow is less than 4,150 GPM, HX flow is less than 4,150 GPM, THEN THEN THEN perform the following:

perform the following:

(1)

Place the associated strainer flush valve to NORMAL:

11A SRW HX SW STNR FLUSH, 1-HV-5148A 11A SRW HX SW STNR FLUSH, 1-HV-5148A

11B SRW HX SW STNR FLUSH, 1-HV-5151A 11B SRW HX SW STNR FLUSH, 1-HV-5151A

12A SRW HX SW STNR FLUSH, 1-HV-5158A 12A SRW HX SW STNR FLUSH, 1-HV-5158A

12B SRW HX SW STNR FLUSH, 1-HV-5159A 12B SRW HX SW STNR FLUSH, 1-HV-5159A NOTE NOTE NOTE 1-SW-1623 is located on the north side of the east valve hand transfer stanchion. All other 1-SW-1623 is located on the north side of the east valve hand transfer stanchion. All other valves are located with their respective CVs.

valves are located with their respective CVs.

(2)

Shut the associated strainer SV Outlet valve:

11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV OUTLET 11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV OUTLET VALVE, 1-SW-1623 VALVE, 1-SW-1623

11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV OUTLET 11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV OUTLET VALVE, 1-SW-1625 VALVE, 1-SW-1625

12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV OUTLET 12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV OUTLET VALVE, 1-SW-1627 VALVE, 1-SW-1627

12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV OUTLET 12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV OUTLET VALVE, 1-SW-1629 VALVE, 1-SW-1629 NOTE NOTE NOTE 1-SW-1622 is located on the north side of the east valve hand transfer stanchion. All other 1-SW-1622 is located on the north side of the east valve hand transfer stanchion. All other valves are located with their respective CVs.

valves are located with their respective CVs.

(3)

Open the associated strainer SV bypass valve:

11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV BYPASS 11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV BYPASS VALVE, 1-SW-1622 VALVE, 1-SW-1622

11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV BYPASS 11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV BYPASS VALVE, 1-SW-1624 VALVE, 1-SW-1624

12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV BYPASS 12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV BYPASS VALVE, 1-SW-1626 VALVE, 1-SW-1626

12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV BYPASS 12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV BYPASS VALVE, 1-SW-1628 VALVE, 1-SW-1628 (continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 43 of 90 Page 43 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AY.1.b (continued)

AY.1.b (continued)

(4)

WHEN WHEN WHEN flush is complete, flush is complete, THEN THEN THEN shut the associated strainer SV bypass valve:

shut the associated strainer SV bypass valve:

11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV BYPASS 11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV BYPASS VALVE, 1-SW-1622 VALVE, 1-SW-1622

11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV BYPASS 11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV BYPASS VALVE, 1-SW-1624 VALVE, 1-SW-1624

12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV BYPASS 12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV BYPASS VALVE, 1-SW-1626 VALVE, 1-SW-1626

12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV BYPASS 12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV BYPASS VALVE, 1-SW-1628 VALVE, 1-SW-1628 (5)

(5)

Open the associated strainer SV Outlet valve:

11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV OUTLET 11A SRW HX SW STNR FLUSHING CV 1-SW-5148A-SV OUTLET VALVE, 1-SW-1623 VALVE, 1-SW-1623

11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV OUTLET 11B SRW HX SW STNR FLUSHING CV 1-SW-5151A-SV OUTLET VALVE, 1-SW-1625 VALVE, 1-SW-1625

12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV OUTLET 12A SRW HX SW STNR FLUSHING CV 1-SW-5158A-SV OUTLET VALVE, 1-SW-1627 VALVE, 1-SW-1627

12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV OUTLET 12B SRW HX SW STNR FLUSHING CV 1-SW-5159A-SV OUTLET VALVE, 1-SW-1629 VALVE, 1-SW-1629 (6)

(6)

Place the associated strainer flush valve to OVERRIDE TO CLOSE:

11A SRW HX SW STNR FLUSH, 1-HV-5148A 11A SRW HX SW STNR FLUSH, 1-HV-5148A

11B SRW HX SW STNR FLUSH, 1-HV-5151A 11B SRW HX SW STNR FLUSH, 1-HV-5151A

12A SRW HX SW STNR FLUSH, 1-HV-5158A 12A SRW HX SW STNR FLUSH, 1-HV-5158A

12B SRW HX SW STNR FLUSH, 1-HV-5159A 12B SRW HX SW STNR FLUSH, 1-HV-5159A AZ.

AZ.

(OSO)

(OSO) TAKE LOCAL CONTROL OF 1A DIESEL GENERATOR AND BREAKERS TAKE LOCAL CONTROL OF 1A DIESEL GENERATOR AND BREAKERS 1.

1. Place 4KV Bus Tie Breaker, 152-1701 in local control as follows:

Place 4KV Bus Tie Breaker, 152-1701 in local control as follows:

a.

a. Insert the Local/Remote Key into 17-11 4KV Bus Tie Breaker LOCAL/REMOTE Insert the Local/Remote Key into 17-11 4KV Bus Tie Breaker LOCAL/REMOTE handswitch 1-HS-152-1701A and unlock it.

handswitch 1-HS-152-1701A and unlock it.

b.

b. Place 17-11 4KV Bus Tie Breaker LOCAL/REMOTE handswitch 1-HS-152-1701A Place 17-11 4KV Bus Tie Breaker LOCAL/REMOTE handswitch 1-HS-152-1701A to LOCAL.

to LOCAL.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 44 of 90 Page 44 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS AZ. (continued)

AZ. (continued) 2.

2. Place U440-17 4KV Feeder Breaker, 152-1702 in local control as follows:

Place U440-17 4KV Feeder Breaker, 152-1702 in local control as follows:

a.

a. Insert the Local/Remote key into U440-17 4KV Feeder Breaker LOCAL/REMOTE Insert the Local/Remote key into U440-17 4KV Feeder Breaker LOCAL/REMOTE handswitch 1-HS-152-1702A and unlock it.

handswitch 1-HS-152-1702A and unlock it.

b.

b. Place U440-17 4KV Feeder Breaker LOCAL/REMOTE handswitch Place U440-17 4KV Feeder Breaker LOCAL/REMOTE handswitch 1-HS-152-1702A to LOCAL.

1-HS-152-1702A to LOCAL.

NOTE NOTE NOTE The next breaker is a The next breaker is a 480V 480V 480V breaker.

breaker.

3.

3. Place 17 480V Bus Feeder Breaker, 52-1701 in local control as follows:

Place 17 480V Bus Feeder Breaker, 52-1701 in local control as follows:

a.

a. Insert a Local/Remote Key into 17 480V Bus Feeder Breaker LOCAL/REMOTE Insert a Local/Remote Key into 17 480V Bus Feeder Breaker LOCAL/REMOTE handswitch 1-HS-52-1701A and unlock it.

handswitch 1-HS-52-1701A and unlock it.

b.

b. Place 17 480V Bus Feeder Breaker LOCAL/REMOTE handswitch 1-HS-52-1701A Place 17 480V Bus Feeder Breaker LOCAL/REMOTE handswitch 1-HS-52-1701A to LOCAL.

to LOCAL.

4.

4. GO TO GO TO GO TO the back of the 1A DG LOCAL CONTROL PANEL, 1C188-4 (second door from the back of the 1A DG LOCAL CONTROL PANEL, 1C188-4 (second door from left) and open door.

left) and open door.

5.

5. Insert key and unlock the 43/LR switch.

Insert key and unlock the 43/LR switch.

6.

6. Place the 43/LR switch handle in the upper, LOCAL position.

Place the 43/LR switch handle in the upper, LOCAL position.

7.

7. Lock 43/LR switch, remove key, and close the door.

Lock 43/LR switch, remove key, and close the door.

8.

8. IF IF IF 1A Diesel Generator is running, 1A Diesel Generator is running, THEN THEN THEN::

a.

a. Simultaneously depress Simultaneously depress BOTH BOTH BOTH local emergency stop pushbuttons, 1A LOCAL local emergency stop pushbuttons, 1A LOCAL EMER STOP PB, 1-HS-10335 EMER STOP PB, 1-HS-10335 AND AND AND 1-HS-10336.

1-HS-10336.

b.

b. Reset 1A Diesel Generator by depressing 1A GEN EMER S/D RESET PB, Reset 1A Diesel Generator by depressing 1A GEN EMER S/D RESET PB, 1-HS-10337.

1-HS-10337.

9.

9. Notify 1C43 that 1A Diesel and Breakers are in local control.

Notify 1C43 that 1A Diesel and Breakers are in local control.

10.

10. GO TO GO TO GO TO the desired Fairbank's Diesel Generator Room to perform Step BA.

the desired Fairbank's Diesel Generator Room to perform Step BA.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 45 of 90 Page 45 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BA.

BA.

(OSO)

(OSO) PLACE FAIRBANKS DIESEL GENERATORS IN LOCAL CONTROL PLACE FAIRBANKS DIESEL GENERATORS IN LOCAL CONTROL 1.

1. Place the Fairbanks DGs in Local Control in the desired order.

Place the Fairbanks DGs in Local Control in the desired order.

Place 2A Diesel Generator in LOCAL Control as follows:

a.

a. Insert the key in 2A DG CONTR MODE SEL SW, 2-HS-4839.

Insert the key in 2A DG CONTR MODE SEL SW, 2-HS-4839.

b.

b. Rotate the key to unlock 2A DG CONTR MODE SEL SW transfer switch.

Rotate the key to unlock 2A DG CONTR MODE SEL SW transfer switch.

c.c.

Place the 2A DG CONTR MODE SEL SW transfer switch to LOCAL.

Place 1B Diesel Generator in LOCAL Control as follows:

a.

a. Insert the key in 1B DG CONTR MODE SEL SW, 1-HS-4840.

Insert the key in 1B DG CONTR MODE SEL SW, 1-HS-4840.

b.

b. Rotate the key to unlock 1B DG CONTR MODE SEL SW transfer switch.

Rotate the key to unlock 1B DG CONTR MODE SEL SW transfer switch.

c.c.

Place the 1B DG CONTR MODE SEL SW transfer switch to LOCAL.

Place 2B Diesel Generator in LOCAL Control as follows:

a.

a. Insert the key in 2B DG CONTR MODE SEL SW, 2-HS-4841.

Insert the key in 2B DG CONTR MODE SEL SW, 2-HS-4841.

b.

b. Rotate the key to unlock 2B DG CONTR MODE SEL SW transfer switch.

Rotate the key to unlock 2B DG CONTR MODE SEL SW transfer switch.

c.c.

Place the 2B DG CONTR MODE SEL SW transfer switch to LOCAL.

2.

2. Notify Notify 1C43 1C43 1C43 and and 2C43 2C43 2C43 that 1B, 2A and 2B Diesel Generators are in LOCAL.

that 1B, 2A and 2B Diesel Generators are in LOCAL.

3.

3. GO TO GO TO GO TO 0C DG Room to perform Step BG.

0C DG Room to perform Step BG.

BB.

(RO)

(RO) START A CHARGING PUMP START A CHARGING PUMP 1.

1. Ask 1C43 to verify that Charging Pump suction has been lined up to BASTs Ask 1C43 to verify that Charging Pump suction has been lined up to BASTs PER PER PER Step Step AS.

AS.

CAUTION CAUTION CAUTION 13 Charging Pump should only be used if 11 Charging Pump is unavailable.

13 Charging Pump should only be used if 11 Charging Pump is unavailable.

2.

2. Determine with 1C43 if 11 Determine with 1C43 if 11 OR OR OR 13 Charging Pump is to be started.

13 Charging Pump is to be started.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 46 of 90 Page 46 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BB. (continued)

BB. (continued) 3.

3. IF IF IF 11 Charging Pump is 11 Charging Pump is NOT NOT NOT available for use, available for use, THEN THEN THEN PROCEED PROCEED PROCEED to Step BB.9.

to Step BB.9.

4.

4. Establish 11 Charging Pump power supply:

Establish 11 Charging Pump power supply:

a.

a. Strip 480V Load Center 11B Strip 480V Load Center 11B PER PER PER Step BC.

Step BC.

b.

b. Energize 480V Load Center 11B Energize 480V Load Center 11B PER PER PER Step BD.

Step BD.

5.

5. Charge the Closing Spring for 11 Charging Pump breaker, 52-1115 if necessary.

Charge the Closing Spring for 11 Charging Pump breaker, 52-1115 if necessary.

6.

6. Depress the PUSH TO CLOSE button for 11 Charging Pump breaker, 52-1115.

Depress the PUSH TO CLOSE button for 11 Charging Pump breaker, 52-1115.

7.

7. Notify 1C43 that boration is in progress Notify 1C43 that boration is in progress AND AND AND to note the time that boration was commenced.

to note the time that boration was commenced.

8.

8. IF IF IF 11 Charging Pump is running, 11 Charging Pump is running, THEN THEN THEN PROCEED PROCEED PROCEED to Step BE.

to Step BE.

9.

9. Verify 13 CHG Pp is aligned to 11A 480V Bus.

Verify 13 CHG Pp is aligned to 11A 480V Bus.

10.

10. Establish 13 Charging Pump power supply:

Establish 13 Charging Pump power supply:

a.

a. Strip 480V Load Center 11A Strip 480V Load Center 11A PER PER PER Step BE.

Step BE.

b.

b. Energize 480V Load Center 11A Energize 480V Load Center 11A PER PER PER Step BF.

Step BF.

11.

11. Charge the Closing Spring for 13 Charging Pump breaker, 52-1104 if necessary.

Charge the Closing Spring for 13 Charging Pump breaker, 52-1104 if necessary.

12.

12. Depress the PUSH TO CLOSE button for 13 Charging Pump breaker, 52-1104.

Depress the PUSH TO CLOSE button for 13 Charging Pump breaker, 52-1104.

13.

13. Notify 1C43 that boration is in progress Notify 1C43 that boration is in progress AND AND AND to note the time that boration was commenced.

to note the time that boration was commenced.

14.

14. IF IF IF 13 Charging Pump is running, 13 Charging Pump is running, THEN THEN THEN PROCEED PROCEED PROCEED to Step BC.

to Step BC.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 47 of 90 Page 47 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BC.

BC.

(RO)

(RO) STRIP 480V LOAD CENTER 11B STRIP 480V LOAD CENTER 11B NOTE NOTE NOTE Fuses are located in two different places:

Fuses are located in two different places:

Inside the cabinet on the end of the Load Center (1B01B)

Inside the Load Center Relay cabinet (cubicle door with the Bus Potential Light on the Inside the Load Center Relay cabinet (cubicle door with the Bus Potential Light on the front) front)

WARNING WARNING WARNING If available, a Safety Observer should be stationed when working on energized If available, a Safety Observer should be stationed when working on energized If available, a Safety Observer should be stationed when working on energized equipment.

equipment.

1.

1. REMOVE REMOVE REMOVE ALL ALL ALL LABELED LABELED LABELED Control Power Fuses from 480V Load Center 11B.

Control Power Fuses from 480V Load Center 11B.

2.

2. Trip Trip ALL ALL ALL breakers breakers EXCEPT THE FOLLOWING EXCEPT THE FOLLOWING EXCEPT THE FOLLOWING::

U-440-11B LOW SIDE BKR........................52-1113 U-440-11B LOW SIDE BKR........................52-1113

12 CONTAINMENT AIR COOLER.....................52-1114 12 CONTAINMENT AIR COOLER.....................52-1114 3.

3. Manually charge, Manually charge, THEN THEN THEN shut 114 R REACTOR MCC Breaker, 52-1119.

shut 114 R REACTOR MCC Breaker, 52-1119.

BD.

(RO)

(RO) ENERGIZE 480V LOAD CENTER 11B ENERGIZE 480V LOAD CENTER 11B 1.

1. At Breaker 152-1102, Place the local handswitch for U-440-11B Breaker, 1-HS-1102B, At Breaker 152-1102, Place the local handswitch for U-440-11B Breaker, 1-HS-1102B, to CLOSE.

to CLOSE.

2.

2. Notify 1C43 that 480V Load Center 11B is energized.

Notify 1C43 that 480V Load Center 11B is energized.

3.

3. IF IF IF starting 11 Charging Pump, starting 11 Charging Pump, THEN THEN THEN PROCEED PROCEED PROCEED to Step BB.5.

to Step BB.5.

4.

4. IF IF IF 13 Charging Pump is running, 13 Charging Pump is running, THEN THEN THEN PROCEED PROCEED PROCEED to Step BO.

to Step BO.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 48 of 90 Page 48 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BE.

BE.

(RO)

(RO) STRIP 480V LOAD CENTER 11A STRIP 480V LOAD CENTER 11A NOTE NOTE NOTE Fuses are located in two different places:

Fuses are located in two different places:

Inside the cabinet on the end of the Load Center (1B01A)

Inside the Load Center Relay cabinet (cubicle door with the Bus Potential Light on the Inside the Load Center Relay cabinet (cubicle door with the Bus Potential Light on the front).

front).

WARNING WARNING WARNING If available, a Safety Observer should be stationed when working on energized If available, a Safety Observer should be stationed when working on energized If available, a Safety Observer should be stationed when working on energized equipment.

equipment.

1.

1. REMOVE REMOVE REMOVE ALL ALL ALL LABELED LABELED LABELED Breaker Control Power Fuses.

Breaker Control Power Fuses.

2.

2. Trip Trip ALL ALL ALL breakers breakers EXCEPT THE FOLLOWING EXCEPT THE FOLLOWING EXCEPT THE FOLLOWING::

U-440-11A LOW SIDE BRK. 52-1112 U-440-11A LOW SIDE BRK. 52-1112

11 CONTAINMENT AIR COOLER 52-1102 11 CONTAINMENT AIR COOLER 52-1102 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 49 of 90 Page 49 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BF.

BF.

(RO)

(RO) ENERGIZE 480V LOAD CENTER 11A ENERGIZE 480V LOAD CENTER 11A 1.

1. Manually close the Supply Breaker, U-440-11A SERVICE TRANSF, 152-1114:

Manually close the Supply Breaker, U-440-11A SERVICE TRANSF, 152-1114:

a.

a. Charge the Closing Spring for U-440-11A SERVICE TRANSF, 152-1114, if Charge the Closing Spring for U-440-11A SERVICE TRANSF, 152-1114, if necessary.

necessary.

(1)

Insert the Maintenance Handle into the Manual Charging opening.

(2)

Position the Maintenance Handle hooked section around the end of the pawl Position the Maintenance Handle hooked section around the end of the pawl carrier.

carrier.

NOTE NOTE NOTE Between each stroke maintain a slight upward pressure so that the handle does Between each stroke maintain a slight upward pressure so that the handle does NOT NOT NOT slip slip off the pawl carrier.

off the pawl carrier.

(3)

Pump the Maintenance Handle until pressure is Pump the Maintenance Handle until pressure is NOT NOT NOT felt when stroking the felt when stroking the maintenance handle upward. (Approximately 7-10 strokes) maintenance handle upward. (Approximately 7-10 strokes)

The Spring indicator should indicate "SPRINGS CHARGED".

b.

b. Manually close the Breaker by pushing upward on the Manual Close Lever.

Manually close the Breaker by pushing upward on the Manual Close Lever.

2.

2. Notify 1C43 that 480V Load Center 11A is energized.

Notify 1C43 that 480V Load Center 11A is energized.

3.

3. IF IF IF starting 13 Charging Pump, starting 13 Charging Pump, THEN THEN THEN PROCEED PROCEED PROCEED to Step BB.11.

to Step BB.11.

4.

4. IF IF IF 11 Charging Pump is running, 11 Charging Pump is running, THEN THEN THEN PROCEED PROCEED PROCEED to Step BO.

to Step BO.

BG.

(OSO)

(OSO) MONITOR 0C DIESEL GENERATOR MONITOR 0C DIESEL GENERATOR 1.

1. Coordinate with Coordinate with 1C43 1C43 1C43 and and 2C43 2C43 2C43 to ensure the continuous load limit of 5400 KW and to ensure the continuous load limit of 5400 KW and the 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months load limit of 5940 KW is the 2 hour2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months load limit of 5940 KW is NOT NOT NOT exceeded on the 0C Diesel Generator.

exceeded on the 0C Diesel Generator.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 50 of 90 Page 50 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BG. (continued)

BG. (continued) 2.

2. Monitor the 0C Diesel Generator as follows:

Monitor the 0C Diesel Generator as follows:

a.

a. Verify 0C Diesel radiator fans are running:

Verify 0C Diesel radiator fans are running:

0C1 Radiator Fan 11 0C1 Radiator Fan 11

0C1 Radiator Fan 12 0C1 Radiator Fan 12

0C1 Radiator Fan 13 0C1 Radiator Fan 13

0C2 Radiator Fan 11 0C2 Radiator Fan 11

0C2 Radiator Fan 12 0C2 Radiator Fan 12

0C2 Radiator Fan 13 0C2 Radiator Fan 13 NOTE NOTE NOTE The 0C Diesel Generator Building Ventilation Fans are temperature controlled and The 0C Diesel Generator Building Ventilation Fans are temperature controlled and automatically operate above the listed temperature.

automatically operate above the listed temperature.

b.

b. Verify the following 0C Diesel Generator Building Ventilation is running:

Verify the following 0C Diesel Generator Building Ventilation is running:

0C Battery Room Fan F-5 0C Battery Room Fan F-5

0C Basement & Tank Room Exhaust Fan F-6 0C Basement & Tank Room Exhaust Fan F-6

0C DG Room Exhaust Fan F-1 (75 0C DG Room Exhaust Fan F-1 (75F start)

F start)

0C DG Room Exhaust Fan F-2 (85 0C DG Room Exhaust Fan F-2 (85F start)

F start)

0C DG Room Exhaust Fan F-3 (95 0C DG Room Exhaust Fan F-3 (95F start)

F start)

0C DG Room Exhaust Fan F-4 (105 0C DG Room Exhaust Fan F-4 (105F start)

F start)

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 51 of 90 Page 51 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BG.2 (continued)

BG.2 (continued) c.c.

IF IF IF the 0C Diesel Generator was pneumatically prelubed, the 0C Diesel Generator was pneumatically prelubed, THEN THEN THEN perform the following:

perform the following:

(1)

Adjust 0C PNEUMATIC PRELUBE PUMP AIR REGULATOR, Adjust 0C PNEUMATIC PRELUBE PUMP AIR REGULATOR, 0-DLO-10180-PCV, to approximately zero PSIG on 0C PNEUMATIC 0-DLO-10180-PCV, to approximately zero PSIG on 0C PNEUMATIC PRELUBE PUMP AIR SUPPLY REGULATOR OUTLET PI, 0-PI-10180.

PRELUBE PUMP AIR SUPPLY REGULATOR OUTLET PI, 0-PI-10180.

(2)

Shut the 0C Pneumatic Prelube Pump Air Bottle outlet valve (35' elevation).

(3)

Shut the following valves:

0C1 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C1-DLO-2 (at 0C1 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C1-DLO-2 (at 0C1 pneumatic prelube pump).

0C1 pneumatic prelube pump).

0C2 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C2-DLO-2 (at 0C2 PNEUMATIC PRELUBE PUMP SUCTION VALVE, 0C2-DLO-2 (at 0C2 pneumatic prelube pump).

0C2 pneumatic prelube pump).

0C1 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C1-DLO-14 0C1 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C1-DLO-14 (under 0C1 Aux Desk).

(under 0C1 Aux Desk).

0C2 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C2-DLO-14 0C2 PNEUMATIC PRELUBE PUMP DISCHARGE VALVE, 0C2-DLO-14 (under 0C2 Aux Desk).

(under 0C2 Aux Desk).

d.

d. Monitor 0C Fuel Oil Day Tank Level and transfer fuel oil Monitor 0C Fuel Oil Day Tank Level and transfer fuel oil PER PER PER OI-21C, 0C DIESEL OI-21C, 0C DIESEL GENERATOR, as necessary.

GENERATOR, as necessary.

e.

e. Periodically monitor 0C Diesel performance.

Periodically monitor 0C Diesel performance.

3.

3. WHEN WHEN WHEN U-1 U-1 U-1 and and U-2 U-2 U-2 have reported that both their respective SW and SRW Pumps are have reported that both their respective SW and SRW Pumps are

running, running, THEN THEN THEN report total KW load to report total KW load to 1C43 1C43 1C43 and and 2C43 2C43 2C43..

4.

4. GO TO GO TO GO TO the Fire Pump House to perform Step CA.

the Fire Pump House to perform Step CA.

BH.

(ABO)

(ABO) ISOLATE CHANNEL D WRNI FROM THE CONTROL ROOM.

ISOLATE CHANNEL D WRNI FROM THE CONTROL ROOM.

1.

1. Open OPT. ISOL, 1-NX-004D1.

Open OPT. ISOL, 1-NX-004D1.

2.

2. Place 1-HS-004D1 in OFF.

Place 1-HS-004D1 in OFF.

3.

3. Notify 1C43 that Channel D WRNI has been isolated from the Control Room.

Notify 1C43 that Channel D WRNI has been isolated from the Control Room.

4.

4. Perform Step BI.

Perform Step BI.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 52 of 90 Page 52 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BI.

BI.

(ABO)

(ABO) START 11 SALTWATER AIR COMPRESSOR START 11 SALTWATER AIR COMPRESSOR 1.

1. Contact 1C43 to verify Load Center 11B is energized Contact 1C43 to verify Load Center 11B is energized PER PER PER Step BD, Step BD, THEN THEN THEN On the North end of MCC 114R, Insert the key into 11 Saltwater Air Compressor On the North end of MCC 114R, Insert the key into 11 Saltwater Air Compressor Local/Remote Handswitch, 1-HS-5204A1.

Local/Remote Handswitch, 1-HS-5204A1.

2.

2. Place 11 Saltwater Air Compressor Local/Remote Handswitch to LOCAL.

Place 11 Saltwater Air Compressor Local/Remote Handswitch to LOCAL.

3.

3. Place 11 Saltwater Air Compressor Local Control Handswitch, 1-HS-5204A to START.

Place 11 Saltwater Air Compressor Local Control Handswitch, 1-HS-5204A to START.

4.

4. Notify 1C43 that 11 Saltwater Air Compressor is operating.

Notify 1C43 that 11 Saltwater Air Compressor is operating.

5.

5. Perform Step BJ.

Perform Step BJ.

BJ.

(ABO)

(ABO) ISOLATE FIRE EFFECTS FOR 11 CAVITY COOLING FAN DAMPER ISOLATE FIRE EFFECTS FOR 11 CAVITY COOLING FAN DAMPER NOTE NOTE NOTE 11 Cavity Cooling Fan Damper Isolation Switch, 1-HS-5303A is located on breaker 11 Cavity Cooling Fan Damper Isolation Switch, 1-HS-5303A is located on breaker 52-11454.

52-11454.

1.

1. Insert Key into 11 Cavity Cooling Fan Damper Isolation Switch, 1-HS-5303A.

Insert Key into 11 Cavity Cooling Fan Damper Isolation Switch, 1-HS-5303A.

2.

2. Place 11 Cavity Cooling Fan Damper Isolation Switch, 1-HS-5303A, to CR ISOL.

Place 11 Cavity Cooling Fan Damper Isolation Switch, 1-HS-5303A, to CR ISOL.

3.

3. Notify the RO 11 Cavity Cooling Fan is available to start Notify the RO 11 Cavity Cooling Fan is available to start PER PER PER Step BT.

Step BT.

4.

4. GO TO GO TO GO TO 69' Unit 1 Fan Room to perform Step BK.

69' Unit 1 Fan Room to perform Step BK.

BK.

(ABO)

(ABO) RESTORE SWITCHGEAR ROOM VENTILATION RESTORE SWITCHGEAR ROOM VENTILATION 1.

1. Place 11 Switchgear Room Vent Fan handswitch, 1-HS-5426, to START.

Place 11 Switchgear Room Vent Fan handswitch, 1-HS-5426, to START.

2.

2. Notify 1C43 that 11 Switchgear HVAC Fan has been started.

Notify 1C43 that 11 Switchgear HVAC Fan has been started.

3.

3. GO TO GO TO GO TO 45' West Penetration Room to perform Step BL.

45' West Penetration Room to perform Step BL.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 53 of 90 Page 53 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BL.

BL.

(ABO)

(ABO) START 11 AND 12 CONTAINMENT AIR COOLERS START 11 AND 12 CONTAINMENT AIR COOLERS 1.

1. START 12 Containment Air Cooler in HIGH speed:

START 12 Containment Air Cooler in HIGH speed:

a.

a. Place a Local/Remote Key into 12 Containment Air Cooler Load Contactor Panel Place a Local/Remote Key into 12 Containment Air Cooler Load Contactor Panel handswitch, 1-HS-5300A1, and unlock the handswitch.

handswitch, 1-HS-5300A1, and unlock the handswitch.

b.

b. Rotate the handswitch to LOCAL.

Rotate the handswitch to LOCAL.

c.c.

Place 12 Containment Air Cooler Local Handswitch, 1-HS-5300A, to HIGH.

d.

d. GO TO GO TO GO TO the 45' East Electrical Penetration Room.

the 45' East Electrical Penetration Room.

2.

2. START 11 Containment Air Cooler in HIGH speed:

START 11 Containment Air Cooler in HIGH speed:

a.

a. Place a Local/Remote Key into 11 Containment Air Cooler Load Contactor Panel Place a Local/Remote Key into 11 Containment Air Cooler Load Contactor Panel handswitch, 1-HS-5299A1, and unlock the handswitch.

handswitch, 1-HS-5299A1, and unlock the handswitch.

b.

b. Rotate the handswitch to LOCAL.

Rotate the handswitch to LOCAL.

c.c.

Place 11 Containment Air Cooler Local Handswitch, 1-HS-5299A, to HIGH.

3.

3. Notify 1C43 that 11 and 12 Containment Air Coolers are in high speed.

Notify 1C43 that 11 and 12 Containment Air Coolers are in high speed.

4.

4. GO TO GO TO GO TO the 5' Fan Room to perform Step BM.

the 5' Fan Room to perform Step BM.

BM.

(ABO)

(ABO) START 11 AFW PUMP ROOM EMERGENCY VENTILATION FAN START 11 AFW PUMP ROOM EMERGENCY VENTILATION FAN 1.

1. Inform Radiation Safety Supervision of the starting of AFW Pump Room Emergency Inform Radiation Safety Supervision of the starting of AFW Pump Room Emergency Ventilation Fan.

Ventilation Fan.

2.

2. WHEN WHEN WHEN informed by 1C43 that Load Center 11B is energized informed by 1C43 that Load Center 11B is energized PER PER PER Step BD, Step BD, THEN THEN THEN Remove the Emergency Air Inlet Damper Cover, 1-HVAC-345.

Remove the Emergency Air Inlet Damper Cover, 1-HVAC-345.

3.

3. Start 11 AFW Emergency Vent Fan using 1-HS-5470.

Start 11 AFW Emergency Vent Fan using 1-HS-5470.

4.

4. Notify 1C43 11 AFW Pump Room Emergency Ventilation Fan has been started.

Notify 1C43 11 AFW Pump Room Emergency Ventilation Fan has been started.

5.

5. GO TO GO TO GO TO the 5' Hot Machine Shop to perform Step BN.

the 5' Hot Machine Shop to perform Step BN.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 54 of 90 Page 54 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BN.

BN.

(ABO)

(ABO) DE-ENERGIZE UNIT 1 5' FAN ROOM LIGHTING DE-ENERGIZE UNIT 1 5' FAN ROOM LIGHTING NOTE NOTE NOTE Lighting Panel 1L06, located on the East wall of the Hot Machine Shop in the 5' Aux Bldg.

Lighting Panel 1L06, located on the East wall of the Hot Machine Shop in the 5' Aux Bldg.

1.

1. GO TO GO TO GO TO 1L06.

1L06.

2.

2. Place Breakers 19, 21 and 23 in OFF.

Place Breakers 19, 21 and 23 in OFF.

3.

3. GO TO GO TO GO TO the 45' Electrical Penetration Room to perform Step BQ.

the 45' Electrical Penetration Room to perform Step BQ.

BO.

(RO)

(RO) ENERGIZE PRESSURIZER HEATER MCC 109PH ENERGIZE PRESSURIZER HEATER MCC 109PH 1.

1. Manually close 109 PH PRESS HTR MCC Breaker, 52-1127:

Manually close 109 PH PRESS HTR MCC Breaker, 52-1127:

a.

a. If necessary, charge the Closing Spring for 109 PH PRESS HTR MCC Breaker, If necessary, charge the Closing Spring for 109 PH PRESS HTR MCC Breaker, 52-1127.

52-1127.

b.

b. Depress the PUSH TO CLOSE button to energize MCC 109PH Depress the PUSH TO CLOSE button to energize MCC 109PH 2.

2. Notify 1C43 that power is available to Pressurizer Backup Heater Bank 11 and to Notify 1C43 that power is available to Pressurizer Backup Heater Bank 11 and to perform Step BP.

perform Step BP.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 55 of 90 Page 55 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BP.

BP.

(CRO)

(CRO) ENERGIZE PRESSURIZER BACKUP HEATER BANK 11 ENERGIZE PRESSURIZER BACKUP HEATER BANK 11 CAUTION CAUTION CAUTION The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are operated at 1C43.

operated at 1C43.

1.

1. WHEN WHEN WHEN notified power is restored to Pressurizer Backup Heater Bank 1 notified power is restored to Pressurizer Backup Heater Bank 1 AND AND AND RCS Pressure is less than 1900 psia, RCS Pressure is less than 1900 psia, THEN THEN THEN operate Pressurizer Backup Heater Bank 1 as follows:

operate Pressurizer Backup Heater Bank 1 as follows:

a.

a. Ensure Pressurizer level is greater than 101".

Ensure Pressurizer level is greater than 101".

b.

b. Rotate the key for 11 BACKUP HTR TRANSFER CONTR, 1-HS-100-4A to ON.

Rotate the key for 11 BACKUP HTR TRANSFER CONTR, 1-HS-100-4A to ON.

c.c.

Cycle Pressurizer Backup Heater Bank 11 within the following limits:

Maintain RCS pressure within the limits of ATTACHMENT (1), RCS PRESSURE Maintain RCS pressure within the limits of ATTACHMENT (1), RCS PRESSURE TEMPERATURE LIMITS TEMPERATURE LIMITS

Do Do NOT NOT NOT exceed 1900 PSIA.

exceed 1900 PSIA.

Maintain RCS subcooling at least 30 Maintain RCS subcooling at least 30F.

F.

BQ.

(ABO)

(ABO) OPEN MCC 104R FEEDER BREAKER OPEN MCC 104R FEEDER BREAKER 1.

1. Open MCC 104R Feeder Breaker, 52-10401.

Open MCC 104R Feeder Breaker, 52-10401.

2.

2. Notify 1C43 that MCC 104R Feeder Breaker has been opened.

Notify 1C43 that MCC 104R Feeder Breaker has been opened.

3.

3. GO TO GO TO GO TO the 27' East Penetration Room to perform Step BS.

the 27' East Penetration Room to perform Step BS.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 56 of 90 Page 56 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BR.

BR.

(CRO)

(CRO) BORATE THE RCS BORATE THE RCS 1.

1. Obtain the last RCS Boron and BAST Concentration sample results.

Obtain the last RCS Boron and BAST Concentration sample results.

CAUTION CAUTION CAUTION To prevent air binding the Charging Pumps, do NOT exceed Maximum Charging Time To prevent air binding the Charging Pumps, do NOT exceed Maximum Charging Time To prevent air binding the Charging Pumps, do NOT exceed Maximum Charging Time for the available BAST levels.

for the available BAST levels.

2.

2. Based on initial RCS Boron, determine Charging Time Required for Boration Based on initial RCS Boron, determine Charging Time Required for Boration PER PER PER ATTACHMENT (2), CHARGING TIME REQUIRED FOR BORATION:

ATTACHMENT (2), CHARGING TIME REQUIRED FOR BORATION:

IF IF IF the average BAST Concentration is 7.25% or greater, the average BAST Concentration is 7.25% or greater, THEN THEN THEN use the BAST 7.25% graph for the number of Charging Pumps operating.

use the BAST 7.25% graph for the number of Charging Pumps operating.

IF IF IF the average BAST Concentration is less than 7.25%,

the average BAST Concentration is less than 7.25%,

THEN THEN THEN use the BAST 6.25% graph for the number of Charging Pumps operating.

use the BAST 6.25% graph for the number of Charging Pumps operating.

3.

3. IF IF IF Pressurizer level is nearing 250 inches, Pressurizer level is nearing 250 inches, THEN THEN THEN reduce RCS temperature, as necessary to continue boration.

reduce RCS temperature, as necessary to continue boration.

a.

a. Slowly raise steam flow through the ADVs.

Slowly raise steam flow through the ADVs.

b.

b. Control cooldown so that the capacity of 11(13) Charging Pump is Control cooldown so that the capacity of 11(13) Charging Pump is NOT NOT NOT exceeded.

exceeded.

c.c.

Maintain RCS cooldown less than 100 Maintain RCS cooldown less than 100F in any one hour.

F in any one hour.

d.

d. Maintain RCS subcooling between 30 Maintain RCS subcooling between 30F and 140 F and 140F.

F.

e.

e. IF IF IF required, required, THEN THEN THEN have the RO operate 11(13) Charging Pump to maintain Pressurizer level have the RO operate 11(13) Charging Pump to maintain Pressurizer level near 250 inches.

near 250 inches.

4.

4. WHEN WHEN WHEN the Charging Time To Reach 2300 ppm, the Charging Time To Reach 2300 ppm, OR OR OR the Maximum Charging Time has been achieved, the Maximum Charging Time has been achieved, THEN THEN THEN perform the following actions:

perform the following actions:

a.

a. Secure the RCS cooldown, if in progress.

Secure the RCS cooldown, if in progress.

b.

b. Have the RO operate 11(13) Charging Pump to maintain Pressurizer level near Have the RO operate 11(13) Charging Pump to maintain Pressurizer level near 160 inches.

160 inches.

c.c.

Notify the ABO to shift Charging Pump suction to the RWT Notify the ABO to shift Charging Pump suction to the RWT PER PER PER Step CG.

Step CG.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 57 of 90 Page 57 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BS.

BS.

(ABO)

(ABO) ESTABLISH SERVICE WATER FLOW TO 11 CONTAINMENT AIR COOLER ESTABLISH SERVICE WATER FLOW TO 11 CONTAINMENT AIR COOLER 1.

1. Shut 1-IA-1207 to isolate Instrument Air to 11 Containment Air Cooler Normal Inlet Shut 1-IA-1207 to isolate Instrument Air to 11 Containment Air Cooler Normal Inlet Control Valve, 1-SRW-1581-CV.

Control Valve, 1-SRW-1581-CV.

2.

2. Disconnect the air fitting between the solenoid and the valve operator and bleed the air Disconnect the air fitting between the solenoid and the valve operator and bleed the air off.

off.

3.

3. Shut 1-IA 917 to isolate Instrument Air to 11 Containment Air Cooler Emergency Outlet Shut 1-IA 917 to isolate Instrument Air to 11 Containment Air Cooler Emergency Outlet Valve, 1-SRW-1582-CV.

Valve, 1-SRW-1582-CV.

4.

4. Disconnect the air fitting between the solenoid and the valve operator and bleed the air Disconnect the air fitting between the solenoid and the valve operator and bleed the air off.

off.

5.

5. GO TO GO TO GO TO the 5' West Penetration Room to perform Step BY.

the 5' West Penetration Room to perform Step BY.

BT.

(RO)

(RO) START 11 CAVITY COOLING FAN START 11 CAVITY COOLING FAN 1.

1. If necessary, charge the Closing Spring for 11 Cavity Cooling Fan breaker 52-1101.

If necessary, charge the Closing Spring for 11 Cavity Cooling Fan breaker 52-1101.

2.

2. WHEN WHEN WHEN notified by the ABO to start 11 Cavity Cooling Fan, notified by the ABO to start 11 Cavity Cooling Fan, THEN THEN THEN depress the PUSH TO CLOSE button on breaker 52-1101.

depress the PUSH TO CLOSE button on breaker 52-1101.

3.

3. Notify 1C43 that 11 Cavity Cooling Fan has been started.

Notify 1C43 that 11 Cavity Cooling Fan has been started.

BU.

(RO)

(RO) DE-ENERGIZE 4KV BUS 12 DE-ENERGIZE 4KV BUS 12 1.

1. Open the Feeder Breakers for 4KV Bus 12:

Open the Feeder Breakers for 4KV Bus 12:

a.

a. Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-11, Breaker 152-1201.

Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-11, Breaker 152-1201.

b.

b. Depress the TRIP pushbutton for breaker 152-1201.

Depress the TRIP pushbutton for breaker 152-1201.

c.c.

Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-21, Breaker 152-1209.

d.

d. Depress the TRIP pushbutton for breaker 152-1209.

Depress the TRIP pushbutton for breaker 152-1209.

2.

2. Notify 1C43 that 4KV Bus 12 has been de-energized.

Notify 1C43 that 4KV Bus 12 has been de-energized.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 58 of 90 Page 58 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BV.

BV.

(CRO)

(CRO) DE-ENERGIZE 4KV BUS 13 DE-ENERGIZE 4KV BUS 13 1.

1. Open the Feeder Breakers for 4KV Bus 13:

Open the Feeder Breakers for 4KV Bus 13:

a.

a. Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-21, Breaker 152-1301.

Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-21, Breaker 152-1301.

b.

b. Depress the TRIP pushbutton for breaker 152-1301.

Depress the TRIP pushbutton for breaker 152-1301.

c.c.

Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-11, Breaker 152-1311.

d.

d. Depress the TRIP pushbutton for breaker 152-1311.

Depress the TRIP pushbutton for breaker 152-1311.

BW.

(TBO)

(TBO) ENERGIZE 1Y09 AND TIE 1Y10 TO 1Y09 ENERGIZE 1Y09 AND TIE 1Y10 TO 1Y09 1.

1. Tie 1Y10 to 1Y09 Tie 1Y10 to 1Y09 a.

a. On 1Y09, ensure INSTR. TRANSF. 11 1X08 MAIN FEEDER BREAKER, in ON.

On 1Y09, ensure INSTR. TRANSF. 11 1X08 MAIN FEEDER BREAKER, in ON.

b.

b. On 1Y10, Place INSTRUMENT TRANSF-12 1X09 1Y10 MAIN FEEDER On 1Y10, Place INSTRUMENT TRANSF-12 1X09 1Y10 MAIN FEEDER BREAKER, to OFF.

BREAKER, to OFF.

c.c.

On 1Y10, Place BUS TIE 208/120V BUS 11, to ON.

d.

d. Place 1Y09-1Y10 Bus Tie Switch 1SY09, located between 1Y09 and 1Y10 to ON.

Place 1Y09-1Y10 Bus Tie Switch 1SY09, located between 1Y09 and 1Y10 to ON.

2.

2. Notify 1C43 that 1Y09 is energized and 1Y10 is tied to 1Y09.

Notify 1C43 that 1Y09 is energized and 1Y10 is tied to 1Y09.

3.

3. GO TO GO TO GO TO the Main Generator Hydrogen Charging Station to perform Step CB.

the Main Generator Hydrogen Charging Station to perform Step CB.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 59 of 90 Page 59 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BX.

BX.

(CRO)

(CRO) DE-ENERGIZE 4KV BUS 14 DE-ENERGIZE 4KV BUS 14 1.

1. Open the Feeder Breakers for 4KV Bus 14:

Open the Feeder Breakers for 4KV Bus 14:

a.

a. Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-11, Breaker 152-1401.

Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-11, Breaker 152-1401.

b.

b. Depress the TRIP pushbutton for breaker 152-1401.

Depress the TRIP pushbutton for breaker 152-1401.

c.c.

Remove the CLOSE Fuses for SERVICE TRANSF. U-4000-21, Breaker 152-1414.

d.

d. Depress the TRIP pushbutton for breaker 152-1414.

Depress the TRIP pushbutton for breaker 152-1414.

BY.

(ABO)

(ABO) ESTABLISH SERVICE WATER FLOW TO 12 CONTAINMENT AIR COOLER ESTABLISH SERVICE WATER FLOW TO 12 CONTAINMENT AIR COOLER 1.

1. Shut 1-IA-882 to isolate Instrument Air to 12 Containment Air Cooler Normal Inlet Shut 1-IA-882 to isolate Instrument Air to 12 Containment Air Cooler Normal Inlet Control Valve, 1-SRW-1584-CV.

Control Valve, 1-SRW-1584-CV.

2.

2. Disconnect the air fitting between the the solenoid and the valve operator and bleed the Disconnect the air fitting between the the solenoid and the valve operator and bleed the air off.

air off.

3.

3. GO TO GO TO GO TO the Unit 1 27' West Piping Penetration Room.

the Unit 1 27' West Piping Penetration Room.

4.

4. Shut 1-IA-892 to isolate Instrument Air to 12 Containment Air Cooler Emergency Outlet Shut 1-IA-892 to isolate Instrument Air to 12 Containment Air Cooler Emergency Outlet Control Valve, 1-SRW-1585-CV.

Control Valve, 1-SRW-1585-CV.

5.

5. Disconnect the air fitting between the the solenoid and the valve operator and bleed the Disconnect the air fitting between the the solenoid and the valve operator and bleed the air off.

air off.

6.

6. Notify 1C43 that Service Water has been established to 11 and 12 Containment Air Notify 1C43 that Service Water has been established to 11 and 12 Containment Air Coolers.

Coolers.

7.

7. GO TO GO TO GO TO the 5' Component Cooling Room to perform Step CE.

the 5' Component Cooling Room to perform Step CE.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 60 of 90 Page 60 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS BZ.

BZ.

(RO)

(RO) PLACE 11 AND 14 BATTERY CHARGERS IN SERVICE PLACE 11 AND 14 BATTERY CHARGERS IN SERVICE 1.

1. IF IF IF necessary, necessary, THEN THEN THEN charge the Closing Spring for breaker 52-1111.

charge the Closing Spring for breaker 52-1111.

2.

2. Place 11 Battery Charger in service by depressing the PUSH TO CLOSE button.

Place 11 Battery Charger in service by depressing the PUSH TO CLOSE button.

3.

3. IF IF IF necessary, necessary, THEN THEN THEN charge the Closing Spring for breaker 52-1120.

charge the Closing Spring for breaker 52-1120.

4.

4. Place 14 Battery Charger in service by depressing the PUSH TO CLOSE button.

Place 14 Battery Charger in service by depressing the PUSH TO CLOSE button.

5.

5. Notify 1C43 that 11 and 14 Battery Chargers are in service.

Notify 1C43 that 11 and 14 Battery Chargers are in service.

CA.

(OSO)

(OSO) START 12 WELL WATER PUMP START 12 WELL WATER PUMP 1.

1. WHEN WHEN WHEN notified by 2C43 to START 12 Well Water Pump, notified by 2C43 to START 12 Well Water Pump, THEN THEN THEN place 12 Well Water Pump handswitch, 0-HS-5565 to START.

place 12 Well Water Pump handswitch, 0-HS-5565 to START.

2.

2. Notify 2C43 that 12 Well Water Pump has been started.

Notify 2C43 that 12 Well Water Pump has been started.

3.

3. Perform Step CD.

Perform Step CD.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 61 of 90 Page 61 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CB.

CB.

(TBO)

(TBO) VENT THE MAIN GENERATOR TO 2 PSIG VENT THE MAIN GENERATOR TO 2 PSIG 1.

1. Ensure Two-Position Valve CO Ensure Two-Position Valve CO22 Charge Generator Bottom Vent, 1-G-01, is in the Charge Generator Bottom Vent, 1-G-01, is in the ALIGN CO ALIGN CO22 TO GENERATOR Position.

TO GENERATOR Position.

2.

2. Open Generator Top and H Open Generator Top and H22 Supply Vent, 1-G-02.

Supply Vent, 1-G-02.

3.

3. Throttle open Generator Vent Line Isolation Valve, 1-G-03.

Throttle open Generator Vent Line Isolation Valve, 1-G-03.

NOTE NOTE NOTE After the Main Generator vent has been established, it is permissible to continue with the After the Main Generator vent has been established, it is permissible to continue with the next block function.

next block function.

4.

4. Notify 1C43 that venting of the Main Generator is in progress.

Notify 1C43 that venting of the Main Generator is in progress.

5.

5. WHEN WHEN WHEN Main Generator hydrogen pressure is vented to 2 PSIG, Main Generator hydrogen pressure is vented to 2 PSIG, THEN THEN THEN shut Generator Vent Line Isolation Valve, 1-G-03.

shut Generator Vent Line Isolation Valve, 1-G-03.

6.

6. GO TO GO TO GO TO the U-1 Main Condenser Pit near the SGFP Seal Water Booster Pumps to the U-1 Main Condenser Pit near the SGFP Seal Water Booster Pumps to perform Step CC.

perform Step CC.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 62 of 90 Page 62 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CC.

CC.

(TBO)

(TBO) ISOLATE DI WATER AND CONDENSATE MAKEUP TO THE SERVICE ISOLATE DI WATER AND CONDENSATE MAKEUP TO THE SERVICE WATER AND COMPONENT COOLING HEAD TANKS WATER AND COMPONENT COOLING HEAD TANKS NOTE NOTE NOTE 1-CD-429 is located above the SGFP Seal Water Booster Pumps.

1-CD-429 is located above the SGFP Seal Water Booster Pumps.

1.

1. Shut the Combined Supply to SRW and Component Cooling Head Tanks, 1-CD-429.

Shut the Combined Supply to SRW and Component Cooling Head Tanks, 1-CD-429.

NOTE NOTE NOTE 0-DW-248 is located outside the AFW Pump Room on the South side.

0-DW-248 is located outside the AFW Pump Room on the South side.

2.

2. Shut the Quench Tank, Component Cooling, and Service Water Head Tank Isolation, Shut the Quench Tank, Component Cooling, and Service Water Head Tank Isolation, 0-DW-248.

0-DW-248.

NOTE NOTE NOTE 1-CD-457 is located Southwest of the 12' Sample Sink in corner.

1-CD-457 is located Southwest of the 12' Sample Sink in corner.

3.

3. Connect a fire hose from Hose Station HS-12-16 to Condensate System Fire Hose Connect a fire hose from Hose Station HS-12-16 to Condensate System Fire Hose Connection Isolation, 1-CD-457.

Connection Isolation, 1-CD-457.

4.

4. Open Condensate System Fire Hose Connection Isolation, 1-CD-457.

Open Condensate System Fire Hose Connection Isolation, 1-CD-457.

5.

5. Open the Hose Station HS-12-16 Isolation Valve.

Open the Hose Station HS-12-16 Isolation Valve.

6.

6. Notify 1C43 that Fire System Water is available to fill the Service Water and Notify 1C43 that Fire System Water is available to fill the Service Water and Component Cooling Head Tanks.

Component Cooling Head Tanks.

7.

7. Have 1C43 notify the ABO to restore makeup to the Service Water and Component Have 1C43 notify the ABO to restore makeup to the Service Water and Component Cooling Head Tanks Cooling Head Tanks PER PER PER Step CF.

Step CF.

8.

8. Report to 1C43 to provide additional assistance where needed (e.g., help ABO in Report to 1C43 to provide additional assistance where needed (e.g., help ABO in Containment).

Containment).

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 63 of 90 Page 63 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CD.

CD.

(OSO)

(OSO) MONITOR DIESEL FIRE PUMP FUEL OIL DAY TANK LEVEL MONITOR DIESEL FIRE PUMP FUEL OIL DAY TANK LEVEL 1.

1. IF IF IF the Diesel Fire Pump Fuel Oil Day Tank level is approaching 2 feet, the Diesel Fire Pump Fuel Oil Day Tank level is approaching 2 feet, THEN THEN THEN fill the Day Tank:

fill the Day Tank:

a.

a. Check open Check open ONE ONE ONE of the following:

of the following:

11 FOST to the Auxiliary Boilers, 0-DFO-102 11 FOST to the Auxiliary Boilers, 0-DFO-102

21 FOST to the Auxiliary Boilers, 0-DFO-108 21 FOST to the Auxiliary Boilers, 0-DFO-108 b.

b. Check open the Unloading Pump Suction, 0-DFO-116.

Check open the Unloading Pump Suction, 0-DFO-116.

c.c.

Open the Fire Pump Fuel Oil Day Tank Fill valve, 0-DFO-132.

1400 1400 d.

d. WHEN WHEN WHEN the desired level is reached, the desired level is reached, THEN THEN THEN shut the Fire Pump Fuel Oil Day Tank Fill valve, 0-DFO-132.

shut the Fire Pump Fuel Oil Day Tank Fill valve, 0-DFO-132.

2.

2. Monitor CST inventory Monitor CST inventory PER PER PER Step CT.

Step CT.

1400 1400 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 64 of 90 Page 64 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CE.

CE.

(ABO)

(ABO) ESTABLISH SALTWATER LINEUP FOR COMPONENT COOLING HEAT ESTABLISH SALTWATER LINEUP FOR COMPONENT COOLING HEAT EXCHANGERS EXCHANGERS NOTE NOTE NOTE This step can be interrupted to perform other more urgent tasks as the procedure warrents.

This step can be interrupted to perform other more urgent tasks as the procedure warrents.

This is due to the time required to set up ladders to reach some of the regulators for 12 CC This is due to the time required to set up ladders to reach some of the regulators for 12 CC HX.

HX.

1.

1. Perform the following for the below listed valves for 11 Component Cooling Heat Perform the following for the below listed valves for 11 Component Cooling Heat Exchanger:

Exchanger:

a.

a. Back off the air regulators.

Back off the air regulators.

b.

b. Disconnect the air line between the regulator and the actuator.

Disconnect the air line between the regulator and the actuator.

11 CC HX Saltwater Inlet, 1-SW-5160-CV 11 CC HX Saltwater Inlet, 1-SW-5160-CV

11 CC HX Saltwater Outlet, 1-SW-5206-CV 11 CC HX Saltwater Outlet, 1-SW-5206-CV 2.

2. Notify 1C43 that 11 Component Cooling Heat Exchanger Saltwater Valves are open.

Notify 1C43 that 11 Component Cooling Heat Exchanger Saltwater Valves are open.

3.

3. Perform the following for the below listed valves for 12 Component Cooling Heat Perform the following for the below listed valves for 12 Component Cooling Heat Exchanger:

Exchanger:

a.

a. Back off the air regulators.

Back off the air regulators.

b.

b. Disconnect the air line between the regulator and the actuator.

Disconnect the air line between the regulator and the actuator.

12 CC HX Emergency Saltwater Outlet, 1-SW-5165-CV 12 CC HX Emergency Saltwater Outlet, 1-SW-5165-CV

12 CC HX Emergency Saltwater Outlet, 1-SW-5166-CV 12 CC HX Emergency Saltwater Outlet, 1-SW-5166-CV

12 CC HX Saltwater Inlet, 1-SW-5162-CV 12 CC HX Saltwater Inlet, 1-SW-5162-CV

12 CC HX Saltwater Outlet, 1-SW-5163-CV 12 CC HX Saltwater Outlet, 1-SW-5163-CV

12 CC HX Saltwater Outlet, 1-SRW-5208-CV 12 CC HX Saltwater Outlet, 1-SRW-5208-CV 4.

4. Notify 1C43 that 12 Component Cooling Heat Exchanger Saltwater Valves are open.

Notify 1C43 that 12 Component Cooling Heat Exchanger Saltwater Valves are open.

5.

5. GO TO GO TO GO TO the 69' by the Component Cooling Head Tank to perform Step CF.

the 69' by the Component Cooling Head Tank to perform Step CF.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 65 of 90 Page 65 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CF.

CF.

(ABO)

(ABO) RESTORE MAKEUP TO THE SERVICE WATER AND COMPONENT RESTORE MAKEUP TO THE SERVICE WATER AND COMPONENT COOLING HEAD TANKS COOLING HEAD TANKS 1.

1. WHEN WHEN WHEN notified that makeup has been restored to fill the Service Water and notified that makeup has been restored to fill the Service Water and Component Cooling Head Tanks, Component Cooling Head Tanks, THEN THEN THEN::

Open Component Cooling Head Tank Condensate Supply, 1-CD-145.

Open SRW Head Tank Condensate Supply, 1-CD-144.

2.

2. Operate, as necessary, to maintain level indication for the Component Cooling and Operate, as necessary, to maintain level indication for the Component Cooling and Service Water Head Tanks:

Service Water Head Tanks:

a.

a. Component Cooling Head Tank:

Component Cooling Head Tank:

(1)

Open Component Cooling Head Tank Makeup Bypass, 1-CC-108 Open Component Cooling Head Tank Makeup Bypass, 1-CC-108 (2)

(2)

Shut 1-CC-3820-CV Inlet Isol, 1-CC-107 Shut 1-CC-3820-CV Inlet Isol, 1-CC-107 b.

b. 11 Service Water Head Tank:

11 Service Water Head Tank:

(1)

Open 11 Service Water Head Tank Makeup Bypass, 1-SRW-106 Open 11 Service Water Head Tank Makeup Bypass, 1-SRW-106 (2)

(2)

Shut 11 Service Water Head Tank LCV Inlet Isol, 1-SRW-104 Shut 11 Service Water Head Tank LCV Inlet Isol, 1-SRW-104 c.c.

12 Service Water Head Tank:

(1)

Open 12 Service Water Head Tank Makeup Bypass, 1-SRW-114 Open 12 Service Water Head Tank Makeup Bypass, 1-SRW-114 (2)

(2)

Shut 12 Service Water Head Tank LCV Inlet Isol, 1-SRW-112 Shut 12 Service Water Head Tank LCV Inlet Isol, 1-SRW-112 3.

3. Periodically monitor Component Cooling and Service Water Head Tanks levels and fill Periodically monitor Component Cooling and Service Water Head Tanks levels and fill as necessary.

as necessary.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 66 of 90 Page 66 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CG.

CG.

(ABO)

(ABO) SHIFT CHARGING PUMP SUCTION TO THE RWT SHIFT CHARGING PUMP SUCTION TO THE RWT 1.

1. WHEN WHEN WHEN notified to shift Charging Pump Suction to the RWT, notified to shift Charging Pump Suction to the RWT, THEN THEN THEN::

a.

a. Manually open the RWT CHG PP SUCT, 1-CVC-504-MOV.

Manually open the RWT CHG PP SUCT, 1-CVC-504-MOV.

b.

b. Manually shut the 11 BAST GRAVITY FD, 1-CVC-509-MOV.

Manually shut the 11 BAST GRAVITY FD, 1-CVC-509-MOV.

c.c.

Manually shut the 12 BAST GRAVITY FD, 1-CVC-508-MOV.

2.

2. Notify 1C43 that Charging Pump suction has been shifted to the RWT.

Notify 1C43 that Charging Pump suction has been shifted to the RWT.

3.

3. Prepare for Containment entry.

Prepare for Containment entry.

4.

4. GO TO GO TO GO TO the 69' SFP Exhaust Fan Room Lantern Locker and obtain the following the 69' SFP Exhaust Fan Room Lantern Locker and obtain the following equipment that is stored there for Containment entry:

equipment that is stored there for Containment entry:

Portable Handlanterns Portable Handlanterns

Portable Air Bottle Portable Air Bottle

Air Regulator Air Regulator

Air jumper to operate the Aux Spray Control Valve, 1-CVC-517-CV.

5.

5. Notify 1C43 to have the TBO assist with evolutions in the Containment.

Notify 1C43 to have the TBO assist with evolutions in the Containment.

CH.

(CRO)

(CRO) COMMENCE RCS COOLDOWN COMMENCE RCS COOLDOWN 1.

1. WHEN WHEN WHEN at least one hour has elapsed after completing RCS boration, at least one hour has elapsed after completing RCS boration, THEN THEN THEN slowly raise steam flow through the ADVs.

slowly raise steam flow through the ADVs.

2.

2. Control the cooldown so that the capacity of 11 (13) Charging Pump is Control the cooldown so that the capacity of 11 (13) Charging Pump is NOT NOT NOT exceeded.

exceeded.

3.

3. Do Do NOT NOT NOT exceed an RCS cooldown rate of 100 exceed an RCS cooldown rate of 100F per hour.

F per hour.

4.

4. Maintain RCS pressure and temperature within the limits of ATTACHMENT (1), RCS Maintain RCS pressure and temperature within the limits of ATTACHMENT (1), RCS PRESSURE TEMPERATURE LIMITS.

PRESSURE TEMPERATURE LIMITS.

5.

5. Have the RO operate 11 (13) Charging Pump to maintain Pressurizer level near 160 Have the RO operate 11 (13) Charging Pump to maintain Pressurizer level near 160 inches indicated.

inches indicated.

6.

6. Maintain RCS subcooling between 30 Maintain RCS subcooling between 30F and 140 F and 140F.

F.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 67 of 90 Page 67 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CI.

CI.

(CRO)

(CRO) PREPARE TO DEPRESSURIZE THE RCS PREPARE TO DEPRESSURIZE THE RCS 1.

1. If necessary, place 11 BACK UP HTR TRANSFER CONTR, 1-HS-100-4A keyswitch to If necessary, place 11 BACK UP HTR TRANSFER CONTR, 1-HS-100-4A keyswitch to OFF.

OFF.

2.

2. Notify the ABO to install the Portable Air Supply to the Aux Spray Control Valve, Notify the ABO to install the Portable Air Supply to the Aux Spray Control Valve, 1-CVC-517, 1-CVC-517, PER PER PER Step CJ.

Step CJ.

3.

3. WHEN WHEN WHEN 1-CVC-517-CV is open, 1-CVC-517-CV is open, THEN THEN THEN notify the ABO to commence depressurization using Aux Spray notify the ABO to commence depressurization using Aux Spray PER PER PER Step CK.

Step CK.

CJ.

(ABO)

(ABO) INSTALL PORTABLE AIR SUPPLY TO AUX SPRAY CONTROL VALVE INSTALL PORTABLE AIR SUPPLY TO AUX SPRAY CONTROL VALVE 1.

1. WHEN WHEN WHEN notified to install the Portable Air Bottle, notified to install the Portable Air Bottle, THEN THEN THEN go to the 45' West side of the Containment to 1-CVC-517-CV.

go to the 45' West side of the Containment to 1-CVC-517-CV.

2.

2. Shut Instrument Air to Aux Spray Control Valve, 1-IA-451.

Shut Instrument Air to Aux Spray Control Valve, 1-IA-451.

3.

3. Disconnect the air line at the fitting closest to the valve actuator (i.e., downstream of the Disconnect the air line at the fitting closest to the valve actuator (i.e., downstream of the solenoid valve underneath the valve actuator).

solenoid valve underneath the valve actuator).

4.

4. Connect the Portable Air Supply Bottle to the valve actuator.

Connect the Portable Air Supply Bottle to the valve actuator.

5.

5. Very slowly open the regulator valve.

Very slowly open the regulator valve.

6.

6. Notify 1C43 when 1-CVC-517-CV is open.

Notify 1C43 when 1-CVC-517-CV is open.

CK.

(ABO)

(ABO) OPERATE AUX SPRAY CONTROL VALVE OPERATE AUX SPRAY CONTROL VALVE 1.

1. WHEN WHEN WHEN notified by 1C43 that Aux Spray operation is desired, notified by 1C43 that Aux Spray operation is desired, THEN THEN THEN::

Shut 12B Loop Charging Isolation, 1-CVC-395.

Shut 11A Loop Charging Isolation, 1-CVC-392.

2.

2. Notify 1C43 that Aux Spray has been initiated.

Notify 1C43 that Aux Spray has been initiated.

3.

3. Be prepared to secure air to the Aux Spray Control Valve.

Be prepared to secure air to the Aux Spray Control Valve.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 68 of 90 Page 68 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CL.

CL.

(CRO)

(CRO) DEPRESSURIZE THE RCS DEPRESSURIZE THE RCS 1.

1. Depressurize the RCS until one of the following criteria are met:

Depressurize the RCS until one of the following criteria are met:

WARNING WARNING WARNING Consider Breathing Air reserve, high ambient temperature and other environmental Consider Breathing Air reserve, high ambient temperature and other environmental Consider Breathing Air reserve, high ambient temperature and other environmental factors when determining stay times.

factors when determining stay times.

The ABO is nearing the maximum stay time.

RCS subcooling has been reduced to 30 RCS subcooling has been reduced to 30F.

F.

Pressurizer level is nearing 250 inches and increasing.

Pressurizer level is nearing 250 inches and increasing. IF IF IF Pressurizer level is Pressurizer level is rapidly approaching 250 inches, rapidly approaching 250 inches, THEN THEN THEN notify the RO to trip 11 (13) Charging Pump.

notify the RO to trip 11 (13) Charging Pump.

2.

2. Notify the ABO to secure air to the Aux Spray Control Valve Notify the ABO to secure air to the Aux Spray Control Valve PER PER PER Step CM.

Step CM.

CAUTION CAUTION CAUTION The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are operated at 1C43.

operated at 1C43.

3.

3. If necessary, use Pressurizer Backup Heater Bank 11 to maintain 30 If necessary, use Pressurizer Backup Heater Bank 11 to maintain 30F subcooling:

F subcooling:

a.

a. Ensure Pressurizer level is greater than 101".

Ensure Pressurizer level is greater than 101".

b.

b. Cycle Pressurizer Backup Heater Bank 11 as necessary to maintain 30 Cycle Pressurizer Backup Heater Bank 11 as necessary to maintain 30FF subcooling.

subcooling.

4.

4. IF IF IF 11 (13) Charging Pump was tripped due to Pressurizer level 11 (13) Charging Pump was tripped due to Pressurizer level AND AND AND Pressurizer level permits restoration of charging, Pressurizer level permits restoration of charging, THEN THEN THEN have the RO START 11 (13) Charging Pump.

have the RO START 11 (13) Charging Pump.

5.

5. Continue the cooldown until RCS subcooling is 140 Continue the cooldown until RCS subcooling is 140F.

F.

6.

6. Have the RO operate 11 (13) Charging Pump to maintain Pressurizer level near 160 Have the RO operate 11 (13) Charging Pump to maintain Pressurizer level near 160 inches indicated.

inches indicated.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 69 of 90 Page 69 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CL. (continued)

CL. (continued)

CAUTION CAUTION CAUTION Do NOT exceed an RCS cooldown rate of 100 Do NOT exceed an RCS cooldown rate of 100 Do NOT exceed an RCS cooldown rate of 100F per hour.

F per hour.

7.

7. Control the cooldown so that the capacity of 11 (13) Charging Pump is Control the cooldown so that the capacity of 11 (13) Charging Pump is NOT NOT NOT exceeded.

exceeded.

8.

8. Maintain RCS pressure and temperature within the limits of ATTACHMENT (1), RCS Maintain RCS pressure and temperature within the limits of ATTACHMENT (1), RCS PRESSURE TEMPERATURE LIMITS.

PRESSURE TEMPERATURE LIMITS.

CM.

(ABO)

(ABO) SECURE AUX SPRAY SECURE AUX SPRAY NOTE NOTE NOTE It may be desired to have Charging flow realigned through the Loop Charging Isolations, It may be desired to have Charging flow realigned through the Loop Charging Isolations, since 11A Charging CV Bypass, 1-CVC-188 may since 11A Charging CV Bypass, 1-CVC-188 may NOT NOT NOT be able to pass sufficient flow, be able to pass sufficient flow, causing the Charging Pump discharge Relief Valve to open.

causing the Charging Pump discharge Relief Valve to open.

1.

1. WHEN WHEN WHEN notified that Aux Spray operation is no longer needed, notified that Aux Spray operation is no longer needed, AND AND AND IF IF IF directed by 1C43, directed by 1C43, THEN THEN THEN open the following valves:

open the following valves:

12B Charging Line Isolation, 1-CVC-395 12B Charging Line Isolation, 1-CVC-395

11A Charging Line Isolation, 1-CVC-392 11A Charging Line Isolation, 1-CVC-392 2.

2. WHEN WHEN WHEN notified by the CRO to secure Aux Spray, notified by the CRO to secure Aux Spray, THEN THEN THEN shut the Portable Air Bottle Regulator valve.

shut the Portable Air Bottle Regulator valve.

3.

3. Disconnect the Portable Air Bottle to bleed air.

Disconnect the Portable Air Bottle to bleed air.

4.

4. Notify 1C43 that Aux Spray has been secured.

Notify 1C43 that Aux Spray has been secured.

NOTE NOTE NOTE The portable air bottle, regulator and jumper should be left in the vicinity of Aux Spray The portable air bottle, regulator and jumper should be left in the vicinity of Aux Spray Control Valve.

Control Valve.

5.

5. Exit the Containment.

Exit the Containment.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 70 of 90 Page 70 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CN.

CN.

(CRO)

(CRO) SECURE RCS COOLDOWN AND PREPARE TO DEPRESSURIZE THE SECURE RCS COOLDOWN AND PREPARE TO DEPRESSURIZE THE RCS RCS 1.

1. WHEN WHEN WHEN RCS subcooling approaches 140 RCS subcooling approaches 140F, F,

THEN THEN THEN secure the cooldown secure the cooldown AND AND AND notify the ABO to go to Containment and initiate Aux Spray notify the ABO to go to Containment and initiate Aux Spray PER PER PER Step CO.

Step CO.

2.

2. If necessary, place Pressurizer Backup Heater Bank 11 keyswitch to OFF.

If necessary, place Pressurizer Backup Heater Bank 11 keyswitch to OFF.

CO.

(ABO)

(ABO) INITIATE AUX SPRAY INITIATE AUX SPRAY 1.

1. WHEN WHEN WHEN notified by the CRO to initiate Aux Spray, notified by the CRO to initiate Aux Spray, THEN THEN THEN enter Unit 1 Containment.

enter Unit 1 Containment.

2.

2. Connect the Portable Air Bottle to 1-CVC-517-CV, valve actuator.

Connect the Portable Air Bottle to 1-CVC-517-CV, valve actuator.

3.

3. Very slowly open the Regulator valve.

Very slowly open the Regulator valve.

4.

4. WHEN WHEN WHEN notified by 1C43 that Aux Spray is desired, notified by 1C43 that Aux Spray is desired, THEN THEN THEN verify shut the following valves:

verify shut the following valves:

12B Charging Line Isolation, 1-CVC-395 12B Charging Line Isolation, 1-CVC-395

11A Charging Line Isolation, 1-CVC-392 11A Charging Line Isolation, 1-CVC-392 NOTE NOTE NOTE The portable air bottle, regulator and jumper should be left in the vicinity of Aux Spray The portable air bottle, regulator and jumper should be left in the vicinity of Aux Spray Control Valve, 1-CVC-517-CV.

Control Valve, 1-CVC-517-CV.

5.

5. Notify 1C43 that Aux Spray has been initiated.

Notify 1C43 that Aux Spray has been initiated.

6.

6. Be prepared to secure air to the Aux Spray Control Valve.

Be prepared to secure air to the Aux Spray Control Valve.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 71 of 90 Page 71 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CP.

CP.

(CRO)

(CRO) DEPRESSURIZE THE RCS DEPRESSURIZE THE RCS 1.

1. Depressurize the RCS until one of the following criteria are met:

Depressurize the RCS until one of the following criteria are met:

WARNING WARNING WARNING Consider Breathing Air reserve, high ambient temperature and other environmental Consider Breathing Air reserve, high ambient temperature and other environmental Consider Breathing Air reserve, high ambient temperature and other environmental factors when determining stay times.

factors when determining stay times.

The ABO is nearing the maximum stay time.

RCS subcooling has been reduced to 30 RCS subcooling has been reduced to 30F.

F.

Pressurizer level is nearing 250 inches and increasing.

Pressurizer level is nearing 250 inches and increasing. IF IF IF Pressurizer level is Pressurizer level is rapidly approaching 250 inches, rapidly approaching 250 inches, THEN THEN THEN notify the RO to trip 11 (13) Charging Pump.

notify the RO to trip 11 (13) Charging Pump.

2.

2. Notify the ABO to secure air to the Aux Spray Control Valve Notify the ABO to secure air to the Aux Spray Control Valve PER PER PER Step CQ.

Step CQ.

CAUTION CAUTION CAUTION The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are The Pressurizer Heater Low Level cutout at 101" is inoperable when Heaters are operated at 1C43.

operated at 1C43.

3.

3. If necessary, use Pressurizer Backup Heater Bank 11 to maintain 30 If necessary, use Pressurizer Backup Heater Bank 11 to maintain 30F subcooling:

F subcooling:

a.

a. Ensure Pressurizer level is greater than 101".

Ensure Pressurizer level is greater than 101".

b.

b. Cycle Pressurizer Backup Heater Bank 11 as necessary to maintain 30 Cycle Pressurizer Backup Heater Bank 11 as necessary to maintain 30FF subcooling.

subcooling.

4.

4. IF IF IF 11 (13) Charging Pump was tripped due to Pressurizer level 11 (13) Charging Pump was tripped due to Pressurizer level AND AND AND Pressurizer level permits restoration of charging, Pressurizer level permits restoration of charging, THEN THEN THEN have the RO START 11 (13) Charging Pump.

have the RO START 11 (13) Charging Pump.

5.

5. Continue the cooldown until RCS subcooling is 140 Continue the cooldown until RCS subcooling is 140F.

F.

6.

6. Have the RO operate 11 (13) Charging Pump to maintain Pressurizer level near 160 Have the RO operate 11 (13) Charging Pump to maintain Pressurizer level near 160 inches indicated.

inches indicated.

CAUTION CAUTION CAUTION Do NOT exceed an RCS cooldown rate of 100 Do NOT exceed an RCS cooldown rate of 100 Do NOT exceed an RCS cooldown rate of 100F per hour.

F per hour.

7.

7. Control the cooldown so that the capacity of 11 (13) Charging Pump is Control the cooldown so that the capacity of 11 (13) Charging Pump is NOT NOT NOT exceeded.

exceeded.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 72 of 90 Page 72 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CP. (continued)

CP. (continued) 8.

8. Maintain RCS pressure and temperature within the limits of ATTACHMENT (1), RCS Maintain RCS pressure and temperature within the limits of ATTACHMENT (1), RCS PRESSURE TEMPERATURE LIMITS.

PRESSURE TEMPERATURE LIMITS.

CQ.

(ABO)

(ABO) SECURE AUX SPRAY SECURE AUX SPRAY NOTE NOTE NOTE It may be desired to have Charging flow realigned through the Loop Charging Isolations, It may be desired to have Charging flow realigned through the Loop Charging Isolations, since 11A Charging CV Bypass, 1-CVC-188 may since 11A Charging CV Bypass, 1-CVC-188 may NOT NOT NOT be able to pass sufficient flow, be able to pass sufficient flow, causing the Charging Pump discharge Relief Valve to open.

causing the Charging Pump discharge Relief Valve to open.

1.

1. WHEN WHEN WHEN notified that Aux Spray operation is no longer needed, notified that Aux Spray operation is no longer needed, AND AND AND IF IF IF directed by 1C43, directed by 1C43, THEN THEN THEN open the following valves:

open the following valves:

12B Charging Line Isolation, 1-CVC-395 12B Charging Line Isolation, 1-CVC-395

11A Charging Line Isolation, 1-CVC-392 11A Charging Line Isolation, 1-CVC-392 2.

2. WHEN WHEN WHEN notified by the CRO to secure Aux Spray, notified by the CRO to secure Aux Spray, THEN THEN THEN shut the Portable Air Bottle Regulator valve.

shut the Portable Air Bottle Regulator valve.

3.

3. Disconnect the Portable Air Bottle to bleed air.

Disconnect the Portable Air Bottle to bleed air.

4.

4. Notify 1C43 that Aux Spray is secured.

Notify 1C43 that Aux Spray is secured.

5.

5. Exit the Containment.

Exit the Containment.

CR.

(CRO)

(CRO) COOLDOWN AND DEPRESSURIZE THE RCS COOLDOWN AND DEPRESSURIZE THE RCS 1.

1. Repeat Steps CN through CQ, as necessary, to achieve an RCS pressure of 240 to Repeat Steps CN through CQ, as necessary, to achieve an RCS pressure of 240 to 260 psia and maintaining RCS subcooling between 30 260 psia and maintaining RCS subcooling between 30F and 140 F and 140F.

F.

2.

2. WHEN WHEN WHEN RCS pressure is between 250 and 300 psia, RCS pressure is between 250 and 300 psia, THEN THEN THEN notify the ABO to shut the Safety Injection Tank Outlet Valves and open SDC notify the ABO to shut the Safety Injection Tank Outlet Valves and open SDC HDR RETURN ISOL, 1-SI-652-MOV HDR RETURN ISOL, 1-SI-652-MOV PER PER PER Step CS.

Step CS.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 73 of 90 Page 73 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CS.

CS.

(ABO)

(ABO) SHUT THE SAFETY INJECTION TANK OUTLET VALVES AND OPEN THE SHUT THE SAFETY INJECTION TANK OUTLET VALVES AND OPEN THE SHUTDOWN COOLING HEADER RETURN ISOLATION SHUTDOWN COOLING HEADER RETURN ISOLATION 1.

1. WHEN WHEN WHEN notified to shut the Safety Injection Tank Outlet Valves, notified to shut the Safety Injection Tank Outlet Valves, THEN THEN THEN shut the following valves:

shut the following valves:

11A SIT OUT valve, 1-SI-614-MOV 11A SIT OUT valve, 1-SI-614-MOV

11B SIT OUT valve, 1-SI-624-MOV 11B SIT OUT valve, 1-SI-624-MOV

12A SIT OUT valve, 1-SI-634-MOV 12A SIT OUT valve, 1-SI-634-MOV

12B SIT OUT valve, 1-SI-644-MOV 12B SIT OUT valve, 1-SI-644-MOV 2.

2. GO TO GO TO GO TO 12B Reactor Coolant Pump Bay.

12B Reactor Coolant Pump Bay.

3.

3. Manually open the SDC HDR RETURN ISOL, 1-SI-652-MOV.

Manually open the SDC HDR RETURN ISOL, 1-SI-652-MOV.

4.

4. Exit the Containment.

Exit the Containment.

5.

5. Notify 1C43 of the following:

Notify 1C43 of the following:

Safety Injection Tank Outlet Valves are shut Safety Injection Tank Outlet Valves are shut

SDC HDR RETURN ISOL, 1-SI-652-MOV is open.

CT.

(OSO)

(OSO) MONITOR CST INVENTORY MONITOR CST INVENTORY NOTE NOTE NOTE CST level may be monitored at 1C43, 2C43 CST level may be monitored at 1C43, 2C43 OR OR OR at 1-LI-5609, 2-LI-5609, located on the at 1-LI-5609, 2-LI-5609, located on the 1400 1400 AFW suction line in the Unit 1 27' Containment Purge Air Supply Room.

AFW suction line in the Unit 1 27' Containment Purge Air Supply Room.

1.

1. Periodically monitor 12 CST level.

Periodically monitor 12 CST level.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 74 of 90 Page 74 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CT. (continued)

CT. (continued) 2.

2. IF IF IF 12 CST level approaches 5 feet, notify 1C43 and 2C43 of the low level, 12 CST level approaches 5 feet, notify 1C43 and 2C43 of the low level, THEN THEN THEN::

a.

a. Align 11 CST to provide a source of water to the Unit 1 AFW Pumps:

Align 11 CST to provide a source of water to the Unit 1 AFW Pumps:

(1)

Open 11 CST AFW Pump Suction, 1-AFW-131.

(2)

Open 11 CST AFW Pump Suction, 1-AFW-167.

(3)

Shut 12 CST Unit 1 AFW Pump Suction Valve, 1-AFW-161.

NOTE NOTE NOTE CST level may be monitored at 1-LI-5609, located on the AFW suction line in the Unit 1 CST level may be monitored at 1-LI-5609, located on the AFW suction line in the Unit 1 27' Containment Purge Air Supply Room.

27' Containment Purge Air Supply Room.

b.

b. Periodically monitor 11 CST level.

Periodically monitor 11 CST level.

c.c.

Align 21 CST to provide a source of water to the Unit 2 AFW Pumps:

(1)

Open 21 CST AFW Pump Suction, 2-AFW-131.

(2)

Open 21 CST AFW Pump Suction, 2-AFW-167.

(3)

Shut 12 CST Unit 2 AFW Pump Suction Valve, 2-AFW-161.

NOTE NOTE NOTE CST level may be monitored at 2-LI-5609, located on the AFW suction line in the Unit 1 CST level may be monitored at 2-LI-5609, located on the AFW suction line in the Unit 1 27' Containment Purge Air Supply Room.

27' Containment Purge Air Supply Room.

d.

d. Periodically monitor 21 CST level.

Periodically monitor 21 CST level.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 75 of 90 Page 75 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CT. (continued)

CT. (continued)

CAUTION CAUTION CAUTION The use of Fire System water (pre-treated water) is considered drastic action and The use of Fire System water (pre-treated water) is considered drastic action and The use of Fire System water (pre-treated water) is considered drastic action and should only be used under extreme circumstances.

should only be used under extreme circumstances.

3.

3. IF IF IF CST inventory is nearing depletion, notify 1C43(2C43) of the intended use of Fire CST inventory is nearing depletion, notify 1C43(2C43) of the intended use of Fire System water, System water, THEN THEN THEN::

a.

a. Emergency fill 11 CST from the Fire System:

Emergency fill 11 CST from the Fire System:

(1)

Connect a fire hose between the Fire Pump House Hose Test Manifold and 11 Connect a fire hose between the Fire Pump House Hose Test Manifold and 11 CST Emergency Hose Connection Valve, 1-CD-312.

CST Emergency Hose Connection Valve, 1-CD-312.

(2)

Shut the Test Discharge Header Drain, 0-FP-277.

(3)

Open the Test Discharge Header Isolation Valve, 0-FP-246.

(4)

Open 11 CST Emergency Hose Connection Valve, 1-CD-312.

(5)

Open the manifold isolation valve that the fire hose is connected to.

(6)

Ensure 11 CST level is increasing.

b.

b. Emergency fill 21 CST from the Fire System:

Emergency fill 21 CST from the Fire System:

(1)

Connect a fire hose between the Fire Pump House Hose Test Manifold and 21 Connect a fire hose between the Fire Pump House Hose Test Manifold and 21 CST Emergency Hose Connection Valve, 2-CD-312.

CST Emergency Hose Connection Valve, 2-CD-312.

(2)

Shut the Test Discharge Header Drain, 0-FP-277.

(3)

Open the Test Discharge Header Isolation Valve, 0-FP-246.

(4)

Open 21 CST Emergency Hose Connection Valve, 2-CD-312.

(5)

Open the manifold isolation valve that the fire hose is connected to.

(6)

Ensure 21 CST level is increasing.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 76 of 90 Page 76 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CU.

CU.

(ABO)

(ABO) ISOLATE COMPONENT COOLING TO CONTAINMENT ISOLATE COMPONENT COOLING TO CONTAINMENT 1.

1. GO TO GO TO GO TO the 45' Aux. Bldg. South of the RCW Evap Room.

the 45' Aux. Bldg. South of the RCW Evap Room.

2.

2. Shut RCW EVAPs COMM HDR SUPP ISOL., 1-CC-457.

Shut RCW EVAPs COMM HDR SUPP ISOL., 1-CC-457.

3.

3. GO TO GO TO GO TO the 5' East Pen Room.

the 5' East Pen Room.

4.

4. Shut Component Cooling Isolation to Containment, 1-CC-284.

Shut Component Cooling Isolation to Containment, 1-CC-284.

5.

5. Notify 1C43 Component Cooling is isolated to the Containment.

Notify 1C43 Component Cooling is isolated to the Containment.

6.

6. GO TO GO TO GO TO the Component Cooling Room.

the Component Cooling Room.

CV.

(ABO)

(ABO) OPEN COMPONENT COOLING HEAT EXCHANGER ISOLATION CONTROL OPEN COMPONENT COOLING HEAT EXCHANGER ISOLATION CONTROL VALVES VALVES 1.

1. Perform the following to open CC HX CV's:

Perform the following to open CC HX CV's:

1-CC-3824-CV 1-CC-3824-CV a.

a. Shut Instrument Air to 1-CC-3824-CV, 1-IA-703 Shut Instrument Air to 1-CC-3824-CV, 1-IA-703 b.

b. Disconnect the Instrument Air line closest to the actuator to bleed off air Disconnect the Instrument Air line closest to the actuator to bleed off air pressure.

pressure.

1-CC-3826-CV 1-CC-3826-CV a.

a. Shut Instrument Air to 1-CC-3826-CV, 1-IA-702 Shut Instrument Air to 1-CC-3826-CV, 1-IA-702 b.

b. Disconnect the Instrument Air line closest to the actuator to bleed off air Disconnect the Instrument Air line closest to the actuator to bleed off air pressure.

pressure.

2.

2. Notify 1C43 that the Component Cooling Heat Exchanger Control Valves are open.

Notify 1C43 that the Component Cooling Heat Exchanger Control Valves are open.

3.

3. Tell 1C43 to notify the RO to start 11 and 13 Component Cooling Pumps Tell 1C43 to notify the RO to start 11 and 13 Component Cooling Pumps PER PER PER Step Step CW.

CW.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 77 of 90 Page 77 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CW.

CW. (RO)

(RO)

(RO) START 11 AND 13 COMPONENT COOLING PUMPS START 11 AND 13 COMPONENT COOLING PUMPS 1.

1. WHEN WHEN WHEN notified, notified, THEN THEN THEN start 11 and 13 Component Cooling Pumps as follows:

start 11 and 13 Component Cooling Pumps as follows:

a.

a. Start 11 Component Cooling Pump:

Start 11 Component Cooling Pump:

(1)

If necessary, charge the Closing Spring for 11 Component Cooling Pump If necessary, charge the Closing Spring for 11 Component Cooling Pump breaker 52-1106.

breaker 52-1106.

(2)

Start 11 Component Cooling Pump by depressing the PUSH TO CLOSE Start 11 Component Cooling Pump by depressing the PUSH TO CLOSE button.

button.

b.

b. Start 13 Component Cooling Pump:

Start 13 Component Cooling Pump:

(1)

If necessary, align 13 Component Cooling Pump to 480V Load Center 11B:

(a)

At the disconnect which aligns 13 Component Cooling Pump to 480V At the disconnect which aligns 13 Component Cooling Pump to 480V Load Center 14B, 89-1416, turn the handswitch to TRIP.

Load Center 14B, 89-1416, turn the handswitch to TRIP.

(b)

With the handswitch pulled in the TRIP position, lock the disconnect open With the handswitch pulled in the TRIP position, lock the disconnect open and remove the key.

and remove the key.

(c)

Insert then rotate the key into disconnect 89-1116, which will align 13 Insert then rotate the key into disconnect 89-1116, which will align 13 Component Cooling Pump to 480V Load Center 11B.

Component Cooling Pump to 480V Load Center 11B.

(d)

Push the handswitch in to release it from the TRIP position, then close the Push the handswitch in to release it from the TRIP position, then close the disconnect.

disconnect.

(2)

If necessary, charge the Closing Spring for breaker 52-1116.

(3)

Start 13 Component Cooling Pump by depressing the PUSH TO CLOSE Start 13 Component Cooling Pump by depressing the PUSH TO CLOSE button.

button.

2.

2. Notify 1C43 that 11 and 13 Component Cooling Pumps have been started.

Notify 1C43 that 11 and 13 Component Cooling Pumps have been started.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 78 of 90 Page 78 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CX.

CX.

(TBO)

(TBO) ALIGN 13 SALTWATER PUMP TO SUPPLY 12 SALTWATER HEADER ALIGN 13 SALTWATER PUMP TO SUPPLY 12 SALTWATER HEADER 1.

1. GO TO GO TO GO TO the Intake Structure.

the Intake Structure.

2.

2. Align 13 Saltwater Pump to supply 12 Saltwater Header:

Align 13 Saltwater Pump to supply 12 Saltwater Header:

a.

a. Shut 13 Saltwater Pump to 11 Saltwater Header, 1-SW-112 Shut 13 Saltwater Pump to 11 Saltwater Header, 1-SW-112 b.

b. Shut 13 Saltwater Pump to 11 Saltwater Header, 1-SW-113 Shut 13 Saltwater Pump to 11 Saltwater Header, 1-SW-113 c.c.

Open 13 Saltwater Pump to 12 Saltwater Header, 1-SW-114 Open 13 Saltwater Pump to 12 Saltwater Header, 1-SW-114 d.

d. Open 13 Saltwater Pump to 12 Saltwater Header, 1-SW-115 Open 13 Saltwater Pump to 12 Saltwater Header, 1-SW-115 3.

3. Notify 1C43 that 13 Saltwater Pump is ready to be started.

Notify 1C43 that 13 Saltwater Pump is ready to be started.

4.

4. Tell 1C43 to notify the RO to start 13 Saltwater Pump Tell 1C43 to notify the RO to start 13 Saltwater Pump PER PER PER Step CY.

Step CY.

CY.

(RO)

(RO) START 13 SALTWATER PUMP START 13 SALTWATER PUMP 1.

1. IF IF IF necessary Align 13 Saltwater Pump to 4KV Bus 11 as follows:

necessary Align 13 Saltwater Pump to 4KV Bus 11 as follows:

a.

a. Unlock 13 Saltwater Pump Disconnect to 4KV Bus 14, 189-1412, from the SHUT Unlock 13 Saltwater Pump Disconnect to 4KV Bus 14, 189-1412, from the SHUT position (Handle Up) by rotating the lower key 180 position (Handle Up) by rotating the lower key 180 in the clockwise direction to the in the clockwise direction to the keyswitch stop. Remove the key.

keyswitch stop. Remove the key.

WARNING WARNING WARNING Improper operation of disconnects can result in serious injury. Keep body and head Improper operation of disconnects can result in serious injury. Keep body and head Improper operation of disconnects can result in serious injury. Keep body and head clear of the operating arc of the disconnect handle. Do NOT release handle prior to clear of the operating arc of the disconnect handle. Do NOT release handle prior to clear of the operating arc of the disconnect handle. Do NOT release handle prior to full travel. When the disconnect is opened, a very loud bang will be heard, and a full travel. When the disconnect is opened, a very loud bang will be heard, and a full travel. When the disconnect is opened, a very loud bang will be heard, and a switch position flag indication will be visible indicating disconnect position.

switch position flag indication will be visible indicating disconnect position.

b.

b. Lower the disconnect handle to its OPEN position (Handle Down) position.

Lower the disconnect handle to its OPEN position (Handle Down) position.

c.c.

Lock open 13 Saltwater Pump Disconnect to 4KV Bus 14, 189-1412, by rotating the Lock open 13 Saltwater Pump Disconnect to 4KV Bus 14, 189-1412, by rotating the upper key 180 upper key 180 in the counter-clockwise direction to the keyswitch stop. Remove in the counter-clockwise direction to the keyswitch stop. Remove the key.

the key.

d.

d. GO TO GO TO GO TO the 27' Switchgear Room.

the 27' Switchgear Room.

(continue)

(continue) 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 79 of 90 Page 79 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS CY.1 (continued)

CY.1 (continued) e.

e. Insert the upper key into 13 Saltwater Pump Disconnect to 4KV Bus 11, 189-1112, Insert the upper key into 13 Saltwater Pump Disconnect to 4KV Bus 11, 189-1112, and rotate the lower key 180 and rotate the lower key 180 in the clockwise direction to the keyswitch stop.

in the clockwise direction to the keyswitch stop.

WARNING WARNING WARNING Improper operation of disconnects can result in serious injury. Keep body and head Improper operation of disconnects can result in serious injury. Keep body and head Improper operation of disconnects can result in serious injury. Keep body and head clear of the operating arc of the disconnect handle. Do NOT release handle prior to clear of the operating arc of the disconnect handle. Do NOT release handle prior to clear of the operating arc of the disconnect handle. Do NOT release handle prior to full travel. When the disconnect is opened, a very loud bang will be heard, and a full travel. When the disconnect is opened, a very loud bang will be heard, and a full travel. When the disconnect is opened, a very loud bang will be heard, and a switch position flag indication will be visible indicating disconnect position.

switch position flag indication will be visible indicating disconnect position.

f.f.

Raise the disconnect handle to its SHUT position (Handle Up) position.

g.

g. Lock 13 Saltwater Pump Disconnect to 4KV Bus 11, 189-1112, in the SHUT Lock 13 Saltwater Pump Disconnect to 4KV Bus 11, 189-1112, in the SHUT position (Handle Up) by inserting then rotating the key in the lower lock 180 position (Handle Up) by inserting then rotating the key in the lower lock 180 in the in the counter-clockwise direction to the keyswitch stop.

counter-clockwise direction to the keyswitch stop.

h.

h. Notify 1C43 that 13 Saltwater Pump is aligned to 4KV Bus 11.

Notify 1C43 that 13 Saltwater Pump is aligned to 4KV Bus 11.

2.

2. WHEN WHEN WHEN notified to START 13 Saltwater Pump, notified to START 13 Saltwater Pump, THEN THEN THEN place 13 Saltwater Pump Local Control handswitch, 1-HS-5201D, to START.

place 13 Saltwater Pump Local Control handswitch, 1-HS-5201D, to START.

3.

3. Notify 1C43 that 13 Saltwater Pump has been started.

Notify 1C43 that 13 Saltwater Pump has been started.

CZ.

(ABO)

(ABO) SHUT THE CONTAINMENT SUMP DISCHARGE SHUT THE CONTAINMENT SUMP DISCHARGE 1.

1. Shut the CNTMT SUMP DISCH, 1-SI-4144-MOV.

Shut the CNTMT SUMP DISCH, 1-SI-4144-MOV.

2.

2. Notify 1C43 that the Containment Sump Discharge, 1-SI-4144-MOV, is shut.

Notify 1C43 that the Containment Sump Discharge, 1-SI-4144-MOV, is shut.

3.

3. GO TO GO TO GO TO 11 ECCS Pump Room.

11 ECCS Pump Room.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 80 of 90 Page 80 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DA.

DA.

(ABO)

(ABO) COMMENCE SHUTDOWN COOLING LINEUP COMMENCE SHUTDOWN COOLING LINEUP 1.

1. Shut 11 Containment Spray Pump Discharge Isolation, 1-SI-314.

Shut 11 Containment Spray Pump Discharge Isolation, 1-SI-314.

2.

2. Shut 12 Containment Spray Pump Discharge Isolation, 1-SI-324.

Shut 12 Containment Spray Pump Discharge Isolation, 1-SI-324.

3.

3. Shut 11 Shutdown Cooling Heat Exchanger Outlet to Spray Header, 1-SI-319.

Shut 11 Shutdown Cooling Heat Exchanger Outlet to Spray Header, 1-SI-319.

4.

4. Shut 12 Shutdown Cooling Heat Exchanger Outlet to Spray Header, 1-SI-329.

Shut 12 Shutdown Cooling Heat Exchanger Outlet to Spray Header, 1-SI-329.

5.

5. Open 11 Shutdown Cooling Heat Exchanger Inlet from LPSI, 1-SI-452.

Open 11 Shutdown Cooling Heat Exchanger Inlet from LPSI, 1-SI-452.

6.

6. Open 11 Shutdown Cooling Heat Exchanger Outlet to LPSI, 1-SI-456.

Open 11 Shutdown Cooling Heat Exchanger Outlet to LPSI, 1-SI-456.

7.

7. Open 12 Shutdown Cooling Heat Exchanger Inlet from LPSI, 1-SI-453.

Open 12 Shutdown Cooling Heat Exchanger Inlet from LPSI, 1-SI-453.

8.

8. Open 12 Shutdown Cooling Heat Exchanger Outlet to LPSI, 1-SI-457.

Open 12 Shutdown Cooling Heat Exchanger Outlet to LPSI, 1-SI-457.

9.

9. Open 11 LPSI Pump Suction from Shutdown Cooling, 1-SI-441.

Open 11 LPSI Pump Suction from Shutdown Cooling, 1-SI-441.

10.

10. Manually shut SDC RECIRC ISOL, 1-SI-399-MOV.

Manually shut SDC RECIRC ISOL, 1-SI-399-MOV.

11.

11. Isolate Instrument Air to Shutdown Cooling Temperature Control Valve, 1-SI-657-CV, Isolate Instrument Air to Shutdown Cooling Temperature Control Valve, 1-SI-657-CV, by shutting 1-IA-649. Disconnect the air line between the solenoid and the actuator.

by shutting 1-IA-649. Disconnect the air line between the solenoid and the actuator.

Manually shut 1-SI-657-CV.

12.

12. Isolate Instrument Air to Shutdown Cooling Flow Control Valve, 1-SI-306-CV, by Isolate Instrument Air to Shutdown Cooling Flow Control Valve, 1-SI-306-CV, by shutting 1-IA-740. Disconnect the air line between the solenoid and the actuator.

shutting 1-IA-740. Disconnect the air line between the solenoid and the actuator.

Manually shut 1-SI-306-CV.

13.

13. Manually open the SDC HX LPSI INL isolation, 1-SI-658-MOV.

Manually open the SDC HX LPSI INL isolation, 1-SI-658-MOV.

14.

14. Shut 12 SDC HX TO HPSI SUCT, 1-SI-662-MOV.

Shut 12 SDC HX TO HPSI SUCT, 1-SI-662-MOV.

15.

15. Shut 11 SDC HX TO HPSI SUCT, 1-SI-663-MOV.

Shut 11 SDC HX TO HPSI SUCT, 1-SI-663-MOV.

16.

16. Notify 1C43 that the Shutdown Cooling lineup is complete.

Notify 1C43 that the Shutdown Cooling lineup is complete.

17.

17. Report to 1C43 to provide additional assistance.

Report to 1C43 to provide additional assistance.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 81 of 90 Page 81 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DB.

DB.

(CRO)

(CRO) PREPARE FOR STEAM AND FEED OF THE S/GS PREPARE FOR STEAM AND FEED OF THE S/GS 1.

1. WHEN WHEN WHEN RCS temperature (Thot) is 321 RCS temperature (Thot) is 321F, F,

THEN THEN THEN::

a.

a. Place 11 AFW PP SPEED CONTR, 1-HC-3987B, to MIN.

Place 11 AFW PP SPEED CONTR, 1-HC-3987B, to MIN.

b.

b. Place 12 AFW PP SPEED CONTR, 1-HC-3989B, to MIN.

Place 12 AFW PP SPEED CONTR, 1-HC-3989B, to MIN.

c.c.

Place 11 S/G FLOW CONTR, 1-HC-4511B, to MIN.

d.

d. Place 12 S/G FLOW CONTR, 1-HC-4512B, to MIN.

Place 12 S/G FLOW CONTR, 1-HC-4512B, to MIN.

2.

2. Adjust 11 ADV CONTR, 1-HC-4056A, to OPEN.

Adjust 11 ADV CONTR, 1-HC-4056A, to OPEN.

3.

3. Adjust 12 ADV CONTR, 1-HC-4056B, to OPEN.

Adjust 12 ADV CONTR, 1-HC-4056B, to OPEN.

4.

4. Notify the TBO to isolate steam to the AFW Pumps Notify the TBO to isolate steam to the AFW Pumps PER PER PER Step DC.

Step DC.

5.

5. Notify the ABO to prepare for Shutdown Cooling initiation Notify the ABO to prepare for Shutdown Cooling initiation PER PER PER Step DF.

Step DF.

DC.

(TBO)

(TBO) ISOLATE STEAM TO THE AFW PUMPS ISOLATE STEAM TO THE AFW PUMPS 1.

1. WHEN WHEN WHEN notified to secure the Steam Driven AFW Pumps, notified to secure the Steam Driven AFW Pumps, THEN THEN THEN shut the 11 and 12 AFW PP TURB THROTTLE/STOP valves.

shut the 11 and 12 AFW PP TURB THROTTLE/STOP valves.

2.

2. Notify 1C43 that steam is isolated to the AFW Pumps.

Notify 1C43 that steam is isolated to the AFW Pumps.

3.

3. GO TO GO TO GO TO 1C43 to obtain a hand held Digital Thermometer.

1C43 to obtain a hand held Digital Thermometer.

DD.

(CRO)

(CRO) LOWER S/G LEVELS TO (-)350 INCHES LOWER S/G LEVELS TO (-)350 INCHES 1.

1. Steam both S/Gs until indicated level reaches (-)350 inches.

Steam both S/Gs until indicated level reaches (-)350 inches.

2.

2. WHEN WHEN WHEN indicated S/G level is (-)350 inches, indicated S/G level is (-)350 inches, THEN THEN THEN notify the RO to START 13 AFW PP notify the RO to START 13 AFW PP PER PER PER Step DE.

Step DE.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 82 of 90 Page 82 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DE.

DE.

(RO)

(RO) START 13 AFW PUMP START 13 AFW PUMP 1.

1. WHEN WHEN WHEN notified to start 13 AFW Pump, notified to start 13 AFW Pump, THEN THEN THEN manually close the Supply breaker for 13 AFW Pump, 152-1116:

manually close the Supply breaker for 13 AFW Pump, 152-1116:

a.

a. Charge the Closing Spring for 13 AFW Pump, 152-1116, if necessary.

Charge the Closing Spring for 13 AFW Pump, 152-1116, if necessary.

(1)

Insert the Maintenance Handle into the Manual Charging opening.

(2)

Position the Maintenance Handle hooked section around the end of the pawl Position the Maintenance Handle hooked section around the end of the pawl carrier.

carrier.

NOTE NOTE NOTE Between each stroke maintain a slight upward pressure so that the handle does Between each stroke maintain a slight upward pressure so that the handle does NOT NOT NOT slip slip off the pawl carrier.

off the pawl carrier.

(3)

Pump the Maintenance Handle until pressure is Pump the Maintenance Handle until pressure is NOT NOT NOT felt when stroking the felt when stroking the maintenance handle upward. (Approximately 7-10 strokes) maintenance handle upward. (Approximately 7-10 strokes)

The Spring indicator should indicate "SPRINGS CHARGED".

b.

b. Manually close the Breaker by pushing upward on the Manual Close Lever.

Manually close the Breaker by pushing upward on the Manual Close Lever.

2.

2. Notify 1C43 that 13 AFW Pump has been started.

Notify 1C43 that 13 AFW Pump has been started.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 83 of 90 Page 83 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DF.

DF.

(ABO)

(ABO) PREPARE FOR SHUTDOWN COOLING INITIATION PREPARE FOR SHUTDOWN COOLING INITIATION 1.

1. WHEN WHEN WHEN notified by 1C43 to prepare for Shutdown Cooling initiation, notified by 1C43 to prepare for Shutdown Cooling initiation, THEN THEN THEN open the LPSI HDR isolations:

open the LPSI HDR isolations:

11A LPSI HDR, 1-SI-615-MOV 11A LPSI HDR, 1-SI-615-MOV

11B LPSI HDR, 1-SI-625-MOV 11B LPSI HDR, 1-SI-625-MOV

12A LPSI HDR, 1-SI-635-MOV 12A LPSI HDR, 1-SI-635-MOV

12B LPSI HDR, 1-SI-645-MOV 12B LPSI HDR, 1-SI-645-MOV 2.

2. Shut 11 LPSI Minimum Flow Isolation, 1-SI-449.

Shut 11 LPSI Minimum Flow Isolation, 1-SI-449.

3.

3. Shut 12 LPSI Minimum Flow Isolation, 1-SI-450.

Shut 12 LPSI Minimum Flow Isolation, 1-SI-450.

4.

4. Shut 11 LPSI Normal Suction Isolation, 1-SI-444.

Shut 11 LPSI Normal Suction Isolation, 1-SI-444.

5.

5. Shut 12 LPSI Normal Suction Isolation, 1-SI-432.

Shut 12 LPSI Normal Suction Isolation, 1-SI-432.

6.

6. Isolate Instrument Air to 11 and 12 SDC HX CC OUT valves:

Isolate Instrument Air to 11 and 12 SDC HX CC OUT valves:

a.

a. Shut Instrument Air to 1-CC-3828-CV, 1-IA-663 Shut Instrument Air to 1-CC-3828-CV, 1-IA-663 b.

b. Shut Instrument Air to 1-CC-3830-CV, 1-IA-792 Shut Instrument Air to 1-CC-3830-CV, 1-IA-792 c.c.

For both Control Valves, disconnect the air line between the solenoid and the For both Control Valves, disconnect the air line between the solenoid and the actuator to bleed air pressure.

actuator to bleed air pressure.

7.

7. Notify 1C43 that the preparations for Shutdown Cooling initiation are complete.

Notify 1C43 that the preparations for Shutdown Cooling initiation are complete.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 84 of 90 Page 84 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DG.

DG.

(CRO)

(CRO) INITIATE AFW TO BOTH S/GS INITIATE AFW TO BOTH S/GS 1.

1. WHEN WHEN WHEN 13 AFW Pump has been started, 13 AFW Pump has been started, THEN THEN THEN feed both S/Gs at 225 gpm per S/G.

feed both S/Gs at 225 gpm per S/G.

2.

2. Maintain Pressurizer level at 150 to 180 inches.

Maintain Pressurizer level at 150 to 180 inches.

a.

a. If necessary, notify the RO to START 11 (13) Charging Pump If necessary, notify the RO to START 11 (13) Charging Pump PER PER PER Step BB.

Step BB.

3.

3. Have the TBO measure AFW temperature by using a hand held Digital Thermometer Have the TBO measure AFW temperature by using a hand held Digital Thermometer on 13 AFW Pump Suction Piping.

on 13 AFW Pump Suction Piping.

4.

4. Refer to ATTACHMENT (3), SDC ENTRY WINDOW vs. AFW TEMPERATURE, to Refer to ATTACHMENT (3), SDC ENTRY WINDOW vs. AFW TEMPERATURE, to determine the MAXIMUM allowable time until Shutdown Cooling MUST be initiated.

determine the MAXIMUM allowable time until Shutdown Cooling MUST be initiated.

5.

5. Fill and maintain both S/Gs at an indicated level of (+)50 inches.

Fill and maintain both S/Gs at an indicated level of (+)50 inches.

6.

6. WHEN WHEN WHEN RCS temperature (Thot) has been reduced to less than 300 RCS temperature (Thot) has been reduced to less than 300F, F,

THEN THEN THEN contact the ABO to open the Shutdown Cooling Return Header Isolation contact the ABO to open the Shutdown Cooling Return Header Isolation PER PER PER Step DH.

Step DH.

DH.

(ABO)

(ABO) OPEN THE SHUTDOWN COOLING RETURN ISOLATION OPEN THE SHUTDOWN COOLING RETURN ISOLATION 1.

1. Obtain a hand held Digital Thermometer to measure Shutdown Cooling Heat Obtain a hand held Digital Thermometer to measure Shutdown Cooling Heat Exchanger Outlet temperature.

Exchanger Outlet temperature.

2.

2. WHEN WHEN WHEN notified to open the Shutdown Cooling Return Isolation, notified to open the Shutdown Cooling Return Isolation, THEN THEN THEN open the SDC HDR RETURN ISOL, 1-SI-651-MOV.

open the SDC HDR RETURN ISOL, 1-SI-651-MOV.

3.

3. Notify 1C43 that the Shutdown Cooling Header Return Isolation, 1-SI-651-MOV, is Notify 1C43 that the Shutdown Cooling Header Return Isolation, 1-SI-651-MOV, is open.

open.

4.

4. GO TO GO TO GO TO the Component Cooling Room.

the Component Cooling Room.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 85 of 90 Page 85 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DI.

DI.

(ABO)

(ABO) THROTTLE OPEN THE SHUTDOWN COOLING FLOW CONTROL VALVE THROTTLE OPEN THE SHUTDOWN COOLING FLOW CONTROL VALVE 1.

1. Manually throttle open the Shutdown Cooling Flow Control Valve, 1-SI-306-CV, to Manually throttle open the Shutdown Cooling Flow Control Valve, 1-SI-306-CV, to obtain a 1 inch stem rise.

obtain a 1 inch stem rise.

2.

2. Notify 1C43 that the Shutdown Cooling Flow Control Valve is throttled.

Notify 1C43 that the Shutdown Cooling Flow Control Valve is throttled.

3.

3. Tell 1C43 to notify the RO to start 11 LPSI Pump Tell 1C43 to notify the RO to start 11 LPSI Pump PER PER PER Step DJ.

Step DJ.

DJ.

(RO)

(RO) START 11 LPSI PUMP START 11 LPSI PUMP 1.

1. WHEN WHEN WHEN notified to START 11 LPSI Pump, notified to START 11 LPSI Pump, THEN THEN THEN place 11 LPSI Pump Local Handswitch, 1-HS-302XC, to START.

place 11 LPSI Pump Local Handswitch, 1-HS-302XC, to START.

2.

2. Notify 1C43 that 11 LPSI Pump has been started.

Notify 1C43 that 11 LPSI Pump has been started.

3.

3. Tell 1C43 to notify the ABO to throttle open the Shutdown Cooling Flow Control Valve Tell 1C43 to notify the ABO to throttle open the Shutdown Cooling Flow Control Valve PER PER PER Step DK.

Step DK.

DK.

(ABO)

(ABO) SLOWLY OPEN THE SHUTDOWN COOLING FLOW CONTROL VALVE SLOWLY OPEN THE SHUTDOWN COOLING FLOW CONTROL VALVE 1.

1. WHEN WHEN WHEN notified to operate 1-SI-306-CV, notified to operate 1-SI-306-CV, THEN THEN THEN slowly open the Shutdown Cooling Flow Control Valve, 1-SI-306-CV, until the slowly open the Shutdown Cooling Flow Control Valve, 1-SI-306-CV, until the total stem rise is one and one-half inches.

total stem rise is one and one-half inches.

2.

2. Notify 1C43 that Shutdown Cooling flow has been established.

Notify 1C43 that Shutdown Cooling flow has been established.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 86 of 90 Page 86 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DL.

DL.

(ABO)

(ABO) ADJUST SHUTDOWN COOLING TEMPERATURE ADJUST SHUTDOWN COOLING TEMPERATURE 1.

1. Establish communications with 1C43.

Establish communications with 1C43.

NOTE NOTE NOTE Shutdown Cooling Heat Exchanger heatup rate shall be measured on the inlet side of Shutdown Cooling Heat Exchanger heatup rate shall be measured on the inlet side of 1-SI-657-CV.

1-SI-657-CV.

NOTE NOTE NOTE The manual handwheel on 1-SI-657-CV turns clockwise to open.

The manual handwheel on 1-SI-657-CV turns clockwise to open.

CAUTION CAUTION CAUTION Do NOT exceed a heatup rate 14 Do NOT exceed a heatup rate 14 Do NOT exceed a heatup rate 14F per minute for the Shutdown Cooling Heat F per minute for the Shutdown Cooling Heat F per minute for the Shutdown Cooling Heat Exchanger.

Exchanger.

2.

2. Manually adjust the Shutdown Cooling Temperature Control Valve, 1-SI-657-CV, to Manually adjust the Shutdown Cooling Temperature Control Valve, 1-SI-657-CV, to approach, but approach, but NOT NOT NOT exceed, a 14 exceed, a 14F per minute heatup rate on the inlet side of F per minute heatup rate on the inlet side of 1-SI-657-CV as determined by hand held Digital Thermometer.

1-SI-657-CV as determined by hand held Digital Thermometer.

3.

3. Adjust 1-SI-657-CV to achieve cooldown rate as directed by CRO.

Adjust 1-SI-657-CV to achieve cooldown rate as directed by CRO.

1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 87 of 90 Page 87 of 90 IV.

IV.

IV. ACTIONS ACTIONS ACTIONS DM.

DM.

(CRO)

(CRO) CONTINUE RCS COOLDOWN TO LESS THAN 200 CONTINUE RCS COOLDOWN TO LESS THAN 200FF 1.

1. Coordinate with the ABO to manually adjust 1-SI-657-CV to achieve desired cooldown Coordinate with the ABO to manually adjust 1-SI-657-CV to achieve desired cooldown rate.

rate.

2.

2. Observe the following Cooldown Rate limitations:

Observe the following Cooldown Rate limitations:

greater than 256 greater than 256F..................less than 100 F..................less than 100F per hour F per hour

between 256 between 256F and 106 F and 106F.....less than 40 F.....less than 40F per hour F per hour 3.

3. WHEN WHEN WHEN RCS temperature is less than 200 RCS temperature is less than 200F, F,

THEN THEN THEN declare Mode 5.

declare Mode 5.

a.

a. Declare Mode 5.

Declare Mode 5.

b.

b. Perform the Final Criteria Check.

Perform the Final Criteria Check.

c.c.

Commence the Administrative Actions Commence the Administrative Actions PER PER PER ATTACHMENT (4), ADMINISTRATIVE ATTACHMENT (4), ADMINISTRATIVE ACTIONS.

ACTIONS.

d.

d. Implement the appropriate procedure as directed by the Shift Manager.

Implement the appropriate procedure as directed by the Shift Manager.

END of Section IV END of Section IV 1C43.....3501/5625/3511 1C43.....3501/5625/3511 AFW...................4768 AFW...................4768 1A DG...5320 1A DG...5320 ADVs.........5626 ADVs.........5626 27' SWGR......5463/5464 27' SWGR......5463/5464 SRW UL/LL..5575/5576 SRW UL/LL..5575/5576 1B DG...5631 1B DG...5631 INTAKE......5498 INTAKE......5498 2C43....3502/5652/3522 2C43....3502/5652/3522 CC RM................5587 CC RM................5587 2A DG...5630 2A DG...5630 13KV MC...5655 13KV MC...5655 72' CMPTR RM.......4404 72' CMPTR RM.......4404 0C DG.................5302 0C DG.................5302 2B DG...5642 2B DG...5642 U-1 NSSS...5635 U-1 NSSS...5635 69' SWGR...........5675 69' SWGR...........5675 MCC-104..............5635 MCC-104..............5635 MCC-114...5675 MCC-114...5675

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 88 of 90 Page 88 of 90 V.

V.

V. SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST A.

A. The STA (or person designated by the STA) will perform the Safety Parameters The STA (or person designated by the STA) will perform the Safety Parameters Status Check on entry into this procedure.

Status Check on entry into this procedure.

B.

B. Perform Safety Parameters Status Checks at 15 minute intervals until plant Perform Safety Parameters Status Checks at 15 minute intervals until plant conditions stabilize.

conditions stabilize.

C.

C. Notify the Shift Manager or Control Room Supervisor if any Safety Parameter Notify the Shift Manager or Control Room Supervisor if any Safety Parameter criteria is criteria is NOT NOT NOT being met, promptly upon discovery.

being met, promptly upon discovery.

D.

D. Review data and verify the Safety Parameters Acceptance Criteria are satisfied.

Review data and verify the Safety Parameters Acceptance Criteria are satisfied.

Planned evolutions will cause deviations from the acceptance criteria; thus, Planned evolutions will cause deviations from the acceptance criteria; thus, effects due to the evolutions must be taken into account when assessing Plant effects due to the evolutions must be taken into account when assessing Plant status.

status.

E.

E. WHEN WHEN WHEN this AOP is completed, this AOP is completed, THEN THEN THEN perform the Final Criteria Check.

perform the Final Criteria Check.

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ SAFETY PARAMETERS ACCEPTANCE CRITERIA SAFETY PARAMETERS ACCEPTANCE CRITERIA SAFETY PARAMETERS ACCEPTANCE CRITERIA REACTIVITY REACTIVITY REACTIVITY

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CONTROL CONTROL CONTROL ACCEPTANCE ACCEPTANCE ACCEPTANCE PROGRESS PROGRESS PROGRESS FINAL FINAL FINAL FINAL FINAL FINAL PARAMETERS PARAMETERS PARAMETERS CRITERIA CRITERIA CRITERIA CHECK CHECK CHECK CRITERIA CRITERIA CRITERIA CHECK CHECK CHECK

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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a. WRNI power WRNI power less than 3%

less than 3%

___l___l___l___

less than less than at 1C43 at 1C43 and lowering and lowering

___l___l___l___

than 10 than 10-4

-4%

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 89 of 90 Page 89 of 90 V.

V.

V. SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ SAFETY PARAMETERS ACCEPTANCE CRITERIA SAFETY PARAMETERS ACCEPTANCE CRITERIA SAFETY PARAMETERS ACCEPTANCE CRITERIA RCS PRESSURE RCS PRESSURE RCS PRESSURE

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AND AND AND ACCEPTANCE ACCEPTANCE ACCEPTANCE PROGRESS PROGRESS PROGRESS FINAL FINAL FINAL FINAL FINAL FINAL INVENTORY INVENTORY INVENTORY CRITERIA CRITERIA CRITERIA CHECK CHECK CHECK CRITERIA CRITERIA CRITERIA CHECK CHECK CHECK PARAMETERS PARAMETERS PARAMETERS

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ in accordance in accordance less than less than a.

a. RCS Pressure RCS Pressure with with

___l___l___l___

270 PSIA 270 PSIA and Temperature and Temperature

___l___l___l___

less than less than 200 200FF

___l___l___l___

b.

b. Pressurizer Level Pressurizer Level 35 to 250 inches 35 to 250 inches

___l___l___l___

130 to 180 inches 130 to 180 inches ______

___l___l___l___

greater than or greater than or c.c. RCS subcooling RCS subcooling 30 to 140 30 to 140FF

___l___l___l___

equal to 30 equal to 30FF d.

d. Reactor Vessel Reactor Vessel above the top above the top

___l___l___l___

above the top above the top level level (1)

(1)

(1) of the hot leg of the hot leg

___l___l___l___

of the hot leg of the hot leg

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(1)

(1) N/A if N/A if NOT NOT NOT available.

available.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 Page 90 of 90 Page 90 of 90 V.

V.

V. SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST SAFETY PARAMETERS CHECKLIST

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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(-)350 inches

___l___l___l___

(-)24 inches

(-)24 inches a.

a. S/G level S/G level to (+)50 inches to (+)50 inches

___l___l___l___

to (+)50 inches to (+)50 inches less than less than

___l___l___l___

less than less than

b. S/G Pressure

b. S/G Pressure 1020 PSIA 1020 PSIA

___l___l___l___

70 PSIA 70 PSIA

___l___l___l___

c.c. TTHOT HOT minus T minus TCOLD COLD less than 50 less than 50FF

___l___l___l___

N/A N/A N/A N/A greater than greater than

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d.

d. CST Levels CST Levels 5 feet 5 feet

___l___l___l___

N/A N/A N/A N/A less than 560 less than 560FF and consistent with and consistent with ___l___l___l___

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consistent with consistent with e.

e. CET CET (1) (2)

(1) (2)

TTHOT HOT and T and TCOLD COLD

___l___l___l___

TTHOT HOT and T and TCOLD COLD

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(1)

(1) N/A if N/A if NOT NOT NOT available.

available.

(2)

(2) CET temperatures may be greater than 560 CET temperatures may be greater than 560F while natural circulation is being F while natural circulation is being established.

established.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 1 of 9 Page 1 of 9 PLACEKEEPER PLACEKEEPER

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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SECTION IV.

ACTIONS ACTIONS

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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A.

(SM)

(SM) DETERMINE IF A SEVERE FIRE IS IN DETERMINE IF A SEVERE FIRE IS IN

PROGRESS OR HAS OCCURRED IN THE PROGRESS OR HAS OCCURRED IN THE

CONTROL ROOM CONTROL ROOM

66

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B.

(RO)

(RO) TRIP THE REACTOR TRIP THE REACTOR

66

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C.

(CRO (CRO (CRO OR OR RO)

RO)

RO) ATTEMPT TO TRIP THE ATTEMPT TO TRIP THE

MAIN TURBINE, SGFPS, AND SHUT MSIVS MAIN TURBINE, SGFPS, AND SHUT MSIVS

77

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D.

(ALL PERSONNEL)

(ALL PERSONNEL) EVACUATE THE EVACUATE THE

CONTROL ROOM CONTROL ROOM

77

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E.

(RO)

(RO) MANUALLY TRIP THE MAIN TURBINE MANUALLY TRIP THE MAIN TURBINE

77

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F.

(UNIT 1 PERSONNEL)

(UNIT 1 PERSONNEL) UNLOCK SAFE UNLOCK SAFE

SHUTDOWN KEY LOCKER AND SHUTDOWN KEY LOCKER AND

EQUIPMENT LOCKER EQUIPMENT LOCKER

88

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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G.

(CRO)

(CRO) OBTAIN SAFE SHUTDOWN OBTAIN SAFE SHUTDOWN

EQUIPMENT EQUIPMENT

88

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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H.

(CRO)

(CRO) SHUTDOWN 11 AND 12 CEDM MG SHUTDOWN 11 AND 12 CEDM MG

SETS SETS

88

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(CRO)

(CRO) VERIFY REACTOR IS SHUTDOWN VERIFY REACTOR IS SHUTDOWN

99

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(SM)

(SM) DETERMINE EMERGENCY RESPONSE DETERMINE EMERGENCY RESPONSE

ACTION ACTION

99

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K.

(CRO)

(CRO) CONSERVE RCS AND S/G CONSERVE RCS AND S/G

INVENTORY INVENTORY

10 10

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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L.

(CRO)

(CRO) SECURE PRESSURIZER BACKUP SECURE PRESSURIZER BACKUP

HEATER BANKS 11 AND 13 HEATER BANKS 11 AND 13

10 10

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M.

(TBO)

(TBO) OBTAIN SAFE SHUTDOWN OBTAIN SAFE SHUTDOWN

EQUIPMENT EQUIPMENT

11 11

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N.

(TBO)

(TBO) DE-ENERGIZE CV-517, CV-518, DE-ENERGIZE CV-517, CV-518,

CV-519 AND PRZR AND REACTOR VESSEL CV-519 AND PRZR AND REACTOR VESSEL

HEAD VENTS.

11 11

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AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 2 of 9 Page 2 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

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O.

(TBO)

(TBO) TRIP MCC 114R LOAD CENTER TRIP MCC 114R LOAD CENTER

BREAKER BREAKER

11 11

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P.

(RO)

(RO) OBTAIN SAFE SHUTDOWN EQUIPMENT OBTAIN SAFE SHUTDOWN EQUIPMENT

12 12

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Q.

(RO)

(RO) TRIP MCC 104R LOAD CENTER TRIP MCC 104R LOAD CENTER

BREAKER BREAKER

12 12

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R.

(RO)

(RO) TRIP 11B AND 12B REACTOR COOLANT TRIP 11B AND 12B REACTOR COOLANT

PUMPS PUMPS

13 13

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S.

(RO)

(RO) DE-ENERGIZE PRESSURIZER HEATER DE-ENERGIZE PRESSURIZER HEATER

112 PH AND NO. 12 PRESSURIZER 112 PH AND NO. 12 PRESSURIZER

PROPORTIONAL HEATER (MCC 1N430)

14 14

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T.

(RO)

(RO) TAKE LOCAL CONTROL AND OPEN 1B TAKE LOCAL CONTROL AND OPEN 1B

DIESEL GENERATOR OUTPUT DIESEL GENERATOR OUTPUT

BREAKER BREAKER

14 14

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U.

(OSO)

(OSO) OBTAIN RADIOS AND REPORT TO OBTAIN RADIOS AND REPORT TO

1C43 AND 2C43 1C43 AND 2C43

15 15

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V.

(OSO)

(OSO) SHUTDOWN FAIRBANKS DIESEL SHUTDOWN FAIRBANKS DIESEL

GENERATORS GENERATORS

15 15

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W.

(TBO)

(TBO) TRIP 11 AND 12 SGFPS TRIP 11 AND 12 SGFPS

16 16

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X.

(TBO)

(TBO) ISOLATE CONDENSER MAKEUP ISOLATE CONDENSER MAKEUP

16 16

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Y.

(ABO)

(ABO) OBTAIN SAFE SHUTDOWN OBTAIN SAFE SHUTDOWN

EQUIPMENT THEN STRIP MCC 114R EQUIPMENT THEN STRIP MCC 114R

16 16

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Z.

(CRO)

(CRO) INITIALIZE ADV CONTROLLERS ON INITIALIZE ADV CONTROLLERS ON

1C43 1C43

17 17

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(Z)

AA.

AA. (CRO)

(CRO)

(CRO) ALIGN 11 AND 12 ADVS TO 1C43 ALIGN 11 AND 12 ADVS TO 1C43

18 18

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AB. (CRO)

(CRO)

(CRO) COMPLETE INITIALIZATION OF COMPLETE INITIALIZATION OF

CONTROLLERS ON 1C43 CONTROLLERS ON 1C43

18 18

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Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 3 of 9 Page 3 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AC.

AC. (ABO)

(ABO)

(ABO) VERIFY MSIVS ARE SHUT VERIFY MSIVS ARE SHUT

19 19

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AD.

AD. (TBO)

(TBO)

(TBO) ALIGN AFW PUMP SPEED CONTROL ALIGN AFW PUMP SPEED CONTROL

(AB)

TO 1C43 TO 1C43

20 20

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AE.

AE. (TBO)

(TBO)

(TBO) ALIGN AFW FLOW CONTROL TO ALIGN AFW FLOW CONTROL TO

(AD)

1C43 1C43

21 21

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (AE)

(AE)

AF.

AF. (CRO)

(CRO)

(CRO) INITIATE AFW FLOW INITIATE AFW FLOW

22 22

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AG.

AG. (TBO)

(TBO)

(TBO) OPERATE THE SELECTED AFW OPERATE THE SELECTED AFW

PUMP PUMP CC

23 23

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AH.

AH. (OSO)

(OSO)

(OSO) TAKE LOCAL CONTROL AND START TAKE LOCAL CONTROL AND START

0C DIESEL GENERATOR 0C DIESEL GENERATOR

26 26

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AI.

AI.

(OSO)

(OSO) CLOSE 07 4KV BUS TIE BREAKER, CLOSE 07 4KV BUS TIE BREAKER,

152-0701.

29 29

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AJ.

AJ. (STA)

(STA)

(STA) COMMENCE SAFETY PARAMETERS COMMENCE SAFETY PARAMETERS

CHECKLIST CHECKLIST

30 30

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AK.

AK. (RO)

(RO)

(RO) TRIP 11A AND 12A REACTOR COOLANT TRIP 11A AND 12A REACTOR COOLANT

PUMPS PUMPS

31 31

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AL.

AL. (RO)

(RO)

(RO) DE-ENERGIZE PRESSURIZER HEATER DE-ENERGIZE PRESSURIZER HEATER

MCC 110PH AND NO. 11 PRESSURIZER MCC 110PH AND NO. 11 PRESSURIZER

PROPORTIONAL HEATER (MCC 1N130)

32 32

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AM.

AM. (OSO)

(OSO)

(OSO) TAKE LOCAL CONTROL AND OPEN TAKE LOCAL CONTROL AND OPEN

1A DIESEL GENERATOR OUTPUT 1A DIESEL GENERATOR OUTPUT

BREAKER BREAKER

32 32

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AN.

AN. (CRO)

(CRO)

(CRO) CONTROL RCS TEMPERATURE CONTROL RCS TEMPERATURE

(AA)

AND VERIFY NATURAL CIRCULATION AND VERIFY NATURAL CIRCULATION

33 33

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AO.

AO. (RO)

(RO)

(RO) ELECTRICALLY ISOLATE 4KV BUS 11 ELECTRICALLY ISOLATE 4KV BUS 11

FROM THE CONTROL ROOM FROM THE CONTROL ROOM

34 34

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AP.

AP. (TBO)

(TBO)

(TBO) OVERRIDE SALTWATER TO THE OVERRIDE SALTWATER TO THE

(AO)

SERVICE WATER HEAT EXCHANGERS SERVICE WATER HEAT EXCHANGERS

35 35

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥ NOTE: Continuously Applicable Steps are designated with a "C" in the Done column.

NOTE: Continuously Applicable Steps are designated with a "C" in the Done column.

Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 4 of 9 Page 4 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥ START START START FUNCTION FUNCTION FUNCTION DONE DONE DONE PAGE PAGE PAGE

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AQ.

AQ. (ABO)

(ABO)

(ABO) MANUALLY SHUT CONTAINMENT MANUALLY SHUT CONTAINMENT

NORMAL SUMP VALVE NORMAL SUMP VALVE

37 37

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AR.

AR. (TBO)

(TBO)

(TBO) ISOLATE SERVICE WATER TO THE ISOLATE SERVICE WATER TO THE

TURBINE BUILDING TURBINE BUILDING

37 37

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AS.

AS. (ABO)

(ABO)

(ABO) LINEUP CHARGING PUMP SUCTION LINEUP CHARGING PUMP SUCTION

TO THE BORIC ACID STORAGE TANKS TO THE BORIC ACID STORAGE TANKS

38 38

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AT.

AT. (RO)

(RO)

(RO) OPEN THE FEEDER BREAKERS FOR OPEN THE FEEDER BREAKERS FOR

4KV BUS 11 4KV BUS 11

38 38

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AU.

AU. (RO)

(RO)

(RO) ALIGN 0C DIESEL GENERATOR TO 4KV ALIGN 0C DIESEL GENERATOR TO 4KV

BUS 11 BUS 11

39 39

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (AI), (AM),

(AI), (AM),

AV.

AV. (CRO)

(CRO)

(CRO) COORDINATE WITH UNIT 2 FOR 0C COORDINATE WITH UNIT 2 FOR 0C

(AO), (AT),

DIESEL GENERATOR LOADING ON 4KV DIESEL GENERATOR LOADING ON 4KV

(AU)

BUS 11 BUS 11

40 40

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (AV)

(AV)

AW.

AW. (RO)

(RO)

(RO) ENERGIZE 11 4KV BUS.

ENERGIZE 11 4KV BUS.

40 40

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AX.

AX. (RO)

(RO)

(RO) START 11 SERVICE WATER AND 11 START 11 SERVICE WATER AND 11

(AW)

SALTWATER PUMPS SALTWATER PUMPS

41 41

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (AX)

(AX)

AY.

AY. (TBO)

(TBO)

(TBO) MONITOR SRW HX FLOW MONITOR SRW HX FLOW

41 41

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ AZ.

AZ. (OSO)

(OSO)

(OSO) TAKE LOCAL CONTROL OF 1A TAKE LOCAL CONTROL OF 1A

DIESEL GENERATOR AND BREAKERS DIESEL GENERATOR AND BREAKERS

43 43

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BA.

BA. (OSO)

(OSO)

(OSO) PLACE FAIRBANKS DIESEL PLACE FAIRBANKS DIESEL

GENERATORS IN LOCAL CONTROL GENERATORS IN LOCAL CONTROL

45 45

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (AS), (AW)

(AS), (AW) BB.

BB. (RO)

(RO)

(RO) START A CHARGING PUMP START A CHARGING PUMP

45 45

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BC.

BC. (RO)

(RO)

(RO) STRIP 480V LOAD CENTER 11B STRIP 480V LOAD CENTER 11B

47 47

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BD.

BD. (RO)

(RO)

(RO) ENERGIZE 480V LOAD CENTER 11B ENERGIZE 480V LOAD CENTER 11B

47 47

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BE.

BE. (RO)

(RO)

(RO) STRIP 480V LOAD CENTER 11A STRIP 480V LOAD CENTER 11A

48 48

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥ Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 5 of 9 Page 5 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥ START START START FUNCTION FUNCTION FUNCTION DONE DONE DONE PAGE PAGE PAGE

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BF.

BF. (RO)

(RO)

(RO) ENERGIZE 480V LOAD CENTER 11A ENERGIZE 480V LOAD CENTER 11A

49 49

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BG.

BG. (OSO)

(OSO)

(OSO) MONITOR 0C DIESEL GENERATOR MONITOR 0C DIESEL GENERATOR

49 49

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BH.

BH. (ABO)

(ABO)

(ABO) ISOLATE CHANNEL D WRNI FROM ISOLATE CHANNEL D WRNI FROM

THE CONTROL ROOM.

51 51

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BI.

BI.

(ABO)

(ABO) START 11 SALTWATER AIR START 11 SALTWATER AIR

(BD)

COMPRESSOR COMPRESSOR

52 52

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BJ.

BJ. (ABO)

(ABO)

(ABO) ISOLATE FIRE EFFECTS FOR 11 ISOLATE FIRE EFFECTS FOR 11

CAVITY COOLING FAN DAMPER CAVITY COOLING FAN DAMPER

52 52

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BK.

BK. (ABO)

(ABO)

(ABO) RESTORE SWITCHGEAR ROOM RESTORE SWITCHGEAR ROOM

(BD)

VENTILATION VENTILATION

52 52

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BL.

BL. (ABO)

(ABO)

(ABO) START 11 AND 12 CONTAINMENT START 11 AND 12 CONTAINMENT

(BD), (BI)

AIR COOLERS AIR COOLERS

53 53

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BM.

BM. (ABO)

(ABO)

(ABO) START 11 AFW PUMP ROOM START 11 AFW PUMP ROOM

(BD)

EMERGENCY VENTILATION FAN EMERGENCY VENTILATION FAN

53 53

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BN.

BN. (ABO)

(ABO)

(ABO) DE-ENERGIZE UNIT 1 5' FAN ROOM DE-ENERGIZE UNIT 1 5' FAN ROOM

LIGHTING LIGHTING

54 54

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BO.

BO. (RO)

(RO)

(RO) ENERGIZE PRESSURIZER HEATER ENERGIZE PRESSURIZER HEATER

MCC 109PH MCC 109PH

54 54

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BP.

BP. (CRO)

(CRO)

(CRO) ENERGIZE PRESSURIZER BACKUP ENERGIZE PRESSURIZER BACKUP

(BO)

HEATER BANK 11 HEATER BANK 11

55 55

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BQ.

BQ. (ABO)

(ABO)

(ABO) OPEN MCC 104R FEEDER OPEN MCC 104R FEEDER

BREAKER BREAKER

55 55

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BR.

BR. (CRO)

(CRO)

(CRO) BORATE THE RCS BORATE THE RCS

56 56

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BS.

BS. (ABO)

(ABO)

(ABO) ESTABLISH SERVICE WATER FLOW ESTABLISH SERVICE WATER FLOW

TO 11 CONTAINMENT AIR COOLER TO 11 CONTAINMENT AIR COOLER

57 57

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (BJ)

(BJ)

BT.

BT. (RO)

(RO)

(RO) START 11 CAVITY COOLING FAN START 11 CAVITY COOLING FAN

57 57

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¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥ Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 6 of 9 Page 6 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥ START START START FUNCTION FUNCTION FUNCTION DONE DONE DONE PAGE PAGE PAGE

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BU.

BU. (RO)

(RO)

(RO) DE-ENERGIZE 4KV BUS 12 DE-ENERGIZE 4KV BUS 12

57 57

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BV.

BV. (CRO)

(CRO)

(CRO) DE-ENERGIZE 4KV BUS 13 DE-ENERGIZE 4KV BUS 13

58 58

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BW.

BW. (TBO)

(TBO)

(TBO) ENERGIZE 1Y09 AND TIE 1Y10 TO ENERGIZE 1Y09 AND TIE 1Y10 TO

1Y09 1Y09

58 58

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BX.

BX. (CRO)

(CRO)

(CRO) DE-ENERGIZE 4KV BUS 14 DE-ENERGIZE 4KV BUS 14

59 59

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BY.

BY. (ABO)

(ABO)

(ABO) ESTABLISH SERVICE WATER FLOW ESTABLISH SERVICE WATER FLOW

TO 12 CONTAINMENT AIR COOLER TO 12 CONTAINMENT AIR COOLER

59 59

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ BZ.

BZ. (RO)

(RO)

(RO) PLACE 11 AND 14 BATTERY CHARGERS PLACE 11 AND 14 BATTERY CHARGERS

IN SERVICE IN SERVICE

60 60

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CA.

CA. (OSO)

(OSO)

(OSO) START 12 WELL WATER PUMP START 12 WELL WATER PUMP

60 60

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CB.

CB. (TBO)

(TBO)

(TBO) VENT THE MAIN GENERATOR TO 2 VENT THE MAIN GENERATOR TO 2

PSIG PSIG

61 61

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CC.

CC. (TBO)

(TBO)

(TBO) ISOLATE DI WATER ISOLATE DI WATER

AND CONDENSATE MAKEUP TO THE AND CONDENSATE MAKEUP TO THE

SERVICE WATER AND COMPONENT SERVICE WATER AND COMPONENT

COOLING HEAD TANKS COOLING HEAD TANKS

62 62

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CD.

CD. (OSO)

(OSO)

(OSO) MONITOR DIESEL FIRE PUMP FUEL MONITOR DIESEL FIRE PUMP FUEL

OIL DAY TANK LEVEL OIL DAY TANK LEVEL

63 63

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CE.

CE. (ABO)

(ABO)

(ABO) ESTABLISH SALTWATER LINEUP ESTABLISH SALTWATER LINEUP

FOR COMPONENT COOLING HEAT FOR COMPONENT COOLING HEAT

EXCHANGERS EXCHANGERS

64 64

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CF.

CF. (ABO)

(ABO)

(ABO) RESTORE MAKEUP TO THE RESTORE MAKEUP TO THE

SERVICE WATER AND COMPONENT SERVICE WATER AND COMPONENT

(CC)

COOLING HEAD TANKS COOLING HEAD TANKS

65 65

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CG.

CG. (ABO)

(ABO)

(ABO) SHIFT CHARGING PUMP SUCTION SHIFT CHARGING PUMP SUCTION

(BR)

TO THE RWT TO THE RWT

66 66

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CH.

CH. (CRO)

(CRO)

(CRO) COMMENCE RCS COOLDOWN COMMENCE RCS COOLDOWN

66 66

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥ Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 7 of 9 Page 7 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥ START START START FUNCTION FUNCTION FUNCTION DONE DONE DONE PAGE PAGE PAGE

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CI.

CI.

(CRO)

(CRO) PREPARE TO DEPRESSURIZE THE PREPARE TO DEPRESSURIZE THE

RCS RCS

67 67

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CJ.

CJ. (ABO)

(ABO)

(ABO) INSTALL PORTABLE AIR SUPPLY TO INSTALL PORTABLE AIR SUPPLY TO

(CI.1)

AUX SPRAY CONTROL VALVE AUX SPRAY CONTROL VALVE

67 67

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CK.

CK. (ABO)

(ABO)

(ABO) OPERATE AUX SPRAY CONTROL OPERATE AUX SPRAY CONTROL

(CJ)

VALVE VALVE

67 67

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CL.

CL. (CRO)

(CRO)

(CRO) DEPRESSURIZE THE RCS DEPRESSURIZE THE RCS

68 68

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (CL)

(CL)

CM.

CM. (ABO)

(ABO)

(ABO) SECURE AUX SPRAY SECURE AUX SPRAY

69 69

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CN.

CN. (CRO)

(CRO)

(CRO) SECURE RCS COOLDOWN SECURE RCS COOLDOWN

AND PREPARE TO DEPRESSURIZE THE AND PREPARE TO DEPRESSURIZE THE

RCS RCS

70 70

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (CN)

(CN)

CO.

CO. (ABO)

(ABO)

(ABO) INITIATE AUX SPRAY INITIATE AUX SPRAY

70 70

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CP.

CP. (CRO)

(CRO)

(CRO) DEPRESSURIZE THE RCS DEPRESSURIZE THE RCS

71 71

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (CP)

(CP)

CQ.

CQ. (ABO)

(ABO)

(ABO) SECURE AUX SPRAY SECURE AUX SPRAY

72 72

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CR.

CR. (CRO)

(CRO)

(CRO) COOLDOWN AND DEPRESSURIZE COOLDOWN AND DEPRESSURIZE

THE RCS THE RCS

72 72

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CS.

CS. (ABO)

(ABO)

(ABO) SHUT THE SAFETY INJECTION SHUT THE SAFETY INJECTION

TANK OUTLET VALVES AND OPEN THE TANK OUTLET VALVES AND OPEN THE

SHUTDOWN COOLING HEADER RETURN SHUTDOWN COOLING HEADER RETURN

(CR)

ISOLATION ISOLATION

73 73

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CT.

CT. (OSO)

(OSO)

(OSO) MONITOR CST INVENTORY MONITOR CST INVENTORY

73 73

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CU.

CU. (ABO)

(ABO)

(ABO) ISOLATE COMPONENT COOLING TO ISOLATE COMPONENT COOLING TO

CONTAINMENT CONTAINMENT

76 76

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CV.

CV. (ABO)

(ABO)

(ABO) OPEN COMPONENT COOLING HEAT OPEN COMPONENT COOLING HEAT

EXCHANGER ISOLATION CONTROL EXCHANGER ISOLATION CONTROL

VALVES VALVES

76 76

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥ Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 8 of 9 Page 8 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥£¥¥¥¥¥¥¥¥¥ START START START FUNCTION FUNCTION FUNCTION DONE DONE DONE PAGE PAGE PAGE

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CW.

CW. (RO)

(RO)

(RO) START 11 AND 13 COMPONENT START 11 AND 13 COMPONENT

(CV)

COOLING PUMPS COOLING PUMPS

77 77

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CX.

CX. (TBO)

(TBO)

(TBO) ALIGN 13 SALTWATER PUMP TO ALIGN 13 SALTWATER PUMP TO

SUPPLY 12 SALTWATER HEADER SUPPLY 12 SALTWATER HEADER

78 78

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (CX)

(CX)

CY.

CY. (RO)

(RO)

(RO) START 13 SALTWATER PUMP START 13 SALTWATER PUMP

78 78

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ CZ.

CZ. (ABO)

(ABO)

(ABO) SHUT THE CONTAINMENT SUMP SHUT THE CONTAINMENT SUMP

DISCHARGE DISCHARGE

79 79

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DA.

DA. (ABO)

(ABO)

(ABO) COMMENCE SHUTDOWN COOLING COMMENCE SHUTDOWN COOLING

LINEUP LINEUP

80 80

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DB.

DB. (CRO)

(CRO)

(CRO) PREPARE FOR STEAM AND FEED PREPARE FOR STEAM AND FEED

OF THE S/GS OF THE S/GS

81 81

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DC.

DC. (TBO)

(TBO)

(TBO) ISOLATE STEAM TO THE AFW ISOLATE STEAM TO THE AFW

(DB.4)

PUMPS PUMPS

81 81

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DD.

DD. (CRO)

(CRO)

(CRO) LOWER S/G LEVELS TO (-)350 LOWER S/G LEVELS TO (-)350

INCHES INCHES

81 81

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (DD)

(DD)

DE.

DE. (RO)

(RO)

(RO) START 13 AFW PUMP START 13 AFW PUMP

82 82

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DF.

DF. (ABO)

(ABO)

(ABO) PREPARE FOR SHUTDOWN PREPARE FOR SHUTDOWN

(DB.5)

COOLING INITIATION COOLING INITIATION

83 83

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (DE)

(DE)

DG.

DG. (CRO)

(CRO)

(CRO) INITIATE AFW TO BOTH S/GS INITIATE AFW TO BOTH S/GS

84 84

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DH.

DH. (ABO)

(ABO)

(ABO) OPEN THE SHUTDOWN COOLING OPEN THE SHUTDOWN COOLING

(DG)

RETURN ISOLATION RETURN ISOLATION

84 84

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DI.

DI.

(ABO)

(ABO) THROTTLE OPEN THE SHUTDOWN THROTTLE OPEN THE SHUTDOWN

COOLING FLOW CONTROL VALVE COOLING FLOW CONTROL VALVE

85 85

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ (DI)

(DI)

DJ.

DJ. (RO)

(RO)

(RO) START 11 LPSI PUMP START 11 LPSI PUMP

85 85

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥ DK.

DK. (ABO)

(ABO)

(ABO) SLOWLY OPEN THE SHUTDOWN SLOWLY OPEN THE SHUTDOWN

(DJ)

COOLING FLOW CONTROL VALVE COOLING FLOW CONTROL VALVE

85 85

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥ Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

Letters in the START column are prerequisite steps that must be completed prior to initiation of the step.

AOP-9A AOP-9A Rev 14/Unit 1 Rev 14/Unit 1 APPENDIX (1)

APPENDIX (1)

Page 9 of 9 Page 9 of 9 PLACEKEEPER PLACEKEEPER (continued)

(continued)

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¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥

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DL. (ABO)

(ABO)

(ABO) ADJUST SHUTDOWN COOLING ADJUST SHUTDOWN COOLING

TEMPERATURE TEMPERATURE

86 86

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DM. (CRO)

(CRO)

(CRO) CONTINUE RCS COOLDOWN TO CONTINUE RCS COOLDOWN TO

LESS THAN 200 LESS THAN 200F F

87 87

¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥¢¥¥¥¥¥¥¥¥¥

AOP-9A/Unit 1 Rev. 11 Page 1 of 11 AOP-9A Unit 1 BASES DOCUMENT IV.

ACTIONS A.

This step describes the affected area, defines a severe fire and gives the Shift Manager guidance in determining if the fire is a severe fire.

B.

Manual Reactor TRIP is initiated to promptly change plant modes. Manual Reactor TRIP is an allowable action taken per Generic Letter 86-10, "Questions and Answers," Section 3.8.4.

C.

Credit is not taken for Control Room initiated trips of the Main Turbine, SGFPs, and shutting the MSIVs (i.e., an exemption was not requested), but are considered prudent actions to minimize the probability of an over-cooling scenario. If the 0C DG can be emergency started here it will save the time of pneumatically prelubing the DG prior to start. If it cant be started here it will be started later in the procedure. Upon loss of component cooling, the RCPs have been evaluated to operate 20 minutes without seal failure. Since the wiring in the Control Room has not been evaluated, the RCPs must be tripped locally within 20 minutes. It is considered a prudent action to trip the RCPs from the Control Room prior to leaving. (

Reference:

WCAP-16175-P, Model for Failure of RCP Seals Given Loss of Seal Cooling in CE NSSS Plants)

D.

Report to Safe Shutdown Station as assigned by NO-1-100 Attachment.

E.

Manual action to TRIP the Main Turbine is taken to minimize the probability of an over-cooling transient.

F/G. No comment.

H.

Provide an additional method of ensuring power is removed from the CEDMs. Will also reduce the noise levels in the 45' and 27' Switchgear Rooms if off-site power is still available.

I.

We must "...achieve and maintain subcritical reactivity conditions in the reactor,..." per 10CFR50 Appendix R, III.L.1.(a). The criteria for completion of Reactor Shutdown was extracted from EOPs. Fire effects may induce a test signal on the WRNI channels. The isolation switches will ensure the WRNI channel used to validate Reactor Shutdown is not affected.

J.

Required per ERPIP 3.0.

1100

AOP-9A/Unit 1 Rev. 11 Page 2 of 11 K.

Minimize RCS inventory loss due to CVCS Letdown, RCP Bleedoff, and RCS Sampling.

Fire induced signal(s) associated with Pressurizer Level Control could cause maximum CVCS Letdown flow (i.e., up to the setpoint for CVCS Excess Flow Check Valve operation), which would jeopardize our ability to maintain Pressurizer Level indication.

Pressurizer Level indication must be maintained per 10CFR50 III.L.2.b.

Secondary inventory should be maximized in order to maintain a heat sink. When AFW is started, the system must supply adequate flow to restore and maintain S/G level. S/G Blowdown is an additional non-vital secondary discharge from the S/Gs. Therefore, the S/G Blowdown valves are shut. Blowdown is required to be isolated in 15 minutes to prevent S/G dryout in the worst case scenario. (

Reference:

CA05974, Appendix R Fire Protection Transient Events)

L.

Pressurizer Backup Heater Banks 11 and 13 are electrically isolated from fire effects. All Pressurizer Heaters are secured, since Pressurizer Pressure control may not be free of fire effects and Aux Spray is not immediately available.

M.

No basis required.

N.

CVCS Loop Isolations, 1-CVC-518-CV and 1-CVC-519-CV and Aux. Spray Valve, 1-CVC-517-CV are de-energized to prevent a potential depressurization, due to fire effects, when a Charging Pump is started. The PRZR and Head Vents are de-energized to keep them from opening resulting in a loss of inventory. Performance of this step conflicts with the design bases for the Containment Integrity LCO. Design basis accidents are not assumed to occur concurrent with the fire; therefore, the need to limit fire damage to systems or components which may challenge shutdown capability per 10CFR50, Appendix R, Section III.L.1 takes precedence.

O.

MCC 114R load center breaker is tripped by the RO to remove high/low pressure interfaces (PORV 402) to minimize possible RCS inventory lost due to spurious operation.

If the PORVs were to open and remain open, a loss of RCS Inventory and Pressure would occur. 10CFR50 Appendix R states, "During the post-fire shutdown, the reactor coolant system process variables shall be maintained within those predicted for a loss of normal AC power,..." PORV operation could violate this requirement. Pressurizer Level indication must be maintained per 10CFR50 III.L.2.b. High-Low pressure interface valves are addressed in "Clarification of Generic Letter 81-12" dated March 22, 1982, Safe Shutdown Capability Section, page 9. Experience, (validation walkdowns) has found that the time for the start of boration is quicker when the load center breaker is opened by the RO, than having the ABO report to the MCCs, take the PORV breaker to off and then report to 1C43 for equipment. MCC-114R load center is also stripped and then re-energized later in the procedure.

P.

No basis required.

1100

AOP-9A/Unit 1 Rev. 11 Page 3 of 11 Q.

MCC 104R load center breaker is tripped by the RO to remove high/low pressure interfaces (PORV 402) to minimize possible RCS inventory lost due to spurious operation.

If the PORVs were to open and remain open, a loss of RCS Inventory and Pressure would occur. 10CFR50 Appendix R states, "During the post-fire shutdown, the reactor coolant system process variables shall be maintained within those predicted for a loss of normal AC power,..." PORV operation could violate this requirement. Pressurizer Level indication must be maintained per 10CFR50 III.L.2.b. Experience, (validation walkdowns) has found that the time for the start of boration is quicker when the load center breaker is opened by the RO, than having the ABO report to the MCCs, take the PORV breaker to off and then report to 1C43 for equipment. By de-energizing MCC-104R, power is also removed from the SDC Return Isolation Valve, 1-SI-652-MOV to prevent spurious operation of the valve resulting in a potential over-pressure of the Safety Injection suction piping. High-Low pressure interface valves are addressed in "Clarification of Generic Letter 81-12" dated March 22, 1982, Safe Shutdown Capability Section, page 9. The BA DIRECT M/U, 1-CVC-514-MOV will also be de-energized to prevent spurious operation and allow manual closure later on in the procedure.

R.

The RCPs are tripped (i.e., Loss of Off-site Power has not occurred):

To minimize the heat input into the RCS Minimize the potential for RCP Seal failure due to inadequate cooling (i.e., loss of Component Cooling)

Does not qualify as Safe Shutdown Equipment (i.e., cannot be powered from Diesel Generators)

Upon loss of component cooling, the RCPs have been evaluated to operate 20 minutes without seal failure. (

Reference:

WCAP-16175-P, Model for Failure of RCP Seals Given Loss of Seal Cooling in CE NSSS Plants)

S.

All Pressurizer Heaters are secured, since Pressurizer Pressure control may not be free of fire effects and Aux Spray is not immediately available.

T.

1B Diesel Generator Output Breaker is electrically isolated from the Control Room to free it from fire effects. Refer to BG&E letter from A. E. Lundvall, Jr. to R. A. Clark (NRR) dated May 14, 1982 and 50.59, "Implementation of AOP-9A May Cause a Station Blackout for One Hour" dated 11-20-89, POSRC Meeting No.89-229.

U.

The OSO will pickup radios and distribute them to the SS and the CRS to enhance communications with the Fire Brigade.

V.

The 2B, 1B and 2A Emergency Diesel Generator (DG) fuel racks are tripped to ensure the Diesel Generators are shutdown or do not startup. Since the Fairbanks DGs are not available due to fire affects and if a loss of offsite power occurs when their respective DG output breaker are opened in a later step, the DG will continue to run due to an Under Voltage (UV) signal present concurrent with the fire. The Diesel will eventually burn up since jacket water cooling high temperature, jacket water cooling low pressure and crankcase high pressure trips are bypassed when an UV signal is present. Although the 2B, 1B and 2A Diesel Generators are not available, it requires only a few minutes to trip all the Fairbanks DGs to ensure they are available at a later time.

W.

The SGFPs are manually tripped to minimize the potential of an over-feed event due to fire effects.

1100 1100

AOP-9A/Unit 1 Rev. 11 Page 4 of 11 X.

Condenser Makeup is isolated to ensure the CSTs are not depleted due to a fire-induced failure of the Condenser Makeup Controller.

Y.

MCC 114R is completely stripped of all loads. The ABO will then place the required breakers to ON to support shutdown. This method of stripping the bus (all breakers OFF, selected breakers ON) was suggested during initial Operator training on the draft revision of AOP-9A in July 1998. The MCC load center breaker was tripped earlier in the procedure and will be reshut later in the procedure.

Z.

The ADV Controllers are placed in SHUT so the CRO can align the ADVs to 1C43 in a controlled manner.

AA.

The CRO aligns the ADVs to 1C43 to have control of decay heat removal. ADV positioning signals from the Control Room and RRS (Quick Open) are overridden by these actions.

AB.

The CRO completes the alignment of controllers on 1C43 so equipment is placed into service in a known condition.

AC.

The MSIVs and MSIV Bypass MOVs are shut to preclude a fire induced over-cooling transient. This will eliminate the following steam flow paths:

The Turbine Bypass Valves The MSR 2nd Stage MOVs Turbine Gland Seal System AD.

The TBO aligns Steam Driven AFW Pump speed control to 1C43. Fire induced actuations of the Trip Solenoid are electrically isolated from the Control Room and instructions are given to reset the Trip Throttle Valve if it has tripped.

AE.

The TBO aligns the AFW Flow Control Valves to 1C43 and fails open the AFW Block CVs. This will isolate fire-induced signals and will align flow control capability to 1C43.

The SWAC header air supply to the AFW header is opened to supply SWAC air to the AFW valves (AFW air accumulators would bleed off in approximately 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months if SWAC air is not cross connected). See Andy Kim memo dated 10/27/93.

AF.

This step should be completed within 30 minutes to minimize the potential for Steam Generator dry-out. The Steam Train AFW Pumps will fail to maximum speed on loss of Instrument Air because neither the SWACs nor the AFW Air Accumulators will supply air to the AFW Pumps. AFW flow is verified prior to operating the ADV, to ensure a source of makeup is available prior to moving on to the next step, since there a number of ways to feed the S/Gs using this procedure. (

Reference:

CA05974, Appendix R Fire Protection Transient Events)

AG.

Upon loss of Instrument Air, the AFW Pump speed control will be lost even when aligned to 1C43, because neither the SWACs nor the AFW Air Accumulators will supply air to the AFW Pumps. The AFW Pump should fail to maximum speed and is not expected to trip on overspeed. If desired, 1C43 may direct local control of the AFW Pump. This step also directs reset of the AFW Pump if it has tripped. The TBO should then periodically check AFW Pump operation while performing other assigned steps within the procedure.

AOP-9A/Unit 1 Rev. 11 Page 5 of 11 AH.

The OSO will take local control of and start the 0C DG. The 0C DG will be used to power both the 11 and 24 4KV Buses simultaneously. If the 0C DG was not started prior to leaving the Control Room and the 07 4KV Bus has been de-energized for 30 minutes or longer then the pneumatic prelube must be performed. [B0255]

AI.

07 4KV BUS TIE Breaker is closed to energize the 07 4KV bus in preparation for energizing the vital 4KV Buses.

AJ.

The STA will monitor Plant status using the Safety Parameters Checklist. This action is consistent with the requirements of NUREG 0737. The use of PAMS cabinets located in the switchgear rooms are not credited for APPENDIX "R". If necessary, the use of the lowest elevation unheated thermocouple from Reactor Vessel level indication is an acceptable substitute for determining Core Exit Temperature. The lowest elevation unheated thermocouple is 10 inches above the fuel.

AK.

The RCPs are tripped (i.e., Loss of Off-site Power has not occurred):

To minimize the heat input into the RCS Minimize the potential for RCP Seal failure due to inadequate cooling (i.e., loss of Component Cooling)

Does not qualify as Safe Shutdown Equipment (i.e., cannot be powered from Diesel Generators)

Upon loss of component cooling, the RCPs have been evaluated to operate 20 minutes without seal failure. (

Reference:

WCAP-16175-P, Model for Failure of RCP Seals Given Loss of Seal Cooling in CE NSSS Plants)

AL.

All Pressurizer Heaters are secured since Pressurizer Pressure control may not be free of fire effects and Aux Spray is not immediately available.

AM.

1A Diesel Generator Output Breaker is electrically isolated from the Control Room to free it from fire effects. Refer to BG&E letter from A. E. Lundvall, Jr. to R. A. Clark (NRR) dated May 14, 1982 and 50.59, "Implementation of AOP-9A May Cause a Station Blackout for One Hour" dated 11-20-89, POSRC Meeting No.89-229.

AN.

The CRO adjusts the ADVs to achieve RCS Tcold of 515°F to 535°F. Natural Circulation parameters are consistent with the EOPs. The use of PAMS cabinets located in the switchgear rooms are not credited for APPENDIX "R". If necessary, the use of the lowest elevation unheated thermocouple from Reactor Vessel level indication is an acceptable substitute for determining Core Exit Temperature. The lowest elevation unheated thermocouple is 10 inches above the fuel.

AO.

The 4KV Breakers are electrically isolated from the Control Room and loads are removed from 4KV Bus 11 prior to energizing the bus with the 0C Diesel Generator. Two methods are employed:

1.

For Breakers that do not have isolator switches the CLOSE Fuses are pulled and the Breaker is locally tripped.

2.

For Breakers that have isolator switches the LOCAL/REMOTE switch is placed in LOCAL and the Breaker is stopped or tripped by a local handswitch.

1100

AOP-9A/Unit 1 Rev. 11 Page 6 of 11 AP.

The Service Water Heat Exchanger Saltwater valves are isolated from fire effects and placed in their failed position by aligning their handvalves to OVERRIDE.

AQ.

The Containment Normal Sump is isolated to ensure the Containment boundary is not breached. This action is consistent with EOP-7.

AR.

Service Water is isolated to the Turbine Building so Service Water can be diverted to support loads necessary for Safe Shutdown. Removing air from the Control Valves will cause the valves to shut.

AS.

Charging Pump suction is aligned to the BASTs to borate the RCS.

AT.

4KV Bus 11 is temporarily de-energized to support placing 0C Diesel Generator on the bus. At this point, the electrical system is now isolated from the Control Room and is free of fire effects.

AU.

The first step places the OC DG output breaker in local to free the breaker of potential fire effects and ensures it is tripped to prepare for alignment to 11 4 KV Bus by the 0C DG.

The next step aligns the 0C DG to 11 4KV Bus by closing disconnect 189-1106.

AV.

This is a coordination step. The Unit 1 CRO verifies the 1A D/G output breaker is open with the OSO, since due to prelubing and starting the 0C D/G, the OSO may not have the breaker open yet. 11 4KV Bus source breakers, 11 SRW and SW breakers are verified open by both the prerequisites in the placekeeper and the procedure itself. The Unit 1 CRO coordinates with Unit 2 CRO to ensure that both units do not place their respective buses on the 0C DG at the same time. The CRO then directs the RO to energize the bus.

Cautions were placed at the beginning of the procedure to ensure the Unit 1 SW and SRW Pumps are loaded on the 0C DG, prior to Unit 2 loading 24 4KV Bus and vice-versa.

AW.

When directed by the CRO, the RO energizes 11 4KV Bus by from the 0C DG by closing breaker 152-1106.

AX.

Once 11 4KV bus is being supplied from 0C Diesel Generator, 11 Service Water and 11 Saltwater Pumps are then locally started. All support systems are in operation to support Safe Shutdown and have been electrically isolated from the Control Room.

AY.

After the Saltwater Pump is restarted, the TBO is instructed to monitor SRW HX flow and flush the strainer if required, since placing the valves in their failed position will require manual operation.

AZ.

1A DG is electrically isolated from the Control Room and shutdown locally due to potential fire effects. This continues the isolation of the 1A DG.

BA.

The OSO will place the 1B, 2A and 2B Diesel Generators in LOCAL Control to electrically isolate Diesel Generator Control from the Control Room and provide the capability to start the Diesel Generators when all necessary support equipment has been made free of fire effects.

BB.

11 Charging Pump is started to restore RCS inventory. 13 Charging Pump is available if 11 Charging Pump is inoperable. This step should be completed within 60 minutes to satisfy the requirements outlined in 10CFR50 Appendix R, III.L.2.b. (

Reference:

ES200100732)

AOP-9A/Unit 1 Rev. 11 Page 7 of 11 BC.

All Control Power Fuses are removed from 480V Load Center 11B to electrically isolate equipment from the Control Room. Equipment not immediately necessary for Safe Shutdown is stripped from the Load Center. MCC-114R Load Center breaker is re-shut for safe shutdown loads.

BD.

480V Load Center 11B is energized to supply power to MCC 114R, 12 Containment Air Cooler, 11 Charging Pump, and 13 Component Cooling Pump.

BE.

All Control Power Fuses are removed from 480V Load Center 11A to electrically isolate equipment from the Control Room. Equipment not immediately necessary for Safe Shutdown is stripped from the Load Center.

BF.

480V Load Center 11A is re-energized to supply power to 11 Containment Air Cooler, 11 Component Cooling Pump, and 13 Charging Pump.

BG.

Since the 0C DG is used to supply both units, a step is included to monitor 0C DG operation. Although total kW supplied by the 0C DG to both 11 and 24 4KV buses is expected to be well below the continuous load limit of 5400 kW, there is a step for the OSO to inform both 1C43 and 2C43 of current kW load after the SW and SRW Pumps are running on their respective units. This is because the 0C DG Control Panel is the only available place to read 0C DG load.

BH.

Fire effects may induce a test signal on the WRNI channels. The isolation switches will ensure the WRNI channel used to validate Reactor Shutdown is not affected. This step isolates the redundant channel.

BI.

11 Saltwater Air Compressor is electrically isolated from the Control Room, then started to provide an air source to the ADVs and AFW System Valves.

BJ.

11 Cavity Cooling Fan Damper indication is electrically isolated from the Control Room so the damper will operate when the fan is started. The NIs will remain operable without ventilation, but ventilation will enhance their operation. Refer to calculation M-90-16.

BK.

The Switchgear Room Fan is started to enhance equipment operability and personnel habitability.

BL.

11 and 12 Containment Air Coolers are started to enhance equipment operability and personnel habitability. This is consistent with EOPs.

BM.

11 AFW Pump Room Emergency Ventilation Fan is started to support continued operation of the AFW Pumps since the bearings are air-cooled. The ventilation system is designed to limit AFW Pump Room temperature to less than 130°F, per FSAR Chapter 6.

Station Blackout analysis indicates acceptable operation with AFW Pump Room Watertight Doors open. Refer to letter CMU-90-450, dated October 5, 1990. (NOTE:

The AFW Pump Room Chiller Unit was not analyzed to be free of fire effects.)

BN.

1L06 breakers are de-energized to reduce the heat load in the Unit 1 5 Exhaust Fan Room after starting AFW Pump Room Emergency Ventilation Fan.

BO.

Pressurizer Heater MCC 109PH is energized to provide power to Pressurizer Heater Bank 11.

AOP-9A/Unit 1 Rev. 11 Page 8 of 11 BP.

The CRO energizes Pressurizer Backup Heater Bank 1 if RCS pressure is less than 1900 PSIA. The goal is to keep Pressurizer pressure as close to 1900 PSIA as possible since Aux Spray is not immediately available. Additionally, by maintaining Pressurizer pressure less than 1900 PSIA, the total time spent in the Containment by the ABO will be reduced.

BQ.

MCC 104R feeder breaker is opened to ensure the MCC stays de-energized if 14A 480V Bus is returned to service. The Load Center Breaker was previously opened.

BR.

The RCS is borated to a targeted value of 2300 ppm since CEA position indication may not be available. The upper limit on pressurizer level will maintain an adequate pressurizer bubble and accommodate adequate boration to ensure shutdown margin is established. It is permissible to cooldown the RCS to accommodate the extra volume of boric acid that may be required at End of Cycle (EOC). This cooldown will not violate shutdown margin when level is maintained by boration. Adequate boric acid volume may not be available at EOC to achieve 2300 ppm, but will provide significant overboration.

(

Reference:

ES200100724)

BS.

Service Water flow is established to remove heat from the Containment environment.

BT.

The Cavity Cooling Fan is started to provide ventilation to the NI Detectors. The NIs will remain operable without ventilation, but ventilation will enhance their operation. Refer to calculation M-90-16.

BU.

4KV Bus 12 is de-energized to prevent spurious operation of equipment due to the fire.

BV.

4KV Bus 13 is de-energized to prevent spurious operation of equipment due to the fire.

BW.

1Y10 is tied to 1Y09 to restore instrument power.

BX.

4KV Bus 14 is de-energized to prevent spurious operation of equipment due to the fire.

BY.

Service Water flow is established to remove heat from the Containment environment.

BZ.

11 and 14 Battery Chargers are placed in service to ensure continued operation of the 120VAC and 125VDC electrical systems.

CA.

When the Unit 2 TBO has energized MCC 201BT (so 12 Well Water Pump can be supplied from 0C Diesel Generator), 2C43 will notify the OSO to start 12 Well Water Pump for a dependable supply of makeup water for decay heat removal.

CB.

The Main Generator is vented to prevent Hydrogen gas from accumulating in the Turbine Building.

CC.

Demineralized Water and Condensate are isolated to the Service Water and Component Cooling Head Tanks in preparation to use Fire System water to fill these tanks.

CD.

This step is performed to ensure continued operation of the Diesel Fire Pump so makeup will be available to the Component Cooling and Service Water Head Tanks. It also will ensure the CSTs can be filled with pre-treated water if CST inventory is nearing depletion.

CE.

Instrument Air is isolated to the Component Cooling Heat Exchanger Saltwater Isolation Valves so the valves will fail open. The airlines are disconnected to bleed air off in the event the solenoids are energized, trapping air to keep the valves shut.

1100

AOP-9A/Unit 1 Rev. 11 Page 9 of 11 CF.

Since Instrument Air is not available to the Level Control Valves, they are isolated and the Service Water and Component Cooling Head Tank levels are controlled on the manual bypass valves.

CG.

Charging Pump suction is shifted to the RWT to prevent excessive boration of the RCS.

A Portable Air Bottle will be used to provide air for the operation of 1-CVC-517-CV.

CH.

Waiting at least one hour before starting the cooldown ensures the boron has been adequately mixed in the RCS. Limits are consistent with those found in the OPs.

CI.

Coordination step.

CJ.

A portable Air Supply is installed to locally operate 1-CVC-517-CV to reduce RCS pressure. At this point, the following valves are open:

Aux Spray Control Valve, 1-CVC-517-CV 12B Loop Charging Isolation Control Valve, 1-CVC-518-CV 11A Loop Charging Isolation Control Valve, 1-CVC-519-CV CK.

Aux Spray is initiated when the Charging Loop manual isolations, 1-CVC-395 and 1-CVC-392, are shut.

CL.

The RCS is depressurized until one of the following criteria are met:

RCS subcooling is reduced to 30°F (maintain subcooled conditions in the Reactor Core)

Pressurizer level is nearing 250 inches (maintain RCS process variables within those predicted for a Loss of Offsite Power)

ABO is nearing the maximum stay time (personnel safety)

Pressurizer Backup Heater Bank 11 is used, if necessary, to maintain subcooling above 30°F. RCS cooldown is continued until subcooling is 140°F. Cooldown rates and limits are consistent with the OPs.

CM.

The ABO secures and disconnects the air to 1-CVC-517-CV to allow the valve to fail shut.

CN.

Coordination step.

CO.

The ABO connects and supplies air to 1-CVC-517-CV to allow the valve to open for depressurization.

AOP-9A/Unit 1 Rev. 11 Page 10 of 11 CP.

(This comment is a repeat comment to indicate the cyclic nature of this evolution)

The RCS is depressurized until one of the following criteria are met:

RCS subcooling is reduced to 30°F (maintain subcooled conditions in the Reactor Core)

Pressurizer level is nearing 250 inches (maintain RCS process variables within those predicted for a Loss of Offsite Power)

ABO is nearing the maximum stay time (personnel safety)

Pressurizer Backup Heater Bank 11 is used, if necessary, to maintain subcooling above 30°F. RCS cooldown is continued until subcooling is 140°F. Cooldown rates and limits are consistent with the OPs.

CQ.

The ABO secures and disconnects the air to 1-CVC-517-CV to allow the valve to fail shut.

CR.

This step indicates the cyclic nature of the depressurization process. Direction is provided to have the Safety Injection Tank Outlet MOVs shut and the Shutdown Cooling Return Header Isolation, 1-SI-652-MOV, opened.

CS.

The Safety Injection Tank Outlet MOVs are shut to prevent the possibility of adding water to the RCS and subsequently raising Pressurizer level during the cooldown process. The Shutdown Cooling Return Header Isolation is opened at this point to prepare for Shutdown Cooling initiation. It is desirable to open this valve at reduced RCS pressure so a minimal differential pressure exists across the valve (i.e., make operation of the valve easier).

CT.

Steps in this Blocked Function are performed to ensure a source of water is available to the AFW Pump at all times. The use of pre-treated water should be considered only after the CSTs associated with that Unit are nearly depleted. Use of this water is considered an extreme measure.

CU.

Component Cooling is isolated to the Containment to divert flow that would have been used by Containment loads (i.e., RCPs), to the Shutdown Cooling Heat Exchangers.

CV.

Instrument Air is isolated to the Component Cooling Heat Exchanger Isolation Valves so the valves will fail open. The air line is disconnected to bleed air off in the event the solenoid is energized, trapping air to keep the valve shut.

CW.

Two Component Cooling Pumps are started to provide flow to the Shutdown Cooling Heat Exchangers for sufficient decay heat removal. At this point during the cooldown, one Component Cooling Pump is sufficient for Shutdown Cooling operations.

CX.

13 Saltwater Pump is aligned to 12 Saltwater Header to support two Component Cooling Heat Exchanger operation.

CY.

No comment.

CZ.

Valve is shut to prepare for Shutdown Cooling.

AOP-9A/Unit 1 Rev. 11 Page 11 of 11 DA.

The lineup is consistent with OI-3A, Shutdown Cooling. Instrument Air is isolated to the Shutdown Cooling Temperature and Shutdown Cooling Flow Control Valves for easier manual valve operation. All other MOVs are shut to place them in the required position for Shutdown Cooling operation.

DB.

Since the ADVs do not have sufficient capacity to permit Plant cooldown and subsequent initiation of Shutdown Cooling operation, cooldown is accomplished by Steam Generator depletion followed by a rapid refill. For further information, see letter NEU 89-397 dated July 17, 1989. The 321°F "Fill and Chill" initiation criteria comes from NEU 93-066 dated March 5, 1993. This is the temperature at which the RCS must be when "Fill and Chill" is started, to ensure there is enough time below 300°F to initiate SDC. In addition see NEU 93-084 dated March 23, 1993.

DC.

The Steam Driven AFW Pumps are secured since they are not needed. The Pumps should not be allowed to operate at "idle" since lubrication (via the slinger rings) cannot be assured.

DD.

Steam Generator level of -350 inches was chosen so that relatively accurate indication at 1C43 is maintained.

DE.

13 AFW Pump (instead of the Turbine Driven Pumps) is started to provide relatively high AFW flow rate to re-fill the Steam Generators. For further information, see letter NEU 89-397 dated July 17, 1989.

DF.

During the Steam Generator depletion process, the ABO completes aligning Shutdown cooling with the exception of the Shutdown Cooling Header Return Isolation, 1-SI-651-MOV.

DG.

For further information concerning this Step, see letter NEU 89-397 dated July 17, 1989.

DH.

1-SI-651-MOV is opened when the RCS temperature is less than 300°F. This is consistent with OI-3B.

DI.

1-SI-306-CV is opened to obtain a 1-inch stem rise so the LPSI Pump is not operated at shut-off head.

DJ.

11 LPSI is started to establish flow through the Shutdown Cooling System.

DK.

1-SI-306-CV is opened to obtain a 1 and one-half inch stem rise which will approximate 1500 GPM flow through the Shutdown Cooling System. This position was determined by field inspection during Shutdown Cooling operations.

DL.

Shutdown Cooling Heat Exchanger heatup rate is determined by using a contact pyrometer (thermometer) since instrumentation normally used will not be available.

DM.

The limits in this Step are consistent with OP-5. When Mode 5 is declared, the Safe Shutdown goals have been achieved.

ML082590058

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