Rev 3 to FEP-2.0, Train a Plant Shutdown to Hot Standby Due to Fire

ML20153F934
Person / Time
Site:	Summer
Issue date:	03/23/1998
From:	William G SOUTH CAROLINA ELECTRIC & GAS CO.
To:
Shared Package
ML20153F885	List: ML20153F924 ML20153F934 ML20153F946 ML20153F951 ML20153F969 ML20153F993 ML20153G708 RC-98-0170, Forwards Partial Submittal,Including Addl Info on 10 of 15 Fire IPEEE RAI Questions,Answers to Questions 8,9,11 & 12 & Info Re Questions 1,3,4,10,14 & 15,in Response to NRC 980409 RAI Re IPEEE Rept Submitted 950630,per GL 88-20
References
FEP-2.0, NUDOCS 9809290297
Download: ML20153F934 (46)
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Text

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d SOUTH CAROLINA ELECTRIC & Gl COMPANY i VIRGIL C. SUMMER NUCLEAR STATION NUCLEAR OPERATIONS INFORMATON ONLY FIRE EMERGENCY PROCEDURE FEP-2.0 1

TRAIN A PLANT SHUTDOWN TO HOT STANDBY DUE TO FIRE REVISION 3 i (m)

SAFETY RELATED ,

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ERVISOR 3/n/e DATE ffSCIPLIN bi f bhlblr- ?7/47 D'ATG I A PRpVAL AUTHORITY RECORD OF CHANGES CHANGE TYPE APPROVAL CANCELLATION CHANGE TYPE APPROVAL CANCELLATION LETTER CHANGE DATE DATE LETTER CHANGE DATE DATE l 1

CONTINUOUS USE ,

Continuous Use of Procedure Required.

Read Each Step Prior to Performing.

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.o 9809290297 980924 .

PDR ADOCK 05000395 4 P PDR ;

" FEP-2.0 REVISION 3 TABLE OF CONTENTS

- SECTION PAGE 1.0 - PURPOSE 1

2.0 INITIAL CONDITIONS 1

3.0 OPERATOR ACTIONS 3

4.0 FINAL CONDITIONS 10 5.0 REVISION

SUMMARY

11 ATTACHMENTS Attachment 1 -

Duties of the Control Room Supervisor Attachment 11 -

Duties of the Nuclear Reactor Operator at the Controls Attachment til -

Duties of the A Nuclear Reactor Operator

'V Attachment IV -

Duties of the Intermediate Bldg Operator Attachment V -

Duties of the Auxiliary Building Operator Attachment VI -

Duties of Electrical Maintenance Personnel Attachment Vil -

480V Breaker Operation Attachment Vill -

7.2KV Operation Attachment IX -

Operation of Equipment from 480V Motor Control Centers Attachment X -

Remote operation of Valves from 480V Motor Control Centers Attachment XI -

Cross Train Connection of Battery Charger XBC1 A 18 Attachment Xil -

Cooldown Data Sheet Attachment Xill -

Nominal Running Current for Motor Operated Valves l

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FEP-2.0 REVISION 3 O 1.0 PURPOSE This procedure provides instructions for plant shutdown from the Control Room Rooms A Train equipment and Relay Room. for fires in areas other than the Control Room, Cable Spreadin 2.0 INITIAL CONDITIONS 2.1 Smoke or fire alarms:

a. On the Simplex System and

b. By personal obsorvation.

2.2 RB smoke or fire alarms on the Simplex Fire Alarm System and verified by an increase in RB temperature or personal observation 2.3 This procedure is implemented from FEP 1.0.

O PAGE 1 OF 11 4

l FEP-2.0 l REVISION 3 )

CAUTION 3.0 in the event of an emergency r.ot covered by an approved written procedure, operating personnel have the authonty to take action to minimize personnel injury or damage to the facility and to protect the public health and safety. Such actions shall be documented by the operating personnel.

NOTE 3.0

a. If any electrical component will not operate from the specified location, attempts should be made to control it per Attachment Vil, Vill, IX, or X.

b. Due to the potential for electrical shorts due to fire, each component that is operated remotely should be checked periodically to ensure that it is in the desired position.

3.0 OPERATOR ACTIONS

( NOTE 3.1 throuoh 3.6 Steps 3.1 through 3.6 are immediate Actions.

3.1 The Shift Supervisor shall perform the following:

a. Direct implementation of this procedure.

b. Implement the Emergency Plan, Alert condition per EPP 001, Activation And Implementation of Emergency Plan.

3.2 Direct the Control Room Supervisor to implement Attachment I.

3.3 Direct the Nuclear Reactor Operator At The Controls to implement Attachment 11.

i 3.4 Direct the A Nuclear Reactor Operator to implement Attachment lll.

3.5 Direct the intermediate Building Operator to implement Attachment IV.

l 3.6 Direct the Auxiliary Building Operator Upper to implement Attachment V.

O PAGE 2 OF 11

l FEP-2.0 REVISION 3  !

- NOTE 3.7 throuah 3.11 Steps 3.7 through 3.11 must be completed within 30 minutes of implementation of this procedure. '

3.7 Direct Electrical Maintenance personnel to implement Attachment VI.

NOTE 3.8

a. Steam Generator B and its associated instrumentation must be relied upon for Train A Shutdown. Steam Generators A and C can be used for cooldown, however, primary reliance should be placed on PCV-2010, B SD/PWR RELIEF, and PI-2010, MS LINE B PRESS.

b. Ariy Steamline Power Relief Valve which fails to operate from the Main Control Board may be operated locally.

3.8 Maintain Steam Generator pressure between 1000 psig and 1100 psig by throttling the following:

a. PCV-2000, A SD/PWR RELIEF, from the Main Control Board or IB-436 West Pen.

b. PCV-2010, B SD/PWR RELIEF, from the Main Control Board or 18-436 East Pen.

c. PCV-2020, C SD/PWR RELIEF, from the Main Control Board or 1B-436 East Pen.

. NOTE 3.9 If natural circulation is not indicated, increased dumping of steam should restore natural circulation.

3.9 Verify natural circulation as follows:

a. RCS subcooling is greater than 30* F as determined by the following:

1) PI-403, RCS WR PRESS.

2) TI 423, LOOP B TH.

3) Steam Tables.

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FEP-2.0 REVISION 3 m

l,] b. Steam Generator pressure is stable or decreasing as indicated on l

the following:

1) PI-484, NR PRESS (SG B).

2) PI-2010, LINE B PSIG.

c. Reactor Coolant System TH is stable or decreasing as indicated on TI-423, LOOP B TH.

d. Reactor Coolant System TC is at saturation temperature for Steam Generator pressure as determined by the following:

1) TI-420, LOOP B TC.

2) PI-2010, LINE B PSIG.

NOTE 3.10 Primary reliance should be placed on FCV-3541, MD EFP TO SG B, and LI 484, SG B NR LEVEL.

3.10 Maintain Steam Generator level between 55% and 65% Narrow Range by throttling the following valves:

a. FCV-3531, MD EFP TO SG A.

b. FCV-3541, MD EFP TO SG B.

c. FCV-3551, MD EFP TO SG C.

3.11 Verify Reactor Coolant System pressure is greater than 200 psig on PI 403, WR PRESS, and place both RHR pumps in PULL TO LK NON-A.

NOTE 3.12 throuch 3.15 Steps 3.12 through 3.15 must be completed within 90 minutes of implementation of this procedure.

3.12 Ensure Component Cooling Water Pump operation as follows:

a. Verify XPP-0001 A, PUMP A, or XPP-0001C, PUMP C TRAIN A is l running.

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FEP 2.0 i REVISION 3

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b. Verify Component Cooling Pump A (C) discharge pressure is between 60 psig and 70 psig (18-412).

t 3.13 Ensure proper Seal injection operation as follows:

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a. Verify XPP-0043A, PUMP A, or XPP-0043C, PUMP C TRAIN A, is l running.

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b. Close MVT-8112, SEAL WTR RTN ISOL.  !

c. Verify AB upper has reported Seal Injection is lined up.

3.14 Maintain Pressurizer level between 25% and 50% as follows:

a. Throttle XVT08389-CS, SEAL INJECTION HEADER FLOW BYPASS l VALVE (AB-436 Filter gallery ).

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l b. Monitor level on Ll-459A, LEVEL %. '

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c. Monitor RWST level on ILl00990A-SF, RWST REMOTE LEVEL l INDICATOR (AB-388).

d. If additional charging flow is needed, perform either of the following:

1) Restore normal charging.

l 2) Open MVG 8801 A, HI HEAD TO COLD LEG INJ, from the Main l Control Board or FH-412.

l 3.15 Maintain RCS subcooling as determined by PI-403, RCS WR PRESS, and i TI-423, LOOP B TH greater than 30* F as follows:

a. Establish a very slow cooldown.

j NOTE 3.15.b l If Pressurizer heaters are not available, charging and letdown flows should be controlled to maintain stable RCS pressure.

b. Maintain Reactor Coolant System pressure between 2200 psig and 2300 psig by cycling the GRP I backup heaters as necessary,

c. Log temperature on Attachment Xll at least once per 30 minutes.

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. FEP-2.0 REVISION 3 NOTE 3.16 Step 3.16 should be completed within 120 minutes of implementation of this procedure.

3.16 Establish Reactor Building cooling as follows:

a. Open MVG-3108A, RBCU 64A INLET ISOL.

b. Open MVG-3108B, RBCU 65A INLET ISOL.

c. . Open MVG-3109A, RBCU 64A OUTLET ISOL.

d. Open MVG-31098, RBCU 65A OUTLET ISOL.

e. Verify the AB upper has reported Service Water is lined up for Reactor Building cooling.

f. Start XPP 0045A, PUMP A.

i g. Start XFN0064A-AH, RBCU 1 A SLOW.

h. Start XFN0065A AH, RBCU 2A SLOW.

NOTE 3.17 throuch 3.22 The following steps are not required for safe shutdown and may be impossible for some fire locations. The transition to FEP-2.1 may be made at any time. If manpower is available and the decision has been made to stay in hot standby, then the following steps should be performed.

3.17 Verify the TDEFW Pump is operable.

3.18 Establish Component Cooling flow as follows:

a. Close the following valves:

1) XVB09503A-CC, RH HEAT EXCHANGER A CC INLET VALVE (AB-436).

6 XVB09524B-CC, NON-ESS EQUIP SUPPLY HDP XCONN 2)

VALVE (AB-412).

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FEP-2.0 I REVISION 3 l

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( 3) XVB09525B-CC, NON ESS EQUIP SUPPLY HDR XCONN VALVE (AB-412).

4) XVB096878-CC, NON-ESS EQUIP CC RETURN HDR XCONN VLV (1B-412).

5) XVBG9526B-CC, NON-ESS EQUIP CC RETURN HDR XCONN VLV (1B 412).

b. Open the following valves:

1) I XVB09524A-CC, NON ESS EQUIP SUPPLY HDR XCONN VALVE l

(AB-412).  !

2) XVB09525A CC, NON-ESS EQUlP SUPPLY HDR XCONN VALVE (AB-412).

3) XVG09625-CC, RB CC INLET HEADER ISOLATION VALVE l

(AB-412). I i

4) XVG09626-CC, RB CC INLET HEADER ISOLATION VALVE l (AB-412).

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x 5) XVG09568-CC, EXCESS LTDN HX INLET CC HEADER ISOL VLV (AB-436 West Pen.). l

6) XVG09606-CC, RB CC RETURN HEADER VALVE (AB-436 West Pen.). l l

7) XVG09600-CC, RB CC SUPPLY HEADER ISOLATION VALVE (IB-436 E. Pen.).

8) XVB09526A-CC, NON ESS EQUIP CC RETURN HDR XCONN VLV (RB-436).

9) XVB09687A-CC, NON-ESS EQUIP CC RETURN HDR XCONN VLV (IB-436).

3.19 Ensure proper Chilled Water system operation as follows (HVAC Panel):

a. Verify XPP-48A, PUMP A, or XPP-48C, PUMP C TRAIN A, is running.

b.

Verify XHX-1 A, CHILLER 1 A, or XHX-1C, CHILLER C TRAIN A, is running.

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' FEP-2.0 t REVISION 3 O c. Verify IB operator has reported Chilled Water System is lined up.

3.20 if offsite power has been lost, perform the following:

NOTE 3.20.a Some breakers, like the Circulating Water Pump breakers, may have to be opened locally from their respective switchgear.

a. Open all 7.2 KV breakers on the following busses:

1) XSW1 A, BUS 1 A.

2) XSW1B, BUS 18.

3) XSW1C, BUS 1C.

b. Open all 480V feed breakers on the Main Control Board for XSW 1 A, XSW 1B, and XSW 1C.

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b

c. If offsite power is available, verify OCB 8902, MAIN XFMR FEED, is closed.

d. Close the following breakers:

1) BUS 1 A NORM FEED.

2) BUS 1B NORM FEED.

3) BUS 1C NORM FEED.

e. Energize selected busses and loads at the discretion of the Shift Supervisor.

3.21 If offsite power cannot be restored, implement FEP 2,1, Train A Shutdown From Hot Standby To Cold Shutdown Due To Fire.

3.22 Establish Instrument Air as follows:

a. Establish Turbine Building Closed Cycle Cooling or backup cooling to Instrument Air Compressor A per SOP 219.

b. Start XAC-0003A, INSTR AIR CMPR A.

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' FEP-2.0 REVISION 3 O c. Open the following valves:

1) PVA-2659, INST AIR TO RB AIR SERV.

2) PVT-2660, AIR SPLY TO RB.

d. If either of the following valves will not operate from the Main Control Board, install a jumper around the solenoid to open the valve:

1) XVA02659-IA, RB INSTRUMENT AIR BACK UP SlJP ISOL VLV (AB-436 W. Pen.).

2) XVT02660 IA, RB INSTRUMENT AIR SUPPLY ISOL VLV (ORC) (AB-436 W. Pen.).

3.23 Establish normal Letdown to control Pressurizer level as follows:

l Open ITV00144-CC, LETDOWN HX CC OUTLET CONTROL a.

VALVE, by isolating and venting Instrument Air to the valve (AB-412).

b. Open PVT-8152, LTDN LINE ISOL.

c. If PVT-8152 will not open from the Main Control Board, open it from the CREP or install jumpers around the solenoid to open (AB-412 West Pen.). l

d. Close XVG08408A-CS, LTDN HDR PRESS CONT VLV INLET ISOL VLV (AB-424).

e. Throttle open XVT08409-CS, LTDN HDR PRESS CONT VLV BYPASS VALVE, three turns (AB-424).

f. Open the following valves:

1) LCV-459, LTDN LINE ISOL.

2) LOV-460, LTDN LINE ISOL.

3) PVT-8149A, LTDN ORIFICE A ISOL.

g. If LCV-459, LCV-46L', or PVT 8149A will not open from the Main Control Board, open them from the CREP or install jumpers around the solenoid to open (RB-412).

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• FEP-2.0 i REVISION 3 I

h. Cycle PVT-8149A, LTDN ORIFICE A ISOL, as necessary to maintain lk Pressurizer level between 25% and 50%. ,

i. Isolate and vent air from the following valves:

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1) LCV00115A-CS, VOLUME CONTROL TANK LEVEL CONTROL (AB-436 Filter Gallery).

2) TCV00143-CS, DEMIN INLET TEMP DIVERSION VALVE (AB-436 Demin Valve Gallery).

3) XVT08541-CS, MODERATING HEAT EXCHANGER BYPASS VALVE (AB-436).

J. Have the Chemistry Department sample the Reactor Coolant System for boron concentration.

3.24 Proceed to FEP-2.1, Train A Shutdown From Hot Standby To Cold Shutdown Due to Fire.

4.0 FINAL CONDITIONS 4.1 Reactor conditions are as follows:

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a. All Rods are inserted. '

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b. The Reactor is suberitical.

c. Shutdown Margin is satisfactory.

4.2 Reactor Coolant System conditions are as follows:

a. Seal Injection is established,

b. Natural Circulation is established.

c. RCS subcooling is greater than 30* F.

4.3 Plant systems in service are as follows:

a. Diesel Generator A is supplying XSW1DA loads.

b. Train A CVCS is supplying Reactor Coolant Pump seals.

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, FEP 2.0 REVISION 3

( c.

Steam Dumps or one or more PORV's are supplying secondary heat removal.

d.

Train A Service Water System is running.

e.

Train A HVAC Chilled Water System is running.

f.

Train A Reactor Building Cooling System is in service.

g. Train A Emergency Feedwater is in service.

h. Train A Component Cooling System is in service.

4.4 Additional plant systems that may be in service are as follows:

a.

BOP electrical busses may be energized.

b. Instrument Air System may be in service.

c.

CVCS Letdown may be controlling Pressurizer level between 25%

and 50%.

d.

Pressurizer heaters are controlling Pressurizer pressure between 2200 psig and 2300 psig.

5.0 REVISION

SUMMARY

5.1 Incorporated changes A.

5.2 Updated format.

5.3 Corrected nomencicture.

l 5.4 Updated Attachment Xill to new values.

O PAGE 11 OF 11

FEP-2.0 ATTACHMENTI PAGE 1 OF 1 REVISION 3 i

DUTIES OF THE CONTROL ROOM SUPERVISOR l NOTE 1 throuch 4

Steps 1 and 2 are immediate Actions. Steps 3 and 4 must be completed l within 30 minutes.

l 1.

Verify proper response when the Reactor and the Turbine are tripped.

2.

Verify Pressurizer level and pressure are recovering as indicated on the following:

l a. PI-403, WR PRESS (RCS).

b. LI 459A, LEVEL % (PZR).

3.

Evaluate the plant page and radio systems for communication.

4.

After 15 to 20 minutes, verify that Source Range NI-318 indicates power decreasing or stable in the source range.

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' FEP-2.0 ATTACHMENT 11 PAGE 1 OF 2 l

REVISION 3 QJTIES OF THE NUCLEAR REACTOR OPERATOR AT THE CONTROLS L

N_OTE 1 throuah 5 Steps 1 through 5 are immediate Actions.

f 1.

Trip the Reactor manually from the Main Control Board and verify the fotlowing:

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a. Reactor Trip and Eypass Breakers are open,

b. All rod bottom lights are ht,

c. Reactor power levelis decreasing.

, 2. 11 the Reactor did not trip, direct the IB Operator to trip the Reactor l

locally.

3. Ensure the Turbine trips as follows:

a. Tuttine MAIN STOP VLVS are closed.

b. Generator trips after a 30 second delay.

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c. Trip the EXC FIELD BKR.

4. Trip all Reactor Coolmi Pumps.

5. Close the fohwing valves:

a. PVM 2801 A(B)(C), A(E.)(C) ISOL VLV (Main Steam).

b. PVM-2869A(B)(C), A(B)(C) BYP VLV (Main Steam Bypass),

c. PVG-503A(B)(C), A(B)(C) ISOL (Steam Generator Blowdown).

d. MVG 8000A(B)(C), RELIEF 445A(444B)(4458) ISOL.

e.

, PVT-8149(A)(B)(C). LTDN ORIFICE (A)(B)(C) ISOL.

f. LCV 459(460), LTDN LINE ISOL.

{b. .

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. FEP-2.0 l ATTACHMENT !!  !

, t PAGE 2 OF 2 REVISION 3 J

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g. PVT-8152, LTDN LINE 10OL. l l

h. PVT-8153 (8154), XS LTDN ISOL.

l i. MVG-8107, CHG LINE ISOL.

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! 6. Disable the Reactor Building Sp ray System as follows: I

a. Place XPP-0038A, PUMP A, in PULL TO LK NON A.

b. Place XPP-0038B, PUMP E , in PULL TO LK NON A.

c. Close MVG-3001 A, RWST TO SPRAY PUMP A SUCT.

d. Close MVG-3001B, RWST TO SPRAY PUMP B SUCT. I

7. Verify BUS 1B1-1DA1 TIE BKR is open within 30 minutes.

l 8. Reduce Reactor Coolant Pump seal leakoff within 90 minutes by l closing the following:

a. MVT-8112, SEAL WTR RTN ISOL.

b. XVT08100-CS, RC PUMP SE/ L RETURN HDR ISOL VLV l (ORC)(AB-412 Wes't Pen.).

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4 FEP 2.0 ATTACHMENT lli O PAGE 1 OF 3 REVISION 3 i

1 DUTIES OF THE A NUCLEAR REACTOR OPERATOR NOTE 1 and 2 Steps 1 and 2 are immediate Actions. All other steps must be completed within  !

30 minutes.

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l 1. Select PWR RLF and close the following valves: l i

a. PCV 2000, A SD/PWR RELIEF. I

b. PCV 2010, B SD/PWR RELIEF.

l c. PCV 2020, C SD/PWR RELIEF.

2. De-energize the following by opening their respective Disconnect Switches located inside the Main Control Board:

a. Sub Panel-19A (XCP-6112).

Switch Valve Number

1) DS-32 IPV-445A

2) DS-33 IPV-445B

b. Sub Panel 19B (XCP 6113).

Switch Valve Number

1) DS 31 IPV-444B

2) DS-13 XVT-8145

, 3. Establish Train A Component Cooling Water flow using CCW Pump A(C) by l starting XPP001 A, PUMP A, or XPP-0001C, PUMP C TRAIN A.

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4. Establish Train A Charging using Charging Pump A(C) as follows:

I a. Open LCV-1158, RWST TO CHG PP SUCT.

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4 FEP-2.0 ATTACHMENT lil g PAGE 2 OF 3  ;

REVISION 3  :

b. Open LCV-1150, RWST TO CHG PP SUCT.

c. Open MVT-8109A(C), CHG PP A(C) (Miniflow Isolation). l

d. Ensure MVG-8106, CHG PP (Miniflow Isolation), is open.

e. Open MVG 8130A, LP A SUCT TO CHG PP C.

f. Open MVG-8130B, LP A SUCT TO CHG PP O.

g. Start XPP-0043A, PUMP A, or XPP-0043C, PUMP C TRAIN A. l

h. Close LCV-115E, VCT OUTLET ISOL.

5. On the Integrated Fire Service panel, select POWER SELECT to BUS A.

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6. Remove power from Bus 1DB as follows:  ;

a. Verify that BUS 1DB DG FEED breaker is open.

b. Verify the IB Operator has reported Diesel Generator B is disabled.

c. Open BUS 1DB NORM FEED breaker.

d. Open BUS 1DB ALT FEED breaker.

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7. Establish power to Bus 1DA from Diesel Generator A as follows:

a. Start Diesel Generator A by depressing the EMERG START l pushbutton.

b. Verify normal voltage and frequency indications.

c. Verify BUS 1DA ALT FEED breaker is open.

d. Open BUS 1DA NORM FEED breaker.

e. Verify BUS 1DA DG FEED breaker is closed.

8. Ensure the following Train A loads start:

a. Charging Pump.

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4 FEP-2.0 i

ATTACHMENT 111 I .-

PAGE 3 OF 3 REVISION 3

b. RHR Pump.

3 c. Service Water Pump.

d. HVAC Chilled Water Pump.

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e. Component Cooling Pump.

g f.

Motor Driven Emergency Feedwater Pump.

g.

i RBCU 64A and 65A (slow).

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h. Fuel Handling Building Exhaust Fan.

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). Service Water Booster Pump.

j. HVAC Chiller.-

k.

i XFN 32A, SPLY FAN A (Control Room).

1. XFN 36A, RELAY RM CLG FAN A.

m.

XFN-38A/XFN-39A, SPLY & EXH FANS (Battery Charger Room).

i n.

XFN-50, ESF SWGR 1DA RM CLG FAN.

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o. XFN 80A, VENT FAN A.

!- p. XFN-106A, SPD SW/ EVAC CLG FAN A.

I.

q. XFN-81 A, SWBP CLG FAN A.

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r. XFN-132, AB MCC RM A.

9.

Ensure the following ventilation is aligned as specified (HVAC Board):

a.

XFN-46A, CHG PUMP A CLG FAN, is running.

b.

XFN 47, CHG PUMP C CLG FAN, is running if Charging Pump C is the Train A pump.

c.

XDP-113A, Relay Room Recirc Damper is open.

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. FEP-2 ATTACHMENT IV h PAGE 1 OF 2 REVISION 3 DUTIES OF THE INTERMEDIATE BLDG OPERATOR NOTE 1 Step 1 is an immediate Action.

1. If directed by the Nuclear Reactor Operator At The Controls, trip the Reactor locally at XSWOOO1-CR by opening the following (IB-463):

a. XSWOOO1-RTA, REACTOR TRIP BREAKER A.

b. XSWOOO1-RTB, REACTOR TRIP BREAKER B.

c. XSWOOO1-BYA, REACTOR TRIP BYPASS BREAKER A.

d. XSWOOO1-BYB, REACTOR TRIP BYPASS BREAKER B.

l q 2. Obtain plant keys, tool bag and flashlight from the 1B-436.

O 3. Disable the Diesel Generator B as follows within 30 minutes:

a. Verify XSW1DB 10, DIESEL GEN B XEG00018-DG, breaker is open (1B-436).

b. Open all three DC breakers RRP, RRT, and RRPA inside XSW1DB 10 (1B-436).

c. Place the LOCAUREMOTE/MAINT switch for Diesel Generator B in MAINT (DB-436).

d. Repcrt to the A Nuclear Reactor Operator that Diesel Generator B is disabled.

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FEP 2

ATTACHMENT IV PAGE 2 OF 2 REVISION 3

4. Ensure proper Service Water Pump House ventilation damper positions by isolating Instrument Air to the Service Water Pump House within 90 minutes as follows:

a. Close XVA12969-SA, SW PUMP HOUSE INST AIR HDR SUPPLY VALVE (SW-440).

i l b. Open XVT22923-SA, SW SA SUPPLY HEADER LOW POINT DRAIN l VLV (SW-440), to depressurize the header. .

l l S. Insure proper Chill Water System operation within 90 minutes as follows l (IB-412):

1

! a. Open XVB03126A SW, HVAC CHILLER CONDENSER A SW SUPPLY VLV.

b. Open XVB03128A-SW, HVAC CHILL COND C SW HDR A IN ISOL VLV, if Chiller C is running.

l c. Report to the Control Room that the Chilled Water System is lined l

up.

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. FEP-2.0 ATTACHMENT V j PAGE 10F 3 REVISION 3 DUTIES OF THE AUXILIARY BLDG OPERATOR (UPPER)

NOTE 1 Step 1 is an immediate Action.

1. Secure any radioactive liquid or gas releases by closing the following:

a. PVD-6910, LIQUID EFFLUENTS TO FAIRFIELD PENSTOCKS.

b. HCV 14, WASTE GAS DISCHARGE CONTROL VALVE.

2. Obtain plant keys, tool bag, flashlight and a copy of ATTACHMENT XI of this procedure from the AB-412.

3. Align the 1 A-1 B Battery Charger per Attachment XI within 30 minutes (IB-412).

y 4. Verify the Control Room has disabled the Reactor Building Spray Pumps, then

( close the following valves within 30 minutes (AB 397)

a. XVG03001 A-SP, RB SPRAY PP A RWST SUCTION HDR VALVE.

b. XVG030018-SP, RB SPRAY PP B RWST SUCTION HDR VALVE.  ;

j 5. Close the following valves within 90 minutes (AB-397):

a. XVG08812A-SI, RH PUMP A SUCTION . HEADER VALVE.

l b. XVG088128-SI, RH PUMP B SUCTION HEADER VALVE.

6. Align seal injection within 90 minutes as follows:

I

a. Open XVT08109A-CS, CHARGING /SI PUMP A MINI FLOW ISOL VALVE (AB-388),

b. Open XVT08109C-CS, CHARGING /SI PUMP C MINI FLOW ISOL VALVE (AB-388).

c. Open LCV001158-CS, CHG PUMP A SUCTION HDR RWST ISOL l

VALVE (AB-400).

! A lV

\. . _ . . - - . . - .- -

FEP 2.0 ATTACHMENT V PAGE 2 OF 3 REVISION 3

d. Open XVG08130A CS, CHG PUMPS A TO C SUCT XCONN VALVE (AB-400).

e. Open XVG081308 CS, CHG PUMPS A TO C SUCT XCONN VALVE (AB-400).

f. Open XVG08132A-CS, CHG PUMPS A TO C DISCH XCONN VALVE (AB-400).

g. Open XVG08132B-CS, CHG PUMPS'A TO C DISCH XCONN VALVE (AB-400).

h. Open XVG081338-CS, CHG PUMPS B TO C DISCH XCONN VALVE (AB-400).

i. Open XVG08133A-CS, CHG PUMPS B TO C DISCH XCONN VALVE (AB-400).

J. Open XVG08106-CS, CHARGING PUMPS MINI FLOW HDR ISOL VALVE (AB-424).

k. Close LCV00115E CS, VOLUME CONTROL TANK OUTLET HDR ISOL VLV (AB-424).

l. Close XVG08706A RH, CHG/SI PUMP SUCT HDR RH HDR A INLET VLV (AB-412, A RHR HX ROOM).

m. Open XVT08102A-CS, RC PUMP A SEAL SUPPLY ISOL VALVE (ORC)

(AB-412 W. Pen.).

n. Close XVG08107-CS, CHARGING PUMPS DISCHARGE HDR ISOL VALVE (AB-412 West Pen.).

o. Close XVG08801 A SI, HI HEAD INJ VALVE (FH 412).

p. Close XVG08801B-SI, Hi HEAD INJ VALVE (FH-412).

q. Open XVT08102B-CS, RC PUMP B SEAL SUPPLY ISOL VALVE (ORC)

(1B-412 E. Pen.).

r. Open XVT08102C-CS, RC PUMP C SEAL SUPPLY ISOL VALVE (ORC) (IB-412 E. Pen.).

O

_ _ ._- _ _ . _ . ~ . _ . _ _ _ _ _ _ _ . . _ _ - . . _ _ . . _ _ _ . . _ . _ . _ . . _ . _ _ _ _ _ _ _ _ _ . _ _ .

. FEP-2.0 ATTACHMENT V

> / PAGE 3 OF 3 REVISION 3

s. Open XVT08389-CS, SEAL INJECTION HEADER FLOW BYPASS VALVE (AB-436, Filter Gallery)

t. Close XVT08105-CS, SEAL INJECTION HEADER ISOLATION VALVE (AB-436).

u. Report to the Control Room that seal injection is lined up. ,

7. Align Service Water for Reactor Building Cooling within 120 minutes as follows:

a. Open XVB03106A-SW, SW BOOSTER PUMP A DISCHARGE VALVE ,l

, (AB 463). - '

b. Open XVG03107A SW, SW POND RBCU 1 A&2A RETURN ISOLATION VLV (AB-463).

c. Open XVG03103A-SW, RBCU 1 A&2A RETURN HEADER ISOLATION l VLV (AB-463).

m d. Verify IPl04520, SW BOOSTER PUMP A SUCTION PRESSURE IND l (18-412), indicates greater than 20 psig. )

e. Notify the Control Room that Service Water is lined up for Reactor Building cooling.

l 1

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< l 3.- __ , _

l FEP-2.0 ATTACHMENT VI l PAGE 1 OF 11 REVISION 3 DUTIES OF ELECTRICAL MAINTENANCE PERSONNEL '

NOTE 1 throuoh 4 Steps 1 through 4 must be completed within 30 minutes.

1.

Report to the Control Room and obtain radio, tool bag and keys.

2.

Align XET-4006, Security System transfer switch (CCW Speed Switch B Room (IB-436) to Train A as follows:

a.

Locate the terminal board above the components mounted on the l cabinet door,

b. On terminal 3 - cut the top black wire.

c. On terminal 4 - cut the top black wire. i i

m d. On terminal 11 - cut the top black wire.

e.

Ensure the letter N is showing on the switch position indicator located on the back wall of the cabinet.

f.

! If the letter E is showing, momentarily jumper from terminal 3 to terminal 4 and verify the indicator shifts to N.

3.

Verify that Operations has completed sequencing loads onto Diesel Generator A.

NOTE 4 AND 5 a.

Maintenance personnel should stand by at the areas directed by Steps 4 and 5 but should not perform the steps until the loads are sequenced on to Diesel Generator A.

b.

Individuals may mark each cubicle in whatever manner chosen to keep track of breakers opened.

4-Open the following indicated (non-shaded) breakers on XMC1DA2X(IB-463):

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t O O O~ ~! i FEP-2.0 ATTACHMENT V! l PAGE 2 OF 11 REVISION 3 4

MCC-XMC1DA2X 463' IB XMC1DA2X 03AD XMC1DA2X 04AD MOTOR OPER GATE COMP COOLING .

ISOL RC PUMP AT NON ESSENTIAL REAC BLDG ISO LOOP A XVG9600-CC XVB9526A-CC XMC1DA2X 03EH XMC1DA2X 04EH I XMC1DA2X 01DE COMP COOLING VLV ISOL EMERGENCY CONTROLLED ACCESS NON ESSENTIAL SUCTION A COOLING SUPPLY FAN ISO LOOP B XVG1001 A-EF MOTOR XVB96878-CC XFN0026-AH XMC1DA2X 01FH CONTROLLED ACCESS EXH FAN A XFN0028A-AH XMC1DA2X 031M COMP COOLING VLV ISOL EMERGENCY RETURN FROM RB TURBINE PUMP IRC XVG1008-ES i XVG9605-CC

. _ _ _ ._. . . _ _ .- .-. . ._ _ ~ _ _ . _ _ _ . _ - - _ . __. _ _ _ . . . . _ _ . . _

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FEP-2.0 i ATTACHMENT VI ,

PAGE 3 OF 11 ,

REVISION 3

• MCC-XMC1DA2X 463' IB XMC1DA2X 05AD XMC1DA2X 06AD XMC1DA2X 07AE XMC1DA2X 08AE SW INLET TO CRDM COOLING REAC HEAD VENT ACCUMULATOR A HVAC CHILLER A WATER INLET VV TO PRZR RELIEF TANK ISO VALVE XVB3126A-SW VALVE XVT8096A-RC XVG8808A-Si XVG7501-AC I

XMC1DA2X 05EH XMC1DA2X 06EH XMC1DA2X 07FJ XMC1DA2X 08FJ l EF PUMP MAIN  !

RB SPRAY HDR RHR LOOP 1 STEAM BLOCK VLV ACCUMULATOR C  :

ISO VALVE ORC INLET ISO VALVE ISO VALVE XVG2802A-MS CIRCUIT A IRC XVG8808C-Si XVG3003A-SP XVG8701A-RH i XMC1DA2X 051M XMC1DA2X 061M ,

REACTOR HEAD VENT VLV PRESSURIZER PRESSURE TO PRZR RELIEF TANK i RELIEF ISO VALVE XVT8095A-RC XVG8000B-RC l

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O O O~ 't FEP-2.0 l ATTACHMENT VI PAGE 4 0F 11 REVISION 3 MCC-XMC1DA2X 463' IB XMC1DA2X 103D_ XMC1DA2X 11 AD XMCIDA2X 12AD FEEDWATER PUMP B A TRAIN VALVE SERV WTR DISCH VALVE SERV WTR INLET TO LOOP A ISOLATION XVK1606B-FW HVAC CHILLER C XVG1037A-EF XVB3128A-SW I

j XMC1DA2X 12EH HIGH HEAD TO COLD LEG INJECT HDR ISO VALVE i XVG8885-Si XMC1DA2X 10GH XMC1DA2X 11GH

' COMPUTER RM

' - CONTROLLED ACCESS LAB SUPPLY FAN A UNIT 1 HOOD EXH FAN A XFN0041A-AH XFN0087A-AH XMC1DA2X 10lK XMCIDA2X 111M XMCIDA2X 12 IM RECEPTACLE XFMR 5 CRDM SER WTR TO RB XTF9005A-EM COOLING WATER LOOP A ORC OUTLET XVB3106A-SW

., XVG7503-AC I

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! FEP-2.0 ATTACHMENT VI '

PAGE 5 0F 11 REVISION 3 i

MCC-XMC1 DA2X 463' IB XMC1DA2X 13AD XMC1DA2X 14AD XMC1DA2X 15AD INDUST COOLING WTR RB SERViOE WTR FEEDWATER PUMP C TO RB SW SYS OUTLET A ORC DISCHG VALVE ORC XVG3103A-SW XVK1606C-FW XVB3110A-SW XMC1DA2X 13EH XMC1DA2X 14EH XMC1DA2X 15EH XMC1DA2X 16EH j RB SERVICE WTR RB SER WTR LOOP A CHEMICAL FD ISOL VALVE FEEDWATER PUMP A OUTLET A ISO VLV RETURN TO SW POND XVK1633C-FW DISCHG VALVE XVG3111 A-SW XVG3107A-SW XVK1606A-FW XMC1DA2X 13IJ CONTROL ACCESS LAB HOOD SUPPLY FAN XFN0055-AH I

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. FEP-2.0 ATTACHMENT VI PAGE 6 OF 11 REVISION 3 i

5. ' Open the following indicated (non-shaded) breakers on XMC1DA2Y (AB-412):

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{

4 5

4

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i FEP-2.0 i ATTACHMENT VI 1 PAGE 7 0F 11 REVISION 3 MCC-XMC1 DA2Y 412' AB i XMC1DA2Y O2AD XMC1DA2Y O3AD XMCIDA2Y O4ABL XMC1DA2Y OSAD j RWST TO CHARGING PP CHG PUMP SUCTION POST ACCIDENT VALVE ISOLATION i VLV HDRISO ANALYZER RHR HY A LCV-115B XVG8130A-CS SYSTEM XVB9503A-CC XVG0115B-CS XPN7251A-HR XMC1DA2Y 01DG XMC1DA2Y 02EH XMC1DA2Y 03EH XMCIDA2Y 04EH XMC1DA2Y 05EH CHARGING PUMP VCT TO CHG PUMP SUCTION CHG PUMP DISCHG CC NON-ESSEN HDR MINIFLOW VALVE CHARGING PUMP ISOL HDR ISO HDR ISO X-CONN VLV XVG8106-CS VALVE XVG8131 A-CS XVG8132A-CS XVB9524A-CC LCV-115C XVG0115C-CS XMC1DA2Y 01HK XMC1DA2Y 04IL XMCIDA2Y OSIL l

RCS CHARGING CHG PUMP DISCHG CC NON-ESSEN HDR i LINE VLV HDR ISO X-CONN VLV XVG8107-CS XVG8133A-CS XVB9525B-CC i

I O O Ol I FEP-2.0 ATTACHMENT VI l PAGE 8 0F 11 REVISION 3 MCC-XMC1DA2Y 412'AB XMC1DA2Y 10AD LOW HEAD INJECTION TO HOT LEG RECIRC LINE XVG8887A-SI i XMC1DA2Y XMCIDA2Y XMCIDA2Y 08EH XMC1DA2Y 09EH 06EH 07EH RWST CONTAINMENT SUMP COMP HI HEAD TO TO RHR PUMP A ISO VALVE ORC COOLING WTR COLD LEG ISO XVG8812A-SI TO REACTOR INJECTION XVG8809A-Si BLDG XVG8801 A-SI XVG9568-CC  !

XMC1DA2Y XMCIDA2Y 071J XMCIDA2Y 091M XMC1DA2Y 10JK 061L POWER RECIRC SUMP TO XTF5032 RB CC INLET LOCKOUT FOR RHR PUMP A HDR XVG-8133A-CS ISO VALVE ISOL VLV XVG8811 A-SI XVG9625-CC

O O O~

FEP-2.0 i

ATTACHMENT VI j PAGE 9 0F 11 MCC-XMC1DA2Y 412' AB XMC1DA2Y11 ABL l XMCIDA2Y11 ABR XMC1DA2Y 12AD XMC 1DA2Y 13AC XMCIDA2Y 14ABL l

i MU WTR STOR TK i RWST HEAT HIGH HEAD TO HOT POWER LOCKOUT HEAT TRACE l TRACE CONTR LEG FOR EQUIPPED PNL A PNLA INJECT HDR ISO VLV XVG8889-84-88A-Si SPACE XPN2007-ET ll XPN2005-ET XVG8884-SI XVG 8106-CS XMC1DA2Y 11CD XMCIDA2Y 14CG XMC1DA2Y 15CG RAD MON MAIN VLV REACTOR VLV REAC BLDG PLANT VENT EXH BLDG RECIRC REClRC IRMA0003-RM UNIT B ISOLATION UNIT B ISOL XVB31098-SW XVG3108B-SW XMC1DA2Y 11EF RAD MON RB PURGE EXH PUMP IRMA0004-RM

/

XMC1DA2Y 15HL VLV REAC BLDG RECIRC UNIT A ISOL XVG3109A-SW

XMC1DA2Y 12KL SPACE HEATERS FOR 1DA2Y l

O O Oi FEP-2.0 ATTACHMENT VI PAGE 10 0F 11 REVISION 3 MCC-XMC1DA2Y 412' AB XMC1DA2Y 16AD XMC1DA2Y 17AD XMC1DA2Y 18AD VLV RB SUMP RWST TO RB RHR PUMP A ISOLATION SPRAY PUMP A MINIFLOW XVG3005A-SP SUCTION FCV-602A XVG3001 A-SP XVT0602A-RH XMC1DA2Y 16EH XMC1DA2Y 17EH XMC1DA2Y 18EH VALVE BLDG SERVICE OUTLET NAOH TD TO RB RHRS TO CHARGING B ISOLATION SPR PP A PUMP VALVE l

XVG31128-SW SUCT XVG8706A-RH XVG3002A-SP XMCIDA2Y 19HK VLV CHEMICAL FEED ISOL XVK1633A-FW XMC1DA2Y 161M XMC1DA2Y 171M XMC1DA2Y 181M RHR LOOP 3 VLV REAC BLDG RECIRC CNTMT BLDG UNIT A ISOL SUMP ISO VLV IRC INLET ISO VALVE XVG3108A-SW XVG03004A-SP XVG87018-RH XMCIDA2Y 19LML SODIUM HYD SPRAY j HEAT TRACE CONTROL PNL A XPN2009-RT l

_ . . - _ _ . . _ _ . - . _ _ . _ . . _ _ _ . . . - . ~ . _ _ _ . - - - -

.r

. FEP-2.0 ATTACHMENT VI PAGE 110F 11 i REVISION 3 l

l 6. Contact the Control Room when Step 5 is completed. l i

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I

i , FEP 2.0 l ATTACHMENT Vll l

PAGE 1 OF 2 REVISION 3 480V BREAKER OPERATION l 1. Local opening of breakers is accomplished as follows:

1

a. For electrically operated types, disable the breaker closing ability by positioning the charging power switch on the breaker front to l OFF.

b. Depress the TRIP pushbutton (left pushbutton where two exist).

l c. Verify the breaker trips and remains open.

2. Local closing of manual type breakers (large closing handle) is accomplished as follcws:

j a. Pull down the closing handle.

l b. Verify the breaker closes and remains closed.

c. Investigate the cause if the breaker does not remain closed.

3. Local closing of electrically operated type breakers is accomplished as follows:

a. Open the panel directly behind the breaker cn back of the switchgear.

l

b. Open both the CLOSE CP BRKR and the TRIP CP BRKR for the l breaker to be operated.

l

c. Veiify the breaker closing springs are charged.

d. If the breaker closing springs are discharged, perform step 1 or 2 l for the appropriate size breaker:

1) For 2000 or 3000 amp frame sizes, charge the springs as follows:

a) Insert a manual spring charging handle into the slot in the breaker front.

b) Pump the handle until the breaker indicates charged.

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l FEP 2.0 ATTACHMENT Vll O PAGE 2 OF 2 REVISION 3 -

2) For 600 and 1600 amp frame sizes, charge the springs as follows:

1 a) Open the door on the breaker cubicle.

l b) Engage a manual charging handle into the slots of the l pawl carrier.

l l

NOTE 3.d.2).c) i The pawl carrier is located on the breaker, on centerline, between the silver l l colored charging motor on the right and the black auxiliary switch assembly on l

the left. Occasionally, the charging motor will coast to a stop in such a position that the driving pawl does not engage the next tooth on the ratchet wheel.

When the driving pawl is not engaged on the ratchet wheel, a screwdriver blade may be inserted along the right side of the pawl carrier against the roller on the l charging motor output eccentric and the roller may be pushed to manually rotate  !

it. Afterwards, the charging handle should be inserted.

l c) Operate the handle until the breaker indicates charged.

e. Lift (or pull) the manual CLOSE lever.

f. Verify the breaker closes and remains closed.

l

• FEP-2.0 ATTACHMENT Vill

( PAGE 10F 2 REVISION 3 7.2 KV BREAKER OPERATION

1. Perform local opening of breakers as follows:

a. Open the door to the appropriate switchgear cubicle.

b. Open we Closing Power breaker RRP (located on the right hand side of the cubicle).

c. Depress the MANUAL TRIP lever on the breaker.

d. Verify the breaker trips and remains open.

2. Perform local closing of breakers as follows:

CAUTION 2.a if any relay flags are tripped, closing of breaker with no protection could be a personnel hazard.

a. Verify no relays have tripped on the associated breaker.

b. Open the door to the appropriate switchgear cubicle.

c. Verify the closing springs are charged.

d. If the closing springs are not charged, perform the following:

1) Open the Closing Power breaker RRP (located on the right hand side of the cubicle).

2) Use a ratchet and 5/8" socket to turn the charging motor until the breaker indicates charged.

e. Depress the MANUAL CLOSE pushbutton on the breaker,

f. Verify the breaker closes and remains closed.

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, FEP-2.0 ATTACHMENT Vill O PAGE 2 OF 2 REVISION 3

g. If the breaker does not close, pu'orm the following:

4

1) Disconnect and tape all leads at terminals 361,363 and 364 on terminal board C.

l

2) Charge the springs per step 2.d above.

3) Ensure the Trip Pow 6r breaker RRT (located on the right hand side of the cubicle)is closed.

4) Depress the MANUAL CLOSE pushbutton on the breaker.

5) Verify the breaker closes and remains closed.

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, FEP-2.0 ATTACHMENT IX O

D PAGE 1 OF 1 REVISION 3 1

OPERATION OF EQUIPMENT FROM 480 VOLT MOTOR CONTROL CENTERS l

NOTE IX This attachment is developed to operate pump motors or any continually operating piece of equipment, not motor operated valves.

1

1. Locate the appropriate cubicle in the Motor Control Center.

2. Position the breaker to OFF (RESET).

3. Open the cubicle door.

4. Remove the fuse from the cubicle.

CAUTION 5 pd

a. The line side terminals of the breaksr will be energized and should not be shorted or grounded.

b. This installation bypasses all equipment protection interlocks except breaker overcurrent protection.

5. Disconnect the existing feed (Wire No. 3) from the contactor coil. l

6. Connect one end of a jumper to the hot side of the fuse holder l (Wire No. X1).

7. Connect the free end of the jumper to the contactor coil where the feed wire (Wire No. 3) was removed.

8. Close the cubicle door.

9. Use the breaker ON-OFF handle to operate the equipment.

l

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, FEP-2.0 ATTACHMENT X O PAGE 1 OF 2 REVISION 3 REMOTE OPERATION OF VALVES FROM 480V MOTOR CONTROL CENTERS NOTE 1 i

' MVG-8106 and 8133A are Power Lockout valves. Power Lockout valves require both Power Lockout and Valve Motor utarter relays to be actuated simultaneously for remote operation. MVG-8106 starter relays are located in XMC1DA2Y 01DG and XMC1DA2Y 13AC. MVG-8133A starter relays are located in XMC1DA2Y 041L and XMC1DA2Y 071J.

1. Locate the Motor Control Center Cubicle (s) for the valve to be operated.

2. Position the breaker (s) to OFF(RESET).

3. Open the cubicle door (s).

4. Remove the control power fuse for motor starter with fuse pullers.

O 5. Locate the two motor starter relays in the appropriate cubicle.

6. Place a clamp-on ammeter around one of the following:

a. The heavy wires connected between the top of the motor starter relays and the circuit breaker.

b. One field motor lead.

7. Perform Step 7.a for digital ammeters or Step 7.b for analog ammeters as follows:

a. When using digital ammeters, perform the following:

1) Ensure switch on face of meter is in C position.

2) Depress and hold the red pushbutton on the meter side.

3) Verify the display lights up.

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l l-*

i FEP-2.0 ATTACHMENT X PAGE 2 OF 2 REVISION 3

b. When using analog ammeters, perform the following: l

1) Ensure meter pointer is unlocked (switch to left).

2) Set Meter Scale to 0-6A.

8. Close the circuit breaker (s).

9. If applicable, actuate the Power Lockout relay contactor and hold.

NOTE 10

a. Starting current for large valves may cause the ammeter to indicate full scale. Current should stabilize on scale within one to two seconds at the nominal value of running current listed for the valve on Attachment XIll,

b. While motor is running, meter will read low.

i c. When valve is at the end of its travel, the motor stalls at about five times its running current.

10. Actuate the desired motor starter relay contactor (left contactor to close the i valve or right contactor to open the valve) by depressing through the left slot with a screwdriver blade.

11. Observe current on the ammeter for the following:

a. If current remains high, release contactor; valve is in the required position already,

b. If low, release contactor when current begins to rise sharply.

12. If applicable, release the Power Lockout relay contactor.

13. Re-open the circuit breaker (s).

14. Remove the ammeter and close the cubicle door (s).

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, , FEP-2.0 l ATTACHMENT XI l O PAGE 1 OF 2 REVISION 3 CROSS TRAIN CONNECTION OF BATTERY CHARGER XBC1 A-1B (ALIGNING AC FROM TRAIN A AND DC TO TRAIN B) l CAUTION It is of primary importance to keep a battery charger supplying DPN-1 HA.

If XBC1 A is not operable, leave XBC1 A-1B on DPN-1HA and warn the Cor. trol Room that they will have to use local manual control of the Steamline Power Reliefs and the Emergency Feedwater Flow Control Valves when the Train B battery is exhausted.

1. Verify that XBC1 A-1B, SWING BATTERY CHARGER, is not supplying DPN-1HA (TRAIN A-DC breaker is OFF).

2. Open both TRAIN A-AC and TRAIN B-AC breakers and both TRAIN A-DC and TRAIN B-DC breakers on XET-4003,

3. Insert the spare interlock key into the TRAIN A AC or TRAIN B-DC interlock key slot on XET-4003 and bypass the interlock.

4. Close the TRAIN A-AC breaker on XET-4003.

5. Close the TRAIN B-DC breaker on XET-4003.

6. Open DPN-1HA ED 13, BATTERY CHARGER 1 A 1B FEED TO DPN1HA.

7. Close the following on XBC1 A-1B Battery Charger:

l a. DC OUTPUT.

l l b. AC INPUT.

l l 8. Verify DC OUTPUT VOLTMETER stabilizes between 129 and 140 volts.

O l . - -

, FEP-2.0 ATTACHMENT XI ff x

PAGE 2 OF 2 REVISION 3 NOTE 9 Allow five to ten seconds for the capacitors to fully charge and the battery j charger to stabilize.

9. Verify the capacitors are fully charged by observing that the red indicator lights on XPN5294-ED, BATT CHARGER CAP BOX, are illuminated.

NOTE 10 If XBA1B has been on a constant discharge, the battery charger voltage may drop below 129 vo'ts with a high charging rate of a nomin al 360 amps, but voltage will return to between 129 and 140 volts as the be ttery recharges.

10. Close DPN-1HB-ED 13, BATTERY CHARGER 1 A-1B FEED TO DPN1HB.

11. Notify the Control Room that XBC1 A-1B is cross connectett.

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FEP-2.0 ATTACHMENT Xil PAGE 1 OF 1 REVISION 3 COOLDOWN DATA SHEET TIME COOLDOWN LOOP B LOOP B AT TH+TC STEAMLINE POWER RCS RATE TH TC 2 RELIEFS SUBCOOLING t TI-423A TI-420A  % OPEN A B C t i

r F

T i

NOTE: Data should be logged every 30 minutes while cooling down and once per hour while maintaining stable plant conditions.

o FEP-2.0 ATTACHMENT Xill PAGE 10F 1 REVISION 3 NOMINAL RUNNING CURRENT FOR MOTOR OPERATED VALVES VALVE RUNNING CURRENT VALVE RUNNING CURRENT NUMBER (AMPS) NUMBER (AMPS)

XVB09503A CC 0.75 XVG08000A-RC 3.5 XVB09503B-CC 0.75 XVG08000B-RC 3.5 XVB09524A-CC 0.75 XVG08000C-RC 3.5 XVB09524B-CC 0.75 XVG08701 A-RH 5.8 XVB09525A-CC 0.75 XVG08701 B-RH 5.8 XVB09525B-CC 0.75 XVG08702A RH 5.8 XVB09526A-CC 0.75 XVG08702B-RH 5.8 XVB09526B-CC 0.75 XVG08706A-RH 3.5 XVG09568 CC 0.95 XVG08706B-RH 3.5 XVG09600-CC 1.0 XVG08801A-Si 3.5

+

XVG09606-CC 0.95 XVG08801 B-SI 3.5 XVG09625-CC 0.95 XVG08812A-SI 13.8*

XVG09626-CC 0.95 XVG08812B SI 13.8*

O XVG08106-CS XVG08107-CS XVG08108-CS 3.5 3.5 3.5 XVG03001 A-SP XVG030018-SP 2.4 2.4 XVB03106A-SW 0.75 XVG08131 A-CS 2.4 XVB031068-SW 0.75 XVG08131B-CS 2.4 XVG03103A SW 4.0 XVG08132A CS 3.5 XVG03103B-SW 4.0 XVG08132B-CS 3.5 XVG03107A-SW 4.0 XVG08133A-CS 3.5 XVG031078-SW 4.0 XVG081338-CS 3.5 XVG03108A-SW 2.3 XVT08100-CS 2.3 XVG03108B-SW 2.3 XVT08102A-CS 2.3 XVG03108C-SW 2.3 XVT08102B-CS 2.3 XVG03108D SW 2.3 XVT08102C-CS 2.3 XVG03109A-SW 2.3 XVT08109A-CS 2.3 XVG031098-SW 2.3 XVT081098-CS 2.3 XVG03109C-SW 2.3 XVT08109C-CS 2.3 XVG03109D-SW 2.3

• Will require setting ammeter to higher scale.

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