Rev 11 to EOP ECA-3.2, SGTR W/Loss of Reactor Coolant - Saturated Recovery Desired

ML17263A281
Person / Time
Site:	Ginna
Issue date:	04/21/1993
From:	Marlow T ROCHESTER GAS & ELECTRIC CORP.
To:
Shared Package
ML17263A278	List: ML17263A277 ML17263A279 ML17263A280 ML17263A281 ML17263A282 ML17309A518 ML20044C921
References
ECA-3.2, NUDOCS 9305140070
Download: ML17263A281 (59)
v • d • e

Text

EOP:

ECA-3.2 TlTLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 1 of 25 ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION CONTROLLED COPY NUMBER TECHNICAL REVIEW PORC REVIEW DATE k3 P

NT SUPE INTENDE T EFFECTIVE DATE CATEGORY 1.0 REVIEWED BY:

9305 i40070,930505 PDR ADOCK'05000244 I

F PDR

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY'DESIRED REV: ll PAGE 2 of 25 A.

PURPOSE This procedure provides actions to cool down and depressurize the RCS to cold shutdown conditions while minimizing loss of RCS inventory and voiding in the RCS.

B.

ENTRY CONDITIONS/SYMPTOMS 1.

ENTRY CONDITIONS This procedure is entered from:

a.

ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT-SUBCOOLED RECOVERY DESIRED, when RWST level is low without a corresponding increase in containment sump level.

b ~

ECA 3 ~ 1 g SGTR WITH LOSS OF REACTOR COOLANT SUBCOOLED RECOVERY DESIRED, when the ruptured S/G level is high and plant staff selects saturated recovery method.

EOP:

ECA-3.2 7 I 1'LE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 3 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION IF RWST LEVEL DECREASES TO LESS THAN 28%,

THEN THE SI SYSTEM SHOULD BE ALIGNED FOR COLD LEG RECIRCULATION USING ES-1.3, TRANSFER TO COLD LEG RECIRCULATION.

NOTE:

o Steps 1 through 15 of ECA-3.1, SGTR WITH LOSS OF REACTOR COOMT-SUBCOOLED RECOVERY DESIRED, should be performed before continuing with this procedure.

o FOLDOUT page should be open and monitored periodically.

o Adverse CNMT values should be used whenever CNMT pressure is greater than 4 psig or CNMT radiation is greater than 10+

R/hr.

1 Add Makeup To RWST As Necessary:

o Refer to S-9J, BLENDING TO RWST

-OR-o Refer to S-3.2D, TRANSFERRING WATER FROM CVCS HUT(S)

TO RWST TO SFP

-OR-o Refer to Attachment SFP-RWST

EOP:

ECA-3.2 T!TLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 4 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION o

IF OFFSITE POWER IS LOST AFTER SI RESET, THEN SELECTED SW PUMPS AND ONE CCW PUMP WILL AUTO START ON EMERGENCY D/G.

MANUAL ACTION WILL BE REQUIRED TO RESTART SAFEGUARDS EQUIPMENT.

o RCS PRESSURE SHOULD BE MONITORED.

IF RCS PRESSURE DECREASES TO LESS THAN 250 PSIG

[465 PSIG ADVERSE CNMT), THEN THE RHR PUMPS MUST BE MANUALLY RESTARTED TO SUPPLY WATER TO THE RCS.

2 Check If RHR Pumps Should Be Stopped:

a.

Check RCS pressure:

1) Pressure GREATER THAN 250 psig

{465 psig adverse CNMT]

2)

RCS pressure STABLE OR INCREASING a.

Go to Step 3.

b. Stop RHR pumps and place in AUTO

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 5 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION IF ANY RUPTURED S/G IS FAULTED, FEED FLOW TO THAT S/G SHOULD REMAIN ISOLATED DURING SUBSEQUENT RECOVERY ACTIONS UNLESS NEEDED FOR RCS COOLDOWN.

• 3 Monitor Ruptured S/G Level:

a. Narrow range level GREATER THAN 5%

(25% adverse CNMT]

a. IF ruptured S/G NOT faulted, THEN perfo'rm the following:

1) Maintain feed flow to ruptured S/G until level greater than 5%

(25% adverse CNMT].

b. Close MDAFW pump discharge valve to ruptured S/G

~ S/G A, MOV-4007

~ S/G B, MOV-4008

c. Pull stop MDAFW pump for ruptured S/G

d. Close TDAFW pump flow control valve to ruptured S/G

~ S/G A, AOV-4297

~ S/G B, AOV-4298

2) Continue with Step 4.

WHEN ruptured S/G level greater than 5%

[25% adverse CNMT],

THEN do Steps 3b through e.

b. Dispatch AO to locally close valve.

d. Dispatch AO with locked valve key to locally close TDAFW pump manual feedwater isolation valve to ruptured S/G.

~ S/G A, V-4005

~ S/G B, V-4006

e. Verify MDAFW pump crosstie valves CLOSED

e. Manually close valves' MOV-4000A

~ MOV-4000B

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 6 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 4

Check If S/G Secondary Side Is Intact:

o Pressure in both S/Gs STABLE OR INCREASING IF any S/G pressure decreasing in an uncontrolled manner OR completely depressurized, THEN verify faulted S/G isolated unless needed for RCS cooldown:

o Pressure in both S/Gs GREATER THAN 100 PSIG

~ Steamlines Feedlines IF NOT, THEN go to E-2, FAULTED STEAM GENERATOR ISOLATION, Step l.

CAUTION IF CST LEVEL DECREASES TO LESS THAN 5 FEET, THEN ALTERNATE WATER SOURCES FOR AFW PUMPS WILL BE NECESSARY (REFER TO ER-AFW.1, ALTERNATE WATER SUPPLY TO AFW PUMPS).

NOTE:

TDAFW pump flow control valves fail open on loss of IA.

• 5 Monitor Intact S/G Level:

a. Narrow range level -

GREATER THAN 58

[258 adverse CNMT]

b. Control feed flow to maintain narrow range level between 178

[258 adverse CNMT] and 508

a. Maintain total feed flow greater than 200 gpm until narrow range level greater than 58

[258 adverse CNMT] in at least one S/G.

b. IF narrow range level in the intact S/G continues to increase in an uncontrolled manner, THEN consider isolating unnecessary release paths:

~ TDAFW pump steam supply valves

~ S/G blowdown valves

~ Refer to Attachment RUPTURED S/G

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 7 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

Shutdown margin should be monitored during RCS cooldown.

Refer to Figure SDM.

6 Initiate RCS Cooldown To Cold Shutdown:

a. Establish and maintain cooldown rate in RCS cold legs

- LESS THAN 100'F/HR b.

Use RHR system if in service c.

Dump steam to condenser from intact S/G

c. Manually or locally dump steam using intact S/G ARV.

IF no intact S/G available, THEN perform the following:

o Use'faulted S/G.

-OR-o IF RHR system NOT in service, THEN use ruptured S/G

~

7 Check RCS Subcooling Based On Go to Step 19.

Core Exit T/Cs GREATER THAN O'F USING FIGURE MIN SUBCOOLING 8

Check Safeguards Pump Status o

SI pumps

- ANY RUNNING

-OR-Go to Step 15.

o RHR pumps

- ANY RUNNING IN INJECTION MODE

EOP:

ECA-3.2 T!TLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 8 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 9 Place PRZR Heater Switches In The Following Positions:

o PRZR heater control group

- PULL STOP o

PRZR heater backup group

- OFF

• * * * * * * * * * * * * * * * * * * * * * * * * * ~* * * * * * * * * * * * * *

• CAUTION VOIDING MAY OCCUR IN THE RCS DURING RCS DEPRESSURIZATION.

THIS WILL RESULT IN A RAPIDLY INCREASING PRZR LEVEL.

NOTE:

o If auxiliary spray is in use, spray flow may be increased by closing normal charging valve AOV-294 and normal PRZR spray valves' When using PRZR PORV, select one with an operable block valve.

10 Depressurize RCS To Refill PRZR'.

Use normal PRZR spray valve associated with running RCP

~ PCV-431A for A RCP

~ PCV-431B for B RCP b.

PRZR level -

GREATER THAN 13%

[40% adverse CNMT]

c. Stop RCS depressurization a.

Use one PRZR PORV.

IF IA NOT available, THEN refer to Attachment N2 PORVS.

IF no PORV available, THEN use auxiliary spray valve.

b. Continue with Step ll.

WHEN level greater than 13%

[40%,

adverse CNMT], THEN stop RCS depressurization.

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 9 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION IF RCP SEAL COOLING HAD PREVIOUSLY BEEN LOST, THEN THE AFFECTED RCP SHOULD NOT BE STARTED PRIOR TO A STATUS EVALUATION.

ll Check If An RCP Should Be Started:

a. Both RCPs STOPPED b.

RCS subcooling based on core exit T/Cs GREATER THAN O' USING FIGURE MIN SUBCOOLING a.

Stop all but one RCP and go to Step 12.

b.

Go to Step 19.

c.

PRZR level GREATER THAN 13%

[40% adverse CNMT]

d. Try to start an RCP

1) Establish conditions for starting an RCP o

Bus 11A or llB energized o

Refer to Attachment RCP START

c. Return to Step 10.

2) Start one RCP

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 10 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 12 Check If One Of Three SI Pumps Should Be Stopped:

a. Three SI pumps

- RUNNING b.

RCS subcooling based on core exit T/Cs - GREATER THAN 10'F

[10'F adverse CNMT] USING FIGURE MIN SUBCOOLING c.

Check PRZR level -

GREATER THAN 13%

[40% adverse CNMT]

d. Stop one SI pump a.

Go to Step 13.

b. IF RCS hot leg temperatures greater than 320'F [310'F adverse CNMT] OR IF RHR normal cooling in service, THEN go to Step 19.

IF RHR normal cooling NOT in service AND RCS hot leg temperatures less than 320'F

[310'F adverse CNMT], THEN ensure at least one RHR pump running in injection mode and go to Step 12c.

IF no RHR pump can be operated in injection mode, THEN go to Step 19.

c.

Do NOT stop SI pump. Return to Step 10.

II I

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 11 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 13 Check If One Of Two SI Pumps Should Be Stopped:

a.

Two SI pumps

- RUNNING b.

RCS subcooling based on core exit T/Cs

- GREATER THAN 35'F

[35'F adverse CNMT] USING FIGURE MIN SUBCOOLING c.

PRZR level -

GREATER THAN 13%

[40% adverse CNMT]

d. Stop one SI pump a.

Go to Step 14.

b. IF RCS hot leg temperatures greater than 320'F [310'F adverse CNMT] OR IF RHR normal cooling in service, THEN go to Step 19.

IF RHR normal cooling NOT in service AND RCS hot leg temperatures less than 320'F

[310'F adverse CNMT], THEN ensure at least one RHR pump running in injection mode and go to Step 13c.

IF no RHR pump can be operated in injection mode, THEN go to Step 19.

c.

Do NOT stop SI pump. Return to Step 10.

l

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 12 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 14 Check lf Last SZ Pump Should Be Stopped:

a.

One SI pump

- RUNNING

a. IF any RHR pump running in injection mode, THEN go to Step 19.

IF NOT, THEN go to Step 15.

b. Determine required RCS subcooling from table:

Charging Pump Availability NONE ONE TWO THREE RCS Subcooling Criteria Insufficient subcooling to stop SI pump.

215'F [215'F adverse CNMT]

150'F [150'F adverse CNMT]

80'F [80'F adverse CNMT]

c.

RCS subcooling based on core exit T/Cs

- GREATER THAN VALUE FROM TABLE ABOVE USING FIGURE MIN SUBCOOLING

c. IF RCS hot leg temperatures greater than 320'F [310'F adverse CNMT]

OR IF RHR normal cooling in service, THEN go to Step 19.

d.

PRZR level -

GREATER THAN 13%

[40% adverse CNMT) e.

Stop running SI pump IF RHR normal cooling NOT in service AND RCS hot leg temperatures less than 320'F

[310'F adverse CNMT], THEN ensure at least one RHR pump running in injection mode and go to Step 14d.

IF no RHR pump can be operated in injection mode, THEN go to Step 19.

d.

Do NOT stop SI pump.

Return to Step 10.

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 13 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 15 Check If Charging Flow Should Be Controlled To Maintain RCS Inventory.'.

Check RHR pumps

- RUNNING IN INJECTION MODE a..Perform the following:

1) Control charging flow to maintain RCS inventory:

o RVLIS level (no RCPs)

BETWEEN 68%

AND 73%

f73%

AND 76% adverse CNMT]

-OR-o RVLIS fluid fraction (any RCP running)

BETWEEN 80%

AND 908 b.

Go to Step 19 2)

Go to Step 16.

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 14 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION IF RCP SEAL COOLING HAD PREVIOUSLY BEEN LOST, THEN THE AFFECTED RCP SHOULD NOT BE STARTED PRIOR TO A STATUS EVALUATION.

16 Check RCP Status:

a.

RCPs

- AT LEAST ONE RUNNING a.

Perform the following:

1) Establish conditions for starting an RCP:

o Verify bus 11A or 11B energized.

o Refer to Attachment RCP START.

2) Start one RCP.

IF an RCP can NOT be started, THEN verify natural circulation (Refer to Attachment NC).

IF natural circulation NOT

verified, THEN increase dumping steam.

b. Stop all but one RCP

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV'1 PAGE 15 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION o

VOIDING MAY OCCUR IN THE RCS DURING RCS DEPRESSURIZATION.

THIS WILL RESULT IN A RAPIDLY INCREASING PRZR LEVEL.

o IF SI HAS BEEN TERMINATED, THE ACCUMS SHOULD BE ISOLATED PRIOR TO DEPRESSURIZING THE RCS TO LESS THAN 1000 PSIG.

NOTE:

o If auxiliary spray is in use, spray flow may be increased by

. closing normal charging valve AOV-294 and normal PRZR spray valves.

o When using PRZR PORV, select one with an operable block valve.

17 Depressurize RCS To Saturation At Core Exit:

a. Determine saturation pressure for core exit T/Cs using Figure TSAT b.

Use normal PRZR spray valves associated with running RCP

~ PCV-431A for A RCP

~ PCV-431B for B RCP

c. Energize PRZR heaters as necessary

d. Depressurize RCS until EITHER of the following conditions satisfied:

b.

Use one PRZR PORV.

IF IA NOT available, THEN refer to Attachment N2 PORVS.

IF PORV NOT available, THEN use auxiliary spray valve (AOV-296).

o PRZR level GREATER THAN 75%

[65% adverse CNMT]

-OR-o RCS pressure

- AT SATURATION FROM STEP 17a

EOP:

ECA-3.2 ZITLE-SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 16 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 18 Verify Adequate Shutdown Margin

a. Direct HP to sample RCS and ruptured S/G for boron concentration

b. Verify boron concentration-GREATER THAN REQUIREMENTS OF FIGURE SDM

b. Borate as necessary.

• 19 Monitor SI Reinitiation Criteria:

a.

Core exit T/Cs DECREASING

b. Check RVLIS indication:

o Level (no RCPs)

GREATER THAN 68%

[73% adverse CNMT]

I

-OR-

a. Increase dumping steam.

IF core exit T/Cs do NOT

decrease, THEN manually operate SI pumps as necessary.

b. Manually operate SI pumps as necessary.

o Fluid Fraction (any RCP running)

- GREATER THAN 80%

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 17 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 20 Check If SI ACCUMs Should Be Isolated:

a.

RCS subcooling based on core exit T/Cs GREATER THAN O' USING FIGURE MIN SUBCOOLING

a. IF both RCS hot leg temperatures less than 400'F, THEN go to Step 20c.

IF NOT, THEN go to Step 21.

b.

PRZR level GREATER THAN 5%

[30% adverse CNMT]

c. Dispatch AO with locked valve key to locally close breakers for SI ACCUM discharge valves

~ MOV-841, MCC C position 12F

~ MOV-865, MCC D position 12C

d. Close SI ACCUM discharge valves

~ MOV-841

~ MOV-865

b. Return to Step 10.

d. Vent any unisolated ACCUMs:

1) Open vent valves for unisolated SI ACCUMs.

~ ACCUM A, AOV-834A

~ ACCUM B, AOV-834B

e. Locally reopen breakers for MOV-841 and MOV-865

2) Open HCV-945.

EOP:

ECA-3 ~ 2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REVT 11 PAGE 18 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 21 Check If Emergency D/Gs Should Be Stopped:

a. Verify AC emergency busses energized by offsite power:

o Emergency D/G output breakers OPEN

a. Try to restore offsite power

.(Refer to ER-ELEC.l, RESTORATION OF OFFSITE POWER).

o AC emergency bus vo'ltage GREATER THAN 420 VOLTS o

AC emergency bus normal feed breakers CLOSED

b. Stop any unloaded emergency D/G and place in standby (Refer to Attachment D/G STOP) 22 Minimize Secondary System Contamination:

a. Isolate reject from hotwell to CST:

o Place hotwell level controller (HC-107) in MANUAL at 50%

a. IF hotwell level increasing, THEN direct HP to sample hotwells for activity.

o Verify hotwell level STABLE

b. Verify local actions to complete isolation of ruptured S/G (Refer to Attachment RUPTURED S/G)

EOP:

ECA-3.2 TILDE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 19 of 25 STEP ACTION/EXPECTED RESPONSE

'RESPONSE NOT OBTAINED 23 Verify Adequate SW Flow To CCW Hx:

a. Verify at least two SW pumps RUNNING

b. Verify AUX BLDG SW isolation valves OPEN

~ MOV-4615 and MOV-4734

~ MOV-4616 and MOV-4735

a. Manually start pumps as power supply permits (258 kw per pump).

IF less than two SW pumps can be operated, THEN go to Step 24.

b. Establish SW to AUX BLDG (Refer to Attachment AUX BLDG SW).

c. Verify CNMT RECIRC fan annunciator C-2, HIGH TEMPERATURE ALARM -

EXTINGUISHED

c. Dispatch AO to locally throttle flow to CCW Hx to between 5000 gpm and 6000 gpm total flow.

24 Check RCP Cooling a.

Check CCW to RCPs Establish normal cooling to RCPs (Refer to Attachment SEAL COOLING).

o Annunciator A-7, RCP 1A CCW RETURN HIGH TEMP OR LOW FLOW EXTINGUISHED o

Annunciator A-15, RCP 1B CCW RETURN HIGH TEMP OR LOW FLOW EXTINGUISHED

b. Check RCP seal injection o

Labyrinth seal D/Ps GREATER THAN 15 INCHES OF WATER

-OR-o RCP seal injection flow to each RCP GREATER THAN 6 GPM

0

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 20 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 25 Check If Seal Return Flow Should Be Established:

a. Verify instrument bus D-ENERGIZED

b. Verify RCP ¹1 seal outlet temperature

- LESS THAN 235'F

c. Verify RCP seal outlet valves OPEN

~ AOV-270A

~ AOV-270B

d. Reset both trains of XY relays for RCP seal return isolation valve MOV-313 e.

Open RCP seal return isolation valve MOV-313

f. Verify RCP ¹1 seal leakoff flow LESS THAN 5.5 GPM

g. Verify RCP ¹1 seal leakoff flow GREATER THAN 0.25

GPM, a.

Perform the following:

1) Ensure steam dump mode control in MANUAL.

2) Restore power to instrument bus D from MCC B or MCC A (maintenance supply).

b.

Go to Step 26.

c. Manually open valves as necessary.

e.

Perform the following:

1) Place MOV-313 switch to OPEN

2) Dispatch AO with key to RWST gate to locally open MOV-313.

f. IF any RCP seal leakoff flow greater than 5.5 gpm THEN:

o Close the affected RCP seal discharge valve

~ RCP A, AOV-270A

~ RCP B, AOV-270B o

Trip the affected RCP IF both RCP seal discharge valves are shut, THEN go to Step 26.

g. Refer to AP-RCP.1, RCP SEAL MALFUNCTION.

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 21 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

Adverse CNMT conditions or loss of forced air cooling may result in failure of NIS detectors.

26 Check If Source Range Detectors Should Be Energized:

a.

Source range channels DEENERGIZED a.

Go to Step 26e.

b.

Check intermediate range flux-EITHER CHANNEL LESS THAN lo-lo AMPS

b. Perform the. following:

1) IF neither intermediate range channel is decreasing, THEN

'nitiate boration.

2) Continue with Step 27.

WHEN flux is LESS THAN 10 amps on any operable

channel, THEN do Steps

26c, d and e.

c.

Check the following:

o Both intermediate range channels LESS THAN 10 AMPS

c. Continue with Step 27.

WHEN either condition met, THEN do Steps 26d and e.

-OR-o Greater than 20 minutes since reactor trip

d. Verify source range detectors ENERGIZED

d. Manually energize source range detectors by depressing P-6 permissive defeat pushbuttons (2

of 2).

IF source ranges can NOT be

restored, THEN refer to ER-NIS.1, SR MALFUNCTION and go to Step 27.

e. Transfer Rk-45 recorder to one source range and one intermediate range channel

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV'1 PAGE 22 of 25 STEP ACTION/EXPECTED RESPONSE

~RESPONSE NOT OBTAINED 27 Establish Normal Shutdown Alignment:

a.

Check condenser

- AVAILABLE

a. Dispatch AO to perform Attachment SD-2.

b. Perform the following:

o Open generator disconnects

~ 1G13A71

~ 9X13A73 o

Place voltage regulator to OFF o

Open turbine drain valves o

Rotate reheater steam supply controller cern to close valves o

Place reheater dump valve switches to HAND o

Stop all but one condensate pump

c. Verify adequate Rx head cooling:

1) Check IA to CNMT - AVAILABLE

2) Verify at least one control rod shroud fan - RUNNING 1)

Go to Step 28.

2) Manually start one fan as power supply permits (45 kw)

3) Verify one Rx compartment cooling fan

- RUNNING

3) Perform the following:

o Dispatch AO to reset UV relays at MCC C and MCC D.

o Manually start one fan as power supply permits (23 kw).

d. Verify Attachment SD-1 COMPLETE

'5 0

EOP:

ECA-3.2 TIJLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 23 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION FEED FLOW SHOULD NOT BE ESTABLISHED TO ANY RUPTURED S/G WHICH IS ALSO FAULTED UNLESS IT IS NEEDED FOR RCS COOLDOWN.

• 28 Monitor Ruptured S/G(s)

Narrow Range Level GREATER THAN 17%

I'254 adverse CNMT]

Refill ruptured S/G to 67%

[55%

adverse CNMT] using feed flow.

IF either of the following conditions occurs, THEN stop feed flow to ruptured S/G unless needed for RCS cooldown:

o Ruptured S/G pressure decreases in an uncontrolled manner.

-OR-o Ruptured S/G pressure increases to 1020 psig.

• 29 Monitor RCP Trip Criteria:

a.

RCPs

- ANY RUNNING b.

Check the following:

o RCP ¹1 seal D/P LESS THAN 220 PSID a.

Go to Step 29.

b.

Go to Step 29.

-OR-o Check RCP seal leakage

- LESS THAN 0.25 GPM

c. Stop affected RCP(s)

EOP:

ECA-3.2 T1TLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 24 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 30 Check Condenser Steam Dump Available CONDENSER VACUUM GREATER THAN 20 INCHES HG Use intact S/G ARV for RCS temperature control.

31 Check If RHR Normal Cooling Can Be Established:

a.

RCS cold leg temperature

- LESS THAN 350'F a.

Go to Step 32.

b.

RCS pressure LESS THAN 400 psig

[300 psig adverse CNMT)

c. Place letdown pressure controller in MANUAL CLOSED b.

Go to Step 32.

d.

Check following valves OPEN

~ AOV-371, letdown isolation valve

~ AOV-427, loop B cold leg to REGEN Hx

~ At least one letdown orifice valve (AOV-200A, AOV-200B, or AOV-202)

d. Perform the following:

1) Reset both trains of XY relays for AOV-371 and AOV-427.

2) Open AOV-371 and AOV-427.

3) Open one letdown orifice valve

e. Verify pressure on PI-135

- LESS THAN 400 PSIG e.

Go to Step 32.

f. Place RCS overpressure protection system in service (Refer to 0-7, ALIGNMENT AND OPERATION OF THE REACTOR VESSEL OVERPRESSURE PROTECTION SYSTEM)

g. Consult TSC to determine if RHR normal cooling should be established using Attachment RHR COOL

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 25 of 25 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

This procedure should be continued while obtaining CNMT hydrogen sample in Step 32.

32 Check CNMT Hydrogen Concentration:

a. Direct HP to start CNMT hydrogen monitors as necessary

b. Hydrogen concentration

- LESS THAN 0.5%

b. Consult TSC to determine if hydrogen recombiners should be placed in service.

'33 Check Core Exit T/Cs LESS THAN 200'F Return to Step 2.

34 Evaluate Long Term Plant Status:

a. Maintain cold shutdown conditions

b. Consult TSC

-END-

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 1 of 1

ECA-3.2 APPENDIX LIST TITLE PAGES 1)

RED PATH

SUMMARY

2)

FIGURE MIN SUBCOOLING 3)

FIGURE SDM 4)

FIGURE TSAT 5)

ATTACHMENT SFP-RWST 6)

ATTACHMENT N2 PORVS 7)

'TTACHMENT NC 8)

ATTACHMENT SEAL COOLING 9)

ATTACHMENT RCP START 10)

ATTACHMENT D/G STOP 11)

ATTACHMENT AUX BLDG SW 12)

ATTACHMENT RUPTURED S/G 13)

ATTACHMENT SD-1 14)

ATTACHMENT SD-2 15)

ATTACHMENT RHR COOL 16)

FOLDOUT

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 1 of 1 RED PATH

SUMMARY

a'.

SUBCRITICALITY Nuclear power greater than 54 b.

CORE COOLING Core exit T/Cs greater than 1200'F

-OR-Core exit T/Cs greater than 700'F AND RVLIS level (no RCPs) less than 434

[464 adverse CNMT]

c.

HEAT SINK Narrow range level in all S/Gs less than 54

[254 adverse CNMT] AND total feedwater flow less than 200 gpm d.

INTEGRITY Cold leg temperatures decrease greater than 100'F in last 60 minutes AND RCS cold leg temperature less than 285'F e.

CONTAINMENT CNMT pressure greater than 60 psig

EOP:

ECA-3.2 TITLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 1 of 1 FIGURE MIN SUBCOOLING NOTE:

Subcooling Margin = Saturation Temperature From Figure Below [-] Core Exit T/C Indication RC 2500 2400 2300 2200 2100 2000 1900 1800 1700 1600 1500 1400 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0

S PRESSURE (PSIG)

RCS PRESSURE INCREHENTS 20 PSIG SUBCOOLED REGION ADVERSE CNHT NORHAL CNHT INADEQUATE SUBCOOLING REGION TEHPERATURE INCREHENTS 10'F 200 250 300

" 350 400 450 500 550 600 650 700 CORE EXIT SATURATION TEHPERATURE ('F)

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV 11 PAGE 1 of 1 FIGURE SDM NOTE:

o Curve includes allowance for one stuck rod.

Add 100 ppm for each additional stuck rod.

o To obtain core burnup, use PPCS turn on code BURNUP.

BORON CONCENTRATION (PPH) 1800 1600 BORON INCREMENTS 20 PPH 1400 1200 1000 ADE(UATE SDH 100 PPH CONSERVATISH INCLUDED 800 600 400 BORAT 200 BURNUP INCREMENTS 100 HWD/HTU 0

1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 CYCLE 23 BURNUP (MWD/HTU)

EOP:

ECA-3.2 T1TLE:

SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV:

11 PAGE 1 of 1 FIGURE TSAT SAT 2500 2400 2300 2200 2100 2000 1900 1800 1700 1600 1500 1400 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0

URATION PRESSURE (PSIG)

PRESSURE INCREMENTS 20 PSIG TEMPERATURE INCREMENTS 10'F 200 250 300 350 400 450 500 550 600 650 700 CORE EXIT SATURATION TEMPERATURE ('F)

EOP:

ECA-3.2 SGTR WITH LOSS OF REACTOR COOLANT SATURATED RECOVERY DESIRED REV'1 PAGE 1 of 1 FOLDOUT PAGE SI REINITIATION CRITERIA" IF EITHER condition listed below occurs, THEN manually operate SI pumps as necessary:

o Core exit T/Cs

INCREASING

-OR-o Check RVLIS indication:

Level (no RCPs)

LESS THAN 68%

[734 adverse CNMT]

Fluid fraction (any RCP running) - LESS THAN 804 2 ~

SECONDARY INTEGRITY CRITERIA IF any S/G pressure is decreasing in an uncontrolled manner or is completely depressurized, and has not been isolated, THEN go to E-2, FAULTED S/G ISOLATION, Step 1, unless faulted S/G needed for RCS cooldown.

3.

COLD LEG RECIRCULATION SWITCHOVER CRITERION IF RWST level decreases to less than 284, THEN go to ES-1.3, TRANSFER TO COLD LEG RECIRCULATION, Step 1.

4.

AFW SUPPLY SWITCHOVER CRITERION IF CST level decreases to less than 5 feet, THEN switch to alternate AFW water supply (Refer to ER-AFW.1, ALTERNATE WATER SUPPLY TO AFW PUMPS)

~

EOP:

FR-I.1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV 3

PAGE 1 of ll ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION CONTROLLED COPY NUMBER TECHNICAL REVIEW PORC REVIEW DATE P

NT SUPERINTEN E

I EF EC IVE DATE CATEGORY 1.0 REVIEWED BY:

FR-I. 1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV:

3 PAGE 2 of 11 A.

PURPOSE This procedure provides actions to respond to a high PRZR level.

B.

ENTRY CONDITIONS/SYMPTOMS 1.

ENTRY CONDITIONS This procedure is entered from:

a.

F-0.6, INVENTORY Critical Safety Function Status Tree on a YELLOW condition.

ECP:

FR-I.1 TITLE:

RESPONSE

TO HIGH PRESSURIZER LEVEL REV 3

PAGE 3 of 11 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

Adverse CNMT values should be used whenever CNMT pressure is greater than 4 psig or CNMT radiation is greater than 10

~ R/hr.

1 Check RCS Hot Leg Temperature STABLE OR DECREASING Dump steam from intact S/G(s) to stabilize RCS temperature.

2 Verify Adequate SW Flow:

a. At least three SW pumps - RUNNING

b. Dispatch AO to establish normal shutdown alignment (Refer to Attachment SD-1)

c. Verify AUX BLDG SW isolation valves

- AT LEAST ONE SET OPEN

~ MOV-4615 and MOV-4734

~ MOV-4616 and MOV-4735

a. Manually start pumps as power supply permits (258 kw each).

IF less than two SW pumps can be

operated, THEN perform the following:

1) Ensure SW isolation 2)

Go to Step 7.

c. Establish SW to AUX BLDG.

(Refer to Attachment AUX BLDG SW.)

d. Verify CNMT RECIRC fans annunciator C-2, HIGH'EMPERATURE ALARM - EXTINGUISHED

d. Dispatch AO to locally throttle flow to CCW Hx to between 5000 gpm and 6000 gpm total flow.

l 0

jI )

EOP:

FR-I.1 TITLE:

RESPONSE

TO HIGH PRESSURIZER LEVEL REV:

3 PAGE 4 of 11 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 3

Establish IA to CNMT:

a. Verify non-safeguards busses energized from offsite power o

Bus 13 normal feed -

CLOSED a.

Perform the following:

1) Close non-safeguards bus tie breakers:

-OR-o Bus 15 normal feed -

CLOSED

b. Verify SW isolation valves to turbine building -

OPEN

~ MOV-4613 and MOV-4670

~ MOV-4614 and MOV-4664

~ Bus 13 to Bus 14 tie

~ Bus 15 to Bus 16 tie 2)

WHEN bus 15 restored, THEN reset control room lighting.

b. Manually align valves.

c. Verify at least two air compressors

- RUNNING d.

Check IA supply:

o Pressure

- GREATER THAN 60 PSIG o

Pressure

- STABLE OR INCREASING

e. Reset both trains of XY relays for IA to CNMT AOV-5392

c. Manually start air compressors as power supply permits (75 kw each).

IF air compressors can NOT be started, THEN dispatch AO to locally reset compressors as necessary.

d. Perform the following:

1) Continue attempts,to restore IA (Refer to AP-IA.1, LOSS OF INSTRUMENT AIR).

2) Continue with Step 7.

WHEN IA restored, THEN do Steps 3e and f.

f. Verify IA to CNMT AOV-5392 -

OPEN

\\

P 0

P

~ g A

C

'i

EOP:

FR-I.1 TITLE:

RESPONSE

TO HIGH PRESSURIZER LEVEL REV:

3 PAGE 5 of 11 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION CHARGING AND LETDOWN FLOW SHOULD BE CAREFULLY CONTROLLED TO AVOID SUDDEN RCS PRESSURE CHANGES SINCE THE PRZR MAY BE WATER SOLID.

4 Check If Normal CVCS Operation Can Be Established

a. Verify IA restored:

o IA to CNMT (AOV-5392) - OPEN o

IA pressure

- GREATER THAN 60 PSIG

a. Continue with Step 7.

WHEN IA

restored, THEN do Steps 4

through 6.

b.

CCW pumps

- ANY RUNNING

c. Verify instrument bus D-ENERGIZED

b. Perform the following:

1) IF any RCP gl seal outlet temperature offscale high, THEN isolate CCW to thermal barrier of affected RCP(s).

~ RCP A, MOV-749A and MOV-759A

+ RCP B, MOV-749B and MOV-759B

2) Manually start one CCW pump.

c. Energize MCC B.

IF MCC B NOT availabl.e, THEN perform the following:

1) Verify MCC A energized.

2) Place instrument bus D on maintenance supply.

I jl b

0 7r (c

~hit

EOP FR-I.1 TITLE:

RESPONSE

TO HIGH PRESSURIZER LEVEL REV 3

PAGE 6 Qf 11 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 5

Check If Seal Return Flow Should Be Established:

a. Verify RCP gl seal outlet temperature LESS THAN 235'F

b. Verify RCP seal outlet valves-OPEN

~ AOV-270A

~ AOV-270B a.

Go to Step 7.

b. Manually open valves as necessary.

c. Reset both trains of XY relays for RCP seal return isolation valve MOV-313 d.

Open RCP seal return isolation valve MOV-313

e. Verify RCP gl seal leakoff flow

- LESS THAN 5.5 GPM

f. Verify RCP gl seal leakoff flow

- GREATER THAN 0.25 GPM

d. Perform the following:

1) Place MOV-313 switch to OPEN.

2) Dispatch AO with key to RWST gate to locally open MOV-313.

e. IF any RCP seal leakoff flow greater than 5.5 gpm THEN:

o Close the affected RCP seal discharge valve

~ RCP A, AOV-270A

~ RCP B, AOV-2708 o

Trip the affected'RCP IF both RCP seal discharge valves are shut, THEN go to Step 7.

f. Refer to AP-RCP.l, RCP SEAL MALFUNCTION.

f I

FR-I.1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV 3

PAGE 7 of 11 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 6

Check Normal Letdown IN SERVICE Establish excess letdown as follows:

o Place AOV-312 to NORMAL o

Ensure CCV from excess

letdown, (AOV-745).

o Open excess letdown isolation valve AOV-310.

o Slowly open HCV-123 to maintain excess letdown temperature less than 195'P and pressure less than 100 psig.

r 0

I vl

FR-I.1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV:

3 PAGE 8 of'll STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 7

Check If Charging Flow Has Been Est'.ablished:

a. Charging pumps - ANY RUNNING

a. Perform the following:

1) IP. CCW-flow is lost to any RCP thermal barrier OR any RCP

$ 1 seal outlet temperature offscale high, THEN dispatch AO with key to RWST gate to locally close seal in)ection needle valve(s) to affected RCP:

~ RCP A, V-300A

~ RCP B, V-300B

b. Charging pump suction aligned to RWST:

o LCV-112B -

OPEN o

LCV-112C - CLOSED

2) Ensure HCV-142 open, demand at OX.

b. Manually align valves as necessary.

IP LCV-112B can NOT be opened, THEN perform the following:

1) Verify charging pump A NOT running and place in PULL STOP.

c. Start charging pumps as necessary and adjust charging flow to restore PRZR level

2) Dispatch AO to locally open manual charging pump suction from RWST (V-358 located in charging pump room).

3)

WHEN V-358 open, THEN direct AO to close V-268 to isolate charging pumps B and C from VCT (V-268 located in charging pump room).

.f eP

EOF:

FR-I.1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV 3

PAGE 9 of ll STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 8

Check Normal Letdown IN SERVICE Establish Normal Letdown:

a. Establish charging flov to REGEN Hx greater than 20 gpm.

b. Place the folloving switches to CLOSE:

~ Letdown orifice valves (AOV-200A, AOV-200B, and AOV-202)

~ AOV-427, loop B cold leg to REGEN Hx

~ AOV-371, letdown isolation valves

c. Place letdovn controllers TCV-130 and PCV-135 in MANUAL at 25% open

~ TCV-130

~ PCV-135 I

d. Reset both trains of XY relays for AOV-371 and AOV-427 e.

Open AOV-371 and AOV-427

f. Open letdown orifice valves as necessary

g. Place TCV-130 in AUTO at 105'P

h. Place PCV-135 in AUTO at 250 psig

i. Adjust charging pump speed and HCV-142 as necessary g.

VHEN normal letdown in service, THEN secure excess letdovn.

o Close excess letdown flow control valve, HCV-123.

o Close excess letdown isolation valve, AOV-310.

FR-I.1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV 3

PAGE 10 of 11 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 9

Check PRZR Pressure:

a. Pressure LESS THAN 2335 PSIG

b. Pressure

- LESS THAN 2260 PSIG

a. Verify at least one PRZR PORV and block valve open.

IP NOT, THEN open one PORV and block valve as necessary until pressure less than 2335 psig.

IF IA NOT available, THEN refer to Attachment N2 PORVS to operate PORVs.

b. Control charging and letdown flow as necessary to decrease PRZR pressure to less than 2260 psig.

10 Verify PRZR PORVs CLOSED Manually close PORVs.

IF any valve can NOT be closed, THEN manually close its block valve.

11 Restore PRZR To Saturation Conditions:

a. Verify letdown - IN SERVICE

b. Energize PRZR heaters a.

Do NOT energize PRZR heaters.

Continue with Step 13.

WHEN letdown established, THEN energize PRZR heaters.

FR-I.1 TITLE:

RESPONSE

TO HIGH PRESSURIZER LEVEL REV:

3 PAGE 11 of ll STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 12 Check PRZR Spray Valves:

a. Auxiliary spray val've (AOV-296)

- CLOSED

b. Verify normal PRZR spray valve controllers -

DEMAND AT 0%

Manually close auxiliary spray valve.

IP valve can NOT be

closed, THEN perform the following:

1) Establish excess letdown (Refer to Step 6).

2) Close loop B cold leg to REGEN Hx (AOV-427).

3) Ensure HCV-142 demand at 0%.

b. Place controllers in manual at 0% demand.

NOTE:

PRZR temperature at which bubble should form may be determined from steam table.

13 Control Charging And Letdown Flow As Necessary To Maintain RCS Pressure Stable 14 Check PRZR level LESS THAN 87~o Perform the following:

a. Consult TSC to determine if RCPs should be stopped to isolated failed spray valve.

b. Return to Step 13.

15 Return To Procedure And Step In Effect

-END-

E8:

FR-I.1

RESPONSE

TO HIGH PRESSURIZER LEVEL REV' PAGE 1 of 1

FR-I. 1 APPENDIX LIST TITLE PAGES 1)

ATTACHMENT N2 PORVS 2)

ATTACHMENT SD-1

ATT TITLE:

EOP/AP ATTACHMENTS REV:

1 PAGE 1 of 1 ATTACHME T SW ISOLATION SUPT.

DATE TURBINE BLDG SW ISOL VLVS (MOV-4613/MOV-4670) Loop A non-safety related loads:

0 0

0 0

0 0

0 0

0 0

0 Instrument air compressors A and C

Main feed pump A Exciter cooler Bus duct coolers (both)

Seal oil unit airside and H2 side coolers Turbine oil cooler B

All 3 condensate pumps Secondary sample coolers Battery room air conditioners Relay room air conditioners Administrative computer room HVAC TURBINE BLDG SW ISOL VLVS (MOV-4614/MOV-4664) Loop B

non-safety related loads:

o Main feed pump B

o Both heater drain pumps o

Both EH oil coolers o

Turbine oil cooler A o

Instrument air compressor B

o Service air compressor o

Vacuum priming pumps 1

AUX BLDG SW ISOL VLVS (MOV-4616/MOV-4735) Loop A:

o CCW Hx A o

SFP Hx A o

SAFW Pump A

AUX BLDG SW ISOL VLVS (MOV-4615/MOV-4734) Loop B:

Travelling Screens CIRC Water pumps AIR CONDITIONING SW ISOL VLVS (MOV-4663/MOV-4733):

o Air Conditioning Chillers o

Laundry Room'ooler o

CCW Hx B o

SFP Hx B o

SAFW Pump B

SCREENHOUSE SW ISOL VLVS (MOV-4609/MOV-4780) from LOOP A:

0 0