Rev 8 to EOP ES-3.3, Post-SGTR Cooldown Using Steam Dump

ML17263A267
Person / Time
Site:	Ginna
Issue date:	04/21/1993
From:	Marlow T ROCHESTER GAS & ELECTRIC CORP.
To:
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ML17263A255	List: ML17263A254 ML17263A256 ML17263A257 ML17263A258 ML17263A259 ML17263A260 ML17263A261 ML17263A262 ML17263A263 ML17263A264 ML17263A265 ML17263A266 ML17263A267 ML17309A517 ML20044C909
References
ES-3.3, NUDOCS 9305140033
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Text

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 1 of 12 ROCHESTER GAS AND ELECTRIC CORPORATION GINNA STATION CONTROLLED COPY NUMBER TECHNICAL REVIEW PORC REVIEW DATE r

Sl PLAN SUPERINTENDENT EFFECTIVE DATE CATEGORY 1.0 REVIEWED BY:

9305140033,'930505

', PDR ADOCK 05000244

.F

' ', PDR

EOP:

ES-3.3 TITLE:

POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 2 of 12 A.

PURPOSE This procedure provides actions to cool down and depressurize the plant to cold shutdown conditions following a SGTR.

This recovery method depressurizes the ruptured S/G by dumping steam.

B.

ENTRY CONDITIONS/SYMPTOMS l.

ENTRY CONDITIONS This procedure is entered from:

a.

E-3 STEAM GENERATOR TUBE RUPTURE, if plant staff selects steam dump method.

ES 3 ~ 2 g POST SGTR COOLDOWN USING BLOWDOWNg when blowdown is not available and plant staff selects steam dump method.

EOP:

ES-3.3 TITLE:

POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 3 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION o

STEAM SHOULD NOT BE RELEASED FROM ANY RUPTURED S/G IF WATER MAY EXIST IN ITS STEAMLINE.

o AN OFFSITE DOSE EVALUATION SHOULD BE COMPLETED PRIOR TO USING THIS PROCEDURE.

NOTE:

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 Energize PRZR Heaters As Necessary To Saturate PRZR Water At Ruptured S/G Pressure

0

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 4 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 2

Check If SI ACCUMs Should Be Isolated:

a.

Check the following:

o RCS subcooling based on core exit T/Cs

- GREATER THAN O' USING FIGURE MIN SUBCOOLING a.

Go to ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT -

SUBCOOLED RECOVERY DESIRED, Step 1.

o PRZR level -

GREATER THAN 5S (30% adverse CNMT]

b. 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

c. Close SI ACCUM outlet valves

~ ACCUM A, MOV-841

~ ACCUM B, MOV-865

c. Vent any unisolated ACCUMs:

1) Open vent valves for unisolated SI ACCUMs.

d. Locally reopen breakers for MOV-841 'and MOV-865

~ ACCUM A, AOV-834A

~ ACCUM B, AOV-834B

2) Open HCV-945.

EOP:

ES-3 '

TITLE:

POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 5 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

Leakage from ruptured. S/G into RCS will dilute RCS boron concentration.

3 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.

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.

• 4 Monitor Intact S/G Level:

a.

Narrow range level -

GREATER THAN 5%

[25% adverse CNMT]

b. Control feed flow to maintain narrow range level between 17%

[25% adverse CNMT] and 50%

a. Maintain total feed flow greater than 200 gpm until narrow range level greater than 5%

[25%

adverse CNMT] in intact S/G.

b. IF narrow range level in the intact S/G continues to increase in an uncontrolled manner, THEN go to ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT -

SUBCOOLED RECOVERY DESIRED, Step 1.

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV 8

PAGE 6 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

Since ruptured S/G may continue to depressurize to less than the minimum RCS pressure necessary for continued RCP operation, cooldown to cold shutdown should not be delayed.

5 Initiate RCS Cooldown To 350'F:

a. Establish and maintain cooldown rate in RCS cold legs

- LESS THAN 100'F/HR b.

Dump steam to condenser from intact S/G

b. Manually or locally dump steam from intact S/G using S/G ARV ~

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

o Use faulted S/G.

-OR-o Go to ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT SUBCOOLED RECOVERY DESIREDI Step l.

EOP:

ES-3.3 TITLE:

POST-SGTR COOLDOHN USING STEAM DUMP REV' PAGE 7 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION RCS AND RUPTURED S/G PRESSURES MUST BE MAINTAINED LESS THAN 1050 PSIG.

• 6 Control RCS Pressure And Makeup Flow To Minimize RCS-To-Secondary Leakage:

a. Perform appropriate action(s) from table:

PRZR LEVEL RUPTURED S/G NARROW RANGE LEVEL INCREASING DECREASING OFFSCALE HIGH LESS THAN 13%

[40$ ADVERSE CNMT]

BETWEEN 13%

[40% ADVERSE CNMT]

AND 50%

o Increase RCS makeup flow o Depressurize RCS using Step 6b.

Depressurize RCS using Step 6b.

Increase RCS makeup flow Energize PRZR heaters o Increase RCS makeup flow o Maintain RCS and ruptured S/G pressure equal Maintain RCS and ruptured S/G pressure equal BETWEEN 50% AND 75%

o Depressurize

[65% ADVERSE CNMT]

RCS using Step 6b.

o Decrease RCS makeup flow Energize PRZR heaters Maintain RCS and ruptured S/G pressure equal GREATER THAN 75%

[65% ADVERSE CNMT]

o Decrease RCS makeup flow Energize PRZR heaters Maintain RCS and ruptured S/G pressure equal

b. Use normal PRZR spray to obtain desired results for Step 6a

b. IF letdown is in service, THEN use auxiliary spray (AOV-296),

IF NOT, THEN use one PRZR PORV.

EOP:

ES-3.3 TITLE:

POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 8 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 7 Establish Required RCS Hydrogen Concentration (Refer to S-3.3C, H2 OR 02 REMOVAL FROM PRIMARY SYSTEM BY BURPING VCT) 8 Check If RCS Cooldown Should Be Stopped a.

RCS cold leg temperatures

- LESS THAN 350'F

a. Return to Step 3.

b. Stop RCS cooldown

c. Maintain RCS cold leg temperature

-.LESS THAN 350'F

• 9 Monitor Ruptured S/G Narrow Range Level LEVEL GREATER THAN 17% [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:

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

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

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 9 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED CAUTION RUPTURED S/G PRESSURE MAY DECREASE RAPIDLY WHEN STEAM IS RELEASED.

NOTE:

Steam release from ruptured S/G may be stopped when RHR System is in service.

10 Initiate Cooldown Of Ruptured S/G

a. Verify condenser available:

o Intact S/G MSIV -

OPEN o

Annunciator G-15, STEAM DUMP ARMED - LIT

a. Manually or locally dump steam using ruptured S/G ARV and go to Step 11.

b. Dispatch AO to locally open ruptured S/G MSIV bypass valve c.

Dump steam to condenser using steam dump pressure controller

• ll Control RCS Makeup Flow And Letdown To Maintain PRZR Level:

a.

PRZR level - GREATER THAN 13%

[40% adverse CNMT]

b.

PRZR level - LESS THAN 75%

[65%

adverse CNMT]

a. Increase RCS makeup flow as necessary and go to Step 12.

b. Decrease RCS makeup flow to decrease level and go to Step 13.

I

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 10 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED NOTE:

The upper head region. may void during depressurization if RCPs are not running.

This may result in a rapidly increasing PRZR level,

• 12 Depressurize RCS To Minimize RCS-To-Secondary Leakage:

a. Depressurize using normal PRZR spray associated with running RCP

a. IF letdown is in service, THEN depressurize using auxiliary spray valve (AOV-296).

IF NOT, THEN use one PRZR PORV.

b. Energize PRZR heaters as necessary

c. Maintain RCS pressure at ruptured S/G pressure

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

• 13 Monitor RCP Operation:

a.

RCPs

- ANY RUNNING

b. Check the following:

o RCP ¹1 seal D/P -

LESS THAN 220 PSID a.

Go to Step 14.

b.

Go to Step 14.

-OR-o Check RCP seal leakage' LESS THAN 0.25 GPM

c. Stop affected RCP(s)

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE ll of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 14 Check If RHR Normal Cooling Can Be Established a.

RCS cold leg temperature LESS THAN 350'F

a. Return to Step 9.

b.

RCS pressure

- LESS THAN 400 psig [300 psig adverse CNMT]

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

d. Establish RHR normal cooling (Refer to Attachment RHR COOL)

b. Return to Step 9.

c. IF RCS overpressure protection system can NOT be placed in

service, THEN notify TSC of potential Tech Spec violation if RHR system is placed in service.

15 Continue RCS Cooldown To Cold Shutdown:

a. Maintain cooldown rate in RCS cold legs

- LESS THAN 100'F/HR b.

Use RHR System 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 and RHR system NOT in service, THEN perform the following:

o Use faulted S/G.

-OR-o Go to ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT SUBCOOLED RECOVERY DESIRED, Step l.

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 12 of 12 STEP ACTION/EXPECTED RESPONSE

RESPONSE

NOT OBTAINED 16 Check Core Exit T/Cs - LESS THAN 200'F Return to Step 9.

17 Evaluate Long Term Plant Status:

a. Maintain cold shutdown conditions (Refer to 0-2.3, PLANT AT COLD OR REFUELING SHUTDOWN)

b. Consult TSC

-END-

EOP:

ES-3.3 POST-SGTR COOLDONN USING STEAM DUMP REV 8

PAGE 1 of 1 ES-3.3 APPENDIX LIST TITLE PAGES 1)

RED PATH

SUMMARY

2)

FIGURE MIN SUBCOOLING 3)

FIGURE SDM 4)

ATTACHMENT RHR COOL 5)

FOLDOUT

,r

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 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:

ES-3.3

'LITLE:

POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 1 of 1 FIGURE MIN SUBCOOLING NOTE:

Subcooling Margin = Saturation Temperature From Figure Below (-] Core Exit T/C Indication RCS PRESSURE (PSIG) 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

SUBCOOLED REGION ADVERSE CNHT RCS PRESSURE INCREMENTS 20 PSIG NORMAL CNHT INADEQUATE SUBCOOL ING REGION TEMPERATURE INCREMENTS 10'F 200 250 300 350 400 450 500 550 600 650 700 CORE EXIT SATURATION TEMPERATURE ('F)

EOP:

ES-3.3 POST-SGTR COOLDOWN USING STEAM DUMP REV' 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 (PPM) 1800 1600 BORON INCREMENTS 20 PPH 1400 1200 1000 ADEQUATE SDM 100 PPH CONSERVATISM INCLUDED 800 600 400 BORATE 200 BURNUP INCREMENTS 100 MWD/MTU 0

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

EOP:

ES-3 '

TITLE:

POST-SGTR COOLDOWN USING STEAM DUMP REV:

8 PAGE 1 of 1 FOLDOUT PAGE SI REINITIATION CRITERIA IF either condition listed below occurs, THEN operate SI pumps manually as necessary and go to ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT SUBCOOLED RECOVERY DESIRED, Step 1:

o RCS subcooling based on core exit T/Cs

LESS THAN O' USING REQUIREMENTS OF FIGURE MIN SUBCOOLING.

OR 2 ~

o PRZR level CHARGING CAN NOT CONTROL LEVEL GREATER THAN 5%

[30% adverse CNMT].

SECONDARY INTEGRITY CRITERIA IF any S/G pressure is decreasing in an uncontrolled'anner or is completely depressurized AND has not been

isolated, THEN go to E-2, FAULTED S/G ISOLATION, Step l.

3 ~

COLD LEG RECIRCULATION SWITCHOVER CRITERION 4 ~

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

AFW SUPPLY SWITCHOVER CRITERION 5.

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).

MULTIPLE S G TUBE RUPTURE CRITERIA IF any intact S/G level increases in in an uncontrolled manner OR IF any intact S/G has abnormal radiation, THEN go to ECA-3.1, SGTR WITH LOSS OF REACTOR COOLANT SUBCOOLED RECOVERY DESIRED, Step 1.