E-0 Series EOP's

Question 1

What conditions should be established prior to restarting a RCP?

Answer 1

• RCP Bus energized
• RCP cooling (CCW and Seal Injection)
• Thermal Barrier Cooling high D/P alarms clear
• # 1 Seal D/P >200
• # 1 Seal Leakoff greater than RCS dependent value.
• Bearing lift pump running for 2 minutes.

Question 2

What conditions can rule out steam void formation in the Rx Vessel Upper Head?

Answer 2

With RVLIS <100%, all of the following is met:
- RCS# < 1725#
- Core has remained covered
- Accumulators have NOT injected

Question 3

Why is it preferred to postpone RCP restart until after a void in the upper head is vented?

Answer 3

• PZR level may lower off-scale low and lead to loss of pressure control and letdown isolation.
• Could transfer non-condensable gases to transfer to other places in the RCS and impede heat transfer.
• Non-condensable gases in other parts of the RCS could cause erratic/erroneous indications.
• Non-condensable gases transferred to the PZR could make pressure control harder. (Hard Bubble formation)

Question 4

Define Natural Circulation

Answer 4

Flow within the RCS caused by temperature induced density gradients and differences in elevation between the heat source and the heat sink.

Question 5

What are the physical conditions required to support Natural Circulation? (SUP-011)

Answer 5

• There must be a heat source and heat sink.
• Heat sink must be at a higher elevation than the heat source.
• A flow path exists between the heat source and sink.
• Density gradients caused by temperature differences between the two must exist.

Question 6

What parameters confirm formation of Natural Circulation? (SUP-011)

Answer 6

• Subcooling >40F
• S/G #’s stable or lowering
• RCS hot leg temps stable or lowering
• CETC temps stable or lowering
• RCS cold leg temps at saturation temp for the S/G’s

Question 7

What are the SI Termination Criteria?

Answer 7

• Subcooling >40F
• Secondary Heat Sink verified (NR level >13% in at least one S/G OR total feed flow >240k pph)
• RCS # stable or rising
• PZR level >16%

Question 8

What is the name of procedure E-0?

Answer 8

Rx Trip or SI

Question 9

What is the name of procedure ES-0.0?

Answer 9

Rediagnosis

Question 10

What is the name of procedure ES-0.1?

Answer 10

Rx Trip Response

Question 11

What is the name of procedure ES-0.2?

Answer 11

Natural Circulation Cooldown

Question 12

What is the name of procedure ES-0.3?

Answer 12

Natural Circulation Cooldown with Steam Void in Vessel

Question 13

What is the name of procedure ECA-0.0?

Answer 13

Loss of ALL A/C Power

Question 14

What is the name of procedure ECA-0.1?

Answer 14

Loss of All A/C Power Recovery Without SI Required

Question 15

What is the name of procedure ECA-0.2?

Answer 15

Loss of All A/C Power with SI Required

Question 16

What are the Major Actions for E-0?

Answer 16

• Verify auto actions initiated by the safeguards system
• Identify the appropriate EOP network procedure for recovery. (E-2, E-3, then E-1)
• Shut down unnecessary equipment and continue to identify appropriate recovery procedure.

Question 17

What are the Major Actions for ES-0.1? (Rx Trip Response)

Answer 17

• Ensure primary system stabilizes at no-load conditions.
• Ensure secondary system stabilizes at no-load conditions.
• Ensure necessary components have power.
• Maintain/Establish forced flow.
• Maintain stable plant conditions.

Question 18

What are the Major Actions for ES-0.2? (Natural Circulation Cooldown)

Answer 18

• Permit cooldown and depressurization of the RCS at the fastest rate possible WITHOUT forming voids in the vessel head.

Question 19

What are the Major Actions for ES-0.3? (Natural Circulation Cooldown w/ Steam Void in Vessel)

Answer 19

• Permit cooldown and depressurization of the RCS at the fastest rate possible while allowing formation of voids in the vessel head.

Question 20

What are the FOP criteria for E-0? (Rx Trip or SI)

Answer 20

• RCP Trip: If either condition occurs, trip all RCP’s
  
  • CIS phase B
    -OR-
  • RCS # <1300# AND a CCP or SI pump running
• AFW Switchover: If CST level lowers to <15%, then switch to alternate supply.
• Cold Leg Recirc: If RWST level lowers to < 30%, then go to ES-1.3 (Transfer to Cold Leg Recirc)
• Faulted S/G Isolation: Isolate AFW flow to a SINGLE affected S/G if:
  
  • Single S/G # lowers uncontrollably or is completely depressurized.
    -AND-
  • Secondary heat sink is established
• RCP Bus Trip Criteria: if either condition occurs, open affected RCP bus RAT supply:
  
  • Annunciator 119(219) or 120(220) drop 69
    -AND-
  • Any associated bus phase voltage < 110 volts

Question 21

What is the basis for controlling AFW flow to between 240K lbm to 450K lbm?

Answer 21

• Lower end is enough flow to ensure adequate heat sink available to remove decay heat.
• Higher end is low enough flow to reduce excessive cooldown.

Question 22

What things are checked for a FWI?

Answer 22

• Both MFP’s tripped
• MFP discharge valves closed
• FRV’s closed
• Feed Isolation Valves closed

Question 23

Why does E-0 (Rx Trip or SI) only allow isolating feed flow to ONE faulted S/G?

Answer 23

Isolating more than one S/G may not meet minimum flow requirements for heat sink and would subsequently create a RED path on Heat Sink.

Question 24

What criteria will require transition to FR-S.1 (Response to Nuclear Power Generation/ATWS) from E-0?

Answer 24

Rx Trip criteria not met, and RNO criteria not met after manually tripping the Rx.

Question 25

What criteria will require transition to ECA-0.0 (Loss of All A/C Power) from E-0?

Answer 25

Both T11(21)A and T11(21)D buses NOT energized.

Question 26

What criteria will require transition to ES-0.1 (Rx Trip Response) from E-0?

Answer 26

Completion of immediate actions AND SI not required.

Question 27

What criteria will require transition to E-2 (Faulted S/G Isolation) from E-0?

Answer 27

• S/G pressure lowering in an uncontrolled manner
  -OR-
• S/G completely depressurized

Question 28

What criteria will require transition to E-3 (SGTR) from E-0?

Answer 28

Any of the following:
- S/G NR level rising in an uncontrolled manner
- SJAE radiation monitors not normal
- GS radiation monitors not normal
- S/G Blowdown sampling or treatment radiation monitors not normal
- S/G PORV radiation monitors not normal

Question 29

What criteria will require transition to E-1 (Loss of Rx or Secondary Coolant) from E-0?

Answer 29

Any of the following:
- Containment radiation not normal
- Containment # >1#
- Containment water levels not normal

Question 30

What are the FOP criteria for ES-0.1? (Rx Trip Response)

Answer 30

• SI Actuation: If either of the following occur, actuate SI and go to E-0
  
  • RCS subcooling < 40F
  • PZR level cannot be maintained > 7%
• AFW switchover: If CST <15%, switch to alternate supply.
• E-0 Transition: If SI actuation occurs, go to E-0.
• RCP Bus Open Phase: If either condition occurs, open affected RCP Bus RAT supply breaker.
  
  • Annunciator 119(219) or 120(220) drop 69
    -And-
  • Associated bus voltage <110 volts

Question 31

While performing ES-0.1, what is the RCS borated to if any rod is NOT < 10 steps?

Answer 31

• Unit 1 = 160ppm (2650 gal) for EACH rod not inserted.
• Unit 2 = 150 ppm (2500 gal) for EACH rod not inserted.

Question 32

What criteria will require transition to ES-0.2 (Natural Circulation Cooldown) from ES-0.1?

Answer 32

Completion of ES-0.1 and when reaching the last step with NO RCP’s running.

Question 33

What are the FOP criteria for ES-0.2? (Natural Circulation Cooldown)

Answer 33

• SI Actuation: If either of the following occur, actuate SI and go to E-0.
  
  • Subcooling <40F
  • PZR level cannot be maintained >7%
• AFW Switchover: If CST level <15%, switch to alternate supply.
• ES-0.3 Transition: After performing step 13, if natural circulation cooldown and depressurization must be performed at a rate that could form a void, then go to ES-0.3.
• E-0 Transition: If SI actuation occurs, go to E-0.
• RCP restart: If conditions can be established for starting an RCP, return to step 1.

Question 34

What is the significance of verifying all CRDM fans running while performing ES-0.2? (Natural Circulation Cooldown)

Answer 34

CRDM cooling fans aid significantly in removing heat from the Rx Vessel head, therefore aids in maintaining saturated conditions.

Question 35

While performing ES-0.2 (Natural Circulation Cooldown) what is the cooldown rate limit?

Answer 35

< 25F/hr

Question 36

While performing ES-0.2 (Natural Circulation Cooldown) at what pressure are accumulators isolated?

Answer 36

RCS # < 1000#

Question 37

What conditions are required to place RHR cooling in service?

Answer 37

• RCS Hot Leg Temp < 350F
• RCS # < 425#

Question 38

What are the FOP criteria for ES-0.3? (Natural Circulation Cooldown with Steam Void in Vessel)

Answer 38

• SI Actuation: If either condition occurs, actuate SI and go to E-0
  
  • Subcooling < 40F
  • PZR level cannot be maintained >7%
• AFW Switchover: If CST level < 15%, switch to alternate supply
• E-0 Transition: If SI actuates, go to E-0.
• RCP restart: If conditions can be established for starting an RCP, return to step 2.

Question 39

What conditions are required to proceed with ES-0.3?

Answer 39

The first 13 steps of ES-0.2 (Natural Circulation Cooldown) are complete.

Question 40

While performing ES-0.3 (Natural Circulation Cooldown with Steam Void in Vessel) what must PZR level be prior to cooldown/depressurization and why?

Answer 40

• PZR liquid must be saturated AND PZR level must be between 34%-44%.
• PZR level must be low enough to accommodate void growth and high enough to cover the PZR heaters and prevent letdown from isolating.

Question 41

While performing ES-0.3 (Natural Circulation Cooldown with Steam Void in Vessel) what is the cooldown rate limit?

Answer 41

< 100F in any 60 minute period.

Question 42

While performing ES-0.3 (Natural Circulation Cooldown with Steam Void in Vessel) why must RVLIS upper plenum level be maintained >70%

Answer 42

Allows void growth to reach the hot legs WITHOUT disrupting natural circulation. (Entraining steam that would travel to the S/G U-tubes)

Question 43

What are the criteria to enter ES-0.0? (Rediagnosis)

Answer 43

• E-0 has been completed
• Operators are currently in an EOP series procedure
• SI is required OR is in service
• Operator judgement