Initial Submittal of the SRO Written Exam for Duane Arnold Initial Examination - Jan/Feb 2005

ML051250185
Person / Time
Site:	Duane Arnold
Issue date:	01/31/2005
From:	Hironori Peterson NRC/RGN-III/DRS/OLB
To:	Nuclear Management Co
References
50-331/05-301 50-331/05-301
Download: ML051250185 (168)
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Text

QF-1030-03 Rev. 3 (FP-T-SAT-30)

WRITTEN EXAMINATION COVERSHEET Trainee Name:

Employee Number: Site: DAEC Examination Number/Title: 58_05-ILC-SRO NRC-Written Training Program: Operations Course/Lesson Plan Number(s): Senior Reactor Operator, 50008 GRADE:

Total Points Possible: 25 PASS CRITERIA: 70% Grade: /25=  %

Graded by: Date:

Co-graded by (not required if Scantron graded): Date:

EXAMINATION RULES

1. References may not be used during this examination, unless otherwise stated.

2. Read each question carefully before answering. If you have any questions or need clarification during the examination, contact the examination proctor.

3. Conversation with other trainees during the examination is prohibited.

4. Partial credit will not be considered, unless otherwise stated. Show all work and state all assumptions when partial credit may be given.

5. Rest room trips are limited and only one examinee at a time may leave.

6. For exams with time limits, you have minutes to complete the examination.

7. Feedback on this exam may be documented on QF-1040-13, Exam Feedback Form. Contact Instructor to obtain a copy of the form.

EXAMINATION INTEGRITY STATEMENT Cheating or compromising the exam will result in disciplinary actions up to and including termination.

I acknowledge that I am aware of the Examination Rules stated above, Further, I have not given, received, or observed any aid or information regarding this examination prior to or during its administration that could compromise this examination.

Examinees Signature: Date:

REVIEW ACKNOWLEDGEMENT I acknowledge that the correct answers to the exam questions were indicated to me following the completion of the exam. I have had the opportunity to review the examination questions with the instructor to ensure my understanding.

Examinees Signature: Date:

Retention: Life of plant insurance policy + 10 yr.

Retain in: Training Records 57_05-ILC-SRO-NRC-written_xm.doc Rev. 0

Figures for Question # 20 IPOI-8 APPENDIX 2 DAEC DECAY HEAT CURVE Page 1 of 2 RFO-18 Decay Heat Curve (Days After Shutdown) 3.50E+07 3.00E+07 Decay Heat BTUs/hr.

2.50E+07 2.00E+07 1.50E+07 1.00E+07 5.00E+06 0.00E+00 1 6 11 16 21 26 31 36 41 46 51 56 61 66 71 76 81 86 91 96 Days After Shutdown Note: The decay heat curves experience negligible changes each cycle. Therefore, the curves in this procedure are not updated unless it is determined that the changes are significant with regard to decay heat & Time-To-Boil determination. Cycle-specific curves are provided to the Operations Department prior to scheduled refueling outages and may be utilized in lieu of the curves provided in this procedure.

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20B.doc Page 20B1 Written Exam

Figures for Question # 20 IPOI-8 APPENDIX 2 DAEC DECAY HEAT CURVE Page 2 of 2 RFO 18 Decay Heat Curve (Hours After Shutdown) 8.00E+07 7.00E+07 Decay Heat BTUs/hr.

6.00E+07 5.00E+07 4.00E+07 3.00E+07 2.00E+07 1.00E+07 0.00E+00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Hours After Shutdown Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20B.doc Page 20B2 Written Exam

Figures for Question # 20 ATTACHMENT 3 TIME-TO-BOIL CALCULATION The following formula may be used to calculate Time-To-Boil in either the Reactor or Fuel Pool:

(212°F - Actual Temp)

Time To Boil = -----------------------------------------------------------------------

(Actual Decay Heat - Heat Removal Capacity) / (K)

Actual Temp (°F) - Check the appropriate box for the input source.

Reactor Temperature Fuel Pool Temperature Actual Decay Heat (BTU/Hr) - Check the appropriate box for the input source.

Typical curves in Appendix 2.

Optimized curves verified by Systems Engineering.

Heat Removal Capacity (BTU/Hr) - Check the appropriate box for the input source.

Typical data in Appendix 3.

Optimized data verified by Systems Engineering.

Assume NONE for the shiftly Time-To-Boil Calc.

Constant K - Constant equivalent to the value (m cp). Select the appropriate value for current plant conditions:

Fuel in Vessel, RPV Level at 200" K = 668,600 BTU/°F 6

Fuel in Vessel, RPV Flooded K = 3.99 x 10 BTU/°F 6

Fuel in Fuel Pool, Pool Full K = 2.05 x 10 BTU/°F (212 °F - ______ °F)

Time To Boil =

(______ BTU/Hr - ______ BTU/Hr) / (______ BTU/ °F)

( ______ °F)

Time To Boil =

(______ BTU/Hr / (______ BTU/ °F)

( ______ °F)

Time To Boil =

(______ °F/Hr)

Time To Boil = ______ Hr Prepared By: ____________________________________Date: ________________ Time: ___________

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20B.doc Page 20B3 Written Exam

Figures for Question # 20 ATTACHMENT 4 TIME-TO-150°F CALCULATION The following formula may be used to calculate Time-To-150°F in either the Reactor or Fuel Pool:

(150°F - Actual Temp)

Time To 150°F = -----------------------------------------------------------------------

(Actual Decay Heat - Heat Removal Capacity) / (K)

Actual Temp (°F) - Check the appropriate box for the input source.

Reactor Temperature Fuel Pool Temperature Actual Decay Heat (BTU/Hr) - Check the appropriate box for the input source.

Typical curves in Appendix 2.

Optimized curves verified by Systems Engineering.

Heat Removal Capacity (BTU/Hr) - Check the appropriate box for the input source.

Typical data in Appendix 3.

Optimized data verified by Systems Engineering.

Assume NONE for the shiftly Time-To-Boil Calc.

Constant K - Constant equivalent to the value (m cp). Select the appropriate value for current plant conditions:

Fuel in Vessel, RPV Level at 200" K = 668,600 BTU/°F 6

Fuel in Vessel, RPV Flooded K = 3.99 x 10 BTU/°F 6

Fuel in Fuel Pool, Pool Full K = 2.05 x 10 BTU/°F (150 °F - ______ °F)

Time To 150° F =

(______ BTU/Hr - ______ BTU/Hr) / (______ BTU/°F)

( ______ °F)

Time To 150° F =

(______ BTU/Hr / (______ BTU/°F)

( ______ °F)

Time To 150° F =

(______ °F/Hr)

Time To 150° F = ______ Hr Prepared By: ____________________________________Date: ________________ Time: ___________

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20B.doc Page 20B4 Written Exam

Figures for Question # 20 AOP 149 APPENDIX 1 HEATUP RATE CURVE - RPV FLOODED Vessel Water Heatup Rate (Floodup Condition) 8.00 7.00 6.00 5.00 4.00 3.00 2.00 1.00 0.00 T ime S ince S hutdown (D a ys)

CAUTION The initial heatup rate in the vessel may be higher than the calculated value when RHR or Fuel Pool Cooling is removed from service. The calculation used to generate the heatup rate curves assumes instantaneous mixing and heat transport from the fuel area to the remainder of the system volume. In addition, the calculated heatup rates reflect bulk temperatures not local temperatures. Under natural circulation conditions and the resulting time delay in heat transport, considerable differences in temperature may exist between the vessel and upper levels of the cavity or in the spent fuel pool.

In some cases local boiling may occur but bulk boiling will not occur as long as cooling is restored within the calculated time-to-boil period.

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20A.doc Page 20A1 Written Exam

Figures for Question # 20 AOP 149 APPENDIX 2 HEATUP RATE CURVE - RPV LEVEL AT 200" Vessel Water Heatup Rate (Water Level =200")

50.00 45.00 40.00 35.00 30.00 25.00 20.00 15.00 10.00 5.00 0.00 T ime S ince S hutdown (D a ys)

CAUTION The initial heatup rate in the vessel may be higher than the calculated value when cooling is removed from service. The calculation used to generate the heatup rate curves assumes instantaneous mixing and heat transport from the fuel area to the remainder of the system volume. In addition, the calculated heatup rates reflect bulk temperatures not local temperatures. Under natural circulation conditions and the resulting time delay in heat transport, considerable differences in temperature may exist between the fuel area and upper levels of vessel. In some cases local boiling may occur but bulk boiling will not occur as long as cooling is restored within the calculated time-to-boil period.

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20A.doc Page 20A2 Written Exam

Figures for Question # 20 AOP 149 APPENDIX 3 LOSS OF FUEL POOL COOLING HEATUP RATE CURVE Fuel Pool Isolated Water Heatup Rate (Full Core Offload and Previous Spent Fuel) 18.00 16.00 14.00 12.00 10.00 8.00 6.00 4.00 2.00 0.00 T ime S ince S hutdown (D a ys)

CAUTION The initial heatup rate in the spent fuel pool may be higher than the calculated value when cooling is removed from service. The calculation used to generate the heatup rate curves assumes instantaneous mixing and heat transport from the fuel area to the remainder of the system volume. In addition, the calculated heatup rates reflect bulk temperatures not local temperatures. Under natural circulation conditions and the resulting time delay in heat transport, considerable differences in temperature may exist between the fuel area and measured temperatures in fuel pool cooling heat exchanger inlets.

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 20A.doc Page 20A3 Written Exam

Attachment for Question # 19 ANNUNCIATOR PANEL: 1C93 COORDINATES: B-2 REVISION: 5 DATE: 3/19/02 PAGE: 1 of 2 LUBE OIL MAKE UP TANK LEVEL LOW TITLE: SBDG 1G-31 LUBRICATING OIL MAKE UP TANK (1T-114A) LEVEL LOW 1.0 PROBABLE CAUSE(S) / INITIATING DEVICE(S) / SETPOINT(S) 1.1 Oil level in Lube Oil LS-3219A Elev. 766'11" (dec)

Makeup Tank 1T-114A (206 gallons remaining Low in tank-does not include oil in engine sump) 2.0 AUTOMATIC ACTIONS 2.1 None NOTE The low level switch is set so such that there is approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> of run time at 2850 Kw prior to reaching the low-low level alarm (assuming normal consumption rates and engine sump level in the normal band). The low-low level switch is set 1 (3 Gal) above the seven day minimum inventory requirement (257 gal).

3.0 OPERATOR ACTIONS 3.1 At Lube Oil Tank 1T-114A confirm low level condition on LI-3219A and report to the Control Room. If the indication is real, the sight glass will be empty.

3.2 If SBDG 1G-31 is in operation, check the area at SBDG 1G-31 and 1T-114A for leaks and request repairs/initiate a Work Request Card to have Lube Oil added as necessary.

3.3 Continue to monitor Lube Oil Tank 1T-114A level and report any changes to the Control Room.

3.4 Verify the SBDG crankcase oil level is in the normal band.

3.5 If a serious lube oil leak is discovered THEN station a fire watch due to the potential of a fire in the SBDG Room AND notify Chemistry that a possible chemical spill exsists..

3.6 If the condition worsens and the LOW LOW alarm comes in, perform ARP 1C93 (B-1)

(LUBE OIL MAKE UP TANK LEVEL LOW-LOW).

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19C.doc Page 19C1 Written Exam

Attachment for Question # 19 ANNUNCIATOR PANEL: 1C93 COORDINATES: B-2 REVISION: 5 DATE: 3/19/02 PAGE: 2 of 2 4.0 SUPPLEMENTAL ACTIONS 4.1 If needed initiate a Work Request Card to have the tank 1T-114A repaired.

5.0 REFERENCES

5.1 M015-6(2) 5.2 BECH-M132 5.3 BECH-M404<25>

5.4 ARP 1C93 (B-1) 5.5 DCP-586 5.6 CAL-M76-06 5.7 CAL-M76-07 5.8 Letter IE-77-1537 5.9 AR-12770 5.10 AR-13680 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19C.doc Page 19C2 Written Exam

Attachment for Question # 19 ANNUNCIATOR PANEL: 1C93 COORDINATES: B-1 REVISION: 5 DATE: 3/19/02 PAGE: 1 of 3 LUBE OIL MAKE UP TANK LEVEL LOW-LOW TITLE: SBDG 1G-31 LUBRICATING OIL MAKE UP TANK (1T-114A) LEVEL LOW-LOW 1.0 PROBABLE CAUSE(S) / INITIATING DEVICE(S) / SETPOINT(S) 1.1 Oil Level in Lube Oil LS-3219B Elev. 766'8" (dec)

Makeup Tank 1T-114A (196 gallons remaining low-low in tank-does not include oil in engine sump) 2.0 AUTOMATIC ACTIONS 2.1 None; however, if all Lube Oil is lost, SBDG 1G-31 auto trips on low Lube Oil pressure.

NOTE The low-low level alarm is set to actuate at 1 (3 gal) above the seven day minimum requirement (257 gal). However, since there is no method to determine tank level below the low-low level alarm, the SBDG lube oil inventory cannot be assured to be > 221 gal.

and the SBDG must be declared inoperable. Refer to T.S.3.8.3.

3.0 OPERATOR ACTIONS 3.1 At Lube Oil Make Up Tank 1T-114A confirm low-low level condition on LI-3219A and report to the Control Room. If the indication is real, the sight glass will be empty and the low level alarm will be in.

3.2 If SBDG 1G-31 is in operation, check the area at SBDG 1G-31 and 1T-114A for leaks and perform the following:

a. At Panel 1C91 monitor lube oil pressure on PI-3254A and oil temperature on TI-3257A.

b. Verify SBDG crankcase oil level.

3.3 (Control Room) If SBDG 1G-31 is running and NO LOOP or LOCA emergency exists AND (Locally) if a serious lube oil leak is discovered THEN Unload and trip SBDG 1G-31 and notify OSS.

(Continued)

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19B.doc Page 19B1 Written Exam

Attachment for Question # 19 ANNUNCIATOR PANEL: 1C93 COORDINATES: B-1 REVISION: 5 DATE: 3/19/02 PAGE: 2 of 3 3.0 OPERATOR ACTIONS (Continued) 3.4 If SBDG 1G-31 is running and a LOOP or LOCA emergency exists AND a serious lube oil leak is discovered THEN perform either of the following:

CAUTION Do not secure or override an ECCS system initiation unless by at least two independent indications adequate core cooling is assured.

a. If offsite power is available THEN transfer load to offsite power per OI 304.2, and trip SBDG 1G-31 per OI 324.

b. If offsite power is not available THEN Reduce load on SBDG 1G-31 by shifting core cooling to SBDG 1G-21 and securing equipment powered from SBDG 1G-31 per OI 304.2 OR If SBDG 1G-21 IS NOT available THEN

1) Maintain minimum adequate core cooling load possible on SBDG 1G-31.

2) If 1T-114A level is <10" from the bottom of the tank, monitor level periodically.

3) Verify adequate SBDG 1G-31 Room Cooling in service.

3.5 If a serious lube oil leak is discovered THEN station a fire watch due to the potential of a fire in the SBDG Room AND notify Chemistry that a possible chemical spill exists.

4.0 SUPPLEMENTAL ACTIONS 4.1 If due to a component failure, initiate a Work Request Card to have the SBDG 1G-31 lube oil system checked/repaired as necessary.

4.2 Alarm indicates < 221 gallons of total oil inventory in 1T114A and crankcase refer to T.S.

3.8.3 and take required actions.

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19B.doc Page 19B2 Written Exam

Attachment for Question # 19 ANNUNCIATOR PANEL: 1C93 COORDINATES: B-1 REVISION: 5 DATE: 3/19/02 PAGE: 3 of 3

5.0 REFERENCES

5.1 M015-6(2) 5.2 BECH-M132 5.3 BECH-M404<25>

5.4 OI 304.2, 324 5.5 DAEC Tech. Spec.

5.6 CAL-M76-006 5.7 CAL-M76-007 5.8 DCP-586 5.9 AR-13680 5.10 AR-12770 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19B.doc Page 19B3 Written Exam

Attachment for Question # 19 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19A.doc Page 19A1 Written Exam

Attachment for Question # 19 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19A.doc Page 19A2 Written Exam

Attachment for Question # 19 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 19A.doc Page 19A3 Written Exam

Attachment for Question # 18 Senior Reactor Operator, 60006 Rev. 0 57_05-ILC-SRO-NRC-written_xm-Attchmnt 18A.doc Page 18A1

Attachment for Question # 16 Senior Reactor Operator, 60006 Rev. 0 57_05-ILC-SRO-NRC-written_xm-Attchmnt 16A.doc Page 16A1 Written Exam

Attachment for Question # 16 Senior Reactor Operator, 60006 Rev. 0 57_05-ILC-SRO-NRC-written_xm-Attchmnt 16A.doc Page 16A2 Written Exam

Attachment for Question # 16 Senior Reactor Operator, 60006 Rev. 0 57_05-ILC-SRO-NRC-written_xm-Attchmnt 16A.doc Page 16A3 Written Exam

Attachment for Question # 15 SA2 SS2 SG2 Failure of Reactor Protection System Instrumentation Failure of Reactor Protection System Failure of the Reactor Protection System to to Complete or Initiate an Automatic Reactor Scram Instrumentation to Complete or Initiate an Complete an Automatic Scram and Manual Scram Once a Reactor Protection System Setpoint Has Been Automatic Reactor Scram Once a Reactor was NOT successful and There is Indication of an Exceeded and Manual Scram Was Successful Protection System Setpoint Has Been Exceeded Extreme Challenge to the Ability to Cool the Core and Manual Scram Was NOT Successful Operating Modes: Run, Startup Operating Modes: Run, Startup Operating Modes: Run, Startup Auto Scram Failure In ATWS EOP In ATWS EOP AND AND AND RPS FAILURE Operator actions to reduce power are None SUCCESSFUL as indicated by either: Operator actions to reduce power are Loss of adequate core cooling or decay heat UNSUCCESSFUL as indicated by either: Removal capability as indicated by either:

ALL Rods Full-In, Reactor power above the APRM OR RPV level cannot be maintained above -

Downscale Alarm on ANY valid APRM Reactor Shutdown Under All Conditions instrument. 25 inches.

Without Boron, OR OR OR Boron Injection Initiation Temperature (BIIT) Curve (EOP Graph 6) exceeded. HCL Curve (EOP Graph 4) exceeded.

Reactor power below the APRM Downscale Alarm on ALL valid APRM instruments SU2 SA3 SS4 Inability to Reach Required Shutdown Within Technical Specification Inability to Maintain Plant in Cold Shutdown Complete Loss of Heat Removal Capability Limits Operating Modes: Cold S/D, Refuel Operating Modes: Run, Startup, Hot S/D Operating Modes: Run, Startup, Hot S/D Loss of decay heat removal systems required to maintain EOP Graph 4 Heat Capacity Limit is exceeded INABILITY TO Cold Shutdown.

REACH OR Plant NOT brought to required mode within applicable LCO Action Statement Time. AND See Fission Barrier Table MAINTAIN Temperature rise that exceeds 212ºF SHUTDOWN CONDITIONS OR Uncontrolled temperature rise approaching 212ºF SS5 Loss of Water Level in the Reactor Vessel That Has or Will Uncover Fuel in the Reactor Vessel Operating Modes: Cold S/D, Refuel RPV level below 15 inches, indicating that the core is or will be uncovered.

AND Loss of all decay heat removal.

SU3 SA4 SS6 Unplanned Loss of Most or All Safety System Annunication or Indication Unplanned Loss of Most or All Safety System Inability to Monitor a Significant Transient in in the Control Room for Greater Than 15 Minutes Annunication or Indication in Control Room With Progress Either (1) a Significant Transient in Progress, or (2)

Operating Modes: Run, Startup, Hot S/D Operating Modes: Run, Startup, Hot S/D Compensatory Non-Alarming Indicators Unavailable Unplanned loss of most or all 1C03, 1C04 and 1C05 annunciators or Significant transient in progress and ALL of the Operating Modes: Run, Startup, Hot S/D indicators associated with Critical Safety Functions for greater than 15 following:

minutes. Unplanned loss of most or all 1C03, 1C04 and 1C05

• Loss of most or all annunciators on Panels See Fission Barrier Table Annuciators or indicators associated with Critical Safety 1C03, 1C04 and 1C05.

AND Functions for greater than 15 minutes.

AND Compensatory non-alarming indications are AND

• Loss of compensatory non-alarming available. Either of the following conditions exist: indications.

INSTRUMENTATION /

• A significant plant transient in progress. AND COMMUNICATION OR Loss of indicators needed to monitor criticality, OR core heat removal, OR Fission Product Barrier status.

• Loss of compensatory non-alarming indications.

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Figure for Question # 14 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 14A.doc Page 14A Written Exam

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Figures for Question # 11 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 11A.doc Page 11A Written Exam

Figures for Question # 11 RPS Electrical Lineup 480 VAC MCC 480 VAC MCC 1B32 1B42 1B3211 1B3216A 1B4203A 1B4216 1Y1A01 1Y2A01 Regulating Regulating Transformer Transformer 1Y1A 1Y2A 1Y1A02 1Y2A02 Manual Dist Panel Dist Panel Manual Bypass 1Y16 1Y26 Bypass Switch Switch Panel 1Y16-10 1Y26-10 Panel 1Y15 1Y25 Manual Transfer RPS RPS MG Switch MG Set Set 1Y36 1G51 1G61 EPA C1 EPA EPA A1 B1 EPA C2 EPA EPA A2 1C15 1C17 B2 W W W W C71B-S1A C71B-S1B MG A ALT ALT MG B C71B-CB1 (1Y30A00) 1Y30 Bus "A" RPS Electrical Distribution Panel 1Y30 Bus "B" 1Y30 Date Updated:_________________ Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 11A.doc Page 11B Written Exam

Attachment for Question #7 AOP 913 FIRE ABNORMAL OPERATING PROCEDURE AOP 913 FIRE Usage Level Reference Use Enter the following as applicable:

FIRE ALARMS REQUIRING IMMEDIATE FIRE BRIGADE PAGE 2 ACTIVATION FIRE AREAS PAGE 9 SAFE SHUTDOWN PATHS PAGE 15 OFFSITE ASSISTANCE PAGE 95 ATTACHMENT 1 , RPV LEVEL CONTROL PAGE 99 ATTACHMENT 2 , CONTROL BLDG. MANUAL DAMPER PAGE 102 CONTROL NOTE Refer to EPIP for EAL Assessment NOTE Throughout this procedure fire response actions will require entry into various T.S. LCOs.

AOP 913 Page 1 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A1 Written Exam

AOP 913 FIRE FIRE ALARMS REQUIRING IMMEDIATE FIRE BRIGADE ACTIVATION 1C40, A-2 DG 1G-31 OR DAY TANK 1T-37A PRE-ACTION SYSTEM NO. 2 INITIATED A-3 DG 1G-21 OR DAY TANK 1T-37A PRE-ACTION SYSTEM NO. 3 INITIATED B-1 DIESEL FIRE PUMP 1P-49 SPRINKLER SYSTEM NO. 7 INITIATED C-1 RCIC ROOM DELUGE NO. 1 INITIATED C-2 HPCI ROOM DELUGE NO. 2 INITIATED 1C40A, A-1 PUMPHOUSE S/R PIPING AREA FIRE SPRINKLER INIT A-3 REACTOR BLDG R.S.P. 1C-388 FIRE A-5 R.B. HT. EXCH./CHILLER EL. 812' FIRE SPRINKLER INIT D-3 R.B. EQUIPMENT HATCH EL. 786' FIRE DELUGE INIT E-1 CONTROL BLDG. RSP FUSE PANEL 1C422A FIRE E-3 REACTOR BLDG. RSP FUSE PANEL 1C422B FIRE 1C40, DETECTION ZONE WHITE INDICATING LIGHTS (RED FRONT PANEL)

DET. ZONE 13 250V BATTERY RM. (MIDDLE)

DET. ZONE 14 125V BATTERY ROM (WEST)

DET. ZONE 15 1A4 SWGR RM. (WEST)

DET. ZONE 16 1A3 SWGR RM. (EAST)

DET. ZONE 17 125V BATTERY RM. (EAST)

DET. ZONE 21 A DIESEL GEN. RM. (EAST)

DET. ZONE 22 DIESEL GEN. RM. (WEST) 1C40, FIUs RAN-36A REMOTE FIRE ANNUNCIATOR (LOCATED ON SIDE)

1. 17 RX. BLDG. N.E. CORNER ROOM DET. ZONE 41

1. 18 RX. BLDG. N.W. CORNER ROOM DET. ZONE 42

1. 19 RX. BLDG. S.E. CORNER ROOM DET. ZONE 43

1. 20 RX. BLDG. S.W. CORNER ROOM DET. ZONE 44

1. 21 PUMP HOUSE DET. ZONE 45

1. 26 INTAKE DET. ZONE 50 AOP 913 Page 2 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A2 Written Exam

AOP 913 FIRE IMMEDIATE ACTIONS

1. Determine location of the fire by reviewing 1C40 and 1C40A annunciators, 1C40B alarm messages and zone indicating units (ZIU) alarms. _______

2. If the fire alarm is the result of a smoke alarm or a trouble alarm, send an operator to the scene to determine the extent of the fire. _______

3. If the alarm window has a RED Lens and/or a fire is seen, activate the DAEC Fire Brigade by sounding the site fire alarm and making the appropriate announcement over the plant page. Repeat Site Fire alarm and page announcement. If the cause is known not to be a fire, then the Fire Brigade need not be activated. _______

4. IF the fire is in the Control THEN enter AOP 915, Shutdown Room, Cable Spreading Outside Control Room and Room, Control Bldg. execute concurrently with HVAC Area or Back Panel this procedure. _______

Area

5. If the fire cannot be extinguished promptly or if fire is outside the protected area, request offsite fire assistance per the OFFSITE ASSISTANCE section and activate the backup fire brigade. _______

6. As necessary, provide for maximum water to the fire pump suction as follows:

a. Maximize makeup flow to the stilling basin. _______

b. For a fire at the intake structure provide 2000 gpm or more to the discharge canal with blowdown or radwaste dilution for use as a drafting source by offsite fire department. For all other fires secure blowdown and radwaste dilution. _______

7. Go to the FIRE AREA section to determine the appropriate SAFE SHUTDOWN PATH subsection (ADM, CB1, RB1, etc.) to enter _______

8. Perform the steps of the appropriate SAFE SHUTDOWN PATH subsection in parallel with the FOLLOW-UP ACTIONS section. _______

AUTOMATIC ACTIONS

- Electric Fire Pump 1P-48 starts

- Diesel Fire Pump 1P-49 starts

- Affected fire area sprinkler/deluge system activates.

AOP 913 Page 3 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A3 Written Exam

AOP 913 FIRE FOLLOW-UP ACTIONS

1. IF any of the following THEN shut down the reactor as follows:

systems are affected 1) Run recirc flow control to 27 Mlb/hr. _______

by the fire

2) Manually scram the reactor _______

MANUAL SCRAM Hydrogen Seal Oil Turbine Lube Oil 3) Enter IPOI 5, Reactor Scram Generator H2 System concurrently with this procedure _______

Main Transformer 4) Deenergize affected equipment Main Turbine _______

Main Generator Both Reactor Recirc MG Sets Alterrex EHC Oil System Both Feed Pumps Both Cond. Pumps Both Circ. Water Pumps Both Cooling Towers

2. IF only one Reactor THEN reduce recirc MG Set speed of the Recirc MG Set is affected MG set to minimum _______

affected by fire AND trip the affected MG set _______

AND Perform ARP 1C04A A-4 [1C04B,A-1]

"A"["B"] RECIRC MG DRIVE MOTOR TRIP OR MOTOR OVERLOAD _______

3. IF only one of the THEN reduce reactor power to less than 50% as following components rapidly as possible per IPOI 4, Section have been affected by 6.0, Fast Power Reduction _______

the fire:

AND Condensate Pumps secure the affected equipment _______

Reactor Feed Pumps Circ Water Pumps Cooling Towers AOP 913 Page 4 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A4 Written Exam

AOP 913 FIRE FOLLOW-UP ACTIONS (continued)

NOTE For the determination of EALs, the fifteen (15)-minute clock begins when the Control Room is notified or the control room alarm is verified.

4. IF any fire in a safe shut down THEN refer to EPIP for EAL determination _______

equipment area cannot be extinguished within fifteen (15) minutes of detection OR the fire spreads into another safe shutdown equipment area.

5. IF the fire is outside the THEN the Operations Shift Manager or protected area Control Room Supervisor shall determine if Fire Brigade response can be made without endangering the power plant. _______

NOTE There are NO fire related EAL's for the ISFSI.

6. IF the fire is inside the ISFSI THEN the Operations Shift Manager or area Control Room Supervisor shall determine the possible threat to the stored fuel. _______

AND Determine if Fire Brigade response can be made without endangering the Power Plant. _______

7. Shut down equipment and electrical distribution affected by the fire. ______

8. Refer to Technical Specifications and enter appropriate LCOs. ______

9. As time allows, monitor the operation of the Electric Fire Pump 1P-48 and the Diesel Fire Pump 1P-49, if running. ______

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AOP 913 FIRE FOLLOW-UP ACTIONS (continued)

10. WHEN the fire has been THEN complete the following actions:

extinguished

1) Notify DAEC Fire Marshal. _______

2) Secure any activated deluge or sprinkler system.

3) Station a reflash watch in the fire area. _______

4) Return Fire Protection System to standby by securing fire pumps per OI 513, Section 7.0 and return fire pumps to standby readiness per section 3.4 and 3.5. _______

5) Direct Health Physics personnel to conduct surveys in the fire area. _______

6) Restore fire fighting equipment to its required locations _______

OR place fire watches until the equipment is declared operable. _______

7) Restore normal stilling basin makeup and blowdown, as necessary. _______

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AOP 913 FIRE PROBABLE ANNUNCIATORS Any fire annunciator on Panel 1C-40 or 1C-40A 1C40B Alarm Zone Indicating Unit (ZIU) Alarms PROBABLE INDICATIONS Any Site Fire/Smoke alarm activation Any sprinkler/deluge system activation Any unplanned automatic start of a fire pump AOP 913 Page 7 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A7 Written Exam

AOP 913 FIRE THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 8 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A8 Written Exam

AOP 913 FIRE FIRE AREAS FIRE AREAS AOP 913 Page 9 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A9 Written Exam

AOP 913 FIRE FIRE AREAS NOTE PALO FIRE DEPARTMENT ---------- 911 CEDAR RAPIDS FIRE DEPARTMENT ---------- 911 AOP 913 Page 10 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A10 Written Exam

AOP 913 FIRE FIRE AREAS ADMIN/SECURITY IF the fire is in the THEN go to Admin Bldg First Floor AFP-51 Second Floor AFP-52 Third Floor AFP-53 Security Bldg ADM SCP AFP-54 Lobby, Ingress/Egress AFP-54 Offices, Lunch Room AFP-55 CAS,UPS,Repair Room AFP-55 CONTROL BLDG IF the fire is in the THEN go to Cable Spreading Room AFP-25 Control Room AFP-26 AOP 915 Control Room HVAC Room* AFP-27 Requires Manual Operator Action within 20 minutes*

Battery Room 1D2 AFP-23 Essential Switchgear 1A4 AFP-24 CB2 Battery Room 1D1 AFP-23 Essential Switchgear 1A3 AFP-24 CB3 North Turb. Bldg/Rx Bldg Air Lock in NONE overhead (chase above airlock)

Battery Room Corridor AFP-23 Battery Room 1D4 AFP-23 CB4

• A fire in the Control Room HVAC Room also requires the opening of V-33-0220, Sprinkler system #12 Shutoff. (TURB. Bldg., 757' North Open End, East of Feed water Reg. Valves)

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AOP 913 FIRE FIRE AREAS INTAKE STRUCTURE IF the fire is in the THEN go to A RWS Pumps AFP-31 A RWS Screen Wash Area AFP-32 IS1 B RWS Pumps AFP-31 B RWS Screen Wash Area AFP-32 IS2 PUMP HOUSE IF the fire is in the THEN go to B RHR/ESW Service Water Pumps AFP-28 RWS Makeup Valve Area South end Pump House Elev 747 AFP-30 AFP-30 PH1 North end Pump House Elev 747' AFP-30 A RHR/ESW Service Water Pumps AFP-28 PH2 OUTSIDE AREA IF the fire is in the THEN go to Div. 1 Manhole (manholes from near None turbine bldg to intake structure)

Div. 2 Manhole (manholes from near None turbine bldg to intake structure)

Diesel Fuel Oil Supply None A Cooling Tower AFP-73 B Cooling Tower AFP-73 YARD Off Gas Stack None Switchyard AFP-74 Standby Transformer 1X4 AFP-70 East Warehouse AFP-67 West Warehouse AFP-68 ISFSI AFP-79 Startup Transformer 1X3 AFP-71 Auxiliary Transformer 1X2 AFP-72 TB1 Main Transformers 1X1 AFP-69 Requires manual operator action within 30 minutes AOP 913 Page 12 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A12 Written Exam

AOP 913 FIRE FIRE AREAS TURBINE BLDG IF the fire is in the THEN go to Turbine Bldg AFP 14-22 Startup transformer 1X3 AFP 71 TB1 Main Transformers 1X1 AFP 69 Requires manual operator Auxiliary Transformer 1X2 AFP 72 action within 30 minutes.

REACTOR BLDG IF the fire is in the THEN go to Torus Room (Bays 1-5 AFP-01 and 11-16 )

NW Corner Room HPCI ROOM AFP-01 AFP-03 RB1 SW CORNER ROOM AFP-02 Requires Manual Operator North CRD AREA AFP-04 Action within 20 minutes if South CRD AREA AFP-05 all high pressure injection CRD Repair Room AFP-04 systems are lost and a RHR Valve Room AFP-06 SRV is stuck open.

Steam Tunnel AFP-17 Torus Room (Bays 6-10) AFP-01 S.E. Corner Room AFP-02 RCIC Room Radwaste Tank Room AFP-03 AFP-03 RB2 (1T-70)

Reactor Building 786' AFP- 07 & 08 Reactor Building 812' AFP- 09 & 10 RB3 Reactor Building 833' AFP- 11 & 12 Requires Manual Operator Reactor Building 855' AFP-13 Action within 20 minutes if North RB Chase AFP-04 all high pressure injection North RB Stair # 8 AFP-04 systems are lost and a South RB Stair # 6 AFP-05 SRV is stuck open.

RB Exhaust Fan Room AFP-10 N.E. Corner Room AFP-01 RB4 AOP 913 Page 13 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A13 Written Exam

AOP 913 FIRE THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 14 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A14 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS SAFE SHUTDOWN PATHS AOP 913 Page 15 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A15 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS ADM THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 16 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A16 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS ADM ADM INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN ADMIN BLDG. FIRST FLOOR AFP-51 SECOND FLOOR AFP-52 THIRD FLOOR AFP-53 SECURITY BLDG. SCP AFP-54 LOBBY, INGRESS, EGRESS AFP-54 OFFICES, LUNCH ROOM AFP-55 CAS, UPS, REPAIR ROOM AFP-55 AOP 913 Page 17 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A17 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS ADM The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler B CB HVAC A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray X A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler X Control Room Lights X B RHR/CS Room Cooler Offsite Power X A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power X A RHR SW and HVAC X 250 VDC power X B RHR SW and HVAC A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the control room is notified or the alarm is verified NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS ADM Entry Conditions for ADM FIRE in ADM AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Loss of Instrument AC if FUEL ZONE level only indication available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS ADM MANUAL ACTIONS FOR LEVEL INDICATIONS IF the FUEL ZONE LEVEL THEN 1. OPEN 1Y1118 _______

INDICATORS are the only level 2. OPEN 1Y1141 _______

indicators being used to monitor 3. Place 1Y10 in ALTERNATE _______

level and 120 VAC Instrument Control Power Panel 1Y11 is lost IF the FUEL ZONE LEVEL THEN 1. OPEN 1Y2118 _______

INDICATORS are the only level 2. OPEN 1Y2141 _______

indicators being used to monitor 3. Place 1Y20 in ALTERNATE _______

level and 120 VAC Instrument Control Power Panel 1Y21 is lost LEVEL CONTROL:

Use A Core Spray with normal operating instructions and any systems directed by CRS TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use A RHR with normal operating instructions and any systems directed by CRS.

SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use A RHR with normal operating instructions and any systems directed by CRS.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB2 CB2 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN CONTROL Battery Room 1D2 AFP-23 Essential Switchgear 1A4 AFP-24 AOP 913 Page 21 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A21 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS CB2 The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler B CB HVAC A LPCI A Instrument AC X B LPCI B Instrument AC A Core Spray X A Diesel and support systems X B Core Spray B Diesel and support systems A RHR/CS Room Coolers X Control Room Lights X B RHR/CS Room Coolers Offsite Power A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power A RHR SW and HVAC X 250 VDC power B RHR SW and HVAC A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB2 NOTE Smoke may enter the Control Room via a common supply and exhaust HVAC duct with CB2. Smoke may be detected by sight, smell, or eye/throat irritation.

The following steps should be taken anytime there is a fire in area CB2.

NOTE When Fire exists in the CB2 fire area, the availability of the Remote Shutdown Panel cannot be guaranteed.

IF Smoke is detected in Control THEN 1. evacuate unnecessary personnel Room, from the Control Room _______

2. direct the operating crew to don SCBA's _______

3. Scram the reactor. _______

MANUAL SCRAM

1. At 1C26A[B] secure Control Room ventilation as follows:

a. Verify secured CONTROL RM RETURN FAN 1V-RF-30A(B) using handswitch HS6104A (B). _______

b. Verify secured CONTROL ROOM SUPPLY FAN 1V-AC-30A(B) using handswitch HS6113A (B). _______

c. At 1C26A verify secured COMPUTER ROOM SUPPLY FAN 1V-AC-33 using handswitch HS6120U. _______

2. Provide ventilation to the Control Room and Control Building HVAC room as follows:

a. Block open Control Room access Doors 420, 423 and Admin building roof access door 301A. _______

b. Direct installation of a smoke ejector on the Admin building roof outside door 301A blowing air into the corridor to provide positive pressurization of the corridor to improve Control Room habitability. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB2

c. Block open the intake plenum Doors 415 and 416 to evacuate smoke out the main air intake. _______

3. When the fire is extinguished and the smoke has been cleared, and air quality has been verified in the Control Room and Control Building HVAC Room, restore ventilation as follows:

a. Remove SCBAs. _______

b. At 1C26A start CONTROL ROOM SUPPLY FAN 1V-AC-30A by momentarily placing handswitch HS6113A in the START position. _______

c. At 1C26A start CONTROL RM RETURN FAN 1V-RF-30A by momentarily placing handswitch HS6104A in the START position. _______

d. At 1C26A start COMPUTER ROOM SUPPLY FAN 1V-AC-33 by momentarily placing handswitch HS6120U in the START position. _______

4. Control room temperatures may be high (above 90°F) due to loss of damper control. The temperatures may be lowered by taking the following manual actions As Soon As Possible.

a. Above 1V-AC-30B in the CB HVAC Room, close D61-0011 per AOP-913, ATTACHMENT 2. _______

5. Close doors 415, 416, 420, 423 and 301A. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB2 Entry Conditions for CB2 FIRE in CB2 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems .

OR

2. If FUEL ZONE indicators are the only indication being used and 1Y11 is lost.

OR

3. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

OR

4. Loss of 1A3 AOP 913 Page 25 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A25 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS CB2 RPV LEVEL-PRESSURE INDICATION As Soon As Possible:

IF FUEL ZONE indicators are the THEN 4. Monitor RPV level/pressure at 1C56 only indication being used and until Instrument AC is restored _______

1Y11 is lost

5. Open 1Y1128 , which is causing the loss of 1Y11 _______

6. Place 1Y10 in ALTERNATE _______

LEVEL CONTROL Use A Core Spray systems with normal operating instructions and any systems directed by CRS TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use A systems with normal operating instructions and any systems directed by CRS

1. A RHR HX Inlet Temp (TE-1945D) may be the only suppression pool water temperature indication available. This point can be monitored at recorder TRS-1945 at Panel 1C21.

Indication is available after flow has started.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB2 SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use A RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available

1. At 1D42 open 1D4206(MO-1909 may spuriously operate due to the fire). _______

2. Manually open MO-1909 from the RHR VALVE ROOM. _______

CAUTION When a 480 or 4160 breaker cubicle is entered for racking in or out a breaker the personnel protection requirements specified in ACP 1408.25 Electrical Safety shall be adhered to.

3. At 1B44 open and rack out 1B4401. _______

4. At 1C08 close 1B3401. _______

1A3 Restoration The fire may have damaged the auto tripping and closing function of supply breakers to 1A3

1. Refer to AOP 301 tab 4, "RESTORING POWER TO ESSENTIAL 4160 BUSES". Ensure that the "Bus Transfer Switch" (HS 143-3 on 1C08) is in the MANUAL position before tripping breaker 1A301 to allow 1G-31 output breaker to be manually closed to restore power to 1A3. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3 CB3 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN CONTROL Battery Room 1D1 AFP-23 Essential switchgear 1A3 AFP-24 North Turb. Bldg/Rx. Bldg None Air lock in overhead (Chase above airlock)

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3 The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray X B Diesel and support systems X A RHR/CS Room Coolers Control Room Lights X B RHR/CS Room Coolers X Offsite Power A RHR Suppression Pool Cooling 1A3 B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3 NOTE Smoke may enter the Control Room via a common supply and exhaust HVAC duct with CB3. Smoke may be detected by sight, smell, or eye/throat irritation.

The following steps should be taken anytime there is a fire in area CB3.

NOTE When Fire exists in the CB3 fire area, the availability of the Remote Shutdown Panel cannot be guaranteed.

IF Smoke is detected in Control THEN 1. evacuate unnecessary personnel Room, from the Control Room _______

2. direct the operating crew to don SCBA's _______

MANUAL SCRAM 3. Scram the reactor. _______

1. At 1C26A[B] secure Control Room ventilation as follows:

a. Verify secured CONTROL RM RETURN FAN 1V-RF-30A(B) using handswitch HS6104A (B). _______

b. Verify secured CONTROL ROOM SUPPLY FAN 1V-AC-30A(B) using handswitch HS6113A (B). _______

c. At 1C26A verify secured COMPUTER ROOM SUPPLY FAN 1V-AC-33 using handswitch HS6120U. _______

2. Provide ventilation to the Control Room and Control Building HVAC room as follows:

a. Block open Control Room access Doors 420, 423 and Admin building roof access door 301A. _______

b. Direct installation of a smoke ejector on the Admin building roof outside door 301A blowing air into the corridor to provide positive pressurization of the corridor to improve Control Room habitability. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3

c. Block open the intake plenum Doors 415 and 416 to evacuate smoke out the main air intake. _______

3. When the fire is extinguished and the smoke has been cleared, and air quality has been verified in the Control Room and Control Building HVAC Room, restore ventilation as follows:

a. Remove SCBAs. _______

b. At 1C26A start CONTROL ROOM SUPPLY FAN 1V-AC-30A by momentarily placing handswitch HS6113A in the START position. _______

c. At 1C26A start CONTROL RM RETURN FAN 1V-RF-30A by momentarily placing handswitch HS6104A in the START position. _______

4. Control room temperatures may be high (above 90°F) due to loss of damper control. The temperatures may be lowered by taking the following manual actions As Soon As Possible.

a. Above 1V-AC-30B in the CB HVAC Room, close D61-0017 per AOP-913, ATTACHMENT 2. _______

5. Close doors 415, 416, 420, 423 and 301A. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3 Entry Conditions for CB3 FIRE in CB3 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems OR

2. If FUEL ZONE indicators are the only indication being used and 1Y21 is lost OR

3. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3 RPV LEVEL CONTROL Use B Core Spray with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

250 VDC (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action required to support MO-1909).

The fire may have caused a loss of 250 VDC.

1. Open breaker 1D40 ckt. 3. (250 VDC Battery Charger 1D43) _______

2. Open breaker 1D40 ckt. 6. (uninterruptible AC Inverter 1D45 supply) _______

3. Place 1D44 in service per OI-388. _______

SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

NOTE The following steps, if implemented, will override the Group 4 automatic closure of MO1908 and/or MO1909.

1. If MO1909 is closed with an isolation signal present due to a fire, override and open MO1909 as follows:

a. Obtain 14 AWG jumper from the CRS desk or from the warehouse, stock item 100-4864. _______

b. At 1C42, lift and tape lead (either field or panel side) at terminal BB44. _______

c. At 1C42, install 14 AWG jumper from terminal BB40 to terminal BB42. _______

d. When MO 1909 indicates OPEN at 1C03, remove jumper from terminal BB40 and BB42. _______

2. If MO 1908 is closed with an isolation signal present due to a fire, override and open MO 1908 as follows:

a. Obtain 14 AWG jumper from the CRS desk or from warehouse, stock item 100-4864. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB3

b. At 1C41, lift and tape lead (either field or panel side) at terminal BB44. _______

c. At 1C41, install 14 AWG jumper from terminal BB40 to terminal BB42. _______

d. When MO 1908 indicates OPEN at 1C03, remove jumper from terminal BB40 and BB42. _______

CAUTION Perform Manual Actions 3 to 11 listed below in the order listed. These steps are performed to backfeed 1B34.

3. At 1C388 place keylocked handswitch 52-4401/SS in the "EMERG" position. _______

4. At 1C388 place keylocked handswitch 43-206 in the "EMERG." position. _______

5. At 1C388 use handswitch 52-4401E/CS to open breaker 52-4401. _______

6. At 1C390 place keylocked handswitch 52-303/SS in the "EMERG" position. _______

7. At 1C390 place keylocked handswitch HS 2011B in the "EMERG" position. _______

8. At 1C390 use handswitch 52-3401E/CS to open breaker 1B3401. _______

9. At 1B34 open breaker 1B3400. _______

10. At 1C390, use handswitch 52-3401E/CS to close breaker 1B3401. _______

11. At 1C388 use handswitch 52-4401E/CS to close 1B4401. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB4 CB4 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN CONTROL Battery Room Corridor AFP-23 Battery Room 1D4 AFP-23 AOP 913 Page 35 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A35 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS CB4 The Systems credited for a safe shutdown in this subsection include as a minimum Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler X B CB HVAC A LPCI A Instrument AC X B LPCI B Instrument AC A Core Spray A Diesel and support systems X B Core Spray B Diesel and support systems A RHR/CS Room Cooler X Control Room Lights X B RHR/CS Room Cooler Offsite Power A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power X A RHR SW and HVAC X 250 VDC power X B RHR SW and HVAC A or B SBGT and Stack Exh. fans X NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB4 Entry Conditions for CB4 FIRE in CB4 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

OR

3. Loss of 1A3 OR

4. Loss of 1A3 switchgear cooling components which will cause high switchgear temperatures.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB4 Ventilation

1. As soon as possible verify cooling is available in the 1A3 Switchgear Room by observing air flow from the room supply ducts. _______

NOTE By analysis results, the following steps must be completed in 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> if cooling is not available.

2. If flow is not available and re-entry into the Battery Room Corridor or cable spreading room is not possible, then open Door 122 between the 1A3 Switchgear room and the Turbine Building and set up smoke ejectors to provide air movement into the switchgear room. _______

3. If flow is not available and re-entry into the Battery Room Corridor and cable spreading room is possible, then open Door 122 between 1A3 Switchgear Room and the Turbine Building and verify the following dampers are open: _______

1V-FD-317 Between Battery Room Corridor and 1D1 Battery Room. Access is from the Battery Room.

NOTE CARDOX is required to be tagged out per OI-513 before entry into the cable spreading room.

1V-FD-300 Between Battery Room Corridor and the Cable Spreading Room. Access is from the Cable Spreading Room in the North HVAC chase. (Knife and Prybar may be necessary to access damper. Tools are staged in the EOP Toolbox.)

Ventilation (actions required as soon as possible after the CB4 fire)

1. Following the fire, verify cooling is available to the 1D1 Battery Room. _______

2. If the Battery Room exhaust is not available, provide an exhaust path to the Turbine building or the Admin building until the HVAC system is restored. _______

RPV LEVEL CONTROL Use RCIC system with normal operating instructions and any systems directed by CRS.

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AOP 913 FIRE SAFE SHUTDOWN PATHS CB4 TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use A RHR systems with normal operating instructions and any systems directed by CRS.

SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use A RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

1. At 1D42 open breaker 1D4206 for MO1909. _______

2. In the RHR Valve Room, manually open MO-1909. _______

1A3 Restoration The fire may have damaged the auto tripping and closing function of supply breakers to 1A3.

1. Refer to AOP 301 tab 4, "RESTORING POWER TO ESSENTIAL 4160 BUSES". _______

2. Once 1A3 is repowered and 1B32 is restored, return 1D20 to service with 1D120 as charger. Refer to OI-302, section 6.4. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS IS1 THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 40 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A40 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS IS1 IS1 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN INTAKE A RWS PUMPS AFP - 31 INTAKE A RWS SCREEN WASH AREA AFP - 32 AOP 913 Page 41 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A41 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS IS1 Intake Structure (A RWS Pumps, A RWS Screen Wash Area)

The Systems credited for a safe shutdown in this tab include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray X B Diesel and support systems A RHR/CS Room Coolers Control Room Lights X B RHR/CS Room Coolers X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the control room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS IS2 IS2 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN INTAKE B RWS PUMPS AFP - 31 INTAKE B RWS SCREEN WASH AREA AFP - 32 AOP 913 Page 43 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A43 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS IS2 Intake Structure (B RWS PUMPS, B RWS Screen Wash Area)

The Systems credited for a safe shutdown in this tab include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler B CB HVAC A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray X A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler X Control Room Lights X B RHR/CS Room Cooler Offsite Power X A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power X A RHR SW and HVAC X 250 VDC power X B RHR SW and HVAC A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

AOP 913 Page 44 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A44 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS PH1 PH1 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN PUMPHOUSE B RHR/ESW SERVICE WATER PUMPS AFP-28 RWS MAKEUP VALVE AREA 727 AFP-30 South end of Pumphouse Elevation 747 AFP-30 PUMPHOUSE North end of Pumphouse Elevation 747' AFP-30 AOP 913 Page 45 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A45 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS PH1 Pumphouse (B RHR/ESW Service Water Pumps, RWS makeup valve area 727, or South end Pumphouse Elevation 747)

The systems credited for a safe shutdown in this subsection includes as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler X B CB HVAC A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Coolers X Control Room Lights X B RHR/CS Room Coolers Offsite Power X A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 (NO 1B46) X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power X A RHR SW and HVAC X 250 VDC power X B RHR SW and HVAC A or B SBGT and Stack Exh. fans X NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS PH1 North end of the Pumphouse Elevation 747 The systems credited for safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC B RPV/DW/Torus Instrumentation B ESW and HVAC X SRVs ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler X B CB HVAC X A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans X NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS PH2 PH2 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN PUMPHOUSE A RHR/ESW SERVICE WATER PUMPS AFP - 28 AOP 913 Page 49 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A49 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS PH2 Pumphouse (A RHR/ESW Service Water Pumps)

The systems credited for safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs ESW/RHRSW Discharge X HPCI and Room Cooler X A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans X NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS YARD YARD INFORMATION THIS SUBSECTION COVERS THE FOLLOWING FIRE LOCATIONS BUILDING LOCATION AREA FIRE PLAN NONE DIV I MANHOLE None NONE DIV II MANHOLE None NONE DIESEL FUEL OIL SUPPLY None NONE A COOLING TOWER AFP-73 NONE B COOLING TOWER AFP-73 NONE OFF GAS STACK None NONE SWITCH YARD AFP-74 NONE STANDBY TRANSFORMER 1X4 AFP-70 WAREHOUSE EAST WAREHOUSE AFP-67 WAREHOUSE WEST WAREHOUSE AFP-68 Electrical Equipment ISFSI AFP-79 Building AOP 913 Page 51 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A51 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS YARD Div. 1 Manhole (manholes from near turbine building to intake structure)

The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs X ESW/RHRSW Discharge X ADS A CB HVAC HPCI and Room Cooler B CB HVAC X RCIC and Room Cooler A Instrument AC X A LPCI B Instrument AC X B LPCI X A Diesel and support systems A Core Spray B Diesel and support systems B Core Spray Control Room Lights X A RHR/CS Room Cooler Offsite Power X B RHR/CS Room Cooler X 1A3 X A RHR Suppression Pool Cooling 1A4 X B RHR Suppression Pool Cooling X LPCI Swing Bus X RHR Drain to Radwaste X A 125 VDC power X A RHR SDC B 125 VDC power X B RHR SDC X 250 VDC power X A RHR SW and HVAC A or B SBGT and Stack Exh. fans B RHR SW and HVAC X NOTE For the determination of EALs, the fifteen (15) minute clock begins when the control room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS YARD Div. 2 Manhole (manholes from near turbine building to intake structure)

The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs X ESW/RHRSW Discharge X ASC A CB HVAC X HPCI and Room Cooler B CB HVAC RCIC and Room Cooler A Instrument AC X A LPCI X B Instrument AC X B LPCI A Diesel and support systems A Core Spray B Diesel and support systems B Core Spray Control Room Lights X A RHR/CS Room Cooler X Offsite Power X B RHR/CS Room Cooler 1A3 X A RHR Suppression Pool Cooling X 1A4 X B RHR Suppression Pool Cooling LPCI Swing Bus X RHR Drain to Radwaste X A 125 VDC power X A RHR SDC X B 125 VDC power X B RHR SDC 250 VDC power X A RHR SW and HVAC X A or B SBGT and Stack Exh. fans B RHR SW and HVAC NOTE For the determination of EALs, the fifteen (15) minute clock begins when the control room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available AOP 913 Page 53 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A53 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS YARD Diesel Fuel Oil Supply The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler B CB HVAC A LPCI X A Instrument AC X B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler Offsite Power X A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power X A RHR SW and HVAC X 250 VDC power X B RHR SW and HVAC A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the control room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS YARD A Cooling Tower, B Cooling Tower, Off Gas Stack, Switchyard, Standby Transformer, East Warehouse, and West Warehouse and ISFSI The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC X SRVs X ESW/RHRSW Discharge X ASC A CB HVAC X HPCI and Room Cooler B CB HVAC RCIC and Room Cooler A Instrument AC X A LPCI X B Instrument AC X B LPCI A Diesel and support systems X A Core Spray B Diesel and support systems X B Core Spray Control Room Lights X A RHR/CS Room Coolers X Offsite Power B RHR/CS Room Coolers 1A3 X A RHR Suppression Pool Cooling X 1A4 X B RHR Suppression Pool Cooling LPCI Swing Bus X RHR Drain to Radwaste X A 125 VDC power X A RHR SDC X B 125 VDC power X B RHR SDC 250 VDC power X A RHR SW and HVAC X A or B SBGT and Stack Exh. fans B RHR SW and HVAC NOTE For the determination of EALs, the fifteen (15) minute clock begins when the control room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS TB1 TB1 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN Turbine Building Turbine Building Interior AFP 14-22 NONE Startup Transformer 1X3 AFP - 71 Main Transformers 1X1 AFP - 69 Auxiliary Transformer 1X2 AFP - 72 AOP 913 Page 57 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A57 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS TB1 The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation X A ESW and HVAC B RPV/DW/Torus Instrumentation B ESW and HVAC X SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC X B LPCI X B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

AOP 913 Page 58 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A58 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS TB1 Entry Conditions for TB1 FIRE in TB1 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

OR

3. 1P-99B will not manually start from 1C06 AOP 913 Page 59 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A59 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS TB1 NOTE Primary generator protective relaying may be unavailable due to fire damage.

Emergency Diesel Generators 1G21 and 1G31 may also be unavailable. To prevent grid instability and potential loss of Offsite and Onsite AC power systems and subsequent loss of Safe Shutdown capability due to motoring of the Turbine Generator, it may be necessary to manually trip switchyard "H" and "I" breakers.

LEVEL CONTROL (30 minute action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available

1. At 1B44 open breaker 1B4493 for MO-1905. _______

2. In RHR Valve Room manually open MO1905. _______

3. The fire may have damaged the logic for MO-2010. This valve may have to be repositioned by using its handwheel. _______

4. If B ESW pump will not run, B Core Spray and RHR room cooling is lost.

Following vessel reflood, secure one RHR pump and maintain RPV level using one pump. Following ESW restoration and room cooler startup, both RHR pumps may be operated as necessary. _______

TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

1. Due to fire damage, If B ESW Pump 1P-99B will not start from 1C-06, perform the following:

a. Open 1B4207, 1P-99B ESW Pump. _______

b. Cut cables 2B4207-E and 2B4207-P. _______

c. Replace the blown control power fuses at 1B4207. _______

d. Close 1B4207, 1P-99B ESW Pump. _______

e. Start 1P-99B from 1C06. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS TB1

2. At 1B44 open breaker 1B4434 RHR HX 1E-201B SERVICE WTR OUTLET VLV MO-1947. _______

3. In NWCR manually open MO1947, RHR HX 1E-201B SERVICE WTR OUTLET Isolation. _______

4. At 1C03 place handswitch HS1903B in the " Manual Override" position and then momentarily place HS1903C in the "Manual" position. This will allow MO1932 and MO1934 to be operated by their handswitches. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS TB1 CONTROL ROOM VENTILATION If control room temps are high (above 90°F) due to loss of ESW flow , the temperatures may be lowered by taking the following manual actions.

1. Block open Admin Bldg door on third floor which connects with the outside area (Admin Bldg roof) by the elevator. _______

2. Block open Control Room access doors 420 and 423. _______

3. Block open the intake plenum door 416. _______

4. Block open the access door on the lower east side of 1VAC30B. _______

NOTE Expect a battery room Low Flow Alarm

5. Above 1VAC030B in the CB HVAC room open D61-0011 per AOP 913, ATTACHMENT 2. _______

6. At 1C-26B start 1VAC30B. _______

7. Verify 1VEF-30B is off. _______

8. Block open all west switchgear (1A4) room doors. _______

9. Block open all battery room doors. _______

10. Block open the door from the battery room corridor to the Administration building. _______

11. Block open outside double doors in Administration building by elevator. _______

SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available

1. If MO-1909 will not operate then:

a. Open breaker 1D42 ckt 1 (B Recirc M/G Set Emerg. Aux Oil Pump 1P-204B). _______

b. Open breaker 1D42 ckt 3 (Steam Line Drain Outbd. Isolation MO-4424). _______

c. Open breaker 1D40 ckt 8 (250 VDC MCC 1D41). _______

d. Open breaker 1D40 ckt 4 (Emergency Seal Oil Pump 1D-93 Starter). _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS TB1

e. Open breaker 1D40 ckt 7 (Turbine Emergency Bearing Oil Pump 1P-40 Starter). _______

f. Place 1D44 in service per OI-388. _______

g. Close/verify closed breaker 1D40 ckt 5 (250 VDC MCC 1D42). _______

2. Before starting RHR pumps in shutdown cooling mode, block open contact (1-2) of relays E11-K19B and E11-K22B at 1C33. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS TB1 THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 64 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A64 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 RB1 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN REACTOR BUILDING Torus (Bays 1-5 AND 11-16) AFP - 01 NW Corner Room AFP - 01 HPCI Room AFP - 03 SW Corner Room AFP - 02 North CRD Area AFP - 04 South CRD Area AFP - 05 CRD Repair Boom AFP - 04 RHR Valve Room AFP - 06 Steam Tunnel AFP - 17 AOP 913 Page 65 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A65 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 The systems credited for safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC X RPV Isolation (Group Isolations) X B RWS and HVAC A RPV/DW/Torus Instrumentation X A ESW and HVAC X B RPV/DW/Torus Instrumentation B ESW and HVAC SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC X RCIC and Room Cooler B CB HVAC A LPCI A Instrument AC X B LPCI B Instrument AC A Core Spray X A Diesel and support systems X B Core Spray B Diesel and support systems A RHR/CS Room Cooler X Control Room Lights X B RHR/CS Room Cooler Offsite Power A RHR Suppression Pool Cooling X 1A3 X B RHR Suppression Pool Cooling 1A4 RHR Drain to Radwaste X LPCI Swing Bus A RHR SDC X A 125 VDC power X B RHR SDC B 125 VDC power A RHR SW and HVAC X 250 VDC power B RHR SW and HVAC A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 Entry Conditions for Subsection RB1 FIRE in RB1 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Loss of Instrument AC if FUEL ZONE level only indication available.

OR

3. Indications of a relief valve open. (Torus Level oscillations or Reactor Level decrease.)

OR

4. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG). (No High Drywell Pressure Indication may be available)

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 RPV/TORUS LEVEL-PRESSURE INDICATION IF the FUEL ZONE LEVEL THEN 1. Monitor RPV Level and INDICATORS are being used pressure at 1C56 _______

to monitor level and 120 VAC

2. Restore Control Room Level Instrument Control Power _______

and Pressure indication Panel is lost Open the following breakers 1Y1108 _______

1Y1118 _______

1Y1134 _______

1Y1141 _______

1Y1140 _______

RESTORE POWER to 1Y11 Close 1B3216 _______

Place 1Y10 in ALTERNATE _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 LEVEL CONTROL (20 minute action)

NOTE The CRS should direct use of any systems available.

Use A Core Spray with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

1. When Reactor Pressure is less than 450 PSIG, enable the A Core Spray inject valves per AOP 913 Attachment 1. AOP 913, Attachment 1 package is located in the EOP box in the Control Room Backpanel area. _______

a. Open MO-2117 using controls at Panel 1C03. Verify MO-2117 is open. _______

b. Inject with Core Spray, maintain RPV Level 170" to 211". _______

NOTE Fire damage may interfere with the closing of MO2238.

2. Isolate the HPCI Steam Supply Isolation as follows:

to close MO2238:

a. At 1C-32, place HS2229A in the "Override" position. _______

b. At 1C-03 close MO2238 using HS2238. _______

TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use A RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

1. A RHR HX Inlet Temp (TE-1945D) may be the only suppression pool water temperature indication available. This point can be monitored at Recorder TRS-1945 at Panel 1C21.

Indication is available after flow is started.

2. At 1B34 open 1B3436 breaker for MO2046. _______

3. At 1B34 open 1B3423 breaker for MO2005. _______

4. At 1B34 open 1B3425 breaker for MO2007. _______

5. At Torus Bay 14, close V-19-0048. This valve will be used as an isolation for spuriously operating valves. _______

6. At Torus Bay 16, manually open/verify open MO-2005. _______

7. At Torus Bay 16, manually open/verify open MO-2007. _______

8. In the HPCI room manually open/verify open MO-2046. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 ISOLATION OF THE SDV (9 HOUR ACTION)

9. Unlock and close V-18-02 located at the Scram Air header (757' South Rx. Bldg) _______

10. Remove pipe cap and open V-18-1636 (located above the CRD Hatch) or remove pipe cap and open V-18-1638 (located at bay 10 Torus Catwalk Mezz.) to isolate the scram discharge volume. _______

MANUAL ACTIONS NEEDED FOR SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use A RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available

1. At 1B34 open breaker 1B3423 for MO2005. _______

2. At Torus Bay 16, manually close/verify closed MO-2005. This valve could spuriously operate _______

3. At 1B4 Open breaker 1B403 to deenergize 1B44 (1B44 is in the fire area). _______

4. In the NW Corner room, manually close/verify closed MO-1920. This valve could spuriously operate. _______

5. In the NW Corner room, manually close/verify closed MO-1912. This valve could spuriously operate. _______

NOTE Request Maintenance to take the following steps to close MO-4627 and allow shutdown cooling operation. As an option, if accessible a Drywell entry could be performed to close MO4627.

Following steps are one method to ensure that the valve is closed.

6. Actions for closing MO-4627.

a. Obtain 308 and 914 cables from warehouse, stock items 100-4862 and 100-4863. _______

b. At 1B34 remove control power fuse in 1B3491. _______

c. After the fire is out and access to RB 757' is restored, determinate cable 1B3491-A at 1B3491 and at 1JX105A port #9. _______

d. Determinate cable 1B3491-C at 1B3491 and at 1JX105A port #3. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB1

e. Route new (the length should be minimized) 308 cable for 1B3491-A and new 914 cable for 1B3491-C from 1JX105A to 1B3491. _______

f. Replace MO-4627 control power fuses. _______

g. If power is not available to MCC 1B34A, perform step 7, otherwise perform step 8.

7. Actions to restore power to MCC 1B34A:

a. Obtain 14 AWG jumper from the CRS desk or from warehouse, stock item 100-4864. _______

b. Isolate MCC 1B34A and MCC 1B44A. _______

c. Pull control power fuses for 1B3401. _______

d. Place HS 52-3401/CS on 1C08 in TRIP and PULL TO LOCK. _______

e. Determinate cable 5B3444-A in 1B34A. _______

f. Determinate cable 1B3401-E in 1B34A at TB-1 terminals 4 and 5.

Install a 14 AWG jumper from TB-1 terminal 4 to TB-1 terminal 5. _______

g. Replace control Power fuses for 1B3401. _______

h. Place HS 52-3401/CS on 1C08 in normal. _______

8. At 1C04 close MO-4627 using HS4627. _______

9. At 1C-32 block open contacts (1-2) of relays E11-K19A and E11-K22A.

This will block the spurious actions of suction path trips of the RHR pumps.

The RHR pumps may be started in shutdown cooling mode when needed. _______

10. At 1D42 open breaker 1D4206 for MO1909. _______

11. In the RHR Valve Room, manually open MO-1909. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB1 NOTE The following steps if implemented will override the Group 4 automatic closure of MO1908.

12. If MO 1908 is closed with an isolation signal present due to a fire, override and open MO 1908 as follows:

a. Obtain 14 AWG jumper from the CRS desk or the warehouse, stock item 100-4864. _______

b. At 1C41, lift and tape lead (either field or panel side ) at terminal BB44. _______

c. At 1C41, install 14 AWG jumper from terminal BB40 to terminal BB42. _______

d. When MO 1908 indicates OPEN at 1C03, remove jumper from terminal BB40 and BB42. _______

13. At 1B34 open breaker 1B3494 for MO2004 and 1B3493 for MO2003. _______

14. In RHR Valve Room, manually open/verify open MO-2004. _______

15. In RHR Valve Room, manually open/verify open MO-2003. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB2 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN REACTOR BUILDING Torus Room (Bays 6 - 10) AFP - 01 SE Corner Room AFP - 02 RCIC Room AFP - 03 Radwaste Tank Room (1T-70) AFP - 03 AOP 913 Page 74 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A74 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC X B LPCI B Instrument AC X A Core Spray A Diesel and support systems B Core Spray X B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS Entry Conditions for RB2 FIRE in RB2 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

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AOP 913 FIRE SAFE SHUTDOWN PATHS Level Control Use B Core Spray with normal operating instructions. The CRS should direct use of any systems available.

TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use B RHR with normal operating instructions. The CRS should direct use of any systems available.

SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

NOTE MO-2011 and MO-2016 may lose indication. Both valves will be closed and will not be capable of being opened.

CAUTION MO-1909 will open with Reactor Pressure above 135 PSIG and MO-1904 will open with Reactor Pressure above 450 PSIG when the following steps are taken.

1. At transfer station 1C390, Unlock and open the panel access door. _______

2. Place keylocked handswitch HS 1908A on 1C390 in the "EMERG" position.

Place handswitch HS 1908B on 1C390 in the "OPEN" position. _______

3. At transfer station 1C388, place keylocked handswitch HS 1909A in the "EMERG" position. _______

4. Place handswitch HS 1909B on 1C388 in the "OPEN" position. _______

5. At transfer station 1C388, place keylocked handswitch HS 1904A in the "EMERG" position. _______

6. Place handswitch HS 1905C on 1C388 in the "OPEN" position. _______

7. Place handswitch HS 1904B on 1C388 in the "OPEN" position. ______

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AOP 913 FIRE SAFE SHUTDOWN PATHS

8. IF power to MO-1909 is THEN 1) Open 1D40 ckt 8 (250 VDC MCC lost, 1D41) to preserve 250 VDC. _______

2) Place 1D44 in service per OI-388.

3) Close/ verify closed 1D40 ckt 5 (250 VDC MCC 1D42). _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 RB3 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN REACTOR BUILDING Elevation 786' AFP-07 & 08 Elevation 812' AFP-09 & 10 Elevation 834' AFP-11 & 12 Elevation 855' AFP-13 North RB Chase AFP-04 North RB Stair #8 AFP-04 South RB Stair #6 AFP-05 RB Exhaust Fan Room AFP-10 AOP 913 Page 79 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A79 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC X B LPCI X B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 Entry Conditions for RB3 FIRE in RB3 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Indications of a relief valve open. Torus Level oscillations maybe the only indication available.

OR

3. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

OR

4. Loss of Instrument AC if FUEL ZONE level only indication available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 RPV/TORUS LEVEL-PRESSURE INDICATION IF the FUEL ZONE LEVEL THEN 1. Monitor RPV Level and pressure INDICATORS are being used at 1C55.

to monitor level and 120 VAC

2. Restore Control Room Level and Instrument Control Power Pressure indication. _______

Panel is lost Open the following breakers at 1Y21 1Y2112 1Y2116 1Y2122 1Y2126 RESTORE POWER to 1Y21 Place 1Y20 in ALTERNATE LEVEL CONTROL (20 minute action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available

1. At 1C04 close MO2700 using HS2700. _______

2. At 1C04 close MO2400 using HS2400. _______

3. At 1B44, open breaker 1B4493 prior to manually operating MO-1905 . _______

4. In the RHR Valve Room, open MO-1905 manually. _______

5. If B ESW pump will not run, ESW and RHR room cooling is lost. Following vessel reflood, secure one RHR pump and maintain RPV level using one pump. Following ESW restoration and room cooler startup, both RHR pumps may be operated as necessary _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 CONTROL ROOM VENTILATION If control room temps are high (above 90°F) due to loss of ESW flow , the temperatures may be lowered by taking the following manual actions.

1. Block open Admin Bldg door on third floor which connects with the outside area (Admin Bldg roof) by the elevator. _______

2. Block open Control Room access doors 420 and 423. _______

3. Block open the intake plenum door 416. _______

4. Block open the access door on the lower east side of 1VAC30B. _______

NOTE Expect a battery room Low Flow Alarm.

5. Above 1VAC-30B in CB HVAC room open D61-0011 per AOP 913, ATTACHMENT 2. _______

6. At 1C-26 start 1VAC-30B. _______

7. Verify 1VEF-30B is off. _______

8. Block open all west switchgear (1A4) room doors. _______

9. Block open all battery room doors. _______

10. Block open the door from the battery room corridor to the Administration building. _______

11. Block open outside doors in Administration building by elevator. _______

TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available

1. In the Torus Bay 14 close V-19-48. This will be used as an isolation for spuriously operating valves .

2. Start 1P-99B ESW Pump as follows:

a. At 1C-388 place HS 4928C in the Emergency position. _______

b. At 1C-388, place the "Transfer Last" Switch (HS43-206) to Emergency position. _______

c. At 1C-388 start ESW pump by using HS-4928D. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 AOP 913 Page 84 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A84 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

NOTE The CRS should direct use of any systems available.

Use B RHR with manual actions listed and normal operating instructions.

1. At 1B3, open breaker 1B303. _______

2. MO-2011 must be manually operated closed. _______

3. MO-2016 must be manually operated closed. _______

4. At 1D42, open breakers:

a. 1D42 ckt 1 (B Recirc M/G Set Emerg Aux Oil Pump 1P-204B). _______

b. 1D42 ckt 2 (A Recirc M/G Set Emerg Aux Oil Pump 1P-204A). _______

c. 1D42 ckt 4 (RWCU Suction Outbd. Isolation MO-2701). _______

5. Close/verify closed breaker 1D42 ckt 6 (RHR loop B Shutdown Cooling Outbd. Suction MO-1909). _______

6. Place 1D44 in service per OI-388. _______

7. At 1D40 close/verify closed breaker. 1D40 ckt 5 (250 VDC MCC 1D42) _______

8. If MO-1909 will not operate after 250 VDC restoration, portions of the RHR logic may have been destroyed by the fire. At 1Y11 open breakers associated with all loads and at 1Y10 Place 1Y10 in ALTERNATE. Then at 1Y11 close 1Y1104. This will allow MO-1909 to be operated. _______

9. Before starting the B and D RHR pumps in Shutdown Cooling mode and prior to closing MO1913 and MO1921, block open contacts 9-10 and 11-12 of relay E11A-K15A. This will allow the pumps to be started. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 NOTE Request Maintenance to take the following steps to close MO-4628 and allow shutdown cooling operation. As an option, could perform a Drywell entry to close MO4628. Following steps are one method to ensure that the valve is closed.

10. Actions for closing MO-4628.

a. Open breakers 1B4401 and 1B4491 at 1B44 and 1B44A. _______

b. Disconnect the power cable tie between 1B34A and 1B44A. _______

c. Place Transfer Switch 52-4401/SS at 1C388 in 'EMERG'. _______

NOTE Breaker 1B4401 cannot be closed manually or electrically without a supply of 125 VDC power to 1B4401.

d. Verify/replace control power fuses EF22 and EF23 (10A)at 1C422B. _______

e. Close 1B4401 using Handswitch 52-4401E/CS at 1C388. _______

f. Verify 1B44A voltage has been established. _______

g. Close 1B4491 and close MO4628 from the Main Control room at 1C04. _______

h. Following valve repositioning, 1B4401, 1B4402, and 1B4491 can be tripped. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB3 NOTE Request Maintenance to take the following steps to open MO-1908 and allow shutdown cooling operation. As an option, could perform a Drywell entry to open MO1908.

Following steps are one method to ensure that the valve is open.

11. Actions for closing MO1908.

a. Obtain 308 and 914 cables from warehouse, stock items 100-4862 and 100-4863. _______

b. Isolate 1B34 by opening 1B4401, 1B4402, and 1B303 at 1B3 and 1B44. _______

c. Pull the new 308 and 914 cable for MO1908 from 1B44 to penetration 1JX105A. This cable does not have to be routed in a raceway. _______

d. Open the DARMATT penetration enclosure. Identify MO1908 power and control cables to be spliced. Cut existing damaged power and control cables. Splice the 308 cable to the power cable and the 914 cable to the control cable at the penetration conductors. _______

e. Identify a suitable MOV starter to be utilized for MO1908 at 1B44.

Terminate temporary power and control cables for MO1908 at the spare starter. Verify correct thermal overloads. _______

f. Close spare breaker and open MO1908 using spare starter controls. _______

g. Following valve repositioning, open breaker associated with MO1908. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB4 RB4 INFORMATION This subsection covers the following fire locations BUILDING LOCATION AREA FIRE PLAN Reactor Building NE Corner Room AFP-01 AOP 913 Page 88 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A88 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS RB4 The Systems credited for a safe shutdown in this subsection include as a minimum:

Scram X A RWS and HVAC RPV Isolation (Group Isolations) X B RWS and HVAC X A RPV/DW/Torus Instrumentation A ESW and HVAC B RPV/DW/Torus Instrumentation X B ESW and HVAC X SRVs X ESW/RHRSW Discharge X HPCI and Room Cooler A CB HVAC RCIC and Room Cooler B CB HVAC X A LPCI A Instrument AC X B LPCI X B Instrument AC X A Core Spray A Diesel and support systems B Core Spray B Diesel and support systems A RHR/CS Room Cooler Control Room Lights X B RHR/CS Room Cooler X Offsite Power X A RHR Suppression Pool Cooling 1A3 X B RHR Suppression Pool Cooling X 1A4 X RHR Drain to Radwaste X LPCI Swing Bus X A RHR SDC A 125 VDC power X B RHR SDC X B 125 VDC power X A RHR SW and HVAC 250 VDC power X B RHR SW and HVAC X A or B SBGT and Stack Exh. fans NOTE For the determination of EALs, the fifteen (15) minute clock begins when the Control Room is notified or the alarm is verified.

NOTE This procedure identifies the equipment which will be available even after maximum fire damage. All other equipment may be used if available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB4 Entry Conditions for RB4 FIRE in RB4 AND

1. Unable to maintain Reactor Vessel above 170" with high pressure systems.

OR

2. Loss of Drywell cooling components which will cause high drywell pressure (2 PSIG).

OR

3. B ESW will not start with use of HS-4928B at 1C-06.

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB4 ESW Pump Operation (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Spurious operation of Aux contact CW-K2G24 could prevent auto-start of the B ESW pump. If the fire has only damaged Aux Contact CW-K2G24 the pump can still be started using HS-4928B at 1C06. If the handswitch will not start the pump, request repairs listed in the Torus Cooling section of RB4. These repairs are required to be completed within 2.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> to support suppression pool cooling.

LEVEL CONTROL Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

1. If B ESW pump will not run using the above manual action, B Core Spray and RHR room cooling is lost. Following vessel reflood, secure one RHR pump and maintain RPV level using one pump. Following ESW restoration and room cooler startup, both RHR pumps may be operated as necessary.

Perform the repairs stated in the Torus Cooling section of RB4. _______

CONTROL ROOM VENTILATION If control room temps are high (above 90°F) due to loss of ESW flow , the temperatures may be lowered by taking the following manual actions.

1. Block open Admin Bldg door on third floor which connects with the outside area (Admin Bldg roof) by the elevator. _______

2. Block open Control Room access doors 420 and 423. _______

3. Block open the intake plenum door 416. _______

4. Block open the access door on the lower east side of 1VAC30B. _______

NOTE Expect a battery room Low Flow Alarm.

5. Above 1VAC-30B in CB HVAC room open D61-0011 per AOP 913, ATTACHMENT 2. _______

6. AT 1C-26B Start 1VAC-30B. _______

7. Verify 1VEF-30B is off. _______

8. Block open all west switchgear (1A4) room doors. _______

9. Block open all battery room doors. _______

10. Block open the door from the battery room corridor to the Administration building. _______

AOP 913 Page 91 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A91 Written Exam

AOP 913 FIRE SAFE SHUTDOWN PATHS RB4

11. Block open outside doors in Administration building by elevator. _______

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AOP 913 FIRE SAFE SHUTDOWN PATHS RB4 TORUS COOLING (2.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> action)

Use B RHR with manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

1. Perform the following repairs if the B ESW will not run following Manual Action in "ESW Pump Operation" section. At the breaker cut cable 2B4207-E leads (from 1B4207 to 1C118) and replace control power fuse 6A at 1B4207. _______

SHUTDOWN COOLING (72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action)

Use B RHR and normal operating instructions. The CRS should direct use of any systems available.

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AOP 913 FIRE SAFE SHUTDOWN PATHS THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 94 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A94 Written Exam

AOP 913 FIRE OFFSITE ASSISTANCE OFFSITE ASSISTANCE AOP 913 Page 95 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A95 Written Exam

AOP 913 FIRE OFFSITE ASSISTANCE

1. Direct the CAS Operator to contact the Palo and/or Cedar Rapids Fire Departments and request fire fighting assistance. _______

a. Request rescue squad assistance if necessary for personnel injuries. _______

2. Carry out Emergency Plan Implementing Procedures when calling for offsite fire assistance. _______

3. Notify Security to allow entry of offsite fire fighters and to have the following equipment staged for issue: _______

Thermoluminescent dosimeters, Self Reading Pocket dosimeters or Electronic dosimeters

4. Send a Health Physics technician with portable radiation and contamination monitoring equipment to meet and guide the offsite fire fighters. _______

NOTE PALO FIRE DEPARTMENT ---------- 911 CEDAR RAPIDS FIRE DEPARTMENT ---------- 911 AOP 913 Page 96 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A96 Written Exam

Attachment for Question #7 AOP 913 FIRE ATTACHMENT 1 AOP 913 Page 1 of 4 RPV LEVEL CONTROL FOR A FIRE IN FIRE AREA RB-1 PURPOSE: To permit RPV level control for a fire in Fire Area RB-1. To defeat the 450 PSIG interlock for the A Core Spray Inject Valve MO-2117. This interlock could be damaged as a result of the RB-1 fire. To maintain the reactor within analyzed conditions, the interlock must be jumpered within 20 minutes of the onset of the fire event.

LOCATION(S): 1C43, 1C03 EQUIPMENT REQUIRED: 14 AWG jumper with alligator clip ends. This jumper is in the AOP 913 Attachment 1 package located in the EOP box in the Control Room Back panel area.

INSTRUCTIONS: Use A Core Spray with the manual actions listed and normal operating instructions. The CRS should direct use of any systems available.

NOTE

• The relay within Panel 1C43 is identified as E21A-K20A and as wiring device "BF".

• A diagram showing the rear view of the relay and terminations is provided on the inside of the panel door.

When reactor pressure is less than 450 PSIG, enable the A Core Spray inject valves. At Panel 1C43, install a jumper across contact E21A-K20A (1 - 7). _______

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Attachment for Question #7 AOP 913 FIRE ATTACHMENT 1 AOP 913 Page 2 of 4 RPV LEVEL CONTROL FOR A FIRE IN FIRE AREA RB-1 RESTORATION: A Core Spray 450 PSIG interlock:

1. Have Electrical Maintenance verify that the circuit associated with relay E21A-K20A is free from fire damage or repair the circuit so that it is free from fire damage. _______

2. Verify circuit operability by simulating a 450 PSIG signal and verifying that relay E21A-K20A operates as required. _______

3. Following circuit verification, remove jumper installed between relay contact E21A-K20A (1 - 7). _______

REFERENCES 1. AL-E96-020

2. APED-E41-006<1>

3. APED-H11-037

4. APED-H11-077

5. BECH-E121<005>

6. BECH-E840 AOP 913 Page 98 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A98 Written Exam

Attachment for Question #7 AOP 913 FIRE ATTACHMENT 1 Page 3 of 4 RPV LEVEL CONTROL FOR A FIRE IN FIRE AREA RB-1 AOP 913 Page 99 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A99 Written Exam

Attachment for Question #7 AOP 913 FIRE ATTACHMENT 1 20 22 29 34 401 13 26 23 25 24 21 37 02 07 1C06 10 1C05 11 36 18 1C04 27 15 28 16 17 2 1C03 19 30 41 39 45 42 35 32 33 14 1 43 44 402 38 40 AOP 913 Page 100 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A100 Written Exam

Attachment for Question #7 AOP 913 FIRE THIS PAGE WAS INTENTIONALLY LEFT BLANK AOP 913 Page 101 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A101 Written Exam

Attachment for Question #7 AOP 913 FIRE ATTACHMENT 2 CONTROL BUILDING MANUAL DAMPER CONTROL Page 1 of 4 FOR A FIRE IN VARIOUS FIRE AREAS PURPOSE: To establish Control building HVAC for a fire in various plant fire areas dampers associated with Control Building HVAC units 1VAC30A and B must be manually blocked open or closed. This is required as a loss of instrument air.

LOCATION(S): Control Building HVAC Equipment Room above Main Control Room. This work requires climbing on top of the HVAC units. This area is congested. A ladder will be necessary.

EQUIPMENT REQUIRED: Pliers, Tie Wire INSTRUCTIONS: In accordance with the following table, disconnect the damper from the damper operator and reposition the damper to the position indicated for the fire area of concern. The damper may be repositioned by removing the damper linkage pin (pliers and ladder may be necessary), rotating the damper arm to the required position and securing the damper arm with the tie wire supplied with this package. _______

Reference Damper Damper Damper Required Disconnect and from TAB Operator Operated Location Damper Rotate Damper Position Arm CB2 DO6113B D61-0011 Above Closed Clockwise 1VAC030B CB3 DO6113A D61-0017 Above Closed Clockwise 1VAC030A RB3 DO6113B D61-0011 Above Open Counter-1VAC030B Clockwise RB4 DO6113B D61-0011 Above Open Counter-1VAC030B Clockwise TB1 DO6113B D61-0011 Above Open Counter-1VAC030B Clockwise RESTORATION: Have electrical maintenance verify affected circuits are free from fire damage or have been repaired and tested. Have mechanical maintenance verify instrument tubing is free from fire damage or repaired and tested and that instrument air is available. Following verification, remove previously installed AOP 913 Page 102 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A102 Written Exam

Attachment for Question #7 AOP 913 FIRE ATTACHMENT 2 tie wire and reconnect damper arm to damper operator by reinstalling linkage pin previously removed. _______

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Attachment for Question #7 AOP 913 FIRE ATTACHMENT 2 Page 2 of 4 CONTROL BUILDING MANUAL DAMPER CONTROL FOR A FIRE IN VARIOUS FIRE AREAS REFERENCES 1. BECH-M151

2. BECH-M161

3. Calculation CAL-E96-012 (Fire Area CB2)

4. Calculation CAL-E96-013 (Fire Area CB3)

5. Calculation CAL-E96-022 (Fire Area CB3)

6. Calculation CAL-E96-023 (Fire Area RB4

7. Calculation CAL-R96-024 (Fire Area TB1)

AOP 913 Page 104 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A104 Written Exam

Attachment for Question #7 AOP 913 FIRE ATTACHMENT 2 CONTROL BUILDING MANUAL DAMPER CONTROL Page 3 of 4 FOR A FIRE IN VARIOUS FIRE AREAS Fa2 Ga Hc Hf Ja EL. 800'-4" Sprinkler 1V-AC-30A 1V-AC-30B N 12 1V-RF-30A 1V-RF-30B Stairs Control Room DO6113A located between 1V-AC-30A and 1V-RF-30A (D61-0017)

DO6113B located between 1V-AC-30B and 1V-RF-30B (D61-0011)

AOP 913 Page 105 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A105 Written Exam

AOP 913 FIRE References

1. EPIP, EAL Assessment

2. AOP 915, Shutdown Outside Control Room

3. IPOIs 3, 4, 5

4. OI 264, 513

5. EOP 1

6. Commitment AI 7001 (DR 84-364)

7. DAEC Fire Plan

8. DCP 1553

9. DDC 3151

10. DCP 1430

11. ECP 1619, ECP 1630

12. EMA A43417, EMA A43416

13. AR 23595

14. TNI FSAR, Final Safety Analysis Report for the Standardized NUHOMS Horizontal Modular Storage system for Irradiated Nuclear Fuel, NUH-003, Latest Revision, NRC Docket No. 72-1004.

15. ACP 118, Conduct of the Duane Arnold Energy Center Interim On-Site Dry Spent Fuel Storage Program.

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Attachment for Question #7 ABNORMAL OPERATING PROCEDURE AOP 913 FIRE Effective Date:

TECHNICAL REVIEW Prepared by: Date:

Validated by: Date:

Operations Staff Verified by: Date:

System Engineer Verified by: Date:

Fire Protection Reviewed by: Date:

Operations Committee PROCEDURE APPROVAL I am responsible for the technical content of this procedure.

Approved by Procedure Owner: Date:

Operations Approved by: Date:

AOP 913 Page 107 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A107 Written Exam

Attachment for Question #7 DAEC Plant Manager AOP 913 Page 108 of 108 Rev. 39 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 7A.doc Page 7A108 Written Exam

Figures for Question # 6 Graph 5 Graph 7 PRESSURE SUPPRESSION PRESSURE DRYWELL SPRAY INITIATION LIMIT 30 400 25.9 350 25 Action is required 300 20 250 Do NOT initiate drywell sprays in shaded area 15 200 150 10 100 5

50 0 0 7.1 13.8 3.0 7.2 6 8 10 12 14 16 0 10 20 30 40 50 60 TORUS WATER LEVEL (ft) DRYWELL PRESSURE (psig)

Graph 1 Graph 4 RPV SATURATION TEMPERATURE HEAT CAPACITY LIMIT 240 375 230 350 220 Action is required Action is required 210 325 200 190 300 180 275 170 160 250 150 Bounding curve for torus levels 140 between 8 ft and 13 ft.

225 130 212 120 200 50 120 0 100 200 300 400 500 600 700 800 900 1000 1100 0 25 50 75 100 125 150 RPV PRESSURE (psig)

RPV PRESSURE (psig)

Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 6A.doc Page 6A Written Exam

Figure for Question # 2 Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 2A.doc Page 2A Written Exam

Figures for Question # 21 East West North Senior Reactor Operator, 60006 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm-Attchmnt 21A.doc Page 21A Written Exam

QF-1030-02 Rev. 3 (FP-T-SAT-30)

WRITTEN EXAMINATION COVERSHEET Training program: Operations Course/lesson plan Number(s):

Reactor Operator, 50007 Examination Number/Title: 57_05-ILC-RO-NRC-Written Retention: 6 years Retain in: Training Records 57_05-ILC-SRO-NRC-written_xm.doc Rev. 0

1 Point

1. Given the following:

• The plant has been shutdown.

• The A loop of RHR has been placed in the Shutdown Cooling mode.

• B Recirc Pump remained in service in parallel with Shutdown Cooling.

• RPV temperature was 160°F and lowering slowly.

• RPV level was being maintained 190 to 195 with CRD and RWCU.

• The B Core Spray Pump was tagged out for maintenance.

• The B Loop of RHR was tagged out for maintenance.

At this point, outage workers inadvertently struck instrument rack 1C56 with their equipment causing a LO-LO Level and LO-LO-LO Level initiation signals. Among other alarms and indications:

• Annunciator 1C03A (A-8), A CORE SPRAY SYSTEM AUTO INITIATED, activated.

• Annunciator 1C03B (A-6), LPCI LOOP SELECT RX LO-LO-LEVEL, activated.

• Annunciator 1C03B (A-4), LPCI RX LO-LO-LO-LEVEL INITIATION, activated.

• The amber light is ON above the B LOOP SELECTED RHR mimic label.

• A Core Spray pump is injecting with RPV level 200 and rising.

In this condition, what is the status of forced circulation in the RPV and what actions are necessary regarding the A Core Spray pump?

a. There would be no forced circulation in the RPV.

Allow the Core Spray Pump to inject until RPV level is >214 per AOP 149 Loss of Decay heat Removal, before securing it because RPV level must be higher than normal to establish natural circulation.

b. Forced circulation would continue to be maintained by B Recirc Pump.

Allow the Core Spray Pump to inject until RPV level is >214 before securing it because RPV level should be higher than normal per OI-149, RHR, for realigning RHR Shutdown Cooling to LPCI mode.

c. Forced circulation would continue to be maintained by B Recirc Pump.

Secure the Core Spray Pump at this time to maintain RPV level 170-211 per EOP-1, RPV Control.

d. Forced circulation would continue to be maintained by A Loop of RHR in the LPCI mode.

Secure the Core Spray Pump at this time to maintain RPV level 170-211 per EOP-1, RPV Control.

Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 1 Written Exam

1 Point

2. (PCIS Mimic indications provided on the next page.)

The plant was operating at 40% thermal power with no LCOs when 1C08B (D-4), 250V DC SYSTEM TROUBLE, alarm activated and cleared. An operator was immediately dispatched to investigate.

While waiting for this report, the CRS observes the PCIS Mimic indications provided on the next page.

What do these indications tell him about the extent of the problem with 250VDC?

Also, of all the Primary Containment Isolation Valves pictured, how many must the operators close, deenergize, and tag deenergized in order to support the requirements of Technical Specifications and ACP 1410.7, Guidelines for Primary Containment Valves and Penetrations?

a. Only MCC 1D42 has been lost.

Operators must close, deenergize, and tag deenergized one (1) Motor Operated Valve.

b. Only MCC 1D42 has been lost.

Operators must close, deenergize, and tag deenergized two (2) Motor Operated Valves.

c. The Main Distribution Panel 1D40 has been lost.

Operators must close, deenergize, and tag deenergized three (3) Motor Operated Valves.

d. The Main Distribution Panel 1D40 has been lost.

Operators must close, deenergize, and tag deenergized four (4) Motor Operated Valves.

Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 2 Written Exam

1 Point

3. (EOP-1 and the ATWS EOP are provided.)

A reactor scram has occurred from 93% thermal power due to a complete loss of Instrument AC power. EOP-1, RPV Control, has been entered due to RPV low level during the initial transient.

• All 8 RPS Scram Group A and B white lights are OFF, but the 1C05 operator cannot confirm that all rods are fully inserted.

• On the 1C05 Full Core Display, all LPRM downscale lights are ON.

• All IRMs are fully inserted, on range 3 or 4, reading midscale, and lowering.

• RPV pressure is 900 psig and rising slowly with all available Main Steam Lines Drains open.

• Standby Liquid Control (SBLC) was NOT injected.

• There are no challenges to Containment.

Which of the following correctly describes how the CRS shall utilize the IPOI-5, Reactor Scram, and ATWS EOP procedures when directing further operator actions in this situation?

a. All operator actions will be directed from IPOI-5.

NO operator actions will be directed from the ATWS EOP.

b. Operator actions will be directed from ATWS Steps /1 & /2 and the /Q leg.

Actions regarding RPV level and pressure will be directed from IPOI-5.

c. Operator actions will be directed from ATWS Steps /1 & /2 and the /L and /P legs.

Actions regarding reactivity control will be directed from IPOI-5.

d. NO operator actions will be directed from IPOI-5.

All operator actions will be directed from the ATWS EOP.

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4. (EOP-2 is provided.)

A transient has occurred that has resulted in the following plant conditions:

• Torus Water Level was mistakenly lowered to 9 ft.

• Average Torus Water Temperature is 160°F and stable.

• Torus pressure is 1.0 psig and stable.

• RPV pressure is 500 psig and stable.

What is the margin in Reactor pressure from the point at which Emergency Depressurization would be required?

a. 16 psig

b. 23 psig

c. 400 psig

d. 500 psig Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 4 Written Exam

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5. In accordance with ACP 1402.3, Regulatory Reporting Activities, which of the following is considered a VALID ESF actuation?

a. An Instrument Technician pulls the wrong relay block out of the HPCI initiation relay, during an STP, causing HPCI to initiate.

b. A Security Guard keys his radio in the Reactor Building, near 1C58, in the NECR, causing a reactor scram on APRM flow biased signals.

c. Operators isolate one Main Steam Line for an inoperable MSIV and then attempt to perform the Main Turbine Stop Valve test resulting in a pressure surge that scrams the reactor.

d. A generic problem with the wide range Yarway level indicating switches, causes one to drift below the Low-Low-Low RPV setpoint, causing the initiation of RHR, CS, SBDG, portions of PCIS Groups 1 & 7.

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6. (EOP-1 & 2.)

The plant was being shut down from 93% thermal power due to increased Drywell leakage from an unknown source. However, during this evolution, the plant experienced a complete loss of Well Water that resulted in a reactor scram and entry into EOP-1 and EOP-2.

So far, the operator on 1C03 has initiated Torus Sprays and reported the following Containment parameters:

• Average Drywell Air Temperature 270°F and rising slowly

• Average Torus Water Temperature 80°F and stable

• Drywell Pressure 7.0 psig and rising slowly

• Torus Pressure 6.0 psig and rising slowly

• Torus Water Level 10.3 ft. and stable The STA has called up the applicable screen on the SPDS monitor and points out that the SPDS is graphing containment parameters exactly on the curve line.

What is the appropriate action for the CRS to direct and which parameters are the bases for his direction?

The CRS shall direct that Drywell Sprays

a. NOT be initiated, based on the SPDS indication.

b. be initiated, based on the SPDS indication.

c. NOT be initiated, based on the 1C03 parameters.

d. be initiated, based on the 1C03 parameters.

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7. (AOP-913 Fire is provided.)

Initial Plant conditions:

• The plant was operating at 93% thermal power.

• B Loop of RHR was in the Torus Cooling Mode.

• Well Water was operating normally.

• A Control Building Chiller was in service.

A large fire then broke out in the Turbine Building.

• The reactor was manually scrammed and offsite assistance was called.

• RPV level was restored per EOP-1, RPV Control, and there are no challenges to containment.

• There has been no loss of electrical busses.

• The Control Room Temperature is steady at 75°F.

• As the CRS directs actions from AOP 913, Fire, the BOP operator reports that the B ESW pump is no longer running.

• The B ESW pump trip is the only malfunction of plant equipment.

Will it be necessary for the CRS to direct operators to manually reposition HVAC dampers above the Control Room in accordance with AOP 913?

If NO, identify why not.

If YES, identify the correct overridden position of the dampers.

a. NO; Safe Shutdown Path TB1 is NOT applicable.

b. NO; The steps to manipulate the ventilation system from Safe Shutdown Path TB1 are NOT applicable.

c. YES; The damper above 1VAC-30B must be disconnected, rotated COUNTER-CLOCK WISE, and secured in that position.

d. YES; The damper above 1VAC-30B must be disconnected, rotated CLOCK WISE, and secured in that position.

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8. (RPV Flooding is provided.)

Operators are performing the EOP Contingency RPV Flooding in response to an accident in which all RPV water level indications were lost. The following is a timeline of the accident:

• 0800 The reactor was successfully scrammed.

• 0830 Operators are controlling injection to maintain 4 SRVs open, RPV pressure stable at 55 psig, Torus pressure stable at 2 psig.

• 0910 During a flow adjustment, RPV pressure momentarily dropped to 45 psig and was then restored to 55 psig.

• 0950 Operators notice one of the four SRVs is no longer open. They raise injection flow to adjust RPV pressure to 60 psig and the SRV reopens.

Determine when the MINIMUM CORE FLOODING INTERVAL Finish Time is first established.

a. 0845

b. 0915

c. 0955

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9. An unisolable coolant system leak has occurred in the Reactor Building that has resulted in RPV level lowering to the point that fuel became uncovered and fuel damage occurred.

Operators recovered RPV level and were attempting to stabilize the plant when they noticed a RED annunciator on panel 1C35 for REACTOR BLDG KAMAN 3, 4, 5 ,6 , 7,& 8 HI RAD OR MONITOR TROUBLE.

Assume that Reactor Building Exhaust Fans (1V-EF-11A & B) and the Main Plant Exhaust Fans (1V-EF-1, 2, & 3) responded as designed.

What could be the cause of this alarm and what actions must be directed regarding these fans to mitigate this condition?

a. The Main Plant Exhaust Fans must still be drawing on the Reactor Building Vent Shaft.

Direct operators to TRIP the Main Plant Exhaust Fans.

b. The Main Plant Exhaust Fans will have tripped causing a high concentration of activity at the monitors. Direct operators to RESTART the Main Plant Exhaust Fans.

c. The Reactor Building Exhaust Fans must still be drawing on the Reactor Building Vent Shaft.

Direct operators to TRIP the Reactor Building Exhaust Fans.

d. The Reactor Building Exhaust Fans will have tripped causing a high concentration of activity at the monitors. Direct operators to RESTART the Reactor Building Exhaust Fans.

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10. (EOP-3 Secondary Containment Control is provided.)

Given the following scenario:

• A HPCI Walkdown Surveillance test was in progress at 93% thermal power.

• Both Loops of Torus Cooling were in service and EOP-2 was entered when Torus water Temperature exceeded 95°F.

• A leak developed in the South East Corner Room (SECR).

• The Radwaste Operator has been directed to pump Reactor Building sumps.

• The Radwaste Operator reported that two floor drain valves were stuck open.

• The HPCI test was suspended and HPCI has been secured.

• SECR Room water level is 12 inches and rising.

• HPCI Room water level is 4 inches and rising.

• A RHRSW flow is abnormally high with MO-2046, RHR Heat Exchanger Service Water Outlet Isolation Valve barely open.

What additional actions, if any, are necessary per the EOPs?

a. Enter EOP-1 and manually scram the reactor.

b. Begin a reactor shutdown per IPOI-3, 4, or 5 as appropriate.

c. Secure A Loop RHR and RHRSW Pumps after administratively exiting EOP-2.

d. No further EOP-3 actions are necessary because the leak is not from a primary system.

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11. (Indications of PCIS Div 1 Panel 1C41 and the Miscellaneous System Status Board are provided.)

The plant was at 93% thermal power with no LCOs. Both RPS MG Sets are powering their respective RPS Busses. All LPRMs are operable.

At the Division 1 PCIS Panel 1C41, the indications provided were present but had not yet been identified by the operating crew. RPS was as indicated on the Miscellaneous System Status Board in the Control Room (also provided).

If the A RPS Motor Generator, 1G-51, were to trip in this condition, would the OVER-ALL PLANT RESPONSE be a 1/2 Scram or a Full Scram?

In response to the loss of the A RPS MG, must the CRS direct the transfer of the RPS Alternate Source from Reg Transformer 1Y1A to Reg Transformer 1Y2A prior to taking the RPS ALTERNATE POWER TRANSFER switch, C71B-S1A on 1C15 to the ALT position?

If the A RPS MG tripped in this situation, the OVER-ALL PLANT RESPONSE would be a

a. 1/2 scram.

The Alternate Power Source must be aligned to Reg Transformer 1Y2A through 1Y36 and 1Y26 prior to transferring the A RPS Bus to the Alternate Power Source (ALT).

b. 1/2 scram.

The Alternate Power Source is aligned correctly for transferring the A RPS Bus to the Alternate Power Source (ALT).

c. full scram.

The Alternate Power Source must be aligned to Reg Transformer 1Y2A through 1Y36 and 1Y26 prior to transferring the A RPS Bus to the Alternate Power Source (ALT).

d. full scram.

The Alternate Power Source is aligned correctly for transferring the A RPS Bus to the Alternate Power Source (ALT).

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12. (Technical Specification Section 3.5.1, ECCS Operating, is provided.)

The plant is at 93% Thermal power.

• A problem with plant valving allows Condensate Storage Tank (CST) level to drop to 7.4 feet in both CSTs.

• Level is being restored at 0.1 ft every 15 minutes.

What is the impact of this CST level on Emergency Core Cooling System (ECCS) Operating Systems?

a. There is less than 75,000 gallons of water available for RPV makeup.

Therefore TS 3.5.1 Condition F is entered.

b. There is less than 75,000 gallons of water available for RPV makeup.

Therefore TS 3.5.1 Condition H is entered.

c. There is a possibility that, during initiation, water hammer will damage some discharge piping.

Therefore TS 3.5.1 Conditions F and J are entered.

d. There is a possibility that, during initiation, water hammer will damage some discharge piping.

Therefore TS 3.5.1 Conditions H and N are entered.

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13. The plant was operating at 93% thermal power when operators noticed that the tailpipe temperature on ADS Safety Relief Valve PSV-4400 was rising at a rate of 5°F every day.

After several days, the tailpipe temperature reached 170°F. The operating crew entered AOP 683 Abnormal Safety Relief Valve Operation for Tailpipe Temperature Baseline + 30°F. They began recording tailpipe temperatures every hour and wrote a CAP to notify plant management.

Assume that PSV-4400 tailpipe continues to rise at the same rate to 205°F. Per AOP 683, to whom does the next required notification go?

At 205°F notification must be made to the

a. Event Response Team (ERT) Leader.

b. Plant Manager.

c. Site Director.

d. Site Vice President.

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14. (The applicable portion of P&ID M-115 is provided.)

The pressure transmitter that feeds RPV Pressure PI-4590B on 1C03 is reading erratically.

Instrument Technicians suspect air intrusion and want to vent the associated pressure transmitter, PT-4590B.

1) Which of the following is correct concerning the impact of venting PT-4590B on the other instruments on that sensing line?

2) Where are the requirements for venting this pressure transmitter found?

a. 1) Opening a vent path valve will have NO effect other than a change in indicated pressure on 1C03.

2) ACP 1410.1, Operations Working Standards

b. 1) Opening a vent path too much could cause the other pressure instruments that cause ESF actuations to sense a pressure that is lower than actual.

2) ACP 1408.7, Control of Permanent Plant Instrumentation

c. 1) Opening a vent path too much could cause the level instruments that cause ESF actuations to sense a level that is higher than actual.

2) ACP 1410.1, Operations Working Standards

d. 1) Closing a vent path too fast could cause a pressure surge that makes the level instruments that cause ESF actuations to sense a level that is lower than actual.

2) ACP 1408.7, Control of Permanent Plant Instrumentation Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 14 Written Exam

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15. (EPIP Appendix 1, Emergency Action Level (EAL) table for RPS Failure is provided)

The plant was operating at 93% thermal power when a grid instability caused a degraded voltage trip of the essential busses. The Diesel Generators successfully reenergized 1A3 & 4 but the temporary loss of bus power caused a complete loss of RPS that resulted in a reactor scram and a PCIS Group 1 Isolation.

After 5 minutes of methodically working through the EOPs, the following conditions exist:

• All 8 Scram Group white lights are OFF.

• Approximately 1/2 of the GREEN Rod Full In lights are OFF.

• The CRS has declared that a Hydraulic ATWS exists and has initiated EOP actions.

• ADS is locked out.

• The Mode Switch is in Shutdown.

• ARI has been initiated and the Recirc Pumps have tripped.

• The operator at 1C05 has NOT started inserting IRMs yet.

• All APRM Downscale Lights are OFF.

• All 1C05 APRM recorders are selected to APRM and are reading downscale.

• SRVs are cycling at the Low-Low Set pressures.

If the OSM were to declare an EAL AT THIS TIME, which one must be declared and what is the reason for this classification?

a. SA2; Reactor power can be verified to be <5% by the way the SRVs are cycling.

b. SA2; Reactor power can be verified to be <5% by the APRM recorders that are downscale.

c. SS2; Reactor power can be verified to be >5% by the APRM Downscale lights that are OFF.

d. SS2; Reactor power cannot be verified to be < 5% at this time.

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16. (Tech Spec 3.1.5 is provided)

All control rod scram times were within the limits of Table 3.1.4-1 during the last scram time surveillance.

While operating at 93% thermal power, operators received 1C05A (F-7), CRD ACCUMULATOR LO PRESSURE OR HI LEVEL).

The alarm was for HCU 02-19 and was received at 2233. The NSPEO who investigated reported at 2238 that HCU 02-19 accumulator alarm was due to low nitrogen pressure at 970 psig. The pressure reading is stable.

At 2238 the CRS logged entry into Tech Spec 3.1.5 Condition A and then directed the NSPEO to perform Precharging CRD (**-**) HCU Accumulator with Nitrogen per OI-255 CRD Hydraulic System Section 8.4.

Why did the CRS enter Tech Spec 3.1.5 Condition A at 2238?

a. Because HCU ACCUMULATOR 02-19 was found INOPERABLE at 2238.

b. Because HCU ACCUMULATOR 02-19 would become INOPERABLE while correcting the low-pressure condition.

c. Because ROD 02-19 must conservatively be considered SLOW starting at 2238.

d. Because ROD 02-19 must conservatively be considered INOPERABLE while correcting the low pressure condition.

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17. A plant startup is in progress. The 1C05 operators were withdrawing a group of rods from position 12 to position 24 by group notch withdrawal. All the rods in that group were at position 14, and the first rod in the group was being withdrawn again.

That is when the solid-state timer malfunctioned, applying a withdraw signal longer than the automatic protective circuitry would allow. After the Reactor Manual Control System responded as designed, the rod was identified at position 20. No alarms were received from nuclear instrumentation.

1) Until the timer malfunction is reset, how will the ability of operators to move control rods be impacted?

2) Must AOP 255.1, Control Rod Movement/Indication Abnormal be entered because the control rod qualifies as a Mispositioned Control Rod?

a. 1) Operators will NOT be able to select control rods.

2) AOP 255.1 must be entered because the rod has withdrawn far enough to qualify as a Mispositioned Rod.

b. 1) Operators will NOT be able to select control rods.

2) AOP 255.1 need NOT be entered because the definition of a Mispositioned Rod exempts rods that move more than one notch when being withdrawn.

c. 1) Operators will be able to select control rods but a ROD OUT BLOCK (1C05B A-6) will prevent further withdrawals.

2) AOP 255.1 must be entered because the rod has withdrawn far enough to qualify as a Mispositioned Rod.

d. 1) Operators will be able to select control rods but a ROD OUT BLOCK (1C05B A-6) will prevent further withdrawals.

2) AOP 255.1 need NOT be entered because the definition of a Mispositioned Rod exempts rods that move more than one notch when being withdrawn.

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18. (Attached is section 3.6.3.2)

A plant start up is in progress following an outage with the containment was de-inerted.

The following is a time line of the startup:

• 0600 The reactor is made critical.

• 1200 The MODE Switch was taken to the RUN position.

• 1400 Inerting of the containment was begun IAW OI 573, Containment Atmosphere Control System.

• 1800 Reactor power exceeded 15% Rated Thermal Power.

• 0200 The Aux Boiler broke down. Primary Containment Oxygen is currently reading 7.7%

and stable.

Estimated repair time for the Aux Boiler is 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.

In accordance with Technical Specifications, which of the following statements is correct for the oxygen concentration in the primary containment?

a. There are 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> to reduce the Oxygen to <4%, if this cannot be done you must enter TS 3.0.3 immediately.

b. Based on the time of discovery of the loss of the Aux boiler, the Primary Containment oxygen must be below 4% within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

c. There are 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> remaining to reduce the Oxygen to < 4% if this cannot be done, within the next 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> thermal power must be reduced to < 15%.

d. There are 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> remaining to reduce the Oxygen to < 4%, if this cannot be done the MODE Switch must be placed in START & HOT STBY with the next 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />.

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19. (Technical Specification LCOs and Surveillances Section 3.8.3 and ARP 1C93 B-1& B-2 are provided.)

The plant is operating at 93% thermal power when a trouble alarm, for the A SBDG, is received.

• The NSPEO is sent to investigate.

• The NSPEO calls the control room and informs the RO that the alarm is 1C93 (B-2), LUBE OIL MAKE UP TANK LOW, and that it comes in at 206 gallons of lube oil remaining in the Makeup Tank, 1T-114A.

• The cause of the lowering oil level has already been identified and corrected. The Mechanics have been directed to fill the make up tank with oil.

Which of the following statement is CORRECT concerning the A SBDG Limiting Conditions for Operation (LCO)?

a. A total of 206 gallons of SBDG lube oil inventory satisfies the Tech Spec requirements.

Therefore no LCO is applicable.

b. 206 gallons of lube oil in the make up tank plus the inventory in the engine sump satisfies Tech Spec requirements. Therefore no LCO is applicable.

c. A 48 Hour LCO must be entered. If lube oil inventory cannot be restored in that time, the SBDG must be declared inoperable.

d. The A SBDG must be declared inoperable immediately.

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20. (AOP-149 and IPOI-8 attachments are provided.)

The plant has been shutdown for a forced outage to repair a piping rupture in the Reactor Water Cleanup System.

You are to plan a Work Order that has the potential to cause the loss of all decay heat removal, so the planning should include a calculation of the Time to Boil. The following information is necessary for the calculation:

• Operators scrammed the reactor for the shutdown 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ago.

• The Work Order is scheduled for this same time tomorrow.

• The Control Room is expected to keep RPV water level stable at 200.

• The Control Room is expected to keep RPV water temperature stable at 152°F.

Using the attachments provided from AOP 149, Loss of Decay Heat Removal, and IPOI-8, Outage and Refueling Operations, calculate the Time to Boil for this work order.

If all decay heat removal is lost during this work, the Time to Boil will be between

a. 39 and 43 minutes.

b. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, 25 minutes and 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />, 35 minutes.

c. 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> and 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />, 30 minutes.

d. 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, 40 minutes and 9 hours1.041667e-4 days <br />0.0025 hours <br />1.488095e-5 weeks <br />3.4245e-6 months <br />, 30 minutes.

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21. (RFP 403, Performance of Fuel Handling Activities Appendix 1 & 2 are provided.)

You are serving as the Fuel Handling Supervisor during refueling.

The Fuel Handler at the Refueling Bridge controls has the mast controls centered and facing directly South. Assume that this mast position is 0° for this question.

The next fuel move is a fuel assembly in the Spent Fuel Pool with a SOUTH-EAST spring clip orientation. It is going to a Core location of 23-04, in the cell with control rod 22-03. The Spotter tells the Fuel Handler to grapple the assembly Easy Right, which is a small step to the right and a 45° mast rotation counter-clockwise. (Looking down)

As Fuel Handling Supervisor, you must provide concurrence that fuel assembly orientation is correct before it is lowered into the core. Predict the mast position for the correct seating orientation in the core at location 23-04. Use the Spent Fuel Pool and Core Coordinate Maps provided.

For proper fuel assembly orientation, the mast must have a

a. 45° rotation clockwise from 0°. (Easy Left)

b. 135° rotation clockwise from 0°. (Hard Left)

c. 45° rotation counter-clockwise from 0°. (Easy Right)

d. 135° rotation counter-clockwise from 0°. (Hard Right)

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22. You are the CRS during a refuel outage. Startup is scheduled in approximately 2 weeks.

Maintenance brings 50 Work Orders for post testing on the scram solenoid valves. The testing is to be performed via STP 3.1.4.01, Scram Time Testing.

You determine that the present plant conditions will not support this testing.

IAW MD-24, Post Maintenance Testing Program you:

a. Send the Work Order Package to maintenance planning to HOLD for deferred testing.

b. Initiate a deviation to the Post Testing Requirements with the concurrence of the Operations Manager.

c. State on the Work Order that performing STP 3.1.4-01, which is scheduled during start up activities, will satisfy the Post Testing Requirements, and then close out the package.

d. Alter the outage schedule to support the immediate performance of Post Testing Requirements so Operability of the scram solenoids will not impact the plant startup.

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23. The plant is operating at 93% thermal power.

There is NO testing or maintenance of any kind in progress.

In the Control Room, 1C08B (C-2), B DIESEL 1C94 TROUBLE has activated. The Auxiliary Operator who is responding reports that the alarm is 1C94 (D-1), CV-2081 OPEN. He believes that CV-2081, the Engine Coolant Valve, has failed open because the associated solenoid valve, SV-2081 feels colder to the touch than normal and may be deenergized.

Does the Control Room Supervisor (CRS) have any other responsibility in response to this alarm in addition to initiating a Work Request Card to have the defective component tested/repaired as necessary? If so, identify that responsibility.

a. The CRS has no additional responsibility beyond initiating a Work Request Card.

b. The CRS must arrange for the Chemistry Technician to take a local grab sample to prevent an unmonitored release via this pathway.

c. The CRS must direct the Auxiliary Operator to close the associated manual valve, V13-034, under administrative control to prevent engine cooldown that could make it inoperable.

d. The CRS must direct the Work Control Center to tag closed the associated manual valve, V13-034, to prevent engine cooldown and immediately enter the LCO 3.8.1 for one SBDG inoperable.

Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 23 Written Exam

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24. The plant is at 30% thermal power and is being shutdown for a Drywell entry to investigate increased Floor Drain leakage. Annunciator 1C03A (C-4), OFFGAS VENT PIPE RM4116A/B RAD MONITOR DNSCL/INOP, is active because RM4116A has been inoperable for several days.

There are no other LCOs.

Operators were about to begin venting the containment in preparation for performing an air purge (de-inerting) of the containment per OI-573, Containment Atmosphere Control System,. Section 6.1 Step (2) of Normal Containment Venting has the operators verify that the above annunciator is reset or that the ARP actions have been completed. When they checked the second installed radiation monitor, RM4116B, they found that it was also INOPERABLE.

May the CRS authorize containment venting in this situation?

If NO, identify the requirement that prevents venting.

If YES, identify the additional requirements to allow venting.

a. NO; At least one of the installed radiation monitors must be operable per Technical specifications to allow venting.

b. NO; At least one of the installed radiation monitors must be operable per the Offsite Dose Assessment Manual (ODAM) to allow venting.

c. YES; However, operators must continuously monitor alternate instrumentation and they must close the primary vent and purge valves within four hours.

d. YES; However, operators must continuously monitor alternate instrumentation and they must have administrative control of the primary vent and purge valves.

Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 24 Written Exam

1 Point

25. A Loss of Coolant Accident has occurred in which equipment failures necessitated the use of the Hard Pipe Vent.

• Torus level rose to 11.0 ft where it is being maintained.

• HPCI and RCIC were running but isolated on low steam supply pressure.

• Emergency Depressurization was attempted, but none of the SRVs opened.

• CAD was NOT initiated.

The current conditions are:

• RPV pressure is stable at 75 psig.

• Drywell Pressure is stable at 53 psig.

• Torus Pressure is stable at 52 psig.

Which of the following annunciators is consistent with plant conditions at this time?

a. HPCI PUMP SUCTION HI PRESSURE (1C03C, C-3)

b. SRV TAILPIPE HI PRESS OR HI TEMP (1C03A, C-5)

c. RCIC TURBINE EXHAUST HI PRESSURE (1C04C, B-8)

d. A DRYWELL SPRAY CAD HI PRESSURE (1C35A, D-4)

Senior Reactor Operator, 50008 Rev. 0 Topic 05-ILC-SRO-NRC 57_05-ILC-SRO-NRC-written_xm.doc Page 25 Written Exam