ML13108A193
ML13108A193 | |
Person / Time | |
---|---|
Site: | Comanche Peak |
Issue date: | 04/08/2013 |
From: | Kelly Clayton Operations Branch IV |
To: | Luminant Generation Co |
laura hurley | |
References | |
50-445/13-004, 50-446/13-004 | |
Download: ML13108A193 (38) | |
Text
CPNPP NRC 2013 Written Examination Feedback Question 036 - In accordance with plant data obtained from a recent plant startup (Figure 1) and in accordance with the simulator model where the candidates received their low power operation training, the LP Turbine Control Valves are at 86% OPEN at the stated plant conditions. Thus the correct position for the LP Turbine Control Valves is NOT FULLY OPEN making the correct answer D. This was a bank question and was not identified as being incorrect during on site validation. The question was significantly modified during the NRC review process but did not meet the requirements to be considered a modified question. Recommended action is to change the correct answer from C to D.
Figure 1
CPNPP NRC 2013 Written Examination Feedback Question 062 - The activity increase is definitely due to an oxygen induced CRUD burst. However, the manner in which the Failed Fuel Monitor FFL160 responds is incorrect. Distractor C was intended to be incorrect by using the expression spiking and returning to normal which is used in ABN-102, High Reactor Coolant Activity to indicate a condition that is not a real failed fuel or RCS activity problem and as such does not require sampling. A steady or sustained increase over time was believed to be the real indication of failed fuel/RCS activity problems. Based on candidate feedback further investigation utilizing CPNPP actual FFL-160 data (Figure 2) from the 1RF16 induced CRUD burst yielded that the plant response is an activity spike with the indication returning to normal over the next day using the demineralizers as efficient particulate filters in the letdown stream. Recommended action is to change the correct answer from A to C.
Figure 2
CPNPP NRC 2013 Written Examination Feedback Question 067 - In accordance with STA-617 Attachment 8.B, Breaker Operation Checklist the Source Range High Flux at Shutdown Switches are placed in BLOCK prior to breaker operation in MODE 6 (Procedural excerpts attached).
This guidance in conjunction with the caution which states the reason for blocking the source range is to avoid an unnecessary containment evacuation makes Distractor B correct. This was a bank question and was not identified as being incorrect during validation. Further the listed reference for the bank question was RFO-102, which did not contain the guidance identified in STA-617.
Recommended action is to accept both B and C as correct.
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 045 A3.05 Importance Rating 2.6 Main Turbine Generator System: Ability to monitor automatic operation of the MTG System, including: Electrohydraulic control Proposed Question: Common 36 Given the following conditions:
Unit 1 Main Turbine startup is in progress as follows:
Turbine Speed is 1800 rpm.
Exhaust Hood temperature is 174°F.
Turbine Stress Evaluator (TSE) Margin is GREEN.
No operator action has been taken since establishing 1800 rpm.
What is the status of the LP Turbine Control Valves and the HP Turbine Control Valves at this point in Main Turbine startup?
LP Turbine Control Valves HP Turbine Control Valves A. FULLY OPEN FULLY OPEN B. NOT FULLY OPEN FULLY OPEN C. FULLY OPEN NOT FULLY OPEN D. NOT FULLY OPEN NOT FULLY OPEN Proposed Answer: C Explanation:
A. Incorrect. Plausible if thought that latching the turbine and raising speed to 1800 rpm (full speed) would open all control valves.
B. Incorrect. Plausible if thought that the HP vice the LP control valves would be fully open on turbine startup and the LP control valves throttle to control speed and the throttle to control load once synchronized to the Grid.
C. Correct. Given the conditions listed and with no operator action once the Main Turbine reaches 1800 RPM the LP control valves will be fully open and HP control valves throttle to control speed and will throttle to control load once synchronized to the Grid.
D. Incorrect. Plausible if thought that both the LP and HP control valves throttle to control load.
Technical Reference(s) LO21.SYS.MT1 Attached w/ Revision # See Comments / Reference Page 38 of 92 CPNPP NRC 2013 RO Written Exam Worksheet 26 to 50 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: LIST and DESCRIBE the purpose of in-plant and Control Room System controls, indications, and alarms for the Main Turbine components.
Question Source: Bank # X Modified Bank # (Note changes or attach parent)
New Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 5, 7 55.43 Page 39 of 92 CPNPP NRC 2013 RO Written Exam Worksheet 26 to 50 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Comments /
Reference:
From LO21.SYS.MT1 Revision 5/4/11 The Turbine-Generator load is controlled by stop and control valves. The stop valves admit steam to the turbine as operating conditions require, and provide extremely fast closure to isolate the turbine from the steam supply system in the event of a protective device actuation. This rapid closure of the stop valves is referred to as a turbine trip. The control valves regulate the amount of steam admitted to the Main Turbine to control the output load of the Main Generator or the speed of the turbine during startup.
Steam flow to the LP Turbines is regulated by the EHC system which uses hydraulic fluid pressure to position control valves in response to various inputs much like the HP Stop and Control valves. The LP Stop and Control valves are normally fully open with Turbine-Generator load being controlled by the HP Turbine.
During normal operation the LP Control Valves are fully open and will only throttle down upon a large loss of electrical load to help prevent overspeeding of the Main Turbine.
Page 40 of 92 CPNPP NRC 2013 RO Written Exam Worksheet 26 to 50 Rev h
Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 045 A3.05 Importance Rating 2.6 Main Turbine Generator System: Ability to monitor automatic operation of the MTG System, including: Electrohydraulic control Proposed Question: Common 36 Given the following conditions:
Unit 1 Main Turbine startup is in progress as follows:
Turbine Speed is 1800 rpm.
Exhaust Hood temperature is 174°F.
Turbine Stress Evaluator (TSE) Margin is GREEN.
No operator action has been taken since establishing 1800 rpm.
What is the status of the LP Turbine Control Valves and the HP Turbine Control Valves at this point in Main Turbine startup?
LP Turbine Control Valves HP Turbine Control Valves A. FULLY OPEN FULLY OPEN B. NOT FULLY OPEN FULLY OPEN C. FULLY OPEN NOT FULLY OPEN D. NOT FULLY OPEN NOT FULLY OPEN Proposed Answer: D Explanation:
A. Incorrect. Plausible if thought that latching the turbine and raising speed to 1800 rpm (full speed) would open all control valves.
B. Incorrect. Plausible if thought that the HP vice the LP control valves would be fully open on turbine startup and the LP control valves throttle to control speed and the throttle to control load once synchronized to the Grid.
C. Incorrect. Plausible as this is the normal position of the LP and HP control valves under most plant conditions, however the LP Turbine Control Valves have not reached their full open status under the stated conditions.
D. Correct. In accordance with the CPNPP simulator which models is modeled on actual plant data, the LP Turbine Control Valves are at approximately 86% open under the stated plant condtions.
Technical Reference(s) LO21.SYS.MT1 Attached w/ Revision # See CPNPP U2 2012 Benchmark Data Comments / Reference Proposed references to be provided during examination: None Learning Objective: LIST and DESCRIBE the purpose of in-plant and Control Room System controls, indications, and alarms for the Main Turbine components.
Question Source: Bank # X Modified Bank # (Note changes or attach parent)
New Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 5, 7 55.43
Comments /
Reference:
From LO21.SYS.MT1 Revision 5/4/11 The Turbine-Generator load is controlled by stop and control valves. The stop valves admit steam to the turbine as operating conditions require, and provide extremely fast closure to isolate the turbine from the steam supply system in the event of a protective device actuation. This rapid closure of the stop valves is referred to as a turbine trip. The control valves regulate the amount of steam admitted to the Main Turbine to control the output load of the Main Generator or the speed of the turbine during startup.
Steam flow to the LP Turbines is regulated by the EHC system which uses hydraulic fluid pressure to position control valves in response to various inputs much like the HP Stop and Control valves. The LP Stop and Control valves are normally fully open with Turbine-Generator load being controlled by the HP Turbine.
During normal operation the LP Control Valves are fully open and will only throttle down upon a large loss of electrical load to help prevent overspeeding of the Main Turbine.
Comments /
Reference:
From CPNPP U2 2012 Benchmark Data 11/12 Startup
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 076 AK2.01 Importance Rating 2.6 High Reactor Coolant Activity: Knowledge of the interrelations between High Reactor Coolant Activity and the following:
Process radiation monitors Proposed Question: Common 62 Given the following conditions:
Unit 1 has experienced a problem with the Volume Control Tank (VCT).
Charging Pump suction has been shifted to the Refueling Water Storage Tank (RWST) per SOP-103A, Chemical and Volume Control System.
Chemistry has sampled the Reactor Coolant System and determined that Co-58 and Co-60 levels are increasing.
Which of the following lists the expected indication and the most probable cause for the indication?
1-RE-406 (FFL160) indication A. rising at a steady rate due to an oxygen induced CRUD burst.
B. rising at a steady rate due to oxygen induced cladding creep.
C. spiking and returning to normal due to an oxygen induced CRUD burst.
D. spiking and returning to normal due to oxygen induced cladding creep.
Proposed Answer: A Explanation:
A. Correct. An increase in Co-58 and Co-60 are the result of oxygen induced CRUD burst from shifting to the Refueling Water Storage Tank.
B. Incorrect. Plausible because a FFL160 indication would be rising but cobalt is not an indication of cladding damage.
C. Incorrect. Plausible because FFL160 indication would rise not spike and return to normal and cobalt comes from a CRUD burst not clad failure.
D. Incorrect. Plausible because FFL160 indication would rise not spike and return to normal and cobalt comes from a CRUD burst not clad failure.
Technical Reference(s) ABN-102, Steps 1, 6 & 7 NOTES Attached w/ Revision # See SOP-103A, Step 5.5.15.A CAUTION Comments / Reference Page 49 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: ANALYZE the response to High Reactor Coolant Activity per ABN-102, High Reactor Coolant Activity.
Question Source: Bank #
Modified Bank # (Note changes or attach parent)
New X Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 10, 12 55.43 Comments /
Reference:
From SOP-103A, Step 5.5.15.A CAUTION Revision # 17 Page 50 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Comments /
Reference:
From ABN-102, Step 7 NOTE Revision # 7 Page 51 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Comments /
Reference:
From ABN-102, Step 1 & 6 NOTES Revision # 7 Page 52 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 076 AK2.01 Importance Rating 2.6 High Reactor Coolant Activity: Knowledge of the interrelations between High Reactor Coolant Activity and the following:
Process radiation monitors Proposed Question: Common 62 Given the following conditions:
Unit 1 has experienced a problem with the Volume Control Tank (VCT).
Charging Pump suction has been shifted to the Refueling Water Storage Tank (RWST) per SOP-103A, Chemical and Volume Control System.
Chemistry has sampled the Reactor Coolant System and determined that Co-58 and Co-60 levels are increasing.
Which of the following lists the expected indication and the most probable cause for the indication?
1-RE-406 (FFL160) indication A. rising at a steady rate due to an oxygen induced CRUD burst.
B. rising at a steady rate due to oxygen induced cladding creep.
C. spiking and returning to normal due to an oxygen induced CRUD burst.
D. spiking and returning to normal due to oxygen induced cladding creep.
Proposed Answer: C
Explanation:
A. Incorrect. An increase in Co-58 and Co-60 are the result of oxygen induced CRUD burst from shifting to the Refueling Water Storage Tank, however the increase is not a rise at a steady rate but is a spike with return to normal.
B. Incorrect. Plausible because a FFL160 indication would be rising but cobalt is not an indication of creep induced cladding damage.
C. Correct. An increase in Co-58 and Co-60 are the result of oxygen induced CRUD burst from shifting to the Refueling Water Storage Tank. The radiation monitor indication would indicate a spike shortly after an oxygen induced CRUD burst with a return to normal based on system cleanup as depicted in plant reference data. These indications are consistent with a plant induced CRUD burst for outage dose reduction.
D. Incorrect. Plausible because FFL160 indication would rise and return to normal but cobalt comes from a CRUD burst not creep induced cladding damage.
Technical Reference(s) ABN-102, Steps 1, 6 & 7 NOTES Attached w/ Revision # See SOP-103A, Step 5.5.15.A CAUTION Comments / Reference 1RF16 FFL-160 Response Proposed references to be provided during examination: None Learning Objective: ANALYZE the response to High Reactor Coolant Activity per ABN-102, High Reactor Coolant Activity.
Question Source: Bank #
Modified Bank # (Note changes or attach parent)
New X Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 10, 12 55.43
Comments /
Reference:
From SOP-103A, Step 5.5.15.A CAUTION Revision # 17 Comments /
Reference:
From ABN-102, Step 7 NOTE Revision # 7
Comments /
Reference:
From ABN-102, Step 1 & 6 NOTES Revision # 7 Comments /
Reference:
From 1RF16 FFL-160 Response Revision March 2013 ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 1 K/A # G 2.1.36 Importance Rating 3.0 Conduct of Operations: Knowledge of procedures and limitations involved in core alterations Proposed Question: Common 67 Given the following conditions:
Unit 2 is in MODE 6.
N-31 and N-32 are the OPERABLE Source Range Nuclear Instruments.
STA-617, High Voltage Switching and Clearance, is about to be performed in the Switchyard.
Which of the following must be performed prior to implementing STA-617, High Voltage Switching and Clearance?
A. Place the High Flux at Shutdown Switch in BLOCK on both N-31 and N-32 to prevent loss of the Source Range Nuclear Instrumentation.
B. Place the High Flux at Shutdown Switch in BLOCK on both N-31 and N-32 to prevent a Containment evacuation.
C. Suspend CORE ALTERATIONS and positive reactivity additions due to the potential for spiking of the Source Range Nuclear Instrumentation.
D. Suspend CORE ALTERATIONS and positive reactivity additions due to the potential for loss of power to Refueling equipment.
Proposed Answer: C Explanation:
A. Incorrect. Plausible because spiking of the Source Range Nuclear Instrumentation will occur, however, placing the High Flux at Shutdown Switch in BLOCK would violate Technical Specifications.
B. Incorrect. Plausible because spiking could activate the Containment Evacuation Alarm, however, the switch would not be placed in BLOCK.
C. Correct. Per the Precaution outlined in RFO-102.
D. Incorrect. Plausible because CORE ALTERATIONS would be suspended, however, not for the reasons listed.
Technical Reference(s) RFO-102, Steps 3.13 & 3.17 Attached w/ Revision # See Comments / Reference Page 67 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: EXPLAIN indication and Control/Trips for Source Range High Flux at Shutdown and Containment Evacuation Alarms.
Question Source: Bank # X Modified Bank # (Note changes or attach parent)
New Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 6, 10 55.43 Page 68 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Comments /
Reference:
From RFO-102, Step 3.13 Revision # 13 Page 69 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
ES-401 CPNPP NRC 2013 RO Written Exam Worksheet Form ES-401-5 Comments /
Reference:
From RFO-102, Step 3.17 Revision # 13 Page 70 of 98 CPNPP NRC 2013 RO Written Exam Worksheet 51 to 75 Rev h
Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 1 K/A # G 2.1.36 Importance Rating 3.0 Conduct of Operations: Knowledge of procedures and limitations involved in core alterations Proposed Question: Common 67 Given the following conditions:
Unit 2 is in MODE 6.
N-31 and N-32 are the OPERABLE Source Range Nuclear Instruments.
STA-617, High Voltage Switching and Clearance, is about to be performed in the Switchyard.
Which of the following must be performed prior to implementing STA-617, High Voltage Switching and Clearance?
A. Place the High Flux at Shutdown Switch in BLOCK on both N-31 and N-32 to prevent loss of the Source Range Nuclear Instrumentation.
B. Place the High Flux at Shutdown Switch in BLOCK on both N-31 and N-32 to prevent a Containment evacuation.
C. Suspend CORE ALTERATIONS and positive reactivity additions due to the potential for spiking of the Source Range Nuclear Instrumentation.
D. Suspend CORE ALTERATIONS and positive reactivity additions due to the potential for loss of power to Refueling equipment.
Proposed Answer: B or C Explanation:
A. Incorrect. Plausible because spiking of the Source Range Nuclear Instrumentation will occur, however, placing the High Flux at Shutdown Switch in BLOCK would violate Technical Specifications.
B. Correct. In accordance with STA-617 Attachment 8.B, Breaker Operation Checklist the High Flux at Shutdown Switch is placed in BLOCK prior to performing High Voltage Switching in MODE 6. In accordance with STA-617 Caution the switch is placed in BLOCK to prevent a potential Containment Evacuation Alarm.
C. Correct. Per the Precaution outlined in RFO-102 and STA-617 Step 6.1.27.
D. Incorrect. Plausible because CORE ALTERATIONS would be suspended, however, not for the
reasons listed.
Technical Reference(s) RFO-102, Steps 3.13 & 3.17 Attached w/ Revision # See STA-617, Step 6.1.27, Caution & Att. 8.B Comments / Reference Proposed references to be provided during examination: None Learning Objective: EXPLAIN indication and Control/Trips for Source Range High Flux at Shutdown and Containment Evacuation Alarms.
Question Source: Bank # X Modified Bank # (Note changes or attach parent)
New Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 6, 10 55.43
Comments /
Reference:
From RFO-102, Step 3.13 Revision # 13 Comments /
Reference:
From RFO-102, Step 3.17 Revision # 13 Comments /
Reference:
From STA-617 Revision # 8 Comments /
Reference:
From STA-617 Revision # 8
Comments /
Reference:
From STA-617 Attachment 8.B Revision # 8 Comments /
Reference:
From STA-617 Attachment 8.B Revision # 8
Validation Results and Comments Question #36 Question format as validated:
Given the following conditions:
Unit 1 Main Turbine startup is in progress as follows:
Turbine Speed is 1800 rpm.
Exhaust Hood temperature is 174°F.
Turbine Stress Evaluator (TSE) Margin is GREEN.
No operator action has been taken since establishing 1800 rpm.
Given the following Main Turbine auxiliary components:
- 1. Shaft Lift Oil Pump
- 2. Turning Gear Valves
- 3. Auxiliary Lube Oil Pumps
- 4. LP Turbine Control Valves
- 5. HP Turbine Control Valves Which of the following indicates the status of the components at this point in Main Turbine startup?
A. 1 - OFF 2 - CLOSED 3 - RUNNING 4 - OPEN 5 - CLOSED B. 1 - ON 2 - OPEN 3 - STOPPED 4 - OPEN 5 - NOT FULLY OPEN C. 1 - OFF 2 - CLOSED 3 - RUNNING 4 - OPEN 5 - NOT FULLY OPEN D. 1 - ON 2 - CLOSED 3 - STOPPED 4 - NOT FULLY OPEN 5 - NOT FULLY OPEN
Proposed Answer: C Explanation:
A. Incorrect. Plausible because all conditions are correct with the exception of the HP Control Valves. These valves would be partially open to maintain speed at 1800 RPM.
B. Incorrect. Plausible because the HP and LP Control Valve positions are correct, however, the Shaft Oil Pump automatically stops at 540 RPM, the Turning Gear Valve closes at 260 RPM, and the Auxiliary Lube Oil Pumps must be stopped by the operator.
C. Correct. Given the conditions listed and with no operator action once the Main Turbine reaches 1800 RPM, this is the correct condition of the Main Turbine components.
D. Incorrect. Plausible because Turning Gear Valve position and HP Control Valve positions are correct, however, the other components are incorrect for the conditions listed.
Validator Answers:
RO1: C RO2: C RO3: C SRO1: D SRO2: C SRO3: C Pass Rate: 83.3%
Comments:
Trivial knowledge Answer C is wrong. Aux Lube Oil Pumps are off at 1765 rpm. Change C to Aux L.O. Pumps to OFF.
Question #62 Question as validated:
Given the following conditions:
Unit 1 has experienced a problem with the Volume Control Tank (VCT).
Charging Pump suction has been shifted to the Refueling Water Storage Tank (RWST) per SOP-103A, Chemical and Volume Control System.
Several hours after shifting Charging Pump suction, 1-RE-0406 (FFL106), Failed Fuel Monitor indication has begun rising at an increasing rate.
Chemistry has sampled the Reactor Coolant System and determined that Mn-54 and Mn-56 levels are increasing.
Which of the following is the probable cause for the increasing reading on FFL-160, Failed Fuel Monitor?
A. Oxygen induced CRUD burst.
B. Hydraulically induced CRUD burst.
C. Oxygen induced cladding creep.
D. Chemically induced cladding pin-holing.
Proposed Answer: A Explanation:
A. Correct. An increase in Mn-54 and Mn-56 are the result of an oxygen induced CRUD burst from shifting to the Refueling Water Storage Tank.
B. Incorrect. Plausible because a CRUD burst is in progress, however, a hydraulically induced CRUD burst is associated with Rod movement due to contamination of CRDM latch assemblies.
C. Incorrect. Plausible because D. Incorrect. Plausible because any increase in RCS fission product isotopes during steady-state operation may indicate fuel damage, however, Mn-54 and Mn-56 are the result of a CRUD burst.
Validator Answers:
RO1: A RO2: A RO3: A SRO1: A SRO2: A SRO3: A Pass Rate: 100%
Comments:
None
Question #67 Question as validated:
Given the following conditions:
Unit 2 is in MODE 6.
N-31 and N-32 are the OPERABLE Source Range Nuclear Instruments.
STA-617, High Voltage Switching and Clearance, is about to be performed in the Switchyard.
Which of the following must be performed prior to implementing STA-617, High Voltage Switching and Clearance?
A. Place the High Flux at Shutdown Switch in BLOCK on both N-31 and N-32 to prevent loss of the Source Range Nuclear Instrumentation.
B. Suspend CORE ALTERATIONS and positive reactivity additions due to the potential for spiking of the Source Range Nuclear Instrumentation.
C. Place the High Flux at Shutdown Switch in BLOCK on both N-31 and N-32 to prevent an inadvertent Containment evacuation.
D. Suspend CORE ALTERATIONS and positive reactivity additions due to the potential for loss of power to Refueling equipment.
Proposed Answer: B Explanation:
A. Incorrect. Plausible because spiking of the Source Range Nuclear Instrumentation will occur, however, placing the High Flux at Shutdown Switch in BLOCK would violate Technical Specifications.
B. Correct. Per the Precaution outlined in RFO-102.
C. Incorrect. Plausible because spiking could activate the Containment Evacuation Alarm, however, the switch would not be placed in BLOCK.
D. Incorrect. Plausible because CORE ALTERATIONS would be suspended, however, not for the reasons listed.
Validator Answers:
RO1: B RO2: B RO3: C SRO1: C SRO2: B SRO3: C Pass Rate: 50%
Comments:
None