2011-11-Draft Written Exam

ML120470686
Person / Time
Site:	San Onofre
Issue date:	10/28/2011
From:	Brian Larson Operations Branch IV
To:	Southern California Edison Co
laura hurley
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Download: ML120470686 (211)
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ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 003 A2.03 Importance Rating 2.7 Reactor Coolant Pump System: Ability to (a) predict the impacts of the following malfunctions or operations on the RCPS; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Problems associated with RCP motors, including faulty motors and current, and winding and bearing temperature problems Proposed Question: Common 1 Given the following conditions:

• Unit 2 experienced an automatic Reactor Trip five (5) minutes ago due to a Reactor Coolant Pump (RCP) fault.

• Prior to the trip, all four (4) RCPs were operating at 575 amps with a differential pressure of 105 PSID.

• Post trip, the following indications are observed:

Current Differential Pressure

• RCP P-001 200A 35 PSID

• RCP P-002 575A 90 PSID

• RCP P-003 600A 65 PSID

• RCP P-004 575A 90 PSID Based on the RCP indications, what was the cause of the Reactor Trip and which two RCPs should be tripped prior to implementing the required Emergency Operating Instruction?

(Note: Reactor Trip recovery was NOT diagnosed.)

Sheared shaft on RCP...

A. P-001; RCPs P-001 and P-003 will be tripped.

B. P-001; RCPs P-001 and P-004 will be tripped.

C. P-003; RCPs P-001 and P-003 will be tripped.

D. P-003; RCPs P-002 and P-003 will be tripped.

Proposed Answer: B Page 1 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because P-001 has a sheared shaft, however, one RCP in each loop must be stopped and these RCPs are in the same loop.

B. Correct. The RCP with a sheared shaft will draw less current because the pump is not doing any work. Stopping RCPs P-001 and P-004 meets the requirements for stopping an RCP in each loop and stops RCPs that are diametrically opposed to each other.

(SO23-5-1.8.1, Attachment 6 is shown for RCP / Loop location representation only.)

C. Incorrect. Plausible because P-003 has a lower differential pressure, however, one RCP in each loop must be stopped.

D. Incorrect. Plausible because P-003 has a lower differential pressure and the these pumps are diametrically opposed to each other, however, this condition would result in uneven loop flow.

Technical Reference(s) SO23-12-1, Step 11 Attached w/ Revision # See SO23-14-1, Step 11 Bases Comments / Reference SO23-5-1.8.1, Attachment 6 Proposed references to be provided during examination: None Learning Objective: 56698 - DESCRIBE the operation of alarms associated with the Reactor Coolant System, including setpoints, possible causes, and effects on system or overall plant operation.

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 3, 10 55.43 Page 2 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 003 K5.03 Importance Rating 3.1 Reactor Coolant Pump System: Knowledge of the operational implications of the following concepts as they apply to the RCPs: Effect of RCP shutdown on Tave, including the reason for unreliability of Tave in the shutdown loop Proposed Question: Common 2 When stopping the last Reactor Coolant Pump with Shutdown Cooling in service, which of the following instruments is used when monitoring Reactor Coolant System cooldown rates?

A. T-351X, Shutdown Cooling Combined Outlet Temperature because this will avoid exceeding cooldown rates when transitioning from Reactor Coolant Pumps to Shutdown Cooling.

B. T-115 / T-125, Reactor Coolant System Loop TCOLD because pump coast down will continue to provide an accurate Reactor Coolant System temperature as cooldown progresses.

C. Representative Core Exit Thermocouple because they provide the most accurate cooldown rate when transitioning from Reactor Coolant Pumps to Shutdown Cooling.

D. T-8148 / T-8149, Shutdown Cooling Heat Exchanger Inlet Temperature because adequate mixing has taken place and the cooldown rate can be monitored where turbulent flow exists.

Proposed Answer: A Explanation:

A. Correct. Per SO23-5-1.8, Shutdown Operations (MODE 5 & 6) L&S, this is the indication to use during the transition in order to provide an accurate cooldown rate.

B. Incorrect. Plausible because this is the last operating loop TCOLD that is used prior to transitioning to SDC.

C. Incorrect. Plausible because the CETs may be the only valid Reactor Core temperature indication, however, this occurs when the Unit is in Midloop condition.

D. Incorrect. Plausible because flow is secured through the Heat Exchangers at this time and it could be thought that once flow is reintroduced an accurate indication would exist for cooldown.

Technical Reference(s) SO23-5-1.8, Attachment 13, L&S 9.7 & 9.8 Attached w/ Revision # See SO23-5-1.8, Attachment 13, L&S 9.10 Comments / Reference SO23-3-2-6, Attachment 16, L&S 7.5 Proposed references to be provided during examination: None Page 5 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 55072 - As the RO, CONTROL RCS Pressure / Temperature when stopping the last RCP during a Plant Cooldown per SO23-5-1.5.

Question Source: Bank # SONGS VISION 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 3, 5, 10 55.43 Page 6 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 004 K2.06 Importance Rating 2.6 Chemical and Volume Control System: Knowledge of bus power supplies to the following: Control instrumentation Proposed Question: Common 3 Given the following conditions:

• Unit 2 is at 100% power.

• All Charging Pumps are in AUTO.

• Charging Pump Selector Switch is in the P-192 / P-190 position.

• A loss of Non-1E Instrument Bus #1, 2Q065, has just occurred.

What is the status of the Unit 2 Charging Pumps?

A. P-190, P-191, and P-192 are STOPPED.

B. P-191 is RUNNING; P-190 and P-192 are STOPPED.

C. P-190 and P-192 are RUNNING, P-191 is STOPPED.

D. P-190, P-191, and P-192 are RUNNING.

Proposed Answer: A Explanation:

A. Correct. Power is lost to the Pressurizer Level Controller which stops all Charging Pumps in AUTO.

B. Incorrect. Plausible because of the Charging Pump Selector Switch position, however, all Charging Pumps in AUTO will stop.

C. Incorrect. Plausible if thought that the Backup Charging Pumps would start, however, all Charging Pumps in AUTO will stop.

D. Incorrect. Plausible because Annunciators for low Pressurizer level will alarm, however, all Charging Pumps are stopped.

Technical Reference(s) SO23-13-19, Step 2.h Note Attached w/ Revision # See SO23-13-19, Attachment 1 Comments / Reference Proposed references to be provided during examination: None Page 10 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 56100 - Using SO23-13-19, Loss of Non-1E Instrument Buses, DESCRIBE the basis for each Step, Caution, or Note, and the expected plant response for each step.

Question Source: Bank # SONGS VISION 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 7 55.43 Page 11 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 004 K4.12 Importance Rating 3.1 Chemical and Volume Control System: Knowledge of the CVCS design feature(s) and/or interlock(s) which provide for the following: Minimum level of VCT Proposed Question: Common 4 Given the following conditions:

• Unit 3 Reactor Power is 80% and stable.

• Volume Control Tank (VCT) level is 50% and stable.

• 3LT-0226, VCT Level Transmitter, has just failed low.

What is the selected signal for VCT level indicating and the status of Auto Makeup to the VCT?

VCT selected signal indicates...

A. 25%; Auto Makeup has initiated based on selected signal VCT level.

B. 25%; Auto Makeup has NOT initiated because Auto Makeup signal is generated directly from VCT Level Transmitter 3LT-0227.

C. 50%, Auto Makeup has NOT initiated based on selected signal VCT level.

D. 50%, Auto Makeup has initiated because Auto Makeup signal is generated directly from VCT Level Transmitter 3LT-0226.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought that LT-0226 represents one half of the signal for VCT level per the Distributed Control System. If level had dropped to this setpoint, Auto Makeup would initiate.

B. Incorrect. Plausible if thought that LT-0226 represents one half of the signal for VCT level per the Distributed Control System. Prior to implementation of the DCS, LT-0227 and LT-0226 had specific functions for swapping Charging Pump suction and initiating Auto Makeup.

C. Correct. Level continues to indicate 50% because the Distributed Control System throws out the bad signal when the rate of change has exceeded 5% per second.

D. Incorrect. Plausible because level would continue to indicate 50%, however, this was the response prior to implementation of the CVCS Distributed Control System (DCS).

Page 14 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-3-2.2, Attachment 20, L&S 1.23 & 4.7 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 115385 - Given a CVCS Makeup system feature, DESCRIBE the major differences in construction and operation between the original CVCS Makeup feature and the replacement CVCS Makeup feature.

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 6, 7 55.43 Page 15 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 005 A2.02 Importance Rating 3.5 Residual Heat Removal: Ability to (a) predict the impacts of the following malfunctions or operations on the RHR system; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Pressure transient protection during cold shutdown Proposed Question: Common 5 Given the following conditions:

• Unit 2 is in MODE 5.

• Shutdown Cooling System is in service.

• The Reactor Coolant System (RCS) is in a solid plant condition.

Starting or stopping a Charging or Low Pressure Safety Injection Pump under these conditions can lead to:

A. Lifting of the Pressurizer Code Safety Relief Valves.

B. Cavitation due to insufficient Net Positive Suction Head.

C. Vortexing in the operating Charging or Low Pressure Safety Injection Pump.

D. Lifting of the Low Temperature Overpressure Protection Relief Valve.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the pressure transient will occur, however, the affected component in MODE 5 is the LTOP Relief Valve.

B. Incorrect. Plausible if thought that a solid plant condition would create cavitation.

C. Incorrect. Plausible because vortexing is a concern when starting or stopping the LPSI Pump, however, this occurs during a Reduced Inventory Condition.

D. Correct. Per the Limits and Specifications identified in SO23-3-2.6.

Technical Reference(s) SO23-3-2.6, Attachment 16, L&S 4.7 Attached w/ Revision # See SO23-3-2.6, Attachment 16, L&S 7.2 to 7.4 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 52767 - DESCRIBE the cause/effect relationships associated with the following Shutdown Cooling System conditions/operations: The effect on Shutdown Cooling system flow and temperature of starting a LPSI Pump while on SDC.

Page 18 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 10, 14 55.43 Page 19 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 005 K1.01 Importance Rating 3.2 Residual Heat Removal System: Knowledge of the physical connections and/or cause-effect relationships between the RHRS and the following systems: CCWS Proposed Question: Common 6 Given the following conditions:

• Plant shutdown and cooldown from 100% power has just been completed.

• Shutdown Cooling System has been established on Train A.

• The RUNNING Train A Component Cooling Water (CCW) Pump trips.

Which of the following describes the Shutdown Cooling System (SDC) response?

A. All SDC flow is lost and the Shutdown Cooling Pumps will trip on low CCW flow.

B. SDC heat removal is lost and annunciator 64A37 - SHUTDOWN HX TRAIN A CCW FLOW LO will alarm.

C. SDC heat removal is degraded and the Shutdown Cooling Pumps will trip on low CCW flow.

D. SDC flow will be degraded and annunciator 64A37 - SHUTDOWN HX TRAIN A CCW FLOW LO will alarm.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because annunciator 64A56 - LPSI PUMP P015 FLOW LO will alarm, however, it is alarm indication only therefore the LPSI Pump (i.e., SDC Pump) will continue to run.

B. Correct. When CCW flow through the Shutdown Cooling Heat Exchanger drops below 5400 GPM, annunciator 64A37 - SHUTDOWN HX TRAIN A CCW FLOW LO will alarm. In this condition heat removal is lost but Shutdown Cooling flow continues.

C. Incorrect. Plausible because to some extent heat removal is degraded, however, the Shutdown Cooling Pumps will continue to run.

D. Incorrect. Plausible because this annunciator will alarm, however, it is not flow that is degraded rather heat removal that is lost.

Technical Reference(s) SO23-15-64.A - 64A37 & 64A56 Attached w/ Revision # See Comments / Reference Page 22 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 52764 - STATE the names of systems interfacing with the Shutdown Cooling System and DESCRIBE the flowpath and purpose of each interconnection.

Question Source: Bank # SONGS VISION 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 7, 8 55.43 Page 23 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 006 K6.01 Importance Rating 3.4 Emergency Core Cooling System: Knowledge of the effect that a loss or malfunction of the following will have on the ECCS:

BIT / borated water sources Proposed Question: Common 7 Which of the following is the reason for maintaining the Refueling Water Storage Tank 362,800 gallons above the Emergency Core Cooling System suction connection during MODES 1 through 4?

A. Shutdown the Reactor and refill the RCS in the event of an Excess Steam Demand Event.

B. Provide a 20 minute supply for ECCS injection and Containment Spray to ensure Containment pressure will decrease to less than 30 PSIG.

C. Provide a sufficient level in the Containment Emergency Sump to permit recirculation following a LOCA.

D. Shutdown the Reactor following mixing of the RWST and RCS water volumes with the most reactive CEA not inserted.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because this event will contract the Reactor Coolant System and shutting down the Reactor is a concern, however, this is not the reason for the volume of water maintained.

B. Incorrect. Plausible because providing a 20 minute supply for ECCS injection and Containment Spray is correct, however, the reason is to ensure a 20 minute injection time before swap over to the Containment Emergency Sump.

C. Correct. The reason the RWST is maintained at this volume is to ensure that there is sufficient water in the Containment Emergency Sump to provide adequate net positive suction head once recirculation begins.

D. Incorrect. Plausible because this answer is correct regarding the boron concentration, however, the question asks about the RWST volume.

Technical Reference(s) SD-SO23-740, Page 22 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Page 26 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 55823 - Given an operational condition of the Safety Injection and Containment Spray System addressed by a procedural precaution, limitation, or administrative requirement, STATE the limiting condition, the limit or the basis for that limiting condition as applicable.

Question Source: Bank # SONGS VISION 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 10 55.43 Page 27 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 007 G 2.4.11 Importance Rating 4.0 Pressurizer Relief / Quench Tank System: Knowledge of abnormal condition procedures.

Proposed Question: Common 8 Given the following plant conditions:

• Reactor Coolant System pressure is 2000 PSIA.

• Pressurizer steam temperature is 636°F.

• A Pressurizer Relief Valve is leaking to the Quench Tank.

• Quench Tank pressure is 20 PSIG.

What is the temperature of the fluid entering the Quench Tank?

A. 212ºF.

B. 225ºF.

C. 259ºF.

D. 636ºF.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if a Constant Pressure Line of 15 PSIA is used vice 35 PSIA.

B. Incorrect. Plausible if a Constant Pressure Line of 15 PSIA is used vice 35 PSIA and the Diagram is followed incorrectly.

C. Correct. Using the Mollier Diagram portion of the Steam Tables, an isenthalpic process from 2000 PSIA to 20 PSIG will yield a fluid temperature of 259ºF.

D. Incorrect. Plausible if the concept of isenthalpic expansion through a nozzle is not part of one's thermodynamic vocabulary.

Technical Reference(s) Steam Tables / Mollier Diagram Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: Steam Tables / Mollier Diagram Learning Objective: 116234 - APPLY saturated and superheated steam tables in solving liquid-vapor problems.

Page 29 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: BANK #

Modified Bank # SONGS VISION (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, 14 55.43 Page 30 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From Steam Tables / Mollier Diagram Revision # N/A Using a Mollier Diagram follow the Constant Pressure Line for 2000 PSIA down until it intersects the Saturation Line which yields an enthalpy of approximately 1135 BTU/lbm of Enthalpy. Follow this enthalpy line to where it intersects 35 PSIA (20 PSIG) and then follow this Constant Pressure Line up to where it intersects the Saturation Line and read the Constant Temperature in degrees Fahrenheit.

Comments /

Reference:

From SONGS VISION Revision # 10/12/06 Given the following plant conditions:

• Reactor Coolant System is being maintained at 2000 psia

• Pressurizer steam temperature is 636°F.

• A Pressurizer Relief Valve is leaking to the Quench Tank.

• Quench Tank is being maintained at 20 psig.

What is the temperature of the fluid entering the Quench Tank?

A. 636°F B. 322°F C. 228°F D. 212°F Page 31 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 008 K4.07 Importance Rating 2.6 Component Cooling Water System: Knowledge of the CCWS design feature(s) and/or interlock(s) that provide for the following: Operation of the CCW swing-bus power supply and its associated breakers and controls Proposed Question: Common 9 Given the following conditions:

• Component Cooling Water (CCW) Pumps P-024 and P-026 are operating.

• P-025, CCW Pump is aligned to Train A in STANDBY.

• Grid instabilities result in a Loss of Offsite Power and Reactor Trip.

• Emergency Diesel Generators have started normally and loaded onto both 1E Buses.

• Pressurizer level is 15% and lowering.

• Pressurizer pressure is 1580 PSIA and lowering slowly.

Assuming NO operator action, which of the following describes the status of the CCW Pumps?

CCW Pumps...

A. P-024, P-025, and P-026 are all RUNNING.

B. P-025 and P-026 are RUNNING and P-024 is OFF.

C. P-024 and P-026 are RUNNING and P-025 is OFF.

D. P-024 and P-025 are RUNNING and P-026 is OFF.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because an SIAS was generated and P-024 was initially running, however, only P-025 and P-026 CCW Pumps are powered.

B. Correct. Even though P-024 was initially running, when power is lost and an SIAS is generated, whichever Train the Swing Pump (P-025) is aligned is the pump that will start.

C. Incorrect. Plausible because the SIAS would start the Train B CCW Pump P-026, however, the Swing Pump is Kirk Key interlocked to start.

D. Incorrect. Plausible if one failed to recognize that an SIAS signal had been generated and assumed that P-025 started on low pressure (and interlocked remove some time ago).

Page 32 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SD-SO23-400, Pages 8, 11, & 32 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56251 - DESCRIBE the operation of the following Component Cooling Water System components, including function, location, and specific features which include type, capacity, power supplies, and normal operating parameters where applicable: CCW Pumps - P024, P025, P026.

Question Source: Bank # SONGS VISION 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 7, 8 55.43 Page 33 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 010 K6.01 Importance Rating 2.7 Pressurizer Pressure Control System: Knowledge of the effect that a loss or malfunction of the following will have on the PZR PCS: Pressure detection systems Proposed Question: Common 10 Given the following conditions:

• Unit 2 Reactor power is 100% and stable.

• HS-100A, Pressurizer Pressure Control Selector Switch, is positioned to Channel X.

• PT-0100X, Pressurizer Pressure Transmitter, just failed low.

With NO operator action, how will PIC-0100, Pressurizer Pressure Controller, and the Proportional Heaters respond to this failure?

PIC-0100 Output Proportional Heater Power A. 100% 100%

B. 100% 0%

C. 0% 100%

D. 0% 0%

Proposed Answer: C Explanation:

A. Incorrect. Plausible because the Proportional Heaters will be generating an output equal to 100%,

however, PIC-0100 output is 0%.

B. Incorrect. Plausible if thought that PIC-0100 was at full output and therefore, the Proportional Heaters would be off.

C. Correct. With a pressure deviation of greater than -25 PSIA, the Proportional Heaters will be generating an output equal to 100%.

D. Incorrect. Plausible because PIC-0100 output is 0%, however, this will generate a proportional heater output equal to 100%.

Page 36 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-13-27, Page 17 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56417 - DESCRIBE the operation of Pressurizer Pressure Control System components, instrumentation, controls and alarms including function, location, interlocks, capacity and power supplies where applicable.

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 7 55.43 Page 37 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 012 K6.09 Importance Rating 3.6 Reactor Protection System: Knowledge of the effect that a loss or malfunction of the following will have on the RPS: CEAC Proposed Question: Common 11 Given the following conditions:

• The Unit is at 100% power.

• Control Element Assembly Calculator (CEAC) #2 is failed.

• Core Protection Calculator (CPC) Point ID 062 (CEANOP) has been set to "2" on all CPC Channels.

If CEAC #1 fails and NO additional operator action is taken, how will the CPCs respond?

A. No channel will trip since having the CEANOP flag set at a value of "2 indicates both CEACs are inoperable.

B. All 4 channels will trip after a 90 minute time delay.

C. All 4 channels will trip after a 30 second time delay.

D. No channel will trip since CPCs will use the last available valid set of CEA position information in the determination of any penalty factors.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because it could be thought that this condition is correct, however, the CEANOP flag does not function this way.

B. Correct. Given the conditions listed and no operator action, a trip will occur after a 90 minute time delay.

C. Incorrect. Plausible because some penalty factors are induced after 20 seconds, however, not for the conditions listed in the Stem.

D. Incorrect. Plausible because a snapshot of a CEA position is stored within the Core Protection Calculator, however, this is a misinterpretation of how the CPC works since a penalty factor is generated.

Technical Reference(s) SO23-3-2.13, Attachment 8, L&S 1.7 & 1.10 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Page 39 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 54689 - DESCRIBE normal, abnormal and emergency system indications and operations of CPCs and CEACs at power, and during normal surveillance activity.

Question Source: Bank # SONGS VISION 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, 7 55.43 Page 40 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 012 K3.01 Importance Rating 3.9 Reactor Protection System: Knowledge of the effect that a loss or malfunction of the RPS will have on the following: CRDS Proposed Question: Common 12 Given the following conditions:

• Unit 2 is at 50% power.

• Reactor Trip Path Solid State Relay K-1 (SSR K-1) has failed and the relay has actuated.

• All Vital 120 VAC Instrument Buses remain energized.

Which of the following identifies the effect of the relay failure on the Control Element Drive Mechanism Control System (CEDMCS)?

A. Two (2) Reactor Trip Circuit Breakers will open and one (1) CEDMCS Bus will deenergize.

B. Two (2) Reactor Trip Circuit Breakers will open and both CEDMCS Buses remain energized.

C. Four (4) Reactor Trip Circuit Breakers will open and one (1) CEDMCS Bus remains energized.

D. Four (4) Reactor Trip Circuit Breakers will open and both CEDMCS Buses remain energized.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because two Reactor Trip Circuit Breakers will open, however, the CEDMCS Buses remain energized B. Correct. Each Solid State Relay controls two Reactor Trip Circuit Breakers; the CEDMCS Buses remain energized because power is available from the other Motor Generator Set.

C. Incorrect. Plausible if thought that one Solid State Relay controlled four Reactor Trip Circuit Breakers.

D. Incorrect. Plausible because both CEDMCS Buses remain energized, however, only two of eight Reactor Trip Circuit Breakers will open.

Technical Reference(s) SD-SO23-710, Figure 2 Attached w/ Revision # See Comments / Reference Page 42 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 81786 - DESCRIBE the configuration and operational characteristics of Control Element Drive Mechanism Control System (CEDMCS) components.

Question Source: Bank # SONGS VISION 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 6 55.43 Page 43 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 013 G 2.1.28 Importance Rating 4.1 Engineered Safety Features Actuation System: Conduct of Operations: Knowledge of the purpose and function of major system components and controls Proposed Question: Common 13 Given the following conditions:

• Unit 2 is at 100% power.

• All Swing Pumps are aligned to Train A.

• P-025, Component Cooling Water (CCW) Pump is running on Train A.

• CCW Pumps P-024 and P-026 are in STANDBY.

• An Operating Basis Earthquake (OBE) occurred resulting in a Reactor Trip and CCW Pump P-025 overcurrent trip.

• During aftershocks, a Small Break Loss of Coolant Accident occurred.

• Safety Injection Actuation Signal (SIAS), Containment Cooling Actuation Signal (CCAS), Control Room Isolation Signal (CRIS), and Emergency Feedwater Actuation Signal (EFAS) have automatically initiated.

With NO operator action, which of the following lists the running High Pressure Safety Injection (HPSI) Pumps and Containment Emergency Cooling Units (ECUs)?

HPSI...

A. Pumps P-018 and P-019, and Train B Containment ECUs only.

B. Pump P-019 only, and Train A and B Containment ECUs.

C. Pump P-019 only, and Train B Containment ECUs only.

A. Pumps P-018 and P-019, and Train A and B Containment ECUs.

Proposed Answer: A Page 46 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Correct. P-026 is the only CCW Pump running because P-025 is receiving the Train A start signal.

Only Train B Containment ECUs are running because only Train B CCW is in operation (interlocked). Both Train A and Train B HPSI Pumps are running because there is no CCW interlock (only cooling water flow to the pump via the Critical Loop).

B. Incorrect. Plausible if thought that only P-019 would be running since P-026 is the only CCW Pump running, however, both HPSI Pumps would be running but only the Train B Containment ECUs (interlocked).

C. Incorrect. Plausible because only the Train B Containment ECUs are running, however, both High Pressure Safety Injection Pumps will be in operation.

D. Incorrect. Plausible because both HPSI Pumps will be running, however, the Containment ECUs are interlocked with Component Cooling Water flow which is only available from Train B.

Technical Reference(s) SD-SO23-400, Pages 9 Attached w/ Revision # See SD-SO23-400, Figure 1 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 81671 - ANALYZE normal and abnormal operations of the Safety Injection and Containment Spray System.

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 7, 8 55.43 Page 47 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 013 A4.02 Importance Rating 4.3 Engineered Safety Features Actuation System: Ability to manually operate and/or monitor in the control room: Reset of ESFAS channels Proposed Question: Common 14 Which of the following actions will allow RESET of the Train B Fuel Handling Isolation Signal?

Depress Train B FHIS RESET/TEST pushbutton and observe white RESET light...

A. extinguished.

Stop Emergency Chill Water Pump at CR-60.

Align Fuel Handling Building Supply and Exhaust Fans at L-154.

B. illuminated.

Stop Emergency Chill Water Pump at L-154.

Align Fuel Handling Building Supply and Exhaust Fans at CR-60.

C. extinguished.

Stop Emergency Chill Water Pump at L-154.

Align Fuel Handling Building Supply and Exhaust Fans at CR-60.

D. illuminated.

Stop Emergency Chill Water Pump at CR-60.

Align Fuel Handling Building Supply and Exhaust Fans at L-154.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the Chill Water Pump and Fuel Handling Building Fan locations are correct, however, the RESET light is illuminated.

B. Incorrect. Plausible because the RESET light is illuminated when depressed, however, the locations for the Chill Water Pump and Fuel Handling Building Fans are reversed.

C. Incorrect. Plausible because the Chill Water Pump and Fuel Handling Building Fans must be stopped and the Fuel Handling Building Dampers are aligned at CR-60, however, their locations are reversed and the RESET light is illuminated.

D. Correct. These are the locations and correct indications for reset of Train B FHIS.

Technical Reference(s) SO23-3-2.22, Attachment 23, Step 2.3 Attached w/ Revision # See SO23-3-2.22, Attachment 23, Step 2.8 Comments / Reference SO23-3-2.22, Attachment 23, Step 2.12 Page 49 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 103329 - DESCRIBE the configuration and operational characteristics of Radiation Monitoring System components.

Question Source: Bank # SONGS VISION 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 7, 11 55.43 Page 50 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 022 A3.01 Importance Rating 4.1 Containment Cooling System: Ability to monitor automatic operation of the CCS, including: Initiation of safeguards mode of operation Proposed Question: Common 15 Which of the following Engineered Safety Features Actuation Systems (ESFAS) signals are generated by an AUTOMATIC Safety Injection Actuation Signal (SIAS) but not by a MANUAL SIAS?

A. Main Feedwater Isolation Signal.

B. Main Steam Isolation Signal.

C. Containment Cooling Actuation Signal.

D. Non Critical Loop Component Cooling Water (CCW) Isolation Signal.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought this valve was closed by an SIAS generated signal, however, it closes on a CIAS.

B. Incorrect. Plausible if thought this valve was closed by an SIAS generated signal, however, it closes on a CIAS.

C. Correct. The Containment Cooling Actuation Signal (CCAS) is only generated by an automatic SIAS. The instrumentation that auto initiates an SIAS also generates a CCAS. When a manual SIAS is initiated and neither PZR nor Containment pressures reach their respective auto setpoints (1740 PSIA and 3.4 PSIG) then the CCAS will not occur. The CCAS components will auto start if CCAS is manually actuated.

D. Incorrect. Plausible if thought this valve was closed by an SIAS generated signal, however, it closes on a CIAS.

Technical Reference(s) SD-SO23-720, Page 10 Attached w/ Revision # See SO23-3-2.22, Attachment 7 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56628 - DESCRIBE the inputs to the Plant Protection System, the purpose of each, their trip setpoints and actuation logic.

Page 54 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 7 55.43 Page 55 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 026 K1.02 Importance Rating 4.1 Containment Spray System: Knowledge of the physical connections and/or cause-effect relationships between the CSS and the following systems: Cooling water Proposed Question: Common 16 Given the following conditions:

• Unit 3 experienced an Excess Steam Demand Event (ESDE) inside Containment and a Loss of Spent Fuel Pool Cooling (SFP) 18 hours2.083333e-4 days <br />0.005 hours <br />2.97619e-5 weeks <br />6.849e-6 months <br /> ago.

• Safety Injection, Containment Cooling, Control Room Isolation, Containment Isolation, and Containment Spray Actuation Signals have all occurred.

As part of the long term recovery actions, SFP Cooling has been re-established causing the Component Cooling Water (CCW) outlet temperature from CCW Heat Exchanger E-001 to rise by 5ºF.

Containment Cooling will A. degrade due to the rise in Saltwater Cooling temperature.

B. degrade due to the rise in Containment Spray temperature.

C. improve due to the rise in Containment Emergency Sump flow.

D. improve due to the rise in Component Cooling Water flow.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because CCW flow is now higher In CCW Heat Exchanger E-001, however, Saltwater Cooling inlet temperature is the same and outlet temperature is rising.

B. Correct. Containment Spray is being cooled by the Shutdown Cooling (SDC) Heat Exchanger.

Placing SFP Cooling in service will reduce CCW flow through the SDC Heat Exchanger because part of the Non-Critical Loop must be realigned which will act to in turn degrade Containment Cooling.

C. Incorrect. Plausible if thought that suction from the Containment Emergency Sump would improve Containment Cooling, however, at this point a Recirculation Actuation Signal has not actuated.

D. Incorrect. Plausible if thought there was no appreciable change in CCW flow when SFP cooling is placed in service.

Technical Reference(s) SO23-SD-400, Figures 1 and 3 Attached w/ Revision # See Page 58 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 81637 - EXPLAIN the interfaces between the Containment Air Handling System and other plant systems.

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 5, 7, 8 55.43 Page 59 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 026 A4.01 Importance Rating 4.5 Containment Spray System: Ability to manually operate and/or monitor in the control room: CSS controls Proposed Question: Common 17 Given the following conditions:

• Unit 3 is operating at 100% power in MODE 1.

• A spurious Containment Spray Actuation Signal has just initiated.

Which of the following occurs as a result of the Containment Spray Actuation Signal?

The Containment Spray Pumps...

A. receive an Auto Start signal.

Safety Injection Pumps and Containment Spray Pumps Mini-Flow Valves open.

B. do NOT receive an Auto Start signal.

Containment Emergency Sump Outlet Valves open.

C. receive an Auto Start signal.

Shutdown Cooling Heat Exchanger CCW Isolation Valves open.

D. do NOT receive an Auto Start signal.

Containment Spray Header Isolation Valves open.

Proposed Answer: D Explanation:

A. Incorrect. Plausible if thought that CSAS started the Containment Spray Pumps. The Safety Injection and Containment Spray Mini-Flow Valves open on an SIAS.

B. Incorrect. Plausible because the Containment Spray Pumps will not start, however, it is the Containment Spray Header Isolation Valves that open not the Containment Emergency Sump Outlet Valves.

C. Incorrect. Plausible because the Shutdown Cooling Heat Exchanger CCW Isolation Valves will open, however, an SIAS is required to start the Containment Spray Pumps.

D. Correct. Without an SIAS present, the Containment Spray Pumps will not start. The Containment Spray Header Isolation Valves will open with a CSAS signal.

Technical Reference(s) SO23-3-2.22, Page 80 Attached w/ Revision # See Comments / Reference Page 62 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 55522 - DESCRIBE the operation of the following Safety Injection and Containment Spray Systems component, including function, location, and specific features including type, capacity, and power supplies as applicable:

Containment Spray Pumps, Containment Spray Header Control Valves.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam SONGS 2009 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 7, 8 55.43 Page 63 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 039 A3.02 Importance Rating 3.1 Main and Reheat Steam System: Ability to monitor automatic operation of the MRSS, including: Isolation of the MRSS Proposed Question: Common 18 Given the following conditions:

• Unit is in MODE 3 following a Reactor Trip from 100% power.

• A Loss of Offsite Power occurred 10 minutes ago.

• Containment pressure is 1.3 PSIG.

• Steam Generator (SG) E-088 pressure is 720 PSIA.

• Steam Generator E-089 pressure is 770 PSIA.

• Reactor Coolant System TCOLD is 520ºF.

• NO operator actions have been taken post-trip.

Which of the following is the correct position for the listed valves?

1. HV-8202, SG E-089 Main Steam Isolation Bypass Valve.

2. HV-8205, SG E-088 Main Steam Isolation Valve.

3. HV-8421, SG E-089 Atmospheric Dump Valve.

4. HV-8423, Steam Bypass Control System Dump Valve.

A. 1. Closed.

2. Closed.

3. Closed.

4. Closed.

B. 1. Open.

2. Closed.

3. Open.

4. Closed.

C. 1. Open.

2. Closed.

3. Closed.

4. Open.

D. 1. Closed.

2. Closed.

3. Open.

4. Open.

Page 65 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed Answer: A Explanation:

A. Correct. This is the correct configuration given current SG pressure and a Loss of Offsite Power.

B. Incorrect. Plausible if thought that the Main Steam Bypass and Atmospheric Dump Valves would remain open with a Main Steam Isolation Signal present on the other Steam Generator.

C. Incorrect. Plausible because given SG pressure it could be thought that the Main Steam Bypass Valve on E-089 is still open along with the SBCS Valve.

D. Incorrect. Plausible if thought that both the SBCS Valve and Atmospheric Dump Valve could be open given RCS temperature.

Technical Reference(s) SO23-3-2.22, Attachment 11 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 102465 - DESCRIBE the configuration and operational characteristics of Main Steam System components.

Question Source: Bank # SONGS VISION 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 7 55.43 Page 66 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 059 K1.03 Importance Rating 3.1 Main Feedwater System: Knowledge of the physical connections and/or cause-effect relationships between the MFW and the following systems: SGs Proposed Question: Common 19 What is the INITIAL response of the Feedwater Control System #1 to a High Level Override signal from Steam Generator E-089 during operation at 100% power?

Main Feedwater...

A. Pump speed will NOT be affected.

Regulating Valve will go fully closed.

Bypass Valve will go fully closed.

B. Pump speed will go to minimum.

Regulating Valve will go fully closed.

Bypass Valve will go fully closed.

C. Pump speed will go to minimum.

Regulating Valve will go fully closed.

Bypass Valve will close to 50%.

D. Pump speed will NOT be affected.

Regulating Valve will go fully closed.

Bypass Valve will close to 50%.

Proposed Answer: A Explanation:

A. Correct. Given the conditions in the Stem, the High Level Override (HLO) does not affect Main Feed Pump speed (it is a high select signal) but will close both the Main Feed Regulating and Main Feed Bypass Valves.

B. Incorrect. Plausible because these actions occur with a Reactor Trip Override. It could be thought that a Reactor trip occurred, however, the HLO occurs at 85% level and the RTO occurs coincident with a Reactor trip at 89% level.

C. Incorrect. Plausible because the Main Feed Regulating and Bypass Valve positions are correct, however, Main Feed Pump speed going to minimum is associated with a Reactor Trip Override.

D. Incorrect. Plausible because Main Feed Pump Speed will not be affected, however, the other actions are associated with a Reactor Trip Override. It could be thought that a Reactor trip occurred, however, the HLO occurs at 85% level and the RTO occurs at 89% level.

Page 69 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SD-SO23-250, Page 65 Attached w/ Revision # See SO23-9-6, Precaution 4.7 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 54724 - DESCRIBE how the Feedwater Control System functions to control Steam Generator level.

Question Source: Bank # SONGS VISION 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 70 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 061 K5.03 Importance Rating 2.6 Auxiliary/Emergency Feedwater System: Knowledge of the operational implications of the following concepts as they apply to the AFW: Pump head effects when control valve is shut Proposed Question: Common 20 Which of the following describes the limitations on Auxiliary Feedwater Pump Discharge Valves HV-4705, HV-4706, HV-4712, and HV-4713 while feeding with the Auxiliary Feedwater System during a plant cooldown?

As Auxiliary Feedwater Pump head rises, the Auxiliary Feedwater Pump Discharge Valves should NOT be throttled...

A. to less than 26% open at any time.

B. to less than 10% open at any time. If an Emergency Feedwater Actuation Signal is present, the valves should NOT be throttled less than 26% open.

C. to less than 10% open at any time. If a low Steam Generator pressure condition is present, the valves should NOT be throttled less than 26% open.

D. to greater than 10% open with a low Steam Generator pressure condition.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because the 26% open limit is correct, however, it is only when a low Steam Generator pressure condition exists.

B. Incorrect. Plausible because the valve positioning information is correct, however, it is during a low Steam Generator pressure condition vice an Emergency Feedwater Actuation Signal.

C. Correct. Per the Limitations and Specifics identified in the Auxiliary Feedwater procedure, these are the valve position limits.

D. Incorrect. Plausible because a low Steam Generator pressure condition is the concern, however, the valve throttle limit is incorrect.

Technical Reference(s) SO23-2-4, Attachment 12, L&S 2.1 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 55812 - Given an operational condition of the Auxiliary Feedwater System addressed by a procedural precaution, limitation, or administrative requirement, STATE the limiting condition and the basis for that limiting condition.

Page 74 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 5, 10 55.43 Page 75 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 062 K3.02 Importance Rating 4.1 AC Electrical Distribution System: Knowledge of the effect that a loss or malfunction of the AC distribution system will have on the following: EDG Proposed Question: Common 21 Given the following conditions:

• Units 2 & 3 are both operating at 100% power with a normal electrical alignment.

• Unit 2 Reserve Auxiliary Transformer 2XR1 relays on Sudden Pressure.

What would be the resulting status and alignment of 1E 4 kV Bus 2A04 one minute after the Reserve Auxiliary Transformer 2XR1 relayed? (Assume all other systems and components operate as designed.)

A. Deenergized due to bus supply breaker lockouts from the fault.

B. Energized via the cross tie from Unit 3 1E 4 kV Bus 3A04.

C. Energized from Unit 2 Unit Aux Transformer 2XU1.

D. Energized from Unit 2 Emergency Diesel Generator 2G002.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because if an overcurrent or fault condition existed on the bus, 2A04 would be deenergized, however, it is the Reserve Auxiliary Transformer itself that has relayed.

B. Correct. Unit 3 1E 4 kV Bus 3A04 is considered the alternate preferred power supply and this is the source of power if Unit 2 Reserve Auxiliary Transformer 2XR1 relays on Sudden Pressure.

C. Incorrect. Plausible because this is considered the third preferred power source, however, a breaker must be installed in the cubicle, disconnects links removed, and backfed through the Main then Unit Transformers.

D. Incorrect. Plausible because if the opposite unit Train A Bus were not available, then 3A04 would be powered from its respective Emergency Diesel Generator 2G002.

Technical Reference(s) SD-SO23-120, Figure III-1 Attached w/ Revision # See SD-SO23-120, Pages 89 & 90 Comments / Reference Proposed references to be provided during examination: None Page 77 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 56264 - DESCRIBE the operation of the following 1E 4.16 KV Electrical System controls, and interlocks associated with the degraded voltage system: 4.16 KV Bus Automatic Transfer controls.

Question Source: Bank # SONGS VISION 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 78 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 063 A3.01 Importance Rating 2.7 DC Electrical Distribution System: Ability to monitor automatic operation of the DC electrical system, including: Meters, annunciators, dials, recorders, and indicating lights Proposed Question: Common 22 Given the following conditions of Unit 3 DC Bus voltage:

• DC Bus 3D1 is at 132 volts and -1 amp.

• DC Bus 3D2 is at 130 volts and -2 amps.

• DC Bus 3D3 is at 131 volts and -2 amps.

• DC Bus 3D4 is at 132 volts and -1 amp.

After a plant transient the following is observed:

• DC Bus 3D1 is at 129 volts and -2 amps.

• DC Bus 3D2 is at 119 volts and +138 amps.

• DC Bus 3D3 is at 131 volts and -3 amps.

• DC Bus 3D4 is at 120 volts and +115 amps.

Which of the following events has caused the change in DC Bus voltage?

A loss of...

A. Motor Control Center BQ has occurred.

B. Bus 3A04 has occurred.

C. Motor Control Center BS has occurred.

D. Bus 3A06 has occurred.

Proposed Answer: D Page 82 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because MCC BQ powers the recently installed Train A Swing Battery Charger, however, this Battery Charger can only be aligned to D1 or D3.

B. Incorrect. Plausible if thought that these buses were powered from Battery Chargers associated with this Bus, however, 3A06 powers D2 and D4.

C. Incorrect. Plausible because MCC BS powers the recently installed Train B Swing Battery Charger for Buses D2 and D4, however, this Battery Charger can only be aligned to one bus at a time.

D. Correct. The initial conditions in the Stem signify the typical DC bus voltages and amperages. The negative indications associated with Bus amperage are reflective of the trickle charge placed on the batteries. A loss of 4160 VAC Bus 3A06 causes loss of the D2 and D4 Battery Chargers. The resultant draw on the buses is reflected in the final amperage readings. Readings provided were validated in the Simulator on Unit 2.

Technical Reference(s) SD-SO23-130, Figure 1 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 52762 - DISCUSS the operation of the 1E 125 VDC/120 VAC System including controls, instrumentation, interlocks, capacity, power supplies and system response to component failures.

Question Source: Bank #

Modified Bank # SONGS VISION (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 7, 8 55.43 Page 83 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 09/20/09 Given the following conditions of Unit 2 DC Bus voltage:

• DC Bus 2D1 is at 132 volts and -2 amps.

• DC Bus 2D2 is at 130 volts and -1 amp.

• DC Bus 2D3 is at 131 volts and -3 amps.

• DC Bus 2D4 is at 132 volts and -2 amps.

After a plant transient the following is observed:

• DC Bus 2D1 is at 119 volts and +165 amps.

• DC Bus 2D2 is at 129 volts and -4 amps.

• DC Bus 2D3 is at 120 volts and +131 amps.

• DC Bus 2D4 is at 131 volts and -2 amps.

Which ONE (1) of the following events has caused the change in DC Bus voltage?

A loss of...

A. Motor Control Center BQ has occurred.

B. Bus 2A04 has occurred.

C. Motor Control Center BS has occurred.

D. Bus 2A06 has occurred.

Page 86 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 064 A1.08 Importance Rating 3.1 Emergency Diesel Generator System: Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the EDG system controls including: Maintaining minimum load on EDG (to prevent reverse power)

Proposed Question: Common 23 Which of the following is the LOWEST load an Emergency Diesel Generator should carry when in parallel with another source to prevent an anti-motoring trip per SO23-2-13, Diesel Generator Operations?

A. 0.01 MWe B. 0.05 MWe C. 0.1 MWe D. 2.0 MWe Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought that only a minor amount would prevent reverse power trip.

B. Incorrect. Plausible if thought that only a minor amount would prevent reverse power trip.

C. Correct. As outlined in the Limits and Specifications of SO23-2-13.

D. Incorrect. Plausible if thought that one third of the power output of the Emergency Diesel Generator was necessary to prevent a reverse power trip.

Technical Reference(s) SO23-2-13, Attachment 23, L&S 6.11 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56660 - Given an operational condition of the Emergency Diesel Generator Electrical System addressed by a procedural precaution, limitation, or administrative requirement, STATE the limit, limiting condition, or basis of the limiting condition.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Page 87 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 8, 10 55.43 Page 88 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 064 K2.01 Importance Rating 2.7 Emergency Diesel Generator System: Knowledge of bus power supplies to the following: Air compressor Proposed Question: Common 24 Which of the following is the power supply to Unit 2 Train A Emergency Diesel Generator 2G002 Starting Air Compressors?

Motor Control Center...

A. 2BD B. 2BH C. 2BDX D. 2BHX Proposed Answer: C Explanation:

A. Incorrect. Plausible because MCC 2BD is supplied from 2B04 and is located in the Emergency Diesel Generator Room, however, MCC 2BD is a 1E source for fuel oil transfer and radiator cooling.

B. Incorrect. Plausible because MCC 2BH is supplied from 2B06, however, it is located in the Train B 2G003 Emergency Diesel Generator Room.

C. Correct. MCC 2BDX is supplied from Bus 2B14 via Bus 2A07. Each Emergency Diesel Generator has two Starting Air Compressors, one powered from the Train A side (Non-1E) and the other powered from the Train B side (Non-1E).

D. Incorrect. Plausible because MCC 2BHX is supplied from MCC 2BDX, however, it is located in the Train B 2G003 Emergency Diesel Generator Room.

Technical Reference(s) SD-SO23-750, Page 103 Attached w/ Revision # See SD-SO23-750, Figure V-1 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 73245 - DESCRIBE the configuration and operational characteristics of Emergency Diesel Generator Mechanical Systems components.

Page 90 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 7 55.43 Page 91 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 073 K4.01 Importance Rating 4.0 Process Radiation Monitoring System: Knowledge of the PRM system design feature(s) and/or interlock(s) that provide for the following: Release termination when radiation exceeds setpoint Proposed Question: Common 25 Which of the following is the effect of a loss of power to RE-7865, Plant Vent Stack Wide Range Radiation Monitor, when it is aligned to the Containment Purge Stack?

A loss of power to RE-7865, Plant Vent Stack Wide Range Radiation Monitor would...

A. secure Continuous Exhaust Fans A-310, A-311 and A-312.

B. close the Outside Containment Purge Isolation Valves.

C. initiate a Containment Purge Isolation Signal (CPIS).

D. close FV-7202, Waste Gas Discharge Flow Control Valve.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because this action is related to the closure of the Waste Gas Discharge valve, however, RE-7865 must be aligned to the Primary Vent Stack.

B. Correct. With this Radiation Monitor aligned to the Containment Purge Stack it will isolate these valves on a high radiation signal or loss of power.

C. Inc Plausible because this Radiation Monitor will isolate the Outside Containment Purge Valves, however, it does not input into the CPIS circuitry.

D. Incorrect. Plausible because this action is performed when RE-7865 is aligned to the Primary Vent Stack.

Technical Reference(s) SD-SO23-690, Page 8 Attached w/ Revision # See SO23-8-15, Attachment 8, L&S 4.6 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 52758 - DESCRIBE the operation of the components associated with the Process and Effluent Radiation Monitoring Subsystem, including function, location and specific features including type, capacity and power supplies where applicable.

Page 95 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 11 55.43 Page 96 of 98 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 076 A4.04 Importance Rating 3.5 Service Water System: Ability to manually operate and/or monitor in the control room: Emergency heat loads Proposed Question: Common 26 Given the following conditions:

• Spurious Containment Isolation Actuation (CIAS) and Containment Purge Isolation (CPIS) Signals have occurred.

• Operators in the Control Room notice Control Element Drive Mechanism (CEDM)

Ventilation temperatures rising.

Why would CEDM Ventilation temperatures rise after this event?

A. CPIS isolates the Nuclear Service Water supplying the CEDM Coolers.

B. CPIS isolates the Component Cooling Water Non-Critical Loop supplying the CEDM Coolers.

C. CIAS isolates the Nuclear Service Water supplying the CEDM Coolers.

D. CIAS isolates the Component Cooling Water Non-Critical Loop supplying the CEDM Coolers.

Proposed Answer: D Explanation:

A. Incorrect. Plausible if thought that CPIS interrupted Nuclear Service Water.

B. Incorrect. Plausible if thought that CPIS interrupted Complement Cooling Water.

C. Incorrect. Plausible because the CEDM coolers are isolated, however, the cooling water source is CCW.

D. Correct. When the Non-Critical Loop isolates, flow is lost to the CEDM Coolers.

Technical Reference(s) SD-SO23-400, Page 8 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 81637 - EXPLAIN the interfaces between the Containment Air Handling System and other plant systems.

Page 1 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank #

Modified Bank # SONGS VISION (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 7, 9 55.43 Page 2 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 07/21/04 A spurious Containment Isolation Actuation Signal (CIAS) and a spurious Containment Purge Isolation Signal (CPIS) have occurred. Operators in the Fuel Handling building notice pool temperatures rising.

Why would Spent Fuel Pool temperatures rise after this event?

A. A CPIS would isolate the Component Cooling Water Non-Critical Loop supplying the Spent Fuel Pool Heat Exchangers.

B. A CPIS would isolate the Nuclear Service Water supplying the Spent Fuel Pool Heat Exchangers.

C. A CIAS would isolate the Component Cooling Water Non-Critical Loop supplying the Spent Fuel Pool Heat Exchangers.

D. A CIAS would isolate the Nuclear Service Water supplying the Spent Fuel Pool Heat Exchangers.

Page 4 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 078 K4.03 Importance Rating 3.1 Instrument Air System: Knowledge of the IAS system design feature(s) and/or interlock(s) that provide for the following:

Securing of SAS upon loss of cooling water Proposed Question: Common 27 Given the following conditions:

• Unit 2 tripped last shift due to a Generator fault.

• Unit 3 is in a normal 100% power alignment.

• Load Center B10 is aligned to Unit 2.

• Instrument Air Compressors are aligned as follows:

• C001 is selected to LAG 2.

• C002 is selected to LEAD.

• C003 is selected to LAG 1.

• Turbine Plant Cooling Water to Instrument Air Compressors is aligned to Unit 2.

Subsequently, Reserve Auxiliary Transformer 2XR1 relays on Sudden Pressure.

If NO operator action is taken, what is the status of the Instrument Air System when plant conditions stabilize?

A. Nitrogen will maintain pressure at 83 PSIG.

B. Instrument Air Compressor C002 will maintain normal system pressure.

C. Instrument Air Compressor C003 will maintain pressure per the LAG 1 setpoints.

D. Respiratory / Service Air System will maintain pressure at 88 PSIG.

Proposed Answer: D Page 5 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible if thought that loss of Turbine Plant Cooling Water affected all air compressors, however, the RSAS Compressors are air cooled.

B. Incorrect. Plausible because C002 is powered from Bus 2B07 which is powered from Bus 2A07 via 2XR2, however, loss of Turbine Plant Cooling Water prevents the compressor from operating.

C. Incorrect. Plausible because C003 is powered from Bus 3B07 which is powered from Bus 3A07 via 3XR2, however, loss of Turbine Plant Cooling Water prevents the compressor from operating D. Correct. The RSAS Compressors are air cooled and powered from 3A03 & 3A07 which was not lost when Reserve Auxiliary Transformer 2XR1 relayed.

Technical Reference(s) SD-SO23-570, Page 9, 29, & 46 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 72725 - EXPLAIN the interfaces between the Turbine Plant Cooling Water System and other plant systems.

Question Source: Bank # SONGS VISION 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 7 55.43 Page 6 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 103 A2.05 Importance Rating 2.9 Containment System: Ability to (a) predict the impacts of the following malfunctions or operations on the Containment system; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Emergency containment entry Proposed Question: Common 28 Given the following conditions:

• Containment pressure is 3.2 PSIG.

• Containment average temperature is 103ºF.

• Containment nitrogen concentration is 78%.

• Containment oxygen concentration is 21%.

• An Emergency Containment Entry is being planned.

Which of the following action(s) is (are) REQUIRED in order for the Emergency Containment Entry to occur?

A. Reduce Containment temperature to < 95ºF by placing Containment Emergency Cooling Units in service per SO23-1-4.1, Containment Emergency Cooling.

B. Reduce Containment pressure to less than 3 PSIG per SO23-1-4.2, Containment Purge and Recirculation Filtration System, C. Don a Self Contained Breathing Apparatus per SO23-3-2.34, Containment Access Control.

D. Raise Containment oxygen concentration to > 22% per SO23-1-4.2, Containment Purge and Recirculation Filtration System.

Proposed Answer: B Page 9 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because implementing Containment Emergency Cooling is required when average Containment temperature is greater than 105ºF; however, Containment pressure is too high for entry at this time.

B. Correct. With Containment pressure greater than 3 psig, Containment entry is not allowed. Placing the Containment Mini-Purge in operation is required because a direct of venting of Containment is only allowed if pressure is less than 1 psig.

C. Incorrect. Plausible if thought that donning self-contained breathing apparatus is required at this oxygen concentration, however, Containment pressure is too high for an emergency entry to be performed.

D. Incorrect. Plausible because there are limits for oxygen concentration, however, 22% oxygen is not out of specification since the limit is 19.5% or > 23.5%.

Technical Reference(s) SO23-3-2.34, Precaution 4.2 Attached w/ Revision # See SO23-3-2.34, Attachment 22, L&S 1.5 Comments / Reference SO23-1-4.1, Section 6.1 SO23-1-4.2, Attachment 6 Proposed references to be provided during examination: None Learning Objective: 55076 - EXPLAIN the responsibility of the Operations Department for controlling containment access and integrity including: Requirements for access to containment.

Question Source: Bank #

Modified Bank # SONGS VISION (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, 10 55.43 Page 10 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 09/25/08 Given the following conditions:

• Containment pressure is 3.2 psig.

• Containment average temperature is 125°F.

• Containment nitrogen concentration is 82%.

• Containment oxygen concentration is 17%.

Which ONE (1) of the following identifies the impact on performing an Emergency Containment entry and what action should be taken given the conditions listed?

A. An Emergency Containment entry can be performed. Reduce Containment temperature by placing Containment Emergency Cooling Units in service per SO23-1-4.1, Containment Emergency Cooling.

B. An Emergency Containment entry cannot be performed. Reduce Containment pressure to less than 3 psig per SO23-1-4.2, Containment Purge and Recirculation Filtration System, Attachment 6, Operation of the Containment Mini-Purge System.

C. An Emergency Containment entry can be performed. Don a Self Contained Breathing Apparatus per SO23-3-2-34, Containment Access Control with oxygen level less than or equal to 19.5%.

D. An Emergency Containment entry cannot be performed. Reduce Containment nitrogen concentration to 80% by purging one volume from Containment per SO23-3-2-34, Containment Access Control.

Page 15 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 002 A3.03 Importance Rating 4.4 Reactor Coolant System: Ability to monitor automatic operation of the RCS, including: Pressure, temperature, and flows Proposed Question: Common 29 Given the following conditions:

• All systems are in a normal power alignment.

• Unit 2 has been operating at 100% power for 60 days.

• Ten minutes ago, LV-0110A, the in-service Letdown Flow Control Valve, failed CLOSED.

Assuming NO operator actions, what is the status of Reactor Coolant System (RCS) pressure and Letdown flow?

RCS pressure is approximately...

A. 2275 PSIA, and Letdown Flow is SECURED.

B. 2275 PSIA, and LV-0110B modulates OPEN to maintain normal Letdown flow.

C. 2250 PSIA, and Letdown Flow is SECURED.

D. 2250 PSIA, and LV-0110B modulates OPEN to maintain normal Letdown flow.

Proposed Answer: A Explanation:

A. Correct. When Letdown flow secures Charging continues to fill the Pressurizer. As the Pressurizer bubble gets squeezed, pressure rises and the Spray Valve starts open at 25 PSIA above the normal setpoint and holds pressure at approximately 2275 PSIA.

B. Incorrect. Plausible because the RCS pressure is correct and there is a second Letdown Flow Control Valve, however, it must be manually valved in.

C. Incorrect. Plausible because Letdown flow is secured, however, RCS pressure stabilizes at 2275 PSIA because pressure continues to increase until the Pressurizer Spray Valves open.

D. Incorrect. Plausible if thought that the standby Letdown Flow Control Valve was available, however, RCS pressure stabilizes at 2275 PSIA.

Technical Reference(s) SO23-13-27, Attachment 4 Attached w/ Revision # See SO23-5-1.3, Step 6.13.8 Comments / Reference Page 16 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 56419 - DESCRIBE the cause/effect relationships associated with the Pressurizer Pressure and Level Control System and an increasing or decreasing pressurizer pressure and/or level.

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 5, 7, 14 55.43 Page 17 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 011 K3.01 Importance Rating 3.2 Pressurizer Level Control System: Knowledge of the effect that a loss or malfunction of the PZR LCS will have on the following: CVCS Proposed Question: Common 30 Given the following conditions:

• Unit 2 is at 100% power.

• 2LIC-0110, Pressurizer Level Controller, has Level Setpoint 1 (IN-1) as the selected input.

• The TCOLD instrument which provides input to the Loop 1 TAVE calculation fails HIGH.

How will Letdown flow and the Charging Pumps respond to this failure?

A. Letdown flow will NOT change.

Both Standby Charging Pumps will AUTO start.

B. Letdown flow will go to MAXIMUM.

Both Standby Charging Pumps remain OFF.

C. Letdown flow will go to MINIMUM.

Both Standby Charging Pumps will AUTO start.

D. Letdown flow will NOT change.

Both Standby Charging Pumps will remain OFF.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because Letdown flow will not change, however, the standby Charging Pumps remain off.

B. Incorrect. Plausible because the standby Charging Pumps remain off, however, Letdown flow will not change.

C. Incorrect. Plausible if thought that the change in temperature would affect the Pressurizer Level Setpoint program, however, the program cuts off at 53% and 38%.

D. Correct. With the Reactor at full power, Pressurizer level is being maintained at 53%. When TCOLD fails high it causes TAVE to rise. Pressurizer level is limited to 53% per the Pressurizer Level Program, therefore, there is no differential between actual level and setpoint. Letdown flow will not change and the standby Charging Pumps will remain off.

Page 20 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-13-27, Attachments 2 & 3 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56418 - DESCRIBE the operation of Pressurizer Level Control System components, instrumentation, controls and alarms including function, location, interlocks, capacity and power supplies where applicable.

Question Source: Bank # SONGS VISION 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 7 55.43 Page 21 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 015 K5.17 Importance Rating 3.5 Nuclear Instrumentation System: Knowledge of the operational implications of the following concepts as they apply to the NIS: DNB and DNBR definition and effects Proposed Question: Common 31 Which of the following input failures to a Core Protection Calculator (CPC) will cause the Departure from Nucleate Boiling Ratio (DNBR) calculation to be closer to or exceed the trip setpoint for DNBR? (Consider each one separately).

A. Pressurizer pressure transmitter fails LOW.

B. Reactor Coolant Pump (RCP) speed sensor fails HIGH.

C. Linear Safety Channel Power Range detector fails LOW.

D. Reactor Coolant System Cold Leg temperature detector fails LOW.

Proposed Answer: A Explanation:

A. Correct. When Pressurizer pressure fails low it causes the value of DNBR to lower.

B. Incorrect. Plausible because the Reactor Coolant Pump speed sensor is an input to the DNBR calculation, however, when it fails high it would cause the value of DNBR to rise.

C. Incorrect. Plausible because the Power Range detectors input to the DNBR calculation, however, when it fails low it would cause the value of DNBR to rise.

D. Incorrect. Plausible because Cold Leg temperature is an input to the DNBR calculation, however, when it fails low it would cause the value of DNBR to rise.

Technical Reference(s) SO23-3-2.13, Attachment 8, L&S 1.1 & 1.9 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 54674 - DESCRIBE the inputs to the CPCs and CEACs, the purpose of each input, and the outputs available from the system: LIST the inputs to the DNBR calculation.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam Page 24 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 6, 14 55.43 Page 25 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 016 K1.12 Importance Rating 3.5 Non-Nuclear Instrumentation System: Knowledge of the physical connections and/or cause-effect relationships between the NNIS and the following systems: S/G Proposed Question: Common 32 Given the following conditions:

• Unit 2 is in MODE 3 at normal operating pressure and temperature.

• Main Steam Isolation Valves are CLOSED.

• Reactor Coolant System temperature is being controlled by operation of the Atmospheric Dump Valves in AUTO.

Which of the following statements describes the source of the control signal and the response of the Atmospheric Dump Valve to the specified instrument failure?

Each Atmospheric Dump Valve Controller receives a pressure signal from...

A. two Steam Generator Pressure Control Channels and controls on the higher indicating channel. High failure of a single channel will have no effect and low failure will close the valve.

B. two Steam Generator Pressure Safety Channels and controls on the lower indicating channel. High failure of a single channel will open the valve and low failure will have no effect.

C. two Steam Generator Pressure Safety Channels and controls on the lower indicating channel. High failure of a single channel will have no effect and low failure will close the valve.

D. two Steam Generator Pressure Control Channels and controls on the higher indicating channel. High failure of a single channel will open the valve and low failure will have no effect.

Proposed Answer: C Page 29 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because this failure mechanism is correct, however, it controls on the lower indicating channel.

B. Incorrect. Plausible because it controls on the lower indicating channel, however, the failure mechanism is reversed.

C. Correct. With this design, a low or high channel failure will prevent the valve from opening.

D. Incorrect. Plausible if thought that the control and failure is opposite of actual so as to ensure continued heat removal.

Technical Reference(s) SD-SO23-160, Page 19 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 102466 - INTERPRET instrumentation and controls utilized in the Main Steam System.

Question Source: Bank # SONGS VISION 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 7, 8 55.43 Page 30 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 033 A1.01 Importance Rating 2.7 Spent Fuel Pool Cooling System: Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the Spent Fuel Pool Cooling System controls including: Spent fuel pool water level Proposed Question: Common 33 Given the following conditions:

• REFUELING operations are in progress.

• The Fuel Transfer Canal Gate Valve is OPEN.

• The Digital Level Monitoring System (DLMS) is in service.

Which of the following lists the indications for a Spent Fuel Pool leak?

Low level alarm(s) in the...

A. Refueling Pool only; Fuel Handling Building Sump level increase.

B. Refueling Pool and Spent Fuel Pool; Containment and Fuel Handling Building Sump level increase.

C. Spent Fuel Pool only; Containment and Fuel Handling Building Sump level increase.

D. Refueling Pool and Spent Fuel Pool; Fuel Handling Building Sump level increase.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the Fuel Building Sump level increase is correct, however, both the Refueling and Fuel Handling Spent Fuel Pools will have low level alarms.

B. Incorrect. Plausible because the low-level alarms are correct, however, the Containment Sump level will not increase.

C. Incorrect. Plausible if thought that both Sump levels will increase, however, alarms will occur in both the Refueling and Fuel Handling Spent Fuel Pools.

D. Correct. These are the correct alarms and indications for a leak with the conditions listed.

Technical Reference(s) SD-SO23-430, Figure II-1 Attached w/ Revision # See Comments / Reference Page 32 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 81752 - ANALYZE normal and abnormal operations of the Fuel Storage and Spent Fuel Pool Cooling System.

Question Source: Bank # SONGS VISION 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 8, 9 55.43 Page 33 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 034 K4.02 Importance Rating 3.1 Fuel Handling Equipment System: Knowledge of design feature(s) and/or interlock(s) that provide for the following: Fuel movement Proposed Question: Common 34 Given the following condition:

• The Spent Fuel Handling Machine hoist is NOT at the "UP" Limit.

Which of the following describes Bridge and Trolley movement if a fuel bundle is on the hoist?

A. Unrestricted.

B. Interlocked to slow speed.

C. Interlocked to fast speed.

D. Interlocked to stop or prevent movement.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because the hoist is partially protected by the mast, however, the upper limit interlock has not been met.

B. Correct. Bridge and trolley movement is limited to 1.5 inches per minute when the hoist is not at the upper limit.

C. Incorrect. Plausible if thought that this was a desired condition for rapid movement of the fuel assembly.

D. Incorrect. Plausible because the hoist is not fully withdrawn into the mast, however, the slow speed interlock allows movement at 1.5 inches per minute to allow positioning of the bridge and trolley.

Technical Reference(s) SD-SO23-430, Pages 45 & 48 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 81750 - DESCRIBE the configuration and operational characteristics of Fuel Storage and Spent Fuel Pool Cooling System components.

Page 35 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 7 55.43 Page 36 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 056 A2.04 Importance Rating 2.6 Condensate System: Ability to (a) predict the impacts of the following malfunctions or operations on the Condensate system; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Loss of condensate pumps Proposed Question: Common 35 Given the following plant conditions:

• Unit 3 is at 100% power.

• Condensate Pumps P-050, P-051 and P-052 are initially running.

• Condensate Pump P-050 trips on overcurrent.

Which of the following are the impact on the Condensate and Feedwater System and what procedural actions should be performed?

A. A Heater Drain Pump will trip on low Heater Drain Tank level. Refer to SO23-2-3, Heater Drain Pump Operation, and verify the Mini-Flow Controller set at 3200 GPM.

B. A Main Feedwater Pump will trip on low suction pressure. Refer to SO23-13-28, Rapid Power Reduction, and reduce power to 70% in five minutes.

C. FV-3294, Condensate Mini-Flow Valve will open. Refer to SO23-9-7, Condensate and Feedwater System Operation, and dispatch operator to locally close the valve D. Condensate Pump P-053 will AUTO start. Refer to SO23-2-2, Condensate Pump Operation, and close the P-053 Discharge Vent Valve.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because this action is required when restarting a tripped Heater Drain Pump, however, Condensate Pump P-053 will AUTO start and prevent the Heater Drain Tank from being pumped down.

B. Incorrect. Plausible because a Main Feedwater Pump will trip if the Standby Condensate Pump had not AUTO started. This is the correct action for a Main Feedwater Pump trip from 100%

power.

C. Incorrect. Plausible if thought that the mini flow valve opened because the Condensate Pump had tripped, however, this valve acts to limit Condensate header pressure to 690 PSIG.

D. Correct. This is the required action on a Condensate Pump AUTO start caused by trip of a running pump.

Page 38 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-2-2, Attachment 3, L&S 1.4 & 3.3 Attached w/ Revision # See SO23-2-3, Step 6.5.3 Comments / Reference SO23-2-2, Step 6.1 Proposed references to be provided during examination: None Learning Objective: 60787 - ANALYZE normal and abnormal operations of the Condensate and Feedwater System.

Question Source: Bank # SONGS VISION 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 7 55.43 Page 39 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 068 K6.10 Importance Rating 2.5 Liquid Radwaste System: Knowledge of the effect that a loss or malfunction of the following will have on the Liquid Radwaste System: Radiation monitors Proposed Question: Common 36 Given the following plant conditions:

• A release of T-057, Radwaste Secondary Tank is in progress.

• RE-7813, Liquid Radwaste Effluent Line Radiation Monitor, fails and the green OPERATE LED is extinguished.

Which of the following will be required for the release to recommence?

A. The Plant Superintendent must approve the Release Permit.

B. Two independent samples, release rate calculations, and valve lineup verifications must be performed.

C. The sample flowrate must be estimated at least once every four (4) hours.

D. The liquid release cannot recommence until RE-7813 is determined to be OPERABLE.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because a new release permit must be generated, however, there is no requirement for the Plant Superintendent to approve the release.

B. Correct. As required per the Limitations and Specifics and the Offsite Dose Calculation Manual.

C. Incorrect. Plausible because sample flowrate must be estimated, however, this action is performed at least once every 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

D. Incorrect. Plausible if thought that a release cannot be performed unless a radiation monitor was available, however, an estimated flow rate must be performed every 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

Technical Reference(s) SO23-8-7, Attachment 17, L&S 1.20.1 Attached w/ Revision # See SO23-8-7, Attachment 17, L&S 2.3 to 2.5 Comments / Reference Proposed references to be provided during examination: None Page 44 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 54021 - Given the ODCM, applicable procedures and plant conditions, DETERMINE the action requirements for inoperable components during an effluent release.

Question Source: Bank # SONGS VISION 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 13 55.43 Page 45 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 071 G 2.1.27 Importance Rating 3.9 Waste Gas Disposal System: Conduct of Operations: Knowledge of system purpose and/or function Proposed Question: Common 37 Given the following condition:

• Waste Gas System is aligned for normal operation with both Units in MODE 1.

Which of the following describes the Waste Gas System response to a system leak on the common suction to the Waste Gas Compressors?

A. Any Waste Gas Compressor running will be tripped if Waste Gas Surge Tank pressure reaches -0.5 HgA and will not restart until manually reset by an operator.

B. When pressure in the Waste Gas Surge Tank pressure drops below 5.0 PSIG, HV-7240, Nitrogen Supply Valve, will AUTO open to maintain a positive pressure in the Waste Gas Surge Tank.

C. HV-9209, Volume Control Tank Vent Valve, receives a close signal at 0 PSIG to prevent hydrogen addition when oxygen could be present.

D. When Waste Gas Surge Tank pressure drops below 0.5 PSIG, PCV-7200, Waste Gas Surge Tank Pressure Control Valve, bleeds the in-service Waste Gas Decay Tank back to the Waste Gas Surge Tank.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the compressors will trip and it could be thought that a manual reset is required.

B. Incorrect. Plausible if thought that the nitrogen supply would automatically maintain a positive pressure.

C. Incorrect. Plausible if thought that with the Waste Gas System depressurized that an appropriate design feature would be to isolate the major source of hydrogen gas, however, this valve only acts as a VCT vent.

D. Correct. At 0.5 psig, PCV-7200 opens to bleed some gas from the in-service Waste Gas Decay Tank to the surge header in an attempt to maintain a positive pressure.

Technical Reference(s) SD-SO23-660, Pages 11 & 17 Attached w/ Revision # See SD-SO23-390, Page 39 Comments / Reference Page 48 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 56617 - DESCRIBE the configuration and operational characteristics of Gaseous Radwaste System components.

Question Source: Bank # SONGS VISION 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 13 55.43 Page 49 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 072 G 2.4.31 Importance Rating 4.2 Area Radiation Monitoring System: Emergency Procedures/Plan: Knowledge of annunciator alarms, indications, or response procedures Proposed Question: Common 38 Given the following conditions:

• Unit 3 is in MODE 6.

• Irradiated Fuel movement is in progress.

• A Spent Fuel Assembly is damaged while being transported to the Spent Fuel Racks.

• Annunciator 60A23 - FHB RADIATION HI, is in alarm.

• 3RT-7850, Fuel Pool Area Radiation Monitor, HI setpoint was exceeded.

• 3RT-7822 and 3RT-7823, Fuel Handling Building Airborne Radiation Monitor, HI trip setpoint was exceeded.

Which of the following describes the resulting Fuel Handling Building (FHB) ventilation alignment?

Fuel Handling Building...

A. normal Supply and Exhaust Fans are tripped.

FHB Post Accident Cleanup Units take suction from the FHB atmosphere and discharge back to the FHB atmosphere.

B. normal Supply Fan trips and normal Exhaust Fan remains running.

FHB Post Accident Cleanup Units take suction from the FHB atmosphere and discharge back to the FHB atmosphere.

C. normal Supply Fan trips and normal Exhaust Fan remains running.

FHB Post Accident Cleanup Units take suction from the FHB atmosphere and discharge to the Continuous Exhaust Plenum.

D. normal Supply and Exhaust Fans are tripped.

FHB Post Accident Cleanup Units take suction from the FHB atmosphere and discharge to the Continuous Exhaust Plenum.

Proposed Answer: A Page 52 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Correct. With a Process Radiation Monitor high alarm the normal supply and exhaust fans will trip and PACUs will take suction from the FHB atmosphere and discharge back into the FHB to lower radiation level.

B. Incorrect. Plausible because this condition would create a negative pressure inside the FHB and radiation levels do lower because the PACUs are aligned, however, this alignment would allow a radioactive release.

C. Incorrect. Plausible because this flowpath would suspend the release to atmosphere and adding air to the Fuel Handling Building could dilute the atmosphere, however, both of these fans trip.

Discharge to the Continuous Exhaust Plenum is the normal alignment.

D. Incorrect. Plausible because the normal supply and exhaust fans will trip, however, the PACUs are aligned to reduce radiation level and discharge to the Continuous Exhaust Plenum is the normal alignment.

Technical Reference(s) SD-SO23-435, Figure 1 Attached w/ Revision # See SD-SO23-435, Page 22 Comments / Reference SO23-15.60.A1 - 60A23 Proposed references to be provided during examination: None Learning Objective: 103329 - DESCRIBE the configuration and operational characteristics of Radiation Monitoring System components.

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 11 55.43 Page 53 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 007 G 2.1.7 Importance Rating 4.4 Reactor Trip - Stabilization - Recovery: Conduct of Operations: Ability to evaluate plant performance and make operational judgments based on operating characteristics, reactor behavior, and instrument interpretation Proposed Question: Common 39 Which of the following describes Nuclear Instrumentation response to a Reactor Trip from 100% power to the Source Range, from the time Control Element Assemblies are fully inserted?

Prompt Drop...

A. of approximately 3 decades, followed by a - 1/3 DPM Startup Rate for approximately 20 minutes.

B. to 7% power, followed by a -1/3 DPM Startup Rate for approximately 180 minutes.

C. of approximately 3 decades, followed by a -1/3 DPM Startup Rate for approximately 180 minutes.

D. to 7% power, followed by a -1/3 DPM Startup Rate for approximately 20 minutes.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the SUR portion is correct, however, NI power prompt drops to ~7%.

B. Incorrect. Plausible because the power drop is correct, however, the long-lived Delayed Neutron Fraction continues to produce neutrons for 7 1/2 lives which is ~ 20 minutes.

C. Incorrect. Plausible if thought that the Delayed Neutron Fraction continued to produce neutrons out to this time frame and that power dropped into the Source Range.

D. Correct. Based on the short-lived Delayed Neutron Fraction and its effect of neutron population.

Technical Reference(s) Lesson Plan 2TA702, Page 5 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 116183 - EXPLAIN reactor response to a control rod insertion.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Page 59 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 1, 6 55.43 Page 60 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 009 EK2.03 Importance Rating 3.0 Small Break LOCA: Knowledge of the interrelations between small break LOCA and the following: SGs Proposed Question: Common 40 Given the following conditions

• A Reactor Coolant System (RCS) Small Break Loss of Coolant Accident is in progress.

• Safety Injection Actuation Signal has actuated.

• All systems are operating as expected.

Which of the following is the basis for maintaining a Secondary Heat Sink?

A Secondary Heat Sink is maintained...

A. to minimize boron stratification in the RCS.

B. to provide for Containment Temperature and Pressure Control.

C. to allow Reflux boiling to occur prior to voiding in the RCS Hot Legs.

D. to remove decay heat since cooling from the injection flow alone is inadequate.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because boron stratification is a concern, however, more so during a Large Break LOCA B. Incorrect. Plausible if thought that if Containment pressure remains below 3.4 psig then a Containment Isolation Actuation Signal would not be initiated. The issue here however, is Containment cooling which is actuated by the SIAS.

C. Incorrect. Plausible because this statement is true if talking about a Large Break LOCA.

D. Correct. Any Reactor Coolant System pressure that remains above the shutoff head of the High Pressure Safety Injection Pumps will result in a lowering of inventory without the attendant makeup. The Steam Generators provide decay heat removal until the system is cooled down and depressurized.

Technical Reference(s) SO23-14-3, Step 11 Bases Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Page 62 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 54933 - Per the LOCA procedure SO23-12-3, DESCRIBE the basis for each step, caution or note and the CEN-152 basis or reason for these steps.

Question Source: Bank # SONGS VISION 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 5 55.43 Page 63 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 015/17 AA1.03 Importance Rating 3.7 RCP Malfunctions: Ability to operate and/or monitor the following as they apply to the Reactor Coolant Pump Malfunctions (Loss of RC Flow): Reactor trip alarms, switches, and indicators Proposed Question: Common 41 Given the following conditions:

• SO23-13-2, Shutdown from Outside the Control Room, is in progress.

• Reactor Coolant Pump 2P-001 will NOT trip from the Control Room.

• 2P-001 START / STOP indication is NOT lit in the Control Room or at the breaker.

Which of the following actions will trip the Reactor Coolant Pump?

A. Depress the manual TRIP pushbutton on the breaker and open the DC Control Power Breaker.

B. Remove the cover to the Aux Trip and Lockout 286 Relay and use the insulated cover to manually actuate the relay.

C. Open the Reactor Coolant Pump DC Control Power Breaker.

D. Remove the cover to the Aux Trip and Lockout 186 Relay and use the insulated cover to manually actuate the relay.

Proposed Answer: A Explanation:

A. Correct. Lack of position indication implies that DC Control Power is not available; therefore, this is the correct action to open the RCP Breaker.

B. Incorrect. Plausible because this is the required action if DC Control Power is available, however, it is implied in the Stem that it is not.

C. Incorrect. Plausible because this action is appropriate if the RCP Breaker is already open, however, this information is not provided in the Stem.

D. Incorrect. Plausible because this is the required action if DC Control Power is available, however, this relay is used for the 4160 V Buses.

Technical Reference(s) SO23-13-2, Attachment 21 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Page 65 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 56665 - As an RO or SRO, STATE the immediate operator actions required by a shutdown from outside the control room, per SO23-13-2.

Question Source: Bank # SONGS VISION 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 10 55.43 Page 66 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 022 AK3.06 Importance Rating 3.2 Loss of Reactor Coolant Makeup: Knowledge of the reasons for the following responses as they apply to the Loss of Reactor Coolant Makeup: RCP thermal barrier cooling Proposed Question: Common 42 Given the following conditions:

• A Loss of Coolant Accident has occurred on Unit 2.

• All Emergency Core Cooling System equipment is functioning as designed.

• Reactor Coolant System pressure is 1000 PSIA and STABLE.

• Highest Core Exit Thermocouple temperature is 450ºF and slowly LOWERING.

• Containment pressure is 4 PSIG and slowly RISING

• SO23-12-3, Loss of Coolant Accident, is being performed.

• All Reactor Coolant Pumps (RCPs) have been STOPPED.

Which of the following describes the basis for stopping all RCPs?

To prevent damage due to...

A. the loss of cooling water.

B. inadequate subcooling.

C. additional inventory loss.

D. insufficient Net Positive Suction Head.

Proposed Answer: A Explanation:

A. Correct. With Containment pressure at 4 PSIG, a Containment Isolation Actuation Signal would have actuated which isolates Component Cooling Water Non-Critical Loop flow to the RCPs.

B. Incorrect. Plausible if the Steam Tables are misread, however, there is more than adequate subcooling at this time.

C. Incorrect. Plausible because if the CIAS did not occur until SO23-12-3 was in progress it could be thought that the RCPs were stopped to minimize inventory loss.

D. Incorrect. Plausible if the Steam Tables are misread or with pressure less than 1430 PSIA it is thought that insufficient Net Positive Suction Head exists.

Page 68 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-12-1, Step 9.a RNO Attached w/ Revision # See SO23-12-3, Foldout Page Comments / Reference Proposed references to be provided during examination: None Learning Objective: 55868 - Given an operational condition of the Component Cooling Water System, DESCRIBE the precaution, limitation or administrative requirement applicable to the situation.

Question Source: Bank # SONGS VISION 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, 10 55.43 Page 69 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 025 AA2.02 Importance Rating 3.4 Loss of RHR System: Ability to determine and interpret the following as they apply to the Loss of Residual Heat Removal System: Leakage of reactor coolant from RHR into closed cooling water system or into reactor building atmosphere Proposed Question: Common 43 Given the following conditions:

• Unit 2 is in MODE 4.

• Shutdown Cooling (SDC) System is in service.

• Reactor Coolant System (RCS) temperature is 280ºF.

• RCS pressure is 300 PSIA.

• Train B Component Cooling Water (CCW) Surge Tank Level has risen from 55% to 58% in 20 minutes.

• Pressurizer level is 38% and stable.

• Volume Control Tank level dropped from 58% to 54% in 20 minutes.

Which of the following components is causing the CCW Surge Tank level rise?

A. Control Element Drive Mechanism Control System Cooler leak.

B. Spent Fuel Pool Heat Exchanger tube leak.

C. Shutdown Cooling Heat Exchanger tube leak.

D. Steam Generator Sample Cooler leak.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought that the CEDM cooler was exposed to Reactor Coolant System pressure, however, it is in the air to CCW heat exchanger.

B. Incorrect. Plausible because Spent Fuel Pool cooling is a pressurized system, however, nominal Spent Fuel Pool Cooling Pump discharge pressure is only 35 PSIG.

C. Correct. With the RCS at 300 PSIA and nominal CCW Pump discharge pressure of 120-130 PSIG, this is the source of the leakage.

D. Incorrect. Plausible because the Steam Generator Sample Cooler is a pressurized system, however, saturation pressure for 280ºF is only 50 PSIA.

Technical Reference(s) SD-SO23-400, Page 10 Attached w/ Revision # See SD-SO23-430, Page 87 Comments / Reference SD-SO23-770, Page 34 Page 72 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: Steam Tables Learning Objective: 81030 - ANALYZE normal and abnormal operations of the CCW System.

Question Source: Bank # SONGS VISION 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, 8 55.43 Page 73 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 026 AA2.06 Importance Rating 2.8 Loss of Component Cooling Water: Ability to determine and interpret the following as they apply to the Loss of Component Cooling Water: The length of time after the loss of CCW flow to a component before that component may be damaged Proposed Question: Common 44 Given the following conditions:

• Unit 2 is at 100% power.

• A complete Loss of Component Cooling Water (CCW) occurred 3 minutes ago.

• Reactor Coolant Pump (RCP) P-004 Upper and Middle Seals have failed.

• RCP P-004 Thrust Bearing temperature is 180ºF and rising at a rate of five (5) ºF per minute.

Assuming the current conditions continue, what is the EARLIEST time SO23-13-7, Loss of Component Cooling Water / Saltwater Cooling, would direct tripping the Reactor and securing the RCP?

A. Immediately.

B. 2 minutes.

C. 4 minutes.

D. 9 minutes.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because two seals have failed, however, three seals would have to fail to meet the immediate trip criteria.

B. Correct. Per the guidance in SO23-13-7, the RCP must be tripped in 5 minutes without CCW flow.

C. Incorrect. Plausible because downward thrust bearing temperature would reach 200ºF which would bring in the alarm, however, the setpoint for tripping is 225ºF.

D. Incorrect. Plausible because in 9 minutes thrust bearing temperature would reach 225ºF which is the trip criteria for RCPs P-001, P-003, and P-004 (P-002 is 240ºF).

Technical Reference(s) SO23-13-7, Step 6.c Attached w/ Revision # See SO23-15-56.C - 56C07 Comments / Reference Proposed references to be provided during examination: None Page 77 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 55526 - As the RO, RESPOND to a Loss of Component Cooling Water or Saltwater Cooling per SO23-13-7.

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 8, 10 55.43 Page 78 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 027 AA1.03 Importance Rating 3.6 Pressurizer Pressure Control System Malfunction: Ability to operate and/or monitor the following as they apply to the Pressurizer Pressure Control Malfunctions: Pressure control when on a steam bubble Proposed Question: Common 45 Given the following conditions:

• Unit 2 is operating at 50% power during a power ascension.

• Forcing Pressurizer Spray with two Spray Valves is in progress.

• PIC-0100, Pressurizer Pressure Controller setpoint is 2225 PSIA.

• Both Spray Valves are in AUTO.

• Both Proportional Heaters and all Non-1E Backup Heaters are ON.

• Both 1E Backup Heaters are OFF and in AUTO.

• Pressurizer Pressure Control System is selected to Channel X.

Subsequently, Pressurizer Pressure Transmitter PT-0100X fails LOW.

With NO operator action, what is the status of the 1E Backup Heaters and Pressurizer Spray Valves one (1) minute later?

A. Both 1E Backup Heaters are OFF, both Pressurizer Spray Valves are OPEN.

B. Both 1E Backup Heaters are ON, both Pressurizer Spray Valves are CLOSED.

C. Train A 1E Backup Heater is ON, Train B 1E Backup Heater is OFF, both Pressurizer Spray Valves are CLOSED.

D. Both 1E Backup Heaters are OFF, Train A Pressurizer Spray Valve is CLOSED, Train B Pressurizer Spray Valve is OPEN.

Proposed Answer: B Page 81 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because Pressurizer pressure will be rising with all Backup Heaters on, therefore, it could be determined that one minute later pressure was greater than 2250 PSIA which would deenergize the Heaters and open the Spray Valves. The control signal however, is coming from the failed pressure transmitter which is failed low (1500 PSIA).

B. Correct. Pressurizer Spray is forced by lowering the setpoint of the Pressurizer Pressure Controller from 2250 PSIA to 2225 PSIA. Non-1E Backup Heaters are then energized and when pressure rises 25 PSIA above setpoint (now 2250 PSIA) the Pressurizer Spray Valves start to open. With Channel X failed low, all Heaters will be energized and the Spray Valves will be closed because the pressure input is failed low (1500 PSIA).

C. Incorrect. Plausible because both Spray Valves are closed, however, there is no train differentiation on the 1E Backup Heaters when they are in AUTO.

D. Incorrect. Plausible if thought that the Backup Heaters turned off due to high pressure and that train separation existed with the Spray Valves.

Technical Reference(s) SO23-13-27, Attachments 1 & 4 Attached w/ Revision # See SO23-3-1.10, Section 6.3 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56417 - DESCRIBE the operation of Pressurizer Pressure Control System components, instrumentation, controls and alarms including function, location, interlocks, capacity and power supplies where applicable.

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 5, 7, 14 55.43 Page 82 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 029 EK2.06 Importance Rating 2.9 ATWS: Knowledge of the interrelations between ATWS and the following: Breakers, relays, and disconnects Proposed Question: Common 46 Given the following condition:

• The Anticipated Transient Without Scram / Diversified Scram System (ATWS / DSS) was actuated on HI-HI PRESSURIZER PRESSURE.

Which of the following components OPEN as a DIRECT result of this activation?

A. Reactor Trip Breakers.

B. Motor Generator Set Supply Breakers.

C. Motor Generator Set Output Contactors.

D. Control Element Drive Mechanism Power Switch Assemblies.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought that a signal separate from the shunt and UV coils is sent to the Reactor Trip Breakers since they are downstream of the MG Set Output Contactors.

B. Incorrect. Plausible because there is a misconception that the MG Set Supply Breakers trip. This is because circuit control power is supplied from the upstream (supply breaker) side of the MG Set.

See Figure 3.

C. Correct. When two of four HI-HI Pressurizer Pressure signals are generated, ATWS / DSS will open the Motor Generator Set Output Contactors.

D. Incorrect. Plausible because it could be thought that this is what opens, however, the CEDMCS Power Switch (assemblies) direct power to the CEDM coils. See Figure 1A.

Technical Reference(s) SD-SO23-520, Page 2 Attached w/ Revision # See SD-SO23-520, Figure 1 & 3 Comments / Reference SD-SO23-510, Figure 1A Proposed references to be provided during examination: None Learning Objective: 55845 - STATE the functions of the ATWS/DSS System.

Page 86 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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, 7 55.43 Page 87 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 038 EA2.01 Importance Rating 4.1 Steam Generator Tube Rupture: Ability to determine or interpret the following as they apply to a SGTR: When to isolate one or more SGs Proposed Question: Common 47 Which of the following parameters would be used to determine which Steam Generator is to be isolated if BOTH are diagnosed with a ruptured tube?

The Steam Generator with the...

A. highest water level.

B. lowest steam pressure.

C. highest radiation levels.

D. lowest feedwater flow.

Proposed Answer: C Page 91 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because Steam Generator level may be higher in one of the SGs, however, when both are ruptured the one with the highest radiation level is isolated.

B. Incorrect. Plausible because Steam Generator pressure may be different in both SGs, however, when both are ruptured the one with the highest radiation level is isolated.

C. Correct. Per Step 7 of SO23-12-4 and EOI Bases SO23-14-4.

D. Incorrect. Plausible because feedwater flow experiences a decrease in proportion to the size of the rupture while at power, however, when both are ruptured the one with the highest radiation level is isolated.

Technical Reference(s) SO23-12-4, Step 7 Attached w/ Revision # See SO23-14-4, Step 7 Bases Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53000 - Per the SGTR procedure SO23-12-4, DESCRIBE the basis for each step, caution or note and the CEN-152 basis or reason for these steps.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 10 55.43 Page 92 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 040 AK1.01 Importance Rating 4.1 Steam Line Rupture - Excessive Heat: Knowledge of the operational implications of the following concepts as they apply to the Steam Line Rupture: Consequences of PTS Proposed Question: Common 48 Which of the following is a primary operational concern related to a large Excess Steam Demand Event (ESDE)?

A. Dryout of the affected Steam Generator may lead to subsequent repressurization and Pressurized Thermal Shock of the Reactor Coolant System.

B. Pressurized Thermal Shock of the Pressurizer and Surge Line may result from cold Emergency Core Cooling System water upon refill.

C. Depressurization of the Reactor Coolant System can lead to loss of subcooling and require trip of Reactor Coolant Pumps.

D. Dryout of the affected Steam Generator may result in Steam Generator Tube Rupture and radioactive release.

Proposed Answer: A Explanation:

A. Correct. Dryout can lead to repressurization and PTS.

B. Incorrect. Plausible because the Pressurizer and Surge Line are drained due to the Reactor Coolant System cooldown, however, the primary concern is repressurization.

C. Incorrect. Plausible because Reactor Coolant Pumps may need to be tripped, however, it's not due to a loss of subcooling but rather loss of net positive suction head.

D. Incorrect. Plausible because the steam generator secondary side is dry and reintroduction of feedwater could lead to a tube rupture, however, the primary concern is repressurization.

Technical Reference(s) SO23-14-5, Step 7 Bases Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 54790 - Per the ESDE procedure SO23-12-5, DESCRIBE the basis for each step, caution or note and the CEN-152 basis or reason for these steps.

Page 95 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 10 55.43 Page 96 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 011 G 2.4.49 Importance Rating 4.6 Large Break LOCA: Emergency Procedures/Plan: Ability to perform without reference to procedures those actions that require immediate operation of system components and controls Proposed Question: Common 49 Given the following conditions:

• Unit 2 tripped from 100% power due to a Loss of Coolant Accident.

• Verification of Safety Injection Throttle / Stop criteria is in progress.

• The following conditions are noted:

• Steam Generator E-088 narrow range level is 40% with Auxiliary Feedwater flow available and the Atmospheric Dump Valve THROTTLED OPEN.

• Steam Generator E-089 wide range level is 60% with no Auxiliary Feedwater flow available and the Atmospheric Dump Valve CLOSED.

• Core Exit Thermocouple temperature is 460ºF.

• Pressurizer pressure is 600 PSIA.

• Pressurizer level is 35% and STABLE.

• Qualified Safety Parameter Display System indicates Reactor Vessel Plenum level at 80%.

Which of the following criteria does NOT meet Safety Injection Throttle / Stop Criteria?

A. Reactor Coolant System subcooling.

B. Pressurizer level.

C. Steam Generator availability.

D. Reactor Plenum level.

Proposed Answer: D Page 98 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible if thought that RCS subcooling must exceed 30ºF, however, RCS subcooling must only be greater than or equal to the minimum required 20ºF.

B. Incorrect. Plausible if thought that Pressurizer level is too high, however, as long as level is greater than 30% and not lowering SI Throttle / Stop Criteria is met.

C. Incorrect. Plausible because one of two Steam Generators does not have feedwater available, however, only one Steam Generator is required per FS-7.

D. Correct. Reactor Vessel Plenum level must exceed 100% for SI Throttle / Stop Criteria.

Technical Reference(s) SO23-12-11, FS-7, Steps a thru e Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: Steam Tables Learning Objective: 54933 - Per the LOCA procedure SO23-12-3, DESCRIBE the basis for each step, caution or note and the CEN-152 basis or reason for these steps.

Question Source: Bank #

Modified Bank # SONGS VISION (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, 10 55.43 Page 99 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 10/17/10 Given the following conditions:

• Unit 2 tripped from 100% power due to a Loss of Coolant Accident.

• Verification of Safety Injection Throttle/Stop criteria is in progress.

• The following conditions are noted:

• Steam Generator E-088 level is 63% narrow range with Auxiliary Feedwater flow available and the Atmospheric Dump Valve THROTTLED OPEN.

• Steam Generator E-089 level is 12% narrow range with no Auxiliary Feedwater flow available and the Atmospheric Dump Valve CLOSED.

• Core Exit Thermocouple temperature is 460ºF.

• Pressurizer pressure is 550 psia.

• Pressurizer level is 98% and stable.

• Qualified Safety Parameter Display System indicates Reactor Head level at 20%.

Which of the following criteria does NOT meet HPSI Throttle / Stop Criteria?

A. Reactor Coolant System subcooling.

B. Pressurizer level.

C. Steam Generator availability.

D. Reactor Head level.

Page 101 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 055 EK1.02 Importance Rating 4.1 Station Blackout: Knowledge of the operational implications of the following concepts as they apply to the Station Blackout:

Natural circulation cooling Proposed Question: Common 50 Based strictly on the stable temperatures listed below, which one of the following is an indication that Natural Circulation exists following a Station Blackout?

Subcooled Margin THOT TCOLD REP CET A. 20ºF 550ºF 525ºF 540ºF B. 15ºF 560ºF 500ºF 570ºF C. 30ºF 540ºF 495ºF 558ºF D. 40ºF 540ºF 470ºF 555ºF Proposed Answer: A Explanation:

A. Correct. These conditions meet the requirements for Natural Circulation.

B. Incorrect. Plausible if thought that Core Exit Saturation Margin is adequate, however, must be 20ºF.

C. Incorrect. Plausible if thought that THOT to REP CET is adequate, however, must be within 16ºF.

D. Incorrect. Plausible if thought that THOT to TCOLD is adequate, however, must be < 58ºF.

Technical Reference(s) SO23-12-8, Steps 10.d thru g Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: Steam Tables Learning Objective: 55268 - Per the Station Blackout procedure SO23-12-8, DESCRIBE the basis for each step, caution or note and the CEN-152 basis or reason for these steps.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam Page 102 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 10, 14 55.43 Page 103 of 104 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 056 AK3.02 Importance Rating 4.4 Loss of Offsite Power: Knowledge of the reasons for the following responses as they apply to the Loss of Offsite Power:

Actions contained in EOP for loss of offsite power Proposed Question: Common 51 Given the following conditions:

• Unit 3 was at 100% power.

• A Loss of Offsite Power occurred 15 minutes ago.

• 1E 4 kV Buses have been reenergized from the Emergency Diesel Generators.

In accordance with SO23-12-7, Loss of Forced Circulation / Loss of Offsite Power, which of the following actions is required?

Operate the...

A. Auxiliary Feedwater System to establish 200 GPM flow rate to each Steam Generator for at least 5 minutes.

B. Main Feedwater System to establish at least one intact Steam Generator narrow range level between 40% and 80%.

C. Auxiliary Feedwater System to establish at least one intact Steam Generator narrow range level between 40% and 80%.

D. Main Feedwater System to establish 200 GPM flow rate to each Steam Generator for at least 5 minutes.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because this action would be required if Auxiliary Feedwater flow were lost, however, based on the information in the Stem there is no indication that this occurred. If flow were lost, the value would be 130 to 150 for 5 minutes, then raise to 200 GPM.

B. Incorrect. Plausible because this is the correct range for Steam Generator level indication, however, Main Feedwater System is not available given the conditions listed.

C. Correct. This is the required action per Step 9 RNO of SO23-12-7.

D. Incorrect. Plausible if thought that Main Feedwater was available. These values apply to the Auxiliary Feedwater System.

Page 1 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-12-7, Step 9 RNO Attached w/ Revision # See SO23-12-6, Step 7 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53005 - Per the LOFC/LOOP procedure SO23-12-7, DESCRIBE the basis for each step, caution or note and the CEN-152 basis or reason for these steps.

Question Source: Bank # SONGS VISION 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 10 55.43 Page 2 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 057 AA2.12 Importance Rating 3.5 Loss of Vital AC Instrument Bus: Ability to determine and interpret the following as they apply to the Loss of Vital AC Instrument Bus: PZR level controller, instrumentation, and heater indications Proposed Question: Common 52 Given the following conditions at 100% power:

• All three (3) Charging Pumps have started.

• Pressurizer Level Setpoint has remained steady.

• All Pressurizer Non-1E Heaters have deenergized.

Which of the following sets of conditions would yield the associated system response?

A. HS-0100C, Non-1E PZR LO-LO Level Heater Cutout Switch is selected to Channel X when Pressurizer Level Channel Y failed low.

B. Pressurizer Level selected to Channel X and Pressurizer Level Indicating Controller (LIC-0110) selected to LS1 when Loss of Vital Bus Y01 occurred.

C. HS-0100C, Non-1E PZR LO-LO Level Heater Cutout Switch is selected to Channel Y when Pressurizer Level Channel X failed low.

D. Pressurizer Level selected to Channel Y and Pressurizer Level Indicating Controller (LIC-0110) selected to LS1 when Loss of Vital Bus Y02 occurred.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because Channel Y has failed low, however, with all Non-1E heaters deenergized, HS-0100C would be in the X & Y position.

B. Incorrect. Plausible because with a loss of Vital Bus Y01 and Pressurizer level Channel X selected, the associated response would be correct with Level Setpoint selected to LS2.

C. Incorrect. Plausible if thought that Channel X failed low and with all Non-1E heaters deenergized HS-0100C would be in the X & Y position.

D. Correct. With a loss of Vital Bus Y02 and Pressurizer level selected to Channel Y, the associated response would be correct with Level Setpoint selected to LS1.

Technical Reference(s) SO23-13-18, Attachments 1 & 2 Attached w/ Revision # See SO23-13-27, Attachment 2 Comments / Reference Proposed references to be provided during examination: None Page 5 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Learning Objective: 55180 - Per the Reactor Protection System Failure procedure, SO23-13-18, DESCRIBE the basis for each major step, caution, or note and the expected plant response for each major step.

Question Source: Bank # SONGS VISION 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 7 55.43 Page 6 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 058 AK3.02 Importance Rating 4.0 Loss of DC Power: Knowledge of the reasons for the following responses as they apply to the Loss of DC Power: Actions contained in EOP for loss of DC power Proposed Question: Common 53 Which Auxiliary Feedwater Pump(s) cannot be started from the Control Room following a Loss of 125 VDC Bus D2?

A. P-141 only.

B. P-504 only.

C. P-140 and P-141.

D. P-140 and P-504.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because P-141 cannot be started upon loss of a DC Bus, however, it is DC Bus D1.

B. Correct. When DC Bus D2 is lost, control power to Train B equipment is lost; therefore, the Train B Auxiliary Feedwater Pump cannot be started from the Control Room.

C. Incorrect. Plausible if thought that P-140 were effected, however, there is sufficient power redundancy on P-140 to operate it from the Control Room.

D. Incorrect. Plausible because P-504 is correct, however, there is sufficient power redundancy on P-140 to operate it from the Control Room.

Technical Reference(s) SO23-13-18, Attachment 6 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 52579 - DESCRIBE the integrated operation of the EFAS actuated components to mitigate the severity of an accident, including consequences of misoperation or malfunction.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Page 10 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 7, 8, 10 55.43 Page 11 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 062 G 2.4.35 Importance Rating 3.8 Loss of Nuclear Service Water: Emergency Procedures/Plan: Knowledge of local auxiliary operator tasks during an emergency and the resultant operational effects Proposed Question: Common 54 Given the following conditions:

• SO23-13-2, Shutdown from Outside of the Control Room, is in progress due to a fire in the Unit 2 Control Room.

• The Radwaste Operator ensures that the Saltwater Cooling / Component Cooling Water (SWC / CCW) Heat Exchanger Outlet Valve is open.

Per SO23-13-2, Shutdown from Outside of the Control Room, which of the following describes the reason this action is required?

A. A hot short due to fire could have caused Heat Exchanger Outlet Valve automatic closure and the associated SWC Pump is running at shutoff head.

B. A hot short due to fire could have caused Heat Exchanger Outlet Valve closure and SWC Pump trip. Opening Heat Exchanger Outlet Valve restarts the SWC Pump.

C. The CRS will be unable to start the SWC Pump from the Second Point of Control due to the interlock with the Heat Exchanger Outlet Valve being closed.

D. The CRS will be starting the SWC Pump from the Second Point of Control and the automatic opening feature is defeated with the Fire Isolation Switch in LOCAL.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because hot shorts can result in spurious equipment operation and it could be thought that there were no operator actions to secure the SWC Pump.

B. Incorrect. Plausible because hot shorts can result in spurious equipment operation and an interlock does exist between these components but no interlocks exist with the Fire Isolation Switch (FIS) in LOCAL.

C. Incorrect. Plausible because an interlock does exist between these components but no interlocks exist with the Fire Isolation Switch in LOCAL.

D. Correct. As part of the local operator actions the Fire Isolation Switch is placed in LOCAL in order to start the SWC Pump. The automatic opening feature is defeated with the FIS in LOCAL.

Page 14 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SD-SO23-410, Page 7 Attached w/ Revision # See SO23-13-2, Attachment 2, Section 4.0 Comments / Reference SO23-13-2, Attachment 6, Step 17.3 SO23-13-2, Attachment 10, Section 7.0 Proposed references to be provided during examination: None Learning Objective: 56671 - DESCRIBE the purpose and operation of the Fire Isolation Switch for a given component.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam SONGS 2009 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 4, 7, 10 55.43 Page 15 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 065 AA1.04 Importance Rating 3.5 Loss of Instrument Air: Ability to operate and/or monitor the following as they apply to the Loss of Instrument Air: Emergency air compressor Proposed Question: Common 55 Given the following conditions:

• Unit 2 is at 100% power.

• Instrument Air System is aligned for normal operations.

• Subsequently, a valid Instrument Air Header Pressure Low alarm is received, due to an air leak.

• Instrument Air header pressure is currently 87 PSIG and steady.

Which of the following describes the current status of the Instrument Air System?

A. Three Instrument Air Compressors are running fully loaded.

Nitrogen Backup is maintaining Instrument Air header via a Pressure Control Valve.

B. Two Instrument Air Compressors are running fully loaded.

One Instrument Air Compressor is running half loaded.

Service Air is maintaining Instrument Air header via a Pressure Control Valve.

C. Two Instrument Air Compressors are running fully loaded.

One Instrument Air Compressor is running half loaded.

Nitrogen Backup is maintaining Instrument Air header via a Pressure Control Valve.

D. Three Instrument Air Compressors are running fully loaded.

Service Air is maintaining Instrument Air header via a Pressure Control Valve.

Proposed Answer: B Page 20 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because three Instrument Air Compressors are running, however, they would NOT all be at full load. The Service Air Pressure Control Valve opens at 88 PSIG and would be in service.

B. Correct. Instrument Air header pressure to would have had to drop to 85 PSIG for all three Instrument Air Compressors to run fully loaded. The Service Air Pressure Control Valve opens at 88 PSIG to support Instrument Air.

C. Incorrect. Plausible because three Instrument Air Compressors are running and the loading is correct, however, Nitrogen Backup would NOT be in service because Instrument Air Header pressure did not drop below 83 PSIG.

D. Incorrect. Plausible because three Instrument Air Compressors are running, however, they would NOT all be at full load because Instrument Air Header pressure only dropped to 87 PSIG. Service Air would be supporting Instrument Air.

Technical Reference(s) SO23-13-5, Attachment 6, L&S 1.2 & 1.9 Attached w/ Revision # See SO23-1-1, Attachment 22, L&S 2.1 Comments / Reference Proposed references to be provided during examination: None Learning Objective: DESCRIBE the configuration and operational characteristics of Instrument 72865 / 72866 and Respiratory & Service Air Systems components.

INTERPRET instrumentation and controls utilized in the Instrument and Respiratory & Service Air Systems.

Question Source: Bank #

Modified Bank # SONGS VISION (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 7 55.43 Page 21 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 10/12/09 Given the following conditions:

• Unit 2 is operating at 100% power with the Instrument Air system aligned for normal operations.

• Subsequently, an air leak upstream of the Instrument Air Dryers occurs.

• Instrument Air header pressure lowered to 85 psig and is currently 87 psig and steady.

Which ONE (1) of the following describes the current status of the Instrument Air System?

A. Three (3) Instrument Air Compressors are running fully loaded.

Service Air is maintaining Instrument Air via a pressure control valve.

B. Two (2) Instrument Air Compressors are running fully loaded.

Nitrogen Backup is maintaining Instrument Air via a pressure control valve.

C. One (1) Instrument Air Compressor is running fully loaded.

Two (2) Instrument Air Compressors are running half loaded.

Nitrogen Backup and Service Air is maintaining Instrument Air via pressure control valves.

D. Two (2) Instrument Air Compressors are running fully loaded.

One (1) Instrument Air Compressor is running half loaded.

Nitrogen Backup and Service Air is maintaining Instrument Air via pressure control valves and Instrument Air to Containment has closed.

Page 25 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 077 G 2.1.23 Importance Rating 4.3 Generator Voltage and Electric Grid Disturbances: Conduct of Operations: Ability to perform specific system and integrated plant procedures during all modes of plant operation Proposed Question: Common 56 Given the following conditions:

• Emergency Diesel Generator (EDG) surveillance is in progress.

• Train B EDG 2G003 is fully loaded on Bus 2A06.

• Generation Control Center notifies SONGS that a Degraded Grid condition exists.

• Switchyard voltage is 218 kV and steady.

Operator response per SO23-13-4, Operation During Major System Disturbances, requires unloading the Emergency Diesel Generator and opening the Output Breaker.

Which of the following describes the reason for this action per SO23-13-4, Operation During Major System Disturbances?

A. Enable the Degraded Voltage Protection Circuit.

B. Restore Unit 2 to within the Limiting Condition for Operation (LCO).

C. Raise bus voltage to prevent damaging permanently connected bus loads.

D. Prevent Emergency Diesel Generator trip on Generator Differential Voltage.

Proposed Answer: A Explanation:

A. Correct. The EDG must be removed from service to enable the Degraded Voltage Protection Circuit.

B. Incorrect. Plausible because this would be correct if both EDG Units were connected to the grid.

C. Incorrect. Plausible because if thought that this action would raise bus voltage.

D. Incorrect. Plausible because it could be thought that preventing a Generator Differential Trip would preserve the Emergency Diesel Generator.

Technical Reference(s) SO23-13-4, Step 4.c RNO Attached w/ Revision # See Comments / Reference Page 26 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 55215 - Per the Operation During Major System Disturbances procedure, SO23-13-4, DESCRIBE the basis for each step, caution or note and the expected plant response for each step.

Question Source: Bank # SONGS VISION 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 7, 8 55.43 Page 27 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 001 AA1.02 Importance Rating 3.6 Continuous Rod Withdrawal: Ability to operate and/or monitor the following as they apply to the Continuous Rod Withdrawal:

Rod in-hold-out switch Proposed Question: Common 57 Given the following conditions:

• A Reactor startup is in progress and current power level is 1 x 10-6%.

• A 20 second continuous Control Element Assembly (CEA) withdrawal event now occurs due to the Control Element Drive Mechanism Control System (CEDMCS)

Manual Control Switch contact being inadvertently stuck in the WITHDRAW position.

• The CEA withdrawal is stopped by cycling the Manual Control Switch between WITHDRAW and INSERT.

Assuming NO other action is taken, what light indication was available to determine that CEA withdrawal was occurring and which of the following parameters will stabilize at a value SIGNIFICANTLY different from what it was before the event?

A. White UP arrow was lit; Neutron power.

B. Yellow GROUP light was lit; Core T power.

C. White UP arrow was lit; Core T power.

D. Yellow GROUP light was lit; Neutron power.

Proposed Answer: A Explanation:

A. Correct. During CEA withdrawal the white UP arrow is illuminated. NI power will see the greatest change given Critical Data was just taken.

B. Incorrect. Plausible because it could be conceived that T power will immediately change, however, not from this power level.

C. Incorrect. Plausible because the white UP arrow is illuminated, however, T power will not change for some time.

D. Incorrect. Plausible because NI power will see the greatest change given critical data was just taken, however, this indication is not available.

Technical Reference(s) SD-SO23-510, Figure 12 Attached w/ Revision # See SO23-5-1.3.1, Attachment 5 Comments / Reference Page 29 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 81789 - ANALYZE normal and abnormal operations of the Control Element Drive Mechanism Control System (CEDMCS).

Question Source: Bank # SONGS VISION 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 6 55.43 Page 30 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 003 AA2.01 Importance Rating 3.7 Dropped Control Rod: Ability to determine and interpret the following as they apply to the Dropped Control Rod: Rod position indication to actual rod position Proposed Question: Common 58 Which of the following indications is used to determine Dropped CEA position?

A. Pulse Counter information from the Plant Computer System and Core Mimic Display (Rod Bottom light indication).

B. Reed Switch and Pulse Counter information from both the Plant Computer System and Core Mimic Display (Rod Bottom light indication).

C. Reed Switch indication from the Secondary Rod Position CRT Display and Core Mimic Display (Rod Bottom light indication).

D. Reed Switch and Pulse Counter information from both the Secondary Rod Position CRT Display and the Plant Computer System.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because Pulse Counter is available from PCS and Reed Switch is available from Core Mimic Display, however, Pulse Counter does not update when a CEA is dropped.

B. Incorrect. Plausible because Reed Switch information is available from PCS and the Core Mimic Display is Reed Switch driven, however, Pulse Counter is only available from PCS.

C. Correct. This information is correct as shown.

D. Incorrect. Plausible because Reed Switch and Pulse Counter information are both available from PCS, however, only Reed Switch is available from Secondary Rod Position CRT Display.

Technical Reference(s) SD-SO23-510, Figures 1A, 11, & 12A Attached w/ Revision # See SD-SO23-510, Page 7 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 81788 - INTERPRET instrumentation and controls utilized in the Control Element Drive Mechanism Control System (CEDMCS).

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Page 33 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 6 55.43 Page 34 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 024 AK1.02 Importance Rating 3.6 Emergency Boration: Knowledge of the operational implications of the following concepts as they apply to Emergency Boration: Relationship between boron addition and reactor power Proposed Question: Common 59 Given the following conditions:

• A Turbine load rejection has occurred.

• Control Element Assemblies (CEAs) were manually inserted in an attempt to maintain TCOLD on program.

• Reactor power is currently 80%.

• Annunciators 50A37 - PRE-POWER DEPENDENT INSERTION LIMIT and 50A36 - POWER DEPENDENT INSERTION LIMIT alarm windows are illuminated.

• Steam Bypass Control Valves (SBCS) are modulating CLOSED.

Which of the following actions is required?

A. Perform a Rapid Power Reduction per SO23-5-1.7, Power Operations, due to Power Dependent Insertion Limit violation.

B. Realign Group 6 CEAs in accordance with SO23-13-13, Misaligned or Immovable Control Element Assembly, to avoid CPC generated trip.

C. Raise Turbine load to maintain TCOLD on program and minimum Steam Generator pressure requirements per SO23-5-1.7, Power Operations.

D. Initiate Emergency Boration per SO23-13-11, Emergency Boration of the RCS /

Inadvertent Dilution or Boration, to ensure adequate Shutdown Margin available.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the PDIL alarms are in, however, a Rapid Power Reduction is not required.

B. Incorrect. Plausible because the PDIL alarms are in, however, CEAs are not misaligned from their Group.

C. Incorrect. Plausible because raising Turbine load may cause power transient after a load rejection, and CEAs below PDIL requires Emergency Boration.

D. Correct. Required by Entry Conditions of SO23-13-11.

Page 39 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-13-11, Entry Conditions Attached w/ Revision # See SO23-13-13, Step 1 Comments / Reference SO23-15-50.A2 - 50A36 Proposed references to be provided during examination: None Learning Objective: 55510 - Per the Emergency Boration of the RCS or Inadvertent Dilution/Boration procedure, SO23-13-11, DESCRIBE the basis for each step, caution, or note and the expected plant response for each step.

Question Source: Bank # SONGS VISION 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 10 55.43 Page 40 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 060 AA2.06 Importance Rating 3.6 Accidental Gaseous Radwaste Release: Ability to determine and interpret the following as they apply to the Accidental Gaseous Release: Valve lineup for release of radioactive gases Proposed Question: Common 60 Which of the following would minimize the amount of radioactive gases released during a Waste Gas Decay Tank rupture?

A. Manual initiation of a Containment Purge Isolation Signal.

B. Only one (1) Waste Gas Decay Tank is aligned for service at a time.

C. A Nitrogen cover gas is maintained on the Waste Gas Decay Tank.

D. A positive pressure is maintained in the Radwaste Building.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because a Containment Purge Isolation Signal will secure ventilation, however, not via this flowpath (separate stack).

B. Correct. As outlined in SO23-8-14.

C. Incorrect. Plausible because nitrogen is piped to the Waste Gas Decay Tanks, however, only one Waste Gas Decay Tank is aligned at a time.

D. Incorrect. Plausible if thought that a positive pressure would keep gas in the Waste Gas Decay Tank.

Technical Reference(s) SO23-8-14, L&S 5.1 Attached w/ Revision # See SD-SO23-660, Figures 1A & 1C Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56617 - DESCRIBE the configuration and operational characteristics of Gaseous Radwaste System components.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Page 44 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comprehension or Analysis 10 CFR Part 55 Content: 55.41 13 55.43 Page 45 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 061 G 2.4.6 Importance Rating 3.7 Area Radiation Monitoring System Alarms: Emergency Procedures/Plan: Knowledge of EOP mitigation strategies Proposed Question: Common 61 Given the following conditions:

• Unit 3 is at 100% power.

• Pressurizer level is 51% and lowering.

• Volume Control Tank level is 50% and lowering.

• Letdown flow is 65 GPM.

• Charging flow is 44 GPM.

• RE-7854, Radwaste Area Radiation Monitor, is in alarm.

• RE-7808 and RE-7865, Primary Vent Stack Radiation Monitors, have rising trends.

• SO23-13-14, Reactor Coolant System Leak, is in progress.

After starting additional Charging Pumps to maintain Pressurizer level, what is the next action required per SO23-13-14, Reactor Coolant System Leak?

A. Isolate Letdown.

B. Verify Containment Purge is NOT in service.

C. Initiate a Rapid Power Reduction and trip the Reactor at 35% power.

D. Immediately trip the Reactor.

Proposed Answer: A Explanation:

A. Correct. Letdown must be isolated because a Chemical and Volume Control System leak is occurring outside Containment.

B. Incorrect. Plausible because this action is required for an RCS leak per SO23-13-14, however, with RE-7854 in alarm the leakage source is from outside Containment.

C. Incorrect. Plausible because this action is required for an RCS leak per SO23-13-14, however, only after it is determined that the leak is greater than 25 GPM.

D. Incorrect. Plausible because Technical Reference(s) SO23-13-14, Steps 1, 2, & 3 Attached w/ Revision # See Comments / Reference Page 49 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 54932 - Per the Reactor Coolant Leak procedure, SO23-13-14, DESCRIBE the basis for each step, caution, or note and the expected plant response for each step.

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, 11 55.43 Page 50 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 067 AK1.02 Importance Rating 3.1 Plant Fire on Site: Knowledge of the operational implications of the following concepts as they apply to Plant Fire on Site:

Fire fighting Proposed Question: Common 62 During active fire fighting efforts inside the Protected Area, which of the following is the earliest a fire could be considered "EXTINGUISHED" as defined in plant procedures?

A. The fire has been completely contained. Heat and visible flame are present, but the affected area is being continually reduced by the application of extinguishing agents.

B. The fire has been completely contained. Heat, smoke and glowing embers are present but there is no longer any visible flame.

C. Combustion appears to have stopped completely. No heat is being produced and no light is being emitted from the fire's source, but some smoke in the area is still present.

D. Combustion appears to have stopped completely. There no light being emitted from the fire's source, but heat is still being produced and smoke in the area is been evacuated.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because the fire should be contained, however, heat and visible flame are indications that the fire has NOT been extinguished.

B. Incorrect. Plausible because the fire should be contained, however, heat and glowing embers would be an indication that the fire has NOT been extinguished.

C. Correct. As defined in SO23-13-21, Fire.

D. Incorrect. Plausible because some indications listed are correct, however, smoke need NOT be evacuated from the area to consider the fire extinguished.

Technical Reference(s) SO23-13-21, Section 4.0 Note Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53413 - Per the Fire procedure, SO23-13-21, DESCRIBE the basis for each step, Caution, or note and the expected plant response for each step.

Page 55 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 10 55.43 Page 56 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 069 AK2.03 Importance Rating 2.8 Loss of Containment Integrity: Knowledge of the interrelations between the Loss of Containment Integrity and the following:

Personnel access hatch and emergency access hatch Proposed Question: Common 63 Given the following conditions:

• Unit 3 is in MODE 6 with CORE ALTERATIONS in progress.

Which of the following conditions would NOT meet the requirements for Containment Penetrations per Technical Specifications?

A. An electrical penetration seal is REMOVED for repairs.

B. Equipment Hatch is SEALED with 4 equally spaced bolts.

C. One Containment Air Lock door is OPEN.

D. A Containment Purge is in progress.

Proposed Answer: A Explanation:

A. Correct. If a penetration seal is removed CORE ALTERATIONS must be stopped.

B. Incorrect. Plausible if thought that four equally spaced bolts was insufficient, however, this meets the requirement of Technical Specification LCO 3.9.3.

C. Incorrect. Plausible if thought that both Containment Air Lock Doors need to be closed, however, this meets the requirement of Technical Specification LCO 3.9.3.

D. Incorrect. Plausible because there is a direct flowpath to atmosphere from Containment, however, this meets the requirement of Technical Specification LCO 3.9.3.

Technical Reference(s) Technical Specification LCO 3.9.3 Attached w/ Revision # See SO23-5-1.8, Attachment 13, L&S 8.2 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 55076 - EXPLAIN the responsibility of the Operations Department for controlling containment access and integrity including Technical specification requirements and basis for containment integrity.

Page 58 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 9, 10 55.43 Page 59 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 076 AA2.01 Importance Rating 2.7 High Reactor Coolant Activity: Ability to determine and interpret the following as they apply to the High Reactor Coolant Activity: Location or process point that is causing an alarm Proposed Question: Common 64 Which of the following Radiation Monitors will actuate Annunciator 57C20 - RCS LEAKAGE DETECTION ACTIVITY HI?

A. RE-7820, Containment High Range Radiation Monitor.

B. RE-7848, Containment General Area Radiation Monitor.

C. RE-7804, Containment Airborne Radiation Monitor.

D. RE-7828, Containment Purge Stack Radiation Monitor.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because this Radiation Monitor has an associated Annunciator, however, it brings in 57C10 - CONTAINMENT RADIATION HI.

B. Incorrect. Plausible because this Radiation Monitor has an associated Annunciator, however, it brings in 57C10 - CONTAINMENT RADIATION HI.

C. Correct. RE-7804 or RE-7807, Containment Airborne Radiation Monitors, particulate or gaseous will bring in this alarm.

D. Incorrect. Plausible because this Radiation Monitor has an associated Annunciator, however, it brings in 57C10 - CONTAINMENT RADIATION HI.

Technical Reference(s) SO23-15-57.C - 57C20 Attached w/ Revision # See SO23-15-57.C - 57C10 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 103330 - INTERPRET instrumentation and controls utilized in the Radiation Monitoring System.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Page 62 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 11 55.43 Page 63 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # A11 AK2.2 Importance Rating 3.2 RCS Overcooling - PTS: Knowledge of the interrelations between RCS Overcooling and the following: Facilitys heat removal systems, including primary coolant, emergency coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility Proposed Question: Common 65 Given the following conditions after Unit 2 tripped due to an Excessive Steam Demand Event (ESDE):

• SIAS, CIAS, and MSIS have actuated.

• SO23-12-5, Excessive Steam Demand Event, is in progress.

• Steam Generator (SG) E-089 has just blown dry.

• SG E-089 THOT is 495ºF and STABLE.

• SG E-089 TCOLD is 457ºF and TRENDING UP.

• SG E-088 pressure is 700 PSIA and TRENDING DOWN.

• SG E-088 THOT is 485ºF and TRENDING DOWN.

• SG E-088 TCOLD is 478ºF and TRENDING DOWN.

• Pressurizer pressure is 1800 PSIA and TRENDING UP.

• Pressurizer level is 25% and TRENDING UP.

Which of the following indicates the target pressure in SG E-088 required to stabilize Reactor Coolant System temperature?

A. 400 PSIA.

B. 450 PSIA.

C. 500 PSIA.

D. 550 PSIA.

Proposed Answer: B Explanation:

A. Incorrect. Plausible if error is made during calculation or wrong temperature is used.

B. Correct. Target pressure of 450 psia corresponds to a saturation temperature for TCOLD of ~ 457ºF currently seen in the affected SG.

C. Incorrect. Plausible if error is made during calculation or wrong temperature is used.

D. Incorrect. Plausible if error is made during calculation or wrong temperature is used.

Page 67 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-12-11, FS-30, Step e Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: Steam Tables Learning Objective: 116234 - APPLY saturated and superheated steam tables in solving liquid-vapor problems.

Question Source: Bank #

Modified Bank # SONGS VISION (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, 10 55.43 Page 68 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 09/15/10 Given the following conditions after Unit 2 tripped due to an Excessive Steam Demand Event (ESDE):

• SIAS, CIAS, and MSIS have actuated.

• SO23-12-5, Excessive Steam Demand Event, is in progress.

• Steam Generator (SG) E-089 has just blown dry.

• SG E-089 THOT is 495ºF and STABLE.

• SG E-089 TCOLD is 445ºF and TRENDING UP.

• SG E-088 pressure is 700 psia and TRENDING DOWN.

• SG E-088 THOT is 485ºF and TRENDING DOWN.

• SG E-088 TCOLD is 478ºF and TRENDING DOWN.

• Pressurizer pressure is 1800 psia and TRENDING UP.

• Pressurizer level is 25% and TRENDING UP.

Which of the following indicates the target pressure in SG E-088 required to stabilize Reactor Coolant System temperature?

A. 400 psia B. 450 psia C. 500 psia D. 550 psia Page 70 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 1 K/A # G 2.1.19 Importance Rating 3.9 Conduct of Operations: Ability to use plant computers to evaluate system or component status Proposed Question: Common 66 Given the following condition on the Data Acquisition System (DAS) Home Page:

• RE-7822, Fuel Handling Building Radiation Monitor, DAS icon is FLASHING and LIGHT BLUE in color.

What condition is sensed by RE-7822, Fuel Handling Building Radiation Monitor?

A. HI-HI alarm.

B. Rate of Change alarm.

C. ALERT alarm.

D. Instrument failure.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because there is a color associated with this alarm, however, it is red.

B. Incorrect. Plausible because there is a color associated with this alarm, however, it is red.

C. Incorrect. Plausible because there is a color associated with this alarm, however, it is yellow.

D. Correct. Given the conditions listed, this is the indication that will be seen on DAS.

Technical Reference(s) SO23-3-2.36, Attachment 1, Step 2.1.2 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53211 - DESCRIBE the indications available to determine Radiation Monitor Status on RMS DAS.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Page 71 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 11 55.43 Page 72 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 1 K/A # G 2.1.32 Importance Rating 3.8 Conduct of Operations: Ability to explain and apply system limits and precautions Proposed Question: Common 67 In accordance with Technical Specifications, each of the following Reactor Trips is specifically designed to provide protection from exceeding the Reactor Core Safety Limits with the EXCEPTION of A. Loss of Load Trip.

B. Low Departure from Nucleate Boiling Ratio.

C. Low Pressurizer Pressure.

D. Steam Generator Low Level.

Proposed Answer: A Explanation:

A. Correct. No credit is taken in Technical Specifications for the Loss of Load trip.

B. Incorrect. Plausible if thought that a low Departure from Nucleate Boiling Ratio was better than a high Departure from Nucleate Boiling Ratio.

C. Incorrect. Plausible because there is a Safety Limit for high Pressurizer pressure, however, the input from this trip protects against a low Departure from Nucleate Boiling Ratio.

D. Incorrect. Plausible because Steam Generator low level is not directly mentioned in the Safety Limits, however, it provides protection for Reactor Coolant System overpressure caused by a Loss of Feedwater.

Technical Reference(s) Technical Specification 2.1 Attached w/ Revision # See SD-SO23-710, Pages 17, 19 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56636 - DESCRIBE the Technical Specification OPERABILITY requirements and action statements associated with the Plant Protection System.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Page 74 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 5, 10 55.43 Page 75 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 2 K/A # G 2.2.12 Importance Rating 3.7 Equipment Control: Knowledge of surveillance procedures Proposed Question: Common 68 Which of the following sets of Feedback Loops should be in service during Turbine Valve Testing per SO23-3-3.34, Turbine Overspeed Protection Valve Operability Tests?

A. 1st Stage Pressure and Megawatt loops.

B. Megawatt and Frequency loops.

C. Steam Chest Pressure and Frequency loops.

D. Frequency and 1st Stage Pressure loops.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because the first stage pressure loop is correct, however, the megawatt loop is not used.

B. Incorrect. Plausible because the frequency loop is correct, however, the megawatt loop is not used.

C. Incorrect. Plausible because the frequency loop is correct, however, there is no steam chest pressure loop.

D. Correct. During Turbine Valve Testing the frequency and first stage pressure loops are in service.

Technical Reference(s) SO23-3-3.34, Attachment 1, Notes Attached w/ Revision # See SO23-3-3.34, Attachment 8, L&S 5.4 & 5.5 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 54310 - Given an operational condition of the Turbine Control and Supervisory Systems addressed by a procedural precaution, limitation, or administrative requirement, STATE the limiting condition and the basis for that limiting condition.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam Page 80 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 10 55.43 Page 81 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 2 K/A # G 2.2.14 Importance Rating 3.9 Equipment Control: Knowledge of the process for controlling equipment configuration or status Proposed Question: Common 69 Per OSM-14, Operations Department Expectations, which of the following describes the situation in which Peer Checking may be substituted for Independent Verification and what documentation is required?

A. Manipulation of switches in the Control Room.

Independent Verification signature must be marked N/A.

B. Manipulation of switches in the Control Room.

Peer Checker may sign as Independent Verifier.

C. Verification of locked valve position outside the Control Room.

Peer Checker may sign as Independent Verifier.

D. Verification of locked valve position outside the Control Room.

Independent Verification signature must be marked N/A.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because this is when Peer Checking is used, however, the Independent Verification signature is signed by the Peer Checker.

B. Correct. Per the OSM, when switches are manipulated in the Control Room the Peer Checker may sign as Independent Verifier.

C. Incorrect. Plausible because the Peer Checker may sign as Independent Verifier, however, Peer Checking is not allowed for verifying locked valve positions.

D. Incorrect. Plausible because it could be thought that a Peer Checker could verify the position of a locked valve by observation, however, not only must the Independent Verification signature be signed but the individual would not be performing the position of a Peer Checker for this evolution.

Technical Reference(s) OSM-14, Page 58 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 55184 - DESCRIBE the requirements for implementing Peer Checking.

Page 84 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 10 55.43 Page 85 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 2 K/A # G 2.2.35 Importance Rating 3.6 Equipment Control: Ability to determine Technical Specification Mode of Operation Proposed Question: Common 70 According to Technical Specification Safety Limit 2.1.1.1, Departure from nucleate boiling ratio (DNBR) shall be maintained at 1.31 during which of the following MODES?

A. 1 only.

B. 1 and 2 only.

C. 1, 2, and 3 only.

D. 1, 2, 3 and 4.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because MODE 1 is the Power Operation condition, however, this Safety Limit must be met in MODES 1 and 2.

B. Correct. Per Technical Specification Safety Limit 2.1.1.1.

C. Incorrect. Plausible because MODES 1 and 2 are correct and MODE 3 conditions include normal operating pressure and temperature, however, this SL must only be met in MODES 1 and 2.

D. Incorrect. Plausible because the Reactor Coolant System Pressure Safety Limit must be adhered to in these MODES.

Technical Reference(s) Technical Specification 2.1.1.1 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56437 - DESCRIBE or SUMMARIZE the basic format and terminology used in the Technical Specifications and Licensee Controlled Specifications, including Safety Limits.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Page 87 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 10 55.43 Page 88 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 3 K/A # G 2.3.7 Importance Rating 3.5 Radiation Control: Ability to comply with radiation work permit requirements during normal or abnormal conditions Proposed Question: Common 71 Given the following conditions:

• A system valve alignment must be performed in an area where the radiation level is 75 mREM/hour.

• The individuals current annual Total Effective Dose Equivalent (TEDE) is 750 mREM.

Which of the following is the MAXIMUM amount of time that an individual can work in this area without exceeding their Administrative Dose Control Level (ADCL)?

A. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

B. 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

C. 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br />.

D. 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if Administrative Dose Control Level is not known.

B. Incorrect. Plausible because this answer is correct, however, it is not the maximum amount of time allowed without exceeding the Administrative Dose Control Level.

C. Correct. 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> x 75 mREM/hour = 225 mREM + 750 mREM = 975 mREM. This is under the Administrative Dose Control Level of 1 REM.

D. Incorrect. Plausible if thought that the Administrative Dose Control Level is 2 REM.

Technical Reference(s) SO123-VII-20, Step 6.5.3 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 52585 - Given a type of Radiation Area, DESCRIBE its radiation limits, as well as the access controls required by 10CFR20 and site procedures to enter this area..

Page 90 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank #

Modified Bank # SONGS VISION (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 12 55.43 Page 91 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 07/13/05 Given the following conditions:

• The Radwaste Operator is required to complete a system valve alignment in an area where the radiation level is 150 mRem/hour.

• The operator's current annual Total Effective Dose Equivalent (TEDE) is 399 mRem.

What is the maximum time he can work in this area and not exceed his Administrative Dose Control Level (ADCL)?

A. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

B. 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

C. 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.

D. 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.

Page 93 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 3 K/A # G 2.3.11 Importance Rating 3.8 Radiation Control: Ability to control radiation releases Proposed Question: Common 72 Given the following conditions:

• A Waste Gas Decay Tank release is in progress.

• Subsequently, one of the two operating Continuous Exhaust Fans trips.

What action applies to this condition?

A. The release must be manually terminated.

B. The release will automatically terminate by closure of FV-7202.

C. The release may continue uninterrupted since the remaining fan provides adequate dilution flow.

D. The release may continue uninterrupted provided the release flowrate is reduced to one half of the original value.

Proposed Answer: A Explanation:

A. Correct. As outlined in the SO23-8-15, Step 2.4.

B. Incorrect. Plausible because there is an input to FV-7202 from the Continuous Exhaust Fans, however, all the fans must trip for automatic termination.

C. Incorrect. Plausible because the release will continue since one Continuous Exhaust Fan continues to run; however, per procedure the release must be manually terminated.

D. Incorrect. Plausible because the release will continue since one Continuous Exhaust Fan continues to run and it could be thought that this action was acceptable; however, per procedure the release must be manually terminated.

Technical Reference(s) SO23-8-15, Attachment 1, Step 2.4.1 Attached w/ Revision # See SO23-8-15, Attachment 8, L&S 1.1 & 1.3 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56619 - ANALYZE normal and abnormal operations of the Gaseous Radwaste System.

Page 94 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 13 55.43 Page 95 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 4 K/A # G 2.4.2 Importance Rating 4.5 Emergency Procedures / Plan: Knowledge of systems setpoints, interlocks and automatic actions associated with EOP entry conditions Proposed Question: Common 73 Given the following conditions:

• Unit 2 is operating at 100% power.

Which of the following conditions would require a Unit trip?

A. Stator Hot Gas temperature of 150ºF.

B. Steam Generator E-089 narrow range level of 90%.

C. Instrument Air header pressure of 65 PSIG.

D. Main Condenser T is 27ºF.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because it could be thought that this temperature would require a plant trip, however, the Turbine would trip automatically at 181ºF.

B. Correct. The Reactor should automatically trip at 89% narrow range level which would in turn trip the Turbine.

C. Incorrect. Plausible because it could be thought that this pressure would require a plant trip, however, a Unit trip must be initiated at 50 PSIG.

D. Incorrect. Plausible because a 25ºF T is an NPDES violation, however, it does not require a Unit trip.

Technical Reference(s) SO23-15-52.A - 52A11 Attached w/ Revision # See SO23-15-99.C - 99C01 Comments / Reference SO23-13-5, Step 2b SO23-2-5, Attachment 18, L&S 2.4 Proposed references to be provided during examination: None Learning Objective: 56628 - DESCRIBE the inputs to the Plant Protection System, the purpose of each, their trip setpoints and actuation logic.

Page 98 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam SONGS 2009 Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 10 55.43 Page 99 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 4 K/A # G 2.4.26 Importance Rating 3.1 Emergency Procedures / Plan: Knowledge of facility protection requirements, including fire brigade and portable firefighting equipment usage Proposed Question: Common 74 Given the following condition:

• A fire is reported inside the Protected Area of San Onofre Unit 2.

Which of the following correctly describes the duties of the Designated Licensed Operator, after obtaining an emergency kit and radio?

A. Remain in the Control Room and coordinate the fire fighting effort.

B. Proceed to the staging area for the fire pre-plan and act as Fire Brigade Leader.

C. Proceed to the staging area for the fire pre-plan and act as Operations Fire Technical Advisor.

D. Remain in the Control Room and act as Operations Fire Technical Advisor.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought that this was the staging location.

B. Incorrect. Plausible because the area is correct, however, this is the Operations Fire Technical Advisor (OPS FTA) not the Fire Brigade Leader C. Correct. Per SO23-13-21, Step 4.10.

D. Incorrect. Plausible if thought that the OPS FTA remained in the Control Room.

Technical Reference(s) SO23-13-21, Step 4.13 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 54227 - Given a Fire Scenario in the protected area, DESCRIBE the duties and responsibilities of the Fire Technical Advisor and the Fire Department Incident Commander.

Page 103 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Question Source: Bank # SONGS VISION 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 10 55.43 Page 104 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 4 K/A # G 2.4.32 Importance Rating 3.6 Emergency Procedures / Plan: Knowledge of operator response to loss of all annunciators Proposed Question: Common 75 Given the following conditions:

• Unit 2 tripped a few seconds after a complete Loss of Control Room Annunciators.

• All Main Turbine Stop and Governor Valves are CLOSED.

• Main Turbine speed is 1800 RPM and STABLE.

• Main Generator Unit Power Circuit Breakers (PCB) 4062 and 6062 did NOT open automatically and could NOT be opened manually.

What action must be performed in this situation?

A. ALIGN the opposite unit DC Control Power at 2L-040, Annunciator Logic Cabinet in the Control Room.

B. POSITION the Interposing Relays to the opposite unit on Panel K-01 in the SCE Switchyard Relay House.

C. CLOSE the alternate DC supply locally at the Breaker Cabinets for PCB 4062 and PCB 6062 in the 220 kV Switchyard.

D. SELECT SS Selector Switch to the opposite unit at the 9 Control Building Panel 2/3 L-224, Synchronizing Cabinet.

Proposed Answer: D Explanation:

A. Incorrect. Plausible because L-040 is reference during a Loss of Control Room Annunciators, however, this action does not address Unit Output Breakers that failed to open.

B. Incorrect. Plausible because Interposing Relay Cabinets are present in the Relay Hose, however, this is not a function of these relays.

C. Incorrect. Plausible because there is an alternate source of DC power from the SDG&E side of the Relay House, however, the Selector Switch at 2/3L-244 must be operated.

D. Correct. This is the action as outlined in SO23-13-22.

Technical Reference(s) SO23-13-22, Step 1 RNO Attached w/ Revision # See SD-SO23-110, Figure 6B Comments / Reference Page 106 of 110 Rev d

ES-401 SONGS NRC 2011 RO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 55507 - As the RO, RESPOND to a loss of control room annunciators per SO23-13-22.

Question Source: Bank # SONGS VISION 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 10 55.43 Page 107 of 110 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # E05 EA2.1 Importance Rating 4.0 Excess Steam Demand: Ability to determine and interpret the following as they apply to the Excess Steam Demand: Facility conditions and selection of appropriate procedures during abnormal and emergency conditions Proposed Question: SRO 76 Given the following conditions:

• Unit 3 has experienced a Steam Line Break inside Containment.

• SO23-12-5, Excess Steam Demand Event, Step 13, Limit RCS Re-pressurization, is being performed.

• Reactor Coolant System subcooling is 163ºF and rising.

• Containment pressure is 6 PSIG.

Which of the following actions is required to reduce Reactor Coolant System subcooling and prevent Pressurize Thermal Shock (PTS)?

A. Initiate FS-32, Establish Manual Auxiliary Spray, then transition to SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control, using the value of PTS subcooling in place of Core Exit Saturation Margin.

B. Establish normal Auxiliary Spray flow then transition to SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control, using the value of Core Exit Saturation Margin in place of PTS subcooling.

C. Initiate FS-32, Establish Manual Auxiliary Spray, then transition to SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control, using the value of Core Exit Saturation Margin in place of PTS subcooling.

D. Establish normal Auxiliary Spray flow then transition to SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control, using the value of PTS subcooling in place of Core Exit Saturation Margin.

Proposed Answer: A Page 1 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Correct. Use FS-32, Establish Manual Auxiliary Spray, due to the harsh Containment and Core Exit Saturation Margin Control using the value of PTS subcooling in place of Core Exit Saturation Margin.

B. Incorrect. Plausible because Attachment 5 use is correct, however, the normal Auxiliary Spray Valve should not be used in a harsh Containment.

C. Incorrect. Plausible because using FS-32 is correct, however, the value of PTS subcooling is used in place of Core Exit Saturation Margin.

D. Incorrect. Plausible because PZR Spray flow is required and the transition step is correct, however, the normal Auxiliary Spray Valve should not be used in a harsh Containment.

Technical Reference(s) SO23-12-5, Step 13c Attached w/ Revision # See SO23-14-5, Step 13c Comments / Reference SO23-12-11, Attachment 5 Proposed references to be provided during examination: None Learning Objective: 53926 - As the SRO, DIRECT response to and recovery from an excess steam demand event per SO23-12-5.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 2 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 011 G 2.2.37 Importance Rating 4.6 Large Break LOCA: Equipment Control: Ability to determine operability and/or availability of safety related equipment Proposed Question: SRO 77 Given the following conditions on Unit 2:

• A Loss of Coolant Accident is in progress and the following conditions exist:

• Offsite Power was lost.

• Both Atmospheric Dump Valves are available for cooldown.

• THOT is 377ºF in Loop 1 and 379ºF in Loop 2.

• Representative Core Exit Thermocouple temperature is 380ºF.

• Pressurizer pressure is 318 PSIA.

• Containment pressure is 20 PSIG.

• Vessel Plenum level is 100%.

• Recirculation Actuation Signal has occurred.

• It is desired to place the Shutdown Cooling System in service.

Which of the following actions must be performed prior to placing the Shutdown Cooling System in service?

A. Vent the Reactor Head to raise Vessel Head level to 100%.

B. Continue Cooldown until Representative Core Exit Thermocouple is less than 320ºF.

C. Reduce Pressurizer Pressure to less than 305 PSIA using Auxiliary Spray.

D. Continue Cooldown until average THOT temperatures are less than 375ºF.

Proposed Answer: D Page 6 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible if thought that this is required, however, with RAS actuated the requirement to go on Shutdown Cooling is 61% Plenum level.

B. Incorrect. Plausible if thought that this is required, however, Representative Core Exit Thermocouple must only be less than 375ºF with both ADVs available.

C. Incorrect. Plausible if thought that pressure would need to be reduced further based on the absolute Containment pressure vice the gauge pressure, however, the calculation for required pressure for entry is calculated by subtracting the current gauge pressure in Containment from the Shutdown Cooling entry pressure requirement of 340 PSIA.

D. Correct. THOT must be less than 375ºF with both ADVs available.

Technical Reference(s) SO23-12-3, Steps 22.a, c, e & f Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 54354 - As an SRO, DIRECT and COORDINATE the activities of shift personnel to mitigate a loss of coolant accident event.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 7 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 015/017 AA2.01 Importance Rating 3.5 RCP Malfunctions: Ability to determine and interpret the following as they apply to the Reactor Coolant Pump Malfunctions (Loss of RC Flow): Cause of RCP failure Proposed Question: SRO 78 Given the following conditions on Reactor Coolant Pump (RCP) 3P-002 at 100% power:

• Controlled Bleed Off flow indicates zero (0) GPM.

• Vapor Seal Cavity indicates 20 PSIA.

• Upper Seal Cavity indicates 800 PSIA.

• Middle Seal Cavity indicates 1525 PSIA.

• SO23-3-3.37, Reactor Coolant System Water Inventory Balance was performed and leakage into the Containment Sump is 1.5 GPM.

Which of the following describes the required actions for these conditions?

A. Reduce the leakage to less than one (1) GPM within four (4) hours or initiate SO23-13-28, Rapid Power Reduction, Attachment 1, RPR - 30% in 5 Minutes to be in HOT STANDBY in one (1) hour.

B. Continue performing SO23-3-3.37, Reactor Coolant System Water Inventory Balance, at the current power level, and initiate an Emergency Containment Entry to determine source of leak.

C. Initiate a controlled power reduction per SO23-5-1.7, Power Operations. After Reactor is tripped and SO23-12-1, Standard Post Trip Actions, Steps 1 and 2 have been performed, trip RCP 3P-002.

D. Trip the Reactor, perform SO23-12-1, Standard Post Trip Actions, Steps 1 and 2, then trip RCP 3P-002 five (5) seconds after the Control Element Assemblies have been inserted.

Proposed Answer: C Page 10 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because these would be the actions for an unidentified leak of this magnitude per SO23-13-14, Reactor Coolant Leak, however, SO23-13-6, Reactor Coolant Pump Seal Malfunction, requires a controlled plant shutdown if the Vapor Seal has failed and leakage into Containment is 4 GPM. Additionally, this is an incorrect usage of SO23-13-28.

B. Incorrect. Plausible because continued operation with a single failed seal is allowed in SO23-13-6, Reactor Coolant Pump Seal Malfunction, however, in this case SO23-13-6 requires a controlled plant shutdown then tripping the Reactor and affected RCP.

C. Correct. This is the action for Controlled Bleed Off leak into Containment of 4 gpm per SO23-13-6, Step 3.c. New procedure guidance requires performing Steps 1 and 2 of SO23-12-1 prior to tripping the Reactor Coolant Pump.

D. Incorrect. Plausible because SO23-13-6, Reactor Coolant Pump Seal Malfunction, requires tripping the Reactor and affected RCP if the Vapor Seal has failed and leakage into Containment is > 10 gpm, however, a controlled plant shutdown is desired for this condition.

Technical Reference(s) SO23-13-6, Step 3 Attached w/ Revision # See SO23-13-28, Attachment 1 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 55458 - As the SRO, DIRECT operator response to a Reactor Coolant Pump Seal Failure per SO23-13-6.

Question Source: Bank #

Modified Bank # SONGS VISION (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 55.43 2, 5 Page 11 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 10/06/10 Given the following conditions on Reactor Coolant Pump (RCP) 2P002 at 100% power:

• Controlled Bleed Off flow indicates zero (0) gpm.

• Vapor Seal Cavity indicates 10 PSIG.

• Upper Seal Cavity indicates 810 PSIG.

• Middle Seal Cavity indicates 1525 PSIG.

• Leakage into the Containment Sump is 12 gpm and has been confirmed by performing a Reactor Coolant System Inventory Balance.

Which of the following describes the required actions for these conditions?

A. Reduce the leakage to less than one (1) gpm within four (4) hours or initiate SO23-13-28, Rapid Power Reduction, to be in HOT STANDBY in six (6) hours.

B. A single Seal Stage has failed. Pump the Containment Sump to maintain an indicated level and enter Containment to re-seat the Vapor Seal.

C. Initiate a controlled power reduction per SO23-5-1.7, Power Operations, then immediately trip the Reactor and Reactor Coolant Pump.

D. Trip the Reactor, perform SO23-12-1, Standard Post Trip Actions, Step 1 and 2, then trip RCP 2P002 five (5) seconds after the CEAs have been inserted.

Page 14 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 027 G 2.4.50 Importance Rating 4.0 Pressurizer Pressure Control Malfunction: Emergency Procedures/Plan: Ability to verify system alarms setpoints and operate controls identified in the alarm response manual Proposed Question: SRO 79 Given the following conditions with Unit 2 at 100% power MOC:

• Pressurizer pressure is 2270 PSIA and slowly rising.

• Annunciator 50A02 - COLSS ALARM has just actuated.

• CV9005AVE, MSBSCAL Average Secondary Calorimetric Power, is indicating 100.15% and slowly rising.

Which of the following actions is required?

A. Refer to SO23-5-1.7, Power Operations, and lower Turbine load 5 MWe at 10 MWe/min to reduce power to less than or equal to 100%.

B. Maintain current power level per SO23-5-1.7, Power Operations, until NI / T power does not exceed 100% power averaged over an 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> period.

C. Trip the Reactor and enter SO23-12-1, Standard Post Trip Actions.

D. Enter SO23-13-28, Rapid Power Reduction, and perform Attachment 2, RPR - 20% / Hour, until power level is within limits.

Proposed Answer: A Explanation:

A. Correct. Power must be reduced per the guidance in SO23-5-1.7 whenever a COLSS ALARM annunciates.

B. Incorrect. Plausible because NI / T power is allowed to exceed 100%, however, power must be reduced whenever a COLSS ALARM annunciates.

C. Incorrect. Plausible because it could be thought that this condition would require a Reactor trip, however, it is a violation of the license power level of 3438 MWth.

D. Incorrect. Plausible because power must be reduced, however, procedure entry is incorrect.

Technical Reference(s) SO23-5-1.7, Attachment 16, L&S 2.1 & 2.2 Attached w/ Revision # See SO23-5-1.7, Step 6.4.1 Note Comments / Reference SO23-15-50.A1, 50A02 Page 15 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 56289 - As the SRO, DIRECT plant operations during Power Operations per SO23-5-1.7.

Question Source: Bank # SONGS VISION 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 55.43 2, 5 Page 16 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 029 EA2.01 Importance Rating 4.7 ATWS: Ability to determine and interpret the following as they apply to the ATWS: Reactor nuclear instrumentation Proposed Question: SRO 80 Given the following conditions:

• An Anticipated Transient Without Scram is in progress on Unit 3.

• Buses 3B04, 3B24, and 3B06 are deenergized.

• SO23-12-9, Functional Recovery, was entered and a Reactor Coolant System (RCS) depressurization is being performed to take advantage of available High Pressure Safety Injection Pumps.

• SO23-12-10, Safety Function Status Checks, Attachment SF-9 for Functional Recovery, is being performed.

Which of the following satisfies the Safety Function Acceptance Criteria for Reactivity Control per SO23-12-10, Safety Function Status Checks?

1. Boration at 45 GPM, Reactor power is 1x 10-1% and stable.

2. Boration at 25 GPM, Reactor power is 1 x 10-5% and stable.

3. Boration at 30 GPM, Reactor power is 1 x 10-3% and lowering.

4. Boration at 50 GPM, Reactor power is 1% and lowering.

5. Boration at 0 GPM, Reactor power is 1 x 10-7% and stable.

A. 1, 2, 3 B. 1, 4, 5 C. 2, 3, 4 D. 2, 4, 5 Proposed Answer: D Page 20 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because #2 is correct and the Boration rate in #1 is adequate, however, the power level listed for #1 and #3 does not meet the bases document requirements.

B. Incorrect. Plausible because #4 and #5 are both correct and the Boration rate in #1 is adequate, however, power level must be lowering if the value is greater than1 x 10-4%.

C. Incorrect. Plausible because #2 and #5 are both correct and power level is lowering in #3, however, the Boration rate must be at least 40 GPM.

D. Correct. As defined in SO23-12-9, Functional Recovery, Recovery-Reactivity Control, FR-3, Boration Using ECCS. The Success Path described in the bases Is applicable for all 3 Reactivity Control FRs (i.e., FR-1, FR-2, & FR-3).

Technical Reference(s) SO23-12-9, RC-3, Step 3 Attached w/ Revision # See SO23-14-9, RC-3, Step 3 Bases Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53976 - As the SRO, EVALUATE safety function status check for functional recovery accident mitigation per SO23-12-9.

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 55.43 5 Page 21 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 1 K/A # 058 G 2.4.4 Importance Rating 4.7 Loss of DC Power: Emergency Procedures/Plan: Ability to recognize abnormal indications for system operating parameters that are entry-level conditions for emergency and abnormal operating procedures Proposed Question: SRO 81 Given the following condition:

• Unit 2 is at 20% power when DC Bus 1 is lost.

Which of the following actions is required during a Loss of DC Bus D1?

A. Initiate SO23-13-28, Rapid Power Reduction, at a rate of approximately 15% to 20% per hour to lower power level less than 5%.

B. Ensure the Reactor and Turbine are tripped, and enter SO23-12-1, Standard Post Trip Actions.

C. Maintain Steam Generator narrow range levels 50% to 70% in AUTO or MANUAL per SO23-9-6, Feedwater Control System Operation.

D. Declare Train B Emergency Diesel Generator inoperable and initiate SO23-3-3.33, Diesel Generator Monthly and Semiannual Testing.

Proposed Answer: B Explanation:

A. Incorrect. Plausible if thought that a Rapid Power Reduction was required to lower power level below the point where the Auxiliary Feedwater System can provide sufficient flow since the Main Feedwater Isolation Valves close, however, the Reactor must be tripped.

B. Correct. Independent of the power level, the Reactor must be verified tripped whenever DC Bus 1 is lost.

C. Incorrect. Plausible because Steam Generator levels must be maintained, however, this is the incorrect procedure to be using since the Main Feedwater Isolation Valves close.

D. Incorrect. Plausible because the action listed and procedure referenced is correct, however, it is the Train A Emergency Diesel Generator that is affected.

Technical Reference(s) SO23-13-18, Step 2.b RNO Attached w/ Revision # See SO23-13-18, Attachment 5 Comments / Reference Proposed references to be provided during examination: None Page 24 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Learning Objective: 115110 - RESPOND to a loss of a 1E DC bus with or without loss of the associated vital bus per SO23-13-18.

Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 55.43 5 Page 25 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 032 AA2.09 Importance Rating 2.9 Loss of Source Range NI: Ability to determine and interpret the following as they apply to the Loss of Source Range Nuclear Instrumentation: Effect of improper HV setting Proposed Question: SRO 82 Given the following conditions:

• A Reactor Startup is in progress.

• Excore Nuclear Instrumentation (NI) Log Safety Channels have a fission chamber applied voltage that is higher than normal.

Which of the following identifies the impact on the Nuclear Instrumentation and what actions should be taken to mitigate the situation?

Excore Nuclear Instruments will shift from a Count Rate Circuit to a Campbelling Circuit at a lower...

A. indicated power level. Perform SO23-3-3.2, Excore Nuclear Instrumentation Calibration, Attachment 4, Channel Check of Excore Safety Channels.

B. actual power level. Perform SO23-3-2.15, Excore Instrumentation Operation, Section 6.4, Actions for Failure of a Single Startup Channel.

C. actual power level. Perform SO23-3-3.2, Excore Nuclear Instrumentation Calibration, Attachment 4, Channel Check of Excore Safety Channels.

D. indicated power level. Perform SO23-3-2.15, Excore Instrumentation Operation, Section 6.4, Actions for Failure of a Single Startup Channel.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because the procedure entry is correct, however, it is the actual power level that will be affected by a higher applied voltage.

B. Incorrect. Plausible because the first part of the answer is correct, however, this is the incorrect instrument for this procedure entry (Startup Channel vs. Safety Channel).

C. Correct. A channel calibration would be performed to determine if the Log Power Safety Channels are reading within one half decade of each other per SO2-3-3.2.

D. Incorrect. Plausible if thought that this was the instrument response and procedure entry was correct.

Page 29 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO23-3-3.2, Attachment 4, Step 2.1.4 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 55032 - Given plant conditions during a reactor startup, EXPLAIN the precaution, limitation or administrative requirement applicable to the situation.

54968 - RESPOND to a miscalibrated nuclear instrument.

Question Source: Bank #

Modified Bank # SONGS VISION (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 55.43 2, 5 Page 30 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 09/06/10 Given the following conditions:

• A Reactor Startup is in progress.

• Excore Nuclear Instrumentation (NI) Log Safety Channels have a fission chamber applied voltage that is lower than normal.

Which of the following:

1.) Identifies the impact on the Nuclear Instrumentation?

2.) Actions should be taken to mitigate the situation?

A. 1.) Excore Nuclear Instruments will shift from a count rate circuit to a Campbelling circuit at a higher actual nuclear power level.

2.) Perform SO23-3-3.2, Excore Nuclear Instrumentation Calibration, Attachment for Channel Check of Excore Safety Channels.

B. 1.) Excore Nuclear Instruments will shift from a count rate circuit to a Campbelling circuit at a higher indicated nuclear power level.

2.) Perform SO23-3-3.2, Excore Nuclear Instrumentation Calibration, Attachment for Channel Check of Excore Safety Channels.

C. 1.) Excore Nuclear Instruments will shift from a count rate circuit to a Campbelling circuit at a higher actual nuclear power level.

2.) Perform SO23-3-2.15, Excore Instrumentation Operation, Section for Failure of a Single Startup Channel.

D. 1.) Excore Nuclear Instruments will shift from a count rate circuit to a Campbelling circuit at a higher indicated nuclear power level.

2.) Perform SO23-3-2.15, Excore Instrumentation Operation, Section for Failure of a Single Startup Channel.

Page 32 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 051 G 2.4.18 Importance Rating 4.0 Loss of Condenser Vacuum: Emergency Procedures/Plan: Knowledge of specific bases for EOPs Proposed Question: SRO 83 Which of the following is the basis for performing SO23-3-3.21, Common Shiftly Surveillance, Section 6.4, Shiftly Flow Estimates, when the Condenser Vacuum Pump starts during a Loss of Condenser Vacuum?

Shiftly Flow Estimates are required by...

A. Combustion Engineering Generic Accident Management Guidelines.

B. Technical Specification LCO 3.4.17, Steam Generator Tube Integrity.

C. the Radiological Effluents Manual / Offsite Dose Calculation Manual.

D. Technical Specification LCO 3.4.15, RCS Leakage Detection Instrumentation.

Proposed Answer: C Explanation:

A. Incorrect. Plausible if thought that this document directed this action.

B. Incorrect. Plausible because this Technical Specification does address Steam Generator tube integrity, however, it does not address Condenser Off Gas Radiation Monitoring.

C. Correct. Starting the Condenser Vacuum Pump causes a shift in the flow rate through the detector for the Radiation Monitoring System. This action requires performance of Shiftly Flow Estimates to ensure limits imposed by the ODCM are being met.

D. Incorrect. Plausible because this Technical Specification does involve gaseous and particulate Radiation Monitoring Instrumentation, however, it does not address Condenser Off Gas Radiation Monitoring.

Technical Reference(s) SO23-13-10, Step 1.a Attached w/ Revision # See SO2-3-3.21, Section 6.4 Comments / Reference SO2-3-3.21, Attachment 3 Technical Specification LCO 3.4.15 & 3.4.17 Proposed references to be provided during examination: None Learning Objective: 55214 - DESCRIBE how the Off Site Dose Calculation Manual is used to ensure the limitations of 10CFR20, Appendix B and the Radiological Effluent Technical Specifications are not exceeded.

Page 33 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Question Source: Bank #

Modified Bank # (Note changes or attach parent)

New X Question History: Last NRC Exam Question Cognitive Level: Memory or Fundamental Knowledge X Comprehension or Analysis 10 CFR Part 55 Content: 55.41 55.43 2, 5 Page 34 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # 061 AA2.06 Importance Rating 4.1 Area Radiation Monitoring System Alarms: Ability to determine and interpret the following as they apply to the Area Radiation Monitoring System Alarms: Required actions if the alarm channel is out of service Proposed Question: SRO 84 Given the following conditions on Unit 2 at 100% power:

• RI-7820-1, Containment High Range Area Monitor, is out of service.

• While performing Shiftly Surveillance, the OPERATE light for RI-7820-2, Containment High Range Area Monitor, is extinguished with the Mode Select Switch in OPERATE.

• RI-7820-2 OPERATE light bulb was verified to be working.

Which of the following REQUIRED ACTIONS should be implemented?

A. Submit a Special Report to the NRC within 14 days of the plan to restore one (1) channel to OPERABLE status.

B. Immediately initiate actions to restore one channel, and within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />, initiate alternate methods of monitoring Containment radiation levels.

C. Initiate a Unit Shutdown per the requirements of Technical Specification 3.0.3 and perform an NRC Notification within one (1) hour of initiation of the shutdown.

D. Initiate monitoring of Area Radiation Monitors outside Containment and restore an OPERABLE channel within 30 days.

Proposed Answer: B Page 39 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible if thought that a 14 day report was required, however, LCS 3.3.102, Radiation Monitoring Instrumentation, requires initiating the pre-planned alternate which SO23-3-3.21, Common Shiftly Surveillances, defines as monitoring the outside Containment walls for radiation.

TS 3.3.11, Post Accident Monitoring Instrumentation, specifies that one channel be restored within 7 days.

B. Correct. LCS 3.3.102, Radiation Monitoring Instrumentation, requires initiating actions immediately to restore one channel and within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> initiate the pre-planned alternate which SO23-3-3.21, Common Shiftly Surveillances, defines as monitoring the outside Containment walls for radiation.

TS LCO 3.3.11, Post Accident Monitoring Instrumentation, also specifies that one channel be restored within 7 days.

C. Incorrect. Plausible if thought that not having any OPERABLE Containment High Range Radiation Monitors would require a plant shutdown which then would require the one hour notification, however, LCO 3.3.11, Post Accident Monitoring Instrumentation, specifies that one channel be restored within 7 days and LCS 3.3.102, Radiation Monitoring Instrumentation, requires initiating actions immediately to restore one channel and within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> initiate the pre-planned alternate.

D. Incorrect. Plausible if thought that the actions specified would be the appropriate pre-planned alternate described by LCS 3.3.102, Radiation Monitoring Instrumentation and that a 30 day ACTION would apply, however, LCS 3.3.102 requires initiating the pre-planned alternate which SO23-3-3.21, Common Shiftly Surveillances, defines as monitoring the outside Containment walls for radiation.

Technical Reference(s) SO23-3-3.21, Step 6.6.3 Attached w/ Revision # See SO23-3-3.21, Attachment 1, Step 2.1 Comments / Reference Licensee Controlled Specification 3.3.102.E Technical Specification Table 3.3.11-1 Technical Specification LCO 3.3.11 Proposed references to be provided during examination: None Learning Objective: 54872 - APPLY all Administrative Requirements, Technical Specifications, and Action Statements for the Radiation Monitoring System.

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam SONGS 2010 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 2 Page 40 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 1 Group # 2 K/A # A16 G 2.4.21 Importance Rating 4.6 Excess RCS Leakage: Emergency Procedures/Plan: Knowledge of the parameters and logic used to assess the status of safety functions, such as reactivity control, core cooling and heat removal, reactor coolant system integrity, containment conditions, radioactivity release control, etc.

Proposed Question: SRO 85 Given the following conditions:

• SO23-12-9, Functional Recovery was entered due to a Loss of Coolant Accident and Station Blackout on Unit 3.

• Train B 1E 4160 V Bus 3A06 is cross tied to Train B 1E 4160 V Bus 2A06.

• Unit 2 Train B Emergency Diesel Generator 2G003 is supplying Buses 2A06 and 3A06.

• One (1) Group 6 CEA and one (1) Part Length CEA are NOT inserted in the Reactor.

• Containment pressure is 4 PSIG.

• Reactor Coolant System pressure is 1500 PSIA.

• The Pressurizer is empty.

• Subcooled Margin is 0ºF.

• All Train B Engineered Safety Feature actuations occurred as required.

• Reactor Vessel Plenum Level is 21%.

While performing Safety Function Status Checks you learn that the only available High Pressure Safety Injection Pump has just tripped.

Which of the following identifies the highest Safety Functions that are NOT met and which Functional Recovery Procedure will be entered FIRST?

A. 1.) Reactivity Control and Vital Auxiliaries Control.

2.) Implement FR-1, Recovery - Reactivity Control.

B. 1.) RCS Inventory Control and RCS Pressure Control.

2.) Implement FR-3, Recovery - RCS Inventory Control.

C. 1.) RCS Pressure Control and Core Heat Removal.

2.) Implement FR-4, Recovery - RCS Pressure Control.

D. 1.) Core Heat Removal and RCS Heat Removal.

2.) Implement FR-5, Recovery - Heat Removal.

Page 45 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Proposed Answer: B Explanation:

A. Incorrect. Plausible because Reactivity Control would be entered if two full-length CEAs were withdrawn, however, even with the 1E Buses cross connected, as long as power is available, Vital Auxiliaries would not be entered.

B. Correct. Given the conditions listed, RCS Inventory Control and RCS Pressure Control are the concerns and implementation of FR-3, Recovery - RCS Inventory Control would be performed.

C. Incorrect. Plausible because RCS Pressure Control would be entered, however, not enough information is provided to determine if Core Heat Removal entry is required.

D. Incorrect. Plausible because both Core Heat Removal and RCS Heat Removal could be entered, however, not enough information is provided on SG levels and Core Exit Temperature.

Technical Reference(s) SO23-12-10, Attachment SF-3, Steps 1 to 5 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: Steam Tables Learning Objective: 53929 - As the SRO, DIRECT accident mitigation by use of the functional recovery EOI per SO23-12-9.

Question Source: Bank #

Modified Bank # SONGS VISION (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 55.43 5 Page 46 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Comments /

Reference:

From SONGS VISION Revision # 10/19/09 Given the following conditions on Unit 2:

• SO23-12-9, Functional Recovery was entered due to a Small Break Loss of Coolant Accident and Excess Steam Demand Event.

• Offsite power is unavailable and Train B Emergency Diesel Generator failed to start.

• Containment pressure is 17 PSIG.

• Reactor Coolant System pressure is 1600 PSIA and the Pressurizer is empty.

• Subcooled Margin is 2°F.

• All Train A Engineered Safety Feature actuations occurred as required.

• Reactor Vessel Level is 21% in the Plenum.

While performing Safety Function Status Checks you learn that the only available Salt Water Cooling Pump has just tripped.

1.) Which ONE (1) of the following identifies the highest Safety Functions that are NOT met?

2.) Which Functional Recovery Procedure will be entered FIRST?

A. 1.) RCS Inventory Control and RCS Pressure Control.

2.) Implement FR-3, Recovery - RCS Inventory Control.

B. 1.) RCS Pressure Control and Core Heat Removal.

2.) Implement FR-4, Recovery - RCS Pressure Control.

C. 1.) Core Heat Removal and RCS Heat Removal.

2.) Implement FR-5, Recovery - Heat Removal.

D. 1.) Containment Isolation and Containment Temperature and Pressure Control.

2.) Implement FR-6, Recovery - Containment Isolation.

Page 52 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 006 G 2.2.37 Importance Rating 4.6 Emergency Core Cooling System: Equipment Control: Ability to determine operability and / or availability of safety-related equipment Proposed Question: SRO 86 Given the following conditions:

• Unit 2 is in MODE 2.

• Safety Injection Tank (SIT) pressures are as follows:

• SIT T-007 is at 619 PSIA.

• SIT T-008 is at 605 PSIA.

• SIT T-009 is at 612 PSIA.

• SIT T-010 is at 622 PSIA.

Which of the following are Technical Specification CONDITION, REQUIRED ACTION, and COMPLETION TIME?

A. One (1) SIT is inoperable. Restore SIT to OPERABLE status within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

B. One (1) SIT is inoperable. Enter Limiting Condition for Operation 3.0.3 immediately.

C. Two (2) SITs are inoperable. Restore at least one (1) SIT to OPERABLE status within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

D. Two (2) SITs are inoperable. Enter Limiting Condition for Operation 3.0.3 immediately.

Proposed Answer: D Explanation:

A. Incorrect. Plausible if thought that only one SIT was inoperable; in that case the REQUIRED ACTION listed is correct.

B. Incorrect. Plausible because the Technical Specification action is correct, however, there are two (2) SITs inoperable.

C. Incorrect. Plausible because (2) SITs are inoperable, however, this is the REQUIRED ACTION for one inoperable SIT.

D. Correct. Nitrogen cover pressure in each SIT must be 615 PSIA and 655 PSIA. With two (2)

SITs inoperable, Limiting Condition for Operation 3.0.3 must be entered immediately.

Page 53 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Technical Reference(s) Technical Specification LCO 3.5.1 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

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 55.43 2 Page 54 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 062 G 2.4.21 Importance Rating 4.6 AC Electrical Distribution System: Emergency Procedures/Plan: knowledge of the parameters and logic used to assess the status of safety functions, such as reactivity control, core cooling and heat removal, reactor coolant system integrity, containment conditions, radioactivity release control, etc.

Proposed Question: SRO 87 Given the following conditions:

• A Station Blackout occurred one (1) hour ago on Unit 3.

• SO23-12-8, Station Blackout, is being implemented.

• Qualified Safety Parameter Display System is OPERABLE.

• Pressurizer level is 10% and slowly lowering.

• Pressurizer pressure is 1300 PSIA.

• Core Exit Thermocouple temperature is 550ºF.

• Turbine Driven Auxiliary Feedwater Pump is in operation.

• Steam Generator narrow range levels are 75% and slowly rising.

Based on the conditions listed, which of the following is the Control Room Supervisors top priority?

A. Reactor Vessel water level is in the Plenum region. Transition to SO23-12-9, Functional Recovery, FR-5, Recovery - Heat Removal.

B. Remain in SO23-12-8, Station Blackout, and continue SO23-12-11, EOI Supporting Attachments, Attachment 6, Diesel Generator Failure Follow-up Actions.

C. Determine that core damage is imminent. Remain in SO23-12-8, Station Blackout, and implement the Severe Accident Management Guidelines.

D. When Pressurizer level is 0%, SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control, should be implemented.

Proposed Answer: B Page 57 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible if thought that a Pressurizer level of 10% would equate to level in the Plenum region, however, P-140, Auxiliary Feedwater Pump is operating and entry into SO23-12-9 to perform FR-5 would not be required.

B. Correct. SO23-12-8 requires continued attempts to restore power to a 1E 4 KV Bus until two hours has passed. At that time, the system is depressurized to allow the Safety Injection Tanks to provide inventory and boron.

C. Incorrect. Plausible because the Severe Accident Management Guidelines are available for use, however, conditions have not degraded to the point where the SAMGs would be implemented.

D. Incorrect. Plausible because SO23-12-8, Steps 17.e and 17.f required this action, however, this would not be performed unless power was restored.

Technical Reference(s) SO23-12-8, Foldout Page Attached w/ Revision # See SO23-12-8, Step 10.h & RNO Comments / Reference SO23-12-8, Step 13 SO23-12-8, Step 17.e & 17.f Proposed references to be provided during examination: None Learning Objective: 53940 - As the SRO, DIRECT operator response to a station blackout per SO23-12-8.

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 55.43 5 Page 58 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 013 A2.06 Importance Rating 4.0 Engineered Safety Features Actuation System: Ability to (a) predict the impacts of the following malfunctions or operations on the ESFAS; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Inadvertent ESFAS actuation Proposed Question: SRO 88 Given the following conditions:

• Unit 3 is in MODE 1.

• An inadvertent Safety Injection Actuation Signal (SIAS) occurs.

• Pressurizer Pressure is 2245 PSIA.

• Containment Pressure is 0.3 PSIG.

• The cause of the SIAS was due to failure of a Matrix Channel.

• The Matrix Channel was declared INOPERABLE.

Which of the following identifies the impact of the channel failure on Technical Specifications and what action must be taken to mitigate the situation?

A. Technical Specification LCO 3.3.5, Engineered Safety Features Actuation Signal (ESFAS) Instrumentation, is applicable.

Enter SO23-12-1, Standard Post Trip Actions, and trip the Reactor and Turbine.

B. Technical Specification LCO 3.3.5, ESFAS Instrumentation, is applicable.

Enter SO23-3-2.7.2, Safety Injection System Removal/Return to Service Operation, to reset the SIAS to restore Normal Containment Cooling.

C. Technical Specification LCO 3.3.6, ESFAS Logic and Manual Trip, is applicable.

Enter SO23-13-28, Rapid Power Reduction, and place the Unit in MODE 3 within one hour.

D. Technical Specification LCO 3.3.6, ESFAS Logic and Manual Trip, is applicable.

Enter SO23-13-17, Recovery from Inadvertent Safety Injection/Containment Isolation or Containment Spray, and override and stop all Charging Pumps.

Proposed Answer: D Page 63 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. The Technical Specification entry is incorrect. A Reactor trip and entry into SO23-12-1 per SO23-13-7, RCP Seal Failure would be considered because Controlled Bleed Off flow to the VCT is lost, however, the CBO relief would lift and the RCPs would be protected.

B. Incorrect. Plausible because the condition to reset SIAS to restore normal Containment Cooling is correct, however, the Technical Specification and procedure entry are both incorrect.

C. Incorrect. Plausible because the Technical Specification entry is correct, however, this would be the wrong procedure to enter because a Rapid Power Reduction is not required.

D. Correct. The SIAS must be recovered from in less than one hour to avoid Technical Specification LCO 3.0.3 entry. This is the correct Tech Spec and procedure entry. Letdown is isolated on an SIAS and the Charging Pumps must be overridden and stopped.

Technical Reference(s) Technical Specification LCO 3.3.6 Attached w/ Revision # See SO23-13-17, Steps 3 & 5 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

Question Source: Bank # SONGS VISION Modified Bank # (Note changes or attach parent)

New Question History: Last NRC Exam SONGS 2009 Question Cognitive Level: Memory or Fundamental Knowledge Comprehension or Analysis X 10 CFR Part 55 Content: 55.41 55.43 2, 5 Page 64 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 061 A2.07 Importance Rating 3.5 Auxiliary/Emergency Feedwater System: Ability to (a) predict the impacts of the following malfunctions or operations on the AFW; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Air or MOV failure Proposed Question: SRO 89 Given the following condition:

• A loss of DC Bus D3 was immediately followed by a Unit Trip and Station Blackout.

Which of the following identifies the impact on P-140, Auxiliary Feedwater Pump, and what procedure should be used to place P-140, Auxiliary Feedwater Pump, in service?

P-140 is disabled due to the inability to open...

A. HV-4716, K-007 Turbine Inlet Steam Supply. Enter SO23-12-11, EOI Supporting Attachments, FS-11, Reset P-140 Overspeed Trip.

B. both HV-4705 and HV-4706, P-140 Motor Operated Discharge Valves. Enter SO23-2-4, Auxiliary Feedwater System Operation, Section 6.9, Local Manual AFW Equipment Operations.

C. HV-4716, K-007 Turbine Inlet Steam Supply. Enter SO23-2-4, Auxiliary Feedwater System Operation, Section 6.9, Local Manual AFW Equipment Operations.

D. both HV-4705 and HV-4706, P-140 Motor Operated Discharge Valves. Enter SO23-13-2, Shutdown from Outside the Control Room, Attachment 12, AFW Pump Local Manual Operation.

Proposed Answer: C Page 68 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because DC Bus D3 controls the K-007 Turbine Inlet Steam Supply and Governor Control Unit. This procedure entry reset the trip; however, pump has not tripped on overspeed.

B. Incorrect. Plausible because these valves are DC powered, however, these valves are powered from DC Buses D1 and D2. The procedure entry is correct.

C. Correct. P-140 is supplied with DC power from DC Buses D1, D2, and D3. The Main Steam Inlets and Pump Discharge Valves are powered from D1 and D2. DC Bus D3 controls the K-007 Turbine Inlet Steam Supply and Governor Control Unit. The procedure entry is correct.

D. Incorrect. These valves are powered from DC Buses D1 and D2. This procedure could be used as it would allow manual operation of the Auxiliary Feedwater Pump.

Technical Reference(s) SO23-13-18, Attachment 7 Attached w/ Revision # See SO23-2-4, Section 6.9 Comments / Reference SD-SO23-780, Figure 1 SD-SO23-780, Pages 57 & 58 SO23-12-11, FS-11 Proposed references to be provided during examination: None Learning Objective: 53940 - As the SRO, DIRECT operator response to a station blackout per SO23-12-8.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 69 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 1 K/A # 012 G 2.2.22 Importance Rating 4.7 Reactor Protection System: Emergency Procedures/Plan: Knowledge of limiting conditions for operations and safety limits Proposed Question: SRO 90 Given the following conditions:

• Unit 2 is in MODE 1.

• Annunciator 56A19 - REACTOR TRIP CIRCUIT BREAKER OPEN, is in alarm.

• Reactor Trip Circuit Breaker (RTCB) #1 indicating lights are extinguished and all other RCTBs indicate CLOSED.

Which of the following identifies the cause of the alarm and the status of Reactor Trip Circuit Breaker #1 and what is the Technical Specification REQUIRED ACTION?

The alarm is caused by RTCB #1 opening on...

A. loss of power to Trip Path Relay K-1.

Ensure OPEN RTCB#1 and RTCB #5 within one (1) hour and declare the Channel A RTCBs inoperable.

B. undervoltage due to loss of control power.

Immediately OPEN RTCB #5 and restore Trip Path Relay K-1 and RTCB #1 and RTCB #5 to OPERABLE status within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />.

C. loss of power to Trip Path Relay K-1.

Immediately OPEN RTCB #5 and restore Trip Path Relay K-1 and RTCB #1 and RTCB #5 to OPERABLE status within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />.

D. undervoltage due to loss of control power.

Ensure OPEN RTCB#1 and RTCB #5 within one (1) hour and declare the Channel A RTCBs inoperable.

Proposed Answer: D Page 75 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because the REQUIRED ACTION is correct, however, if K-1 failed both RTCBs would be open.

B. Incorrect. Plausible because the reason for the RTCB opening is correct, however, the K-1 relay is not part of this failure mechanism.

C. Incorrect. Plausible because it could be thought that K-1 deenergized causing RTCB-1 to open and RTCB-5 failed to open, however, if K-1 failed both RTCBs would be open.

D. Correct. Indicating lights out point to a loss of control power and the UV coil caused RTCB-1 to open. RTCB-5 must be opened within one hour due to potential for a 1/2 trip if CEDM MG #2 tripped as outlined in the TS Basis document.

Technical Reference(s) Technical Specification LCO 3.3.4.B Attached w/ Revision # See Technical Specification LCO 3.3.4 Bases Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

Question Source: Bank # SONGS VISION 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 55.43 2, 5 Page 76 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 015 A2.03 Importance Rating 3.5 Nuclear Instrumentation System: Ability to (a) predict the impacts of the following malfunctions or operations on the NIS; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Xenon oscillations Proposed Question: SRO 91 Given the following while at 100% power Middle-Of-Core (MOC) conditions:

• A xenon oscillation is in progress greater than 0.05 Axial Shape Index (ASI) units.

• Axial Shape Index is currently more positive than Equilibrium Shape Index (ESI).

• The oscillation is moving towards the top of the Core.

Which of the following identifies the guidance provided to mitigate the xenon oscillation and what is the Technical Specification Basis for this action?

A. Direct inserting PLCEAs in small, smooth frequent movements of less than 3 inches per minute to maintain ASI at ESI +/- 0.01 shape index units.

Limits the amount of damage to the fuel cladding during an accident by ensuring that the plant is operating within acceptable conditions at the onset of the transient.

B. Commence a Reactor Coolant System boration to lower temperature and drive ASI towards ESI.

Avoids fuel centerline melt by limiting the local peak linear heat rate during steady state operation.

C. Direct inserting Group 6 CEAs in small, smooth frequent movements of less than 5 inches per minute to maintain ASI at ESI +/- 0.01 shape index units.

Limits the amount of damage to the fuel cladding during an accident by ensuring that the plant is operating within acceptable conditions at the onset of the transient.

D. Commence a Reactor Coolant System dilution to raise temperature and drive ASI away from ESI.

Avoids fuel centerline melt by limiting the local peak linear heat rate during steady state operation.

Proposed Answer: A Page 79 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Correct. Given the fact that this is identified as a large oscillation in the stem, inserting either the Part Length or Group 6 CEAs is appropriate at the speed listed. The Tech Spec bases is correct as listed.

B. Incorrect. Plausible because all components of this answer are correct for controlling a xenon oscillation, however, given the size of the oscillation listed this is an inappropriate response.

Controlling a small xenon oscillation with temperature is appropriate however, this is a large oscillation.

C. Incorrect. Plausible because all components of this answer are correct for controlling a xenon oscillation including the use of Group 6 rods instead of the part length CEAs, however, the rods speed listed is too fast to avoid pellet clad interaction.

D. Incorrect. Plausible because all components of this answer are correct for controlling a xenon oscillation, however, commencing a dilution to raise temperature and drive ASI away from ESI only works if ASI is more negative than ESI. The condition in the stem is opposite this.

Technical Reference(s) SO23-5-1.7, Attachment 13 Attached w/ Revision # See Technical Specification LCO 3.2.5 Bases Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56524 - MONITOR and CONTROL ASI during steady state operation per SO23-5-1.7.

56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

Question Source: Bank # SONGS VISION 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 55.43 2, 5 Page 80 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 045 A2.08 Importance Rating 3.1 Main Turbine Generator System: Ability to (a) predict the impacts of the following malfunctions or operations on the MTG System; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Steam dumps are not cycling properly at low load, or stick open at higher load (isolate and use atmospheric reliefs when necessary)

Proposed Question: SRO 92 Given the following conditions during a Unit 3 startup:

• Reactor power is 20% and TCOLD is 544ºF.

• Main Turbine is ready to be synched to the grid.

• Steam Bypass Control System (SBCS) is in AUTO.

• A slightly negative Isothermal Temperature Coefficient is known to exist.

When the Main Turbine is synched to the grid with a Block Load of 100 MWe applied, the SBCS Valves remain in their pre-Block Load position.

Which of the following identifies the plant response to this condition and what actions should be taken to mitigate the situation?

A. Main Turbine MWe will rise to the Block Load Target value for Hot Turbine operations.

Lower SBCS Master Controller setpoint to close SBCS valves per SO23-3-2.18, Steam Bypass System Operations.

B. A plant cooldown will add negative (-) reactivity to the core.

Withdraw CEAs to restore temperature to program per SO23-5-1.7, Power Operations.

C. A plant cooldown will add positive (+) reactivity to the core.

Place SBCS in Manual and restore temperature to program per SO23-5-1.7, Power Operations.

D. Main Turbine MWe will drop below the Block Load Target value for Hot Turbine operations.

Trip the Turbine per SO23-10-1, Turbine Startup and Normal Operation.

Proposed Answer: C Page 83 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because this action is required per SO23-10-1, however, it is accomplished manually.

B. Incorrect. Plausible if thought that this is what a -ITC would do. Also, never allowed to withdraw CEAs to restore from a secondary plant perturbation.

C. Correct. Per SO23-5-1.7, a - ITC will insert positive reactivity; therefore, taking control of SBCS to restore temperature is appropriate.

D. Incorrect. Plausible because the Target value for a Hot Turbine is well above (100 MWe) the Block Load minimum of 55 MWe.

Technical Reference(s) SO23-5-1.7, Attachment 16, L&S 2.4 Attached w/ Revision # See SO23-10-1, Attachment 3 Guidelines Comments / Reference Proposed references to be provided during examination: None Learning Objective: 56289 - As the SRO, DIRECT plant operations during Power Operations per SO23-5-1.7.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 84 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 2 Group # 2 K/A # 035 G 2.4.47 Importance Rating 4.2 Steam Generator System: Emergency Procedures/Plan: Ability to diagnose and recognize trends in an accurate and timely manner utilizing the appropriate control room reference material Proposed Question: SRO 93 Given the following conditions:

• A Steam Generator Tube Rupture is in progress on Unit 2.

• The most affected Steam Generator has been isolated.

• FS-7, Verify SI Throttle / Stop Criteria, is in progress.

• FS-9, Verify RCS Free of Voids, is in progress.

• A Natural Circulation cooldown is in progress due to a loss of the 6.9 kV Buses.

• THOT and TCOLD are both slowly lowering.

• Core T is 45ºF and stable.

• Core Exit Thermocouple (CET) subcooling is 30ºF and stable.

• Reactor Vessel Head level is 20%.

• Reactor Vessel Head subcooling is minus (-) 2ºF.

Which of the following describes the reason and appropriate actions to take for these conditions?

A. Reactor Head Voiding is indicated. Raise Pressurizer pressure to collapse the void per SO23-12-11, EOI Supporting Attachments, Attachment 2, FS-10, Eliminate Voids.

B. Steam Generator Tube Voiding is indicated. Reduce cooldown rate and increase Safety Injection flow to raise inventory per SO23-12-11, EOI Supporting Attachments, Attachment 3, Cooldown / Depressurization.

C. Reactor Plenum voiding is occurring. Stop the cooldown and maximize CEDM Cooling to cool and collapse the Head bubble per SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control.

D. CET subcooling is low. Raise steaming and feeding rates to the intact Steam Generator per SO23-12-11, EOI Supporting Attachments, Attachment 5, Core Exit Saturation Margin Control.

Proposed Answer: A Page 87 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Correct. RNO actions for no Reactor Head subcooling and Vessel level less than 100% in the Plenum directs these actions.

B. Incorrect. Plausible because it could be thought that SG tube voiding was indicated based on the T, however, Reactor Vessel head voiding is occurring.

C. Incorrect. Plausible because it could be thought that these actions would allow the Head cooling to catch up to the RCS and the void would collapse.

D. Incorrect. Plausible because it could be thought that CET subcooling was low for these conditions and that the actions of SO23-12-11, Core Exit Saturation Margin Control, were warranted.

Technical Reference(s) SO23-12-11, Attachment 2, FS-10 Attached w/ Revision # See SO23-12-11, Attachment 5 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53925 - As the SRO, DIRECT response to and recovery from a steam generator tube rupture per SO23-12-4.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 88 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 1 K/A # G 2.1.5 Importance Rating 3.9 Conduct of Operations: Ability to use procedures related to shift staffing, such as minimum crew complement, over time limitations, etc.

Proposed Question: SRO 94 Given the following:

• Unit 2 is in MODE 1.

• Unit 3 is in MODE 6 performing CORE ALTERATIONS.

• Crew A is manned to the minimum composition per SO123-0-A1, Conduct of Operations, Attachment 2, Minimum Operations Shift Crew Composition.

• Crew A has 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> remaining on Shift.

• The Refueling SRO has been diagnosed with heat exhaustion and must leave Containment.

Which of the following describes the requirements regarding the Shift Composition and required action in this situation?

A. The Shift Manager must suspend CORE ALTERATIONS until after turnover of responsibilities to another qualified Refueling SRO.

B. The Refueling SRO may NOT leave the site until CORE ALTERATIONS have been stopped by Reactor Engineering.

C. Responsibilities of the Refueling SRO may be turned over to the Shift Manager for the remainder of the Shift. Unit 2 CRS assumes the Shift Manager duties.

D. The CRS of Unit 3 can relieve the Refueling SRO. The Shift Manager may perform concurrent SM/CRS duties until Shift Relief by a qualified CRS.

Proposed Answer: A Explanation:

A. Correct. Given the conditions listed, CORE ALTERATIONS must be suspended as described in footnote #3 of SO123-0-A1.

B. Incorrect. Plausible if thought that CORE ALTERATIONS were control solely by Reactor Engineering, however, the Refueling SRO need only leave their position on the refueling deck to require termination of CORE ALTERATIONS.

C. Incorrect. Plausible if thought this was allowed, however, Minimum Manning would not be met.

D. Incorrect. Plausible if thought this was allowed, however, Minimum Manning would not be met.

Page 93 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Technical Reference(s) SO123-0-A1, Attachment 2 Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53394 - Given plant conditions, DETERMINE the shift manning requirements.

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 55.43 6 Page 94 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 1 K/A # G 2.1.34 Importance Rating 3.5 Conduct of Operations: Knowledge of primary and secondary plant chemistry limits Proposed Question: SRO 95 Given the following conditions:

• Unit 2 has been at 100% power for 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

• Chemistry has just reported the following Reactor Coolant System (RCS) samples:

• Chloride concentration is 1.9 ppm.

• Fluoride concentration is 1.6 ppm.

Which of the following actions should the Control Room Supervisor take per the Licensee Controlled Specifications and why?

Within six (6) hours,...

A. place the Unit in MODE 2 because only the Chloride concentration has exceeded the transient limit.

B. place the Unit in MODE 3 because the Chloride and Fluoride concentrations have exceeded the transient limit.

C. reduce RCS pressure to 500 PSIA because only the Chloride concentration has exceeded the steady-state limit.

D. reduce RCS pressure to 500 PSIA because the Chloride and Fluoride concentrations have exceeded the steady-state limit.

Proposed Answer: B Explanation:

A. Incorrect. Plausible because the fluoride concentration has exceeded the transient limit, however, the Unit must be placed in MODE 3 within six hours.

B. Correct. Unit must be placed in MODE 3 within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and be in MODE 5 within 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> because the chloride and fluoride concentrations have exceeded the transient limit.

C. Incorrect. Plausible because this a REQUIRED ACTION per CONDITION D, however, both the chloride and fluoride transient limits have been exceeded.

D. Incorrect. Plausible because the steady-state chloride and fluoride limits have been exceeded, however, the LCS allows up to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to restore the parameter to within specification.

Page 97 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Technical Reference(s) LCS Table 3.4.101-1 Attached w/ Revision # See Licensee Controlled Specification 3.4.101.A Comments / Reference Licensee Controlled Specification 3.4.101.C Licensee Controlled Specification 3.4.101.D Proposed references to be provided during examination: None Learning Objective: 56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

Question Source: Bank # SONGS VISION 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 55.43 1, 2 Page 98 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 2 K/A # G 2.2.17 Importance Rating 3.8 Equipment Control: Knowledge of the process for managing maintenance activities during power operations, such as risk assessments, work prioritization, and coordination with the transmission system operator Proposed Question: SRO 96 Which of the following conditions would allow a High Risk Evolution to be performed per SO23-5-1.8.1, Shutdown Nuclear Safety?

Per SO23-5-1.8.1, Shutdown Nuclear Safety, a High Risk Evolution can be performed...

A. given the evolution or activity is covered by an approved site procedure and a planned Defense-In-Depth is in place.

B. only if dual redundant components are available, have been protected, and can perform the protected components function.

C. as long as the Safety Monitor calculates a Core Damage Frequency (CDF) less than 0.0001 (one in 10,000 Reactor years).

D. whenever a Safety Function will not be compromised or challenged.

Proposed Answer: A Explanation:

A. Correct. The evolution must be covered by an approved site procedure and have Defense In Depth in place.

B. Incorrect. Plausible because it could be thought that a redundant component is always required, however, if it involved a pump that did not have any redundancy, that pump itself must be protected.

C. Incorrect. Plausible because this calculation would be performed before the evolution was performed, however, there is not a calculated value that must be met.

D. Incorrect. Plausible because this is a desired state while performing a High Risk Evolution, however, it is not required.

Technical Reference(s) SO23-5-1.8.1, Section 6.11 Attached w/ Revision # See SO23-5-1.8.1, Attachment 1 Comments / Reference Proposed references to be provided during examination: None Page 102 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Learning Objective: 56326 - Given plant and equipment status and the applicable Safety Function Fulfillment Plan (SFFP) or Safety Function Protection Plan (SFPP),

DETERMINE if the planned Defense In Depth is in the required status for the given outage configuration.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 103 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 2 K/A # G 2.2.40 Importance Rating 4.7 Equipment Control: Ability to apply Technical Specifications for a system Proposed Question: SRO 97 Given the following condition on Unit 2 at 100% power:

• Both Control Element Assembly Calculators (CEAC) have been declared INOPERABLE due to an improper algorithm discovered during I & C testing.

All the following Technical Specification REQUIRED ACTIONS apply, EXCEPT; A. Verify the Departure from Nucleate Boiling Ratio requirement of LCO 3.2.4, Departure from Nucleate Boiling Ratio (DNBR), is met.

B. Verify all Full Length and Part Length Control Element Assembly (PLCEA) Groups are fully withdrawn and maintained that way except during Surveillance testing.

C. Verify the RSPT / CEAC INOPERABLE addressable constant in each Core Protection Calculator is set to indicate that the applicable CEAC(s) is (are)

INOPERABLE.

D. Maintain the Control Element Assembly Rod Drive System in the PLCEA position in the event rod motion is required.

Proposed Answer: D Explanation:

A. Incorrect. Plausible if thought that this would not be required, however, this a REQUIRED ACTION per the LCO.

B. Incorrect. Plausible if thought that this would not be required, however, this a REQUIRED ACTION per the LCO.

C. Incorrect. Plausible if thought that this would not be required, however, this a REQUIRED ACTION per the LCO.

D. Correct. This is NOT part of the additional requirements when the COMPLETION TIME limit expires and the CEACs have NOT been restored.

Technical Reference(s) Technical Specification LCO 3.3.3.B Attached w/ Revision # See Comments / Reference Proposed references to be provided during examination: None Page 106 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Learning Objective: 56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

Question Source: Bank # SONGS VISION 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 55.43 2 Page 107 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 3 K/A # G 2.3.11 Importance Rating 4.3 Radiation Control: Ability to control radiation releases Proposed Question: SRO 98 Given the following condition:

• Chemistry reports Reactor Coolant System (RCS) DOSE EQUIVALENT I-131 in the Unacceptable Region of Technical Specification LCO 3.4.16, RCS Specific Activity, Figure 3.4.16-1, Reactor Coolant DOSE EQUIVALENT I-131 Specific Activity Limit versus Percent of RATED THERMAL POWER With Reactor Coolant Specific Activity

>1 ci/gm Dose Equivalent I-131.

What is the Technical Specification Basis for reducing RCS temperature to less than 500ºF following plant shutdown?

A. Minimizes the temperature related degradation of Ion Exchangers while RCS cleanup is in progress.

B. Slows the release of noble gas to the Reactor Coolant reducing the activity source term.

C. Prevents the direct release of radioactivity should a Steam Generator Tube Rupture occur.

D. Minimizes the magnitude of iodine spiking phenomenon caused by the plant shutdown.

Proposed Answer: C Explanation:

A. Incorrect. Plausible because temperature degradation of Ion Exchangers is always a concern, however, not for this Technical Specification.

B. Incorrect. Plausible because a lower temperature would slow the release of noble gases, however, the basis is direct release of radioactivity during an SGTR.

C. Correct. As outlined in the bases document for Technical Specification LCO 3.4.16.

D. Incorrect. Plausible because higher temperatures would increase the size of the fuel cladding cracks therefore inducing iodine spiking, however, the basis is related to a SGTR.

Technical Reference(s) Technical Specification LCO 3.4.16 Bases Attached w/ Revision # See Comments / Reference Page 110 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Proposed references to be provided during examination: None Learning Objective: 56649 - Given plant and equipment conditions, or Technical Specification/LCS surveillance results, DETERMINE system or equipment OPERABILITY and LCO(s) impacted along with all required actions and surveillances using SONGS procedures, Technical Specifications and Licensee Controlled Specifications (LCS).

Question Source: Bank # SONGS VISION 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 55.43 2, 4 Page 111 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 4 K/A # G 2.4.27 Importance Rating 3.9 Emergency Procedures / Plan: Knowledge of fire in the plant procedures Proposed Question: SRO 99 Given the following conditions:

• Unit 2 is in MODE 1 and Unit 3 is in MODE 5.

• A fire is confirmed in the SCE Switchyard Relay House.

• SO23-13-21, Fire, was entered and personnel are at the Relay House fighting the fire.

• 10 minutes after the Fire is confirmed, the following occurs:

• Both 220 kV Tie Breakers 4112 and 6112 open in the Switchyard.

• Both Unit 2 Reserve Auxiliary Transformer Supply Breakers 4042 and 6042 spuriously opened.

• 2 minutes later Santiago Breaker 4052 spuriously opened.

Which of the following action(s) is required to be performed per SO23-13-21, Fire?

A. Maintain Unit 3 in MODE 5 per SO23-5-1.8, Shutdown Operations.

Perform a manual trip of Unit 2 and enter SO23-12-1, Standard Post Trip Actions.

B. Maintain Unit 3 in MODE 5 per SO23-5-1.8, Shutdown Operations.

Maintain steady state conditions on Unit 2 per SO23-5-1.7, Power Operations.

C. Start the Emergency Diesel Generators on Unit 3 per SO23-2-13, Diesel Generator Operation, and parallel to the 1E Buses.

Commence a power reduction on Unit 2 per SO23-5-1.7, Power Operations.

D. Start the Emergency Diesel Generators on Unit 2 per SO23-2-13, Diesel Generator Operation, and parallel to the 1E Buses.

Maintain steady state conditions on Unit 2 per SO23-5-1.7, Power Operations.

Proposed Answer: A Page 114 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Correct. Because the SCE Switchyard is considered part of the Yard Area, the actions listed are correct.

B. Incorrect. Plausible because the action for Unit 3 is correct, however, Unit 2 must be tripped.

C. Incorrect. Plausible because given the condition in the SCE Switchyard starting the EDGs may be desirable especially with the Unit 3 in MODE 5; however, a trip of Unit 2 is required.

D. Incorrect. Plausible if thought that the SCE Switchyard was not part of the Yard Area.

Technical Reference(s) SO23-13-21, Steps 2.0 Note & 4.5.5 Attached w/ Revision # See SO23-13-21, Attachment 1 Comments / Reference Proposed references to be provided during examination: None Learning Objective: 53944 - As the SRO, DIRECT the operator response to a fire in the plant per SO23-13-21.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 115 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Examination Outline Cross-reference: Level RO SRO Tier # 3 Category # 4 K/A # G 2.4.45 Importance Rating 4.3 Emergency Procedures / Plan: Ability to prioritize and interpret the significance of each annunciator or alarm Proposed Question: SRO 100 Given the following conditions:

• While performing SO23-12-1, Standard Post Trip Actions, a Reactor Trip Override (RTO) malfunction has caused an excessive cooldown.

• Manual control of Feedwater was taken in an attempt to stop the overfeed condition.

• The following annunciators are now in alarm:

• 56A51 - SG2 E088 PRESS LO PRETRIP.

• 56A53 - SG1 E089 PRESS LO PRETRIP.

• Steam Generator pressure is lowering.

• Subsequently, the following alarms are received:

• 56A41 - SG2 E088 PRESS LO CHANNEL TRIP.

• 56A43 - SG1 E089 PRESS LO CHANNEL TRIP.

Which of the following actions should be taken by the Control Room Supervisor?

A. Declare a cooldown in progress, reset the Main Steam Isolation Signal setpoints, and direct the Shift Technical Advisor to continue the Safety Function Status Checks.

B. Ensure Main Feedwater Block Valves, HV-4047, and HV-4051, are CLOSED.

Continue monitoring SG pressures while initiating a two-prong attack.

C. Ensure initiation of Main Steam Isolation Signal. To prevent RCS repressurization, when cooldown terminates, stabilize RCS temperature for the lowest TCOLD.

D. Verify the Main Steam Safeties are closed, reset the Main Steam Isolation Signal setpoints, and direct the Shift Technical Advisor to perform the RCS Heat Removal Safety Function.

Proposed Answer: C Page 119 of 123 Rev d

ES-401 SONGS NRC 2011 SRO Written Exam Worksheet Form ES-401-5 Explanation:

A. Incorrect. Plausible because resetting the setpoints would prevent an MSIS, however, an MSIS needs to be initiated. The Shift Technical Advisor action is appropriate for these conditions.

B. Incorrect. Plausible because closing the MSIVs is desirable, however, an MSIS should be initiated.

A two-pronged attack is used when the Functional Recovery procedure is implemented.

C. Correct. This is the desired action because the cooldown must be stopped or MSIS must be initiated. Having the STA restart Safety Function Status Checks would allow for a re-diagnosis.

D. Incorrect. Plausible because this action is desirable to determine the source of the cooldown, however, MSIS should be initiated. Additionally, the STA action is not per the guidance of OSM-9.

Technical Reference(s) SO23-12-1, Step 8 RNO Attached w/ Revision # See SO23-15-56.A - 56A51 Comments / Reference OSM-9, Step 23 Proposed references to be provided during examination: None Learning Objective: 54352 - As the SRO, DIRECT standard post trip actions per SO23-12-1.

Question Source: Bank # SONGS VISION 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 55.43 5 Page 120 of 123 Rev d