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{{#Wiki_filter:Beaver Valley Unit 1 NRC Written Exam (1LOTS) 1. Given the following plant conditions and seqUl:mce of events:

* 1 MSP-1.05-1, "Reactor Protection System Train B Test" is being performed.

* Reactor Trip Bypass Breaker (BYB) has been closed. * "B" Train SSPS input error inhibit switch is in the INHIBIT position.

Which ONE of the following breakers will receive a trip signal? RTA -(Reactor Trip Breaker RTB -(Reactor Trip Breaker BYA -(Reactor Trip Bypass Breaker BYB -(Reactor Trip Bypass Breaker A. RTAONLY. B. RTA and BYB. C. RTB and BY A. D. RTB and BYB. Answer: B Explanation/Justification: Incorrect.

Train A RTB will open, however, it is not the only breaker which will open. BYB will also open. Correct. Since reactor power is > P-9 (49%), a turbine trip will result in a reactor trip signal to RPS. With Train B SSPS input error inhibit switch in INHIBIT, upon reactor trip, the Train A reactor protection system de-energizes the Train A Reactor trip Breaker and the Train B Bypass breaker UV ceils. BYB is closed to allow testing on the "B" Train. Incorrect.

Train B ATB will not open due to Train B SSPS input error inhibit switch in the INHIBIT position.

BYA will not open. Incorrect.

Train B RTB will not open due to Train B SSPS input error inhibit switch in the INHIBIT position.

BYB will open. Sys# System Category KA Statement 007 Reactor Trip Ability to determine or interpret the following as they apply to a Reactor trip breaker position reactor trip: KIM EA2.03 KIA Importance 4.2 Exam Level RO References provided to Candidate None Technical 1 OM-UB, Rev. 10, pg. 3 1 SQS-1.2 U1 LP PPT, Rev. 5 Issue 1, pg. 7 & 22 1 MSP-l.05-I, Issue 4, Rev. 49, pg. 26 & 29 Question Source: Bank -Vision 8266 Question Cognitive Level: Higher Comprehension or Analysis 10 CFR Part 55 Content: (CFR 41.7/45.5/45.6)

10M-53B.5.GI-11, Issue 2, Rev. 0, pg. 2 & 5,Steam Tables (Red Book), Question Source: Bank -Vision #82002 (2LOT7 NRC -0#3) Question Cognitive level: Higher -Comprehension or Analysis 10 CFR Part 55 Content: (CFR 41.7/45.7)

Objective:

3S0S-53.2  

: 3. State from memory the basis for SI termination criteria lAW BVPS -EOP Executive Volume. 3S0S-53.3 S. Given a set of plant conditions, locate and apply the proper EOP lAW BVPS -EOP Executive Volume.

Beaver Valley Unit 1 NFIC Written Exam (1LOT8) 4. Given the following plant conditions: A beyond design basis earthquake occurs resulting in a LBLOCA & Station Blackout. The Control Room Team is performing actions contained in ECA-O.O, "Loss of All Emergency 4KV AC Power" to restore power. RCS Subcooling based on Core Exit TC's is 2 of. Core Exit TC's are 735 and slowly FUSING. RVLlS Full Range indication is 38% and slowly DROPPING.

Which ONE of the following describes the status of the Core Cooling Critical Safety Function Status Tree, AND what method will be used to determine their status? A. RED Path; may be determined using IPC. B. ORANGE Path; may be determined using IPC. C. RED Path; must be determined using MCB indications because IPC is unavailable.

D. ORANGE Path; must be determined using MCB indications because IPC is unavailable.

Answer: A Explanation/Justification: Correct. Conditions present indicate a RED CSF Status. (ie; > 719 F and < 40% RVLl8) IPC is available during a station blackout to monitor core cooling status. The IPC is powered by Battery Backed DC-SWBD-3 since normal MCC1-E9 supply is lost due to station blackout. Incorrect.

Incorrect CSF conditions.

Conditions present indicate a RED versus ORANGE CSF Status. Correct IPC status. Incorrect.

Correct C8F Status. It is incorrect that MCB indications must be used although they are available because IPC is still available.

This plausible if the candidate does not know the status of Incorrect.

Incorrect CSF conditions.

It is incorrect that MCB indications must be used although they are available because IPC is still This is plausible if the candidate does not know the status of Sys# System Category KA Statement 011 Large Break LOCA Ability to determine and interpret the following as they Verification of adequate core cooling. apply to a Large Break LOCA: KIM EA2.10 KIA Importance 4.5 Exam Level RO References provided to Technical  

10M-53A.1.F-0.2, Issue 1C, Rev. 1, pg 1 lOM-5A.3.C, Rev. 10 pg. 4 & 6 380S-39.1, Rev. 8 PPNT Slides Question Source: New Question Cognitive Level: Higher -Comprehension or Analysis 10 CFR Part 55 Content: (CFR 43.5/45.13) 2. Concerning critical safety function restoration, lAW BVPS EOP Executive Volume, state from memory the following, Objective:

3S0S-53.1 The CFS in order of priority, The priorities of the color-coded end points of the CSFSTs, and the red path summary conditions from EOPs. 3S08-53.3  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 5. Given the following plant conditions: The Unit was operating at 60% when all charging flow was lost. The Control Room Team entered AOP 1 .7.1 , "Loss of Charging Or Letdown". Letdown has been isolated and charging restoration is being investigated. The Reactor Operator reports Pressurizer (PRZR) level is lowering at a rate of 1 % every five (5) minutes. PRZR Level was 4% below reference when letdown was isolated.

A. 40 minutes B. 85 minutes C. 125 minutes D. 145 minutes Answer:C Explanation/Justification: Incorrect.

Value reflects 22% -14% = (8%) (5) = 40 minutes. Incorrect initial level. Incorrect.

Value reflects 39% -22% = (17) (5) = 85 minutes Incorrect final level Correct. At 60% power, PRZR Level is 60% of full range (0% power 547 F = 22% PRZR Levell 1 00''/0 power 578 F = 57 % PRZR Level) Therefore at 60% PRZR level =43%. The stem of the question indicates PRZR Level was 4% less than reference which =39%. PRZR Level cutout automatically occurs when PRZR level reaches 14%. Therefore with level lowering 1 % every 5 minutes, it will take 125 minutes to reach 14%. 125 minutes is the longest time that PRZR heater operation can be maintained based on these plant conditions.

All distractors are plausible based on misconceptions or common errors. Incorrect.

Value reflects 43% -14% = (29%) (5) =145 minutes. Did not subtract 4% below reference level. Sys # System Category KA Statement 022 Loss of Reactor Coolant Ability to determine and interpret the following as they How long PZR level can be maintained within Makeup apply to the Loss of Reactor Coo ant Makeup: limits. KlA# AA2.04 KIA Importance 2.9 Exam Level RO References provided to Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 6. Given the following plant conditions and seqw9nce of events:

* RCS Temperature is '1=.

* All THREE Loops are available for heat removal. Based on the reference provided and stated plant conditions, which ONE of the following is the estimated time to saturation? (Reference Provided)

A. < 1/2 hour B. > 112 hour and < 1 hours. C. > 1 hour but < 2 hours. D. > 2 hours but < 3 hours. Answer: 0 Explanation/Justification: Incorrect.

Plausible if the candidate uses Attachment 5 as referenced by step 11 of AOP 1.10.1. Incorrect.

Plausible if the candidate uses Attachment 4 time to boiling from 100 F. Incorrect.

Plausible if the candidate incorrectly calculates H/U rate, improperly applies the curves, or makes a mathematical error. Correct. Using Attachment 3 of AOP 1.10.1 and steam tables, the candidate will determine that Tsat for 235 psig (250 psia) is 401 F. Present RCS temperature is 180 F. Time since shutdown is 100 hours. Using Altachment 7, the current H/U rate is 1.5 F/min. 221 F/1.5 F/min = 147.3 minutes. Sys # Category KA Statement 025 Loss of RHR Knowledge of the operational implications of the following Loss of RHRS during all modes of concepts as they apply to Loss of Residual Heat Removal System: operations.

KIM AK1.01 KIA Importance 3.9 Exam Level RO References provided to Technical i

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 7. Given the following plant conditions: The plant is operating at 100% power with all systems in NSA. [FI-1CC-107A], "RCP 1A Thermal Barrier Flow" has increased to 55 GPM and continues to slowly RISE. [U-1CC-100], "CCR Surge Tank Level" is slowly DROPPING.

The cause of these conditions is a __ (1) AND with no operator action the _ (2) A. (1) 1 A RCP Thermal Barrier Leak (2) 1 A RCP thermal barrier outlet isolation valve will CLOSE. B. (1) CCR Leak downstream of 1 A RCP Thermal Barrier (2) 1 A RCP thermal barrier outlet isolation valve will CLOSE. C. (1) 1A RCP Thermal Barrier Leak (2) inlet and outlet containment isolation valves for 1 A RCP will CLOSE. D. (1) CCR Leak downstream of 1A RCP Thermal Barrier (2) inlet and outlet containment isolation valves for 1 A RCP will CLOSE. Answer: B Explanation/Justification: Incorrect.

Plausible that 1A RCP thermal barrier could be leaking based on increasing FI-1CC-107A flow, however, the candidate must differentiate out leakage from the system versus in leakage based on CCR Surge Tank level change. Correct that a high flow condition at 58 gpm will close the 1 A RCP thermal barrier outlet valve. Correct. Increasing flow on FI-1CC-107A combined with a dropping CCA Surge Tank level is indicative of a leak downstream of 1A RCP thermal barrier. TV-1CC-107A will auto close when CCR Flow as sensed by FT-1 CC-107A increases to 58 GPM. Dropping 8urge Tank level is an entry condition for Loss of CCR AOP. The KIA is met because the candidate must have knowledge that Loss of CCR AOP entry conditions have been met and they must be able to monitor the impact on an Rep which is a CCR heat load monitored in the control room. They must have specific knowledge of the operational impact based on stated parameters in the stem of the question. Incorrect.

Refer to discussion in A. Incorrect that the inlet and outlet CI valves close on this condition.

They close on CIA only. Incorrect.

Correct condition.

Incorrect auto action (refer to above discussion)

Sys# System Category KA 026 Loss of Component Cooling Water Ability to operate and/or monitor the following as they Loads on the CCWS in the control apply to the Loss of Component Cooling Water: KIM AAl.02 KIA Importance  

 

===3.2 IExam===

Level RO References provided to Candidate None Technical 1808-15.1, Rev. 11 PPNT Slides  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 8. Given the following plant conditions and sequ1ence of events:

* The Plant is operating at 50% power. Control rods are in MANUAL. Pressurizer (PRZR) 2A & 2B Backup Heaters are in the ON position.

* A secondary load rejection (step load decrease of 10%) occurs. No operator action is taken. Based on these plant conditions, what will be the impact of the secondary load rejection on PRZR Spray Valve [PCV-1 RC-455A] position AND the two groups of energized PRZR Backup Heaters [2A & 2B]? PCV-1 RC-455A wililNITIALLY _ (1) _ AND energized PRZR heaters will_ (2) A. (1) open (2) de-energize B. (1) open (2) remain energized C. (1) remain as is (2) de-energize D. (1) remain as is (2) remain energized Answer: D ExplanatiOn/Justification: Incorrect.

Incorrect spray valve response.

Plausible if candidate does nDt recognize the impact of the Master pressure Controlier failure. heaters will remain energized.

Plausible if the candidate believes PRZFlievel drops to 14% which cuts off PRZR heaters by Incorrect.

Incorrect spray valve response.

Correct PRZR Backup Heater response. Incorrect.

Correct spray valve response.

PRZR heaters will remain energized.

Plausible because PRZR heaters are designed to turn off increasing PRZR Correct. A load rejection results in an increase in RCS temperature. (PI.ant will not trip due to reactor power level) The Tavg increase will cause an expansion of water into the PRZR (Insurge) compressing the vapor space which in turn will increase PRZR pressure.

On increasing PRZR pressure, the Master Pressurizer Control System is designed to open the Spray Valves to lower PRZR pressure back to NOP (2235 psig). However, since the Master Pressure Controller has failed as is, it will not respond to the changing system parameters and therefore will not reposition Spray Valves open. Backup PRZR heaters 2A & 2B will remain energized because they are energized on and the master pressure controller has failed at a setpoint which will not cause them to turn off regardless of what happens to PRZR pressure follOwing the transient.

Sys # System category KA Statement Pressurizer Pressure Knowledge of the operational implications of the following Expansion of liquids as temperature Control System Malfunction concepts as they apply to Pressurizer pressure Control increases.

KIM AK1.02 KIA Importance 2.8 Exam Level RO References provided to Technical  

10M-6.1.C, Rev. 7, pg.23 & 24 lOM-6.4.1F , Rev. 11, pg. 12 & 23 1505-6.4, Rev. 11, Issue 1, pg HO 18 & 74 & 75 Question Source: New Question Cognitive Leve): Higher -Comprehension or Analysis 10 CFR Part 55 Content: (CFR (41.8/41.10/45.3)

Objective:  

: 19. Given a specific plant condition, predict the response of the PRZR and Pressure Relief System control room indication and control loops, including all automatic functions and changes in equipment status, for either a change in plant conditions or for an off-normal condition (ie: Process instrument failure).

027 Beaver Valley Unit 1 NRC Written Exam (1 LOTS) 9. Given the following plant conditions: The Unit has been operating at 100% power for 345 days. A VALID high pressurizer pressure reactor trip signal is received and the reactor DOES NOT automatically trip, and it CANNOT be tripped manually from the control room. The Control Room Team is performing FR-S.1, "Response to Nuclear Power Generation -A lWS" actions. For these conditions, WHAT is the basis for tripping the turbine? Turbine trip ____________

.___ A. removes a large source of positive reactivity addition.

B. prevents the main feed pumps from tripping on low suction pressure.

C. provides an additional reactor trip signal to the reactor protection system. D. maintains the emergency core cooling system within its design capability. A Explanation/Justification: Correct. lAW the bases for step 1 and 5 of FR-S.l. The turbine removes a potential RCS cooldown which would add positive reactivity from negative Incorrect Tripping the turbine should improve the feed pump suction However, this is not the basis for tripping the turbine during an ATWS event. Tripping the turbine also conserves SG water inventory.

In the event of a loss of feed induced ATWS conserving water inventory is a primary purpose for tripping the turbine. The candidate may link the loss of feed to the low suction pressure trip on the main feed pumps. Incorrect.

The candidate wifl need to understand the fundamentals of a negative MTC in order to arrive at the correct answer. The Turbine trip will send an additional Rx trip signal to RPS. However, this is not the basis "or tripping the turbine during an A TWS event. Incorrect.

This is the basis for tripping the reactor versus the turbine. The reactor trip is verified to ensure that only heat being added to the RCS is from decay heat and RCP heat. Sys System Category KA Statement Anticipated Transient Knowledge of the reasons for the following responses as Actions contained in EOP for A TWS. Without Scram (A TWS) they apply to the A TWS: KiA# EK3.12 KiA Importance 4.4 Exam Level RO References provided to Candidate None Technical lOM-53A.1.FR-S.1, Issue lC, Rev. 5, pg. 2 & 4 1 OM-53BA.FR-S.1, Issue 1 C, Rev. 5, pg. 57 & 62 Question Source: Bank -Vision # 82007 (2LOT7 NRC Exam -0#8) Question Cognitive Level: Lower -Memory or 10 CFR Part 55 Content: (CFR 41.5/41.10/45.6/45.13) Objective:

3S0S-53.3 State from memory the basis and sequence of major action steps of each EOP lAW BVPS-EOP Executive Volume.

Beaver Valley Unit 1 NRC Written Exam (1LOTS) During power operation, Steam Generator (S/G) Tube leakage was detected and estimated at 100 gpm when RCS pressure was 2200 psig and S/G pressure was 800 psig. Which ONE of the following is the approximatl3 current leak rate if RCS pressure is 1350 psig and S/G pressure is 1000 psig? (Assume break size has NOT changed) S/G Tube leak rate _____ decreases to approximately 25 gpm. decreases to approximately 50 gpm. decreases to approximately 75 gpm. remains equal to initial leak rate of 100 gpm. Answer: B Explanation/Justification: Incorrect.

Plausible if candidate misunderstands fundamentals and/or miscalculates. Correct. The leak rate corresponds to the square root of the differential pressure.

2200 -800 1350 Square root = 37/1350 -1000 350 Square root = 18. Therefore the leak rate drops by about half. (ie: 18/37 .486) Incorrect.

Plausible if candidate misunderstands fundamentals and/or miscalculates. Incorrect.

Plausible if candidate misunderstands fundamentals and/or miscalculates.

Sys # System Category KA Statement 038 Steam Generator Tube Rupture Knowledge of the operational implications of the Leak rate vs. pressure drop. following concepts as they apply to the SGTR: KI A# EK 1.02 KIA Importance 3.2 Exam Level RO References provided to Candidate Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 11. Given the following plant conditions:

* No operator action occurs. Which ONE of the following describes the status of the following components?

1 FW-P-1A ("A" Main Feedwater HYV-1FW-100B (1B S/G Main FW CNMT Isol FCV-1 FW-499 (1C S/G FW Bypass FCV-1 FW-478 (1A S/G Main FW Reg 1FW-P-1A HYV-1FW-100B A. RUNNING OPEN B. RUNNING CLOSED C. STOPPED CLOSED D. STOPPED CLOSED Answer: D Explanation/Justification:

FCV-1 FW-499 OPEN CLOSED CLOSED CLOSED FCV-1FW-478 CLOSED CLOSED OPEN CLOSED A. Incorrect.

This configuration reflects a partial FWI which occurs on a reactor trip with 2 of 3 Tavg signals < 554 F. B. Incorrect.

MFP trips on Full FWI. C. Incorrect.

MFRV closes on a Full FWI. D. Correct. This is the correct configuration for a Full FWI which has occurred due to initiation of SI on low steam line pressure as a result of the SLB. Sys # System Category KA Statement 040 Steam Line Rupture Ability to operate and 1 or monitor the following as they Feedwater isolation.

Excessive Heat Transfer apply to the Steam Line Rupture: Kf A# AA 1.02 Kf A Importance 4.5 Exam level RD References provided to Candidate None Technical 1 DM-24.1.D, Rev. 5, pg. 7 1 DM-53A.1.1-C, Issue 1 C, Rev. 1, pg 3 Unit 1 ECCS Setpoints Question Source: New Question Cognitive level: Lower -Memory or Fundamental 10 CFR Part 55 Content: (CFR: 41.7/45.5/45.6)

Objective:

1  

: 16. Given a specific plant condition, predict the response of the Main Feedwater, Dedicated Auxiliary Feedwater System, Auxiliary Feedwater System or SGWLC System control room indication and control loops, including all automatic functions and changes in eqUipment status for either a change in plant condition or off normal condition.

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 12. Given the following plant conditions and sequence of events: The Unit is operating at 75% power with all systems in NSA. "A" Heater Drain Pump is operating and "8" is in standby. One Main Feedwater Pump has tripped. SG 1A NR levels are ALL indicating 23% and lowering. SG 18 NR levels are ALL indicating 22% and lowering. SG 1 C NR levels are ALL indicating 21 % and lowering. Pressurizer pressure is indicating 2310 psig and rising on all protection pressure channels.

A. Reduce Turbine Load to s 50% power. 8. Manually start the "8" Heater Drain Pump. C. Manually start the Dedicated Auxiliary Feedwater Pump [1 FW-P-4]. D. Manually trip the Reactor and enter E-O, "Reactor Trip or Safety Injection".

Answer: 0 Explanation/Justification: Incorrect.

Incorrect action for these plant conditions.

Plausible action as specified in Step 3 of AOP 1.24.1. Incorrect.

Incorrect action for these plant conditions.

Plausible action as specified in Step 4 of AOP 1.24.1. Incorrect.

Incorrect action but plausible because it is an action in FR-H.1 and was previously referenced as an action in AOP 1.24.1. Correct. AOP-l.24.1 requires action to trip the reactor if one MFP is lost> 70% power. Sys# System Category KA Statement 054 Loss of Main Feedwater NlA Ability to interpret control room indications to verify status and operation of a system, and understand how operator actions and directives affect plant and system conditions.

KlA# 2.2.44 KIA Importance 4.2 Exam level RO References provided to candidate None Technical  

: 6. Given a set of conditions, apply the Beaver Valley Unit 1 NRC Written Exam (1LOTS) ECA -0.0, "Loss of All Emergency 4KV AC Power" requires personnel be dispatched to locally isolate Rep seal injection.

What is the reason for this isolation? To prevent water hammer and potential seal injection line failure. To prevent potential RCP seal damage when a charging pump is restarted. To reduce the possibility of radioactive release to the. Auxiliary Building. To prevent steam formation in Component Cooling System due to overheating in the thermal barrier. Answer: B Explanation/Justification: Incorrect.

Plausible that water hammer and seal injection line failure could occur, however, not the background document reason for isolation. Correct. According to ECA-O.O background document, isolating RCP seal injection lines prepare the plant for recovery while protecting the RCPs from seal and shaft damage that may occur when a charging pump is started as part of recovery.

With RCP seal injection lines isolated, a charging pump can be started in the normal charging mode without concern for cold seal injection flow thermally shocking the RCPs. Incorrect.

This is the reason for isolating seal return versus injection. Incorrect.

This is the reason for isolating CCR return flow. Sys# System Category KA Statement 055 Station Blackout Knowledge of the reasons for the following responses as Actions contained in EOP for loss of offsite they apply to the Station Blackout:

and onsite power. KIM EK3.02 KIA Importance 4.3 Exam Level RO References provided to Technical  

10M*53A.1.ECA-O.O,lssue lC, Rev. 9, pg. 9 10M-53B.4.ECA-O.O, Issue lC, Rev. ,pg. 87 & 88 Question Source: Bank -Vision # 17 Question Cognitive Level: Lower _ Memory or Fundamental 10 CFR Part 55 Content: (CFR: 41.5/41.10/45.6/45.13) Objective:  

: 3. State from memory the basis and sequence for the major actions steps of each EOP procedure, lAW BVPS EOP Executive Volume.

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 14. Given the following plant conditions: A Loss of ALL AC Power occurred requiring the crew to enter ECA-O.O, "Loss Of All Emergency 4KV AC Power". An Emergency Diesel Generator (EDG) was returned to service in Step # 7 PRIOR to taking control switches to PULL-TO-LOCK in Step #12, and power was subsequently restored to ONE (1) 4KV Emergency Bus. Which ONE of the following describes when the EDG will sequence loads onto the bus AND the reason for this sequencing?

The last load powered by the EDG completes sequencing

__ (1) __after initiating signal. The reason for sequential loading of the EDG is to (2) __ A. (1) 0 -30 seconds (2) prevent the emergency bus from becoming inoperable.

B. (1) 0 -30 seconds (2) prevent damage to reactor coolant pump seal package. C. (1) 31-60 seconds (2) prevent the emergency bus from becoming inoperable.

D. (1) 31 -60 seconds (2) prevent damage to reactor coolant pump seal package. Answer: C ExplanatiOn/Justification: Incorrect.

Improper time. Correct reason. Incorrect.

Improper time. Improper reason. Reason is plausible since ECA-O.O background focuses heavily on protection of RCP seal packages. Correct. According to TS 3.S.1 bases and 1 OST -36.3 (4) all EDG loads are sequenced onto the EDG within 60 seconds. The reason for this timing is to recover the unit or maintain it in a safe condition.

T.S. 3.8.1 !bases furthermore states the reason for EDG load sequencing is to protect the EDG from overload and that improper loading sequence may cause the emergency bus to become inoperable. (ie: EDG overload would result in a loss of the associated emergency bus). No SIS is present so therefore the charging pump output breaker did not shut at time O. Incorrect.

Correct time. Incorrect reason. Reason is plausible since ECA-O.O background focuses heavily on protection of RCP seal packages.

Sys# System Category KA Statement 056' Loss of Offsite Power Knowledge of reasons for the following responses as they Order and time to initiation of power for the apply to a Loss of Offsite Power: load sequencer.

KlA# AK3.01 KIA Importance 3.5 Exam Level RO References provided to Technical  

10M-53A.1.ECA-0.0, Issue 1C, Rev. 8, pg.3, 4, & 6 10ST-36.3 (4), Rev. 28, pg. 73 & 75 TS 3.S.1 Bases, Rev. 0, pg. 83.8.1-1 & 2 Question Source: Bank Vision # 82012 (2L0T7 NRC 0#12) Question Cognitive Level: Lower Memory or Fundamental 10 CFR Part 55 Content: (CFR 41.5, 41.10/45.6/45.13) Objective:  

: 3. State from memory the basis and sequence for the major action steps of each EOP procedure, lAW BVPS-EOP Executive Volume.

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 15. The plant is operating at 60% power when the following alarms are received: [A9-100], 125VDC BATTERY CHGR 1 FAILURE [A9-98], 125VDC BUS 1 VOLTAGE LOW Several minutes after the alarms are received: The plant continues to operate at 60% power. 125 VDC BUS 1 Voltage indicates approximately 124 VDC and is slowly DROPPING. Station Battery Charger Breaker [BAT-CHG1-1A]

has been verified closed and 480V MCC1-E9 is energized. No operator actions have yet occurred.

For the given indications, which ONE of the following describes the 125VDC BUS 1 status? Battery Charger 1-1 A has failed. Station Battery #1 is supplying 125VDC Bus 1. Station Battery #1 has failed. Battery Charger 1-1 A is supplying 125VDC Bus 1. Station Battery #1 and Battery Charger 1-1A have failed. 125 VDC Bus 1 is degraded. Station Battery #1 and Battery Charger 1-1 A are operating normally.

Station Battery is supplying 125 VDC Bus 1 . Answer: A Explanation/Justification: Correct. When a battery charger is lost, the station battery will automatically supply power to the loads on the effected bus. A9-100 and A9-98 are entry conditions for Loss of DC Power AOP. Incorrect.

If battery charger 1 were supplying the normal bus loads, 125VDC Bus 1 voltage would indicate between 127.8V and 135V. Incorrect.

Would have resulted in a loss of control power to EDG No.1 and 4160 V Bus 1 AE. Also the plant would no longer be operating at 60% power. Incorrect.

If Battery Charger 1 and Station Battery are operating normally, the alarms would not have been received.

It is correct that the battery is supplying the Sys # System Category KA Statement 058 Loss of DC Power N/A Ability to diagnose and recognize trends in an accurate and timely manner utilizing the appropriate control room reference material.

KlA# 2.4.47 KIA Importance 4.2 Exam RO level References provided to Candidate Technical  

10M-39.4.AAI, Rev. 6, pg. 2 10M-39.4.AAJ, Issue 3, Rev. 3, pg. 1 10M-39.4.A, Rev. 8, Pg. 2-5 3S08-39.1 Unit 1 PPT Slide Question Source: Bank -Vision # 45879 Question Cognitive Level: Higher _ Comprehension or Analysis 10 CFR Part 55 Content: (CFR: 41.10/43.5/45.12) Objective:

3808-39.1  

: 20. Given a change in plant conditions due 10 system/component failure, analyze 125VDC distribution system to determine what failure has occurred.

Beaver Valley Unit 1 NRC Written Exam (lLOT8) 16. Given the following plant conditions and sequence of events:

* The Unit is operating at 20% power. * "B" Main Feedwater Pump is running.

* A normal plant shutdown is in progress due to inoperability of No.1 EDG. * "B" RPRW pump was just taken to Pull-to-Lock due to excessive seal leakage reported in the intake structure cubicle. An "A" 4KV Bus electrical fault occurred resulting in the following breakers tripping OPEN: o Main Generator Exciter Breaker o Both Main Generator Output Breakers o 4KV Bus "A" Feeder Breakers from USST and SSST. Based on these plant conditions, which of the following procedures have valid required entry conditions within three (3) minutes after the Bus "A" fault occurred? (assume all systems function as designed)  

: 1. E-O, "Reactor Trip or Safety Injection".  

: 2. AOP 1.26.1, "Turbine and Generator Trip". 3. AOP 1.36.2, "Loss of 4KV Emergency Bus". 4. AOP 1.30.2, "River Water/Normal Intake Structure Loss". A. 1 ONLY. B. 3 &4 ONLY. C. 1, 2, 3, &4. D. 2,3, & 4 ONLY. Answer: D Explanation/Justification: Incorrect.

The candidate must recognize that a Loss of the "A" RCP (Bus 1A) will NOT result in a reactor trip since the reactor is < P-8 (30%). Also the stem of the question notes that "S" MFP is running to dispel a challenge that a loss of main feedwater occurred due to a loss of the "B" MFP. This is a plausible distractor and would be a correct choice if the reactor were:> 30% power. A reactor trip is NOT required for these conditions since none has occurred and no valid entry conditions have been met. Incorrect.

Both choices are correct. however. AOP 1.26.1 will also have valid entry conditions (refer to correct answer). Plausible because candidate may either not recognize a turbine trip occurred or may think it is not applicable since we are < p-g (49% reactor Incorrect.

Incorrect that E-O is required. (refer to correct answer and A distractor explanations for why other choices are correct). Correct. A Loss of 1 AE Bus will occur with No.1 EDG on clearance and a loss of offsite power source available to 4160 Bus A. With no power to the AE Bus entry conditions will be met for AOP 1.36.2. Since a turbine trip will occur due the nature of the electrical fault which opened both main generator breakers and exciter output breakers entry conditions for AOP 1.26.1 are met. Since the "B" RW pump was placed in PTL and a Loss of the AE Bus occurred, there is no power to the "A" Train River Water Pump which results in a Loss of River (Service)

Water. Entry conditions for AOP 1.30.2 are met. Entry conditions to procedures are RO level knowl13dge.

Furthermore the majority of the referenced procedures have immediate operator actions which are also required RO knowledge.

Sys# System Category KA Statement 062 Loss of Nuclear Service Water NlA Ability to recognize abnormal indications for system operating parameters that are entry conditions for emergency and abnormal operating procedures.

KIM KIA Importance Exam Level RO 4.5 References provided to Candidate Technic,al  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 17. Given the following plant conditions: The plant is operating at 95% power with all systems in NSA. Turbine Controls is selected to 1 st Stag Ie IN. Valve Position Limiter is set 5% above Governor Valve Position. DLC System Operations Control Center reports that disturbances have resulted in degraded grid frequency and voltage. The Control Room Team has entered ,L\OP %.35.1, "Degraded Grid". Given these conditions, which ONE of the following describes the relationship degraded grid 'frequency/voltage and reactor As grid frequency/voltage continues to drop, mactor power will __ (1) __An automatic reactor trip will occur if 2/3 Reactor Coolant Pump (RCP) 4KV Bus drop to __ (2) __A. (1) increase (2) 57.5 Hz B. (1) increase (2) 58.5 Hz C. (1) be unaffected (2) 57.5 Hz D. (1) be unaffected (2) 58.5 Hz Answer: A Explanation/Justification: Correct. Step 6 of AOP AOP Y2.35.1 requires reactor power maintained at <1= 100% and directs a power reduction if power> 100%. As grid frequency/voltage drops, the power requirement increases which will result in increasing reactor power. An automatic reactor trip will occur if 2/3 RCP 4KV Bus frequencies drop to 57.5 Hz. With the Main Turbine in 1 st Stage IN, as grid frequency drops, the increased steam demand will result in a drop in 1st stage pressure which will open governor valves to compensate for the load increase.

This in turn will drop RCS Temperature adding positive reactivity which will increase reactor power. Incorrect.

Incorrect automatic reactor trip value. Correct reactor power *iffect on decreasing frequency/voltage. Incorrect.

Incorrect that reactor power will be unaffected.

Correct automatic reactor trip value. Incorrect.

Incorrect that reactor power will be unaffected.

Incorrect automatic reactor trip value. Sys # System Category KA Statement Generator Voltage and Knowledge of the interrelations tJ,3tween Generator Reactor power Electric Grid Disturbances Voltage and Electric Grid Disturbances and the following:

KIM AK2.06 KIA Importance 3.9 Exam Level RO References provided to Candidate None Technical  

077 Beaver Valley Unit 1 NRC Written Exam (1LOT8) 18. Given the following plant conditions:

What system AND parameter will be used in ECA-1.2 to interpret whether break isolation has occurred? PARAMETER A. Safety RCS Pressure B. Chemical and Volume Control RCS Pressure C. Safety Spent Fuel Pool Area Radiation Level D. Chemical and Volume Control Spent Fuel Pool Area Radiation Level Answer: A Explanation/Justification: Correct. ECA-1.2 checks only the Low Head Safety Injection flowpath for proper valve alignment and also to determine if the source has been isolated.

RCS Pressure is used as the determining parameter to ensure the break is isolated.

The operating behavior characteristics of the facility is that a potential exists for RWST inventory to be lost to the Aux Building for a LOCA that occurs outside containment in the LHSI system piping. Incorrect.

CVCS is a plausible system since it interconnects with the RCS and extends outside containment.

RCS pressure is the Incorrect.

Correct system. ECA-1.2 does check Aux Bldg and Safeguanjs Area radiation monitors which makes radiation levels a plausible distractor.

Spent Fuel area radiation level is monitored independently of PAB and Safeguards radiation monitors. Incorrect.

Incorrect system and parameter.

Distractor provides a good balance between other distractors and correct answer. Sys # System Category KA Statement W/E04 LOCA Outside Containment Ability to operate and lor monitor the following as they Operating behavior characteristics of the apply to the (LOCA Outside Containment) facility.

KIA#. EA1.2 KIA Importance 3.6 Exam Level RO References provided to Technical  

lOM-53A.1.ECA-1.2, Issue 1C, Rev. 1, pg. 3 1 OM-53B.4.ECA-1.2, Issue 1 C, Rev. 1, pg. 5 & 6 Question Source: Bank Vision # 82016 (2LOT7 NRC -0#16) Question Cognitive Level: Lower _ Memory or Fundamental 10 CFR Part 55 Content: (CFR41.7 145,.51 45.6) Objective:

3SQS-53.5  

: 7. Apply the actions to isolate a loss of coolant outside of containment.

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 19. Given the following plant conditions and sequence of events:

* The Unit is at 100% power with all systlsms NSA. Pressurizer Level AUTO/MAN Control1E3r fails as is.

* The plant is then reduced to 50% pow*:r at 3%/min.

* Assume NO operator action is taken, related to the failure. Which ONE of the following describes how Charging Flow AND Programmed PRZR Level will indicate at 50% as compared to 100% power? [FI-1CH-122], Charging Flow will  

[LR-1 RC-459], PROGRAM PRZR Level will be A. (1) lower (2) lower B. (1) the same (2) higher C. (1) the same (2) lower D. (1) the same (2) the same Answer: C Explanation/Justification: Incorrect.

These indications are indicative of L T -1 RC-459 failed in the as is position. Incorrect.

These indications are indicative of plausible candidate misconceptions related to actual vs. programmed PRZR level and Correct. If the PRZR Level controller fails as is and a load reduction occurred, then the input to FCV-1CH-122 will not change. Therefore 122 indicated flow will remain the same. Since a power reduction results in a Tavg decrease, then Program Level as indicated on LR-RC459 will drop to correlate with the PRZR Level Program. Program level is impacted by power reduction not the failure of LC-459G. Incorrect.

Correct that charging flow will remain the same. If the candidate does not understand the implication of power reduction and associated Tavg decrease, it is plausible that actual versus program PRZR would remain the same since charging flow has not changed. Sys# System Category KA Statement 028 Pressurizer Level Malfunction Knowledge of the interrelations between the Pressurizer Sensors and detectors.

KiA# AK2.02 KiA Importance 2.6 Exam Level RO References provided to Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 20. Given the following plant conditions: The Unit is operating at 70% power when air leakage into the condenser resulted in a rising condenser backpressure. The Control Room Team is performing actions of AOP-1.26.2, "Loss of Condenser Vacuum". Concurrently, a load reduction is initiated at a rate of 5%/min in accordance with 1.51.1, "Unplanned Power Reduction". Five minutes after the load reduction was commenced, condenser backpressure has risen to 5.5 IN HG-ABS. Ten minutes after the load reduction was commenced, condenser backpressure has risen to 6 IN HG-ABS and continues to slowly rise. Which ONE of the following will be the REQUIRED action according to AOP-1.26.2, "Loss of Condenser Vacuum"? (Reference Provided) Immediately trip the reactor and go to E-O, "Reactor Trip or Safety Injection". Trip the reactor if condenser vacuum approaches C-9 setpoint and go to E-O, "Reactor Trip or Safety Injection". Immediately trip the turbine and go to AOP 1.26.1, "Turbine and Generator Trip". Trip the turbine if condenser vacuum approaches C-9 setpoint and go to AOP 1.26.1, "Turbine and Generator Trip". Answer: C Explanation/Justification: Incorrect.

: 6. Given a set of conditions, apply the correct AOP.

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 21. Given the following plant conditions and sequence of events:

* The Unit is operating at 100% Power with all systems in NSA. Chemistry reports High RCS Activity to the Control Room.

* The BOP is requested to determine if Adverse Containment radiation conditions exist. Which ONE of the following Radiation Monitor indications will be used by the BOP to determine Adverse Containment Radiation conditions?

A. RIS-1 RM-201, "Reactor Containment High Range Area Monitor".

B. RIS-1 RM-204, "Incore Instrument Transfer Device Area Monitor".

C. RIS-1CH-101A, "Reactor Coolant Letdown High Range Monitor".

D. RIS-1 RM-219A, "Containment High Range An3a Monitor".

Answer: D Explanation/Justification: Incorrect.

RM*1 RM*201 functions to provide local and control room indication of reactor containment area activity.

RM*1 RM*201 is an Ion Chamber detector and is more accurate at the mid to high radiation levels. The log scale for this meter is .1 to 1 E7 mr/hr. This falls short of the 1 E5 r/hr dose necessary to detect adverse containment conditions due to the limitations of its detector.

PlaUSible because it is used in AOP 1.S.S. Incorrect.

RM*1 RM*204 functions to provide local and control room indiGation of increased radiation levels during accident conditions, RM*1 RM* 204 is a Geiger*Muelier detector which functions to detect gamma radiation.

The log scale for this meter is .1 to 1 E4 mr/hr. This falls short of the 1 ES rlhr dose necessary to detect adverse containment conditions due to the limitations of its detector.

Plausible because it is used in AOP 1.S.S. Incorrect.

RM*1CH*101A functions to provide local and control room indication of RCS letdown line high activity.

RM*1CH*1 01A is a scintillation detector.

The meter indications range from 10 t01 ES CPM. This monitor although plausible because it is used in AOP 1.S.S is to indicating CPM versus containment radiation so therefore will not be used to determine adverse containment radiation Correct. RM*1 RM*219A functions to provide area monitoring of the containment for accident monitoring and provides alarms and indications the control room. The range of its ion chamber detector is 1 to 1 E7 R/hr which makes it ideal for monitoring containment radiation Sys# System Category KA Statement 061 ARM System Alarms Knowledge of the operational implications of the following concepts as Detector limitations they apply to Area Radiation Monitoring (ARM) System Alarms: KIM AK.01 KIA Importance 2.S IExam Level RO References provided to None Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 22. Given the following plant conditions:

The major concern to Fire Brigade personnel entering the East Cable Vault is (1) due to (2) used to automatically extinguish the fire in this area. A. (1) asphyxiation from displacement of oxygen (2) Halon and C02 B. (1) flooding and subsequent electrocution (2) C02 and Water C. (1) asphyxiation from displacement of oxygen (2) C02 ONLY D. (1) flooding and subsequent electrocution (2) Water ONLY Answer: C Explanation/Justification: Incorrect.

Correct that asphyxiation is a major concern. Incorrect that halon is used in this space (refer to COfrect answer). Incorrect.

Water is not used in the East Cable Vault as part of any autornatic suppression fire fighting systems and therefore flooding is not a major concern. Correct. The candidate must know that C02 is the fire fighting agent uSl3d in the East Cable Vault to automatically distinguish fires. Water or Halon are NOT used in this area. The operational implications of a serious fire in the East Cable Vault is that CO2 is a major concern when entering this space due to the safety hazards it may cause (ie: cardiac arrest or nervous system effects). Incorrect.

Water is not used in the East Cable Vault as part of any autornatic suppression fire fighting systems and therefore flooding is not a major concern. Plausible that water is used as a fire extinguishing agent and flooding would then become a concern. S18 # System Category KA Statement 067 Plant Fire On-site Knowledge of the operational implications of the following Fire fighting concepts as they apply to Plant Fire on site: KIM AK1.02 KIA Importance 3.1 Exam Level RO References provided to Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 23. Given the following plant conditions: A major uncontrolled fire in the Control Room has resulted in control room evacuation. The Control Room Team is implementing 10M-S6C, "Alternate Safe Shutdown from Outside the Control Room". What is the reason for system alignment and maintaining Pressurizer Level during cooldown to Cold Shutdown according to 10M-S6C series procedures?

System alignment to maintain Pressurizer Level between 20% -70% will be to _____ A. maintain RCS inventory ONLY. B. maintain RCS inventory AND shutdown margin. C. ensure auto letdown isolation does not occur ONLY. D. ensure auto letdown isolation does not occur AND to maintain shutdown margin. Answer: B Explanation/Justification: Incorrect.

It is plausible and partially correct that PRZR level is maintained to maintain RCS inventory.

SID margin is also maintained by using a charging pump taking suction from the RWST during these plant conditions lAW 10M-S6GA.B. Correct. A charging pump is used for both maintaining RCS inventory as well as providing borated water from the RWST after realignment to help maintain adequate SID margin. PRZR heaters are not related to maintaining PRZR level but rather RCS pressure control so therefore are not included as part of answering the KIA. According to 10M*S6CA.B, PRZR Level is maintained 20% to 70%. This is a higher cognitive question because the intent and methodology of 10M-56CA.AlB must be known and is specific to evaluating this set of plant conditions. Incorrect.

Plausible that PRZR is maintained>

14% to ensure UD isolation does not occur, however, the overall purpose of this procedure is perform safe shutdown without the letdown system. Letdown isolation is time critical and manually occurs prior to control room evacuation.

Procedurally it is allowable to initiate head vent letdown if required which has no auto letdown isolation features. Incorrect.

Incorrect that PRZR level is maintained to ensure auto UD iscllation does not o(:cur. Correct that PRZR level is maintained using charging pump aligned to the RWST for SID margin Sys# System Category KA Statement 068 Control Room Evacuation Knowledge of the reasons for the following responses as Maintenance of PZR level, using charging they apply to the Control Room Evacuation:

pumps and heaters. KIM AK3.10 KIA Importance 3.9 I::xam Level AO References provided to Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 24. Given the following plant conditions and seqw:mce of events: The Plant was operating at 100% power with all systems in NSA. A Main Steam Line Break occurred inside containment. All systems functioned as designed. The Control Room Team is now performing actions of FR-P.1, "Response to Imminent Pressurized Thermal Shock Condition". They have determined an Res Temperature Soak is required.

A. Energize Pressurizer Heaters. B. Place Auxiliary Spray in service. C. Place RHR in service with flow through MOV-1 RH-758. D. Raise NR S/G water levels to 70% and secure AFW pumps. Answer: B Explanation/Justification: Incorrect.

Energizing PRZR heaters will raise RCS pressure which is not allowed during soak. Correct. During RCS soak, FR*P.1 directs that cooldown in the RCS will not occur until temperature has been stable for 1 hour. RCS pressure is not to be raised during this period of time. Actions of other procedures may be performed provided that actions do not cooldown or raise pressure until the soak has been completed.

Placing Aux Spray in service will lower RCS pressure which is allowable. Incorrect.

Placing RHR in service and allowing flow through MOV-1 RH-758 will result in an ReS cooldown which is not allowed during soak. Incorrect.

Feeding S/Gs will result in ReS cooldown which is not allowed during soak. Sys# System Category KA Statement W/E08 RCS Overcooling  

-PTS Ability to operate and / or monitor the following as Components and functions of control and safety they apply to the (Pressurized Thermal Shock): systems, including instrumentation, signals, interlocks, failure modes, and automatic and manual features.

KiAl KiA Importance Exam Level EA1.1 3.8 RO References provided to Candidate None Technical 10M-53A.1.FR-P.1, Issue 1C, Rev. 7, pg. 17 Referelnces:

10M-53B.4.FR-P.1, Issue 1e, Rev. 7, pg. 50 Question Source: Bank Vision # 12985 Question Cognitive Level: Higher -Comprehension or Analysis 10 CFR Part 55 Content: (CFR: 41.7/ 45.51 45.6) Objective:

3S0S-53.3  

: 2. Describe from memory the overall purpose of each procedure, lAW BVPS-EOP Executive Volume. 3. State from memory the basis and sequence for the major actions steps of each EOP, lAW BVPS*EOP Executive Volume.

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 25. Given the following plant conditions: The Control Room Team has just transitioned to ES-0.3. "Natural Circulation Cooldown With Steam Void in Vessel (With RVLlS)" due to increased cooldown rate. Pressurizer and Steamline Safety Injection (SI) signals are blocked. RCS temperature is 500 Of. Letdown is in service. Due to mis-operation of PRZR heaters, RCS pressure has risen to 2025 psig. Which ONE of the following is the minimum required action(s) to restore PRZR pressure to 1800 psig? Use _ (1) _ PRZR Spray to reduce PRZR pressure to (2) A. (1) Normal (2) 1800 psig B. (1) Auxiliary (2) 1800 psig C. (1) Normal 1950 psig. block PRZR &51 signals, then reduce pressure to 1800 psig D. (1) Auxiliary 1950 psig, block PRZR & 51 signals, then reduce pressure to 1800 psig Answer: D Explanation/Justification: Incorrect.

Normal spray is unavailable since RCPs are secured in ES-0.3. SI would initiate if PRZR pressure were reduced directly to 1800 psig. Incorrect.

Correct that auxiliary spray is used to depressurize.

SI would initiate if PRZR pressure were reduced directly to 1800 psig. Incorrect.

Normal spray is unavailable since RCPs are secured in ES-0.3. The reblocking sequence is correct. Correct. SI is blocked in ES-0.2 and a cooldown rate of < 25 F/hr is established in ES-0.2. Since the cooldown rate is exceeded, the potential for head void formation exists and transition to ES-0.3 is required.

The caution from ES-0.2 still applies upon transition to ES-0.3. The SI system is designed to automatically unblock if PRZR pressure increases above 2000 psig (P-11). A subsequent drop in RCS pressure below the SI setpoint 1845 psig before manually reblocking the SI signal will result in an SI which is undesirable in ES-0.3. Sys# System Category KA Statement W/E10 Natural Circulation with Knowledge of the interrelations between the (Natural Components and functions of control and safety Steam Void in Vessel Circulation with Steam Void in VessEll withlwithout systems, including instrumentation, signals, withlwithout RVUS RVUS) and the following:

interlocks, failure modes, and automatic and manual features.

Kf A# EK2.1 Kf A Importance 3.3 Exam Level RO References provided to Candidate None Technical  

Beaver Valley Unit 1 NBC Written Exam (1LOTS) 26. Given the following plant conditions: Unit 1 has experienced a Loss of Coolant Accident (LOCA). Containment pressure initially peaked at 47 psig.

* While monitoring Critical Safety Functions, containment pressure is currently 15 psig. NO Quench Spray Pumps are operating. Containment Sump Level has been slowly rising and is currently 65 inches. Based on these conditions, which ONE of the following identifies the status of the Containment Critical Safety Function (CSF) Status Tree? A RED path condition CURRENTLY (1) __exist for __ (2) __. A. (1) does (2) containment pressure ONLY. B. (1) does (2) containment sump level ONLY. C. (1) does (2) containment pressure AND containment sump level. D. (1) does NOT (2) either containment pressure OR containment sump level. Answer: D ExplanationfJustification: Incorrect.

An orange versus red path exist for containment pressure based on no quench spray pumps running and containment pressure > psig. It is plausible that a candidate may select this choice based on exceeding 45 psig which is a red path condition, however, the CSFST only if pressure is < 45 Incorrect.

Incorrect that a red path exists. Containment sump level would need to be> 81 inches and this would be an orange path condition. Incorrect.

No red path condition exists for either a containment high pressure or level condition.

Plausible if candidate does not determine plant conditions or know from memory CSFST Red paths which are required RO knowledge at Correct. According to Containment CSFST (F-O.5), no red path condition exists for either a containment high pressure or level Validators had misconceptions that the Red path is not applicable when RCS pressure is < 45 psig even though it had previously exceeded threshold.

Containment pressure is > 11 psig and with no Ouench Spray pumps this is an Orange path versus red path Sys# System Category KA Statement W/E14 High Containment Pressure Ability to determine and interpret the following as they Facility conditions and selection of appropriate apply to the (High Containment Pressure):

procedures during abnormal and emergency conditions.

KlAI EA2.1 KIA Importance 3.3 Exam Level RO References provided to Technical  

Beaver Valley Unit 1 NBC Written Exam (1LOTS) 27. Given the following plant conditions: A Large Break LOCA occurred. An ORANGE path has developed on the Containment CSF Status Tree due to an abnormal rise in containment sump level. The Control Room Team transitions to FR-Z.2, "Response to Containment Flooding".

The source of the abnormally high containment sump level is (1) The desired operating outcome of this procedure is to (2) __A. (1) Safety Injection (2) isolate the source of leakage. B. (1) Safety Injection and Component Cooling Water (2) verify containment isolation and heat removal. C. (1) River Water (2) isolate the source of leakage. D. (1) River Water and Component Cooling Water (2) verify containment isolation and heat removal. Answer: C Explanation/Justification: Incorrect.

High containment sump water level greater than the design flood level provides an indication that water volumes other than represented by the emergency stored water sources have been introduced into the containment sump (ie: RWST, SI Accumulators and Correct desired outcome (refer to correct answer Incorrect.

Incorrect sources. Incorrect desired operating outcome, although plausible since this is the correct outcome of FR-Z.1 versus FR-Z.2. Correct. Fire protection or River Water penetrate containment and could provide large flow rates to components inside the containment and major break or leak in one of those lines could introduce large quantities of water into the sump. The first action in FR-Z.2 is to try to identify source of water which is causing containment flooding and isolate Incorrect.

Correct sources. Incorrect desired outcome. Sys # System Category KA Statement W/E15 Containment Flooding Ability to operate and/or monitor the following as they Desired operating results during abnormal and apply to the (Containment Flooding):

emergency situations.

KlA# EA1.3 KIA Importance 2.8 Exam Level RO References provided to Candidate Technical  

Beaver Valley Unit 1 NRC Written Exam (lLOTS) 28. Given the following plant conditions and seqwmce of events: A Load reduction is in progress at 1 % per minute. Reactor power is 22% and preparations are being made to take the turbine off-line.

* The 1 B Reactor Coolant Pump (RCP) unexpectedly trips. No operator actions have been taken and the plant responds as designed.

Which ONE of the following will be the INITIAL effects of the RCP shutdown? 1 B S/G Steam Flow will 1 B S/G Pressure will A. (1) decrease (2) decrease B. (1) increase (2) decrease C. (1) decrease (2) increase D. (1) increase (2) remain the same Answer: A Explanation/Justification:  

(1 ) (2) __ Correct. A loss of a single RCP below p-a will NOT result in a reactor trip. The immediate effects of the tripped RCP in the effected loop is a decrease in steam flow (other two loops pick up flow). SIG pressure will drop since loop Tavg is lower. Incorrect.

Correct steam pressure response.

Opposite Steam Flow Response.

Steam flow will drop in effected loop but will increase in unaffected loops. Incorrect.

Correct that steam flow decreases.

S/G pressure drops versus increases. Incorrect.

All parameter responses are incorrect.

Plausible if the candidate does not understand RCP trip effects on these parameters.

515# System Category 003 Reactor Coolant Knowledge of the operational implications of the following Pump concepts as they apply to the RepS: KlA# K5.04 KIA Importance 3.2 Exam Level None References provided to Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 29. Given the following plant conditions:

* A Loss of Vital Bus I occurs. Which ONE of the following identifies how a Loss of Vital Bus I will impact the specified CVCS components from the control room? [FCV-1CH-122], "Chg Flow to Regen HX Inlet Control Valve" will __ The CVCS Blender will __ A. (1) CLOSE (2) be affected B. (1) CLOSE. (2) NOT be affected C. (1) remain OPEN (2) be affected D. (1) remain OPEN (2) NOT be affected Answer: C Explanation/Justification: Incorrect.

FCV*1CH-122 is affected by a 125VDC Bus 1 loss not a Loss of Vital Bus I, so therefore will not close. Correct that the blender Incorrect.

FCV-1CH-122 is affected by a 125VOC Bus 1 loss not a Loss of Vital Bus I, so therefore will not close. Incorrect the blender is affected. Correct. FCV-1 CH-122 will not be impacted from the MCB, so therefore remains in its open position The Loss of Vital Bus I does impact control of this valve from the SOP but not the control room. The Blender is rendered OOS by the loss of Vital Bus Incorrect.

Correct FCV-1 CH-122 will remain open. The blender will be OOS and therefore is affected by this control power loss. Sys# System Category KA Statement 004 Chemical and Volume Control Knowledge of bus power supplies to the following:

Control instrumentation.

KlA# K2.06 KIA Importance 2.6 Exam Level RO References provided to Candidate Technical  

Beaver Valley Unit 1 NRC Written Exam (lLOT8) 30. Given the following plant conditions:

* The Unit is in Mode 4, cooling down for refueling. Residual Heat Removal (RHR) Pump "A" and Heat Exchanger (HX) are in service. [MOV-1 RH-605], RHR HX BYPASS FCV is in AUTO maintaining 4000 gpm. [MOV-1 RH-758], RHR HX FCV is throttled from 50 % to 60% OPEN. No other operator adjustments are made and all systems function as designed.

Which ONE of the following describes the effect on RHR temperature and RHR flow (3) three minutes after [MOV-1 RH-758] is throttled OPEN? [TR-1 RH-604], "RHR LOOP RETURN TEMP (Green Pen)" will be __ (1) __[FI-1 RH-605], "RHR FLOW" will be _ A. (1) HIGHER (2) LOWER B. (1) LOWER (2) HIGHER C. (1) LOWER (2) THE SAME D. (1) HIGHER (2) THE SAME Answer: C Explanation/Justification: Incorrect.

Incorrect opposite effect on RHR temperature.

Plausible that less system flow would cause higher temperatures if the candidate has misconception of system Incorrect.

Correct effect on RHR temperature.

Plausible that more system flow would cause lower temperatures if the candidate has misconception of system Correct. If MOV-1RH-758 is opened, more flow will be directed through the RHR HX. MOV-1RH-605 in automatic will close to maintain flowrate at 4000 gpm. The effect on RHR temperature is a lower temperature due to more flow through the HX and less flow through the FCV. As a general practice BVPS does not use nitrogen any longer for maintaining a blanket in the PRZR and it is not used in the RHR Incorrect.

Correct RHR flow effect. Plausible that if the candidate has system misconceptions that they might believe that this adjustment cause temperature is increase.

This is opposite of the correct Sys # System Category KA Statement Residual Heat Removal Ability to manually operate and/or monitor in the control room: RHR Temperature, PZR heaters and flow, and nitrogen.

KJM A4.03 KJA Importance 2.8 Exam Level RO References provided to Candidate Technical  

005 Beaver Valley Unit 1 NAtC Written Exam (1LOT8) 31. Given the following plant conditions and sequence of events:

* A Large Break LOCA occurs and all equipment functions as designed except: o Low Head Safety Injection Pump [1 SI-P-1 AJ trips on overcurrent.

BEFORE transfer to cold leg recirculation there will be ... (1) _ Low Head SI flow. AFTER transfer to cold leg recirculation there will be Low Head SI flow available to _ (2) A. (1) 6000 gpm (2) NO High Head SI pump. B. (1) 6000 gpm (2) ONE High Head SI pump. C. (1) 3000 gpm (2) NO High Head SI pump. D. (1) 3000 gpm (2) ONE High Head SI pump. Answer: C explanation/Justification: Incorrect.

Incorrect that there is 6000 gpm flow. Plausible because this is the flow for two Low Head 81 pumps. Correct that only one HH81 pump receives flow. Incorrect.

Incorrect flow. Incorrect that only one HHSI pump receives flow, although plausible, if flowpath is not understood. Correct. A loss of a Loss of "A" LHSI pump will reduce the capacity of LHSI flow on a L8LOCA by half. Each pump is rated at 3000 gpm, so therefore with only the "8" LHSI pump running there is 3000 gpm flow. The candidate must also know how ECCS realigns on transfer to Cold Leg Recirculation as well as the specific impact of MOV-181-8638 not repositioning.

If MOV-1 SI-8638 does not reposition, then 81-P-1B will not have a discharge flowpath to either High Head 81 Pump suction. Incorrect.

Correct flow. Incorrect that there will be flow to one high head SI pump, if flowpath is not understood.

Sys # System Category KA Statement 006 Emergency Core Cooling Knowledge of the effect of a loss or malfunction on the Pumps following will have on the ECCS: KI A# KS.13 KIA Importance 2.8 Exam Level RO References provided to Candidate None 'Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 32. Given the following plant conditions:

* RCS pressure is 1925 psig and slowly LOWERING.  

* "A" Charging Pump [1CH-P-1A]

is RUNNING. * "B" Charging Pump [1 CH-P-1 B] is in STANDBY.

A. Initiate SI and continue in ES-0.1, "Reactor Trip Response".

B. Initiate SI and return to E-O, "Reactor Trip or Safety Injection".

C. Start SI pumps as required to maintain PRZR level and return to E-O. D. Start SI pumps as required to maintain PRZR level and continue in ES-0.1. Answer: B Explanation/Justification: Incorrect.

Correct action but incorrect procedure.

The candidate must understand that to be in ES-O.l a prerequisite is that no 51 has occurred. Correct. PRZR level is lowering and with charging maximized and letdown isolated the candidate must deduce that PRZR level cannot maintained PRZR level> 4%. Procedurally this requires SI actuation and entry into E-O. The RO candidate must recognize these conditions are abnormal and EOP E-O entry is required. Incorrect.

Would only start HH51 pumps as needed if the crew was in a reduction or SI termination sequence.

Since it has not been initiated this action is inappropriate.

Correct procedure transition to E-O. Incorrect.

Plausible that another charging pump (High Head SI Pump) is started to maintain PRZR level, however, not procedurally correct letdown is isolated and charging flow is Sys# System Category KA Statement 006 Emergency Core Cooling N/A Ability to recognize abnormal indications for system operating parameters that are entry level conditions for emergency and abnormal operating procedures.

KlAtt 2.4.4 KIA Importance 4.5 Exam Level RO References provided to Candidate None Technical  

Beaver Valley Unit 1 NRC Written Exam (1l0T8) 33. Given the following plant conditions:

* The reactor automatically tripped on Low PRZR pressure. PI-1 RC-472, "Pressurizer Relief Tank Pressure" indicates 35 psig.

* The RO suspects a PORV inadvertently opened and is now stuck OPEN. Which ONE of the following indications will confirm if a PORV is stuck partially OPEN? The PORV relief line temperature stabilized at PRZR Safety Relief line temperatures (2) __A. (1) 260 OF (2) are slowly RISING. B. (1) 281&deg;F (2) are slowly RISING. C. (1) 260 OF (2) indicate ambient and are STABLE. D. (1) 281 Of (2) indicate ambient and are STABLE. Answer: B Explanation/Justification: Incorrect.

Incorrect value. 260 F is approximately the saturation temperature for 35 psia. Plausible if the candidate does not properly apply steam tables. Correct safety relief line Correct. 281 F is the saturation temperature corresponding to 50 psia (35 psig) PRT pressure.

Safety Relief lines share a common discharge line to the PRTwith the PORVs so therefore will also be rising. Incorrect.

Incorrect value as previously explained.

Incorrect safety relief line temperature trend (refer to correct answer) Plausible if the candidate does not know the system flowpath and design. Incorrect.

Correct value. Incorrect safety relief line temperature trend (mfer to correct answer) Sys # System Category KA Statement 007 Pressurizer Relief/Quench Tank Ability to manually operate and/or monitor in the Recognition of leaking PORV/code safety control room: KlA# A4.10 KIA Importance 3.6 Exam Level RO References provided to candidate Steam Tables Technical Steam Tables Op Manual Figure 6*2 Question Source: Bank -Vision # 45680 Question Cognitive Level: Higher Comprehension or Analysis 10 CFR Part 55 Content: (CFR: 41.7/45.5 to 45.8) Objective:

1 20. Given a change in plant conditions due to system or component failure. analyze the PRZR and PRZR Relief System to determine what failure has occurred.

Beaver Valley Unit 1 NRC Written Exam (1l0T8) 34. Given the following plant conditions:

* Unit 1 is operating at full power with all systems in NSA. * [1 CC-P-1 Al, "A" CCR Pump is operating.

Which ONE of the following describes the status of the following CCR components?  

[1 CC-P-1 Al, "A" CCR Pump will be __ (1) [TV-1CC-133-2], "Sample Clrs CCR Outlet Isol Vlv" will ___ (1) TRIPPED (2) CLOSED (1) RUNNING (2) CLOSED (1) TRIPPED (2) OPEN (1) RUNNING (2) OPEN Answer: B Explanation/Justification: Incorrect.

Correct that TV*1CC*133*2 is closed. Incorrect status of "AM CCR pump. This would be the condition of the pump if CIB were to occur. Correct. "AU CCR pump will remain running on an SI signal. An inadvertent 81 signal will result in a CIA signal. TV*1CC*133*2 will close on a CIA signal. Incorrect.

Incorrect status of both"N CCR pump and TV*1CC*133*2.

These are the exact opposite of the correct status. Incorrect.

Correct status of "A" CCR pump. Incorrect status of TV* 1 CC**133*2.

Plausible if the candidate does not know 81 signal auto actions. Sys# System category KA Statement DOS Component Cooling Water Ability to monitor automatic operation of the CCW8, Automatic actions associated with the CCWS that including:

KlA# A3.0S KIA Importance  

===3.6 References===

Beaver Valley Unit 1 NRC Written Exam (1LOTS) 35. Given the following plant conditions:

* The Unit is at 100% power with all systems in NSA. Reactor Coolant System (RCS) Pressure is 2235 psig and STABLE. RCS Temperature is 578 Of and STABLE. PT-1 RC-444, "Pressurizer Control Channel", fails LOW. With no operator action, which ONE of the following describes the effect on the PRZR pressure control system, ONE (1) minute following the failure? A. TWO PRZR PORVs will be OPEN. B. ONE PRZR PORV and BOTH PRZR Spray Valves will be OPEN. C. PRZR B/U heaters will be ON and BOTH PRZR Spray Valves will be CLOSED. D. PRZR B/U heaters and BOTH PRZR Spray Valves will remain in their NSA positions.

Answer: C Explanation/Justification: Incorrect.

These indications are indicative of PT-1 RC-445 failing in the high direction.

Also, Actual PRZR pressure will rise due to PRZR heaters being energized without spray flow. With no operator action it is plausible that PORV's will open however, they will not open one minute following this failure. Incorrect.

These indications are indicative of PT-1 RC-444 failing in the high direction.

Atthough one PORV will not lift within one minute, with operator action, one PORV will eventually lift to relieve PRZR pressure.

It is not correct that the spray valves will Correct. The result of PT-1 RC-444 failing low is BOTH PRZR spray valves will be closed and PRZR heaters will be ON. Incorrect.

These indications are indicative of PT-l RC-445 failing in the low direction as opposed to PT-1 RC-444. Sys # System Category KA Statement 010 Pressurizer Pressure Knowledge of the effect of a loss or malfunction of the Pressure detection systems. Control System (PZR PCS) following will have on PZR PCS: KIM KG.Ol KIA Importance 2.7 Exam Level RO References provided to Candidate 'rechnical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 36. Given the following plant conditions: The plant was operating at full power when a Steam Generator Tube Rupture occurred. The Control Room Team is implementing E-3, "Steam Generator Tube Rupture". The RCS has been cooled to 500 Of in preparation for equalizing RCS pressure with the ruptured S/G pressure. The US directs you to depressurize the RCS while maintaining a minimum of 20 of subcooling.

A. (1) -798 psig (2) unreliable PRZR level indication ONLY. B. (1) -827 psig (2) unreliable PRZR level indication ONLY. C. (1) -798 psig (2) unreliable PRZR level indication AND delayed SI termination.

D. (1) -827 psig (2) unreliable PRZR level indication AND delayed SI Answer: C Explanation/Justification: Incorrect.

Correct RCS pressure value (refer to correct answer explanation).

Unreliable PRZR level indication is not the only potential operational implication iaw background document if RCS subcooling requirement is violated. Incorrect.

Plausible if candidate mistakenly adds 14.7 psi to the saturation pressure.

Potential operational implication is not complete. Correct. Saturation pressure for 520 "F is 812.53 psia minus 14.7 psi =797.83 psig. The PZR PCS is used to lower RCS pressure (ie: spray valve and PORV is opened). The operational implication of not properly using steam tables is potential violation of procedure guidance which could result in unreliable PRZR level indication and delayed SI termination due to RCS voiding which could occur. Incorrect.

Incorrect value. Correct operational implications.

Sys# System Category KA Statement 010 Pressurizer Pressure Knowledge of the operational implications of the follOWing Determination of condition of fluid in PZR, Control System (PZR PCS) concepts as they apply to the PZR PCS: using steam tables. KIM K5.01 KIA Importance 3.5 Exam Level RO References provided to Candidate Steam Tables Technical  

Steam Tables 10M*53A.1.E-3.

Issue lC, Rev. 14, pg 10, 16-17 lOM-53A.1.6-A, Issue lC, Rev. 0. pg 1 lOM-53B.4.E-3.

Issue 1C. Rev. 14, pg. 89 & 90 Question Source: New Question Cognitive Level: Higher Comprehension or Analysis 10 CFR Part 55 Content: (CFR: 41.5/45.7)

Objective:  

: 13. State from memory how significant RCS voiding may occur and how this can be mitigated, lAW BVPS EOP Executive Volume.

===3.7 IExam===

Level References provided to Candidate Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) Which ONE of the following is a designed DIF1IECT automatic start signal to [1 FW-P-2], Steam Driven Auxiliary Feedwater Pump? Containment Isolation "A" (CIA). Auto trip of the last running Main Feedwater Pump. 1/3 SIG NR level detectors LO-LO on 2/3 Steam Generators. 2/3 SIG NR level detectors LO-LO on 1/3 Steam Generators.

A. Incorrect.

Both electric and steam driven AFW pumps start on an SI signal. SI will actuate CIA however, this is not a direct signal. B. Incorrect.

This is an auto start for the electric AFW pumps. C. Incorrect.

The electric AFW pumps start on 213 10*10 NR levels from 213 S/Gs. D. Correct. According to references 1 FW*P*2 starts on a 21310*10 SIG level signals from a single S/G. Sys # System Category KA Statement 013 Engineered Safety Features Knowledge of the physical connections and/or cause effect AFW System. Actuation relationships between ESFAS and the following systems:

KIM K1.07 KIA Importance 4.1 Exam Level RO References provided to Candidate None Technical  

Beaver Valley Unit 1 NRC Written Exam (1LOT8) 39. Given the following plant conditions:

* The Unit is operating at Full Power with all systems in I\JSA. * [1VS-F-1AJ, "CNMT Air 1A Recirc Fan" is running. * [1VS-F-1B], "CNMT Air 1B Recirc Fan" is secured for maintenance.  

* [1 VS-F-1 C], "CNMT Air 1 C Recirc Fan" is running. * [1 VS-F-2C], "CRDM Shroud Fan" is to "B" Train.

* A Loss of Bus 1 P1 occurs.

Which ONE of the following describes the CURRENT status of [1 VS-F-1 NC] Containment Air Recirculation Fans? [1  

&#xa3;1VS-F-1CJ A. RUNNING B. NOT RUNNING C. NOT RUNNING NOT RUNNING D. NOT RUNNING RUNNING Answer: B Explanation/Justification: Incorrect.

Correct that 1 VS-F-1A is running. however. 1VS-F-1 C is tripped. Plausible because 1 VS-F-1 C can be selected to either power supply. Correct. 1VS-F-1A is powered from Bus 1 N1. 1VS-F-1B is powered from Bus 1 P1 and 1VS-F*1C can be powered from either 1 N1 or 1P1. In the stated plant conditions 1VS-F-1C is running. Since 1VS-F-1A is being supplied from 1 N1. NSA would dictate that 1VS-F-1C would be aligned to the 1 P1 bus to allow train separation.

If 1 P1 is lost then 1VS-F-1A will be the only running containment air recirc fan. To further clarify NSA. the question stem states that 1VS-F-2C is aligned to the B Train. Procedurally, 1VS-F-1C is aligned to the same Bus as 1VS-F-2C to ensure train separation. Incorrect.

Correct that 1VS-F-1 C is not running. Incorrect that 1 VS-F-1 A. is not running. Incorrect.

Opposite of the correct fan status. Sys # System Category KA Statement 022 Containment Cooling Knowledge of bus power supplies to the following:

Containment cooling fans. KJA# K2.01 KIA Importance 3.0 Exam Level RO References provided to Technical  

Beaver Valley Unit 1 NRC Written Exam (1 LOTS) 40. Given the following plant conditions:

* The Control Room Team is performing Step 5 of E-O, "Reactor Trip or Safety Injection". RCS pressure is 300 psig and slowly DROPPING.

* Containment pressure is 16 psig. RWST level is 37 feet and slowly DROPPING.

With no operator action containment pressure will be trending _ (1) _. lAW NOP-OP-1002, "Conduct of Operations" the required actions are to _ (2) _. A. (1) upward because no containment Quench Spray or Recirculation pumps are running. (2) obtain SRO approval and then start BOTH QS pumps. B. (1) downward because Inside Recirculation Spray pumps are running ONL V. (2) obtain SRO approval and then start BOTH QS pumps. C. (1) upward because no containment Quench Spray or Recirculation pumps are running. (2) start BOTH QS pumps and then inform SRO of the failures.

D. (1) downward because Inside AND Outside Rlecirculation Spray pumps are running. (2) start BOTH QS pumps and then inform SRO of the failures.

Answer: C Explanation/Justification: Incorrect.

Part 1 is correct. Part 2 is incorrect. (refer to correct answer explanation). Incorrect.

Part 1 incorrect, Plausible if the candidate does not know the auto start setpoin! (recently changed at BVPS such that they used to start after a time delay shortly after CIB actuation).

Part 2 is incorrect. Correct. With no operator action, containment pressure will continue to rise due to energy from LOCA being added to the containment with no heat sink. Recirc Spray pumps will not start until RWST level drops to 2'1.5 feet. Management expectations (operator fundamentals) lAW OP-1002 are that if an ESF component did not auto start as designed a manual attempt to start the component will be made by the operator.