{{#Wiki_filter:Davis Besse Proposed NRC RO Written Examination           Page 1 of 109 QUESTION # 001 The following plant conditions exist:

* RCS pressure is 250 psig

* Pressurizer temperature is 406 °F

* Quench Tank pressure is 80 psig

* Containment pressure is 14.7 psia

* The crew has just finished drawing a Pressurizer steam bubble.

* The Pressurizer Safety fails open and the Quench Tank rupture disc ruptures.

: a. ~212°F

: b. ~325°F

: c. ~345°F

: d. ~406°F ANSWER:

b.

Steam Tables Reference Provided to candidates: Steam Tables NEW HIGHER K/A: 000008K101: Knowledge of the operational implications of the following concepts as they apply to a Pressurizer Vapor Space Accident: Thermodynamics and flow characteristics of open or leaking valves Explanation/Justification:

Davis Besse Proposed NRC RO Written Examination               Page 2 of 109 QUESTION # 002 A small break loss of coolant accident has occurred.

ANSWER b.

NEW FUNDAMENTAL K/A: 000009K203:Knowledge of the interrelations between the small break LOCA and the following: SGs Explanation/Justification:

: a. Incorrect - Maintaining SG's available as a heat removal capability is required to ensure that Core cooling is provided if flow out the break is not sufficient.

: b. Correct per DB-OP-02000 Bases and Deviation Document Step 5.6 and 5.7. Maintaining SG's available as a heat removal capability will ensure that Core cooling is provided if flow out the break is not sufficient.

: c. Incorrect - Although the MSIVs will isolate Containment, without a break in the Steam Generator or Main Steam Line, Containment Integrity is not affected by the position of the MSIV.

: d. Incorrect - Although the condensed steam is returned to the reactor vessel, adequate RCS inventory requires HPI or LPI operation.

Davis Besse Proposed NRC RO Written Examination           Page 3 of 109 QUESTION # 003 A Large Break Loss of Coolant Accident occurred.

WITH Reactor Coolant System Pressure _________(2)__________.

: d. (1) 550 ºF (2) 600 psig ANSWER:

d.

DB-OP-02000 R26 Figure 2 NEW HIGHER K/A: 000011A210: Ability to determine or interpret the following as they apply to a Large Break LOCA:

Verification of adequate core cooling Explanation/Justification: ICC is normally determined using Figure 2 of DB-OP-02000 which labels the Temperature/Pressure relationships that represent ICC conditions. For this question, steam tables are provide. Candidate must demonstrate understanding of plant condition using the saturation curve.

: a. Incorrect -ICC is indicated by Superheated conditions. Values provided indicate subcooled conditions exist.

: b. Incorrect -. ICC is indicated by Superheated conditions. Values provided indicate saturated conditions exist. Candidate that assumes highest temperature is indicative of ICC would pick this combination.

: c. Incorrect - ICC is determined using Figure 2 of DB-OP-02000. ICC is indicated by Superheated conditions. Values provided indicate saturated conditions exist. .

: d. Correct - ICC is determined using Figure 2 of DB-OP-02000. ICC is indicated by Superheated conditions. Values provided indicate superheated conditions exist, ICC exists.

Davis Besse Proposed NRC RO Written Examination             Page 4 of 109 QUESTION # 004 The plant is operating at 100% power with all systems in normal alignment for this power level.

: a. MU59A, RCP 2-1 Seal Return Isolation Valves fails closed.

: b. Computer Point L828, 2-1 Motor Lower Bearing Low Oil Level Alarm with stable bearing temperatures.

: c. Computer Point T828, 2-1 Motor Stator Temperature Alarm with indicated temperature 350 ºF.

: d. Computer Points for 2-1 Seal Cavity Pressure P833 (second stage) reads 1100 psig, and P834 (third stage) reads 50 psig ANSWER:

c.

DB-OP-02515 R11, RC Pump and Motor Malfunctions Step 4.6.1 RNO NEW FUNDAMENTAL K/A: 000015/000017 2.4.11: Reactor Coolant Pump (RCP) Malfunctions                 Generic       Knowledge of abnormal condition procedures.

: a. Incorrect - Shutdown is required within 30 minutes, not immediately.

: b. Incorrect - Shutdown is required if bearing temperatures are rising with low oil level, not immediately.

: c. Correct - Power reduction and Shutdown is immediately required per DB-OP-02515 Step 4.6.1 RNO.

: d. Incorrect - Values provided indicated a single RCP Seal Stage is failed. Immediate Shutdown is not required for single stage failure per DB-OP-02515, Step 4.1.1

ANSWER:

d.

REFERENCE DB-OP-02512 R14, Makeup and Purification System Malfunctions Attachment 6.

NEW FUNDAMENTAL K/A: 000022K302: Knowledge of the reasons for the following responses as they apply to the Loss of Reactor Coolant Makeup: ctions contained in SOPs and EOPs for RCPs, loss of makeup, loss of charging, and abnormal charging Explanation/Justification:

: a. Incorrect - Plausible because this would reduce seal leakoff, RCS Invertory is preserved by isolating Letdown for this event.

: b. Incorrect - Plausible because in a normal shutdown, Shutdown Bypass Operation can be established at this RCS Pressure range.

: c. Incorrect - Plausible because in a normal shutdown, RCS Pressure is reduced to slow the transition when blocking the SFAS Low RCS Pressure Trip at 1670 psig prior to SFAS Actuation at 1600 psig..

: d. Correct - The ability to add inventory to the RCS is established by starting High Pressure Injection in piggyback mode which will then provide approximately 1800 psig discharge pressure allowing flow to the RCS.

Davis Besse Proposed NRC RO Written Examination           Page 6 of 109 QUESTION # 006 The following plant conditions exist:

* A plant cooldown is in progress for refueling.

* Reactor Coolant Pumps 2-1 and 2-2 are in service.

* DH Train 2 is in service

* DH Train 1 is out of service being transferred from LPI to DHR Mode

* RCS temperature is 180 °F

* Pressurizer level is 80 inches

* RCS pressure is 220 psig The following event occurs:

* A loss of Off-Site Power occurs

* EDG 2 fails to start Based on these conditions:

In accordance with DB-OP-02527, Loss of Decay Heat Removal, what is the PRIORITY for how core heat removal will be established?

ANSWER:

b.

DB-OP-02527 R15, Loss of Decay Heat Removal step 4.1.7 RNO.

NEW HIGHER K/A: 000025A101: Ability to operate and / or monitor the following as they apply to the Loss of Residual Heat Removal System: RCS/RHRS cooldown rate Explanation/Justification:

: a. Incorrect - This outcome would be desired to avoid transition back into Mode 4, but the loss of offsite power has caused a loss of Circ Water Pumps and therefore the main condenser. TBVs will close once Condenser Pressure rises to 17 inch HgA.

: b. .Correct - Step by step priority as listed in DB-OP-02527 R15, Loss of Decay Heat Removal step 4.1.7 RNO

: c. Incorrect - At low RCS Pressures, the flow out the High Point Vents will be insufficient to remove core decay heat. The RCS would heatup beyond Mode 4 (greater than 280 F). Candidate may assume PORV is not available for this scenario. The PORV is DC Powered

: d. Incorrect - Although Feed and Bleed cooling would be successful in removing decay heat, it is likely the PORV flow at low RCS pressures would not be sufficient to allow continued cooldown, In addition, SG heat transfer is prioritized above Feed and Bleed Cooling in DB-OP-02527, Loss of Decay Heat Removal.

Davis Besse Proposed NRC RO Written Examination         Page 7 of 109 QUESTION # 007 The following plant conditions exist:

* The plant is operating at 100% power.

* 11-4-B, CCW PMP 1 FLOW LO, annunciator is in alarm with a flowrate of 2400 gpm.

* 2-3-A, LETDOWN TEMP HI, annunciator is in alarm with a temperature of 144 °F.

* 11-1-B, CCW HX 1 OUTLET TEMP HI, annunciator is in alarm with a temperature of 122°F.

ANSWER:

d.

 

DB-OP-02002 R08 Annunciator 2-3-A Letdown/Makeup Alarm Panel 2 Annunciators BANK HIGHER K/A: 000026A107: Ability to operate and / or monitor the following as they apply to the Loss of Component Cooling Water: Flow rates to the components and systems that are serviced by the CCWS; interactions among the components Explanation/Justification:

: a. Incorrect - Plausible because the CCW Pump is operating at a low flow condition. It would be logical to have the pump trip to protect the pump.

: b. Incorrect - Plausible because the CCW Pump is operating at a low flow condition, but above the Flowrate to cause and automatic start of the Standby Pump

: c. Incorrect - Plausible because the CCW system is operating abnormally. Closing the non-essential header isolation could protect the essential functions provided by CCW.

Davis Besse Proposed NRC RO Written Examination           Page 8 of 109 QUESTION # 008 The plant is operating at 100% power with all systems in normal alignment for this power level.

The selected RCS Pressure Instrument from the Reactor Protective System to Non-Nuclear Instrument System INSTANTANEOUSLY fails HIGH.

Which of the following describes how the plant will respond to this failure?

The Pressurizer Heaters will __________(3)_________.

: b. (1) open (2) open (3) de-energize

: c. (1) open (2) remain closed (3) de-energize

: d. (1) remain closed (2) open (3) remain energized ANSWER:

b.

DB-OP-02513, Pressurizer System Abnormal Operation Att. 2 page 54 NEW HIGHER K/A: 000027K203: Knowledge of the interrelations between the Pressurizer Pressure Control Malfunctions and the following: Controllers and positioners Explanation/Justification:

: a. Incorrect - Plausible if the candidate believes the RCS signal is SASS protected like most other NNI signals. Instantaneous failures would normally cause a SASS transfer for SASS protected instrument inputs resulting in no change to the input for the PORV, Spray Valve, or Pressurizer Htrs.

: b. Correct - The selected RPS Pressure signal is used to control the PORV, the PZR Spray Valve, and the Pressurizer Heaters. A high failure will cause the PORV to Open, the Pressurizer Spray Valve to Open, and the Pressurizer Heaters to turn off.

: c. Incorrect -. Plausible if the candidate thought that the safety grade Reactor Protective System RCS Pressure signal is used to control the PORV. Since PORV has the most impact on the plant, this conclusion is logical.

: d. Incorrect - Plausible if the candidate thought that the safety grade Reactor Protective System RCS Pressure signal is used to control only the Pressurizer Spray Valve. The remaining positions would be correct if supply with a different pressure signal.

Davis Besse Proposed NRC RO Written Examination             Page 9 of 109 QUESTION # 009 The plant is operating at 100% power with all systems in normal alignment for this power level.

In accordance with DB-OP-02000, RPS, SFAS, SFRCS Trip or SG Tube Rupture, the Reactor Operator in the Control Room momentarily deenergizes 480 volt Unit Substations E2 AND F2.

ANSWER:

d.

Eng Change Package 10-0654 NEW FUNDAMENTAL K/A: 000029K206: Knowledge of the interrelations between ATWS and the following: Breakers, relays, and disconnects Explanation/Justification:

: a. Incorrect - There is no seal in feature for this fan. The Radwaste Ventilation System would be lost until the fan is restarted

: b. Incorrect - There is no seal in feature for this fan. The Main Station Exhaust System would be lost until the fan is restarted

: c. Incorrect - There is no seal in feature for this pump. This RCS inventory addition source would be lost until the pump is restarted.

Davis Besse Proposed NRC RO Written Examination             Page 10 of 109 QUESTION # 010 Plant conditions are as follows:

* A SG tube has ruptured on SG 1.

* The reactor is tripped.

* RCS pressure is 1990 psig.

* RCS Tave is 548 °F.

* BOTH SGs are being steamed through the Turbine Bypass Valves.

Which one of the following will occur if SG 1 exceeds 250 inches?

ANSWER:

c.

DB-OP-02000 R26 Table 1 SFRCS Response BANK HIGH K/A: 000038A212: Ability to determine or interpret the following as they apply to a SGTR: Status of MSIV activating system Explanation/Justification: SFRCS will actuate on high SG level. The setpoint is 250 inches.

: a. Incorrect - Plausible since only the #1 SG MSIV closes since that is the only SG operating at a high level.

: b. Incorrect - Plausible since #1 SG is at a high level, we should stop feeding it by aligning both AFW pumps to feed #2 SG.

: d. Incorrect - Plausible because elevated level in #2 SG will promote heat transfer that may be needed if #1 SG is removed from service.

Davis Besse Proposed NRC RO Written Examination         Page 11 of 109 QUESTION # 011 INITIAL CONDITIONS:

* RCS temperature                 500 °F

* RCS pressure                   1000 psig

* RCS cooldown in progress

* A Main Steam Line Break on #2 SG in Containment occurs.

* RCS temperature                 425 °F

* RCS pressure           750 psig Assuming no change in Main Steam Line break size, from initial to current condition, subcooling margin has

____(1)_______ and steam flow out the break has ____(2)_______.

: a. (1) risen (2) lowered

: b. (1) risen (2) risen

: c. (1) lowered (2) lowered

: d. (1) lowered (2) risen ANSWER:

a.

Fundamental Theory - Steam Table and General Physics HTFF Chapter 4 page 3 NEW FUNDAMENTAL K/A:000040 2.1.7: Steam Line Rupture : Ability to evaluate plant performance and make operational judgments based on operating characteristics, reactor behavior, and instrument interpretation Explanation/Justification: Note: During an RCS Cooldown, the SFRCS Low SG Pressure Trip would be blocked at the RCS temperature provided. SFRCS would not actuate on Low SG Pressure for this scenario.

: a. Correct - Subcooled margin for the initial conditions would be approximately 45 degrees while SCM for current conditions would be approximately 85 degrees. Steam Flow would be reduced as SG Pressure Lowers.

: b. Incorrect - While SCM will have risen as noted in A above, steam line break flow will be dependant on SG pressure. As the RCS cools, SG pressure will lower and therefore break flow will lower, however candidate may assume SCM drives the Steam flow rate like aSGTR - That is, reducing SCM reduces leak rate.

: c. Incorrect - Candidate may select this response assuming lower RCS temperatures produces lower SCM..

While steam line break flow will be dependant on SG pressure. As the RCS cools, SG pressure will lower and therefore break flow will lower.

: d. Incorrect - Candidate may select this response assuming lower RCS temperatures produces lower SCM..

While steam line break flow will be dependant on SG pressure. As the RCS cools, SG pressure will lower and therefore break flow will lower, however candidate may assume SCM drives the Steam flow rate like a SGTR - That is, reducing SCM reduces leak.

Davis Besse Proposed NRC RO Written Examination               Page 12 of 109 QUESTION # 012 The plant is operating at 55%.

* Both Main Feedwater Pumps trip Without other induced changes in plant conditions, The Control Rod Trip breakers open DIRECTLY due to an ______(1)____

: d. (1) ARTS trip (2) CRD Trip Confirm ANSWER:

d.

DB-OP-06202 pg72, DBBP-TRAN-0034 pg 6&7 NEW HIGHER K/A: 000054A201: Ability to determine and interpret the following as they apply to the Loss of Main Feedwater (MFW): Occurrence of reactor and/or turbine trip Explanation/Justification:

: a. Incorrect - The RPS trips would not actuate until plant condition such as RCS Pressure changed. As a result, RPS would not directly trip the reactor for this scenario. This is the basis for installing the ARTS System.

: b. Incorrect - The RPS trips would not actuate until plant condition such as RCS Pressure changed. As a result, RPS would not directly trip the reactor for this scenario. This is the basis for installing the ARTS System. SFRCS does directly generate a Turbine Trip Signal.

: c. Incorrect - ARTS would trip the reactor, but tripping both MFP will not directly trip SFRCS. An SFRCS Trip will directly trip the Main Turbine.

Davis Besse Proposed NRC RO Written Examination           Page 13 of 109 QUESTION # 013 The plant is operating at 100% power with all systems in normal alignment for this power level.

* A Bus = zero volts

* B Bus = zero volts

* C1 Bus = zero volts

* D1 Bus = zero volts

* 1-3-H, D1 Bus Lockout

* Breaker AD213, SBODG to D2 BUS TIE BREAKER tripped open due to a D2 Lockout.

Which of the following strategies must be implemented to restore power to an essential 4160 volt bus?

: a. Start EDG1 to restore power to Bus C1.

ANSWER:

a.

DB-OP-02000 R26 Specific Rule 6 Step 6.1 RNO NEW HIGHER K/A: 000055A106: Ability to operate and monitor the following as they apply to a Station Blackout:

: b. Incorrect - The SBODG is not available due to lockout on Bus D2 indicated by breaker AD213 being open.

: c. Incorrect - The SBODG is not available due to lockout on Bus D2 indicated by breaker AD213 being open.

: d. Incorrect - EDG2 is not available due to D1 being locked out.

: b. Lowering Steam Generator water levels

: c. Raising Steam Generator pressures

: d. Raising Steam Generator Auxiliary Feedwater flow rates ANSWER:

d.

Lesson Plan OPS-SYS-I103.09 pages 23 & 24 BANK FUNDAMENTAL K/A: 000056K101: Knowledge of the operational implications of the following concepts as they apply to Loss of Offsite Power: Principle of cooling by natural convection Explanation/Justification:

: a. Incorrect - Lowering SG Steaming rate will cause a rise in SG pressure and a lowering of differential temperature between the RCS and the SG, reducing the heat transfer rate.

: b. Incorrect - Lowering SG level will reduce the heat transfer surface area of the SG, reducing the overall heat transfer coefficient, reducing the heat transfer rate.

: c. Incorrect - A rise in SG pressure will lower the differential temperature between the RCS and the SG, reducing the heat transfer rate.

Davis Besse Proposed NRC RO Written Examination           Page 15 of 109 QUESTION # 015 The following conditions exist:

* The plant is operating at 100% power during the Winter.

* SW Pump 1 (Loop) is supplying Primary loads

* SW Pump 2 (Loop) is supplying Secondary loads

* SW Pump 3 breaker is racked out.

Which ONE of the following describes the automatic response if any of Service Water and Circulating Water Systems?

: a. No Impact -SW1 continues to carry Primary Loads, SW 2 continues to carry Secondary Loads.

: b. SW 1 continues to carry Primary Loads, SW 1395 SW HDR 2 TO TPCW HX closes to isolate the break, and CT2955, TPCW HX SUPPLY FROM CIRC WTR opens to allow Circ Water to carry TPCW load.

: c. SW1 carries Train 1 Essential Loads. SW Train 2 carries Train 2 Essential Loads only.

ANSWER:

d.

OS020 SH2 R45 Service Water CL6 & CL9 NEW HIGHER K/A: 000062K301: Knowledge of the reasons for the following responses as they apply to the Loss of Nuclear Service Water: The conditions that will initiate the automatic opening and closing of the SWS isolation valves to the nuclear service water coolers Explanation/Justification:

: a. Incorrect - The piping downstream of SW1399 and SW1395 is common, The breaks prevents either SW Line from supplying these loads. In addition, the break will cause the CT2955 Check Valves to sense low pressure causing a loss of Circ Water Supply as well. Plausible if candidate assumes the supplies are independent and a break on the out of service supply will not affect the in service supply.

: b. Incorrect - Plausible because Circ Water provide backup cooling for TPCW loads when SW supply is lost, but not when lost due to line break.

: c. Incorrect - Plausible because Circ Water provide backup cooling for TPCW loads when SW supply is lost, but not when lost due to line break.

Davis Besse Proposed NRC RO Written Examination             Page 16 of 109 QUESTION # 016 Which ONE of the following describes the purpose of the Main Generator Under-excited Reactive Ampere Limiter (URAL)?

: c. Prevents voltage Regulator output from RISING to a level which would cause excessive armature heating.

: d. Prevents the Voltage Regulator output from LOWERING to a level which could cause the Main Generator to drop out of synchronization (slip poles) with the grid.

ANSWER:

d.

System Description SD005 R4, Main Generator page 2-15 BANK FUNDAMENTAL K/A: 000077K103: Knowledge of the operational implications of the following concepts as they apply to Generator Voltage and Electric Grid Disturbances: Under-excitation Explanation/Justification:

: a. Incorrect - Plausible if the Candidate believe excitation levels are related to minimum loading level to prevent a reverse power condition.

: b. Incorrect - Plausible if the Candidate believe excitation levels are related to Power Factor to ensure the limiting power factors for Generator Operation are observed.

: c. Incorrect - Plausible if the Candidates assume the limitor acts to reduce current flow and therefore heat.

: d. Correct - The under excited reactive ampere limit circuit acts to limit the amount of under excitation permitted on the generator. This limit is for the purpose of allowing the generator to be safely operated, continuously in an under excited condition, with sufficient margin between the excitation limit and the stability limit of the generator.

Davis Besse Proposed NRC RO Written Examination         Page 17 of 109 QUESTION # 017 A loss of ALL feedwater has occurred. Both MU pumps are running.

Attempts are being made to restore feedwater to both SGs in accordance with DB-OP-02000, RPS, SFAS, SFRCS Trip or SG Tube Rupture.

* RCS pressure is 2200 psig and lowering

* The PORV (RC2A) is open.

* T-hot is 615 °F and rising in Loop 1 and 610 °F and rising in Loop 2.

The PORV block valve (RC 11) control switch will be ____(1)_____; the PORV (RC2A) control switch will be

_____(2)____.

: a. (1) OPEN (2) AUTO

: b. (1) OPEN (2) LOCK OPEN

: c. (1) CLOSED (2) AUTO

: d. (1) CLOSED (2) LOCK OPEN ANSWER:

b.

DB-OP-02000 R26 Attachment 4 page 271 BANK FUNDAMENTAL K/A: BW/E04 EA1.1: Ability to operate and / or monitor the following as they apply to the (Inadequate Heat Transfer): Components, and functions of control and safety systems, including instrumentation, signals, interlocks, failure modes, and automatic and manual features.

Explanation/Justification: At Davis-Besse, the beyond design bases Loss of all Feedwater event is mitigated via MU/HPI PORV Cooling. This question is related to control of the PORV and Flowpath through the PORV Block

: a. Incorrect - The position of the PORV Block is correct, but having the PORV in Auto will cause the valve to close when RCS Pressure reaches 2155 psig stopping the MU/HPI PORV Cooling Flowpath.

: b. Correct - These positions are the DB-OP-02000 Attachment 4 position of the valves during MU/HPI PORV Cooling.

: c. Incorrect - The position of the PORV Block is incorrect stopping flow and having the PORV in Auto will cause the valve to close when RCS Pressure reaches 2155 psig also stopping the MU/HPI PORV Cooling Flowpath.

: d. Incorrect - The position of the PORV Block is incorrect, stopping the MU/HPI PORV Cooling Flowpath.

: c. TS 3.8.9 Distribution Systems Operating. The normal opening of ACB 34560 and 34561 following a reactor trip will impact operability of the Distribution system - Operating.

ANSWER:

a.

DB-OP-02000 R26 Attachment 26 Page 400 NEW HIGHER K/A: BW/E10 2.1.29: Post-Trip Stabilization: Ability to use plant computers to evaluate system or component status.

: a. Correct - The opening of the Generator Output Breakers disrupts the normal ring bus configuration which may impact Off-Site Sources. As a result, this surveillance verifies the Off-Site Sources remain operable. -

: b. Incorrect -TS 3.8.2 is only applicable in Modes 5 and 6. The candidate may select this TS since the Main Generator is shutdown.

: c. Incorrect - The opening of the Generator Output Breakers disrupts the normal ring bus and does not affect the Distribution Systems Operating which are the in plant electrical distribution.

: d. Incorrect -TS 3.8.10 is only applicable in Modes 5 and 6. The candidate may select this TS since the Main Generator is shutdown and power is being supplied from the Startup Transformers vice the Auxiliary Transformers.

Davis Besse Proposed NRC RO Written Examination             Page 19 of 109 QUESTION # 019 The plant is in Mode 6.

: a. Minimum RCS Fill water temperature is 70 ºF based on moderator temperature coefficient.

ANSWER:

a.

DB-OP-06000 R26, RCS Fill and Vent Step 2.2.4, 2.2.6, DB-OP-06904 R42, Shutdown Operations Step 7.2 DB-OP-00030 R12, Fuel Handling Operations Step 4.3 NEW HIGHER K/A: 000036K102: Knowledge of the operational implications of the following concepts as they apply to Fuel Handling Incidents : SDM Explanation/Justification:

: a. Correct - 70ºF is the minimum temperature for the Reactor Vessel for performing Hydrostatic Testing in accordance with DB-OP-06000, RCS Fill and Vent. It is not related to Shutdown Margin.

: b. Incorrect - Monitoring Nuclear Instrumentation for unexplained rise in neutron count rate could be indicative of insufficient shutdown margin.

: c. Incorrect - Potential RCS Dilution flowpaths are tagged to prevent inadvertent dilution of the Reactor Coolant System which would reduce shutdown margin.

: d. Incorrect - The sequence provided in the Fuel Movement Sequence sheets ensures shutdown margin is maintained as positive reactivity is added to the core. Improper placement of a number of assemblies could result in inadequate shutdown margin in that portion of the core.

Davis Besse Proposed NRC RO Written Examination         Page 20 of 109 QUESTION # 020 The plant is operating at 100% power with all systems in normal alignment for this power level.

In accordance with DB-OP-02518, High Condenser Pressure, SFRCS is actuated using the Initiate and Isolate push buttons at _____(1)_____ inches HGA in order to ____(2)_______.

: d. (1)17 (2) protect the Condenser from Turbine Bypass Steam Flow ANSWER:

a.

NEW FUNDAMENTAL K/A: 000051 2.2.44: Ability to interpret control room indications to verify the status and operation of a system, and understand how operator actions and directives affect plant and system conditions.

: a. Correct - The main Feedwater Pumps trip at 12.5 in HGA, but top of scale for Control Room indicators is 10 inches HGA. SFRCS is actuated at 10 inches to ensure a source of FW is available.

: b. Incorrect - The Turbine Bypass valves will auto close at 17 in HGA to protect the condenser.

: c. Incorrect - The reason is correct, but the setpoint is not correct. The main Feedwater Pumps trip at 12.5 in HGA.

: d. Incorrect - The Turbine Bypass valves will auto close at 17 in HGA to protect the condenser. SFRCS actuation is not required for this feature.

ANSWER:

d.

DB-OP-02531 R19 Attachment 7 page 3 of 4 NEW FUNDAMENTAL K/A: 000059K201: Knowledge of the interrelations between the Accidental Liquid Radwaste Release and the following: Radioactive-liquid monitors Explanation/Justification:

: a. Incorrect - Plausible because this is a radioactive system, however this system is located in the Auxiliary Building. Leakage from this system would go to a floor drain or sump and be transported to the Misc Waste Drain Tank, not the storm sewer. There is no connection between the Misc Waste Drain Tank and the Storm Sewer.

: b. Incorrect - Plausible because this is a radioactive system, however this system is located in the Auxiliary Building. Leakage from this system would go to a floor drain or sump and be transported to the Misc Waste Drain Tank, not the storm sewer. There is no connection between the Misc Waste Drain Tank and the Storm Sewer.

: c. Incorrect - Plausible because leak from this system can reach the storm sewer, but the system is not radioactive and would not cause an alarm on the Storm Sewer Radiation Monitor.

Davis Besse Proposed NRC RO Written Examination               Page 22 of 109 QUESTION # 022 Waste Gas Decay Tank 1 is being discharged to the station vent IAW DB-OP-03012, Radioactive Gaseous Batch Release. WG1821, Waste Gas To Station Vent Flow Control is being utilized for this batch release.

* RE1822A Waste Gas System Radiation Monitor alarms WARN & HIGH

* RE1822A Waste Gas System Radiation Monitor indicates offscale high No automatic actions have occurred.

Based on these conditions, which of the following valves FAILED to automatically CLOSE?

* WG1819, Waste Gas To Station Vent Isolation

* WG1820, Waste Gas To Station Vent Isolation

* WGl821, Waste Gas To Station Vent Flow Control

* WG1836, Waste Gas Decay Tank 1 To Station Vent Control

: d. 3 & 4 only ANSWER:

a.

OS-030 Sheet 1 (B-16) and Sheet 2 CL-1 NEW FUNDAMENTAL K/A: 000060A206: Ability to operate and / or monitor the following as they apply to the Accidental Gaseous Radwaste: Valve lineup for release of radioactive gases Explanation/Justification:

: b. Incorrect - Plausible because RE1822A trip should have caused WG1819 to close and since WG1836 a control valve is in the release flowpath, it is plausible that the controller should have closed as it well.

: c. Incorrect - Plausible because RE1822A trip should have caused WG1820 to close and since WG1821 a control valve is in the release flowpath, it is plausible that the controller should have closed it as well.

: d. Incorrect - Plausible because if the RE1822A trip would use a controller to provide isolation, it is logical that WG1821 and WG1836 would close to provide isolation.

Davis Besse Proposed NRC RO Written Examination           Page 23 of 109 QUESTION # 023 DB-OP-02012, STM GEN/SFRCS ALARM PANEL 12 ANNUNCIATOR procedure directs Radiation Protection to be notified to take local surveys of the Main Steam Line area when annunciator 12-1-A, MN STM LINE 1 RAD HI comes into alarm.

: a. To evaluate for initiating conditions into RA-EP-02861, Radiological Incidents

: b. To obtain data to support leak rate calculation for DB-OP-02522, Small RCS Leaks

: c. To project off site doses from the Station Vent in accordance with RA-EP-02240, Offsite Dose Assessment.

ANSWER:

d.

DB-OP-02012 R10 Page 4 Step 3.4 NEW FUNDAMENTAL K/A: 000061K302: Knowledge of the reasons for the following responses as they apply to the Area Radiation Monitoring (ARM) System Alarms: Guidance contained in alarm response for ARM system Explanation/Justification:

: a. Incorrect - Plausible because high radiation levels would be an initiating condition for the radiological incidents off normal procedure but this alarm is to support indications of a steam generator tube leak

: b. Incorrect - Plausible because there is a leak rate calculation that uses RE indications in the calculation but it uses steam jet air ejector discharge RE1003A & B.

: c. Incorrect - Plausible Steam Generator Tube Leaks will cause a release of radioactive material, but checking radiation levels in the Main Steam Line area will not allow determination of dose from the station vent.

: d. Correct - DB-OP-02012 directs checking symptoms in accordance with DB-OP-02531 along with alarm verification to access entry conditions into the steam generator tube leak abnormal procedure.

Davis Besse Proposed NRC RO Written Examination           Page 24 of 109 QUESTION # 024

* Plant is in mode 6

* The Refueling Canal is greater than 23 feet

* Fuel Handling is in progress in Containment Identify the ONE situation below that represents a condition that would require the handling of irradiated fuel in CTMT to be stopped:

: c. An operator is signed into the Containment Closure Control log for MU66D, Reactor Coolant Pump 1-2 Seal Injection Flow Isolation and is draining its piping for a Local Leakrate Test

ANSWER:

b.

DB-OP-06904 R42 Note 11.1, OS-008 SH 1 R35 NEW HIGHER K/A: 000069A103: Ability to operate and / or monitor the following as they apply to the Loss of Containment Integrity: Fluid systems penetrating containment Explanation/Justification:

: a. Incorrect - Plausible if the candidate does not know the equipment hatch can be open during fuel handling since it was previously required closed. They may also assume the team must be staged which is not correct.

: b. Correct- This creates a path from Containment to atmosphere.

: c. Incorrect - Plausible since this will create a path between CTMT and atmosphere but is administratively controlled by the CTMT Closure Control log

: d. Incorrect - Plausible if the Candidate knows this is outside of the EVS boundary but does not know this is allowed by procedure

Davis Besse Proposed NRC RO Written Examination       Page 25 of 109 QUESTION # 025 The following plant conditions exist:

* 8-4-A, MFPT 1 TRIP alarms

* 10-1-A, MFP 1 DISCH HI PRESS TRIP alarms

* 13-4-C, DEAR STRG TK LVL

* 14-3-D, ICS MFP LOSS OR LO DEAR RUNBACK alarms Main Generator load is lowering and stabilizes at approximately 700 MWe with #1 Deaerator level at 9 feet.

Based on these plant conditions, what procedures and associate actions are required?

: a. Trip the reactor and enter DB-OP-02000 in accordance with DB-OP-02014, MSR/ICS Alarm Panel 14 Annunciators

: b. Stabilize the plant at the current power level in accordance with DB-OP-06401, ICS Procedure, section for plant stabilization following a runback

: c. Place SG/RX Demand Station in HAND and perform runback to 55% power in accordance with DB-OP-02010, Feedwater Alarm Panel 10 Annunciators

: d. Place Feedwater Loop Demands and the Rod Control Panel in MANUAL and stabilize Reactor power and Tave in accordance with DB-OP-02526, Primary to Secondary Heat Transfer Upset ANSWER:

c.

DB-OP-02010 R17 Page 4 BANK HIGHER K/A: BW/A01 A2.1: Ability to determine and interpret the following as they apply to the (Plant Runback)

: a. Incorrect - Plausible because DB-OP-02014 directs tripping reactor if deaerator level approaches low off scale

: b. Incorrect - Plausible because DB-OP-06401 provides direction for stabilization following a runback, however reactor power was not reduced below runback setpoint for loss of a MFP.

: d. Incorrect - Plausible because DB-OP-02526, Primary to Secondary Heat Transfer Upset provides these directions for plant stabilization upon a plant upset

Davis Besse Proposed NRC RO Written Examination         Page 26 of 109 QUESTION # 026 The Plant is at 50% power with a shutdown in progress. Entry into Mode 5 to perform maintenance is planned The following annunciator alarms come in:

  *    (14-2-D) ICS/NNI 118VAC PWR TRBL

  *    (14-4-E) ICS INPUT MISMATCH

    *    (14-4-F) ICS INPUT TRANSFER Other indications:

* Loss of blue light on SASS instrument's selector switches.

* SCR Bank, RC PRESSURE CONTROL, Hand/Auto Station Lights Both ON Assuming the condition can not restored to normal which of the following actions must be taken?

ANSWER:

a.

DB-OP-02532 R10 Step 4.1.13 NEW HIGHER K/A: BW/A02 AK2.2: Knowledge of the interrelations between the (Loss of NNI-X) 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.

Explanation/Justification:

: a. Correct - must diagnose loss of NNI X AC and identify appropriate response. Although the Decay Heat Cooler SFAS Valves, DH13A and DH14A, solenoids are DC powered their controls along with various DH Train 2 indications and alarms will be out of service since NNI X AC lost.

: b. Incorrect - Plausible because this is the response for loss of ICS power.

: c. Incorrect - Plausible because this is a response for loss of NNI-X DC power.

: d. Incorrect - Plausible because this is a response for loss of NNI-Y AC power.

 

Davis Besse Proposed NRC RO Written Examination           Page 27 of 109 QUESTION # 027 Following a Reactor Trip, a severe overcooling has caused a loss of Adequate Subcooling Margin.

Once the Reactor is confirmed as shutdown using the Immediate Operator Actions, based on the priorities provided by DB-OP-02000, RPS, SFAS, SFRCS Trip or SG Tube Rupture, which the following is implemented FIRST to mitigate this event

: d. Specific Rule 4, Steam Generator Control ANSWER:

c.

Bases and Deviation Document for DB-OP-02000 R19, Prioritization of DB-OP-02000 Sections.

NEW HIGHER K/A: BW/E13 EA1.3: Ability to operate and / or monitor the following as they apply to the (EOP Rules):

Desired operating results during abnormal and emergency situations.

: a. Incorrect - As provided in the Bases and Deviation Document for DB-OP-02000, The hierarchy in DB-OP-02000 between the various sections is as follows: 1. Immediate Actions 2. Specific Rules 3. Procedure Sections 4. Attachments. Rules are implemented prior to sections.

: b. Incorrect - As provided in the Bases and Deviation Document for DB-OP-02000, The hierarchy in DB-OP-02000 between the various sections is as follows: 1. Immediate Actions 2. Specific Rules 3. Procedure Sections 4. Attachments. Rules are implemented prior to sections.

: c. Correct - As provided in the Bases and Deviation Document for DB-OP-02000, The hierarchy in DB-OP-02000 between the various sections is as follows: 1. Immediate Actions 2. Specific Rules 3. Procedure Sections 4. Attachments. Rules are implemented prior to sections. Rules are implemented in numerical order

: d. Incorrect - As provided in the Bases and Deviation Document for DB-OP-02000, The hierarchy in DB-OP-02000 between the various sections is as follows: 1. Immediate Actions 2. Specific Rules 3. Procedure Sections 4. Attachments. Rules are implemented prior to sections. Rules are implemented in numerical order

Davis Besse Proposed NRC RO Written Examination           Page 28 of 109 QUESTION # 028 The plant is operating at 70% power with all systems in normal alignment for this power level. All four Reactor Coolant Pumps are in service.

Motor current for the 1-1 RCP is noted to be 290 amps.

(2) RCP 1-1 shutdown is NOT required.

: c. (1)This motor current reading is higher than normal.

(2) RCP 1-1 shutdown is NOT required.

: d. (1)This motor current reading is higher than normal.

ANSWER:

c.

DB-OP-02515 R11, Reactor Coolant Pump and Motor Abnormal Operations step 4.6.1 NEW HIGHER K/A: 003A302: Ability to monitor automatic operation of the RCPS, including: Motor current Explanation/Justification:

: a. Incorrect - At normal operating RCS temperatures and pressures, normal RCP Motor Current is approximately 260 amps. The Operating Limits requiring shutdown are less than 200 amps or greater than 370 amps per DB-OP-02515, Reactor Coolant Pump and Motor Abnormal Operations.

: b. Incorrect - At normal operating RCS temperatures and pressures, normal RCP Motor Current is approximately 260 amps. The Operating Limits requiring shutdown are less than 200 amps or greater than 370 amps per DB-OP-02515, Reactor Coolant Pump and Motor Abnormal Operations

: c. Correct - At normal operating RCS temperatures and pressures, normal RCP Motor Current is approximately 260 amps. The Operating Limits requiring shutdown are less than 200 amps or greater than 370 amps per DB-OP-02515, Reactor Coolant Pump and Motor Abnormal Operations

: d. Incorrect - At normal operating RCS temperatures and pressures, normal RCP Motor Current is approximately 260 amps. The Operating Limits requiring shutdown are less than 200 amps or greater than 370 amps per DB-OP-02515, Reactor Coolant Pump and Motor Abnormal Operations

Davis Besse Proposed NRC RO Written Examination       Page 29 of 109 QUESTION # 029 The following plant conditions exist:

* Mode 1 at 15% power The following event occurs:

* RCP 1-1 is shutdown by the crew due to excessive vibrations.

* No other operator actions are taken.

: c. Loop 2 FW flow will be 2.4 times greater than Loop 1 FW flow.

: d. Tave will be selected to Loop 2.

ANSWER:

d.

DB-OP-02515 R11, RCP and Motor Abnormal Attachment 1 for Stopping a RCP NEW HIGHER K/A: 003K301: Knowledge of the effect that a loss or malfunction of the RCPS will have on the following:

: a. Incorrect - In accordance with DB-OP-02515 R11, RCP and Motor Abnormal Attachment 1 for Stopping a RCP Step 5. SASS will align Tave to the loop with 2 RCPS in service.

: b. Incorrect - Plausible because the normal response at 72% power when an RCP would be shutdown is for FW Flow to Loop with the highest RCS flow to be 2.4 time greater than the remaining loop. A trip from 15% with SG on Low Level limits negates flow control. The SG Will be on Level Control.

: c. Incorrect - Plausible because the normal response at 72% power when an RCP would be shutdown is for FW Flow to Loop 2 to be 2.4 time greater. A trip from 15% with SG on Low Level limits negates flow control. The SG Will be on Level Control

Davis Besse Proposed NRC RO Written Examination             Page 30 of 109 QUESTION # 030 The plant is operating at 100% power with all systems in normal alignment for this power level.

: d. Loss of D2P and DBP ANSWER:

b.

DB-OP-02002 R08 page 16 note 3.5 NEW FUNDAMENTAL K/A: 004K414: Knowledge of CVCS design feature(s) and/or interlock(s) which provide for the following:

Explanation/Justification: KA Statement is for design features and/or interlocks on the letdown system for the letdown tank bypass valve. The closed valve for Davis Besse would be the MU Pump Suction Valves.

These valves can be aligned to take a suction on the Makeup Tank or on the BWST. In the BWST position, the Makeup Tank is effectively bypassed.

: a. Incorrect - No automatic feature exists, however plausible because this action would protect BWST inventory for use by ECCS Systems.

: b. Correct - Low Makeup Tank Level of 10 inches will cause an auto transfer from the MU Tank to the BWST..

: c. Incorrect - Plausible because the MU3971 Auto Transfer from the BWST to the MU Tank is lost when NNI X AC power is lost.

: d. Incorrect - Plausible because the MU3971 Auto Transfer from the BWST to the MU Tank is lost when D2P and DBP power is lost

: d. 155 minutes ANSWER:

c.

DB-PF-06703 Rev 20 CC6.3.c and CC6.3.d References provided to Candidate:

DB-PF-06703 Rev 20 CC6.3.c CC6.3.d BANK HIGHER K/A: 005K603: Knowledge of the effect of a loss or malfunction on the following will have on the RHRS:

: a. Incorrect - Plausible if the Candidate misreads the curve. 24 minutes would be the time to boil if the initial temperature was 140°F.

: b. Incorrect - Plausible if the Candidate misreads the curve. 31 minutes would be the time to boil if the initial temperature was 100°F but the candidate used the Low RCS level of 6 inches above Hot Leg Center Line.

30 inches is a low RCS level, but not for this curve.

: c. Correct - From DB-PF-06703 R20, Page 57 CC6.3c, the correct time to boil is 35 minutes.

: d. Incorrect - Plausible if the Candidate uses CC6.3d, time to boil to top of core which will be provided.

Davis Besse Proposed NRC RO Written Examination             Page 32 of 109 QUESTION # 032 Which ONE of the following is the reason a break in the 14 inch line between the reactor vessel and CF 30, CFT 1-2 TO REACTOR CHECK VALVE, will not result in exceeding the peak allowable cladding temperature of 2200°F?

ANSWER:

b.

SD-040 R4 page 1-4 step 1.2.3.2 NEW FUNDAMENTAL K/A: 006K6.02: Knowledge of the effect of a loss or malfunction on the following will have on the ECCS:

: a. Incorrect - Plausible if the candidate assumes the injection lines enter the vessel above the top of the core so the core wont uncover

: c. Incorrect - Plausible if Candidate does not know what break size is classified as a large break LOCA

Davis Besse Proposed NRC RO Written Examination       Page 33 of 109 QUESTION # 033

* The PORV is leaking

* The Quench Tank Circulating Pump is isolated for maintenance

* Reactor Coolant System pressure is 2155 psig The Quench Tank Relief Valve failing open will cause level to rise in the:

: d. Clean Waste Receiver Tank ANSWER:

c.

Ops Schematic OS-001A Sheet 3 NEW FUNDAMENTAL K/A: 007K301: Knowledge of the effect that a loss or malfunction of the PRTS will have on the following:

: a. Incorrect - Plausible since the Quench Tank can be lined up to vent to the Waste Gas Header

: b. Incorrect - Plausible since a majority of the RCS relief valves relieve to the RCDT

: d. Incorrect - Plausible since RCS discharge would be considered clean waste

* CCW Pump 2 does not start The Reactor Operator attempts to start CCW Pump 1 and 2 from the control room and neither pump starts Based on these conditions, identify the ONE statement below that identifies the required action(s) to be implemented

ANSWER:

b.

DB-OP-02523 R09 step 4.3.1 page 28 NEW HIGHER K/A: 008A201: Ability to (a) predict the impacts of the following malfunctions or operations on the CCWS, and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Loss of CCW pump Explanation/Justification:

: a. Incorrect - Plausible since this would be the actions for loss of CCW to one RCP when reaching the required RCP trip parameters

: b. Correct - CCW abnormal procedure directs tripping the Reactor and all 4 RCPs in the event of the running and standby pumps being unable to be started

: c. Incorrect - Plausible because reducing power would reduce heat loading and the candidate may assume it is not required to trip the RCP or the Reactor until required trip parameters are reached.

: d. Incorrect - Plausible if the candidate assumes the spare CCW pump may be able to be placed in service prior to reaching required RCP trip parameters

Davis Besse Proposed NRC RO Written Examination           Page 35 of 109 QUESTION # 035 The Plant is in Mode 1 In accordance with Technical Specifications, which one of the following conditions requires action to be completed in less than 30 minutes to remain in compliance with Technical Specifications requirements?

ANSWER:

b.

NEW FUNDAMENTAL K/A: 010 2.2.39: Pressurizer Pressure Control System (PZR PCS): Knowledge of less than or equal to one hour Technical Specification action statements for systems.

: a. Incorrect - Plausible because when this condition is encountered in the simulator, the candidates take prompt action to restore Pressurizer Level to within limits.

: c. Incorrect - Plausible since this condition renders the PORV inoperable and required action within one hour to close the PORV Block valve per TS 3.4.11 Condition B.

: d. Incorrect - Plausible since this condition would render the PORV inoperable and requires action per TS 3.4.11 Condition B.

Davis Besse Proposed NRC RO Written Examination               Page 36 of 109 QUESTION # 036 Essential Bank 2 Pressurizer heater bank control switch is in the ON position. If RCS pressure is stable at the normal operating point, and Pressurizer level decreases to 37", which ONE of the following explains the status of the Essential Bank 2 heaters?

: a. energized because manual control overrides the Pressurizer low-low level heater cutoff.

: b. de-energized because the Pressurizer low-low level heater cutoff overrides manual control.

ANSWER:

a.

DB-OP-06003 R29 Attachment 7 PZR Heater Control Panel Placard BANK HIGHER K/A: 010K402: Knowledge of PZR PCS design feature(s) and/or interlock(s) which provide for the following:

: b. Incorrect - Plausible if the candidate does not understand that the ON position for the heaters overrides the Low level cutoff.

: c. Incorrect - Plausible if the candidate does not know the setpoint for low low pressurizer level and thinks it is less than 40 inches. A pressurizer level of 37 inches is still above the top of all Pressurizer heaters

: d. Incorrect - Plausible if the candidate does not understand the interlock but knows this bank of heaters is off at normal RCS Pressure.

Davis Besse Proposed NRC RO Written Examination           Page 37 of 109 QUESTION # 037 The following plant conditions exist:

* The plant is operating at 100% power.

* RPS Channel 1 is in Manual Bypass.

* RCS Pressure exceeds the RPS High RCS Pressure Trip setpoint

* RPS Channels 2 and 4 Trip

* RPS Channel 3 fails to trip How will the CRD Breakers respond to these conditions?

: b. Only the A and C breakers will open.

: c. Only the B and D breakers will open.

ANSWER:

d.

DB-OP-06403 R19, Attachment 4, Page 59 NEW HIGHER K/A: 012A207: Ability to (a) predict the impacts of the following malfunctions or operations on the RPS; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Loss of dc control power Explanation/Justification: Note: Actuation of an RPS Channel trips the respective CRD Breaker by removing DC control power from the breaker. This DC Control Power is internally generated in the Reactor Protective System, not supplied from an external source..

: a. Incorrect - Plausible if the candidate believes the logic of RPS is the same as the Steam Feed Rupture Control System where Channels 1 and 3 are actuation channel 1 and Channels 2 and 4 are actuation channel 2. If only a single actuation channel trips, a full SFRCS actuation does not occur.

: b. Incorrect - Plausible if the Candidate does not understand the relationship between RPS Channels and CRD Breakers. RPS Channels 1, 2, 3, 4, supply CRD Breaker B, A, D, C respectively.

: c. Incorrect - Plausible if the Candidate does understand the relationship between RPS Channels and CRD Breakers. RPS Channels 1, 2, 3, 4, supply CRD Breaker B, A, D, C respectively but does not understand the logic of RPS as noted in distractor 1 above.

: d. Correct - IAW DB-OP-06403, Attachment 4, Page 59, Relays KB and KD remain energized and their correstonding contacts in each RPS cabinet remain closed, howver the KA and KC relays de-energize.

The corresponding KA and KC contacts open in each cabinet interrupting DC Control Power to the associated CRD Breaker and causing the breakers to trip.

Davis Besse Proposed NRC RO Written Examination           Page 38 of 109 QUESTION # 038 The plant was operating at 75% power with all systems in normal alignment for this power level.

The following plant conditions NOW exist:

* SG 1 pressure is 880 psig.

* SG 2 pressure is 150 psig.

* Reactor Coolant System pressure is 1700 psig and steady.

* Reactor Coolant System temperature is 530°F and steady.

* Containment pressure is 19 psia and lowering.

* All systems function as designed.

: a. 49 inches

: b. 55 inches

: c. 124 inches

: d. 130 inches ANSWER:

d.

OS-17A SH1 R26 CD-1, DBBP-TRAN-0034 R06 page 8&9 NEW HIGHER K/A: 013K107: Knowledge of the physical connections and/or cause effect relationships between the ESFAS and the following systems: AFW System Explanation/Justification:

: a. Incorrect - Plausible if the Candidate does not diagnose an SFAS level 2 trip or SG 2 isolation on low pressure since this is normal level for a SFRCS actuation without SG low pressure trip

: b. Incorrect - Plausible if the Candidate knows level is controlled at 55 by the opposite side pump on SG low pressure SFRCS trip but doesnt diagnoses the SFAS level 2 trip or know setpoint is raised to high on a SA2

: c. Incorrect - Plausible since this is the normal level for SFRCS actuation on an SFAS 2 with no SG isolation.

Diagnoses SA2 but not SFRCS low pressure.

: d. Correct - SFAS level 2 on CTMT pressure (18.7psia) will raise the setpoint to high and AFP 2 will control level at 130 with AFP 1 setpoint at 124 due to SG 2 SFRCS low pressure trip (630psig)

All equipment responds as designed.

Which of the Service Water System conditions below would result in inadequate service water flow to the Containment Air Cooler to remove the heat from Containment for this design bases event?

: c. Train 1 SW flow is inadvertently aligned to CAC 1 and CAC3.

: d. SW 2931, CLNG TOWER MAKEUP is inadvertently closed.

ANSWER:

c.

DB-OP-06016 R29 Step 2.2.4 page 4 NEW HIGHER K/A: 022A104: Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the CCS controls including: Cooling water flow Explanation/Justification:

: a. Incorrect - Plausible because the loss of air to the CAC Outlet Temperature Control Valves will cause the valves to fail open and allow full flow, but this is the expected condition for the LOCA event when SFAS Actuates.

: b. Incorrect - Plausible because a rupture of the non-seismic header would divert Service Water flow from essential component, however in this condition, SW1395 and SW1399 would isolate the non-essential header.

: c. Correct - In modes 1,2 and 3 service water must be isolated to the spare CAC to ensure flow through the two in service CACs is adequate to support post LOCA cooling requirements

: d. Incorrect - Plausible since this is the inservice SW return flowpath, however the SW return flowpaths for the Intake Structure and the Forebay would open on high return pressure of 50 psig to provide a safety grade flowpath.

* SEAL INJ FLOW LO, 6-5-C

* SEAL INJ TOTAL FLOW, 6-6-C

* PZR LVL LO, 4-2-E CTRM INDICATIONS:

  *   #2 Makeup Pump discharge pressure reads 0 psig

* MU32, PZR LEVEL CONTROL, indicates 100% demand

* MU19, RCP SEAL INJ FLOW CONTROL, indicates 100% demand

* PZR level is 155 inches The crew has entered the appropriate Abnormal Operating Procedure.

: a. Trip the Reactor. GO TO DB-OP-02000, RPS, SFAS, SFRCS TRIP, or SG Tube Rupture.

: b. Commence a plant shutdown. GO TO DB-02504 Rapid Shutdown.

: c. Trip Reactor Coolant Pumps 1-2 and 2-2. GO TO DB-OP-02515, Reactor Coolant Pump and Motor Abnormal Operation.

: d. Place MU32 in hand. GO TO DB-OP-02513 Pressurizer Abnormal Operation.

ANSWER:

a.

DB-OP-02512 R14 step 4.1.3 page 8 NEW HIGHER K/A: 004 2.4.4: Chemical and Volume Control System: Ability to recognize abnormal indications for system operating parameters that are entry-level conditions for emergency and abnormal operating procedures.

: a. Correct - Minimum level for Tave 582°F is 160 inches below which requires tripping the Reactor. This is the mitigating strategy for a loss of all Makeup Pumps. Tripping at 160 inches will ensure a minimum inventory is maintained in the Pressurizer and then depressurize to allow use of HPI to recover Pressurizer level.

: b. Incorrect - Plausible if Candidate knows a shutdown is required but does not recognize PZR level less than 160 inches requires a reactor trip.

: c. Incorrect - Plausible because MU Pump 2 is lost and reactor power is less than the 55% setpoint when 1 RCP is running in each loop.

: d. Incorrect - Plausible because MU32 is 100% open and a pressurizer control failure may be diagnosed

Davis Besse Proposed NRC RO Written Examination             Page 41 of 109 QUESTION # 041 The plant is operating at 100% power

* EDG 2 has been started in accordance with DB-OP-06316, Emergency Diesel Generator Operating Procedure using the IDLE Start pushbutton and is running at 450 rpm.

* All Undervoltage Relays on D1 are actuated.

* All proper automatic actions occur.

Which of the following automatic and/or manual actions will be required to re-energize D1 bus?

: a. The EDG field will flash automatically.

The EDG will accelerate to 900 RPM, then AD101 EDG 2 Output Breaker will auto close.

The Idle Release Pushbutton must be depressed to flash the EDG field, then AD101, EDG 2 Output Breaker must be manually closed.

The EDG field will flash automatically and the EDG output breaker, AD101 EDG 2 Output Breaker must be manually closed.

ANSWER:

a.

NEW HIGHER K/A: 062K102: Knowledge of the physical connections and/or cause/effect relationships between the ac distribution system and the following systems: ED/G Explanation/Justification:

: b. Incorrect - The Idle Start/Stop Circuitry inhibits the voltage regulator by applying field shorting. An automatic start signal will release the Idle Start relay, accelerate the EDG, and enable the voltage regulator. Depressing the Idle release will not be necessary to flash the field.

: c. Incorrect - The Idle Start/Stop Circuitry inhibits the voltage regulator by applying field shorting. An automatic start signal will release the Idle Start relay, accelerate the EDG, and enable the voltage regulator. Depressing the Idle release will not be necessary to accelerate the EDG.

: d. Incorrect - The Idle Start/Stop Circuitry inhibits the voltage regulator by applying field shorting. An automatic start signal will release the Idle Start relay, accelerate the EDG, and enable the voltage regulator. Operator action to raise EDG speed will not be required. In addition, Operator action will not be necessary to close the EDG Output Breaker. The EDG output breaker would auto close to restore power to D1 Bus.

The Loss Of Coolant Accident continues to degrade with SFAS Levels 3, and 4 initiating Without Operator action, what is the current status of the Containment Spray Train 2?

: c. (1) Off (2) Open

: d. (1) Running (2) Open ANSWER:

c.

OS-005 R12 NEW HIGHER K/A: 026K202: Knowledge of bus power supplies to the following: MOVs Explanation/Justification:

: a. Incorrect - Plausible if the candidate believes CS1531 opens on the SFAS Level 4 actuation, but does realize the Containment Spray Pumps is a 480 volt load and is lost when F1 is lost.

: b. Incorrect - Plausible if the candidate believes CS1531 opens on the SFAS Level 4 actuation, but fails to realized the Containment Spray Pump is a 480 load as unlike the other SFAS Actuated Pumps that are supplied from 4160 essential power.

: c. Correct CS1531 opens on the SFAS Level 2 actuation and is therefore unaffected when F1 loses power.

Since the Containment Spray pump is supplied from F1, it will be off when F1 is lost.

: d. Incorrect - Plausible is the candidate understands CS1531 opens on the SFAS Level 2 actuation, but fails to realized the Containment Spray Pump is a 480 load as unlike the other SFAS Actuated Pumps that are supplied from 4160 essential power.

* RCS pressure is lowering Which of the following explains why reactor power is increasing?

: d. I&C has placed NI8 in Test Operate while it was the highest indicating NI ANSWER:

a.

DB-OP-02525 R10 Page 5 NEW FUNDAMENTAL K/A: 039K508: Knowledge of the operational implications of the following concepts as the apply to the MRSS: Effect of steam removal on reactivity Explanation/Justification:

: a. Correct - A steam leak is in progress per DB-OP-02525, Steam Leaks. A lowering Tave will add positive reactivity with a negative moderator coefficient.

: b. Incorrect - Plausible because an undesired rod withdraw will raise power but would not include the listed symptoms

: c. Incorrect - Plausible because raising power would normally increase megawatts but ULD output tracks megawatts in manual

: d. Incorrect - Plausible because ICS power selects the highest auctioneered power and power would increase if the ULD was in auto

ANSWER:

d.

Lesson Plan OPS-SYS-I512 R06 page 13 & 14 BANK HIGHER K/A: 059A107: Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the MFW controls including: Feed Pump speed, including normal control speed for ICS Explanation/Justification:

: a. Incorrect - Rapid Feedwater Reduction will actuate. Feedwater Control valves will control on SG level error, not Feedwater flow error.

: b. Incorrect - Rapid Feedwater Reduction will actuate. Feedwater Control valves will control on SG level error, but a timer operates to allow SG level to lower to low level limits

: c. Incorrect - Rapid Feedwater Reduction will actuate. Feedwater Control valves will control on SG level error, not Feedwater flow error.

: d. Correct - With full automatic ICS operation and SG not initially on low level limit control, a reactor trip will caused the MFP to go to target speed, the SU SG Level controls to target position until SG on Low Level Limit or 2.5 minute timer times out.