GG-08-2005 - Initial Final RO Written Examination

ML053330591
Person / Time
Site:	Grand Gulf
Issue date:	10/03/2005
From:	Operations Branch IV
To:
References
NRC-082005-1
Download: ML053330591 (158)
v • d • e

Text

View Exams Page 1 of 158 Exam Data:

Exam Name: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Owner: Charles Bell Exam Date: 08/12/2005 Created by: Charles Bell Created at: Thu Jun 16 13:42:07 CDT 2005 Last Revised by: Charles Bell Last Revised at: Thu Jun 16 13:42:07 CDT 2005 Reviewed By: MikeRasch Review Date: Fri Jul 15 16:31:39 CDT 2005 Exam Review Status: Reviewed Approved By: Mickey Ellis Approval Date: Fri Jul 15 16:32:22 CDT 2005 Exam Approval Status: Approved Access to this exam is restricted to:

l Charles Bell l MikeRasch l Mickey Ellis l Tommy Harrelson Exam History:

l Created by jbell at Thu Jun 16 13:42:07 CDT 2005 l Reviewed by mrasch at Mon Jun 20 14:45:03 CDT 2005 l Approved by mellis at Mon Jun 20 14:45:58 CDT 2005 l Question 57 removed by mrasch at Fri Jul 15 16:08:07 CDT 2005 l Questions added by mrasch at Fri Jul 15 16:10:22 CDT 2005 l Question 75 renumbered to 75 by mrasch at Fri Jul 15 16:10:44 CDT 2005 l Question 75 renumbered to 57 by mrasch at Fri Jul 15 16:11:11 CDT 2005 l Question 57 renumbered to 57 by mrasch at Fri Jul 15 16:15:20 CDT 2005 l Question 75 renumbered to 58 by mrasch at Fri Jul 15 16:15:59 CDT 2005 l Question 59 renumbered to 60 by mrasch at Fri Jul 15 16:17:03 CDT 2005 l Question 59 renumbered to 61 by mrasch at Fri Jul 15 16:18:30 CDT 2005 l Question 75 renumbered to 59 by mrasch at Fri Jul 15 16:19:05 CDT 2005 l Question 75 renumbered to 62 by mrasch at Fri Jul 15 16:20:22 CDT 2005 l Question 63 renumbered to 64 by mrasch at Fri Jul 15 16:21:39 CDT 2005 l Question 75 renumbered to 63 by mrasch at Fri Jul 15 16:22:03 CDT 2005 l Question 75 renumbered to 65 by mrasch at Fri Jul 15 16:24:40 CDT 2005 l Question 74 renumbered to 75 by mrasch at Fri Jul 15 16:26:13 CDT 2005 l Question 73 renumbered to 74 by mrasch at Fri Jul 15 16:26:40 CDT 2005 l Question 72 renumbered to 73 by mrasch at Fri Jul 15 16:27:23 CDT 2005 l Question 71 renumbered to 72 by mrasch at Fri Jul 15 16:27:53 CDT 2005 l Question 70 renumbered to 71 by mrasch at Fri Jul 15 16:28:33 CDT 2005 l Question 69 renumbered to 70 by mrasch at Fri Jul 15 16:29:14 CDT 2005 l Question 68 renumbered to 69 by mrasch at Fri Jul 15 16:29:36 CDT 2005 l Question 67 renumbered to 68 by mrasch at Fri Jul 15 16:30:22 CDT 2005 l Question 66 renumbered to 67 by mrasch at Fri Jul 15 16:30:53 CDT 2005 l Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005 l Approved by mellis at Fri Jul 15 16:32:22 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 2 of 158 Comments:

Edit Exam Mail Message Compare This Exam Print Exam Data Print Exam and Key Generate Exam Cover Sh EB QUESTION: 1 (1.0 Points)

The reactor is at 95% power and I&C is performing a surveillance on the Reactor Recirc Flow Control System. Suddenly, the A Reactor Recirc Flow Control Valve (FCV) unexpectedly ramps back to its minimum position.

Based on this:

A.

the reactor will scram on Flow Control Trip Reference (FCTR) and ONEP 05-1 I-1, Reactor Scram, should be entered.

B.

reactor power will drop and ONEP 05-1-02-III-3, Reduction in Recirculation System Flow Rate should be entered.

C.

the reactor will scram on high reactor water level and ONEP 05-1-02-I-1, Reactor Scram, should be entered.

D.

reactor power will drop and Reactor Recirc FCV B should immediately be closed to its minimum position.

Answer: B Question The reactor will not scram on a runback to minimum position. There are Comments: no immediate actions for this event, however it is an entry condition to ONEP Reduction in Recirculation System Flow Rate. Therefore B is th only correct answer. This is a NEW question. Tier 1 Group 1 CFR 41.5/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00833 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-ONEP Objective: 2.0 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 3 of 158 KA

References:

1. 295001 AK1.02 Power/flow distribution [3.3/3.5]

2. GENERIC 2.4.4 Ability to recognize abnormal indications for system operating parameters [4.0/4.3]

3. GENERIC 2.4.11 Knowledge of abnormal condition procedures [3.4/3.6]

References:

1. 05-1-02-III-3sect 3.1; 3.4; 3.5; Figure 1 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B33: Reactor Recirculation System

2. C51-6: Period Based Detection System Categories:

1. Off Normal Event Procedures

2. Systems Task

References:

Question Last Revised By: MikeRasch at Fri Jul 29 14:58:38 CDT 2005 Question History:

1. Created by tharrelso at Wed Apr 20 14:49:03 CDT 2005

2. Modified by tharrelso at Wed Apr 20 14:58:13 CDT 2005

3. Modified by tharrelso at Thu Apr 28 08:31:36 CDT 2005

4. Modified by mrasch at Tue May 24 07:52:01 CDT 2005

5. Modified by mrasch at Tue May 24 08:22:58 CDT 2005

6. Modified by mrasch at Tue May 31 14:40:03 CDT 2005

7. Question Reviewed by mellis at Tue May 31 14:57:01 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Modified by mrasch at Thu Jul 28 06:34:57 CDT 2005

12. Modified by tharrelso at Fri Jul 29 06:27:20 CDT 2005

13. Modified by tharrelso at Fri Jul 29 10:26:57 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 4 of 158

14. Modified by mrasch at Fri Jul 29 14:58:38 CDT 2005

15. Question Reviewed by mellis at Thu Aug 04 07:23:44 CDT 2005

16. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 2 (1.0 Points)

Which one of the following describes the reasons for transferring Divisions 1 and 2 buses from offsite power sources to the diesel generators during degraded grid voltage situations?

A.

Safety related loads are only allowed to be supplied power from Emerency Diesel Generators during accident conditions.

B.

To preclude damage to safety related electrical equipment as a result of extended operation at reduced voltage levels.

C.

To prevent core damage by ensuring safety systems are connected to a reliable power source and minimize response time during an accident.

D.

To ensure the safety related equipment is supplied with a power source of sufficient capacity to ensure the plant can be maintained in a safe shutdown condition during an accident.

Answer: B Question Answer A is INCORRECT because Offsite power sources are the Comments: preferred power sources for the ESF buses. Answer B is CORRECT because voltage degradation in conjunction with operating equipment can cause damage to safety related equipment normally operated on these buses. Answer C is incorrect because the transient times associated with transferring power to alternate feeds (Diesel Generators) is consistent with the accident analyses. Answer D is incorrect because the offsite power sources have sufficient capacity to handle all loads required for safe shutdown during accident conditions and do not have the lower limitations of the diesel generators. TIER 1 GROUP 1 This is a NEW question. CFR 41.7/41.8 Image

Reference:

None file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 5 of 158 Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00464 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-R2100 Objective: 2

2. CourseID: GLP-OPS-R2100 Objective: 3.1

3. CourseID: GLP-OPS-R2100 Objective: 1 KA

References:

1. 295003 AK3.01 Manual and auto bus transfer [3.3/3.5]

References:

1. Tech Spec Bases 3.3.8.1-1

2. UFSAR 8.3.1.1.2.2 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. R21: 4.16 KV AC Power System Categories:

1. Systems Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 10:45:04 CDT 2005 Question History:

1. Used on December 2000 NRC Exam

2. Used on August 2002 Audit RO Exam

3. Converted from MSWord on Tue May 25 14:16:47 CDT 2004

4. Imported at Tue May 25 14:24:02 CDT 2004

5. Modified by tharrelso at Wed Apr 20 15:54:30 CDT 2005

6. Modified by mrasch at Tue May 10 13:42:42 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 6 of 158

7. Modified by mrasch at Tue May 24 07:55:38 CDT 2005

8. Question Reviewed by mellis at Tue May 31 14:56:59 CDT 2005

9. Modified by jbell at Thu Jun 16 16:50:13 CDT 2005

10. Modified by mrasch at Mon Jun 20 07:34:08 CDT 2005

11. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

12. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

14. Modified by mrasch at Fri Jul 01 11:04:00 CDT 2005

15. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

16. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

17. Modified by mrasch at Tue Jul 26 12:14:06 CDT 2005

18. Modified by mrasch at Wed Jul 27 07:48:01 CDT 2005

19. Modified by mrasch at Wed Jul 27 12:27:53 CDT 2005

20. Question Reviewed by mellis at Thu Aug 04 07:23:42 CDT 2005

21. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

22. Modified by mrasch at Tue Aug 09 10:45:04 CDT 2005

23. Question Reviewed by mellis at Tue Aug 09 11:59:48 CDT 2005 Comments:

EB QUESTION: 3 (1.0 Points)

With RHR A in standby, how does a complete loss of Division I 125 VDC affect placing RHR A in Shutdown Cooling (SDC) mode of operation?

A.

All necessary component manipulations can be performed at the Remote Shutdown Panel.

B.

The RHR A pump can be started from the Control Room. The SDC Return Valve E12-F053A will require local operation.

C.

All necessary component manipulations can be performed in the Main Control Room D.

The RHR A pump can be started from the breaker cubicle. The SDC Return Valve E12-F053A can be manipulated from the Control Room.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 7 of 158 Answer: D Question RHR A Pump to be operated anywhere other than the circuit breaker Comments: requires DC Control power. The E12-F053A control power is 120 VAC and is available for control room operation. Based on these conditions Answer D is the only correct answer. TIER 1 GROUP 1 This is a NEW question. CFR 41.7/41.8 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00834 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-P4100 Objective: 12.6

2. CourseID: GLP-OPS-L1100 Objective: 8a KA

References:

1. 295004 AA1.02 Systems necessary to assure safe plant shutdown [3.8/4.1]

2. 295004 AA1.03 AC electrical distribution [3.4/3.6]

References:

1. E-1181 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E12: Residual Heat Removal System

2. L11: Plant DC Electical System Categories:

1. Systems Task

References:

Question Last Revised By: MikeRasch at Fri Jul 29 15:00:26 CDT 2005 Question History:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 8 of 158

1. Created by tharrelso at Thu Apr 21 09:43:45 CDT 2005

2. Modified by mrasch at Tue May 10 13:54:14 CDT 2005

3. Modified by mrasch at Tue May 24 10:10:51 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:57:01 CDT 2005

5. Modified by mrasch at Mon Jun 20 07:29:14 CDT 2005

6. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by mrasch at Wed Jul 27 16:59:35 CDT 2005

11. Modified by mrasch at Thu Jul 28 06:54:35 CDT 2005

12. Modified by tharrelso at Fri Jul 29 06:28:31 CDT 2005

13. Modified by mrasch at Fri Jul 29 15:00:26 CDT 2005

14. Question Reviewed by mellis at Thu Aug 04 07:23:44 CDT 2005

15. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 4 (1.0 Points)

The plant is operating at rated conditions when a turbine trip occurs.

Immediately following the transient, the reactor water level shrink associated with the reactor pressure change will:

A.

cause reactor water level to initially drop, then recover to a value lower than the initial level.

B.

not be seen because of the sharp drop in steam flow.

C.

not be seen because of setpoint setdown.

D.

cause reactor water level to rapidly drop and then recover to it's initial level.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 9 of 158 Answer: A Question Answer A is CORRECT because reactor water level will initially drop as Comments: the rise in reactor pressure collapses voids. When the bypass valves open to combat the reactor pressure rise, voids reform and reactor water level recovers. However, because of the setpoint setdown feature, reactor water level stabilizes at a new value lower than is normal for an operating reactor. Answer B is INCORRECT because the sharp drop in steam flow following a reactor scram reduces the void content in the reactor, resulting in a drop in reactor water level. Answer C is INCORRECT because the setpoint setdown feature, by design, will change reactor water level following a scram. Answer D is INCORRECT because reactor water level will initially drop, but setpoint setdown is designed to recover reactor water level to a value lower than the level normal for an operating reactor. This is a NEW question. TIER 1 GROUP 1 CFR 41.3/41.5/41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00835 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GG-1-LP-RO-EP02 Objective: 7a KA

References:

1. 295005 AK1.03 Pressure effects on reactor level [3.5/3.7]

References:

1. GGNS PSTG, Appendix B Pages B-6-27 and 28

2. 02-S-01-27 Step 6.6.8.k

3. Simulator and plant operating data TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Shift Technical Advisor Training Program Systems:

1. B21: Nuclear Boiler System

2. N19: Condensate System

3. N21: Feedwater System file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 10 of 158

4. N32: EHC Control System Categories:

1. Fundamentals

2. Off Normal Event Procedures

3. Operating Experience

4. Systems

5. STA Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:28:23 CDT 2005 Question History:

1. Created by tharrelso at Thu Apr 21 12:17:26 CDT 2005

2. Modified by tharrelso at Thu Apr 21 13:52:50 CDT 2005

3. Modified by mrasch at Tue May 10 13:58:26 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:57:02 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by tharrelso at Thu Jul 28 12:59:40 CDT 2005

9. Modified by tharrelso at Fri Jul 29 06:29:46 CDT 2005

10. Modified by tharrelso at Fri Jul 29 10:28:23 CDT 2005

11. Question Reviewed by mrasch at Thu Aug 04 07:21:41 CDT 2005

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 5 (1.0 Points)

In which one of the following Scram Reports can it be determined that Shutdown Margin is assured without Reactor Engineering assistance?

A.

The Mode Switch is in Shutdown, reactor power is dropping, all control rods indicate full in except four control rods indicate position 08.

B.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 11 of 158 The Mode Switch is in Shutdown, reactor power is dropping, all control rods indicate full in except forty-nine control rods indicate position 02.

C.

The Mode Switch is in Shutdown, APRMs indicate downscale, NO control rod position indication is available.

D.

The Mode Switch is in Shutdown, reactor power is dropping, all control rods indicate full in except two peripheral control rods indicates position 04.

Answer: B Question Answer A is incorrect because all control rods must be inserted to at least Comments: position 02 to ensure adequate shutdown margin. Answer B is CORRECT because all control rods are inserted to at least position 02 and by analysis, this ensures adequate shutdown margin. Answer C is incorrect because even though the APRMs indicate downscale, no control rod position indication is available. Answer D is incorrect because all control rods must be inserted to at least position 02 to ensure adequate shutdown margin. No distinction is made for lower worth peripheral control rods. This is a NEW question. TIER 1 GROUP 1 CFR 41.1/41.2/41.5/41.6/41.10/43.1/43.2/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00836 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GG-1-LP-RO-EP02 Objective: 11.0 KA

References:

1. 295006 AK1.02 Shutdown margin [3.4/3.7]

References:

1. GE SIL No. 529 dated February 19, 1991

2. GE SIL No. 529 Supplement 1dated March 14, 1997

3. Technical Specification Bases 3.1.1 TrainingPrograms:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 12 of 158

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B13: Reactor Pressure Vessel

2. C11-2: Rod Control and Information System

3. C51-5: Average Power Range Nuclear Instrumentation System Categories:

1. Emergency Procedure Training

2. FSAR

3. Mitigation of Core Damage

4. Systems

5. Technical Specifications Task

References:

Question Last Revised By: MikeRasch at Fri Jul 29 15:04:04 CDT 2005 Question History:

1. Created by tharrelso at Thu Apr 21 16:40:40 CDT 2005

2. Modified by mrasch at Tue May 10 14:00:12 CDT 2005

3. Modified by mrasch at Tue May 24 10:14:09 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:57:02 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by tharrelso at Fri Jul 29 06:31:03 CDT 2005

9. Modified by tharrelso at Fri Jul 29 10:34:48 CDT 2005

10. Modified by mrasch at Fri Jul 29 15:04:04 CDT 2005

11. Question Reviewed by mellis at Thu Aug 04 07:23:45 CDT 2005

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 6 (1.0 Points)

A small fire with heavy smoke has forced the Operations crew to abandon the Control Room before the reactor could be shutdown.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 13 of 158 Which of the following will scram the reactor from outside the Control Room?

A.

Open breakers CB3A and CB7B.

B.

Open breakers CB2A and CB8A.

C.

Open breakers CB2B and CB8B.

D.

Open breakers CB2A and CB2B.

Answer: D Question Answer A is incorrect because this will have no effect on the RPS logic.

Comments: Answer B is incorrect because opening only one division of breakers will result in only a half scram. Answer C is incorrect because opening only one division of breakers will result in only a half scram. Answer D is CORRECT because at least 1 RPS breaker in division (1 and 2) is required for full scram. This is a NEW question. TIER 1 GROUP 1 CFR 41.6/41.7/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00837 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-C7100 Objective: 5.4

2. CourseID: GLP-OPS-C7100 Objective: 6.4

3. CourseID: GLP-OPS-C7100 Objective: 5.3 KA

References:

1. 295016 AA1.01 RPS [3.8/3.9]

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 14 of 158

References:

1. 05-1-02-II-1 Step 3.3

2. E-1173-014 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. C61: Remote Shutdown System

2. C71: Reactor Protection System Categories:

1. Off Normal Event Procedures

2. Systems Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:39:06 CDT 2005 Question History:

1. Created by tharrelso at Fri Apr 22 09:41:15 CDT 2005

2. Modified by mrasch at Tue May 10 14:01:49 CDT 2005

3. Modified by mrasch at Tue May 24 10:30:20 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:57:03 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Modified by mrasch at Fri Jul 01 12:10:03 CDT 2005

8. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by tharrelso at Fri Jul 29 06:38:02 CDT 2005

11. Modified by tharrelso at Fri Jul 29 10:39:06 CDT 2005

12. Question Reviewed by mrasch at Thu Aug 04 07:21:06 CDT 2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 15 of 158 EB QUESTION: 7 (1.0 Points)

The plant is operating at rated conditions when a rupture on the discharge header of the Component Cooling Water (CCW) System results in a complete loss of CCW.

Which of the following would be affected by the loss of CCW?

A.

Control Rod Drive Hydraulic pump oil temperatures.

B.

Reactor Water Clean Up containment penetration temperatures.

C.

Ambient Drywell temperatures.

D.

RHR A pump seal temperatures.

Answer: A Question The only component cooled by CCW listed in the answers is CRD pump Comments: lube oil. Drywell cooling is from Drywell Chilled Water. The RWCU penetration are cooled by Plant Chilled Water. RHR A pump seal is cooled by SSW A.Therefore A is the only correct answer. This is a NEW question. TIER 1 GROUP 1 CFR 41.4/41.5/41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00838 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-ONEP Objective: 2.0

2. CourseID: GLP-OPS-P4200 Objective: 10 KA

References:

1. 295018 AK1.01 Effects on component/system operations [3.5/3.6]

References:

1. 05-1-02-V-1 Section 4.0 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 16 of 158 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program Systems:

1. B33: Reactor Recirculation System

2. C11-1A: CRD Hydraulic System

3. G33: Reactor Water Cleanup

4. P42: Component Cooling Water System Categories:

1. Off Normal Event Procedures

2. Systems Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 10:47:33 CDT 2005 Question History:

1. Created by tharrelso at Fri Apr 22 11:04:55 CDT 2005

2. Modified by tharrelso at Fri Apr 22 13:11:21 CDT 2005

3. Modified by mrasch at Tue May 24 08:02:55 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:57:03 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Modified by mrasch at Fri Jul 01 15:38:53 CDT 2005

8. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by mrasch at Thu Jul 28 07:29:23 CDT 2005

11. Modified by tharrelso at Fri Jul 29 09:52:03 CDT 2005

12. Modified by tharrelso at Fri Jul 29 09:53:32 CDT 2005

13. Modified by tharrelso at Fri Jul 29 09:59:16 CDT 2005

14. Modified by tharrelso at Fri Jul 29 10:01:13 CDT 2005

15. Question Reviewed by mrasch at Thu Aug 04 07:21:47 CDT 2005

16. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

17. Modified by mrasch at Tue Aug 09 10:47:33 CDT 2005

18. Question Reviewed by mellis at Tue Aug 09 11:59:49 CDT 2005 Comments:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 17 of 158 EB QUESTION: 8 (1.0 Points)

Unit I Instrument Air Compressor is tagged out for maintenance and the Unit II Instrtument Air Compressor just failed.

With NO operator action the minimum Instrument Air pressure the operator would expect to see is approximately:

A.

80-85 psig B.

90-95 psig C.

100-105 psig D.

110-115 psig Answer: B Question As instrument air pressure lowers, it will eventually reach the setpoint Comments: for auto opening of the service air to instrument air cross tie valve. Once this valve opens service air wil maintain instrument air pressure at approximately 90 psig per the loss of Instrument Air ONEP. Tier 1 Group 1 This is a NEW question. CFR 41.4/41.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00548 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-P5300 Objective: 4 KA

References:

1. 295019 AA2.01 Instrument air system pressure [3.5/3.6]

2. 295019 AA1.01 Backup air supply [3.5/3.3]

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 18 of 158

1. M-1068D

2. 05-1-02-V-9 section 3.2.3 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. P52: Service Air System

2. P53: Instrument Air System Categories:

1. Systems Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:41:54 CDT 2005 Question History:

1. No exam history found for this question during conversion. Converted from MSWord on Tue May 25 14:16:50 CDT 2004

2. Imported at Tue May 25 14:24:22 CDT 2004

3. Modified by tharrelso at Thu Apr 28 08:20:24 CDT 2005

4. Modified by mrasch at Tue May 24 11:11:40 CDT 2005

5. Question Reviewed by mellis at Tue May 31 14:57:00 CDT 2005

6. Modified by mrasch at Thu Jun 09 16:38:33 CDT 2005

7. Modified by jbell at Thu Jun 16 16:51:16 CDT 2005

8. Modified by mrasch at Mon Jun 20 07:45:31 CDT 2005

9. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

12. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

13. Modified by mrasch at Thu Jul 28 07:51:00 CDT 2005

14. Modified by mrasch at Thu Jul 28 08:28:06 CDT 2005

15. Modified by tharrelso at Fri Jul 29 10:41:54 CDT 2005

16. Question Reviewed by mrasch at Thu Aug 04 07:21:22 CDT 2005

17. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 19 of 158 EB QUESTION: 9 (1.0 Points)

The plant is in Mode 4 and all forced circulation has been lost.

Which of the following is the reason for raising reactor water level to +82 inches per 05-1-02-III-1, Inadequate Decay Heat Removal?

A.

This is the indicated level required to establish flow through open Safety Relief Valves to the Suppression Pool.

B.

This is the indicated level required to establish alternate cooling using the Reactor Water Cleanup system.

C.

This is the indicated level used in the FSAR accident analysis for the "Loss of Forced Circulation" Time to Boil Curves.

D.

This is the indicated level required to allow natural circulation through the core and feedwater annulus.

Answer: D Question Answer A is INCORRECT because the indicated level required to Comments: establish flow through open safety relief valves to the suppression pool is between +101 to 129 inches. Answer B is INCORRECT because the Reactor Water Cleanup System can be used as an alternate cooling method at normal water level. Answer C is INCORRECT because each Time to Boil Curve specifies the initial conditions of time after shutdown and RPV level for thier valid analysis. Answer D is CORRECT because this is the level at which sufficient driving head exists to establish natural circulation through the core. Tier 1 Group 1 MODIFIED idWRI 515 NRC Exam June 2001 Question 33 10CFR 41.5/41.10/41.14/42.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00078a Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 20 of 158 Objectives:

1. CourseID: GLP-OPS-ONEP Objective: 2.0

2. CourseID: GLP-OPS-ONEP Objective: 20.0

3. CourseID: GLP-OPS-B1300 Objective: 5.12

4. CourseID: GLP-OPS-B3300 Objective: 42.0 KA

References:

1. 295021 AK3.01 Raising reactor water level [3.3/3.4]

References:

1. 05-1-02-III-1, Inadequate Decay Heat Removal Step 3.3.2 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program Systems:

1. B13: Reactor Pressure Vessel

2. B21: Nuclear Boiler System

3. E12: Residual Heat Removal System Categories:

1. Off Normal Event Procedures

2. Systems Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:43:27 CDT 2005 Question History:

1. Created by tharrelso at Mon Apr 25 10:18:40 CDT 2005

2. Created by tharrelso at Mon Apr 25 10:18:40 CDT 2005 from parent QuestionID GGNS-NRC-00078

3. Modified by mrasch at Tue May 24 08:31:58 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:56:57 CDT 2005

5. Modified by mrasch at Thu Jun 09 16:16:34 CDT 2005

6. Modified by mrasch at Thu Jun 09 16:37:24 CDT 2005

7. Modified by mrasch at Thu Jun 09 16:39:33 CDT 2005

8. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 21 of 158 Date: 08/12/2005

11. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

12. Modified by tharrelso at Fri Jul 29 10:43:27 CDT 2005

13. Question Reviewed by mrasch at Thu Aug 04 07:20:36 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 10 (1.0 Points)

In Mode 5 during a Shutdown Margin Demonstration (SMD), which one of the following would be the immediate concern in the event of inadvertent criticality?

A.

Unplanned mode change B.

Fuel damage C.

Inadequate decay heat removal D.

High in-plant dose Answer: D Question Answer D is CORRECT because of the near proximity of workers in the Comments: drywell and on 208 of containment relative to the reactor core during a refueling outage. Localized criticality would raise dose rates in the drywell and possibly within line of sight of the core on elev. 208 of containment.

Procedural guidance clearly prioritizes dose rate monitoring for an inadvertent criticality event. Answer A is INCORRECT since in Mode 5, a mode change is not made based on the effects of criticality, rising flux or coolant temperature, but only by Reactor Mode Switch position. Answer B is INCORRECT because any postulated criticality would be localized, not global, since control rod density would be ~99% for the SMD. Also, IRMs would generate a rod block and/or scram to limit the power excursion.

Manual control rod insertion or system interlocks would mitigate the local power rise. Answer C is INCORRECT due to the lengthy amount of time it would take for the large volume of reactor coolant during Mode 5 to reach file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 22 of 158 a temperature of significant concern. Other methods of decay heat removal could be placed in service during that time. Moreover, the control rod(s) withdrawn for the SDM would be quickly inserted to terminate the event. Tier 1 Group 1 This is a NEW Question. 10CFR 41.1/41.12/43.4/43.6 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00848 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-PROC Objective: 8.30 KA

References:

1. 295023 AK1.03 Inadvertent criticality [3.7/4.0]

References:

1. 01-S-06-2 step 6.7.12

2. FSAR 15.4.1.1.4 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. J11: Reactor Fuel Categories:

1. Off Normal Event Procedures

2. Refueling Training

3. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 10:50:27 CDT 2005 Question History:

1. Created by mrasch at Thu Jun 09 16:52:06 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 23 of 158

2. Modified by mrasch at Mon Jun 20 07:47:42 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Fri Jul 29 10:44:56 CDT 2005

8. Modified by mrasch at Fri Jul 29 15:07:01 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:23:47 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

11. Modified by mrasch at Tue Aug 09 10:50:27 CDT 2005

12. Question Reviewed by mellis at Tue Aug 09 11:59:51 CDT 2005 Comments:

EB QUESTION: 11 (1.0 Points)

The plant is operating at 100% power when a spurious Division 1 ECCS initiation occurs.

Drywell pressure is rising due to Drywell Purge Compressor operation.

What must be reset first to perform a normal shutdown of Drywell Purge Compressor A?

A.

Division 1 Load Shedding and Sequencing panel B.

Division 1 Combustible Gas Control System logic C.

Division 1 Containment/Drywell isolation logic D.

Division 1 ECCS logic Answer: D Question Answer A is incorrect because the LSS LOCA initiation signal originates Comments: from ECCS Logic. Answer B is incorrect because CGCS initiation logic LOCA signal originates from the ECCS logic. Answer C is incorrect file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 24 of 158 because the CGCS and ECCS logics are separate from Containment isolation logic. Answer D is CORRECT because it is the top tier logic.

Tier 1 Group 1 This is a NEW question. 10CFR 41.5/41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00849 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E6100 Objective: 6.8, 19.0 KA

References:

1. 295024 Generic 2.1.23: 3.9/4.0

References:

1. 17-S-06-5 Att. I pgs 3, 4; Att. II pgs 16,19,21,27,37,38

2. 04-1-01-E12-1 Att. IX

3. M-1077B TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E12: Residual Heat Removal System

2. E61: Combustible Gas Control System

3. M71: Containment and Drywell Instrumentation System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Fri Jul 29 15:08:57 CDT 2005 Question History:

1. Created by mrasch at Thu Jun 09 17:02:20 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 25 of 158

2. Modified by mrasch at Mon Jun 20 13:33:34 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Wed Jul 27 15:19:10 CDT 2005

8. Modified by tharrelso at Fri Jul 29 10:45:38 CDT 2005

9. Modified by tharrelso at Fri Jul 29 10:46:10 CDT 2005

10. Modified by tharrelso at Fri Jul 29 10:52:43 CDT 2005

11. Modified by mrasch at Fri Jul 29 15:08:57 CDT 2005

12. Question Reviewed by mellis at Thu Aug 04 07:23:47 CDT 2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 12 (1.0 Points)

Which one of the following describes the reason for automatic actuation of Alternate Rod Insertion (ARI) in response to rising reactor pressure?

A.

ARI acts independently of RPS to insert control rods during conditions that should have resulted in a reactor scram.

B.

ARI utilizes the RPS trip units to provide an alternate vent path for the scram air header as a backup to RPS.

C.

ARI anticipates a reactor scram and assists RPS by establishing alternate vent paths for the scram air header.

D.

ARI acts in conjunction with the Recirculation pumps to prevent exceeding the RPV pressure safety limit.

Answer: A Question Answer A is CORRECT because ARI is an independent system to RPS Comments: which utilizes separate B21 trip units to open three independent vent paths in the event reactor pressure exceeds the 1064.7 psig scram file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 26 of 158 setpoint. The ARI setpoint is at 1126 psig which is sufficiently above the scram setpoint to minimize inadvertent trips. Answer B is incorrect because ARI uses separate B21 trip units from those used by RPS.

Answer C is incorrect because ARI actuation setpoint is higher than the RPS actuation. Answer D is incorrect because the Safety Relief Valves will prevent challenging the RPV Pressure Safety Limit. TIER 1 GROUP 1 This is a NEW question. CFR 41.5/41.6 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00690 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-C111A Objective: 3.13 KA

References:

1. 295025 EK3.06 Alternate rod insertion: Plant-Specific [4.2/4.4]

References:

1. UFSAR 4.6.1.1.1.1.1(d)

2. UFSAR 4.6.1.1.2.4.5 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C11-1A: CRD Hydraulic System Categories:

1. Systems Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:55:25 CDT 2005 Question History:

1. Used on NRC 2004 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 27 of 158

2. Converted from MSWord on Wed May 26 18:04:19 CDT 2004

3. Imported at Wed May 26 18:04:47 CDT 2004

4. Modified by tharrelso at Wed Apr 27 13:41:14 CDT 2005

5. Modified by mrasch at Tue May 10 13:47:54 CDT 2005

6. Question Reviewed by mellis at Tue May 31 14:57:00 CDT 2005

7. Modified by mrasch at Mon Jun 20 06:38:30 CDT 2005

8. Modified by mrasch at Mon Jun 20 10:58:22 CDT 2005

9. Modified by mrasch at Mon Jun 20 12:49:23 CDT 2005

10. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

11. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

13. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

14. Modified by mrasch at Wed Jul 27 11:30:12 CDT 2005

15. Modified by mrasch at Wed Jul 27 14:15:49 CDT 2005

16. Modified by tharrelso at Fri Jul 29 10:55:25 CDT 2005

17. Question Reviewed by mrasch at Thu Aug 04 07:21:28 CDT 2005

18. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 13 (1.0 Points)

Which one of the following is the basis to emergency depressurize the RPV prior to exceeding the Heat Capacity Temperature Limit (HCTL) of the Suppression Pool?

A.

The emergency depressurization adds negative reactivity to the core and thereby reduces the total energy addition into the containment.

B.

Prevent introduction of energy into the suppression pool at a rate that exceeds the energy removal rate of plant systems.

C.

Emergency depressurizing the RPV prior to exceeding HCTL ensures the ECCS pumps will maintain NPSH if required to operate.

D.

Prevent exceeding containment pressure and temperature limits in the event emergency depressurization is required.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 28 of 158 Answer: D Question HCTL requires emergency depressurization of the RPV in the event Comments: conditions are in the UNSAFE region to protect equipment in the pressure suppression chamber (Containment) from the maximum temperature and pressure capability per the PSTGs. Therefore Answer D is the only correct answer. Answer B is incorrect because it says when the reactor is still pressurized. Tier 1 Group 1 This is a NEW question.

10CFR55. 41.9 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00840 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 3 Objectives:

1. CourseID: GG-1-LP-RO-EP02A Objective: 2

2. CourseID: GG-1-LP-RO-EP02A Objective: 5 KA

References:

1. 295026 EK3.01 Emergency/normal depressurization [3.8/4.1]

References:

1. GGNS PSTG App. B 17.5 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. M41-1: Containment Categories:

1. Emergency Procedure Training

2. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:17:42 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 29 of 158 Question History:

1. Created by tharrelso at Mon May 02 07:18:33 CDT 2005

2. Modified by mrasch at Tue May 10 14:19:27 CDT 2005

3. Question Reviewed by mellis at Tue May 31 14:57:04 CDT 2005

4. Modified by jbell at Fri Jun 17 14:31:55 CDT 2005

5. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Thu Jul 28 09:50:15 CDT 2005

10. Modified by tharrelso at Fri Jul 29 06:53:01 CDT 2005

11. Modified by tharrelso at Fri Jul 29 07:46:38 CDT 2005

12. Modified by mellis at Fri Jul 29 12:13:17 CDT 2005

13. Modified by mellis at Fri Jul 29 12:16:15 CDT 2005

14. Modified by mellis at Fri Jul 29 12:17:42 CDT 2005

15. Question Reviewed by mrasch at Thu Aug 04 07:21:53 CDT 2005

16. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 14 (1.0 Points)

ATWS conditions exist.

Average Containment temperature is 187°F and slowly rising.

Suppression Pool temperature is 147°F and rising.

Suppression Pool level is 20 feet and rising.

Which one of the following describes the action that should be taken to control Containment parameters?

A.

Vent the Containment B.

Emergency depressurize the reactor C.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 30 of 158 Operate all containment coolers utilizing EP Attachment 7 D.

Initiate Containment Spray Answer: B Question Answer A is incorrect since the vent path for EP attachment 14 is isolated Comments: and cannot be opened under the listed conditions.Answer B is correct since EP-3 step 28 requires emergency depressurization if containment temperature cannot be restored below 185°F. Containment temperature cannot be restored below 185°F since P71 is isolated to the containment under these conditions, so normal containment cooling is unavailable.

Answer C is incorrect since operation of containment coolers without P71 as a heat sink would be ineffective. Answer D is incorrect since EP-3 Step 29 requires emergency depressurization and any other action would be inappropriate. Tier 1 Group 1 This is a NEW question. 10 CFR 41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00844 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GG-1-LP-RO-EP03 Objective: 3 KA

References:

1. 295027 EA1.03 Emergency depressurization: Mark-III [3.5/3.8]

References:

1. PSTG B 7-19

2. 05-S-01-EP-3 Step 29 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 31 of 158

1. E12: Residual Heat Removal System

2. M41-1: Containment Categories:

1. Emergency Procedure Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:18:13 CDT 2005 Question History:

1. Created by mrasch at Mon May 16 15:27:06 CDT 2005

2. Question Reviewed by mellis at Tue May 31 14:57:04 CDT 2005

3. Modified by mrasch at Fri Jun 10 07:59:51 CDT 2005

4. Modified by mrasch at Mon Jun 20 13:35:23 CDT 2005

5. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

8. Modified by mrasch at Mon Jul 11 08:11:54 CDT 2005

9. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Modified by tharrelso at Wed Jul 27 13:39:49 CDT 2005

12. Modified by tharrelso at Wed Jul 27 13:44:08 CDT 2005

13. Modified by tharrelso at Fri Jul 29 07:08:25 CDT 2005

14. Modified by mellis at Fri Jul 29 12:18:13 CDT 2005

15. Question Reviewed by mrasch at Thu Aug 04 07:21:57 CDT 2005

16. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 15 (1.0 Points)

A LOCA occurred, the following conditions exist:

Drywell temperature at the 166 foot elevation is 200 degrees F.

Reactor Recirc Pumps are off.

Reactor pressure is 600 psig.

Containment temperature at the 139 foot elevation is 95 degrees F.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 32 of 158 If the above conditions remain stable, the Wide Range Reactor Water Level instrument:

CAUTION 1 of EP-2 is provided.

A.

is limited to use below -130 inches indicated level but will indicate higher than actual water level.

B.

can be used as long as it is on scale but will indicate higher than actual water level.

C.

is limited to use above -130 inches indicated level but will indicate higher than actual water level.

D.

can be used as long as it is on scale but will indicate lower than actual water level.

Answer: B Question Answer A is incorrect because since the RPV Saturation Curve is still Comments: safe, the instrument is allowed full use as long as the instrument tracks per the Operations Philosphy. Answer B is CORRECT because the elevated temperature of the reference leg will cause the instrument to read higher than actual and Operations Philosophy allows its use.

Answer C is incorrect because Operations Philosophy allows full use of the instrument as long as it tracks even with the elevated reference leg temperatures. Answer D is incorrect because indicated level will be higher than acutal level. Tier 1 Group 1 This is a NEW question. 10CFR 41.7/41.10/43.5 Image

Reference:

None Open Reference Question Handout Required with Exam QuestionID: GGNS-NRC-00845 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 4 Objectives:

1. CourseID: GG-1-LP-RO-EP02 Objective: 3

2. CourseID: GLP-OPS-PROC Objective: 59.3 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 33 of 158 KA

References:

1. 295028 EK1.02 Equipment environmental qualification [2.9/3.1]

References:

1. 05-S-01-EP-2 Caution 1

2. 02-S-01-27 section 6.1.8 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B21: Nuclear Boiler System Categories:

1. Emergency Procedure Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:18:58 CDT 2005 Question History:

1. Created by mrasch at Mon May 16 15:36:22 CDT 2005

2. Modified by mrasch at Mon May 16 15:54:53 CDT 2005

3. Question Reviewed by mellis at Tue May 31 14:57:05 CDT 2005

4. Modified by mrasch at Fri Jun 10 08:04:08 CDT 2005

5. Modified by mrasch at Mon Jun 13 13:12:39 CDT 2005

6. Modified by mrasch at Thu Jun 16 12:51:16 CDT 2005

7. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

10. Modified by mrasch at Mon Jul 11 08:46:21 CDT 2005

11. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

12. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

13. Modified by mrasch at Wed Jul 27 13:21:06 CDT 2005

14. Modified by mrasch at Wed Jul 27 13:30:51 CDT 2005

15. Modified by mrasch at Wed Jul 27 14:16:09 CDT 2005

16. Modified by mellis at Fri Jul 29 12:18:58 CDT 2005

17. Question Reviewed by mrasch at Thu Aug 04 07:22:03 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 34 of 158

18. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 16 (1.0 Points)

The reactor is at rated conditions.

An RO is performing the daily Technical Specification surveillance rounds.

A Suppression Pool Limiting Condition for Operation (LCO) would require entry per the technical specifications if:

A.

One narrow range Suppression Pool level recorder pen on H13-P870 is stuck.

B.

Suppression Pool Average Temperature is 93 degrees F.

C.

Suppression Pool Water Level is 18 feet 2 inches.

D.

Suppression Pool Water Level is 18 feet 8 inches.

Answer: C Question TS 3.6.2.1 Suppression Pool Average Temperature limit is 95 degrees F.

Comments: TS 3.6.2.2 Suppression Pool Level must be between 18 feet 4 1/2 inches and 18 feet 9 3/4 inches. TR3.6.2.2 for Suppression Pool Level Alarms and TS 3.3.3.1 Post Accident monitoring are Instrumentation Specifications not affecting the operability of the Suppression Pool itself.

Therefore Answer C is the only correct answer. Tier 1 Group 1 This is a NEW question. 10 CFR 41.9/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00846 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 3 Objectives:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 35 of 158

1. CourseID: GLP-OPS-M4101 Objective: 11 KA

References:

1. 295030

2. GENERIC 2.2.12 Knowledge of surveillance procedures [3.0/3.4]

References:

1. TS3.3.3.1

2. TS3.6.2.1

3. TS3.6.2.2

4. TR3.6.2.2 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. M41-1: Containment Categories:

1. Administrative Requirements

2. Systems

3. Technical Specifications Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 10:51:21 CDT 2005 Question History:

1. Created by mrasch at Mon May 16 15:53:01 CDT 2005

2. Question Reviewed by mellis at Tue May 31 14:57:05 CDT 2005

3. Modified by mrasch at Fri Jun 10 08:09:11 CDT 2005

4. Modified by mrasch at Mon Jun 20 13:37:44 CDT 2005

5. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

8. Modified by mrasch at Tue Jul 12 15:41:48 CDT 2005

9. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 36 of 158

11. Modified by mrasch at Thu Jul 28 08:26:37 CDT 2005

12. Modified by tharrelso at Fri Jul 29 07:14:44 CDT 2005

13. Modified by tharrelso at Fri Jul 29 07:15:16 CDT 2005

14. Modified by mellis at Fri Jul 29 12:19:43 CDT 2005

15. Question Reviewed by mrasch at Thu Aug 04 07:22:07 CDT 2005

16. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

17. Modified by mrasch at Tue Aug 09 10:51:21 CDT 2005

18. Question Reviewed by mellis at Tue Aug 09 11:59:49 CDT 2005 Comments:

EB QUESTION: 17 (1.0 Points)

Following a reactor scram on high Drywell pressure, RPV water level initially dropped to - 20 inches on wide range.

HPCS automatically initiated.

As level was being restored, the HS for the HPCS Pump was stopped and the HPCS Injection Valve E22-F004 was taken to close.

RPV level is now +60 inches Narrow Range and Drywell pressure is 1.5 psig.

In this situation, if the HPCS INIT RESET pushbutton is depressed, the:

A.

HPCS pump will auto start immediately but the HPCS Injection Valve E22-F004 will have to be opened using the handswitch.

B.

HPCS pump will auto start immediately and the HPCS Injection Valve E22-F004 will automatically open.

C.

HPCS pump will auto start after reactor water level drops below Level 2.

D.

HPCS pump will auto start after reactor water level drops below Level 8.

Answer: C Question Answer A is incorrect because depressing HPCS INIT RESET would Comments: reset the initiation signal and override high drywell pressure. HPCS pump would not auto start until -41.6 in. level was reached. Answer B is file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 37 of 158 incorrect because the HPCS HI LVL RESET push button does not bypass high level but only resets the seal in when level falls below 53.5 in.. Answer C is CORRECT because the High Drywell pressure signal is bypassed such that HPCS is reset to a standby condition and will auto initiate on level 2. Answer D is incorrect because depressing HPCS INIT RESET would reset the initiation signal and override high drywell pressure the system will remain in standby until level 2 is reached. Tier 1 Group 1 This is a NEW question. 10CFR 41.7/41.8 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00847 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E2200 Objective: 9.3

2. CourseID: GLP-OPS-E2200 Objective: 9.4

3. CourseID: GLP-OPS-E2200 Objective: 20

4. CourseID: GLP-OPS-E2200 Objective: 21 KA

References:

1. 295031 EA1.04 High pressure core spray: Plant-Specific [4.3/4.2]

References:

1. E-1183-03

2. E-1183-23

3. E-1188-19 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E22-1: High Pressure Core Spray System Categories:

1. Systems

2. Continuing Training file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 38 of 158 Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 16:10:27 CDT 2005 Question History:

1. Created by mrasch at Mon May 16 16:08:02 CDT 2005

2. Question Reviewed by mellis at Tue May 31 14:57:06 CDT 2005

3. Modified by mrasch at Thu Jun 09 17:22:58 CDT 2005

4. Modified by jbell at Thu Jun 16 16:52:57 CDT 2005

5. Modified by mrasch at Mon Jun 20 13:38:53 CDT 2005

6. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by mrasch at Thu Jul 28 08:44:45 CDT 2005

11. Modified by tharrelso at Fri Jul 29 07:21:21 CDT 2005

12. Modified by mellis at Fri Jul 29 12:21:05 CDT 2005

13. Question Reviewed by mrasch at Thu Aug 04 07:22:11 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

15. Modified by mrasch at Tue Aug 09 10:52:52 CDT 2005

16. Question Reviewed by mellis at Tue Aug 09 11:59:50 CDT 2005

17. Modified by mrasch at Tue Aug 09 16:10:27 CDT 2005

18. Question Reviewed by mellis at Tue Aug 09 16:14:20 CDT 2005 Comments:

EB QUESTION: 18 (1.0 Points)

The plant has experienced a transient and currently:

Reactor power stabilized at 8% following the reactor scram.

MSIVs are open.

RPV water level is - 20 inches and lowering.

Offsite power is available.

In this situation, the EOPs direct the operators to defeat the low level auto closure of the MSIVs.

One of the bases for this direction is to:

A.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 39 of 158 facilitate a reactor plant cooldown to 200 degrees F.

B.

prevent the requirement of injection of Standby Liquid Control.

C.

keep the main condenser available to reduce the probability of exceeding the HCTL.

D.

keep the Turbine Bypass Valves available in the event a rapid depressurization is required.

Answer: C Question The MSIVs are kept open in order to keep the Main Condenser Comments: available as a heat sink and maintain Condensate and Feedwater available. This reduces the heat input into the containment and minimizes the probability of exceeding the HCTL. This makes Answer C correct. Tier 1 Group 1 This is a NEW question. 10CFR 41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00850 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GG-1-LP-RO-EP02A Objective: 5 KA

References:

1. 295037 EK3.06 Maintaining heat sinks external to the containment [3.8/4.1]

References:

1. EP-2A STEP 40

2. PSTG pg B-14-13 TrainingPrograms:

1. Reactor Operator Training Program file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 40 of 158

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

Categories:

1. Emergency Procedure Training

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 07:22:09 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 08:18:07 CDT 2005

2. Modified by jbell at Thu Jun 16 16:54:03 CDT 2005

3. Modified by mrasch at Mon Jun 20 07:58:06 CDT 2005

4. Modified by mrasch at Mon Jun 20 13:40:07 CDT 2005

5. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Thu Jul 28 09:08:20 CDT 2005

10. Modified by tharrelso at Fri Jul 29 07:22:09 CDT 2005

11. Question Reviewed by mrasch at Thu Aug 04 07:22:21 CDT 2005

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 19 (1.0 Points)

A radioactive liquid leak has formed a puddle inside the protected area fence.

Eventually, the puddle flowed under the protected area fence, into a storm drain, and then into a waterway.

This would be considered a liquid effluent release when the radioactive water:

A.

initially started to leak.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 41 of 158 B.

crossed the protected area fence.

C.

entered the storm drain.

D.

entered the waterway.

Answer: B Question Answer B is correct because because the protected area fence is Comments: considered to be the boundary between onsite and offsite with respect to releases. Answer A is incorrect because it is not transgressed outside the protected area fence. is Answers C, and D are incorrect because the areas listed in those answers are well beyond the protected area fence, which would be crossed by the liquid first, before reaching the other listed locations. Tier 1 Group 1 This is a NEW question. 10CFR 41.10/41.13/43.4/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00851 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-TS001 Objective: 34 KA

References:

1. 295038 EA2.01 Off-site [3.3/4.3]

References:

1. TS6.11.1 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 42 of 158 Categories:

1. Technical Specifications

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:15:30 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 08:24:53 CDT 2005

2. Modified by mrasch at Mon Jun 20 13:42:54 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 09:14:56 CDT 2005

8. Modified by tharrelso at Fri Jul 29 10:15:30 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:22:25 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 20 (1.0 Points)

Which one of the following operator actions is required in relation to a fire inside the protected area?

A.

If a fire is reported in the Division 3 Diesel Generator room, start the Division 3 Diesel Generator Room Outside Air Fan from 1H13-P870.

B.

If a fire occurs in the Upper Cable Spreading Room, always place Transfer Switch for Lockout Transfer Relay C61-HSS-M150 at 1H22-P152 to ON.

C.

Before manning the Remote Shutdown Panel due to a fire in the Main Control Room, defeat the Division 3 Switchgear Room CO2 system.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 43 of 158 D.

If a fire occurs in the Main Control Room, secure the Control Building Fan Coil Unit, Z17-B002.

Answer: C Question Answer A is incorrect because the fan in the room with the fire is Comments: required to be stopped by 04-1-01-P81-1 step 3.14. 04-1-01-P81-1 step 3.14 Answer B is incorrect because it is not required by 05-1-02-II-1 step 3.5.1 for a fire outside the main control room. Answer C is correct because it is required by 05-1-02-II-1 step 3.4.1. Answer D is incorrect because the control room is not an area listed in 10-S-03-2 step 6.2.2f requiring Z17-B002 to be secured, since that does not directly serve the control room. Tier 1 Group 1 This is a NEW question. 10 CFR 41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00852 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-PROC Objective: 67.3 KA

References:

1. 600000 AK3.04 Actions contained in the abnormal procedure for plantfire on site

[2.8/3.4]

References:

1. 04-1-01-P81-1 step 3.14

2. 05-1-02-II-1 Steps 3.4.1; 3.5.1

3. 10-S-03-2 Step 6.2.2.f TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. P64: Fire Water Protection System file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 44 of 158 Categories:

1. Administrative Requirements

2. Emergency Plan Training

3. Off Normal Event Procedures

4. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:09:05 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 08:33:06 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by tharrelso at Thu Jul 28 08:02:53 CDT 2005

7. Modified by tharrelso at Fri Jul 29 10:09:05 CDT 2005

8. Question Reviewed by mrasch at Thu Aug 04 07:22:28 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 21 (1.0 Points)

The plant is operating at 20% power when a loss of condenser vacuum occurred due to air inleakage.

What will be the first cause of a direct reactor scram as condenser vacuum slowly lowers?

A.

Main Turbine Trip B.

Low Reactor water level C.

High Reactor Water Level file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 45 of 158 D.

Group 1 isolation Answer: B Question Answer A is incorrect because the Main Turbine Trip Scram signals are Comments: bypassed. Answer B is CORRECT because the reactor feed pump turbine trip will cause reactor level to drop causing a Level 3 Scram signal. Answer C is incorrect because the reactor will drop when the RFPTs trip. Answer D is incorrect because the reactor will scram on low water level well before the MSIV closure setpoint of 9Hg vacuum is reached. Tier 1 Group 2 This is a NEW question. 10 CFR 41.4/41.5/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00854 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-ONEP Objective: 39.0

2. CourseID: GLP-OPS-C7100 Objective: 9; 10 KA

References:

1. 295002 AK2.01 RPS [3.5/3.5]

References:

1. 05-1-02-V-8 Section 5.0

2. Tech Spec Bases B3.3.1.1 Functions 9; 10 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C71: Reactor Protection System

2. N62: Condenser Air Removal System Categories:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 46 of 158

1. Off Normal Event Procedures

2. Systems

3. Technical Specifications

4. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Wed Jul 27 15:25:51 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 08:55:35 CDT 2005

2. Modified by mrasch at Mon Jun 20 13:43:36 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Wed Jul 27 15:25:51 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:23:48 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 22 (1.0 Points)

The plant was at the end of the current operating cycle following a 400 day run when the plant was scrammed due to bus 15AA lockout.

SRVs are being used for reactor pressure control.

The time estimated to restore bus 15AA is 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br />.

Which one of the following should be performed to control reactor pressure?

A.

Install nitrogen bottles on the Instrument Air header supply to the ADS air receivers in the Auxiliary Building.

B.

Bypass the MSIVs and bleed reactor pressure to the Main Condenser through the Main Steam drains from the control room.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 47 of 158 C.

Allow Low-Low Set function of the SRVs to maintain pressure by cycling only two SRVs.

D.

Install air jumpers in the Auxiliary Building to open Instrument Air Isolation valves restoring Instrument Air to the SRV receivers .

Answer: A Question This task is performed by Non-Licensed Operators and Mechanics in the Comments: Auxiliary Building to supply air (nitrogen) to the ADS valves for reactor pressure control. Answer A is CORRECT since the estimated time to restore bus 15AA and restore instrument air to supply SRVs exceeds the 6 hour6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> limit in the referenced plant procedures. This installs Nitrogen bottles to ADS receivers allowing them to be used for pressure control.

Answer B is incorrect because the loss of bus 15AA prevents opening the Secondary Containment Isolation Air Operated Valves. Answer C is incorrect because the air supply for the Non-ADS SRVs would be exhausted after a short period of time. Answer D is incorrect because would require work instructions to control installation of air jumpers and defeat secondary containment. GGNS Scram April 2003 Tier 1 Group 2 This is a NEW question. 10 CFR 41.4/41.7/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00855 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-ONEP Objective: 2.0

2. CourseID: GG-1-LP-RO-EP02A Objective: 5; 6 KA

References:

1. GENERIC 2.4.35 Knowledge of local auxiliary operator tasks during emergency operations [3.3/3.5]

2. 295007

References:

1. 05-S-01-EP-2 Att 7 Step 2.4

2. EP-2A Steps 40; 54

3. 05-1-02-V-9 Step 3.12

4. 05-1-02-I-4 Step 3.2.4 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 48 of 158 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. E22-2: Automatic Depressurization System

2. P53: Instrument Air System Categories:

1. Emergency Procedure Training

2. Off Normal Event Procedures

3. Systems

4. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Wed Jul 27 16:32:16 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:04:56 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Mon Jul 11 09:39:57 CDT 2005

6. Modified by mrasch at Wed Jul 13 09:05:11 CDT 2005

7. Modified by mrasch at Wed Jul 13 10:19:52 CDT 2005

8. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by mrasch at Tue Jul 26 13:33:20 CDT 2005

11. Modified by mrasch at Tue Jul 26 15:41:35 CDT 2005

12. Modified by mrasch at Wed Jul 27 16:32:16 CDT 2005

13. Question Reviewed by mellis at Thu Aug 04 07:23:49 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 23 (1.0 Points) file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 49 of 158 A three (3) rod out ATWS condition exists with MSIVs closed.

Instrument Air is in normal lineup to the Containment and Drywell.

Which one of the following describes the use of SRVs to control reactor pressure?

A.

Allow Low-Low Set to cycle under these conditions.

B.

If there is only one leaking/weeping SRV, as designated by a colored key, only that SRV should be used.

C.

Only non-ADS SRVs should be used to preserve ADS Air Receiver pressure, and they should be rotated.

D.

Only ADS SRVs should be used, and they should be rotated.

Answer: C Question Answer A is incorrect because low-low set is not allowed during an Comments: ATWS, as defined by being in EP-2A. Answer B is incorrect because use of only 1 SRV is limited to situations when suppression pool cooling is in service for pool circulation. Answer C is correct because non-ADS valves are specifically preferred when instrument air is available and rotation is required since Suppression Pool Cooling is not in service. Answer D is incorrect because ADS valves are specifically preferred only when instrument air is unavailable. Tier 1 Group 2 This is a NEW question. 10 CFR 41.3/41.7/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00856 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-PROC Objective: 59.3

2. CourseID: GLP-OPS-B1300 Objective: 14.1; 14.2 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 50 of 158 KA

References:

1. 295013 AA2.02 Localized heating/stratification [3.2/3.5]

References:

1. 04-1-01-B21-1 Step 4.2.2c

2. 02-S-01-27 Step 6.2.4 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E22-2: Automatic Depressurization System Categories:

1. Emergency Procedure Training

2. Off Normal Event Procedures

3. Systems

4. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 10:55:30 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:16:04 CDT 2005

2. Modified by jbell at Thu Jun 16 16:57:45 CDT 2005

3. Modified by mrasch at Mon Jun 20 13:45:28 CDT 2005

4. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by mrasch at Thu Jul 28 13:58:05 CDT 2005

9. Modified by mellis at Fri Jul 29 12:36:41 CDT 2005

10. Question Reviewed by mrasch at Thu Aug 04 07:22:42 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

12. Modified by mrasch at Tue Aug 09 10:55:30 CDT 2005

13. Question Reviewed by mellis at Tue Aug 09 11:59:51 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 51 of 158 Comments:

EB QUESTION: 24 (1.0 Points)

The plant is in startup with reactor pressure at 80 psig.

RCIC has developed a steam leak within the RCIC room that cannot be isolated.

The CRS has ordered a reactor scram due to elevated RCIC room temperature.

Which one of the following is the reason for the reactor scram for these conditions?

These actions prevent:

A.

An excessive release of radioactive material.

B.

Exceeding any applicable TRM operability limits.

C.

Failure of safe shutdown equipment and allows personnel access to the RCIC room.

D.

Contaminating the Auxiliary Building and manually starting the Standby Gas Treatment system.

Answer: C Question Answer A is incorrect because there is no evidence of fuel failure and Comments: therefor no source for gross amounts of radioactive material. Answer B is incorrect because EP-4 does not require entering EP-2 to effect a scram until the maximum safe temperature, 212°F, is reached. 185°F is the operating limit, only. Answer C is correct because 212°F is the maximum safe temperature for the RCIC room, and with an unisolable leak, a system that cannot be isolated from the RPV is discharging outside primary containment. Per EP-4 step 14, EP-2 should be entered, and it will require manual scram (EP-2 step 3). This will limit the heat added to the area preventing a challenge to equipment in the area and allowing personnel access. Answer D is incorrect since only one area is affected, and temperature would have to exceed maximum safe levels in at least 2 areas before contaminating the Auxiliary Building would becom an issue.

Tier 1 Group 2 This is a NEW question. 10 CFR 41.5/41.10/43.5 Image

Reference:

None file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 52 of 158 Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00857 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GG-1-LP-RO-EP04 Objective: 7 KA

References:

1. 295032 EK3.02 Reactor SCRAM [3.6/3.8]

References:

1. EP-4 Steps 9, 10, 13, 14

2. 03-1-01-1 Step 6.2.6f

3. PSTG Appendix B 16.14 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E51: Reactor Core Isolation Cooling System Categories:

1. Emergency Procedure Training

2. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:38:04 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:25:18 CDT 2005

2. Modified by mrasch at Mon Jun 20 13:46:09 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 53 of 158

6. Modified by mrasch at Wed Jul 13 10:16:02 CDT 2005

7. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by tharrelso at Wed Jul 27 14:07:56 CDT 2005

10. Modified by tharrelso at Fri Jul 29 07:25:06 CDT 2005

11. Modified by mellis at Fri Jul 29 12:38:04 CDT 2005

12. Question Reviewed by mrasch at Thu Aug 04 07:22:45 CDT 2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 25 (1.0 Points)

How will the Standby Gas Treatment System respond to an event resulting in the following radiation levels detected in ventilation systems:

A B C D

Containment Vent Exhaust Radiation Monitors 3.8 mr/hr 4.0 mr/hr 3.0 mr/hr 4.0 mr/hr Fuel Handling Area Exhaust Radiation Monitors 2.0 mr/hr 4.0 mr/hr 3.0 mr/hr 4.0 mr/hr Fuel Pool Sweep Exhaust Radiation Monitors 32 mr/hr 20 mr/hr INOP 22 mr/hr A.

A and B will remain in standby.

B.

A will automatically start and B will remain in standby.

C.

B will automatically start and A will remain in standby.

D.

A and B will automatically start.

Answer: A Question Initiation setpoint for SGTS from Fuel Handling Area Vent Exh Rad file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 54 of 158 Comments: Monitors is 3.6 mr/hr. Initiation setpoint for SGTS from Fuel Handling Area Pool Sweep Exh Rad Monitors is 30 mr/hr. SGTS does not receive an auto start from Containment/Drywell Vent Exhaust Radiation Monitors.

The initiation logic requires Channels 'A' and 'D' to initiate SGTS 'A', or 'B' and 'C' to initiate SGTS 'B'. With D17K618C removed, a channel 'B' trip of FPS Rad Monitor (K618B) would start SGTS 'B'. Answer A is correct (and answers B,C, and D are incorrect) because D17K618B, D17K618D, D17K618A, and D17K617C do not reach their trip setpoints, so neither division completes a full logic initiation. Tier 1 Group 2 This is a NEW question. 10CFR 41.4/41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00858 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-T4801 Objective: 8.6 KA

References:

1. 295034 EK2.03 SBGT/FRVS: Plant-Specific [4.3/4.5]

References:

1. 17-S-06-5 Att II pages 35 and 36 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. D17: Process Radiation Monitoring System

2. T48: Standby Gas Treatment System Categories:

1. Systems

2. Continuing Training Task

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 55 of 158 Question Last Revised By: Tommy Harrelson at Fri Jul 29 07:42:21 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:32:37 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:07:53 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Wed Jul 27 13:33:00 CDT 2005

8. Modified by mrasch at Wed Jul 27 13:47:18 CDT 2005

9. Modified by mrasch at Wed Jul 27 13:52:29 CDT 2005

10. Modified by tharrelso at Fri Jul 29 07:26:52 CDT 2005

11. Modified by tharrelso at Fri Jul 29 07:40:57 CDT 2005

12. Modified by tharrelso at Fri Jul 29 07:42:21 CDT 2005

13. Question Reviewed by mrasch at Thu Aug 04 07:22:48 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 26 (1.0 Points)

The plant is in a refueling outage when a fuel handling accident occurs.

Standby Gas Treatment System (SGTS) A is manually initiated.

on 1H13-P870, amber alarm ENCL BLDG NEG PRESS LO (2A-E3) is subsequently received and does not clear.

What is the operational implication of this alarm?

A.

Greater personnel industrial safety hazard when entering or exiting the auxiliary building.

B.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 56 of 158 Possible damage to the enclosure building due to high pressure.

C.

Possible excessive filtered leakage from secondary containment.

D.

Possible excessive unmonitored leakage from secondary containment.

Answer: D Question Answer A is incorrect because the alarm is indicative of a higher pressure Comments: in secondary containment (i.e. lower dp relative to outside secondary containment). A safety concern only exists when there is a higher dp, resulting in high forces on doors which could cause them to open quickly when unlatched. Answer B is incorrect because the alarm is indicative of a low dp with respect to outside, not a high dp which could cause excessive forces on enclosure building coverings. Answer C is incorrect because no amount of filtered leakage would be excessive. SGTS flow rates would be governed predominantly by the flow control circuit, so approximately the same flow rate through the SGTS filter train would exist after the 120 sec timer had expired. Answer D is correct because prevention of exfiltration could not be assured if pressure was higher than

-0.25wc. The given alarm occurs at -0.2wc or higher pressure. That leakage would bypass the SGTS filter train and exhaust radiation monitoring system. Tier 1 Group 2 This is a NEW question. 10CFR 41.8/41.10/41.13/43.4/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00859 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-T4801 Objective: 2.0; 11.0

2. CourseID: GG-1-LP-RO-EP04 Objective: 6 KA

References:

1. 295035 EK1.02 Radiation release [3.7/4.2]

References:

1. ARI 04-1-02-1H13-P870 2A-E3 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 57 of 158

2. EP-4 Bases pg B-8-2, 6 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. T48: Standby Gas Treatment System Categories:

1. Emergency Procedure Training

2. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:42:47 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:40:21 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by mellis at Fri Jul 29 12:39:22 CDT 2005

7. Modified by mellis at Fri Jul 29 12:42:47 CDT 2005

8. Question Reviewed by mrasch at Thu Aug 04 07:22:51 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 27 (1.0 Points)

RHR A room sump pumps are each in AUTO with their selector switch in ALTERNATE.

RHR A is operating in Shutdown Cooling when a 10 gpm leak develops inside RHR A room.

RHR Room A Floor Drain Sump Pump A, P45-C013A, started and pumped down almost to the low sump level but its breaker tripped due to a fault.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 58 of 158 How will this affect subsequent operation of the other sump pump in RHR A room, P45-C013B?

A.

P45-C013B will alternate starting on high-high and high sump levels, each time pumping until low sump level is reached.

B.

P45-C013B will come on at high-high sump level and off at high sump level and continue to cycle that way.

C.

P45-C013B will come on at high-high sump level and off at low sump level and continue to cycle that way.

D.

P45-C013B will come on at high sump level and off at low sump level one time. It will not automatically start after that.

Answer: D Question If the High alarm has cleared on the initial start from pump A then the B Comments: pump will start on a subsequent high level alarm but only once since the logic thinks pump A should start next. Therefore Answer D is correct.

Tier 1 Group 2 This is a NEW question. 10 CFR 41.4/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00860 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-P4500 Objective: 7.1; 11.1; 11.2 KA

References:

1. 295036 EA1.01 Secondary containment equipment and floor drainsystems [3.2/3.3]

References:

1. 04-1-01-P45-2 Steps 3.5; Note 4.2.2a

2. M-1094A

3. M-1098B TrainingPrograms:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 59 of 158

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. P45: Floor and Equipment Drain System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Fri Jul 29 07:46:20 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:46:57 CDT 2005

2. Modified by mrasch at Fri Jun 10 13:23:02 CDT 2005

3. Modified by mrasch at Mon Jun 20 08:13:30 CDT 2005

4. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by mrasch at Fri Jul 29 07:46:20 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:23:50 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 28 (1.0 Points)

A plant shutdown is in progress and conditions are as follows:

Reactor pressure 30 psig Reactor water level 36 inches Narrow Range Both reactor recirculation pumps are shutdown.

Shutdown cooling was lost due to a failure of the Shutdown Cooling common suction file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 60 of 158 isolation valve E12-F008.

Which of the following would provide an alternate method to ensure core cooling is maintained?

A.

Allowing natural circulation to initiate.

B.

Initiating RCIC.

C.

Placing one loop of RHR in the LPCI mode and opening SRVs.

D.

Starting one of the Reactor Recirculation pumps.

Answer: C Question Answer A is incorrect because level is not high enough to allow natural Comments: circulation. Answer B is incorrect because Reactor pressure is below RCIC isolation setpoint making RCIC unavailable. Answer C is CORRECT since these actions are consistent with guidance in ONEP Inadequate Decay Heat Removal 05-1-02-III-1. Answer D is incorrect because the restoration of a Recirc pump does not result in heat removal. Tier 2 Group 1 This is a NEW question. 10CFR41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00861 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E1200 Objective: 9.7 KA

References:

1. 203000 K5.02 Core cooling methods [3.5/3.7]

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 61 of 158

References:

1. E-1181-67 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E12: Residual Heat Removal System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:12:23 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:53:23 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by tharrelso at Fri Jul 29 06:26:05 CDT 2005

7. Modified by tharrelso at Fri Jul 29 08:34:42 CDT 2005

8. Modified by mellis at Fri Jul 29 12:44:03 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:23:02 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

11. Modified by mrasch at Tue Aug 09 11:12:23 CDT 2005

12. Question Reviewed by mellis at Tue Aug 09 11:59:52 CDT 2005 Comments:

EB QUESTION: 29 (1.0 Points)

The plant is in Mode 5.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 62 of 158 RHR B has been placed in Shutdown Cooling with suction from Recirc Loop B, returning to the reactor via RHR B SHUTDN CLG RTN TO FW valve E12-F053B.

RHR B ADHRS MODE TRIP ENABLE hand switch on 1H13-P618 is in NORMAL.

Which one of the following will cause RHR B pump to trip?

A.

Opening the power supply to RHR SHUTDN CLG INBD SUCT VLV E12-F009.

B.

RHR SHUTDN CLG OTBD SUCT VLV E12-F008 were to close to 50%.

C.

RHR B FPC ASSIST SUCTION VLV E12-F066B were to open to 50%.

D.

RHR B ADHRS MODE TRIP ENABLE hand switch on 1H13-P618 were to be placed in ADHRS position.

Answer: B Question The purpose of the RHR pump suction path interlocks is to trip the RHR Comments: pump when no fully open suction path exists. Answer A is incorrect because the trip circuit for RHR pump B looks directly at the limit switch contact for E12F009. It does not rely on control power for E12F009, but uses RHR B/C DC logic power. Answer B is correct because the trip circuit for RHR pump B looks directly at the limit switch for E12F008.

RHR pump B trip coil is energized when the valve closes to not full open position, ~95% open. Answer C is incorrect because either a suction path from the reactor, one from the suppression pool, or one from the fuel pool has to exist for RHR pump to remain running. In this case, a suction path exists from the reactor, so isolation of the suction path from the fuel pool does not energize the pump trip coil. Answer D is incorrect because placing RHR B ADHRS MODE TRIP ENABLE hand switch in ADHRS position only removes E12F066B as a permissive to run RHR pump B.

As long as the suction path from the reactor is aligned fully open, the pump will continue to run. Tier 2 Group 1 This is a NEW question. 10CFR 41.7 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 63 of 158 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00862 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-E1200 Objective: 8.1 KA

References:

1. 205000 K4.04 Adequate pump NPSH [2.6/2.6]

References:

1. E-1160-09; 10

2. E-1181-05; 44; 68 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. E12: Residual Heat Removal System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:18:44 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 09:58:56 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:15:20 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 64 of 158 Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Fri Jul 29 08:36:03 CDT 2005

8. Modified by tharrelso at Fri Jul 29 10:14:03 CDT 2005

9. Modified by tharrelso at Fri Jul 29 10:17:45 CDT 2005

10. Modified by tharrelso at Fri Jul 29 10:18:44 CDT 2005

11. Question Reviewed by mrasch at Thu Aug 04 07:23:06 CDT 2005

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 30 (1.0 Points)

Due to a blown fuse, logic power for RHR A has been lost.

In this situation, if a LOCA were to occur, the LPCS pump:

A.

would auto start but RHR Pump A would have to be manually started.

B.

would have to be manually started, and RHR Pump A is unavailable.

C.

and RHR Pump A are both available but each would have to be manually started.

D.

and RHR Pump A are both unavailable.

Answer: C Question The loss of logic power for RHR A will preclude an auto start of either Comments: pump. However,, control power is still available so both pumps could be manually started if desired. This makes Answer C the only correct answer. Tier 2 Group 1 This is a NEW question. 10CFR 41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00863 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 65 of 158 Objectives:

1. CourseID: GLP-OPS-E2100 Objective: 9.2; 10.2; 16.0 KA

References:

1. 209001 A4.01 Core spray pump [3.8/3.6]

References:

1. ARI 04-1-02-1H13-P601 20A-H6 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E21: Low Pressure Core Spray System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:12:54 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:04:09 CDT 2005

2. Modified by mrasch at Fri Jun 10 12:40:43 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 09:36:27 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:23:50 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

10. Modified by mrasch at Tue Aug 09 11:12:54 CDT 2005

11. Question Reviewed by mellis at Tue Aug 09 11:59:53 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 66 of 158 Comments:

EB QUESTION: 31 (1.0 Points)

The plant is in Mode 1.

RHR C Jockey Pump has been shutdown for 5 days.

How will this affect High Pressure Core Spray (HPCS) pump suction automatic re-alignment to Suppression Pool if actual Suppression Pool Level rises?

A.

HPCS suction will automatically re-align when Suppression Pool level reaches the setpoint.

B.

HPCS suction will automatically re-align at a Suppression Pool level that is actually higher than the setpoint.

C.

HPCS suction will automatically re-align at a Suppression Pool level that is actually lower than the setpoint.

D.

HPCS suction will automatically re-align on Low Condensate Storage Tank level only.

Answer: A Question Answer A is correct. RHR C jockey Pump does not affect HPCS Comments: Suppression Pool Level Instrumentation. Tier 2 Group 1 This is a NEW question. 10 CFR 41.7/41.8 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00864 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E2201 Objective: 22.0 KA

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 67 of 158

1. 209002 A4.09 Suppression pool level: BWR-5,6 [3.4/3.5]

References:

1. 04-1-01-E22-1 Sections 6.3; 6.4 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E22-1: High Pressure Core Spray System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:15:05 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:11:05 CDT 2005

2. Modified by mrasch at Fri Jun 10 12:40:11 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Wed Jul 27 16:01:51 CDT 2005

8. Modified by mellis at Fri Jul 29 12:47:02 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:28:59 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

11. Modified by mrasch at Tue Aug 09 11:15:05 CDT 2005

12. Question Reviewed by mellis at Tue Aug 09 11:59:53 CDT 2005 Comments:

EB QUESTION: 32 (1.0 Points) file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 68 of 158 Why does E22-F004, HPCS Injection Valve, automatically close on high reactor water level?

A.

Prevent over pressurizing the Reactor Pressure Vessel (RPV).

B.

Prevent excessive cool down rates for RPV internals.

C.

Prevent overflow into the main steam lines.

D.

Prevent Main Turbine and Reactor Feed Pump trips.

Answer: C Question The FSAR design function and Tech Spec bases for the High Reactor Comments: Water Level isolation of E22-F004 HPCS Injection Valve is to prevent water introduction into the Main Steam Lines. Answer A is incorrect because this is not the reason listed in Tech Spec bases and FSAR. In this case, SRVs would prevent over-pressurization. Answer B is incorrect because this is not the reason listed in Tech Spec bases and FSAR. The design function of HPCS is to provide adequate core cooling, not to control cool down rates. Answer C is CORRECT because this is the reason listed in Tech Spec bases and is assumed in the accident analysis. Answer D is incorrect because this is not the reason listed in Tech Spec bases and FSAR, and would not prevent reaching level 9 in all cases due the time required for E22 F004 to stroke closed. Tier 2 Group 1 This is a NEW question. 10CFR 41.8/43.2 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00865 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E2201 Objective: 5.5; 9.4; 17.0 KA

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 69 of 158

1. GENERIC 2.1.28 Knowledge of the purpose and function of major system components and controls [3.2/3.3]

2. 209002

References:

1. Tech Sec Bases B3.3.5.1 function 3c

2. FSAR 7.3.1.1.1.3.6 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. E22-1: High Pressure Core Spray System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:15:45 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:16:45 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Mon Jul 11 09:58:23 CDT 2005

6. Modified by mrasch at Wed Jul 13 10:59:56 CDT 2005

7. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Tue Jul 26 13:37:59 CDT 2005

10. Modified by mrasch at Tue Jul 26 13:39:15 CDT 2005

11. Modified by tharrelso at Fri Jul 29 08:37:33 CDT 2005

12. Modified by mellis at Fri Jul 29 12:48:12 CDT 2005

13. Question Reviewed by mrasch at Thu Aug 04 07:29:00 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 70 of 158

15. Modified by mrasch at Tue Aug 09 11:15:45 CDT 2005

16. Question Reviewed by mellis at Tue Aug 09 11:59:54 CDT 2005 Comments:

EB QUESTION: 33 (1.0 Points)

Both squib valves have failed to fire on a Standby Liquid Control (SLC) initiation.

What affect will this have on the ability of SLC to inject and what acceptable alternate means of SLC injection should be utilized?

A.

SLC will inject at a much lower injection rate. Inject Sodium Pentaborate directly into piping downstream of the Condensate demineralizers such as the Reactor Feedwater pump suction.

B.

SLC will NOT inject. Dump required amounts of boric acid and borax into the Refueling Water Storage Tank (RWST) and inject with the Condensate Transfer Pumps.

C.

SLC will inject at a much lower injection rate. Dump required amounts of boric acid and borax into the Condensate Storage Tank (CST) and inject with the Condensate Transfer pumps.

D.

SLC will NOT inject. Dump required amounts of boric acid and borax into the Condensate Storage Tank (CST) and mix the contents then inject with RCIC.

Answer: D Question If neither squib valve fires then SLC will not inject requiring the use of Comments: EP-2A Attachment 28 Alternate SLC. This involves adding 5000 lbs.

each of Boric Acid and Borax to the CST and mixing and injecting with either the RCIC pump or HPCS. Therefore Answer D is Correct. Tier 2 Group 1 This is a NEW question. 10 CFR 41.7/41.8/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00866 Review Status: Reviewed file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 71 of 158 Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-C4100 Objective: 6; 10.1; 10.4; 12 KA

References:

1. 211000 A2.02 Failure of explosive valve to fire [3.6/3.9]

References:

1. 04-1-01-C41-1 ATT. VI

2. 05-S-01-EP-2 Attachment 28 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. C41: Standby Liquid Control System Categories:

1. Emergency Procedure Training

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:54:23 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:22:40 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:18:48 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Mon Jul 11 11:17:18 CDT 2005

7. Modified by mrasch at Thu Jul 14 08:50:36 CDT 2005

8. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 72 of 158

10. Modified by mrasch at Thu Jul 28 14:25:00 CDT 2005

11. Modified by mellis at Fri Jul 29 12:54:23 CDT 2005

12. Question Reviewed by mrasch at Thu Aug 04 07:29:01 CDT 2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 34 (1.0 Points)

A plant startup is in progress at 36% of rated thermal power.

The A Main Bypass Control Valve (BCV) has failed open and startup has been suspended.

The Baxter Wilson 500 KV line into GGNS trips causing breakers J5228 and J5232 to open.

The Turbine Initial Pressure Control (IPC) system responds as designed, except the A Main Bypass Control Valve remains open.

How would the plant automatically respond to this event and what operator actions should be taken?

A.

The Reactor Recirculation Pumps would transfer to slow speed and the reactor would scram on high water level. Enter the Reactor Scram ONEP.

B.

The Reactor Recirculation Pumps would transfer to slow speed and the reactor would scram due to the Turbine Control Valve closure. Enter the Reactor Scram ONEP.

C.

The Reactor Recirculation Pumps would remain in fast speed and the reactor would scram on high neutron flux. Enter the Reactor Scram ONEP.

D.

The Reactor Recirculation Pumps would remain in fast speed and the reactor would continue to operate. Suspend plant startup until the BCV A failure is corrected.

Answer: D Question Though at 36% power, turbine 1st stage inlet pressure was equivalent to file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 73 of 158 Comments: ~26% power with one bypass valve full open (~13%) worth). TSV/TCV scrams bypassed until 40% power based on Turbine 1st stage inlet pressure. Therefore, EOC/RPT and scram from TCV/TSV closure is automatically bypassed. B and C bypass valves can accommodate steam flow for the remaining 26% power, so reactor pressure is relatively unaffected. Answer A and B are incorrect because EOC/RPT is bypassed under given conditions. Answer C is incorrect because bypass valves are fast acting and can accommodate all steam flow for the specified power level, so the pressure/flux transient is minimal, well below what would cause a high flux scram. Answer D is CORRECT for the reasons previously stated. Tier 2 Group 1 This is a NEW question. 10CFR 41.5/41.6/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00867 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-N3202 Objective: 16

2. CourseID: GLP-OPS-B3300 Objective: 27.5

3. CourseID: GLP-OPS-C7100 Objective: 10 KA

References:

1. 212000 A2.12 Main turbine stop control valve closure [4.0/4.1]

References:

1. FSAR 7.2.1.1.4.4.2 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B33: Reactor Recirculation System

2. C71: Reactor Protection System

3. N32: EHC Control System Categories:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 74 of 158

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Wed Jul 27 14:40:48 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:30:09 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Thu Jul 14 09:04:20 CDT 2005

6. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by tharrelso at Wed Jul 27 14:40:48 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:24:12 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 35 (1.0 Points)

Which of the following combinations of plant activities would be allowed by plant procedures?

A.

Driving in IRM A while I&C performs a surveillance for Scram Discharge Volume Water Level High channel B B.

Driving in IRM A with the under-vessel service platform out of its standby position and the under-detector grid sections installed C.

Driving out IRM A while driving out IRM C in Mode 2 D.

Driving out IRM Aand IRM B simultaneously in Mode 1 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 75 of 158 Answer: C Question Answer A is incorrect because driving IRM might cause a Div 2 half Comments: scram during the Div 1 half scram surveillance, resulting in a full scram.

Answer B is incorrect because this might cause damage to the IRM drive cables. Answer C is correct because both IRMs are Div 1, so the worst consequence for driving one IRM, a Div 1 half scram, is no worse than that for driving the two IRMs simulataneously. Answer D is incorrect because driving IRM A might cause a Div 1 half scram, driving IRM B might cause a Div 2 half scram, resulting in a full scram. Tier 2 Group 1 This is a NEW question. 10CFR 41.7/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00868 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-C5102 Objective: 12.2 KA

References:

1. 215003 K5.03 Changing detector position [3.0/3.1]

References:

1. 04-1-01-C51-1 sections 3.5, 3.7, cautions section 4.2.2 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C51-2: Intermediate Range Nuclear Instrumentation System Categories:

1. Administrative Requirements

2. Systems

3. Continuing Training Task

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 76 of 158 Question Last Revised By: MikeRasch at Mon Jun 20 08:22:45 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:40:26 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:22:45 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 36 (1.0 Points)

With the plant in Mode 2, which of the following will result in a control rod block?

A.

SRM A is upscale and bypassed.

SRM E is NOT full in and reads 70 cps.

All IRMs are on Range 2.

B.

SRMs A and E are INOP.

IRMs A and E are on Range 9.

C.

SRM A is upscale and bypassed.

SRM B is NOT full in and reads 275 cps.

All IRMs are on range 2.

D.

SRMs A and B are INOP.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 77 of 158 IRMs A and B are on Range 9.

Answer: A Question With SRM E not full in and less than 70 CPS a rod block will occur Comments: because SRM s are single coincidence logic and SRM E will generate a rod block. None of the other conditions would generate a control rod block, therefore Answer A is the only correct answer. Tier 2 Group 1 This is a NEW question. 10CFR 41.2/41.6 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00869 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-C5101 Objective: 8.2; 11.1 KA

References:

1. GENERIC 2.2.33 Knowledge of control rod programming [2.5/2.9]

2. 215004

References:

1. 04-1-01-C51-1 Step 3.8

2. E-1171-20

3. FSAR 7.6.2.5.1.1 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C11-2: Rod Control and Information System

2. C51-1: Source Range Nuclear Instrumentation System Categories:

1. Systems

2. Continuing Training file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 78 of 158 Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:58:07 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 10:53:52 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:24:17 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Mon Jul 11 13:03:15 CDT 2005

7. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Thu Jul 28 10:08:00 CDT 2005

10. Modified by mellis at Fri Jul 29 12:58:07 CDT 2005

11. Question Reviewed by mrasch at Thu Aug 04 07:29:02 CDT 2005

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 37 (1.0 Points)

The power supply for APRM D is:

A.

1Y87 B.

1Y88 C.

1Y95 D.

1Y96 Answer: C Question per the referenced L62 SOI and C51 SOI 1Y95 Inverter is the power Comments: supply to APRM cabinet D. Tier 2 Group 1 This is a NEW question.

10 CFR 41.6 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 79 of 158 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00870 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-C5104 Objective: 11.3 KA

References:

1. 215005 K2.02: 2.6/2.8 Knowledge of power supplies to APRM Channels.

References:

1. 04-1-01-L62-1 Att VI Table 3 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C51-5: Average Power Range Nuclear Instrumentation System

2. L62: Uninterruptible Power Supply System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 10:14:55 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 11:02:59 CDT 2005

2. Modified by mrasch at Fri Jun 10 13:40:49 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 80 of 158

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 10:14:55 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:24:20 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 38 (1.0 Points)

The reactor is at 1000 psig and slowly lowering.

RCIC is in operation in automatic control.

In response to the RPV pressure lowering, RCIC discharge pressure will:

A.

slowly rise due to the governor valve slowly opening.

B.

slowly lower due to RCIC turbine speed slowly lowering.

C.

remain constant due to RCIC speed slowly rising.

D.

remain constant due to the RCIC throttle valve slowly opening.

Answer: B Question As RPV pressure lowers, the flow controller will close down on the Comments: governor valve thereby reducing RCIC speed and discharge pressure making B the correct answer. This makes the other three distractors incorrect. Tier 2 Group 1 This is a NEW question. 10 CFR 41.4/41.7/41.14 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00871 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 81 of 158

1. CourseID: GLP-OPS-E5100 Objective: 3.1; 8.17; 19.0 KA

References:

1. 217000 A1.02 RCIC pressure [3.3/3.3]

References:

1. M-1083A

2. M-1085A

3. M-1077D TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E12: Residual Heat Removal System

2. E51: Reactor Core Isolation Cooling System

3. N21: Feedwater System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 10:24:22 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 11:17:17 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:26:05 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 10:24:22 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:24:23 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 82 of 158 Comments:

EB QUESTION: 39 (1.0 Points)

The power supply for Division 1 ADS Logic is Division 1:

A.

RPS.

B.

UPS.

C.

120 VAC.

D.

125 VDC.

Answer: D Question The power supply to ADS Logic is from the Divisional DC power supply Comments: per the facility electrical drawings. Therefore Answer D is the only correct answer. Tier 2 Group 1 This is a NEW question. 10CFR 41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00872 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-E2202 Objective: 9.1; 9.2; 10.2; 15.0; 19.3; 25.0; 27.0 KA

References:

1. 218000 K2.01 ADS logic [3.1/3.3]

2. 218000 K6.06 D [3.4/3.6]

References:

1. E-1161-04 TrainingPrograms:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 83 of 158

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E22-2: Automatic Depressurization System

2. L11: Plant DC Electical System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 10:40:13 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 11:34:17 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Mon Jul 11 13:08:46 CDT 2005

6. Modified by mrasch at Thu Jul 14 09:18:07 CDT 2005

7. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Thu Jul 28 10:40:13 CDT 2005

10. Question Reviewed by mellis at Thu Aug 04 07:24:26 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 40 (1.0 Points)

A condenstate system transient occurred while at 100% power which caused reactor water level to drop to -50 inches wide range.

Level 2 Trip units for Groups 6, 7, 8, 10 and Auxiliary Building (B21-N682A and B21-N682B) failed to trip.

A large leak on Drywell Chilled Water piping inside containment has been reported.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 84 of 158 Regarding building isolations only, what is the appropriate response for these conditions?

A.

All Division 1 valves have failed to isolate. All Division 2 valves have isolated.

Manually close all Division 1 valves that failed to isolate.

B.

Only Division 1 and 2 primary containment valves have failed to isolate. All secondary containment valves have closed. Isolate all primary containment valves.

C.

No primary or secondary containment valves have isolated. Close at least one valve in each penetration, except for Instrument Air and Plant Service Water.

D.

No primary or secondary containment valves have isolated. Close at least one valve in each penetration, except for Drywell Chilled Water, Instrument Air and Plant Service Water.

Answer: C Question Many isolations should have occurred due to low reactor water level, Comments: level 2. Operations Philosophy, 02-S-01-27, states in a failure to isolate situation, only one valve in each penetration that should be isolated needs to be shut, and to not isolate P53, P44, or P72 if those systems are intact and are going to be unisolated per the EPs. Answer A is incorrect because only one valve in each penetration is required to be closed. Answer B is incorrect because some isolation valves that failed are MOVs, and loss of air has no effect on them. Answer C is correct because it mirrors Operations Philosophy as stated above. P72 should be isolated because of a system breach. Answer D is correct because P72 should be isolated because of a system breach. Tier 2 Group 1 This is a NEW question. 10CFR 41.9/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00873 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 3 Objectives:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 85 of 158

1. CourseID: GLP-OPS-PROC Objective: 59.3 KA

References:

1. 223002 A2.03 System logic failures [3.0/3.3]

References:

1. 02-S-01-27 Step 6.1.3

2. 17-S-06-5 Att I page 3; Att II 28, 30, 31, 32, 34, 35, 36 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. P44: Plant Service Water System

2. P53: Instrument Air System

3. P72: Drywell Chill Water System Categories:

1. Administrative Requirements

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Fri Jul 29 12:28:02 CDT 2005 Question History:

1. Created by mrasch at Fri Jun 10 12:20:51 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:27:42 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 17:46:39 CDT 2005

8. Modified by tharrelso at Fri Jul 29 08:52:04 CDT 2005

9. Modified by mrasch at Fri Jul 29 12:23:26 CDT 2005

10. Modified by mrasch at Fri Jul 29 12:28:02 CDT 2005

11. Question Reviewed by mellis at Thu Aug 04 07:24:29 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 86 of 158

12. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 41 (1.0 Points)

In the event of a loss of Instrument Air to Containment, what is the minimum number of manual actuations the Automatic Depressurization System air system is designed to provide Safety Relief Valve B21-F051D over a 6 hour6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> period?

A.

100 B.

50 C.

25 D.

10 Answer: A Question Comments: Tier 2 Group 1 This is a NEW question. 10CFR 41.3/41.5/41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00874 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-E2202 Objective: 18 KA

References:

1. 239002 K4.09 Manual opening of the SRV [3.7/3.6]

References:

1. E-1161-13; 16 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 87 of 158 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E22-2: Automatic Depressurization System

2. P53: Instrument Air System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 10:23:47 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 07:37:50 CDT 2005

2. Modified by mrasch at Mon Jun 13 07:39:03 CDT 2005

3. Modified by mrasch at Mon Jun 20 08:29:28 CDT 2005

4. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Modified by mrasch at Mon Jul 11 13:19:16 CDT 2005

8. Modified by mrasch at Thu Jul 14 10:04:14 CDT 2005

9. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Modified by mrasch at Wed Jul 27 16:06:08 CDT 2005

12. Modified by tharrelso at Fri Jul 29 10:23:47 CDT 2005

13. Question Reviewed by mellis at Thu Aug 04 07:24:32 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 42 (1.0 Points)

The plant is at 90% power.

Annunciator RX LVL HI/LO is received on 1H13-P680.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 88 of 158 You notice the output of the Master Level Controller is slowly trending down, the output of RFP A speed controller is slowly trending up, and the output of RFP B speed controller is slowly trending down.

Which of the following describes the cause of these indications and the operator response?

A.

RFP A runout due to the Master Level Controller failing in automatic operation.

Immediately insert a manual scram.

B.

RFP B failing to the low speed stop due to the Master Level Controller failing in automatic operation. Take manual control of the Master Level Controller and control level 32 inches to 42 inches.

C.

RFP A runout due to the RFP A speed control failing upscale. Attempt to take manual control of RFP A, and control level 32 inches to 42 inches. If it CANNOT be controlled manually, trip RFP A and verify a Recirc Flow Control Runback occurs.

D.

RFP B failing to the low speed stop due to the RFP B speed control failing downscale. Attempt to take manual control of RFP B, and control level 32 inches to 42 inches. If it CANNOT be controlled manually, trip RFP B and verify a Recirc Flow Control Runback occurs.

Answer: C Question The condition is indicative of failure upward of the RFP A speed Comments: controller. The master level controller and RFP B speed controller are responding to the increased inventory added by RFP A. Answer A is incorrect because The Master Controller output is responding to RPV level. The transient is stated to be slow, and scramming is not conservative if it can be avoided. Procedural guidance exists to avoid a scram. Answer B is incorrect because the master level controller controller is responding properly to the failure of RFP A speed controller.

Answer C is CORRECT because ONEP 05-1-02-V-6 specifically directs this action for the given failure. Answer D is incorrect because RFP B controller is responding properly to the failure of A. Tier 2 Group 1 This is a NEW question. 10 CFR 41.4/41.10/43.5 Image

Reference:

None Closed Reference Question file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 89 of 158 Handout Not Required with Exam QuestionID: GGNS-NRC-00875 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-N2100 Objective: 17; 31.2; 37

2. CourseID: GLP-OPS-ONEP Objective: 37 KA

References:

1. 259002 A2.04 RFP runout condition: Plant-Specific [3.0/3.1]

References:

1. 05-1-02-V-6 Step 2.2 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C34: Feedwater Level Control System

2. N21: Feedwater System Categories:

1. Off Normal Event Procedures

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 12:30:52 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 07:45:26 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:31:07 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:19 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Thu Jul 14 09:35:26 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 90 of 158

7. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Tue Jul 26 14:16:14 CDT 2005

10. Modified by mrasch at Wed Jul 27 09:47:44 CDT 2005

11. Modified by mrasch at Wed Jul 27 12:40:35 CDT 2005

12. Modified by mrasch at Wed Jul 27 12:46:39 CDT 2005

13. Modified by mellis at Fri Jul 29 12:30:52 CDT 2005

14. Question Reviewed by mrasch at Thu Aug 04 07:29:03 CDT 2005

15. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 43 (1.0 Points)

The plant is at 100% power.

Which one of the following will cause the Feedwater THREE ELEMENT pushbutton DISABLED back light to illuminate on 1H13-P680-2C?

A.

B Feedwater flow signal drifts up to 11 mlbm/hr.

B.

The difference between highest and lowest Main Steam Line Flow signals diverges to 1 mlbm/hr.

C.

The difference between Feedwater Flow A and B diverge to 0.6 mlbm/hr greater than normal.

D.

Plant power reduction to 45% rated thermal power.

Answer: A Question Answer A is correct because when a feedwater flow signal goes above Comments: 10.6 mlbm/hr it is a hard failure which disables three element control.

Answer B is incorrect because Steam flow divergence is 1.6 mlbm/hr to disable three element control. Answer C is incorrect because feedwater flow divergence is 0.8 mlbm/hr to disable three element control. Answer D is incorrect because on a power decrease three element control is disabled at 30% power (4.95 mlbm/hr). Tier 2 Group 1 10CFR41.7/41.10/43.5 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 91 of 158 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00233a Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-C3400 Objective: 6.3

2. CourseID: GLP-OPS-C3400 Objective: 5.3 KA

References:

1. 295009 AA4.06: 3.1/3.2

2. 259002 A4.06 DP/Single/three element control selector switch:Plant-Specific

[3.1/3.2]

References:

1. 04-1-02-1H13-P680 2A-C9 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. C34: Feedwater Level Control System

2. B21: Nuclear Boiler System Categories:

1. Systems Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 08:53:29 CDT 2005 Question History:

1. Created by tharrelso at Wed May 04 16:49:27 CDT 2005

2. Created by tharrelso at Wed May 04 16:49:27 CDT 2005 from parent QuestionID GGNS-NRC-00233

3. Modified by mrasch at Tue May 24 08:46:46 CDT 2005

4. Modified by mrasch at Tue May 24 10:05:45 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 92 of 158

5. Question Reviewed by mellis at Tue May 31 14:56:58 CDT 2005

6. Modified by tharrelso at Tue Jun 07 15:36:27 CDT 2005

7. Modified by mrasch at Mon Jun 13 07:56:49 CDT 2005

8. Modified by mrasch at Mon Jun 13 08:03:40 CDT 2005

9. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

12. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

13. Modified by mrasch at Thu Jul 28 15:15:56 CDT 2005

14. Modified by tharrelso at Fri Jul 29 08:53:29 CDT 2005

15. Question Reviewed by mrasch at Thu Aug 04 07:20:40 CDT 2005

16. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 44 (1.0 Points)

A planned move of radioactive material is planned on the refueling floor.

As a precaution, Standby Gas Treatment System (SGTS) A has been started and applicable parameters have stabilized.

Enclosure Building differential pressure is -0.6 inches wc and stable.

An operator is about to manually start Standby Gas Treatment system B.

How should the Steam Tunnel Outside Containment damper, T48-F005 respond?

A.

T48-F005 will immediately throttle to its intermediate position.

B.

T48-F005 will travel full open and throttle to its intermediate position after 90 seconds.

C.

T48-F005 will travel full open and throttle to its intermediate position after 120 seconds.

D.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 93 of 158 T48-F005 will travel full open and throttle to its intermediate position after 120 seconds or Enclosure Building pressure reaches -.75 inches wc.

Answer: A Question Answer A is correct because enclosure building pressure is less than -

Comments: 0.2 inches wc when SGTS B is initiated, so T48F005 goes to intermediate position right away. Answer B is incorrect because the T48F005 damper will not travel to it full open position before throttling.

Answer C is incorrect because T48F005 would go to intermediate position right away instead of 120 sec later. Answer D is incorrect because T48F005 would go to intermediate position right away instead of 120 sec or -.75 inches wc in the enclosure building. These times are actually for flow control vane T48F500B. Tier 2 Group 1 This is a NEW question. 10CFR 41.4/41.13 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00876 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-T4801 Objective: 8.4; 8.5; 8.7 KA

References:

1. 261000 A3.03 Valve operation [3.0/2.9]

References:

1. 04-1-01-T48-1 Step 5.2.1b NOTE TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. T48: Standby Gas Treatment System Categories:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 94 of 158

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 13:02:31 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 07:54:52 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by tharrelso at Wed Jul 27 15:02:15 CDT 2005

7. Modified by mellis at Fri Jul 29 13:01:50 CDT 2005

8. Modified by mellis at Fri Jul 29 13:02:31 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:29:04 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 45 (1.0 Points)

The plant is operating in mode 1 with HPCS running for a surveillance with suction from the suppression pool.

A fire in the Division 3 Diesel Generator room de-energized bus 11DC.

How does this affect the operation of the HPCS Pump breaker 152-1702 and the HPCS Injection Valve E22-F004?

A.

Pump breaker can be tripped using its control room hand switch but the injection valve must be operated locally.

B.

Pump breaker must be tripped locally at the breaker and the injection valve must be operated locally.

C.

Pump breaker can be tripped from the control room and the injection valve can be file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 95 of 158 operated from the control room.

D.

Pump breaker must be tripped locally at the breaker and the injection valve can be operated from the control room.

Answer: D Question Answer A is incorrect because 11DC supplies control power for 152-Comments: 1702, and E22F004 could be operated from the control room since it is AC. Answer B is incorrect because 11DC supplies control power for 152-1702, and E22F004 could be operated from the control room since it is AC. Answer C is incorrect because 11DC supplies control power for 152-1702. Answer D is correct because there is no control power to energize the trip coil for 152-1702, and E22F004 control power is AC power. Tier 2 Group 1 This is a NEW question. 10CFR 41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00877 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-E2201 Objective: 13.2; 13.3 KA

References:

1. 262001 K6.01 D [3.1/3.4]

References:

1. E-1183-03

2. E-1188-19 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. E22-1: High Pressure Core Spray System file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 96 of 158

2. L11: Plant DC Electical System

3. R21: 4.16 KV AC Power System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Wed Jul 27 16:37:13 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:08:22 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by mrasch at Wed Jul 27 14:10:33 CDT 2005

7. Modified by mrasch at Wed Jul 27 16:37:13 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:24:42 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 46 (1.0 Points)

A LOCA occurred shortly after placing static inverter 1Y95 on its alternate power supply.

Fifteen minutes later Bus 16AB locked out.

Based on this information, the reactor operator should conclude:

A.

1Y80 is receiving power from its alternate supply.

B.

1Y95 is receiving power from its normal supply.

C.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 97 of 158 1Y88 is receiving power from its normal supply.

D.

1Y87 is receiving power from its alternate supply.

Answer: C Question 1Y95 was placed on its alternate power supply and does not have an Comments: auto re-transfer feature therefore when 16AB bus is locked out the loads for 1Y95 are lost. 1Y88 is also a division 2 powered inverter however it will remain on its DC Normal power supply when its alternate supply is lost. 1Y87 is division 1 powered and would have had a momentary loss of its alternate power source during the LOCA signal but remain on its normal power supply. Tier 2 Group 1 This is a NEW question. 10 CFR 41.4 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00878 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-L6200 Objective: 4.1; 4.2; 8; 9.1; 9.2; 10.1; 15 KA

References:

1. 262002 K4.01 Transfer from preferred power to alternate powersupplies [3.1/3.4]

References:

1. 04-1-01-L62-1 Steps 3.4; 3.5 Attachment III TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. L62: Uninterruptible Power Supply System Categories:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 98 of 158

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 10:52:29 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:17:16 CDT 2005

2. Modified by mrasch at Mon Jun 20 08:34:35 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 10:52:29 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:24:47 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 47 (1.0 Points)

The plant DC system is in its normal lineup when a loss of Load Control Center 15BA6 occurs What effect will this have on Division 1 battery voltage and specific gravity?

A.

Both will remain stable.

B.

Both will lower.

C.

Voltage will remain constant and specific gravity will go down.

D.

Voltage will lower and specific gravity will remain constant.

Answer: A file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 99 of 158 Question Answer A is correct because load is shared between chargers 1A4 and Comments: 1A5, and either charger is rated to maintain battery parameters by itself.

Answer B is incorrect because with load sharing, 1A5 will pick up load automatically. Answers C and D are incorrect because charger 1A5 is 100% duty rated and will maintain battery parameters. Tier 2 Group 1 This is a NEW question. 10CFR 41.4 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00879 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-L1100 Objective: 2; 7; 16 KA

References:

1. 263000 K4.01 Manual/ automatic transfers of control: Plant-Specific [3.1/3.4]

References:

1. 04-1-01-L11-1 Attachment IIIA

2. Tech Spec Bases B3.8.4 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. L11: Plant DC Electical System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 11:00:25 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:22:05 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 100 of 158

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by mrasch at Thu Jul 28 11:00:25 CDT 2005

7. Question Reviewed by mellis at Thu Aug 04 07:24:54 CDT 2005

8. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 48 (1.0 Points)

The plant is at 50% power due to grid disturbances.

16AB bus is separated from the grid with DG12 carrying the bus.

With respect to DG 12, if a valid LOCA were to occur in this electrical lineup, the DG 12 output breaker would:

A.

open, load shedding would occur, and the output breaker would re-close automatically. No operator action is required.

B.

remain closed and load shedding would occur, and loads are sequenced on. No operator action is required.

C.

remain closed and load shedding would NOT occur. The operator would manually secure the unnecessary loads.

D.

open, load shedding would occur, and the operator would have to re-close the output breaker.

Answer: B Question With the Diesel carrying the bus by itself the diesel output breaker will Comments: remain closed but the Load Shedding and Sequencing system will shed the loads on the bus resequencing the loads per the LOCA sequencing process. Therefore Answer B is the only correct answer. Tier 2 Group 1 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 101 of 158 This is a NEW question. 10CFR 41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00880 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-R2100 Objective: 11; 14; 34

2. CourseID: GLP-OPS-P7500 Objective: 26 KA

References:

1. 264000 A2.10 LOCA [3.9/4.2]

References:

1. 04-1-01-P75-1 ATT V page 5

2. M-1077B

3. E-1109-24

4. E-1120-04 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. B21: Nuclear Boiler System

2. P75: Div 1 and 2 Diesel Generator System

3. R21: 4.16 KV AC Power System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 13:05:01 CDT 2005 Question History:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 102 of 158

1. Created by mrasch at Mon Jun 13 09:28:08 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:04:22 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 11:10:46 CDT 2005

8. Modified by tharrelso at Fri Jul 29 08:56:44 CDT 2005

9. Modified by mellis at Fri Jul 29 13:05:01 CDT 2005

10. Question Reviewed by mrasch at Thu Aug 04 07:29:05 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 49 (1.0 Points)

The plant is operating normally at 100% power when the normal supply breaker to bus 16AB trips open. As expected, DG 12 starts and comes up to 450 RPM. However, the Ready to Load light is not lit and the generator frequency and voltage meters are both reading downscale. The output breaker did not close and the LSS failure alarm has annunciated.

Based on these indications the operator would suspect:

A.

generator frequency is low.

B.

generator voltage is low.

C.

the Parallel Reset Switch needs to be reset.

D.

the lockout relay for bus 16AB has tripped.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 103 of 158 Answer: B Question The ready to load light is powered off the AC bus and will not light until Comments: the DG output breaker closes. Because the engine is at 450 RPM the generator is turning at the electrical equivalent to 60 Hz. However, the frequency meter will not indicate a value if the generator has no voltage output. Therefore the immediate suspicion would be the generator field flash failed and the generator output voltage is zero. Tier 2 Group 1 This is a NEW question. 10CFR55.41 (7)

Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00881 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 4 Objectives:

1. CourseID: GLP-OPS-P7500 Objective: 27 KA

References:

1. 264000

2. GENERIC 2.4.48 5 EDG/Diagnose EDG status from control room indications.

[3.5/3.8]

References:

1. ARI 04-1-02-1H13-P864 2A-H1 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. P75: Div 1 and 2 Diesel Generator System Categories:

1. Systems

2. Continuing Training Task

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 104 of 158 Question Last Revised By: Mickey Ellis at Fri Jul 29 13:09:20 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:37:34 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:05:22 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Fri Jul 29 08:04:47 CDT 2005

8. Modified by mellis at Fri Jul 29 13:09:20 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:29:09 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 50 (1.0 Points)

The plant is operating at 100% power when instrument air is lost to the Auxiliary Building.

Pressure is now approximately 60 psig, slowly lowering and the restoration efforts thus far have been unsuccessful.

If pressure continues to lower, the Auxiliary Building air bleed off valve (PV-F531) is set to automatically open at approximately:

A.

20 psig.

B.

30 psig.

C.

40 psig.

D.

50 psig.

Answer: B file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 105 of 158 Question The referenced lesson plan states the bleed off valve will open at Comments: approximately 30 psig, making Answer B the correct answer. Tier 2 Group 1 This is a NEW question. 10 CFR 41.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00882 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-P5300 Objective: 5.6; 14 KA

References:

1. 300000 K3.01 Containment air system [2.7/2.9]

References:

TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. P53: Instrument Air System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:17:02 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:42:58 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:17:44 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 106 of 158 Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 17:24:47 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:25:05 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

10. Modified by mrasch at Tue Aug 09 11:17:02 CDT 2005

11. Question Reviewed by mellis at Tue Aug 09 11:59:54 CDT 2005 Comments:

EB QUESTION: 51 (1.0 Points)

A break in the instrument air header in the Turbine Building has occurred.

Unit 2 Instrument Air Compressor and Plant Air Dryer B are in service.

Service Air Compressor A is in service.

The resulting high air flow through the in service drying tower causes the desiccant to clog the tower.

Dryer outlet pressure reaches 45 psig.

What will occur as a result of this condition?

A.

Plant Air Dryer A will automatically align itself to Unit 2 Instrument Air Compressor.

B.

Unit 1 Instrument Air Compressor will automatically start and align through Plant Air Dryer A.

C.

Service Air Compressor A will automatically align through Plant Air Dryer A.

D.

Plant Air Dryer B will undergo an Executed Stop and its other tower will go into drying mode.

Answer: D Question There is no automatic shifting or starts for the Instrument Air Comments: Compressors or Air Dryers. The in service air dryer will go through an file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 107 of 158 executed stop. Therefore Answer D is correct. Tier 2 Group 1 This is a NEW question. 10CFR 41.4/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00883 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 4 Objectives:

1. CourseID: GLP-OPS-P5300 Objective: 3; 4; 23; 27; 31; 33

2. CourseID: GLP-OPS-ONEP Objective: 40 KA

References:

1. 300000 K6.13 Filters [2.8/2.3]

2. 300000 A2.01 Air dryer and filter malfunctions [2.9/2.8]

References:

1. M-1067G

2. M-1126

3. M-1068D

4. M-1067A

5. ONEP 05-1-02-V-9 section 3.6; 3.8.1; 3.20

6. ARI 04-1-02-1H13-P870-7A-E3 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. P51: Plant Air System

2. P52: Service Air System

3. P53: Instrument Air System Categories:

1. Off Normal Event Procedures

2. Systems

3. Continuing Training file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 108 of 158 Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:17:49 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:51:52 CDT 2005

2. Modified by mrasch at Mon Jun 20 05:29:03 CDT 2005

3. Modified by mrasch at Mon Jun 20 09:37:57 CDT 2005

4. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 14 10:46:22 CDT 2005

8. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by mrasch at Thu Jul 28 15:32:03 CDT 2005

11. Modified by mellis at Fri Jul 29 13:10:28 CDT 2005

12. Question Reviewed by mrasch at Thu Aug 04 07:29:11 CDT 2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

14. Modified by mrasch at Tue Aug 09 11:17:49 CDT 2005

15. Question Reviewed by mellis at Tue Aug 09 11:59:55 CDT 2005 Comments:

EB QUESTION: 52 (1.0 Points)

The plant is in Mode 3 with RHR A in Shutdown Cooling mode.

Reactor coolant temperature is 338°F.

Reactor Water level and temperature were stable before the event.

Which one of the following would be indicative of an RHR A Heat Exchanger tube rupture if a tube leak occurred?

A.

RHR A pump discharge pressure trending up B.

Reactor water level trending up C.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 109 of 158 SSW A radiation monitor readings trending up D.

Reactor coolant temperature trending down Answer: C Question Coolant temperature 338°F equates to ~ 100 psig. Tube leakage would Comments: be from RHR to SSW. Answer A is incorrect because a leak into SSW would be less flow restriction, RHR flow would go up and discharge pressure would go down. Answer B is incorrect because RHR would be at a higher pressure than SSW, so RPV level would go down. Answer C is CORRECT because RHR would leak into SSW. Reactor water is of higher activity than SSW, so rad monitor readings would go up. Answer D is incorrect because less RHR flow to the reactor, which would be at a higher temperature, would result. So, higher temperature IS indicative of a tube leak. Tier 2 Group 1 This is a NEW question. 10CFR 41.7/41.13/43.4 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00884 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E1200 Objective: 4.2; 21

2. CourseID: GLP-OPS-P4100 Objective: 21 KA

References:

1. 400000 K1.04 Reactor coolant system, in order to determine source (s)of RCS leakage into CCWS [2.9/3.1]

References:

1. ARI 04-1-02-1H13-P601 18A-F6

2. SFD-1085-001

3. SFD-1085-002

4. SFD-1061C TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 110 of 158

3. Licensed Operator Requalification Training Program Systems:

1. D17: Process Radiation Monitoring System

2. E12: Residual Heat Removal System

3. P41: Standby Service Water System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:18:51 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 09:58:09 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Thu Jul 14 11:00:04 CDT 2005

6. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by mrasch at Tue Jul 26 15:39:19 CDT 2005

9. Modified by mrasch at Wed Jul 27 07:50:34 CDT 2005

10. Question Reviewed by mellis at Thu Aug 04 07:25:11 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

12. Modified by mrasch at Tue Aug 09 11:18:51 CDT 2005

13. Question Reviewed by mellis at Tue Aug 09 11:59:56 CDT 2005 Comments:

EB QUESTION: 53 (1.0 Points)

The plant is at 100% power.

The Turbine Building Cooling Water (TBCW) temperature control valve, P44-F513, fails closed.

Which one of the following will necessitate plant shutdown first, assuming Loss of TBCW ONEP actions are performed, but P44-F513 remains closed?

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 111 of 158 A.

Main Turbine Lube Oil temperature B.

Loss of Instrument Air Compressors C.

Reactor Feed Pump Oil temperature D.

Generator Seal Oil temperature Answer: D Question This question is based on actual plant events and the changes made to Comments: the ONEP for Loss of TBCW. At 100% power, seal oil temperature is normally ~ 115°F. This is only 10°F margin to the limit of 125°F specified in plant procedures where plant shutdown is required. The ONEP lists temperatures in their expected order of priority. That sequence is expected based on plant data for a universal degradation of TBCW heat removal capacity. Seal oil is expected to reach its limit first based on plant and simulator data, given its normal operating temperature. That is why answer D is correct and answers A, B, and C are incorrect. Tier 2 Group 1 This is a NEW question. 10CFR 41.4/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00885 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-ONEP Objective: 1; 2; 44 KA

References:

1. 400000 A1.02 CCW temperature [2.8/2.8]

References:

1. 05-1-02-V-2 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 112 of 158 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. N42: Seal Oil Syste

2. P43: Turbine Building Cooling Water System

3. P44: Plant Service Water System Categories:

1. Off Normal Event Procedures

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 13:23:59 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 10:10:30 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Fri Jul 15 11:19:02 CDT 2005

6. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by mellis at Fri Jul 29 13:23:59 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:29:12 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 54 (1.0 Points)

With reactor power above the high power setpoint, what is the purpose for the control rod withdrawal limiter?

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 113 of 158 A.

Mitigates the effects from a control rod drop event B.

Prevents inadvertently exceeding fuel preconditioning limits C.

Prevents violating the Minimum Critical Power Ratio (MCPR) Safety Limit D.

Ensures core exposure burn rates are evenly distributed Answer: C Question The basis for RWL as specifically stated in Tech Spec bases is to Comments: prevent exceeding the MCPR safety limit. That is why answer C is correct. Answers A, B, and D are not related to that limit, so they are incorrect. Tier 2 Group 2 This is a NEW question. 10CFR 41.2/41.6/43.2 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00886 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-C1102 Objective: 2; 6 KA

References:

1. 201005 K5.10 Rod withdrawal limiter: BWR-6 [3.2/3.3]

References:

1. Tech Spec Bases F3.3.2.1 Function 1a TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 114 of 158 Systems:

1. C11-2: Rod Control and Information System Categories:

1. Systems

2. Technical Specifications

3. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 09:04:26 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 10:15:34 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Modified by tharrelso at Wed Jul 27 15:20:46 CDT 2005

7. Modified by tharrelso at Fri Jul 29 09:04:26 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:25:25 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 55 (1.0 Points)

The plant has been performing a special core physics test that involves varying reactor recirc pump flow. A human performance error by the lead test engineer leads to a reactor transient.

Currently:

Reactor power is 28% and stable.

Core Flow is 8% and stable.

RPV pressure is 990 psig and stable.

RPV water level is +36 inches and stable.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 115 of 158 The Turbine is in operation and the bypass valves are closed.

One Reactor Recirc Pump is operating in slow speed.

Based on this information, the crew should:

A.

Raise core flow by starting the second Reactor Recirc pump.

B.

Reduce reactor power to 25%.

C.

Raise core flow by opening the operating pump flow control valve.

D.

Insert all control rods.

Answer: D Question Power greater than 25% with core flow less than 10% is a safety limit Comments: violation. This requires all control rods be inserted within two hours.

Tier 2 Group 2 This is a NEW question. 10CFR55.41 (5)

Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00887 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-TS001 Objective: 29 KA

References:

1. GENERIC 2.4.11 Knowledge of abnormal condition procedures [3.4/3.6]

2. 202001

References:

1. Tech Spec 2.1.1 TrainingPrograms:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 116 of 158

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B33: Reactor Recirculation System Categories:

1. Systems

2. Technical Specifications

3. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:21:32 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 10:28:15 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Modified by mrasch at Thu Jul 14 13:00:42 CDT 2005

6. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by mrasch at Thu Jul 28 16:48:58 CDT 2005

9. Modified by tharrelso at Fri Jul 29 08:26:14 CDT 2005

10. Modified by tharrelso at Fri Jul 29 09:05:15 CDT 2005

11. Modified by mellis at Fri Jul 29 13:23:09 CDT 2005

12. Question Reviewed by mrasch at Thu Aug 04 07:29:13 CDT 2005

13. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

14. Modified by mrasch at Tue Aug 09 11:21:32 CDT 2005

15. Question Reviewed by mellis at Tue Aug 09 11:59:56 CDT 2005 Comments:

EB QUESTION: 56 (1.0 Points)

The plant is operating at 100% rated thermal power with the Reactor Recirc Flow Control Valves at 68% valve position when a LOCA in the Drywell occurs.

As a result, drywell pressure reached 4.5 psig.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 117 of 158 RPV water level reached - 80 inches.

Five minutes later the Reactor Operator should observe:

A.

Recirc Pump breakers CB-3A/B are closed and Recirc Flow Control Valves are 20% open.

B.

Recirc Pump breakers CB-3A/B are closed and Recirc Flow Control Valves are 68% open.

C.

All the Recirc Pump breakers are open and Recirc Flow Control Valves are 20%

open.

D.

All the Recirc Pump breakers are open and Recirc Flow Control Valves are 68%

open Answer: B Question Drywell pressure will cause the Recirc FCV HPUs to trip preventing Comments: valve motion on the FCVs (remain at 68%). The Drywell pressure will cause a reactor scram preventing the EOC actuation. RPV level dropping will cause ATWS RPT to occur opening CB-1, 2, 4, 5 for both Recirc pumps. Therefore Answer B is the correct answer. Tier 2 Group 2 This is a NEW question. 10CFR 41.3/41.5/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00888 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-B3300 Objective: 27.5; 28.2; 28.3; 47 KA

References:

1. 202002 K1.01 Recirculation system [3.5/3.6]

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 118 of 158

1. ARI 04-1-02-1H13-P680 3A-E3

2. Tech Spec Bases B3.3.4.1; B3.3.4.2

3. 17-S-06-5 Att II pages 12; 13 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B33: Reactor Recirculation System Categories:

1. Off Normal Event Procedures

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:22:45 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 10:39:55 CDT 2005

2. Modified by mrasch at Wed Jun 15 12:21:58 CDT 2005

3. Modified by mrasch at Wed Jun 15 12:26:43 CDT 2005

4. Modified by mrasch at Wed Jun 15 12:32:08 CDT 2005

5. Modified by mrasch at Mon Jun 20 09:41:46 CDT 2005

6. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

9. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

10. Modified by mrasch at Thu Jul 28 14:39:03 CDT 2005

11. Modified by tharrelso at Fri Jul 29 09:07:58 CDT 2005

12. Modified by mellis at Fri Jul 29 13:24:51 CDT 2005

13. Question Reviewed by mrasch at Thu Aug 04 07:29:14 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

15. Modified by mrasch at Tue Aug 09 11:22:45 CDT 2005

16. Question Reviewed by mellis at Tue Aug 09 11:59:57 CDT 2005 Comments:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 119 of 158 EB QUESTION: 57 (1.0 Points)

Which one of the following conditions associated with the RWCU system will cause a reduction in plant efficiency when operating at 100% power?

Assume none of the listed actions cause a RWCU filter/deminerilizer isolation.

A.

A rise of 5°F in Component Cooling Water temperature at the inlet of the RWCU Non-Regenerative Heat Exchangers.

B.

The RWCU Filter/Demineralizer Bypass valve is leaking by a value of 100 gpm.

C.

An RWCU flow controller malfunction resulting in a reduction in total RWCU flow of 100 gpm.

D.

The RWCU Regenerative Heat Exchanger Bypass valve is throttle open 25%.

Answer: D Question Answer A is incorrect because a rise in CCW temperature results in a Comments: rise in RWCU temperature that causes a less heat having to be made up by the core thus a rise in efficiency. Answer B is incorrect because bypassing the Filter Demineralizers does not affect the heat loss of RWCU such that there is no effect on plant efficiency. Answer C is incorrect because a reduction in RWCU flow means less cool water to be reheated by the core thus a rise in plant efficiency. Answer D is CORRECT because less cooling flow through the Regenerative heat exchanger results in less preheating of the return RWCU water to the reactor causing a loss in plant efficiency. Tier 2 Group 2 This is a NEW question. 10CFR 41.5/41.14 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00889a Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 120 of 158

1. CourseID: GLP-OPS-G3336 Objective: 4.2; 9.9; 18; 19 KA

References:

1. 204000 A4.06 System flow [3.0/2.9]

References:

1. SFD-1079 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. G33: Reactor Water Cleanup Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Fri Jul 15 16:04:42 CDT 2005 Question History:

1. Created by mrasch at Fri Jul 15 11:57:02 CDT 2005

2. Created by mrasch at Fri Jul 15 11:57:02 CDT 2005 from parent QuestionID GGNS-NRC-00889

3. Modified by mrasch at Fri Jul 15 11:58:32 CDT 2005

4. Modified by mrasch at Fri Jul 15 16:04:42 CDT 2005

5. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 58 (1.0 Points)

Prior to emergency depressurizing using the SRVs, EP-2, RPV Control, requires the operating crew to verify Suppression Pool level greater than 10.5 feet.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 121 of 158 The basis for this verification is to ensure:

A.

there is sufficient heat capacity in the Suppression Pool to absorb the energy from a rapid depressurization.

B.

there is sufficient water to preclude the rise in Suppression Pool temperature affecting the operation of the ECCS injection pumps.

C.

there is sufficient backpressure to limit steam flowrates and potential damage to the SRVs.

D.

the SRV discharge quenchers in the Suppression Pool are submerged.

Answer: D Question 10.5 feet in the suppression pool is based on coverage of the SRV Comments: quenchers being covered to prevent the introduction of steam into Containment which would present a challenge to the Containment Sturcture. Therefore Answer D is the correct answer. Tier 2 Group 2 This is a NEW question. 10CFR 41.3/41.4/41.7/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00890 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-EP02A Objective: 7

2. CourseID: GLP-OPS-EP03 Objective: 3 KA

References:

1. 223001 K1.08 Relief/safety valves [3.6/3.8]

References:

1. PSTG file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 122 of 158 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E22-2: Automatic Depressurization System

2. M41-1: Containment Categories:

1. Emergency Procedure Training

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 12:16:42 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 10:58:48 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:44:41 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 12:16:42 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:25:43 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 59 (1.0 Points)

The plant is operating at 100% power when the steam supply to the Offgas Preheaters is lost.

What effect will this have on the Offgas System?

A.

Less hydrogen will be removed from the process stream by the catalytic file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 123 of 158 recombiners.

B.

Fewer radioactive particulates will be removed from the process stream by the catalytic recombiners.

C.

Offgas Pre-treatment radiation levels will rise.

D.

Offgas Post-treatment radiation levels will rise.

Answer: A Question The loss of steam to the Preheaters will result in a less efficiency in the Comments: recombiner component causing offgas hydrogen content to rise. The Offgas recombiners do not affect radioactive materials in offgas.

Therefore Answer A is correct. Tier 2 Group 2 This is a NEW question.

10 CFR 41.4/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00891 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-N6465 Objective: 5.1; 14.3 KA

References:

1. 239001 K3.04 Offgas system [2.8/2.8]

References:

1. 04-1-02-1H13-P845 1A-A2 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 124 of 158

4. Licensed Operator Requalification Training Program Systems:

1. N11: Main Steam System

2. N64: Offgas System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 12:36:49 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 11:10:19 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:49:29 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Thu Jul 14 13:39:50 CDT 2005

7. Question Reviewed by mrasch at Fri Jul 15 16:31:39 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Modified by mrasch at Thu Jul 28 12:36:49 CDT 2005

10. Question Reviewed by mellis at Thu Aug 04 07:25:47 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 60 (1.0 Points)

The plant was at 100% power when a LOCA occurred.

Severe Accident Procedures have been entered.

The Control Room Supervisor has directed initiation of the Outboard Main Steam Isolation Valve Leakage Control System (MSIV LCS).

Which one of the following describes the effect of Standby Gas Treatment System (SGTS) on the effluent of the MSIV LCS?

A.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 125 of 158 Either Standby Gas Treatment System (SGTS) A or B will process most of the effluent from either MSIV LCS subsystem.

B.

Effluent of the Outboard MSIV LCS is piped directly to Standby Gas Treatment System (SGTS) A ducting, therefore SGTS A is the preferred system to operate.

C.

Simultaneous operation of both Inboard MSIV LCS and Outboard MSIV LCS is prohibited unless both Standby Gas Treatment Systems (SGTS) are in operation.

D.

Operation of the Outboard MSIV LCS in conjunction with Standby Gas Treatment System (SGTS) B is preferred.

Answer: A Question Answer A is correct because MSIV LCS exhausts to auxiliary building Comments: corridors on 119 elev. SGTS takes suction on these areas and maintains negative pressure in the auxiliary building, therefore essentially all MSIV LCS exhaust will be eventually processed by SGTS. Answer B is incorrect because MSIV LCS is not piped directly to SGTS, but only in the vicinity of an intake to SGTS ductwork. Answer C is incorrect because simultaneous operation of both inboard and outboard MSIV LCS is always prohibited. Answer D is incorrect because SGTS A is preferred with the outboard MSIV LCS due to the shorter associated transport time.

Tier 2 Group 2 This is a NEW question. 10CFR 41.4/41.14/43.4 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00892 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-E3200 Objective: 12.3; 13.1; 13.2 KA

References:

1. 239003 K1.02 Standby gas treatment system: BWR-4,5,6(P-Spec) [2.9/3.0]

References:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 126 of 158

1. 04-1-01-E32-1 steps 3.1; 3.2; 3.7; 3.8; 5.2.1c TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E32: MSIV Leakage Control System

2. T48: Standby Gas Treatment System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 16:11:37 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 11:23:14 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:52:39 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Fri Jul 29 09:12:42 CDT 2005

8. Modified by tharrelso at Fri Jul 29 09:19:47 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:25:53 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

11. Modified by mrasch at Tue Aug 09 11:23:52 CDT 2005

12. Question Reviewed by mellis at Tue Aug 09 11:59:58 CDT 2005

13. Modified by mrasch at Tue Aug 09 16:11:37 CDT 2005

14. Question Reviewed by mellis at Tue Aug 09 16:14:22 CDT 2005 Comments:

EB QUESTION: 61 (1.0 Points)

Following a scram from rated conditions, pressure is being controlled with the Main file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 127 of 158 Bypass Valves.

There is a steam leak in the RHR A room that CANNOT be isolated.

EP-2 and EP-4 are being performed.

The CRS has determined Emergency Depressurization is anticipated due to EP-4 concerns.

What action should be taken for this condition?

A.

Open 6 Safety Relief Valves to lower the pressure band to 450 psig to 650 psig.

B.

Throttle open Main Bypass Valves to reduce the driving head of the leak, staying within Technical Specification cooldown rate limitations.

C.

Fully open the Main Bypass Valves using the Manual Bypass Jack to fully depressurize the reactor.

D.

Lower Pressure Reference to 450 psig to reduce the driving head of the leak.

Answer: C Question The PSTGs state it is preferred to discharge steam to the main Comments: condenser to limit the challenge to containment. No conditions exist that require closing MSIVs. EP-2A gives guidance for using bypass valves and maintaining the MSIVs open. Operations Philosophy disallows use of low-low set operation of SRVs during ATWS conditions. EHC pumps can be restarted from the control room since bus 14AE undervoltage lockouts are reset. Answer A, B, and D are incorrect because EP-2A bases prefers using bypass valves and maintaining the MSIVs open. Answer C is correct because it includes guidance for using bypass valves and maintaining the MSIVs open. Tier 2 Group 2 This is a NEW question.

10CFR 41.5/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00893 Review Status: Reviewed file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 128 of 158 Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-EP02A Objective: 2; 5

2. CourseID: GLP-OPS-PROC Objective: 59.3 KA

References:

1. GENERIC 2.4.6 Knowledge symptom based EOP mitigation strategies [3.1/4.0]

2. 241000

References:

1. PSTG B-6-25, 38, 41, 42, 43

2. PSTG B-14-9, 11

3. PSTG B-16-5

4. 02-S-01-27 steps 6.1.6; 6.2.4; 6.6.8d TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B21: Nuclear Boiler System Categories:

1. Administrative Requirements

2. Emergency Procedure Training

3. Systems

4. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:24:55 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 11:35:20 CDT 2005

2. Modified by mrasch at Mon Jun 20 09:59:28 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Thu Jul 14 14:03:56 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 129 of 158

7. Modified by mrasch at Thu Jul 14 14:21:37 CDT 2005

8. Modified by mrasch at Thu Jul 14 14:22:52 CDT 2005

9. Question Reviewed by mrasch at Fri Jul 15 16:31:40 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Modified by mrasch at Thu Jul 28 15:38:39 CDT 2005

12. Modified by tharrelso at Fri Jul 29 09:21:49 CDT 2005

13. Question Reviewed by mellis at Thu Aug 04 07:25:57 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

15. Modified by mrasch at Tue Aug 09 11:24:55 CDT 2005

16. Question Reviewed by mellis at Tue Aug 09 11:59:59 CDT 2005 Comments:

EB QUESTION: 62 (1.0 Points)

Which one of the following would automatically occur during Main Turbine roll up from 400 rpm to 1800 rpm?

A.

Primary Water Circulating Pump will start.

B.

Turbine Turning Gear valves will close.

C.

Shaft Lift Oil Pump will stop.

D.

Generator Field Breaker will close.

Answer: C Question Answer A is incorrect because the Primary Water Ciruclating Pump Comments: stops on turbine roll up. Answer B is incorrect because the Turning gear valves close around 240 RPM and must be closed before 400 RPM.

Answer D is incorrect because the Generator Field Breaker is only enabled at 1710 RPM but must be manually closed from the control room. Answer C is CORRECT because the Shaft Lift Oil Pump will automatically stop at about 540 RPM. Tier 2 Group 2 This is a NEW question. 10CFR 41.4/41.10 Image

Reference:

None Closed Reference Question file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 130 of 158 Handout Not Required with Exam QuestionID: GGNS-NRC-00894 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-N4151 Objective: 8.2

2. CourseID: GLP-OPS-N4300 Objective: 10

3. CourseID: GLP-OPS-N3402 Objective: 6.3: 6.4

4. CourseID: GLP-OPS-IOI01 Objective: 33 KA

References:

1. 245000 A3.02 Turbine roll to rated speed [2.8/2.8]

References:

1. 03-1-01-2 sections 7.1.4; 7.1.5; 7.2

2. 04-1-01-N40-1 section 3.12 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. N30: Main Turbine

2. N34: Main Turbine Lube Oil System

3. N40: Main Generator

4. N43: Primary Water System Categories:

1. Integrated Plant Operations

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 11:25:33 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 11:43:21 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:02:26 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 131 of 158

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Tue Jul 26 17:41:15 CDT 2005

8. Modified by mrasch at Wed Jul 27 09:39:56 CDT 2005

9. Modified by tharrelso at Fri Jul 29 09:23:50 CDT 2005

10. Question Reviewed by mellis at Thu Aug 04 07:26:01 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

12. Modified by mrasch at Tue Aug 09 11:25:33 CDT 2005

13. Question Reviewed by mellis at Tue Aug 09 12:00:00 CDT 2005 Comments:

EB QUESTION: 63 (1.0 Points)

The plant is operating at 100% power when Condensate Pump A spuriously trips.

What is the preferred action for this condition?

A.

Scram the reactor due to inevitable Reactor Feed Pump trip on low suction flow.

B.

Initiate Reactor Core Isolation Cooling due to the inevitable Reactor Feed Pump trip on low suction pressure.

C.

Re-start Condensate Pump A in accordance with the SOI to prevent inevitable Condensate Booster Pump trips on low suction pressure.

D.

Lower reactor power to raise margin to Reactor Feed Pump trip setpoints, staying within power to flow limitations.

Answer: D Question A loss of a single Condensate pump will cause a lower suction pressure Comments: for the Condensate Booster Pumps and Reactor Feed pumps but will not cause a reactor scram. GGNS is designed to operate full power with a single condensate and condesate booster pump out of service. Tier 2 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 132 of 158 Group 2 This is a NEW question. 10CFR 41.4/41.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00895 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-N1900 Objective: 2; 25 KA

References:

1. 259001 A2.03 Loss of condensate pump(s) [3.6/3.6]

References:

1. 05-1-02-V-7

2. 04-1-02-1H13-P680-1A-A1 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. N19: Condensate System

2. N21: Feedwater System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 15:55:48 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 11:48:54 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:07:44 CDT 2005

3. Modified by mrasch at Mon Jun 20 10:12:56 CDT 2005

4. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 133 of 158

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

8. Modified by mrasch at Thu Jul 28 15:55:48 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:26:07 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 64 (1.0 Points)

A LOCA has occurred causing Drywell pressure to rise to 4.2 psig.

Which one of the following describes a possible flowpath to transfer the contents of the Containment Floor Drain sump under these conditions?

A.

The sump cannot be transferred.

B.

The sump will automatically transfer directly to the Floor Drain Collector tank.

C.

The sump will automatically transfer to the Auxiliary Building Floor Drain Transfer tank then to the Floor Drain Collector tank.

D.

The sump can be transferred to the Suppression Pool via AUX BLDG EQ/FL DR PMPBK TO SUPP POOL valves, P45-F273 and P45-F274.

Answer: A Question With Drywell pressure at 4.2 psig, an NSSSS isolation signal exists. This Comments: closes the Primary and Secondary Containment isolation valves for P45 and cannot be overridden except P45-F273 and F274 which may be overridden 30 seconds after the isolation signal. Answer A is CORRECT because the flowpath from the containment cannot be opened with the isolation signal present. Answer B is INCORRECT because the Containment Floor Drain Sump must pass through the Auxiliary Building Transfer tank before exiting the Auxiliary Building to Radwaste. Answer C is INCORRECT because the flowpath is correct, however the primary and file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 134 of 158 secondary containment isolation valves are closed and cannot be reopened. Answer D is INCORRECT because the Primary Containment isolation valves are closed and cannot be reopened. Tier 2 Group 2 This is a NEW question. 10CFR 41.4/41.10/43.2/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00896 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-P4500 Objective: 9, 10.9 KA

References:

1. 268000 K1.04 Reactor building floor drains: Plant-Specific [2.7/2.9]

References:

1. M1094 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. P45: Floor and Equipment Drain System Categories:

1. Administrative Requirements

2. Systems

3. Technical Specifications

4. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 09:24:20 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 11:56:48 CDT 2005

2. Modified by mrasch at Mon Jun 20 14:01:47 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 135 of 158

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Mon Jul 11 14:19:19 CDT 2005

7. Modified by mrasch at Thu Jul 14 14:56:24 CDT 2005

8. Modified by mrasch at Thu Jul 14 16:37:19 CDT 2005

9. Question Reviewed by mrasch at Fri Jul 15 16:31:40 CDT 2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Modified by tharrelso at Wed Jul 27 15:36:45 CDT 2005

12. Modified by tharrelso at Fri Jul 29 09:24:20 CDT 2005

13. Question Reviewed by mellis at Thu Aug 04 07:26:14 CDT 2005

14. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 65 (1.0 Points)

Which one of the following identifies where the Auxiliary Building Steam Tunnel Floor Drains are directly routed?

A.

The RHR A room Floor Drain sump B.

The Auxiliary Building Floor Drain Transfer tank C.

The Containment Steam Tunnel Floor Drain sump D.

The RCIC room Floor Drain sump Answer: D Question Answer A, B, and C are incorrect because the Auxiliary Building Steam Comments: Tunnel Floor Drains are hard piped directly to the RCIC room Floor Drain sump, which makes answer D correct. Tier 2 Group 2 This is a file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 136 of 158 NEW question. 10 CFR 41.9 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00897 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-P4500 Objective: 3.13 KA

References:

1. 290001 K4.03 Fluid leakage collection [2.8/2.9]

References:

1. M1098A TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. P45: Floor and Equipment Drain System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 09:25:47 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 12:01:57 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 137 of 158 Date: 08/12/2005

6. Modified by tharrelso at Wed Jul 27 16:51:23 CDT 2005

7. Modified by tharrelso at Wed Jul 27 16:53:58 CDT 2005

8. Modified by tharrelso at Thu Jul 28 06:16:34 CDT 2005

9. Modified by tharrelso at Fri Jul 29 09:25:47 CDT 2005

10. Question Reviewed by mellis at Thu Aug 04 07:26:21 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 66 (1.0 Points)

The plant was at 95% power when Reactor Feed Pump B tripped.

Operation is in the Restricted Region of the Power-Flow Map.

Which of the following indications on 1H13-P680 would allow continued operation of the unit?

A.

APRM oscillations of 14% peak-to-peak.

B.

Annunciators PBDS A INOP (5A-A6) and PBDS B INOP (7A-A6) in due to failed cards.

C.

PBDS A has generated a HI-HI DECAY RATIO (5A-A10) only and PBDS B has generated a HI DECAY RATIO (7A-C4) only.

D.

Alarm PBDS B HI-HI DECAY RATIO (7A-C6) and PDS computer point PBDS Channel B Highest Counts reads 12 counts.

Answer: C Question PBDS is normally a computer indication of APRM oscillations. Answer A Comments: is INCORRECT because APRM oscillations of > 10% is an indication of the onset of instability requiring plant shutdown. Answer B is INCORRECT because with operation in the Restricted Region of the Power to Flow Map and both PBDS channels INOP action with FCTR in NORMAL, calls for immediately placing the reactor mode switch to shutdown. Answer C is CORRECT because Channel A has a HI-HI without a HI which indicates a bad channel and Channel B only has a HI alarm. These conditions allow continued operation but require actions to be taken to immediately exit the region. Answer D is INCORRECT because both the HI-HI alarm on Channel B and indication of 12 counts on the computer point are indications of the Onset of Instability requiring file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 138 of 158 a reactor scram. Tier 3 This is a NEW question. 10CFR 41.1/41.5/41.6/41.10/43.5/43.6 Image

Reference:

None Open Reference Question Handout Required with Exam QuestionID: GGNS-NRC-00898 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-C5106 Objective: 1; 14.1; 14.2; 23.2 KA

References:

1. GENERIC 2.1.19 Ability to use plant computer to obtain and evaluate parametric information on [3.0/3.0]

2. GENERIC 2.4.7 Knowledge of event based EOP mitigation strategies [3.1/3.8]

References:

1. Power to Flow Map (Restricted Region)

2. 05-1-02-III-3 Steps 2.1; 4.9

3. ARI 04-1-02-1H13-P680 5A-A6, A10; 7A-A6, C4, C6 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B33: Reactor Recirculation System

2. C51-3: Local Power Range Nuclear Instrumentation System

3. C51-5: Average Power Range Nuclear Instrumentation System

4. C51-6: Period Based Detection System Categories:

1. Off Normal Event Procedures

2. Systems

3. Continuing Training Task

References:

Question Last Revised By: Mickey Ellis at Fri Jul 29 13:38:58 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 139 of 158 Question History:

1. Created by mrasch at Mon Jun 13 12:14:50 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:18:27 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Fri Jul 29 09:27:45 CDT 2005

8. Modified by mellis at Fri Jul 29 13:38:58 CDT 2005

9. Question Reviewed by mrasch at Thu Aug 04 07:29:15 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 67 (1.0 Points)

The plant is operating at 100% power when the System Load Dispatcher calls and requests Grand Gulf change their generator power factor from1.0 to 0.975 capacitive to help with grid stability.

Generator hydrogen pressure is 60 psig.

Given NO generator operating limits will be exceeded, the operating crew should:

Generator V Curves are provided.

A.

depress the voltage regulator LOWER pushbutton until approximately -300 MVARs are being carried by the generator.

B.

depress the voltage regulator RAISE pushbutton until approximately 300 MVARs are being carried by the generator.

C.

depress the voltage regulator RAISE pushbutton until approximately 250 MVARs are being carried by the generator.

D.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 140 of 158 depress the voltage regulator LOWER pushbutton until approximately -250 MVARs are being carried by the generator.

Answer: D Question From a unity power factor to 0.975 capacitive requires the generator to Comments: be under excited so the voltage regulator must be lowered. The limit on the GGNS Generator reactive load is 250 MVARs. Therefore Answer D is the Correct answer. Tier 3 This is a NEW question. 10CFR 41.4/41.10/43.5 Image

Reference:

None Open Reference Question Handout Required with Exam QuestionID: GGNS-NRC-00899 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-N4151 Objective: 7; 13 KA

References:

1. GENERIC 2.1.25 Ability to obtain and interpret station reference materials such as graphs / [2.8/3.1]

References:

1. 04-1-01-N40-1 step 3.8

2. 03-1-01-2 Figure 2 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. N40: Main Generator

2. N41: Generator Auxiliaries Categories:

1. Integrated Plant Operations

2. Systems file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 141 of 158 Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 09:28:32 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 12:21:49 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:23:16 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 13:03:59 CDT 2005

8. Modified by tharrelso at Fri Jul 29 09:28:32 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:26:33 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 68 (1.0 Points)

An operator is restoring a red tag clearance on a manual valve.

The required position for the valve is THROTTLED, 1 1/2 TURNS OPEN.

There are NO red tie wraps available at GGNS.

Which one of the following is an acceptable method to lock the valve in the required position?

A.

Cable with a padlock B.

Yellow valve seal C.

Black tie wrap file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 142 of 158 D.

Blue tie wrap Answer: A Question Yellow plastic seals are used on Fire Protection Valves. Blue Tie-Wraps Comments: are used as a locking devices for valves other than throttled valves.

Lockwire is used by I&C for sealing instrument valves in position. Chains and/or cables with padlocks are acceptable alternatives to Red and Blue Tie Wraps in the event the appropriate tie-wraps are unavailable. This is per Attachment III of 02-S-01-2 Component Position Verification. Based on this the ONLY CORRECT answer is answer A. This question is MODIFIED. Stem changed to Locked Throttled Valve from Locked Closed Valve. Answer Lockwire was replaced with Black Tie Wrap which is normally used when attaching red tags to components. Original question used RO Audit Examination December 2000 Question # 82 ID WRIA082. Similar question used RO NRC Examination April 2000 Question # 89 ID WRI289. Tier 3 10CFR 41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00237a Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-PROC Objective: 49.14 KA

References:

1. Generic 2.1.29: 3.4/3.3

References:

1. 02-S-01-2 Att III TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

Categories:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 143 of 158

1. Administrative Requirements Task

References:

Question Last Revised By: MikeRasch at Thu Jun 09 09:25:39 CDT 2005 Question History:

1. Created by tharrelso at Tue May 10 13:33:43 CDT 2005

2. Created by tharrelso at Tue May 10 13:33:43 CDT 2005 from parent QuestionID GGNS-NRC-00237

3. Modified by mrasch at Thu May 12 15:52:49 CDT 2005

4. Question Reviewed by mellis at Tue May 31 14:56:58 CDT 2005

5. Modified by mrasch at Thu Jun 09 08:53:48 CDT 2005

6. Modified by mrasch at Thu Jun 09 09:25:39 CDT 2005

7. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

10. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 69 (1.0 Points)

Which one of the following situations presents an operability concern regarding Intermediate Range Monitors?

A.

In Mode 2 preparing to transfer to RUN, all IRMs are fully inserted and indicate 15 to 20 on range 10 while all APRMs indicate 6% to 8% power.

B.

During startup in Mode 2 with IRMs fully inserted, all IRMs indicate approximately 10 on range 1 when all SRMs, fully inserted, indicate approximately 2 x 104 cps.

C.

During a "soft" shutdown with IRMs fully inserted, preparing to go from Mode 1 to Mode 2, APRMS indicate 4% power while the highest reading IRM indicates 110 on range 10 and the lowest IRM indicates 30 on range 10.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 144 of 158 D.

In Mode 2 with IRMs fully inserted, the highest reading IRM indicates 70 on range 8 and the lowest IRM indicates 20 on range 7.

Answer: C Question Answer A is INCORRECT because overlap of IRMs to APRMs is of Comments: concern because system design will initiate rod blocks if adequate overlap is not maintained during power increases. Answer B is INCORRECT because proper overlap is being observed between SRMs and IRMs on plant startup. Answer C is CORRECT because APRMS are reading 4% with at least one IRM >108/125, this does not meet the overlap requirements of 03-1-01-3 section 5.4.7 of Attachment I. The IRM channel check is within a factor of 4 (limit is 10). Answer D is INCORRECT because the IRM channel check is within a factor of 4 (limit is 10). 20 on range 7 is 20 on range 8. Even ranges are just an expansion of the previous odd range. Tier 3 This is a NEW question.

10CFR 41.2/41.6/43.2 Image

Reference:

None Open Reference Question Handout Required with Exam QuestionID: GGNS-NRC-00900 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

1. CourseID: GLP-OPS-C5102 Objective: 9; 10; 15

2. CourseID: GLP-OPS-IOI01 Objective: 20 KA

References:

1. GENERIC 2.2.1 Ability to perform pre-startup procedures for the facility / including operating those [3.7/3.6]

References:

1. 06-OP-1000-D-0001

2. 03-1-01-1 sections 5.28, 6.2.16

3. 03-1-01-3 sections 5.4.7, 5.4.8, 5.4.9 caution step 5.7

4. TS Bases 3.3.1.1 SR3.3.1.1.5 and 3.3.1.1.6 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 145 of 158

3. Licensed Operator Requalification Training Program Systems:

1. C51-2: Intermediate Range Nuclear Instrumentation System Categories:

1. Integrated Plant Operations

2. Systems

3. Technical Specifications

4. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Mon Aug 01 16:03:50 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 12:29:04 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:27:49 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Mon Aug 01 16:03:50 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:26:38 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 70 (1.0 Points)

The plant is in Mode 5.

Core Alterations are in progress.

High Pressure Core Spray (HPCS) is tagged out of service to perform an internal inspection of HPCS TESTABLE CHK VLV E22-F005.

Fuel Pool Cooling and Clean Up (FPCC) pumps A and B are in service.

NO FPCC Filter Demin is in service.

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 146 of 158 RHR B is in Shutdown Cooling, returning to the RPV via RHR B SHUTDN CLG RTN TO FW valve E12-F053B.

Reactor Water Clean Up (RWCU) pump A is tagged out of service for breaker preventive maintenance, only.

Which one of the following activities would require notification by control room personnel to Refuel Floor supervision?

A.

Clearing red tags and restoring HPCS to standby.

B.

Returning RWCU pump A to standby.

C.

Placing Standby Service Water B in service to FPCC heat exchangers.

D.

Making necessary adjustments to RHR HX B OUTLT VLV E12-F003B to maintain constant reactor coolant temperature.

Answer: A Question Answer A is CORRECT because there is a potential of an air bubble Comments: rising into the reactor could cause problems on the Refuel floor. Answer B is INCORRECT because this realignment of RWCU would not change flows to the Reactor. Answer C is INCORRECT because this will only alter the cooling medium for FPCCU not the actual flow of the system.

Answer D is INCORRECT because this is only changing the amount of flow from Shutdown Cooling not swapping the system providing shutdown cooling. Tier 3 This is a NEW question. 10CFR 41.10/43.5/43.6/43.7 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00901 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 147 of 158 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: GLP-OPS-IOI05 Objective: 2.3

2. CourseID: GLP-OPS-PROC Objective: 8.30 KA

References:

1. GENERIC 2.2.30 Knowledge of RO duties in the control room during fuel handling such as alarms [3.5/3.3]

References:

1. 01-S-06-2 step 6.7.29

2. 03-1-01-5 steps 2.24; 2.34; 2.35 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. E12: Residual Heat Removal System

2. E22-1: High Pressure Core Spray System

3. G33: Reactor Water Cleanup

4. G41: Fuel Pool Cooling and Cleanup System

5. P41: Standby Service Water System Categories:

1. Administrative Requirements

2. Integrated Plant Operations

3. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Fri Jul 29 09:40:46 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 12:36:19 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:29:40 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 148 of 158

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Fri Jul 29 09:32:42 CDT 2005

8. Modified by tharrelso at Fri Jul 29 09:40:46 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:26:46 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 71 (1.0 Points)

The Auxiliary Building Operator must enter a High Radiation Area to hang red tags.

The general area dose rate is 50% of the maximum dose rate that could be experienced for a High Radiation Area.

The operator is male, 30 years old, and has accumulated 200 mrem year-to-date Total Effective Dose Equivalent (TEDE).

His lifetime TEDE is 1200 mrem.

NO extension of the operators dose limit will be granted.

Which one of the following times is the longest the operator could stay in the general area dose rate for the High Radiation Area without exceeding the administrative dose limit for TEDE?

A.

1.8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> B.

3.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> C.

4.8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> D.

9.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> Answer: B Question 50% of the maximum radiation dose rate of a High Radiation Area of 999 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 149 of 158 Comments: mrem/hr is 499 mrem/hr. Workers dose margin to the annual administrative limit is 1800 mrem based on 200mrem already received and a 2000 mrem per year administrative TEDE limit. Entry into a 499mrem/hr field with an 1800 mrem maximum dose gives a stay time of 3.6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. This is Answer B. Answer A is based on 1000 mrem/hr.

Answers C and D are INCORRECT because they are based on the NRC TEDE Limit of 5 Rem/Yr. Tier 3 This is a NEW question. 10CFR 41.10/41.12/43.4/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00902 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: ELP-GET-RWT Objective: RWT30; 32; 43; 44 KA

References:

1. GENERIC 2.3.1 Knowledge of 10 CFR: 20 and related facility radiation control requirements [2.6/3.0]

References:

1. 01-S-08-2 section 6.5.1d

2. NMM ENS-RP-201 section 5.2.3.1 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

Categories:

1. Administrative Requirements

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Mon Jun 20 10:30:45 CDT 2005 Question History:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 150 of 158

1. Created by mrasch at Mon Jun 13 12:41:38 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:30:45 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 72 (1.0 Points)

A Site Area Emergency has been declared.

You must leave the control room to perform operations at an Alternate Shutdown Panel.

For this situation, your administrative annual dose limit is automatically extended to:

A.

2.5 Rem B.

4.5 Rem C.

5 Rem D.

10 Rem Answer: C Question Emergency Support personnel are administratively extended to the Comments: federal limits of 10 CFR20 at the declaration of an Alert or above. The federal limit is 5 Rem TEDE per year Based on the above discussion Answer C is the only CORRECT answer. Tier 3 This is a NEW question.

10CFR 41.10/41.12/43.4/43.5 Image

Reference:

None file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 151 of 158 Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00903 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

1. CourseID: ELP-GET-RWT Objective: RWT36 KA

References:

1. GENERIC 2.3.4 Knowledge of radiation exposure limits and contamination control /

including [2.5/3.1]

References:

1. 10-S-01-17 section 6.8.1 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

Categories:

1. Administrative Requirements

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Thu Jul 28 17:09:15 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 12:50:27 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:31:56 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Modified by mrasch at Thu Jul 14 15:05:11 CDT 2005

7. Question Reviewed by mrasch at Fri Jul 15 16:31:40 CDT 2005

8. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 152 of 158 Date: 08/12/2005

9. Modified by mrasch at Thu Jul 28 17:09:15 CDT 2005

10. Question Reviewed by mellis at Thu Aug 04 07:26:52 CDT 2005

11. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 73 (1.0 Points)

An ATWS is in progress.

Emergency Depressurization has just commenced.

The Control Room Supervisor has directed you to inject with 2 mlbm/hr using Condensate through the Start-Up Level Control Valve when reactor pressure lowers to the Minimum Steam Cooling Pressure (MSCP).

What is the basis for initializing injection at the rate of 2 mlbm/hr?

A.

To prevent damage to reactor internals due to thermal shock.

B.

To prevent exceeding DP restrictions for the Start-Up Level Control Valve.

C.

To prevent substantial fuel damage due to large power excursions.

D.

To prevent exceeding the upper end of the allowed level band.

Answer: C Question EP-2A Caution 5. Answer C is the only correct answer. Tier 3 This is Comments: a NEW question. 10 CFR 41.7/41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00904 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Difficulty Rating: 2 Objectives:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 153 of 158

1. CourseID: GG-1-LP-RO-EP02A Objective: 2; 9 KA

References:

1. GENERIC 2.4.20 Knowledge of operational implications of EOP warnings / cautions /

and notes [3.3/4.0]

References:

1. 05-S-01-EP-2 Caution 5 TrainingPrograms:

1. Reactor Operator Training Program

2. Senior Reactor Operator Training Program

3. Licensed Operator Requalification Training Program Systems:

1. B21: Nuclear Boiler System Categories:

1. Administrative Requirements

2. Emergency Procedure Training

3. Systems

4. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Tue Aug 09 16:12:35 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 12:55:42 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:35:55 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by mrasch at Thu Jul 28 16:11:24 CDT 2005

8. Modified by mrasch at Thu Jul 28 17:33:52 CDT 2005

9. Question Reviewed by mellis at Thu Aug 04 07:26:57 CDT 2005

10. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

11. Modified by mrasch at Tue Aug 09 11:27:46 CDT 2005 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 154 of 158

12. Question Reviewed by mellis at Tue Aug 09 12:00:01 CDT 2005

13. Modified by mrasch at Tue Aug 09 16:12:35 CDT 2005

14. Question Reviewed by mellis at Tue Aug 09 16:14:23 CDT 2005 Comments:

EB QUESTION: 74 (1.0 Points)

Both Standby Gas Treatment systems have automatically started because of a small break LOCA in the drywell.

The Roving operator was verifying that the systems started properly when the following annunciators alarmed.

SGTS FLTR TR A CHAR TEMP HI SGTS FLTR TR A CHAR TEMP HI-HI What immediate action should the operator take in response to these alarms after placing handswitch SGTS FLTR TR A HTR to the OFF position?

A.

Dispatch a building operator to open the exhaust filter train fan A breaker.

B.

Secure SGTS train A per the T48 SOI.

C.

Dispatch a building operator to start the motor driven fire pump.

D.

Secure both SGTS trains per the T48 SOI.

Answer: A Question The SGTS automatically started due to exceeding a NSSSS LOCA Comments: signal setpoint and cannot be secured until the NSSSS signal is cleared and reset. Therefore answers B and D are incorrect. Answer A is correct because, per the ARI, the exhaust filter train fan for the affected system is opened to minimize the amount of air available to feed the fire. Answer C is incorrect because the motor driven fire should automatically start once the filter train deluge system is activated. Tier 3 This is a NEW question. 10 CFR 41.7 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 155 of 158 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00905 Review Status: Reviewed Difficulty: 2: Comprehension or Analysis Objectives:

1. CourseID: GLP-OPS-P6400 Objective: 3.8 KA

References:

1. GENERIC 2.4.25 Knowledge of fire protection procedures [2.9/3.4]

References:

1. 10-S-03-2

2. 04-1-02-1H13-P870-2A-C2

3. 04-1-02-1H13-P870-2A-B2 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

1. P64: Fire Water Protection System

2. T48: Standby Gas Treatment System Categories:

1. Systems

2. Continuing Training Task

References:

Question Last Revised By: Tommy Harrelson at Thu Jul 28 06:43:33 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 13:00:50 CDT 2005

2. Modified by mrasch at Mon Jun 20 10:38:38 CDT 2005

3. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

4. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 156 of 158 Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

7. Modified by tharrelso at Thu Jul 28 06:43:33 CDT 2005

8. Question Reviewed by mellis at Thu Aug 04 07:27:05 CDT 2005

9. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

EB QUESTION: 75 (1.0 Points)

Which of the following is the preferred back-up method for notifications to state and local agencies when the Operational Hot Line (OHL) is inoperative during implementation of the Emergency Plan?

A.

UHF radio B.

Satellite telephone C.

Commercial telephone D.

Entergy fiber optic lines Answer: C Question Per 10-S-01-6 all of the above are backup communications but per Comments: 6.3.1 lists in order of use the backup communications listing Commercial Telephone as the first method. Therefore answer C is CORRECT. Tier 3 This is a NEW question. 10CFR 41.10/43.5 Image

Reference:

None Closed Reference Question Handout Not Required with Exam QuestionID: GGNS-NRC-00906 Review Status: Reviewed Difficulty: 1: Fundamental Knowledge or Memory Objectives:

file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 157 of 158

1. CourseID: GLP-EP-EPT6 Objective: 3 KA

References:

1. GENERIC 2.4.43 Knowledge of emergency communications systems and techniques

[2.8/3.5]

References:

1. 10-S-01-6 section 6.3 TrainingPrograms:

1. Nonlicensed Operator Training Program

2. Reactor Operator Training Program

3. Senior Reactor Operator Training Program

4. Licensed Operator Requalification Training Program Systems:

Categories:

1. Emergency Plan Training

2. Continuing Training Task

References:

Question Last Revised By: MikeRasch at Mon Jun 13 13:04:50 CDT 2005 Question History:

1. Created by mrasch at Mon Jun 13 13:04:50 CDT 2005

2. Question Reviewed by mrasch at Mon Jun 20 14:44:20 CDT 2005

3. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

4. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005

5. Question used on ExamName: NRC August 2005 - 1 ExamID: NRC-082005-1 Exam Date: 08/12/2005

6. Question used on ExamName: NRC August 2005 - 3 ExamID: NRC-082005-3 Exam Date: 08/12/2005 Comments:

END OF EXAM Total Number of Questions: 75 Total Point Value: 75.0 file://F:\ROEXAMREV3Final.htm 8/9/2005

View Exams Page 158 of 158 Total Exam Question Difficulty: 123.0 Average Exam Question Difficulty: 1.64 Questions with Difficulty Level 1: 27 Questions with Difficulty Level 2: 48 Go to Action Menu. Go to Home Menu. Exit.

file://F:\ROEXAMREV3Final.htm 8/9/2005