ML092170365: Difference between revisions
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| number = ML092170365 | | number = ML092170365 | ||
| issue date = 08/03/2009 | | issue date = 08/03/2009 | ||
| title = | | title = 301 Written Exam Written Rd Exam & Answer Key | ||
| author name = | | author name = | ||
| author affiliation = NRC/RGN-II/DNMS | | author affiliation = NRC/RGN-II/DNMS | ||
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=Text= | =Text= | ||
{{#Wiki_filter:CO P Y U.S. Nuclear Regulatory Commission Site-Specific RO Written Examination Applicant Information Name: Date: 06-26-2009 Facility/Unit: Vogtle 1 & 2 Region: 1 0 11-III 0 IV 0 Reactor Type: W. CE D BW D GE D Start Time: Finish Time: Instructions Use the answer sheets provided to document your answers. Staple this cover sheet on top of the answer sheets. To pass the examination, you must achieve a final grade of at lea st 80.00 percent. Examination papers will be collected 6 hours after the examination begins. Applicant Certification All work done on this examination is my own. I have neither given nor received aid. Applicant's Signature Results Examination Value 75 Points Applicant's Score Points Applicant's Grade Percent Date: 06-26-2009 VEGP NRC RO Exam in a ti on Answer Sheet Stu d ent Name: 1. 26. 51. 2. 27. 52. 3. 28. 53. 4. 29. 54. 5. 30. 55. 6. 3 1. 56. 7. 32. 57. 8. 33. 58. 9. 3 4. 59. 10. 35. 60. 11. 36. 61. 1 2. 37. 1 3. 38. 63. 1 4. 39. 64. 1 5. 40. 65. 1 6. 4 1. 66. 1 7. 42. 67. 1 8. 43. 68. 19. 44. 69. 20. 45. 70. 21. 46. 7 1. 22. 4 7. 72. 23. 4 8. 73. 24. 4 9. 74. 25. 50. 75. | {{#Wiki_filter:CO P Y U.S. Nuclear Regulatory Commission Site-Specific RO Written Examination Applicant Information Name: Date: 06-26-2009 Facility/Unit: Vogtle 1 & 2 Region: 1 0 11-III 0 IV 0 Reactor Type: W. CE D BW D GE D Start Time: Finish Time: Instructions Use the answer sheets provided to document your answers. Staple this cover sheet on top of the answer sheets. To pass the examination, you must achieve a final grade of at lea st 80.00 percent. Examination papers will be collected 6 hours after the examination begins. Applicant Certification All work done on this examination is my own. I have neither given nor received aid. Applicant's Signature Results Examination Value 75 Points Applicant's Score Points Applicant's Grade Percent Date: 06-26-2009 VEGP NRC RO Exam in a ti on Answer Sheet Stu d ent Name: 1. 26. 51. 2. 27. 52. 3. 28. 53. 4. 29. 54. 5. 30. 55. 6. 3 1. 56. 7. 32. 57. 8. 33. 58. 9. 3 4. 59. 10. 35. 60. 11. 36. 61. 1 2. 37. 1 3. 38. 63. 1 4. 39. 64. 1 5. 40. 65. 1 6. 4 1. 66. 1 7. 42. 67. 1 8. 43. 68. 19. 44. 69. 20. 45. 70. 21. 46. 7 1. 22. 4 7. 72. 23. 4 8. 73. 24. 4 9. 74. 25. 50. 75. | ||
Answers # ID 0 001A4.12 I A 2 002G2.1.31 I D 3 003AK2.05 I B 4 003K6.14 I B 5 004K5.11 I D 6 004K5.15 I B 7 005K2.03 I B 8 006A4.11 I B 9 007EA2.06 I B 10 007KI.OI I B II 008A4.02 I B 12 008AK2.022 D 13 008K3.03 I C 14 009EG2.4.34 I D 15 010K2.04 I A 16 010K6.01 I B 17 011 EG2.2.37 I D 18 012K3.041 B 19 013KI.071 D 20 015AG2.4.6 I D 2 1 015K2.01 1 C 22 022AI.02 1 C 23 022AAI.02 1 C 24 025AKI.Ol 1 D 25 026K4.01 1 C 26 027AK3.022 B 27 028K5.041 C 28 029EK2.06 I B 29 029KI.05 1 D 30 032AA2.092 C 31 033AI.Ol 1 B 32 035K6.01 1 B 33 039G2.2.25 2 A 34 051AAI.042 B 35 055EKI.O I I A 36 055K3.0 1 1 C 37 056AA2.391 D 38 057AAI.04 1 A 39 058AA2.01 1 D 40 059A3.04 1 A 41 061AI.012 D 42 061G2.1.71 C 43 062AK3.03 I B 44 062K4.021 A 45 063A2.01 1 C 6--e64*!I:'6 , e8 2 C 47 065AAI.03 1 D 48 068AG2.4.6 2 D Page: lof2 6126/2009 Answers # ID 0 4 9 071A2.08 1 B 50 073K5.01 1 A 51 076A2.012 B 52 076A2.021 B 53 076AA2.032 D 54 077AK2.041 A 55 078A3.01 1 A 56 078G2.4.31 1 D 57 086A3.01 1 C 58 103A1.01 1 C 59 103A4.03 2 D 60 G2.1.8 1 A 61 G2.1.29 1 D 62 G2.1.30 1 C 63 G2.2.132 C 6 4 G2.2.44 1 B 65 G2.3.11 1 C 66 G2.3.14 1 C 67 G2.4.13 1 B 68 G2.4.34 1 B 69 G2.4.43 1 D 70 WE03EA1.3 1 C 7 1 WE04EK 3.4 1 C 72 WE05EK1.32 D 73 WE06EK3.4 3 A 74 WE08EK2.1 1 B 75 WE09EK 1.2 1 A Page: 20f2 6/2612009 | Answers # ID 0 001A4.12 I A 2 002G2.1.31 I D 3 003AK2.05 I B 4 003K6.14 I B 5 004K5.11 I D 6 004K5.15 I B 7 005K2.03 I B 8 006A4.11 I B 9 007EA2.06 I B 10 007KI.OI I B II 008A4.02 I B 12 008AK2.022 D 13 008K3.03 I C 14 009EG2.4.34 I D 15 010K2.04 I A 16 010K6.01 I B 17 011 EG2.2.37 I D 18 012K3.041 B 19 013KI.071 D 20 015AG2.4.6 I D 2 1 015K2.01 1 C 22 022AI.02 1 C 23 022AAI.02 1 C 24 025AKI.Ol 1 D 25 026K4.01 1 C 26 027AK3.022 B 27 028K5.041 C 28 029EK2.06 I B 29 029KI.05 1 D 30 032AA2.092 C 31 033AI.Ol 1 B 32 035K6.01 1 B 33 039G2.2.25 2 A 34 051AAI.042 B 35 055EKI.O I I A 36 055K3.0 1 1 C 37 056AA2.391 D 38 057AAI.04 1 A 39 058AA2.01 1 D 40 059A3.04 1 A 41 061AI.012 D 42 061G2.1.71 C 43 062AK3.03 I B 44 062K4.021 A 45 063A2.01 1 C 6--e64*!I:'6 , e8 2 C 47 065AAI.03 1 D 48 068AG2.4.6 2 D Page: lof2 6126/2009 Answers # ID 0 4 9 071A2.08 1 B 50 073K5.01 1 A 51 076A2.012 B 52 076A2.021 B 53 076AA2.032 D 54 077AK2.041 A 55 078A3.01 1 A 56 078G2.4.31 1 D 57 086A3.01 1 C 58 103A1.01 1 C 59 103A4.03 2 D 60 G2.1.8 1 A 61 G2.1.29 1 D 62 G2.1.30 1 C 63 G2.2.132 C 6 4 G2.2.44 1 B 65 G2.3.11 1 C 66 G2.3.14 1 C 67 G2.4.13 1 B 68 G2.4.34 1 B 69 G2.4.43 1 D 70 WE03EA1.3 1 C 7 1 WE04EK 3.4 1 C 72 WE05EK1.32 D 73 WE06EK3.4 3 A 74 WE08EK2.1 1 B 75 WE09EK 1.2 1 A Page: 20f2 6/2612009 | ||
: 1. Given the following: -A turbine runback occurred and the crew has now stabilzed the plant. -The UO is making minor turbine adjustments to control RCS Tave. -Control Rods are currently in AUTO. -Tave is currently | : 1. Given the following: -A turbine runback occurred and the crew has now stabilzed the plant. -The UO is making minor turbine adjustments to control RCS Tave. -Control Rods are currently in AUTO. -Tave is currently 2.8 degrees higher than Tref. Which ONE of the following describes the current rod speed and when rod movement would stop? Current Rod Speed When Rod Motion Stops (In steps per minute) (temperature deviation) | ||
A. 8 steps per minute Tave < 1.0 degrees> Tref B. 8 steps per minute Tave < 1.5 degrees> Tref C. > 8 steps per minute Tave < 1.0 degrees> Tref D. > 8 steps per minute Tave < 1.5 degrees> Tref Page: 1 of 75 6/22/2009 | |||
higher than Tref. Which ONE of the following describes the current rod speed and when rod movement would stop? Current Rod Speed When Rod Motion Stops (In steps per minute) (temperature deviation) | |||
A. 8 steps per minute Tave < 1.0 degrees> Tref B. 8 steps per minute Tave < 1.5 degrees> Tref C. > 8 steps per minute Tave < 1.0 degrees> Tref D. > 8 steps per minute Tave < 1.5 degrees> Tref Page: 1 of 75 6/22/2009 | |||
: 2. Given the following: | : 2. Given the following: | ||
-All RCPs are de-energized. Based on RVLlS indication, which ONE of the following RCP hand switch positions would lead to a false CORE COOLING CSF status tree condition? | -All RCPs are de-energized. Based on RVLlS indication, which ONE of the following RCP hand switch positions would lead to a false CORE COOLING CSF status tree condition? | ||
Rep 1 E handswitches Rep non-1 E handswitches A. Open Open B. Closed Open C. Open Closed D. Closed Closed P age: 2 0 f 75 6/22/2009 | Rep 1 E handswitches Rep non-1 E handswitches A. Open Open B. Closed Open C. Open Closed D. Closed Closed P age: 2 0 f 75 6/22/2009 | ||
: 3. Given the following: | : 3. Given the following: | ||
-Dropped rod recovery in progress. -The OATC initiates rod withdrawal for the affected rod. -The ROD CONTROL URGENT FAILURE annunciator illuminates. | -Dropped rod recovery in progress. -The OATC initiates rod withdrawal for the affected rod. -The ROD CONTROL URGENT FAILURE annunciator illuminates. | ||
Which ONE of the following completes the following statements? | Which ONE of the following completes the following statements? | ||
This is due to a __ (a), __ failure in the unaffected rod group in the affected bank. Once rod withdrawal is complete , the OATC should reset the ROD CONTROL URGENT FAILURE alarm using the (b), __ A. (a) regulation (b) ROD CONTROL STARTUP switch B. (a) regulation (b) ROD CONTROL ALARM RESET switch C. (a) multiplexing (b) ROD CONTROL STARTUP switch D. (a) multiplexing (b) ROD CONTROL ALARM RESET switch Page: 30f75 6/22/2009 | This is due to a __ (a), __ failure in the unaffected rod group in the affected bank. Once rod withdrawal is complete , the OATC should reset the ROD CONTROL URGENT FAILURE alarm using the (b), __ A. (a) regulation (b) ROD CONTROL STARTUP switch B. (a) regulation (b) ROD CONTROL ALARM RESET switch C. (a) multiplexing (b) ROD CONTROL STARTUP switch D. (a) multiplexing (b) ROD CONTROL ALARM RESET switch Page: 30f75 6/22/2009 | ||
: 4. Initial conditions: | : 4. Initial conditions: | ||
-RCS heatup is in progress. | -RCS heatup is in progress. | ||
-Filling and venting of the RCS in progress. | -Filling and venting of the RCS in progress. | ||
-The OATC is ready to start the first RCP. Which ONE of the following sets of parameters will ALLOW starting of the first RCP in accordance with SOP-13003, Reactor Coolant Pumps? RCS Pressure (psig) VCT Pressure (psig) Seal Injection Flow (gpm) A. 360 17 14 B. 340 19 10 C. 320 21 7 D. 300 15 11 Page: 4of75 6/22/2009 | -The OATC is ready to start the first RCP. Which ONE of the following sets of parameters will ALLOW starting of the first RCP in accordance with SOP-13003, Reactor Coolant Pumps? RCS Pressure (psig) VCT Pressure (psig) Seal Injection Flow (gpm) A. 360 17 14 B. 340 19 10 C. 320 21 7 D. 300 15 11 Page: 4of75 6/22/2009 | ||
: 5. Given the following: | : 5. Given the following: | ||
-AOP-18007-C, "Chemical Volume Control System Malfunction," Section A for "Total Loss of Letdown Flow" has been entered. -Seal injection flows are as follows: RCP # 1 -8.5 gpm RCP # 2 -9.0 gpm RCP # 3 -8.5 gpm RCP # 4 -9.0 gpm -Charg i ng flow is currently | -AOP-18007-C, "Chemical Volume Control System Malfunction," Section A for "Total Loss of Letdown Flow" has been entered. -Seal injection flows are as follows: RCP # 1 -8.5 gpm RCP # 2 -9.0 gpm RCP # 3 -8.5 gpm RCP # 4 -9.0 gpm -Charg i ng flow is currently | ||
-120 gpm -The OATC is reducing charging flow using FIC-0121, Charging Flow Controller while maintaining the current seal injection flows using HC-0182, "Seal Water Controller." In accordance with 18007-C , which ONE of the following is the required action the OATC should take in accordance with 18007-C and the basis fo r the final charging flow rate? A. Reduce charging flow to -35 gpm. Prevent Regenerative Heat E x changer damage due to high thermal stress e s. B. Reduce charging flow to -45 gpm Prevent Regenerative Heat Exchanger damage due to high thermal stresses. | -120 gpm -The OATC is reducing charging flow using FIC-0121, Charging Flow Controller while maintaining the current seal injection flows using HC-0182, "Seal Water Controller." In accordance with 18007-C , which ONE of the following is the required action the OATC should take in accordance with 18007-C and the basis fo r the final charging flow rate? A. Reduce charging flow to -35 gpm. Prevent Regenerative Heat E x changer damage due to high thermal stress e s. B. Reduce charging flow to -45 gpm Prevent Regenerative Heat Exchanger damage due to high thermal stresses. | ||
C. Reduce charging flow to -35 gpm. Prevent an additional high stress thermal cycle on the charging line nozzles. D. Reduce charging flow to -45 gpm. Prevent an additional high stress thermal cycle on the charging line nozzles. P age: 5 0 f75 6/22/2 00 9 | C. Reduce charging flow to -35 gpm. Prevent an additional high stress thermal cycle on the charging line nozzles. D. Reduce charging flow to -45 gpm. Prevent an additional high stress thermal cycle on the charging line nozzles. P age: 5 0 f75 6/22/2 00 9 | ||
: 6. Initial conditions | : 6. Initial conditions | ||
: -The unit is at 100% power. -Control rods are in automatic. | : -The unit is at 100% power. -Control rods are in automatic. | ||
-Boric Acid Potentiometer is required to be set at 3.69 -Boric Acid Potentiometer actual setting is 2.69 Current conditions: | -Boric Acid Potentiometer is required to be set at 3.69 -Boric Acid Potentiometer actual setting is 2.69 Current conditions: | ||
-An automatic makeup to the VCT occurs. Which ONE of the choices completes the following statements? | -An automatic makeup to the VCT occurs. Which ONE of the choices completes the following statements? | ||
To offset the reactivity change from the auto makeup control rods would need to be (a), __ At EOL , the effects of the Boric Acid Potentiometer setting error causes rods to move (b) than at BOL. A. (a) INSERTED (b) more B. (a) INSERTED (b) less C. (a) WITHDRAWN (b) more D. (a) WITHDRAWN (b) less. Pa g e: 60 f75 612 2/2009 | To offset the reactivity change from the auto makeup control rods would need to be (a), __ At EOL , the effects of the Boric Acid Potentiometer setting error causes rods to move (b) than at BOL. A. (a) INSERTED (b) more B. (a) INSERTED (b) less C. (a) WITHDRAWN (b) more D. (a) WITHDRAWN (b) less. Pa g e: 60 f75 612 2/2009 | ||
: 7. The Unit is in Mode 1. Regarding the following valve: -RHR PMP-A UPSTREAM SUCTION FROM HOT LEG LOOP 1, 1 HV-8701 B. Which ONE of the following CORRECTLY describes the power supply and the normal valve status for present plant conditions? | : 7. The Unit is in Mode 1. Regarding the following valve: -RHR PMP-A UPSTREAM SUCTION FROM HOT LEG LOOP 1, 1 HV-8701 B. Which ONE of the following CORRECTLY describes the power supply and the normal valve status for present plant conditions? | ||
A. 125V DC Inverter C0115 , valve is normally energized. | A. 125V DC Inverter C0115 , valve is normally energized. | ||
B. 125V DC Inverter C0115 , valve is normally de-energized. | B. 125V DC Inverter C0115 , valve is normally de-energized. | ||
C. 125V DC Inverter 00116, valve is normally energized. | C. 125V DC Inverter 00116, valve is normally energized. | ||
O. 125V DC Inverter 00116, valve is normally de-energized. , Page: 7 of 75 6/22/2009 | O. 125V DC Inverter 00116, valve is normally de-energized. , Page: 7 of 75 6/22/2009 | ||
: 8. The plant is in Mode 5. The following annunciator is i lluminated and cannot be reset; -B COLD OP ACTU VLV HV-8000B NOT FULL OPEN Which ONE of the conditions below would require entry into the COPS LCO? (Assume all valve lift setpoints are set correctly) | : 8. The plant is in Mode 5. The following annunciator is i lluminated and cannot be reset; -B COLD OP ACTU VLV HV-8000B NOT FULL OPEN Which ONE of the conditions below would require entry into the COPS LCO? (Assume all valve lift setpoints are set correctly) | ||
A. Train A RHR loop suction isolation valves open. PORV A handswitch in auto , Train A COPS in ARM. B. RHR Train A loop suction isolation valves open. PORV B handswitch in auto , Train B COPS in ARM. C. RHR T r ain A and Train B loop suction isolation valves open. PORV A handswitch in auto, Train A COPS in BLOCK D. RHR Train A and Train B loop suction isolation valves open. PORV B handswitch in auto , Train B COPS in BLOCK. Pa g e: 8 0f 75 6/2 21 200 9 | A. Train A RHR loop suction isolation valves open. PORV A handswitch in auto , Train A COPS in ARM. B. RHR Train A loop suction isolation valves open. PORV B handswitch in auto , Train B COPS in ARM. C. RHR T r ain A and Train B loop suction isolation valves open. PORV A handswitch in auto, Train A COPS in BLOCK D. RHR Train A and Train B loop suction isolation valves open. PORV B handswitch in auto , Train B COPS in BLOCK. Pa g e: 8 0f 75 6/2 21 200 9 | ||
: 9. Initial conditions: | : 9. Initial conditions: | ||
-The plant is at 100% power Current conditions | -The plant is at 100% power Current conditions | ||
Line 56: | Line 53: | ||
No operator actions have been taken. Which ONE of the following is CORRECT regarding plant status and ne x t required operator actions (if any)? Plant Status Required Action (if any) A. The Reactor i s tripped. Check Turbine Tripped. B. The Reactor is tripped. Trip the Reactor using both trip handswitches. | No operator actions have been taken. Which ONE of the following is CORRECT regarding plant status and ne x t required operator actions (if any)? Plant Status Required Action (if any) A. The Reactor i s tripped. Check Turbine Tripped. B. The Reactor is tripped. Trip the Reactor using both trip handswitches. | ||
C. The Reactor is at power. No action i s required. D. The Reactor is at power. Trip the Reactor using either trip handswitch. | C. The Reactor is at power. No action i s required. D. The Reactor is at power. Trip the Reactor using either trip handswitch. | ||
Page: 9 0f 7 5 6/2 2/2009 | Page: 9 0f 7 5 6/2 2/2009 | ||
: 10. Given the following conditions. -PRZR Safety Valve, PSV-8010A, is stuck slightly open. -RCS pressure is stable at 1920 psig. -PZR Vapor Space Temperature is 630 o F. -PRT pressure is 35 psig and slowly rising. -Containment pressure is 0 psig. -PSV-801 OA tailp i pe temperature is reading -281 o F. Select the correct choice for: (a) the tail pipe temperature reading, and (b) the expected response of the tailpipe temperature if the safety valve does not close. REFERENCE PROVIDED A. The tail pipe indication is reading correctly. The temperature should rise to -338 o F, then remain stable. B. The tail pipe indication is reading correctly. The temperature should rise to -338°F, then quickly lower to -212 o F. C. The tail pipe indication should read -258°F. The temperature should rise to -328°F, then remain stable. D. The tail pipe indication should read -258°F. The temperature should rise to -328°F, then quickly lower to -212 o F. Page: 10 of 75 6/22/200 9 | : 10. Given the following conditions. -PRZR Safety Valve, PSV-8010A, is stuck slightly open. -RCS pressure is stable at 1920 psig. -PZR Vapor Space Temperature is 630 o F. -PRT pressure is 35 psig and slowly rising. -Containment pressure is 0 psig. -PSV-801 OA tailp i pe temperature is reading -281 o F. Select the correct choice for: (a) the tail pipe temperature reading, and (b) the expected response of the tailpipe temperature if the safety valve does not close. REFERENCE PROVIDED A. The tail pipe indication is reading correctly. The temperature should rise to -338 o F, then remain stable. B. The tail pipe indication is reading correctly. The temperature should rise to -338°F, then quickly lower to -212 o F. C. The tail pipe indication should read -258°F. The temperature should rise to -328°F, then remain stable. D. The tail pipe indication should read -258°F. The temperature should rise to -328°F, then quickly lower to -212 o F. Page: 10 of 75 6/22/200 9 | ||
: 11. Given the following: | : 11. Given the following: | ||
-Maintenance on CCW Train A is to be performed. | -Maintenance on CCW Train A is to be performed. | ||
Line 64: | Line 61: | ||
C. (a) the Radwaste Processing Facility (RPF) for processing and reuse. (b) start 3 CCW pumps simultaneously, reduce to 2 CCW pumps after fill & vent has been completed. | C. (a) the Radwaste Processing Facility (RPF) for processing and reuse. (b) start 3 CCW pumps simultaneously, reduce to 2 CCW pumps after fill & vent has been completed. | ||
D. (a) the Clean Water Sump for disposal to the Waste Water Retention Basins. (b) start 3 CCW pumps simultaneously, reduce to 2 CCW pumps after fill & vent has been completed. | D. (a) the Clean Water Sump for disposal to the Waste Water Retention Basins. (b) start 3 CCW pumps simultaneously, reduce to 2 CCW pumps after fill & vent has been completed. | ||
Page: 11 of 75 6/22/2009 | Page: 11 of 75 6/22/2009 | ||
: 12. Given the following plant conditions: | : 12. Given the following plant conditions: | ||
-Unit 1 has a stuck open PRZR Code Safety Valve. -Appropriate operator response actions have been taken. -RCS pressure is stable at 1345 psig -Containment temperature is 160 0 F -Actual PRZR level is 50% The effect of RCS pressure at 1345 psig will cause the indicated PRZR level LI-459 to read...li!L actual level; the effect of containment temperature at 160 0 F tends to make the indicated PRZR level read than actual level. A. (a) below (b) lower B. (a) below (b) higher C. (a) above (b) lower D. (a) above (b) higher Page: 12 of 75 6/22/2009 | -Unit 1 has a stuck open PRZR Code Safety Valve. -Appropriate operator response actions have been taken. -RCS pressure is stable at 1345 psig -Containment temperature is 160 0 F -Actual PRZR level is 50% The effect of RCS pressure at 1345 psig will cause the indicated PRZR level LI-459 to read...li!L actual level; the effect of containment temperature at 160 0 F tends to make the indicated PRZR level read than actual level. A. (a) below (b) lower B. (a) below (b) higher C. (a) above (b) lower D. (a) above (b) higher Page: 12 of 75 6/22/2009 | ||
: 13. Given the following: | : 13. Given the following: | ||
-The unit is at full power. -A loss of ACCW occurs at 1432. -The crew has entered AOP-18022-C, "Loss of Auxiliary Component Cooling Water" and is attempting to restore ACCW flow. -RCP temperatures are below their immediate trip criteria but are slowly rising. -RCP seal injection flow is -9 gpm per RCP. Which one of the following correctly describes: (a) the MAXIMUM time allowed to trip the RCPs and (b) the MINIMUM temperature setpoint for the motor bearing that requires RCP trip. A. (a) 1437 (b) 195 0 F B. (a) 1437 (b) 311°F C. (a) 1442 (b) 195 0 F D. (a) 1442 (b) 311°F Page: 13 of 75 6122/2009 | -The unit is at full power. -A loss of ACCW occurs at 1432. -The crew has entered AOP-18022-C, "Loss of Auxiliary Component Cooling Water" and is attempting to restore ACCW flow. -RCP temperatures are below their immediate trip criteria but are slowly rising. -RCP seal injection flow is -9 gpm per RCP. Which one of the following correctly describes: (a) the MAXIMUM time allowed to trip the RCPs and (b) the MINIMUM temperature setpoint for the motor bearing that requires RCP trip. A. (a) 1437 (b) 195 0 F B. (a) 1437 (b) 311°F C. (a) 1442 (b) 195 0 F D. (a) 1442 (b) 311°F Page: 13 of 75 6122/2009 | ||
: 14. Given the following: | : 14. Given the following: | ||
-Small break LOCA in progress. -A loss of all offsite power has occurred. | -Small break LOCA in progress. -A loss of all offsite power has occurred. | ||
Line 78: | Line 75: | ||
B. All accumulator isolation valves can be energized. Close all accumulator isolation valves , then de-energize the valves. C. Two accumulator isolation valves cannot be energ ized. Close energized accumulator isolation valves, vent all of the accumulators. | B. All accumulator isolation valves can be energized. Close all accumulator isolation valves , then de-energize the valves. C. Two accumulator isolation valves cannot be energ ized. Close energized accumulator isolation valves, vent all of the accumulators. | ||
D. Two accumulator isolation valves cannot be energized. | D. Two accumulator isolation valves cannot be energized. | ||
Close energized accumulator isolation valves, vent two of the accumulators. Page: 14 of 75 6/22/2009 | Close energized accumulator isolation valves, vent two of the accumulators. Page: 14 of 75 6/22/2009 | ||
: 15. Actual Pressurizer Code Safety Valve position indication can be read on the (a) which is I are powered from (b), __ A. (a) Plasma Displays A and B (b) AY1 A and BY1 B , 120V AC Vital Instrument Panels B. (a) Plasma Displays A and B (b) NYR and NYS , 120V AC Regulated Instrument Panels C. (a) Main Control Board Panel C (b) AY1A and BY1B, 120V AC Vital Instrument Panels D. (a) Main Control Board Panel C (b) NYR and NYS, 120V AC Regulated Instrument Panels Page: 15 of 7 5 6/22/200 9 | : 15. Actual Pressurizer Code Safety Valve position indication can be read on the (a) which is I are powered from (b), __ A. (a) Plasma Displays A and B (b) AY1 A and BY1 B , 120V AC Vital Instrument Panels B. (a) Plasma Displays A and B (b) NYR and NYS , 120V AC Regulated Instrument Panels C. (a) Main Control Board Panel C (b) AY1A and BY1B, 120V AC Vital Instrument Panels D. (a) Main Control Board Panel C (b) NYR and NYS, 120V AC Regulated Instrument Panels Page: 15 of 7 5 6/22/200 9 | ||
: 16. Given the following conditions I events on Unit 1: | : 16. Given the following conditions I events on Unit 1: | ||
* Reactor power is 100%. | * Reactor power is 100%. | ||
Line 87: | Line 84: | ||
A. PORV 1 PV-455 opens. Both spray valves remain closed and all PRZR heaters will energize. | A. PORV 1 PV-455 opens. Both spray valves remain closed and all PRZR heaters will energize. | ||
Pressu r e w i ll stabilize near 2185 psig. B. PORV 1 PV-456 opens. Both spray valves remain closed and all PRZR heaters will energize. | Pressu r e w i ll stabilize near 2185 psig. B. PORV 1 PV-456 opens. Both spray valves remain closed and all PRZR heaters will energize. | ||
Pressure will stabilize near 2185 psig. C. PORV 1 PV-455 opens. Both spray valves open and all PRZR heaters turn off. Pressure will continue to lower causing a Reactor Trip and Safety Injection. D. PORV 1 PV-456 opens. Both spray valves open and all PRZR heaters turn off. Pressure will continue to lower caus ing a Reactor Trip and Safety Injection. Page: 16 of 75 6/22/2009 | Pressure will stabilize near 2185 psig. C. PORV 1 PV-455 opens. Both spray valves open and all PRZR heaters turn off. Pressure will continue to lower causing a Reactor Trip and Safety Injection. D. PORV 1 PV-456 opens. Both spray valves open and all PRZR heaters turn off. Pressure will continue to lower caus ing a Reactor Trip and Safety Injection. Page: 16 of 75 6/22/2009 | ||
: 17. Given the following: -A DBA LOCA i s in progress on Unit 2. -ECCS has been aligned for "cold leg recirculation". -RHR pump 2A tripped 5 minutes after completing the recirculation alignment. | : 17. Given the following: -A DBA LOCA i s in progress on Unit 2. -ECCS has been aligned for "cold leg recirculation". -RHR pump 2A tripped 5 minutes after completing the recirculation alignment. | ||
-All other components are functioning properly. Which ONE of the operator actions would be CORRECT regarding the Safety Injection pumps (SIPs) and the Centrifugal Charging pumps (CCPs)? A. Immediately stop both SIPs. B. Immediately stop both CCPs. C. Immediately stop CCP "A" and SIP " A". D. Allow all CCPs and SIPs to continue running. P age: 17 of 75 6/22/200 9 | -All other components are functioning properly. Which ONE of the operator actions would be CORRECT regarding the Safety Injection pumps (SIPs) and the Centrifugal Charging pumps (CCPs)? A. Immediately stop both SIPs. B. Immediately stop both CCPs. C. Immediately stop CCP "A" and SIP " A". D. Allow all CCPs and SIPs to continue running. P age: 17 of 75 6/22/200 9 | ||
: 18. Given the following: | : 18. Given the following: | ||
-A HIGH failure (offsca le high) of Pressurizer (PRZR) Pressure Channel PT-457 has occurred. -Immediate Operator Actions of AOP-18001-C for failure of a Pressurizer Pressure channel have been taken. -NO other actions have been taken. Which ONE of the following identifies the MINIMUM additional channels needed to cause a: a) Reactor Trip b) Safety Injection Reactor Trip Safety Injection A. 1 1 B. 1 2 C. 2 1 D. 2 2 Page: 18 of 75 6/22/2009 | -A HIGH failure (offsca le high) of Pressurizer (PRZR) Pressure Channel PT-457 has occurred. -Immediate Operator Actions of AOP-18001-C for failure of a Pressurizer Pressure channel have been taken. -NO other actions have been taken. Which ONE of the following identifies the MINIMUM additional channels needed to cause a: a) Reactor Trip b) Safety Injection Reactor Trip Safety Injection A. 1 1 B. 1 2 C. 2 1 D. 2 2 Page: 18 of 75 6/22/2009 | ||
: 19. A Turbine Driven Auxiliary Feed Water (TDAFW) Actuation has been generated. | : 19. A Turbine Driven Auxiliary Feed Water (TDAFW) Actuation has been generated. | ||
-HV-5106, "TDAFW Pump Steam Supply Valve" has stroked open. Which ONE of the following conditions is necessary to RESET the TDAFW actuation and close HV-5106? A. At least ONE Main Feed Water Pump Turbine RESET. B. RESET Safety Injection using both QMCB handswitches. | -HV-5106, "TDAFW Pump Steam Supply Valve" has stroked open. Which ONE of the following conditions is necessary to RESET the TDAFW actuation and close HV-5106? A. At least ONE Main Feed Water Pump Turbine RESET. B. RESET Safety Injection using both QMCB handswitches. | ||
C. ALL Steam Generator levels above the Low-Low level setpoints. | C. ALL Steam Generator levels above the Low-Low level setpoints. | ||
D. ATWS Mitigation System Actuation Circuit (AMSAC) signal CLEAR. Page: 19 of 75 6122/2009 | D. ATWS Mitigation System Actuation Circuit (AMSAC) signal CLEAR. Page: 19 of 75 6122/2009 | ||
: 20. Given the following: -A loss of all AC power has occurred. -The crew is performing 19102 , "Loss of All AC Power Recovery With SI Required". | : 20. Given the following: -A loss of all AC power has occurred. -The crew is performing 19102 , "Loss of All AC Power Recovery With SI Required". | ||
-Both CCPs are stopped. -All RCP Seal Injection Isolations are OPEN (HV-81 03A, B, C, D) -RCP seal temperatures are -465 0 F Which ONE of the following is the CORRECT mitigat i on strategy for restoration of charging flow and seal injection to cool the RCP seals? A. Take HC-0182 , Seal Injection Controller to m i nimum , start a CCP , throttle HC-0182 to establish a slow cooldown rate on the RCP seals. B. Close all the HV-8103 valves, start a CCP , slowly throttle open the HV-8103 valves one at a time to establish a slow cooldown rate on the RCP seals. C. Close the seal injection needle valves , start a CCP, slowly throttle open the seal injection needle valves to establish a slow cool down rate on the RCP seals. D. Close all the HV-8103 valves , start a CCP, perform a controlled cooldown of the RCS to cool the RCP seals , RCPs should not be started prior to a status evaluation. | -Both CCPs are stopped. -All RCP Seal Injection Isolations are OPEN (HV-81 03A, B, C, D) -RCP seal temperatures are -465 0 F Which ONE of the following is the CORRECT mitigat i on strategy for restoration of charging flow and seal injection to cool the RCP seals? A. Take HC-0182 , Seal Injection Controller to m i nimum , start a CCP , throttle HC-0182 to establish a slow cooldown rate on the RCP seals. B. Close all the HV-8103 valves, start a CCP , slowly throttle open the HV-8103 valves one at a time to establish a slow cooldown rate on the RCP seals. C. Close the seal injection needle valves , start a CCP, slowly throttle open the seal injection needle valves to establish a slow cool down rate on the RCP seals. D. Close all the HV-8103 valves , start a CCP, perform a controlled cooldown of the RCS to cool the RCP seals , RCPs should not be started prior to a status evaluation. | ||
P ag e: 20 o f 75 6/2212009 | P ag e: 20 o f 75 6/2212009 | ||
: 21. Given the following: | : 21. Given the following: | ||
-The reactor is stable with critical data being taken. -The crew is preparing to raise power to the POAH. -1 BY1 B, 120V Vital Instrument bus de-energizes. | -The reactor is stable with critical data being taken. -The crew is preparing to raise power to the POAH. -1 BY1 B, 120V Vital Instrument bus de-energizes. | ||
Line 105: | Line 102: | ||
B. IR N-35, remains energized with indication stable. | B. IR N-35, remains energized with indication stable. | ||
IR N-36 , remains energized with indication stable. C. IR N-35, remains energized and indication decreases. IR N-36, will de-energize. D. IR N-35, remains energized with indication stable. IR N-36, will de-energize. | IR N-36 , remains energized with indication stable. C. IR N-35, remains energized and indication decreases. IR N-36, will de-energize. D. IR N-35, remains energized with indication stable. IR N-36, will de-energize. | ||
Page: 21 of 75 6/22/2009 | Page: 21 of 75 6/22/2009 | ||
: 22. Which of the following choices correctly identifies the expected equipment condition for the initial and current CNMT pressures? | : 22. Which of the following choices correctly identifies the expected equipment condition for the initial and current CNMT pressures? | ||
Assume no operator actions taken. Initial CNMT pressure: | Assume no operator actions taken. Initial CNMT pressure: | ||
Ch I -3.5 ps i g Ch II -3.9 psig Ch III -3.7 psig Ch IV -3.6 psig Current CNMT pressure: | Ch I -3.5 ps i g Ch II -3.9 psig Ch III -3.7 psig Ch IV -3.6 psig Current CNMT pressure: | ||
Ch I -21.3 psig Ch II -21.7 psig Ch III -20.9 psig Ch IV -22.1 psig A. In i tial -Containment Cooler Lo Speed QMCB MLBs LIT. Current -Containment Spray Pump QMCB handswitch RED lights LIT. B. Initial -Containment Cooler Lo Speed QMCB MLBs LIT. Current -Containment Spray Pump QMCB handswitch GREEN lights LIT. C. Initial -Containment Cooler Lo Speed QMCB MLBs EXTINGUISHED. Current -Containment Spray Pump QMCB handswitch RED li ghts LIT. D. Initial -Containment Cooler Lo Speed QMCB MLBs EXTINGUISHED. | Ch I -21.3 psig Ch II -21.7 psig Ch III -20.9 psig Ch IV -22.1 psig A. In i tial -Containment Cooler Lo Speed QMCB MLBs LIT. Current -Containment Spray Pump QMCB handswitch RED lights LIT. B. Initial -Containment Cooler Lo Speed QMCB MLBs LIT. Current -Containment Spray Pump QMCB handswitch GREEN lights LIT. C. Initial -Containment Cooler Lo Speed QMCB MLBs EXTINGUISHED. Current -Containment Spray Pump QMCB handswitch RED li ghts LIT. D. Initial -Containment Cooler Lo Speed QMCB MLBs EXTINGUISHED. | ||
Current -Containment Spray Pump QMCB handswitch GREEN lights LIT. P age: 22 of 75 6/22/2009 | Current -Containment Spray Pump QMCB handswitch GREEN lights LIT. P age: 22 of 75 6/22/2009 | ||
: 23. A failure of a flow transmitter has resulted in the following annunciators: | : 23. A failure of a flow transmitter has resulted in the following annunciators: | ||
-RCP SEAL WATER INJ LO FLOW -REGEN HX LETDN HI TEMP -LETDN HX OUT HI TEMP -CHARGING LINE HIILO FLOW All other plant parameters are normal. Which ONE of the following actions would CORRECTLY mitigate this event? A. Throttle open HV-0182 (seal flow control). | -RCP SEAL WATER INJ LO FLOW -REGEN HX LETDN HI TEMP -LETDN HX OUT HI TEMP -CHARGING LINE HIILO FLOW All other plant parameters are normal. Which ONE of the following actions would CORRECTLY mitigate this event? A. Throttle open HV-0182 (seal flow control). | ||
B. Throttle closed HV-0182 (seal flow control). | B. Throttle closed HV-0182 (seal flow control). | ||
C. Throttle open FV-0121 (charging flow control). D. Throttle closed FV-0121 (charging flow control). | C. Throttle open FV-0121 (charging flow control). D. Throttle closed FV-0121 (charging flow control). | ||
P age: 23 o f 75 6/22/2009 | P age: 23 o f 75 6/22/2009 | ||
: 24. Given the following conditions | : 24. Given the following conditions | ||
: -The Reactor was shutdown to Mode 3 conditions 28 days ago. -Core reload has just been completed. | : -The Reactor was shutdown to Mode 3 conditions 28 days ago. -Core reload has just been completed. | ||
Line 121: | Line 118: | ||
-All HL and CL nozzle dams are in place. -A total loss of RHR cooling has occurred. | -All HL and CL nozzle dams are in place. -A total loss of RHR cooling has occurred. | ||
-RCS temperature was 1 OooF when the loss of cooling event initiated. | -RCS temperature was 1 OooF when the loss of cooling event initiated. | ||
Calculate the amount of time it will take from the loss of RHR until saturated conditions are reached in the RCS AND the amount of time until core uncovery occurs. REFERENCE PROVIDED Time Until Saturated Time Until Core Uncovery A. 38 minutes 145 minutes B. 38 minutes 228 minutes C. 58 minutes 145 minutes D. 58 minutes 228 minutes Page: 24 of 75 6/22/2009 | Calculate the amount of time it will take from the loss of RHR until saturated conditions are reached in the RCS AND the amount of time until core uncovery occurs. REFERENCE PROVIDED Time Until Saturated Time Until Core Uncovery A. 38 minutes 145 minutes B. 38 minutes 228 minutes C. 58 minutes 145 minutes D. 58 minutes 228 minutes Page: 24 of 75 6/22/2009 | ||
: 25. Which ONE of the following describes the transition process for the Containment Spray system from the injection flow path to the recirculation flow path after a LOCA? A. At the RWST LO-LO Level of 29%, the operator manually realigns the flow path. B. At the RWST LO-LO Level of 29%, the flow path semi-automatically realigns. C. At the RWST EMPTY level of 8%, the operator manually realigns the flow path. D. At the RWST EMPTY level of 8%, the flow path semi-automatically realigns. | : 25. Which ONE of the following describes the transition process for the Containment Spray system from the injection flow path to the recirculation flow path after a LOCA? A. At the RWST LO-LO Level of 29%, the operator manually realigns the flow path. B. At the RWST LO-LO Level of 29%, the flow path semi-automatically realigns. C. At the RWST EMPTY level of 8%, the operator manually realigns the flow path. D. At the RWST EMPTY level of 8%, the flow path semi-automatically realigns. | ||
Page: 25 of 75 6/22/2009 | Page: 25 of 75 6/22/2009 | ||
: 26. Initial conditions | : 26. Initial conditions | ||
: -457 / 456 position selected for PRZR pressure control. -All channels are reading 2235 psig. Current conditions: | : -457 / 456 position selected for PRZR pressure control. -All channels are reading 2235 psig. Current conditions: | ||
-PT-455(Ch I) 2190 psig PT -456( Ch II) 2190 psig PT-457(Ch III) Offscale High PT-458(Ch IV) 2285 psig -Immediate actions to stabilize PRZR pressure have been completed. | -PT-455(Ch I) 2190 psig PT -456( Ch II) 2190 psig PT-457(Ch III) Offscale High PT-458(Ch IV) 2285 psig -Immediate actions to stabilize PRZR pressure have been completed. | ||
-AOP 18001-C , section C for PRZR Pressure Instrumentation, is in effect. -The step to select controlling channels and recorders is being performed. | -AOP 18001-C , section C for PRZR Pressure Instrumentation, is in effect. -The step to select controlling channels and recorders is being performed. | ||
Which ONE of the following would be the CORRECT controlling channels to choose and the reason why? Channel Selection Reason for Channel Selection A. 455/456 Defeat input to the Reactor Protection System. B. 455/456 Swap to operable control channel inputs. C. 455/458 Defeat input to the Reactor Protection System. D. 455/458 Swap to operable control channel inputs. Pag e: 26 of 75 6/2212009 | Which ONE of the following would be the CORRECT controlling channels to choose and the reason why? Channel Selection Reason for Channel Selection A. 455/456 Defeat input to the Reactor Protection System. B. 455/456 Swap to operable control channel inputs. C. 455/458 Defeat input to the Reactor Protection System. D. 455/458 Swap to operable control channel inputs. Pag e: 26 of 75 6/2212009 | ||
: 27. Given the following: | : 27. Given the following: | ||
-CNMT H2 concentration has remained> | -CNMT H2 concentration has remained> | ||
4% following a LOCA. -An SO has been dispatched for local operation of 1-150B-U4-012, "POST LOCA PURGE CTB ISO VALVE". In accordance with SOP 13130-1, Post-Accident Hydrogen Control" , to protect the SO from radiation exposure, which one of the following correctly describes: The proper sequence of actions and the location where the SO will manipulate the local valve? A. First action -UO opens the Post LOCA valves on HVAC panel. Next action -SO opens the valve on the Equipment Building roof. B. First action -UO opens the Post LOCA valves on HVAC panel. Next action -SO opens the valve in the Equipment Building ground level. C. First action -SO opens the valve on the Equipment Building roof. Next action -UO opens the Post LOCA valves on HVAC panel. D. First action -SO opens the valve in the Equipment Building ground level. Next action -UO opens the Post LOCA valves on HVAC panel. Page: 27 of 7S 6/22/2009 | 4% following a LOCA. -An SO has been dispatched for local operation of 1-150B-U4-012, "POST LOCA PURGE CTB ISO VALVE". In accordance with SOP 13130-1, Post-Accident Hydrogen Control" , to protect the SO from radiation exposure, which one of the following correctly describes: The proper sequence of actions and the location where the SO will manipulate the local valve? A. First action -UO opens the Post LOCA valves on HVAC panel. Next action -SO opens the valve on the Equipment Building roof. B. First action -UO opens the Post LOCA valves on HVAC panel. Next action -SO opens the valve in the Equipment Building ground level. C. First action -SO opens the valve on the Equipment Building roof. Next action -UO opens the Post LOCA valves on HVAC panel. D. First action -SO opens the valve in the Equipment Building ground level. Next action -UO opens the Post LOCA valves on HVAC panel. Page: 27 of 7S 6/22/2009 | ||
: 28. Given the following conditions | : 28. Given the following conditions | ||
: -Both Reactor Tr i p Breaker red lights are illuminated. -Both Reactor Trip Breaker green lights are extinguished. | : -Both Reactor Tr i p Breaker red lights are illuminated. -Both Reactor Trip Breaker green lights are extinguished. | ||
Line 138: | Line 135: | ||
B. The Undervoltage coils de-energized. The Shunt coils energized. C. The Undervoltage coils energized. | B. The Undervoltage coils de-energized. The Shunt coils energized. C. The Undervoltage coils energized. | ||
The Shunt coils de-energized. D. The Undervoltage coils de-energized. | The Shunt coils de-energized. D. The Undervoltage coils de-energized. | ||
The Shunt coils de-energized. Pa g e: 28 of 75 6/22/2009 | The Shunt coils de-energized. Pa g e: 28 of 75 6/22/2009 | ||
: 29. Given the following: | : 29. Given the following: | ||
-The unit is at 100% power. -CNMT pressure is 0.2 psig. -CNMT Mini-Purge is in service for respirable air quality control. -A Safety Injection occurs. Which one of the following is correct regarding the Containment Purge System damper status prior to the SI and the signal that will close the dampers? A. Only the Mini-Purge exhaust dampers were open. The dampers would receive a direct auto close signal from CIA. B. Only the Mini-Purge exhaust dampers were open. The dampers would receive a direct auto close signal from CVI. C. The Mini-Purge exhaust and supply dampers were open. The dampers would receive a direct auto close signal from CIA. D. The Mini-Purge exhaust and supply dampers were open. The dampers would receive a direct auto close signal from CVI. Page: 29 of 75 6/22/2009 | -The unit is at 100% power. -CNMT pressure is 0.2 psig. -CNMT Mini-Purge is in service for respirable air quality control. -A Safety Injection occurs. Which one of the following is correct regarding the Containment Purge System damper status prior to the SI and the signal that will close the dampers? A. Only the Mini-Purge exhaust dampers were open. The dampers would receive a direct auto close signal from CIA. B. Only the Mini-Purge exhaust dampers were open. The dampers would receive a direct auto close signal from CVI. C. The Mini-Purge exhaust and supply dampers were open. The dampers would receive a direct auto close signal from CIA. D. The Mini-Purge exhaust and supply dampers were open. The dampers would receive a direct auto close signal from CVI. Page: 29 of 75 6/22/2009 | ||
: 30. Given the following conditions | : 30. Given the following conditions | ||
: -Unit 1 core reload is in progress. | : -Unit 1 core reload is in progress. | ||
-Source Ranges N-31 and N-32 are reading significantly different. | -Source Ranges N-31 and N-32 are reading significantly different. | ||
-I & C determines the power supply for detector N-31 has failed high. -N-32 is selected for Audio Count Rate in Containment and Control Room. Due to this power supply failure , N-31 is reading, ___ ,(a), __ than it should. The Operator At The Controls is (b), __ A. (a) lower (b) required to suspend core alterations B. (a) lower (b) not required to suspend core alterations C. (b) higher (b) required to suspend core alterations D. (b) higher (b) not required to suspend core alterations Page: 30 of 75 6122/2009 | -I & C determines the power supply for detector N-31 has failed high. -N-32 is selected for Audio Count Rate in Containment and Control Room. Due to this power supply failure , N-31 is reading, ___ ,(a), __ than it should. The Operator At The Controls is (b), __ A. (a) lower (b) required to suspend core alterations B. (a) lower (b) not required to suspend core alterations C. (b) higher (b) required to suspend core alterations D. (b) higher (b) not required to suspend core alterations Page: 30 of 75 6122/2009 | ||
: 31. Unit 2 Refueling Outage is in progress: | : 31. Unit 2 Refueling Outage is in progress: | ||
-Fuel shuffle is in progress in the Spent Fuel Pool (SFP) with the gate to the Containment currently closed. -SPENT FUEL PIT LOW LEVEL annunciator illuminates in Control Room. -SFP level lowers to 22 feet 10 inches above the fuel due to a leak -The SS has directed a makeup to the SFP in accordance with SOP-13719-2 , "Spent Fuel Pool Cooling and Purification System". Which ONE of the following describes whether SFP level is above or below the Tech Spec limit , and the source of makeup for this condition , in accordance with SOP-13719-2. | -Fuel shuffle is in progress in the Spent Fuel Pool (SFP) with the gate to the Containment currently closed. -SPENT FUEL PIT LOW LEVEL annunciator illuminates in Control Room. -SFP level lowers to 22 feet 10 inches above the fuel due to a leak -The SS has directed a makeup to the SFP in accordance with SOP-13719-2 , "Spent Fuel Pool Cooling and Purification System". Which ONE of the following describes whether SFP level is above or below the Tech Spec limit , and the source of makeup for this condition , in accordance with SOP-13719-2. | ||
SFP level is ... A. BELOW the minimum required by Technical Specifications. Makeup from the Demin Water Storage Tank (DWST). B. BELOW the minimum required by Technical Specifications. | SFP level is ... A. BELOW the minimum required by Technical Specifications. Makeup from the Demin Water Storage Tank (DWST). B. BELOW the minimum required by Technical Specifications. | ||
Makeup from the Refueling Water Storage Tank (RWST). C. ABOVE the minimum required by Technical Specifications. | Makeup from the Refueling Water Storage Tank (RWST). C. ABOVE the minimum required by Technical Specifications. | ||
Makeup from the Demin Water Storage Tank (DWST). D. ABOVE the minimum required by Technical Specifications. Makeup from the Refueling Water Storage Tank (RWST). P age: 31 of 7 5 6/2 21 2009 | Makeup from the Demin Water Storage Tank (DWST). D. ABOVE the minimum required by Technical Specifications. Makeup from the Refueling Water Storage Tank (RWST). P age: 31 of 7 5 6/2 21 2009 | ||
: 32. Given the following: | : 32. Given the following: | ||
-The unit is at 100% power. -Loop # 3 Inboard MSIV (HV-3016A) goes fully closed. Given this condition AND before manual or automatic operation of any other system. -Loop # 2 SG steam FLOW would (a) and -Loop # 3 SG LEVEL initially would rapidly (b), __ A. (a) rise (b) rise B. (a) rise (b) lower C. (a) lower (b) rise D. (a) lower (b) lower Page: 32 of 75 6/22/2009 | -The unit is at 100% power. -Loop # 3 Inboard MSIV (HV-3016A) goes fully closed. Given this condition AND before manual or automatic operation of any other system. -Loop # 2 SG steam FLOW would (a) and -Loop # 3 SG LEVEL initially would rapidly (b), __ A. (a) rise (b) rise B. (a) rise (b) lower C. (a) lower (b) rise D. (a) lower (b) lower Page: 32 of 75 6/22/2009 | ||
: 33. Which one of the following choices for the SG code safeties: (a) lists all the correct lift setpoints (psig), and (b) describes the technical specification bases for these valves? A. (a) 1185,1200,1210,1220,1235. (b) limits secondary pressure to :: 110% design pressure during a full power turbine trip without steam dump. B. (a) 1185, 1200, 1215 , 1225 , 1235. (b) limits secondary pressure to:: 110% design pressure during a full power turbine trip without steam dump. C. (a) 1185,1200,1210,1220,1235. (b) provide an alternate method for cooling the unit to RHR entry conditions whenever the preferred heat sink via the steam dumps to the condenser is unavailable. D. (a) 1185 , 1200 , 1215, 1225, 1235. (b) provide an alternate method for cooling the unit to RHR entry conditions whenever the preferred heat sink via the steam dumps to the condenser is unavailable. | : 33. Which one of the following choices for the SG code safeties: (a) lists all the correct lift setpoints (psig), and (b) describes the technical specification bases for these valves? A. (a) 1185,1200,1210,1220,1235. (b) limits secondary pressure to :: 110% design pressure during a full power turbine trip without steam dump. B. (a) 1185, 1200, 1215 , 1225 , 1235. (b) limits secondary pressure to:: 110% design pressure during a full power turbine trip without steam dump. C. (a) 1185,1200,1210,1220,1235. (b) provide an alternate method for cooling the unit to RHR entry conditions whenever the preferred heat sink via the steam dumps to the condenser is unavailable. D. (a) 1185 , 1200 , 1215, 1225, 1235. (b) provide an alternate method for cooling the unit to RHR entry conditions whenever the preferred heat sink via the steam dumps to the condenser is unavailable. | ||
Page: 33 of 75 6/22/2009 | Page: 33 of 75 6/22/2009 | ||
: 34. A rapid power reduction per AOP 18013-C was completed to stabilize condenser vacuum. Rods were inserted below the rod insertion limit (RIL) during the power reduction. | : 34. A rapid power reduction per AOP 18013-C was completed to stabilize condenser vacuum. Rods were inserted below the rod insertion limit (RIL) during the power reduction. | ||
An Emergency Boration is in progress and the OATC is withdrawing rods to restore rods above the RIL. Which ONE of the following is CORRECT regarding: a) whether SS permission is required for Control Rod insertion during the down power? and b) when Emergency Boration may be terminated? | An Emergency Boration is in progress and the OATC is withdrawing rods to restore rods above the RIL. Which ONE of the following is CORRECT regarding: a) whether SS permission is required for Control Rod insertion during the down power? and b) when Emergency Boration may be terminated? | ||
Control Rod Insertion Emergency Boration Termination A. SS permission is NOT required. When Rod Bank LO Limit alarm clears. B. SS permission is NOT required. | Control Rod Insertion Emergency Boration Termination A. SS permission is NOT required. When Rod Bank LO Limit alarm clears. B. SS permission is NOT required. | ||
When Rod Bank LO-LO Limit alarm clears. C. SS permission IS required. | When Rod Bank LO-LO Limit alarm clears. C. SS permission IS required. | ||
When Rod Bank LO Limit alarm clears. D. SS permission IS r equired. Bank LO-LO Limit alarm clears. P age: 34 of 7 S 6/22/200 9 | When Rod Bank LO Limit alarm clears. D. SS permission IS r equired. Bank LO-LO Limit alarm clears. P age: 34 of 7 S 6/22/200 9 | ||
: 35. Given the following: | : 35. Given the following: | ||
-At 1330 hours a Loss of All AC Power occurred. | -At 1330 hours a Loss of All AC Power occurred. | ||
Line 169: | Line 166: | ||
D. When voltage < 120 VDC, open the battery breaker after its inverters are shutdown. | D. When voltage < 120 VDC, open the battery breaker after its inverters are shutdown. | ||
To prevent a possible explosion due to excessive hydrogen production. | To prevent a possible explosion due to excessive hydrogen production. | ||
Page: 35 of 75 6/22/2009 | Page: 35 of 75 6/22/2009 | ||
: 36. Given the following: | : 36. Given the following: | ||
-The unit is at 100% power. -The loop seal between stages on the in-service SJAE has been lost. Which ONE of the following is CORRECT regarding the effect of losing the SJAE loop seal on Main Condenser pressure and Main Turbine MW Output? Main Condenser Pressure (psia) Main Turbine MW Output A. Rises Rises B. Lowers Rises C. Rises Lowers D. Lowers Lowers Page: 36 of 75 6/22/2009 | -The unit is at 100% power. -The loop seal between stages on the in-service SJAE has been lost. Which ONE of the following is CORRECT regarding the effect of losing the SJAE loop seal on Main Condenser pressure and Main Turbine MW Output? Main Condenser Pressure (psia) Main Turbine MW Output A. Rises Rises B. Lowers Rises C. Rises Lowers D. Lowers Lowers Page: 36 of 75 6/22/2009 | ||
: 37. Initial Conditions: | : 37. Initial Conditions: | ||
-Safety Injection occurs due to an RCS LOCA -Train "A" SI has been reset -Train "8" SI is still actuated -80th SI pumps are injecting Current conditions: -A loss of both RATs occurs -80th DG's re-energize their respective busses Which ONE of the following would be CORRECT regarding the SI pumps flow and amp responses? | -Safety Injection occurs due to an RCS LOCA -Train "A" SI has been reset -Train "8" SI is still actuated -80th SI pumps are injecting Current conditions: -A loss of both RATs occurs -80th DG's re-energize their respective busses Which ONE of the following would be CORRECT regarding the SI pumps flow and amp responses? | ||
A. SIP "A" -flow and amps lower, then return to previous values automatically. | A. SIP "A" -flow and amps lower, then return to previous values automatically. | ||
SIP "8" -flow and amps lower , then return to previous values automatically. | SIP "8" -flow and amps lower , then return to previous values automatically. | ||
: 8. SIP "A" -flow and amps lower, then have to be manually restored. | : 8. SIP "A" -flow and amps lower, then have to be manually restored. | ||
SIP "8" -flow and amps lower, then have to be manually restored. | SIP "8" -flow and amps lower, then have to be manually restored. | ||
Line 181: | Line 178: | ||
D. SIP "A" -flow and amps lower, then have to be manually restored. | D. SIP "A" -flow and amps lower, then have to be manually restored. | ||
SIP "8" -flow and amps lower, then return to previous values automatically. | SIP "8" -flow and amps lower, then return to previous values automatically. | ||
Page: 37 of 75 6/22/2009 | Page: 37 of 75 6/22/2009 | ||
: 38. Given the following: -The Unit is at 70% power. -VCT level is at 46%. -A loss of a 120VAC Essential bus has occurred. | : 38. Given the following: -The Unit is at 70% power. -VCT level is at 46%. -A loss of a 120VAC Essential bus has occurred. | ||
-VCT auto makeup immediately starts on the bus failure. Which ONE of the following CORRECTLY describes | -VCT auto makeup immediately starts on the bus failure. Which ONE of the following CORRECTLY describes | ||
... a) The VCT level channel failure. b) The effects on VCT auto swapover capability. | ... a) The VCT level channel failure. b) The effects on VCT auto swapover capability. | ||
A. a) L T-112 (VCT level) fails LOW. b) VCT auto swapover will occur on actual VCT 10-10 level. B. a) L T-185 (VCT level) fails LOW. b) VCT auto swapover will occur on actual VCT 10-10 level. C. a) L T-112 (VCT level) fails HIGH. b) VCT auto swapover will NOT occur on actual VCT 10-10 level. D. a) L T-185 (VCT Level) fa i ls HIGH. b) VCT auto swapover will NOT occur on actual VCT 10-10 level. Pag e: 38 of 75 6/22/2009 | A. a) L T-112 (VCT level) fails LOW. b) VCT auto swapover will occur on actual VCT 10-10 level. B. a) L T-185 (VCT level) fails LOW. b) VCT auto swapover will occur on actual VCT 10-10 level. C. a) L T-112 (VCT level) fails HIGH. b) VCT auto swapover will NOT occur on actual VCT 10-10 level. D. a) L T-185 (VCT Level) fa i ls HIGH. b) VCT auto swapover will NOT occur on actual VCT 10-10 level. Pag e: 38 of 75 6/22/2009 | ||
: 39. The plant is 100% power, all systems in normal alignment. | : 39. The plant is 100% power, all systems in normal alignment. | ||
-ALB04, window D04 for BAT CHARGERS 1 CD1 CA 1 CD1 CB TROUBLE illuminates. -1 CD1 B battery amperage reading is 0 amps -Channel III TSLB status lights are extinguished. | -ALB04, window D04 for BAT CHARGERS 1 CD1 CA 1 CD1 CB TROUBLE illuminates. -1 CD1 B battery amperage reading is 0 amps -Channel III TSLB status lights are extinguished. | ||
Which ONE of the following is CORRECT regarding the 125V DC bus 1 CD1 status? A. One battery charger tripped B. Both battery chargers tripped C. Both battery chargers tripped D. One battery charger tripped the battery is supplying 1CD1 the battery is supplying 1 CD1 1 CD1 is completely de-energized 1 CD1 is supplied by the other charger P a g e: 39 of 75 6/22/2009 | Which ONE of the following is CORRECT regarding the 125V DC bus 1 CD1 status? A. One battery charger tripped B. Both battery chargers tripped C. Both battery chargers tripped D. One battery charger tripped the battery is supplying 1CD1 the battery is supplying 1 CD1 1 CD1 is completely de-energized 1 CD1 is supplied by the other charger P a g e: 39 of 75 6/22/2009 | ||
: 40. Given the following: | : 40. Given the following: | ||
-The unit is at 90% power. -All Main Feedwater (MFW) system controls in AUTO. -A low failure of PT-508 (Feedwater Header Pressure) occurs. Both MFPT speeds should (a) due to the (b) A. (a) raise (b) lower indicated delta P B. (a) raise (b) higher indicated delta P c. (a) lower (b) lower indicated delta P D. (a) lower (b) higher indicated delta P Page: 40 of 75 6/22/2009 | -The unit is at 90% power. -All Main Feedwater (MFW) system controls in AUTO. -A low failure of PT-508 (Feedwater Header Pressure) occurs. Both MFPT speeds should (a) due to the (b) A. (a) raise (b) lower indicated delta P B. (a) raise (b) higher indicated delta P c. (a) lower (b) lower indicated delta P D. (a) lower (b) higher indicated delta P Page: 40 of 75 6/22/2009 | ||
: 41. Initial conditions: | : 41. Initial conditions: | ||
-MFPT "A" is operating. | -MFPT "A" is operating. | ||
Line 196: | Line 193: | ||
-AL816, window F05 "AFW AUTO START MFPT TRIP RL Y CNTL PWR LOSS" Current conditions: | -AL816, window F05 "AFW AUTO START MFPT TRIP RL Y CNTL PWR LOSS" Current conditions: | ||
-The UO manually trips MFPT "A". Which ONE of the following is the CORRECT plant response and actions to take? A. AFW flows remain as is, SG levels remain stable. Reset MFPT "A", restart MFPT "A". B. AFW flows remain as is, SG levels remain stable. Reset MFPT "8", startup MFPT "8". C. AFW flows increase, SG levels begin to rise. Throttle AFW valves closed before they fully open. D. AFW flows increase, SG levels begin to rise. Allow AFW valves to stroke fully open, then throttle. | -The UO manually trips MFPT "A". Which ONE of the following is the CORRECT plant response and actions to take? A. AFW flows remain as is, SG levels remain stable. Reset MFPT "A", restart MFPT "A". B. AFW flows remain as is, SG levels remain stable. Reset MFPT "8", startup MFPT "8". C. AFW flows increase, SG levels begin to rise. Throttle AFW valves closed before they fully open. D. AFW flows increase, SG levels begin to rise. Allow AFW valves to stroke fully open, then throttle. | ||
Page: 41 of 75 6/2212009 | Page: 41 of 75 6/2212009 | ||
: 42. The unit is at 100% power when a Reserve Auxiliary Transforme r (RAT) switcher trips open. Reactor power rises above 100%. Auxiliary Feedwater flow indications are: -SG # 1 -650 gpm SG # 2 -350 gpm SG # 3 -350 gpm SG # 4 -650 gpm The sequence of actions the UO should take in AOP-18031 , "Loss of Class 1 E Electrical Systems" is to ... A. Reduce Turbine load to reduce Reactor power to 100%. Then throttle TDAFW speed and MDAFW pump "A" discharge valves. 8. Reduce Turbine load to reduce Reactor power to 100%. Then throttle TDAFW speed and MDAFW pump "8" discharge valves. C. Throttle TDAFW speed and MDAFW pump "A" discharge valves. Then reduce Turbine load to reduce Reactor power to 100%. D. Throttle TDAFW speed and MDAFW pump "8" discharge valves. Then reduce Turbine load to reduce Reactor power to 100%. Page: 42 of 75 6/22/2009 | : 42. The unit is at 100% power when a Reserve Auxiliary Transforme r (RAT) switcher trips open. Reactor power rises above 100%. Auxiliary Feedwater flow indications are: -SG # 1 -650 gpm SG # 2 -350 gpm SG # 3 -350 gpm SG # 4 -650 gpm The sequence of actions the UO should take in AOP-18031 , "Loss of Class 1 E Electrical Systems" is to ... A. Reduce Turbine load to reduce Reactor power to 100%. Then throttle TDAFW speed and MDAFW pump "A" discharge valves. 8. Reduce Turbine load to reduce Reactor power to 100%. Then throttle TDAFW speed and MDAFW pump "8" discharge valves. C. Throttle TDAFW speed and MDAFW pump "A" discharge valves. Then reduce Turbine load to reduce Reactor power to 100%. D. Throttle TDAFW speed and MDAFW pump "8" discharge valves. Then reduce Turbine load to reduce Reactor power to 100%. Page: 42 of 75 6/22/2009 | ||
: 43. Given the following: -Loss of All AC power occurs , 191 OO-C , "Loss of All AC Power" is in effect. -Power is restored to AA02 via DG1A. Which ONE of the following is the CORRECT action regarding restoration of the NSCW system to service? A. Verify NSCW discharge valves go closed to prevent water hammer. Manually start 2 pumps. B. Verify NSCW discharge valves go closed to prevent water hammer. Verify 2 pumps start automatically. | : 43. Given the following: -Loss of All AC power occurs , 191 OO-C , "Loss of All AC Power" is in effect. -Power is restored to AA02 via DG1A. Which ONE of the following is the CORRECT action regarding restoration of the NSCW system to service? A. Verify NSCW discharge valves go closed to prevent water hammer. Manually start 2 pumps. B. Verify NSCW discharge valves go closed to prevent water hammer. Verify 2 pumps start automatically. | ||
C. Verify NSCW discharge valves are open to prevent high starting currents. | C. Verify NSCW discharge valves are open to prevent high starting currents. | ||
Manually start 2 pumps. D. Verify NSCW discharge valves are open to prevent high starting currents Verify 2 pumps start automatically. Page: 43 of 75 6/22/2009 | Manually start 2 pumps. D. Verify NSCW discharge valves are open to prevent high starting currents Verify 2 pumps start automatically. Page: 43 of 75 6/22/2009 | ||
: 44. The "Maintenance I Normal" switch located on the QEAB for a 4160V AC bus has been placed in the "Maintenance" position to support bus inspection. | : 44. The "Maintenance I Normal" switch located on the QEAB for a 4160V AC bus has been placed in the "Maintenance" position to support bus inspection. | ||
When placed in the "Maintenance" position, this switch ... A. bypasses the time delay on the overcurrent trips on the bus supply breakers. | When placed in the "Maintenance" position, this switch ... A. bypasses the time delay on the overcurrent trips on the bus supply breakers. | ||
B. bypasses the time delay on the overcurrent trips on the bus load breakers. C. bypasses the instantaneous overcurrent trips on the bus supply breakers. | B. bypasses the time delay on the overcurrent trips on the bus load breakers. C. bypasses the instantaneous overcurrent trips on the bus supply breakers. | ||
D. bypasses the instantaneous overcurrent trips on the bus load breakers. | D. bypasses the instantaneous overcurrent trips on the bus load breakers. | ||
Page: 44 of 75 6/22/2009 | Page: 44 of 75 6/22/2009 | ||
: 45. The plant is in Mode 3 controlling Tave with the ARVs when 125V DC panel1AD1 de-energizes due to a ground fault. Loop 4 ARV was -10% open. Regarding operation of the ARV, list: (a) the failure mode on loss of DC power, and (b) where the ARV can be operated. | : 45. The plant is in Mode 3 controlling Tave with the ARVs when 125V DC panel1AD1 de-energizes due to a ground fault. Loop 4 ARV was -10% open. Regarding operation of the ARV, list: (a) the failure mode on loss of DC power, and (b) where the ARV can be operated. | ||
A. (a) as is (b) locally using the hand pump station B. (a) as is (b) from Shutdown Panel A C. (a) closed (b) locally using the hand pump station D. (a) closed (b) from Shutdown Panel A Page: 45 of 75 6/2212009 | A. (a) as is (b) locally using the hand pump station B. (a) as is (b) from Shutdown Panel A C. (a) closed (b) locally using the hand pump station D. (a) closed (b) from Shutdown Panel A Page: 45 of 75 6/2212009 | ||
: 46. The plant is in Mode 1. A leak has developed in the DG1A Fuel Oil Storage Tank (FaST). The FaST level decrease is noted by the following times. -at 1730 level is 90.9% (78,200 gallons) -at 1745 level is 86.9% (74,800 gallons) -at 1800 level is 82.9% (71,350 gallons) -at 1815 level is 78.9% (67,900 gallons) -at 1830 level is 74.9% (64,500 gallons) Which ONE of the following is the EARLIEST discovery time that DG1A is inoperable in accordance with Technical Specifications? | : 46. The plant is in Mode 1. A leak has developed in the DG1A Fuel Oil Storage Tank (FaST). The FaST level decrease is noted by the following times. -at 1730 level is 90.9% (78,200 gallons) -at 1745 level is 86.9% (74,800 gallons) -at 1800 level is 82.9% (71,350 gallons) -at 1815 level is 78.9% (67,900 gallons) -at 1830 level is 74.9% (64,500 gallons) Which ONE of the following is the EARLIEST discovery time that DG1A is inoperable in accordance with Technical Specifications? | ||
A. 1745 B. 1800 C. 1815 D. 1830 Page: 46 of 75 6/22/2009 | A. 1745 B. 1800 C. 1815 D. 1830 Page: 46 of 75 6/22/2009 | ||
: 47. Given the following initial conditions | : 47. Given the following initial conditions | ||
: -The unit is at 340 o F , RCS cooldown in progress. -RHR Train A is in the shutdown cooling mode. -A loss of instrument air occurs. -The RHR system AOVs all go to the failure mode for loss of air. Current conditions: | : -The unit is at 340 o F , RCS cooldown in progress. -RHR Train A is in the shutdown cooling mode. -A loss of instrument air occurs. -The RHR system AOVs all go to the failure mode for loss of air. Current conditions: | ||
Line 215: | Line 212: | ||
-No Control Room or local actions have been performed for RHR. Which ONE of the following is CORRECT regarding: -RCS cool down rate response after instrument air is restored. | -No Control Room or local actions have been performed for RHR. Which ONE of the following is CORRECT regarding: -RCS cool down rate response after instrument air is restored. | ||
-RHR system flow rate response after instrument air is restored. | -RHR system flow rate response after instrument air is restored. | ||
A. B. C. D. RCS cooldown rate raises raises lowers lowers RHR system flow rate raises lowers raises lowers Page: 47 of75 6/22/2009 | A. B. C. D. RCS cooldown rate raises raises lowers lowers RHR system flow rate raises lowers raises lowers Page: 47 of75 6/22/2009 | ||
: 48. Unit 1 Control Room has been evacuated due to a fire. -18038-1 , "Operation From Remote Shutdown Panels" is in effect. -Two ARVs have been placed in the "Fire Emergency" mode of operation. | : 48. Unit 1 Control Room has been evacuated due to a fire. -18038-1 , "Operation From Remote Shutdown Panels" is in effect. -Two ARVs have been placed in the "Fire Emergency" mode of operation. | ||
Which ONE of the following are the fire event qualified ARVs and the method to control RCS temperature in the Fire Emergency mode? A. ARVs # 1 and # 4 are fire event qualified. Using the auto-manual controllers located on the front of the shutdown panels. B. ARVs # 2 and # 3 are fire event qualified. | Which ONE of the following are the fire event qualified ARVs and the method to control RCS temperature in the Fire Emergency mode? A. ARVs # 1 and # 4 are fire event qualified. Using the auto-manual controllers located on the front of the shutdown panels. B. ARVs # 2 and # 3 are fire event qualified. | ||
Us i ng the auto-manual controllers located on the front of the shutdown panels. C. ARVs # 1 and # 4 are fire event qualified. Using a 4 to 20 mA current source connected with banana jacks inside the panels. D. ARVs # 2 and # 3 are fire event qualified. Using a 4 to 20 mA current source connected with banana jacks inside the panels. P a ge: 4 8 of 75 6/22/2 00 9 | Us i ng the auto-manual controllers located on the front of the shutdown panels. C. ARVs # 1 and # 4 are fire event qualified. Using a 4 to 20 mA current source connected with banana jacks inside the panels. D. ARVs # 2 and # 3 are fire event qualified. Using a 4 to 20 mA current source connected with banana jacks inside the panels. P a ge: 4 8 of 75 6/22/2 00 9 | ||
: 49. A gaseous release is in progress in accordance with SOP-13202 , "Gaseous Releases". | : 49. A gaseous release is in progress in accordance with SOP-13202 , "Gaseous Releases". | ||
Considering the following events which occur during the release, determine if the release would be allowed to continue or require termination for each of the following: a) A-RE-0014 Radiation Monitor fails low b) precipitation (rain, snow, sleet, etc.) is occuring. | Considering the following events which occur during the release, determine if the release would be allowed to continue or require termination for each of the following: a) A-RE-0014 Radiation Monitor fails low b) precipitation (rain, snow, sleet, etc.) is occuring. | ||
A. a) terminate the release. b) terminate the release. B. a) terminate the release. b) continue the release. C. a) continue the release. b) terminate the release. D. a) continue the release. b) continue the release. Page: 49 of 7S 6/2212009 | A. a) terminate the release. b) terminate the release. B. a) terminate the release. b) continue the release. C. a) continue the release. b) terminate the release. D. a) continue the release. b) continue the release. Page: 49 of 7S 6/2212009 | ||
: 50. Given the following: -A rapid power reduction | : 50. Given the following: -A rapid power reduction | ||
(> 15% in 1 hour) is in progress to comply with the actions of AOP-18009-C, a "Steam Generator Tube Leakage". -Radiation is indicated on RE-0724 Steam Line monitor. Which ONE of the following is CORRECT regarding: | (> 15% in 1 hour) is in progress to comply with the actions of AOP-18009-C, a "Steam Generator Tube Leakage". -Radiation is indicated on RE-0724 Steam Line monitor. Which ONE of the following is CORRECT regarding: | ||
-when RE-0724 would indicate a Steam Generator Tube leak -the source of radiation detected. | -when RE-0724 would indicate a Steam Generator Tube leak -the source of radiation detected. | ||
A. only when the reactor is at power. N-16 B. only when the reactor is at power. 1-131 C. any time the SJAE is in service. N-16 D. any time the SJAE is in service. 1-131 Page: 50 of 75 6/22/2009 | A. only when the reactor is at power. N-16 B. only when the reactor is at power. 1-131 C. any time the SJAE is in service. N-16 D. any time the SJAE is in service. 1-131 Page: 50 of 75 6/22/2009 | ||
: 51. Given the following: | : 51. Given the following: | ||
-The plant is at 100% power. -NSCW Train B tagged out for repair. -NSCW Train A pump # 3 trips. -NSCW Train A pump # 5 cannot be started. -AOP-18021-C, "Loss of Nuclear Service Cooling Water" has been entered. -No other operator actions have been taken. Which ONE of the following is the CORRECT crew action(s)? | -The plant is at 100% power. -NSCW Train B tagged out for repair. -NSCW Train A pump # 3 trips. -NSCW Train A pump # 5 cannot be started. -AOP-18021-C, "Loss of Nuclear Service Cooling Water" has been entered. -No other operator actions have been taken. Which ONE of the following is the CORRECT crew action(s)? | ||
A. Place all Train A NSCW pumps in PTL, Emergency Trip DG1A. Shutdown to Mode 3 per UOP-12004-C, "Power Operations" within 72 hours. B. Place all Train A NSCW pumps in PTL, Emergency Trip DG1A. Trip the Reactor and go to E-O, align NSCW Train A for single pump operations. | A. Place all Train A NSCW pumps in PTL, Emergency Trip DG1A. Shutdown to Mode 3 per UOP-12004-C, "Power Operations" within 72 hours. B. Place all Train A NSCW pumps in PTL, Emergency Trip DG1A. Trip the Reactor and go to E-O, align NSCW Train A for single pump operations. | ||
C. Allow NSCW Pump # 1 to continue running, DG1A should be left in AUTO. Shutdown to Mode 3 per UOP-12004-C, "Power Operations" within 72 hours. D. Allow NSCW Pump # 1 to continue running, DG1A should be left in AUTO. Trip the Reactor and go to E-O, align NSCW Train A for single pump operations. | C. Allow NSCW Pump # 1 to continue running, DG1A should be left in AUTO. Shutdown to Mode 3 per UOP-12004-C, "Power Operations" within 72 hours. D. Allow NSCW Pump # 1 to continue running, DG1A should be left in AUTO. Trip the Reactor and go to E-O, align NSCW Train A for single pump operations. | ||
Page: 51 of 75 6/22/2009 | Page: 51 of 75 6/22/2009 | ||
: 52. The plant is at 100% power. -RHR pump A is running for an 1ST surveillance. | : 52. The plant is at 100% power. -RHR pump A is running for an 1ST surveillance. | ||
-CCP "A" is running. The following annunciator illuminates on the QMCB. -NSCW TRAIN A LO HDR PRESS -Various other Train A NSCW low flow annunciators illuminate. | -CCP "A" is running. The following annunciator illuminates on the QMCB. -NSCW TRAIN A LO HDR PRESS -Various other Train A NSCW low flow annunciators illuminate. | ||
Approximately 10 seconds later the UO notes the following: -3 NSCW pumps on Train A red lights are illuminated. | Approximately 10 seconds later the UO notes the following: -3 NSCW pumps on Train A red lights are illuminated. | ||
-NSCW Train A return flow is 0 gpm. -NSCW Train A supply flow is significantly higher than 17,500 gpm. Which ONE of the following is the CORRECT initiating event and next action to take? Initiating Event A. Pump sheared shaft B. Catastrophic break C. Catastrophic break D. Pump sheared shaft Next action Stop one of the running Train A NSCW pumps. Place all NSCW Train A pump handwitches in PTL. Stop RHR pump A and CCP A, then isolate letdown. Verify the 3rd Train A NSCW pump discharge valve opens. Page: 52 of 75 , 6/2212009 | -NSCW Train A return flow is 0 gpm. -NSCW Train A supply flow is significantly higher than 17,500 gpm. Which ONE of the following is the CORRECT initiating event and next action to take? Initiating Event A. Pump sheared shaft B. Catastrophic break C. Catastrophic break D. Pump sheared shaft Next action Stop one of the running Train A NSCW pumps. Place all NSCW Train A pump handwitches in PTL. Stop RHR pump A and CCP A, then isolate letdown. Verify the 3rd Train A NSCW pump discharge valve opens. Page: 52 of 75 , 6/2212009 | ||
: 53. Following a controlled unit shutdown for a refueling outage , degassification of the RCS is in progress via chemical addition. | : 53. Following a controlled unit shutdown for a refueling outage , degassification of the RCS is in progress via chemical addition. | ||
Shortly following the chemical addition, a crud burst occurs as expected. | Shortly following the chemical addition, a crud burst occurs as expected. | ||
Which ONE of the following radiation monitors would be expected to alarm? A. RE-0005, Containment | Which ONE of the following radiation monitors would be expected to alarm? A. RE-0005, Containment | ||
-High Range B. RE-0007A, Rad Chern Lab C. RE-00011 , Seal Table Room D. RE-48000, CVCS Letdown Page: 53 of 75 6/22/2009 | -High Range B. RE-0007A, Rad Chern Lab C. RE-00011 , Seal Table Room D. RE-48000, CVCS Letdown Page: 53 of 75 6/22/2009 | ||
: 54. Given the following initial conditions: | : 54. Given the following initial conditions: | ||
-The unit is at 100% power. -DG1A is paralleled to the grid for surveillance testing at 6500 kW. Current condtions: | -The unit is at 100% power. -DG1A is paralleled to the grid for surveillance testing at 6500 kW. Current condtions: | ||
-AOP-18017-C, "Abnormal Grid Disturbances/Loss of Grid" section A has been entered. -Grid frequency has lowered below 60 Hz. Which ONE of the following would be CORRECT regarding | -AOP-18017-C, "Abnormal Grid Disturbances/Loss of Grid" section A has been entered. -Grid frequency has lowered below 60 Hz. Which ONE of the following would be CORRECT regarding | ||
-the initial conditions of the DG. -the effects of the abnormal grid disturbance on the DG. A. DG speed is used to adjust kW. The governor would throttle open on the fuel racks to attempt to raise DG speed. B. DG speed is used to adjust kW. The governor would throttle closed on the fuel racks to attempt to lower DG speed. C. DG speed is used adjust kVARS. The governor would throttle open on the fuel racks to attempt to raise DG speed. D. DG speed is used adjust kVARS. The governor would throttle closed on the fuel racks to attempt to lower DG speed. Page: 54 of 75 6/22/2009 | -the initial conditions of the DG. -the effects of the abnormal grid disturbance on the DG. A. DG speed is used to adjust kW. The governor would throttle open on the fuel racks to attempt to raise DG speed. B. DG speed is used to adjust kW. The governor would throttle closed on the fuel racks to attempt to lower DG speed. C. DG speed is used adjust kVARS. The governor would throttle open on the fuel racks to attempt to raise DG speed. D. DG speed is used adjust kVARS. The governor would throttle closed on the fuel racks to attempt to lower DG speed. Page: 54 of 75 6/22/2009 | ||
: 55. Given the following: | : 55. Given the following: | ||
-Unit 1 is at 100% power. -Air compressor | -Unit 1 is at 100% power. -Air compressor | ||
# 4 is tagged out. -An LOSP results in de-energization of 2 of the 3 remaining compressors. -A slow decrease in air header pressure has occurred. | # 4 is tagged out. -An LOSP results in de-energization of 2 of the 3 remaining compressors. -A slow decrease in air header pressure has occurred. | ||
-Power has now been restored to the 2 previously de-energized compressors. -Instrument Air Header pressure dropped as low as 82 psig. -Instrument Air Header pressure is now 97 psig and slowly rising. Which ONE of the following is CORRECT regarding the current status of the Instrument Air system? A. PV-9375, Service Air Isolation valve is OPEN. All 3 available air compressors are running. B. PV-9375 , Service Air Isolation valve is OPEN. 2 of 3 available air compressors are running. C. PV-9375, Service Air Isolation valve is CLOSED. All 3 available air compressors are running. D. PV-9375, Service Air Isolation valve is CLOSED. 2 of 3 available air compressors are running. Page: 55 of 75 6/22/2009 | -Power has now been restored to the 2 previously de-energized compressors. -Instrument Air Header pressure dropped as low as 82 psig. -Instrument Air Header pressure is now 97 psig and slowly rising. Which ONE of the following is CORRECT regarding the current status of the Instrument Air system? A. PV-9375, Service Air Isolation valve is OPEN. All 3 available air compressors are running. B. PV-9375 , Service Air Isolation valve is OPEN. 2 of 3 available air compressors are running. C. PV-9375, Service Air Isolation valve is CLOSED. All 3 available air compressors are running. D. PV-9375, Service Air Isolation valve is CLOSED. 2 of 3 available air compressors are running. Page: 55 of 75 6/22/2009 | ||
: 56. Given the following: -Unit 1 at 25% power, Unit 2 at 100% power. -The only two available air compressors on each unit are running (4 total). -Air compressor | : 56. Given the following: -Unit 1 at 25% power, Unit 2 at 100% power. -The only two available air compressors on each unit are running (4 total). -Air compressor | ||
# 4 is aligned to Unit 2. Unit 1 has the following indications: | # 4 is aligned to Unit 2. Unit 1 has the following indications: | ||
-SERVICE AIR LO PRESS annunciator lit. -QMCB Service Air Pressure meter -0 psig -QMCB Instrument Air Pressure meter -72 psig and lowering. | -SERVICE AIR LO PRESS annunciator lit. -QMCB Service Air Pressure meter -0 psig -QMCB Instrument Air Pressure meter -72 psig and lowering. | ||
Annunciator window INST AIR EQUIP LO PRESS illuminates several minutes later. Which ONE of the following is the CORRECT action the operators should perform in response to the annunciator? | Annunciator window INST AIR EQUIP LO PRESS illuminates several minutes later. Which ONE of the following is the CORRECT action the operators should perform in response to the annunciator? | ||
A. Align the swing air compressor from Unit 2 to Unit 1. B. Open the cross tie valve to supply Unit 1 air header from Unit 2. C. Trip the Unit 1 Turbine and isolate Turbine Building Instrument Ai r. D. Trip the Unit 1 Reactor and enter E-O while taking actions to restore air pressure. Page: 56 of 75 6/22/2009 | A. Align the swing air compressor from Unit 2 to Unit 1. B. Open the cross tie valve to supply Unit 1 air header from Unit 2. C. Trip the Unit 1 Turbine and isolate Turbine Building Instrument Ai r. D. Trip the Unit 1 Reactor and enter E-O while taking actions to restore air pressure. Page: 56 of 75 6/22/2009 | ||
: 57. Given the following: | : 57. Given the following: | ||
-The fire alarm computer goes into alarm. -The Outside Area Operator reports a fire on RAT "A" You note the following on the QPCP. -Pressure gauge "Fire Pump CPI -7918" pressure lowers to 92 psig, then recovers. | -The fire alarm computer goes into alarm. -The Outside Area Operator reports a fire on RAT "A" You note the following on the QPCP. -Pressure gauge "Fire Pump CPI -7918" pressure lowers to 92 psig, then recovers. | ||
Which ONE of the following is CORRECT regarding how many fire pumps are running and WHERE this can be determined? | Which ONE of the following is CORRECT regarding how many fire pumps are running and WHERE this can be determined? | ||
A. ONLY the Motor Driven Fire pump is running. QPCP and local observation. B. ONLY the Motor Driven Fire pump is running. Local observation ONLY. C. The Motor Driven pump and one Diesel Fire pump are running. QPCP and local observation. | A. ONLY the Motor Driven Fire pump is running. QPCP and local observation. B. ONLY the Motor Driven Fire pump is running. Local observation ONLY. C. The Motor Driven pump and one Diesel Fire pump are running. QPCP and local observation. | ||
D. The Motor Driven pump and one Diesel Fire pump are running. Local observation ONLY. P a ge: 57 of 75 6/22/2009 | D. The Motor Driven pump and one Diesel Fire pump are running. Local observation ONLY. P a ge: 57 of 75 6/22/2009 | ||
: 58. Given the following: | : 58. Given the following: | ||
-The unit is at full power. -A small air leak inside Containment is causing a slow rise in Containment pressure. -Containment pressure is currently reading 1.9 psig. Containment pressure is (a), __ _ To relieve Containment pressure, flow must pass through a restrictive orifice until containment pressure is (b) , then the normal flow path may be aligned. A. (a) within Technical Specification LCO limits. (b) less than +0.3 psig B. (a) within Technical Specification LCO limits. (b) less than -0.3 psig C. (a) in violation of Technical Specification LCO limits. (b) less than +0.3 psig D. (a) in violation of Technical Specification LCO limits. (b) less than -0.3 psig Page: 58 of 75 6/22/2009 | -The unit is at full power. -A small air leak inside Containment is causing a slow rise in Containment pressure. -Containment pressure is currently reading 1.9 psig. Containment pressure is (a), __ _ To relieve Containment pressure, flow must pass through a restrictive orifice until containment pressure is (b) , then the normal flow path may be aligned. A. (a) within Technical Specification LCO limits. (b) less than +0.3 psig B. (a) within Technical Specification LCO limits. (b) less than -0.3 psig C. (a) in violation of Technical Specification LCO limits. (b) less than +0.3 psig D. (a) in violation of Technical Specification LCO limits. (b) less than -0.3 psig Page: 58 of 75 6/22/2009 | ||
: 59. Given the following conditions. -The OATC has manually actuated Containment Spray using, __ (a). __ on 1 of 2 QMCB locations. | : 59. Given the following conditions. -The OATC has manually actuated Containment Spray using, __ (a). __ on 1 of 2 QMCB locations. | ||
-As a result of the manual action, the annunciator window(s) for (b), __ should illuminate. | -As a result of the manual action, the annunciator window(s) for (b), __ should illuminate. | ||
A. (a) 1 of 2 handswitChes (b) CNMT SPRAY ACTUATION only B. (a) 2 of 2 handswitches (b) CNMT SPRAY ACTUATION only C. (a) 1 of 2 handswitches (b) both CNMT SPRAY ACTUATION and CNMT VENT ISO ACTUATION D. (a) 2 of 2 handswitches (b) both CNMT SPRAY ACTUATION and CNMT VENT ISO ACTUATION Page: 59 of 75 6/2212009 | A. (a) 1 of 2 handswitChes (b) CNMT SPRAY ACTUATION only B. (a) 2 of 2 handswitches (b) CNMT SPRAY ACTUATION only C. (a) 1 of 2 handswitches (b) both CNMT SPRAY ACTUATION and CNMT VENT ISO ACTUATION D. (a) 2 of 2 handswitches (b) both CNMT SPRAY ACTUATION and CNMT VENT ISO ACTUATION Page: 59 of 75 6/2212009 | ||
: 60. Given the following: | : 60. Given the following: | ||
-Control Room is being evacuated due to a fire. The OATC (RO) should report to Remote Shutdown Panel ____ _ In accordance with 18038-1/2, "Operation From Remote Shutdown Panels" the preferred method of communications to co-ordinate in plant activities with personnel outside the control room is via ____ _ A. IIA" , sound powered phones plugged into dedicated channels (red jacks). B. 118 11 , bridge network phone extension | -Control Room is being evacuated due to a fire. The OATC (RO) should report to Remote Shutdown Panel ____ _ In accordance with 18038-1/2, "Operation From Remote Shutdown Panels" the preferred method of communications to co-ordinate in plant activities with personnel outside the control room is via ____ _ A. IIA" , sound powered phones plugged into dedicated channels (red jacks). B. 118 11 , bridge network phone extension | ||
# 3145 using codes # 123 or # 234. C. "A" , bridge network phone extension | # 3145 using codes # 123 or # 234. C. "A" , bridge network phone extension | ||
# 3145 using codes # 123 or # 234. D. "8" , sound powered phones plugged into dedicated channels (red jacks). Page: 60 of 75 6/22/2009 | # 3145 using codes # 123 or # 234. D. "8" , sound powered phones plugged into dedicated channels (red jacks). Page: 60 of 75 6/22/2009 | ||
: 61. You are performing a lineup verification for valves in various positions: | : 61. You are performing a lineup verification for valves in various positions: | ||
Which ONE of the following is CORRECT performance of the lineup verification in accordance with NMP-OS-002 , "Verification Policy"? A. A valve is required to be closed. Turn valve slightly in the open direction , using reasonable force, reclose the valve. B. A valve is required to be throttled 2 turns open. Turn valve in closed direction , count turns to ensure correct, re-open valve 2 turns. c. A valve is found not in the required lineup position. Align valve in the required position, notify the SS once the valve is properly al i gned. D. A valve position cannot be determined by local observation. Leave valve as is , use remote handswitch light indications to verify valve position. | Which ONE of the following is CORRECT performance of the lineup verification in accordance with NMP-OS-002 , "Verification Policy"? A. A valve is required to be closed. Turn valve slightly in the open direction , using reasonable force, reclose the valve. B. A valve is required to be throttled 2 turns open. Turn valve in closed direction , count turns to ensure correct, re-open valve 2 turns. c. A valve is found not in the required lineup position. Align valve in the required position, notify the SS once the valve is properly al i gned. D. A valve position cannot be determined by local observation. Leave valve as is , use remote handswitch light indications to verify valve position. | ||
P age: 61 of 75 6/22/2009 | P age: 61 of 75 6/22/2009 | ||
: 62. Given the following: | : 62. Given the following: | ||
-Control Room has been evacuated. | -Control Room has been evacuated. | ||
Line 274: | Line 271: | ||
Which ONE of the following is CORRECT regarding where and how the DG output breaker is closed? A. At Remote Shutdown Panel A. Take local control of the DG output breaker, then close the breaker handswitch. | Which ONE of the following is CORRECT regarding where and how the DG output breaker is closed? A. At Remote Shutdown Panel A. Take local control of the DG output breaker, then close the breaker handswitch. | ||
B. On the front of DG1A Generator panel. Take the handswitch located on the front of DG1A Generator panel to close. C. At the 4160V 1 E Switchgear local control panel (1 AA02-00). | B. On the front of DG1A Generator panel. Take the handswitch located on the front of DG1A Generator panel to close. C. At the 4160V 1 E Switchgear local control panel (1 AA02-00). | ||
Take local control of the DG output breaker, then close the breaker handswitch. D. On the front of the DG output breaker at 4160V 1 E Switchgear 1 AA02. Take the handswitch located on the front of the DG output breaker to close. Page: 62 of 75 6/22/2009 | Take local control of the DG output breaker, then close the breaker handswitch. D. On the front of the DG output breaker at 4160V 1 E Switchgear 1 AA02. Take the handswitch located on the front of the DG output breaker to close. Page: 62 of 75 6/22/2009 | ||
: 63. Which one of the following describes the meaning of an OPERATING PERMIT TAG hanging on a component as described in NMP-AD-003 , Equipment Clearance and Tagging? A. | : 63. Which one of the following describes the meaning of an OPERATING PERMIT TAG hanging on a component as described in NMP-AD-003 , Equipment Clearance and Tagging? A. | ||
* The component position can NOT be changed until the tag is cleared. | * The component position can NOT be changed until the tag is cleared. | ||
Line 281: | Line 278: | ||
* The component has been designated as an isolation boundary for personnel safety. C .* The component position can ONLY be changed with permission of the Tagout Holder. | * The component has been designated as an isolation boundary for personnel safety. C .* The component position can ONLY be changed with permission of the Tagout Holder. | ||
* The component is under the control of a Tagout Holder. D .* The component position can ONLY be changed with permission of the Tagout Holder. | * The component is under the control of a Tagout Holder. D .* The component position can ONLY be changed with permission of the Tagout Holder. | ||
* The component has been designated as an isolation boundary for personnel safety. Page: 63 of 75 6/22/2009 | * The component has been designated as an isolation boundary for personnel safety. Page: 63 of 75 6/22/2009 | ||
: 64. Given the following: -Reactor power is 30% -A reactor shutdown is in progress -A high failure of IR NIS channel N-36 occurs Which ONE of the following is CORRECT regarding the effects of this failure as reactor shutdown progresses? | : 64. Given the following: -Reactor power is 30% -A reactor shutdown is in progress -A high failure of IR NIS channel N-36 occurs Which ONE of the following is CORRECT regarding the effects of this failure as reactor shutdown progresses? | ||
Power < P-10 Power < P-6 A. Reactor trip occurs SR High flux trip automatically unblocks B. Reactor trip occurs SR High flux trip must be manually unblocked | Power < P-10 Power < P-6 A. Reactor trip occurs SR High flux trip automatically unblocks B. Reactor trip occurs SR High flux trip must be manually unblocked | ||
: c. Reactor does NOT trip SR High flux trip automatically unblocks D. Reactor does NOT trip SR High flux trip must be manually unblocked Pag e: 64 of 75 6/22/2009 | : c. Reactor does NOT trip SR High flux trip automatically unblocks D. Reactor does NOT trip SR High flux trip must be manually unblocked Pag e: 64 of 75 6/22/2009 | ||
: 65. Given the following: -Waste Monitor Tank (WMT) # 9 release is in progress. | : 65. Given the following: -Waste Monitor Tank (WMT) # 9 release is in progress. | ||
-The control room HIGH RADIATION annunciator illuminates. RE-0018 , Liquid Waste Effluent radiation monitor , has failed high. -WMT 9 discharge flow transmitter , FT-1085A, indicates 35 gpm. Per ARP 17213-1 for the PLPP annunciator window for WATER DISCH LINE HI RAD , the Au x iliary Building SO should ... A. fail air to RV-0018. OR close manual discharge valves to the environment. | -The control room HIGH RADIATION annunciator illuminates. RE-0018 , Liquid Waste Effluent radiation monitor , has failed high. -WMT 9 discharge flow transmitter , FT-1085A, indicates 35 gpm. Per ARP 17213-1 for the PLPP annunciator window for WATER DISCH LINE HI RAD , the Au x iliary Building SO should ... A. fail air to RV-0018. OR close manual discharge valves to the environment. | ||
B. fa i l air to RV-0018. OR using the local manual handwheel , close RV-0018. C. close RV-0018 locally on the PLPP. OR close manual discharge valves to the environment. | B. fa i l air to RV-0018. OR using the local manual handwheel , close RV-0018. C. close RV-0018 locally on the PLPP. OR close manual discharge valves to the environment. | ||
D. close RV-0018 locally on the PLPP. OR using the local manual handwheel , close RV-0018. P age: 65 o f 75 6/2 21 200 9 | D. close RV-0018 locally on the PLPP. OR using the local manual handwheel , close RV-0018. P age: 65 o f 75 6/2 21 200 9 | ||
: 66. Given the following: -The unit is at 100% power. -A containment entry is to be performed per 00303-C, "Containment Entry" for an RCS leak inspection. | : 66. Given the following: -The unit is at 100% power. -A containment entry is to be performed per 00303-C, "Containment Entry" for an RCS leak inspection. | ||
The area i nside the bioshield should be posted as a (a), __ Entry into __ (b) __ is prohibited. | The area i nside the bioshield should be posted as a (a), __ Entry into __ (b) __ is prohibited. | ||
Line 294: | Line 291: | ||
B. (a) High Radiation Area (b) the Preaccess Filter Unit area (260 ft elevation). | B. (a) High Radiation Area (b) the Preaccess Filter Unit area (260 ft elevation). | ||
C. (a) Very High Radiation Area (Grave Danger) (b) The elevator. | C. (a) Very High Radiation Area (Grave Danger) (b) The elevator. | ||
D. (a) High Radiation Area (b) The elevator. Page: 66 of 75 6/2212009 | D. (a) High Radiation Area (b) The elevator. Page: 66 of 75 6/2212009 | ||
: 67. Given the following: | : 67. Given the following: | ||
-IPC computer is unavailable , CSFST monitoring must be performed manually. -You are assigned 19200-C, "Critical Safety Function Status Tree" monitoring and are making your first pass through the CSFSTs. Critical Safety Function Status Trees indicate the following: | -IPC computer is unavailable , CSFST monitoring must be performed manually. -You are assigned 19200-C, "Critical Safety Function Status Tree" monitoring and are making your first pass through the CSFSTs. Critical Safety Function Status Trees indicate the following: | ||
Line 302: | Line 299: | ||
-Inventory GREEN ORANGE Not performed yet Not performed yet Not performed yet Not performed yet Which ONE of the following describes the: (a) proper performance of CSFST monitoring on the first pass through. (b) your responsibilities for CSFST monitoring in accordance with 19200-C and A. (a) Immediately tell the SS to transition to Core Cooling , then continue the first pass through the status trees. (b) Continuous monitoring is required. | -Inventory GREEN ORANGE Not performed yet Not performed yet Not performed yet Not performed yet Which ONE of the following describes the: (a) proper performance of CSFST monitoring on the first pass through. (b) your responsibilities for CSFST monitoring in accordance with 19200-C and A. (a) Immediately tell the SS to transition to Core Cooling , then continue the first pass through the status trees. (b) Continuous monitoring is required. | ||
B. (a) Complete the first pass through the status trees , then inform the SS to transition to the highest priority FRP. (b) Continuous monitoring is required. | B. (a) Complete the first pass through the status trees , then inform the SS to transition to the highest priority FRP. (b) Continuous monitoring is required. | ||
C. (a) Immediately tell the SS to transition to Core Cooling , then continue the first pass through the status trees. (b) Monitor every 10 to 15 minutes unless a change in status occurs. D. (a) Complete the first pass through the status trees, then inform the SS to transition to the highest priority FRP. (b) Monitor every 10 to 15 minutes unless a change in status occurs. Page: 67 of 75 6/22/2009 | C. (a) Immediately tell the SS to transition to Core Cooling , then continue the first pass through the status trees. (b) Monitor every 10 to 15 minutes unless a change in status occurs. D. (a) Complete the first pass through the status trees, then inform the SS to transition to the highest priority FRP. (b) Monitor every 10 to 15 minutes unless a change in status occurs. Page: 67 of 75 6/22/2009 | ||
: 68. Given the following: | : 68. Given the following: | ||
-Control Room has been evacuated due to a fire. -AOP-18038-1 , "Operation From Remote Shutdown Panels" is in effect. -The operators have just aligned components per Attachment I, "Control Switch Required Positions". Attachment I is performed at __ (a), __ in order to align __ (b) __ A. (a) both Remote Shutdown Panels (b) Fire event qualified equipment to prevent spurious actuations. | -Control Room has been evacuated due to a fire. -AOP-18038-1 , "Operation From Remote Shutdown Panels" is in effect. -The operators have just aligned components per Attachment I, "Control Switch Required Positions". Attachment I is performed at __ (a), __ in order to align __ (b) __ A. (a) both Remote Shutdown Panels (b) Fire event qualified equipment to prevent spurious actuations. | ||
: 8. (a) both Remote Shutdown Panels (b) switches with maintained contacts to prevent changing status on transfer. | : 8. (a) both Remote Shutdown Panels (b) switches with maintained contacts to prevent changing status on transfer. | ||
C. (a) Remote Shutdown Panel "8" only (b) Fire event qualified equipment to prevent spurious actuations. D. (a) Remote Shutdown Panel "8" only (b) switches with maintained contacts to prevent changing status on transfer. Page: 68 of 75 6/2212 00 9 | C. (a) Remote Shutdown Panel "8" only (b) Fire event qualified equipment to prevent spurious actuations. D. (a) Remote Shutdown Panel "8" only (b) switches with maintained contacts to prevent changing status on transfer. Page: 68 of 75 6/2212 00 9 | ||
: 69. The Emergency Director (ED) has directed you to perform an ENN roll call in accordance with 91 002-C , "Emergency Notifications", checklist 4 "Directions fo r ENN Communicators". . -Burke County and State of Georgia have failed to respond to the initial roll call. Which ONE of the following is the CORRECT actions to perform? A. Transmit the notification message to the agencies that responded, inform the ED that two agencies couldn't be notified. | : 69. The Emergency Director (ED) has directed you to perform an ENN roll call in accordance with 91 002-C , "Emergency Notifications", checklist 4 "Directions fo r ENN Communicators". . -Burke County and State of Georgia have failed to respond to the initial roll call. Which ONE of the following is the CORRECT actions to perform? A. Transmit the notification message to the agencies that responded, inform the ED that two agencies couldn't be notified. | ||
Southern Linc would be the next priority to establish communications. | Southern Linc would be the next priority to establish communications. | ||
B. Transmit the notification message to the agencies that responded, inform the ED that two agencies couldn't be notified. The Back-up ENN Bridge would be ne x t priority to establish communications. | B. Transmit the notification message to the agencies that responded, inform the ED that two agencies couldn't be notified. The Back-up ENN Bridge would be ne x t priority to establish communications. | ||
C. Promptly notify the ED of the agencies that failed to respond to the initial roll call. Southern Linc would be the next priority to establish communications. D. Promptly notify the ED of the agencies that failed to respond to the initial roll call. The Back-up ENN Bridge would be ne x t priority to establish communications. | C. Promptly notify the ED of the agencies that failed to respond to the initial roll call. Southern Linc would be the next priority to establish communications. D. Promptly notify the ED of the agencies that failed to respond to the initial roll call. The Back-up ENN Bridge would be ne x t priority to establish communications. | ||
Page: 69 of 75 6/22 12 009 | Page: 69 of 75 6/22 12 009 | ||
: 70. Given the following plant conditions | : 70. Given the following plant conditions | ||
: -The Reactor has tripped and Safety Injection has actuated. -19012-C , "Post LOCA Cooldown and Depressurization" is in progress. -The crew is performing an RCS cooldown in accordance with the procedure. | : -The Reactor has tripped and Safety Injection has actuated. -19012-C , "Post LOCA Cooldown and Depressurization" is in progress. -The crew is performing an RCS cooldown in accordance with the procedure. | ||
The following is a plot of the cooldown: | The following is a plot of the cooldown: | ||
Time RCS Tcold Time RCS Tcold 1400 549°F 1545 427°F 1415 532°F 1600 397 0 F 1430 522 0 F 1615 384 0 F 1445 507°F 1630 366 0 F 1500 500 0 F 1645 342°F 1515 480 0 F 1700 312 0 F 1530 449°F 1715 282°F Which ONE of the following is CORRECT regarding the Tech Spec cooldown limits? A. The crew is in compliance with Tech Spec cooldown limits. B. The Tech Spec cooldown limits were first exceeded at 1530. C. The Tech Spec cooldown limits were first e x ceeded at 1600. D. The Tech Spec cool down limits were first exceeded at 1715. P age: 7 0 o f 75 6/2212009 | Time RCS Tcold Time RCS Tcold 1400 549°F 1545 427°F 1415 532°F 1600 397 0 F 1430 522 0 F 1615 384 0 F 1445 507°F 1630 366 0 F 1500 500 0 F 1645 342°F 1515 480 0 F 1700 312 0 F 1530 449°F 1715 282°F Which ONE of the following is CORRECT regarding the Tech Spec cooldown limits? A. The crew is in compliance with Tech Spec cooldown limits. B. The Tech Spec cooldown limits were first exceeded at 1530. C. The Tech Spec cooldown limits were first e x ceeded at 1600. D. The Tech Spec cool down limits were first exceeded at 1715. P age: 7 0 o f 75 6/2212009 | ||
: 71. Which ONE of the following are components I parameters for a potential source of RCS leakage that are specifically checked for in 19112-C , "LOCA Outside Containment" and the main concern if this flow path is not isolable? | : 71. Which ONE of the following are components I parameters for a potential source of RCS leakage that are specifically checked for in 19112-C , "LOCA Outside Containment" and the main concern if this flow path is not isolable? | ||
A. Safety Injection pump Cold Leg injection valves and RHUT level. Loss of emergency coolant recirculation due to rupture of low pressure piping. B. Safety Injection pump Cold Leg injection valves and RHUT level. Unmonitored radioactive release to environment via the Auxiliary Building HVAC. C. RHR pump Cold Leg injection valves and Reactor Coolant System pressure. | A. Safety Injection pump Cold Leg injection valves and RHUT level. Loss of emergency coolant recirculation due to rupture of low pressure piping. B. Safety Injection pump Cold Leg injection valves and RHUT level. Unmonitored radioactive release to environment via the Auxiliary Building HVAC. C. RHR pump Cold Leg injection valves and Reactor Coolant System pressure. | ||
Loss of emergency coolant recirculation due to rupture of low pressure piping. D. RHR pump Cold Leg injection valves and Reactor Coolant System pressure. | Loss of emergency coolant recirculation due to rupture of low pressure piping. D. RHR pump Cold Leg injection valves and Reactor Coolant System pressure. | ||
Unmonitored radioactive release to environment via the Auxiliary Building HVAC. Page: 71 of 75 6122/2009 | Unmonitored radioactive release to environment via the Auxiliary Building HVAC. Page: 71 of 75 6122/2009 | ||
: 73. Initial conditions | : 73. Initial conditions | ||
: -Core Cooling CSFST is ORANGE. -19222-C , "FRP-C.2 Degraded Core Cooling" has been implemented. | : -Core Cooling CSFST is ORANGE. -19222-C , "FRP-C.2 Degraded Core Cooling" has been implemented. | ||
Line 326: | Line 323: | ||
-The CSFST status tree path points to 19241-C, "Response to Imminent Pressurized Thermal Shock (PTS). -The SS continues with the actions of 19222-C. Which ONE of the following is CORRECT regarding the SS decision during performance of this procedure? | -The CSFST status tree path points to 19241-C, "Response to Imminent Pressurized Thermal Shock (PTS). -The SS continues with the actions of 19222-C. Which ONE of the following is CORRECT regarding the SS decision during performance of this procedure? | ||
A. The RED condition on Integrity is expected due to the SI accumulators injecting causing rapid lowering of cold leg temperatures, the SS should complete 19222-C. B. Transitions from FRPs cannot be made until completed or procedurally directed. | A. The RED condition on Integrity is expected due to the SI accumulators injecting causing rapid lowering of cold leg temperatures, the SS should complete 19222-C. B. Transitions from FRPs cannot be made until completed or procedurally directed. | ||
C. Transitions to other procedures is prohibited until ECCS termination criteria is met. D. The RED condition on Integrity is expected due to the SI accumulators injecting, causing a rapid rise in RCS pressure, the SS should complete 19222-C. P a ge: 7 3 of 7 5 6/22/2009 | C. Transitions to other procedures is prohibited until ECCS termination criteria is met. D. The RED condition on Integrity is expected due to the SI accumulators injecting, causing a rapid rise in RCS pressure, the SS should complete 19222-C. P a ge: 7 3 of 7 5 6/22/2009 | ||
: 74. Given the following: | : 74. Given the following: | ||
-19241-C, "Pressurized Thermal Shock (PTS)", is in effect. -An RCS temperature instrument failure occurs. -The OATC places both trains of COPS to the ARM position without noticing the instrument failure. -PORV-455 opens. The temperature instrument which failed is a ... A. NR Thot B. WR Thot C. NR Tcold D. WRTcoid Page: 74 of 75 6122/2009 | -19241-C, "Pressurized Thermal Shock (PTS)", is in effect. -An RCS temperature instrument failure occurs. -The OATC places both trains of COPS to the ARM position without noticing the instrument failure. -PORV-455 opens. The temperature instrument which failed is a ... A. NR Thot B. WR Thot C. NR Tcold D. WRTcoid Page: 74 of 75 6122/2009 | ||
: 75. Given the following: | : 75. Given the following: | ||
-Reactor trip with LOSP in progress. | -Reactor trip with LOSP in progress. |
Revision as of 19:53, 11 July 2019
ML092170365 | |
Person / Time | |
---|---|
Site: | Vogtle |
Issue date: | 08/03/2009 |
From: | Division of Nuclear Materials Safety II |
To: | Southern Nuclear Operating Co |
References | |
Download: ML092170365 (78) | |
Text
CO P Y U.S. Nuclear Regulatory Commission Site-Specific RO Written Examination Applicant Information Name: Date: 06-26-2009 Facility/Unit: Vogtle 1 & 2 Region: 1 0 11-III 0 IV 0 Reactor Type: W. CE D BW D GE D Start Time: Finish Time: Instructions Use the answer sheets provided to document your answers. Staple this cover sheet on top of the answer sheets. To pass the examination, you must achieve a final grade of at lea st 80.00 percent. Examination papers will be collected 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> after the examination begins. Applicant Certification All work done on this examination is my own. I have neither given nor received aid. Applicant's Signature Results Examination Value 75 Points Applicant's Score Points Applicant's Grade Percent Date: 06-26-2009 VEGP NRC RO Exam in a ti on Answer Sheet Stu d ent Name: 1. 26. 51. 2. 27. 52. 3. 28. 53. 4. 29. 54. 5. 30. 55. 6. 3 1. 56. 7. 32. 57. 8. 33. 58. 9. 3 4. 59. 10. 35. 60. 11. 36. 61. 1 2. 37. 1 3. 38. 63. 1 4. 39. 64. 1 5. 40. 65. 1 6. 4 1. 66. 1 7. 42. 67. 1 8. 43. 68. 19. 44. 69. 20. 45. 70. 21. 46. 7 1. 22. 4 7. 72. 23. 4 8. 73. 24. 4 9. 74. 25. 50. 75.
Answers # ID 0 001A4.12 I A 2 002G2.1.31 I D 3 003AK2.05 I B 4 003K6.14 I B 5 004K5.11 I D 6 004K5.15 I B 7 005K2.03 I B 8 006A4.11 I B 9 007EA2.06 I B 10 007KI.OI I B II 008A4.02 I B 12 008AK2.022 D 13 008K3.03 I C 14 009EG2.4.34 I D 15 010K2.04 I A 16 010K6.01 I B 17 011 EG2.2.37 I D 18 012K3.041 B 19 013KI.071 D 20 015AG2.4.6 I D 2 1 015K2.01 1 C 22 022AI.02 1 C 23 022AAI.02 1 C 24 025AKI.Ol 1 D 25 026K4.01 1 C 26 027AK3.022 B 27 028K5.041 C 28 029EK2.06 I B 29 029KI.05 1 D 30 032AA2.092 C 31 033AI.Ol 1 B 32 035K6.01 1 B 33 039G2.2.25 2 A 34 051AAI.042 B 35 055EKI.O I I A 36 055K3.0 1 1 C 37 056AA2.391 D 38 057AAI.04 1 A 39 058AA2.01 1 D 40 059A3.04 1 A 41 061AI.012 D 42 061G2.1.71 C 43 062AK3.03 I B 44 062K4.021 A 45 063A2.01 1 C 6--e64*!I:'6 , e8 2 C 47 065AAI.03 1 D 48 068AG2.4.6 2 D Page: lof2 6126/2009 Answers # ID 0 4 9 071A2.08 1 B 50 073K5.01 1 A 51 076A2.012 B 52 076A2.021 B 53 076AA2.032 D 54 077AK2.041 A 55 078A3.01 1 A 56 078G2.4.31 1 D 57 086A3.01 1 C 58 103A1.01 1 C 59 103A4.03 2 D 60 G2.1.8 1 A 61 G2.1.29 1 D 62 G2.1.30 1 C 63 G2.2.132 C 6 4 G2.2.44 1 B 65 G2.3.11 1 C 66 G2.3.14 1 C 67 G2.4.13 1 B 68 G2.4.34 1 B 69 G2.4.43 1 D 70 WE03EA1.3 1 C 7 1 WE04EK 3.4 1 C 72 WE05EK1.32 D 73 WE06EK3.4 3 A 74 WE08EK2.1 1 B 75 WE09EK 1.2 1 A Page: 20f2 6/2612009
- 1. Given the following: -A turbine runback occurred and the crew has now stabilzed the plant. -The UO is making minor turbine adjustments to control RCS Tave. -Control Rods are currently in AUTO. -Tave is currently 2.8 degrees higher than Tref. Which ONE of the following describes the current rod speed and when rod movement would stop? Current Rod Speed When Rod Motion Stops (In steps per minute) (temperature deviation)
A. 8 steps per minute Tave < 1.0 degrees> Tref B. 8 steps per minute Tave < 1.5 degrees> Tref C. > 8 steps per minute Tave < 1.0 degrees> Tref D. > 8 steps per minute Tave < 1.5 degrees> Tref Page: 1 of 75 6/22/2009
- 2. Given the following:
-All RCPs are de-energized. Based on RVLlS indication, which ONE of the following RCP hand switch positions would lead to a false CORE COOLING CSF status tree condition?
Rep 1 E handswitches Rep non-1 E handswitches A. Open Open B. Closed Open C. Open Closed D. Closed Closed P age: 2 0 f 75 6/22/2009
- 3. Given the following:
-Dropped rod recovery in progress. -The OATC initiates rod withdrawal for the affected rod. -The ROD CONTROL URGENT FAILURE annunciator illuminates.
Which ONE of the following completes the following statements?
This is due to a __ (a), __ failure in the unaffected rod group in the affected bank. Once rod withdrawal is complete , the OATC should reset the ROD CONTROL URGENT FAILURE alarm using the (b), __ A. (a) regulation (b) ROD CONTROL STARTUP switch B. (a) regulation (b) ROD CONTROL ALARM RESET switch C. (a) multiplexing (b) ROD CONTROL STARTUP switch D. (a) multiplexing (b) ROD CONTROL ALARM RESET switch Page: 30f75 6/22/2009
- 4. Initial conditions:
-RCS heatup is in progress.
-Filling and venting of the RCS in progress.
-The OATC is ready to start the first RCP. Which ONE of the following sets of parameters will ALLOW starting of the first RCP in accordance with SOP-13003, Reactor Coolant Pumps? RCS Pressure (psig) VCT Pressure (psig) Seal Injection Flow (gpm) A. 360 17 14 B. 340 19 10 C. 320 21 7 D. 300 15 11 Page: 4of75 6/22/2009
- 5. Given the following:
-AOP-18007-C, "Chemical Volume Control System Malfunction," Section A for "Total Loss of Letdown Flow" has been entered. -Seal injection flows are as follows: RCP # 1 -8.5 gpm RCP # 2 -9.0 gpm RCP # 3 -8.5 gpm RCP # 4 -9.0 gpm -Charg i ng flow is currently
-120 gpm -The OATC is reducing charging flow using FIC-0121, Charging Flow Controller while maintaining the current seal injection flows using HC-0182, "Seal Water Controller." In accordance with 18007-C , which ONE of the following is the required action the OATC should take in accordance with 18007-C and the basis fo r the final charging flow rate? A. Reduce charging flow to -35 gpm. Prevent Regenerative Heat E x changer damage due to high thermal stress e s. B. Reduce charging flow to -45 gpm Prevent Regenerative Heat Exchanger damage due to high thermal stresses.
C. Reduce charging flow to -35 gpm. Prevent an additional high stress thermal cycle on the charging line nozzles. D. Reduce charging flow to -45 gpm. Prevent an additional high stress thermal cycle on the charging line nozzles. P age: 5 0 f75 6/22/2 00 9
- 6. Initial conditions
- -The unit is at 100% power. -Control rods are in automatic.
-Boric Acid Potentiometer is required to be set at 3.69 -Boric Acid Potentiometer actual setting is 2.69 Current conditions:
-An automatic makeup to the VCT occurs. Which ONE of the choices completes the following statements?
To offset the reactivity change from the auto makeup control rods would need to be (a), __ At EOL , the effects of the Boric Acid Potentiometer setting error causes rods to move (b) than at BOL. A. (a) INSERTED (b) more B. (a) INSERTED (b) less C. (a) WITHDRAWN (b) more D. (a) WITHDRAWN (b) less. Pa g e: 60 f75 612 2/2009
- 7. The Unit is in Mode 1. Regarding the following valve: -RHR PMP-A UPSTREAM SUCTION FROM HOT LEG LOOP 1, 1 HV-8701 B. Which ONE of the following CORRECTLY describes the power supply and the normal valve status for present plant conditions?
A. 125V DC Inverter C0115 , valve is normally energized.
B. 125V DC Inverter C0115 , valve is normally de-energized.
C. 125V DC Inverter 00116, valve is normally energized.
O. 125V DC Inverter 00116, valve is normally de-energized. , Page: 7 of 75 6/22/2009
- 8. The plant is in Mode 5. The following annunciator is i lluminated and cannot be reset; -B COLD OP ACTU VLV HV-8000B NOT FULL OPEN Which ONE of the conditions below would require entry into the COPS LCO? (Assume all valve lift setpoints are set correctly)
A. Train A RHR loop suction isolation valves open. PORV A handswitch in auto , Train A COPS in ARM. B. RHR Train A loop suction isolation valves open. PORV B handswitch in auto , Train B COPS in ARM. C. RHR T r ain A and Train B loop suction isolation valves open. PORV A handswitch in auto, Train A COPS in BLOCK D. RHR Train A and Train B loop suction isolation valves open. PORV B handswitch in auto , Train B COPS in BLOCK. Pa g e: 8 0f 75 6/2 21 200 9
- 9. Initial conditions:
-The plant is at 100% power Current conditions
- During Reactor Trip Breaker "A" testing. the following indications occur. -Reactor Trip Breaker "A" green light is illuminated.
-Reactor Trip Breaker "B" green light is illuminated.
-Reactor Trip Bypass Breaker "A" red light is illuminated. -Reactor Trip Bypass Breaker "B" has no light indication.
No operator actions have been taken. Which ONE of the following is CORRECT regarding plant status and ne x t required operator actions (if any)? Plant Status Required Action (if any) A. The Reactor i s tripped. Check Turbine Tripped. B. The Reactor is tripped. Trip the Reactor using both trip handswitches.
C. The Reactor is at power. No action i s required. D. The Reactor is at power. Trip the Reactor using either trip handswitch.
Page: 9 0f 7 5 6/2 2/2009
- 10. Given the following conditions. -PRZR Safety Valve, PSV-8010A, is stuck slightly open. -RCS pressure is stable at 1920 psig. -PZR Vapor Space Temperature is 630 o F. -PRT pressure is 35 psig and slowly rising. -Containment pressure is 0 psig. -PSV-801 OA tailp i pe temperature is reading -281 o F. Select the correct choice for: (a) the tail pipe temperature reading, and (b) the expected response of the tailpipe temperature if the safety valve does not close. REFERENCE PROVIDED A. The tail pipe indication is reading correctly. The temperature should rise to -338 o F, then remain stable. B. The tail pipe indication is reading correctly. The temperature should rise to -338°F, then quickly lower to -212 o F. C. The tail pipe indication should read -258°F. The temperature should rise to -328°F, then remain stable. D. The tail pipe indication should read -258°F. The temperature should rise to -328°F, then quickly lower to -212 o F. Page: 10 of 75 6/22/200 9
- 11. Given the following:
-Maintenance on CCW Train A is to be performed.
During draining of the CCW Train A system, drain flow would normally be routed to (a) __ When CCW Train A fill and vent is performed, an operator should be stationed at the CCW Hx vent point and the Control Room should (b) __ A. (a) the Radwaste Processing Facility (RPF) for processing and reuse. (b) start 2 CCW pumps simultaneously, remain in this configuration after fill & vent has been completed.
B. (a) the Clean Water Sump for disposal to the Waste Water Retention Basins. (b) start 2 CCW pumps simultaneously, remain in this configuration after fill & vent has been completed.
C. (a) the Radwaste Processing Facility (RPF) for processing and reuse. (b) start 3 CCW pumps simultaneously, reduce to 2 CCW pumps after fill & vent has been completed.
D. (a) the Clean Water Sump for disposal to the Waste Water Retention Basins. (b) start 3 CCW pumps simultaneously, reduce to 2 CCW pumps after fill & vent has been completed.
Page: 11 of 75 6/22/2009
- 12. Given the following plant conditions:
-Unit 1 has a stuck open PRZR Code Safety Valve. -Appropriate operator response actions have been taken. -RCS pressure is stable at 1345 psig -Containment temperature is 160 0 F -Actual PRZR level is 50% The effect of RCS pressure at 1345 psig will cause the indicated PRZR level LI-459 to read...li!L actual level; the effect of containment temperature at 160 0 F tends to make the indicated PRZR level read than actual level. A. (a) below (b) lower B. (a) below (b) higher C. (a) above (b) lower D. (a) above (b) higher Page: 12 of 75 6/22/2009
- 13. Given the following:
-The unit is at full power. -A loss of ACCW occurs at 1432. -The crew has entered AOP-18022-C, "Loss of Auxiliary Component Cooling Water" and is attempting to restore ACCW flow. -RCP temperatures are below their immediate trip criteria but are slowly rising. -RCP seal injection flow is -9 gpm per RCP. Which one of the following correctly describes: (a) the MAXIMUM time allowed to trip the RCPs and (b) the MINIMUM temperature setpoint for the motor bearing that requires RCP trip. A. (a) 1437 (b) 195 0 F B. (a) 1437 (b) 311°F C. (a) 1442 (b) 195 0 F D. (a) 1442 (b) 311°F Page: 13 of 75 6122/2009
- 14. Given the following:
-Small break LOCA in progress. -A loss of all offsite power has occurred.
-DG1 B is tagged out. -The SAT is unavailable.
-The crew transitions to 19012-C, "Post LOCA Cooldown and Depressurization".
-The step for "Isolate SI Accumulators" is being performed. -The UO has been dispatched to energize the SI Accumulator isolation valves (HV-BBOBA, B , C, D). Which ONE of the following is CORRECT regarding isolation of the SI Accumulators?
A. All accumulator isolation valves can be energized.
Close all accumulator isolation valves, leave the valves energized.
B. All accumulator isolation valves can be energized. Close all accumulator isolation valves , then de-energize the valves. C. Two accumulator isolation valves cannot be energ ized. Close energized accumulator isolation valves, vent all of the accumulators.
D. Two accumulator isolation valves cannot be energized.
Close energized accumulator isolation valves, vent two of the accumulators. Page: 14 of 75 6/22/2009
- 15. Actual Pressurizer Code Safety Valve position indication can be read on the (a) which is I are powered from (b), __ A. (a) Plasma Displays A and B (b) AY1 A and BY1 B , 120V AC Vital Instrument Panels B. (a) Plasma Displays A and B (b) NYR and NYS , 120V AC Regulated Instrument Panels C. (a) Main Control Board Panel C (b) AY1A and BY1B, 120V AC Vital Instrument Panels D. (a) Main Control Board Panel C (b) NYR and NYS, 120V AC Regulated Instrument Panels Page: 15 of 7 5 6/22/200 9
- 16. Given the following conditions I events on Unit 1:
- Reactor power is 100%.
- PRZR pressure control is selected to 457 I 456 position.
- PRZR pressure is at 2235 psig.
- 1 PT-456 fails high. Which ONE of the following is the CORRECT plant I system response?
A. PORV 1 PV-455 opens. Both spray valves remain closed and all PRZR heaters will energize.
Pressu r e w i ll stabilize near 2185 psig. B. PORV 1 PV-456 opens. Both spray valves remain closed and all PRZR heaters will energize.
Pressure will stabilize near 2185 psig. C. PORV 1 PV-455 opens. Both spray valves open and all PRZR heaters turn off. Pressure will continue to lower causing a Reactor Trip and Safety Injection. D. PORV 1 PV-456 opens. Both spray valves open and all PRZR heaters turn off. Pressure will continue to lower caus ing a Reactor Trip and Safety Injection. Page: 16 of 75 6/22/2009
- 17. Given the following: -A DBA LOCA i s in progress on Unit 2. -ECCS has been aligned for "cold leg recirculation". -RHR pump 2A tripped 5 minutes after completing the recirculation alignment.
-All other components are functioning properly. Which ONE of the operator actions would be CORRECT regarding the Safety Injection pumps (SIPs) and the Centrifugal Charging pumps (CCPs)? A. Immediately stop both SIPs. B. Immediately stop both CCPs. C. Immediately stop CCP "A" and SIP " A". D. Allow all CCPs and SIPs to continue running. P age: 17 of 75 6/22/200 9
- 18. Given the following:
-A HIGH failure (offsca le high) of Pressurizer (PRZR) Pressure Channel PT-457 has occurred. -Immediate Operator Actions of AOP-18001-C for failure of a Pressurizer Pressure channel have been taken. -NO other actions have been taken. Which ONE of the following identifies the MINIMUM additional channels needed to cause a: a) Reactor Trip b) Safety Injection Reactor Trip Safety Injection A. 1 1 B. 1 2 C. 2 1 D. 2 2 Page: 18 of 75 6/22/2009
- 19. A Turbine Driven Auxiliary Feed Water (TDAFW) Actuation has been generated.
-HV-5106, "TDAFW Pump Steam Supply Valve" has stroked open. Which ONE of the following conditions is necessary to RESET the TDAFW actuation and close HV-5106? A. At least ONE Main Feed Water Pump Turbine RESET. B. RESET Safety Injection using both QMCB handswitches.
C. ALL Steam Generator levels above the Low-Low level setpoints.
D. ATWS Mitigation System Actuation Circuit (AMSAC) signal CLEAR. Page: 19 of 75 6122/2009
- 20. Given the following: -A loss of all AC power has occurred. -The crew is performing 19102 , "Loss of All AC Power Recovery With SI Required".
-Both CCPs are stopped. -All RCP Seal Injection Isolations are OPEN (HV-81 03A, B, C, D) -RCP seal temperatures are -465 0 F Which ONE of the following is the CORRECT mitigat i on strategy for restoration of charging flow and seal injection to cool the RCP seals? A. Take HC-0182 , Seal Injection Controller to m i nimum , start a CCP , throttle HC-0182 to establish a slow cooldown rate on the RCP seals. B. Close all the HV-8103 valves, start a CCP , slowly throttle open the HV-8103 valves one at a time to establish a slow cooldown rate on the RCP seals. C. Close the seal injection needle valves , start a CCP, slowly throttle open the seal injection needle valves to establish a slow cool down rate on the RCP seals. D. Close all the HV-8103 valves , start a CCP, perform a controlled cooldown of the RCS to cool the RCP seals , RCPs should not be started prior to a status evaluation.
P ag e: 20 o f 75 6/2212009
- 21. Given the following:
-The reactor is stable with critical data being taken. -The crew is preparing to raise power to the POAH. -1 BY1 B, 120V Vital Instrument bus de-energizes.
Wh i ch ONE of the following describes the effects on the Intermediate Range indications and the reason for the indications?
A. IR N-35 , remains energized and indication decreases. IR N-36, remains energized and indication decreases.
B. IR N-35, remains energized with indication stable.
IR N-36 , remains energized with indication stable. C. IR N-35, remains energized and indication decreases. IR N-36, will de-energize. D. IR N-35, remains energized with indication stable. IR N-36, will de-energize.
Page: 21 of 75 6/22/2009
- 22. Which of the following choices correctly identifies the expected equipment condition for the initial and current CNMT pressures?
Assume no operator actions taken. Initial CNMT pressure:
Ch I -3.5 ps i g Ch II -3.9 psig Ch III -3.7 psig Ch IV -3.6 psig Current CNMT pressure:
Ch I -21.3 psig Ch II -21.7 psig Ch III -20.9 psig Ch IV -22.1 psig A. In i tial -Containment Cooler Lo Speed QMCB MLBs LIT. Current -Containment Spray Pump QMCB handswitch RED lights LIT. B. Initial -Containment Cooler Lo Speed QMCB MLBs LIT. Current -Containment Spray Pump QMCB handswitch GREEN lights LIT. C. Initial -Containment Cooler Lo Speed QMCB MLBs EXTINGUISHED. Current -Containment Spray Pump QMCB handswitch RED li ghts LIT. D. Initial -Containment Cooler Lo Speed QMCB MLBs EXTINGUISHED.
Current -Containment Spray Pump QMCB handswitch GREEN lights LIT. P age: 22 of 75 6/22/2009
- 23. A failure of a flow transmitter has resulted in the following annunciators:
-RCP SEAL WATER INJ LO FLOW -REGEN HX LETDN HI TEMP -LETDN HX OUT HI TEMP -CHARGING LINE HIILO FLOW All other plant parameters are normal. Which ONE of the following actions would CORRECTLY mitigate this event? A. Throttle open HV-0182 (seal flow control).
B. Throttle closed HV-0182 (seal flow control).
C. Throttle open FV-0121 (charging flow control). D. Throttle closed FV-0121 (charging flow control).
P age: 23 o f 75 6/22/2009
- 24. Given the following conditions
- -The Reactor was shutdown to Mode 3 conditions 28 days ago. -Core reload has just been completed.
-Unit 1 is in midloop operation.
-All HL and CL nozzle dams are in place. -A total loss of RHR cooling has occurred.
-RCS temperature was 1 OooF when the loss of cooling event initiated.
Calculate the amount of time it will take from the loss of RHR until saturated conditions are reached in the RCS AND the amount of time until core uncovery occurs. REFERENCE PROVIDED Time Until Saturated Time Until Core Uncovery A. 38 minutes 145 minutes B. 38 minutes 228 minutes C. 58 minutes 145 minutes D. 58 minutes 228 minutes Page: 24 of 75 6/22/2009
- 25. Which ONE of the following describes the transition process for the Containment Spray system from the injection flow path to the recirculation flow path after a LOCA? A. At the RWST LO-LO Level of 29%, the operator manually realigns the flow path. B. At the RWST LO-LO Level of 29%, the flow path semi-automatically realigns. C. At the RWST EMPTY level of 8%, the operator manually realigns the flow path. D. At the RWST EMPTY level of 8%, the flow path semi-automatically realigns.
Page: 25 of 75 6/22/2009
- 26. Initial conditions
- -457 / 456 position selected for PRZR pressure control. -All channels are reading 2235 psig. Current conditions:
-PT-455(Ch I) 2190 psig PT -456( Ch II) 2190 psig PT-457(Ch III) Offscale High PT-458(Ch IV) 2285 psig -Immediate actions to stabilize PRZR pressure have been completed.
-AOP 18001-C , section C for PRZR Pressure Instrumentation, is in effect. -The step to select controlling channels and recorders is being performed.
Which ONE of the following would be the CORRECT controlling channels to choose and the reason why? Channel Selection Reason for Channel Selection A. 455/456 Defeat input to the Reactor Protection System. B. 455/456 Swap to operable control channel inputs. C. 455/458 Defeat input to the Reactor Protection System. D. 455/458 Swap to operable control channel inputs. Pag e: 26 of 75 6/2212009
- 27. Given the following:
-CNMT H2 concentration has remained>
4% following a LOCA. -An SO has been dispatched for local operation of 1-150B-U4-012, "POST LOCA PURGE CTB ISO VALVE". In accordance with SOP 13130-1, Post-Accident Hydrogen Control" , to protect the SO from radiation exposure, which one of the following correctly describes: The proper sequence of actions and the location where the SO will manipulate the local valve? A. First action -UO opens the Post LOCA valves on HVAC panel. Next action -SO opens the valve on the Equipment Building roof. B. First action -UO opens the Post LOCA valves on HVAC panel. Next action -SO opens the valve in the Equipment Building ground level. C. First action -SO opens the valve on the Equipment Building roof. Next action -UO opens the Post LOCA valves on HVAC panel. D. First action -SO opens the valve in the Equipment Building ground level. Next action -UO opens the Post LOCA valves on HVAC panel. Page: 27 of 7S 6/22/2009
- 28. Given the following conditions
- -Both Reactor Tr i p Breaker red lights are illuminated. -Both Reactor Trip Breaker green lights are extinguished.
-The OATC momentarily places the reactor trip handswitch in the TRIP position and Reactor Trip Breaker indications DO NOT CHANGE. Which of the following choices describes the actions that should have occurred when the OATC placed the handswitch to TRIP? A. The Undervoltage coils energized.
The Shunt coils energized.
B. The Undervoltage coils de-energized. The Shunt coils energized. C. The Undervoltage coils energized.
The Shunt coils de-energized. D. The Undervoltage coils de-energized.
The Shunt coils de-energized. Pa g e: 28 of 75 6/22/2009
- 29. Given the following:
-The unit is at 100% power. -CNMT pressure is 0.2 psig. -CNMT Mini-Purge is in service for respirable air quality control. -A Safety Injection occurs. Which one of the following is correct regarding the Containment Purge System damper status prior to the SI and the signal that will close the dampers? A. Only the Mini-Purge exhaust dampers were open. The dampers would receive a direct auto close signal from CIA. B. Only the Mini-Purge exhaust dampers were open. The dampers would receive a direct auto close signal from CVI. C. The Mini-Purge exhaust and supply dampers were open. The dampers would receive a direct auto close signal from CIA. D. The Mini-Purge exhaust and supply dampers were open. The dampers would receive a direct auto close signal from CVI. Page: 29 of 75 6/22/2009
- 30. Given the following conditions
- -Unit 1 core reload is in progress.
-Source Ranges N-31 and N-32 are reading significantly different.
-I & C determines the power supply for detector N-31 has failed high. -N-32 is selected for Audio Count Rate in Containment and Control Room. Due to this power supply failure , N-31 is reading, ___ ,(a), __ than it should. The Operator At The Controls is (b), __ A. (a) lower (b) required to suspend core alterations B. (a) lower (b) not required to suspend core alterations C. (b) higher (b) required to suspend core alterations D. (b) higher (b) not required to suspend core alterations Page: 30 of 75 6122/2009
- 31. Unit 2 Refueling Outage is in progress:
-Fuel shuffle is in progress in the Spent Fuel Pool (SFP) with the gate to the Containment currently closed. -SPENT FUEL PIT LOW LEVEL annunciator illuminates in Control Room. -SFP level lowers to 22 feet 10 inches above the fuel due to a leak -The SS has directed a makeup to the SFP in accordance with SOP-13719-2 , "Spent Fuel Pool Cooling and Purification System". Which ONE of the following describes whether SFP level is above or below the Tech Spec limit , and the source of makeup for this condition , in accordance with SOP-13719-2.
SFP level is ... A. BELOW the minimum required by Technical Specifications. Makeup from the Demin Water Storage Tank (DWST). B. BELOW the minimum required by Technical Specifications.
Makeup from the Refueling Water Storage Tank (RWST). C. ABOVE the minimum required by Technical Specifications.
Makeup from the Demin Water Storage Tank (DWST). D. ABOVE the minimum required by Technical Specifications. Makeup from the Refueling Water Storage Tank (RWST). P age: 31 of 7 5 6/2 21 2009
- 32. Given the following:
-The unit is at 100% power. -Loop # 3 Inboard MSIV (HV-3016A) goes fully closed. Given this condition AND before manual or automatic operation of any other system. -Loop # 2 SG steam FLOW would (a) and -Loop # 3 SG LEVEL initially would rapidly (b), __ A. (a) rise (b) rise B. (a) rise (b) lower C. (a) lower (b) rise D. (a) lower (b) lower Page: 32 of 75 6/22/2009
- 33. Which one of the following choices for the SG code safeties: (a) lists all the correct lift setpoints (psig), and (b) describes the technical specification bases for these valves? A. (a) 1185,1200,1210,1220,1235. (b) limits secondary pressure to :: 110% design pressure during a full power turbine trip without steam dump. B. (a) 1185, 1200, 1215 , 1225 , 1235. (b) limits secondary pressure to:: 110% design pressure during a full power turbine trip without steam dump. C. (a) 1185,1200,1210,1220,1235. (b) provide an alternate method for cooling the unit to RHR entry conditions whenever the preferred heat sink via the steam dumps to the condenser is unavailable. D. (a) 1185 , 1200 , 1215, 1225, 1235. (b) provide an alternate method for cooling the unit to RHR entry conditions whenever the preferred heat sink via the steam dumps to the condenser is unavailable.
Page: 33 of 75 6/22/2009
- 34. A rapid power reduction per AOP 18013-C was completed to stabilize condenser vacuum. Rods were inserted below the rod insertion limit (RIL) during the power reduction.
An Emergency Boration is in progress and the OATC is withdrawing rods to restore rods above the RIL. Which ONE of the following is CORRECT regarding: a) whether SS permission is required for Control Rod insertion during the down power? and b) when Emergency Boration may be terminated?
Control Rod Insertion Emergency Boration Termination A. SS permission is NOT required. When Rod Bank LO Limit alarm clears. B. SS permission is NOT required.
When Rod Bank LO-LO Limit alarm clears. C. SS permission IS required.
When Rod Bank LO Limit alarm clears. D. SS permission IS r equired. Bank LO-LO Limit alarm clears. P age: 34 of 7 S 6/22/200 9
- 35. Given the following:
-At 1330 hours0.0154 days <br />0.369 hours <br />0.0022 weeks <br />5.06065e-4 months <br /> a Loss of All AC Power occurred.
-Restoration of AC power is not anticipated until 1730 hours0.02 days <br />0.481 hours <br />0.00286 weeks <br />6.58265e-4 months <br />. Which ONE of the following describes the CORRECT action required by 19100-C, "Loss of All AC Power" as 1 E bus battery voltage decays over time and why? A. When voltage < 105 VDC, open the battery breaker after its inverters are shutdown.
To prevent damaging the battery cells due to cell reversal.
B. When voltage < 120 VDC, open the battery breaker after its inverters are shutdown.
To prevent damaging the battery cells due to cell reversal.
C. When voltage < 105 VDC, open the battery breaker after its inverters are shutdown.
To prevent a possible explosion due to excessive hydrogen production.
D. When voltage < 120 VDC, open the battery breaker after its inverters are shutdown.
To prevent a possible explosion due to excessive hydrogen production.
Page: 35 of 75 6/22/2009
- 36. Given the following:
-The unit is at 100% power. -The loop seal between stages on the in-service SJAE has been lost. Which ONE of the following is CORRECT regarding the effect of losing the SJAE loop seal on Main Condenser pressure and Main Turbine MW Output? Main Condenser Pressure (psia) Main Turbine MW Output A. Rises Rises B. Lowers Rises C. Rises Lowers D. Lowers Lowers Page: 36 of 75 6/22/2009
- 37. Initial Conditions:
-Safety Injection occurs due to an RCS LOCA -Train "A" SI has been reset -Train "8" SI is still actuated -80th SI pumps are injecting Current conditions: -A loss of both RATs occurs -80th DG's re-energize their respective busses Which ONE of the following would be CORRECT regarding the SI pumps flow and amp responses?
A. SIP "A" -flow and amps lower, then return to previous values automatically.
SIP "8" -flow and amps lower , then return to previous values automatically.
- 8. SIP "A" -flow and amps lower, then have to be manually restored.
SIP "8" -flow and amps lower, then have to be manually restored.
C. SIP "A" -flow and amps lower, then return to previous values automatically. SIP "8" -flow and amps lower, then have to be manually restored.
D. SIP "A" -flow and amps lower, then have to be manually restored.
SIP "8" -flow and amps lower, then return to previous values automatically.
Page: 37 of 75 6/22/2009
- 38. Given the following: -The Unit is at 70% power. -VCT level is at 46%. -A loss of a 120VAC Essential bus has occurred.
-VCT auto makeup immediately starts on the bus failure. Which ONE of the following CORRECTLY describes
... a) The VCT level channel failure. b) The effects on VCT auto swapover capability.
A. a) L T-112 (VCT level) fails LOW. b) VCT auto swapover will occur on actual VCT 10-10 level. B. a) L T-185 (VCT level) fails LOW. b) VCT auto swapover will occur on actual VCT 10-10 level. C. a) L T-112 (VCT level) fails HIGH. b) VCT auto swapover will NOT occur on actual VCT 10-10 level. D. a) L T-185 (VCT Level) fa i ls HIGH. b) VCT auto swapover will NOT occur on actual VCT 10-10 level. Pag e: 38 of 75 6/22/2009
- 39. The plant is 100% power, all systems in normal alignment.
-ALB04, window D04 for BAT CHARGERS 1 CD1 CA 1 CD1 CB TROUBLE illuminates. -1 CD1 B battery amperage reading is 0 amps -Channel III TSLB status lights are extinguished.
Which ONE of the following is CORRECT regarding the 125V DC bus 1 CD1 status? A. One battery charger tripped B. Both battery chargers tripped C. Both battery chargers tripped D. One battery charger tripped the battery is supplying 1CD1 the battery is supplying 1 CD1 1 CD1 is completely de-energized 1 CD1 is supplied by the other charger P a g e: 39 of 75 6/22/2009
- 40. Given the following:
-The unit is at 90% power. -All Main Feedwater (MFW) system controls in AUTO. -A low failure of PT-508 (Feedwater Header Pressure) occurs. Both MFPT speeds should (a) due to the (b) A. (a) raise (b) lower indicated delta P B. (a) raise (b) higher indicated delta P c. (a) lower (b) lower indicated delta P D. (a) lower (b) higher indicated delta P Page: 40 of 75 6/22/2009
- 41. Initial conditions:
-MFPT "A" is operating.
-MFPT "8" is tripped. -All SG levels are stable, AFW flows to all SG's are -225 gpm -The following annunciator window is extinguished.
-AL816, window F05 "AFW AUTO START MFPT TRIP RL Y CNTL PWR LOSS" Current conditions:
-The UO manually trips MFPT "A". Which ONE of the following is the CORRECT plant response and actions to take? A. AFW flows remain as is, SG levels remain stable. Reset MFPT "A", restart MFPT "A". B. AFW flows remain as is, SG levels remain stable. Reset MFPT "8", startup MFPT "8". C. AFW flows increase, SG levels begin to rise. Throttle AFW valves closed before they fully open. D. AFW flows increase, SG levels begin to rise. Allow AFW valves to stroke fully open, then throttle.
Page: 41 of 75 6/2212009
- 42. The unit is at 100% power when a Reserve Auxiliary Transforme r (RAT) switcher trips open. Reactor power rises above 100%. Auxiliary Feedwater flow indications are: -SG # 1 -650 gpm SG # 2 -350 gpm SG # 3 -350 gpm SG # 4 -650 gpm The sequence of actions the UO should take in AOP-18031 , "Loss of Class 1 E Electrical Systems" is to ... A. Reduce Turbine load to reduce Reactor power to 100%. Then throttle TDAFW speed and MDAFW pump "A" discharge valves. 8. Reduce Turbine load to reduce Reactor power to 100%. Then throttle TDAFW speed and MDAFW pump "8" discharge valves. C. Throttle TDAFW speed and MDAFW pump "A" discharge valves. Then reduce Turbine load to reduce Reactor power to 100%. D. Throttle TDAFW speed and MDAFW pump "8" discharge valves. Then reduce Turbine load to reduce Reactor power to 100%. Page: 42 of 75 6/22/2009
- 43. Given the following: -Loss of All AC power occurs , 191 OO-C , "Loss of All AC Power" is in effect. -Power is restored to AA02 via DG1A. Which ONE of the following is the CORRECT action regarding restoration of the NSCW system to service? A. Verify NSCW discharge valves go closed to prevent water hammer. Manually start 2 pumps. B. Verify NSCW discharge valves go closed to prevent water hammer. Verify 2 pumps start automatically.
C. Verify NSCW discharge valves are open to prevent high starting currents.
Manually start 2 pumps. D. Verify NSCW discharge valves are open to prevent high starting currents Verify 2 pumps start automatically. Page: 43 of 75 6/22/2009
- 44. The "Maintenance I Normal" switch located on the QEAB for a 4160V AC bus has been placed in the "Maintenance" position to support bus inspection.
When placed in the "Maintenance" position, this switch ... A. bypasses the time delay on the overcurrent trips on the bus supply breakers.
B. bypasses the time delay on the overcurrent trips on the bus load breakers. C. bypasses the instantaneous overcurrent trips on the bus supply breakers.
D. bypasses the instantaneous overcurrent trips on the bus load breakers.
Page: 44 of 75 6/22/2009
- 45. The plant is in Mode 3 controlling Tave with the ARVs when 125V DC panel1AD1 de-energizes due to a ground fault. Loop 4 ARV was -10% open. Regarding operation of the ARV, list: (a) the failure mode on loss of DC power, and (b) where the ARV can be operated.
A. (a) as is (b) locally using the hand pump station B. (a) as is (b) from Shutdown Panel A C. (a) closed (b) locally using the hand pump station D. (a) closed (b) from Shutdown Panel A Page: 45 of 75 6/2212009
- 46. The plant is in Mode 1. A leak has developed in the DG1A Fuel Oil Storage Tank (FaST). The FaST level decrease is noted by the following times. -at 1730 level is 90.9% (78,200 gallons) -at 1745 level is 86.9% (74,800 gallons) -at 1800 level is 82.9% (71,350 gallons) -at 1815 level is 78.9% (67,900 gallons) -at 1830 level is 74.9% (64,500 gallons) Which ONE of the following is the EARLIEST discovery time that DG1A is inoperable in accordance with Technical Specifications?
A. 1745 B. 1800 C. 1815 D. 1830 Page: 46 of 75 6/22/2009
- 47. Given the following initial conditions
- -The unit is at 340 o F , RCS cooldown in progress. -RHR Train A is in the shutdown cooling mode. -A loss of instrument air occurs. -The RHR system AOVs all go to the failure mode for loss of air. Current conditions:
-Instrument air has been restored.
-No Control Room or local actions have been performed for RHR. Which ONE of the following is CORRECT regarding: -RCS cool down rate response after instrument air is restored.
-RHR system flow rate response after instrument air is restored.
A. B. C. D. RCS cooldown rate raises raises lowers lowers RHR system flow rate raises lowers raises lowers Page: 47 of75 6/22/2009
- 48. Unit 1 Control Room has been evacuated due to a fire. -18038-1 , "Operation From Remote Shutdown Panels" is in effect. -Two ARVs have been placed in the "Fire Emergency" mode of operation.
Which ONE of the following are the fire event qualified ARVs and the method to control RCS temperature in the Fire Emergency mode? A. ARVs # 1 and # 4 are fire event qualified. Using the auto-manual controllers located on the front of the shutdown panels. B. ARVs # 2 and # 3 are fire event qualified.
Us i ng the auto-manual controllers located on the front of the shutdown panels. C. ARVs # 1 and # 4 are fire event qualified. Using a 4 to 20 mA current source connected with banana jacks inside the panels. D. ARVs # 2 and # 3 are fire event qualified. Using a 4 to 20 mA current source connected with banana jacks inside the panels. P a ge: 4 8 of 75 6/22/2 00 9
- 49. A gaseous release is in progress in accordance with SOP-13202 , "Gaseous Releases".
Considering the following events which occur during the release, determine if the release would be allowed to continue or require termination for each of the following: a) A-RE-0014 Radiation Monitor fails low b) precipitation (rain, snow, sleet, etc.) is occuring.
A. a) terminate the release. b) terminate the release. B. a) terminate the release. b) continue the release. C. a) continue the release. b) terminate the release. D. a) continue the release. b) continue the release. Page: 49 of 7S 6/2212009
- 50. Given the following: -A rapid power reduction
(> 15% in 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />) is in progress to comply with the actions of AOP-18009-C, a "Steam Generator Tube Leakage". -Radiation is indicated on RE-0724 Steam Line monitor. Which ONE of the following is CORRECT regarding:
-when RE-0724 would indicate a Steam Generator Tube leak -the source of radiation detected.
A. only when the reactor is at power. N-16 B. only when the reactor is at power. 1-131 C. any time the SJAE is in service. N-16 D. any time the SJAE is in service. 1-131 Page: 50 of 75 6/22/2009
- 51. Given the following:
-The plant is at 100% power. -NSCW Train B tagged out for repair. -NSCW Train A pump # 3 trips. -NSCW Train A pump # 5 cannot be started. -AOP-18021-C, "Loss of Nuclear Service Cooling Water" has been entered. -No other operator actions have been taken. Which ONE of the following is the CORRECT crew action(s)?
A. Place all Train A NSCW pumps in PTL, Emergency Trip DG1A. Shutdown to Mode 3 per UOP-12004-C, "Power Operations" within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />. B. Place all Train A NSCW pumps in PTL, Emergency Trip DG1A. Trip the Reactor and go to E-O, align NSCW Train A for single pump operations.
C. Allow NSCW Pump # 1 to continue running, DG1A should be left in AUTO. Shutdown to Mode 3 per UOP-12004-C, "Power Operations" within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />. D. Allow NSCW Pump # 1 to continue running, DG1A should be left in AUTO. Trip the Reactor and go to E-O, align NSCW Train A for single pump operations.
Page: 51 of 75 6/22/2009
- 52. The plant is at 100% power. -RHR pump A is running for an 1ST surveillance.
-CCP "A" is running. The following annunciator illuminates on the QMCB. -NSCW TRAIN A LO HDR PRESS -Various other Train A NSCW low flow annunciators illuminate.
Approximately 10 seconds later the UO notes the following: -3 NSCW pumps on Train A red lights are illuminated.
-NSCW Train A return flow is 0 gpm. -NSCW Train A supply flow is significantly higher than 17,500 gpm. Which ONE of the following is the CORRECT initiating event and next action to take? Initiating Event A. Pump sheared shaft B. Catastrophic break C. Catastrophic break D. Pump sheared shaft Next action Stop one of the running Train A NSCW pumps. Place all NSCW Train A pump handwitches in PTL. Stop RHR pump A and CCP A, then isolate letdown. Verify the 3rd Train A NSCW pump discharge valve opens. Page: 52 of 75 , 6/2212009
- 53. Following a controlled unit shutdown for a refueling outage , degassification of the RCS is in progress via chemical addition.
Shortly following the chemical addition, a crud burst occurs as expected.
Which ONE of the following radiation monitors would be expected to alarm? A. RE-0005, Containment
-High Range B. RE-0007A, Rad Chern Lab C. RE-00011 , Seal Table Room D. RE-48000, CVCS Letdown Page: 53 of 75 6/22/2009
- 54. Given the following initial conditions:
-The unit is at 100% power. -DG1A is paralleled to the grid for surveillance testing at 6500 kW. Current condtions:
-AOP-18017-C, "Abnormal Grid Disturbances/Loss of Grid" section A has been entered. -Grid frequency has lowered below 60 Hz. Which ONE of the following would be CORRECT regarding
-the initial conditions of the DG. -the effects of the abnormal grid disturbance on the DG. A. DG speed is used to adjust kW. The governor would throttle open on the fuel racks to attempt to raise DG speed. B. DG speed is used to adjust kW. The governor would throttle closed on the fuel racks to attempt to lower DG speed. C. DG speed is used adjust kVARS. The governor would throttle open on the fuel racks to attempt to raise DG speed. D. DG speed is used adjust kVARS. The governor would throttle closed on the fuel racks to attempt to lower DG speed. Page: 54 of 75 6/22/2009
- 55. Given the following:
-Unit 1 is at 100% power. -Air compressor
- 4 is tagged out. -An LOSP results in de-energization of 2 of the 3 remaining compressors. -A slow decrease in air header pressure has occurred.
-Power has now been restored to the 2 previously de-energized compressors. -Instrument Air Header pressure dropped as low as 82 psig. -Instrument Air Header pressure is now 97 psig and slowly rising. Which ONE of the following is CORRECT regarding the current status of the Instrument Air system? A. PV-9375, Service Air Isolation valve is OPEN. All 3 available air compressors are running. B. PV-9375 , Service Air Isolation valve is OPEN. 2 of 3 available air compressors are running. C. PV-9375, Service Air Isolation valve is CLOSED. All 3 available air compressors are running. D. PV-9375, Service Air Isolation valve is CLOSED. 2 of 3 available air compressors are running. Page: 55 of 75 6/22/2009
- 56. Given the following: -Unit 1 at 25% power, Unit 2 at 100% power. -The only two available air compressors on each unit are running (4 total). -Air compressor
- 4 is aligned to Unit 2. Unit 1 has the following indications:
-SERVICE AIR LO PRESS annunciator lit. -QMCB Service Air Pressure meter -0 psig -QMCB Instrument Air Pressure meter -72 psig and lowering.
Annunciator window INST AIR EQUIP LO PRESS illuminates several minutes later. Which ONE of the following is the CORRECT action the operators should perform in response to the annunciator?
A. Align the swing air compressor from Unit 2 to Unit 1. B. Open the cross tie valve to supply Unit 1 air header from Unit 2. C. Trip the Unit 1 Turbine and isolate Turbine Building Instrument Ai r. D. Trip the Unit 1 Reactor and enter E-O while taking actions to restore air pressure. Page: 56 of 75 6/22/2009
- 57. Given the following:
-The fire alarm computer goes into alarm. -The Outside Area Operator reports a fire on RAT "A" You note the following on the QPCP. -Pressure gauge "Fire Pump CPI -7918" pressure lowers to 92 psig, then recovers.
Which ONE of the following is CORRECT regarding how many fire pumps are running and WHERE this can be determined?
A. ONLY the Motor Driven Fire pump is running. QPCP and local observation. B. ONLY the Motor Driven Fire pump is running. Local observation ONLY. C. The Motor Driven pump and one Diesel Fire pump are running. QPCP and local observation.
D. The Motor Driven pump and one Diesel Fire pump are running. Local observation ONLY. P a ge: 57 of 75 6/22/2009
- 58. Given the following:
-The unit is at full power. -A small air leak inside Containment is causing a slow rise in Containment pressure. -Containment pressure is currently reading 1.9 psig. Containment pressure is (a), __ _ To relieve Containment pressure, flow must pass through a restrictive orifice until containment pressure is (b) , then the normal flow path may be aligned. A. (a) within Technical Specification LCO limits. (b) less than +0.3 psig B. (a) within Technical Specification LCO limits. (b) less than -0.3 psig C. (a) in violation of Technical Specification LCO limits. (b) less than +0.3 psig D. (a) in violation of Technical Specification LCO limits. (b) less than -0.3 psig Page: 58 of 75 6/22/2009
- 59. Given the following conditions. -The OATC has manually actuated Containment Spray using, __ (a). __ on 1 of 2 QMCB locations.
-As a result of the manual action, the annunciator window(s) for (b), __ should illuminate.
A. (a) 1 of 2 handswitChes (b) CNMT SPRAY ACTUATION only B. (a) 2 of 2 handswitches (b) CNMT SPRAY ACTUATION only C. (a) 1 of 2 handswitches (b) both CNMT SPRAY ACTUATION and CNMT VENT ISO ACTUATION D. (a) 2 of 2 handswitches (b) both CNMT SPRAY ACTUATION and CNMT VENT ISO ACTUATION Page: 59 of 75 6/2212009
- 60. Given the following:
-Control Room is being evacuated due to a fire. The OATC (RO) should report to Remote Shutdown Panel ____ _ In accordance with 18038-1/2, "Operation From Remote Shutdown Panels" the preferred method of communications to co-ordinate in plant activities with personnel outside the control room is via ____ _ A. IIA" , sound powered phones plugged into dedicated channels (red jacks). B. 118 11 , bridge network phone extension
- 3145 using codes # 123 or # 234. C. "A" , bridge network phone extension
- 3145 using codes # 123 or # 234. D. "8" , sound powered phones plugged into dedicated channels (red jacks). Page: 60 of 75 6/22/2009
- 61. You are performing a lineup verification for valves in various positions:
Which ONE of the following is CORRECT performance of the lineup verification in accordance with NMP-OS-002 , "Verification Policy"? A. A valve is required to be closed. Turn valve slightly in the open direction , using reasonable force, reclose the valve. B. A valve is required to be throttled 2 turns open. Turn valve in closed direction , count turns to ensure correct, re-open valve 2 turns. c. A valve is found not in the required lineup position. Align valve in the required position, notify the SS once the valve is properly al i gned. D. A valve position cannot be determined by local observation. Leave valve as is , use remote handswitch light indications to verify valve position.
P age: 61 of 75 6/22/2009
- 62. Given the following:
-Control Room has been evacuated.
-An LOSP has occurred. -The crew is preparing to close a DG1A output breaker (1AA02-19).
Which ONE of the following is CORRECT regarding where and how the DG output breaker is closed? A. At Remote Shutdown Panel A. Take local control of the DG output breaker, then close the breaker handswitch.
B. On the front of DG1A Generator panel. Take the handswitch located on the front of DG1A Generator panel to close. C. At the 4160V 1 E Switchgear local control panel (1 AA02-00).
Take local control of the DG output breaker, then close the breaker handswitch. D. On the front of the DG output breaker at 4160V 1 E Switchgear 1 AA02. Take the handswitch located on the front of the DG output breaker to close. Page: 62 of 75 6/22/2009
- 63. Which one of the following describes the meaning of an OPERATING PERMIT TAG hanging on a component as described in NMP-AD-003 , Equipment Clearance and Tagging? A.
- The component position can NOT be changed until the tag is cleared.
- The component is under the control of a Tagout Holder. B.
- The component position can NOT be changed until the tag is cleared.
- The component has been designated as an isolation boundary for personnel safety. C .* The component position can ONLY be changed with permission of the Tagout Holder.
- The component is under the control of a Tagout Holder. D .* The component position can ONLY be changed with permission of the Tagout Holder.
- The component has been designated as an isolation boundary for personnel safety. Page: 63 of 75 6/22/2009
- 64. Given the following: -Reactor power is 30% -A reactor shutdown is in progress -A high failure of IR NIS channel N-36 occurs Which ONE of the following is CORRECT regarding the effects of this failure as reactor shutdown progresses?
Power < P-10 Power < P-6 A. Reactor trip occurs SR High flux trip automatically unblocks B. Reactor trip occurs SR High flux trip must be manually unblocked
- c. Reactor does NOT trip SR High flux trip automatically unblocks D. Reactor does NOT trip SR High flux trip must be manually unblocked Pag e: 64 of 75 6/22/2009
- 65. Given the following: -Waste Monitor Tank (WMT) # 9 release is in progress.
-The control room HIGH RADIATION annunciator illuminates. RE-0018 , Liquid Waste Effluent radiation monitor , has failed high. -WMT 9 discharge flow transmitter , FT-1085A, indicates 35 gpm. Per ARP 17213-1 for the PLPP annunciator window for WATER DISCH LINE HI RAD , the Au x iliary Building SO should ... A. fail air to RV-0018. OR close manual discharge valves to the environment.
B. fa i l air to RV-0018. OR using the local manual handwheel , close RV-0018. C. close RV-0018 locally on the PLPP. OR close manual discharge valves to the environment.
D. close RV-0018 locally on the PLPP. OR using the local manual handwheel , close RV-0018. P age: 65 o f 75 6/2 21 200 9
- 66. Given the following: -The unit is at 100% power. -A containment entry is to be performed per 00303-C, "Containment Entry" for an RCS leak inspection.
The area i nside the bioshield should be posted as a (a), __ Entry into __ (b) __ is prohibited.
A. (a) Very High Radiation Area (Grave Danger) (b) the Preaccess Filter Unit area (260 ft elevation).
B. (a) High Radiation Area (b) the Preaccess Filter Unit area (260 ft elevation).
C. (a) Very High Radiation Area (Grave Danger) (b) The elevator.
D. (a) High Radiation Area (b) The elevator. Page: 66 of 75 6/2212009
- 67. Given the following:
-IPC computer is unavailable , CSFST monitoring must be performed manually. -You are assigned 19200-C, "Critical Safety Function Status Tree" monitoring and are making your first pass through the CSFSTs. Critical Safety Function Status Trees indicate the following:
-Subcriticality
-Core Cooling -Heat Sink -Integrity
-Containment
-Inventory GREEN ORANGE Not performed yet Not performed yet Not performed yet Not performed yet Which ONE of the following describes the: (a) proper performance of CSFST monitoring on the first pass through. (b) your responsibilities for CSFST monitoring in accordance with 19200-C and A. (a) Immediately tell the SS to transition to Core Cooling , then continue the first pass through the status trees. (b) Continuous monitoring is required.
B. (a) Complete the first pass through the status trees , then inform the SS to transition to the highest priority FRP. (b) Continuous monitoring is required.
C. (a) Immediately tell the SS to transition to Core Cooling , then continue the first pass through the status trees. (b) Monitor every 10 to 15 minutes unless a change in status occurs. D. (a) Complete the first pass through the status trees, then inform the SS to transition to the highest priority FRP. (b) Monitor every 10 to 15 minutes unless a change in status occurs. Page: 67 of 75 6/22/2009
- 68. Given the following:
-Control Room has been evacuated due to a fire. -AOP-18038-1 , "Operation From Remote Shutdown Panels" is in effect. -The operators have just aligned components per Attachment I, "Control Switch Required Positions". Attachment I is performed at __ (a), __ in order to align __ (b) __ A. (a) both Remote Shutdown Panels (b) Fire event qualified equipment to prevent spurious actuations.
- 8. (a) both Remote Shutdown Panels (b) switches with maintained contacts to prevent changing status on transfer.
C. (a) Remote Shutdown Panel "8" only (b) Fire event qualified equipment to prevent spurious actuations. D. (a) Remote Shutdown Panel "8" only (b) switches with maintained contacts to prevent changing status on transfer. Page: 68 of 75 6/2212 00 9
- 69. The Emergency Director (ED) has directed you to perform an ENN roll call in accordance with 91 002-C , "Emergency Notifications", checklist 4 "Directions fo r ENN Communicators". . -Burke County and State of Georgia have failed to respond to the initial roll call. Which ONE of the following is the CORRECT actions to perform? A. Transmit the notification message to the agencies that responded, inform the ED that two agencies couldn't be notified.
Southern Linc would be the next priority to establish communications.
B. Transmit the notification message to the agencies that responded, inform the ED that two agencies couldn't be notified. The Back-up ENN Bridge would be ne x t priority to establish communications.
C. Promptly notify the ED of the agencies that failed to respond to the initial roll call. Southern Linc would be the next priority to establish communications. D. Promptly notify the ED of the agencies that failed to respond to the initial roll call. The Back-up ENN Bridge would be ne x t priority to establish communications.
Page: 69 of 75 6/22 12 009
- 70. Given the following plant conditions
- -The Reactor has tripped and Safety Injection has actuated. -19012-C , "Post LOCA Cooldown and Depressurization" is in progress. -The crew is performing an RCS cooldown in accordance with the procedure.
The following is a plot of the cooldown:
Time RCS Tcold Time RCS Tcold 1400 549°F 1545 427°F 1415 532°F 1600 397 0 F 1430 522 0 F 1615 384 0 F 1445 507°F 1630 366 0 F 1500 500 0 F 1645 342°F 1515 480 0 F 1700 312 0 F 1530 449°F 1715 282°F Which ONE of the following is CORRECT regarding the Tech Spec cooldown limits? A. The crew is in compliance with Tech Spec cooldown limits. B. The Tech Spec cooldown limits were first exceeded at 1530. C. The Tech Spec cooldown limits were first e x ceeded at 1600. D. The Tech Spec cool down limits were first exceeded at 1715. P age: 7 0 o f 75 6/2212009
- 71. Which ONE of the following are components I parameters for a potential source of RCS leakage that are specifically checked for in 19112-C , "LOCA Outside Containment" and the main concern if this flow path is not isolable?
A. Safety Injection pump Cold Leg injection valves and RHUT level. Loss of emergency coolant recirculation due to rupture of low pressure piping. B. Safety Injection pump Cold Leg injection valves and RHUT level. Unmonitored radioactive release to environment via the Auxiliary Building HVAC. C. RHR pump Cold Leg injection valves and Reactor Coolant System pressure.
Loss of emergency coolant recirculation due to rupture of low pressure piping. D. RHR pump Cold Leg injection valves and Reactor Coolant System pressure.
Unmonitored radioactive release to environment via the Auxiliary Building HVAC. Page: 71 of 75 6122/2009
- 73. Initial conditions
- -Core Cooling CSFST is ORANGE. -19222-C , "FRP-C.2 Degraded Core Cooling" has been implemented.
-Steam Generator depressurization to 200 psig per 19222-C is in progress. Current conditions:
-RCS Integrity CSFST RED status has been validated.
-The CSFST status tree path points to 19241-C, "Response to Imminent Pressurized Thermal Shock (PTS). -The SS continues with the actions of 19222-C. Which ONE of the following is CORRECT regarding the SS decision during performance of this procedure?
A. The RED condition on Integrity is expected due to the SI accumulators injecting causing rapid lowering of cold leg temperatures, the SS should complete 19222-C. B. Transitions from FRPs cannot be made until completed or procedurally directed.
C. Transitions to other procedures is prohibited until ECCS termination criteria is met. D. The RED condition on Integrity is expected due to the SI accumulators injecting, causing a rapid rise in RCS pressure, the SS should complete 19222-C. P a ge: 7 3 of 7 5 6/22/2009
- 74. Given the following:
-19241-C, "Pressurized Thermal Shock (PTS)", is in effect. -An RCS temperature instrument failure occurs. -The OATC places both trains of COPS to the ARM position without noticing the instrument failure. -PORV-455 opens. The temperature instrument which failed is a ... A. NR Thot B. WR Thot C. NR Tcold D. WRTcoid Page: 74 of 75 6122/2009
- 75. Given the following:
-Reactor trip with LOSP in progress.
-The SS has directed the crew to perform a natural circulation cooldown using one of the two following procedures.
-19002-C , "Natural Circulation Cooldown" OR -19003-C , "Natural Circulation Cooldown With Void In Vessel (With RVLlS)" Which ONE of the following is CORRECT regarding cooldown rate, the procedure to utilize, and why? A. If a coo l down rate of 50 0 F per hour is preferred, use 19002-C. A lower cooldown rate will help prevent reactor vessel head void fo r mation. B. If a cooldown rate of 50 0 F per hour is preferred, use 19003-C. A lower cooldown rate will help prevent reactor vessel head void formation. C. If a cooldown rate of 100 0 F per hour is preferred, use 19002-C. A higher cooldown rate will help prevent reactor vessel head void formation.
D. If a cooldown rate of 100 0 F per hour is preferred, use 19003-C. A higher cooldown rate will help prevent reactor vessel head void formation.
Page: 75 of 75 6/2212009