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{{#Wiki_filter:FACILITY POST-EXAMINATION COMMENTS FOR THE KEWAUNEE INITIAL EXAMINATION | {{#Wiki_filter:FACILITY POST-EXAMINATION COMMENTS | ||
W 54215-951 I Regional Administrator, Region 111 | - | ||
RO Docket No. 50-305 Suite 210 Lisle, IL 60532-4352 NOV 2 4 2005 | FOR THE KEWAUNEE INITIAL EXAMINATION NOVEMBER 2005 | ||
Forms ES-201-3, | |||
A review was conducted of the RO/SRO written examination administered Friday, November 18, 2005, at the Kewaunee Power Station. The review identified errors in two questions that were not identified prior to exam administration. | Dominion Energy Kmaunee, Inc. | ||
The following is being requested: | N4N Highway 42, Kewauncc. W 54215-951 I Dominion Regional Administrator, Region 111 Serial No. 05-815 U S . Nuclear Regulatory Commission KPS/LIC/MJH: RO 2443 Warrenville Road Docket No. 50-305 Suite 210 License No. DPR-43 Lisle, IL 60532-4352 NOV 2 4 2005 ATTENTION: Mr. Bruce Palagi, R-III/DRS OOMlNfON ENERGY KEWAUNEE, INC. | ||
KEWAUNEE POWER STATION OPERATOR LICENSE EXAMINATION In accordance with the requirements of NUREG-1021, ES-501, the required post-examination material and the written examination facility comments are enclosed. | |||
Very truly yours, m&. Michael . aff v Site Vice | Forms ES-201-3, Examination Security Agreement, will be forwarded to you as soon as the required signatures are obtained. | ||
NONE cc: Without enclosures Mr. S. C. Burton NRC Senior Resident Inspector Kewaunee Power Station Serial No. 05-815 Operator License Examination Dominion Energi Kcwaunee, Inc. N490 Highway 42. Kcwaoncc, W 54216-951 I DEC | A review was conducted of the RO/SRO written examination administered Friday, November 18, 2005, at the Kewaunee Power Station. The review identified errors in two questions that were not identified prior to exam administration. The following is being requested: | ||
RO Docket No. 50-305 License No. DPR-43 Attention: Mr. | 1 %n # i SRO Exam # | ||
Bruce Palagi, R-III/DRS DOMINION ENERGY KEWAUNEE, INC. KEWAUNEE POWER STATION OPERATOR LICENSE EXAMINATION - | 1 Comment Supporting Documentation 34 34 Accept two correct answers Enclosures 2,3 Accept the post-exam pen and ink 67 67 Enclosures 4,5 change. The answer remains the same. | ||
Very truly yours, e Power Station Commitments made by this letter: NONE cc: S. C. Burton NRC Senior Resident Inspector Kewaunee Power Station WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05- | We apologize for any inconvenience this may cause. | ||
B. Trip AFW Pump B and go to A-FW-056, Abnormal Auxiliary Feedwater System Operation | Very truly yours, m & . | ||
C. Verify the Auxiliary Lube Oil Pump is running, and go to N-FW-O5B, Auxiliary D. Verify the Auxiliary Lube Oil Pump is running, and go to A-FW-O5B, Abnormal Answer: D Recommendations: | Michael . aff v Site Vice P r e s i d u Kewaunee Power Station Enclosures Commitments made by this letter: NONE cc: Without enclosures Mr. S. C. Burton NRC Senior Resident Inspector Kewaunee Power Station Serial No. 05-815 Operator License Examination | ||
Accept both | |||
The premise states, | Dominion Energi Kcwaunee, Inc. | ||
AFW Pump B Aux Lube Oil Pump starts at the same setpoint as when this alarm actuates | N490 Highway 42.Kcwaoncc, W 54216-951 I Dominion DEC I 5 2005 Regional Administrator, Region 111 Serial No. 05-815A U. S. Nuclear Regulatory Commission KPS/LIC/GR: RO 2443 Warrenville Road Docket No. 50-305 Suite 210 License No. DPR-43 Lisle, IL 60532-4352 Attention: Mr. Bruce Palagi, R-III/DRS DOMINION ENERGY KEWAUNEE, INC. | ||
(< 10 psig). But if lube oil pressure is continuing to drop, the AFW pump will trip at | KEWAUNEE POWER STATION OPERATOR LICENSE EXAMINATION CORRECTION - | ||
It would be prudent to stop the | In a letter dated November 24, 2005, Dominion Energy Kewaunee, Inc. (DEK) submitted post-examination material and the written examination facility comments. | ||
UG-0, | The letter enclosures were marked WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390. On further review, DEK determined that some of the information submitted did not meet the criteria of 10 CFR 2.390. | ||
It is recommended that two answers be accepted, | Therefore, DEK requests that only the student names and the graded examinations be withheld from public disclosure under 10 CFR 2.390. | ||
The bank question will be changed appropriately to solicit only one correct answer. | If you have questions or require additional information, please feel free to contact Mr. | ||
Serial No. 05- | Gerald Riste at 920-388-8424. | ||
C. The release will NOT be automatically isolated, but will be monitored by the Aux. Building Vent radiation monitors R-13 and R-14. D. The release will | Very truly yours, e Power Station Commitments made by this letter: NONE cc: S. C. Burton NRC Senior Resident Inspector Kewaunee Power Station | ||
_NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4. | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05-815 Enclosure 1 OPERATION LICENSE EXAMS WRITTEN EXAMINATION FACILITY COMMENTS KEWAUNEE POWER STATION DOMINION ENERGY KEWAUNEE, INC. | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 | |||
Serial No. 05-815 Operator License Examination Enclosure 1 - page 1 of 2 | |||
: 34. Given the following: | |||
- The plant is at 100% power. | |||
- AFW Pump B is running for a surveillance test in progress. | |||
- Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms. | |||
What is the expected operator response for this condition? | |||
A. Trip AFW Pump B, and go to N-FW-O5B, Auxiliary Feedwater System. | |||
B. Trip AFW Pump B and go to A-FW-056, Abnormal Auxiliary Feedwater System Operation. | |||
C. Verify the Auxiliary Lube Oil Pump is running, and go to N-FW-O5B, Auxiliary Feedwater System. | |||
D. Verify the Auxiliary Lube Oil Pump is running, and go to A-FW-O5B, Abnormal Auxiliary Feedwater System Operation. | |||
Answer: D Recommendations: | |||
Accept both B and D as correct operator actions. | |||
The premise states, Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms, but does not provide additional cuing as to the continuing alarm status. However, without providing indication of what the current oil pressure value and trend is, the operator cannot make a valid decision as to the appropriate action between the two selections mentioned above. AFW Pump B Aux Lube Oil Pump starts at the same setpoint as when this alarm actuates (< 10 psig). But if lube oil pressure is continuing to drop, the AFW pump will trip at I 4 psig lube oil pressure. It would be prudent to stop the A W Pump prior to the lube oil pressure reaching this point if the pressure were continuing to decrease. Without the oil pressure value or trend information, the operator relies on conservative decision making skills and operating judgment as to which action is appropriate. UG-0, Users Guide For Emergency And Abnormal Procedures, section 6.1.2, provides during abnormal conditions, an operator has the authority to take action that is clearly needed based on observed condition. It is recommended that two answers be accepted, 6 and D , for the given conditions. The bank question will be changed appropriately to solicit only one correct answer. | |||
Serial No. 05-815 Operator License Examination Enclosure 1 - page 2 of 2 | |||
: 67. Given the following: | |||
- Waste Gas Decay Tank A is in service. | |||
- The relief valve for that tank, WG-l4A, lifts and fails to reseat. | |||
What is the effect on the plant? | |||
A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank. | |||
B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes. | |||
C. The release will NOT be automatically isolated, but will be monitored by the Aux. | |||
Building Vent radiation monitors R-13 and R-14. | |||
D. The release will _NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4. | |||
Answer: C Recommendations: | Answer: C Recommendations: | ||
A pen and ink correction is required to properly identify the Waste Gas Decay Tank A relief valve. The actual valve nomenclature is WG-13A. The premise identifies the Waste Gas Decay Tank A Relief Valve as WG-14A. The actual valve identifier is WG-13A. | A pen and ink correction is required to properly identify the Waste Gas Decay Tank A relief valve. The actual valve nomenclature is WG-13A. | ||
It is believed that this error does not invalidate the question but should be treated as a typographical error. WG-14A is not the relief valve but has the nomenclature, | The premise identifies the Waste Gas Decay Tank A Relief Valve as WG-14A. The actual valve identifier is WG-13A. It is believed that this error does not invalidate the question but should be treated as a typographical error. WG-14A is not the relief valve but has the nomenclature, WG-14NCV-31209 Waste Gas Tank 1A to Holdup Tanks. | ||
If someone thought the valve in question was other than the Waste Gas Decay Tank Relief, this should have been questioned during this time. Since the valve WG-14A is not a relief valve it does not | During the examination no individual questioned the difference between the valve number and the description provided. If someone thought the valve in question was other than the Waste Gas Decay Tank Relief, this should have been questioned during this time. | ||
Since the valve WG-14A is not a relief valve it does not lift but may fail open. This valve does align the Waste Gas Decay Tank to vent header and provides cover gas for the HUT. It is normally open when the waste gas decay tank is providing the cover gas. | |||
COLLECTED STUDENT EXAM ITEM FEEDBACK | The only limitations on operation per N-GWP-32B are 1) Normally the gas decay tank with the highest pressure (greater than 8 psig and NOT on holdup for decay) should be selected for cover gas; and 2) when the Boric Acid Evaporator is running, the gas decay tank on fill shall not be selected to provide cover gas to the vent header. Also any gas decay tank less than 110 psig may be selected for fill. WG-15 is a regulating valve that maintains the CVCS HUT cover gas pressure. None of the above conditions are affected by the question. Therefore, it is incorrect to assume that the vent header ruptures, releasing the gas. | ||
COLLECTED STUDENT EXAM ITEM FEEDBACK | |||
==SUMMARY== | ==SUMMARY== | ||
AND RESPONSE | AND RESPONSE | ||
: 32. Given the following: -The plant startup is in progress. - Reactor power is 1.4%. - FW-07A & B, S/G Main Feed valves, AND FW-IOA | : 32. Given the following: | ||
& B, S/G Bypass Feed valves, indicate closed. - Feedwater Pump A has just been started. - SG B level begins to slowly rise. | -The plant startup is in progress. | ||
- Reactor power is 1.4%. | |||
- FW-07A & B, S/G Main Feed valves, AND FW-IOA & B, S/G Bypass Feed valves, indicate closed. | |||
- Feedwater Pump A has just been started. | |||
- SG B level begins to slowly rise. | |||
What action is required? | What action is required? | ||
A. Direct the NAO to locally close FW-9B. Feedwater Main Control Valve | A. Direct the NAO to locally close FW-9B. Feedwater Main Control Valve I 9 Bypass Valve Inlet. | ||
C. Close FW-12B. S/G B Feedwater Isolation Valve. D. Stop Feedwater Pump A Answer: C Student Comment: Accept 2 answers: (C) Also if level was near the high level trip @ 67%) stopping the FW Pump is a viable answer to preclude damage to secondary system and turbine. Resolution and Comments There is only one correct answer for the given conditions Based on the given conditions, guiding procedures are N-0-02, Plant Startup From Hot Shutdown to 35% power, and N-FW-OSA, Feedwater System Normal Operation. | B. Cycle FW-IOB, S/G B Bypass, fully open and closed. | ||
Per N-0-02, the initial conditions are SG NR level is maintained between 33% and 50%. The question gives no reason for NOT having this level band established. | C. Close FW-12B. S/G B Feedwater Isolation Valve. | ||
Furthermore, conditions in the premise state that SG B level begins to slowly rise. Thus there is no basis for assuming SG level is near or approaching the SG Feedwater Isolation setpoint of 67%. The correct answer for closing the affected SG Isolation MOV is the result of operational experience and is procedurally directed | D. Stop Feedwater Pump A Answer: C Student Comment: | ||
The NOTE and actions or stcp 4. I .4.j (CAS) are taken immediately after starting a FW Pump. (See attachcd page.) | Accept 2 answers: (C) Also if level was near the high level trip @ 67%)stopping the FW Pump is a viable answer to preclude damage to secondary system and turbine. | ||
No action required. | Resolution and Comments There is only one correct answer for the given conditions Based on the given conditions, guiding procedures are N-0-02, Plant Startup From Hot Shutdown to 35% power, and N-FW-OSA, Feedwater System Normal Operation. Per N-0-02, the initial conditions are SG NR level is maintained between 33% and 50%. The question gives no reason for NOT having this level band established. Furthermore, conditions in the premise state that SG B level begins to slowly rise. Thus there is no basis for assuming SG level is near or approaching the SG Feedwater Isolation setpoint of 67%. | ||
The correct answer for closing the affected SG Isolation MOV is the result of operational experience and is procedurally directed i n N-FN-OSA. The NOTE and actions or stcp 4. I .4.j (CAS) are taken immediately after starting a FW Pump. (See attachcd page.) | |||
No action required. | |||
==References:== | ==References:== | ||
N-0-02, Rev. AR, Initial Condition 3.7 and step 4.22. N-FW-OSA, Rev. AD, steps 4.1.4.i and 4.1.4.J. | N-0-02, Rev. AR, Initial Condition 3.7 and step 4.22. | ||
: 34. Given the following: - | N-FW-OSA, Rev. AD, steps 4.1.4.i and 4.1.4.J. | ||
A. Trip AFW Pump E, and go to N-FW-OSB, Auxiliary Feedwater System. B. Trip AFW Pump B and go to A-FW-OSB, Abnormal Auxiliary Feedwater System Operation. | : 34. Given the following: | ||
C. Verify the Auxiliary Lube Oil Pump is running, and go to N-FW-OSB, Auxiliary Feedwater System. D. Verify the Auxiliary Lube Oil Pump is running, and go to A-FW-OSB. | - T h e plant is at 100% power. | ||
Abnormal Auxiliary Feedwater System Operation. | - AFW Pump B is running for a surveillance test in progress Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms What is the expected operator response for this condition? | ||
Answer: D Student Comment: Per the stem of the question, we are in a surveillance test with Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, ON. With that alarm on steady it raises a question with the Aux Lube Oil System that it is not operating properly. (It auto starts at IO# and cycles off at IS.S#.) With both the shaft-driven lube oil pump and the aux lube oil [pumps] because the alarm is not clearing. | A. Trip AFW Pump E, and go to N-FW-OSB, Auxiliary Feedwater System. | ||
The AFW Pump is being run to support the surveillance procedure, not to rcmove decay heat. Per UG-0 (Rev. F), | B. Trip AFW Pump B and go to A-FW-OSB, Abnormal Auxiliary Feedwater System Operation. | ||
With the annunciator 47061-M not clearing, there is a lube oil problem. Conservative Decision Making, would require we stop the [AFW] pump. | C. Verify the Auxiliary Lube Oil Pump is running, and go to N-FW-OSB, Auxiliary Feedwater System. | ||
My recommendation is to accept answer | D. Verify the Auxiliary Lube Oil Pump is running, and go to A-FW-OSB. Abnormal Auxiliary Feedwater System Operation. | ||
However, without providing indication of what the current oil pressure value and trend is, the operator cannot make a valid decision as to the appropriate action between the two selections mentioned above. B AFW Pump aux lube oil pump starts at the same setpoint as when this alarm actuates | Answer: D Student Comment: | ||
(< 10 psig). But if lube oil pressure is continuing to drop, the AFW pump will trip at E 4 psig lube oil pressure. | Per the stem of the question, we are in a surveillance test with Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, ON. With that alarm on steady it raises a question with the Aux Lube Oil System that it is not operating properly. (It auto starts at IO# and cycles off at IS.S#.) | ||
It would be prudent to stop the AFW Pump prior to the lube oil pressure reaching this point, if the pressure were continuing to decrease It is recommended that two answers be accepted - | With both the shaft-driven lube oil pump and the aux lube oil [pumps] because the alarm is not clearing. The AFW Pump is being run to support the surveillance procedure, not to rcmove decay heat. Per UG-0 (Rev. F), Users Guide For Emergency And Abnormal Procedures, section 6.1.2, during abnormal conditions, an operator has the authority to take action that is clearly needed based on observed condition. With the annunciator 47061-M not clearing, there is a lube oil problem. Conservative Decision Making, would require we stop the [AFW] pump. | ||
My recommendation is to accept answer B as well as D, per the Key Resolution and Comments The student is incorrect in assuming the alarm is in steady. The premise states, Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms, but does not provide additional cuing as to the continuing alarm status. However, without providing indication of what the current oil pressure value and trend is, the operator cannot make a valid decision as to the appropriate action between the two selections mentioned above. B AFW Pump aux lube oil pump starts at the same setpoint as when this alarm actuates (< 10 psig). But if lube oil pressure is continuing to drop, the AFW pump will trip at E 4 psig lube oil pressure. It would be prudent to stop the AFW Pump | |||
prior to the lube oil pressure reaching this point, if the pressure were continuing to decrease It is recommended that two answers be accepted - B and D. | |||
The Evaluation Instruments required change and the question requires change to identify the lube oil pressure value and trend, if D is to be the only correct answer. | |||
==References:== | ==References:== | ||
47061-M Alarm Response Sheet, Rev. A. UG-0 Rev. F, step 6. I .2 A-FW-OSB, Rev. AL, Automatic Actions 3.1 and 3.3; and step 9. | 47061-M Alarm Response Sheet, Rev. A. | ||
: 44. Which of the following situations requires entry into a Technical Specification LCO Action? A. Pressurizer Pressure Transmitter P-429 fails low while at 3810 power, B. Pressurizer level decreases to less than 17% with a reactor startup in progress. | UG-0 Rev. F, step 6. I .2 A-FW-OSB, Rev. AL, Automatic Actions 3.1 and 3.3; and step 9. | ||
C. Pressurizer Backup Heaters energize after a 8% load reduction D. Pressurizer Pressure Transmitter P-449 fails high while on RHR Cooling Answer: A Student Comment: Accept 2 answers. Answer | : 44. Which of the following situations requires entry into a Technical Specification LCO Action? | ||
The ACTION if conditions cannot be met is to MAINTAIN HOT SHUTDOWN. | A. Pressurizer Pressure Transmitter P-429 fails low while at 3810 power, B. Pressurizer level decreases to less than 17% with a reactor startup in progress. | ||
The ACTION must still be entered even if it is already satisfied. | C. Pressurizer Backup Heaters energize after a 8% load reduction D. Pressurizer Pressure Transmitter P-449 fails high while on RHR Cooling Answer: A Student Comment: | ||
Action must be maintained to maintain these conditions. | Accept 2 answers. Answer D is also correct. The ACTION if conditions cannot be met is to MAINTAIN HOT SHUTDOWN. The ACTION must still be entered even if it is already satisfied. Action must be maintained to maintain these conditions. | ||
Resolution and Comments By the definition from Technical Specifications, LIMITING CONDITIONS FOR OPERATION are those restrictions on reactor operation, resulting from equipment performance capability that must he enforced to ensure safe operation of the facility. | Resolution and Comments By the definition from Technical Specifications, LIMITING CONDITIONS FOR OPERATION are those restrictions on reactor operation, resulting from equipment performance capability that must he enforced to ensure safe operation of the facility. | ||
PT-449 does serve a safety function in that it provide a reactor trip on low PRZR pi-essure and one OTDT channel when the plant is operating above the P-7 setpoint (3/4 Power Range Nuclear Instruments channels c 10% AND 2 of 2 Turbine Impulse Pressure Channels < 10% power). The Functional Unit No. 7 (TABLETS 3.5-2) has a PREMISSIBLE BYPASS CONDITIONS of P-7. Functional Unit No. 5 (OTDT) does not have PREMISSIBLE BYPASS CONDITIONS. | PT-449 does serve a safety function in that it provide a reactor trip on low PRZR pi-essure and one OTDT channel when the plant is operating above the P-7 setpoint (3/4 Power Range Nuclear Instruments channels c 10% AND 2 of 2 Turbine Impulse Pressure Channels < 10% power). The Functional Unit No. 7 (TABLETS 3.5-2) has a PREMISSIBLE BYPASS CONDITIONS of P-7. | ||
BOTH have an action that if MINIMUM OPERABLE CHANNELS (3) or MINIMUM DEGREE OF REDUNDANCY (I) are not met then the operator must maintain HOT SHUTDOWN. | Functional Unit No. 5 (OTDT) does not have PREMISSIBLE BYPASS CONDITIONS. BOTH have an action that if MINIMUM OPERABLE CHANNELS ( 3 ) or MINIMUM DEGREE OF REDUNDANCY ( I ) are not met then the operator must maintain HOT SHUTDOWN. | ||
With the plant on RHR Cooling, the reactor must be shutdown and RCS WR Hot Leg temperature is < 400°F and RCS pressure is f 425 psig. The plant is in INTERMEDIATE SHUTDOWN, and therefore, the LCO for PT-449 does not apply. | With the plant on RHR Cooling, the reactor must be shutdown and RCS WR Hot Leg temperature is < 400°F and RCS pressure is f 425 psig. The plant is in INTERMEDIATE SHUTDOWN, and therefore, the LCO for PT-449 does not apply. | ||
Rather than listing the LCO restraint, the out of service item is controlled through its associated Work Order, and this is controlled to ensure completion and retuin to service before the Technical Specification required time by tying to the Mode Change Checklist. This ensures that LCO conditions are identified and entry prevented by changing plant conditions. | Rather than listing the LCO restraint, the out of service item is controlled through its associated Work Order, and this is controlled to ensure completion and retuin to service before the Technical Specification required time by tying to the Mode Change Checklist. This ensures that LCO conditions are identified and entry prevented by changing plant conditions. | ||
A is the only correct answer, for. which entry into the LCO conditions for TABLETS 3 . 5 2 Functional Unit No. 5 (OTDT trip), TABLETS 3.5-2 Functional Unit No. 7, TABLETS 3.5-2 Functional Unit No. 8 (High Przr Pressure trip), and TABLE TS 3.5.3 Functional Unit No. I .d | |||
The associated bistables for thc failed channcl must be tripped within 6 hours per A-MI-87. No action required. | |||
(Pressurizer low pressure Safety Injection). The associated bistables for thc failed channcl must be tripped within 6 hours per A-MI-87. | |||
No action required. | |||
==References:== | ==References:== | ||
Technical Specifications, TS 3.5 and TABLES as listed. A-MI-87, Rev. R Introduction 1.1 GNP-08.04.04-1 Rev. G, Form GNP-08.04.04-1 GNP-I 1.08.01Rev. | |||
U, 6.4.3.1. | Technical Specifications, TS 3.5 and TABLES as listed. | ||
A-MI-87, Rev. R Introduction 1.1 GNP-08.04.04-1 Rev. G, Form GNP-08.04.04-1 GNP-I 1.08.01Rev. U, 6.4.3.1. | |||
: 62. Given the following: | : 62. Given the following: | ||
Plant is at 90%) power - Power Range Instrument N-42 fails and is removed from service per A-MI-87, Bistable Tripping for Failed Reactor Protection or Safeguards Inst. - The surveillance for SP-47-01 IA, Reactor Coolant Temperature and Pressurizer Pressure Instrument Channel I (Red) Calibration, comes due. - The decision is to bypass the failed NIS channel inputs to allow the calibration (Technical Specification 3.5.d). What is the coincidence for the OTDT reactor trip while the surveillance is in progress? | Plant is at 90%)power | ||
A. | - Power Range Instrument N-42 fails and is removed from service per A-MI-87, Bistable Tripping for Failed Reactor Protection or Safeguards Inst. | ||
In a normal lineup, the OTDT trip coincidence is 2/4 (4 channels provide input, 2 | - The surveillance for SP-47-01 IA, Reactor Coolant Temperature and Pressurizer Pressure Instrument Channel I (Red) Calibration, comes due. | ||
With N-42 input to Chan I1 OTDT trip bypassed, only 3 channels provide input; 2 are still | - The decision is to bypass the failed NIS channel inputs to allow the calibration (Technical Specification 3.5.d). | ||
= 2/3. During SP-47-01 IA, aftcr initial switch lineups and verifications, the bistables associated with the RED Channel Pressure | What is the coincidence for the OTDT reactor trip while the surveillance is in progress? | ||
/ Temperature trips are placed in TEST. After that step (3 channels still provide input; 1 more -BLUE or YELLOW - is | A. 2 o u t o f 2 B. 2 o u t o f 3 C. 1 out o f 4 D. I out of 3 Answer: B Student Comment: | ||
As written, | In a normal lineup, the OTDT trip coincidence is 2/4 (4 channels provide input, 2 reqd to actuate). With N-42 input to Chan I1 OTDT trip bypassed, only 3 channels provide input; 2 are still reqd to actuate, therefore coincidence = 2/3. During SP-47-01 IA, aftcr initial switch lineups and verifications, the bistables associated with the RED Channel Pressure / Temperature trips are placed in TEST. After that step (3 channels still provide input; 1 more -BLUE or YELLOW - is reqd to actuate the trip), therefore the coincidence becomes 1/3. The correct answer depends on which actions of SP-47-01 IA have been completed. This information is not provided, only that | ||
At Step 6.3.17 the associate bistables are placed in TEST (tripped). | . , . the surveillance is in progrcss. As written, B and D are correct. I recornmcnd accepting both. | ||
The bistables are restored to NORMAL at step 6.10.15 near the end of the surveillance. | Resolution and Comments The coincidence does depend on the step one is performing in the procedure. At Step 6.3.17 the associate bistables are placed in TEST (tripped). The bistables are restored to NORMAL at step 6.10.15 near the end of the surveillance. During the period between these steps the coincidence is 112 for tripping the reactor. Since the one channel is already tripped, it takes the input from one of the remaining two channels to trip the reactor. The overall coincidence for the trip is still 2 3 (with the fourth channel bypassed), but the situation is the one channel of trip input is alrcady | ||
During the period between these steps the coincidence is 112 for tripping the reactor. Since the one channel is already tripped, it takes the input from one of the remaining two channels to trip the reactor. The overall coincidence for the trip is still | |||
It was answered that the surveillance had not yet been entered. This information was provided to all students in the room at that time. The individual providing this feedback was not in the room, as he had completed his examination earlier. | made up. 1 out of 2 is not a listed selection An individual later requested clarification of the status of performing the surveillance. It was answered that the surveillance had not yet been entered. This information was provided to all students in the room at that time. The individual providing this feedback was not in the room, as he had completed his examination earlier. | ||
No change required | No change required | ||
==References:== | ==References:== | ||
SP-47-01 IA Rev. M, steps 6.3.17 and 6.10.15 (pages 16 and 99) KNPP Technical Specification Table TS | SP-47-01 IA Rev. M, steps 6.3.17 and 6.10.15 (pages 16 and 99) | ||
: 63. Given the following: -Power level IS 99.9% (1771.5 MWt) - The current UFMD and RTO OPERATING LIMITS are 1772 MWt - SP-87-125, Shift Instrument Channel Checks - Operating, calorimetric was completed 6 hours ago. - The signal is lost to PPCS from Feedwater Flow channel FT-476 -The RTO I-minute average, PPCS point RSIIOG, drops to 1200 MWt - The Computer Group reports the signal will be restored within 10 minutes What is the affect on the UFMD and RTO Operating Limits, and what action is taken when the flow channel input is restored and RS110G reads normal? A. Both the UFMD and RTO Operating limits will read 1749 MWt. When the signal is restored, the operator will click the APPLY UFMD LIMIT hutton on the PPCS UFMD Correction Factors screen to return both limits to 1772 MWt. B. The UFMD Operating Limit will read 1749 MWt and RTO Opciating Limit will read 1772 MWt. Power will be reduced to less than 1749 MWt, and when the signal is restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Corrcction Factors screen to return the UFMD limit to 1772 MWt. C. Both the UFMD and RTO Operating limits will read 1769 MWt When the signal | KNPP Technical Specification Table TS 3 5 - 2 , No. 5 , Amend No. 137 | ||
: 63. Given the following: | |||
-Power level IS 99.9% (1771.5 MWt) | |||
- The current UFMD and RTO OPERATING LIMITS are 1772 MWt | |||
- SP-87-125, Shift Instrument Channel Checks - Operating, calorimetric was completed 6 hours ago. | |||
- The signal is lost to PPCS from Feedwater Flow channel FT-476 | |||
-The RTO I-minute average, PPCS point RSIIOG, drops to 1200 MWt | |||
- The Computer Group reports the signal will be restored within 10 minutes What is the affect on the UFMD and RTO Operating Limits, and what action is taken when the flow channel input is restored and RS110G reads normal? | |||
A. Both the UFMD and RTO Operating limits will read 1749 MWt. | |||
When the signal is restored, the operator will click the APPLY UFMD LIMIT hutton on the PPCS UFMD Correction Factors screen to return both limits to 1772 MWt. | |||
B. The UFMD Operating Limit will read 1749 MWt and RTO Opciating Limit will read 1772 MWt. | |||
Power will be reduced to less than 1749 MWt, and when the signal is restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Corrcction Factors screen to return the UFMD limit to 1772 MWt. | |||
C. Both the UFMD and RTO Operating limits will read 1769 MWt When the signal i s restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Correction Factors screen to return both limits to 1772 MWt. | |||
D. The UFMD Operating Limit will read 1769 MWt and RTO Operating Limit will read 1772 MWt. | |||
Power will be reduced to less than 1769 MWt, and when the signal is restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Correction Factors screen to return the UFMD limit to 1772 MWt. | |||
Answer: A Student Comment: | Answer: A Student Comment: | ||
No Correct Answer. When the flow channel is returned, the UFMD will go to 1772 with only 10 minutes of data lost. When clicking the | |||
This is supported by N-0-03 step 4.1.14.c. The action of clicking the button does not affect both limits. Resolution and Comments The information about reset of the RTO and UFMD Limits is true. When the feed flow is restored above 70% reactor power equivalent the UFMD Operating Limit will automatically reset to 1772. To restore the RTO Operating Limit the operator must depress the APPLY UFMD LIMIT button. | No Correct Answer. When the flow channel is returned, the UFMD will go to 1772 with only 10 minutes of data lost. When clicking the APPLY UFMD LIMIT button, this &changes the RTO Limit, not both the RTO and the UFMD Limit. This is supported by N-0-03 step 4.1.14.c. The action of clicking the button does not affect both limits. | ||
Then the RTO Limit will be reset to 1772. Selection | Resolution and Comments The information about reset of the RTO and UFMD Limits is true. When the feed flow is restored above 70% reactor power equivalent the UFMD Operating Limit will automatically reset to 1772. To restore the RTO Operating Limit the operator must depress the APPLY UFMD LIMIT button. Then the RTO Limit will be reset to 1772. Selection A describes this condition. | ||
To have both the UFMD Operating Limit AND the RTO Operating Limit read 1772, the operator must click the APPLY UFMD LIMIT button. There was no clarification requested for this question during the examination No change required | To have both the UFMD Operating Limit AND the RTO Operating Limit read 1772, the operator must click the APPLY UFMD LIMIT button. | ||
There was no clarification requested for this question during the examination No change required | |||
==References:== | ==References:== | ||
N-0-03 Rev. AW, step 4.1.14.c | N-0-03 Rev. AW, step 4.1.14.c | ||
: 67. Given the following: - Waste Gas Decay Tank A is in service - The relief valve for that tank, WG-I4A, lifts and fails to reseat What is the effect on the plant? | : 67. Given the following: | ||
- Waste Gas Decay Tank A is in service | |||
- The relief valve for that tank, WG-I4A, lifts and fails to reseat What is the effect on the plant? | |||
A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank. | A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank. | ||
B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes. C. The release will NOT be automatically isolated, but will be monitored by the Aux. Building Vent radiation monitors R-13 and R-14. D. The release will NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4. | B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes. | ||
Answer: C Student Comment: In the stem of the question it lists WG-14A as the relief valve for WGDT A. It is not. The stem of the question is wrong. If WG-14A were to lift at full tank pressure it could rupture the vent header and R-4 could be a possible answer. Recommendations: Accept both answers | C. The release will NOT be automatically isolated, but will be monitored by the Aux. Building Vent radiation monitors R-13 and R-14. | ||
Resolution and Comments While the question does use the incorrect valve identifier number, WG-14 A versus WG-I3A, it does identify the valve as the | D. The release will NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4. | ||
If someone thought the valve in question was other than the Waste Gas Decay Tank Relief, this should have been questioned during this timc. The valve number | Answer: C Student Comment: | ||
Since the valve WG-14A is not a relief valve it does not | In the stem of the question it lists WG-14A as the relief valve for WGDT A. It is not. The stem of the question is wrong. If WG-14A were to lift at full tank pressure it could rupture the vent header and R-4 could be a possible answer. Recommendations: Accept both answers C and D and revise question. | ||
The only limitations on operation per N-GWP-32B are | Resolution and Comments While the question does use the incorrect valve identifier number, WG-14 A versus WG-I3A, it does identify the valve as the relief valve for that tank. WG-I4A is not the relief valve but has the nomenclature, WG-14A/CV-31209 Waste Gas tank 1A to Holdup Tanks. During thc examination no individual questioned the difference between the valve number and the description provided. If someone thought the valve in question was other than the Waste Gas Decay Tank Relief, this should have been questioned during this timc. The valve number e r o r is a typographical error and does not affect the quality of the question. | ||
Since the valve WG-14A is not a relief valve it does not lift but may fail open. This valve does align thc Waste Gas Decay Tank to vent header and provides cover gas for the HUT. It is normally open when the waste gas decay tank is providing the cover gas. The only limitations on operation per N-GWP-32B are 1) Normally the gas decay tank with the highest pressure (greater than 8 psig and NOT on holdup for decay) should be selected for cover gas; and 2) when the Boric Acid Evapomtor is running. the gas decay tank on fill shall not be selected to provide cover | |||
the gas decay tank on | |||
No of the conditions above are affected by the question so it unsupported in assuming the vent header ruptures releasing the gas. While the charging Pump room, the location of R-4 monitor, is on the same elevation and in the near vicinity of the Waste Gas Decay Tank cubicles, each is provided with separate ducting to the plant exhaust vent. With flow rates in the ventilation system of 300 CFM for the WGDT vault and 850 CFM for the Charging Pump room. | gas to the vent header. Also any gas decay tank less than 110 psig may be selccted for fill. WG-15 is a regulating valve that maintains the CVCS HUT cover gas pressure. | ||
It is unlikely a leak would bee detected by R-4. However this same leak would be detected by R-13 and R-14. The Evaluation does not require change. A Question Change is required to correct the valve identifier number. | No of the conditions above are affected by the question so it unsupported in assuming the vent header ruptures releasing the gas. | ||
While the charging Pump room, the location of R-4 monitor, is on the same elevation and in the near vicinity of the Waste Gas Decay Tank cubicles, each is provided with separate ducting to the plant exhaust vent. With flow rates in the ventilation system of 300 CFM for the WGDT vault and 850 CFM for the Charging Pump room. It is unlikely a leak would bee detected by R-4. | |||
However this same leak would be detected by R-13 and R-14. | |||
The Evaluation does not require change. A Question Change is required to correct the valve identifier number. | |||
==References:== | ==References:== | ||
Line 140: | Line 202: | ||
N-GWP-32B, Rev. AD, section 2.0 and step 4.2.1 OPERM-604, Rev. BE (blown-up) | N-GWP-32B, Rev. AD, section 2.0 and step 4.2.1 OPERM-604, Rev. BE (blown-up) | ||
OPERM-601, Rev. CP (blown-up) | OPERM-601, Rev. CP (blown-up) | ||
A. DG B is inoperable and must have its fuel supply locally isolated A plant shutdown must commence within one hour using the Standard Shutdown Sequence (Technical Specification 3.0.c). B. DG B is Degraded but Operable and can be controlled locally. A 24-hour LCO is applicable for restoration of the DC Distribution System and a 72-hour LCO is applicable for restoration of Component Cooling Pump B. C. DG B is inoperable and must have its fuel supply locally isolated. | S I . Given the following: | ||
A 72-hour LCO is applicable for restoration of Component Cooling Pump B and a 7-day LCO is applicable for restoration of DG B. D. DG B is Degraded but Operable and can be controlled locally. | - T h e plant is at 100% power. | ||
Only the 72-hour LCO is applicable for restoration of Component Cooling Pump B Answer: C Student Comment: This question has two answers dependent on the time frame. Answer | - Surveillance Test SP-42-312B, Diesel Generator B Availability Test, is in progress with DG B running. | ||
With B DG OOS, A DG must be tested every 24 hours to verify operability. | - Component Cooling Pump B trips on overcurrent. | ||
In order to test A DG, all B train ESF equipment is required to be OPERABLE 9as indicated in SP-42-3 12A). Since B CC Pump is OOS, this condition is not satisfied and therefore 1 hour to commence a shutdown applies. | - BRB-104, ckt 10 supplying DG B tripped open and CANNOT he closed. | ||
Resolution and Comments The conditions given do not warrant this extrapolation of conditions. Applied to the current conditions, the Technical Specifications that apply are for DG B and CC Pump 6. TS 1.3.d.2 list a 72-hour LCO for the CC Pump and TS 3.7.b.2 & 3.7.c identify a 7-day LCO for restorins the DG. This | What is the effect of this condition? | ||
If the time period came when DG A was required to be run per SP-42-3 12A, then the TS requirement for Train B equipment would need to be addressed. | A. DG B is inoperable and must have its fuel supply locally isolated A plant shutdown must commence within one hour using the Standard Shutdown Sequence (Technical Specification 3.0.c). | ||
If this were the condition, then this information would have been included in the question premise. | B. DG B is Degraded but Operable and can be controlled locally. | ||
No action required. | A 24-hour LCO is applicable for restoration of the DC Distribution System and a 72-hour LCO is applicable for restoration of Component Cooling Pump B. | ||
C. DG B is inoperable and must have its fuel supply locally isolated. | |||
A 72-hour LCO is applicable for restoration of Component Cooling Pump B and a 7-day LCO is applicable for restoration of DG B. | |||
D. DG B is Degraded but Operable and can be controlled locally. | |||
Only the 72-hour LCO is applicable for restoration of Component Cooling Pump B Answer: C Student Comment: | |||
This question has two answers dependent on the time frame. Answer C is correct initially at the failure. The 2danswer is A, A is correct as well due to the following. With B DG OOS, A DG must be tested every 24 hours to verify operability. In order to test A DG, all B train ESF equipment is required to be OPERABLE 9as indicated in SP-42-3 12A). Since B CC Pump is OOS, this condition is not satisfied and therefore 1 hour to commence a shutdown applies. | |||
Resolution and Comments The conditions given do not warrant this extrapolation of conditions. Applied to the current conditions, the Technical Specifications that apply are for DG B and CC Pump 6 . TS 1.3.d.2 list | |||
a 72-hour LCO for the CC Pump and TS 3.7.b.2 & 3.7.c identify a 7-day LCO for restorins the DG. This i s the condition that applies at the time given. (It does not indicate when the CC Pump or the DG is actually returned to service.) | |||
If the time period came when DG A was required to be run per SP-42-3 12A, then the TS requirement for Train B equipment would need to be addressed. If this were the condition, then this information would have been included in the question premise. | |||
No action required. | |||
==References:== | ==References:== | ||
Technical Specification 3.3.d.2, Amend No.116, page TS 3.3-6 Technical Specification 3.7.b.2 & 3.7.~ | |||
: 88. What is the reason for the Feedwater Isolation signal generated from High-High SG level? A. Preclude excessive SG tilts due to cooler feedwater supplied to ONE SG. B. Prevent overfill of the SG that may result in damage to secondary components C. Ensure containment pressure remains within maximum internal pressure limit with the affected SG faulted inside containment. | Technical Specification 3.3.d.2, Amend No.116, page TS 3.3-6 Technical Specification 3.7.b.2 & 3 . 7 . Amend | ||
D. Protect the Feedwater Pumps from operating in runout condition with FW-7A/B, S/G A/B Main Valve, fully open. Answer: B Student Comment: | ~ No. 122, page TS 3.7-2 | ||
Accept 2 answers: | : 88. What is the reason for the Feedwater Isolation signal generated from High-High SG level? | ||
The analysis was based on 445% NRL | A. Preclude excessive SG tilts due to cooler feedwater supplied to ONE SG. | ||
B. Prevent overfill of the SG that may result in damage to secondary components C. Ensure containment pressure remains within maximum internal pressure limit with the affected SG faulted inside containment. | |||
D. Protect the Feedwater Pumps from operating in runout condition with FW-7A/B, S/G A/B Main Valve, fully open. | |||
Answer: B Student Comment: | |||
Accept 2 answers: C & B Per USAR Section 14, pages 14.2. 21-25, one of the 4 major factors that influence release of mass and energy is SIG water level (fluid inventory). The analysis was based on 445% NRL | |||
* uncertainties. Having too much inventory is a reason to challenge containment integrity. | * uncertainties. Having too much inventory is a reason to challenge containment integrity. | ||
Resolution and Comments The concern above is true, and that is why SG level is maintained | Resolution and Comments The concern above is true, and that is why SG level is maintained i n the normal band during operations. However this does not address the specific reason for having the Feedwater Isolation signal on SG high level. The isolation occurs to prevent SG overfill. SG Overfill may result in damage to secondary components, including erosion of turbine blades due to high moisture steam. | ||
However this does not address the specific reason for having the Feedwater Isolation signal on SG high level. The isolation occurs to prevent SG overfill. | No action required | ||
SG Overfill may result in damage to secondary components, including erosion of turbine blades due to high moisture steam. No action required | |||
==References:== | ==References:== | ||
KNPP Technical Specification Basis Main | KNPP Technical Specification Basis Main F W Isolation, page TS B3.5-2 | ||
: 90. Given the following: - The plant has experienced a fire in the Control Room. - The actions of E-0.06, Fire In Alternate Fire Zone, are being performed What are the indications of an air dryer filter failure, and what are the procedural actions performed by the Control Room Supervisor to mitigate the consequences of this failure. | : 90. Given the following: | ||
A. Instrument Air DrierRilter IA/IB differential pressure will rise above 5 psid The CRS will verify SA-121, Air DrierRilter Bypass CV, opens. B. Instrument Air DrierFilter IC differential pressure will rise above 10 psid. The CRS will open SA-IOOA, Air Drier 1A Supply, and IA-300, 1 1/2 | - The plant has experienced a fire in the Control Room. | ||
The opening of IA-121 is an Immediate Automatic action that should be verified by the local operator, in this case, the CRS Opening SA-70 and [SA-] 7 I is directed by E-0-06, but not | - The actions of E-0.06, Fire In Alternate Fire Zone, are being performed What are the indications of an air dryer filter failure, and what are the procedural actions performed by the Control Room Supervisor to mitigate the consequences of this failure. | ||
I rccornmend accepting both for credit and revising the question. Resolution and Comments Indeed SA-I21 will open in response to a high differential pressure across the Air DryedFilter, and the actions under normal conditions would be to verify this valve is open (as directed by the annunciator alarm condition). | A. Instrument Air DrierRilter IA/IB differential pressure will rise above 5 psid The CRS will verify SA-121, Air DrierRilter Bypass CV, opens. | ||
However in this situation the control room is evacuated and E-O- 06 is in progress. | B. Instrument Air DrierFilter IC differential pressure will rise above 10 psid. | ||
As the question asks, what are the actions that mitigate this condition? The answer is the Air Dryers are bypassed by opening the Dedicated Air Header isolations, which supply the air directly through a separate in-pipe air dryer. | The CRS will open SA-IOOA, Air Drier 1A Supply, and IA-300, 1 1/2 Alt IA, and then request the Control Operator A to start Air Compressor B. | ||
C. Instrument air header pressure will drop below 95 psig The CRS will depress the Air Drier IC RESET pushbutton to confirm problem, and then align flow through Instrument Air Drier 1B. | |||
D. Instrument air header pressure will drop below 100 psig. | |||
The CRS will open SA-70 and SA-71, I 1/2 Dedicated Instrument Air Header Isolations, that bypass the Instrument Air Driers. | |||
Answer: D Student Comment: | |||
A failure of IA Dryer is more likely to result in a high DIP across IA-I21 well before IA pressure begins to degrade. The opening of IA-121 is an Immediate Automatic action that should be verified by the local operator, in this case, the CRS Opening SA-70 and [SA-] 7 I is directed by E-0-06, but not i n response to this Failure. This is the path that is provided to supply the Dedicated IA header from Air Compressor C. However, since this line does effectively bypass the Instrument Air Dryers, both answers A and D are correct responses. I rccornmend accepting both for credit and revising the question. | |||
Resolution and Comments Indeed SA-I21 will open in response to a high differential pressure across the Air DryedFilter, and the actions under normal conditions would be to verify this valve is open (as directed by the annunciator alarm condition). However in this situation the control room is evacuated and E-O-06 is in progress. As the question asks, what are the actions that mitigate this condition? The | |||
answer is the Air Dryers are bypassed by opening the Dedicated Air Header isolations, which supply the air directly through a separate in-pipe air dryer. | |||
A is not a correct answer because the CRS does not verify this path, and actually isolates this path when performing step 19. By closing SA-IOOB and SA-2C, the air supply from Compressor C (which is the one to be verified working) is isolated to the Instrument Air Dryers A and B, and thus SA-I21 opening has NO effect. | |||
No action required. | |||
==References:== | ==References:== | ||
E-0.06, Rev. Z, step 19.a. | E-0.06, Rev. Z , step 19.a. | ||
OPERM-213-1. | OPERM-213-1. Rev. CD | ||
Rev. CD WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05-815 Enclosure 2 OPERATION LICENSE EXAMS ALARM RESPONSE SHEET ANNUNCIATOR 47061-M, AFW PUMP B LOW OIL PRESS DOMINION ENERGY KEWAUNEE, INC. WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 FW-OSB 1 ANNUNCIATORNUMBER: | |||
47061-M | WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05-815 Enclosure 2 OPERATION LICENSE EXAMS ALARM RESPONSE SHEET ANNUNCIATOR 47061-M, AFW PUMP B LOW OIL PRESS DOMINION ENERGY KEWAUNEE, INC. | ||
< 10 ps'g AND B AFW Pump Bkr CLOSED RECOMMENDED ACTION: 1. A-FW-OSB. | WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 | ||
FW-OSB 1 ANNUNCIATORNUMBER: ~ | |||
: 1 | 47061-M SER FT A B C D E F G H I J K L M N O P Q R S T U V W 185 1 AFW PUMP 2 | ||
: a. | 3 ZOMPUTERFT None 5 LOW OIL PRESS BETA WINDOWBOX 08 NSTR-B AFW Pump Breaker 1-604 SETPOINT: | ||
PS-16018 < 10 ps'g AND B AFW Pump Bkr CLOSED RECOMMENDED ACTION: | |||
: | : 1. A-FW-OSB. | ||
an | COMMENTS: | ||
provided such | 1 . B AFW Pump auxiliary lube oil pump auto starts at lube oil pressure < 10 psig. | ||
: 2. E lube oil pressure decreases to 5 4 psig, Auxiliary Feedwater Pump B will trip YUCLEAR SAFETY YES 0 PORC REVIEW YES 0 SRO APPROVAL OF TEMPORARY CHANCES YES | |||
*ELATED NO REQUIRED NO REQUIRED 0 | |||
LEVIEWED BY E p%ti%? c, DATE St 17/94 REV DATE 5117194 rPPROVED BY DATE SI 17/94 REV A | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05-815 Enclosure 3 OPERATION LICENSE EXAMS UG-0 USERS GUIDE FOR EMERGENCY AND ABNORMAL PROCEDURES SECTION 6.1 DOMINION ENERGY KEWAUNEE, INC. | |||
: a | WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 | ||
WISCONSIN PUBLIC SERVICE CORPORATION KEWAUNEEWUcLeAplylwEEPLAN7' I U s e r ' s Guide For Emergency And Abnormal Procedures OPERATING PROCEDURE DATE J U N 25 2005 PAGE 6 of 32 5.0 Procedure 6.1 General ODeratinq G u i d e l i n e s For Abnormal C o n d i t i o n s | |||
: 1. When t h e need f o r a t u r b i n e t r i p , r e a c t o r t r i p . o r s a f e t y i n j e c t i o n i s imminent o r u n a v o i d a b l e , t h e o p e r a t o r s h o u l d i n i t i a t e t h e s e s i g n a l s m a n u a l l y whenever p o s s i b l e . | |||
: a. I f a manual t u r b i n e t r i p . r e a c t o r t r i p o r s a f e t y i n j e c t i o n i s deemed necessary, t h e crew member recommending o r o r d e r i n g t h e a c t i o n s h o u l d s t a t e t h e reason f o r t h e a c t i o n . T h i s w i l l a l l o w t h e r e m a i n i n g crew members t o i n d e p e n d e n t l y e v a l u a t e t h e c u r r e n t p l a n t c o n d i t i o n s and v a l i d a t e o r r e f u t e , a s necessary. | |||
t h e need f o r t h e manual a c t i o n . | |||
: b. I f p l a n t c o n d i t i o n s w a r r a n t , t h e SM o r CRS may choose t o a l l o w automatic a c t u a t i o n o f these p r o t e c t i v e features. | |||
: 2. D u r i n g abnormal and emergency c o n d i t i o n s . an o p e r a t o r has t h e a u t h o r i t y t o t a k e a c t i o n t h a t i s c l e a r l y needed based on observed p l a n t conditions before being d i r e c t e d by procedures. provided such a c t i o n i s n o t c o n t r a r y t o t h e p r o c e d u r e c u r r e n t l y i n e f f e c t and does n o t hamper t h e c o m p l e t i o n o f t h e p r o c e d u r e s t e p s . | |||
: 3. Automatic c o n t r o l s n o t p e r f o r m i n g t h e i r i n t e n d e d f u n c t i o n s h o u l d be m a n u a l l y c o n t r o l l e d . | |||
: 4. Components which r e q u i r e manual c o n t r o l s h a l l be r e p o r t e d t o t h e p r o c e d u r e r e a d e r when t h e a p p l i c a b l e s t e p i s read. | |||
: 5. A l l f a i l u r e s o f p l a n t components s h a l l be r e p o r t e d t o t h e CRS a n d l o r SM. | |||
: 6. A n n u n c i a t o r s s h a l l be p r o m p t l y noted, acknowledged. and v e r i f i e d a g a i n s t p l a n t c o n d i t i o n s p e r FP-OP-COO-01. CONDUCT OF OPERATIONS. | |||
: 7. Concerns o r o b j e c t i o n s t o t h e s t a t e d o r i n t e n d e d c o u r s e of a c t i o n a l o n g w i t h t h e b a s i s f o r t h e s e concerns o r o b j e c t i o n s s h a l l be made known as soon a s p o s s i b l e . | |||
: a. I f t i m e p e r m i t s . t h e s t a t e d concerns o r o b j e c t i o n s s h a l l be d i s c u s s e d w i t h and r e s o l v e d by t h e SM a n d / o r CRS. | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05-815 ENCLOSURE 4 OPERATION LICENSE EXAMS OPERATING PROCEDURE N-GWP-32B GASEOUS WASTE PROCESSING AND DISCHARGE SYSTEM DOMINION ENERGY KEWAUNEE, INC. | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 | |||
Gas Decay Tank | |||
Gas Decay Tank | I WISCONSIN PUBLIC SERVICE CORPORATION I NO. N-GWP-326 REV AD I KEWAUNEENUCLEARPOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE I DATE AUG 23 2005 I PAGE 1 of 16 REVIBYBD BY Randall Giese I APPROVED BY Jefiey Simon NUCLEAR YES PORC REVIEW YES SRO APPROVAL OF YES SAFETY RELATED REQUIRED TEMPORARY CHANGES NO 0 NO REQUIRED NO DESIRED ACTIVITY STEP NUMBER I Startup | ||
~~ ~ ~~ ~~~ ~ ~~~ | |||
I 4.1 S h i f t Gas Decay Tank on Cover 4.2.1 S h i f t Gas Decay Tank on F i l l 4.2.2 S e l e c t Gas Decay Tank f o r Standby 4.2.3 Add N i t r o g e n t o a Gas Decay Tank 4.2.4 Pump Down Vent Header 4.2.5 I Continuous Waste Gas Compressor O p e r a t i o n I 4.2.6 I s o l a t e Gas Decay Tank f o r SamplinglDecay Holdup 4.2.7 D i s c h a r g e Gas Decay Tank 4.2.8 I Drain Water From G a s Decay Tank I 4.2.9 T r a n s f e r Waste Gas Between Gas Decay Tanks 4.2.10 Shutdown 4.3 CONTINUOUS USE | |||
I WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-328 Gaseous Waste P r o c e s s i n g and OPERATING PROCEDURE DATE AUG 23 2005 PAGE 2 of 16 2.0 PRECAUTIONS AND LIMITATIONS 2.1 I f t a n k d i s c h a r g e i s stopped p r i o r t o c o m p l e t i o n , v e r i f y Gas Decay Tank D i s c h a r g e P e r m i t has NOT e x p i r e d p r i o r t o r e s t a r t o f d i s c h a r g e . | |||
2.2 More than one gaseous r a d i o l o g i c a l d i s c h a r g e s h a l l NDT be performed a t a time. | |||
2.3 I f oxygen c o n c e n t r a t i o n i s g r e a t e r t h a n 4%. immediate c o r r e c t i v e a c t i o n i s r e q u i r e d . C o n t a c t C h e m i s t r y and R a d i a t i o n P r o t e c t i o n t o d e v e l o p an a c t i o n p l a n . | |||
2.4 I f oxygen c o n c e n t r a t i o n i s g r e a t e r t h a n 2%. c o r r e c t i v e a c t i o n s h o u l d be t a k e n as r e s o u r c e s a l l o w . [PCR0128901 2.5 Equipment w h i c h has been opened t o atmosphere s h a l l have oxygen c o n c e n t r a t i o n v e r i f i e d l e s s t h a n o r equal t o 4% by volume p r i o r t o a l i g n i n g t h e equipment t o t h e v e n t header. | |||
2.6 I f a Waste Gas Decay Tank i s t o be used t o c o l l e c t oxygen. such a s f r o m Reactor C o o l a n t f i l l and v e n t , hydrogen c o n c e n t r a t i o n s h o u l d b e l e s s t h a n o r equal t o 2%. | |||
NOTE: | 2.7 V e r i f y m o i s t u r e s e p a r a t o r w a t e r l e v e l g r e a t e r than o r equal t o 30% | ||
b e f o r e m a n u a l l y s t a r t i n g a waste gas compressor. | |||
2.8 When t h e B o r i c A c i d E v a p o r a t o r i s r u n n i n g . t h e Waste Gas Decay Tank on fill s h a l l NOT be s e l e c t e d t o p r o v i d e cover gas t o t h e v e n t header. | |||
: | CACE0000031 | ||
: 1. | |||
I WlSCONSM PUBLIC SERVICE CORPORATION I NO. N-GWP-328 I KEWAUNEENUCLEARFOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 3 of 16 3.0 I N I T I A L CONDITIONS 3.1 N-GWP-326-CL complete. | |||
3.2 Nitrogen i s aligned f o r backup c o v e r gas p e r N-GS-51-CL. | |||
1.0 PROCEDURE 4.1 Startup NOTE: Any Gas Decay Tank l e s s t h a n 110 p s i g may be s e l e c t e d for fill. | |||
- | |||
NOTE: N o r m a l l y . Gas Decay Tank w i t h h i g h e s t p r e s s u r e | |||
( g r e a t e r t h a n 8 p s i s NOT on h o l d u p f o r decay). s h o u l d be s e l e c t e d f o r cover gas. | |||
NOTE: Gas Decay Tank w i t h l o w e s t p r e s s u r e i s n o r m a l l y s e l e c t e d f o r standby. | |||
: 1. SELECT Gas Decay Tank t o be used f o r c o v e r gas. | |||
: a. OPEN WG-14A(B.C.D). Gas Decay Tank t o Holdup Tank. f o r selected tank. | |||
CAUTION When t h e B o r i c A c i d E v a p o r a t o r i s r u n n i n g . t h e Waste G a s Decay Tank on fill shall be s e l e c t e d t o p r o v i d e cover gas t o t h e v e n t header. | |||
CACE0000031 | |||
: 2. SELECT Gas Decay Tank t o b e p l a c e d on F i l l . | |||
: a. POSITION WG-ZOOA(B.C.D), Gas Decay Tank t o Gas A n a l y z e r . f o r s e l e c t e d t a n k t o MAN OVRD. | |||
: b. VERIFY WG-IOA(8.C.D) OPEN. f o r t a n k t o r e c e i v e waste gas. | |||
Gas Decay Tank | : 3. SELECT Gas Decay Tank t o be p l a c e d on Standby. | ||
: a. P O S I T I O N Standby S e l e c t o r S w i t c h t o A(B,C,D) for selected tank. | |||
CONTINUED | |||
: e. | G N S M PUBLIC SERVICE CORPORATION | ||
~~~~~ ~~ | |||
I NO. N-GWP-328 I KEWAUNEENUCLEARPOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 4 of 16 4.1 CONTINUED | |||
: 4. VERIFY v e n t header p r e s s u r e on P1-1025/53102. g r e a t e r t h a n 0.5 p s i . | |||
: 5. POSITION Waste Gas Compressor A and B c o n t r o l s w i t c h e s t o AUTO. | |||
4.2 Steady S t a t e | |||
the | __ | ||
NOTE: N o r m a l l y gas decay t a n k w i t h h i g h e s t p r e s s u r e ( g r e a t e r t h a n 8 p s i g . and NOT on h o l d u p f o r decay) s h o u l d be s e l e c t e d f o r c o v e r gas. | |||
: 1. SHIFT gas decay t a n k on c o v e r a s f o l l o w s : | |||
: a. VERIFY p r e s s u r e i n Gas Decay Tank t o be p l a c e d on c o v e r greater than 8 psig. | |||
: 1. rf Gas Decay Tank i s l e s s t h a n 8 p s i g . THEN ADO n i t r o g e n p e r Step 4.2.4. | |||
: b. CLOSE WG-l4A(B)(C)(D). Gas Decay Tank t o Holdup Tank. t o remove from cover. | |||
: c. OPEN WG-l4A(B)(C)(D), Gas Decay Tank t o Holdup Tank. t o be p l a c e d on cover. | |||
: 2. | CAUTION When B o r i c A c i d E v a p o r a t o r i s r u n n i n g , t h e gas decay t a n k on f i l l s h a l l n o t be s e l e c t e d t o p r o v i d e c o v e r gas t o t h e v e n t header. | ||
I I | |||
: | - | ||
Gas Decay | NOTE: Any gas decay t a n k l e s s than 110 p s i g may be s e l e c t e d for fill. | ||
: 2. SHIFT gas decay t a n k on f i l l a s f o l l o w s : | |||
: a. P O S I T I O N WG-ZOOA(B.C.D). G a s Decay Tank t o Gas A n a l y z e r . f o r s e l e c t e d t a n k t o MAN OVRO. | |||
CONTINUED | |||
WISCONSIN PUBLIC SERVICE CORPORATION No - N-GW 32 Gaseous Waste P r o c e s s i n g and KEWAUNEEh'UCLEARPOWERPLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 5 of 16 4.2.2 CONTINUED I b. VERIFY WG-lOA(B)(C)(O). | |||
Gas Decay Tank on f i l l . | |||
Waste Gas t o G a s Decay Tank. OPEN f o r I c. UERFIY WG-lOA(B)(CI(O). Waste Gas t o Gas Decay Tank. CLOSE0 f o r Gas decay t a n k b e i n g removed f r o m f i l l . | |||
I __ | |||
NOTE: If p o s s i b l e . Gas decay tank s e l e c t e d f o r standby s h o u l d _NOT be on c o v e r o r f i l l . | |||
m: | |||
I When t a n k s e l e c t e d f o r f i l l reaches 110 p s i g . GAS DECAY TANK SWITCHING ( 5 3 7 0 2 - 1 5 ) . a l a r m s . | |||
I 3. SELECT gas decay t a n k f o r standby as f o l l o w s : | |||
I a. POSITION Standby S e l e c t o r S w i t c h t o A ( B ) ( C ) ( D ) | |||
Tank s e l e c t e d f o r standby. | |||
f o r Gas Decay I 4. ADD N i t r o g e n t o a Gas Decay Tank a s f o l l o w s : | |||
I a. OPEN NG-722A(B)(C)(D). N i t r o g e n t o Gas Decay Tank A(B.C.0). | |||
f o r r e q u i r e d gas decay t a n k . | |||
NOTE: When adding n i t r o g e n t o a gas decay tank. NITROGEN SUPPLY LOW PRESSURE (53702-43). a t Waste D i s p o s a l Panel i s expected. | |||
I b. S l o w l y OPEN NG-721. N i t r o g e n SuppIy t o Gas Decay Tanks. | |||
I c. UHEN gas decay t a n k p r e s s u r e i s 10-15 p s i g . THEN CLOSE NG-721. | |||
I d. CLOSE NG-722A(B)(C)(O). | |||
I 5. PUMP DOWN Vent Header as f o l l o w s : | |||
: a. Vent Header p r e s s u r e on PI-1025/53102 i s g r e a t e r t h a n 1.9 p s i g . o r PI-155/53109 g r e a t e r t h a n 2.0 p s i g . THEN PERFORM the following: | |||
I 1. VERIFY moisture separator water l e v e l g r e a t e r than o r equal t o 30%. | |||
CONTINUED i | |||
CONTLNUOUS USE | |||
I WISCONSIN PUBLIC SERVICX CORPORATION CEW~~ENUcLEAR~W'ERPLMW I NO. N-GWP-32B Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 6 of 16 4.2.5.a CONTINUED I 2. POSITION Waste Gas Compressor A(E) c o n t r o l s w i t c h t o START. | |||
- | |||
NOTE: Opening WG-32A(E) t o o f a r w i l l cause l o s s of m o i s t u r e s e p a r a t o r l e v e l and may damage compressor . | |||
I 3. THROTTLE WG-32A(E). Waste Gas M o i s t u r e S e p a r a t o r D r a i n . | |||
f o r 5 m i n u t e s w i t h compressor o p e r a t i n g . | |||
: 4. WHEN C V C Holdup Tank gas m a n i f o l d p r e s s u r e on PI-155/53109 decreases t o l e s s t h a n o r equal t o 1.8 p s i g . THEN PERFORM the following: | |||
I A. STOP Waste Gas Compressor A C E ) . | |||
I E. POSITION Waste Gas Compressor A ( B ) c o n t r o l s w i t c h t o AUTO. | |||
I 6. F o r Continuous Waste Gas Compressor O p e r a t i o n . PERFORM t h e following: | |||
I a. VERIFY Vent Header p r e s s u r e o n PI-1025/53102 i s g r e a t e r t h a n 1.0 p s i g . | |||
I b. VERIFY m o i s t u r e s e p a r a t o r w a t e r l e v e l g r e a t e r t h a n o r equal t o 30%. | |||
I c. POSITION Waste Gas Compressor A ( B ) c o n t r o l s w i t c h t o START. | |||
NOTE: Opening WG-32A(E) t o o f a r w i l l cause loss o f m o i s t u r e s e p a r a t o r l e v e l and may damage compressor. | |||
I d. THROTTLE WG-3ZA(B). Waste G a s M o i s t u r e S e p a r a t o r D r a i n . f o r 5 m i n u t e s w i t h compressor o p e r a t i n g . | |||
I e. WHEN c o n t i n u o u s o p e r a t i o n o f waste required. THEN gas compressor PERFORM t h e f o l l o w i n g : | |||
is longer I 1. STOP Waste Gas Compressor A ( B ) . | |||
CONTINUED | |||
. | |||
WISCONSIN PUBLIC SERVICE CORPORATION No. N-GWP-32B Gaseous Waste P r o c e s s i n g and KEWAUNEENUCLEAaPOWERPIANT Discharge System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 7 of 16 4.2.6.e CONTlNUED | |||
: 2. P O S I T I O N Waste Gas Compressor A(B) c o n t r o l s w i t c h t o AUTO. | |||
- | |||
NOTE: D u r i n g R e f u e l i n g p e r i o d s , i t i s necessary t o p u r g e r e a c t o r c o o l a n t o f hydrogen. R a d i o a c t i v e gases w i l l a l s o be i n c l u d e d i n t h e purge. The Gas Decay Tank may be i s o l a t e d t o a l l o w s h o r t l i v e d i s o t o p e s t o decay. A sample w i l l d e t e r m i n e i f t a n k c o n t e n t s w i l l be used f o r "Cover Gas". o r r e l e a s e d t o t h e environment t h r o u g h t h e p l a n t vent. | |||
: 7. ISOLATE G a s Decay Tank f o r Sampling/Decay Holdup a s f o l l o w s : | |||
: a. VERIFY gas decay t a n k s e l e c t e d f o r Standby. | |||
: b. VERIFY WG-IOA(6.C.D). Waste Gas t o Gas Decay Tank. CLOSED f o r t a n k t o be i s o l a t e d . | |||
: c. VERIFY WG-14A(B.C.D). Gas Decay Tank t o Holdup Tank. CLOSED f o r t a n k t o be i s o l a t e d . | |||
: d. CLOSE WG-lZA(B.C.0). Gas Decay Tank Discharge. f o r t a n k t o be isolated. | |||
: e. TAG WG-lPA(B.C.0) for Status Control s t a t i n g reason tank i s isolated. | |||
: f. RECORD Waste Gas Decay Tank i s o l a t e d f o r sampling a n d / o r decay h o l d u p on A u x i l i a r y Operator Log. | |||
: 9. sampling i s r e q u i r e d . THEN REQUEST R a d i a t i o n P r o t e c t i o n sample g a s decay tank. | |||
: 8. DISCHARGE Gas Decay Tank a s f o l l o w s : | |||
: a. ISOLATE gas decay t a n k f o r sampling a n d l o r decay h o l d u p per Step 4.2.7. | |||
: b. RERUEST R a d i a t i o n P r o t e c t i o n sample t a n k t o d e t e r m i n e if r e l e a s e t o atmosphere w i l l be w i t h i n ODCM l i m i t s . | |||
CONTINUED | |||
L WJSCONSINPUBLIC SERVICECORIWRATION No. N-GWP-32B Gaseous Waste Processing and KEWADNEENUcLEAaPoWERPLANT Oischarge System OPERATING PROCEDURE DATE AUG 23 2005 PAGE a of 16 4.2.8 CONTINUED | |||
- | |||
I IF activity i s g r e a t e r t h a n or equal t o ODCM l i m i t s . | |||
PERFORM one o f f o l l o w i n g : | |||
THEN I 1. REALIGN gas decay t a n k f o r cover. | |||
- | |||
OR I 2. M A I N T A I N gas decay t a n k i s o l a t e d f o r decay holdup. | |||
- i s l e s s t h a n ODCM l i m i t s . THEN DISCHARGE G a s Decay I IF activity Tank: (See S e c t i o n 2.0. Step 2.1 and 2.0. Step 2.2) | |||
__ | |||
NOTE: I t i s p r e f e r a b l e NOT t o d i s c h a r g e a gas decay t a n k when t h e wind i s o u t o f t h e N o r t h o r Northwest. Gases e x i t i n g Aux B l d g Vent Stack may r e - e n t e r b u i l d i n g t h r o u g h Aux B l d g Supply o r T u r b i n e B l d g Supply Vent i n t a k e s . | |||
I 1. OBTAIN Gas Decay Tank Discharge P e r m i t and approval f r o m t h e S h i f t Manager. | |||
: 2. CONTACT I & C t o determine i f performance o f I C P 32B.08. | |||
Waste G a s Decay Tanks P l a n t V e n t i l a t i o n I s o l a t i o n Loop Calibration. i s required. | |||
__ | |||
NOTE: I f p o s s i b l e . b o t h A u x i l i a r y B u i l d i n g Exhaust Fans should be r u n n i n g t o p r o v i d e maximum d i l u t i o n flow. | |||
I 3. VERIFY the following: | |||
A. If: t o t a l gas a c t i v i t y o f t a n k t o be r e l e a s e d i s g r e a t e r t h a n 1.0 E - 2 p C i / c c . THEN VERIFY b o t h A u x i l i a r y B u i l d i n g Exhaust Fans RUNNING. CPCR0126501 E. t o t a l gas a c t i v i t y o f t a n k t o be r e l e a s e d i s l e s s t h a n o r equal t o 1.0 E-2 p c i l c c , THEN V E R I F Y a t l e a s t one A u x i l i a r y B u i l d i n g Exhaust Fan. RUNNING. | |||
CPCR0126501 CONTINUE0 | |||
~~~~ ~ | |||
WISCONSIN PUBLIC SERVICE CORPORMlON NO. N-GWP-328 I KEWAUNEEnmCLEARPOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 9 of 16 4.2.8.d CONTINUED | |||
: 4. E a t a g o u t was hung i n Step 4.2.7.e f o r i s o l a t i n g the Gas Decay Tank f o r s a m p l i n g a n d / o r decay h oldup, CLEAR t a g ( s ) AND OPEN WG-lZA(8.C.D). Gas Decay Tank D i s c h a r g e . | |||
I 5. RECORD P r i o r To D i s c h a r g e d a t a on Gas Decay Tank D i s c h a r g e Permit. | |||
I 6. NOTIFY C o n t r o l Room t o PERFORM t h e f o l l o w i n g : | |||
I A. VERIFY R-13 o r R-14. Aux B l d g Vent Exhaust i s b e i n g trended. | |||
I 8. Source and Channel check on R-13 and R-14. | |||
I 1. INSERT message 'Source Check" on r e c o r d e r 45716 per N-MI-87C. | |||
: 2. IF R-13 o r R-14 Source/Channel check f a i l s . | |||
THEN INFORM S h i f t Manager. (See P r e c a u t i o n 2.0. | |||
S t e p 2.1) | |||
I 7. OPEN WG-34A(B.C.D). Gas Decay Tank t o P l a n t Vent. | |||
CONTINUED CONTINUOUS USE | |||
WISCONSIN PUBLtCSERWCECORPORATION No- N-GwP-32B Gaseous Waste P r o c e s s i n g and KEWAUNEE iVUCLEARpowERPuLNT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 10 of 16 4.2.8.d CONTINUEO CAUTION The t r i p s e t p o i n t s f o r R-13 and R-14 a r e 80,000 cpm. IfWG-36 c l o s e s o n h i g h r a d i a t i o n , d i s c h a r g e s h a l l be r e - e v a l u a t e d p r i o r t o r e s t a r t . | |||
I | |||
- | |||
NOTE: UG-36 i s r e s e t a f t e r a t r i p by p o s i t i o n i n g c o n t r o l knob t o c l o s e . | |||
- | |||
NOTE: I n i t i a t i o n o f a Gas Decay Tank d i s c h a r g e s h o u l d b e done s l o w l y t o ensure R-13 and R-14 s e t p o i n t s a r e NOT exceeded. | |||
: 8. A t Waste D i s p o s a l Panel. s l o w l y OPEN WG-36/CV-31215. Gas Decay Tanks t o P l a n t Vent. w h i l e m o n i t o r i n g l o c a l i n d i c a t o r s f o r R-13 and R-14 u n t i l ONE o f t h e f o l l o w i n g occurs: | |||
. R-13 o r R-14 i s i n d i c a t i n g 10,000 cpm WG-36/CV-31215 i s open t o t h e l i m i t s p e c i f i e d on Gas Decay Tank D i s c h a r g e Permit WG-36/CV-31215 i s 100% OPEN | |||
: 9. INSERT message " S t a r t GW D i s c h " on r e c o r d e r 45716 per N - M I -87C. | |||
: 10. RECORD t a n k b e i n g d i s c h a r g e d and s t a r t t i m e i n C o n t r o l Room Log. | |||
: 11. MONITOR R-13 or R-14 t r e n d d u r i n g d i s c h a r g e . | |||
: 12. D R A I N w a t e r f r o m Gas Decay Tank b e i n g d i s c h a r g e d . p e r Step 4.2.9. | |||
CONTINUEO | |||
I WlSCONSINPUBLICSERWCECORPORATION I No. N-GWP-32B I KF,WAUNEE NUCLEAR POWERPLANT I Gaseous Waste P r o c e s s i n g and | |||
'ITLE D i s c h a r g e System OPERATING PROCEDURE I DATE | |||
~~ ~ - | |||
AUG 23 2005 1- PA& -11 Of 16 4.2.8.d CONTINUED CAUTION I f oxygen c o n c e n t r a t i o n i s g r e a t e r t h a n 4%. immediate c o r r e c t i v e a c t i o n i s r e q u i r e d . Oxygen c o n c e n t r a t i o n o f less t h a n o r equal t o 2% i s recommended. CPCR0128901 | |||
: 13. o p e n i n g a Gas Decay Tank t o atmosphere f o r maintenance OR i t i s d e s i r e d t o reduce oxygen c o n c e n t r a t i o n . | |||
PURGE a s f o l l o w s : | |||
A. INFORM Equipment O p e r a t o r N i t r o g e n w i l l be used f o r p u r g i n g a Gas Decay Tank. | |||
: 6. WHEN Gas Decay Tank p r e s s u r e l e s s t h a n 25 p s i g , THEN PERFORM t h e f o l l o w i n g : | |||
: 1. OPEN NG-722A(B.C.D). N i t r o g e n t o Gas Decay Tank A(B.C.0). f o r Gas Decay Tank t o be purged. | |||
NOTE: When a d d i n g n i t r o g e n t o a Gas Decay Tank, NITROGEN SUPPLY LOW PRESSURE (53702-43). a t Waste D i s p o s a l Panel i s expected. | |||
: 2. S l o w l y OPEN NG-721. N i t r o g e n M a n i f o l d t o Gas Decay Tanks. t o e s t a b l i s h c o n t i n u o u s flow o f N2. | |||
: 3. WHEN 20-30 m i n u t e s have elapsed. THEN PERFORM the following: | |||
3.1 CLOSE NG-721. | |||
3.2 CLOSE NG-722A(B.C.D). | |||
: 14. WHEN Gas Decay Tank p r e s s u r e decreases t o 5 psig. lHEN STOP d i s c h a r g e as f o l l o w s : | |||
A. CLOSE WG-36. | |||
CONTINUED | |||
WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-32E Gaseous Waste P r o c e s s i n g and KEWAUNEENUCLEARPOWERPLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 12 of 16 4.2.8.d.14 CONTINUED I 6. CLOSE WG-34A(B.C.D). | |||
I C. CLOSE WG-lZA(E.C.D). | |||
E p u r g e w a s performed. THEN VERIFY 02 o r H2 I | |||
D. | |||
c o n c e n t r a t i o n i s l e s s t h a n o r e q u a l t o 2% by p e r f o r m i n g t h e f ol 1owi ng : | |||
I 1. OBTAIN 02 and H2 sample o f WGDT as f o l l o w s : | |||
I 1.1 ALIGN WGOT (A.E.C.D) t o WGA p e r N-GWP-326-2. | |||
- | |||
OR I 1.2 REQUEST Chemistry sample purged gas decay tank. | |||
I 2. 02 o r H2 c o n c e n t r a t i o n i s l e s s t h a n o r equal t o 2%. THEN PERFORM t h e f o l l o w i n g : CPCR0128901 I 2.1 gas decay t a n k w i l l be opened f o r maintenance. THEN GO a Step 4.2.8.d.14.E. | |||
I 2.2 OPEN WG-ILA(E.C.D). | |||
I 2.3 RECORD s t o p t i m e and INFORM C o n t r o l Room s t o p t i me. | |||
Of I 2.4 INSERT message 'Stop GW D i s c h " on r e c o r d e r 45716 per N-MI-E7C. | |||
I 2.5 COMPLETE Gas Decay Tank D i s c h a r g e P e r m i t . | |||
I 3. 1_E 02 o r HZ c o n c e n t r a t i o n i s s t i l l g r e a t e r than 2%. THEN PERFORM t h e f o l l o w i n g : | |||
I 3.1 OPEN NG-722A(E.C.O). | |||
CONTINUED | |||
I WISCONSIN PUBLIC SERVICE CORPORATION I NO. N-GWP-32E I KEWAUNEENOCLEARPOWERPLANT Gaseous Waste P r o c e s s i n g and Oischarge System OPERATING PROCEDURE I DATE AUG 23 2005 I PAGE 13 of 16 1.2.8.d.14.0.3 LONTINUEO | |||
__ | |||
NOTE: WHEN adding n i t r o g e n t o a Gas Decay Tank. N i t r o g e n Supply Low P r e s s u r e (53702-43). a t Waste D i s p o s a l Panel i s expected. | |||
3.2 S l o w l y OPEN NG-721. N i t r o g e n Supply t o Gas Decay Tanks. | |||
3.3 WHEN Gas Decay Tank p r e s s u r e 1 0 - 1 5 p s i g , | |||
- | |||
THEN CLOSE NG-721. | |||
3.4 CLOSE NG-72ZA(B.C.O). | |||
3.5 OPEN WG-lZA(B.C.0). | |||
3.6 OPEN WG-34A(B.C.O). | |||
3.7 A t Waste D i s p o s a l Panel. s l o w l y OPEN WG-36 u n t i l R-13 o r R-14 i n d i c a t e s 10,000 cpm. OR WG-36 i s open t o l i m i t s p e c i f i e d on Gas Decay Tank O i s c h a r g e P e r m i t . | |||
3.8 @To Step 4.2.8.d.14. | |||
E. IF Gas Decay Tank w i l l be opened f o r maintenance. | |||
THEN PERFORM t h e f o l l o w i n g : | |||
: 1. VERIFY HZ c o n c e n t r a t i o n l e s s t h a n o r equal t o 2%. | |||
CPCR0128901 | CPCR0128901 | ||
: 2. OPEN WG-IZA(E.C.D). | : 2. OPEN WG-IZA(E.C.D). | ||
: 3. OPEN WG-34A(E.C.D). | : 3. OPEN WG-34A(E.C.D). | ||
: 4. | : 4. A t Waste D i s p o s a l Panel. s l o w l y OPEN WG-36 u n t i l R-13 o r R-14 i n d i c a t e s 10.000 cpm. OR WG-36 i s open t o l i m i t s p e c i f i e d on Gas Decay Tank D i s c h a r g e Permit. | ||
: 5. WHEN Gas Decay Tank p r e s s u r e i s approximately 0 p s i g . CLOSE WG-36. | |||
CONTINUED | |||
OPEN WG-IZA(B.C.D). | WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-328 Gaseous Waste P r o c e s s i n g and KEWAUNEE NUCLEAR POWER PLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 14 of 16 4.2.8.d.14.E CONTINUE0 I 6. CLOSE WG-34A(E.C.D). | ||
RECORD | I 7. CLOSE W G - l Z A ( B . C . 0 ) . | ||
Gas Decay Tank | I 8. s t a t u s c o n t r o l i s needed. | ||
ready t o p e r f o r m maintenance. | |||
Gas Decay Tank Drain. | TAG t a n k u n t i l I 9. Step 4.2.8.d.14.G. | ||
I F. OPEN WG-IZA(B.C.D). | |||
I G. RECORD s t o p t i m e and INFORM C o n t r o l Room o f s t o p time. | |||
I H. INSERT message 'Stop GW D i s c h " o n r e c o r d e r 45716 p e r N - M I -87C. | |||
I I. COMPLETE Gas Decay Tank D i s c h a r g e P e r m i t . | |||
I 9. D r a i n water f r o m Gas Decay Tank as f o l l o w s : | |||
m: | |||
I Draining w a t e r f r o m a Gas Decay Tank may cause an i n c r e a s e i n DOT l e v e l and v e n t header p r e s s u r e . | |||
I a. OPEN MD(R)-401. Gas Decay Tank D r a i n Header I s o l a t i o n . | |||
I b. OPEN MO(R)-400A(E.C.D) Gas Decay Tank Drain. t o d r a i n header. | |||
I I | |||
: c. gas f l o w i s h e a r d t h r o u g h d r a i n p i p i n g . | |||
following: | following: | ||
PERFORM the | |||
: 1. CLOSE MD(R)-400A(B.C.D). | : 1. CLOSE MD(R)-400A(B.C.D). | ||
: 2. CLOSE MD(R)-401. | : 2. CLOSE MD(R)-401. | ||
I 10. To t r a n s f e r Waste Gas between Gas Decay Tanks, PERFORM t h e following: | |||
: a. SELECT Gas Decay Tank A(B.C.0) | : a. SELECT Gas Decay Tank A(B.C.0) t o r e c e i v e waste gas: | ||
~~ ~~~~~~ ~~~~ WlScONSIN PUBLIC SERVICE CORWRATION | : 1. POSITION WG-ZODA(B.C.D) t o MAN OVRD. f o r t a n k t o r e c e i v e waste gas. | ||
OPEN. | CONTINUED | ||
CLOSED, | |||
Gas Decay Tank | ~~ ~~~~~~ ~~~~ ~~ ~~ | ||
I WlScONSIN PUBLIC SERVICE CORWRATION NO. N-GWP-32B Gaseous Waste P r o c e s s i n g and KEWAUNEENUCLEARI'OWERPLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 15 of 16 4.2.10.a CONTINUED I 2. VERIFY WG-IOA(B.C.D) OPEN. f o r t a n k t o r e c e i v e waste gas. | |||
Cover Gas Supply | I b. CLOSE WG-16. G a s Decay V a l v e G a l l e r y t o Holdup Tanks. | ||
I c. VERIFY WG-14A(B.C.D) CLOSED, f o r a l l Gas Decay Tanks. | |||
I d. VERIFY WG-lZA(B.C.01. | |||
be transferred. | |||
Gas Decay Tank I n l e t . OPEN f o r t a n k t o I e. OPEN WG-14A(B.C.D). | |||
t a n k t o be t r a n s f e r r e d . | |||
Cover Gas Supply t o Holdup Tanks for I f. OPEN WG-40, Gas Decay V a l v e G a l l e r y t o Vent Header No. 2. | |||
for tank transferred. | NOTE: I f I & C i s NOT a v a i l a b l e , t h e f o l l o w i n g s t e p may s t i l l be performed. I f WG-15 s e t p o i n t i s changed. | ||
I & C s h o u l d be i n f o r m e d as soon as p r a c t i c a l . | |||
L NO. N-GWP-32B | IE. I & C THEN CONTACT I g. | ||
following: | |||
i s available, I&C t o perform the NOTE: | |||
I Numbers on s e t p o i n t d i a l do a c t u a l p r e s s u r e i n system. | |||
coincide with I 1. RECORD WG-15/CV-31213. G a s Decay Tanks t o Holdup Tanks. | |||
setpoint. | |||
I 2. RAISE WG-15 s e t p o i n t u n t i l v a l v e f u l l OPEN. | |||
: 3. UHEN Gas Decay Tank b e i n g t r a n s f e r r e d reaches 5 p s i g on P I - 1 0 3 6 (1037. 1038. 1039). JlK@ RETURN s e t p o i n t on WG-15 t o previous setting. | |||
I h. CLOSE WG-40. | |||
I i. CLOSE W G - l 4 A ( B . C . D ) . for tank transferred. | |||
I j. OPEN WG-16. | |||
I k. VERIFY Gas Decay System i s a l i g n e d f o r normal o p e r a t i o n . | |||
L WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-32B Gaseous Waste Processing and KEWAUNEENUCLEARWWERPLANT Discharge System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 16 of 16 4.3 Shutdown | |||
: 1. YHEN CVC Holdup T a n k gas manifold pressure on PI-155/53109 decreases t o l e s s than o r equal t o 1.8 psig. THEN STOP Waste Gas Compressor A ( B ) . | |||
> | |||
CONTINUOUS USE | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No. 05-815 Enclosure 5 OPERATION LICENSE EXAMS DRAWING OPERXK-100-132, FLOW DIAGRAM WASTE DISPOSAL SYSTEM DOMINION ENERGY KEWAUNEE, INC. | |||
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 | |||
QF-1040-14 Rev. 0 (FP-T-SAT-40) | QF-1040-14 Rev. 0 (FP-T-SAT-40) | ||
____- Question Average Review Corrective Action Number Score (YO) Conclusion | WRITTEN EXAM ITEM REVIEW Evaluation ID#: ROI-06-EX-WRT I SOI-06-EX-WRT Date Evaluation Instrument Administered: /18/2005 Number of Trainees Evaluated: 7 (1-75) / 6 176-100) | ||
____- | |||
Question Average Review Corrective Action Number Score (YO) Conclusion (Action and M R # ) | |||
8 42.86 G | |||
- | |||
19 42 86 G | |||
~ | |||
43 20.57 G t I _ _ _ _ _ | |||
50 28.57 G 67 28.57 G | |||
-_ __ _ -- | |||
76 50.00 G 98 33.33 A, E, G 1 | |||
Review | |||
== Conclusions:== | == Conclusions:== | ||
A. | A. Insufficient training for the learning objective tested | ||
: 6. Learning objective not adequately covered in the lesson plan C. Poorly worded or invalid learning objective D. Poorly worded or invalid test item or answer E. Incorrect answer in the exam key F. More than one correct answer G. Question acceptable H. Other (state reason in table or on additional sheet) | |||
Review performed by: Date: #l/6 Approved by: | Review performed by: Date: # l / 6 Approved by: | ||
Date: | Date: I l ( 2 2 1 0 5 - | ||
+ 10 yrs Retain in Exam Key Page 1 of 1 WRITTEN EXAMINATION ITEM REVIEW DETAILED | Retention Life + 10 yrs Retain in Exam Key Page 1 of 1 | ||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 8. Concerning the Engineered Safety Features (ESF) initiation instrumentation for Pressurizer pressure, there are for (2) independent safety trains of ESF. | : 8. Concerning the Engineered Safety Features (ESF) initiation instrumentation for Pressurizer pressure, there are (1) channels that input to Safety Injection for (2) independent safety trains of ESF. | ||
_ 1 1 1 121 A. 4 4 | |||
The specific channels are PT-429, PT-430, and PT-431. | : 3. 4 2 | ||
Lesson Plan R02-055-LP055 Rev. B, Engineered Safety Features. Covered in section B.4.c. 1 ), page 21, and on PPT slide #43, Safety Injection Actuation. | : c. 3 3 D. 3 2 Answer: D Three channels of PRZR input to the 2 trains of ESF for the Safety Injection signal (Low Przr Pressure SI). The specific channels are PT-429, PT-430, and PT-431. | ||
Page 1 WRITTEN EXAMINATION ITEM REVIEW DETAILED | Lesson Plan R02-055-LP055 Rev. B, Engineered Safety Features. Covered in section B.4.c. 1 ), | ||
page 21, and on PPT slide #43, Safety Injection Actuation. | |||
Page 1 | |||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 19. Given the following: -A Large Break LOCA has occurred. - Preparations to establish one train of containment sump recirculation are in - Steps to "Align Charging Pump Suction To The VCT," and "Establish Charging | : 19. Given the following: | ||
Flow" are about to be completed. | - A Large Break LOCA has occurred. | ||
- Preparations to establish one train of containment sump recirculation are in progress per ES-1.3, Transfer To Containment Sump Recirculation. | |||
- Steps to "Align Charging Pump Suction To The VCT," and "Establish Charging Flow" are about to be completed. | |||
Why are actions taken to (1) align Charging Pump suction to the VCT and (2) establish charging flow? | Why are actions taken to (1) align Charging Pump suction to the VCT and (2) establish charging flow? | ||
A. (1) Protect charging pumps from losing suction. | A. (1) Protect charging pumps from losing suction. | ||
(2) Provide RCP Seal Injection flow. | (2) Provide RCP Seal Injection flow. | ||
B. (1) Preclude gas entrainment in the ECCS (RHR and SI) piping. (2) Provide flow to the RCS while the ECCS (RHR and SI) trains are being swapped to the Containment Sump B. C. (1) Allow makeup to be established to the RWST. (2) Provide condition for reestablishing letdown via the Regenerative Hx D. (1) Preserve RWST inventory. | B. (1) Preclude gas entrainment in the ECCS (RHR and SI) piping. | ||
(2) Establish conditions for SI termination Answer: A In ES-1.3 the Charging Pumps are aligned to the VCT so that they will have an available source of suction even if RWST "empty" condition is reached. The Charging Pump(s) islare running or started to supply seal injection to the RXCPs. R04-04-LP021 Rev. B, Transfer To Containment Sump Recirculation. | (2) Provide flow to the RCS while the ECCS (RHR and SI) trains are being swapped to the Containment Sump B. | ||
Covered in section E. 12, Step 7 step detail. | C. (1) Allow makeup to be established to the RWST. | ||
Also covered on PPT #8. Page 2 WRITTEN EXAMINATION ITEM REVIEW DETAILED | (2) Provide condition for reestablishing letdown via the Regenerative Hx D. (1) Preserve RWST inventory. | ||
(2) Establish conditions for SI termination Answer: A In ES-1.3 the Charging Pumps are aligned to the VCT so that they will have an available source of suction even if RWST "empty" condition is reached. The Charging Pump(s) islare running or started to supply seal injection to the RXCPs. | |||
R04-04-LP021 Rev. B, Transfer To Containment Sump Recirculation. Covered in section E. 12, Step 7 step detail. Also covered on PPT #8. | |||
Page 2 | |||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 43. Which of the following identifies the MAXIMUM current limit for a running RXCP, and the assumed conditions when determining this value? A. Maximum current is 4800 amps, expected when the RXCP is operating at cold loop condition and maximum supply voltage of 4400 volts. 6. Maximum current is 1073 amps, expected when the RXCP is operating at cold loop condition and minimum bus voltage value of 3600 volts. C. Maximum current is 976 amps, expected when the RXCP is operating at hot loop condition and maximum supply voltage of 4400 volts. | : 43. Which of the following identifies the MAXIMUM current limit for a running RXCP, and the assumed conditions when determining this value? | ||
D. Maximum current is 745 amps, expected when the RXCP is operating at hot loop condition and minimum supply voltage of 3600 volts. Answer: B N-RC-36A, Rev. AG, APPENDIX A identifies the maximum current as 1073 amps. This condition will occur when the RXCP has to move the more dense fluid (cold RCS loop temperature) and when the supply voltage is at its minimum value (3600 volts, E/I = R) R02-01-LP36A, Rev. | A. Maximum current is 4800 amps, expected when the RXCP is operating at cold loop condition and maximum supply voltage of 4400 volts. | ||
B, Reactor Coolant Pump, section A.3.d, page 19, provides the Motor Specifications including brake horsepower (hothold), running current (hoticold) power input | : 6. Maximum current is 1073 amps, expected when the RXCP is operating at cold loop condition and minimum bus voltage value of 3600 volts. | ||
[kW] (hot/cold, and starting current. PPT slide #32 also covers this information. Page 3 WRITTEN EXAMINATION ITEM REVIEW DETAILED | C. Maximum current is 976 amps, expected when the RXCP is operating at hot loop condition and maximum supply voltage of 4400 volts. | ||
D. Maximum current is 745 amps, expected when the RXCP is operating at hot loop condition and minimum supply voltage of 3600 volts. | |||
Answer: B N-RC-36A, Rev. AG, APPENDIX A identifies the maximum current as 1073 amps. This condition will occur when the RXCP has to move the more dense fluid (cold RCS loop temperature) and when the supply voltage is at its minimum value (3600 volts, E/I = R) | |||
R02-01-LP36A, Rev. B, Reactor Coolant Pump, section A.3.d, page 19, provides the Motor Specifications including brake horsepower (hothold), running current (hoticold) power input | |||
[kW] (hot/cold, and starting current. PPT slide #32 also covers this information. | |||
Page 3 | |||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 50. Given the following: - The plant is at 100% power. - Diesel Generator (DG) A is supplying Bus 5 in parallel to the offsite power source. What occurs if the EMERGENCY VOLTAGE SHUTDOWN button for DG A is pressed? A. A Bus 5 Lockout is generated B. Diesel Generator A engine trips. | : 50. Given the following: | ||
C. Diesel Generator A engine will begin to motor. D. Breaker 1-509, DG A to Bus 5, trips Answer: D E-2022, Rev. N for DG A shows depressing the Local Panel Pushhutton, VOLTAGE SHUTDOWN, with DG speed greater than 700 rpm and the Voltage Shutdown RESET pushbutton NOT depressed, will provide and output signal to a NOT box and provide a seal in until the RESET button is depressed, This condition removes the input to the NOT box that feeds TRIP BREAKER 1-509. The Alarm Response sheet for 47094-A, DIESEL GEN A EXCITATION VOLT DEENERGIZED, Comment 1, | - The plant is at 100% power. | ||
It states that the Voltage Shutdown provides for rapid DG voltage shutdown by, 1) puts a short circuit across the DG field windings; | - Diesel Generator (DG) A is supplying Bus 5 in parallel to the offsite power source. | ||
What occurs if the EMERGENCY VOLTAGE SHUTDOWN button for DG A is pressed? | |||
The associated PPT slide #92 covers the DG Control and Excitation Cabinet Controls, including the function of the Emergency Voltage Shutdown pushbutton. | A. A Bus 5 Lockout is generated B. Diesel Generator A engine trips. | ||
Page 4 WRITTEN EXAMINATION ITEM REVIEW DETAILED | C. Diesel Generator A engine will begin to motor. | ||
D. Breaker 1-509, DG A to Bus 5, trips Answer: D E-2022, Rev. N for DG A shows depressing the Local Panel Pushhutton, VOLTAGE SHUTDOWN, with DG speed greater than 700 rpm and the Voltage Shutdown RESET pushbutton NOT depressed, will provide and output signal to a NOT box and provide a seal in until the RESET button is depressed, This condition removes the input to the NOT box that feeds TRIP BREAKER 1-509. The Alarm Response sheet for 47094-A, DIESEL GEN A EXCITATION VOLT DEENERGIZED, Comment 1, Alarm is activated when DG A speed is > | |||
700 rpm AND Emergency Voltage Shutdown pushbutton has been depressed. The Recommended Action for the Annunciator is, 1. VERIFY Bkr 1-509 DG A to Bus 5 OPEN. | |||
R02-03-LP42A, Rev. B, Diesel Generators, section A.6.d. l).f) describes the Voltage Shutdown pushhutton operation. It states that the Voltage Shutdown provides for rapid DG voltage shutdown by, 1 ) puts a short circuit across the DG field windings; 2) prevents filed flash; and 3) trips DG output breaker. The associated PPT slide #92 covers the DG Control and Excitation Cabinet Controls, including the function of the Emergency Voltage Shutdown pushbutton. | |||
Page 4 | |||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 67. Given the following: -Waste Gas Decay Tank A is in service. -The relief valve for that tank, WG-I4A, lifts and fails to reseat. What is the effect on the plant? A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank. B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes. | : 67. Given the following: | ||
C. The release will NOT be automatically isolated, but will be monitored by the Aux Building Vent radiation monitors R-13 and R-14. D. The release will NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4. | -Waste Gas Decay Tank A is in service. | ||
Answer: C Per drawings (OPERXK-100-132, Rev. AF) each WGDT relief goes to a common relief header that is routed into either the ducting for the SV Zone exhaust or the Aux. Bldg Ventilation exhaust headers (OPERM-604 and OPERM-601, respectively). | -The relief valve for that tank, WG-I4A, lifts and fails to reseat. | ||
The ducting is a direct path to the Aux Bldg Vent that is sampled by R-13 and R-14. | What is the effect on the plant? | ||
R02-01-LP045, Rev. B, Radiation Monitoring, section G.2.c describes the function for R-13 and R-14 of continuously monitoring the Aux Bldg vent flow path. It also states the detectors are high sensitivity bets-gamma used to measure gaseous activity of air discharged out the stack. AOI-81-LP32B, Rev. A, Gaseous Waste Processing | A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank. | ||
& Discharge, section C.5.f describes the Waste Gas Decay Tank relief valves. | B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes. | ||
The valves are set at 150 psig and relieve to the | C. The release will NOT be automatically isolated, but will be monitored by the Aux Building Vent radiation monitors R-13 and R-14. | ||
Page 5 WRITTEN EXAMINATION ITEM REVIEW DETAILED | D. The release will NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4. | ||
Answer: C Per drawings (OPERXK-100-132, Rev. AF) each WGDT relief goes to a common relief header that is routed into either the ducting for the SV Zone exhaust or the Aux. Bldg Ventilation exhaust headers (OPERM-604 and OPERM-601, respectively). The ducting is a direct path to the Aux Bldg Vent that is sampled by R-13 and R-14. | |||
R02-01-LP045, Rev. B, Radiation Monitoring, section G.2.c describes the function for R-13 and R-14 of continuously monitoring the Aux Bldg vent flow path. It also states the detectors are high sensitivity bets-gamma used to measure gaseous activity of air discharged out the stack. | |||
AOI-81-LP32B, Rev. A, Gaseous Waste Processing & Discharge, section C.5.f describes the Waste Gas Decay Tank relief valves. The valves are set at 150 psig and relieve to the AUXBldg and Zone SV Exhaust. | |||
Page 5 | |||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 76. Given the following: -The plant was stable with reactor power at 100%. -A reactor trip and safety injection occurred due to a Pressurizer PORV failing - All safeguards equipment has responded per design. - The crew implemented E-0 and transitioned to E-I, Loss of Reactor or - The failed PORV has just been isolated. - The crew is currently performing Step 12 of E-I, "Check If SI Should Be | : 76. Given the following: | ||
Terminated". | -The plant was stable with reactor power at 100%. | ||
Which Combination of SI Termination Criteria is expected to be satisfied at this point? A. Pressurizer level AND secondary heat sink 6. RCS subcooling AND secondary heat sink C. Pressurizer level AND RCS subcooling D. Pressurizer pressure AND RCS subcooling Answer: A | - A reactor trip and safety injection occurred due to a Pressurizer PORV failing open and remaining full open. | ||
However, due to the low RCS pressure and likely RCS temperatures, RCS subcooling | - All safeguards equipment has responded per design. | ||
(> 30°F [65'F]) and | - The crew implemented E-0 and transitioned to E-I, Loss of Reactor or Secondary Coolant. | ||
- The failed PORV has just been isolated. | |||
- The crew is currently performing Step 12 of E-I, "Check If SI Should Be Terminated". | |||
Which Combination of SI Termination Criteria is expected to be satisfied at this point? | |||
A. Pressurizer level AND secondary heat sink | |||
: 6. RCS subcooling AND secondary heat sink C. Pressurizer level AND RCS subcooling D. Pressurizer pressure AND RCS subcooling Answer: A l h i s is a similar event to the Three Mile Island accident and gives conditions where RCS pressure would be low, RCS CET temperatures would remain relatively high and PRZR level would remain high due to the leak location and voiding in the vessel head. In this instance it should be recognized that PRZR level would be 1 5% as required for the SI Termination Criteria and that since the secondary is unaffected, SG levels ( > 4% [IS%] NR level) OR AFW flow requirements ( > 205 gpm available) would also be acceptable. However, due to the low RCS pressure and likely RCS temperatures, RCS subcooling ( > 30°F [65'F]) and P U R pressure ( | |||
2200 psig [2000 psig]) are unlikely to be met. | |||
Page 6 | |||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
: 98. Given the following: -A LOCA has occurred -A radioactive spill has occurred in the Auxiliary Building. - | : 98. Given the following: | ||
- A LOCA has occurred | |||
- A radioactive spill has occurred in the Auxiliary Building. | |||
- A n SITE EMERGENCY has been declared. | |||
-All ERO positions have been filled. | |||
- Entry into the Auxiliary Building is required to repair the leaking flange on the RHR system | |||
- Estimated dose for the entry and work is 7 REM TEDE. | |||
What are the MINIMUM requirements that must met for this entry into the Auxiliary Building? | |||
A. EPIPF-AD-11-04, Emergency Exposure Authorization, and EPIPF-AD-11-01, Emergency Radiation Work Permit, must be completed and approved prior to entry. | |||
B. EPIPF-AD-11-04, Emergency Exposure Authorization, must be completed and approved prior to entry, and the individuals must sign onto the existing Maintenance Radiation Work Permit prior to entry. | |||
C. If a Priority Entry is made, EPIPF-AD-11-04, Emergency Exposure Authorization, must be completed and approved prior to entry, and EPIPF-AD-11-01, Emergency Radiation Work Permit, must be completed immediately following the completion of the entry. | C. If a Priority Entry is made, EPIPF-AD-11-04, Emergency Exposure Authorization, must be completed and approved prior to entry, and EPIPF-AD-11-01, Emergency Radiation Work Permit, must be completed immediately following the completion of the entry. | ||
D. If a Priority Entry is made, EPIPF-AD-11-04, Emergency Exposure Authorization, and the individuals must log entry on the existing Maintenance Radiation Work Permit immediately following the completion of the entry. Answer: A The requirements for a completing an ERWP and the Emergency Exposure Authorization Form prior to entry into an area where IOCFR20 dose limits are likely to be exceeded is covered in EPIP-AD-11. | D. If a Priority Entry is made, EPIPF-AD-11-04, Emergency Exposure Authorization, and the individuals must log entry on the existing Maintenance Radiation Work Permit immediately following the completion of the entry. | ||
The identification that such an entry is NOT a | Answer: A The requirements for a completing an ERWP and the Emergency Exposure Authorization Form prior to entry into an area where IOCFR20 dose limits are likely to be exceeded is covered in EPIP-AD-11. The identification that such an entry is NOT a Priority Entry is also provided there and in EPIP-RET-02D. | ||
EPI-01 -LPOOl, Rev. B, Emergency Preparedness Overview, section I.4.d.2 states that under certain circumstances | EPI-01 -LPOOl, Rev. B, Emergency Preparedness Overview, section I.4.d.2 states that under certain circumstances 10CFR20 limits may be exceeded during major radiation emergency and the approval of the ED is required. | ||
EPI-01-011, Rev. B, Emergency Actions For The SRO, section F.Z.a.Z).b) provides identification of the responsibility of authorizing exposures in excess of 1 OCFR20. Section Page 7 WRITTEN EXAMINATION ITEM REVIEW DETAILED | EPI-01-011, Rev. B, Emergency Actions For The SRO, section F.Z.a.Z).b) provides identification of the responsibility of authorizing exposures in excess of 1 OCFR20. Section Page 7 | ||
WRITTEN EXAMINATION ITEM REVIEW DETAILED | |||
==SUMMARY== | ==SUMMARY== | ||
H.5.a. l).b) identifies EPIP-AD-11 | |||
H.5.a. l).b) identifies EPIP-AD-11 Emergency Radiation Controls as the means of controlling exposures for the emergency workers. | |||
The associated PPT does not cover this but under PARS identifies the Kegulatory Requirements of 10CFR50.47 for controlling does to on-site workers. | The associated PPT does not cover this but under PARS identifies the Kegulatory Requirements of 10CFR50.47 for controlling does to on-site workers. | ||
l h i s may be an area for improvement in preparation for NRC examination, as emergency exposures do not appear to be specifically covered. | |||
Page 8}} |
Revision as of 22:39, 23 November 2019
ML060340011 | |
Person / Time | |
---|---|
Site: | Kewaunee |
Issue date: | 11/14/2005 |
From: | Johnson S Dominion Energy Kewaunee |
To: | Office of Nuclear Reactor Regulation |
Shared Package | |
ML060060458 | List: |
References | |
50-305/05-301 50-305/05-301 | |
Download: ML060340011 (56) | |
Text
FACILITY POST-EXAMINATION COMMENTS
-
FOR THE KEWAUNEE INITIAL EXAMINATION NOVEMBER 2005
Dominion Energy Kmaunee, Inc.
N4N Highway 42, Kewauncc. W 54215-951 I Dominion Regional Administrator, Region 111 Serial No.05-815 U S . Nuclear Regulatory Commission KPS/LIC/MJH: RO 2443 Warrenville Road Docket No. 50-305 Suite 210 License No. DPR-43 Lisle, IL 60532-4352 NOV 2 4 2005 ATTENTION: Mr. Bruce Palagi, R-III/DRS OOMlNfON ENERGY KEWAUNEE, INC.
KEWAUNEE POWER STATION OPERATOR LICENSE EXAMINATION In accordance with the requirements of NUREG-1021, ES-501, the required post-examination material and the written examination facility comments are enclosed.
Forms ES-201-3, Examination Security Agreement, will be forwarded to you as soon as the required signatures are obtained.
A review was conducted of the RO/SRO written examination administered Friday, November 18, 2005, at the Kewaunee Power Station. The review identified errors in two questions that were not identified prior to exam administration. The following is being requested:
1 %n # i SRO Exam #
1 Comment Supporting Documentation 34 34 Accept two correct answers Enclosures 2,3 Accept the post-exam pen and ink 67 67 Enclosures 4,5 change. The answer remains the same.
We apologize for any inconvenience this may cause.
Very truly yours, m & .
Michael . aff v Site Vice P r e s i d u Kewaunee Power Station Enclosures Commitments made by this letter: NONE cc: Without enclosures Mr. S. C. Burton NRC Senior Resident Inspector Kewaunee Power Station Serial No.05-815 Operator License Examination
Dominion Energi Kcwaunee, Inc.
N490 Highway 42.Kcwaoncc, W 54216-951 I Dominion DEC I 5 2005 Regional Administrator, Region 111 Serial No. 05-815A U. S. Nuclear Regulatory Commission KPS/LIC/GR: RO 2443 Warrenville Road Docket No. 50-305 Suite 210 License No. DPR-43 Lisle, IL 60532-4352 Attention: Mr. Bruce Palagi, R-III/DRS DOMINION ENERGY KEWAUNEE, INC.
KEWAUNEE POWER STATION OPERATOR LICENSE EXAMINATION CORRECTION -
In a letter dated November 24, 2005, Dominion Energy Kewaunee, Inc. (DEK) submitted post-examination material and the written examination facility comments.
The letter enclosures were marked WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390. On further review, DEK determined that some of the information submitted did not meet the criteria of 10 CFR 2.390.
Therefore, DEK requests that only the student names and the graded examinations be withheld from public disclosure under 10 CFR 2.390.
If you have questions or require additional information, please feel free to contact Mr.
Gerald Riste at 920-388-8424.
Very truly yours, e Power Station Commitments made by this letter: NONE cc: S. C. Burton NRC Senior Resident Inspector Kewaunee Power Station
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No.05-815 Enclosure 1 OPERATION LICENSE EXAMS WRITTEN EXAMINATION FACILITY COMMENTS KEWAUNEE POWER STATION DOMINION ENERGY KEWAUNEE, INC.
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390
Serial No.05-815 Operator License Examination Enclosure 1 - page 1 of 2
- 34. Given the following:
- The plant is at 100% power.
- AFW Pump B is running for a surveillance test in progress.
- Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms.
What is the expected operator response for this condition?
A. Trip AFW Pump B, and go to N-FW-O5B, Auxiliary Feedwater System.
B. Trip AFW Pump B and go to A-FW-056, Abnormal Auxiliary Feedwater System Operation.
C. Verify the Auxiliary Lube Oil Pump is running, and go to N-FW-O5B, Auxiliary Feedwater System.
D. Verify the Auxiliary Lube Oil Pump is running, and go to A-FW-O5B, Abnormal Auxiliary Feedwater System Operation.
Answer: D Recommendations:
Accept both B and D as correct operator actions.
The premise states, Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms, but does not provide additional cuing as to the continuing alarm status. However, without providing indication of what the current oil pressure value and trend is, the operator cannot make a valid decision as to the appropriate action between the two selections mentioned above. AFW Pump B Aux Lube Oil Pump starts at the same setpoint as when this alarm actuates (< 10 psig). But if lube oil pressure is continuing to drop, the AFW pump will trip at I 4 psig lube oil pressure. It would be prudent to stop the A W Pump prior to the lube oil pressure reaching this point if the pressure were continuing to decrease. Without the oil pressure value or trend information, the operator relies on conservative decision making skills and operating judgment as to which action is appropriate. UG-0, Users Guide For Emergency And Abnormal Procedures, section 6.1.2, provides during abnormal conditions, an operator has the authority to take action that is clearly needed based on observed condition. It is recommended that two answers be accepted, 6 and D , for the given conditions. The bank question will be changed appropriately to solicit only one correct answer.
Serial No.05-815 Operator License Examination Enclosure 1 - page 2 of 2
- 67. Given the following:
- Waste Gas Decay Tank A is in service.
- The relief valve for that tank, WG-l4A, lifts and fails to reseat.
What is the effect on the plant?
A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank.
B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes.
C. The release will NOT be automatically isolated, but will be monitored by the Aux.
Building Vent radiation monitors R-13 and R-14.
D. The release will _NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4.
Answer: C Recommendations:
A pen and ink correction is required to properly identify the Waste Gas Decay Tank A relief valve. The actual valve nomenclature is WG-13A.
The premise identifies the Waste Gas Decay Tank A Relief Valve as WG-14A. The actual valve identifier is WG-13A. It is believed that this error does not invalidate the question but should be treated as a typographical error. WG-14A is not the relief valve but has the nomenclature, WG-14NCV-31209 Waste Gas Tank 1A to Holdup Tanks.
During the examination no individual questioned the difference between the valve number and the description provided. If someone thought the valve in question was other than the Waste Gas Decay Tank Relief, this should have been questioned during this time.
Since the valve WG-14A is not a relief valve it does not lift but may fail open. This valve does align the Waste Gas Decay Tank to vent header and provides cover gas for the HUT. It is normally open when the waste gas decay tank is providing the cover gas.
The only limitations on operation per N-GWP-32B are 1) Normally the gas decay tank with the highest pressure (greater than 8 psig and NOT on holdup for decay) should be selected for cover gas; and 2) when the Boric Acid Evaporator is running, the gas decay tank on fill shall not be selected to provide cover gas to the vent header. Also any gas decay tank less than 110 psig may be selected for fill. WG-15 is a regulating valve that maintains the CVCS HUT cover gas pressure. None of the above conditions are affected by the question. Therefore, it is incorrect to assume that the vent header ruptures, releasing the gas.
COLLECTED STUDENT EXAM ITEM FEEDBACK
SUMMARY
AND RESPONSE
- 32. Given the following:
-The plant startup is in progress.
- Reactor power is 1.4%.
- FW-07A & B, S/G Main Feed valves, AND FW-IOA & B, S/G Bypass Feed valves, indicate closed.
- Feedwater Pump A has just been started.
- SG B level begins to slowly rise.
What action is required?
A. Direct the NAO to locally close FW-9B. Feedwater Main Control Valve I 9 Bypass Valve Inlet.
B. Cycle FW-IOB, S/G B Bypass, fully open and closed.
C. Close FW-12B. S/G B Feedwater Isolation Valve.
D. Stop Feedwater Pump A Answer: C Student Comment:
Accept 2 answers: (C) Also if level was near the high level trip @ 67%)stopping the FW Pump is a viable answer to preclude damage to secondary system and turbine.
Resolution and Comments There is only one correct answer for the given conditions Based on the given conditions, guiding procedures are N-0-02, Plant Startup From Hot Shutdown to 35% power, and N-FW-OSA, Feedwater System Normal Operation. Per N-0-02, the initial conditions are SG NR level is maintained between 33% and 50%. The question gives no reason for NOT having this level band established. Furthermore, conditions in the premise state that SG B level begins to slowly rise. Thus there is no basis for assuming SG level is near or approaching the SG Feedwater Isolation setpoint of 67%.
The correct answer for closing the affected SG Isolation MOV is the result of operational experience and is procedurally directed i n N-FN-OSA. The NOTE and actions or stcp 4. I .4.j (CAS) are taken immediately after starting a FW Pump. (See attachcd page.)
No action required.
References:
N-0-02, Rev. AR, Initial Condition 3.7 and step 4.22.
N-FW-OSA, Rev. AD, steps 4.1.4.i and 4.1.4.J.
- 34. Given the following:
- T h e plant is at 100% power.
- AFW Pump B is running for a surveillance test in progress Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms What is the expected operator response for this condition?
A. Trip AFW Pump E, and go to N-FW-OSB, Auxiliary Feedwater System.
B. Trip AFW Pump B and go to A-FW-OSB, Abnormal Auxiliary Feedwater System Operation.
C. Verify the Auxiliary Lube Oil Pump is running, and go to N-FW-OSB, Auxiliary Feedwater System.
D. Verify the Auxiliary Lube Oil Pump is running, and go to A-FW-OSB. Abnormal Auxiliary Feedwater System Operation.
Answer: D Student Comment:
Per the stem of the question, we are in a surveillance test with Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, ON. With that alarm on steady it raises a question with the Aux Lube Oil System that it is not operating properly. (It auto starts at IO# and cycles off at IS.S#.)
With both the shaft-driven lube oil pump and the aux lube oil [pumps] because the alarm is not clearing. The AFW Pump is being run to support the surveillance procedure, not to rcmove decay heat. Per UG-0 (Rev. F), Users Guide For Emergency And Abnormal Procedures, section 6.1.2, during abnormal conditions, an operator has the authority to take action that is clearly needed based on observed condition. With the annunciator 47061-M not clearing, there is a lube oil problem. Conservative Decision Making, would require we stop the [AFW] pump.
My recommendation is to accept answer B as well as D, per the Key Resolution and Comments The student is incorrect in assuming the alarm is in steady. The premise states, Annunciator 47061-M, AFW PUMP B LOW OIL PRESS, alarms, but does not provide additional cuing as to the continuing alarm status. However, without providing indication of what the current oil pressure value and trend is, the operator cannot make a valid decision as to the appropriate action between the two selections mentioned above. B AFW Pump aux lube oil pump starts at the same setpoint as when this alarm actuates (< 10 psig). But if lube oil pressure is continuing to drop, the AFW pump will trip at E 4 psig lube oil pressure. It would be prudent to stop the AFW Pump
prior to the lube oil pressure reaching this point, if the pressure were continuing to decrease It is recommended that two answers be accepted - B and D.
The Evaluation Instruments required change and the question requires change to identify the lube oil pressure value and trend, if D is to be the only correct answer.
References:
47061-M Alarm Response Sheet, Rev. A.
UG-0 Rev. F, step 6. I .2 A-FW-OSB, Rev. AL, Automatic Actions 3.1 and 3.3; and step 9.
- 44. Which of the following situations requires entry into a Technical Specification LCO Action?
A. Pressurizer Pressure Transmitter P-429 fails low while at 3810 power, B. Pressurizer level decreases to less than 17% with a reactor startup in progress.
C. Pressurizer Backup Heaters energize after a 8% load reduction D. Pressurizer Pressure Transmitter P-449 fails high while on RHR Cooling Answer: A Student Comment:
Accept 2 answers. Answer D is also correct. The ACTION if conditions cannot be met is to MAINTAIN HOT SHUTDOWN. The ACTION must still be entered even if it is already satisfied. Action must be maintained to maintain these conditions.
Resolution and Comments By the definition from Technical Specifications, LIMITING CONDITIONS FOR OPERATION are those restrictions on reactor operation, resulting from equipment performance capability that must he enforced to ensure safe operation of the facility.
PT-449 does serve a safety function in that it provide a reactor trip on low PRZR pi-essure and one OTDT channel when the plant is operating above the P-7 setpoint (3/4 Power Range Nuclear Instruments channels c 10% AND 2 of 2 Turbine Impulse Pressure Channels < 10% power). The Functional Unit No. 7 (TABLETS 3.5-2) has a PREMISSIBLE BYPASS CONDITIONS of P-7.
Functional Unit No. 5 (OTDT) does not have PREMISSIBLE BYPASS CONDITIONS. BOTH have an action that if MINIMUM OPERABLE CHANNELS ( 3 ) or MINIMUM DEGREE OF REDUNDANCY ( I ) are not met then the operator must maintain HOT SHUTDOWN.
With the plant on RHR Cooling, the reactor must be shutdown and RCS WR Hot Leg temperature is < 400°F and RCS pressure is f 425 psig. The plant is in INTERMEDIATE SHUTDOWN, and therefore, the LCO for PT-449 does not apply.
Rather than listing the LCO restraint, the out of service item is controlled through its associated Work Order, and this is controlled to ensure completion and retuin to service before the Technical Specification required time by tying to the Mode Change Checklist. This ensures that LCO conditions are identified and entry prevented by changing plant conditions.
A is the only correct answer, for. which entry into the LCO conditions for TABLETS 3 . 5 2 Functional Unit No. 5 (OTDT trip), TABLETS 3.5-2 Functional Unit No. 7, TABLETS 3.5-2 Functional Unit No. 8 (High Przr Pressure trip), and TABLE TS 3.5.3 Functional Unit No. I .d
(Pressurizer low pressure Safety Injection). The associated bistables for thc failed channcl must be tripped within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> per A-MI-87.
No action required.
References:
Technical Specifications, TS 3.5 and TABLES as listed.
A-MI-87, Rev. R Introduction 1.1 GNP-08.04.04-1 Rev. G, Form GNP-08.04.04-1 GNP-I 1.08.01Rev. U, 6.4.3.1.
- 62. Given the following:
Plant is at 90%)power
- Power Range Instrument N-42 fails and is removed from service per A-MI-87, Bistable Tripping for Failed Reactor Protection or Safeguards Inst.
- The surveillance for SP-47-01 IA, Reactor Coolant Temperature and Pressurizer Pressure Instrument Channel I (Red) Calibration, comes due.
- The decision is to bypass the failed NIS channel inputs to allow the calibration (Technical Specification 3.5.d).
What is the coincidence for the OTDT reactor trip while the surveillance is in progress?
A. 2 o u t o f 2 B. 2 o u t o f 3 C. 1 out o f 4 D. I out of 3 Answer: B Student Comment:
In a normal lineup, the OTDT trip coincidence is 2/4 (4 channels provide input, 2 reqd to actuate). With N-42 input to Chan I1 OTDT trip bypassed, only 3 channels provide input; 2 are still reqd to actuate, therefore coincidence = 2/3. During SP-47-01 IA, aftcr initial switch lineups and verifications, the bistables associated with the RED Channel Pressure / Temperature trips are placed in TEST. After that step (3 channels still provide input; 1 more -BLUE or YELLOW - is reqd to actuate the trip), therefore the coincidence becomes 1/3. The correct answer depends on which actions of SP-47-01 IA have been completed. This information is not provided, only that
. , . the surveillance is in progrcss. As written, B and D are correct. I recornmcnd accepting both.
Resolution and Comments The coincidence does depend on the step one is performing in the procedure. At Step 6.3.17 the associate bistables are placed in TEST (tripped). The bistables are restored to NORMAL at step 6.10.15 near the end of the surveillance. During the period between these steps the coincidence is 112 for tripping the reactor. Since the one channel is already tripped, it takes the input from one of the remaining two channels to trip the reactor. The overall coincidence for the trip is still 2 3 (with the fourth channel bypassed), but the situation is the one channel of trip input is alrcady
made up. 1 out of 2 is not a listed selection An individual later requested clarification of the status of performing the surveillance. It was answered that the surveillance had not yet been entered. This information was provided to all students in the room at that time. The individual providing this feedback was not in the room, as he had completed his examination earlier.
No change required
References:
SP-47-01 IA Rev. M, steps 6.3.17 and 6.10.15 (pages 16 and 99)
KNPP Technical Specification Table TS 3 5 - 2 , No. 5 , Amend No. 137
- 63. Given the following:
-Power level IS 99.9% (1771.5 MWt)
- The current UFMD and RTO OPERATING LIMITS are 1772 MWt
- SP-87-125, Shift Instrument Channel Checks - Operating, calorimetric was completed 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> ago.
- The signal is lost to PPCS from Feedwater Flow channel FT-476
-The RTO I-minute average, PPCS point RSIIOG, drops to 1200 MWt
- The Computer Group reports the signal will be restored within 10 minutes What is the affect on the UFMD and RTO Operating Limits, and what action is taken when the flow channel input is restored and RS110G reads normal?
A. Both the UFMD and RTO Operating limits will read 1749 MWt.
When the signal is restored, the operator will click the APPLY UFMD LIMIT hutton on the PPCS UFMD Correction Factors screen to return both limits to 1772 MWt.
B. The UFMD Operating Limit will read 1749 MWt and RTO Opciating Limit will read 1772 MWt.
Power will be reduced to less than 1749 MWt, and when the signal is restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Corrcction Factors screen to return the UFMD limit to 1772 MWt.
C. Both the UFMD and RTO Operating limits will read 1769 MWt When the signal i s restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Correction Factors screen to return both limits to 1772 MWt.
D. The UFMD Operating Limit will read 1769 MWt and RTO Operating Limit will read 1772 MWt.
Power will be reduced to less than 1769 MWt, and when the signal is restored, the operator will click the APPLY UFMD LIMIT button on the PPCS UFMD Correction Factors screen to return the UFMD limit to 1772 MWt.
Answer: A Student Comment:
No Correct Answer. When the flow channel is returned, the UFMD will go to 1772 with only 10 minutes of data lost. When clicking the APPLY UFMD LIMIT button, this &changes the RTO Limit, not both the RTO and the UFMD Limit. This is supported by N-0-03 step 4.1.14.c. The action of clicking the button does not affect both limits.
Resolution and Comments The information about reset of the RTO and UFMD Limits is true. When the feed flow is restored above 70% reactor power equivalent the UFMD Operating Limit will automatically reset to 1772. To restore the RTO Operating Limit the operator must depress the APPLY UFMD LIMIT button. Then the RTO Limit will be reset to 1772. Selection A describes this condition.
To have both the UFMD Operating Limit AND the RTO Operating Limit read 1772, the operator must click the APPLY UFMD LIMIT button.
There was no clarification requested for this question during the examination No change required
References:
N-0-03 Rev. AW, step 4.1.14.c
- 67. Given the following:
- Waste Gas Decay Tank A is in service
- The relief valve for that tank, WG-I4A, lifts and fails to reseat What is the effect on the plant?
A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank.
B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes.
C. The release will NOT be automatically isolated, but will be monitored by the Aux. Building Vent radiation monitors R-13 and R-14.
D. The release will NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4.
Answer: C Student Comment:
In the stem of the question it lists WG-14A as the relief valve for WGDT A. It is not. The stem of the question is wrong. If WG-14A were to lift at full tank pressure it could rupture the vent header and R-4 could be a possible answer. Recommendations: Accept both answers C and D and revise question.
Resolution and Comments While the question does use the incorrect valve identifier number, WG-14 A versus WG-I3A, it does identify the valve as the relief valve for that tank. WG-I4A is not the relief valve but has the nomenclature, WG-14A/CV-31209 Waste Gas tank 1A to Holdup Tanks. During thc examination no individual questioned the difference between the valve number and the description provided. If someone thought the valve in question was other than the Waste Gas Decay Tank Relief, this should have been questioned during this timc. The valve number e r o r is a typographical error and does not affect the quality of the question.
Since the valve WG-14A is not a relief valve it does not lift but may fail open. This valve does align thc Waste Gas Decay Tank to vent header and provides cover gas for the HUT. It is normally open when the waste gas decay tank is providing the cover gas. The only limitations on operation per N-GWP-32B are 1) Normally the gas decay tank with the highest pressure (greater than 8 psig and NOT on holdup for decay) should be selected for cover gas; and 2) when the Boric Acid Evapomtor is running. the gas decay tank on fill shall not be selected to provide cover
gas to the vent header. Also any gas decay tank less than 110 psig may be selccted for fill. WG-15 is a regulating valve that maintains the CVCS HUT cover gas pressure.
No of the conditions above are affected by the question so it unsupported in assuming the vent header ruptures releasing the gas.
While the charging Pump room, the location of R-4 monitor, is on the same elevation and in the near vicinity of the Waste Gas Decay Tank cubicles, each is provided with separate ducting to the plant exhaust vent. With flow rates in the ventilation system of 300 CFM for the WGDT vault and 850 CFM for the Charging Pump room. It is unlikely a leak would bee detected by R-4.
However this same leak would be detected by R-13 and R-14.
The Evaluation does not require change. A Question Change is required to correct the valve identifier number.
References:
N-GWP-32B, Rev. AD, section 2.0 and step 4.2.1 OPERM-604, Rev. BE (blown-up)
OPERM-601, Rev. CP (blown-up)
S I . Given the following:
- T h e plant is at 100% power.
- Surveillance Test SP-42-312B, Diesel Generator B Availability Test, is in progress with DG B running.
- Component Cooling Pump B trips on overcurrent.
- BRB-104, ckt 10 supplying DG B tripped open and CANNOT he closed.
What is the effect of this condition?
A. DG B is inoperable and must have its fuel supply locally isolated A plant shutdown must commence within one hour using the Standard Shutdown Sequence (Technical Specification 3.0.c).
B. DG B is Degraded but Operable and can be controlled locally.
A 24-hour LCO is applicable for restoration of the DC Distribution System and a 72-hour LCO is applicable for restoration of Component Cooling Pump B.
C. DG B is inoperable and must have its fuel supply locally isolated.
A 72-hour LCO is applicable for restoration of Component Cooling Pump B and a 7-day LCO is applicable for restoration of DG B.
D. DG B is Degraded but Operable and can be controlled locally.
Only the 72-hour LCO is applicable for restoration of Component Cooling Pump B Answer: C Student Comment:
This question has two answers dependent on the time frame. Answer C is correct initially at the failure. The 2danswer is A, A is correct as well due to the following. With B DG OOS, A DG must be tested every 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to verify operability. In order to test A DG, all B train ESF equipment is required to be OPERABLE 9as indicated in SP-42-3 12A). Since B CC Pump is OOS, this condition is not satisfied and therefore 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> to commence a shutdown applies.
Resolution and Comments The conditions given do not warrant this extrapolation of conditions. Applied to the current conditions, the Technical Specifications that apply are for DG B and CC Pump 6 . TS 1.3.d.2 list
a 72-hour LCO for the CC Pump and TS 3.7.b.2 & 3.7.c identify a 7-day LCO for restorins the DG. This i s the condition that applies at the time given. (It does not indicate when the CC Pump or the DG is actually returned to service.)
If the time period came when DG A was required to be run per SP-42-3 12A, then the TS requirement for Train B equipment would need to be addressed. If this were the condition, then this information would have been included in the question premise.
No action required.
References:
Technical Specification 3.3.d.2, Amend No.116, page TS 3.3-6 Technical Specification 3.7.b.2 & 3 . 7 . Amend
~ No. 122, page TS 3.7-2
A. Preclude excessive SG tilts due to cooler feedwater supplied to ONE SG.
B. Prevent overfill of the SG that may result in damage to secondary components C. Ensure containment pressure remains within maximum internal pressure limit with the affected SG faulted inside containment.
D. Protect the Feedwater Pumps from operating in runout condition with FW-7A/B, S/G A/B Main Valve, fully open.
Answer: B Student Comment:
Accept 2 answers: C & B Per USAR Section 14, pages 14.2. 21-25, one of the 4 major factors that influence release of mass and energy is SIG water level (fluid inventory). The analysis was based on 445% NRL
- uncertainties. Having too much inventory is a reason to challenge containment integrity.
Resolution and Comments The concern above is true, and that is why SG level is maintained i n the normal band during operations. However this does not address the specific reason for having the Feedwater Isolation signal on SG high level. The isolation occurs to prevent SG overfill. SG Overfill may result in damage to secondary components, including erosion of turbine blades due to high moisture steam.
No action required
References:
KNPP Technical Specification Basis Main F W Isolation, page TS B3.5-2
- 90. Given the following:
- The plant has experienced a fire in the Control Room.
- The actions of E-0.06, Fire In Alternate Fire Zone, are being performed What are the indications of an air dryer filter failure, and what are the procedural actions performed by the Control Room Supervisor to mitigate the consequences of this failure.
A. Instrument Air DrierRilter IA/IB differential pressure will rise above 5 psid The CRS will verify SA-121, Air DrierRilter Bypass CV, opens.
B. Instrument Air DrierFilter IC differential pressure will rise above 10 psid.
The CRS will open SA-IOOA, Air Drier 1A Supply, and IA-300, 1 1/2 Alt IA, and then request the Control Operator A to start Air Compressor B.
C. Instrument air header pressure will drop below 95 psig The CRS will depress the Air Drier IC RESET pushbutton to confirm problem, and then align flow through Instrument Air Drier 1B.
D. Instrument air header pressure will drop below 100 psig.
The CRS will open SA-70 and SA-71, I 1/2 Dedicated Instrument Air Header Isolations, that bypass the Instrument Air Driers.
Answer: D Student Comment:
A failure of IA Dryer is more likely to result in a high DIP across IA-I21 well before IA pressure begins to degrade. The opening of IA-121 is an Immediate Automatic action that should be verified by the local operator, in this case, the CRS Opening SA-70 and [SA-] 7 I is directed by E-0-06, but not i n response to this Failure. This is the path that is provided to supply the Dedicated IA header from Air Compressor C. However, since this line does effectively bypass the Instrument Air Dryers, both answers A and D are correct responses. I rccornmend accepting both for credit and revising the question.
Resolution and Comments Indeed SA-I21 will open in response to a high differential pressure across the Air DryedFilter, and the actions under normal conditions would be to verify this valve is open (as directed by the annunciator alarm condition). However in this situation the control room is evacuated and E-O-06 is in progress. As the question asks, what are the actions that mitigate this condition? The
answer is the Air Dryers are bypassed by opening the Dedicated Air Header isolations, which supply the air directly through a separate in-pipe air dryer.
A is not a correct answer because the CRS does not verify this path, and actually isolates this path when performing step 19. By closing SA-IOOB and SA-2C, the air supply from Compressor C (which is the one to be verified working) is isolated to the Instrument Air Dryers A and B, and thus SA-I21 opening has NO effect.
No action required.
References:
E-0.06, Rev. Z , step 19.a.
OPERM-213-1. Rev. CD
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No.05-815 Enclosure 2 OPERATION LICENSE EXAMS ALARM RESPONSE SHEET ANNUNCIATOR 47061-M, AFW PUMP B LOW OIL PRESS DOMINION ENERGY KEWAUNEE, INC.
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390
FW-OSB 1 ANNUNCIATORNUMBER: ~
47061-M SER FT A B C D E F G H I J K L M N O P Q R S T U V W 185 1 AFW PUMP 2
3 ZOMPUTERFT None 5 LOW OIL PRESS BETA WINDOWBOX 08 NSTR-B AFW Pump Breaker 1-604 SETPOINT:
PS-16018 < 10 ps'g AND B AFW Pump Bkr CLOSED RECOMMENDED ACTION:
- 1. A-FW-OSB.
COMMENTS:
1 . B AFW Pump auxiliary lube oil pump auto starts at lube oil pressure < 10 psig.
- 2. E lube oil pressure decreases to 5 4 psig, Auxiliary Feedwater Pump B will trip YUCLEAR SAFETY YES 0 PORC REVIEW YES 0 SRO APPROVAL OF TEMPORARY CHANCES YES
- ELATED NO REQUIRED NO REQUIRED 0
LEVIEWED BY E p%ti%? c, DATE St 17/94 REV DATE 5117194 rPPROVED BY DATE SI 17/94 REV A
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No.05-815 Enclosure 3 OPERATION LICENSE EXAMS UG-0 USERS GUIDE FOR EMERGENCY AND ABNORMAL PROCEDURES SECTION 6.1 DOMINION ENERGY KEWAUNEE, INC.
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390
WISCONSIN PUBLIC SERVICE CORPORATION KEWAUNEEWUcLeAplylwEEPLAN7' I U s e r ' s Guide For Emergency And Abnormal Procedures OPERATING PROCEDURE DATE J U N 25 2005 PAGE 6 of 32 5.0 Procedure 6.1 General ODeratinq G u i d e l i n e s For Abnormal C o n d i t i o n s
- 1. When t h e need f o r a t u r b i n e t r i p , r e a c t o r t r i p . o r s a f e t y i n j e c t i o n i s imminent o r u n a v o i d a b l e , t h e o p e r a t o r s h o u l d i n i t i a t e t h e s e s i g n a l s m a n u a l l y whenever p o s s i b l e .
- a. I f a manual t u r b i n e t r i p . r e a c t o r t r i p o r s a f e t y i n j e c t i o n i s deemed necessary, t h e crew member recommending o r o r d e r i n g t h e a c t i o n s h o u l d s t a t e t h e reason f o r t h e a c t i o n . T h i s w i l l a l l o w t h e r e m a i n i n g crew members t o i n d e p e n d e n t l y e v a l u a t e t h e c u r r e n t p l a n t c o n d i t i o n s and v a l i d a t e o r r e f u t e , a s necessary.
t h e need f o r t h e manual a c t i o n .
- b. I f p l a n t c o n d i t i o n s w a r r a n t , t h e SM o r CRS may choose t o a l l o w automatic a c t u a t i o n o f these p r o t e c t i v e features.
- 2. D u r i n g abnormal and emergency c o n d i t i o n s . an o p e r a t o r has t h e a u t h o r i t y t o t a k e a c t i o n t h a t i s c l e a r l y needed based on observed p l a n t conditions before being d i r e c t e d by procedures. provided such a c t i o n i s n o t c o n t r a r y t o t h e p r o c e d u r e c u r r e n t l y i n e f f e c t and does n o t hamper t h e c o m p l e t i o n o f t h e p r o c e d u r e s t e p s .
- 3. Automatic c o n t r o l s n o t p e r f o r m i n g t h e i r i n t e n d e d f u n c t i o n s h o u l d be m a n u a l l y c o n t r o l l e d .
- 4. Components which r e q u i r e manual c o n t r o l s h a l l be r e p o r t e d t o t h e p r o c e d u r e r e a d e r when t h e a p p l i c a b l e s t e p i s read.
- 5. A l l f a i l u r e s o f p l a n t components s h a l l be r e p o r t e d t o t h e CRS a n d l o r SM.
- 6. A n n u n c i a t o r s s h a l l be p r o m p t l y noted, acknowledged. and v e r i f i e d a g a i n s t p l a n t c o n d i t i o n s p e r FP-OP-COO-01. CONDUCT OF OPERATIONS.
- 7. Concerns o r o b j e c t i o n s t o t h e s t a t e d o r i n t e n d e d c o u r s e of a c t i o n a l o n g w i t h t h e b a s i s f o r t h e s e concerns o r o b j e c t i o n s s h a l l be made known as soon a s p o s s i b l e .
- a. I f t i m e p e r m i t s . t h e s t a t e d concerns o r o b j e c t i o n s s h a l l be d i s c u s s e d w i t h and r e s o l v e d by t h e SM a n d / o r CRS.
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No.05-815 ENCLOSURE 4 OPERATION LICENSE EXAMS OPERATING PROCEDURE N-GWP-32B GASEOUS WASTE PROCESSING AND DISCHARGE SYSTEM DOMINION ENERGY KEWAUNEE, INC.
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390
I WISCONSIN PUBLIC SERVICE CORPORATION I NO. N-GWP-326 REV AD I KEWAUNEENUCLEARPOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE I DATE AUG 23 2005 I PAGE 1 of 16 REVIBYBD BY Randall Giese I APPROVED BY Jefiey Simon NUCLEAR YES PORC REVIEW YES SRO APPROVAL OF YES SAFETY RELATED REQUIRED TEMPORARY CHANGES NO 0 NO REQUIRED NO DESIRED ACTIVITY STEP NUMBER I Startup
~~ ~ ~~ ~~~ ~ ~~~
I 4.1 S h i f t Gas Decay Tank on Cover 4.2.1 S h i f t Gas Decay Tank on F i l l 4.2.2 S e l e c t Gas Decay Tank f o r Standby 4.2.3 Add N i t r o g e n t o a Gas Decay Tank 4.2.4 Pump Down Vent Header 4.2.5 I Continuous Waste Gas Compressor O p e r a t i o n I 4.2.6 I s o l a t e Gas Decay Tank f o r SamplinglDecay Holdup 4.2.7 D i s c h a r g e Gas Decay Tank 4.2.8 I Drain Water From G a s Decay Tank I 4.2.9 T r a n s f e r Waste Gas Between Gas Decay Tanks 4.2.10 Shutdown 4.3 CONTINUOUS USE
I WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-328 Gaseous Waste P r o c e s s i n g and OPERATING PROCEDURE DATE AUG 23 2005 PAGE 2 of 16 2.0 PRECAUTIONS AND LIMITATIONS 2.1 I f t a n k d i s c h a r g e i s stopped p r i o r t o c o m p l e t i o n , v e r i f y Gas Decay Tank D i s c h a r g e P e r m i t has NOT e x p i r e d p r i o r t o r e s t a r t o f d i s c h a r g e .
2.2 More than one gaseous r a d i o l o g i c a l d i s c h a r g e s h a l l NDT be performed a t a time.
2.3 I f oxygen c o n c e n t r a t i o n i s g r e a t e r t h a n 4%. immediate c o r r e c t i v e a c t i o n i s r e q u i r e d . C o n t a c t C h e m i s t r y and R a d i a t i o n P r o t e c t i o n t o d e v e l o p an a c t i o n p l a n .
2.4 I f oxygen c o n c e n t r a t i o n i s g r e a t e r t h a n 2%. c o r r e c t i v e a c t i o n s h o u l d be t a k e n as r e s o u r c e s a l l o w . [PCR0128901 2.5 Equipment w h i c h has been opened t o atmosphere s h a l l have oxygen c o n c e n t r a t i o n v e r i f i e d l e s s t h a n o r equal t o 4% by volume p r i o r t o a l i g n i n g t h e equipment t o t h e v e n t header.
2.6 I f a Waste Gas Decay Tank i s t o be used t o c o l l e c t oxygen. such a s f r o m Reactor C o o l a n t f i l l and v e n t , hydrogen c o n c e n t r a t i o n s h o u l d b e l e s s t h a n o r equal t o 2%.
2.7 V e r i f y m o i s t u r e s e p a r a t o r w a t e r l e v e l g r e a t e r than o r equal t o 30%
b e f o r e m a n u a l l y s t a r t i n g a waste gas compressor.
2.8 When t h e B o r i c A c i d E v a p o r a t o r i s r u n n i n g . t h e Waste Gas Decay Tank on fill s h a l l NOT be s e l e c t e d t o p r o v i d e cover gas t o t h e v e n t header.
CACE0000031
I WlSCONSM PUBLIC SERVICE CORPORATION I NO. N-GWP-328 I KEWAUNEENUCLEARFOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 3 of 16 3.0 I N I T I A L CONDITIONS 3.1 N-GWP-326-CL complete.
3.2 Nitrogen i s aligned f o r backup c o v e r gas p e r N-GS-51-CL.
1.0 PROCEDURE 4.1 Startup NOTE: Any Gas Decay Tank l e s s t h a n 110 p s i g may be s e l e c t e d for fill.
-
NOTE: N o r m a l l y . Gas Decay Tank w i t h h i g h e s t p r e s s u r e
( g r e a t e r t h a n 8 p s i s NOT on h o l d u p f o r decay). s h o u l d be s e l e c t e d f o r cover gas.
NOTE: Gas Decay Tank w i t h l o w e s t p r e s s u r e i s n o r m a l l y s e l e c t e d f o r standby.
- 1. SELECT Gas Decay Tank t o be used f o r c o v e r gas.
- a. OPEN WG-14A(B.C.D). Gas Decay Tank t o Holdup Tank. f o r selected tank.
CAUTION When t h e B o r i c A c i d E v a p o r a t o r i s r u n n i n g . t h e Waste G a s Decay Tank on fill shall be s e l e c t e d t o p r o v i d e cover gas t o t h e v e n t header.
CACE0000031
- 2. SELECT Gas Decay Tank t o b e p l a c e d on F i l l .
- a. POSITION WG-ZOOA(B.C.D), Gas Decay Tank t o Gas A n a l y z e r . f o r s e l e c t e d t a n k t o MAN OVRD.
- b. VERIFY WG-IOA(8.C.D) OPEN. f o r t a n k t o r e c e i v e waste gas.
- 3. SELECT Gas Decay Tank t o be p l a c e d on Standby.
- a. P O S I T I O N Standby S e l e c t o r S w i t c h t o A(B,C,D) for selected tank.
CONTINUED
G N S M PUBLIC SERVICE CORPORATION
~~~~~ ~~
I NO. N-GWP-328 I KEWAUNEENUCLEARPOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 4 of 16 4.1 CONTINUED
- 4. VERIFY v e n t header p r e s s u r e on P1-1025/53102. g r e a t e r t h a n 0.5 p s i .
- 5. POSITION Waste Gas Compressor A and B c o n t r o l s w i t c h e s t o AUTO.
4.2 Steady S t a t e
__
NOTE: N o r m a l l y gas decay t a n k w i t h h i g h e s t p r e s s u r e ( g r e a t e r t h a n 8 p s i g . and NOT on h o l d u p f o r decay) s h o u l d be s e l e c t e d f o r c o v e r gas.
- 1. SHIFT gas decay t a n k on c o v e r a s f o l l o w s :
- a. VERIFY p r e s s u r e i n Gas Decay Tank t o be p l a c e d on c o v e r greater than 8 psig.
- 1. rf Gas Decay Tank i s l e s s t h a n 8 p s i g . THEN ADO n i t r o g e n p e r Step 4.2.4.
- b. CLOSE WG-l4A(B)(C)(D). Gas Decay Tank t o Holdup Tank. t o remove from cover.
- c. OPEN WG-l4A(B)(C)(D), Gas Decay Tank t o Holdup Tank. t o be p l a c e d on cover.
CAUTION When B o r i c A c i d E v a p o r a t o r i s r u n n i n g , t h e gas decay t a n k on f i l l s h a l l n o t be s e l e c t e d t o p r o v i d e c o v e r gas t o t h e v e n t header.
I I
-
NOTE: Any gas decay t a n k l e s s than 110 p s i g may be s e l e c t e d for fill.
- 2. SHIFT gas decay t a n k on f i l l a s f o l l o w s :
- a. P O S I T I O N WG-ZOOA(B.C.D). G a s Decay Tank t o Gas A n a l y z e r . f o r s e l e c t e d t a n k t o MAN OVRO.
CONTINUED
WISCONSIN PUBLIC SERVICE CORPORATION No - N-GW 32 Gaseous Waste P r o c e s s i n g and KEWAUNEEh'UCLEARPOWERPLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 5 of 16 4.2.2 CONTINUED I b. VERIFY WG-lOA(B)(C)(O).
Gas Decay Tank on f i l l .
Waste Gas t o G a s Decay Tank. OPEN f o r I c. UERFIY WG-lOA(B)(CI(O). Waste Gas t o Gas Decay Tank. CLOSE0 f o r Gas decay t a n k b e i n g removed f r o m f i l l .
I __
NOTE: If p o s s i b l e . Gas decay tank s e l e c t e d f o r standby s h o u l d _NOT be on c o v e r o r f i l l .
m:
I When t a n k s e l e c t e d f o r f i l l reaches 110 p s i g . GAS DECAY TANK SWITCHING ( 5 3 7 0 2 - 1 5 ) . a l a r m s .
I 3. SELECT gas decay t a n k f o r standby as f o l l o w s :
I a. POSITION Standby S e l e c t o r S w i t c h t o A ( B ) ( C ) ( D )
Tank s e l e c t e d f o r standby.
f o r Gas Decay I 4. ADD N i t r o g e n t o a Gas Decay Tank a s f o l l o w s :
I a. OPEN NG-722A(B)(C)(D). N i t r o g e n t o Gas Decay Tank A(B.C.0).
f o r r e q u i r e d gas decay t a n k .
NOTE: When adding n i t r o g e n t o a gas decay tank. NITROGEN SUPPLY LOW PRESSURE (53702-43). a t Waste D i s p o s a l Panel i s expected.
I b. S l o w l y OPEN NG-721. N i t r o g e n SuppIy t o Gas Decay Tanks.
I c. UHEN gas decay t a n k p r e s s u r e i s 10-15 p s i g . THEN CLOSE NG-721.
I d. CLOSE NG-722A(B)(C)(O).
I 5. PUMP DOWN Vent Header as f o l l o w s :
- a. Vent Header p r e s s u r e on PI-1025/53102 i s g r e a t e r t h a n 1.9 p s i g . o r PI-155/53109 g r e a t e r t h a n 2.0 p s i g . THEN PERFORM the following:
I 1. VERIFY moisture separator water l e v e l g r e a t e r than o r equal t o 30%.
CONTINUED i
CONTLNUOUS USE
I WISCONSIN PUBLIC SERVICX CORPORATION CEW~~ENUcLEAR~W'ERPLMW I NO. N-GWP-32B Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 6 of 16 4.2.5.a CONTINUED I 2. POSITION Waste Gas Compressor A(E) c o n t r o l s w i t c h t o START.
-
NOTE: Opening WG-32A(E) t o o f a r w i l l cause l o s s of m o i s t u r e s e p a r a t o r l e v e l and may damage compressor .
I 3. THROTTLE WG-32A(E). Waste Gas M o i s t u r e S e p a r a t o r D r a i n .
f o r 5 m i n u t e s w i t h compressor o p e r a t i n g .
- 4. WHEN C V C Holdup Tank gas m a n i f o l d p r e s s u r e on PI-155/53109 decreases t o l e s s t h a n o r equal t o 1.8 p s i g . THEN PERFORM the following:
I A. STOP Waste Gas Compressor A C E ) .
I E. POSITION Waste Gas Compressor A ( B ) c o n t r o l s w i t c h t o AUTO.
I 6. F o r Continuous Waste Gas Compressor O p e r a t i o n . PERFORM t h e following:
I a. VERIFY Vent Header p r e s s u r e o n PI-1025/53102 i s g r e a t e r t h a n 1.0 p s i g .
I b. VERIFY m o i s t u r e s e p a r a t o r w a t e r l e v e l g r e a t e r t h a n o r equal t o 30%.
I c. POSITION Waste Gas Compressor A ( B ) c o n t r o l s w i t c h t o START.
NOTE: Opening WG-32A(E) t o o f a r w i l l cause loss o f m o i s t u r e s e p a r a t o r l e v e l and may damage compressor.
I d. THROTTLE WG-3ZA(B). Waste G a s M o i s t u r e S e p a r a t o r D r a i n . f o r 5 m i n u t e s w i t h compressor o p e r a t i n g .
I e. WHEN c o n t i n u o u s o p e r a t i o n o f waste required. THEN gas compressor PERFORM t h e f o l l o w i n g :
is longer I 1. STOP Waste Gas Compressor A ( B ) .
CONTINUED
.
WISCONSIN PUBLIC SERVICE CORPORATION No. N-GWP-32B Gaseous Waste P r o c e s s i n g and KEWAUNEENUCLEAaPOWERPIANT Discharge System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 7 of 16 4.2.6.e CONTlNUED
- 2. P O S I T I O N Waste Gas Compressor A(B) c o n t r o l s w i t c h t o AUTO.
-
NOTE: D u r i n g R e f u e l i n g p e r i o d s , i t i s necessary t o p u r g e r e a c t o r c o o l a n t o f hydrogen. R a d i o a c t i v e gases w i l l a l s o be i n c l u d e d i n t h e purge. The Gas Decay Tank may be i s o l a t e d t o a l l o w s h o r t l i v e d i s o t o p e s t o decay. A sample w i l l d e t e r m i n e i f t a n k c o n t e n t s w i l l be used f o r "Cover Gas". o r r e l e a s e d t o t h e environment t h r o u g h t h e p l a n t vent.
- 7. ISOLATE G a s Decay Tank f o r Sampling/Decay Holdup a s f o l l o w s :
- a. VERIFY gas decay t a n k s e l e c t e d f o r Standby.
- b. VERIFY WG-IOA(6.C.D). Waste Gas t o Gas Decay Tank. CLOSED f o r t a n k t o be i s o l a t e d .
- c. VERIFY WG-14A(B.C.D). Gas Decay Tank t o Holdup Tank. CLOSED f o r t a n k t o be i s o l a t e d .
- d. CLOSE WG-lZA(B.C.0). Gas Decay Tank Discharge. f o r t a n k t o be isolated.
- e. TAG WG-lPA(B.C.0) for Status Control s t a t i n g reason tank i s isolated.
- f. RECORD Waste Gas Decay Tank i s o l a t e d f o r sampling a n d / o r decay h o l d u p on A u x i l i a r y Operator Log.
- 9. sampling i s r e q u i r e d . THEN REQUEST R a d i a t i o n P r o t e c t i o n sample g a s decay tank.
- 8. DISCHARGE Gas Decay Tank a s f o l l o w s :
- a. ISOLATE gas decay t a n k f o r sampling a n d l o r decay h o l d u p per Step 4.2.7.
- b. RERUEST R a d i a t i o n P r o t e c t i o n sample t a n k t o d e t e r m i n e if r e l e a s e t o atmosphere w i l l be w i t h i n ODCM l i m i t s .
CONTINUED
L WJSCONSINPUBLIC SERVICECORIWRATION No. N-GWP-32B Gaseous Waste Processing and KEWADNEENUcLEAaPoWERPLANT Oischarge System OPERATING PROCEDURE DATE AUG 23 2005 PAGE a of 16 4.2.8 CONTINUED
-
I IF activity i s g r e a t e r t h a n or equal t o ODCM l i m i t s .
PERFORM one o f f o l l o w i n g :
THEN I 1. REALIGN gas decay t a n k f o r cover.
-
OR I 2. M A I N T A I N gas decay t a n k i s o l a t e d f o r decay holdup.
- i s l e s s t h a n ODCM l i m i t s . THEN DISCHARGE G a s Decay I IF activity Tank: (See S e c t i o n 2.0. Step 2.1 and 2.0. Step 2.2)
__
NOTE: I t i s p r e f e r a b l e NOT t o d i s c h a r g e a gas decay t a n k when t h e wind i s o u t o f t h e N o r t h o r Northwest. Gases e x i t i n g Aux B l d g Vent Stack may r e - e n t e r b u i l d i n g t h r o u g h Aux B l d g Supply o r T u r b i n e B l d g Supply Vent i n t a k e s .
I 1. OBTAIN Gas Decay Tank Discharge P e r m i t and approval f r o m t h e S h i f t Manager.
- 2. CONTACT I & C t o determine i f performance o f I C P 32B.08.
Waste G a s Decay Tanks P l a n t V e n t i l a t i o n I s o l a t i o n Loop Calibration. i s required.
__
NOTE: I f p o s s i b l e . b o t h A u x i l i a r y B u i l d i n g Exhaust Fans should be r u n n i n g t o p r o v i d e maximum d i l u t i o n flow.
I 3. VERIFY the following:
A. If: t o t a l gas a c t i v i t y o f t a n k t o be r e l e a s e d i s g r e a t e r t h a n 1.0 E - 2 p C i / c c . THEN VERIFY b o t h A u x i l i a r y B u i l d i n g Exhaust Fans RUNNING. CPCR0126501 E. t o t a l gas a c t i v i t y o f t a n k t o be r e l e a s e d i s l e s s t h a n o r equal t o 1.0 E-2 p c i l c c , THEN V E R I F Y a t l e a s t one A u x i l i a r y B u i l d i n g Exhaust Fan. RUNNING.
CPCR0126501 CONTINUE0
~~~~ ~
WISCONSIN PUBLIC SERVICE CORPORMlON NO. N-GWP-328 I KEWAUNEEnmCLEARPOWERPLANT I Gaseous Waste P r o c e s s i n g and D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 9 of 16 4.2.8.d CONTINUED
- 4. E a t a g o u t was hung i n Step 4.2.7.e f o r i s o l a t i n g the Gas Decay Tank f o r s a m p l i n g a n d / o r decay h oldup, CLEAR t a g ( s ) AND OPEN WG-lZA(8.C.D). Gas Decay Tank D i s c h a r g e .
I 5. RECORD P r i o r To D i s c h a r g e d a t a on Gas Decay Tank D i s c h a r g e Permit.
I 6. NOTIFY C o n t r o l Room t o PERFORM t h e f o l l o w i n g :
I A. VERIFY R-13 o r R-14. Aux B l d g Vent Exhaust i s b e i n g trended.
I 8. Source and Channel check on R-13 and R-14.
I 1. INSERT message 'Source Check" on r e c o r d e r 45716 per N-MI-87C.
- 2. IF R-13 o r R-14 Source/Channel check f a i l s .
THEN INFORM S h i f t Manager. (See P r e c a u t i o n 2.0.
S t e p 2.1)
I 7. OPEN WG-34A(B.C.D). Gas Decay Tank t o P l a n t Vent.
CONTINUED CONTINUOUS USE
WISCONSIN PUBLtCSERWCECORPORATION No- N-GwP-32B Gaseous Waste P r o c e s s i n g and KEWAUNEE iVUCLEARpowERPuLNT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 10 of 16 4.2.8.d CONTINUEO CAUTION The t r i p s e t p o i n t s f o r R-13 and R-14 a r e 80,000 cpm. IfWG-36 c l o s e s o n h i g h r a d i a t i o n , d i s c h a r g e s h a l l be r e - e v a l u a t e d p r i o r t o r e s t a r t .
I
-
NOTE: UG-36 i s r e s e t a f t e r a t r i p by p o s i t i o n i n g c o n t r o l knob t o c l o s e .
-
NOTE: I n i t i a t i o n o f a Gas Decay Tank d i s c h a r g e s h o u l d b e done s l o w l y t o ensure R-13 and R-14 s e t p o i n t s a r e NOT exceeded.
- 8. A t Waste D i s p o s a l Panel. s l o w l y OPEN WG-36/CV-31215. Gas Decay Tanks t o P l a n t Vent. w h i l e m o n i t o r i n g l o c a l i n d i c a t o r s f o r R-13 and R-14 u n t i l ONE o f t h e f o l l o w i n g occurs:
. R-13 o r R-14 i s i n d i c a t i n g 10,000 cpm WG-36/CV-31215 i s open t o t h e l i m i t s p e c i f i e d on Gas Decay Tank D i s c h a r g e Permit WG-36/CV-31215 i s 100% OPEN
- 9. INSERT message " S t a r t GW D i s c h " on r e c o r d e r 45716 per N - M I -87C.
- 10. RECORD t a n k b e i n g d i s c h a r g e d and s t a r t t i m e i n C o n t r o l Room Log.
- 11. MONITOR R-13 or R-14 t r e n d d u r i n g d i s c h a r g e .
- 12. D R A I N w a t e r f r o m Gas Decay Tank b e i n g d i s c h a r g e d . p e r Step 4.2.9.
CONTINUEO
I WlSCONSINPUBLICSERWCECORPORATION I No. N-GWP-32B I KF,WAUNEE NUCLEAR POWERPLANT I Gaseous Waste P r o c e s s i n g and
'ITLE D i s c h a r g e System OPERATING PROCEDURE I DATE
~~ ~ -
AUG 23 2005 1- PA& -11 Of 16 4.2.8.d CONTINUED CAUTION I f oxygen c o n c e n t r a t i o n i s g r e a t e r t h a n 4%. immediate c o r r e c t i v e a c t i o n i s r e q u i r e d . Oxygen c o n c e n t r a t i o n o f less t h a n o r equal t o 2% i s recommended. CPCR0128901
- 13. o p e n i n g a Gas Decay Tank t o atmosphere f o r maintenance OR i t i s d e s i r e d t o reduce oxygen c o n c e n t r a t i o n .
PURGE a s f o l l o w s :
A. INFORM Equipment O p e r a t o r N i t r o g e n w i l l be used f o r p u r g i n g a Gas Decay Tank.
- 6. WHEN Gas Decay Tank p r e s s u r e l e s s t h a n 25 p s i g , THEN PERFORM t h e f o l l o w i n g :
- 1. OPEN NG-722A(B.C.D). N i t r o g e n t o Gas Decay Tank A(B.C.0). f o r Gas Decay Tank t o be purged.
NOTE: When a d d i n g n i t r o g e n t o a Gas Decay Tank, NITROGEN SUPPLY LOW PRESSURE (53702-43). a t Waste D i s p o s a l Panel i s expected.
- 2. S l o w l y OPEN NG-721. N i t r o g e n M a n i f o l d t o Gas Decay Tanks. t o e s t a b l i s h c o n t i n u o u s flow o f N2.
- 3. WHEN 20-30 m i n u t e s have elapsed. THEN PERFORM the following:
3.1 CLOSE NG-721.
3.2 CLOSE NG-722A(B.C.D).
- 14. WHEN Gas Decay Tank p r e s s u r e decreases t o 5 psig. lHEN STOP d i s c h a r g e as f o l l o w s :
A. CLOSE WG-36.
CONTINUED
WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-32E Gaseous Waste P r o c e s s i n g and KEWAUNEENUCLEARPOWERPLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 12 of 16 4.2.8.d.14 CONTINUED I 6. CLOSE WG-34A(B.C.D).
I C. CLOSE WG-lZA(E.C.D).
E p u r g e w a s performed. THEN VERIFY 02 o r H2 I
D.
c o n c e n t r a t i o n i s l e s s t h a n o r e q u a l t o 2% by p e r f o r m i n g t h e f ol 1owi ng :
I 1. OBTAIN 02 and H2 sample o f WGDT as f o l l o w s :
I 1.1 ALIGN WGOT (A.E.C.D) t o WGA p e r N-GWP-326-2.
-
OR I 1.2 REQUEST Chemistry sample purged gas decay tank.
I 2. 02 o r H2 c o n c e n t r a t i o n i s l e s s t h a n o r equal t o 2%. THEN PERFORM t h e f o l l o w i n g : CPCR0128901 I 2.1 gas decay t a n k w i l l be opened f o r maintenance. THEN GO a Step 4.2.8.d.14.E.
I 2.2 OPEN WG-ILA(E.C.D).
I 2.3 RECORD s t o p t i m e and INFORM C o n t r o l Room s t o p t i me.
Of I 2.4 INSERT message 'Stop GW D i s c h " on r e c o r d e r 45716 per N-MI-E7C.
I 2.5 COMPLETE Gas Decay Tank D i s c h a r g e P e r m i t .
I 3. 1_E 02 o r HZ c o n c e n t r a t i o n i s s t i l l g r e a t e r than 2%. THEN PERFORM t h e f o l l o w i n g :
I 3.1 OPEN NG-722A(E.C.O).
CONTINUED
I WISCONSIN PUBLIC SERVICE CORPORATION I NO. N-GWP-32E I KEWAUNEENOCLEARPOWERPLANT Gaseous Waste P r o c e s s i n g and Oischarge System OPERATING PROCEDURE I DATE AUG 23 2005 I PAGE 13 of 16 1.2.8.d.14.0.3 LONTINUEO
__
NOTE: WHEN adding n i t r o g e n t o a Gas Decay Tank. N i t r o g e n Supply Low P r e s s u r e (53702-43). a t Waste D i s p o s a l Panel i s expected.
3.2 S l o w l y OPEN NG-721. N i t r o g e n Supply t o Gas Decay Tanks.
3.3 WHEN Gas Decay Tank p r e s s u r e 1 0 - 1 5 p s i g ,
-
THEN CLOSE NG-721.
3.4 CLOSE NG-72ZA(B.C.O).
3.5 OPEN WG-lZA(B.C.0).
3.6 OPEN WG-34A(B.C.O).
3.7 A t Waste D i s p o s a l Panel. s l o w l y OPEN WG-36 u n t i l R-13 o r R-14 i n d i c a t e s 10,000 cpm. OR WG-36 i s open t o l i m i t s p e c i f i e d on Gas Decay Tank O i s c h a r g e P e r m i t .
3.8 @To Step 4.2.8.d.14.
E. IF Gas Decay Tank w i l l be opened f o r maintenance.
THEN PERFORM t h e f o l l o w i n g :
- 1. VERIFY HZ c o n c e n t r a t i o n l e s s t h a n o r equal t o 2%.
CPCR0128901
- 2. OPEN WG-IZA(E.C.D).
- 3. OPEN WG-34A(E.C.D).
- 4. A t Waste D i s p o s a l Panel. s l o w l y OPEN WG-36 u n t i l R-13 o r R-14 i n d i c a t e s 10.000 cpm. OR WG-36 i s open t o l i m i t s p e c i f i e d on Gas Decay Tank D i s c h a r g e Permit.
- 5. WHEN Gas Decay Tank p r e s s u r e i s approximately 0 p s i g . CLOSE WG-36.
CONTINUED
WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-328 Gaseous Waste P r o c e s s i n g and KEWAUNEE NUCLEAR POWER PLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 14 of 16 4.2.8.d.14.E CONTINUE0 I 6. CLOSE WG-34A(E.C.D).
I 7. CLOSE W G - l Z A ( B . C . 0 ) .
I 8. s t a t u s c o n t r o l i s needed.
ready t o p e r f o r m maintenance.
TAG t a n k u n t i l I 9. Step 4.2.8.d.14.G.
I F. OPEN WG-IZA(B.C.D).
I G. RECORD s t o p t i m e and INFORM C o n t r o l Room o f s t o p time.
I H. INSERT message 'Stop GW D i s c h " o n r e c o r d e r 45716 p e r N - M I -87C.
I I. COMPLETE Gas Decay Tank D i s c h a r g e P e r m i t .
I 9. D r a i n water f r o m Gas Decay Tank as f o l l o w s :
m:
I Draining w a t e r f r o m a Gas Decay Tank may cause an i n c r e a s e i n DOT l e v e l and v e n t header p r e s s u r e .
I a. OPEN MD(R)-401. Gas Decay Tank D r a i n Header I s o l a t i o n .
I b. OPEN MO(R)-400A(E.C.D) Gas Decay Tank Drain. t o d r a i n header.
I I
- c. gas f l o w i s h e a r d t h r o u g h d r a i n p i p i n g .
following:
PERFORM the
- 1. CLOSE MD(R)-400A(B.C.D).
- 2. CLOSE MD(R)-401.
I 10. To t r a n s f e r Waste Gas between Gas Decay Tanks, PERFORM t h e following:
- a. SELECT Gas Decay Tank A(B.C.0) t o r e c e i v e waste gas:
- 1. POSITION WG-ZODA(B.C.D) t o MAN OVRD. f o r t a n k t o r e c e i v e waste gas.
CONTINUED
~~ ~~~~~~ ~~~~ ~~ ~~
I WlScONSIN PUBLIC SERVICE CORWRATION NO. N-GWP-32B Gaseous Waste P r o c e s s i n g and KEWAUNEENUCLEARI'OWERPLANT D i s c h a r g e System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 15 of 16 4.2.10.a CONTINUED I 2. VERIFY WG-IOA(B.C.D) OPEN. f o r t a n k t o r e c e i v e waste gas.
I b. CLOSE WG-16. G a s Decay V a l v e G a l l e r y t o Holdup Tanks.
I c. VERIFY WG-14A(B.C.D) CLOSED, f o r a l l Gas Decay Tanks.
I d. VERIFY WG-lZA(B.C.01.
be transferred.
Gas Decay Tank I n l e t . OPEN f o r t a n k t o I e. OPEN WG-14A(B.C.D).
t a n k t o be t r a n s f e r r e d .
Cover Gas Supply t o Holdup Tanks for I f. OPEN WG-40, Gas Decay V a l v e G a l l e r y t o Vent Header No. 2.
NOTE: I f I & C i s NOT a v a i l a b l e , t h e f o l l o w i n g s t e p may s t i l l be performed. I f WG-15 s e t p o i n t i s changed.
I & C s h o u l d be i n f o r m e d as soon as p r a c t i c a l .
IE. I & C THEN CONTACT I g.
following:
i s available, I&C t o perform the NOTE:
I Numbers on s e t p o i n t d i a l do a c t u a l p r e s s u r e i n system.
coincide with I 1. RECORD WG-15/CV-31213. G a s Decay Tanks t o Holdup Tanks.
setpoint.
I 2. RAISE WG-15 s e t p o i n t u n t i l v a l v e f u l l OPEN.
- 3. UHEN Gas Decay Tank b e i n g t r a n s f e r r e d reaches 5 p s i g on P I - 1 0 3 6 (1037. 1038. 1039). JlK@ RETURN s e t p o i n t on WG-15 t o previous setting.
I h. CLOSE WG-40.
I i. CLOSE W G - l 4 A ( B . C . D ) . for tank transferred.
I j. OPEN WG-16.
I k. VERIFY Gas Decay System i s a l i g n e d f o r normal o p e r a t i o n .
L WISCONSIN PUBLIC SERVICE CORPORATION NO. N-GWP-32B Gaseous Waste Processing and KEWAUNEENUCLEARWWERPLANT Discharge System OPERATING PROCEDURE DATE AUG 23 2005 PAGE 16 of 16 4.3 Shutdown
- 1. YHEN CVC Holdup T a n k gas manifold pressure on PI-155/53109 decreases t o l e s s than o r equal t o 1.8 psig. THEN STOP Waste Gas Compressor A ( B ) .
>
CONTINUOUS USE
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390 Serial No.05-815 Enclosure 5 OPERATION LICENSE EXAMS DRAWING OPERXK-100-132, FLOW DIAGRAM WASTE DISPOSAL SYSTEM DOMINION ENERGY KEWAUNEE, INC.
WITHHOLD FROM PUBLIC DISCLOSURE UNDER 10 CFR 2.390
QF-1040-14 Rev. 0 (FP-T-SAT-40)
WRITTEN EXAM ITEM REVIEW Evaluation ID#: ROI-06-EX-WRT I SOI-06-EX-WRT Date Evaluation Instrument Administered: /18/2005 Number of Trainees Evaluated: 7 (1-75) / 6 176-100)
____-
Question Average Review Corrective Action Number Score (YO) Conclusion (Action and M R # )
8 42.86 G
-
19 42 86 G
~
43 20.57 G t I _ _ _ _ _
50 28.57 G 67 28.57 G
-_ __ _ --
76 50.00 G 98 33.33 A, E, G 1
Review
Conclusions:
A. Insufficient training for the learning objective tested
- 6. Learning objective not adequately covered in the lesson plan C. Poorly worded or invalid learning objective D. Poorly worded or invalid test item or answer E. Incorrect answer in the exam key F. More than one correct answer G. Question acceptable H. Other (state reason in table or on additional sheet)
Review performed by: Date: # l / 6 Approved by:
Date: I l ( 2 2 1 0 5 -
Retention Life + 10 yrs Retain in Exam Key Page 1 of 1
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 8. Concerning the Engineered Safety Features (ESF) initiation instrumentation for Pressurizer pressure, there are (1) channels that input to Safety Injection for (2) independent safety trains of ESF.
_ 1 1 1 121 A. 4 4
- 3. 4 2
- c. 3 3 D. 3 2 Answer: D Three channels of PRZR input to the 2 trains of ESF for the Safety Injection signal (Low Przr Pressure SI). The specific channels are PT-429, PT-430, and PT-431.
Lesson Plan R02-055-LP055 Rev. B, Engineered Safety Features. Covered in section B.4.c. 1 ),
page 21, and on PPT slide #43, Safety Injection Actuation.
Page 1
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 19. Given the following:
- A Large Break LOCA has occurred.
- Preparations to establish one train of containment sump recirculation are in progress per ES-1.3, Transfer To Containment Sump Recirculation.
- Steps to "Align Charging Pump Suction To The VCT," and "Establish Charging Flow" are about to be completed.
Why are actions taken to (1) align Charging Pump suction to the VCT and (2) establish charging flow?
A. (1) Protect charging pumps from losing suction.
(2) Provide RCP Seal Injection flow.
B. (1) Preclude gas entrainment in the ECCS (RHR and SI) piping.
(2) Provide flow to the RCS while the ECCS (RHR and SI) trains are being swapped to the Containment Sump B.
C. (1) Allow makeup to be established to the RWST.
(2) Provide condition for reestablishing letdown via the Regenerative Hx D. (1) Preserve RWST inventory.
(2) Establish conditions for SI termination Answer: A In ES-1.3 the Charging Pumps are aligned to the VCT so that they will have an available source of suction even if RWST "empty" condition is reached. The Charging Pump(s) islare running or started to supply seal injection to the RXCPs.
R04-04-LP021 Rev. B, Transfer To Containment Sump Recirculation. Covered in section E. 12, Step 7 step detail. Also covered on PPT #8.
Page 2
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 43. Which of the following identifies the MAXIMUM current limit for a running RXCP, and the assumed conditions when determining this value?
A. Maximum current is 4800 amps, expected when the RXCP is operating at cold loop condition and maximum supply voltage of 4400 volts.
- 6. Maximum current is 1073 amps, expected when the RXCP is operating at cold loop condition and minimum bus voltage value of 3600 volts.
C. Maximum current is 976 amps, expected when the RXCP is operating at hot loop condition and maximum supply voltage of 4400 volts.
D. Maximum current is 745 amps, expected when the RXCP is operating at hot loop condition and minimum supply voltage of 3600 volts.
Answer: B N-RC-36A, Rev. AG, APPENDIX A identifies the maximum current as 1073 amps. This condition will occur when the RXCP has to move the more dense fluid (cold RCS loop temperature) and when the supply voltage is at its minimum value (3600 volts, E/I = R)
R02-01-LP36A, Rev. B, Reactor Coolant Pump, section A.3.d, page 19, provides the Motor Specifications including brake horsepower (hothold), running current (hoticold) power input
[kW] (hot/cold, and starting current. PPT slide #32 also covers this information.
Page 3
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 50. Given the following:
- The plant is at 100% power.
- Diesel Generator (DG) A is supplying Bus 5 in parallel to the offsite power source.
What occurs if the EMERGENCY VOLTAGE SHUTDOWN button for DG A is pressed?
A. A Bus 5 Lockout is generated B. Diesel Generator A engine trips.
C. Diesel Generator A engine will begin to motor.
D. Breaker 1-509, DG A to Bus 5, trips Answer: D E-2022, Rev. N for DG A shows depressing the Local Panel Pushhutton, VOLTAGE SHUTDOWN, with DG speed greater than 700 rpm and the Voltage Shutdown RESET pushbutton NOT depressed, will provide and output signal to a NOT box and provide a seal in until the RESET button is depressed, This condition removes the input to the NOT box that feeds TRIP BREAKER 1-509. The Alarm Response sheet for 47094-A, DIESEL GEN A EXCITATION VOLT DEENERGIZED, Comment 1, Alarm is activated when DG A speed is >
700 rpm AND Emergency Voltage Shutdown pushbutton has been depressed. The Recommended Action for the Annunciator is, 1. VERIFY Bkr 1-509 DG A to Bus 5 OPEN.
R02-03-LP42A, Rev. B, Diesel Generators, section A.6.d. l).f) describes the Voltage Shutdown pushhutton operation. It states that the Voltage Shutdown provides for rapid DG voltage shutdown by, 1 ) puts a short circuit across the DG field windings; 2) prevents filed flash; and 3) trips DG output breaker. The associated PPT slide #92 covers the DG Control and Excitation Cabinet Controls, including the function of the Emergency Voltage Shutdown pushbutton.
Page 4
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 67. Given the following:
-Waste Gas Decay Tank A is in service.
-The relief valve for that tank, WG-I4A, lifts and fails to reseat.
What is the effect on the plant?
A. The release will be automatically isolated when the Waste Gas Analyzer senses the pressure drop in the Waste Gas Decay Tank.
B. The release will be automatically isolated when the Waste Gas Decay Tank pressure reducing control valve WG-201 closes.
C. The release will NOT be automatically isolated, but will be monitored by the Aux Building Vent radiation monitors R-13 and R-14.
D. The release will NOT be automatically isolated, but will be detected by the Charging Pump Room Area Monitor R-4.
Answer: C Per drawings (OPERXK-100-132, Rev. AF) each WGDT relief goes to a common relief header that is routed into either the ducting for the SV Zone exhaust or the Aux. Bldg Ventilation exhaust headers (OPERM-604 and OPERM-601, respectively). The ducting is a direct path to the Aux Bldg Vent that is sampled by R-13 and R-14.
R02-01-LP045, Rev. B, Radiation Monitoring, section G.2.c describes the function for R-13 and R-14 of continuously monitoring the Aux Bldg vent flow path. It also states the detectors are high sensitivity bets-gamma used to measure gaseous activity of air discharged out the stack.
AOI-81-LP32B, Rev. A, Gaseous Waste Processing & Discharge, section C.5.f describes the Waste Gas Decay Tank relief valves. The valves are set at 150 psig and relieve to the AUXBldg and Zone SV Exhaust.
Page 5
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 76. Given the following:
-The plant was stable with reactor power at 100%.
- A reactor trip and safety injection occurred due to a Pressurizer PORV failing open and remaining full open.
- All safeguards equipment has responded per design.
- The crew implemented E-0 and transitioned to E-I, Loss of Reactor or Secondary Coolant.
- The failed PORV has just been isolated.
- The crew is currently performing Step 12 of E-I, "Check If SI Should Be Terminated".
Which Combination of SI Termination Criteria is expected to be satisfied at this point?
A. Pressurizer level AND secondary heat sink
- 6. RCS subcooling AND secondary heat sink C. Pressurizer level AND RCS subcooling D. Pressurizer pressure AND RCS subcooling Answer: A l h i s is a similar event to the Three Mile Island accident and gives conditions where RCS pressure would be low, RCS CET temperatures would remain relatively high and PRZR level would remain high due to the leak location and voiding in the vessel head. In this instance it should be recognized that PRZR level would be 1 5% as required for the SI Termination Criteria and that since the secondary is unaffected, SG levels ( > 4% [IS%] NR level) OR AFW flow requirements ( > 205 gpm available) would also be acceptable. However, due to the low RCS pressure and likely RCS temperatures, RCS subcooling ( > 30°F [65'F]) and P U R pressure (
2200 psig [2000 psig]) are unlikely to be met.
Page 6
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
- 98. Given the following:
- A LOCA has occurred
- A radioactive spill has occurred in the Auxiliary Building.
- A n SITE EMERGENCY has been declared.
-All ERO positions have been filled.
- Entry into the Auxiliary Building is required to repair the leaking flange on the RHR system
- Estimated dose for the entry and work is 7 REM TEDE.
What are the MINIMUM requirements that must met for this entry into the Auxiliary Building?
A. EPIPF-AD-11-04, Emergency Exposure Authorization, and EPIPF-AD-11-01, Emergency Radiation Work Permit, must be completed and approved prior to entry.
B. EPIPF-AD-11-04, Emergency Exposure Authorization, must be completed and approved prior to entry, and the individuals must sign onto the existing Maintenance Radiation Work Permit prior to entry.
C. If a Priority Entry is made, EPIPF-AD-11-04, Emergency Exposure Authorization, must be completed and approved prior to entry, and EPIPF-AD-11-01, Emergency Radiation Work Permit, must be completed immediately following the completion of the entry.
D. If a Priority Entry is made, EPIPF-AD-11-04, Emergency Exposure Authorization, and the individuals must log entry on the existing Maintenance Radiation Work Permit immediately following the completion of the entry.
Answer: A The requirements for a completing an ERWP and the Emergency Exposure Authorization Form prior to entry into an area where IOCFR20 dose limits are likely to be exceeded is covered in EPIP-AD-11. The identification that such an entry is NOT a Priority Entry is also provided there and in EPIP-RET-02D.
EPI-01 -LPOOl, Rev. B, Emergency Preparedness Overview, section I.4.d.2 states that under certain circumstances 10CFR20 limits may be exceeded during major radiation emergency and the approval of the ED is required.
EPI-01-011, Rev. B, Emergency Actions For The SRO, section F.Z.a.Z).b) provides identification of the responsibility of authorizing exposures in excess of 1 OCFR20. Section Page 7
WRITTEN EXAMINATION ITEM REVIEW DETAILED
SUMMARY
H.5.a. l).b) identifies EPIP-AD-11 Emergency Radiation Controls as the means of controlling exposures for the emergency workers.
The associated PPT does not cover this but under PARS identifies the Kegulatory Requirements of 10CFR50.47 for controlling does to on-site workers.
l h i s may be an area for improvement in preparation for NRC examination, as emergency exposures do not appear to be specifically covered.
Page 8