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| number = ML16028A016 | | number = ML16028A016 | ||
| issue date = 12/14/2015 | | issue date = 12/14/2015 | ||
| title = | | title = 2015-12 Draft Outline Comments | ||
| author name = Gaddy V | | author name = Gaddy V | ||
| author affiliation = NRC/RGN-IV/DRS/OB | | author affiliation = NRC/RGN-IV/DRS/OB | ||
Line 16: | Line 16: | ||
=Text= | =Text= | ||
{{#Wiki_filter: | {{#Wiki_filter:DRAFT OUTLINE COMMENTS Facility: GG First Exam Date: 12/07/15 Written Exam Outline (Date) | ||
Comment Resolution 1 NRC Generated 2 | |||
GG | 3 4 | ||
12/07/15 | 5 Administrative JPM Outline (Date) | ||
In-Plant System JPM Outline (Date) Comment Resolution | Comment Resolution 1 None 2 | ||
3 4 | |||
5 Control Room / In-Plant System JPM Outline (Date) | |||
Comment Resolution S-1: Reset recirc FCV runback JPM: All comments have been resolved with the Need to ensure that the alternate path chief examiner prior to validation portion of the JPM causes some type of reactivity excursion that requires verifiable operator actions from the control room operator (more than a 1 single step). You might consider a JPM with a clogged strainer on CRD that causes accumulator issues on rods? | |||
You need several verifiable actions for this to be an adequate JPM for the NRC exam. We can talk about it on the call before you change anything. | |||
S-3: Slow Close of MSIV: look at the All comments have been resolved with the free review stuff, Probably need to shore chief examiner prior to validation up the response of the applicant. | |||
2 Possibly change to a Fast close test that when actuated closes all MSIVs or an MSIV leak control test if you have that OBDI 202 - IOLE Process Rev 1 | |||
technology at GG (just an idea). | |||
S-4: HPCS quarterly functional test. This All comments have been resolved with the is SF4 heat removal from core, and a chief examiner prior to validation better JPM would be some kind of ECCS system such as LPCI that is lined up for injection but the pump cavitates or its 3 discharge valve fails to re-align. | |||
). | Surveillance procedures are not as operationally valid as a JPM that really challenges the safety function. We can talk about it on the call before you change anything. | ||
-align. Surveillance procedures are not as operationally valid as a JPM that really challenges the safety function. | S-6: Rx man scram test switch. Is this All comments have been resolved with the discriminating enough to be on the chief examiner prior to validation 4 exam? Are there enough steps? You need several verifiable actions for this to be an adequate JPM for the NRC exam. | ||
We can talk about it on the call before you change anything. | S-7: Start of SSW pump: Does not All comments have been resolved with the meet the K/A for safety function 8, See chief examiner prior to validation 5 free review comments provided. Suggest using a CCW shaft shear? We can discuss before you change anything. | ||
P-2: if you have a RSP with RCIC modeled All comments have been resolved with the 6 in simulator then this is not the best choice chief examiner prior to validation for an in-plant JPM. We can discuss during call before you change anything. | |||
You need several verifiable actions for this to be an adequate JPM for the NRC exam. | Simulator Scenario Outline Comments (08/06/2015) | ||
Comment Resolution General comments: All comments have been resolved with the | |||
We can discuss before you change anything. | : 1. Make sure you update the tables at chief examiner prior to validation the bottom of the D-1 with all attributes from rev 10 of the NUREG. As an example, there are two malfunctions after EOP entry required and counted in the tables and that doesnt appear to be in your table. I believe that scenario 3 does not have two malfunctions after 1 | ||
EOP entry. | |||
-plant JPM. We can discuss during call before you change anything. | |||
-1 with all attributes from rev 10 of the NUREG. As an example, there are two malfunctions after EOP entry required and counted in the tables and that | |||
: 2. We will need procedures listed for all events, including raising power, with steps by major operator actions. | : 2. We will need procedures listed for all events, including raising power, with steps by major operator actions. | ||
: 3. Put major annunciators for each event at the top, with window numbers, and applicable ARPs (nomenclature or | : 3. Put major annunciators for each event at the top, with window numbers, and applicable ARPs (nomenclature or OBDI 202 - IOLE Process Rev 1 | ||
name, such as ARP-31-214-301) with the board number as applicable (ie location). | |||
: 4. For LOCAs, steam breaks, leaks, etc, if helps the NRC if we know where the leak is, what the rate is, indications in CR to help operator determine these items, etc. | : 4. For LOCAs, steam breaks, leaks, etc, if helps the NRC if we know where the leak is, what the rate is, indications in CR to help operator determine these items, etc. | ||
: 5. For each CT, need to guess at which board operator would get the CT, then try to ensure they are balanced. With two CTs, the BOP should get one and the ATC should get the other, if possible. | : 5. For each CT, need to guess at which board operator would get the CT, then try to ensure they are balanced. With two CTs, the BOP should get one and the ATC should get the other, if possible. | ||
This is done by putting next to the CT in the D-1 and D-2 forms which board you think should get it, understanding that it is an estimate only. Critical tasks must also be identified within the | This is done by putting next to the CT in the D-1 and D-2 forms which board you think should get it, understanding that it is an estimate only. Critical tasks must also be identified within the Applicants Actions or Behavior column to ensure examiner knows when a critical task is to be performed and who is expected to perform it. | ||
: 6. Put controller names/numbers in the events where applicable | : 6. Put controller names/numbers in the events where applicable | ||
: 7. Need to include name and nomenclature for all components that are expected to be manipulated by the applicants. Descriptions such as | : 7. Need to include name and nomenclature for all components that are expected to be manipulated by the applicants. Descriptions such as Stops drywell cooling fans or restarts CRD pump or Stops low pressure ECCS injection as required are not sufficient. | ||
: 8. When the D | : 8. When the D-2 states that actions will be performed using the quick card, the verifiable actions to be performed by the crew must be laid out in the D-2 so examiners can follow the applicants actions. Describing the expected actions with terms such as as directed or using the quick card or takes manual control of level or starts pump per ARP is not sufficient. The actual switch manipulations need to be in the D-2 for examiners to follow. | ||
-2 states that actions will be performed | In All scenario Event narratives: | ||
-2 so examiners can follow the | 1.Put in the TS and LCO entries | ||
-2 for examiners to follow. | : 2. Put in major procedure transitions OBDI 202 - IOLE Process Rev 1 | ||
(ABNs and up). | |||
: 9. Consider using the following items on the scenarios: A complete loss of a div 1 or 2 safety bus due to fire or electrical storm or grounds, loss of stator cooling pump, electrical ATWS,SBO, stuck open SRVs, RCIC 1/1 instrument failure. | |||
: 10. You can have one reactivity on one scenario but not on all of them-takes too much time and minimal grading value for scenarios. Same applies to normal events with no failures. | |||
Scenario 1: | |||
: 10. You can have one reactivity on one scenario but not on all of them | |||
-takes too much time and minimal grading value for scenarios. Same applies to normal events with no failures. | |||
Scenario 1: | |||
: 1. Contains too much overlap between it and the previous two exams, Of the 9 events listed 6 were used on the last two exams, Need to replace at least 3 of the events in the scenario. | : 1. Contains too much overlap between it and the previous two exams, Of the 9 events listed 6 were used on the last two exams, Need to replace at least 3 of the events in the scenario. | ||
: 2. The D- | : 2. The D-2s do not have sufficient detail in general for all of the events described. | ||
: 3. There are two separate endings depending on the path the crew takes We believe that one of the options may be a failure to meet a critical task. | : 3. There are two separate endings depending on the path the crew takes We believe that one of the options may be a failure to meet a critical task. | ||
: 4. See free review comments for specific issues with this scenario. | : 4. See free review comments for specific issues with this scenario. | ||
Scenario 2: All comments have been resolved with the | |||
: 1. 4 of the 9 events were used of the previous two exams and need to replace at least one with a new event. 2. The lower power is not needed as during event 4 the same type of actions will be performed. Replace with an additional normal evolution for the ATC operator, like a small rod adjustment. Or an instrument failure that will require a TS | : 1. 4 of the 9 events were used of chief examiner prior to validation the previous two exams and need to replace at least one with a new event. | ||
: 2. The lower power is not needed as during event 4 the same type of actions will be performed. | |||
Replace with an additional normal evolution for the ATC 2 | |||
operator, like a small rod adjustment. Or an instrument failure that will require a TS for the SRO. | |||
: 3. Remove the placing RHR in Suppression pool cooling that will be done in other events, Replace event with component malfunction in the instrument air system that has verifiable actions OBDI 202 - IOLE Process Rev 1 | |||
in the control room. Have the scenario start in suppression pool cooling as they have just finished a RCIC surveillance or something along those lines. | |||
: 4. Change CRD pump trip to a sheared shaft | : 4. Change CRD pump trip to a sheared shaft | ||
: 5. Keep the Leak in event 5 | : 5. Keep the Leak in event 5 | ||
Line 75: | Line 73: | ||
: 7. Keep major | : 7. Keep major | ||
: 8. On event 9 in addition to needing to manually start also include a valve or two that will require alignment. | : 8. On event 9 in addition to needing to manually start also include a valve or two that will require alignment. | ||
Scenario 3: All comments have been resolved with the | |||
: 1. 5 of the 8 events listed were used on the previous two exams need to replace a minimum of 2 with new events. | : 1. 5 of the 8 events listed were used chief examiner prior to validation on the previous two exams need to replace a minimum of 2 with new events. | ||
: 2. Of the 5 repeat events 4 of them were on scenario 5 of the 2014 NRC exam 3. There is a Normal and a Reactivity evolution at the start of the scenario, would prefer to have normal evolution replaced | : 2. Of the 5 repeat events 4 of them were on scenario 5 of the 2014 NRC exam | ||
: 3. There is a Normal and a Reactivity evolution at the start of the scenario, would prefer to have normal evolution replaced. | |||
Move this fault to right before the loss of ESF transformer 21 | Preferably an electric bus failure that you cannot recover, Crew will need to diagnose the cause and realize the reenergizing the 3 | ||
bus may cause a fire. Pick a bus that the equipment is not necessary for the rest of the scenario. Move this fault to right before the loss of ESF transformer 21 | |||
: 4. Replace the IRM failure with a different ATC instrument failure | : 4. Replace the IRM failure with a different ATC instrument failure | ||
: 5. Keep the Startup control valve failure 6. Need another malfunction after Major, you can use any automatic function not actuating completely as long as there are verifiable actions associated with it. | : 5. Keep the Startup control valve failure | ||
: 6. Need another malfunction after Major, you can use any automatic function not actuating completely as long as there are verifiable actions associated with it. | |||
- IOLE Process Rev 1 | 4 5 OBDI 202 - IOLE Process Rev 1 | ||
DRAFT OUTLINE COMMENTS Facility: GG First Exam Date: 12/07/15 Written Exam Outline (Date) | |||
- IOLE Process Rev 1 technology at GG (just an idea | Comment Resolution 1 NRC Generated 2 | ||
). | 3 4 | ||
-align. Surveillance procedures are not as operationally valid as a JPM that really challenges the safety function. | 5 Administrative JPM Outline (Date) | ||
We can talk about it on the call before you change anything. | Comment Resolution 1 None 2 | ||
3 4 | |||
You need several verifiable actions for this to be an adequate JPM for the NRC exam. | 5 Control Room / In-Plant System JPM Outline (Date) | ||
Comment Resolution S-1: Reset recirc FCV runback JPM: All comments have been resolved with the Need to ensure that the alternate path chief examiner prior to validation portion of the JPM causes some type of reactivity excursion that requires verifiable operator actions from the control room operator (more than a 1 single step). You might consider a JPM with a clogged strainer on CRD that causes accumulator issues on rods? | |||
We can discuss before you change anything. | You need several verifiable actions for this to be an adequate JPM for the NRC exam. We can talk about it on the call before you change anything. | ||
S-3: Slow Close of MSIV: look at the All comments have been resolved with the free review stuff, Probably need to shore chief examiner prior to validation up the response of the applicant. | |||
-plant JPM. We can discuss during call before you change anything. | 2 Possibly change to a Fast close test that when actuated closes all MSIVs or an MSIV leak control test if you have that OBDI 202 - IOLE Process Rev 1 | ||
technology at GG (just an idea). | |||
-1 with all attributes from rev 10 of the NUREG. As an example, there are two malfunctions after EOP entry required and counted in the tables and that | S-4: HPCS quarterly functional test. This All comments have been resolved with the is SF4 heat removal from core, and a chief examiner prior to validation better JPM would be some kind of ECCS system such as LPCI that is lined up for injection but the pump cavitates or its 3 discharge valve fails to re-align. | ||
Surveillance procedures are not as operationally valid as a JPM that really challenges the safety function. We can talk about it on the call before you change anything. | |||
S-6: Rx man scram test switch. Is this All comments have been resolved with the discriminating enough to be on the chief examiner prior to validation 4 exam? Are there enough steps? You need several verifiable actions for this to be an adequate JPM for the NRC exam. | |||
S-7: Start of SSW pump: Does not All comments have been resolved with the meet the K/A for safety function 8, See chief examiner prior to validation 5 free review comments provided. Suggest using a CCW shaft shear? We can discuss before you change anything. | |||
P-2: if you have a RSP with RCIC modeled All comments have been resolved with the 6 in simulator then this is not the best choice chief examiner prior to validation for an in-plant JPM. We can discuss during call before you change anything. | |||
Simulator Scenario Outline Comments (08/06/2015) | |||
Comment Resolution General comments: All comments have been resolved with the | |||
: 1. Make sure you update the tables at chief examiner prior to validation the bottom of the D-1 with all attributes from rev 10 of the NUREG. As an example, there are two malfunctions after EOP entry required and counted in the tables and that doesnt appear to be in your table. I believe that scenario 3 does not have two malfunctions after 1 | |||
EOP entry. | |||
: 2. We will need procedures listed for all events, including raising power, with steps by major operator actions. | : 2. We will need procedures listed for all events, including raising power, with steps by major operator actions. | ||
: 3. Put major annunciators for each event at the top, with window numbers, and applicable ARPs (nomenclature or | : 3. Put major annunciators for each event at the top, with window numbers, and applicable ARPs (nomenclature or OBDI 202 - IOLE Process Rev 1 | ||
name, such as ARP-31-214-301) with the board number as applicable (ie location). | |||
: 4. For LOCAs, steam breaks, leaks, etc, if helps the NRC if we know where the leak is, what the rate is, indications in CR to help operator determine these items, etc. | : 4. For LOCAs, steam breaks, leaks, etc, if helps the NRC if we know where the leak is, what the rate is, indications in CR to help operator determine these items, etc. | ||
: 5. For each CT, need to guess at which board operator would get the CT, then try to ensure they are balanced. With two CTs, the BOP should get one and the ATC should get the other, if possible. | : 5. For each CT, need to guess at which board operator would get the CT, then try to ensure they are balanced. With two CTs, the BOP should get one and the ATC should get the other, if possible. | ||
This is done by putting next to the CT in the D-1 and D-2 forms which board you think should get it, understanding that it is an estimate only. Critical tasks must also be identified within the | This is done by putting next to the CT in the D-1 and D-2 forms which board you think should get it, understanding that it is an estimate only. Critical tasks must also be identified within the Applicants Actions or Behavior column to ensure examiner knows when a critical task is to be performed and who is expected to perform it. | ||
: 6. Put controller names/numbers in the events where applicable | : 6. Put controller names/numbers in the events where applicable | ||
: 7. Need to include name and nomenclature for all components that are expected to be manipulated by the applicants. Descriptions such as | : 7. Need to include name and nomenclature for all components that are expected to be manipulated by the applicants. Descriptions such as Stops drywell cooling fans or restarts CRD pump or Stops low pressure ECCS injection as required are not sufficient. | ||
: 8. When the D | : 8. When the D-2 states that actions will be performed using the quick card, the verifiable actions to be performed by the crew must be laid out in the D-2 so examiners can follow the applicants actions. Describing the expected actions with terms such as as directed or using the quick card or takes manual control of level or starts pump per ARP is not sufficient. The actual switch manipulations need to be in the D-2 for examiners to follow. | ||
-2 states that actions will be performed | In All scenario Event narratives: | ||
-2 so examiners can follow the | 1.Put in the TS and LCO entries | ||
-2 for examiners to follow. | : 2. Put in major procedure transitions OBDI 202 - IOLE Process Rev 1 | ||
(ABNs and up). | |||
: 9. Consider using the following items on the scenarios: A complete loss of a div 1 or 2 safety bus due to fire or electrical storm or grounds, loss of stator cooling pump, electrical ATWS,SBO, stuck open SRVs, RCIC 1/1 instrument failure. | |||
: 10. You can have one reactivity on one scenario but not on all of them-takes too much time and minimal grading value for scenarios. Same applies to normal events with no failures. | |||
Scenario 1: | |||
: 10. You can have one reactivity on one scenario but not on all of them | |||
-takes too much time and minimal grading value for scenarios. Same applies to normal events with no failures. | |||
Scenario 1: | |||
: 1. Contains too much overlap between it and the previous two exams, Of the 9 events listed 6 were used on the last two exams, Need to replace at least 3 of the events in the scenario. | : 1. Contains too much overlap between it and the previous two exams, Of the 9 events listed 6 were used on the last two exams, Need to replace at least 3 of the events in the scenario. | ||
: 2. The D- | : 2. The D-2s do not have sufficient detail in general for all of the events described. | ||
: 3. There are two separate endings depending on the path the crew takes We believe that one of the options may be a failure to meet a critical task. | : 3. There are two separate endings depending on the path the crew takes We believe that one of the options may be a failure to meet a critical task. | ||
: 4. See free review comments for specific issues with this scenario. | : 4. See free review comments for specific issues with this scenario. | ||
Scenario 2: All comments have been resolved with the | |||
: 1. 4 of the 9 events were used of the previous two exams and need to replace at least one with a new event. 2. The lower power is not needed as during event 4 the same type of actions will be performed. Replace with an additional normal evolution for the ATC operator, like a small rod adjustment. Or an instrument failure that will require a TS | : 1. 4 of the 9 events were used of chief examiner prior to validation the previous two exams and need to replace at least one with a new event. | ||
: 2. The lower power is not needed as during event 4 the same type of actions will be performed. | |||
Replace with an additional normal evolution for the ATC 2 | |||
operator, like a small rod adjustment. Or an instrument failure that will require a TS for the SRO. | |||
: 3. Remove the placing RHR in Suppression pool cooling that will be done in other events, Replace event with component malfunction in the instrument air system that has verifiable actions OBDI 202 - IOLE Process Rev 1 | |||
in the control room. Have the scenario start in suppression pool cooling as they have just finished a RCIC surveillance or something along those lines. | |||
: 4. Change CRD pump trip to a sheared shaft | : 4. Change CRD pump trip to a sheared shaft | ||
: 5. Keep the Leak in event 5 | : 5. Keep the Leak in event 5 | ||
Line 141: | Line 141: | ||
: 7. Keep major | : 7. Keep major | ||
: 8. On event 9 in addition to needing to manually start also include a valve or two that will require alignment. | : 8. On event 9 in addition to needing to manually start also include a valve or two that will require alignment. | ||
Scenario 3: All comments have been resolved with the | |||
: 1. 5 of the 8 events listed were used on the previous two exams need to replace a minimum of 2 with new events. | : 1. 5 of the 8 events listed were used chief examiner prior to validation on the previous two exams need to replace a minimum of 2 with new events. | ||
: 2. Of the 5 repeat events 4 of them were on scenario 5 of the 2014 NRC exam 3. There is a Normal and a Reactivity evolution at the start of the scenario, would prefer to have normal evolution replaced | : 2. Of the 5 repeat events 4 of them were on scenario 5 of the 2014 NRC exam | ||
: 3. There is a Normal and a Reactivity evolution at the start of the scenario, would prefer to have normal evolution replaced. | |||
Move this fault to right before the loss of ESF transformer 21 | Preferably an electric bus failure that you cannot recover, Crew will need to diagnose the cause and realize the reenergizing the 3 | ||
bus may cause a fire. Pick a bus that the equipment is not necessary for the rest of the scenario. Move this fault to right before the loss of ESF transformer 21 | |||
: 4. Replace the IRM failure with a different ATC instrument failure | : 4. Replace the IRM failure with a different ATC instrument failure | ||
: 5. Keep the Startup control valve failure 6. Need another malfunction after Major, you can use any automatic function not actuating completely as long as there are verifiable actions associated with it. | : 5. Keep the Startup control valve failure | ||
: 6. Need another malfunction after Major, you can use any automatic function not actuating completely as long as there are verifiable actions associated with it. | |||
4 5 OBDI 202 - IOLE Process Rev 1}} |
Latest revision as of 01:26, 31 October 2019
ML16028A016 | |
Person / Time | |
---|---|
Site: | Grand Gulf |
Issue date: | 12/14/2015 |
From: | Vincent Gaddy Operations Branch IV |
To: | Entergy Operations |
References | |
50-416/15-012, 50-417/15-012 | |
Download: ML16028A016 (5) | |
Text
DRAFT OUTLINE COMMENTS Facility: GG First Exam Date: 12/07/15 Written Exam Outline (Date)
Comment Resolution 1 NRC Generated 2
3 4
5 Administrative JPM Outline (Date)
Comment Resolution 1 None 2
3 4
5 Control Room / In-Plant System JPM Outline (Date)
Comment Resolution S-1: Reset recirc FCV runback JPM: All comments have been resolved with the Need to ensure that the alternate path chief examiner prior to validation portion of the JPM causes some type of reactivity excursion that requires verifiable operator actions from the control room operator (more than a 1 single step). You might consider a JPM with a clogged strainer on CRD that causes accumulator issues on rods?
You need several verifiable actions for this to be an adequate JPM for the NRC exam. We can talk about it on the call before you change anything.
S-3: Slow Close of MSIV: look at the All comments have been resolved with the free review stuff, Probably need to shore chief examiner prior to validation up the response of the applicant.
2 Possibly change to a Fast close test that when actuated closes all MSIVs or an MSIV leak control test if you have that OBDI 202 - IOLE Process Rev 1
technology at GG (just an idea).
S-4: HPCS quarterly functional test. This All comments have been resolved with the is SF4 heat removal from core, and a chief examiner prior to validation better JPM would be some kind of ECCS system such as LPCI that is lined up for injection but the pump cavitates or its 3 discharge valve fails to re-align.
Surveillance procedures are not as operationally valid as a JPM that really challenges the safety function. We can talk about it on the call before you change anything.
S-6: Rx man scram test switch. Is this All comments have been resolved with the discriminating enough to be on the chief examiner prior to validation 4 exam? Are there enough steps? You need several verifiable actions for this to be an adequate JPM for the NRC exam.
S-7: Start of SSW pump: Does not All comments have been resolved with the meet the K/A for safety function 8, See chief examiner prior to validation 5 free review comments provided. Suggest using a CCW shaft shear? We can discuss before you change anything.
P-2: if you have a RSP with RCIC modeled All comments have been resolved with the 6 in simulator then this is not the best choice chief examiner prior to validation for an in-plant JPM. We can discuss during call before you change anything.
Simulator Scenario Outline Comments (08/06/2015)
Comment Resolution General comments: All comments have been resolved with the
- 1. Make sure you update the tables at chief examiner prior to validation the bottom of the D-1 with all attributes from rev 10 of the NUREG. As an example, there are two malfunctions after EOP entry required and counted in the tables and that doesnt appear to be in your table. I believe that scenario 3 does not have two malfunctions after 1
EOP entry.
- 2. We will need procedures listed for all events, including raising power, with steps by major operator actions.
- 3. Put major annunciators for each event at the top, with window numbers, and applicable ARPs (nomenclature or OBDI 202 - IOLE Process Rev 1
name, such as ARP-31-214-301) with the board number as applicable (ie location).
- 4. For LOCAs, steam breaks, leaks, etc, if helps the NRC if we know where the leak is, what the rate is, indications in CR to help operator determine these items, etc.
- 5. For each CT, need to guess at which board operator would get the CT, then try to ensure they are balanced. With two CTs, the BOP should get one and the ATC should get the other, if possible.
This is done by putting next to the CT in the D-1 and D-2 forms which board you think should get it, understanding that it is an estimate only. Critical tasks must also be identified within the Applicants Actions or Behavior column to ensure examiner knows when a critical task is to be performed and who is expected to perform it.
- 6. Put controller names/numbers in the events where applicable
- 7. Need to include name and nomenclature for all components that are expected to be manipulated by the applicants. Descriptions such as Stops drywell cooling fans or restarts CRD pump or Stops low pressure ECCS injection as required are not sufficient.
- 8. When the D-2 states that actions will be performed using the quick card, the verifiable actions to be performed by the crew must be laid out in the D-2 so examiners can follow the applicants actions. Describing the expected actions with terms such as as directed or using the quick card or takes manual control of level or starts pump per ARP is not sufficient. The actual switch manipulations need to be in the D-2 for examiners to follow.
In All scenario Event narratives:
1.Put in the TS and LCO entries
- 2. Put in major procedure transitions OBDI 202 - IOLE Process Rev 1
(ABNs and up).
- 9. Consider using the following items on the scenarios: A complete loss of a div 1 or 2 safety bus due to fire or electrical storm or grounds, loss of stator cooling pump, electrical ATWS,SBO, stuck open SRVs, RCIC 1/1 instrument failure.
- 10. You can have one reactivity on one scenario but not on all of them-takes too much time and minimal grading value for scenarios. Same applies to normal events with no failures.
Scenario 1:
- 1. Contains too much overlap between it and the previous two exams, Of the 9 events listed 6 were used on the last two exams, Need to replace at least 3 of the events in the scenario.
- 2. The D-2s do not have sufficient detail in general for all of the events described.
- 3. There are two separate endings depending on the path the crew takes We believe that one of the options may be a failure to meet a critical task.
- 4. See free review comments for specific issues with this scenario.
Scenario 2: All comments have been resolved with the
- 1. 4 of the 9 events were used of chief examiner prior to validation the previous two exams and need to replace at least one with a new event.
- 2. The lower power is not needed as during event 4 the same type of actions will be performed.
Replace with an additional normal evolution for the ATC 2
operator, like a small rod adjustment. Or an instrument failure that will require a TS for the SRO.
- 3. Remove the placing RHR in Suppression pool cooling that will be done in other events, Replace event with component malfunction in the instrument air system that has verifiable actions OBDI 202 - IOLE Process Rev 1
in the control room. Have the scenario start in suppression pool cooling as they have just finished a RCIC surveillance or something along those lines.
- 4. Change CRD pump trip to a sheared shaft
- 5. Keep the Leak in event 5
- 6. Keep heater Drain pump trip
- 7. Keep major
- 8. On event 9 in addition to needing to manually start also include a valve or two that will require alignment.
Scenario 3: All comments have been resolved with the
- 1. 5 of the 8 events listed were used chief examiner prior to validation on the previous two exams need to replace a minimum of 2 with new events.
- 2. Of the 5 repeat events 4 of them were on scenario 5 of the 2014 NRC exam
- 3. There is a Normal and a Reactivity evolution at the start of the scenario, would prefer to have normal evolution replaced.
Preferably an electric bus failure that you cannot recover, Crew will need to diagnose the cause and realize the reenergizing the 3
bus may cause a fire. Pick a bus that the equipment is not necessary for the rest of the scenario. Move this fault to right before the loss of ESF transformer 21
- 5. Keep the Startup control valve failure
- 6. Need another malfunction after Major, you can use any automatic function not actuating completely as long as there are verifiable actions associated with it.
4 5 OBDI 202 - IOLE Process Rev 1
DRAFT OUTLINE COMMENTS Facility: GG First Exam Date: 12/07/15 Written Exam Outline (Date)
Comment Resolution 1 NRC Generated 2
3 4
5 Administrative JPM Outline (Date)
Comment Resolution 1 None 2
3 4
5 Control Room / In-Plant System JPM Outline (Date)
Comment Resolution S-1: Reset recirc FCV runback JPM: All comments have been resolved with the Need to ensure that the alternate path chief examiner prior to validation portion of the JPM causes some type of reactivity excursion that requires verifiable operator actions from the control room operator (more than a 1 single step). You might consider a JPM with a clogged strainer on CRD that causes accumulator issues on rods?
You need several verifiable actions for this to be an adequate JPM for the NRC exam. We can talk about it on the call before you change anything.
S-3: Slow Close of MSIV: look at the All comments have been resolved with the free review stuff, Probably need to shore chief examiner prior to validation up the response of the applicant.
2 Possibly change to a Fast close test that when actuated closes all MSIVs or an MSIV leak control test if you have that OBDI 202 - IOLE Process Rev 1
technology at GG (just an idea).
S-4: HPCS quarterly functional test. This All comments have been resolved with the is SF4 heat removal from core, and a chief examiner prior to validation better JPM would be some kind of ECCS system such as LPCI that is lined up for injection but the pump cavitates or its 3 discharge valve fails to re-align.
Surveillance procedures are not as operationally valid as a JPM that really challenges the safety function. We can talk about it on the call before you change anything.
S-6: Rx man scram test switch. Is this All comments have been resolved with the discriminating enough to be on the chief examiner prior to validation 4 exam? Are there enough steps? You need several verifiable actions for this to be an adequate JPM for the NRC exam.
S-7: Start of SSW pump: Does not All comments have been resolved with the meet the K/A for safety function 8, See chief examiner prior to validation 5 free review comments provided. Suggest using a CCW shaft shear? We can discuss before you change anything.
P-2: if you have a RSP with RCIC modeled All comments have been resolved with the 6 in simulator then this is not the best choice chief examiner prior to validation for an in-plant JPM. We can discuss during call before you change anything.
Simulator Scenario Outline Comments (08/06/2015)
Comment Resolution General comments: All comments have been resolved with the
- 1. Make sure you update the tables at chief examiner prior to validation the bottom of the D-1 with all attributes from rev 10 of the NUREG. As an example, there are two malfunctions after EOP entry required and counted in the tables and that doesnt appear to be in your table. I believe that scenario 3 does not have two malfunctions after 1
EOP entry.
- 2. We will need procedures listed for all events, including raising power, with steps by major operator actions.
- 3. Put major annunciators for each event at the top, with window numbers, and applicable ARPs (nomenclature or OBDI 202 - IOLE Process Rev 1
name, such as ARP-31-214-301) with the board number as applicable (ie location).
- 4. For LOCAs, steam breaks, leaks, etc, if helps the NRC if we know where the leak is, what the rate is, indications in CR to help operator determine these items, etc.
- 5. For each CT, need to guess at which board operator would get the CT, then try to ensure they are balanced. With two CTs, the BOP should get one and the ATC should get the other, if possible.
This is done by putting next to the CT in the D-1 and D-2 forms which board you think should get it, understanding that it is an estimate only. Critical tasks must also be identified within the Applicants Actions or Behavior column to ensure examiner knows when a critical task is to be performed and who is expected to perform it.
- 6. Put controller names/numbers in the events where applicable
- 7. Need to include name and nomenclature for all components that are expected to be manipulated by the applicants. Descriptions such as Stops drywell cooling fans or restarts CRD pump or Stops low pressure ECCS injection as required are not sufficient.
- 8. When the D-2 states that actions will be performed using the quick card, the verifiable actions to be performed by the crew must be laid out in the D-2 so examiners can follow the applicants actions. Describing the expected actions with terms such as as directed or using the quick card or takes manual control of level or starts pump per ARP is not sufficient. The actual switch manipulations need to be in the D-2 for examiners to follow.
In All scenario Event narratives:
1.Put in the TS and LCO entries
- 2. Put in major procedure transitions OBDI 202 - IOLE Process Rev 1
(ABNs and up).
- 9. Consider using the following items on the scenarios: A complete loss of a div 1 or 2 safety bus due to fire or electrical storm or grounds, loss of stator cooling pump, electrical ATWS,SBO, stuck open SRVs, RCIC 1/1 instrument failure.
- 10. You can have one reactivity on one scenario but not on all of them-takes too much time and minimal grading value for scenarios. Same applies to normal events with no failures.
Scenario 1:
- 1. Contains too much overlap between it and the previous two exams, Of the 9 events listed 6 were used on the last two exams, Need to replace at least 3 of the events in the scenario.
- 2. The D-2s do not have sufficient detail in general for all of the events described.
- 3. There are two separate endings depending on the path the crew takes We believe that one of the options may be a failure to meet a critical task.
- 4. See free review comments for specific issues with this scenario.
Scenario 2: All comments have been resolved with the
- 1. 4 of the 9 events were used of chief examiner prior to validation the previous two exams and need to replace at least one with a new event.
- 2. The lower power is not needed as during event 4 the same type of actions will be performed.
Replace with an additional normal evolution for the ATC 2
operator, like a small rod adjustment. Or an instrument failure that will require a TS for the SRO.
- 3. Remove the placing RHR in Suppression pool cooling that will be done in other events, Replace event with component malfunction in the instrument air system that has verifiable actions OBDI 202 - IOLE Process Rev 1
in the control room. Have the scenario start in suppression pool cooling as they have just finished a RCIC surveillance or something along those lines.
- 4. Change CRD pump trip to a sheared shaft
- 5. Keep the Leak in event 5
- 6. Keep heater Drain pump trip
- 7. Keep major
- 8. On event 9 in addition to needing to manually start also include a valve or two that will require alignment.
Scenario 3: All comments have been resolved with the
- 1. 5 of the 8 events listed were used chief examiner prior to validation on the previous two exams need to replace a minimum of 2 with new events.
- 2. Of the 5 repeat events 4 of them were on scenario 5 of the 2014 NRC exam
- 3. There is a Normal and a Reactivity evolution at the start of the scenario, would prefer to have normal evolution replaced.
Preferably an electric bus failure that you cannot recover, Crew will need to diagnose the cause and realize the reenergizing the 3
bus may cause a fire. Pick a bus that the equipment is not necessary for the rest of the scenario. Move this fault to right before the loss of ESF transformer 21
- 5. Keep the Startup control valve failure
- 6. Need another malfunction after Major, you can use any automatic function not actuating completely as long as there are verifiable actions associated with it.
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