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{{#Wiki_filter:OHara, Timothy From: Sent: To: | {{#Wiki_filter:OHara, Timothy From: OHara, Timothy 6 Sent: Thursday, April 22, 2010 12:01 PM To: Gray, Harold; Conte, Richard | ||
==Subject:== | ==Subject:== | ||
FW: Risk Assessemnt of Missed Surveillance -Salem AFW Discharge Line Underground Piping Attachments: Scan File.pdf They bought an additional 7 days on Unit 2. See attached. | |||
Tim OHara | |||
-- Original | |||
-- Message --- | |||
From: Turilin, Andrey Sent: Thursday, April 22, 2010 11:58 AM To: Burritt, Arthur; Schroeder, Daniel; Balian, Harry; Cline, Leonard; OHara, Timothy | |||
==Subject:== | ==Subject:== | ||
Risk Assessemnt of Missed Surveillance -Salem AFW Discharge Line Underground Piping c/ 61 RM DOCUMENTATION NO. SA-SURV-001. | Risk Assessemnt of Missed Surveillance -Salem AFW Discharge Line Underground Piping c/ 61 | ||
REV: 0 PAGE NO. 113 STATION: Salem Nuclear Generating Station UNIT(S) AFFECTED: | |||
2 TITLE: Risk Assessment of Missed Surveillance | RM DOCUMENTATION NO. SA-SURV-001. REV: 0 PAGE NO. 113 STATION: Salem Nuclear Generating Station UNIT(S) AFFECTED: 2 TITLE: Risk Assessment of Missed Surveillance - Auxiliary Feedwater discharge line underground piping | ||
-Auxiliary Feedwater discharge line underground piping | |||
==SUMMARY== | ==SUMMARY== | ||
(Include UREs incorporated): | (Include UREs incorporated): On 04/21/2010 it was discovered that required ASME Section XI surveillance tests (pressure testing) had not been performed for buried Auxiliary Feedwater piping, as required by ER-AA-330-001 and OU-AA-335-015. This condition is documented in Notification 20459689., | ||
On 04/21/2010 it was discovered that required ASME Section XI surveillance tests (pressure testing) had not been performed for buried Auxiliary Feedwater piping, as required by ER-AA-330-001 and OU-AA-335-015. | A riský assessment of, the condition was performed inaccordance with procedure ER-AA-600-1045, "Risk Assessments of Missed or Deficient Surveillances," A surveillance | ||
This condition is documented in Notification 20459689., A riský assessment of, the condition was performed inaccordance with procedure ER-AA-600-1045, "Risk Assessments of Missed or Deficient Surveillances," A surveillance | %deferraltime of up to 7 days was evaluated and found to be acceptable. The following are recommended actions. Perform the surveillance as soon as practicable and limit removal of other-risk.significant equipment from service consistent with OP-AA-101-112-1002, Rev. 4. | ||
% | (] Review required after periodic Update | ||
The following are recommended actions. Perform the surveillance as soon as practicable and limit removal of other-risk.significant equipment from service consistent with OP-AA-101-112-1002, Rev. 4.(] Review required after periodic Update[I1 Internal RM Documentation | [I1 Internal RM Documentation [ ] External RM: Documentation Electronic Calculation Data Files: | ||
[ ] External RM: Documentation Electronic Calculation Data Files: (Q:\System Engineering\Salem\PRA\Applications\Missed Surveillance\ | (Q:\System Engineering\Salem\PRA\Applications\Missed Surveillance\ SA-SURV-001) | ||
SA-SURV-001) | |||
Salem PRA,.Revision 43;EquipmentzOut of Service;(EOOS), version 3 3a.from EPRI Risk and Reliability Workstation. | Salem PRA,.Revision 43;EquipmentzOut of Service;(EOOS), version 3 3a.from EPRI Risk and Reliability Workstation. | ||
Method of Review: { } Detailed [ | Method of Review: { } Detailed [ IAlternate [ ] Review of External Document This RM'documentation supersedes: _ _ _ _ _ _ _ in its entirety. | ||
[ ] Review of External Document This RM'documentation supersedes: | Prepared by: Brad Dolan D ll-.- .. / 04/22/2010 Print Sign Date Reviewed by: Chris Pupek Print '' ' Sign Date Approved by: | ||
_ _ _ _ _ _ _ in its entirety.Prepared by: | Print Sign Date | ||
#22 and #24 Steam generators had not been subjected to surveillance testing as required.When a required surveillance test is discovered not to have been performed as required, Salem's technical specifications permit either the test to be performed within 24 hours or performed at a.later time if an assessment of the associated risk is performed withiný 24 hours and the risk is acceptable for the deferral period. This evaluation is provided to support that requirement. | |||
This evaluation was prepared in accordance with Risk Management procedure ER-AA-600-1045, RO, "Risk Assessments of Missed or Deficient Surveillances." That procedure indicates that if: results are acceptable, a risk assessment may be performed which assumes that affected. | Introduction On 04121/2010 it was discovered that buried segments of the AFW discharge lines supplying #22 and #24 Steam generators had not been subjected to surveillance testing as required. | ||
components and systems are unavailable.for the period of time from discovery until the surveillance test is performed. | When a required surveillance test is discovered not to have been performed as required, Salem's technical specifications permit either the test to be performed within 24 hours or performed at a.later time if an assessment of the associated risk is performed withiný 24 hours and the risk is acceptable for the deferral period. This evaluation is provided to support that requirement. | ||
That approach was employed here.There are two potential failure modes which could occur with the buried AFW discharge piping to the #22 and #24 steam .generators. | This evaluation was prepared in accordance with Risk Management procedure ER-AA-600-1045, RO, "Risk Assessments of Missed or Deficient Surveillances." | ||
The piping could.coplase or otherwise obstruct, preventing flow from being delivered to the affected steam generators. | That procedure indicates that if: results are acceptable, a risk assessment may be performed which assumes that affected. components and systems are unavailable.for the period of time from discovery until the surveillance test is performed. That approach was employed here. | ||
itis also possible that the piping could leak.or rupture, resulting in a diversion of inventory from the stored supplies maintained for the AFW system.The function of the AFW discharge lines is to.direct auxiliary feedwater to the secondaryside of the.steam generators. | There are two potential failure modes which could occur with the buried AFW discharge piping to the #22 and #24 steam .generators. The piping could | ||
Piping integrity also acts to prevent loss of necessary inventory of. auxiliary feedwater supply.This condition was modeled as follows, using. the online (a)(4) EOOS risk assessment model, based on the Salem model of record (v. 4.3).The paths to the #22 and #24 SGs were failed by setting events AFS-CKV-CC-2AF23 and AFS-CKV-CC04AF23 to failed, using the: "BE" feature in the EOOS.operators screen.The potential for loss of inventory was conservatively bounded in this way..Salem's procedures encourage identification and resolution of events which could cause a loss of inventory. | .coplase or otherwise obstruct, preventing flow from being delivered to the affected steam generators. itis also possible that the piping could leak.or rupture, resulting in a diversion of inventory from the stored supplies maintained for the AFW system. | ||
Substantial time. exists, on the order of hours, to 1identify and resolve a problem involving a loss of inventory. | The function of the AFW discharge lines is to.direct auxiliary feedwater to the secondaryside of the.steam generators. Piping integrity also acts to prevent loss of necessary inventory of. auxiliary feedwater supply. | ||
So long as ample"infinite" supplies exist, such as from the ser-vice water system,. a loss of some inventory should not prevent the AEW system from successfully performing its required functions. | This condition was modeled as follows, using. the online (a)(4) EOOS risk assessment model, based on the Salem model of record (v. 4.3). | ||
The one circumstance in which it could be more-difficult to provide AFW suction supply from an infinite, source would be during a station blackout. | The paths to the #22 and #24 SGs were failed by setting events AFS-CKV-CC-2AF23 and AFS-CKV-CC04AF23 to failed, using the: "BE" feature in the EOOS | ||
This was modeled by adding. a new OR gate below gate GAN1 712 that has inputs %TES,%TE2 and %TEG. This has the effect of failing the TDAFWP for all losses of offsite power. If onsite AC power supplies sufficient to power an MDAFWP are available, then power should also be available to sufficient service water pumps to provide AFW makeup. If onsite AC power sources are failed, then there is no AFW supply, given this model change. In addition gate TES03 (L.OOP and:failure of onsite AC power systems) was added below gate GASBI10 to-ensure that failure of offsite and onsite AC power would fail all AFW.This case was quantified using both the A(4) zero-maintenance unavailability and average annual unavailability models. With.the A(4) model the CDF increased.from 2.21 E-5 to 6.19E-5 and an AOT (to result in.an ICCDP of 1 E-6) of 9.2 days resulted. | .operators screen. | ||
With the average annual unavailability model the CDF' increased from 2.25E-5 to 7.16E-5 and an AOT(toresult in an ICCDP of 1E-6)of7.4 days resulted.A similar set of modifications were made. to the average annual unavailability model of:record for LERF and it was quantified to confirm that ICCDP'was the limiting parameter. | The potential for loss of inventory was conservatively bounded in this way. | ||
LERF increased from a baseline value of 1.18E-6 to 1.57E-6, thus confirming that the CODF calculation is limiting.Conclusion Deferral of the missed surveillance for a period of.up to 7 days is acceptable and.results in a negligible increase in risk. All routine oremergent risk. assessments should be performed as if the TDAFWP and 22AF23 and 24 AFW valves -are unavailable until the surveillance is performed.}} | .Salem's procedures encourage identification and resolution of events which could cause a loss of inventory. Substantial time. exists, on the order of hours, to 1identify and resolve a problem involving a loss of inventory. So long as ample "infinite" supplies exist, such as from the ser-vice water system,. a loss of some inventory should not prevent the AEW system from successfully performing its required functions. | ||
The one circumstance in which it could be more-difficult to provide AFW suction supply from an infinite, source would be during a station blackout. This was modeled by adding. a new OR gate below gate GAN1 712 that has inputs %TES, | |||
%TE2 and %TEG. This has the effect of failing the TDAFWP for all losses of offsite power. If onsite AC power supplies sufficient to power an MDAFWP are available, then power should also be available to sufficient service water pumps to provide AFW makeup. If onsite AC power sources are failed, then there is no AFW supply, given this model change. In addition gate TES03 (L.OOP and | |||
:failure of onsite AC power systems) was added below gate GASBI10 to-ensure that failure of offsite and onsite AC power would fail all AFW. | |||
This case was quantified using both the A(4) zero-maintenance unavailability and average annual unavailability models. With.the A(4) model the CDF increased | |||
.from 2.21 E-5 to 6.19E-5 and an AOT (to result in.an ICCDP of 1 E-6) of 9.2 days resulted. With the average annual unavailability model the CDF' increased from 2.25E-5 to 7.16E-5 and an AOT(toresult in an ICCDP of 1E-6)of7.4 days resulted. | |||
A similar set of modifications were made. to the average annual unavailability model of:record for LERF and it was quantified to confirm that ICCDP'was the limiting parameter. LERF increased from a baseline value of 1.18E-6 to 1.57E-6, thus confirming that the CODF calculation is limiting. | |||
Conclusion Deferral of the missed surveillance for a period of.up to 7 days is acceptable and | |||
.results in a negligible increase in risk. All routine oremergent risk. assessments should be performed as if the TDAFWP and 22AF23 and 24 AFW valves -are unavailable until the surveillance is performed.}} | |||
Latest revision as of 07:19, 13 November 2019
| ML102980263 | |
| Person / Time | |
|---|---|
| Site: | Salem  |
| Issue date: | 04/22/2010 |
| From: | O'Hara T Engineering Region 1 Branch 1 |
| To: | Conte R, Gray E Engineering Region 1 Branch 1 |
| References | |
| FOIA/PA-2010-0334 | |
| Download: ML102980263 (4) | |
Text
OHara, Timothy From: OHara, Timothy 6 Sent: Thursday, April 22, 2010 12:01 PM To: Gray, Harold; Conte, Richard
Subject:
FW: Risk Assessemnt of Missed Surveillance -Salem AFW Discharge Line Underground Piping Attachments: Scan File.pdf They bought an additional 7 days on Unit 2. See attached.
Tim OHara
-- Original
-- Message ---
From: Turilin, Andrey Sent: Thursday, April 22, 2010 11:58 AM To: Burritt, Arthur; Schroeder, Daniel; Balian, Harry; Cline, Leonard; OHara, Timothy
Subject:
Risk Assessemnt of Missed Surveillance -Salem AFW Discharge Line Underground Piping c/ 61
RM DOCUMENTATION NO. SA-SURV-001. REV: 0 PAGE NO. 113 STATION: Salem Nuclear Generating Station UNIT(S) AFFECTED: 2 TITLE: Risk Assessment of Missed Surveillance - Auxiliary Feedwater discharge line underground piping
SUMMARY
(Include UREs incorporated): On 04/21/2010 it was discovered that required ASME Section XI surveillance tests (pressure testing) had not been performed for buried Auxiliary Feedwater piping, as required by ER-AA-330-001 and OU-AA-335-015. This condition is documented in Notification 20459689.,
A riský assessment of, the condition was performed inaccordance with procedure ER-AA-600-1045, "Risk Assessments of Missed or Deficient Surveillances," A surveillance
%deferraltime of up to 7 days was evaluated and found to be acceptable. The following are recommended actions. Perform the surveillance as soon as practicable and limit removal of other-risk.significant equipment from service consistent with OP-AA-101-112-1002, Rev. 4.
(] Review required after periodic Update
[I1 Internal RM Documentation [ ] External RM: Documentation Electronic Calculation Data Files:
(Q:\System Engineering\Salem\PRA\Applications\Missed Surveillance\ SA-SURV-001)
Salem PRA,.Revision 43;EquipmentzOut of Service;(EOOS), version 3 3a.from EPRI Risk and Reliability Workstation.
Method of Review: { } Detailed [ IAlternate [ ] Review of External Document This RM'documentation supersedes: _ _ _ _ _ _ _ in its entirety.
Prepared by: Brad Dolan D ll-.- .. / 04/22/2010 Print Sign Date Reviewed by: Chris Pupek Print ' Sign Date Approved by:
Print Sign Date
Introduction On 04121/2010 it was discovered that buried segments of the AFW discharge lines supplying #22 and #24 Steam generators had not been subjected to surveillance testing as required.
When a required surveillance test is discovered not to have been performed as required, Salem's technical specifications permit either the test to be performed within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or performed at a.later time if an assessment of the associated risk is performed withiný 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and the risk is acceptable for the deferral period. This evaluation is provided to support that requirement.
This evaluation was prepared in accordance with Risk Management procedure ER-AA-600-1045, RO, "Risk Assessments of Missed or Deficient Surveillances."
That procedure indicates that if: results are acceptable, a risk assessment may be performed which assumes that affected. components and systems are unavailable.for the period of time from discovery until the surveillance test is performed. That approach was employed here.
There are two potential failure modes which could occur with the buried AFW discharge piping to the #22 and #24 steam .generators. The piping could
.coplase or otherwise obstruct, preventing flow from being delivered to the affected steam generators. itis also possible that the piping could leak.or rupture, resulting in a diversion of inventory from the stored supplies maintained for the AFW system.
The function of the AFW discharge lines is to.direct auxiliary feedwater to the secondaryside of the.steam generators. Piping integrity also acts to prevent loss of necessary inventory of. auxiliary feedwater supply.
This condition was modeled as follows, using. the online (a)(4) EOOS risk assessment model, based on the Salem model of record (v. 4.3).
The paths to the #22 and #24 SGs were failed by setting events AFS-CKV-CC-2AF23 and AFS-CKV-CC04AF23 to failed, using the: "BE" feature in the EOOS
.operators screen.
The potential for loss of inventory was conservatively bounded in this way.
.Salem's procedures encourage identification and resolution of events which could cause a loss of inventory. Substantial time. exists, on the order of hours, to 1identify and resolve a problem involving a loss of inventory. So long as ample "infinite" supplies exist, such as from the ser-vice water system,. a loss of some inventory should not prevent the AEW system from successfully performing its required functions.
The one circumstance in which it could be more-difficult to provide AFW suction supply from an infinite, source would be during a station blackout. This was modeled by adding. a new OR gate below gate GAN1 712 that has inputs %TES,
%TE2 and %TEG. This has the effect of failing the TDAFWP for all losses of offsite power. If onsite AC power supplies sufficient to power an MDAFWP are available, then power should also be available to sufficient service water pumps to provide AFW makeup. If onsite AC power sources are failed, then there is no AFW supply, given this model change. In addition gate TES03 (L.OOP and
- failure of onsite AC power systems) was added below gate GASBI10 to-ensure that failure of offsite and onsite AC power would fail all AFW.
This case was quantified using both the A(4) zero-maintenance unavailability and average annual unavailability models. With.the A(4) model the CDF increased
.from 2.21 E-5 to 6.19E-5 and an AOT (to result in.an ICCDP of 1 E-6) of 9.2 days resulted. With the average annual unavailability model the CDF' increased from 2.25E-5 to 7.16E-5 and an AOT(toresult in an ICCDP of 1E-6)of7.4 days resulted.
A similar set of modifications were made. to the average annual unavailability model of:record for LERF and it was quantified to confirm that ICCDP'was the limiting parameter. LERF increased from a baseline value of 1.18E-6 to 1.57E-6, thus confirming that the CODF calculation is limiting.
Conclusion Deferral of the missed surveillance for a period of.up to 7 days is acceptable and
.results in a negligible increase in risk. All routine oremergent risk. assessments should be performed as if the TDAFWP and 22AF23 and 24 AFW valves -are unavailable until the surveillance is performed.