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Category:CORRESPONDENCE-LETTERS
MONTHYEAR1CAN109906, Forwards Framatome Technologies,Inc non-proprietary TR BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheet of Once-Through Sgs, Rev 11999-10-19019 October 1999
Forwards Framatome Technologies,Inc non-proprietary TR BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheet of Once-Through Sgs, Rev 1
ML20217J4971999-10-18018 October 1999
Requests Addl Info Re Results of Util Most Recent Steam Generator Insp at ANO-2 & Util Methodology Used to Predict Future Performance of SG Tubes
ML20217J3871999-10-15015 October 1999
Informs That Topical Rept BAW-10235P, Management Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through SG, Rev 0 Marked as Proprietary Will Be Withheld from Public Disclosure
2CAN109902, Submits Withdrawal of Code Case N-593 for ANO-2 Replacement SGs1999-10-15015 October 1999
Submits Withdrawal of Code Case N-593 for ANO-2 Replacement SGs
ML20217J3601999-10-15015 October 1999
Informs That Topical Rept BAW-10235P, Management Program for Volumetric Outer Diameter Integranular Attack in Tubesheets of Once-Through SG, Rev 1 Marked as Proprietary Will Be Withheld from Public Disclosure
2CAN109903, Forwards Response to RAI Re Proposed Tech Specs Change for Special SG Insp1999-10-14014 October 1999
Forwards Response to RAI Re Proposed Tech Specs Change for Special SG Insp
ML20217D1721999-10-0808 October 1999
Forwards RAI Re 990729 Request for Amend to TSs Allowing Special SG Insp for Plant,Unit 2.Questions Re Proposed Insp Scope for Axial Cracking Degradation in Eggcrate Support Region Submitted.Response Requested by 991015
1CAN109905, Discusses Insp of Once Through SG Tubing Surveillance Performed During 1R15 Scheduled RFO on 990910.Category C-3 Results,Included1999-10-0404 October 1999
Discusses Insp of Once Through SG Tubing Surveillance Performed During 1R15 Scheduled RFO on 990910.Category C-3 Results,Included
ML20212L0621999-10-0101 October 1999
Forwards Safety Evaluation & Exemption from Certain Requirements of 10CFR50,App R,Section III.G.2, Fire Protection of Safe Shutdown Capability
1CAN099908, Withdraws 990919 Exigent TS Change Request to Allow Continued Installation of re-rolls for One Cycle of Operation Through End of Cycle 16 in Conjunction with Addl Insp Criteria1999-09-30030 September 1999
Withdraws 990919 Exigent TS Change Request to Allow Continued Installation of re-rolls for One Cycle of Operation Through End of Cycle 16 in Conjunction with Addl Insp Criteria
2CAN099902, Requests That NRC Assign CENPD-132,Suppl 4-P, Calculative Methods for Abb Cenp Large Break LOCA Evaluation Model, Review Priority So That Approval Will Be Granted No Later than Oct 31,20001999-09-29029 September 1999
Requests That NRC Assign CENPD-132,Suppl 4-P, Calculative Methods for Abb Cenp Large Break LOCA Evaluation Model, Review Priority So That Approval Will Be Granted No Later than Oct 31,2000
1CAN099903, Forwards Rev 0 to COLR for ANO-1 Cycle 16, IAW TS 6.12.31999-09-27027 September 1999
Forwards Rev 0 to COLR for ANO-1 Cycle 16, IAW TS 6.12.3
1CAN099907, Requests That Alternative Be Allowed in Accordance with 10CFR50.55a(a)(3)(i) & (II) as Discussed in Encl 1.Encl 2 & 3 Stress Analysis & Flaw Evaluation Summaries Ref in Encl Alternative1999-09-26026 September 1999
Requests That Alternative Be Allowed in Accordance with 10CFR50.55a(a)(3)(i) & (II) as Discussed in Encl 1.Encl 2 & 3 Stress Analysis & Flaw Evaluation Summaries Ref in Encl Alternative
1CAN099906, Forwards 1R15 Growth Data Obtained & Analyzed Through 990922 & Includes Plus Point Voltages,Axial Extent & Circumferential Extent Patches,As Well as Preliminary Growth Conclusions Based on Analysis of Data1999-09-24024 September 1999
Forwards 1R15 Growth Data Obtained & Analyzed Through 990922 & Includes Plus Point Voltages,Axial Extent & Circumferential Extent Patches,As Well as Preliminary Growth Conclusions Based on Analysis of Data
2CAN099901, Informs That G Kendrick,License SOP-43658,no Longer Has Need to Maintain Operating License on Ano,Unit 2.Entergy Requests That License for Individual Be Withdrawn,Due to Resignation, Effective 9908271999-09-24024 September 1999
Informs That G Kendrick,License SOP-43658,no Longer Has Need to Maintain Operating License on Ano,Unit 2.Entergy Requests That License for Individual Be Withdrawn,Due to Resignation, Effective 990827
2CAN099904, Forwards Ano,Unit 2 10CFR50.59 Rept for Time Period Ending 990225.Rept Contains Brief Description of Changes in Procedures & in Facility as Described in Sar,Tests & Experiments Conducted & Other Changes to SAR1999-09-23023 September 1999
Forwards Ano,Unit 2 10CFR50.59 Rept for Time Period Ending 990225.Rept Contains Brief Description of Changes in Procedures & in Facility as Described in Sar,Tests & Experiments Conducted & Other Changes to SAR
ML20212F5031999-09-22022 September 1999
Forwards SER Granting Relief Requests 1-98-001 & 1-98-002 Which Would Require Design Mods to Comply with Code Requirements,Which Would Impose Significant Burden Pursuant to 10CFR50.55a(g)(6)(i)
1CAN099905, Submits Supplemental Info in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria.Proposed TS Rev & Info Related to Use of Alternate Repair Discussed in Attachments1999-09-17017 September 1999
Submits Supplemental Info in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria.Proposed TS Rev & Info Related to Use of Alternate Repair Discussed in Attachments
ML20212D9961999-09-16016 September 1999
Informs That on 990818,NRC Completed Midcycle PPR of Arkansas Nuclear One.Nrc Plan to Conduct Core Insps at Facility Over Next 7 Months.Details of Insp Plan Through March 2000 Encl
1CAN099902, Forwards Proprietary Rev 1 to Topical Rept BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through Sgs, in Response to 990831 Rai.Proprietary Encl Withheld1999-09-15015 September 1999
Forwards Proprietary Rev 1 to Topical Rept BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through Sgs, in Response to 990831 Rai.Proprietary Encl Withheld
2CAN099905, Informs That Jk Caery,License OP-42589 & as Bates,License OP-42506,no Longer Need to Maintain Operating License at Ano,Unit 2.Withdrawal of Licenses Is Requested1999-09-0909 September 1999
Informs That Jk Caery,License OP-42589 & as Bates,License OP-42506,no Longer Need to Maintain Operating License at Ano,Unit 2.Withdrawal of Licenses Is Requested
1CAN099901, Forwards Responses to 990831 RAI Containing follow-up Questions Discussed on 990823-26,in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria. Revs to Proposed TSs Included in Attachments1999-09-0707 September 1999
Forwards Responses to 990831 RAI Containing follow-up Questions Discussed on 990823-26,in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria. Revs to Proposed TSs Included in Attachments
ML20211P4121999-09-0707 September 1999
Requests NRC Staff Review & Approval of Integrated Nuclear Security Plan (Insp) & Integrated Security Training & Qualification Plan (Ist&Q), for Use by All Entergy Operations,Inc.Encl Withheld,Per 10CFR2.790(d)
0CAN099906, Forwards Comments on Ano,Units 1 & 2 Specific Reactor Vessel Info Contained in Rvid,Version 2,in Response to NRC 990708 & 0715 Ltrs1999-09-0101 September 1999
Forwards Comments on Ano,Units 1 & 2 Specific Reactor Vessel Info Contained in Rvid,Version 2,in Response to NRC 990708 & 0715 Ltrs
ML20211L4901999-09-0101 September 1999
Forwards Insp Repts 50-313/99-12 & 50-368/99-12 on 990711- 0821.No Violations Noted
ML20211J2351999-08-31031 August 1999
Forwards Request for Addl Info Re SG Outer Diameter Intergranular Attack Alternate Repair Criteria for Plant, Unit 1
ML20211E6161999-08-25025 August 1999
Forwards Amend 15 to ANO Unit 2,USAR,per 10CFR50.71(e) & 10CFR50.4(b)(6).Summary of 10CFR50.59 Evaluations Associated with Amend 15 of ANO Unit 2 SAR Will Be Provided Under Separate Cover Ltr with 30 Days
0CAN089905, Forwards Arkansas Nuclear One Units 1 & 2 FFD Program Performance Data for Period Jan-June 19991999-08-25025 August 1999
Forwards Arkansas Nuclear One Units 1 & 2 FFD Program Performance Data for Period Jan-June 1999
ML20211F4181999-08-25025 August 1999
Forwards SE Accepting Licensee 980603 & 990517 Requests for Approval of risk-informed Alternative to 1992 Edition of ASME BPV Code Section Xi,Insp Requirements for Class 1, Category B-J Piping Welds
ML20211G0731999-08-19019 August 1999
Forwards Applications for Renewal of Operating License for Kw Canitz & Aj South.Without Encls
1CAN089904, Forwards Addl Info in Support of SG Tube End Cracking Alternate Repair Criteria,In Response to NRC 990728 Rai. Proposed TS Changes Encl1999-08-19019 August 1999
Forwards Addl Info in Support of SG Tube End Cracking Alternate Repair Criteria,In Response to NRC 990728 Rai. Proposed TS Changes Encl
ML20211C5101999-08-19019 August 1999
Forwards Certified Copies of Liability Insurance Policy Endorsements Issued in First Half of 1999 for Each Entergy Operations,Inc Nuclear Unit,Per 10CFR140.15
ML20211A9501999-08-12012 August 1999
Discusses 990720-21 Workshop Conducted in Region IV Ofc,Re Exchange of Info in Area of Use of Risk Insights in Regulatory Activities.List of Attendees,Summary of Topic & Issues,Agenda & Copies of Handouts Encl
0CAN089903, Submits Addl Response to NRC Second RAI Re GL 95-07, Pressure Locking & Thermal Binding of Gate Valves1999-08-12012 August 1999
Submits Addl Response to NRC Second RAI Re GL 95-07, Pressure Locking & Thermal Binding of Gate Valves
IR 05000368/19990111999-08-12012 August 1999
Forwards Insp Repts 50-313//99-11 & 50-368/99-11 on 990719-23.No Violations Noted.Insp Focused on Review of Licensed Operator Requalification Program & Observation of Requalification Exam Activities at Unit 1
2CAN089901, Forwards Description of Planned Scope & Expansion Criteria for Special SG Tube Insp,In Support of Proposed ANO-2 TS Amend for 2P99 Special SG Insp Submitted on 9907291999-08-0606 August 1999
Forwards Description of Planned Scope & Expansion Criteria for Special SG Tube Insp,In Support of Proposed ANO-2 TS Amend for 2P99 Special SG Insp Submitted on 990729
1CAN089902, Requests NRC Input on Encl Proposed Draft Format for ANO-1 License Renewal Application,Which Will Provide Option to Continue Operating Plant for Addl Twenty Years Beyond End of Current Operating License1999-08-0505 August 1999
Requests NRC Input on Encl Proposed Draft Format for ANO-1 License Renewal Application,Which Will Provide Option to Continue Operating Plant for Addl Twenty Years Beyond End of Current Operating License
2CAN089902, Informs That Tl Russell,License SOP-43587-1 & Jk Fancher, License OP-42300-1,no Longer Have Need to Maintain Operating License at ANO-2.Withdrawal of Licenses Requested1999-08-0404 August 1999
Informs That Tl Russell,License SOP-43587-1 & Jk Fancher, License OP-42300-1,no Longer Have Need to Maintain Operating License at ANO-2.Withdrawal of Licenses Requested
ML20210L1461999-08-0303 August 1999
Informs That NRC Plans to Administer Gfes of Written Operator Licensing Exam on 991006.Requests Submittal of Ltr Identifying Individuals Taking Exam,Personnel Allowed Access to Exams & Mailing Address for Exams
0CAN089902, Submits 60 Day Response to GL 99-02, Laboratory Testing of Nuclear Grade Activated Charcoal. Proposed Actions That Will Be Taken on ANO Unit 1 RB Purge Filtration Sys & Unit 2 Containment Purge & Exhaust Sys,Clarified1999-08-0202 August 1999
Submits 60 Day Response to GL 99-02, Laboratory Testing of Nuclear Grade Activated Charcoal. Proposed Actions That Will Be Taken on ANO Unit 1 RB Purge Filtration Sys & Unit 2 Containment Purge & Exhaust Sys,Clarified
0CAN089901, Forwards Info Re Estimate of licensee-originated Licensing Actions for ANO-1 & ANO-2,in Response to Administrative Ltr 99-02,dtd 9906031999-08-0202 August 1999
Forwards Info Re Estimate of licensee-originated Licensing Actions for ANO-1 & ANO-2,in Response to Administrative Ltr 99-02,dtd 990603
ML20210L3581999-07-29029 July 1999
Ltr Contract,Task Order 43, Arkansas Nuclear One Safety System Engineering Insp (Ssei), Under Contract NRC-03-98-021
1CAN079903, Forwards non-proprietary Addendum to Rev 0 of Topical Rept BAW-2346P,in Support of Proposed TS Changes Revising SG Tubing Surveillance Requirements to Provide Alternate Repair Criteria for Tube End Cracks1999-07-29029 July 1999
Forwards non-proprietary Addendum to Rev 0 of Topical Rept BAW-2346P,in Support of Proposed TS Changes Revising SG Tubing Surveillance Requirements to Provide Alternate Repair Criteria for Tube End Cracks
ML20216D8131999-07-28028 July 1999
Forwards Request for Addl Info Re SG Tube End Cracking Alternate Repair Criteria for Plant,Unit 1
ML20216D3561999-07-23023 July 1999
Discusses non-cited Violation Identified in Insp Rept 50-313/98-21,involving Failure to Have Acceptable Alternative Shutdown Capability for ANO-1
ML20210C2191999-07-21021 July 1999
Forwards Insp Repts 50-313/99-08 & 50-368/99-08 on 990530-0710 at Arkansas Nuclear One,Units 1 & 2,reactor Facility.No Violations Noted.Conduct of Activities at Plant Generally Characterized by safety-conscious Operations
ML20209H5251999-07-15015 July 1999
Informs That as Result of NRC Review of Licensee 980701 & 990311 Responses to GL 92-01,rev 1 & Suppl 1 & Suppl 1 RAI, Staff Revised Info in Reactor Vessel Integrity Database & Releasing Database as Rvid Version 2
1CAN079901, Forwards Proposed Changes to Current Util 990409 Submittal Re Rev to RB Structural Integrity Requirements Contained in Plant Ts.Proposed Revs Affect ACs & Applicable Bases Re ISI Reporting for Containment Structures,Tendons & Anchorages1999-07-14014 July 1999
Forwards Proposed Changes to Current Util 990409 Submittal Re Rev to RB Structural Integrity Requirements Contained in Plant Ts.Proposed Revs Affect ACs & Applicable Bases Re ISI Reporting for Containment Structures,Tendons & Anchorages
0CAN079902, Responds to NRC Telcon RAI Re Proposed Administrative Controls TS Changes.Revised TS Pages Which Replaces Pages Previously Provided in 981124 Submittal,Encl1999-07-14014 July 1999
Responds to NRC Telcon RAI Re Proposed Administrative Controls TS Changes.Revised TS Pages Which Replaces Pages Previously Provided in 981124 Submittal,Encl
ML20209E5551999-07-0808 July 1999
Informs That as Result of NRC Review of Util Responses to GL 92-01,rev 1,suppl 1,staff Revised Info in Rv Integrity Database & Releasing Database as Rvid Version 2
1999-09-09
[Table view]
Category:INCOMING CORRESPONDENCE
MONTHYEAR1CAN109906, Forwards Framatome Technologies,Inc non-proprietary TR BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheet of Once-Through Sgs, Rev 11999-10-19019 October 1999
Forwards Framatome Technologies,Inc non-proprietary TR BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheet of Once-Through Sgs, Rev 1
2CAN109902, Submits Withdrawal of Code Case N-593 for ANO-2 Replacement SGs1999-10-15015 October 1999
Submits Withdrawal of Code Case N-593 for ANO-2 Replacement SGs
2CAN109903, Forwards Response to RAI Re Proposed Tech Specs Change for Special SG Insp1999-10-14014 October 1999
Forwards Response to RAI Re Proposed Tech Specs Change for Special SG Insp
1CAN109905, Discusses Insp of Once Through SG Tubing Surveillance Performed During 1R15 Scheduled RFO on 990910.Category C-3 Results,Included1999-10-0404 October 1999
Discusses Insp of Once Through SG Tubing Surveillance Performed During 1R15 Scheduled RFO on 990910.Category C-3 Results,Included
1CAN099908, Withdraws 990919 Exigent TS Change Request to Allow Continued Installation of re-rolls for One Cycle of Operation Through End of Cycle 16 in Conjunction with Addl Insp Criteria1999-09-30030 September 1999
Withdraws 990919 Exigent TS Change Request to Allow Continued Installation of re-rolls for One Cycle of Operation Through End of Cycle 16 in Conjunction with Addl Insp Criteria
2CAN099902, Requests That NRC Assign CENPD-132,Suppl 4-P, Calculative Methods for Abb Cenp Large Break LOCA Evaluation Model, Review Priority So That Approval Will Be Granted No Later than Oct 31,20001999-09-29029 September 1999
Requests That NRC Assign CENPD-132,Suppl 4-P, Calculative Methods for Abb Cenp Large Break LOCA Evaluation Model, Review Priority So That Approval Will Be Granted No Later than Oct 31,2000
1CAN099903, Forwards Rev 0 to COLR for ANO-1 Cycle 16, IAW TS 6.12.31999-09-27027 September 1999
Forwards Rev 0 to COLR for ANO-1 Cycle 16, IAW TS 6.12.3
1CAN099907, Requests That Alternative Be Allowed in Accordance with 10CFR50.55a(a)(3)(i) & (II) as Discussed in Encl 1.Encl 2 & 3 Stress Analysis & Flaw Evaluation Summaries Ref in Encl Alternative1999-09-26026 September 1999
Requests That Alternative Be Allowed in Accordance with 10CFR50.55a(a)(3)(i) & (II) as Discussed in Encl 1.Encl 2 & 3 Stress Analysis & Flaw Evaluation Summaries Ref in Encl Alternative
2CAN099901, Informs That G Kendrick,License SOP-43658,no Longer Has Need to Maintain Operating License on Ano,Unit 2.Entergy Requests That License for Individual Be Withdrawn,Due to Resignation, Effective 9908271999-09-24024 September 1999
Informs That G Kendrick,License SOP-43658,no Longer Has Need to Maintain Operating License on Ano,Unit 2.Entergy Requests That License for Individual Be Withdrawn,Due to Resignation, Effective 990827
1CAN099906, Forwards 1R15 Growth Data Obtained & Analyzed Through 990922 & Includes Plus Point Voltages,Axial Extent & Circumferential Extent Patches,As Well as Preliminary Growth Conclusions Based on Analysis of Data1999-09-24024 September 1999
Forwards 1R15 Growth Data Obtained & Analyzed Through 990922 & Includes Plus Point Voltages,Axial Extent & Circumferential Extent Patches,As Well as Preliminary Growth Conclusions Based on Analysis of Data
2CAN099904, Forwards Ano,Unit 2 10CFR50.59 Rept for Time Period Ending 990225.Rept Contains Brief Description of Changes in Procedures & in Facility as Described in Sar,Tests & Experiments Conducted & Other Changes to SAR1999-09-23023 September 1999
Forwards Ano,Unit 2 10CFR50.59 Rept for Time Period Ending 990225.Rept Contains Brief Description of Changes in Procedures & in Facility as Described in Sar,Tests & Experiments Conducted & Other Changes to SAR
1CAN099905, Submits Supplemental Info in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria.Proposed TS Rev & Info Related to Use of Alternate Repair Discussed in Attachments1999-09-17017 September 1999
Submits Supplemental Info in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria.Proposed TS Rev & Info Related to Use of Alternate Repair Discussed in Attachments
1CAN099902, Forwards Proprietary Rev 1 to Topical Rept BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through Sgs, in Response to 990831 Rai.Proprietary Encl Withheld1999-09-15015 September 1999
Forwards Proprietary Rev 1 to Topical Rept BAW-10235P, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through Sgs, in Response to 990831 Rai.Proprietary Encl Withheld
2CAN099905, Informs That Jk Caery,License OP-42589 & as Bates,License OP-42506,no Longer Need to Maintain Operating License at Ano,Unit 2.Withdrawal of Licenses Is Requested1999-09-0909 September 1999
Informs That Jk Caery,License OP-42589 & as Bates,License OP-42506,no Longer Need to Maintain Operating License at Ano,Unit 2.Withdrawal of Licenses Is Requested
ML20211P4121999-09-0707 September 1999
Requests NRC Staff Review & Approval of Integrated Nuclear Security Plan (Insp) & Integrated Security Training & Qualification Plan (Ist&Q), for Use by All Entergy Operations,Inc.Encl Withheld,Per 10CFR2.790(d)
1CAN099901, Forwards Responses to 990831 RAI Containing follow-up Questions Discussed on 990823-26,in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria. Revs to Proposed TSs Included in Attachments1999-09-0707 September 1999
Forwards Responses to 990831 RAI Containing follow-up Questions Discussed on 990823-26,in Support of SG Outer Diameter Intergranular Attack Alternate Repair Criteria. Revs to Proposed TSs Included in Attachments
0CAN099906, Forwards Comments on Ano,Units 1 & 2 Specific Reactor Vessel Info Contained in Rvid,Version 2,in Response to NRC 990708 & 0715 Ltrs1999-09-0101 September 1999
Forwards Comments on Ano,Units 1 & 2 Specific Reactor Vessel Info Contained in Rvid,Version 2,in Response to NRC 990708 & 0715 Ltrs
ML20211E6161999-08-25025 August 1999
Forwards Amend 15 to ANO Unit 2,USAR,per 10CFR50.71(e) & 10CFR50.4(b)(6).Summary of 10CFR50.59 Evaluations Associated with Amend 15 of ANO Unit 2 SAR Will Be Provided Under Separate Cover Ltr with 30 Days
0CAN089905, Forwards Arkansas Nuclear One Units 1 & 2 FFD Program Performance Data for Period Jan-June 19991999-08-25025 August 1999
Forwards Arkansas Nuclear One Units 1 & 2 FFD Program Performance Data for Period Jan-June 1999
ML20211G0731999-08-19019 August 1999
Forwards Applications for Renewal of Operating License for Kw Canitz & Aj South.Without Encls
1CAN089904, Forwards Addl Info in Support of SG Tube End Cracking Alternate Repair Criteria,In Response to NRC 990728 Rai. Proposed TS Changes Encl1999-08-19019 August 1999
Forwards Addl Info in Support of SG Tube End Cracking Alternate Repair Criteria,In Response to NRC 990728 Rai. Proposed TS Changes Encl
ML20211C5101999-08-19019 August 1999
Forwards Certified Copies of Liability Insurance Policy Endorsements Issued in First Half of 1999 for Each Entergy Operations,Inc Nuclear Unit,Per 10CFR140.15
0CAN089903, Submits Addl Response to NRC Second RAI Re GL 95-07, Pressure Locking & Thermal Binding of Gate Valves1999-08-12012 August 1999
Submits Addl Response to NRC Second RAI Re GL 95-07, Pressure Locking & Thermal Binding of Gate Valves
2CAN089901, Forwards Description of Planned Scope & Expansion Criteria for Special SG Tube Insp,In Support of Proposed ANO-2 TS Amend for 2P99 Special SG Insp Submitted on 9907291999-08-0606 August 1999
Forwards Description of Planned Scope & Expansion Criteria for Special SG Tube Insp,In Support of Proposed ANO-2 TS Amend for 2P99 Special SG Insp Submitted on 990729
1CAN089902, Requests NRC Input on Encl Proposed Draft Format for ANO-1 License Renewal Application,Which Will Provide Option to Continue Operating Plant for Addl Twenty Years Beyond End of Current Operating License1999-08-0505 August 1999
Requests NRC Input on Encl Proposed Draft Format for ANO-1 License Renewal Application,Which Will Provide Option to Continue Operating Plant for Addl Twenty Years Beyond End of Current Operating License
2CAN089902, Informs That Tl Russell,License SOP-43587-1 & Jk Fancher, License OP-42300-1,no Longer Have Need to Maintain Operating License at ANO-2.Withdrawal of Licenses Requested1999-08-0404 August 1999
Informs That Tl Russell,License SOP-43587-1 & Jk Fancher, License OP-42300-1,no Longer Have Need to Maintain Operating License at ANO-2.Withdrawal of Licenses Requested
0CAN089901, Forwards Info Re Estimate of licensee-originated Licensing Actions for ANO-1 & ANO-2,in Response to Administrative Ltr 99-02,dtd 9906031999-08-0202 August 1999
Forwards Info Re Estimate of licensee-originated Licensing Actions for ANO-1 & ANO-2,in Response to Administrative Ltr 99-02,dtd 990603
0CAN089902, Submits 60 Day Response to GL 99-02, Laboratory Testing of Nuclear Grade Activated Charcoal. Proposed Actions That Will Be Taken on ANO Unit 1 RB Purge Filtration Sys & Unit 2 Containment Purge & Exhaust Sys,Clarified1999-08-0202 August 1999
Submits 60 Day Response to GL 99-02, Laboratory Testing of Nuclear Grade Activated Charcoal. Proposed Actions That Will Be Taken on ANO Unit 1 RB Purge Filtration Sys & Unit 2 Containment Purge & Exhaust Sys,Clarified
1CAN079903, Forwards non-proprietary Addendum to Rev 0 of Topical Rept BAW-2346P,in Support of Proposed TS Changes Revising SG Tubing Surveillance Requirements to Provide Alternate Repair Criteria for Tube End Cracks1999-07-29029 July 1999
Forwards non-proprietary Addendum to Rev 0 of Topical Rept BAW-2346P,in Support of Proposed TS Changes Revising SG Tubing Surveillance Requirements to Provide Alternate Repair Criteria for Tube End Cracks
ML20216D3561999-07-23023 July 1999
Discusses non-cited Violation Identified in Insp Rept 50-313/98-21,involving Failure to Have Acceptable Alternative Shutdown Capability for ANO-1
1CAN079901, Forwards Proposed Changes to Current Util 990409 Submittal Re Rev to RB Structural Integrity Requirements Contained in Plant Ts.Proposed Revs Affect ACs & Applicable Bases Re ISI Reporting for Containment Structures,Tendons & Anchorages1999-07-14014 July 1999
Forwards Proposed Changes to Current Util 990409 Submittal Re Rev to RB Structural Integrity Requirements Contained in Plant Ts.Proposed Revs Affect ACs & Applicable Bases Re ISI Reporting for Containment Structures,Tendons & Anchorages
0CAN079902, Responds to NRC Telcon RAI Re Proposed Administrative Controls TS Changes.Revised TS Pages Which Replaces Pages Previously Provided in 981124 Submittal,Encl1999-07-14014 July 1999
Responds to NRC Telcon RAI Re Proposed Administrative Controls TS Changes.Revised TS Pages Which Replaces Pages Previously Provided in 981124 Submittal,Encl
ML20210K1621999-07-0707 July 1999
Informs That Licensee in Process of Preparing Scope of Service Delineation for Environ Assessment to Be Performed for New Airport Located Near Russellville,Ar,To Identify Anticipated Environ Impacts from Various Agencies
1CAN079902, Documents ANO-1 Position Discussed on 990705,with Members of NRC Staff & Formally Requests Enforcement Discretion from Requirements of TS 3.7.2.C to Allow Continued Power of Operation1999-07-0606 July 1999
Documents ANO-1 Position Discussed on 990705,with Members of NRC Staff & Formally Requests Enforcement Discretion from Requirements of TS 3.7.2.C to Allow Continued Power of Operation
ML20209B6081999-06-30030 June 1999
Submits Response to NRC GL 98-01,Suppl 1, Y2K Readiness of Computer Sys at Nuclear Power Plants. Disclosure Encl
0CAN069906, Forwards Corrected Pages to 1997 & 1998 Annual Radiological Environ Operating Repts, Issued 980430 (0CAN049804) & 990506 (0CAN059902).Ltr Number & Page Number Are at Top of of Corrected Pages to Replace Originally Pages1999-06-30030 June 1999
Forwards Corrected Pages to 1997 & 1998 Annual Radiological Environ Operating Repts, Issued 980430 (0CAN049804) & 990506 (0CAN059902).Ltr Number & Page Number Are at Top of of Corrected Pages to Replace Originally Pages
1CAN069905, Forwards non-proprietary Version of Rev 0 to TR BAW-10235, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through Sgs1999-06-17017 June 1999
Forwards non-proprietary Version of Rev 0 to TR BAW-10235, Mgt Program for Volumetric Outer Diameter Intergranular Attack in Tubesheets of Once-Through Sgs
0CAN069903, Submits Rept of Each Change to or Error Discovered in Acceptable Evaluation Model or in Application of Such Model for ECCS That Affects Peak Cladding Temp,Iaw 10CFR50.46(a) (3)(ii)1999-06-10010 June 1999
Submits Rept of Each Change to or Error Discovered in Acceptable Evaluation Model or in Application of Such Model for ECCS That Affects Peak Cladding Temp,Iaw 10CFR50.46(a) (3)(ii)
2CAN069901, Forwards Probabilistic Operational Assessment of ANO-2 SG Tubing for Cycle 14. Replacement of SGs Planned for Next Refueling Outage (2R14) Scheduled for Fall of 20001999-06-0202 June 1999
Forwards Probabilistic Operational Assessment of ANO-2 SG Tubing for Cycle 14. Replacement of SGs Planned for Next Refueling Outage (2R14) Scheduled for Fall of 2000
1CAN069901, Submits 10CFR50.46 Rept Re Inconsistent Input in SBLOCA Analysis.Rept Submitted in Accordance with Recommendations Stated in Notice1999-06-0202 June 1999
Submits 10CFR50.46 Rept Re Inconsistent Input in SBLOCA Analysis.Rept Submitted in Accordance with Recommendations Stated in Notice
0CAN059906, Forwards Response to NRC 990402 RAI Re GL 96-05, Periodic Verification of Design Basis Capability of Safety-Related Movs1999-05-28028 May 1999
Forwards Response to NRC 990402 RAI Re GL 96-05, Periodic Verification of Design Basis Capability of Safety-Related Movs
ML20207E4341999-05-25025 May 1999
Submits 30-day Written Rept on Significant PCT Changes in ECCS Analysis for ANO-1.CRAFT2 Limiting PCT for ANO-1 Was Bounded by 1859 F PCT Calculated at 2568 Mwt for Crystal River 3 Cold Leg Pump Discharge Break Size of 0.125 Ft
1CAN059904, Informs NRC That Wl Franklin No Longer Has Need to Maintain Operating License on Ano,Unit 1.Requests License for Wl Franklin Be Withdrawn1999-05-20020 May 1999
Informs NRC That Wl Franklin No Longer Has Need to Maintain Operating License on Ano,Unit 1.Requests License for Wl Franklin Be Withdrawn
2CAN059906, Informs That ANO-2 UFSAR Will Be Revised to Include Comprehensive Discussions of Each Category of Containment Penetration Overcurrent Protective Devices,Per NRC Review of 980806 TS Change Request Re Relocation of TS Table 3.8-11999-05-18018 May 1999
Informs That ANO-2 UFSAR Will Be Revised to Include Comprehensive Discussions of Each Category of Containment Penetration Overcurrent Protective Devices,Per NRC Review of 980806 TS Change Request Re Relocation of TS Table 3.8-1
1CAN059902, Responds to NRC 990406 RAI Re risk-informed Inservice Insp Pilot Application,Submitted 980603.Approval of Alternative Is Requested Prior to End of July 1999,to Allow Sufficient Time for Util to Revise ANO-1 ISI Program1999-05-17017 May 1999
Responds to NRC 990406 RAI Re risk-informed Inservice Insp Pilot Application,Submitted 980603.Approval of Alternative Is Requested Prior to End of July 1999,to Allow Sufficient Time for Util to Revise ANO-1 ISI Program
2CAN059905, Expresses Appreciation for Staff & Mgt Team Efforts in Aggressively Pursuing Risk Informed ISI Initiative1999-05-14014 May 1999
Expresses Appreciation for Staff & Mgt Team Efforts in Aggressively Pursuing Risk Informed ISI Initiative
ML20206P7681999-05-10010 May 1999
Forwards Applications for Renewal of Operating License (Form 398) for MW Little & F Uptagrafft.Without Encl
2CAN059903, Forwards Rev to Footnote Submitted to Provide Clarity to Aforementioned Guidance1999-05-10010 May 1999
Forwards Rev to Footnote Submitted to Provide Clarity to Aforementioned Guidance
ML20206N1921999-05-10010 May 1999
Provides Revised Attachment 2 for Alternative Request IWE-02,originally Submitted 990429 Re Bolt Torque or Tension Testing of Class Mc pressure-retaining Bolting as Specified in Item 8.20 of Article IWE-2500,Table IWE-2500-1
ML20206H7121999-05-0606 May 1999
Forwards 1998 Annual Radiological Environ Operating Rept, for Ano.All Radionuclides Detected by Radiological Environ Monitoring Program During 1998 Were Significantly Below Regulatory Limits
1999-09-09
[Table view]
Category:UTILITY TO NRC
MONTHYEAR2CAN099009, Requests Interim Relief from Inservice Testing Re Performing Partial Stroke Test for Check Valve 2SI-16A.Valve Currently Required to Be Tested by 9009251990-09-21021 September 1990
Requests Interim Relief from Inservice Testing Re Performing Partial Stroke Test for Check Valve 2SI-16A.Valve Currently Required to Be Tested by 900925
0CAN099002, Discusses Validation of Nonlicensed Operator Staffing,In Response to Insp Repts 50-313/90-01 & 50-368/90-01.Concludes That Current Level of Three Nonlicensed Operators Per Shift, Adequate to Meet Demands of Operations Under EOP1990-09-14014 September 1990
Discusses Validation of Nonlicensed Operator Staffing,In Response to Insp Repts 50-313/90-01 & 50-368/90-01.Concludes That Current Level of Three Nonlicensed Operators Per Shift, Adequate to Meet Demands of Operations Under EOP
0CAN099007, Forwards Operator Licensing Exam Schedule for FY91 Through FY94,per Generic Ltr 90-071990-09-14014 September 1990
Forwards Operator Licensing Exam Schedule for FY91 Through FY94,per Generic Ltr 90-07
2CAN099004, Forwards Response to 900809 Telcon Questions on CEN-386-P Re Extended Burnup,Including Criteria,Methods & Analysis1990-09-0707 September 1990
Forwards Response to 900809 Telcon Questions on CEN-386-P Re Extended Burnup,Including Criteria,Methods & Analysis
0CAN099001, Responds to NRC Ltr Re Violations Noted in Insp Repts 50-313/90-19 & 50-368/90-19.Corrective Actions:Surveillance Procedures Reverified & Revised1990-09-0707 September 1990
Responds to NRC Ltr Re Violations Noted in Insp Repts 50-313/90-19 & 50-368/90-19.Corrective Actions:Surveillance Procedures Reverified & Revised
1CAN099003, Requests one-time Rev to Natl Exam Schedule for Operator License & Requalification Exams at Facility to Allow Testing in Aug,Rather than Feb of 19911990-09-0606 September 1990
Requests one-time Rev to Natl Exam Schedule for Operator License & Requalification Exams at Facility to Allow Testing in Aug,Rather than Feb of 1991
0CAN089009, Informs of Relocation to New Generation Support Bldg Just Outside Protected Area Southeast of Administration Bldg1990-08-31031 August 1990
Informs of Relocation to New Generation Support Bldg Just Outside Protected Area Southeast of Administration Bldg
0CAN089006, Forwards Semiannual Radiological Effluent Release Rept for First & Second Quarters 1990 & Changes to ODCM & Process Control Manual1990-08-30030 August 1990
Forwards Semiannual Radiological Effluent Release Rept for First & Second Quarters 1990 & Changes to ODCM & Process Control Manual
0CAN089008, Forwards Facility fitness-for-duty Program Performance Data for Jan-June 1990,per 10CFR26.73(d)1990-08-29029 August 1990
Forwards Facility fitness-for-duty Program Performance Data for Jan-June 1990,per 10CFR26.73(d)
0CAN089005, Requests Authorization to Use Inconel 690 Tubing & Bar Stock for Steam Generator Repairs at Plant.Approval Necessary to Support Planned Use of I-690 Sleeves & Plugs During 1R9 Scheduled to Begin on 9010011990-08-27027 August 1990
Requests Authorization to Use Inconel 690 Tubing & Bar Stock for Steam Generator Repairs at Plant.Approval Necessary to Support Planned Use of I-690 Sleeves & Plugs During 1R9 Scheduled to Begin on 901001
1CAN089011, Requests Relief from ASME Code Section XI Requirements Re Exercise & Stroke Time Testing for Low Pressure Injection Valves CV-1432 & CV-1433.Valves Located in Bypass Lines Around Decay Heat Coolers1990-08-16016 August 1990
Requests Relief from ASME Code Section XI Requirements Re Exercise & Stroke Time Testing for Low Pressure Injection Valves CV-1432 & CV-1433.Valves Located in Bypass Lines Around Decay Heat Coolers
2CAN089009, Requests Addl Time to Respond to NRC 900607 Request for Info Re Second 10-yr Interval of Inservice Insp Program. Response Will Be Submitted No Later than 9010311990-08-13013 August 1990
Requests Addl Time to Respond to NRC 900607 Request for Info Re Second 10-yr Interval of Inservice Insp Program. Response Will Be Submitted No Later than 901031
0CAN089002, Responds to Recommendations from Insp Repts 50-313/90-04 & 50-368/90-04 on 900202 That Reporting Format for Semiannual Radioactive Effluent Release Repts Be Revised to Comply W/ Reg Guide 1.21,Rev 11990-08-0808 August 1990
Responds to Recommendations from Insp Repts 50-313/90-04 & 50-368/90-04 on 900202 That Reporting Format for Semiannual Radioactive Effluent Release Repts Be Revised to Comply W/ Reg Guide 1.21,Rev 1
05000313/LER-1989-041, Revises Commitment Completion Date for LER 89-041-00 Re Proper Method of Calibr of Startup Feedwater Control Valves CV-2623 & 2673 to 900915.Delay Due to Time Needed to Review & Implement New Calibr Guidance Criteria1990-08-0202 August 1990
Revises Commitment Completion Date for LER 89-041-00 Re Proper Method of Calibr of Startup Feedwater Control Valves CV-2623 & 2673 to 900915.Delay Due to Time Needed to Review & Implement New Calibr Guidance Criteria
2CAN089006, Forwards Steam Generator Tubing Inservice Insp Rept 2R7 Refueling Outage.No Tubes Plugged.Apologizes for Delay in Submitting Info1990-08-0202 August 1990
Forwards Steam Generator Tubing Inservice Insp Rept 2R7 Refueling Outage.No Tubes Plugged.Apologizes for Delay in Submitting Info
ML20081E0891990-07-31031 July 1990
Advises That Since Guidance Contained in Reg Guide 1.97 Not Addressed in Submittals Re Generic Ltr 82-33,further Clarification of Position Re Compliance W/Generic Ltr Appropriate,Per .Ltr Will Be Submitted by 901215
0CAN079014, Amends Commitment Date for Mods to Svc Water Pump Design,Per Insp Repts 50-313/89-30 & 50-368/89-30.Project Scoping Rept Expected to Be Completed by 9009301990-07-31031 July 1990
Amends Commitment Date for Mods to Svc Water Pump Design,Per Insp Repts 50-313/89-30 & 50-368/89-30.Project Scoping Rept Expected to Be Completed by 900930
0CAN079024, Forwards Revised Response to Insp Repts 50-313/90-04 & 50-368/90-04.Corrective Actions:Specific Communication Meetings Will Be Conducted W/Staff Re Decontamination Practices & Procedures1990-07-31031 July 1990
Forwards Revised Response to Insp Repts 50-313/90-04 & 50-368/90-04.Corrective Actions:Specific Communication Meetings Will Be Conducted W/Staff Re Decontamination Practices & Procedures
0CAN079020, Forwards Update to Status of Remaining Open Items on Security Perimeter Improvement Project,Per Insp Repts 50-313/87-31 & 50-368/87-31.Encl Withheld (Ref 10CFR2.790)1990-07-31031 July 1990
Forwards Update to Status of Remaining Open Items on Security Perimeter Improvement Project,Per Insp Repts 50-313/87-31 & 50-368/87-31.Encl Withheld (Ref 10CFR2.790)
0CAN079015, Discusses Clarification to Insp Repts 50-313/90-04 & 50-368/90-04.Corrective Actions:Surveillance Sampling Being Performed Monthly & Analyzed Prior to Loading/Releasing Each Load to Russellville Municipal Sewage Sys1990-07-26026 July 1990
Discusses Clarification to Insp Repts 50-313/90-04 & 50-368/90-04.Corrective Actions:Surveillance Sampling Being Performed Monthly & Analyzed Prior to Loading/Releasing Each Load to Russellville Municipal Sewage Sys
0CAN079018, Certifies That Info Contained in Rev 12 to QA Manual Operations Freighted to NRC on 900723 & Accurately Represents Changes Made Since Previous Submittal,Per 10CFR50.54(a)(3)1990-07-24024 July 1990
Certifies That Info Contained in Rev 12 to QA Manual Operations Freighted to NRC on 900723 & Accurately Represents Changes Made Since Previous Submittal,Per 10CFR50.54(a)(3)
0CAN079021, Forwards Rev 12 to QA Manual Operations1990-07-23023 July 1990
Forwards Rev 12 to QA Manual Operations
0CAN079017, Discusses Amend 8 to Plant Updated Sar.Certifies That Info Amend Represents Changes Made,Per 10CFR50.591990-07-23023 July 1990
Discusses Amend 8 to Plant Updated Sar.Certifies That Info Amend Represents Changes Made,Per 10CFR50.59
0CAN079019, Forwards Rev 12 to QA Manual Operations.W/O Encl1990-07-23023 July 1990
Forwards Rev 12 to QA Manual Operations.W/O Encl
0CAN079010, Amends 880616 Response to Violations Noted in Insp Repts 50-313/88-11 & 50-368/88-11 Re Integrated Leak Rate Test. Procedure Rev Postponed & Will Be Incorporated Into Single Rev to Be Completed by 9103011990-07-20020 July 1990
Amends 880616 Response to Violations Noted in Insp Repts 50-313/88-11 & 50-368/88-11 Re Integrated Leak Rate Test. Procedure Rev Postponed & Will Be Incorporated Into Single Rev to Be Completed by 910301
0CAN079011, Suppls Response to Violations Noted in Insp Repts 50-313/88-47 & 50-368/88-47 Re Isolation Valve CS-26. Corrective Actions:Special Work Plan Developed & Valve Cs-26 Local Leak Rate Tested on 9002161990-07-20020 July 1990
Suppls Response to Violations Noted in Insp Repts 50-313/88-47 & 50-368/88-47 Re Isolation Valve CS-26. Corrective Actions:Special Work Plan Developed & Valve Cs-26 Local Leak Rate Tested on 900216
2CAN079008, Forwards Response to NRC Questions on CEN-386-P Re Extended Burnup Rept & Statistical Treatment of Elastic Strain in Fuel Cladding at end-of-life & Measured Axial Fuel Rod pellet-to-pellet Gaps1990-07-17017 July 1990
Forwards Response to NRC Questions on CEN-386-P Re Extended Burnup Rept & Statistical Treatment of Elastic Strain in Fuel Cladding at end-of-life & Measured Axial Fuel Rod pellet-to-pellet Gaps
0CAN079006, Provides Update to Util Providing Results of Comparison of Station Blackout Rule Submittals to NUMARC Guidance1990-07-17017 July 1990
Provides Update to Util Providing Results of Comparison of Station Blackout Rule Submittals to NUMARC Guidance
2CAN079001, Submits Addl Info Re 890822 Tech Spec Change Request for RCS Safety Valves & Plant Sys Turbine Safety Valves. Tolerance of -3% in Combination W/Current High Pressurizer Trip Setpoint Ensures Valves Will Not Open Prior to Trip1990-07-0505 July 1990
Submits Addl Info Re 890822 Tech Spec Change Request for RCS Safety Valves & Plant Sys Turbine Safety Valves. Tolerance of -3% in Combination W/Current High Pressurizer Trip Setpoint Ensures Valves Will Not Open Prior to Trip
ML20043H5161990-06-19019 June 1990
Informs of Changes of Responsibility for Plant Emergency Plan,Effective 900605
ML20043H3121990-06-18018 June 1990
Forwards Responses to Remaining NRC Questions Re Seismically Qualified,Partially Protected,Condensate Storage Tank (Qcst).Analyses in Calculations Demonstrate That Qcst Tank Foundation & Drilled Piers Adequate W/O Mod
ML20043F3321990-06-15015 June 1990
Submits Addl Info on Tech Spec Change Request for Seismic Instrumentation,Per 890809 Request.Licensee Concurs W/Nrc Recommendation Re Editorial Change
ML20043G0661990-06-13013 June 1990
Responds to Deviations Noted in Insp Repts 50-313/90-11 & 50-368/90-11.Corrective Actions:Further Evaluations Conducted to Develop Optimum List of post-accident Instruments Requiring Identification on Control Panels
ML20043H3471990-06-11011 June 1990
Forwards Rev 19 to Industrial Security Plan.Rev Withheld (Ref 10CFR73.21)
ML20043G3801990-06-11011 June 1990
Responds to Violations Noted in Insp Repts 50-313/90-04 & 50-368/90-04.Corrective Actions:Decision Made to Staff Unit 1 Exit Location Point W/Health Physics Technician 24 H Per Day
ML20043F5121990-06-0808 June 1990
Forwards List of Directors & Officers of Entergy Operations, Inc.Operation of All Plants Transferred to Entergy on 900606
ML20043E6561990-06-0707 June 1990
Requests That Listed Distribution Be Made on All Future NRC Correspondence.Correspondence to Ns Carns Should Be Addressed to Russellville
ML20043F4341990-06-0707 June 1990
Informs of Receipt of Necessary Approvals to Transfer Operating Responsibilities of Plant to Entergy Operations, Per Amends 128 & 102 to Licenses DPR-51 & NPF-6, Respectively.Extension of Amend Request Unnecessary
ML20043E4991990-06-0505 June 1990
Provides Supplemental Response to Violations Noted in Insp Repts 50-313/89-02 & 50-368/89-02.Corrective Actions:Listed Program Enhancements Being Implemented to LER Process to Provide Timely Determinations of Condition Rept
ML20043E3851990-06-0404 June 1990
Concurs w/900516 Ltr Re Implementation of SPDS Complete for Both Units & Requirements of NUREG-0737,Suppl 1 Met
ML20043E3771990-06-0404 June 1990
Forwards Response to Concerns Re Control Room Habitability Survey.Addl Mods Identified Will Enhance Overall Reliability of Control Room Sys & Changes Designed to Increase Performance,Effectiveness & Response of Habitability Sys
ML20043C0821990-05-25025 May 1990
Withdraws 900410 Request to Amend Tech Spec Table 3.3-1 Re Applicable Operational Modes for Certain Reactor Protective Instrumentation Operability Requirements
ML20043B6531990-05-22022 May 1990
Forwards Rev to Industrial Security Plan to Eliminate Need to Protect Certain Vital Areas of Plant.Rev Withheld (Ref 10CFR73.21)
ML20043B7091990-05-21021 May 1990
Forwards Revised Maelu Certificate of Insurance for Nuclear Onsite Property Insurance Coverage for 1990,changing Policy Number from X89166 to X90143R
ML20043A5441990-05-16016 May 1990
Discusses Status of Safety & Performance Improvement Program Portion of B&W Owners Group EOP Review Project
ML20043A5991990-05-15015 May 1990
Forwards Monthly Operating Rept for Apr 1990 & Corrected Repts for Feb & Mar 1990 for Arkansas Nuclear One,Unit 1
ML20043B0841990-05-0909 May 1990
Corrects 900309 Ltr Re Completion of Security Perimeter Improvement Project,Per Insp Repts 50-313/87-31 & 50-368/87-31.Design Change Package Addressing Perimeter & Interior Lighting Scheduled to Be Onsite Late Summer 1991
ML20042H0551990-05-0909 May 1990
Forwards Civil Penalty in Amount of $50,000 for Violations Noted in Insp Repts 50-313/86-23 & 50-368/86-24 Re Environ Qualification of Electrical Equipment Important to Safety. Comprehensive Corrective Actions Undertaken
ML20043A8361990-05-0707 May 1990
Responds to Violations Noted in Insp Repts 50-313/90-05 & 50-368/90-05.Corrective Actions:Personnel Involved Received Counselling Re Incident & Operations Personnel Being Trained on Significance of Surveillance Requirements
ML20042G4771990-05-0404 May 1990
Forwards Summary of Util Exercise Critique Board Evaluation of Radiological Emergency Preparedness Exercise REX-90,per Insp Repts 50-313/90-08 & 50-368/90-08
1990-09-07
[Table view] |
Text
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October 30, 1989 1CAN108914 U. S. Nuclear Regulatory Commission Document Control Desk Mail Station P1-137 Washington, DC 20555
Subject:
Arkansas Nuclear One - Unit 1 Docket No. 50-313 License No. DPR-51 Bulletin 88-11 Pressurizer Surge Line Thermal Stratification Gentlemen:
By letter dated August 17, 1989 (1CNA088907), you requested additional information from the B&W Owners Group (B&WOG) on BAW-2085, " Submittal in Response to Nuclear Regulatory Commission Bulletin 88-11, Pressurizer Surge Line Thermal Stratification." The B&WOG responded to all but one of these questions by letter dated September 29, 1989, and committed to respond to the remaining question by November 30, 1989. Attached is a copy of the September 29, 1989 responses. The November 30, 1989 response will also be submitted by AP&L when available.
Additionally, a status report on the continuing evaluation of thermal striping phenomena is provided. The original intent of the B&WOG and AP&L was to provide a submittal in response to NRC Bulletin 88-11, Item 1.b, in May 1989 which would not include an evaluation of thermal striping. An additional submittal to address thermal striping was planned for October 1989. However, in an April 7, 1989 meeting with the B&WOG the NRC requested that an evaluation of thermal striping, based on information available at that time, be included in our May 1989 submittal. In compliance with this request, AP&L submitted BAW-2085 which includes comparisons of plant surge line geometries, preliminary evaluations of thermal stratification (including thermal striping), and fatigue analyses. Therefore, an Octc,ber as part of the bounding analysis in 1989submittalonthermalstripingIn$8-11,isnolongernecessary.
response to Item 1.b of NRC Bullet However, Attachment 2 is provided to keep you informed of the status of our continuing evaluation.
8911080025 891030 "f630 PDR ADOCK 05000313 1 o PDC l g
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i I U. S. NRC l
Page 2 October 30, 1!389 The intent of BAW-2085 was to report a preliminary evaluation of this issue
< by presenting bounding ana?yses. BAW-2085 supports continued plant I' operation while we continue with our comprehensive evaluation program which was developed to fully respond to NRC Bulletin 88-31. Based on the interim results presented in BAW-2085, it was shown that the B&WOG plants can
} continue to safely operate in the near term while the comprehensive evaluation program continues. The results of our comprehensive evaluation program will be documented in a topical report which is scheduled for t
submittal in December 1990. This submittal will meet the technical and i schedule requirements of NRC Bulletin 88-11.
r
( Very truly yours,
James . Fisicaro Manager, Licensing JJF/MCS/1w Attachmnts cc:- Mr. Robert Martin U. S. Nuclear Regulatory Commission Region IV 611 Ryan Plaza Drive, Suite 1000 Arlington, TX 76011 NRC Senior Resident Inspector Arkansas Nuclear One - ANO-1 & 2 Number 1, Nuclear Plant Road Russellville, AR 72801 Mr. C. Craig Harbuck NRR Project Manager, Region IV/ANO-1 U. S. Nuclear Regulatory Crmmission NRR Mail Stop 13-D-18 One White Flint North 11555 Rockville Pike Rockville, Maryland 20852 Mr. Chester Poslusny NRR Project Manager, Region IV/ANO-2 U. S. Nuclear Regulatory Commission NRR Mail Stop 13-D-18 One White Flint North 11555 Rockville Pike Rockville, Maryland 20852 l
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ATTACHMENT 1 .
B&W Owners Group Responses to :
i NRC Questions on BAW-2085 j September 1989 f s
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ll!TAQE.US.Ilsli l Attachment. 1 respones to the NRC 'etter: . Terence L. Chan to Daniel F. Spond, "NRC Bulletin BE, .', 'Freasurizer Surge Line Thermal Stratification,'" dated August 17, 1989. This letter .
- .' quested additienal information on AW-2085, the B&WOG interim
- v. remittal on surge line stratification. Tne responses are organized by first Ltating the NRC question and then followjng the question with the B&WOG response. T.*le sections noted in each question refer to sections of BAW-2085. Two separate submittals to the NRC are referred to in thes9 responses, i.e.:
- a. "BAW-2085" refers to B&WOG report BAW-2085, Submittal in Response to Nuclear Reaulatory Commission Bulletin 88-11" Pressurizer Surce Line Thermal Stratification," ,
. dated May 1989 *
- b. The " Toledo Edison submittal" refers to the Toledo Edison specific document for Davis-Besse on Docket No.
50-346, Serial No. 1671, dated June 2, 1989 r
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S GENERAL OUESTIONS GENERAL - OUESTION 1 (G 1)
Provide a comparison of calculated surge line thermal displace- ;
ments with the measured Oconee data to demonstrate the validity and conservatism of the bounding analysis.
RESPONSE (G.li Direct comparisons of displacements will be performed in the detailed analysis program which is scheduled for submittal in December 1990. Thermal stratification causes rotation at the location of occurrence. These rotations cause displacements along the surge line. Thus, the observed displacements are very sensitive to the local top-to-bottom . stratification (i.e.,
rotations). Displacement comparisons at higher Delta Ts than the-actual Delta Ts (top-to-bottom temperatura differences) could be misleading, even though the moments are very conservative.
Please see the response to Question 4.1 for additional informs-tion on this topic. '
GENERAL - OUESTION 2 (G.2)
Discuss the B&WOG's efforts regarding the effects and generic implications of potential thermal stratification on other lines which may be susceptible to this phenomenon.
RESPONSE /G.2)
This B&WOG program and the material provided in BAW-2085 are directed to the, subject of pressurizer surge line thermal stratification (see NRC Bulletin 88-11). For information regarding- other piping, it is suggested that the Staff review individual licensee responses to NRC Bulletin 88-08.
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QUESTIONS ON SECTION 4 SECTION 4 - OUESTION 1 (4.1)
How do the monitoring results for displacements and temperatures '
compare with analysis results? What are the values at the critical locations?
RESPONSE (4.1)
The calculated surge line thermal displacements have not been compared with actual displacement data for the reactor vessel (RV) skirt supported (Oconee type) plants. This is not con-sidered a priority because:
. a. Restraints which would be thermally active (gapped whip restraints or rigid supports) do not exist on any of the RV skirt supported plant surge lines, '
- b. The observed displacements at Oconee and the calculated displacements are well within any limits for snubber travel.
The displacements in the piping are a function of not only the top-to-bottom temperature difference, but also the average temperature and the temperature change along the length of the surge line. Until actual temperatures are analyzed, the only comparison which would be valid would be general deformation plots. A point for point comparison could be misleading prior to analysis of as measured data. A comparison between calculated surge line thermal displacements and actual displacement data ,
will be performed for the final report which is scheduled for
~
submittal in December 1990.
1 Critical locations should be at gapped restraint locations. The RV skirt supported plant surge lines have no gapped restraints.
The nozzle supported plant (Davis-Besse) has already presented the data requested at the restraint locations. Visual inspection i
of the surge line has already been performed for some of the plants and ic planned for the next shutdown for the remaining plants.
l For Davis-Besse, Unit 1, transverse piping deflections were I measured during the heatup after the 5th Refueling Outage as a l cross-check on the deflection analyses. Twelve lanyard poten-L tiometers were installed at seven pipe whip restraint locations.
l The measured deflections for the bounding transients fell within I the values derived from the analyses used as input for the l bounding fatigue analysis.
l The analysis results and measured deflections are described and illustrated in the Toledo Edison submittal in Attachment I, 1-4 l
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" Davis-Besse Pressurizer Surge Line Thermal St2.atification- ;
Phase I Program,"Section III.H.3. '
SECTION 4 - OUESTION 2 (4.2) i Since no upsets or cooldowns have occurred yet, what were the l assumptions / inputs used in the analysis? How was the worst case ,
determined? i RESPONSE (4.2)
The stratification load cases which cause the highest stress are
- those where the pressurizer is het and the bot leg is cold.
Plant heatup is the operational condition expected to produce the largest temperature difference across the surge line. For the bounding analysis the assumed temperature differences during heatup are based on the Muelheim-Kaarlich (M-K) data; these
, temperature differences were much larger than the temperature differences observed at Oconee 1.
Similarly, the number and magnitude of thermal cycles occurring during a cooldown are based on M-K data.
The reactor coole.nt system (RCS) Functional Specifications for tha 177 fuel assembly plants show that changes in the pressurizer pressure (and therefore in the pressurizer temperature) lead changes in the RCS temperature : during heatups and cooldowns.
Therefore, the pressurizer temperature to loop temperature difference is larger during a heatup than during a cooldown.
Plant trips which do not result in a plant cooldown 'do not L
exhibit as large a degree of stratification as that which exists i during normal plant cooldown conditions. If a cooldown does i result from a plant trip, the cooldown is procedurally controlled as a normal cooldown and falls within the limits of the normal design cooldown.
The Functional Specifications provide temperature and pressure l curves for piping and components for anticipated transients. A review of these documents indicates that the largest temperature difference during trips is about 1000 F between the pressurizer and the hot leg. If this temperature difference is assumed I between the top and bottom of the surge line, no significant additional fatigue usage occurs.
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OUESTIONS ON SECTION 5 )
SECTION 5 - OUESTION 1 (5.1) l What are the key assumptions / inputs provided by Toledo Edison to B&W for the fatigue analysis of Davis-Besse?
l RESPONSE (5.'1)
Toledo Edison provided the stratification temperature ranges considered likely t'o occur during heatup and cooldown at Davis- l Besse to B&W. These temperature ranges are tabulated on page 5-5 of BAW-2085. They are derived from the temperatures measured on the surge line at M-K and were modified to account for Davis-Besse operating parameters. This was basically done by reviewing
. the normal heatup and cooldown transients for the Davis-Basse i plant and fitting -the M-K data in the envelope between the <
pressurizer tamperature and the hot leg temperature. Toledo
! Edison furnished a transient plot of the heatup and cooldown transients from M-K, showing the number of occurrences for each stratification load case. For each case, Toledo Edison also provided the moments in the surge line and in the nozzles at each end. This input aided B&W in associating the correct parameters to be combined with the stratifications for the fatigue evalua-
! tion.
1 All other inputs for the f atigue evaluation were available from the latest. Davis-Besse stress report (pressure ranges, thermal "
l expansion moments, seismic moments). The evaluation furnished in i
Appendix B concluded that the transients used in the bounding analysis (as described above) was in fact bounding.
l SECTION 5 - OUESTION 2 (5.2) 1 What are the specific differences between the Muelheim-Kaerlich l (M-K) plant and the domestic plants?
RESPONSE ( 5 .' 2 ) '
l The M-K plant is a two-loop pressurized water reactor (PWR) with two cold legs in each loop, each with its own reactor coolant pump. The plant employs a pressurizer and associated spray line and surge line functionally similar to typical U.S. PWRs.
The M-K plant's surge line dimensions and configuration are somewhat different from the domestic 177 fuel assembly plants' surge lines. BAW-2085 includes the specific information for the dimensions and configurstion of the domestic plant surge lines.
Figure 1 shows the M-K surge line configuration. The total line length at M-K is approximately 78 feet compared to about 50 feet
,. for the domestic plants. The M-K configuration also contains a vertical rise in the line about 16 feet away from the pressuri-1-6
.y ',
,. h.
l' 1 .
l i
zer, somewhat similar to the configuration at the Davis-Besse i plant. However, the upper horizontal run at M-K is significantly l longer than its counterpart at Davis-Besse.
The surge line inside diameter at M-K is approximately 15.7 i inches versus 8.75 inches on the domestic plants. The straight '
pipe wall thickness at M-K is 1.8 inches versus the domestic plant value of 1 inch. M-K has removable stainless steel insulation on the surge line sinilar to that manufactured by B&W and used on most of the domestic surge lines.
The M-K plant's basic thermal-hydraulic performance and system operations are similar to the domestic plants' . Plant startup ,
requires an initial pressurization of the RCS after fill and !
venting steps are completed. This is done in conjunction with venting of the nitrogen bubble from the pressurizer. This step is followed by increased pressurization of the RCS in order'to establish the minimum NPSH for running the reactor coolant pumps.
During this initial pressurization phase, the largest pressurizar to loop temperature differential exists. This is similar to the domestic plants. With the heatup of the RCS, the pressurizer-loop temperature differential decreases as . the plant approaches the hot zero power condition. It continues to decrease with power escalation.
M-K operates with an average reactor coolant temperature of 595.40 F acove 15% full power. Normal RCS pressure at hot zero power and for the whole power range is 2189 psig. Corresponding values for the domestic plants are 579 0F (582 0F for the 2772 MWt plants) and 2155 psig. Hence, at power, the domestic plants have l a somewhat larger pressurizer to hot leg temperature differential than at M-K.
SECTION 5 - OUESTION 3 (5.3) i 1
What is the basis for loading case 1 to occur three times? (Ref. !'
page 5-2.)
RESPONSE (5.3) i- 1 l M-K measurements show load case 1 occurs three times during plant ,
heatup, with a maximum top-to-bottom temperature difference of i 330 0F. When the Oconee 1 bounding fatigue analysis was per-l formed, the M-K meacurements were the only ones available.
l Review and preliminary evaluation of the actual Oconee 1 measure-l ments showed this assumption to be conservative, i.e. the assumed L
number of cycles and the assumed temperature difference produced more fatigue than actual Oconee 1 measurements.
i SECTION 5 - OUESTION 4 (5.4)
What are the usage factor values at critical locetions l
1-7 L
l l
f . ,e j
's
- a. due to stratification loadings?
.b. due to other loadings?
RESPONSE (5.4)
The most straightforward response is to review the fatigue in accordance with the conditions listed At the bottom of page B-3 '
of Appendix B. (Since the prese' interim report does not attempt to justify forty years of plat paration, the conditions are given as a percentage of the total usage factor.). Table 1 shows the usage factors for the most critical location of the Oconee 1 surge line (drain line nozzle). .
. Table 2 shows the usage factors for the most critical location of .
the Davis-Besse 1 surge line (hot leg / surge line nozzle material discontinuity).
In each Table, Items 1 and 2 cover total peak stress ranges due to thermal stratification during heatup and cooldown, respective-ly.
SECTION 5 - OUESTION 5 (5.5)
How are the usage factors combined at critical locations
- a. linearly?
- b. enveloped?
RESPONSE (5.5)
The stresses for an operating condition are calculated via ASME i Section III NB-3500. Each operating condition is considered in I calculating stress ranges (stress reversals are considered). The -
! components of stress are superimposed to obtain the stress for a condition to be ranged with either zero or another condition.
l These stress ranges are used te calculate the usage f ctors.
l Each range is carried through the number of cycles that the pipe is expected to see with each heatup and cooldown based on the Oconee 1 data, Functional Specifications, and the M-K cooldown.
A usage factor is calculated for each stress range and all the usage factors are summed (each is positive) to obtain total cumulative damage per the ASME Code. '
SECTION 5 - OUESTION 6 (5.6)
How are the values for the allowable number of cycles shown.on page 5-4 determined? Do they include striping effects? If not, what is the impact?
1-8
c i
.
l l
6 RESPONSE (5.6) r The drain . nozzle is the most critical location in the Oconee 1 surge line. At that location, the cumulative usage factor is equal to 0.752 for 105 heatup and cooldown cycles. Therefore, ,
the allowable number of heatup and cooldown cycles is 105 divided ,
by 0.752 = 139 (rounded down to 135 on page 5-4). In the bounding analysis, extremely conservative through-wall radial gradients were corbined with stratification stresses to allow for striping. The Appendix B radial gradients were taken from the preliminary analysis provided in Subsection 7.3 which includes high cyclic striping. ;
Table 1 shows the effects of striping in both the Oconee 1 Bounding Fatigue and the Oconee 1 Verification of Appendix B (one ;
striping cycle combined with each stratification cycle, and the-
. remaining striping cycles considered separately to add thermal striping f atigue) . In the Oconee 1 Bounding Fatigue, the number of heatup and cooldown cycles required to obtain a usage factor of 1.0 is 135. The percentages of the cumulative usage factor are given in Table 1 for both the Oconee 1 Bounding Fatigue and the Oconee 1 Verification of Appendix B.
SECTION 5 - OUESTION 7 (5,7)
What type of adjustments and for which data were made to the M-K plant to account for the differences of Davis-Besse?
RESPONSE (5.7)
The temperature ranges for the analysis used in the fatigue evaluation were derived for Davis-Besse from the temperatures measured on the surge line at M-K. Modifications to the upper I
bounds of these temperatures were made to account for Davis-Besse plant operating limits. These were derived from a review of the Davis-Besse heatup procedure. For example, the maximum of 409 F, 0
occurring early in the heatup, results from the maximum pres ~
surizer temperature permitted to prevent exceeding the decay heat removal loop pressure limit.
l I
A more complete description of the review of plant operation, and the basis for the modifications to tailor the M-K data for conditions at Davis-Besse are given in the Toledo Edison submit-
~
l I
tal in Attachment I, " Davis-Besse Pressurizer Surge Line Thermal Stratification - Phase I Program,"Section III.E.
SECTION 5 - OUESTION 8 (5.8)
What are the maximum values and worct car,e location for ASME III NB-3600 equations 9 through 147 What is the effect if 3Sm allowable value is used?
1-9
. g
. . .,o
?
RESPONSE (5.8)
For the Oconee 1 Bounding Fatigue, thermal stratification load case 2 is the most critical load case (top-to-bottom temperature difference equal to 422 0F). For that load case, the highest -
stresses occur at the lowest point on the vertical elbow from the pressurizer, where the Equation 12 thermal stress range is equal to 92.3 Ksi, using stress index C2 = 2. 65 from the ASME Code.
The Oconee 1 bounding f atigue analysis replaces the 3*Sm allow-able value by the 2*Sb limit (93.9 Ksi), as justified.by Appendix C.
Note, however, that the verification performed in Appendix B uses the 3*Sm allowable value in Equation 10 to compute f atigue '
reduction for the Equation 14 alternating stress, Sa, to be used in fatigue usage calculation.
'5he Equation 9 results are within code limits, but are not t altered by thermal stratificar. ion. Therefore, they are available
- in the original stress report and are not part of this program.
Equation 13 stresses are also within code limits, since they are a not impacted by thermal stratification. Equation 10 stresses are used in Appendix B (and compared to 3*Sm) to calculate fatigue reduction and otherwise are moot (Equations 12 and 13).
The analysis performed here is a preliminary analysis which shows that fatigue usage is within the allowable limit. In the final analysis (to be documented in the final report- scheduled for submittal in December 1990) , a detailed elbow stress evaluation' will be performed to show that Equation 12 thermal stress range ,
is within the ASME Code allowable of 3*Sm. >
i:
For the Davis-Besse 1 Bounding Fatigue, all maximum stress values (for Equation 10 or Equation 12 stress ranges) are within the 3*Sm limit of USA ' Standard B31.7 based on Certified Materials Test Reports.
SECTION 5 - OUESTION 9 (5.9) "
l The use of twice " strain-hardened" yield strength in place of the 3Sm limit required by the ASME Code may be non-conservative. The acceptable interim limit is twice yield strength based on CMTR values.
RESPONSE (5.9)
As noted in the transmittal letter, a response to this question l' will be provided by Neverter 30, 1989.
l l
1-10
, s ...
.. -?.,. 'l Fioure 1 Muelheim - Kaerlich Surge Line Configuration Note: Dimensions are in millimeters unless ~
s ot erwise noted.
/
Beginning of hot leg U-bend w
- ?U
\
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Aetllte a I
1 1'
Surge line permanent temperature sensor -
l r
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i l
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. . . . . . . - - - - = = - - _ .
TABLE 1 Oconee 1 Surge Line *
(Drain Line Nozzle)
LOADINGS BOUNDING VERIFICATION FATIGUE (Appendix B)
(Subsec-tion 5.1) 1 Heatup 66% 56% including striping 2 Cooldown 5% 5% including striping 3 Strass Report 29% 32% stress same in both 4 Thermal Striping 0% 7% ,
TOTAL 100% 100% (91% of BOUNDING (135 heatup and FATIGUE TOTAL) cooldown cycles) b l
l l
l 1-12 t
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i TABLE 2
- i. Davis-Besse Surge Line (Hot Leg / Surge Line Nozzle Material Discontinuity- Carbon Steel) i LOADINGS BOUNDING VERIFICATION
! FATIGUE (Appendix B)
(Subsec-tion 5.2) 1 Heatup 32% 53% l 2 Cooldown 1% 1%
3 Stress Report 67% 46%- stress same in both 4 No Thermal Striping present at this location ,
TOTAL .. 100% 100% (73% of BOUNDING (57 heatup and FATIGUE TOTAL) ,
cooldown cycles) 9 l
l 1
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l 1-13
- r. , ,
OUESTIONS ON SECTION ,5 SECTION 6 - OUESTION 1 (6.11 Are the snubbers shown on Figs. 6.1 and 6.2 the only supports in the entire PSL? If not, provide type and location - of other supports.
RESPONSE (6.11 The Oconee type plants have no supports which resist thermal motion (e.g., only snebbers and dead weight hangers). Each utility confirmed this early in this program. Each plant has a
, slightly different scpport configuration but none of the Ocones type plants have rigid or gapped supports which could resist '
thermal motion even though it is radically different from the original calculated thermal motions. Thus, the detailed support configurations for each of these plants are of no interest for -
i thermal expansion type calculations.
N For Davis-Besse, the configuration shown in Figure 6.2 illu-strates the three hydraulic snubbers, R1, R2 and R3 and the cingle spring hanger, H1, which provide support for the surge line under various loading conditions considered in the design basis. The locations for these supports are correctly reflected in Figure 6.2.
In addition to these supports, there are eight fixed pipe whip restraints which are not in contact with the pipe during normal
- operations. Four of these are located along the upper horizontal l run, three are spaced along the lower horizontal run, and one is l located at the mid-point of the connecting vertical riser. The whip restraints on the horizontal runs are spaced approximately equally along the runn. Typically the pipe whip restraints are l of I-beam,. box-typa construction that are bolted to poured l concrete walls. At each whip restraint location, an impact collar which acts as a spacer is affixed to the pressurizer surge line. Free' movement of the pressurizer surge line is determined by preset gaps between shims, applied to the inside of the whip restraint, and the pressurizer surge line collar.
L A more detailed discussion of the supports and their interaction I
with the surge line is contained in the Toledo Edison submittal in Attachment I, "Dovis-Besse Pressurizer Surge Line Thermal Stratification - Phase I Program," Sections II, III.A, B, C, D.,
and III.I.
l i
1-14
i
.c. , .
QUESTIONS ON SECTION 7 i
SECTION 7 - OUESTION 1 (7.1)
How will the neasurement program from Oconee provide input to the striping effects? (Temperatures at the inside face of the pipe wall can't be measured unless they are of a large amplitude and a long period.)
RESPONSE (7.1) l We agree with the Staff's observation that the Oconee data cannot adequately measure striping temperature oscillations in the surge line fluid. As noted in BAW-2085, the approach employed for the submittal involved use of the Oconee data to determine the cumulative time that' the surge line experienced various degrees of stratification. Since the gross stratification changed very I slowly, there is reasonable confidence that the measurements i provide goed resolution for the top-to-bottom te=perature l difference. This. information was then combined with the estima- l ted striping characteristics, as dctermined from the literature, to yield a conservative estimate of the number and amplitude of the striping oscillations that eccurred in the surge line.
I This same general approach is expected .to be used in the final striping analysis, however, two rafinements will be made. First, an evaluation of the domestic plant operating history and procedures will result in a be".ter estimate for typical and I bounding stratification conditions in the surge line. The. result I of this evaluation is expected to aupersede the Oconee 1 data for .
cumulative time at various levels of stratification. Secondly, I the conservative estimates for the striping phenomenon itself, l 1.e , the frequency and amplitud's based on the percentage of the l gross surge line stratification, will be replaced with data from ;
experiments that closely simulate the B&W surge line conditions. j I
l In neither.the interim report nor in the final report, will the l Oconee surge line data be interpreted to yield a direct tempora- l l ture oscillation in the metal wall or in the fluid.
1 p' SECTIQN 7 - OUESTION 2 (7.2) l l
Why are 240 cycles used for Davis-Besse instead of 3607 l l RESPONSE (7.2) l The original design basis for all domestic B&W plants included 240 heatup and cooldown cycles. Duke Power later requested an upgrade for the Oconee units to 360 cycles for these two tran-l' sients. The number of design heatup and cooldown cycles is a L factor in two sections of BAW-2085. The first is in Section 5 where estimates of remaining life are made for the surge line.
1-15 L
{
. c. ..
l
. .. . f.
Subsection 5.1 addresses the lowered-loop plants to which the Oconee units belong. Once the fatigue impact was determined for a single heatup and cooldown cycle, the total allowable cycles was calculated (i.e., the number of cycles that would yield a fatigue usage of 1.0). As shown on the table at the top of page 5-4, the limiting location is the' surge line drain nozzle with a total of 135 allowable cycles. Given that the unit with the largest number of heatups is Oconee Unit 2 with 96, the remaining years of useful life were simply estimated by using the design basis of 360 cycles for the 40 year life of the plant. Hence, e the result is the reported value of about five years of remaining.
life. this is quite conservative given that the Oconee units in +
the past few years have heated u and cooled down much less frequently than nine times per year.p The same type of evaluation is performed in Subsection 5.2 for Davis-Besse although its 240 '
cycle design basis is not explicitly stated. (It can be backed out from the quoted six cycles per year specified in its design basis.)
Section 7 also makes reference to a design number of heatup and cooldown cycles (page 7-18). In this context, the number of derign heatup and cooldowns is being used to estimate the total lifetime impact of striping. 240 cycles was used because it is the design basis for all B&W units except the three Oconee units.
The calculated striping usage factor (0.10) was modified appro-priately in Appendix B to the number of cycles justified for each plant in Section 5. -
SECTION 7 - OUESTION 3 (7.3)
In ref. to Table 7-2
- a. Does the temperature range account for insulation
- b. What kind of stres,s concentration / indices are used RESPONSE (7.5)
The temperature data used to prepare Table 7-2 takes into account i insulation on the pipe. The insulation was removed, the thermo-couples were fastened to the surge line, and then the insulation was replaced.
l The calculation of Sa from the piping equations in the ASME Code considers the stress indices for as-welded butt welds (K3 = 1.7).
1 1-16
9 f* , . ,
OUESTIONS ON APPENDIX A APPENDIX A - OUESTION 1 (A.1) f Need clarification for first paragraph of page A-4.
RESPONSE (A.1)
Page A-4 of BAW-2085 contains a typographical error. Tha sentence which begins on line 3 of page A-4 should read:
"This result is derived using the relationship sigma =
1.43*E* alpha *(Delta T2) and an endurance limit of 16,500 psi at 1.0 E+11 cycles."
This is from the Code stress equation E
- alpha (Delta T2) / (1-poisson's ratio). In this case, (Delta T2) is equal to 45 0F (rounded down) to achieve a stress range of.16500 psi.' From the fatigue curves in the ASME Code, this yields 1.0 E+11 cycles.
l l
l r
I 1
I l-17
i QUESTIONS ON APPENDIX B '
APPENDIX B - OUESTION 1 (P.,1)
What is the % difference; and what are the values for displace-mants, reactio:is and stresses, when the non-linear vs. equivalent ;
linear temperature profiles F.E. models are compared?
RESPONSE (B.1)
To study the effect of a non-linear temperature profile, a finite '
element model (with enough circumferential elements to represent '
the measured data) of a statically determinate cantilever beam was chosen.
surge line.
The cross-section of that beam is the one of the The temperature profile in each cross-section of the beam was first given as a linear top-to-bottom temperature profile, and the transverse displacement at the end of the beam was calculated.
When giving the non-linear top-to-bottom temperature profile using the circumferential elements, the transverse displacement at the end of the beam increased by 24% (assumed as 25% in Appendix B) . Since the rotation is equal to the displacement divided by the length of the beam, the same percentage increase is valid for tne rotations. Since this analysis is purely
- elastic, the reactions and the axial stress to be used in the :
piping analysis have the same percentage increase. .
e
! In reality, the multiplication factor should be smaller than 1.25 since the portion of the peak stress range which results from the l classical thermal expansion of the surge line (with average temperature on the pipe cross-section) is the same whether accompanied by a linear or a non-linear temperature profile.
Therefore, the 1.25 factor applied to the total peak stress range is conservative.
l APPENDIX B - OUESTION 2 (B.2)
How are the peak stress ranges scaled down to match the actual data from the Oconee measurements?
RESPONSE (B.2)
The thermal expansion / stratification analysis is linear. Thus, l the peak stress ranges are scaled down linearly. They are I
multiplied by the ratio between the measured top-to-bottom temperature differences and the ones considered in the Bounding -
Fatigue Analyses. Scaling down the peak stresses linearly by the i
ratio of the temperature differences is reasonable, as thcy are then mul.tiplied by 1.25 in the following step to conservatively obtain a representation of the non-linear temperature profile, l
, 1-18 e 7" -----n --
w v. -
q -- .,
Please see the answer to Question B.1 for further information on this topic.
APPENDIX B - OUESTION ? (B. 3 ).
What is the usage factor contribution from each item (1-4) described on page B-37 -
i BESPONSE (B.3)
Tables 1 and 2 furnish the requested data. Since ths interim bounding analysis is not intended to represent 40 years of plant operation, the information is furnished as percentages of the total fatigue. The Appendix B analysis verifies that the bounding analysis is bounding for fatigue.'
. l
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a ATTACHMENT 2 '
B&W Owners Group Status Report on I Thermal Striping Evaluation ,
f September 1989 L
9
. 2-1
l INTRODUCTLQ1{
Since the May submittal of the interim report (BAW-2085), the B&WOG surge line thermal stratification program has proceeded with its comprehensive evaluation program which will culminate in a Topical Report submittal to the NRC in December 1990. A key ,
element of this program is the complete treatment of thermal striping. BAW-2085 was supported by an extensive review of the literature. As a result of the literature review, the B&WOG procured relevant portions of the experimental thermal striping data taken by Battelle-Frankfurt and is currently processing this data.
conversion, The data processing includes the following six steps:
subdivision, wave resynthesis, cycle counting, analysis of results, and correlation. These data processing steps are described in this status report.
DATA ANALYSIS '
The B&WOG acquired the complete Battelle-Frankfurt data for each test which simulated pressurized water reactor surge line conditions, one of these tests (No. 33.25) consisted of three ,
distinct subtests, making a total of nine available test condi-tions for analysis. The initial step in data processing was the -
conversion of the taped data to accessible files and the rudimen-tary checking of the supplied data. The signals of each instre-ment were screened to uncover invarient signals and, for each of the 119 temperature measurements, to flag readings which appeared erroneous. The few identified data anomalias were of no conse-quence to the application of this data to the characterization of thermal striping.
Subsequent analyses focused on the 26 measurements of inside pipe wall temperature. Temperatures measured at discrete times do not always capture the extremes of the temperature fluctuations.
Because these extreme temperatures were key to the determination of the amplitude of striping, each extreme was numerically reconstructed. A third-order fit was applied to the three measured temperatures which included and bracketed each tempera-ture-versus-time reversal. This technique is illustrated in Figure 1. The solid trace depicts the measured temperatures; the asterisks are the calculated extreme temperatures. These calculated extremes were used in the subsequent analyses. As demonstrated in Figure 1, the experimental data, which was taken at 10 Hz, was wholly adequate to quite accurately reconstruct the actual waveforms--there were generally several measurements during each temperature undulation. Cycles were counted using the ordered overall range method. Counting was performed for each of the nine test conditions for the 26 different temperature measurements. Counting was performed using amplitude windows of 5% of the imposed temperature difference. For example, if the amplitude of the maximum temperature reversal of a particular test was between 50% and 55% of the imposed temperature dif-2-2
6, . 4 farence, the counting was initiated with a threshold amplitude of !
50%, counting was then repeated with a threshold of 45%, then '
with a threshold of 40%, and so on until all reversals had been +
counted. The resulting numbers of reversals are those having amplitudes greater than the corresponding threshold.
These cumulative numbers frequency of occurrence. of reversals were converted to a cumulative The counting results are illustrated in Figure 2.
PRELIMINARY RESULTS The observed striping characteristics will be generalized by correlating them to the non-dimensional governing conditions, such as the Reynolds, Grashof, and Richardson Numbers. This generalized correlation will then be plant conditions. Howavar, estimates of striping characteristics used to predict striping at for experimental conditions, rather than their non-dimensional counterparts, are an intermediate result of this work. The data shows that the maximum striping amplitude linearly with the pipe mass flow rate. The cumulative frequency varies approximately of occurrence of temperature oscillations less than the maximum varies approximately linearly with the logarithm of the amplitude of the temperature oscillation.
amplitudes greater than 10% of the maximum. This observation holds for These preliminary observations show that the striping frequency distributions derived from the tests are characterized .by relatively rare load cycles of a magnitude as large as 50% of the overall imposed top-to-bottom temperature difference. The bulk of the oscillations tended to occur at much lower amplitudes. As an example, for a pressurizer level change occurring at two
' inches / minute (a surge line flow rate of roughly 45 gpm), a frequency of occurrence versus amplitude table can be constructed as follows:
Amplitude Percent of imoosed delta T Frecuency of occurrence. Hz l- Greater than 40% 0 35 to 40% 0.010 30 to 35% 0.011 25 to 30% 0.013 t
' 20 to 25% 0.016 15 to 20% 0.021 10 to 15% 0.029 A pressurizer level rate of change of two inches / minute bounds the level changes observed at oconee 1 during the heatup recorded in February 1989. The frequency versus amplitude relationship, when coupled with the estimates for the plant surge line condi-tions during various modes of operation, will result in revised fatigue analysis inputs for thermal striping.
l 2-3
s .
Although final f atigue analysis for striping has yet to be done, some comparison of the assumed thermal striping characteristics used in BAW-2085 can be made to the preliminary results from the Battells-Frankfurt data. In BAW-2085, thermal striping was assumed to occur at a constant 45% of the top-to-bottom tempera-ture difference at a frequency of 0.25 Hz.
This assumption was maintained over the entire range of the surge line flow condi-tions and temperature differences. In contrast, the Battelle-Frankfurt data shows a highly skewed distribution occurring for every test with only a few large amplitude cycles. There is a significant difference between these assumptions. Cince the fatigue impact of a thermal cycle diminishes rapidly with .
decreases in cycle magnitude, the fatigue impact is also expected to be significantly decreased. The thermal striping fatigue usage factor reported in BAW-2085 was 0.10 for 240 cycles of plant heatup and cooldown. The final fatigue impact resulting from the characteristics derived from the Battelle-Frankfurt data has yet to be determined, but it appears that the derived distribution the surge line.
frequency will reduce the overall fatigue usage to The final fatigue analysis for thermal striping is dependent not
~
only on the striping correlation information, but also on the actual surge line thermal stratification assumed to occur in the plants. A review of plant historical data and operating pro-cadures is in progress to supplement the Oconee 1 data taken as part of this program. This review will provide representative times for plant heatups and cooldowns and will characterize the pressurizer to hot leg temperature difference necessary to make the final determination of fatigue impact for thermal stratifica-tion and striping. An essential part of this task is the correlation of gross plant parameters to the surge line stratifi-cation conditions. Oconee 1 data will form the basis for this correlation which will relate surge line end point temperatures and pressurizer level changes to the thermal stratification cycles that occur in the surge line and give rise to thermal striping. Other parameters needed in the correlation, such as reactor coolant pump operation, will be included as necessary.
SUMMARY
The B&WOG program to evaluate surge line thermal stratification and thermal striping in response to NRC Bulletin 88-11 continues to move to closure. Preliminary results from the evaluation of the Battelle-Frankfurt striping experiments support the conclu-sion that the assumptions used to assess thermal striping in BAW-2085 were quite conservative. Therefore, thermal striping is not expected to be a major contributor to the overall usage factor at any location in the surge line. The bounding calculations made for striping in BAW-2085 are adequate to justify continued plant operation until the more comprehensive issue of thermal stratifi-2-4
't
- g, o
. f 6 ,
cation is completely . addressed.
Final resolution of thermal-stratification is expected to occur in the December 1990 Topical ;
Report submittal by the B&W Owners Group. '
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