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{{#Wiki_filter:Seabrook Station Alkali-Silica Reaction Testing Program December 18, 2013 Public Meeting Agenda  Introductions and Opening Remarks Large Scale Testing Program  Continuing NRC Oversight Activities License Renewal Activities Transition to Public Question & Answer (After ten minute break)
NRC Representatives David Lew  Deputy Regional Administrator James Trapp  Deputy Director, Division of Reactor Safety (DRS) Michael Marshall, Chief, Aging Management of Structures, Electrical and Systems Branch, Division of License Renewal  Glenn Dentel  Chief, Projects Branch 3, Division of Reactor Projects (DRP) Mel Gray  Chief, Engineering Branch 1, DRS William Cook  Inspection Team Leader Testing Program Presentation by NextEra Continuing Regulatory  Oversight Activities Periodic onsite inspections focused on  actions to resolve the ASR non-conforming condition (PI&R Samples) Inspections and monitoring of  large-scale specimen testing at the Ferguson Structural Engineering Laboratory, University of Texas  Austin Coordinate NRC Review of ASR via the Seabrook ASR Issue Technical Team (SAITT)  Resident inspectors onsite Continuing Regulatory Activities License Renewal Application Need reasonable assurance aging effects can be managed Recent license renewal activities concerning ASR:    Remaining safety review milestones are TBD Safety review is ongoing No regulatory decision made on the application June 2010 NextEra submit ted Seabrook  license renewal application  ML101590094 Feb 2013 Public meeting on actions/programs in application ML13066A488 Sep 2013 NextEra supplemented application  ML13261A145  Nov 2013 NRC conducted license renewal audit Pending Transition to Public Question and Answer Session 10 Minute Break to Set-up Contacting the NRC Report a safety concern 1-800-695-7403 allegation@nrc.gov  General questions www.nrc.gov Region I Public Affairs Diane Screnci, 610-332-5330  diane.screnci@nrc.gov, or Neil Sheehan, 610-332-5331 neil.sheehan@nrc.gov Key Points Seabrook Structures Remain Operable NextEra has detailed plans for additional research and testing Significant NRC oversight will continue Resolution of the Seabrook ASR issue will require further NRC review Back-Up Slides SAFETY RELATED STRUCTURES  REMAIN OPERABLE  structural engineering analysis (independently reviewed by NRC team) provides reasonable assurance of adequate design (safety) margin for ASR-affected reinforced concrete structures  No significant visible deformations, distortions, or displacement identified in affected structures  No indications of rebar degradation  ASR limited to localized areas of the effected structures  ASR degradation progressed slowly 
Reference Documents ADAMS Ascension Numbers Confirmatory Action Letter (CAL) Closure Letter, dated October 9, 2013 (ML13274A670) CAL Follow-Up Inspection Report No. 05000443/2012009, dated December 3, 2012 (ML12338A283) CAL Follow-Up Inspection Report No. 05000443/2012010, dated August 9, 2013 (ML13221A172)
CAL Follow-Up Inspection Report No. 05000443/2012009  CAL Items Closed and Extent of Condition identified structures (CAL Nos. 1, 5) Interim Structural Assessment (CAL No. 3) Completed Mortar Bar Test (CAL No. 6) Initial six-month interval crack measurement results from 26 locations (CAL No. 10)
CAL Items Closed Revised the Root Cause Evaluation (CAL No. 2) Revised the Integrated Corrective Action Plan (CAL No. 4) Cancelled the Prism Test (CAL No. 7) Technical details for Large-scale Beam Testing Program (CAL No. 8) Revised the Structures Monitoring Program (CAL No. 9) Technical details for Anchor Testing Program (CAL No. 11)  Review of open issues from IR 05000443/2012009 CAL Follow-Up Inspection Report No. 05000443/2012010 Part 50.59  this regulation outlines the processes by which a licensee may make changes to their facility, procedures, tests, experiments or evaluation methods as described in the Final Safety Analysis Report  Part 50.90  this regulation outlines the process by which a licensee requests an amendment to their operating license What is ASR? Concrete Ingredients 18 What is ASR?  Chemical Reaction alkali  (in cement) reacts with silica (in aggregate)  and water silica gel forms K+ Na+ cracking  occurs as gel expands gel gel SiO2 SiO2 SiO2 OH- OH- forms + H2O What is ASR? Indications of ASR  ASR has been identified in localized areas of Seabrook concrete structures  ASR is a chemical reaction in concrete, which occurs over time in the presence of water, between the alkaline cement and reactive silica found in some aggregates. ASR forms a gel that expands causing micro-cracks that effect concrete material properties ASR Gel Ring Reactive  Aggregate Cracking through Aggregate TOUR OF PLANT Confirmed localized areas of ASR      Effected Structures include:  Containment Enclosure Building Residual Heat Removal Vault Emergency Diesel Generator Building Emergency Feedwater Building Annulus area between Primary  Containment and Containment Enclosure Building 21 Base Slab 30-inch Thick Enclosure Wall  48-inch Thick Containment Wall TOUR OF PLANT TOUR OF PLANT Other locations where ASR identified      Primary Auxiliary Building Main Steam/Feedwater Pipe Chase East Alternate Cooling Tower Service Water Pump House Containment    VISUAL CRITERIA Pattern cracking Secondary deposits Staining and discoloration Deposits of alkali silica gel Pattern Cracking (approx. 3 ft x 3 ft area) TOUR OF PLANT ASR Monitoring Method 24 TOUR OF PLANT}}

Revision as of 09:15, 3 July 2018

Public Meeting on Seabrook Station Testing Program
ML13357A041
Person / Time
Site: Seabrook NextEra Energy icon.png
Issue date: 12/23/2013
From:
Division of Reactor Safety I
To:
Floyd N
References
Download: ML13357A041 (24)


Text

Seabrook Station Alkali-Silica Reaction Testing Program December 18, 2013 Public Meeting Agenda Introductions and Opening Remarks Large Scale Testing Program Continuing NRC Oversight Activities License Renewal Activities Transition to Public Question & Answer (After ten minute break)

NRC Representatives David Lew Deputy Regional Administrator James Trapp Deputy Director, Division of Reactor Safety (DRS) Michael Marshall, Chief, Aging Management of Structures, Electrical and Systems Branch, Division of License Renewal Glenn Dentel Chief, Projects Branch 3, Division of Reactor Projects (DRP) Mel Gray Chief, Engineering Branch 1, DRS William Cook Inspection Team Leader Testing Program Presentation by NextEra Continuing Regulatory Oversight Activities Periodic onsite inspections focused on actions to resolve the ASR non-conforming condition (PI&R Samples) Inspections and monitoring of large-scale specimen testing at the Ferguson Structural Engineering Laboratory, University of Texas Austin Coordinate NRC Review of ASR via the Seabrook ASR Issue Technical Team (SAITT) Resident inspectors onsite Continuing Regulatory Activities License Renewal Application Need reasonable assurance aging effects can be managed Recent license renewal activities concerning ASR: Remaining safety review milestones are TBD Safety review is ongoing No regulatory decision made on the application June 2010 NextEra submit ted Seabrook license renewal application ML101590094 Feb 2013 Public meeting on actions/programs in application ML13066A488 Sep 2013 NextEra supplemented application ML13261A145 Nov 2013 NRC conducted license renewal audit Pending Transition to Public Question and Answer Session 10 Minute Break to Set-up Contacting the NRC Report a safety concern 1-800-695-7403 allegation@nrc.gov General questions www.nrc.gov Region I Public Affairs Diane Screnci, 610-332-5330 diane.screnci@nrc.gov, or Neil Sheehan, 610-332-5331 neil.sheehan@nrc.gov Key Points Seabrook Structures Remain Operable NextEra has detailed plans for additional research and testing Significant NRC oversight will continue Resolution of the Seabrook ASR issue will require further NRC review Back-Up Slides SAFETY RELATED STRUCTURES REMAIN OPERABLE structural engineering analysis (independently reviewed by NRC team) provides reasonable assurance of adequate design (safety) margin for ASR-affected reinforced concrete structures No significant visible deformations, distortions, or displacement identified in affected structures No indications of rebar degradation ASR limited to localized areas of the effected structures ASR degradation progressed slowly

Reference Documents ADAMS Ascension Numbers Confirmatory Action Letter (CAL) Closure Letter, dated October 9, 2013 (ML13274A670) CAL Follow-Up Inspection Report No. 05000443/2012009, dated December 3, 2012 (ML12338A283) CAL Follow-Up Inspection Report No. 05000443/2012010, dated August 9, 2013 (ML13221A172)

CAL Follow-Up Inspection Report No. 05000443/2012009 CAL Items Closed and Extent of Condition identified structures (CAL Nos. 1, 5) Interim Structural Assessment (CAL No. 3) Completed Mortar Bar Test (CAL No. 6) Initial six-month interval crack measurement results from 26 locations (CAL No. 10)

CAL Items Closed Revised the Root Cause Evaluation (CAL No. 2) Revised the Integrated Corrective Action Plan (CAL No. 4) Cancelled the Prism Test (CAL No. 7) Technical details for Large-scale Beam Testing Program (CAL No. 8) Revised the Structures Monitoring Program (CAL No. 9) Technical details for Anchor Testing Program (CAL No. 11) Review of open issues from IR 05000443/2012009 CAL Follow-Up Inspection Report No. 05000443/2012010 Part 50.59 this regulation outlines the processes by which a licensee may make changes to their facility, procedures, tests, experiments or evaluation methods as described in the Final Safety Analysis Report Part 50.90 this regulation outlines the process by which a licensee requests an amendment to their operating license What is ASR? Concrete Ingredients 18 What is ASR? Chemical Reaction alkali (in cement) reacts with silica (in aggregate) and water silica gel forms K+ Na+ cracking occurs as gel expands gel gel SiO2 SiO2 SiO2 OH- OH- forms + H2O What is ASR? Indications of ASR ASR has been identified in localized areas of Seabrook concrete structures ASR is a chemical reaction in concrete, which occurs over time in the presence of water, between the alkaline cement and reactive silica found in some aggregates. ASR forms a gel that expands causing micro-cracks that effect concrete material properties ASR Gel Ring Reactive Aggregate Cracking through Aggregate TOUR OF PLANT Confirmed localized areas of ASR Effected Structures include: Containment Enclosure Building Residual Heat Removal Vault Emergency Diesel Generator Building Emergency Feedwater Building Annulus area between Primary Containment and Containment Enclosure Building 21 Base Slab 30-inch Thick Enclosure Wall 48-inch Thick Containment Wall TOUR OF PLANT TOUR OF PLANT Other locations where ASR identified Primary Auxiliary Building Main Steam/Feedwater Pipe Chase East Alternate Cooling Tower Service Water Pump House Containment VISUAL CRITERIA Pattern cracking Secondary deposits Staining and discoloration Deposits of alkali silica gel Pattern Cracking (approx. 3 ft x 3 ft area) TOUR OF PLANT ASR Monitoring Method 24 TOUR OF PLANT