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{{#Wiki_filter:Watts Bar Nuclear Plant WRAG January 14, 2015 2 Agenda*Introductions*Watts Bar Unit 2 Completion Status
{{#Wiki_filter:Watts Bar Nuclear Plant WRAG January 14, 2015
*Project Risks
*Licensing
*Special Topics-Fire Protection-General Design Criterion -5
-Cyber Security
-Degraded Voltage
-Buried Piping Integrity Program
-Substantially Complete Process*Closing Remarks Simmons 3Watts Bar 2 Guiding Principles*Safe and High Quality
*Design Basis Fidelity with Watts Bar 1
*Systems, Structures, and Components -
Made Like NewWatts Bar Unit 2 Completion Status Simmons 4 Overview*Progress and milestone accomplishments continue
*Safety better than target, quality targets being met
*Discovery and closeout key risks to completion
*Completion challenges exist around hot functional testing (HFT) milestone
*Actions being taken to address challenges and reduce project risk
*Licensing issues remain stable and within plan -critical near-term activities
*Accelerating involvement and integration with operating unit SimmonsWatts Bar Unit 2 Completion Status 5 Simmons Project Update*Progress since October 2014 Completed primary cold hydrostatic test Completed secondary steam generator (SG) hydrostatic test Completed secondary hydrostatic testSuccessfully completed5pre-operational or acceptance test instructions and 600 component


testsCompleted major secondary side evolutionsWatts Bar Unit 2 Completion Status 6 Simmons Project Update*Progress since October 2014 (continued)Completed Unit 2 portion of ice condenser glycol system flushesCompleted pressurizer relief tank coating American Society of Mechanical Engineers (ASME) stamped/certified reactor vessel, pressurizer, and reactor coolant pumpsASME stamped multiple major systems Reactor Coolant SystemChemical Volume & Control (CVCS) System Residual Heat RemovalContainment SprayControl Rod DriveInflux DetectorsStation DrainageUnit 2 license review status briefing wi th Nuclear Regulatory Commission (NRC)Watts Bar Unit 2 Completion Status 7 Simmons*Major Milestone StatusStart Open Vessel Component & Logic Testing -CompleteStart Reactor Vessel Flush -CompleteStart Open Vessel Testing -CompleteCold Hydrostatic test-CompleteSteam Generator Hydrostatic test -CompleteSecondary Hydrostatic test -CompleteStart Ice Condenser Cool Down -January 2015Energize Plant Systems through Unit 2 Switchyard -February 2015Establish Main Condenser Vacuum -February 2015Start Ice Load -February 2015Start Hot Functional Testing -March 2015
Agenda
*System Turnover Status 87systems involved in turnover process
* Introductions
*17 systems turned over to Operations
* Watts Bar Unit 2 Completion Status
*38 systems turned over to startup testing
* Project Risks
*32 systems to be turned over to startup testing
* Licensing
*Surveillance Status895 total surveillances associated with WBN Unit 2659 required to be performed prior to fuel load895 currently scheduledMilestone, System, and Surveillance StatusWatts Bar Unit 2 Completion Status 8 SimmonsCritical Path with Forecast datesWatts Bar Unit 2 Completion Status 9 Project Risks*Fire Protection*Degraded Voltage*Schedule challenges in Construction and Startup*Equipment Failures During Testing Simmons 10*Final Environmental Statement-Complete
* Special Topics
*Safety Evaluation -Nearing Completion
    -  Fire Protection
*Closure of Regulatory Commitments Accelerating
    -  General Design Criterion - 5
*No WattsBar2 Specific Contentions Remain
    -  Cyber Security
    -  Degraded Voltage
    - Buried Piping Integrity Program
    - Substantially Complete Process
* Closing Remarks Simmons                                2


OpenSupplemental Safety Evaluation Report Open ItemStatusInspection Planning and Scheduling ItemStatus Licensing Status Simmons 83%16%1%NRCClosed TVAOpenNRCReview 79%14%7%NRCClosed TVAActionNRCAction 11*Transition and Operational Readiness Overview-Operating organization driving transition
Watts Bar Unit 2 Completion Status Watts Bar 2 Guiding Principles
-Unit 1 sharing ownership of critical Unit 2 milestones
* Safe and High Quality
-Staffing at appropriate level
* Design Basis Fidelity with Watts Bar 1
-Training complete for dual-unit operation
* Systems, Structures, and Components -
-Corporate organization providing oversight and support
Made Like New Simmons                                    3
-Preparing for Operational Readiness Assessment Team Inspection WalshOverview of Watts Bar Unit 2 Project Special Topics 13 CrouchFire Protection WBN Dual Unit Fire Protection Report (FPR) Status*As-Designed FPR Submitted (March 2013)
*Initial As-Constructed FPR Submitted (September 2014)Final equipment configurations Additional equipment incorporated (Fukushima related) Optimized and Refined Supporting Analyses*Triennial Fire Protection Inspection (October through December 2014)Summary of Issues Identified Technical Consistency of Information from Design Inputs to Final ProceduresProcedural EnhancementsResolution In Process*Re-Submittal of As-Constructed FPR (March  2015) 14General Design Criterion (GDC) 5Item 91 -GDC-5*TVA should update the FSAR with information describing how WBN Unit 2 meets GDC 5, assuming the worst case single failure and a Loss of Offsite


Power *GDC 5 -Sharing of structures, systems, and components.Structures, systems, and components important to safety shall not be shared among nuclear power units unless it can be shown that such sharing will not significantly impair their ability to perform their safety functions, including, in the event of an accident in one unit, an orderly
Watts Bar Unit 2 Completion Status Overview
* Progress and milestone accomplishments continue
* Safety better than target, quality targets being met
* Discovery and closeout key risks to completion
* Completion challenges exist around hot functional testing (HFT) milestone
* Actions being taken to address challenges and reduce project risk
* Licensing issues remain stable and within plan - critical near-term activities
* Accelerating involvement and integration with operating unit Simmons                                                                              4


shutdown and cooldown of the remaining units.
Watts Bar Unit 2 Completion Status Project Update
Koontz 15 General Design Criterion 5 Koontz*Design BasisWatts Bar designed as a hot standby plantOne unit in accidentSecond unit can remain safely in hot standby (350ºF)Watts Bar has capability to safely handle one unit in an accident and bring second unit to cold shutdown (200ºF) within approximately 72 hours 16 General Design Criterion 5 Koontz 17*Final Safety Analysis Report has been revised*Staff request for additional information (RAIs) have been answered
* Progress since October 2014 Completed primary cold hydrostatic test Completed secondary steam generator (SG) hydrostatic test Completed secondary hydrostatic test Successfully completed 5 pre-operational or acceptance test instructions and 600 component tests Completed major secondary side evolutions Simmons                                                5
*Open item closed by NRC in SSER 27
*Remaining actionTechnical Specification revision General Design Criterion 5 Koontz 18*Met with Nuclear Security and Incident Response (NSIR), Nuclear Reactor Regulation (NRR) and Regional Staff -December 18, 2014Proposed modifications to Milestones 6, 7 and 8 implementation schedules for Watts Bar Unit 2 to align with NEI Cyber Security Implementation Plan


Template and TVA Fleet ApproachProposed modifications to License ConditionsUnit 1Unit 2Provided Status of Cyber Security Implementation for Watts Bar Unit 2Actions taken Inspection InsightsMilestone Implementation Anticipated Status at Fuel Load Arent Cyber Security 19 Bright Line*Alignment with Nuclear Security and Incident Response (NSIR) on scope of issueLimited to communications equipment from the hydro yard which impacts in-plant electrical equipment*Cyber Security Assessment Team (CSAT) meeting to be held on 1/15/15 to evaluate equipment*Response to Staff on resolution -February 2015 Hilmes 20Degraded Voltage Issue:*WBN does not use the Degraded Voltage Relay (DVR) Analytical Limit (AL) as an Operability Limit for Off Site Power*WBN has not demonstrated that Safety Related loads will start assuming a Grid Voltage pre-accident which results in a Safety Related Bus Voltage at the
Watts Bar Unit 2 Completion Status Project Update
* Progress since October 2014 (continued)
Completed Unit 2 portion of ice condenser glycol system flushes Completed pressurizer relief tank coating American Society of Mechanical Engineers (ASME) stamped/certified reactor vessel, pressurizer, and reactor coolant pumps ASME stamped multiple major systems Reactor Coolant System Chemical Volume & Control (CVCS) System Residual Heat Removal Containment Spray Control Rod Drive Influx Detectors Station Drainage Unit 2 license review status briefing with Nuclear Regulatory Commission (NRC)
Simmons                                                                                  6


DVR AL Hilmes 21Degraded Voltage WBN dual unit grid operability is based upon the ability of the grid to accept accident loads while maintaining  grid voltage >153kV and <9kV
Watts Bar Unit 2 Completion Status Milestone, System, and Surveillance Status
* Major Milestone Status Start Open Vessel Component & Logic Testing - Complete Start Reactor Vessel Flush - Complete Start Open Vessel Testing - Complete Cold Hydrostatic test - Complete Steam Generator Hydrostatic test - Complete Secondary Hydrostatic test - Complete Start Ice Condenser Cool Down - January 2015 Energize Plant Systems through Unit 2 Switchyard - February 2015 Establish Main Condenser Vacuum - February 2015 Start Ice Load - February 2015 Start Hot Functional Testing - March 2015
* System Turnover Status
* Surveillance Status 87 systems involved in turnover process              895 total surveillances associated with WBN Unit 2
* 17 systems turned over to Operations              659 required to be performed prior to fuel load
* 38 systems turned over to startup testing          895 currently scheduled
* 32 systems to be turned over to startup testing Simmons                                                                                                          7


drop.*Operability determined by the use of a Grid State Estimator (Real Time Program which continuously determines Grid Capability)*Use of the Grid State Estimator is consistent with RG 1.93.
Watts Bar Unit 2 Completion Status Critical Path with Forecast dates Simmons                                              8
Hilmes 22 The WBN Scheme:*Ensures that safety related equipment will have adequate voltage to start and run at the time required to perform their safety functions while


connected to offsite power or*Ensures that the Safety Related loads are transferred to the on-site power system once the Diesel Generator becomes available and subsequently start and run.
Project Risks
WBN has performed sensitivity studies to demonstrate that the scheme works for any grid capability condition.Degraded Voltage Hilmes 23Degraded VoltageWBN methodology maximizes the margin between the grid operability criteria and the Degrade Voltage Relay set point which provides the best
* Fire Protection
* Degraded Voltage
* Schedule challenges in Construction and Startup
* Equipment Failures During Testing Simmons                                              9


scheme to:*Maintain offsite power as the preferred power supply when it is capable
Licensing Status Supplemental Safety Evaluation Report
*Maximizes nuclear safety Maximizing this margin is consistent with Generic Safety Issue (GSI) -171 and Branch Technical Position PSB-1 Resolution of Issue
* Final Environmental Statement - Complete            Open Item Status
*Independent Third Party Review of TVA Approach
* Safety Evaluation - Nearing Completion        1%
*Insights from NRC/Industry Meeting -January 13 th and 14th*TVA resolution to RAI questions will be provided to NRR in January 2015 Hilmes 24Buried Piping Integrity Program*WBN buried safety related piping included in the WBN Buried Piping Integrity Program (BPIP)*The objective of the BPIP is to provide a comprehensive program to reduce the probability and consequences of buried piping failure.*Program based upon EPRI Guidelines.
NRC Closed 16%                          TVA Open 83%
*The program applies to safety-related and non-safety-related piping systems.
NRC Review
*No additional safety-related buried piping is placed in service by Unit 2 completion.*Program addresses external (OD) corrosion and/or degradation of buried piping,*Program ensures piping is repaired or replaced prior to loss of function Crouch 25 Installation*Buried pipe is bedded to provide a continuous and uniform earth bearing from trench bottom to bottom quadrant of pipe.*Trenches are backfilled with rock-free earth or sand compacted to a minimum depth of 12" over top of pipe.*Steel pipe is either coal tar epoxy coated or spiral wrapped using coal-tar protective coating in tape form. Spiral wrap is overlapped more than half-width of the tape to provide a minimum of double thickness of tape.*Pipe is heated to remove moisture prior to wrapping.
* Closure of Regulatory Commitments Accelerating Inspection Planning and Scheduling Item Status
*Prior to backfilling, externally-coated pipe is inspected for holidays.
* No Watts Bar 2 Specific Contentions Remain Open 7%                          NRC Closed TVA Action 14%            79%
CrouchBuried Piping Integrity Program 26 The Buried Pipe Integrity Program (BPIP) is implemented in six steps:*Steps 1 and 2 establish the program.1.Establishing site documents/databases.2.Risk ranking of in-scope pipe segments.*Steps 3 thru 6 ensure adequacy of the piping.3.Inspections of in-scope piping systems.4.Fitness-for-service evaluations of inspection results.
NRC Action Simmons                                                                                    10
5.Identification of repair options for degraded piping.
6.Prevention and mitigation measures for reducing risk of failure.*Steps 3 thru 6 are ongoing throughout the life of the plant.
CrouchBuried Piping Integrity Program 27 Buried Pipe Conclusions*The piping systems will maintain reliable operation.
*No new safety related buried piping being added to program to support Unit 2 operation.*WBN  is currently following the industry initiatives for buried piping, which is assessing the conditions, performing risk ranking models and replacing pipe as


required.*The type failures that could occur will not challenge the operability of the systems and/or their functions.*To date there has not been any occurrence of major failure (loss of safety related system function).*WBN has processes and procedures to monitor all safety related piping.
Overview of Watts Bar Unit 2 Project
CrouchBuried Piping Integrity Program 28 Substantially Complete Letter*Definition of Substantially Complete-When the Owner takes responsibility
* Transition and Operational Readiness Overview
-Based on plant completion, not time to startup*Substantially Complete Letter timed to support notation paper-Allows Commission 60 days for review of notation paper
                  - Operating organization driving transition
-Approximately 90 days prior to fuel load*Letter will include a Readiness Assessment Report-Readiness Assessment Report will provide inventory of TVA Quality Activities to construct, test, and transition to dual unit operations-Readiness Assessment Report will include high level list of remaining construction and testing activities to complete before fuel load*Letter will be available for discussion Calle 29 Substantially Complete Letter Substantially complete letter alignment to the sub-parts of 10 CFR 50.5710CFR 50.57 Sub-partSubstantially CompleteLetter Section(1) Construction of the facility has been substantially completed, in conformity with the construction permit and the application as amended, the provisions of the Act, and the rules and regulations of the Commission; andAttachment A1-Current Schedule for Completion of Remaining Work Attachment A2 -Design Basis Verification Attachment A3 -Refurbishment Program Description Attachment A4 -CAPs and SPs Attachment A5 -Status of Generic Communications Attachment A6 -Quality Assurance Activities(2) The facility will operate in conformity with the application as amended, the provisions of the Act, and the rules and regulations of the Commission; andAttachment B1 -Current Schedule for Completion of the Test Program(3) There is reasonable assurance (i) that the activities authorized by the operating license can be conducted without endangering the health and safety of the public, and (ii) that such activities will be conducted in compliance with the regulations in this chapterAttachment C1 -Department Transition and Change Management Plans Attachment C2 -Unit Differences -Design Attachment C3 -Unit Differences -Training Attachment C4 -Safety Culture Calle 30Ready For Fuel Load Letter*Letter to be submitted just prior to fuel load-Will include:Schedule for testing -Startup and Power ascensionList of activities that need completion prior to fuel loadUnanticipated exemptions or reliefs-Will request timely turnaround  
                  - Unit 1 sharing ownership of critical Unit 2 milestones
-Will request full power license Calle 31 2015Unit 2 -Key Milestone Linkages NRRIssuesLicenseTVA LetterReady for Fuel LoadWRAG confirms all licensing issues are resolvedRegion 2 finding -(94300) Inspection Program CompleteIntegrated Safeguards Testing Complete (final Mandatory MC 2513 inspection)Federal Register Notice -Issue license NRR submits Notation Vote Paper Commission Decision to Issue LicenseTVA Letter -
                  - Staffing at appropriate level
Construction is Substantially Complete Construction is Substantially CompleteAll Systems and Areas turned over from Bechtel to TVA ACRS Final LetterTVA NRC Fukushima Orders Closed Calle Internal WRAG NRC Sr. Mgmt. Mtg.
                  - Training complete for dual-unit operation
Closing Remarks 33*Work to complete Watts Bar 2 is being done safely, in a quality manner, and in accordance with stringent standards.*The combination of construction, refurbishment, improvements, and ongoing pre-startup testing will demonstrate systems, structures, and components have achieved "like new" condition.*Startup testing and system turnovers support a June 2015 fuel load date.  
                  - Corporate organization providing oversight and support
*Project challenges are being identified and addressed. Fire Protection -Open issues being addressedDegraded Voltage -interaction with the Staff continues*Substantially Complete letter under development Simmons Conclusion Questions}}
                  - Preparing for Operational Readiness Assessment Team Inspection Walsh                                                                      11
 
Special Topics Fire Protection WBN Dual Unit Fire Protection Report (FPR) Status
* As-Designed FPR Submitted (March 2013)
* Initial As-Constructed FPR Submitted (September 2014)
Final equipment configurations Additional equipment incorporated (Fukushima related)
Optimized and Refined Supporting Analyses
* Triennial Fire Protection Inspection (October through December 2014)
Summary of Issues Identified Technical Consistency of Information from Design Inputs to Final Procedures Procedural Enhancements Resolution In Process
* Re-Submittal of As-Constructed FPR (March 2015)
Crouch                                                                      13
 
General Design Criterion (GDC) 5 Item 91 - GDC-5
* TVA should update the FSAR with information describing how WBN Unit 2 meets GDC 5, assuming the worst case single failure and a Loss of Offsite Power
* GDC 5 - Sharing of structures, systems, and components.
Structures, systems, and components important to safety shall not be shared among nuclear power units unless it can be shown that such sharing will not significantly impair their ability to perform their safety functions, including, in the event of an accident in one unit, an orderly shutdown and cooldown of the remaining units.
Koontz                                                                              14
 
General Design Criterion 5
* Design Basis Watts Bar designed as a hot standby plant One unit in accident Second unit can remain safely in hot standby (350&#xba;F)
Watts Bar has capability to safely handle one unit in an accident and bring second unit to cold shutdown (200&#xba;F) within approximately 72 hours Koontz                                                                              15
 
General Design Criterion 5 Koontz                            16
 
General Design Criterion 5
* Final Safety Analysis Report has been revised
* Staff request for additional information (RAIs) have been answered
* Open item closed by NRC in SSER 27
* Remaining action Technical Specification revision Koontz                                                                17
 
Cyber Security
* Met with Nuclear Security and Incident Response (NSIR), Nuclear Reactor Regulation (NRR) and Regional Staff - December 18, 2014 Proposed modifications to Milestones 6, 7 and 8 implementation schedules for Watts Bar Unit 2 to align with NEI Cyber Security Implementation Plan Template and TVA Fleet Approach Proposed modifications to License Conditions Unit 1 Unit 2 Provided Status of Cyber Security Implementation for Watts Bar Unit 2 Actions taken Inspection Insights Milestone Implementation Anticipated Status at Fuel Load Arent                                                                              18
 
Bright Line
* Alignment with Nuclear Security and Incident Response (NSIR) on scope of issue Limited to communications equipment from the hydro yard which impacts in-plant electrical equipment
* Cyber Security Assessment Team (CSAT) meeting to be held on 1/15/15 to evaluate equipment
* Response to Staff on resolution - February 2015 Hilmes                                                                          19
 
Degraded Voltage Issue:
* WBN does not use the Degraded Voltage Relay (DVR) Analytical Limit (AL) as an Operability Limit for Off Site Power
* WBN has not demonstrated that Safety Related loads will start assuming a Grid Voltage pre-accident which results in a Safety Related Bus Voltage at the DVR AL Hilmes                                                                                20
 
Degraded Voltage WBN dual unit grid operability is based upon the ability of the grid to accept accident loads while maintaining grid voltage >153kV and <9kV drop.
* Operability determined by the use of a Grid State Estimator (Real Time Program which continuously determines Grid Capability)
* Use of the Grid State Estimator is consistent with RG 1.93.
Hilmes                                                                      21
 
Degraded Voltage The WBN Scheme:
* Ensures that safety related equipment will have adequate voltage to start and run at the time required to perform their safety functions while connected to offsite power or
* Ensures that the Safety Related loads are transferred to the on-site power system once the Diesel Generator becomes available and subsequently start and run.
WBN has performed sensitivity studies to demonstrate that the scheme works for any grid capability condition.
Hilmes                                                                          22
 
Degraded Voltage WBN methodology maximizes the margin between the grid operability criteria and the Degrade Voltage Relay set point which provides the best scheme to:
* Maintain offsite power as the preferred power supply when it is capable
* Maximizes nuclear safety Maximizing this margin is consistent with Generic Safety Issue (GSI) -171 and Branch Technical Position PSB-1 Resolution of Issue
* Independent Third Party Review of TVA Approach
* Insights from NRC/Industry Meeting - January 13th and 14th
* TVA resolution to RAI questions will be provided to NRR in January 2015 Hilmes                                                                      23
 
Buried Piping Integrity Program
* WBN buried safety related piping included in the WBN Buried Piping Integrity Program (BPIP)
* The objective of the BPIP is to provide a comprehensive program to reduce the probability and consequences of buried piping failure.
* Program based upon EPRI Guidelines.
* The program applies to safety-related and non-safety-related piping systems.
* No additional safety-related buried piping is placed in service by Unit 2 completion.
* Program addresses external (OD) corrosion and/or degradation of buried piping,
* Program ensures piping is repaired or replaced prior to loss of function Crouch                                                                            24
 
Buried Piping Integrity Program Installation
* Buried pipe is bedded to provide a continuous and uniform earth bearing from trench bottom to bottom quadrant of pipe.
* Trenches are backfilled with rock-free earth or sand compacted to a minimum depth of 12 over top of pipe.
* Steel pipe is either coal tar epoxy coated or spiral wrapped using coal-tar protective coating in tape form. Spiral wrap is overlapped more than half-width of the tape to provide a minimum of double thickness of tape.
* Pipe is heated to remove moisture prior to wrapping.
* Prior to backfilling, externally-coated pipe is inspected for holidays.
Crouch                                                                            25
 
Buried Piping Integrity Program The Buried Pipe Integrity Program (BPIP) is implemented in six steps:
* Steps 1 and 2 establish the program.
: 1. Establishing site documents/databases.
: 2. Risk ranking of in-scope pipe segments.
* Steps 3 thru 6 ensure adequacy of the piping.
: 3. Inspections of in-scope piping systems.
: 4. Fitness-for-service evaluations of inspection results.
: 5. Identification of repair options for degraded piping.
: 6. Prevention and mitigation measures for reducing risk of failure.
* Steps 3 thru 6 are ongoing throughout the life of the plant.
Crouch                                                                    26
 
Buried Piping Integrity Program Buried Pipe Conclusions
* The piping systems will maintain reliable operation.
* No new safety related buried piping being added to program to support Unit 2 operation.
* WBN is currently following the industry initiatives for buried piping, which is assessing the conditions, performing risk ranking models and replacing pipe as required.
* The type failures that could occur will not challenge the operability of the systems and/or their functions.
* To date there has not been any occurrence of major failure (loss of safety related system function).
* WBN has processes and procedures to monitor all safety related piping.
Crouch                                                                              27
 
Substantially Complete Letter
* Definition of Substantially Complete
      - When the Owner takes responsibility
      - Based on plant completion, not time to startup
* Substantially Complete Letter timed to support notation paper
      - Allows Commission 60 days for review of notation paper
      - Approximately 90 days prior to fuel load
* Letter will include a Readiness Assessment Report
      - Readiness Assessment Report will provide inventory of TVA Quality Activities to construct, test, and transition to dual unit operations
      - Readiness Assessment Report will include high level list of remaining construction and testing activities to complete before fuel load
* Letter will be available for discussion Calle                                                                         28
 
Substantially Complete Letter Substantially complete letter alignment to the sub-parts of 10 CFR 50.57 10CFR 50.57 Sub-part                        Substantially Complete Letter Section (1) Construction of the facility has been           Attachment A1- Current Schedule for Completion of substantially completed, in conformity with the                     Remaining Work construction permit and the application as           Attachment A2 - Design Basis Verification amended, the provisions of the Act, and the         Attachment A3 - Refurbishment Program Description rules and regulations of the Commission; and        Attachment A4 - CAPs and SPs Attachment A5 - Status of Generic Communications Attachment A6 - Quality Assurance Activities (2) The facility will operate in conformity with the Attachment B1 - Current Schedule for Completion of application as amended, the provisions of the                       the Test Program Act, and the rules and regulations of the Commission; and (3) There is reasonable assurance (i) that the       Attachment C1 - Department Transition and Change activities authorized by the operating license                       Management Plans can be conducted without endangering the             Attachment C2 - Unit Differences - Design health and safety of the public, and (ii) that such Attachment C3 - Unit Differences - Training activities will be conducted in compliance with     Attachment C4 - Safety Culture the regulations in this chapter Calle                                                                                                     29
 
Ready For Fuel Load Letter
* Letter to be submitted just prior to fuel load
      - Will include:
Schedule for testing - Startup and Power ascension List of activities that need completion prior to fuel load Unanticipated exemptions or reliefs
      - Will request timely turnaround
      - Will request full power license Calle                                                               30
 
Unit 2 - Key Milestone Linkages Construction is      TVA Letter -
Substantially Complete Construction is All Systems and                                       Integrated Safeguards Testing Substantially                    Complete (final Mandatory MC Areas turned over from                                                                                 TVA Letter Complete                                2513 inspection)
Bechtel to TVA                                                                                 Ready for Fuel Load TVA NRR Issues 2015                                                                                                                      License NRC Commission NRC Sr.
Decision to Mgmt.
Issue License Mtg.
Internal Fukushima      ACRS Final                WRAG        NRR submits        Region 2 finding -          WRAG confirms all Federal Register Orders          Letter                            Notation Vote      (94300) Inspection        licensing issues are  Notice - Issue Closed                                                Paper          Program Complete                resolved            license Calle                                                                                                                                              31
 
Closing Remarks Conclusion
* Work to complete Watts Bar 2 is being done safely, in a quality manner, and in accordance with stringent standards.
* The combination of construction, refurbishment, improvements, and ongoing pre-startup testing will demonstrate systems, structures, and components have achieved like new condition.
* Startup testing and system turnovers support a June 2015 fuel load date.
* Project challenges are being identified and addressed.
Fire Protection - Open issues being addressed Degraded Voltage - interaction with the Staff continues
* Substantially Complete letter under development Simmons                                                                             33
 
Questions}}

Revision as of 16:57, 31 October 2019

1/14/2015, Meeting Slide for Watts Bar Nuclear Plant Regarding Wrag
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Site: Watts Bar Tennessee Valley Authority icon.png
Issue date: 01/14/2015
From:
Tennessee Valley Authority
To:
Watts Bar Special Projects Branch
Dion J
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Download: ML15016A042 (34)
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Text

Watts Bar Nuclear Plant WRAG January 14, 2015

Agenda

  • Introductions
  • Watts Bar Unit 2 Completion Status
  • Project Risks
  • Licensing
  • Special Topics

- Fire Protection

- General Design Criterion - 5

- Cyber Security

- Degraded Voltage

- Buried Piping Integrity Program

- Substantially Complete Process

  • Closing Remarks Simmons 2

Watts Bar Unit 2 Completion Status Watts Bar 2 Guiding Principles

  • Safe and High Quality
  • Design Basis Fidelity with Watts Bar 1
  • Systems, Structures, and Components -

Made Like New Simmons 3

Watts Bar Unit 2 Completion Status Overview

  • Progress and milestone accomplishments continue
  • Safety better than target, quality targets being met
  • Discovery and closeout key risks to completion
  • Completion challenges exist around hot functional testing (HFT) milestone
  • Actions being taken to address challenges and reduce project risk
  • Licensing issues remain stable and within plan - critical near-term activities
  • Accelerating involvement and integration with operating unit Simmons 4

Watts Bar Unit 2 Completion Status Project Update

  • Progress since October 2014 Completed primary cold hydrostatic test Completed secondary steam generator (SG) hydrostatic test Completed secondary hydrostatic test Successfully completed 5 pre-operational or acceptance test instructions and 600 component tests Completed major secondary side evolutions Simmons 5

Watts Bar Unit 2 Completion Status Project Update

  • Progress since October 2014 (continued)

Completed Unit 2 portion of ice condenser glycol system flushes Completed pressurizer relief tank coating American Society of Mechanical Engineers (ASME) stamped/certified reactor vessel, pressurizer, and reactor coolant pumps ASME stamped multiple major systems Reactor Coolant System Chemical Volume & Control (CVCS) System Residual Heat Removal Containment Spray Control Rod Drive Influx Detectors Station Drainage Unit 2 license review status briefing with Nuclear Regulatory Commission (NRC)

Simmons 6

Watts Bar Unit 2 Completion Status Milestone, System, and Surveillance Status

  • Major Milestone Status Start Open Vessel Component & Logic Testing - Complete Start Reactor Vessel Flush - Complete Start Open Vessel Testing - Complete Cold Hydrostatic test - Complete Steam Generator Hydrostatic test - Complete Secondary Hydrostatic test - Complete Start Ice Condenser Cool Down - January 2015 Energize Plant Systems through Unit 2 Switchyard - February 2015 Establish Main Condenser Vacuum - February 2015 Start Ice Load - February 2015 Start Hot Functional Testing - March 2015
  • System Turnover Status
  • Surveillance Status 87 systems involved in turnover process 895 total surveillances associated with WBN Unit 2
  • 17 systems turned over to Operations 659 required to be performed prior to fuel load
  • 38 systems turned over to startup testing 895 currently scheduled
  • 32 systems to be turned over to startup testing Simmons 7

Watts Bar Unit 2 Completion Status Critical Path with Forecast dates Simmons 8

Project Risks

  • Fire Protection
  • Degraded Voltage
  • Schedule challenges in Construction and Startup
  • Equipment Failures During Testing Simmons 9

Licensing Status Supplemental Safety Evaluation Report

  • Final Environmental Statement - Complete Open Item Status
  • Safety Evaluation - Nearing Completion 1%

NRC Closed 16% TVA Open 83%

NRC Review

  • No Watts Bar 2 Specific Contentions Remain Open 7% NRC Closed TVA Action 14% 79%

NRC Action Simmons 10

Overview of Watts Bar Unit 2 Project

  • Transition and Operational Readiness Overview

- Operating organization driving transition

- Unit 1 sharing ownership of critical Unit 2 milestones

- Staffing at appropriate level

- Training complete for dual-unit operation

- Corporate organization providing oversight and support

- Preparing for Operational Readiness Assessment Team Inspection Walsh 11

Special Topics Fire Protection WBN Dual Unit Fire Protection Report (FPR) Status

  • As-Designed FPR Submitted (March 2013)
  • Initial As-Constructed FPR Submitted (September 2014)

Final equipment configurations Additional equipment incorporated (Fukushima related)

Optimized and Refined Supporting Analyses

  • Triennial Fire Protection Inspection (October through December 2014)

Summary of Issues Identified Technical Consistency of Information from Design Inputs to Final Procedures Procedural Enhancements Resolution In Process

  • Re-Submittal of As-Constructed FPR (March 2015)

Crouch 13

General Design Criterion (GDC) 5 Item 91 - GDC-5

  • GDC 5 - Sharing of structures, systems, and components.

Structures, systems, and components important to safety shall not be shared among nuclear power units unless it can be shown that such sharing will not significantly impair their ability to perform their safety functions, including, in the event of an accident in one unit, an orderly shutdown and cooldown of the remaining units.

Koontz 14

General Design Criterion 5

  • Design Basis Watts Bar designed as a hot standby plant One unit in accident Second unit can remain safely in hot standby (350ºF)

Watts Bar has capability to safely handle one unit in an accident and bring second unit to cold shutdown (200ºF) within approximately 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> Koontz 15

General Design Criterion 5 Koontz 16

General Design Criterion 5

  • Final Safety Analysis Report has been revised
  • Staff request for additional information (RAIs) have been answered
  • Open item closed by NRC in SSER 27
  • Remaining action Technical Specification revision Koontz 17

Cyber Security

  • Met with Nuclear Security and Incident Response (NSIR), Nuclear Reactor Regulation (NRR) and Regional Staff - December 18, 2014 Proposed modifications to Milestones 6, 7 and 8 implementation schedules for Watts Bar Unit 2 to align with NEI Cyber Security Implementation Plan Template and TVA Fleet Approach Proposed modifications to License Conditions Unit 1 Unit 2 Provided Status of Cyber Security Implementation for Watts Bar Unit 2 Actions taken Inspection Insights Milestone Implementation Anticipated Status at Fuel Load Arent 18

Bright Line

  • Alignment with Nuclear Security and Incident Response (NSIR) on scope of issue Limited to communications equipment from the hydro yard which impacts in-plant electrical equipment
  • Response to Staff on resolution - February 2015 Hilmes 19

Degraded Voltage Issue:

  • WBN does not use the Degraded Voltage Relay (DVR) Analytical Limit (AL) as an Operability Limit for Off Site Power
  • WBN has not demonstrated that Safety Related loads will start assuming a Grid Voltage pre-accident which results in a Safety Related Bus Voltage at the DVR AL Hilmes 20

Degraded Voltage WBN dual unit grid operability is based upon the ability of the grid to accept accident loads while maintaining grid voltage >153kV and <9kV drop.

  • Operability determined by the use of a Grid State Estimator (Real Time Program which continuously determines Grid Capability)
  • Use of the Grid State Estimator is consistent with RG 1.93.

Hilmes 21

Degraded Voltage The WBN Scheme:

  • Ensures that safety related equipment will have adequate voltage to start and run at the time required to perform their safety functions while connected to offsite power or
  • Ensures that the Safety Related loads are transferred to the on-site power system once the Diesel Generator becomes available and subsequently start and run.

WBN has performed sensitivity studies to demonstrate that the scheme works for any grid capability condition.

Hilmes 22

Degraded Voltage WBN methodology maximizes the margin between the grid operability criteria and the Degrade Voltage Relay set point which provides the best scheme to:

  • Maintain offsite power as the preferred power supply when it is capable
  • Maximizes nuclear safety Maximizing this margin is consistent with Generic Safety Issue (GSI) -171 and Branch Technical Position PSB-1 Resolution of Issue
  • Independent Third Party Review of TVA Approach
  • Insights from NRC/Industry Meeting - January 13th and 14th
  • TVA resolution to RAI questions will be provided to NRR in January 2015 Hilmes 23

Buried Piping Integrity Program

  • WBN buried safety related piping included in the WBN Buried Piping Integrity Program (BPIP)
  • The objective of the BPIP is to provide a comprehensive program to reduce the probability and consequences of buried piping failure.
  • Program based upon EPRI Guidelines.
  • The program applies to safety-related and non-safety-related piping systems.
  • No additional safety-related buried piping is placed in service by Unit 2 completion.
  • Program addresses external (OD) corrosion and/or degradation of buried piping,
  • Program ensures piping is repaired or replaced prior to loss of function Crouch 24

Buried Piping Integrity Program Installation

  • Buried pipe is bedded to provide a continuous and uniform earth bearing from trench bottom to bottom quadrant of pipe.
  • Trenches are backfilled with rock-free earth or sand compacted to a minimum depth of 12 over top of pipe.
  • Steel pipe is either coal tar epoxy coated or spiral wrapped using coal-tar protective coating in tape form. Spiral wrap is overlapped more than half-width of the tape to provide a minimum of double thickness of tape.
  • Pipe is heated to remove moisture prior to wrapping.
  • Prior to backfilling, externally-coated pipe is inspected for holidays.

Crouch 25

Buried Piping Integrity Program The Buried Pipe Integrity Program (BPIP) is implemented in six steps:

  • Steps 1 and 2 establish the program.
1. Establishing site documents/databases.
2. Risk ranking of in-scope pipe segments.
  • Steps 3 thru 6 ensure adequacy of the piping.
3. Inspections of in-scope piping systems.
4. Fitness-for-service evaluations of inspection results.
5. Identification of repair options for degraded piping.
6. Prevention and mitigation measures for reducing risk of failure.
  • Steps 3 thru 6 are ongoing throughout the life of the plant.

Crouch 26

Buried Piping Integrity Program Buried Pipe Conclusions

  • The piping systems will maintain reliable operation.
  • No new safety related buried piping being added to program to support Unit 2 operation.
  • WBN is currently following the industry initiatives for buried piping, which is assessing the conditions, performing risk ranking models and replacing pipe as required.
  • The type failures that could occur will not challenge the operability of the systems and/or their functions.
  • To date there has not been any occurrence of major failure (loss of safety related system function).
  • WBN has processes and procedures to monitor all safety related piping.

Crouch 27

Substantially Complete Letter

  • Definition of Substantially Complete

- When the Owner takes responsibility

- Based on plant completion, not time to startup

  • Substantially Complete Letter timed to support notation paper

- Allows Commission 60 days for review of notation paper

- Approximately 90 days prior to fuel load

  • Letter will include a Readiness Assessment Report

- Readiness Assessment Report will provide inventory of TVA Quality Activities to construct, test, and transition to dual unit operations

- Readiness Assessment Report will include high level list of remaining construction and testing activities to complete before fuel load

  • Letter will be available for discussion Calle 28

Substantially Complete Letter Substantially complete letter alignment to the sub-parts of 10 CFR 50.57 10CFR 50.57 Sub-part Substantially Complete Letter Section (1) Construction of the facility has been Attachment A1- Current Schedule for Completion of substantially completed, in conformity with the Remaining Work construction permit and the application as Attachment A2 - Design Basis Verification amended, the provisions of the Act, and the Attachment A3 - Refurbishment Program Description rules and regulations of the Commission; and Attachment A4 - CAPs and SPs Attachment A5 - Status of Generic Communications Attachment A6 - Quality Assurance Activities (2) The facility will operate in conformity with the Attachment B1 - Current Schedule for Completion of application as amended, the provisions of the the Test Program Act, and the rules and regulations of the Commission; and (3) There is reasonable assurance (i) that the Attachment C1 - Department Transition and Change activities authorized by the operating license Management Plans can be conducted without endangering the Attachment C2 - Unit Differences - Design health and safety of the public, and (ii) that such Attachment C3 - Unit Differences - Training activities will be conducted in compliance with Attachment C4 - Safety Culture the regulations in this chapter Calle 29

Ready For Fuel Load Letter

  • Letter to be submitted just prior to fuel load

- Will include:

Schedule for testing - Startup and Power ascension List of activities that need completion prior to fuel load Unanticipated exemptions or reliefs

- Will request timely turnaround

- Will request full power license Calle 30

Unit 2 - Key Milestone Linkages Construction is TVA Letter -

Substantially Complete Construction is All Systems and Integrated Safeguards Testing Substantially Complete (final Mandatory MC Areas turned over from TVA Letter Complete 2513 inspection)

Bechtel to TVA Ready for Fuel Load TVA NRR Issues 2015 License NRC Commission NRC Sr.

Decision to Mgmt.

Issue License Mtg.

Internal Fukushima ACRS Final WRAG NRR submits Region 2 finding - WRAG confirms all Federal Register Orders Letter Notation Vote (94300) Inspection licensing issues are Notice - Issue Closed Paper Program Complete resolved license Calle 31

Closing Remarks Conclusion

  • Work to complete Watts Bar 2 is being done safely, in a quality manner, and in accordance with stringent standards.
  • The combination of construction, refurbishment, improvements, and ongoing pre-startup testing will demonstrate systems, structures, and components have achieved like new condition.
  • Startup testing and system turnovers support a June 2015 fuel load date.
  • Project challenges are being identified and addressed.

Fire Protection - Open issues being addressed Degraded Voltage - interaction with the Staff continues

  • Substantially Complete letter under development Simmons 33

Questions

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