ANO Units 1 and 2 - Inspection of the Implementation of Mitigation Strategies and Spent Fuel Pool Instrumentation Orders, and Emergency Preparedness Communication/Staffing/Multi-Unit Dose Assessment Plans - ins Rpt (05000313/2017008 and 050

ML17143A032
Person / Time
Site:	Arkansas Nuclear
Issue date:	05/22/2017
From:	O'Keefe N NRC/RGN-IV/DRS/EB-2
To:	Richard Anderson Entergy Operations
O'Keefe C
References
IR 2017008
Download: ML17143A032 (21)
v • d • e

Text

UNITED STATES NUCLEAR REGULATORY COMMISSION

REGION IV

1600 E. LAMAR BLVD.

ARLINGTON, TX 76011-4511 May 22, 2017 Mr. Richard L. Anderson, Vice President Arkansas Nuclear One Entergy Operations, Inc.

1448 S.R. 333 Russellville, AR 72802-0967 SUBJECT: ARKANSAS NUCLEAR ONE, UNITS 1 AND 2 - INSPECTION OF THE IMPLEMENTATION OF MITIGATION STRATEGIES AND SPENT FUEL POOL INSTRUMENTATION ORDERS, AND EMERGENCY PREPAREDNESS COMMUNICATION/STAFFING/MULTI-UNIT DOSE ASSESSMENT PLANS -

INSPECTION REPORT (05000313/2017008 AND 05000368/2017008)

Dear Mr. Anderson:

On May 1, 2017, the U.S. Nuclear Regulatory Commission (NRC) completed an inspection at your Arkansas Nuclear One, Units 1 and 2. On May 1, 2017, the NRC inspectors discussed the results of this inspection with Mr. T. Evans, General Manager of Plant Operations, and other members of your staff. Inspectors documented the results of this inspection in the enclosed inspection report.

The inspection examined activities conducted under your license as they relate to the Implementation of Mitigation Strategies and Spent Fuel Pool Instrumentation (Orders EA-12-049 and EA-12-051), and Emergency Preparedness Communication/Staffing/Multi-Unit Dose Assessment Plans, your compliance with the Commissions rules and regulations, and with the conditions of your operating license. Within these areas, the inspection involved examination of selected procedures and records, observation of activities, and interviews with station personnel.

The NRC inspectors documented two findings of very low significance (Green) in this report.

If you disagree with a cross-cutting aspect assignment or a finding in this report, you should provide a response within 30 days of the date of this inspection report, with the basis for your disagreement, to the U.S. Nuclear Regulatory Commission, ATTN: Document Control Desk, Washington, DC 20555 0001; with copies to the Regional Administrator, Region IV; and the NRC resident inspector at the Arkansas Nuclear One.

In accordance with Title 10 of the Code of Federal Regulations (10 CFR) 2.390, Public Inspections, Exemptions, Requests for Withholding, a copy of this letter, its enclosure, and your response (if any) will be available electronically for public inspection in the NRCs Public Document Room or from the Publicly Available Records (PARS) component of the NRC's Agencywide Documents Access and Management System (ADAMS). ADAMS is accessible from the NRC Web site at http://www.nrc.gov/reading-rm/adams.html (the Public Electronic Reading Room).

Sincerely,

/RA/

Neil OKeefe, Chief, Project Branch E Division of Reactor Projects Docket Nos. 50-313 and 50-368 License Nos. DPR-51 and NPF-6

Enclosure:

Inspection Report 05000313/2017008 and 5000368/2017008 w/ Attachment: Supplemental Information

REGION IV==

Docket: 50-313 and 50-368 License: DPR-51 and NPF-6 Report: 05000313/2017008 and 05000368/2017008 Licensee: Entergy Operations, Inc.

Facility: Arkansas Nuclear One, Units 1 and 2 Location: Junction of Highway 64 West and Highway 333 South Russellville, Arkansas Dates: January 23 through May 1, 2017 Inspectors: J. Mateychick, Senior Reactor Inspector (Team Leader)

T. Sullivan, Project Engineer M. Tobin, Resident Inspector E. Uribe, Project Engineer Approved Neil OKeefe By: Chief, Project Branch E Division of Reactor Projects Enclosure

SUMMARY

IR 05000313/2017008,05000368/2017008; 01/23/2017 - 05/01/2017; Arkansas Nuclear One,

Units 1 and 2; Temporary Instruction 2515/191, Inspection of the Implementation of Mitigation Strategies and Spent Fuel Pool Instrumentation Orders, and Emergency Preparedness Communication/Staffing/Multi-Unit Dose Assessment Plans, issued December 23, 2015.

The inspection covered a one week inspection by three inspectors from the Region IV office and one of the assigned resident inspectors. Two findings were identified. The NRCs program for overseeing the safe operation of commercial nuclear power reactors is described in NUREG-1649, Reactor Oversight Process, Revision 5.

NRC-Identified and Self-Revealing Findings

Green.

The team identified a finding for the failure to assure that FLEX power supply connections would be reliable following all required postulated beyond design basis external events. Specifically, the team identified that one installed cable configuration could potentially be damaged during high wind events preventing operation of the portable diesel generator required to operate plant equipment. This issue was entered into the licensees corrective action program as Condition Report CR-ANO-C-2017-00316.

The failure to adequately install the electrical modification for connecting the portable diesel generator was a performance deficiency. The performance deficiency was more than minor because it was associated with the protection against external factors attribute of the Mitigating Systems Cornerstone and adversely affected the Mitigating Systems Cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences. The significance of the finding was evaluated using NRC Inspection Manual Chapter 0609,

Appendix O, Significance Determination Process for Mitigating Strategies and Spent Fuel Pool Instrumentation (Orders EA-12-049 and EA-12-051), dated October 7, 2016, and Appendix M, Significance Determination Process Using Qualitative Criteria, dated April 12, 2012. A bounding evaluation was performed using the exposure time, tornado frequency, and frequency of a random failure of both emergency diesel generators. The licensees compliance date with the order was January 12, 2016, so an exposure time of one year was used. The tornado frequency selected was for an F2 or greater tornado striking the site (5.31E-5/year). The random failure frequency of both units emergency diesel generators (3.15E-3/year) was selected since the emergency diesel generators are protected from damage during high wind events. This is a conservative bounding analysis because it assumes that any tornado would result in damage causing a loss of offsite power and damage the cables in terminal panel 2TB1011 on the roof. The change in core damage frequency for the finding was determined to be 1.67E-7/year. Therefore, the finding was determined to a very low risk significance.

The finding had a cross-cutting aspect in the challenge to the unknown component of Human Performance because the licensee failed to adequately address all potential damage scenarios when developing the modification design requirements for beyond design basis external events [H.11]. (Section 4OA5.1.c(1))

Green.

The team identified a finding with three examples for the licensee failing to assure that FLEX procedures were adequate for implementation of the strategies credited in the licensees Final Implementation Plan. This issue was entered into the licensees corrective action program as Condition Reports CR-ANO-C-2017-00341,

CR-ANO-C 2017-00344, CR-ANO-1-2017-00250, and CR-ANO-C-2017 00295.

The failure to provide adequate procedures for responding to an extended loss of all AC power due to a flooding or high wind event was a performance deficiency.

The performance deficiency was more than minor because it was associated with the protection against external factors attribute of the Mitigating Systems Cornerstone and adversely affected the Mitigating Systems Cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences. The significance of the finding was evaluated using NRC Inspection Manual Chapter 0609, Appendix O, Significance Determination Process for Mitigating Strategies and Spent Fuel Pool Instrumentation (Orders EA-12-049 and EA-12-051), dated October 7, 2016, and Appendix M,

Significance Determination Process Using Qualitative Criteria, dated April 12, 2012. A bounding evaluation was performed using the exposure time, frequency of random failure of both emergency diesel generators, and tornado frequency or flood frequency. The licensees compliance date with the order was January 12, 2016, so an exposure time of one year was used. The random failure frequency of both units emergency diesel generators (3.15E-3/year) was selected since the emergency diesel generators are protected from damage during high wind and flood events. For the two examples impacted by flood events, the flood frequency selected was for a flood exceeding the site grade elevation (8.47E-5/year). The change in core damage frequency for these examples was determined to be 2.67E-7/year. For the example which would only impact the licensees response to a high wind event, the tornado frequency selected was for an F2 or greater tornado striking the site (5.31E-5/year). The change in core damage frequency for this example was determined to be 1.67E-7/year. Therefore, the three examples of the finding were determined to of very low risk significance.

The finding had a cross-cutting aspect in the Procedure Adherence component of Human Performance because the licensee failed to adequately perform reviews required by the licensees procedure control program to confirm that: (1) instructions for implementing the strategies in the licensees Final Implementation Plan were complete and appropriate; and (2) reviews for affected procedures related to other procedure revisions identified impacts on the implementing strategies and revised them appropriately [H.8]. (Section 4OA5.1.c(2))

Licensee-Identified Violations

None

REPORT DETAILS

4. Other Activities

4OA5 Other Activities (TI 2515/191)

The objective of Temporary Instruction (TI) 2015/191, Inspection of the Implementation of Mitigation Strategies and Spent Fuel Pool Instrumentation Orders, and Emergency Preparedness Communication/Staffing/Multi-Unit Dose Assessment Plans is to verify that licensees have adequately implemented the mitigation strategies as described in the licensees Final Integrated Plan (ADAMS Accession No. ML16014A396), and the NRCs plant safety evaluation (ADAMS Accession No. ML16224A106), and to verify that the licensee installed reliable water-level measurement instrumentation in their spent fuel pools. The purpose of this TI is to verify the licensees have implemented Emergency Preparedness (EP) enhancements as described in their site-specific submittals and NRC safety assessments, including multi-unit dose assessment capability and enhancements to ensure that staffing is sufficient and communications can be maintained during such an event.

The inspection verifies that plans for complying with NRC Orders EA-12-049, Order Modifying Licenses with Regard to Requirements for Mitigation Strategies for Beyond-Design-Basis External Events (ADAMS Accession No. ML12229A174), and EA-12-051, Order Modifying Licenses With Regard to Reliable Spent Fuel Pool Instrumentation (ADAMS Accession No. ML12056A044), are in place and are being implemented by the licensee. Additionally, the inspection verifies implementation of staffing and communications information provided in response to the March 12, 2012, Request for Information Letter and Multi-Unit Dose Assessment Information, provided per COMSECY-13-0010, Schedule and Plans for Tier 2 Order on Emergency Preparedness for Japan Lessons Learned, dated March 27, 2013 (ADAMS Accession No. ML12339A262).

The team discussed the plans and strategies with plant staff, reviewed documentation, and where appropriate, performed plant walkdowns to verify that the strategies could be implemented as stated in the licensees submittals and the NRC staff-prepared safety evaluation. For most strategies, this included verification that the strategy was feasible, procedures and/or guidance had been developed, training had been provided to plant staff, and required equipment had been identified and staged. Specific details of the teams inspection activities are described in the following sections.

Mitigation Strategies for Beyond-Design-Basis External Events

a. Inspection Scope

The team examined the licensees established guidelines and implementing procedures for the Mitigation Strategies for Beyond-Design-Basis. The team assessed how the licensee coordinated and documented the interface/transition between existing off-normal and Emergency Operating Procedures with the newly developed mitigation strategies. The team selected a number of mitigation strategies, conducted plant walkdowns with licensed operators and responsible plant staff, to assess the adequacy and completeness of the procedures; familiarity of operators with the procedure objectives and specific guidance; staging and compatibility of equipment, and the practicality of the operator actions prescribed by the procedures, consistent with the postulated scenarios.

The team verified that a preventive maintenance program had been established for the FLEX portable equipment and that periodic equipment inventories were in place and being conducted. Additionally, the team examined the introductory and planned periodic/refresher training provided to the Operations and Fire Protection staffs most likely to be tasked with implementation of the FLEX mitigation strategies. The team also reviewed the introductory and planned periodic training provided to the Emergency Response Organization personnel. Documents reviewed are listed in the attachment.

b. Assessment Based on samples selected for review, the inspectors verified that the licensee satisfactorily implemented appropriate elements of the FLEX strategy as described in the plant specific submittals and the associated safety evaluation and determined that the licensee is generally in compliance with NRC Order EA-12-049. The inspectors verified that the licensee satisfactorily:

• Developed and issued FLEX Support Guidelines (FSGs) to implement the FLEX strategies for postulated external events;

• Integrated their FSGs into their existing plant procedures such that entry into and departure from the FSGs are clear when using existing plant procedures;

• Protected FLEX equipment from site-specific hazards;

• Developed and implemented adequate testing and maintenance of FLEX equipment to ensure their availability and capability;

• Trained their staff to assure personnel proficiency in the mitigation of beyond-design-basis events; and

• Developed means to ensure that the necessary off-site FLEX equipment will be available from off-site locations.

c. Findings

(1) Inadequate FLEX Power Supply Connections

Introduction.

The team identified a Green finding for the failure to assure that FLEX power supply connections would be reliable following all postulated beyond design basis external events. Specifically, the installed cable configuration could potentially be damaged during high wind events preventing operation of the portable diesel generator required to operate plant equipment.

Description.

The team reviewed the licensees method of reestablishing power to select components in both units during an extended loss of all AC power. The licensees Final Integrated Plan for responding to an extended loss of all AC power includes deploying and connecting a portable diesel generator within six hours of the initiation of the event.

Cables from the portable diesel generator would be connected to one of two terminal panels installed for that purpose. Terminal panel 2TB1010 was installed inside of a building. The cables from the portable diesel generator would be routed through an open door. This connection point would be used for all beyond design bases external events except flooding. Terminal panel 2TB1011 was installed on the roof of the building to allow connecting the portable diesel generator cables during a potential flooding event so that the water tight door to remain closed. Cables from both terminal panels 2TB1010 and 2TB1011 connect to terminal panel 2TB1009 from which power is supplied to select components in both units.

Terminal panel 2TB1011 located on the roof is not protected from damage during high wind events. The modification addressed this potential damage by requiring that the cables routed between terminal panels 2TB1009 and 2TB1011 be disconnected in terminal panel 2TB1011 (i.e., outside of the tornado-protected building). The cables would only be connected in preparation for expected site flooding. The disconnected cables would prevent damage to terminal panel 2TB1011 from physically impacting operation of the electrical system.

During plant walkdowns, the team identified that in the installed configuration, the cables in terminal panel 2TB1011 would be energized when the portable diesel generator was connected to terminal panel 2TB1010 inside the building. Damage to the twelve cables in terminal panel 2TB1011 on the roof during a high wind event could potentially create shorts preventing the portable diesel generator from providing power to the required plant components. The licensee confirmed that potential damage to the cables in terminal panel 2TB1011 was not considered in the modification design requirements.

Procedure EN-DC-141, Design Inputs, Attachment 9.3 provided guidance for identifying design requirements for protecting structures, systems, and components against environmental impacts, including tornado missiles. Based on that guidance, modification package Base EC 44044, ANO FLEX Electrical, Revision 0, Section 3.1.22, specifically required the cables from termination panel 2TB1011 be installed but not connected. However, the team identified that the licensee failed to protect structures, systems, and components against environmental impacts of tornado missiles. Specifically, with the cables from termination panel 2TB1011 connected in termination panel 2TB1009, the installed configuration failed to protect the circuits from damage during high wind events. The licensee disconnected the cables of concern in terminal panel 2TB1009 resolving the concern while the team was onsite. This issue was entered into the licensees corrective action program as Condition Report CR-ANO-C-2017-00316.

Analysis.

The failure to install the electrical circuit modification to allow connecting the portable diesel generator such that the circuits were protected from tornado missile damage was a performance deficiency. The performance deficiency was more than minor because it was associated with the protection against external factors attribute of the Mitigating Systems Cornerstone and adversely affected the Mitigating Systems Cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences. Specifically, the licensee did not ensure that the strategy model work order providing installation instructions implemented the design requirement that the electrical circuits for providing power to required plant components would be capable of fulfilling their function in the case of an extended loss of all AC power (ELAP) occurring due to a high wind event.

The significance of the finding was evaluated using NRC Inspection Manual Chapter 0609, Appendix O, Significance Determination Process for Mitigating Strategies and Spent Fuel Pool Instrumentation (Orders EA-12-049 and EA-12-051), dated October 7, 2016, and Appendix M, Significance Determination Process Using Qualitative Criteria, dated April 12, 2012. An initial bounding evaluation was performed using exposure time, tornado frequency, and frequency of random failure of both emergency diesel generators. The licensees order compliance date was January 12, 2016, so an exposure time of one year was used. The tornado frequency selected was for an F2 or greater tornado striking the site (5.31E-5/year). The random failure frequency of both units emergency diesel generators (3.15E-3/year) was selected since the emergency diesel generators are protected from damage during high wind events.

This is a conservative bounding analysis in that it assumes that any tornado would result in damage causing a loss of offsite power and damage the cables in terminal panel 2TB1011 on the roof. The change in core damage frequency for the finding was determined to be 1.67E-7/year. Therefore, the finding was determined to of very low risk significance (Green).

The finding had a cross-cutting aspect in the challenge to the unknown component of the Human Performance area because the licensee failed to adequately address all potential damage scenarios when developing the modification design requirements for beyond design basis external events [H.11].

Enforcement.

This finding does not involve enforcement action because no violation of regulatory requirements was identified. Specifically, the performance deficiency was determined to involve the failure to meet a self-imposed standard. Because the finding does not involve a violation of regulatory requirements and has very low safety significance, it is identified as: FIN 05000313/2017008-01 and 05000368/2017008-01, Inadequate FLEX Power Supply Connections.

(2) Inadequate FLEX Procedures

Introduction.

The team identified a Green finding for the failure to provide procedures that were adequate for implementation of the FLEX strategies credited in the licensees Final Implementation Plan.

Description.

The team reviewed the licensees procedures for implementing the Final Implementation Plan. The team reviewed the licensees FLEX Developed Strategies, FLEX Strategy Guidelines, and an associated work order. The team identified three examples of inadequate procedures.

Example 1 The team reviewed Model Work Order 402438 in which the licensee established instructions for staging Phase II FLEX equipment prior to an impending flood event.

Task 9 of the work order provided instructions for connecting the FLEX portable diesel generator to the plant electrical systems. The portable generator was intended to provide power to the required components in both units if an extended loss of AC power occurred during a flood event. The task provided detailed instructions for installing the temporary cables from the portable generator to terminal panel 2TB1011. The team identified that there were no instructions or labels to ensure that the twelve cables left disconnected in terminal panel 2TB1011 would be correctly connected to the three terminal blocks. The correct four cables must be connected to the corresponding terminal block in terminal panel 2TB1011 for each of the three electrical phases. Any errors in terminating the twelve cables would create a phase to phase fault preventing operation of the portable generator. This example was entered into the corrective action program as Condition Report CR-ANO-C-2017-00341.

Example 2 The team reviewed FLEX Developed Strategies FDS-007, Unit 1 Flood ELAP Guideline, Revision 1, and FDS-008, Unit 2 Flood ELAP Guideline, Revision 1, which were intended to be used to respond to an extended loss of all AC power occurred during a flood event. Preparations for an impending flood specified by the licensees Procedure OP-1203.025, Natural Emergencies, Revision 60, required the units to be shut down, cooled down, and the decay heat removal system placed in service. The procedure also required Model Work Order 402438 to stage and install the FLEX Phase II equipment in specific configurations required for flood conditions.

The team determined that FLEX Developed Strategies FDS-007 and FDS-008 were inadequate because these procedures were developed for initial plant conditions that did not reflect the conditions which were expected to exist at the time the procedures would be implemented. Also, these procedures did not provide adequate operating instructions for utilizing the FLEX equipment in the configurations required for a flood event.

Specifically, FLEX Developed Strategies FDS-007 and FDS-008 contained instructions which would be appropriate if an extended loss of all AC power occurred with the unit in modes 1-4, but not in the shutdown conditions that were required by implementing Procedure OP-1203.025. This example was entered into the corrective action program as Condition Report CR-ANO-C 2017-00344.

Example 3 The team reviewed FLEX Developed Strategies FDS-001, Unit 1 Extended Loss of AC Power, Revision 3, and FDS-002, Unit 2 Extended Loss of AC Power, Revision 3, which were intended to be used to respond to an extended loss of all AC power occurred with the units starting in modes 1-4. The team identified that the licensee had failed to ensure that air-binding of the emergency feedwater pumps, which were required for decay heat removal, would be prevented. Specifically, the licensee failed to revise FLEX Developed Strategies FDS-001 and FDS-002, when they revised emergency operating procedures that contained the same instructions to correct the same potential failure mechanism. At the time FLEX Developed Strategies FDS-001 and FDS-002 would be implemented, each unit would only have one turbine driven emergency feedwater pump available to perform decay heat removal. The team determined that the licensee had no procedure for recovering from air-binding the turbine driven emergency feedwater pump in this condition. Specifically, following FDS-001 and FDS-002 could result in draining the qualified condensate storage tank and failing to isolate the suction, ingesting air and air-binding the pumps. This example was entered into the corrective action program as Condition Reports CR-ANO-1-2017-00250 and CR-ANO-C-2017 00295.

NEI 12-06, Diverse and Flexible Coping Strategies (FLEX) Implementation Guide, Revision 0, Section 11.4.3 requires that Functional Support Guidelines be controlled under the site procedure control program. Licensee Procedure 1000.006, Procedure Control, Revision 69, requires validation of the original issue (Revision 0) of a procedure and any procedure changes that alters the sequence of steps or actions. The validation is to confirm that the proposed procedure is usable, accurate, contains the appropriate level of detail. The procedure also requires that all related procedures affected by a change are identified and revised. The team identified that Example 3 described above did not meet these requirements.

Analysis.

The failure to provide procedures that were adequate for implementation of FLEX strategies for responding to an extended loss of all AC power due to a flooding or high wind events was a performance deficiency. The performance deficiency was more than minor because it was associated with the protection against external factors attribute of the Mitigating Systems Cornerstone and adversely affected the Mitigating Systems Cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences.

Specifically, the licensee failed to ensure that Model Work Order 402438 and FLEX developed strategies FDS-001, FDS-002, FDS-007, and FDS-008 used to implement the program provided adequate instructions.

The significance of the finding was evaluated using NRC Inspection Manual Chapter 0609, Appendix O, Significance Determination Process for Mitigating Strategies and Spent Fuel Pool Instrumentation (Orders EA-12-049 and EA-12-051), dated October 7, 2016, and Appendix M, Significance Determination Process Using Qualitative Criteria, dated April 12, 2012.

For Example 1 and Example 2, the procedure deficiencies would only impact the licensees response to a flood event. A bounding evaluation was performed using exposure time, flood frequency, and frequency of random failure of both emergency diesel generators. The licensees compliance date for the order was January 12, 2016, so an exposure time of one year was used. The flood frequency selected was for a flood first exceeding the site grade elevation (8.47E-5/year). The random failure frequency of both units emergency diesel generators (3.15E-3/year) was selected since the emergency diesel generators are protected from damage during flood events. This is a conservative bounding analysis in that a source of off-site power is protected against higher flood levels. The bounding change in core damage frequency for the finding was determined to be 2.67E-7/year. Therefore, these examples of the finding were determined to of very low risk significance (Green).

For Example 3, the procedure deficiency would only impact the licensees response to a high wind event. A bounding evaluation was performed using exposure time, tornado frequency, and frequency of random failure of both emergency diesel generators. The licensees compliance date for the order was January 12, 2016, so an exposure time of one year was used. The tornado frequency selected was for an F2 or greater tornado striking the site (5.31E-5/year). The random failure frequency for both emergency diesel generators in one unit (3.15E-3/year) was selected since the emergency diesel generators are protected from damage during high wind events. This is a conservative assumption because it assumes that any tornado would result in damage causing a loss of offsite power and damage to the condensate storage tank credited in the Final Implementation Plan. The bounding change in core damage frequency for the finding was determined to be 1.67E-7/year. Therefore, this example of the finding was determined to of very low risk significance (Green).

The finding had a cross-cutting aspect in the Procedure Adherence component of Human Performance because the licensee failed to adequately perform reviews required by the licensees procedure control program to confirm that:

(1) instructions for implementing the strategies in the licensees Final Implementation Plan were complete and appropriate; and

(2) reviews for affected procedures related to other procedure revisions identified impacts on the implementing strategies and revised them appropriately [H.8].

Enforcement.

This finding does not involve enforcement action because no violation of regulatory requirements was identified. Specifically, the performance deficiency was determined to involve the failure to meet a self-imposed standard. Because the finding does not involve a violation of regulatory requirements and has very low safety significance, it is identified as: FIN 05000313/2017008-02 and 05000368/2017008-02, Inadequate FLEX Procedures.

2. Spent Fuel Pool (SFP) Instrumentation

a. Inspection Scope

The team examined the licensees newly installed spent fuel pool instrumentation.

Specifically, the inspectors verified the sensors were installed as described in the plant specific submittals to the NRC and the associated safety evaluation and that the cabling for the power supplies and the indications for each channel are physically and electrically separated. Additionally, environmental conditions and accessibility of the instruments were evaluated. Documents reviewed are listed in the attachment.

b. Assessment Based on samples selected for review, the inspectors determined that the licensee satisfactorily installed and established control of the spent fuel pool instrumentation as described in the plant specific submittals and the associated safety evaluation, and determined that the licensee is generally in compliance with NRC Order EA-12-051. The inspectors verified that the licensee satisfactorily:

• Installed the SFP instrumentation sensors, cabling, and power supplies to provide physical and electrical separation as described in the plant specific submittal and safety evaluation;

• Installed the SFP instrumentation display consistent with the locations, environmental conditions, and accessibility described in the plant specific submittals; and

• Trained their staff to assure personnel proficiency with the maintenance, testing, and use of the SFP instrumentation.

c. Findings

No findings identified.

3. Staffing and Communication Request for Information

a. Inspection Scope

Through discussions with plant staff, review of documentation, and plant walkdowns the team verified that the licensee implemented required changes to staffing, communications equipment, and facilities to support an ELAP scenario as described in the licensees staffing assessment and the NRC safety assessment. The team also verified that the licensee implemented dose assessment capability (including releases from spent fuel pools) using the licensees site-specific dose assessment software and approach as described in the licensees dose assessment submittal. Documents reviewed are listed in the attachment.

b. Assessment The inspectors reviewed information provided in the licensees multi-unit dose submittal and in response to the NRCs March 12, 2012, request for information letter and verified that the licensee satisfactorily implemented enhancements pertaining to Near-Term Task Force Recommendation 9.3 response to a large scale natural emergency event that results in an extended loss of all ac power to the site and impedes access to the site.

The inspectors verified the following:

• The licensee satisfactorily implemented required staffing change(s) to support an ELAP scenario;

• Emergency preparedness communications equipment and facilities are sufficient for dealing with an ELAP scenario; and

• The licensee implemented dose assessment capabilities (including releases from spent fuel pools) using the site-specific dose assessment software and approach.

c. Findings

No findings identified.

4OA6 Meetings, Including Exit

Exit Meeting Summary

On January 27, 2017, the inspectors presented the on-site inspection results in a management debrief to Mr. T. Evans, General Manager of Plant Operations, and other members of the site staff.

The inspectors completed an exit meeting with Mr. T. Evans, General Manager of Plant Operations and other members of the site staff, via telephone on May 1, 2017, who acknowledged the final results of the inspection. The inspectors confirmed that proprietary information was not provided or examined during the inspection.

SUPPLEMENTAL INFORMATION

KEY POINTS OF CONTACT

Licensee Personnel

B. Adkison, Senior Engineer, Design Engineering

T. Arnold, Training Manager

L. Blocker, Nuclear Independent Oversight Manager

R. Buser, Supervisor, Design Engineering

P. Butler, Design and Program Engineering Manager

R. Carey, Manager, Emergency Preparedness

T. Chernnec, Outage Manager

L. Cowyer, FLEX Marshal, Operations

B. Davis, Engineering Director

T. Evans, General Manager of Plant Operations

M. Fields, Assistant Operations Manager

R. Freeman, Planner, Emergency Preparedness

M. Hall, Licensing Specialist, Regulatory Assurance

J. Hathcote, Support Manager, Operations

G. Hudnall, Manager, Nuclear Oversite

D. James, Director, Regulatory Affairs and Recovery

L. Jordan, Procedure Writer, Operations

D. Kilpatrick, Training Manager

B. Lynch, Manager, Radiation Protection

P. McCray, Senior Manager, Projects

B. Miller, Senior Engineer, Design Engineering Electrical

N. Mosher, Licensing Specialist, Regulatory Assurance

R. Pace, Production Manager

B. Patrick, Maintenance Manager

D. Perkins, Senior Manager, Operations

P. Perkins, Senior Operations Managers

N. Pope, Planner, Emergency Preparedness

M. Preston, Trainer, Emergency Preparedness

S. Pyle, Manager, Regulatory Assurance

T. Shearill, Assistant Operations Manager

F. Shewmake, Unit 2 Assistant Operations Manager

M. Skartvedt, Systems and Components Engineering Manager

J. Toben, Nuclear Safety Culture Manager

D. Vogt, Senior Manager, Operations

C. Warren, Acting Vice President, Entergy

LIST OF ITEMS OPENED, CLOSED, AND DISCUSSED

Opened and Closed

05000313/2017008-01 Inadequate FLEX Power Supply Connections FIN

05000368/2017008-01 (Section 1.c(1))

05000313/2017008-02 FIN Inadequate FLEX Procedures (Section 1.c(2))

05000368/2017008-02

LIST OF DOCUMENTS REVIEWED