| author name = Allen D

{{#Wiki_filter:UNITED STATES ust 14, 2014

==SUBJECT:==

GRAND GULF NUCLEAR STATION - NRC INSPECTION REPORT 05000416/2014003

On June 30, 2014, the U.S. Nuclear Regulatory Commission (NRC) completed an inspection at the Grand Gulf Nuclear Station, Unit 1. On July 17, 2014, the NRC inspectors discussed the results of this inspection with you and other members of your staff. Inspectors documented the results of this inspection in the enclosed inspection report.

NRC inspectors documented one finding of very low safety significance (Green) in this report.

This finding involved a violation of NRC requirements. Further, inspectors documented a licensee-identified violation, which was determined to be of very low safety significance, in this report. The NRC is treating these violations as non-cited violations consistent with Section 2.3.2.a of the NRC Enforcement Policy.

If you contest the violations or significance of these non-cited violations, you should provide a response within 30 days of the date of this inspection report, with the basis for your denial, to the U.S. Nuclear Regulatory Commission, ATTN: Document Control Desk, Washington, DC 20555-0001; with copies to the Regional Administrator, Region IV; the Director, Office of Enforcement, U.S. Nuclear Regulatory Commission, Washington, DC 20555-0001; and the NRC resident inspectors at the Grand Gulf Nuclear Station.

If you disagree with a cross-cutting aspect assignment 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 Regional Administrator, Region IV; and the NRC resident inspectors at the Grand Gulf Nuclear Station. 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 NRCs 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).

Don Allen, Branch Chief Project Branch C Division of Reactor Projects Docket No.: 50-416 License No.: NPF-29 Enclosure:

==REGION IV==

Docket: 05000416 License: NPF-29 Report: 05000416/2014003 Licensee: Entergy Operations, Inc.

Facility: Grand Gulf Nuclear Station, Unit 1 Location: 7003 Baldhill Road Port Gibson, MS 39150 Dates: April 1 through June 30, 2014 Inspectors: R. Smith, Senior Resident Inspector B. Rice, Senior Resident Inspector Approved Don Allen By: Chief, Project Branch C Division of Reactor Projects Enclosure

IR 05000416/2014003; 04/01/2014 - 06/30/2014; Grand Gulf Nuclear Station; Operability

Determinations and Functionality The inspection activities described in this report were performed between April 1 and June 30, 2014, by the resident inspectors at the Grand Gulf Nuclear Station. One finding of very low safety significance (Green) is documented in this report. This finding involved a violation of Nuclear Regulatory Commission requirements. Additionally, NRC inspectors documented in this report one licensee-identified violation of very low safety significance. The significance of inspection findings is indicated by their color (Green, White, Yellow, or Red),

which is determined using Inspection Manual Chapter 0609, Significance Determination Process. Their cross-cutting aspects are determined using Inspection Manual Chapter 0310,

Components Within the Cross-Cutting Areas. Violations of Nuclear Regulatory Commission requirements are dispositioned in accordance with the NRC Enforcement Policy. The NRCs program for overseeing the safe operation of commercial nuclear power reactors is described in NUREG 1649, Reactor Oversight Process.

The inspectors reviewed a self-revealing non-cited violation of 10 CFR Part 50,

Appendix B, Criterion XVI, Corrective Action, for the failure to promptly reinstate an essential-critical preventative maintenance task after they identified that it had been improperly retired. Specifically, the licensee did not reinstate and complete Preventive Maintenance Task PMRQ 50024451-04 prior to the failure of diode CR6 on May 21, 2013, which resulted in the division 2 diesel generator failing its monthly functional test and the licensee declaring it inoperable. The operators secured the diesel generator and wrote Condition Report CR-GGN-2013-03423 documenting the issue. The licensee performed a Failure Modes Analysis evaluation to determine the possible cause for the observed conditions. During troubleshooting efforts, the licensee addressed the potential transformer (PT1), the potential transformers fuses, inline fuses, and the voltage regulator circuit bridge diodes. The Failure Modes Analysis evaluation showed that all of the listed components were in satisfactory condition, except that one of the six diodes used in the voltage regulator circuit diode bridge, Diode CR6, had shorted. The licensee replaced the shorted diode and returned the diesel generator to operational status on May 24, 2013.

===Licensee-Identified Violations===

A violation of very low safety significance that was identified by the licensee has been reviewed by the inspectors. Corrective actions taken or planned by the licensee have been entered into the licensees corrective action program. This violation and associated corrective action tracking numbers are listed in Section 4OA7 of this report.

REPORT DETAILS

Cornerstones: Initiating Events, Mitigating Systems, and Barrier Integrity {{a|1R01}}

On May 15, 2014, the inspectors completed an inspection of the stations off-site and alternate-ac power systems. The inspectors inspected the material condition of these systems, including transformers and other switchyard equipment to verify that plant features and procedures were appropriate for operation and continued availability of off-site and alternate-ac power systems. The inspectors reviewed outstanding work orders and open condition reports for these systems. The inspectors walked down the switchyard to observe the material condition of equipment providing off-site power sources. The inspectors assessed corrective actions for identified degraded conditions and verified that the licensee had considered the degraded conditions in its risk evaluations and had established appropriate compensatory measures. The inspectors verified that the licensees procedures included appropriate measures to monitor and maintain availability and reliability of the off-site and alternate-ac power systems.

On April 13, 2014, the inspectors completed an inspection of the stations readiness to cope with external flooding. After reviewing the licensees flooding analysis, the inspectors chose five plant areas that were susceptible to flooding:

No findings were identified. {{a|1R04}}

* June 25, 2014, division 1 diesel generator during division 2 diesel generator scheduled maintenance The inspectors reviewed the licensees procedures and system design information to determine the correct lineup for the systems. They visually verified that critical portions of the systems or trains were correctly aligned for the existing plant configuration.

On April 16, 2014, the inspectors performed a complete system walk-down inspection of the reactor core isolation cooling system (RCIC). The inspectors reviewed the licensees procedures and system design information to determine the correct RCIC system lineup for the existing plant configuration. The inspectors also reviewed outstanding work orders, open condition reports, and other open items tracked by the licensees operations and engineering departments. The inspectors then visually verified that the system was correctly aligned for the existing plant configuration.

No findings were identified. {{a|1R05}}

The inspectors evaluated the licensees fire protection program for operational status and material condition. The inspectors focused their inspection on five plant areas important to safety:

* June 24, 2014, division 2 diesel generator room 1D303 For each area, the inspectors evaluated the fire plan against defined hazards and defense-in-depth features in the licensees fire protection program. The inspectors evaluated control of transient combustibles and ignition sources, fire detection and suppression systems, manual firefighting equipment and capability, passive fire protection features, and compensatory measures for degraded conditions.

No findings were identified. {{a|1R06}}

On April 24, 2014, the inspectors completed an inspection of the stations ability to mitigate flooding due to internal causes. After reviewing the licensees flooding analysis, the inspectors chose four plant areas containing risk-significant structures, systems, and components that were susceptible to flooding. During Refueling Outage RF18, which was completed in the spring of 2012, the station installed a condensate full flow filtration (CFFF) system in the turbine building. The inspectors evaluated the impact that the addition of the CFFF system to the turbine building had on the stations internal flooding analysis. The inspectors identified safety-related valves and instrumentation that were in the vicinity of the CFFF piping. The areas assessed were:

No findings were identified. {{a|1R11}}

On April 23, 2014, the inspectors observed a crew of licensed operators in the plants simulator during requalification as left evaluation. The inspectors assessed the performance of the operators and the evaluators critique of their performance. The inspectors assessed the following areas:

On April 1 and 2, 2014, the inspectors observed the performance of on-shift licensed operators in the plants main control room. At the time of the observations, the plant was in a period of heightened activity due to plant startup following a reactor scram. The inspectors observed the operators performance of the following activities:

In addition, the inspectors assessed the operators adherence to plant procedures, including conduct of operations procedure and other operations department policies.

No findings were identified. {{a|1R12}}

* April 22, 2014, local leak rate test failures of an isolation valve associated with the containment isolation system The inspectors reviewed the extent of condition of possible common cause SSC failures and evaluated the adequacy of the licensees corrective actions. The inspectors reviewed the licensees work practices to evaluate whether these may have played a role in the degradation of the SSCs. The inspectors assessed the licensees characterization of the degradation in accordance with 10 CFR 50.65 (the Maintenance Rule), and verified that the licensee was appropriately tracking degraded performance and conditions in accordance with the Maintenance Rule.

No findings were identified. {{a|1R13}}

* May 19-23, 2014, ESF 12 transformer maintenance The inspectors verified that these risk assessments were performed timely and in accordance with the requirements of 10 CFR 50.65 (the Maintenance Rule) and plant procedures. The inspectors reviewed the accuracy and completeness of the licensees risk assessments and verified that the licensee implemented appropriate risk management actions based on the result of the assessments.

No findings were identified. {{a|1R15}}

* May 15, 2014, operability determination of RCIC following over-speed testing, Condition Report CR-GGN-2014-04120 The inspectors reviewed the timeliness and technical adequacy of the licensees evaluations. Where the licensee determined the degraded SSC to be operable, the inspectors verified that the licensees compensatory measures were appropriate to provide reasonable assurance of operability. The inspectors verified that the licensee had considered the effect of other degraded conditions on the operability of the degraded SSC.

The inspectors reviewed a self-revealing Green non-cited violation of Title 10 CFR Part 50, Appendix B, Criterion XVI, Corrective Action, for the failure to promptly reinstate an essential-critical preventative maintenance (PM) task after the licensee identified that it had been improperly retired. Specifically, the licensee did not reinstate and complete PM Task PMRQ 50024451-04 prior to the failure of Diode CR6 on May 21, 2013, which resulted in the division 2 diesel generator failing its monthly functional test and the licensee declaring it inoperable.

On May 21, 2013, during the division 2 standby diesel generator monthly surveillance test per Procedure 06-OP-1P75-M-0002, Standby Diesel Generator (SDG) 12 Functional Test, Revision 133, an UNDERFREQUENCY alarm sounded concurrently with a drop in indicated voltage (from approximately 4220 Volts to approximately 2100 Volts) as seen on the division 2 incoming voltmeter and the division 2 diesel generator AC voltage indicator. This occurred shortly after raising incoming voltage to approximately 50 Volts above running voltage. The operators secured the diesel generator and wrote Condition Report CR-GGN-2013-03423 documenting the issue.

The licensee performed a Failure Modes Analysis (FMA) evaluation to determine the possible cause for the observed conditions. During troubleshooting efforts, the licensee addressed the potential transformer (PT1), the potential transformers fuses, inline fuses, and the voltage regulator circuit bridge diodes. The FMA evaluation showed that all of the listed components were in satisfactory condition, with the exception of one of the six diodes used in the voltage regulator circuit diode bridge Diode, CR6, had shorted.

 

The licensee replaced the shorted diode and returned the diesel generator to operational status on May 24, 2013.

 

During the inspectors review of this issue, they found the licensee had experienced similar issues with degraded diodes on the voltage regulator circuit as described in Condition Report CR-GGN-2002-02384. Based on that condition report, the licensee developed a preventative maintenance strategy to begin testing the diodes on all three divisions of diesel generators and to replace any suspect components prior to causing a loss of excitation event.

The licensees failure to implement PMRQ 50024451-04 after discovering it had been improperly retired was a performance deficiency, in that it represented a failure to promptly correct a condition adverse to quality. The performance deficiency is more than minor and therefore a finding because it is associated with the equipment performance attribute of the Mitigating Systems Cornerstone and adversely affected the cornerstones objective of ensuring the availability, reliability, and capability of systems that respond to prevent undesirable consequences. Specifically, Diode CR6 remained in the voltage regulator circuit bridge until it failed, thereby triggering a failure of the division 2 diesel generator, which caused the diesel generator to be inoperable. Using NRC Inspection Manual Chapter 0609, Attachment 4, Initial Characterization of Findings, dated June 19, 2012, the inspectors determined that the issue affected the Mitigating Systems Cornerstone. In accordance with NRC Inspection Manual Chapter 0609, Appendix A, The Significance Determination Process (SDP) for Findings at Power, dated June 19, 2012, the inspectors determined that the issue required a detailed risk evaluation because the finding represents an actual loss of function of a single train for greater than its Technical Specification allowed outage time. The senior reactor analyst performed a detailed analysis. The total exposure period was 15 days.

The allowed outage time was 14 days.

 

For the internal events portion, the analyst made the following influential assumptions:

1. On May 21, 2013, the division 2 emergency diesel generator failed approximately 10 minutes after starting. The failure was treated as a Failure to Start because it occurred in the first hour of operation.

3. The total exposure period was 15 days. The analyst used an exposure time of T/2 + repair time, consistent with the Risk Assessment of Operational Events (RASP) Handbook, Volume 1, External Events, Revision 2, Section 2.4, which stated:

For a failure that could have occurred at any time since the component was last operated (e.g., time of actual failure cannot be determined due to the nature of the failure mechanism), the exposure time (T) is equal to one-half of the time period since the last successful functional operation of the component (T/2) plus repair time.

 

4. The analyst assumed that the diode failure made the division 2 emergency diesel generator non-functional and non-recoverable. However, if a failure of either of the division 1 or division 3 emergency diesel generators occurred, these failures could be recovered.

6. The analyst ruled out additional consideration of common cause failures and set the basic event for the division 2 emergency diesel generator failure to start (EPS-DGN-FS-DGB) to a probability of 1.0. This allowed the nominal common cause failure probabilities to occur. The common cause events of interest included failure of the other emergency diesel generators because of the same proximate cause within the first 24 hours. The division 3 emergency diesel generator was of a different design (included different subcomponents) and was not vulnerable to the same common cause failure mechanism. For the division 1 emergency diesel generator, the licensee had completed several surveillance tests, since the noted division 2 failure, and had accumulated approximately 37 hours of run time. The failure mechanism did not surface. In addition, the licensee had completed the periodic diode checks on this emergency diesel generator consistent with their original preventive maintenance program.

 

Note: Had common cause remained a concern, the analyst could have used the True function, which would have increased the common cause failure probability for the remaining diesel generators by approximately a factor of 100.

 

Quantification 1. The analyst used the NRCs Standardized Plant Analysis Risk (SPAR) Model for Grand Gulf, Revision 8.22, with a truncation limit of 1E-11. The analyst assumed average failure rates as well as average test and maintenance for all non-affected components.

b. The analyst used the slice function to isolate the cutsets that included division 1 and division 3 failures. The analyst allowed the normal emergency diesel generator recoveries to occur for these cutsets. The conditional core damage probability (CCDP) for this set of cutsets was 1.3E-5. This assumed an entire year of exposure. Considering the 15-day exposure period, the CCDP = 1.3E-5

d. The 30-minute, 1-hour, 4-hour, and 8-hour diesel generator recoveries appeared in the dominant cutsets. To adjust the cutsets to remove recovery credit, the analyst would normally multiply each cutset by 1/(applicable non-recovery value). The 8-hour non-recovery value (0.298) was the most conservative to use for this purpose, 1/(8-hour non-recovery) = 3.4. To simplify the calculation, the analyst multiplied all of the applicable cutsets by this factor, which was very conservative. The resultant CCDP for the 15-day exposure period was:

CCDP = 5.1E-6

4. The incremental CCDP (delta-core damage frequency [CDF]) for internal events was: 7.4E-7 - 5.8E-8 = 6.8E-7/year.

External Events. To identify the external event loss of offsite power initiators, the analyst reviewed the Grand Gulf Nuclear Station Individual Plant Examination of External Events (IPEEE), dated November 15, 1995. The IPEEE specified that the 1975 standard review plan criteria were met for high winds, floods, transportation accidents, and nearby facility accidents, so those events were not considered further. The weather related loss of offsite power initiator was already included in the SPAR model. The remaining accident initiators included seismic and fire.

Seismic. The analyst performed a simplified bounding analysis to address seismic contributors. The analyst referenced the NRCs Risk Assessment of Operational Events Handbook, Volume 2, External Events, Revision 1.01, to determine the seismic induced loss of offsite power initiating event frequency. The value was included in Table 1, Frequencies of Seismically-Induced LOOP Events, which was 2.4E-5/year.

* Set all emergency diesel generator non-recovery probabilities to 1.0 (very conservative division 1 and three diesels were recoverable).

 

The analyst solved only the grid related loss of offsite power sequences. The resultant CDF was: 2.5E-5/year

* 15/365 = 4E-9/year. This bounded the delta-CDF.

 

Fires. The fire events of interest included those that could initiate a loss of offsite power.

 

The licensees IPEEE screened out most fire areas as being non-risk significant. The IPEEE identified the following potentially important fire compartments where a fire could result in a loss of offsite power:

Compartment         Description CA201               Auxiliary Building Corridors - 199 elevation CA301               Auxiliary Building Corridors - 139 elevation CC202               division I Switchgear Room CC210               division 3 Switchgear Room CC215               division 2 Switchgear Room CR                 Control Room A simplified equation for the change to the core damage from fires is as follows:

* CCDP*exposure Delta-CDF =

* PNS * (CCDPedg fails - CCDPedg ok)

* 15/365 CCDPedg ok = is the conditional core damage probability assuming the performance deficiency did not exist.

CCDPedg fails = CCDP where the performance deficiency does exist.

* The analyst did not include fire scenarios that already assumed that the division 2 emergency diesel generator would fail as a consequence of the fire.

* When cables from a specific division (1, 2, or 3) were assumed damaged, the analyst failed all of equipment in the applicable division. As a surrogate for divisional cables, the analyst failed the applicable emergency diesel generator.

 

This would result in a failure of all divisional equipment. In addition, the analyst failed all emergency diesel generator recoveries. This was conservative because it was possible to damage only a few divisional components in the fire and not affect the emergency diesel generator.

* The analyst used Inspection Manual Chapter 0609, Appendix F, Fire Protection Significance Determination Process, to determine fire initiation frequencies, non-suppression probabilities, and fire damage times. The following generic information was included in this analysis.

* For control room fires, the analyst used a non-suppression probability of 0.02.

* Operators could still operate division 1 equipment from the remote shutdown panel. If all other equipment failed, operators would attempt this action. The analyst credited this action and assumed a nominal human error probability of 2.2E-2 (see NUREG/CR-6883, The SPAR-H Human Reliability Analysis Model). Failure of division 1 equipment required both failure in the control room as well as the failure to complete the action at the remote shutdown panel.

Scenario    Assumed                Supp       CCDe      CCDP    Control      ICCDP*

Failed                  System     dg2 failed edg2 ok Room         Fire freq*

equipment                Fails or                      Remote        PNS*

PNS or                        Shutdown      15/365 Panel Credit CA201-1     Division 1   1.4E-3

===.02 4.7E-3===

2.7E-4 Na           5E-9/yr cables  CA201-7     Division 1   1.4E-3

2.7E-4  Na            5E-9/yr cables CA301-1    Division 1    1.4E-3

===.02 4.7E-3===

2.7E-4 Na           5E-9/yr cables CA301-3    Division 1   1.4E-3

2.7E-4  Na            5E-9/yr cables   CC202-      Division 1  1.4E-3

===.02 4.7E-3===

2.7E-4   Na           5E-9/yr 1b          cables  CC202-      Division 1  1.4E-3

===.02 4.7E-3===

2.7E-4  Na            5E-9/yr 2a          cables  CC202-      Division 1   1.4E-3

===.02 4.7E-3===

2.7E-4   Na           5E-9/yr 2b          cables  CC202-      Division 1  1.4E-3

===.02 4.7E-3===

2.7E-4  Na            5E-9/yr 2c          cables  CC210-2    Division 3  1.4E-3

===.02 4.8E-3===

Na           5E-9/yr cables  CR-2        Division 1   4.8E-3

===.02 4.7E-3===

2.7E-4

===.022 4E-10/yr===

and Balance of Plant  CR-4        Division 3  4.8E-3

2.8E-4  Na           5E-9/yr and Balance of Plant  CR-5        Division 1, 4.8E-3

===.02 1.6E-1===

5.3E-3

===.022 1.3E-8/yr===

Division 3, and Balance of plant  CR-9        Offsite      4.8E-3

2.7E-4   Na            1E-9/yr Power Total        6.4E-8/yr Total Delta-CDF = 6.8E-7/year + 4E-9/year + 6.4E-8/year = 7.4E-7/year (Green). The dominant core damage sequences included loss of offsite power events that lead to station blackout. Equipment that helped mitigated the risk included the reactor core isolation cooling system and equipment that could be powered from the remote shutdown panel.

Large Early Release Frequency (LERF): To address the contribution to the LERF, the analyst used NRC Inspection Manual Chapter 0609, Appendix H, Containment Integrity Significance Determination Process. For boiling water reactors (BWR-6 with a Mark 3 containment), the failure of the division 2 emergency diesel generator was a potential LERF contributor. For the LERF analysis, the analyst used the Risk-Informed Inspection Notebook for Grand Gulf Station Unit 1, Revision 2.1a. The analyst noted that the LERF important core damage sequences were limited to those that included the failure of both the division 1 and 2 emergency diesel generators.

The analyst identified the LERF factors for the applicable loss of offsite power sequences. In a few instances the LERF factor was 0, but in most cases the LERF factor was 0.2.

The analyst used the internal events SPAR model and the slice function to identify the cutsets that included the failure of both diesels. The CCDP was 9.6E-6. Assuming a 15-day exposure period and a 0.2 LERF factor, the bounding LERF was 9.6E-6

Since the delta-CDF was less than 1.0 x 10-6 and the delta-LERF was less than 1.0 x 10-7, this finding was of very low safety significance (Green).

The apparent cause of this finding was the licensee did not recognize the risk of not performing the PM task, which led to the decision to exclude the task from the division 2 allowed outage time schedule. Therefore, the finding has a cross-cutting aspect in the human performance area associated with conservative bias because the licensee did not use decision making practices that emphasize prudent choices over those that are simply allowable [H.14].

Title 10 CFR Part 50, Appendix B, Criterion XVI, Corrective Action, states, in part, that measures shall be established to assure that conditions adverse to quality, such as failures, malfunctions, deficiencies, deviations, defective material and equipment, and non-conformances are promptly identified and corrected. Contrary to this requirement, on or before August 29, 2012, the licensee did not promptly identify and correct a condition adverse to quality. Specifically, the licensee did not reinstate and complete PM Task PMRQ 50024451-04 prior to the failure of Diode CR6 on May 21, 2013, which resulted in the division 2 diesel generator failing its monthly functional test and the licensee declaring it inoperable. This violation is being treated as a non-cited violation (NCV), consistent with Section 2.3.2.a of the Enforcement Policy because it was of very low safety significance (Green) and it was entered into the licensees corrective action program as Condition Report CR-GGN-2014-02141 to address recurrence. (NCV 05000416/2013-3423, Failure to Promptly Reinstate an Essential-Critical Preventative Maintenance Task for a High-Critical Component).

On June 26, 2014, the inspectors reviewed a permanent plant modification that replaced the use of turbine first stage pressure transmitter signals with power range neutron monitoring system signals to control various functions including low power and high power setpoints, turbine stop valve closure and control valve fast closure SCRAM enable/bypass, end of cycle recirculation pump transfer pump enable/bypass, feedwater low power set-down, and hydrogen water chemistry trips.

The inspectors reviewed the design and planned implementation of the modification.

The inspectors verified that work activities involved in implementing the modification would not adversely impact operator actions that may be required in response to an emergency or other unplanned event.

No findings were identified. {{a|1R19}}

* May 15, 2014, steam supply valve (valve E51-F0045), cooling water valve (valve E51-F046), and the condensate storage tank supply valve (valve E51-F010) for the reactor core isolation cooling system following maintenance on the valves The inspectors reviewed licensing- and design-basis documents for the SSCs and the maintenance and post-maintenance test procedures. The inspectors observed the performance of the post-maintenance tests to verify that the licensee performed the tests in accordance with approved procedures, satisfied the established acceptance criteria, and restored the operability of the affected SSCs.

No findings were identified. {{a|1R22}}

The inspectors observed five risk-significant surveillance tests and reviewed test results to verify that these tests adequately demonstrated that the SSCs were capable of performing their safety functions:

* June 4, 2014, drywell high pressure emergency core cooling water system (ECCS) functional test channel A The inspectors verified that these tests met technical specification requirements, that the licensee performed the tests in accordance with their procedures, and that the results of the test satisfied appropriate acceptance criteria. The inspectors verified that the licensee restored the operability of the affected SSCs following testing.

===Cornerstone: Emergency Preparedness===

The inspectors observed an emergency preparedness drill on May 7, 2014, to verify the adequacy and capability of the licensees assessment of drill performance. The inspectors reviewed the drill scenario, observed the drill from the simulator control room and the emergency operations facility and attended the post-drill critique. The inspectors verified that the licensees emergency classifications, off-site notifications, and protective action recommendations were appropriate and timely. The inspectors verified that any emergency preparedness weaknesses were appropriately identified by the licensee in the post-drill critique and entered into the corrective action program for resolution.

Cornerstones: Initiating Events, Mitigating Systems, Barrier Integrity, Emergency Preparedness, Public Radiation Safety, Occupational Radiation Safety, and Security

For the period of April 1, 2013, through March 31, 2014, the inspectors reviewed licensee event reports (LERs), maintenance rule evaluations, and other records that could indicate whether safety system functional failures had occurred. The inspectors used definitions and guidance contained in Nuclear Energy Institute Document 99-02, Regulatory Assessment Performance Indicator Guideline, Revision 7, and NUREG-1022, Event Reporting Guidelines: 10 CFR 50.72 and 50.73, Revision 3, to determine the accuracy of the data reported.

The inspectors reviewed the licensees reactor coolant system chemistry sample analyses for the period of April 1, 2013, through March 31, 2014, to verify the accuracy and completeness of the reported data. The inspectors observed a chemistry technician obtain and analyze a reactor coolant system sample on October 16, 2013. The inspectors used definitions and guidance contained in Nuclear Energy Institute Document 99-02, Regulatory Assessment Performance Indicator Guideline, Revision 7, to determine the accuracy of the reported data.

The inspectors reviewed the licensees records of reactor coolant system total leakage for the period of April 1, 2013, through March 31, 2014, to verify the accuracy and completeness of the reported data. The inspectors observed the performance of reactor coolant system leakage surveillance procedure on April 8, 2013. The inspectors used definitions and guidance contained in Nuclear Energy Institute Document 99-02, Regulatory Assessment Performance Indicator Guideline, Revision 7, to determine the accuracy of the reported data.

No findings were identified. {{a|4OA2}}

Throughout the inspection period, the inspectors performed daily reviews of items entered into the licensees corrective action program and periodically attended the licensees condition report screening meetings. The inspectors verified that licensee personnel were identifying problems at an appropriate threshold and entering these problems into the corrective action program for resolution. The inspectors verified that the licensee developed and implemented corrective actions commensurate with the significance of the problems identified. The inspectors also reviewed the licensees problem identification and resolution activities during the performance of the other inspection activities documented in this report.

To verify the licensee was taking corrective actions to address apparent adverse trends that might indicate the existence of a more significant safety issue, the inspectors reviewed corrective action program documentation associated with the following issues associated with the division 1 and 2 diesel generator air start systems:

Furthermore, the licensee identified an emerging cross-cutting theme in H.5 (Work Management: The organization implements a process of planning, controlling, and executing work activities such that nuclear safety is the overriding priority. The work process includes the identification and management of risk commensurate to the work and the need for coordination with different job groups or job activities) and H.8 (Procedure Adherence: Individuals follow processes, procedures, and work instructions). The inspectors reviewed the licensees response to these themes to verify that the licensee had taken, was taking, and/or planned to take appropriate actions to address them.

b. Observations and Assessments The inspectors review of the trends identified above produced the following observations and assessments:

* For multiple occurrences of air dryer malfunctions, the licensee initiated Condition Report CR-GGN-2014-00468 identifying the reliability of the divisions 1 and 2 air drying towers as unacceptably low. Furthermore, the system engineer identified the air dryer reliability issue as a significant system issue requiring resolution in the standby diesel generator system health report. Immediate corrective actions included enhancing the model work orders to improve the reliability of the components within the air dryer system and evaluating the system configuration to ensure optimum performance. Long term corrective action involved upgrading the air dryer system to a newer more reliable design.

* For multiple occurrences of elevated dew points within the air start system, the licensee initiated Condition Report CR-GGN-2012-00273 and determined that the elevated dew points were directly related to the reliability of the air dry system. In April 2013, the licensee performed visual inspections of the division 1 air receivers and observed minimal corrosion. The resident inspectors also inspected the air receivers and verified the licensees findings. The licensee scheduled inspections of the division 2 air receivers during a planned maintenance window scheduled for June 2014. Furthermore, the licensee performed non-destructive examinations that resulted in no indications of degradation.

The inspectors determined these trends with the diesel generator air dryer assembly and elevated dew points in the air start system represented a weakness in the licensees ability to address reliability issues associated with non-safety related equipment that supports safety related equipment. The inspectors concluded that the licensee had also recognized equipment reliability as an area for improvement and developed corrective actions via a recovery plan to address them.

* For the emerging cross-cutting theme due to receiving three findings with the H.5 cross-cutting aspect, the licensee initiated Condition Report CR-GGN-2014-3006 to perform a common cause analysis. The licensee concluded that although the three findings were assigned the H.5 cross-cutting aspect, the causes were sufficiently diverse such that a common cause did not exist. The inspectors reviewed the causal analysis as well as the original documentation of the findings that were assigned H.5 and determined that the conclusions made by the licensee were reasonable.

* For the emerging cross-cutting theme due to receiving three findings with the H.8 cross-cutting aspect, the licensee initiated Condition Report CR-GGN-2013-07616 to perform a common cause analysis. The licensee concluded that the cause was the same as that of a root cause evaluation performed under Condition Report CR-GGN-2013-3639. The inspectors previously reviewed the root cause as documented in NRC Inspection Report 05000416/2013004 (ML13331B343) and identified no issues. The inspectors reviewed Condition Report CR-GGN-2013-3639 and verified it accurately captured the findings of the causal analysis performed under Condition Report CR-GGN-2013-07616. The inspectors determined the licensees conclusions and corrective actions were reasonable.

For these emerging cross-cutting themes, the inspectors determined that the licensee had entered the emerging themes into the corrective action program in a timely manner, completed an appropriate evaluation of the themes, developed and scheduled corrective actions to address the identified weaknesses and areas for improvement, and had completed/implemented most of the corrective actions at the time of this inspection. Thus, as a result of this inspection, the inspectors concluded that the licensees actions and progress in addressing the emerging trends in H.5 and H.8 have been appropriate.

The inspectors assessed the licensees problem identification threshold, cause analyses, extent of condition reviews, and compensatory actions. The inspectors verified that the licensee appropriately prioritized the planned corrective actions and that these actions were adequate to correct the condition.

No findings were identified. {{a|4OA3}}

===.1 (Closed) Licensee Event Report 05000416/2013-0005-00: Reactor Pressure Vessel===

 

Steam Pressure Less than 0 psig During Six Plant Startups Resulting in a Violation of       Technical Specification 3.4.11, RCS Pressure and Temperature (P/T) Limits.

The cause of not entering LCO 3.4.11 was the condition was procedurally allowed and aligned with operator training. Corrective actions included revising station procedures and training documents. The licensee also performed an apparent cause evaluation (ACE) and developed corrective actions based on the findings of the ACE. The inspectors reviewed the ACE and associated corrective actions and determined the licensees conclusions and course of action were reasonable. The enforcement aspects of this event were discussed in NRC Inspection Report 05000416/2013005 in Section 1R20. Documents reviewed as part of this inspection are listed in the attachment.

 

These activities constitute completion of one event follow-up sample, as defined in Inspection Procedure 71153.

===.2 (Closed) Licensee Event Report 05000416/2013-006-00: Primary Containment===

 

Inoperable Due to an Inadequate Surveillance Procedure Resulting in a Loss of Safety       Function

The cause of this event was an improper procedure revision that resulted in an inadequate procedure. Corrective actions included restoring the operability of primary containment isolation and the RCIC system. Other corrective actions included correcting the procedural deficiency, performing reviews of other procedures that were recently revised, and conducting a root cause evaluation of the event. The inspectors reviewed the root cause as well as the associated corrective actions and determined the actions taken by the licensee were reasonable. The enforcement aspects of this event were discussed in NRC Inspection Report 05000416/2013005 in Section 1R22. Documents reviewed as part of this inspection are listed in the attachment.

{{a|4OA5}}

===.1 Follow-up on Traditional Enforcement Actions Including Violations, Deviations,===

Confirmatory Action Letters, Confirmatory Orders, and Alternative Dispute Resolution Confirmatory Orders (IP 92702)a. Background:

On August 24, 2011, the NRC issued a Confirmatory Order (EA-11-096) to Entergy Operations, Inc., and Entergy Nuclear Operations, Inc. (collectively referred to as Entergy). The Confirmatory Order actions were agreed upon by Entergy and the NRC during an alternative dispute resolution session held on July 18, 2011, to resolve NRC concerns regarding an apparent violation of employee protection requirements at the River Bend Station. The actions focused on reorganizing the Quality Control reporting relationships, ensuring adequate training of 10 CFR 50.7, Employee Protection, and performing an effectiveness review of the Employee Concerns Program procedures at all Entergy facilities.

By letter dated August 23, 2012, Entergy notified the NRC of the actions that had been taken in response to the requirements imposed by the Confirmatory Order. Accordingly, during the week of April 29, 2013, NRC staff from the Office of Enforcement and Region IV performed an inspection at the River Bend Station to assess the specific actions identified in Entergys response letter. NRC staff also verified implementation of the remaining actions required to satisfy the conditions set forth in the Confirmatory Order, for all Entergy sites. Subsequent to this inspection, NRC staff continued to interact with Entergy regarding the adequacy of the corrective and preventive actions related to the underlying discriminatory issue.

and Observation:

During the follow-up inspection, the NRC staff reviewed Entergys Employee Concerns Program supervisory training and general employee training documents, the relevant lessons learned from the facts of this matter and the fleet-wide written communication reinforcing Entergys commitment to maintaining a safety-conscious work environment.

The NRC staff also reviewed the General Employee Training and Supervisory Training modules. Based on these reviews, it was determined that these training modules adequately addressed employee protection and included insights from the underlying discriminatory matter. The NRC staff determined that the supervisory training module appeared complete and included case studies as well as the specific elements from the underlying § 50.7, Employee Protection, violation. However, it was noted that although employees receive General Employee Training on an annual basis, Entergy does not require supervisors to take employee protection refresher training on a recurring basis as a means to reinforce these standards.

Additionally, NRC staff evaluated the results of Entergys effectiveness review of Employee Concerns Program (ECP) enhancements and the associated training that arose from the corrective actions taken to address this matter. Based on the results of this evaluation, it was determined that Entergy had performed the requisite reviews at each station, including examination of selected ECP Case Files, Records Retention, Concerned Individual follow-up, and ECP Coordinator training. Within the areas examined, no findings were identified and in general it was determined that Entergy had adequately performed the effectiveness review of ECP procedural enhancements and the ECP training related to this matter.

During the follow-up review of the Quality Control/Quality Assurance reporting relationship, it was determined that Entergys response did not ensure that persons performing the quality assurance function of receipt inspection reported to a management level sufficient to maintain organizational freedom and independence from cost and schedule are maintained. Subsequent to the identification of this performance issue, which affected the implementation of the QA program at all nine Entergy sites, the condition was entered into the licensees corrective action program as Condition Report CR-HQN-2013-00466.

As a result of these discussions, Entergys Corporate Licensing organization developed a fleet reconciliation plan to modify Entergys Quality Assurance Program Manual to require that individuals performing inspections in accordance with Quality Assurance Program Manual, Section B.12, Inspection, functionally report to the associated manager responsible for Quality Assurance. As described in the corrective actions associated with Condition Report CR-HQN-2013-00466, the affected individuals were those requiring certification in accordance with Quality Assurance Program Manual, Table 1, Regulatory Commitments, Section G, Regulatory Guide 1.58, Revision 1, Qualification of Nuclear Power Plant Inspection, Examination, and Testing Personnel, dated September 1980. In addition to revising the applicable provisions in the Quality Assurance Program Manual, corrective actions were initiated to revise implementing procedures to reflect the change in reporting relationship during the performance of required inspections as well as providing training to the affected individuals. The NRC staff confirmed that the remaining conditions of the Confirmatory Order were adequately addressed.

===Exit Meeting Summary===

==4OA7 Licensee-Identified Violations==

The following violation of very low safety significance (Green) was identified by the licensee and is a violation of NRC requirements, which meets the criteria of the NRC Enforcement Policy for being dispositioned as a non-cited violation.

* Title 10 CFR Part 50, Appendix B, Criterion V, Instructions, Procedures and Drawings, states, in part, activities affecting quality shall be prescribed by documented procedures, of a type appropriate to the circumstances and shall be accomplished in accordance with these procedures. Contrary to the above, the licensee failed to assure that activities affecting quality were prescribed by documented instructions of a type appropriate to the circumstances. Specifically, the licensee failed to meet the requirements of Electrical Standard ES03, Electrical Standard for Installation of Cables, Revision 1, in that Chico A potting compound was not used to seal the drywell electrical penetration. As immediate corrective actions, the licensee removed the instrument cables and sealed the penetration. The licensee entered this issue in the corrective action program under Condition Report CR-GGN-2014-02141. Furthermore, the licensee evaluated the potential impact the open 4-inch penetration would have on the suppression pools suppression capability and determined that having an open 4-inch diameter penetration in the drywell did not cause the drywell bypass leakage criteria to be exceeded. Using Manual Chapter 0609, Attachment 4, Initial Characterization of Findings, June 19, 2012, Table 2, Cornerstones Affected by Degraded Condition or Programmatic Weakness, the inspectors determined this issue affected the Barrier Integrity Cornerstone. Using Manual Chapter 0609, Appendix A, Significance Determination Process (SDP) for Findings at Power, June 19, 2012, Exhibit 3, Barrier Integrity Screening Questions, the inspectors determined that this finding represented an actual open pathway in the physical integrity of reactor containment (valves, airlocks, etc.),

Using Manual Chapter 0609, Appendix H, Containment Integrity Significance Determination Process, dated May 6, 2004, the inspectors determined that this finding would not influence the likelihood of accidents leading to core damage. However, since this finding involved components significant to suppression pool integrity/scrubbing that are important to LERF, the inspectors determined a detail risk analysis needed to be performed by a senior risk analyst. The senior risk analyst performed a detailed risk evaluation and determined that since the function of the systems/components did not fail, even with the failed penetration, and there was no failure of the safety function.

: [[contact::C. Beschett]], Manager, Nuclear Oversight

: [[contact::T. Coutu]], Director, Regulatory Compliance and Performance Improvement

: [[contact::J. Dorsey]], Security Manager

: [[contact::H. Farris]], Assistant Operations Manager

: [[contact::J. Gerard]], Manager, Operations

: [[contact::M. Godwin]], Assistant Operations Manager

: [[contact::G. Hawkins]], Manager, Site Projects

: [[contact::J. Miller]], General Manager Plant Operations

: [[contact::R. Miller]], Manager, Radiation Protection

: [[contact::M. Milly]], Manger, Maintenance

: [[contact::K. Mulligan]], Site Vice President

: [[contact::J. Nadeau]], Manager, Regulatory Assurance and Performance Improvement

: [[contact::R. Scarbrough]], Senior Regulatory Engineer, Licensing

: [[contact::T. Thornton]], Manager, Design Engineering

: [[contact::D. Wiles]], Director, Engineering

: [[contact::D. Loveless]], Senior Reactor Analyst

: [[contact::G. Replogle]], Senior Reactor Analyst

: 05000416/2014003-01       NCV Failure to Promptly Reinstate an Essential-Critical Preventative Maintenance Task for a High-Critical Component (Section 1R15)

 

: 05000416/2013-005-00 LER Reactor Pressure Vessel Steam Pressure Less than 0 psig During Six Plant Startups Resulting in a Violation of Technical Specification 3.4.11, RCS Pressure and Temperature (P/T)

Limits (Section 4OA3)

: 05000416/2013-006-00 LER Primary Containment Inoperable Due to an Inadequate Surveillance Procedure Resulting in a Loss of Safety Function (Section 4OA3)