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| number = ML17013A233
| number = ML17013A233
| issue date = 01/17/2017
| issue date = 01/17/2017
| title = Indian Point Nuclear Generating - Integrated Inspection Report 05000247/2016003 and 05000286/2016003 and Notice of Violation (EA-16-193)
| title = Integrated Inspection Report 05000247/2016003 and 05000286/2016003 and Notice of Violation (EA-16-193)
| author name = DiPaolo E M
| author name = Dipaolo E
| author affiliation = NRC/RGN-I/DRP/PB2
| author affiliation = NRC/RGN-I/DRP/PB2
| addressee name = Vitale A J
| addressee name = Vitale A
| addressee affiliation = Entergy Nuclear Operations, Inc
| addressee affiliation = Entergy Nuclear Operations, Inc
| docket = 05000247, 05000286
| docket = 05000247, 05000286
| license number = DPR-026, DPR-064
| license number = DPR-026, DPR-064
| contact person = DiPaolo E M
| contact person = DiPaolo E
| case reference number = EA-16-193
| case reference number = EA-16-193
| document report number = IR 2016003
| document report number = IR 2016003
Line 15: Line 15:
| page count = 55
| page count = 55
}}
}}
See also: [[followed by::IR 05000247/2016003]]
See also: [[see also::IR 05000247/2016003]]


=Text=
=Text=
{{#Wiki_filter: UNITED STATES NUCLEAR REGULATORY COMMISSION REGION I 2100 RENAISSANCE BLVD., SUITE 100 KING OF PRUSSIA, PA 19406-2713   January 17, 2017
{{#Wiki_filter:UNITED STATES
                            NUCLEAR REGULATORY COMMISSION
EA-16-193  
                                                REGION I
Mr. Anthony Vitale Site Vice President  
                                    2100 RENAISSANCE BLVD., SUITE 100
Entergy Nuclear Operations, Inc.  
                                      KING OF PRUSSIA, PA 19406-2713
Indian Point Energy Center  
                                          January 17, 2017
450 Broadway, GSB  
EA-16-193
P.O. Box 249 Buchanan, NY 10511-0249
Mr. Anthony Vitale
SUBJECT: INDIAN POINT NUCLEAR GENERATING - INTEGRATED INSPECTION REPORT 05000247/2016003 AND 05000286/2016003 AND NOTICE OF  
Site Vice President
VIOLATION (EA-16-193) Dear Mr. Vitale:  
Entergy Nuclear Operations, Inc.
Indian Point Energy Center
On September 30, 2016, the U.S. Nuclear Regulatory Commission (NRC) completed an  
450 Broadway, GSB
inspection at Indian Point Nuclear Generating (Indian Point), Units 2 and 3. On October 26, 2016, the NRC inspectors discussed the results of this inspection with you and other members of your staff. The results of this inspection are documented in the enclosed report.  
P.O. Box 249
Buchanan, NY 10511-0249
The NRC inspectors documented seven findings of very low safety significance (Green) in this report. Six of these findings involved violations of NRC requirements. For five of these findings, the NRC is treating the associated violations as non-cited violations (NCVs) consistent with Section 2.3.2.a of the Enforcement Policy. If you contest the violations or significance of these NCVs, you should provide a response within 30 days of the date of this inspection report, with the basis for your denial, to the Nuclear Regulatory Commission, ATTN: Document Control  
SUBJECT:         INDIAN POINT NUCLEAR GENERATING - INTEGRATED INSPECTION
Desk, Washington, DC 20555-0001; with copies to the Regional Administrator, Region I; the  
                REPORT 05000247/2016003 AND 05000286/2016003 AND NOTICE OF
Director, Office of Enforcement; and the NRC Resident Inspector at Indian Point. In addition, 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  
                VIOLATION (EA-16-193)
disagreement, to the U. S. Nuclear Regulatory Commission, ATTN: Document Control Desk,  
Dear Mr. Vitale:
Washington, DC, 20555-0001; with copies to the Regional Administrator, Region I, and the NRC  
On September 30, 2016, the U.S. Nuclear Regulatory Commission (NRC) completed an
Resident Inspector at Indian Point.  
inspection at Indian Point Nuclear Generating (Indian Point), Units 2 and 3. On October 26,
One violation associated with a finding of very low safety significance (Green) is cited in the enclosed Notice of Violation (Notice), and the circumstances surrounding it are described in the  
2016, the NRC inspectors discussed the results of this inspection with you and other members
enclosed inspection report. The violation describes two examples of Entergy's failure to conduct operations to minimize the introduction of residual radioactivity into the subsurface  
of your staff. The results of this inspection are documented in the enclosed report.
(groundwater) of the site. The violation is similar to two NCVs previously identified by the NRC involving groundwater contamination events in 2014 and 2015 (NRC Inspection Reports 05000247/2015002 and 05000247/2015003). Corrective actions for these NCVs were  
The NRC inspectors documented seven findings of very low safety significance (Green) in this
insufficiently broad to address Entergy's ineffective floor drain and radioactive liquid draining  
report. Six of these findings involved violations of NRC requirements. For five of these findings,
operational controls, resulting in Entergy's continued failure to minimize groundwater  
the NRC is treating the associated violations as non-cited violations (NCVs) consistent with
contamination occurrences. The NRC evaluated this violation in accordance with the NRC  
Section 2.3.2.a of the Enforcement Policy. If you contest the violations or significance of these
A. Vitale 2  Enforcement Policy.  The current Enforcement Policy is available for review on the NRC's Web site at http://www.nrc.gov/about-nrc/regulatory/enforcement/enforce-pol.html.  This violation meets the criteria in Section 2.3.2.a of the Enforcement Policy to be dispositioned as an NCV.  However, the NRC is citing the violation in the enclosed Notice because Entergy's actions for these most recent events do not adequately address the broader concern regarding a lack of
NCVs, you should provide a response within 30 days of the date of this inspection report, with
control and management of the site floor drain system.  Accordingly, the NRC is issuing the Notice and requiring a response from Entergy, as described below. 
the basis for your denial, to the Nuclear Regulatory Commission, ATTN: Document Control
Desk, Washington, DC 20555-0001; with copies to the Regional Administrator, Region I; the
You are required to respond to this letter and should follow the instructions specified in the enclosed Notice when preparing your response.  In your response, describe a comprehensive corrective action plan for maintaining an effective floor drain system and a process for
Director, Office of Enforcement; and the NRC Resident Inspector at Indian Point. In addition, if
evaluating and using the floor drains to handle the volume and flowrates for draining activities
you disagree with a cross-cutting aspect assignment in this report, you should provide a
being conducted.  If you have additional information that you believe the NRC should consider,
response within 30 days of the date of this inspection report, with the basis for your
you may provide it in your response to the Notice.  The NRC's review of your response will determine whether further enforcement action is necessary to ensure your compliance with regulatory requirements.
disagreement, to the U. S. Nuclear Regulatory Commission, ATTN: Document Control Desk,
Washington, DC, 20555-0001; with copies to the Regional Administrator, Region I, and the NRC
This letter, its enclosures, and your response (if any) will be made available for public inspection and copying at http://www.nrc.gov/reading-rm/adams.html and the NRC Public Document Room in accordance with 10 CFR 2.390, "Public Inspections, Exemptions, Requests for Withholding." To the extent possible, your response should not include any personal privacy or proprietary information so that it can be made available to the Public without redaction.  Sincerely,            /RA/              Eugene M. DiPaolo, Acting Chief
Resident Inspector at Indian Point.
      Reactor Projects Branch 2      Division of Reactor Projects 
One violation associated with a finding of very low safety significance (Green) is cited in the
Docket Nos.  50-247 and 50-286
enclosed Notice of Violation (Notice), and the circumstances surrounding it are described in the
License Nos.  DPR-26 and DPR-64  Enclosures:
enclosed inspection report. The violation describes two examples of Entergys failure to conduct
1.  Notice of Violation
operations to minimize the introduction of residual radioactivity into the subsurface
2.  Inspection Report 05000247/2016003          and 05000286/2016003 w/Attachment:            Supplementary Information  cc w/encl:  Distribution via ListServ
(groundwater) of the site. The violation is similar to two NCVs previously identified by the NRC
 
involving groundwater contamination events in 2014 and 2015 (NRC Inspection
A. Vitale 3  Letter to Mr. Anthony J. Vitale from Eugene M. DiPaolo dated January 17, 2017 
Reports 05000247/2015002 and 05000247/2015003). Corrective actions for these NCVs were
SUBJECT: INDIAN POINT NUCLEAR GENERATING - INTEGRATED INSPECTION REPORT 05000247/2016003 AND 05000286/2016003 AND NOTICE OF VIOLATION (EA-16-193) 
insufficiently broad to address Entergys ineffective floor drain and radioactive liquid draining
DISTRIBUTION:  (via e-mail) DDorman, RA
operational controls, resulting in Entergys continued failure to minimize groundwater
DLew, DRA MScott, DRP DPelton, DRP RLorson, DRS
contamination occurrences. The NRC evaluated this violation in accordance with the NRC
JYerokun, DRS EDiPaolo, DRP TSetzer, DRP JSchussler, DRP
BHaagensen, DRP, SRI
SRich, DRP, RI 
CSafouri, DRP, RI DHochmuth, DRP, AA JBowen, RI OEDO RidsNrrPMIndianPoint Resource
RidsNrrDorlLpl1-1 Resource
ROPReports Resources DOCUMENT NAME:  G:\DRP\BRANCH2\A - INDIAN POINT\IP2&3 INSPECTION REPORTS\2016\2016-003\IP2&3 2016.003.FINAL.DOCX ADAMS Accession Number:  ML17013A233  SUNSI Review  Non-Sensitive  Sensitive    Publicly Available  Non-Publicly Available OFFICE RI/DRP RI/DRP RI/DRP RI/ORA RI/DRS RI/DRP NAME SRich non-concur via telcon BHaagensen via email                      TSetzer BBickett/MMM for GDentel EDiPaolo DATE 1/12/17 1/11/17 1/12/17 1/13/17 1/12/17 1/12/17 OFFICIAL RECORD COPY 
1  Enclosure 1 NOTICE OF VIOLATION  Entergy Nuclear Operations, Inc.    Docket No. 50-247
Indian Point Nuclear Generating Unit 2    License No. DPR-26          EA-16-193
During an NRC inspection conducted between July 1 and September 23, 2016, a violation of NRC
requirements was identified.  In accordance with the NRC Enforcement Policy, the violation is listed below:  Title 10 of the Code of Federal Regulations (10 CFR) 20.1406(c) requires, in part, that licensees shall, to the extent practical, conduct operations to minimize the introduction of
residual radioactivity into the site, including the subsurface.    Contrary to the above, on two occasions between January 2016 and July 2016, Entergy failed to conduct operations to minimize the introduction of residual radioactivity into the
subsurface of the site.  Specifically, Entergy has not maintained its floor drain system clear of
obstructions and interferences, and has not verified the ability of the floor drains to handle
the volume and flowrates for draining activities being conducted.  As a result, repeated spills of contaminated water within the radiologically controlled area leaked into the groundwater (subsurface of the site).  Specifically, in January 2016, a spill caused by floor drain obstructions resulted in the backup of contaminated water onto the floor and subsequent
leakage to the subsurface of the site.  Similarly, a subsequent June/July 2016 groundwater
contamination event occurred due to an obstructed flow path through a floor drain in the Unit 2 spent fuel building, which spilled to the subfloor and contaminated the subsurface of the site. 
This violation is associated with a Green Significance Determination Process finding.
Pursuant to the provisions of 10 CFR 2.201, Entergy is hereby required to submit a written statement or explanation to the U.S. Nuclear Regulatory Commission, ATTN:  Document Control Desk, Washington, DC 20555-0001 with a copy to the Regional Administrator, Region I, and a copy
to the NRC Resident Inspector at Indian Point, within 30 days of the date of the letter transmitting
this Notice of Violation (Notice).  This reply should be clearly marked as a "Reply to a Notice of
Violation; EA-16-193" and should include: (1) the reason for the violation, or, if contested, the basis
for disputing the violation or severity level, (2) the corrective steps that have been taken and the results achieved, (3) a description of a more comprehensive corrective action plan for maintaining an effective floor drain system and a process for evaluating and using the floor drains to handle the
volume and flowrates for draining activities being conducted that will be taken to address the
repeated problems with maintaining and controlling the floor drain systems, and (4) the date when
full compliance will be achieved.  Your response may reference or include previous docketed correspondence, if the correspondence adequately addresses the required response.  If an adequate reply is not received within the time specified in this Notice, an order or a Demand for
Information may be issued as to why the license should not be modified, suspended, or revoked, or
why such other action as may be proper should not be taken.  Where good cause is shown,
consideration will be given to extending the response time.
If you contest this enforcement action, you should also provide a copy of your response, with the basis for your denial, to the Director, Office of Enforcement, United States Nuclear Regulatory
Commission, Washington, DC 20555-0001.
 
2  Because your response will be made available electronically for public inspection in the NRC Public Document Room or from the NRC's Agencywide Documents Access and Management System (ADAMS), accessible from the NRC Web site at http://www.nrc.gov/reading-rm/adams.html, to the extent possible, it should not include any personal privacy, proprietary, or safeguards information so that it can be made available to the public without redaction.  If personal privacy or proprietary
information is necessary to provide an acceptable response, then please provide a bracketed copy of your response that identifies the information that should be protected and a redacted copy of your
response that deletes such information.  If you request withholding of such material, you must
specifically identify the portions of your response that you seek to have withheld and provide in detail the bases for your claim of withholding (i.e., explain why the disclosure of information will create an unwarranted invasion of personal privacy or provide the information required by
10 CFR 2.390(b) to support a request for withholding confidential commercial or financial
information).  If safeguards information is necessary to provide an acceptable response, please
provide the level of protection described in 10 CFR 73.21.  In accordance with 10 CFR 19.11, you may be required to post this Notice within two working days
of receipt.
Dated this 17th day of January, 2017.   
1  Enclosure 2 U.S. NUCLEAR REGULATORY COMMISSION  REGION I  Docket Nos.  50-247 and 50-286
License Nos.  DPR-26 and DPR-64 
Report Nos.  05000247/2016003 and 05000286/2016003
Licensee:  Entergy Nuclear Northeast (Entergy) 
Facility:  Indian Point Nuclear Generating Units 2 and 3
  Location:  450 Broadway, GSB
  Buchanan, NY 10511-0249
Dates:  July 1, 2016, through September 30, 2016 
Inspectors:  B. Haagensen, Senior Resident Inspector
  G. Newman, Resident Inspector
  S. Rich, Resident Inspector    J. Ambrosini, Senior Resident Inspector, Millstone    F. Arner, Senior Reactor Analyst
  S. Elkhiamy, Project Engineer
  J. Furia, Senior Health Physicist
Approved By:  Eugene M. DiPaolo, Acting Chief    Reactor Projects Branch 2
  Division of Reactor Projects   
2  TABLE OF CONTENTS SUMMARY .................................................................................................................................... 3REPORT DETAILS ....................................................................................................................... 81.REACTOR SAFETY .............................................................................................................. 81R01Adverse Weather Protection ....................................................................................... 81R04Equipment Alignment .................................................................................................. 91R05Fire Protection ........................................................................................................... 101R11Licensed Operator Requalification Program ............................................................. 111R12Maintenance Effectiveness ....................................................................................... 131R13Maintenance Risk Assessments and Emergent Work Control .................................. 141R15Operability Determinations and Functionality Assessments ..................................... 161R18Plant Modifications .................................................................................................... 211R19Post-Maintenance Testing ........................................................................................ 221R22Surveillance Testing .................................................................................................. 231EP6Drill Evaluation .......................................................................................................... 252.RADIATION SAFETY .......................................................................................................... 252RS1Radiological Hazard Assessment and Exposure Controls ........................................ 252RS2Occupational ALARA Planning and Controls ............................................................ 282RS4Occupational Dose Assessment ............................................................................... 304.OTHER ACTIVITIES ............................................................................................................ 314OA1Performance Indicator Verification ............................................................................ 314OA2Problem Identification and Resolution ....................................................................... 324OA3Follow Up of Events and Notices of Enforcement Discretion .................................... 324OA5Other Activities .......................................................................................................... 354OA6Meetings, Including Exit ............................................................................................ 41SUPPLEMENTARY INFORMATION ........................................................................................ A-1KEY POINTS OF CONTACT .................................................................................................... A-1LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED ..................................... A-2LIST OF DOCUMENTS REVIEWED ........................................................................................ A-3LIST OF ACRONYMS ............................................................................................................... A-9 
3  SUMMARY  Inspection Report 05000247/2016003 and 05000286/2016003; 07/01/2016 - 09/30/2016; Indian Point Nuclear Generating (Indian Point), Units 2 and 3; Maintenance Risk Assessments and Emergent Work Control, Operability Determinations and Functionality Assessments,
Surveillance Testing, Radiological Hazard Assessment and Exposure Controls, Occupational As Low as Reasonably Achievable (ALARA) Planning and Controls, Follow Up of Events and
Notices of Enforcement Discretion, and Other Activities.
This report covered a three-month period of inspection by resident inspectors and announced inspections performed by regional inspectors.  The inspectors identified seven findings of very low safety significance (Green), including one Notice of Violation (NOV), five non-cited violations (NCVs), and one finding (FIN).  The significance of most findings is indicated by their color (i.e.,
greater than Green, or Green, White, Yellow, Red) and determined using Inspection Manual Chapter (IMC) 0609, "Significance Determination Process," dated April 29, 2015.  Cross-cutting aspects are determined using IMC 0310, "Aspects within the Cross-Cutting Areas," dated
December 4, 2014.  All violations of U.S. Nuclear Regulatory Commission (NRC) requirements
are dispositioned in accordance with the NRC's Enforcement Policy, dated August 1, 2016.  The
NRC's program for overseeing the safe operation of commercial nuclear power reactors is described in NUREG-1649, "Reactor Oversight Process," Revision 6.  Cornerstone:  Mitigating Systems  Green.  The inspectors identified a Green NCV of Title 10 of the Code of Federal Regulations (10 CFR) 50.65(a)(4) because between August 1, 2016, and August 17, 2016, Entergy did not perform an adequate risk assessment for the maintenance on the Unit 3
Appendix R diesel generator (ARDG).  As a result, they did not take the required risk mitigating actions (RMAs).  Entergy wrote Condition Report (CR)-IP3-2016-2538, changed fire risk status to Yellow, and began implementing RMAs on August 17, 2016.
The inspectors determined that this performance deficiency was more than minor because
it is associated with the Protection Against External Factors attribute of the Mitigating Systems cornerstone and adversely affected its objective to ensure the reliability of systems that respond to initiating events to prevent undesirable consequences. 
Specifically, due to the inadequate risk assessment, Entergy did not perform shiftly
walkdowns for transient combustibles and related fire and ignition sources on the available
safe shutdown train.  Using IMC 0609.04, "Initial Characterization of Findings," and IMC
0609, Appendix K, "Maintenance Risk Assessment and Risk Management Significance Determination Process," the inspectors determined that the failure to conduct RMAs for the unavailability of the ARDG required further assessment.  A Region I senior reactor analyst
(SRA) used SAPHIRE, Revision 8.1.14, and the Indian Point Unit 3 Standardized Plant
Analysis Risk (SPAR) Model, Revision 8.20, to complete an evaluation this performance deficiency.  The incremental conditional core damage probability (ICCDP) for this finding was calculated to be less than 1E-7 or very low safety significance (Green).  This finding has a cross-cutting aspect in the area of Problem Identification and Resolution,
Identification, because Entergy did not identify that an improperly racked-in breaker had a
fire risk impact when combined with other plant conditions.  [P.1 - Problem Identification
and Resolution, Identification] (Section 1R13)  Green.  The inspectors identified a self-revealing Green NCV of 10 CFR 50, Appendix B, Criterion XVI, "Corrective Actions," because between 2012 and 2016, Entergy did not 
4  perform vendor specified inspections of the 23 emergency diesel generator (EDG) automatic voltage regulator (AVR) cards.  As a result, on March 7, 2016, and March 10,
2016, the 23 EDG failed to run due to poor voltage regulation caused by degraded connections on the AVR card.  Entergy replaced the AVR card in the 23 EDG, repaired similarly degraded solder joints on the AVR cards for the 21 and 22 EDGs, and wrote
CR-IP2-2016-1260 and CR-IP3-2016-1370. 
The inspectors determined that this performance deficiency was more than minor because
it is associated with the Equipment Performance attribute of the Mitigating Systems cornerstone and adversely affected its objective to ensure the reliability of systems that respond to initiating events to prevent undesirable consequences.  Specifically, the 23 EDG
failed to run on March 7, 2016, and March 10, 2016.  The inspectors evaluated the finding
in accordance with IMC 0609, Appendix A and concluded it required a detailed risk
evaluation (DRE).  The DRE was performed by a Region I SRA and concluded the performance deficiency resulted in a change in core damage frequency of low E-8/year or very low safety significance (Green).  The inspectors determined that this violation was not
indicative of current performance because the last time Entergy would reasonably have
been prompted to create corrective actions to perform periodic inspections was during the
initial inspections in 2010.  Therefore, no cross-cutting aspect was assigned.  (Section 1R15)  Green.  The inspectors identified a Green NCV of 10 CFR 50, Appendix B, Criterion XVI, "Corrective Actions," because Entergy did not take timely corrective action to perform an inspection of the 33 EDG AVR card.  As a result, the degraded solder connections on the
card were not repaired for an excessive period of time.  Entergy repaired the solder joints
on the AVR card in the 33 EDG and wrote CR-IP3-2016-3018. 
This performance deficiency was more than minor because it is associated with the Equipment Performance attribute of the Mitigating Systems cornerstone and adversely affected its objective to ensure the reliability of systems that respond to initiating events to
prevent undesirable consequences.  The existence of degraded solder joints on the AVR
card decreases the reliability of the EDG, and the untimely corrective action allowed the degradation to exist for longer than necessary without being corrected.  In accordance with IMC 0609, Appendix A, "The Significance Determination Process for Findings at Power,"
the inspectors determined that the finding was of very low safety significance (Green)
because the 33 EDG maintained its operability or functionality, it did not represent a loss of
system or function, and it did not involve external mitigation systems.  The inspectors
determined that this finding had a cross-cutting aspect in the area of Human Performance, Conservative Bias, because leaders did not take a conservative approach to decision making, particularly when information is incomplete or conditions are unusual.  Specifically,
Entergy did not inspect the 33 EDG AVR cards at the first available opportunity due to
resource constraints.  [H.14 - Human Performance, Conservative Bias] (Section 1R22)  Green.  The inspectors identified a self-revealing Green NCV for failing to comply with Technical Specification (TS) Limiting Condition of Operation (LCO) 3.8.1, "Electrical Power Systems, Alternating Current (AC) Sources - Operating," from February 26, 2014, to March 29, 2016.  Specifically, Entergy failed to maintain the auto transfer function for the 6.9
kilovolt (kV) offsite electrical buses in an operable condition because the safety injection (SI)
anticipatory signal to the station auxiliary transformer (SAT) load tap changer (LTC) was
disconnected.  As a result, one of two qualified offsite AC circuits was not operable.  Entergy 
5  initiated corrective actions and promptly restored the SAT LTC SI signal to operation prior to restarting the plant from the refueling outage. 
The failure to restore the LTC SAT SI signal following maintenance activities was a performance deficiency that was more than minor because it is associated with the
Equipment Performance attribute of the Mitigating Systems cornerstone and adversely affected the cornerstone objective to ensure the availability, reliability, and capability of
systems that respond to initiating events to prevent undesirable consequences (i.e., core
damage).  Specifically, the failure to reinstate the SAT LTC SI anticipatory signal following maintenance resulted in the qualified offsite source of AC power becoming inoperable for a period of time in excess of the TS allowable outage time.  In accordance with IMC 0609,
Appendix A, "The Significance Determination Process for Findings at Power," the inspectors
determined that the finding was of very low safety significance (Green) because a detailed
risk analysis determined the likelihood of core damage was less than E-8/year.  The inspectors determined that the finding had a cross-cutting aspect of Human Performance, Work Management, because Entergy did not implement a process of controlling and
executing work activities.  The work process did not coordinate with different groups or job
activities to ensure the state links were restored at the end of the work activities. 
[H.5 - Human Performance, Work Management] (Section 4OA3)    Cornerstone:  Occupational/Public Radiation Safety  Green.  The inspectors identified a self-revealing NCV of TS 5.7.1e when workers entered the Unit 2 Fuel Storage Building (FSB) truck bay that was posted and controlled as a high radiation area (HRA) without receiving a briefing on the dose rates prior to entering the
HRA.  Specifically, on June 6, 2016, two nuclear plant operators (NPOs) entered the Unit 2
FSB truck bay to hang tags on the backup spent fuel pool cooling filters.  The NPOs signed in on a HRA radiation work permit (RWP) but did not receive a briefing on the radiological conditions in this work area.  After entering the HRA, one worker received an electronic
dosimeter dose rate alarm; and subsequently, both workers promptly exited the area. 
Immediate corrective actions included restricting the access of the two NPOs to the
radiologically controlled area (RCA).  The issue was entered into Entergy's corrective action program (CAP) as CR-IP2-2016-03610.  The failure to adhere to a radiological briefing prior to entry into a HRA is a performance
deficiency that was reasonably within Entergy's ability to foresee and correct.  The
performance deficiency was determined to be more than minor based on similar example
6.h in IMC 0612, Appendix E, "Examples of Minor Issues," and because it adversely affected the Human Performance attribute of the Occupational Radiation Safety cornerstone objective.  Specifically, Entergy violated the TS 5.7.1e HRA radiological briefing
requirements designed to protect workers from unnecessary radiation exposure.  Using IMC 0609, Appendix C, "Occupational Radiation Safety Significance Determination Process," the
finding was determined to be of very low safety significance (Green) because it did not involve:  (1) ALARA occupational collective exposure planning and controls, (2) an overexposure, (3) a substantial potential for overexposure, or (4) an impaired ability to assess dose.  The inspectors determined that the finding had a cross-cutting aspect of
Human Performance, Procedure Adherence, in that the workers did not follow processes,
procedures, and work instructions for entering a posted HRA.  [H.8 - Human Performance, Procedure Adherence] (Section 2RS1) 
6    Green.  The inspectors identified a self-revealing finding (FIN) of very low safety significance due to Entergy having unintended occupational collective exposure resulting from performance deficiencies in work planning while preparing to perform reactor cavity liner
repair activities during the spring 2016 Unit 2 refueling outage.  Inadequate work planning
that included an incomplete scope of work, welding method qualification, and inadequate timing of shield placement resulted in unplanned, unintended collective exposure due to conditions that were reasonably within Entergy's ability to foresee.  The work activity planning deficiencies resulted in the collective exposure for these activities increasing from the planned dose of 2.386 person-rem to an actual dose of 10.305 person-rem.  This issue
was entered into Entergy's CAP as CR-IP2-2016-02528, CR-IP2-2016-02502, and CR-IP2-2016-02548. The performance deficiency was more than minor because it was associated with the Program and Process attribute of the Occupational Radiation Safety cornerstone and adversely affected the cornerstone objective to ensure the adequate protection of the worker
health and safety from exposure to radiation.  Additionally, the performance deficiency was
more than minor based on similar example 6.i in Appendix E of IMC 0612, "Examples of
Minor Issues," in that the actual collective dose exceeded 5 person-rem and exceeded the
planned, intended dose by more than 50 percent.  In accordance with IMC 0609, Appendix C, "Occupational Radiation Safety Significance Determination Process," the finding was determined to be of very low safety significance (Green) because Entergy had an issue
involving ALARA Planning, and Unit 2's current three-year rolling average collective dose is less than the significance determination process criterion of 135 person-rem per pressurized
water reactor unit.  The finding had a cross-cutting aspect in the area of Human Performance, Work Management, in that the lack of accurate planning for work activities adversely impacted radiological safety.  [H-5 - Human Performance, Work Management] (Section 2RS2)  Green.  The inspectors identified an NOV of 10 CFR 20.1406(c), "Minimization of Contamination," for Entergy's failure to conduct operations to minimize the introduction of residual radioactivity into the subsurface of the site (groundwater).  Specifically, Entergy did not maintain the floor drain systems clear of obstructions and interferences and did not
verify the ability of the floor drains to handle the volume and flowrates for draining activities
being conducted.  In January 2016, a spill caused by multiple floor drain obstructions resulted in the backup of contaminated water onto the floor of the 35-foot elevation of the primary auxiliary building (PAB) and the subfloor of the FSB and subsequent leakage to
onsite groundwater.  Entergy entered this issue into their CAP as CR-IP2-2016-00264, CR-
IP2-2016-00266, and CR-IP2-2016-00564 with actions to characterize and evaluate the
leak.  Similarly, in June/July 2016, another event occurred due to an obstructed flow path
through a floor drain in the FSB, which spilled to the subfloor and contaminated the onsite groundwater.  This event was documented by Entergy in CR-IP2-2016-05060.    The issue is more than minor because it is associated with the Program and Process
attribute of the Public Radiation Safety cornerstone and adversely affected the cornerstone
objective to ensure Entergy's ability to prevent inadvertent release and/or loss of control of licensed material to an unrestricted area.  In accordance with IMC 0609, Appendix D, "Public Radiation Safety Significance Determination Process," the finding was determined to
be of very low safety significance (Green) because Entergy had an issue involving
radioactive material control but did not involve transportation or public exposure in excess of
0.005 Rem.  The finding had a cross-cutting aspect in the area of Problem Identification and
Resolution, Resolution, in that effective corrective actions to address issues identified in two 
7  prior groundwater contamination events since 2014 were not implemented in a timely or effective manner, which could have prevented two additional groundwater contamination events that occurred in 2016.  [P.3 - Problem Identification and Resolution, Resolution] (Section 4OA5)   
8  REPORT DETAILS  Summary of Plant Status 
Unit 2 began the inspection period at 100 percent power.  On July 6, 2016, Unit 2 experienced a
reactor trip caused by a human performance error.  Operators returned Unit 2 to 100 percent power on July 8, 2016.  On August 6, 2016, Unit 2 reduced power to 80 percent due to a trip of
both heater drain pumps.  They restarted the pumps and returned to 100 percent power the
following day.  Unit 2 remained at or near 100 percent power for the remainder of the inspection period. 
Unit 3 operated at 100 percent power during the inspection period.
1. REACTOR SAFETY  Cornerstones:  Initiating Events, Mitigating Systems, and Barrier Integrity  1R01 Adverse Weather Protection (71111.01 - 3 samples)  .1 Readiness for Seasonal Extreme Weather Conditions  a. Inspection Scope  The inspectors performed a review of Entergy's readiness for the onset of seasonal high
temperatures.  The inspectors reviewed procedure OAP-048, "Seasonal Weather Preparation (Units 2 and 3)."  The focus areas were the switchgear rooms and service water (SW) pump areas.  The inspectors reviewed the updated final safety analysis
report (UFSAR), TSs, control room logs, and the CAP to determine what temperatures
or other seasonal weather could challenge these systems and to ensure Entergy had
adequately prepared for these challenges.  The inspectors reviewed station procedures, including Entergy's seasonal weather preparation procedure and applicable operating procedures.  The inspectors performed walkdowns of the selected systems to ensure
station personnel identified issues that could challenge the operability of the systems
during hot weather conditions.  Documents reviewed for each section of this inspection
are listed in the Attachment.
b. Findings  No findings were identified.
.2 Summer Readiness of Offsite and AC Power Systems  a. Inspection Scope  The inspectors performed a review of plant features and procedures for the operation
and continued availability of the offsite and alternate AC power system to evaluate
readiness of the systems prior to seasonal high grid loading.  The inspectors reviewed Entergy's procedures affecting these areas and the communications protocols between the transmission system operator and Entergy.  This review focused on the material
condition of the offsite and alternate AC power equipment.  There were no changes to
the established program since the last inspection.  The inspectors assessed whether 
9  Entergy established and implemented appropriate procedures and protocols to monitor and maintain availability and reliability of both the offsite AC power system and the
onsite alternate AC power system. The inspectors evaluated the material condition of the associated equipment by reviewing CRs and open work orders (WOs) and walking down portions of the offsite and AC power systems including the Units 2 and 3 transformer yards.    b. Findings  No findings were identified.  .3 Readiness for Impending Adverse Weather Conditions  a. Inspection Scope 
The inspectors reviewed Entergy's preparations for a Category 1 thunderstorm warning
on July 25, 2016.  The inspectors reviewed the implementation of adverse weather
preparation procedures including OAP-008, "Severe Weather Preparations," before the
onset of and during this adverse weather condition.  The inspectors walked down the Unit 2 SW pumps, the Unit 2 transformer yard, and the Unit 3 transformer yard to ensure system availability and that there were no problems as a result of the severe weather. 
The inspectors verified that operator actions defined in Entergy's adverse weather
procedure maintained the readiness of essential systems.  The inspectors discussed
readiness and staff availability for adverse weather response with operations and work
control personnel.  The inspectors discussed severe weather preparedness with operators and maintained an awareness of severe weather issues throughout the inspection period. 
b. Findings  No findings were identified.  1R04 Equipment Alignment 
Partial System Walkdowns (71111.04Q - 5 samples)  a. Inspection Scope  The inspectors performed partial walkdowns of the following systems:
Unit 2  22 auxiliary boiler feedwater pump (ABFP) while 21 ABFP was out of service (OOS) for planned maintenance on July 18, 2016  Gas turbine 2/3 fuel forwarding system EDG fuel oil reserve on August 31, 2016  Component cooling water (CCW) system while 21 CCW pump and discharge check valve were inoperable during troubleshooting on September 21, 2016   
10  Unit 3  31 and 32 EDGs while 33 EDG was unavailable due to planned testing on 480V bus 5A on September 15, 2016  ARDG and support systems following maintenance on September 29, 2016 (this sample was part of an in-depth review of the ARDG system)  The inspectors selected these systems based on their risk-significance relative to the reactor safety cornerstones at the time they were inspected.  The inspectors reviewed
applicable operating procedures, system diagrams, the UFSAR, TSs, CRs, and the
impact of ongoing work activities on redundant trains of equipment in order to identify
conditions that could have impacted system performance of their intended safety functions.  The inspectors also performed field walkdowns of accessible portions of the systems to verify system components and support equipment were aligned correctly and were operable.  The inspectors examined the material condition of the components and
observed operating parameters of equipment to verify that there were no deficiencies. 
The inspectors also reviewed whether Entergy had properly identified equipment issues and entered them into the CAP for resolution with the appropriate significance characterization.    b. Findings 
No findings were identified.  1R05 Fire Protection 
.1 Resident Inspector Quarterly Walkdowns (71111.05Q - 6 samples)  a. Inspection Scope  The inspectors conducted tours of the areas listed below to assess the material
condition and operational status of fire protection features.  The inspectors verified that
Entergy controlled combustible materials and ignition sources in accordance with
administrative procedures.  The inspectors verified that fire protection and suppression equipment was available for use as specified in the area pre-fire plan (PFP) and passive fire barriers were maintained in good material condition.  The inspectors also verified
that station personnel implemented compensatory measures for OOS, degraded, or
inoperable fire protection equipment, as applicable, in accordance with procedures. 
Unit 2  ARDG/station blackout diesel generator (PFP-160A was reviewed) on August 4, 2016  Diesel fire pump house (PFP-265 was reviewed) on August 5, 2016  Independent spent fuel storage installation pad (PFP-266A was reviewed) on September 29, 2016  Transformer yard (PFP-263 was reviewed) on September 29, 2016   
11  Unit 3  Transformer yard (PFP-380 was reviewed) on September 27, 2016  ARDG (PFP-388 was reviewed) on September 29, 2016 (this sample was part of an in-depth review of the ARDG system)  b. Findings  No findings were identified. 
.2 Fire Protection - Drill Observation (71111.05A - 1 sample)  a. Inspection Scope  The inspectors observed a fire brigade drill scenario conducted on September 25, 2016,
that involved a pressurized oil leak fire on the Unit 3 main boiler feedwater pump (MBFP)
lube oil purifier located on the turbine building, 15-foot level.  The inspectors evaluated
the readiness of the plant fire brigade to fight fires.  The inspectors verified that Entergy personnel identified deficiencies, openly discussed them in a self-critical manner during the debrief, and took appropriate corrective actions as required.  The inspectors verified that the fire brigade: 
  Properly used turnout gear and self-contained breathing apparatus  Properly used and laid out fire hoses  Employed appropriate fire-fighting techniques  Brought sufficient fire-fighting equipment to the scene  Effectively used command and control  Searched for victims and for propagation of the fire into other plant areas  Conducted smoke removal operations  Properly used pre-planned strategies  Adhered to the pre-planned drill scenario  Met drill objectives  The inspectors also evaluated the fire brigade's actions to determine whether these
actions were in accordance with Entergy's fire-fighting strategies.    b. Findings 
No findings were identified. 
1R11 Licensed Operator Requalification Program (71111.11Q - 5 samples)  Unit 2  .1 Quarterly Review of Unit 2 Licensed Operator Performance in the Main Control Room  a. Inspection Scope  The inspectors observed and reviewed the Unit 2 reactor startup conducted on July 7, 2016.  The inspectors observed infrequently performed test or evolution briefings, 
12  pre-shift briefings, and reactivity control briefings to verify that the briefings met the criteria specified in Entergy's operating procedure 2-POP-1.2, "Reactor Startup," and
administrative procedure EN-OP-115, "Conduct of Operations."  Additionally, the inspectors observed test performance to verify that procedure use, crew communications, and coordination of activities between work groups similarly met established expectations and standards.  b. Findings  No findings were identified. 
.2 Quarterly Review of Unit 2 Licensed Operator Requalification Testing and Training  a. Inspection Scope  The inspectors observed Unit 2 licensed operator simulator training on August 10, 2016,
which included an instrument failure, a loss of 138kV offsite power, followed by a loss of
the 345kV grid, and a station blackout.  The inspectors evaluated operator performance
during the simulated event and verified completion of risk significant operator actions, including the use of abnormal and emergency operating procedures.  The inspectors assessed the clarity and effectiveness of communications, implementation of actions in response to alarms and degrading plant conditions, and the oversight and direction
provided by the control room supervisor.  The inspectors verified the accuracy and
timeliness of the emergency classification made by the shift manager and the TS action
statements entered by the shift technical advisor.  Additionally, the inspectors assessed the ability of the crew and training staff to identify and document crew performance problems.
b. Findings  No findings were identified.  Unit 3  .3 Quarterly Review of Unit 3 Licensed Operator Performance in the Unit 3 Main Control Room  a. Inspection Scope  The inspectors observed and reviewed swapping of main lube oil coolers in accordance
with 3-SOP-LO-001, "Main Lube Oil System Operation," Revision 40, conducted on September 30, 2016.  The inspectors observed pre-job briefings to verify that the briefings met the criteria specified in Entergy's administrative procedure EN-OP-115,
"Conduct of Operations."  Additionally, the inspectors observed operator performance to
verify that procedure use, crew communications, and coordination of activities between work groups similarly met established expectations and standards.
b. Findings  No findings were identified.
 
13  .4 Quarterly Review of Unit 3 Licensed Operator Requalification Testing and Training  a. Inspection Scope  The inspectors observed licensed operator simulator training on August 10, 2016, which
included the rupture of the letdown line, a mispositioned control valve, a misaligned
control rod, and a steam generator tube rupture.  The inspectors evaluated operator
performance during the simulated event and verified completion of risk significant
operator actions, including the use of abnormal and emergency operating procedures. The inspectors assessed the clarity and effectiveness of communications, implementation of actions in response to alarms and degrading plant conditions, and the
oversight and direction provided by the control room supervisor.  The inspectors verified the accuracy and timeliness of the emergency classification made by the shift manager
and the TS action statements entered by the shift technical advisor.  Additionally, the inspectors assessed the ability of the crew and training staff to identify and document crew performance problems.
b. Findings  No findings were identified. 
.5 Quarterly Review of Unit 3 Licensed Operator Requalification Testing and Training  a. Inspection Scope  The inspectors observed operating crew performance during an emergency planning drill on September 14, 2016, which included a failure of a steam generator level instrument,
loss of the 6A electrical bus, a turbine trip without reactor trip, a small break loss of
coolant accident, and entry into FR-C.2, "Response to Inadequate Core Cooling."  The
inspectors evaluated operator performance during the simulated event and verified completion of risk significant operator actions, including the use of abnormal and emergency operating procedures.  The inspectors assessed the clarity and effectiveness
of communications, and the oversight and direction provided by the control room supervisor.  The inspectors reviewed the accuracy and timeliness of the emergency
classification made by the shift manager and shift technical advisor.  Additionally, the inspectors assessed the ability of the crew and training staff to identify and document crew performance problems.    b. Findings 
No findings were identified.  1R12 Maintenance Effectiveness (71111.12Q - 2 samples) 
Routine Maintenance Effectiveness  a. Inspection Scope  The inspectors reviewed the samples listed below to assess the effectiveness of
maintenance activities on structure, system, and component (SSC) performance and
reliability.  The inspectors reviewed system health reports, CAP documents, 
14  maintenance WOs, and maintenance rule basis documents to ensure that Entergy was identifying and properly evaluating performance problems within the scope of the
maintenance rule.  For each SSC sample selected, the inspectors verified that the SSC was properly scoped into the maintenance rule in accordance with 10 CFR 50.65 and verified that the (a)(2) performance criteria established by Entergy was reasonable.  As
applicable, for SSCs classified as (a)(1), the inspectors assessed the adequacy of goals
and corrective actions to return these SSCs to (a)(2).  Additionally, the inspectors
ensured that Entergy was identifying and addressing common cause failures that
occurred within and across maintenance rule system boundaries.    Unit 3  ARDG and auxiliaries (this sample was part of an in-depth review of the Unit 3 ARDG system) on June 28, 2016  Reactor protection and controls system on August 28, 2016  b. Findings  No findings were identified. 
1R13 Maintenance Risk Assessments and Emergent Work Control (71111.13 - 7 samples)  a. Inspection Scope  The inspectors reviewed station evaluation and management of plant risk for the
maintenance and emergent work activities listed below to verify that Entergy performed the appropriate risk assessments prior to removing equipment for work.  The inspectors
selected these activities based on potential risk significance relative to the reactor safety
cornerstones.  As applicable for each activity, the inspectors verified that Entergy performed risk assessments as required by 10 CFR 50.65(a)(4) and that the assessments were accurate and complete.  When Entergy performed emergent work,
the inspectors verified that operations personnel promptly assessed and managed plant
risk.  The inspectors reviewed the scope of maintenance work and discussed the results
of the assessment with the station's probabilistic risk analyst to verify plant conditions were consistent with the risk assessment.  The inspectors also reviewed the TS requirements and inspected portions of redundant safety systems, when applicable, to verify risk analysis assumptions were valid and applicable requirements were met.
Unit 2  21 ABFP and 138kV feeder 33332 OOS for maintenance on July 18, 2016  Emergent work due to instrument air piping leak on August 8, 2016  23 station battery OOS for maintenance on September 14, 2016  13.8kV feeders 13W92 and 13W3 OOS for planned maintenance on September 28, 2016 
Unit 3  32 ABFP OOS for maintenance on August 8, 2016 
15    ARDG and 31 residual heat removal pump OOS for maintenance on August 16, 2016 (this sample was part of an in-depth review of the ARDG system)  31 EDG OOS for surveillance on September 20, 2016  b. Findings  Introduction.  The inspectors identified a Green NCV of 10 CFR 50.65(a)(4), "Requirements for Monitoring the Maintenance Effectiveness at Nuclear Power Plants,"
because between August 1, 2016, and August 17, 2016, Entergy did not perform an
adequate risk assessment for the maintenance on the Unit 3 ARDG.  As a result, they
did not take the required RMAs. 
Description.  The Unit 3 ARDG was declared non-functional on June 28, 2016, due to a failed battery charger.  Entergy performed a modification to replace the battery charger and cleared the tag-out to restore the diesel generator to service on July 27, 2016. 
Entergy determined that the ARDG was available at this time, although the
post-modification testing was not complete, in accordance with guidance in procedure
IP-SMM-WM-101, "Fire Protection and Maintenance Rule (a)(4) Risk Assessment."  On July 31, 2016, the input breaker to the battery charger tripped open.  Entergy determined that the ARDG was no longer available for risk purposes and commenced corrective
maintenance.  On August 1, 2016, during rounds, an operator discovered that the output
breaker for the ARDG was crooked in its cubicle.  The following day, maintenance staff
reported a crackling noise from the output breaker indicating that it was not making proper contact in its crooked position.  During follow-up interviews, Entergy determined that the output breaker had been racked in improperly while the tag-out was being
cleared on July 27, 2016. 
Per IP-SMM-WM-101, and the Equipment OOS risk tool, fire risk is Green when taking a component OOS for maintenance results in only one safe shutdown path and that component will be OOS for less than thirty days.  If the component will be OOS for more than thirty days, fire risk is Yellow and RMAs are required in certain fire areas,
depending on the component.  With the Unit 3 ARDG OOS, the Unit 2 ARDG is the only
remaining credited safe shutdown path.  After thirty days in this configuration, RMAs are required in the 31 and 33 EDG rooms, the cable spreading room, the switchgear room, the control room, and the upper electrical tunnel.  These actions include shiftly walkdowns to look for transient combustibles, prohibiting hot work, confirming
functionality of the fire protection equipment, postponing maintenance on fire protection
equipment, and limiting work in the areas affected. 
On August 16, 2016, the inspectors asked Entergy whether fire risk was Green or Yellow.  Entergy stated that they considered fire risk to be Green because the ARDG had only been OOS since July 31, 2016, which was less than thirty days.  The
inspectors observed that since the breaker had been racked in incorrectly while they
were restoring from the original battery charger replacement, the ARDG had been OOS
continuously since June 28, 2016, a time period greater than thirty days.  Entergy's response was that they had not considered the impact of the breaker on risk.  As a result, Entergy wrote CR-IP3-2016-2538, changed fire risk status to Yellow, and began
implementing RMAs on August 17, 2016.
Analysis.  The inspectors determined that not performing an adequate risk assessment for the work on the Unit 3 ARDG was within Entergy's ability to foresee and correct and 
16  was a performance deficiency.  The inspectors determined that this performance deficiency was more than minor because it is associated with the Protection Against
External Factors attribute of the Mitigating Systems cornerstone and adversely affected its objective to ensure the reliability of systems that respond to initiating events to prevent undesirable consequences.  Specifically, due to the inadequate risk assessment, Entergy did not perform shiftly walkdowns for transient combustibles and
related fire and ignition sources on the available safe shutdown train.
Using IMC 0609.04, "Initial Characterization of Findings," and IMC 0609, Appendix K, "Maintenance Risk Assessment and Risk Management Significance Determination Process," the inspectors determined that the failure to conduct RMAs for the
unavailability of the ARDG required further assessment.  A Region I SRA used
SAPHIRE, Revision 8.1.14 and the Indian Point Unit 3 SPAR Model, Revision 8.20 to
complete the DRE of this performance deficiency.  To calculate the ICCDP for this finding, the SRA used an exposure time of 16 days and modeled the unavailability of the ARDG by setting the generator's output breaker basic event (ACP-CRB-00-52EG4)
failure probability to 1.0.  Truncation for the analyses was set to 1.0E-11.  The ICCDP for
this finding was calculated to be less than 1E-7 or very low safety significance (Green).  The dominant core damage sequences involve fires leading to a station blackout event resulting in a small break loss of coolant accident associated with reactor coolant pump seal failures. 
This finding has a cross-cutting aspect in the area of Problem Identification and
Resolution because Entergy did not identify that an improperly racked-in breaker had a
fire risk impact when combined with other plant conditions.  [P.1]  Enforcement.  10 CFR 50.65(a)(4) states that before performing maintenance activities, the licensee shall assess and manage the increase in risk that may result from the
proposed maintenance activities.  Contrary to this, between August 1, 2016, and
August 17, 2016, Entergy did not adequately assess and manage the increase in risk from maintenance on the Unit 3 ARDG.  Entergy wrote CR-IP3-2016-2538, changed fire risk status to Yellow, and began implementing RMAs on August 17, 2016.  Because this
violation was of very low safety significance (Green) and Entergy entered this
performance deficiency into the CAP, the NRC is treating this as an NCV in accordance
with Section 2.3.2.a of the NRC Enforcement Policy.  (NCV 05000286/2016003-01, Failure to Adequately Assess Fire Risk Associated with Maintenance on the Unit 3 ARDG)  1R15 Operability Determinations and Functionality Assessments (71111.15 - 8 samples)  a. Inspection Scope  The inspectors reviewed operability determinations and functionality assessments for the
following degraded or non-conforming conditions:
Unit 2  CR-IP2-2016-05220, missed implications of baffle bolt jetting indications on Units 2 and 3 spent fuel on August 22, 2016  CR-IP-2016-05418, metal impact monitor system functionality assessment on September 1, 2016 
17    CR-IP2-2016-05503, through-wall leak on non-essential SW header between 23 Zurn strainer and SWN-2-2, 23 SW pump discharge valve on September 6, 2016  CR-IP2-2016-05757, 21 CCW pump motor baker test results invalid on September 21, 2016  CR-IP2-2016-05877, unexpected drop in SW header pressure on September 27, 2016 
Unit 3  CR-IP3-2016-01961, prompt operability determination for implications of degraded baffle bolts on July 11, 2016  CR-IP3-2016-02910, bus 5A undervoltage time delay relay 62-2/5A failed to meet acceptance criteria on September 15, 2016  CR-IP3-2016-01370, EDG AVR card solder joint cracking extent of condition on September 23, 2016  The inspectors selected these issues based on the risk significance of the associated
components and systems.  The inspectors evaluated the technical adequacy of the
operability determinations to assess whether TS operability was properly justified and
the subject component or system remained available such that no unrecognized increase in risk occurred.  The inspectors compared the operability and design criteria in the appropriate sections of the TSs and UFSAR to Entergy's evaluations to determine
whether the components or systems were operable. 
The inspectors confirmed, where appropriate, compliance with bounding limitations
associated with the evaluations.  Where compensatory measures were required to maintain operability, the inspectors determined whether the measures in place would function as intended and were properly controlled by Entergy.  The inspectors
determined, where appropriate, compliance with bounding limitations associated with the
evaluations.
b. Findings  (Closed) Unresolved Item (URI) 05000247/2016001-06: 23 EDG Automatic Voltage Regulator Failure  Introduction.  The inspectors identified a self-revealing Green NCV of 10 CFR 50, Appendix B, Criterion XVI, "Corrective Actions," because between 2012 and 2016, Entergy did not perform specified inspections of the 23 EDG AVR cards.  As a result, on
March 7, 2016, and March 10, 2016, the 23 EDG failed to run due to poor voltage
regulation caused by degraded connections on the AVR card.
Description.  A URI was issued in NRC Inspection Report 05000247/2016001.  This item is closed based on the finding described below.  On March 7, 2016, approximately one hour after the trip of the 3A normal feed breaker, the 23 EDG tripped on overcurrent
while powering the 6A 480V safety bus.  The 6A bus remained de-energized for
approximately one hour until the crew restored the 6A bus via off-site power.  The 23 EDG was declared inoperable.  All four 480V safety buses were restored to off-site power.  Entergy suspected that an overcurrent relay had spuriously tripped, replaced the
overcurrent relays, and retested the 23 EDG satisfactorily on March 8, 2016.  However, 
18  subsequent bench testing of the overcurrent relays demonstrated that they were accurately calibrated.   
On March 10, 2016, during performance of PT-R14, "Automatic SI System Electrical Load and Blackout Test," the 23 EDG exhibited anomalous behavior during the train 'B'
load sequencing.  During this test, the voltage on safety bus 6A dropped to
approximately 200V when the 23 auxiliary feedwater pump was sequenced onto the bus (CR-IP2-2016-01430) and the sequencer failed to complete the first two sequences. 
The 23 EDG was again declared inoperable and the period of inoperability was backdated to March 7, 2016, when it originally tripped.  Further troubleshooting and additional failure modes analysis by Entergy initially determined that the cause of both
events may have been a degraded resistor (R25) on the 23 EDG AVR card. 
The 23 EDG AVR card was replaced, and the 23 EDG was again tested satisfactorily.  The voltage anomaly issues exhibited during the March 10, 2016, test were documented in CR-IP2-2016-01430 which was closed in CR-IP2-2016-01260 to be included in the
causal assessment associated with the tripping of 23 EDG breaker on March 7, 2016. 
Entergy assigned a vendor to perform confirmatory laboratory bench testing and failure
analysis of the 23 EDG AVR card.  The vendor report attributed the cause of the March 10, 2016, loss of voltage control to a degraded solder joint on the L1 magnetic amplifier on the AVR card.  The vendor report explicitly did not attribute the event on March 7, 2016, to the same cause.  Entergy assigned a corrective action in CR-IP2-
2016-01260 to review the cause of the 23 EDG overcurrent trip on March 7, 2016, and in
light of the vendor report.  On September 1, 2016, Entergy documented that their initial
investigation into the failure on March 7, 2016, concluded that the failure was most likely due to an intermittent connection to the L1 mag amp on the AVR card.  Since they have determined the causes of the failures on March 7, 2016, and March 10, 2016, are likely
the same direct cause, this violation closes URI 05000247/2016001-06, 23 Emergency
Diesel Generator Automatic Voltage Regulator Failure.  The URI is closed because it
was determined that there was a performance deficiency.  In 2007, Entergy received a 10 CFR 21 notification (ML072750470) that there was a
potential for solder joint cracks on their AVR cards and wrote CR-IP2-2007-3825 and
CR-IP3-2007-3686.  Cracked solder joints on the AVR cards affect the ability of the EDG
to achieve and/or maintain voltage.  Because the connectivity of the joint can be
degraded by vibration, the impact on voltage regulation may be intermittent.  The notification recommended an initial inspection to look for cracked solder joints and then subsequent inspections every refueling outage once the cards had been in service for 15
years.  Entergy wrote a corrective action to write work requests to perform the initial
inspections but did not write any corrective actions to address the need for recurring
inspections.  Entergy performed the initial inspections for all of their cards in 2009 and 2010 and did not find any degraded solder joints on any of the Unit 2 EDGs, although the AVR card from the Unit 3 32 EDG did have degraded solder joints and was repaired. 
Entergy did not establish a preventive maintenance activity to perform the subsequent
inspections every two years as stated in the service bulletin. 
In response to the events of March 7, 2016, and March 9, 2016, Entergy performed extent of condition inspections on both the 21 and 22 EDG AVR cards and identified partially cracked solder joints on both cards.  Entergy repaired the solder joints and
replaced the cards.  Like the 23 EDG AVR card, the AVR card for the 21 EDG is also
original equipment, while the 22 EDG AVR card was replaced more recently. 
19  Analysis.  The failure to establish recurring (two-year) inspections of the AVR cards that had longer than 15 years in service is a performance deficiency that was reasonably within Entergy's ability to foresee and correct.  The inspectors determined that this performance deficiency was more than minor because it is associated with the Equipment Performance attribute of the Mitigating Systems cornerstone and adversely affected its objective to ensure the reliability of systems that respond to initiating events
to prevent undesirable consequences.  Specifically, the 23 EDG failed to run on
March 7, 2016, and March 10, 2016. 
The performance deficiency represented a loss of function of a single train (23 EDG) for greater than its TS allowed outage time of seven days.  Inspection of the 21, 22, and 23
EDG AVR cards all showed substantial degradation of the solder joints to the L1 mag
amp.  The 22 EDG AVR card was observed to have degradation in the solder joint and
had been previously replaced in 2010.  This degraded condition likely existed prior to the failure on March 7, 2016.  As a result, the failure mechanism could have activated at any time between the last successful test on February 7, 2016, and the failure at the next
demand event on March 7, 2016.  The inspectors evaluated the finding in accordance
with IMC 0609, Appendix A, "The Significance Determination Process for Findings at
Power," Exhibit 2, "Mitigating Systems Screening Questions."  The inspectors noted that while the degraded 23 EDG AVR had resulted in a trip of the EDG on March 7, 2016, it was subsequently run on March 8, 2016, and twice on March 9, 2016, during test 2-PT-
R014, "Automatic SI System Electrical Load and Blackout Test."  During this test, the 'A'
side logic was completed with no anomalies noted with the 23 EDG; however, during the
'B' side test, the 6A bus voltage dropped to 200V with several equipment load sheds
automatically occurring prior to success on the third attempt to load the EDG.  The 23 EDG did not trip during this test because the low voltage relay protection is overridden during an emergency start (when the EDG is started from an SI signal).  Subsequently,
the AVR was identified as the likely cause of the voltage drop during the March 9, 2016, test and the EDG was declared inoperable.  While the facts support an intermittent type
of failure (several successful runs after March 7, 2016, without the AVR being repaired), the inspectors concluded that the previous failure on March 7, 2016, was most likely caused by the degraded AVR function.  Therefore, the inspectors determined that the
23 EDG trip on March 7, 2016, represented an actual loss of function for greater than its
TS allowed outage time and a DRE was performed.
The Region I SRA determined that the estimated increase in core damage frequency associated with this performance deficiency is low E-8/year or very low safety significance (Green).  The DRE was performed with the conservative assumption that
the intermittent failures would have resulted in impacting at-power conditions going back
to the last successful 23 EDG surveillance test performed on February 7, 2016.  The
SRA used the guidance within the Risk Assessment of Operational Events, Volume 1 - Internal Events, Section 2.4, to determine an exposure time at unit power conditions of T/2 or 14 days from the last successful test due to the unknown nature of the failure
mechanism.  This provided a bounding assessment.  The SRA used the Systems Analysis Programs for Hands-On Evaluation, Revision 8.1.4, and the SPAR Model for
Indian Point Unit 2, Model Version 8.19.  The SRA considered the last load test which
resulted in unexpected load shedding to be a failure.  Therefore, the last 5 times the EDG had run, two of the runs were considered to be failures for a 0.40 failure probability.  Additionally, the SRA had to make modifications to update the model to perform the
evaluation.  This included revising the base case SPAR model to substitute the Unit 2 ARDG for the combustion turbine which is no longer used for the offsite power recovery 
20  fault trees.  The SRA reviewed Entergy's probabilistic risk assessment model and established a failure probability for the ARDG of 5E-2 based on a review of the Entergy's
probabilistic risk assessment model which included operator actions and equipment failure modeling.   
The condition case was represented by developing post-processing rules to recognize
that the 23 EDG ran for over 75 minutes on March 7, 2016, prior to its failure. 
Modifications to the SPAR model were performed to recognize that plant procedures direct alignment of the ARDG to restore power to any safety-related 480V bus which becomes de-energized (2A, 3A, 5A, or 6A buses) during a loss of offsite power (LOOP) event and failure of an EDG.  Therefore, if the 23 EDG would have failed during an at
power event, procedures direct for the ARDG to be aligned to its respective bus.  The
SRA developed the modification only for LOOP events where capability may not exist to
isolate a failed open power operated relief valve (PORV).  For events where a PORV cannot be isolated, the ARDG is not credited due to timing considerations in aligning the ARDG for this type of loss of coolant scenario.  The SRA determined for this intermittent
failure condition, modeling should provide for the capability to isolate a failed open
PORV associated with the 23 EDG powered block isolation valve because the 23 EDG
had run for a nominal 75 minutes prior to its initial failure on March 7, 2016.  Additionally, the SRA made a conservative modeling assumption related to common cause, by setting the 23 EDG failure to run basic event to "TRUE" to increase the probability of
common cause failure for all of the EDGs, even though the failure was intermittent.  The
common cause failure probability for the EDGs was increased to 4.7E-3 from its nominal
value of 1.4E-4.  Finally, the 23 EDG failure rate was set at a 40 percent probability of
failure due to the recent performance data.  As a result, the SRA determined that the estimated increase in core damage frequency associated with the performance deficiency was 1.5E-8/yr for the 14-day exposure time assumed at-power conditions.  The dominant core damage sequences for the at-power condition involved LOOP events
with failure of the auxiliary feedwater system and feed and bleed.  The dominant core damage cutset consisted of a LOOP with failure of the turbine driven auxiliary feedwater pump, failure of the 22 EDG to run, failure of the 23 EDG to run, and failure of the ARDG to align power to a safety bus. 
Because the 23 EDG AVR was not replaced and repaired until after the March 9, 2016,
test anomaly, the SRA also reviewed the risk associated with the EDG being degraded
during the unit shutdown condition until the AVR was repaired and the 23 EDG clearance removed on March 16, 2016.  The SRA determined the shutdown risk using IMC 0609, Appendix G, Attachment 1, "Shutdown Operations Significance Determination
Process Phase 1 Initial Screening Characterization of Findings."  The SRA noted the
March 7, 2016, loss of safety bus power event and residual heat removal cooling was
caused by inadequate guidance in procedures, resulting in an overcurrent condition on the Bus 3A normal supply breaker as part of load test setup activities for a surveillance test.  Without this error, the trip of the 23 EDG would not have caused a loss of residual
heat removal cooling; and, therefore, the EDG performance deficiency was not relevant
to any shutdown initiating event.  The performance deficiency associated with the
23 EDG was evaluated within Exhibit 3 - Mitigating Systems Screening Questions.  Because the 23 EDG was conservatively assumed to have lost its safety function for greater than its TS outage time, a Phase 2 evaluation within Appendix G was performed.   
Using Worksheet 3, "Loss of Offsite Power in plant operating state 1 (Head On, Reactor
Coolant System Closed)," for the limiting condition, the SRA made the following 
21  assumptions:  1) initiating event likelihood equal to two given the exposure time, 2) emergency AC credit of three based upon the availability of the 21 and 22 EDGs, 3)
steam generator cooling credit of three based on the fact that the 24 reactor coolant pump was in operation and providing forced circulation, and 4) a credit of one for recovery of offsite power before core damage (RLOOP3).  Based upon the Phase 2
worksheet results, the shutdown safety significance of the performance deficiency was
estimated in the E-9 range.  The SRA noted the condition would also be in the E-8 range
considering a plant operating state 2 condition (reactor coolant system vented) with no
credit given for aligning the Unit 2 ARDG.  Therefore, the total risk (at-power and shutdown) for this condition was estimated to be in the E-8 range or of very low safety significance (Green) and was considered to be a conservative bounding analysis (i.e.,
assuming EDG exposure time 14 days at power, EDG common cause effect and no
recovery of buses with ARDG during the outage risk evaluation).
The inspectors determined that this violation was not indicative of current performance because the last time Entergy would reasonably have been prompted to create
corrective actions to perform periodic inspections was during the initial inspections in
2010.  Therefore, no cross-cutting aspect was assigned.  Enforcement.  10 CFR 50, Appendix B, Criterion XVI, states that measures shall be established to assure that conditions adverse to quality, such as failures, malfunctions, deficiencies, deviations, defective material and equipment, and nonconformances are
promptly identified and corrected.  Contrary to this, between 2010 and March 2016,
Entergy's CAP did not assure that a condition adverse to quality associated with the
safety-related EDG system was promptly identified and corrected.  Specifically, they did not perform the recommended once per refueling cycle inspections of the EDG AVR cards, and as a result, the 23 EDG failed to run due to undetected degraded
connections.  Entergy replaced the AVR card in the 23 EDG, repaired the solder joints in
the AVR cards for the 21 and 22 EDGs, and wrote CR-IP2-2016-1260 and
CR-IP3-2016-1370.  Because this violation was of very low safety significance (Green) and Entergy has entered this performance deficiency into the CAP, the NRC is treating this as an NCV in accordance with Section 2.3.2.a of the NRC Enforcement Policy.  (NCV 05000247/2016003-02, Missed Inspections on Automatic Voltage Regulator Cards Results in Emergency Diesel Generator Failure to Run)  This URI is closed.  1R18 Plant Modifications (71111.18 - 3 samples) 
Temporary Modifications  a. Inspection Scope  The inspectors reviewed the temporary modifications listed below to determine whether
the modifications affected the safety functions of systems that are important to safety.  The inspectors reviewed 10 CFR 50.59 documentation and post-modification testing
results and conducted field walkdowns of the modifications to verify that the temporary modifications did not degrade the design bases, licensing bases, and performance capability of the affected systems. 
 
22  Unit 2  Temporary modification 66349 to repair a crack on vital battery 23, cell 4  Unit 3  Temporary modification 65773 to replace the failed ARDG battery charger with a digital battery charger (this sample was part of an in-depth review of the ARDG system)  Temporary modification 66780 to install jumpers in order to maintain bus 5A interlocking relay circuit while relay 62-2/5A is replaced  b. Findings  No findings were identified.  1R19 Post-Maintenance Testing (71111.19 - 7 samples)  a. Inspection Scope  The inspectors reviewed the post-maintenance tests for the maintenance activities listed below to verify that procedures and test activities ensured system operability and
functional capability.  The inspectors reviewed the test procedure to verify that the
procedure adequately tested the safety functions that may have been affected by the
maintenance activity and that the acceptance criteria in the procedure were consistent with the information in the applicable licensing basis and/or design basis documents.  The inspectors verified that the test results were properly reviewed and accepted and
problems were appropriately documented.  The inspectors also walked down the
affected job site, observed the pre-job brief and post-job critique where possible,
confirmed work site cleanliness was maintained, and witnessed the test or reviewed test
data to verify quality control hold points were performed and checked, and that results adequately demonstrated restoration of the affected safety functions. 
Unit 2  21 ABFP recirculation valve FCV-1121 actuator preventative maintenance on July 19, 2016  Replacement of 138kV breaker BT4-5 on August 12, 2016  Corrective maintenance on the 21 CCW pump discharge check valve on September 22, 2016 
Unit 3  ARDG protective relay replacement and calibration on August 23, 2016 (this sample was part of an in-depth review of the ARDG system)  ARDG four-year preventive maintenance on September 2, 2016 (this sample was part of an in-depth review of the ARDG system)  ARDG battery charger replacement on September 12, 2016 (this sample was part of an in-depth review of the ARDG system)  Undervoltage relay 62-2/5A replacement on September 17, 2016 
23  b. Findings  No findings were identified.  1R22 Surveillance Testing (71111.22 - 4 samples)  a. Inspection Scope  The inspectors observed performance of surveillance tests and/or reviewed test data of
selected risk-significant SSCs to assess whether test results satisfied TSs, the UFSAR,
and Entergy's procedure requirements.  The inspectors verified that test acceptance
criteria were clear, tests demonstrated operational readiness and were consistent with design documentation, test instrumentation had current calibrations and the range and accuracy for the application, tests were performed as written, and applicable test
prerequisites were satisfied.  Upon test completion, the inspectors considered whether
the test results supported that equipment was capable of performing the required safety
functions.  The inspectors reviewed the following surveillance tests:
Unit 2  2-PT-Q034, 22 auxiliary feed pump quarterly surveillance, on August 1, 2016  Unit 3  3-PT-Q062A, 31 charging pump quarterly surveillance test, on August 24, 2016  3-PT-Q98C, steam line pressure functional test, on September 13, 2016  WO 00446386, 31 EDG AVR card inspection, on September 20, 2016  b. Findings  Introduction.  The inspectors identified a Green NCV of 10 CFR 50, Appendix B, Criterion XVI, "Corrective Actions," because Entergy did not take timely corrective action
to perform an inspection of the 33 EDG AVR card.  As a result, the degraded
connections on the L1 magnetic amplifier card on the 32 EDG were not repaired for a
prolonged period of time. 
Description.  On March 7, 2016, and March 10, 2016, the 23 EDG on Unit 2 experienced voltage control issues while in unit mode.  After performing troubleshooting on the voltage regulator card, Entergy determined that the solder joints on the L1 magnetic amp
connections were degraded, resulting in intermittent connections that affected the ability
to achieve and maintain voltage.  Entergy further determined that the solder joints had
been the subject of a 10 CFR 21 report in 2007.  The solder joints on all six affected diesel generators at Indian Point had been inspected initially in 2009 and 2010, but the recommended follow-up inspections had not been performed.  Entergy took action to
inspect the AVR cards on the Unit 2 EDGs before the end of the Unit 2 refueling outage
in May 2016 and identified indications of degradation in the L1 mag amp solder joints on
all three cards.    On May 19, 2016, Entergy wrote a corrective action to perform the same inspections on
the 31, 32, and 33 EDG AVR cards, under CR-IP3-2016-1370, CA-5.  This corrective 
24  action was originally due on June 10, 2016, with the intent to perform it prior to the next monthly surveillance of each EDG.  The EDGs had been evaluated as operable-
degraded/non-conforming, and completion of the corrective actions would restore the EDGs to operable status.  The inspections were not performed prior to the June surveillances because Entergy staff raised questions about the adequacy of the planned
post-maintenance testing.  The due date was extended to coincide with the next monthly
surveillance test.  The inspections were not performed prior to the July surveillances
because Entergy prioritized post-outage work at Unit 2 over the inspections and the due
date was extended for a second time to August.  The inspections were not performed prior to the August surveillances because Entergy once again prioritized other work at the station (repairs to the 23 circulating water pump) over the inspections, and the due
date was extended a third time.  Entergy's CAP requires that due date extensions
include the basis for why the extension is acceptable.  The justifications provided for
each due date extension were that the EDGs had been determined to be operable-degraded/non-conforming (vice inoperable).  The third due date extension also stated that this was an administrative action.  Subsequent discussions with management
revealed that the scheduling of resources prevented the completion of the Unit 3 EDG
AVR card solder joints because of higher priority assignments of resources.  These
assignments did not rise to the same level of risk significance as the Unit 3 EDG AVR card degradation.   
On September 23, 2016, Entergy performed the inspection on the 33 EDG AVR card
and identified two solder joints with signs of degradation.  They replaced all of the solder
joints for the L1 mag amp and returned the diesel generator to service.  The 33 EDG
performed satisfactorily during its last surveillance run.    Analysis.  The failure to ensure that the solder joint cracking on the 33 EDG AVR card was promptly identified and corrected was a performance deficiency that was within
Entergy's ability to foresee and correct.  Specifically, Entergy extended the due date
three times and performed the card inspections nearly four months after identifying that the recommended periodic inspections had not been performed and that degradation had occurred on three identical cards in Unit 2.  The performance deficiency is more
than minor because it is associated with the Design Control attribute of the Mitigating
Systems cornerstone and adversely affected its objective to ensure the reliability of systems that respond to initiating events to prevent undesirable consequences.  The
existence of cracked solder joints on the AVR card decreases the reliability of the EDGs, and the untimely corrective action allowed this degraded condition to persist without being corrected.  In accordance with IMC 0609.04, "Initial Characterization of Findings,"
and Exhibit 2 of IMC 0609, Appendix A, "The Significance Determination Process for
Findings At-Power," issued June 19, 2012, the inspectors determined that the finding
was of very low safety significance (Green) because the 33 EDG maintained its operability or functionality, it did not represent a loss of system or function, and it did not involve external mitigation systems. 
The inspectors determined that this finding had a cross-cutting aspect in the area of
Human Performance, Conservative Bias, because leaders did not take a conservative
approach to decision making, particularly when information is incomplete or conditions are unusual.  Specifically, Entergy did not inspect the 33 EDG AVR cards at the first available opportunity due to resource constraints.  [H.14] 
 
25  Enforcement.  10 CFR 50, Appendix B., Criterion XVI, states that measures shall be established to assure that conditions adverse to quality, such as failures, malfunctions, deficiencies, deviations, defective material and equipment, and nonconformances are promptly identified and corrected.  Contrary to this, between June 2016 and September 2016, Entergy's CAP did not assure that a condition adverse to quality
associated with the safety-related EDG system was promptly corrected.  Specifically,
they did not perform the recommended inspection of the 33 EDG AVR card, and as a
result, the degraded condition existed for prolonged period of time.  Entergy repaired the
degraded solder joints on the AVR card in the 33 EDG and wrote CR-IP3-2016-3018.  Because this violation was of very low safety significance (Green) and Entergy has entered this performance deficiency into the CAP, the NRC is treating this as an NCV in
accordance with Section 2.3.2.a of the NRC Enforcement Policy.  (NCV 05000286/2016003-03, Untimely Corrective Actions for Degraded Automatic Voltage Regulator Cards)  Cornerstone:  Emergency Preparedness  1EP6 Drill Evaluation (71114.06 - 1 sample)  Training Observation  a. Inspection Scope  The inspectors evaluated the conduct of a routine Entergy emergency drill on
September 14, 2016, to identify any weaknesses and deficiencies in the classification, notification, and protective action recommendation development activities.  The inspectors observed emergency response operations in the simulator to determine
whether the event classification, notifications, and protective action recommendations
were performed in accordance with procedures.  The inspectors also attended the
station drill critique to compare inspector observations with those identified by Entergy in order to evaluate Entergy's critique and to verify whether Entergy was properly identifying weaknesses and entering them into the CAP.  b. Findings 
No findings were identified.  2. RADIATION SAFETY  Cornerstone:  Public Radiation Safety and Occupational Radiation Safety 
2RS1 Radiological Hazard Assessment and Exposure Controls (71124.01 - 4 samples)  a. Inspection Scope  The inspectors reviewed Entergy's performance in assessing and controlling radiological
hazards in the workplace.  The inspectors used the requirements contained in 10 CFR 20, TSs, applicable regulatory guides (RGs), and the procedures required by TSs as criteria for determining compliance.
   
26    Instructions to Workers (1 sample)  The inspectors reviewed HRA work permit controls and use, observed containers of radioactive materials, and assessed whether the containers were labeled and controlled in accordance with requirements.  The inspectors reviewed several occurrences where a worker's electronic personal dosimeter alarmed.  The inspectors reviewed Entergy's evaluation of the incidents,
documentation in the CAP, and whether compensatory dose evaluations were
conducted when appropriate.  The inspectors verified follow-up investigations of actual radiological conditions for unexpected radiological hazards were performed. Contamination and Radioactive Material Control (1 sample) The inspectors observed the monitoring of potentially contaminated material leaving the RCA and inspected the methods and radiation monitoring instrumentation used for control, survey, and release of that material.  The inspectors selected several sealed sources from inventory records and assessed whether the sources were accounted for
and were tested for loose surface contamination.  The inspectors evaluated whether any recent transactions involving nationally tracked sources were reported in accordance with requirements. Risk-Significant HRA and Very High Radiation Area Controls (1 sample) The inspectors reviewed the procedures and controls for HRAs, very high radiation areas, and radiological transient areas in the plant.    Problem Identification and Resolution (1 sample)  The inspectors evaluated whether problems associated with radiation monitoring and
exposure control (including operating experience) were identified at an appropriate
threshold and properly addressed in the CAP.  b. Findings  Introduction.  A self-revealing Green NCV of TS 5.7.1e was identified when workers entered the Unit 2 FSB truck bay that was posted and controlled as a HRA without
receiving a briefing on dose rates in the work area.  Specifically, on June 6, 2016, two NPOs entered the Unit 2 FSB truck bay to hang tags on the backup spent fuel pool cooling filters.  The NPOs signed in on an RWP but did not receive a radiological briefing
on the dose rates in their work area.  After entering the area, one worker received an
electronic dosimeter dose rate alarm and subsequently both workers promptly exited the
area.  Immediate corrective actions included restricting the access of the two NPOs to
the RCA.  The issue was entered into Entergy's CAP as CR-IP2-2016-03610.  Description.  On June 6, 2016, two NPOs entered the Unit 2 FSB truck bay, a posted HRA, to hang tags on the backup spent fuel pool cooling filters.  The NPOs signed in on
a HRA RWP but did not receive a briefing on the radiological conditions in their work
area.  After entering the area, one worker received an electronic dosimeter dose rate alarm of 991 mrem/hr.  The two NPOs exited the HRA after receiving the alarm and reported the incident to radiation protection.   
27  Event follow-up (apparent cause evaluation for CR-IP2-2016-03610) determined that the NPOs entered the RCA at the Unit 2 health physics (HP) control point (HP1) but did not
check in with the HP shift technician.  They subsequently proceeded to the 80-foot elevation of the Unit 2 PAB where they were expected to dress out and receive a detailed radiological briefing at the outage HP desk.  The NPOs bypassed the normal
dress-out area and proceeded to the NPO field office, located on the 98-foot elevation of
the PAB, to dress-out.  After completing dress-out, the NPOs proceeded directly to their
work location, a posted HRA, without having received a briefing on radiological
conditions from the HP control desk on the 80-foot elevation of the PAB as required.  Shortly after entering the Unit 2 FSB truck bay HRA, one NPO received a dose rate alarm, later determined to be at 991 mrem/hr (alarm set point of 900 mrem/hr).  Both
workers exited the truck bay and proceeded to the HP control point.
TS 5.7.1 requires that activities in a HRA with dose rates greater than or equal to 100 mrem/hr at 30 centimeters from the source but less than 1000 mrem/hr shall be controlled by means of an RWP.  This includes specification of radiation dose rates in the
immediate work area and other appropriate radiation protection equipment and
measures and that all workers shall be briefed on the radiological conditions in their work
area prior to entry.    Analysis.  The failure to obtain a radiological briefing prior to entry into a posted HRA is a performance deficiency that was reasonably within Entergy's ability to foresee and
correct.  The performance deficiency was determined to be more than minor based on
similar example 6.h in IMC 0612, Appendix E, and because it adversely affected the Human Performance attribute of the Occupational Radiation Safety cornerstone objective.  Specifically, Entergy staff violated the TS 5.7.1 HRA radiological briefing requirement designed to protect workers from unnecessary radiation exposure.  Using IMC 0609, Appendix C, "Occupational Radiation Safety Significance Determination
Process," the finding was determined to be of very low safety significance (Green)
because it did not involve: (1) ALARA occupational collective exposure planning and controls, (2) an overexposure, (3) a substantial potential for overexposure, or (4) an impaired ability to assess dose.  The finding was self-revealing because Entergy was
made aware of the situation as a result of an electronic dose rate alarm.
The cause of the finding is related to the cross-cutting aspect of Human Performance,
Procedure Adherence, in that the workers did not follow processes, procedures, and work instructions for entering a posted HRA.  [H.8] 
Enforcement.  TS 5.7.1e requires that entry into an HRA with dose rates not exceeding 1.0 rem/hr at 30 centimeters from the source be performed by personnel that have been briefed on the radiological conditions in the area prior to entry.  Contrary to this requirement, on June 6, 2016, two NPOs entered the Unit 2 FSB truck bay, a posted HRA, to hang tags on the backup fuel pool cooling filters.  The NPOs signed in on an
RWP but did not receive a briefing on the radiological conditions in the area prior to
entry.  After entering the area, one worker received an electronic dosimeter dose rate
alarm and both workers promptly exited the area.  Immediate corrective actions included
restricting the access of the two NPOs to the RCA.  Because this finding was determined to be of low safety significance (Green) and was entered into Entergy's CAP as CR-IP2-2016-03610, this violation is being treated as an NCV consistent with
Section 2.3.2.a of the NRC Enforcement Policy.  (NCV 05000247/2016003-04, Entry into a High Radiation Area without Radiological Briefing) 
28  2RS2 Occupational ALARA Planning and Controls (71124.02 - 2 samples)  a. Inspection Scope  The inspectors assessed Entergy's performance with respect to maintaining occupational individual and collective radiation exposures ALARA.  The inspectors used
the requirements contained in 10 CFR 20, applicable RGs, TSs, and procedures
required by TSs as criteria for determining compliance.  Radiological Work Planning (1 sample)  The inspectors selected the following radiological work activities based on exposure
significance for review:  RWP 20162615, PCI-Baffle Bolt Removal/Repair  RWP 20162616, Westinghouse-Baffle Bolt Removal/Repair  RWP 20162601, Radiation Protection Support  RWP 20162642, Cavity Liner Repair  For each of these activities, the inspectors reviewed ALARA work activity evaluations, exposure estimates, exposure reduction requirements, results achieved (dose rate
reductions, actual dose), person-hour estimates and results achieved, and post-job reviews that were conducted to identify lessons learned.  Verification of Dose Estimates and Exposure Tracking Systems (1 sample)  The inspectors reviewed the current annual collective dose estimate; basis methodology; and measures to track, trend, and reduce occupational doses for ongoing work activities.  The inspectors evaluated the adjustment of exposure estimates or re-planning of work. 
The inspectors reviewed post-job ALARA evaluations of excessive exposure results.  b. Findings 
Introduction.  A self-revealing finding of very low safety significance (Green) was identified due to Entergy having unintended occupational collective exposure resulting from performance deficiencies in planning while preparing to perform reactor cavity liner repair activities during the Unit 2 refueling outage 2R22.  Inadequate work planning
resulted in unplanned, unintended collective exposure due to conditions that were reasonably within Entergy's ability to foresee.  The work activity planning deficiencies resulted in the collective exposure for these activities increasing from the planned dose of 2.386 person-rem to an actual dose of 10.305 person-rem.
Description.  Unit 2 has had a long-standing issue with refueling water storage tank water from the reactor refueling cavity (during refueling outages) leaking into the basement of the containment structure.  Leakage rates of 4.5 gallons per minute were observed during initial cavity flood-up, and continued throughout the outage, placing an
additional burden on the liquid radiological waste system to collect and process this
leakage.  Due to a period of limited work activity during the outage (2R22), a decision
was made to effect repairs by draining down the cavity and performing 
29  welding activities on the cavity liner.  Although the cavity liner leakage was a long-standing issue, no extensive work/repair plan existed when this window of opportunity
opened.    The original scope of work was an area on the west face of the cavity liner approximately
eight feet in length.  Upon closer examination of the cavity liner, it was determined by
Entergy that the area needing repair was much larger than originally intended on the
west face of the cavity liner and also needed to include the opposite face of the liner. 
The welding method in the original repair plan also proved inadequate to the task, resulting in most of the weld repairs not being able to be appropriately tested.  As a result, the repairs had only limited effectiveness, resulting in a small decrease of the
cavity leak rate from 4.5 gallons per minute to 3.7 gallons per minute.  Initial work was
performed on April 4, 2016, without the intended shielding being installed, resulting in an
additional 1.1 person-rem of exposure before the appropriate shielding was put in place.  The work estimate in person-hours was challenged by scope increases, consisting of greater than expected areas needing repair, difficulty of welding, and the material
condition of the cavity walls.  Unintended collective exposure that was greater than the
planned collective exposure for cavity liner repair work was the result of the limited and
inadequate plan for the work to be performed and included the following:  (1) conflicts and discrepancies in the original repair plan (CR-IP2-2016-02528), (2) two significant defects beyond the repair plan (CR-IP2-2016-02502), and (3) repairs could not be
completed due to the condition of the existing liner in localized areas
(CR-IP2-2016-02548). 
Consequently, the total collective dose for the reactor cavity liner repair increased from the planned collective dose of 2.386 person-rem to the actual collective dose of 10.305 person-rem.  This issue was entered into Entergy's CAP as CR-IP2-2016-02528,
CR-IP2-2016-02502, and CR-IP2-2016-02548.
Analysis.  The failure to develop an adequate outage work plan for the reactor cavity liner repair work was a performance deficiency that was within Entergy's ability to control
and prevent.  The performance deficiency was more than minor because it was
associated with the Program and Process attribute of the Occupational Radiation Safety
cornerstone and adversely affected the cornerstone objective to ensure the adequate
protection of the worker health and safety from exposure to radiation.  Additionally, the
performance deficiency was determined to be more than minor based on similar example 6.i in Appendix E of IMC 0612, in that the actual collective dose exceeded 5 person-rem and exceeded the planned, intended dose by more than 50 percent.  In
accordance with IMC 0609, Appendix C, "Occupational Radiation Safety Significance
Determination Process," the finding was determined to be of very low safety significance
(Green) because Unit 2's current three-year rolling average collective dose for 2013-2015 is 39.69 person-rem, which is less than the criteria of 135 person-rem per pressurized water reactor unit.  The finding had a cross-cutting aspect in the area of
Human Performance, Work Management, in that the process of planning work activities adversely impacted radiological safety.  [H.5]
Enforcement.  No violation of regulatory requirements occurred.  The ALARA rule (10 CFR 20.1101(b)) Statements of Consideration indicate that compliance with the
ALARA requirement will be judged on whether Entergy has incorporated measures to
track and, if necessary, to reduce exposures, and not whether exposures and doses represent an absolute minimum or whether Entergy has used all possible methods to 
30  reduce exposures.  The overall exposure performance of a nuclear power plant is used to determine its compliance with the ALARA rule.  Since Unit 2's current three-year
rolling average is 39.69 person-rem, which is below the three-year rolling average criterion of 135 person-rem per unit, and has an established ALARA program to reduce exposure consistent with the 10 CFR 20.1101 Statements of Consideration, no violation
of 10 CFR 20.1101(b) occurred.  Entergy entered this issue into their CAP as
CR-IP2-2016-02528, CR-IP2-2016-02502, and CR-IP2-2016-02548.  Because this issue
does not involve a violation and has very low safety significance, it is identified as a
finding.  (FIN 05000247/2016003-05, Failure to Maintain Radiation Exposure ALARA During Unit 2 Reactor Cavity Liner Repairs)  2RS4 Occupational Dose Assessment (71124.04 - 5 samples)  a. Inspection Scope  The inspectors reviewed the monitoring, assessment, and reporting of occupational
dose.  The inspectors used the requirements in 10 CFR 20, RG 8.9, RG 8.34, TSs, and
procedures required by TSs as criteria for determining compliance.    Inspection Planning  The inspectors reviewed radiation protection program audits, National Voluntary
Laboratory Accreditation Program (NVLAP) dosimetry testing reports, and procedures
associated with dosimetry operations.
Source Term Characterization (1 sample)  The inspectors reviewed the plant radiation characterization (including gamma, beta,
alpha, and neutron) being monitored.  The inspectors verified the use of scaling factors
to account for hard-to-detect radionuclides in internal dose assessments.  External Dosimetry (1 sample) 
The inspectors reviewed dosimetry NVLAP accreditation, onsite storage of dosimeters,
the use of "correction factors" to align electronic personal dosimeter results with NVLAP
dosimetry results, dosimetry occurrence reports, and CAP documents for adverse trends related to external dosimetry. 
Internal Dosimetry (1 sample) 
The inspectors reviewed internal dosimetry procedures, whole body counter measurement sensitivity and use, adequacy of the program for whole body count monitoring of plant radionuclides or other bioassay technique, adequacy of the program
for dose assessments based on air sample monitoring and the use of respiratory
protection, and internal dose assessments for any actual internal exposure.  Special Dosimetric Situations (1 sample)  The inspectors reviewed Entergy's worker notification of the risks of radiation exposure to the embryo/fetus, the dosimetry monitoring program for declared pregnant workers, 
31  external dose monitoring of workers in large dose rate gradient environments, and dose assessments performed since the last inspection that used multi-badging, skin dose, or
neutron dose assessments.  Problem Identification and Resolution (1 sample)  The inspectors evaluated whether problems associated with occupational dose
assessment were identified at an appropriate threshold and properly addressed in the
CAP.  b. Findings  No findings were identified. 
4. OTHER ACTIVITIES  4OA1 Performance Indicator Verification (71151 - 8 samples) 
Mitigating Systems Performance Index  a. Inspection Scope  The inspectors reviewed Entergy's submittals for the following Mitigating Systems
Cornerstone performance indicators for the period of July 1, 2015, through June 30,
2016:  Unit 2  Emergency AC Power System (MS06)  High Pressure Injection System (MS07)  Heat Removal System (MS08)  Residual Heat Removal System (MS09)  Unit 3  Emergency AC Power System (MS06)  High Pressure Injection System (MS07)  Heat Removal System (MS08)  Residual Heat Removal System (MS09)  To determine the accuracy of the performance indicator data reported during those periods, the inspectors used definitions and guidance contained in Nuclear Energy
Institute Document 99-02, "Regulatory Assessment Performance Indicator Guideline,"
Revision 7.  The inspectors also reviewed Entergy's operator narrative logs, CRs,
mitigating systems performance index derivation reports, event reports, and NRC integrated inspection reports to validate the accuracy of the submittals.    b. Findings  No findings were identified. 
32  4OA2 Problem Identification and Resolution (71152)  Routine Review of Problem Identification and Resolution Activities  a. Inspection Scope  As required by Inspection Procedure 71152, "Problem Identification and Resolution," the
inspectors routinely reviewed issues during baseline inspection activities and plant status reviews to verify that Entergy entered issues into the CAP at an appropriate threshold, gave adequate attention to timely corrective actions, and identified and addressed adverse trends.  In order to assist with the identification of repetitive
equipment failures and specific human performance issues for follow up, the inspectors
performed a daily screening of items entered into the CAP and periodically attended CR
review group meetings.  The inspectors also confirmed, on a sampling basis, that, as applicable, for identified defects and non-conformances, Entergy performed an evaluation in accordance with 10 CFR 21.
b. Findings  No findings were identified. 
4OA3 Follow Up of Events and Notices of Enforcement Discretion (71153 - 3 samples) 
.1 Plant Event  a. Inspection Scope  On July 6, 2016, Unit 2 experienced a reactor trip caused by a human performance
error.  The inspectors reviewed and observed plant parameters, reviewed personnel
performance, and evaluated performance of mitigating systems.  The inspectors communicated the plant status to appropriate regional personnel and compared the event details with criteria contained in IMC 0309, "Reactive Inspection Decision Basis for
Reactors," for consideration of potential reactive inspection activities.  The inspectors verified that Entergy properly reported the event in accordance with 10 CFR 50.72 and
50.73.  The inspectors reviewed Entergy's follow-up actions related to the events to
assure that Entergy implemented appropriate immediate corrective actions commensurate with their safety significance.  b. Findings  No findings were identified.  .2 (Closed) Licensee Event Report (LER) 05000247/2016-005-00:  TS Prohibited Condition Due to a Surveillance Requirement (SR) Never Performed for Testing the Trip of the
MBFPs.  On March 26, 2016, an NRC inspector identified that the trip of the MBFPs was not tested in accordance with TS 3.7.3 (Main Feedwater System) SR 3.7.3.3.  This performance deficiency was discovered as a result of an assessment of the failure of the
MBFPs steam stop valves to close after the reactor trip on December 5, 2015.  TS
SR 3.7.3.3 required testing the MBFP trip function every 24 months on an actual or 
33  simulated actuation signal.  Surveillance tests 2-PT-V024DS60 and 2-PT-V24DS61 were performed every 24 months, but only tested up to the limit switch contact that actuates
the MBFP turbine trip solenoid valves and did not include the trip function of the pump.  A review determined the requirement to verify the trip of the MBFPs was added to the TS during the implementation of the improved TS conversion program in 2000 but the corresponding testing for MBFP trip was not added to the surveillance tests.  The
condition was recorded in the Entergy's CAP in CR-IP2-2016-02247. 
The inspectors previously issued a Green NCV of TS 3.7.3 for failing to conduct required surveillance testing on the MBFP trip function as required by SR 3.7.3.3 in NRC Integrated Inspection Report 05000247/2016001.  There was no evidence that the
MBFP trip function had ever been tested and, therefore, did not qualify for treatment as a
missed surveillance under SR 3.0.3.  (NCV 05000247/2016001-04, Failure to Implement
SR for MBFP Trip Function)  The inspectors did not identify any new issues during the review of the LER.  This LER is
closed.
.3 (Closed) LER 05000247/2016-006-00:  TS Prohibited Condition Due to Inoperable 138kV Offsite Circuits Caused by a Disconnected SI Signal to the Station Auxiliary
Transformer LTC  The inspectors reviewed Entergy's actions and reportability criteria associated with LER
05000247/2016-006-00, which was submitted to the NRC on May 27, 2016.  On
March 9, 2016, during shutdown for a refueling outage, while performing testing of the SI system, the station SAT LTC failed to increase per design upon actuation of an SI signal.  At the time, the condition was acceptable for the current mode but was unacceptable
when the offsite AC electric power distribution and SI system is required to be operable.  An investigation was performed and it was discovered on March 28, 2016, that the SAT
control cabinet terminal blocks Wl05 and Wl06 had their links open thereby preventing proper operation of the LTC.  A review of tests and WO did not identify any previous failed tests or any WO with instructions to open the links. The last successful test of LTC operation was performed on February 26, 2014.  The inspectors reviewed the LER, the
associated apparent cause evaluation analysis, and interviewed Entergy staff. 
Introduction.  The inspectors identified a self-revealing, Green NCV for failing to comply with TS LCO 3.8.1, "Electrical Power Systems, AC Sources - Operating," from
February 26, 2014, to March 29, 2016.  During this time, the auto transfer function for
the 6.9kV offsite electrical buses was not operable because the SI anticipatory signal to
the SAT LTC was disconnected.  As a result, one of two qualified offsite AC circuits was
not operable.  Description.  On March 9, 2016, Entergy discovered that the SAT LTC failed to increase voltage as designed in response to an SI signal during the performance of surveillance
test 2-PT-R013, SI System, in Mode 5.  Unit 2 conducted the loss of normal power
surveillance test by manually actuating the SI signal from the control room.  Test results revealed that the SAT LTC would not adjust to raise bus voltage in anticipation of the fast transfer of vital buses from the unit auxiliary transformer (UAT) to the SAT.  Upon initiation of an SI signal, the SAT LTC was designed to raise bus voltage within 30
seconds in anticipation of the fast transfer of the vital buses 1 through 4 to buses 5 and 6
when loads are transferred from the UAT to the SAT and safeguards loads are 
34  sequenced in.  This anticipatory auto transfer feature is required to be operable by TS LCO 3.8.1 whenever the 138kV offsite line is supplying buses 5 and 6 through the SAT
and buses 1, 2, 3, and 4 are supplied from the UAT in modes 1 through 4.  With the as-found LTC condition, an event resulting in an SI and fast bus transfer could cause the secondary voltage to drop below the degraded voltage setpoint for more than
10 seconds, resulting in a separation of the safety buses from offsite power.
On March 28, 2016, while in mode 6, Entergy identified that the state links (W105 and
W106) that connected the SI anticipatory signal to the SAT LTC were disconnected.  A document review over a two-year period did not identify any WOs or other activities which directed these links to be opened.  Entergy concluded that the most likely cause
was human error during the last outage, 2RFO21, when workers apparently left the links
in the open position following maintenance activities.  The last successful test of the SAT
LTC was conducted on February 26, 2014.  Entergy closed the links and reinstituted to the SAT LTC SI anticipatory signal protective feature prior to entering mode 4.  Entergy also implemented corrective actions to maintenance procedures to require and
troubleshooting WOs to require concurrent verification that equipment was restored to
the proper configuration. 
The failure to reinstitute the anticipatory SI signal to the SAT LTC increased the likelihood that a LOOP to the vital buses during a fast dead bus transfer would occur if a
reactor trip and SI had actuated.  If the reduction in vital bus voltage caused the
degraded voltage relay(s) to actuate during a fast transfer and during the period when
safeguards loads were sequenced onto the safety buses, the associated EDGs (which
would have already started on the SI signal) would have automatically stripped and resequenced the safety loads onto the vital bus, which would then be powered directly from the EDGs.  In addition, the SAT LTC would have responded in automatic control to
the voltage transient and may have responded adequately to prevent a reduction in
voltage during the loss of normal power test on March 9, 2016. 
A note in TS 3.8.1 states "The automatic transfer function for the 6.9kV buses shall be operable whenever the 138kV is supplying 6.9kV bus 5 and 6 and the UAT is supplying
6.9kV bus 1, 2, 3, and 4."  UFSAR section 7.5.2.1.12.1 further states, "The LTC is used
to maintain the nominal voltage level on the SATs 6.9kV buses by automatically raising or lowering the SAT secondary winding taps in response to voltage variations on the
6.9kV buses.  During an SI event, the SI anticipatory signal will raise the LTC tap position, increasing the voltage towards a pre-selected voltage, in anticipation of the increased loads from the fast transfer of the loads held by the four 6.9kV in-house buses
to the SAT, thus reducing the severity of a degraded voltage condition on the 480V and
6.9kV buses."  As a result, Entergy concluded that TS 3.8.1(a) was not met because the
state links were not installed.    Analysis.  The failure to reinstall the state links (W105 and W106) following maintenance activities was a performance deficiency that was within Entergy's ability to foresee and
prevent.  Specifically, since February 2014, the SI anticipatory signal to the SAT LTC
was nonfunctional.  TS 3.8.1 requires this signal to be functional in order for the
associated offsite AC source to be operable.  This performance deficiency was more than minor because it is associated with the Equipment Performance attribute of the Mitigating Systems cornerstone to ensure the availability, reliability, and capability of
systems that respond to initiating events to prevent undesirable consequences (i.e., core
damage).  Using IMC 0609, Appendix A, "The Significance Determination Process for 
35  Findings At-Power," Exhibit 2, Mitigating Systems Screening Questions, this issue required a DRE because the loss of the SI anticipatory function may have resulted in the
SAT being unavailable under low or degraded grid voltage conditions and the second qualified offsite AC power line was therefore inoperable for a period longer than the TS allowable outage time.  A Region I SRA completed a DRE using the Unit 2 SPAR model
and qualitative analysis.  The following assumptions were used in the SPAR model analysis:  1) an exposure period one year (maximum length of time per significance
determination process guidance), 2) to mimic the LTC OOS (plant design feature not
modeled) the failure probability of the SAT basic event (ACP-TFM-SAT) was increased from 2.27E-5 to 2.27E-4 (one order of magnitude) to represent the increased likelihood of the SAT being rendered unavailable due to a low grid voltage condition, 3) truncation
was left at 1E-11, and 4) SAT recovery credit was not provided, although the SAT could
be manually restored to service following initial electrical plant stabilization using the
EDGs to restore power to the safety buses.  Based upon these conservative modeling assumptions and the condition under which the SI anticipatory signal would be relied upon (a coincident loss of coolant accident and SI actuation), the safety significance of
this issue is less than E-8/year or very low safety significance (Green).  The dominant sequences involve a loss of coolant accident and failure of the EDGs.  The inspectors determined that the finding had a cross-cutting aspect of Human Performance, Work Management, because Entergy did not implement a process of
controlling and executing work activities.  Specifically, the work process did not coordinate with different groups or job activities to ensure the state links were restored at
the end of the work activities.  [H.5]  Enforcement.  TS 3.8.1 requires two offsite AC electrical sources to be operable when in modes 1 through 4.  A note in TS 3.8.1 requires the automatic transfer function for the
6.9kV buses to be operable in modes 1 through 4 whenever the 138kV is supplying
6.9kV bus 5 and 6 and the UAT is supplying 6.9kV bus 1, 2, 3, and 4.  The UFSAR
concludes that the SAT LTC SI signal feature is required to support the automatic
transfer function.  Contrary to this requirement, the automatic transfer function was not operable from February 26, 2014, until March 29, 2016.  Unit 2 was operating in Mode 1 for most of this time.  Entergy entered this condition into their CAP (CR-IP2-2016-01386
and CR-IP2-2016-02293) and restored the SAT LTC anticipatory SI signal by closing the
state links W105 and W106.  This finding was of very low safety significance and was
documented in Entergy's CAP.  Therefore, this violation is being treated as an NCV,
consistent with section 2.3.2.a of the NRC Enforcement Policy. 
(NCV 05000247/2016003-06, Failure to Maintain Two Qualified AC Sources of
Offsite Power)  This LER is closed.  4OA5 Other Activities  .1 Groundwater Contamination  a. Inspection Scope  In February 2016, Entergy notified the NRC of a significant increase in groundwater
tritium levels measured at three monitoring wells (MW-30, MW-31, and MW-32) located 
36  near the Unit 2 FSB.  In August 2016, Entergy notified the NRC of the detection of Cobalt-58 measured in MW-32 located near the Unit 2 FSB.  b. Findings and Observations  (Closed) URI 05000247/2016001-07:  January 2016 Groundwater Contamination  Introduction.  The inspectors identified a Green NOV of 10 CFR 20.1406(c) for Entergy's failure to conduct operations to minimize the introduction of residual radioactivity into the subsurface of the site (groundwater).  Specifically, Entergy has not maintained the floor drain systems clear of obstructions and interferences and has not verified the ability of
the floor drains to handle the volume and flowrates for draining activities being
conducted.  As a result, repeated spills of contaminated water within the RCA leaked to
onsite groundwater.  Two previous occurrences in April 2014 (NRC Inspection Report 05000247/2015002) and February 2015 (NRC Inspection Report 05000247/2015003) resulted in a licensee-identified Green NCV and an NRC-identified Green NCV.  This
inspection report documents two additional similar floor drain backup spill events that
resulted in groundwater contamination that are the subject of this violation.  Specifically,
on January 2016, a spill caused by multiple floor drain obstructions resulted in the backup of contaminated water onto the floor of the 35-foot elevation of the PAB and the subfloor of the Unit 2 FSB with subsequent leakage to onsite groundwater.  In June/July
2016, another event occurred due to an obstructed flow path through a floor drain in the
FSB, which spilled to the subfloor and contaminated the onsite groundwater.  Description.  This violation involves two separate incidents of contaminated water spills that resulted in groundwater contamination due to poor floor drain management.  The
first incident involved a January 2016 groundwater contamination event.  The inspectors
previously identified a URI regarding whether Entergy's controls to prevent the
introduction of radioactivity into the site groundwater for this occurrence were adequate. 
Specifically, Entergy obtained increased tritium concentrations from onsite groundwater monitoring well samples in January 2016 indicating that a leak or spill had occurred allowing the introduction of radioactivity into the subsurface of the site.  Entergy entered
this issue into their CAP as CR-IP2-2016-00264, CR-IP2-2016-00266, and CR-IP2-
2016-00564 with actions to characterize and evaluate this new leak.  The initial Entergy
investigation focused on identifying the source of the contamination which was
preliminarily determined to originate from the reject water of a reverse osmosis (RO) skid that was in service from January 16-31, 2016.  This causal determination was based on the timing of the groundwater contamination event and based on the unique matching of
the radionuclide signature from the groundwater samples and the RO skid reject water. 
Based on subsequent completion of Entergy's root cause evaluation, the URI can be evaluated and assessed.  Two pathways to the site subsurface were identified.  One pathway was the floor drain pathway in the PAB from below the RO unit to the PAB sump, where multiple drain obstructions led to spillage from two uncapped cut drain lines
located above the floor on the 35-foot elevation of the PAB, and leakage to the
subsurface from the floor wall interface on the 35-foot elevation of the PAB.  The second
cause was attributed to filling the Unit 2 radiological waste sump 28 until it backed up into the subfloor of the Unit 2 FSB truck bay and subsequently leaked out into the ground, contaminating the groundwater.  This was attributed to rerouting a drain path for
the RO skid reject water into a floor drain with a higher operating level in radiological
waste sump 28 that caused backup into a subfloor drain channel into the subfloor of the 
37  Unit 2 FSB truck bay.  This condition was the result of an inoperable radiological waste pump and a temporary drain path arrangement that was not fully evaluated to prevent potential groundwater contamination spills.  Regarding the second groundwater contamination incident, on August 10, 2016, Entergy
notified the NRC of the detection of Co-58 in monitoring well MW 32-59 located near the
Unit 2 FSB.  This sample was drawn on July 5, 2016, and analyzed on the week of
August 1, 2016.  The concentration detected was 76.7 pCi/l.  This event was
documented by Entergy in CR-IP2-2016-05060.  Following identification of Co-58 in the well sample, Entergy directed its vendor laboratory to recount the sample, and to also immediately send off the next sample taken from MW 32-59, on July 18, 2016, for
analysis.  The sample recount, together with the counting of the July 18, 2016, sample,
confirmed the presence of Co-58.  No increase in tritium concentration was seen at
MW 32 on either of these dates.  The Entergy groundwater team, previously assembled for the January 2016 event (described above), began investigating the cause of this new leak.  The presence of Co-58 was determined to be indicative of reactor coolant, due to
its relatively short half-life.  Since Unit 2 had recently (in June 2016) completed a
refueling outage, the source of the leak could also have been from the spent fuel pool,
as the two systems were connected throughout the refueling outage.  Previously, on July 19, 2016, in CR-IP2-2016-04559, Entergy had identified high levels of contamination in the Unit 2 FSB truck bay subfloor as part of their investigation into the
leakage path for the January 2016 event.  Analysis of this contamination revealed the
presence of Co-58. 
Entergy's investigation focused on examination of the source of the contamination with a pathway from the Unit 2 FSB truck bay subfloor.  Based on this investigation, Entergy identified that in June 2016 following conclusion of the Unit 2 refueling outage, the spent
fuel pool alternate decay heat removal system was drained to sump 28.  This equipment
contained spent fuel pool water and could, therefore, have been the source of the Co-58
contamination.  Review of the drainage pathway from the system to sump 28 identified that the system was drained by pumping its contents to a floor drain located on the west side of the Unit 2 FSB truck bay, with that drain going to sump 28.  Further analysis
identified that the floor drain used was partially blocked by the presence of another large
temporary drain line previously used during the 2015 dry fuel cask storage project.  The
presence of this second line going into the floor drain significantly reduced the capacity
of the drain, resulting in the alternate decay heat removal liquids backing up inside the drain system, back-flowing into the north crane rail sole plate, and then spilling onto the Unit 2 FSB truck bay subfloor, which was already identified as a known leakage pathway
to groundwater.  This pathway was confirmed by Entergy based on the high
contamination levels detected in the north crane rail sole plate and the FSB truck bay
subfloor, including the presence of Co-58.    The NRC assessment of the safety significance of these events focused on validating
the safety impact of dose to the public from the release of tritium and Co-58 to the site
groundwater, and ultimately to the Hudson River.  The NRC verified that Entergy's
bounding public dose calculations on the groundwater contamination leaks were
sufficiently conservative, and a maximum worst case scenario would result in 0.000112 millirem (mrem) per year, which represents a very small fraction of the allowable dose (liquid effluent dose objective of 3 mrem per year). 
38  Analysis.  The failure to conduct operations to minimize the introduction of residual radioactivity into the subsurface of the site, as required by 10 CFR 20.1406(c), is a performance deficiency within Entergy's ability to foresee and correct and should have been prevented.  Specifically, two events involving the leakage of contaminated water to the onsite groundwater occurred due to Entergy's failure to control and maintain its floor
drain systems clear of obstructions and interferences and to verify their ability to handle
the volume and flowrates for draining activities being conducted.  The issue is more than minor because it is associated with the Program and Process attribute of the Public Radiation Safety cornerstone and adversely affected the cornerstone objective to ensure Entergy's ability to prevent inadvertent release and/or
loss of control of licensed material to an unrestricted area due to the actual
contamination of groundwater that occurred.  In accordance with IMC 0609, Appendix D,
"Public Radiation Safety Significance Determination Process," the finding was determined to be of very low safety significance (Green) because Entergy had an issue involving radioactive material control but did not involve transportation or public
exposure in excess of 0.005 Rem.    In accordance with IMC 0310, "Aspects within the Cross-Cutting Areas," dated December 4, 2014, the finding had a cross-cutting aspect in the area of Problem Identification and Resolution, Resolution, in that effective corrective actions to address
issues identified in two previous groundwater leaks since 2014 were not implemented in
a timely manner, which could have prevented this leak.  [P.3]  Enforcement.  10 CFR 20.1406(c) requires, in part, that licensees shall, to the extent practical, conduct operations to minimize the introduction of residual radioactivity into the
site, including the subsurface.  Contrary to the above, on two occasions between
January 2016 and July 2016, Entergy failed to conduct operations to minimize the
introduction of residual radioactivity into the subsurface of the site.  Specifically, Entergy
has not maintained its floor drain system clear of obstructions and interferences and has not verified the ability of the floor drains to handle the volume and flowrates for draining activities being conducted.  As a result, repeated spills of contaminated water within the
RCA leaked into the site groundwater.  Specifically, in January 2016, a spill caused by
floor drain obstructions resulted in the backup of contaminated water onto the floor and
subsequent leakage to the subsurface of the site.  A subsequent June/July 2016
groundwater contamination event occurred due to an obstructed flow path through a floor drain in the Unit 2 FSB, which spilled to the subfloor and contaminated the subsurface of the site.  Entergy's immediate corrective actions included decontamination of the adversely
affected plant areas, revision of the operating procedure for radiological waste sump 28, and sealing the Unit 2 FSB subfloor to make it water tight to prevent further groundwater contamination from this location.  Entergy's planned corrective action to address the
existing groundwater contamination is the start-up and operation of a recovery well
system (RW-1).  The system will allow for the collection of contaminated groundwater to be returned inside the PAB for processing.    This violation meets the criteria in Section 2.3.2.a of the NRC Enforcement Policy to disposition as an NCV.  However, the NRC considered that in April 2014 (NRC
Inspection Report 05000247/2015002) and again in February 2015 (NRC Inspection
Report 05000247/2015003), Entergy also had contaminated water spills inside the RCA 
39  which leaked to groundwater due to blockages in the Unit 2 floor drain system.  Entergy's corrective actions for these previous occurrences were limited to clearing the specific floor drains involved in the flow paths for each event.  The NRC concluded that Entergy's actions for these most recent events, while similarly responsive to the specific occurrences, do not adequately address the broader concern regarding a lack of control
and management of the site floor drain system.  Therefore, the NRC is issuing a NOV
and is requiring a response from Entergy that describes a more comprehensive CAP for
maintaining an effective floor drain system and a process for evaluating and using the
floor drains to handle the volume and flowrates for draining activities being conducted.  The NOV is enclosed (Enclosure 1).  (VIO 05000247/2016003-07, Inadequate Control of Floor Drains to Minimize Groundwater Contamination)  This URI is closed.  .2 (Closed) URI 05000247/2016002-01, CVCS Goal Monitoring Under the Maintenance Rule  a. Inspection Scope  During the 2nd quarter of 2016, the inspectors identified issues of potential concern with Entergy's application of 10 CFR 50.65(a)(1), "Requirements for Monitoring the
Effectiveness of Maintenance at Nuclear Plants," in regards to the reliability of the Unit 2
chemical and volume control system (CVCS).  These concerns included the
establishment of appropriate (a)(1) goals and whether appropriate justification was
established that the corrective actions to address identified maintenance weaknesses were effective prior to removal from (a)(1) status.  A URI (05000247/2016002-01) was identified because additional NRC review and evaluation was needed to determine
whether three identified issues of concern represented performance deficiencies and
whether they were more than minor.  The inspectors further evaluated the issues and
reviewed against 10 CFR 50.65, Requirements for monitoring the effectiveness of maintenance at nuclear power plants; NUMARC 93-01, Industry guideline for monitoring the effectiveness of maintenance at nuclear power plants, Revision 4A; EN-DC-206,
Maintenance Rule (a)(1) Process, Revision 3; and NRC Enforcement Manual, Revision
9. 
For two issues of concern identified in URI 05000247/2016002-01, the inspectors determined that Entergy's goals established for each of the issues were adequate to provide reasonable assurance that system components would perform their intended
function on demand in accordance with the requirements of 10 CFR 50.65.  For these
two issues, the inspectors determined that Entergy placed the CVCS system in
Maintenance Rule (a)(1) status and established goals to monitor performance.  The goals were adequate to provided reasonable assurance that system components would perform their intended function.  Therefore, no violation of 10 CFR 50.65(a)(1) occurred. 
However, the inspectors identified weaknesses in the narrowness of the scope, the
applicable time periods, and the technical justification for the goals.  The weaknesses
are as follows:
  23 charging pump internal oil tube failure.  Although 10 CFR 50.65 industry and site guidance documents provide leeway in whether to establish system, train, or specific component goals, the inspectors concluded that the goal on only the 23 charging 
40  pump was narrowly focused and did not include similar conditions for the 21 and 22 charging pumps  22 charging pump check valve failure.  Although 10 CFR 50.65 industry, and site guidance documents provide latitude on the number of surveillances and occurrences to monitor in accordance with your goal, the inspectors concluded that the goal with only one fill and vent maintenance activity was narrowly focused and additional activities were not included 
The third issue of concern involved a failure of the Unit 2 valve FCV-110A, boric acid
flow control valve, to fully open on January 5, 2015.  The valve was insufficiently
insulated and, as a result, boron crystallized above the valve plug and blocked movement.  The inspectors reviewed the (a)(1) action plan for FCV-110A, which specified a monitoring interval of six months to include the winter because previous valve failures had all occurred during the winter months.  The inspectors noted that the
action plan did not specify a goal and that the actual monitoring interval documented in
the corrective action was from April to October 2015 and, therefore, did not include the winter months when failure would most likely occur.  The inspectors determined that this was not in accordance with EN-DC-206, "Maintenance Rule (a)(1) Process," Section
5.5[3], which states, in part, that monitoring intervals should be long enough to detect
recurrence of the applicable failure mechanism and 5.3[4](h) which states, in part,
"Goals should be quantifiable with specific limits, and trendable if practicable."  In addition, the inspectors determined that represented a violation of 10 CFR 50.65(a)(1), "Requirements for monitoring the effectiveness of maintenance at nuclear power plants," 
because the failure to monitor the condition during the winter months against licensee
established goals, was a failure to monitor the performance of FCV-110A in a manner
sufficient to provide a reasonable assurance that the valve was capable of performing its intended functions.  This issue was determined to be a minor violation because the reliability of FCV-110A and the CVCS was not impacted.  Although, Entergy's failed to adequately monitor the performance FCV-110A, no valve performance issues or failures occurred during the winter months following repair of the insulation.  Consistent with the
NRC Enforcement Policy, Section 2.2.2, minor violations generally do not warrant
enforcement action but are required to be entered into the station's CAP and actions taken to restore compliance.  Entergy entered this issue into their CAP as CR-IP2-2017-00084 for resolution.
URI 05000247/2016002-01 is closed.  b. Findings 
No findings were identified.   
41  4OA6 Meetings, Including Exit  On October 26, 2016, the inspectors presented the inspection results to Mr. Anthony Vitale, Site Vice President, and other members of Entergy.  On January 6, 2017, a telephone call was conducted between Mr. Eugene DiPaolo, Acting Branch Chief,
Reactor Projects Branch 2, and Mr. Robert Walpole, Nuclear Safety Assurance
Manager, to clarify details associated with the closure of URI 05000247/2016002-01. 
The inspectors verified that no proprietary information was retained by the inspectors or
documented in this report.
 
ATTACHMENT:  SUPPLEMENTARY INFORMATION 
A-1  Attachment SUPPLEMENTARY INFORMATION  KEY POINTS OF CONTACT  Entergy Personnel 
A. Vitale, Site Vice President
J. Kirkpatrick, Plant Operations General Manager
R. Alexander, Unit 2 Shift Manager N. Azevedo, Engineering Supervisor K. Baumbach, Chemistry Supervisor
S. Bianco, Operations Fire Marshal
C. Bohrens, Unit 2 Shift Manager
R. Burroni, Engineering Director  T. Chan, Engineering Supervisor R. Daley, Engineering Supervisor
D. Dewey, Unit 3 Assistant Operations Manager
R. Dolansky, ISI Program Manager
R. Drake, Civil Design Engineering Supervisor J. Ferrick, Regulatory Assurance and Performance Improvement Director D. Gagnon, Security Manager
L. Glander, Emergency Preparedness Manager
F. Kich, Performance Improvement Manager
M. Lewis, Unit 2 Assistant Operations Manager
N. Lizzo, Training Manager B. McCarthy, Operations Manager F. Mitchell, Radiation Protection Manager
E. Mullek, Maintenance Manager
E. Portanova, System Engineer I (Nuclear)
M. Tesoriero, System Engineering Manager M. Troy, Nuclear Oversight Manager R. Walpole, Regulatory Assurance Manager
 
A-2  LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED  Opened 
05000247/2016003-07  VIO  Inadequate Control of Floor Drains to Minimize
      Groundwater Contamination (Section 4OA5)
Opened/Closed  05000286/2016003-01 NCV  Failure to Adequately Assess Fire Risk      Associated with Maintenance on the Unit 3
      Appendix R Diesel Generator (Section 1R13)
05000247/2016003-02 NCV  Missed Inspections on Automatic Voltage Regulator      Cards Results in Emergency Diesel Generator      Failure to Run (Section 1R15)
05000286/2016003-03 NCV  Untimely Corrective Actions to Address Degraded Automatic Voltage Regulator Cards (Section 1R22)  05000247/2016003-04 NCV  Entry into a High Radiation Area without
      Radiological Briefing (Section 2RS1)
05000247/2016003-05 FIN  Failure to Maintain Radiation Exposure ALARA
      During Unit 2 Reactor Cavity Liner Repairs      (Section 2RS2) 
05000247/2016003-06 NCV  Failure to Maintain Two Qualified AC Sources of
      Offsite Power (Section 4OA3)
  Closed  05000247/2016001-06 URI  23 EDG Automatic Voltage Regulator Failure
      (Section 1R15)
05000247/2016001-07 URI  January 2016 Groundwater Contamination (Section 4OA5) 
05000247/2016002-01  URI CVCS Goal Monitoring Under the Maintenance Rule (Section 4OA5)  05000247/2016-005-00 LER  TS Prohibited Condition Due to a SR Never      Performed for Testing the Trip of the MBFPs (Section 4OA3) 
05000247/2016-006-00 LER  TS Prohibited Condition Due to Inoperable    138kV Offsite Circuits Caused by a Disconnected SI Signal to the Station Auxiliary Transformer LTC (Section 4OA3)   
A-3  LIST OF DOCUMENTS REVIEWED 
Common Documents Used Indian Point Unit 2, UFSAR
Indian Point Unit 3, UFSAR
Indian Point Unit 2, Individual Plant Examination
Indian Point Unit 3, Individual Plant Examination
Indian Point Unit 2, Individual Plant Examination of External Events
Indian Point Unit 3, Individual Plant Examination of External Events Indian Point Unit 2, TSs and Bases Indian Point Unit 3, TSs and Bases
Indian Point Unit 2, Technical Requirements Manual
Indian Point Unit 3, Technical Requirements Manual
Control Room Narrative Logs Plan of the Day  Section 1R01:  Adverse Weather Protection  Procedures OAP-008, Severe Weather Preparations, Revision 23
Condition Reports (CR-IP2-) 2016-04699
Section 1R04:  Equipment Alignment  Procedures 2-COL-4.1.1, Component Cooling Water System, Revision 26
2-COL-21.3, Steam Generator Water Level and Auxiliary Boiler Feedwater, Revision 34
2-COL-31.2, Gas Turbine 2, Revision 7 2-COL-31.3, Gas Turbine 3, Revision 10 3-SOP-EL-013, ARDG Operation, Revision 30
COL-EL-6, ARDG, Revision 10
Drawings 9321-F-21213, Flow Diagram Appendix R 6.9kV EDG Fuel Oil System, Revision 6 9321-F-21203, Flow Diagram Appendix R 6.9kV EDG Lube Oil System, Revision 2 9321-F-21223, Flow Diagram Appendix R 6.9kV EDG Jacket Water System, Revision 3
Drawing 304122, GT-2/3 Fuel Forwarding System, Revision 7
Section 1R05:  Fire Protection  Procedures EN-TQ-125, Fire Brigade Drills, Revision 4
Condition Reports (CR-IP3-) 2016-03052  Miscellaneous Transient Combustible Evaluation 16-017, Revision 1
   
A-4  Section 1R11:  Licensed Operator Requalification Program  Procedures 2-POP-1.2, Reactor Startup, Revision 59 3-AOP-ROD-1, Rod Control and Indication System Malfunctions, Revision 3
3-E-0, Reactor Trip or SI, Revision 6
3-E-3, Steam Generator Tube Rupture, Revision 4
EN-OP-115, Conduct of Operations, Revision 17
Condition Reports (CR-IP3-) 2016-02892 2016-02899 
Miscellaneous Simulator Training Scenario I3SX-LOR-SES013, Letdown Line Rupture, Main Turbine Generator Control Valve Shuts, Misaligned Rod, Steam Generator TR, Revision 4 Simulator Training Scenario LRQ-SES-ECA00A, Loss of 13.8/138kV (AOP-138kv-1) with Subsequent Loss of Grid and Main Generator Trip (E-0) and Loss of All AC Power
(ECA-0.0, 0.1, 0.2), Following Turbine First Stage Press Instrument, PT412A,
(AOP-INST-1) Failure and Loss of MCC-28, Revision 9  Section 1R12:  Maintenance Effectiveness  Procedures EN-DC-153, Preventive Maintenance Component Classification, Revision 14
EN-DC-205, Maintenance Rule Monitoring, Revision 5 EN-LI-102, Corrective Action Program, Revision 27 EN-WM-100, Work Request Generation, Screening and Classification, Revision 13
Condition Reports (CR-IP3-) 2011-05686 2014-00544 2014-00700 2014-01678 2014-02338 2014-02579 2014-02661 2014-02696 2014-02753 2014-02762 2015-01751 2015-01961 2015-03009 2015-03456 2015-03522 2015-03779 2015-03838 2016-01352
2016-02339
Miscellaneous Maintenance Rule Action Plan - Unit 3 Reactor Protection and Controls, 07/30/2015  Section 1R13:  Maintenance Risk Assessments and Emergent Work Control  Procedures EN-OP-119, Protected Equipment Postings, Revision 8 IP-SMM-WM-101, Fire Protection and Maintenance Rule (a)(4) Risk Assessment, Revision 5 
Condition Reports (CR-IP3-) 2016-02267 2016-02538
Miscellaneous Equipment Out-of-Service Risk Assessment Tool, Unit 3   
A-5  Section 1R15:  Operability Determinations and Functionality Assessments  Procedures 0-IC-SI-90-142, Digital Metal Impact Monitoring System (DMIMs) Baseline Recording Using Calibrated Hammers, Revision 0 0-IC-SI-90-143, DMIMs Signal Conditioning Calibration, Revision 4
0-IC-SI-90-145, DMIMs Operational Test, Revision 3
2-SOP-1.9, DMIMS Operation, Revision 7
3-PT-V49, DMIM System Check, Revision 1 EN-OP-104, Operability Determination Process, Revision 11 RXC-B-023-A, Metal Impact Monitoring System Signal Conditioner Calibration (NSID-EIS-90-143, Revision 4), Revision 0 RXC-B-024-A, Metal Impact Monitoring System Operational Test (NSID-EIS-90-145, Revision 4), Revision 0  Condition Reports (CR-IP2-) 2010-03316 2010-03773 2010-04545 2010-05677 2010-07126 2010-07468
2011-01205 2011-01266 2011-03693 2012-03453 2012-04766 2012-06131
2012-07266 2013-01009 2013-02540 2014-01718 2014-02261 2014-02550 2014-02653 2014-02738 2014-05812 2014-05813 2014-05816 2016-01260 2016-01500 2016-03360 2016-03525 2016-03800 2016-03856 2016-04764
2016-05220 2016-05418 2016-05442 2016-05444 2016-05528 2016-05757
Condition Reports (CR-IP3-) 2016-01370 2016-02551 2016-02910 2016-02961 2016-03018  Maintenance Orders/Work Orders WO 130432 WO 130454 WO 130456 WO 130460 WO 130462 WO 446386
WO 446387 WO 446388
Miscellaneous Report of Defect per 10 CFR 21, Basler Electric SBSR AVR Card Solder Joints, dated September 21, 2007 Safety Evaluation by the Office of Nuclear Reactor Regulation Related to the Elimination of Large Primary Loop Ruptures as a Design Basis, Power Authority of the State of New York,
Indian Point Nuclear Generating Unit No. 3, Docket No. 50-286, dated March 10, 1986 Supplement to Safety Evaluation by the Office of Nuclear Reactor Regulation Regarding Leakage Detection Capability in Elimination of Large Primary Loop Ruptures as a Design
Basis, Indian Point Nuclear Generating Unit No. 3, Docket No. 50-286, dated January 30,
2002 Westinghouse Proprietary Letter (RIDA 16-152)  Section 1R18:  Plant Modifications  Procedures EN-DC-112, Engineering Change Request Process, Revision 8
EN-DC-115, Engineering Change Process, Revision 18 EN-DC-136, Temporary Modifications, Revision 12 EN-DC-136, Temporary Modifications, Revision 13
EN-LI-100, Process Applicability Determination, Revision 18
Condition Reports (CR-IP2-) 2016-05311 
A-6  Condition Reports (CR-IP3-) 2016-02937  Maintenance Orders/Work Orders WO 00454240-02 WO 00454240-03 WO 52713002 
Miscellaneous Engineering Change (EC) 66780, Temporary Modification to Install Jumpers in Order to Maintain Bus 5A Interlocking EC 65773, Replace ARDG Battery Charger Relay Circuit While Relay 62-2/5A Is Replaced
MCENPC23, Battery Charger User's Manual, Revision 2.2
Temp Mod No. 66349, Temp Modification to Preserve Structural Integrity of Battery 23 Cell Jar No. 4 TMCN 66790, Clarification for Connection of Temp Jumpers to Maintain Daisy chain TMCN 66801, Alternate Connection Point for One of Temp Jumpers to Maintain Daisy chain
Section 1R19:  Post-Maintenance Testing  Procedures 2-PT-Q030A, 21 Component Cooling Water Pump, Revision 19 3-GNR-028-ELC, ARDG 4-Year Inspection, Revision 8
3-GNR-036-ELC, ARDG Semi-Annual Inspection, Revision 8 3-PT-M66, Appendix R Diesel Battery Inspection, Revision 21
3-PT-Q139, ARDG Functional Test, Revision 1  Condition Reports (CR-IP2-) 2016-05742 2016-05777 2016-05795
Maintenance Orders/Work Orders WO 00311837  WO 445129  WO 456276  WO 52509887
WO 52516076  WO 52680382  WO 52713002
Miscellaneous EC 65773, Replace ARDG Battery Charger
Section 1R22:  Surveillance Testing  Procedures 2-PT-Q034, 22 Auxiliary Feed Pump, Revision 30
3-PT-M079A, 31 EDG Functional Test, Revision 51 3-PT-Q062A, 31 Charging Pump Operability Test, Revision 17 3-PT-Q98C, Steam Line Pressure Functional Test - Channel III, Revision 8
Condition Reports (CR-IP3-) 2016-02881
   
A-7  Maintenance Orders/Work Orders WO 00446386  WO 52699018  WO 52699700  Miscellaneous 3-PT-Q062A, 31 Charging Pump Operability Test, completed August 24, 2016 IP3-CALC-ESS-00276, Instrument Loop Accuracy/Setpoint Calculation - Steam Line Pressure (Low) and Steam Line Delta P (High), Revision 2 MB-2007-01, Potential for Solder Joint Cracks on Basler SBSR AVR Cards and Technical Manual Addendum TM-2007-01, dated November 5, 2007  Section 1EP6:  Drill Evaluation  Condition Reports (CR-IP3-) 2016-02892 2016-02894 2016-02895 2016-02899  Miscellaneous Drill Scenario
Section 2RS2:  Occupational ALARA Planning and Controls  Condition Reports (CR-IP2-) 2016-02502 2016-02528 2016-02548
Miscellaneous Indian Point 2 Refueling Outage 22 ALARA Report ALARA Committee Meeting Minutes for:  March 29, 2016, April 5, 2016, April 6, 2016, April 8, 2016, April 12, 2016, May 2, 2016, and June 14, 2016  Section 2RS4:  Occupational Dose Assessment  Procedures EN-RP-204, Special Monitoring Requirements, Revision 10 EN-RP-204-01, Effective Dose Equivalent Monitoring, Revision 0
EN-RP-205, Prenatal Monitoring, Revision 3
EN-RP-207, Planned Special Exposures, Revision 3
EN-RP-314, Passive Monitoring Sensitivity Tests, Revision 0  Miscellaneous NVLAP Personnel Dosimetry Performance Testing for Landauer, Inc., 2016
Section 4OA1:  Performance Indicator Verification  Procedures EN-LI-114, Regulatory Performance Indicator Process, Revision 7
Section 4OA2:  Problem Identification and Resolution  Procedures EN-LI-102, CAP, Revision 27 CEP-NDE-0255, Radiographic Examination for ASME Welds and Components, ASME Section XI, Revision 8 CEP-NDE-0404, (PDI UT-1) Manual Ultrasonic Testing of Ferritic Piping Welds (ASME XI), Revision 5 
A-8  Welding Procedure Specification,134 F42 MN-GTAW, Manual Gas Tungsten Arc Welding, Revision 0  Condition Reports (CR-IP2) 2015-05755 2016-03818 2016-04085 2016-05358 2016-05503 
Condition Reports (CR-IP3) 2015-05136 2016-01113
Maintenance Orders/Work Orders WO 431643 WO 447966 
Miscellaneous Engineering Standard - Pipe Wall Thinning Structural Evaluation, Revision 0 Indian Point Energy Center NRC Generic Letter 89-13 SW Program, Revision 6 SW System Health Reports, IP Unit 2 and IP Unit 3, Second Quarter 2016
Section 4OA3:  Follow-up of Events and Notices of Enforcement Discretion  Procedures 2-PT-V024-DS060, Valve BFD-2-21 IST Data Sheet, Revision 10 
Condition Reports (CR-IP2-) 2015-05459 2016-02247
Drawings 9321-3140 Sheet 12, Boiler Feed Pump No. 22 Turbine Trip and Reset, Revision 34 IP2_SOD_013, Feedwater System, Revision 2
Miscellaneous LER 05000247/2016-005-00, TS Prohibited Condition Due to a Surveillance Requirement Never Performed for Testing the Trip of the MBFP LER 05000247/2016-006-00, TS Prohibited Condition Due to Inoperable 138kV Offsite Circuits Caused by a Disconnected SI Signal to the Station Auxiliary Transformer LTC  Section 4OA5:  Other Activities  Condition Reports (CR-IP2-) 2016-00264 2016-00266 2016-00564 2016-04559 2016-05060
Miscellaneous Root Cause Evaluation for CR-IP2-2016-00564 
A-9  LIST OF ACRONYMS  10 CFR Title 10 of the Code of Federal Regulations ABFP auxiliary boiler feedwater pump AC alternating current
ALARA as low as is reasonably achievable
ARDG Appendix R diesel generator
AVR automatic voltage regulator
CAP corrective action program CCW component cooling water  CR condition report
CVCS chemical and volume control system 
DRE detailed risk evaluation
EDG emergency diesel generator FSB  Fuel Storage Building  HP  health physics
HRA  high radiation area
ICCDP incremental conditional core damage probability
IMC Inspection Manual Chapter kV kilovolt LCO limiting condition of operation
LER licensee event report
LOOP loss of offsite power
LTC load tap changer
MBFP main boiler feedwater pump NCV non-cited violation NOV  notice of violation
NPO  nuclear plant operator
NVLAP  National Voluntary Laboratory Accreditation Program
NRC Nuclear Regulatory Commission, U.S. OOS out of service PAB  primary auxiliary building
PFP pre-fire plan
PORV  power operated relief valve
RCA  radiologically controlled area
RG  regulatory guide RMA  risk mitigating action RO  reverse osmosis
RWP  radiation work permit
SAT station auxiliary transformer
SI safety injection SPAR standardized plant analysis risk SR surveillance requirement
SRA senior reactor analyst
SSC structure, system, and component
SW service water
TS technical specification UAT unit auxiliary transformer UFSAR updated final safety analysis report
URI unresolved item
WO work order 


A. Vitale                                        2
Enforcement Policy. The current Enforcement Policy is available for review on the NRCs Web
site at http://www.nrc.gov/about-nrc/regulatory/enforcement/enforce-pol.html. This violation
meets the criteria in Section 2.3.2.a of the Enforcement Policy to be dispositioned as an NCV.
However, the NRC is citing the violation in the enclosed Notice because Entergys actions for
these most recent events do not adequately address the broader concern regarding a lack of
control and management of the site floor drain system. Accordingly, the NRC is issuing the
Notice and requiring a response from Entergy, as described below.
You are required to respond to this letter and should follow the instructions specified in the
enclosed Notice when preparing your response. In your response, describe a comprehensive
corrective action plan for maintaining an effective floor drain system and a process for
evaluating and using the floor drains to handle the volume and flowrates for draining activities
being conducted. If you have additional information that you believe the NRC should consider,
you may provide it in your response to the Notice. The NRCs review of your response will
determine whether further enforcement action is necessary to ensure your compliance with
regulatory requirements.
This letter, its enclosures, and your response (if any) will be made available for public inspection
and copying at http://www.nrc.gov/reading-rm/adams.html and the NRC Public Document Room
in accordance with 10 CFR 2.390, Public Inspections, Exemptions, Requests for Withholding.
To the extent possible, your response should not include any personal privacy or proprietary
information so that it can be made available to the Public without redaction.
                                              Sincerely,
                                                /RA/
                                              Eugene M. DiPaolo, Acting Chief
                                              Reactor Projects Branch 2
                                              Division of Reactor Projects
Docket Nos. 50-247 and 50-286
License Nos. DPR-26 and DPR-64
Enclosures:
1. Notice of Violation
2. Inspection Report 05000247/2016003
      and 05000286/2016003 w/Attachment:
      Supplementary Information
cc w/encl: Distribution via ListServ
        A. Vitale                                          3
        Letter to Mr. Anthony J. Vitale from Eugene M. DiPaolo dated January 17, 2017
        SUBJECT:          INDIAN POINT NUCLEAR GENERATING - INTEGRATED INSPECTION
                          REPORT 05000247/2016003 AND 05000286/2016003 AND NOTICE OF
                          VIOLATION (EA-16-193)
        DISTRIBUTION: (via e-mail)
        DDorman, RA
        DLew, DRA
        MScott, DRP
        DPelton, DRP
        RLorson, DRS
        JYerokun, DRS
        EDiPaolo, DRP
        TSetzer, DRP
        JSchussler, DRP
        BHaagensen, DRP, SRI
        SRich, DRP, RI
        CSafouri, DRP, RI
        DHochmuth, DRP, AA
        JBowen, RI OEDO
        RidsNrrPMIndianPoint Resource
        RidsNrrDorlLpl1-1 Resource
        ROPReports Resources
DOCUMENT NAME: G:\DRP\BRANCH2\A - INDIAN POINT\IP2&3 INSPECTION REPORTS\2016\2016-003\IP2&3 2016.003.FINAL.DOCX
ADAMS Accession Number: ML17013A233
      SUNSI Review
                                      Non-Sensitive                                      Publicly Available
                                      Sensitive                                          Non-Publicly Available
  OFFICE      RI/DRP            RI/DRP            RI/DRP        RI/ORA            RI/DRS            RI/DRP
              SRich non-        BHaagensen via
  NAME                                              TSetzer        BBickett/MMM for  GDentel          EDiPaolo
              concur via telcon email
  DATE        1/12/17          1/11/17            1/12/17        1/13/17            1/12/17          1/12/17
                                              OFFICIAL RECORD COPY
                                                      1
                                        NOTICE OF VIOLATION
Entergy Nuclear Operations, Inc.                                        Docket No. 50-247
Indian Point Nuclear Generating Unit 2                                  License No. DPR-26
                                                                        EA-16-193
During an NRC inspection conducted between July 1 and September 23, 2016, a violation of NRC
requirements was identified. In accordance with the NRC Enforcement Policy, the violation is listed
below:
        Title 10 of the Code of Federal Regulations (10 CFR) 20.1406(c) requires, in part, that
        licensees shall, to the extent practical, conduct operations to minimize the introduction of
        residual radioactivity into the site, including the subsurface.
        Contrary to the above, on two occasions between January 2016 and July 2016, Entergy
        failed to conduct operations to minimize the introduction of residual radioactivity into the
        subsurface of the site. Specifically, Entergy has not maintained its floor drain system clear of
        obstructions and interferences, and has not verified the ability of the floor drains to handle
        the volume and flowrates for draining activities being conducted. As a result, repeated spills
        of contaminated water within the radiologically controlled area leaked into the groundwater
        (subsurface of the site). Specifically, in January 2016, a spill caused by floor drain
        obstructions resulted in the backup of contaminated water onto the floor and subsequent
        leakage to the subsurface of the site. Similarly, a subsequent June/July 2016 groundwater
        contamination event occurred due to an obstructed flow path through a floor drain in the
        Unit 2 spent fuel building, which spilled to the subfloor and contaminated the subsurface of
        the site.
        This violation is associated with a Green Significance Determination Process finding.
Pursuant to the provisions of 10 CFR 2.201, Entergy is hereby required to submit a written
statement or explanation to the U.S. Nuclear Regulatory Commission, ATTN: Document Control
Desk, Washington, DC 20555-0001 with a copy to the Regional Administrator, Region I, and a copy
to the NRC Resident Inspector at Indian Point, within 30 days of the date of the letter transmitting
this Notice of Violation (Notice). This reply should be clearly marked as a "Reply to a Notice of
Violation; EA-16-193" and should include: (1) the reason for the violation, or, if contested, the basis
for disputing the violation or severity level, (2) the corrective steps that have been taken and the
results achieved, (3) a description of a more comprehensive corrective action plan for maintaining
an effective floor drain system and a process for evaluating and using the floor drains to handle the
volume and flowrates for draining activities being conducted that will be taken to address the
repeated problems with maintaining and controlling the floor drain systems, and (4) the date when
full compliance will be achieved. Your response may reference or include previous docketed
correspondence, if the correspondence adequately addresses the required response. If an
adequate reply is not received within the time specified in this Notice, an order or a Demand for
Information may be issued as to why the license should not be modified, suspended, or revoked, or
why such other action as may be proper should not be taken. Where good cause is shown,
consideration will be given to extending the response time.
If you contest this enforcement action, you should also provide a copy of your response, with the
basis for your denial, to the Director, Office of Enforcement, United States Nuclear Regulatory
Commission, Washington, DC 20555-0001.
                                                                                              Enclosure 1
                                              2
Because your response will be made available electronically for public inspection in the NRC Public
Document Room or from the NRCs Agencywide Documents Access and Management System
(ADAMS), accessible from the NRC Web site at http://www.nrc.gov/reading-rm/adams.html, to the
extent possible, it should not include any personal privacy, proprietary, or safeguards information so
that it can be made available to the public without redaction. If personal privacy or proprietary
information is necessary to provide an acceptable response, then please provide a bracketed copy
of your response that identifies the information that should be protected and a redacted copy of your
response that deletes such information. If you request withholding of such material, you must
specifically identify the portions of your response that you seek to have withheld and provide in
detail the bases for your claim of withholding (i.e., explain why the disclosure of information will
create an unwarranted invasion of personal privacy or provide the information required by
10 CFR 2.390(b) to support a request for withholding confidential commercial or financial
information). If safeguards information is necessary to provide an acceptable response, please
provide the level of protection described in 10 CFR 73.21.
In accordance with 10 CFR 19.11, you may be required to post this Notice within two working days
of receipt.
Dated this 17th day of January, 2017.
                                      1
              U.S. NUCLEAR REGULATORY COMMISSION
                                  REGION I
Docket Nos.  50-247 and 50-286
License Nos. DPR-26 and DPR-64
Report Nos.  05000247/2016003 and 05000286/2016003
Licensee:    Entergy Nuclear Northeast (Entergy)
Facility:    Indian Point Nuclear Generating Units 2 and 3
Location:    450 Broadway, GSB
            Buchanan, NY 10511-0249
Dates:      July 1, 2016, through September 30, 2016
Inspectors:  B. Haagensen, Senior Resident Inspector
            G. Newman, Resident Inspector
            S. Rich, Resident Inspector
            J. Ambrosini, Senior Resident Inspector, Millstone
            F. Arner, Senior Reactor Analyst
            S. Elkhiamy, Project Engineer
            J. Furia, Senior Health Physicist
Approved By: Eugene M. DiPaolo, Acting Chief
            Reactor Projects Branch 2
            Division of Reactor Projects
                                                                Enclosure 2
                                                                2
                                              TABLE OF CONTENTS
SUMMARY .................................................................................................................................... 3
REPORT DETAILS ....................................................................................................................... 8
1.  REACTOR SAFETY .............................................................................................................. 8
  1R01  Adverse Weather Protection ....................................................................................... 8
  1R04  Equipment Alignment .................................................................................................. 9
  1R05  Fire Protection ........................................................................................................... 10
  1R11  Licensed Operator Requalification Program ............................................................. 11
  1R12  Maintenance Effectiveness ....................................................................................... 13
  1R13  Maintenance Risk Assessments and Emergent Work Control .................................. 14
  1R15  Operability Determinations and Functionality Assessments ..................................... 16
  1R18  Plant Modifications .................................................................................................... 21
  1R19  Post-Maintenance Testing ........................................................................................ 22
  1R22  Surveillance Testing .................................................................................................. 23
  1EP6  Drill Evaluation .......................................................................................................... 25
2.  RADIATION SAFETY .......................................................................................................... 25
  2RS1  Radiological Hazard Assessment and Exposure Controls ........................................ 25
  2RS2  Occupational ALARA Planning and Controls ............................................................ 28
  2RS4  Occupational Dose Assessment ............................................................................... 30
4.  OTHER ACTIVITIES ............................................................................................................ 31
  4OA1  Performance Indicator Verification ............................................................................ 31
  4OA2  Problem Identification and Resolution ....................................................................... 32
  4OA3  Follow Up of Events and Notices of Enforcement Discretion .................................... 32
  4OA5  Other Activities .......................................................................................................... 35
  4OA6  Meetings, Including Exit ............................................................................................ 41
SUPPLEMENTARY INFORMATION ........................................................................................ A-1
KEY POINTS OF CONTACT .................................................................................................... A-1
LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED ..................................... A-2
LIST OF DOCUMENTS REVIEWED ........................................................................................ A-3
LIST OF ACRONYMS ............................................................................................................... A-9
                                                  3
                                            SUMMARY
Inspection Report 05000247/2016003 and 05000286/2016003; 07/01/2016 - 09/30/2016; Indian
Point Nuclear Generating (Indian Point), Units 2 and 3; Maintenance Risk Assessments and
Emergent Work Control, Operability Determinations and Functionality Assessments,
Surveillance Testing, Radiological Hazard Assessment and Exposure Controls, Occupational As
Low as Reasonably Achievable (ALARA) Planning and Controls, Follow Up of Events and
Notices of Enforcement Discretion, and Other Activities.
This report covered a three-month period of inspection by resident inspectors and announced
inspections performed by regional inspectors. The inspectors identified seven findings of very
low safety significance (Green), including one Notice of Violation (NOV), five non-cited violations
(NCVs), and one finding (FIN). The significance of most findings is indicated by their color (i.e.,
greater than Green, or Green, White, Yellow, Red) and determined using Inspection Manual
Chapter (IMC) 0609, Significance Determination Process, dated April 29, 2015. Cross-cutting
aspects are determined using IMC 0310, Aspects within the Cross-Cutting Areas, dated
December 4, 2014. All violations of U.S. Nuclear Regulatory Commission (NRC) requirements
are dispositioned in accordance with the NRCs Enforcement Policy, dated August 1, 2016. The
NRCs program for overseeing the safe operation of commercial nuclear power reactors is
described in NUREG-1649, Reactor Oversight Process, Revision 6.
Cornerstone: Mitigating Systems
    Green. The inspectors identified a Green NCV of Title 10 of the Code of Federal
    Regulations (10 CFR) 50.65(a)(4) because between August 1, 2016, and August 17, 2016,
    Entergy did not perform an adequate risk assessment for the maintenance on the Unit 3
    Appendix R diesel generator (ARDG). As a result, they did not take the required risk
    mitigating actions (RMAs). Entergy wrote Condition Report (CR)-IP3-2016-2538, changed
    fire risk status to Yellow, and began implementing RMAs on August 17, 2016.
    The inspectors determined that this performance deficiency was more than minor because
    it is associated with the Protection Against External Factors attribute of the Mitigating
    Systems cornerstone and adversely affected its objective to ensure the reliability of
    systems that respond to initiating events to prevent undesirable consequences.
    Specifically, due to the inadequate risk assessment, Entergy did not perform shiftly
    walkdowns for transient combustibles and related fire and ignition sources on the available
    safe shutdown train. Using IMC 0609.04, Initial Characterization of Findings, and IMC
    0609, Appendix K, Maintenance Risk Assessment and Risk Management Significance
    Determination Process, the inspectors determined that the failure to conduct RMAs for the
    unavailability of the ARDG required further assessment. A Region I senior reactor analyst
    (SRA) used SAPHIRE, Revision 8.1.14, and the Indian Point Unit 3 Standardized Plant
    Analysis Risk (SPAR) Model, Revision 8.20, to complete an evaluation this performance
    deficiency. The incremental conditional core damage probability (ICCDP) for this finding
    was calculated to be less than 1E-7 or very low safety significance (Green). This finding
    has a cross-cutting aspect in the area of Problem Identification and Resolution,
    Identification, because Entergy did not identify that an improperly racked-in breaker had a
    fire risk impact when combined with other plant conditions. [P.1 - Problem Identification
    and Resolution, Identification] (Section 1R13)
    Green. The inspectors identified a self-revealing Green NCV of 10 CFR 50, Appendix B,
    Criterion XVI, Corrective Actions, because between 2012 and 2016, Entergy did not
                                                  4
    perform vendor specified inspections of the 23 emergency diesel generator (EDG)
    automatic voltage regulator (AVR) cards. As a result, on March 7, 2016, and March 10,
    2016, the 23 EDG failed to run due to poor voltage regulation caused by degraded
    connections on the AVR card. Entergy replaced the AVR card in the 23 EDG, repaired
    similarly degraded solder joints on the AVR cards for the 21 and 22 EDGs, and wrote
    CR-IP2-2016-1260 and CR-IP3-2016-1370.
    The inspectors determined that this performance deficiency was more than minor because
    it is associated with the Equipment Performance attribute of the Mitigating Systems
    cornerstone and adversely affected its objective to ensure the reliability of systems that
    respond to initiating events to prevent undesirable consequences. Specifically, the 23 EDG
    failed to run on March 7, 2016, and March 10, 2016. The inspectors evaluated the finding
    in accordance with IMC 0609, Appendix A and concluded it required a detailed risk
    evaluation (DRE). The DRE was performed by a Region I SRA and concluded the
    performance deficiency resulted in a change in core damage frequency of low E-8/year or
    very low safety significance (Green). The inspectors determined that this violation was not
    indicative of current performance because the last time Entergy would reasonably have
    been prompted to create corrective actions to perform periodic inspections was during the
    initial inspections in 2010. Therefore, no cross-cutting aspect was assigned.
    (Section 1R15)
  Green. The inspectors identified a Green NCV of 10 CFR 50, Appendix B, Criterion XVI,
    Corrective Actions, because Entergy did not take timely corrective action to perform an
    inspection of the 33 EDG AVR card. As a result, the degraded solder connections on the
    card were not repaired for an excessive period of time. Entergy repaired the solder joints
    on the AVR card in the 33 EDG and wrote CR-IP3-2016-3018.
    This performance deficiency was more than minor because it is associated with the
    Equipment Performance attribute of the Mitigating Systems cornerstone and adversely
    affected its objective to ensure the reliability of systems that respond to initiating events to
    prevent undesirable consequences. The existence of degraded solder joints on the AVR
    card decreases the reliability of the EDG, and the untimely corrective action allowed the
    degradation to exist for longer than necessary without being corrected. In accordance with
    IMC 0609, Appendix A, The Significance Determination Process for Findings at Power,
    the inspectors determined that the finding was of very low safety significance (Green)
    because the 33 EDG maintained its operability or functionality, it did not represent a loss of
    system or function, and it did not involve external mitigation systems. The inspectors
    determined that this finding had a cross-cutting aspect in the area of Human Performance,
    Conservative Bias, because leaders did not take a conservative approach to decision
    making, particularly when information is incomplete or conditions are unusual. Specifically,
    Entergy did not inspect the 33 EDG AVR cards at the first available opportunity due to
    resource constraints. [H.14 - Human Performance, Conservative Bias] (Section 1R22)
  Green. The inspectors identified a self-revealing Green NCV for failing to comply with
  Technical Specification (TS) Limiting Condition of Operation (LCO) 3.8.1, Electrical Power
  Systems, Alternating Current (AC) Sources - Operating, from February 26, 2014, to
  March 29, 2016. Specifically, Entergy failed to maintain the auto transfer function for the 6.9
  kilovolt (kV) offsite electrical buses in an operable condition because the safety injection (SI)
  anticipatory signal to the station auxiliary transformer (SAT) load tap changer (LTC) was
  disconnected. As a result, one of two qualified offsite AC circuits was not operable. Entergy
                                                  5
  initiated corrective actions and promptly restored the SAT LTC SI signal to operation prior to
  restarting the plant from the refueling outage.
  The failure to restore the LTC SAT SI signal following maintenance activities was a
  performance deficiency that was more than minor because it is associated with the
  Equipment Performance attribute of the Mitigating Systems cornerstone and adversely
  affected the cornerstone objective to ensure the availability, reliability, and capability of
  systems that respond to initiating events to prevent undesirable consequences (i.e., core
  damage). Specifically, the failure to reinstate the SAT LTC SI anticipatory signal following
  maintenance resulted in the qualified offsite source of AC power becoming inoperable for a
  period of time in excess of the TS allowable outage time. In accordance with IMC 0609,
  Appendix A, The Significance Determination Process for Findings at Power, the inspectors
  determined that the finding was of very low safety significance (Green) because a detailed
  risk analysis determined the likelihood of core damage was less than E-8/year. The
  inspectors determined that the finding had a cross-cutting aspect of Human Performance,
  Work Management, because Entergy did not implement a process of controlling and
  executing work activities. The work process did not coordinate with different groups or job
  activities to ensure the state links were restored at the end of the work activities.
  [H.5 - Human Performance, Work Management] (Section 4OA3)
Cornerstone: Occupational/Public Radiation Safety
  Green. The inspectors identified a self-revealing NCV of TS 5.7.1e when workers entered
  the Unit 2 Fuel Storage Building (FSB) truck bay that was posted and controlled as a high
  radiation area (HRA) without receiving a briefing on the dose rates prior to entering the
  HRA. Specifically, on June 6, 2016, two nuclear plant operators (NPOs) entered the Unit 2
  FSB truck bay to hang tags on the backup spent fuel pool cooling filters. The NPOs signed
  in on a HRA radiation work permit (RWP) but did not receive a briefing on the radiological
  conditions in this work area. After entering the HRA, one worker received an electronic
  dosimeter dose rate alarm; and subsequently, both workers promptly exited the area.
  Immediate corrective actions included restricting the access of the two NPOs to the
  radiologically controlled area (RCA). The issue was entered into Entergys corrective action
  program (CAP) as CR-IP2-2016-03610.
  The failure to adhere to a radiological briefing prior to entry into a HRA is a performance
  deficiency that was reasonably within Entergys ability to foresee and correct. The
  performance deficiency was determined to be more than minor based on similar example
  6.h in IMC 0612, Appendix E, Examples of Minor Issues, and because it adversely affected
  the Human Performance attribute of the Occupational Radiation Safety cornerstone
  objective. Specifically, Entergy violated the TS 5.7.1e HRA radiological briefing
  requirements designed to protect workers from unnecessary radiation exposure. Using IMC
  0609, Appendix C, Occupational Radiation Safety Significance Determination Process, the
  finding was determined to be of very low safety significance (Green) because it did not
  involve: (1) ALARA occupational collective exposure planning and controls, (2) an
  overexposure, (3) a substantial potential for overexposure, or (4) an impaired ability to
  assess dose. The inspectors determined that the finding had a cross-cutting aspect of
  Human Performance, Procedure Adherence, in that the workers did not follow processes,
  procedures, and work instructions for entering a posted HRA. [H.8 - Human Performance,
  Procedure Adherence] (Section 2RS1)
                                                  6
Green. The inspectors identified a self-revealing finding (FIN) of very low safety significance
  due to Entergy having unintended occupational collective exposure resulting from
  performance deficiencies in work planning while preparing to perform reactor cavity liner
  repair activities during the spring 2016 Unit 2 refueling outage. Inadequate work planning
  that included an incomplete scope of work, welding method qualification, and inadequate
  timing of shield placement resulted in unplanned, unintended collective exposure due to
  conditions that were reasonably within Entergys ability to foresee. The work activity
  planning deficiencies resulted in the collective exposure for these activities increasing from
  the planned dose of 2.386 person-rem to an actual dose of 10.305 person-rem. This issue
  was entered into Entergys CAP as CR-IP2-2016-02528, CR-IP2-2016-02502, and CR-IP2-
  2016-02548.
  The performance deficiency was more than minor because it was associated with the
  Program and Process attribute of the Occupational Radiation Safety cornerstone and
  adversely affected the cornerstone objective to ensure the adequate protection of the worker
  health and safety from exposure to radiation. Additionally, the performance deficiency was
  more than minor based on similar example 6.i in Appendix E of IMC 0612, Examples of
  Minor Issues, in that the actual collective dose exceeded 5 person-rem and exceeded the
  planned, intended dose by more than 50 percent. In accordance with IMC 0609, Appendix
  C, "Occupational Radiation Safety Significance Determination Process," the finding was
  determined to be of very low safety significance (Green) because Entergy had an issue
  involving ALARA Planning, and Unit 2's current three-year rolling average collective dose is
  less than the significance determination process criterion of 135 person-rem per pressurized
  water reactor unit. The finding had a cross-cutting aspect in the area of Human
  Performance, Work Management, in that the lack of accurate planning for work activities
  adversely impacted radiological safety. [H-5 - Human Performance, Work Management]
  (Section 2RS2)
Green. The inspectors identified an NOV of 10 CFR 20.1406(c), Minimization of
  Contamination, for Entergys failure to conduct operations to minimize the introduction of
  residual radioactivity into the subsurface of the site (groundwater). Specifically, Entergy did
  not maintain the floor drain systems clear of obstructions and interferences and did not
  verify the ability of the floor drains to handle the volume and flowrates for draining activities
  being conducted. In January 2016, a spill caused by multiple floor drain obstructions
  resulted in the backup of contaminated water onto the floor of the 35-foot elevation of the
  primary auxiliary building (PAB) and the subfloor of the FSB and subsequent leakage to
  onsite groundwater. Entergy entered this issue into their CAP as CR-IP2-2016-00264, CR-
  IP2-2016-00266, and CR-IP2-2016-00564 with actions to characterize and evaluate the
  leak. Similarly, in June/July 2016, another event occurred due to an obstructed flow path
  through a floor drain in the FSB, which spilled to the subfloor and contaminated the onsite
  groundwater. This event was documented by Entergy in CR-IP2-2016-05060.
  The issue is more than minor because it is associated with the Program and Process
  attribute of the Public Radiation Safety cornerstone and adversely affected the cornerstone
  objective to ensure Entergys ability to prevent inadvertent release and/or loss of control of
  licensed material to an unrestricted area. In accordance with IMC 0609, Appendix D,
  "Public Radiation Safety Significance Determination Process," the finding was determined to
  be of very low safety significance (Green) because Entergy had an issue involving
  radioactive material control but did not involve transportation or public exposure in excess of
  0.005 Rem. The finding had a cross-cutting aspect in the area of Problem Identification and
  Resolution, Resolution, in that effective corrective actions to address issues identified in two
                                          7
prior groundwater contamination events since 2014 were not implemented in a timely or
effective manner, which could have prevented two additional groundwater contamination
events that occurred in 2016. [P.3 - Problem Identification and Resolution, Resolution]
(Section 4OA5)
                                                  8
                                        REPORT DETAILS
Summary of Plant Status
Unit 2 began the inspection period at 100 percent power. On July 6, 2016, Unit 2 experienced a
reactor trip caused by a human performance error. Operators returned Unit 2 to 100 percent
power on July 8, 2016. On August 6, 2016, Unit 2 reduced power to 80 percent due to a trip of
both heater drain pumps. They restarted the pumps and returned to 100 percent power the
following day. Unit 2 remained at or near 100 percent power for the remainder of the inspection
period.
Unit 3 operated at 100 percent power during the inspection period.
1.      REACTOR SAFETY
        Cornerstones: Initiating Events, Mitigating Systems, and Barrier Integrity
1R01 Adverse Weather Protection (71111.01 - 3 samples)
.1      Readiness for Seasonal Extreme Weather Conditions
    a. Inspection Scope
        The inspectors performed a review of Entergys readiness for the onset of seasonal high
        temperatures. The inspectors reviewed procedure OAP-048, Seasonal Weather
        Preparation (Units 2 and 3). The focus areas were the switchgear rooms and service
        water (SW) pump areas. The inspectors reviewed the updated final safety analysis
        report (UFSAR), TSs, control room logs, and the CAP to determine what temperatures
        or other seasonal weather could challenge these systems and to ensure Entergy had
        adequately prepared for these challenges. The inspectors reviewed station procedures,
        including Entergys seasonal weather preparation procedure and applicable operating
        procedures. The inspectors performed walkdowns of the selected systems to ensure
        station personnel identified issues that could challenge the operability of the systems
        during hot weather conditions. Documents reviewed for each section of this inspection
        are listed in the Attachment.
    b. Findings
        No findings were identified.
.2      Summer Readiness of Offsite and AC Power Systems
    a. Inspection Scope
        The inspectors performed a review of plant features and procedures for the operation
        and continued availability of the offsite and alternate AC power system to evaluate
        readiness of the systems prior to seasonal high grid loading. The inspectors reviewed
        Entergys procedures affecting these areas and the communications protocols between
        the transmission system operator and Entergy. This review focused on the material
        condition of the offsite and alternate AC power equipment. There were no changes to
        the established program since the last inspection. The inspectors assessed whether
                                                  9
      Entergy established and implemented appropriate procedures and protocols to monitor
      and maintain availability and reliability of both the offsite AC power system and the
      onsite alternate AC power system. The inspectors evaluated the material condition of the
      associated equipment by reviewing CRs and open work orders (WOs) and walking down
      portions of the offsite and AC power systems including the Units 2 and 3 transformer
      yards.
  b. Findings
      No findings were identified.
.3    Readiness for Impending Adverse Weather Conditions
  a. Inspection Scope
      The inspectors reviewed Entergys preparations for a Category 1 thunderstorm warning
      on July 25, 2016. The inspectors reviewed the implementation of adverse weather
      preparation procedures including OAP-008, Severe Weather Preparations, before the
      onset of and during this adverse weather condition. The inspectors walked down the
      Unit 2 SW pumps, the Unit 2 transformer yard, and the Unit 3 transformer yard to ensure
      system availability and that there were no problems as a result of the severe weather.
      The inspectors verified that operator actions defined in Entergys adverse weather
      procedure maintained the readiness of essential systems. The inspectors discussed
      readiness and staff availability for adverse weather response with operations and work
      control personnel. The inspectors discussed severe weather preparedness with
      operators and maintained an awareness of severe weather issues throughout the
      inspection period.
  b. Findings
      No findings were identified.
1R04 Equipment Alignment
      Partial System Walkdowns (71111.04Q - 5 samples)
  a. Inspection Scope
      The inspectors performed partial walkdowns of the following systems:
      Unit 2
        22 auxiliary boiler feedwater pump (ABFP) while 21 ABFP was out of service (OOS)
          for planned maintenance on July 18, 2016
        Gas turbine 2/3 fuel forwarding system EDG fuel oil reserve on August 31, 2016
        Component cooling water (CCW) system while 21 CCW pump and discharge check
          valve were inoperable during troubleshooting on September 21, 2016
                                              10
      Unit 3
          31 and 32 EDGs while 33 EDG was unavailable due to planned testing on 480V
          bus 5A on September 15, 2016
          ARDG and support systems following maintenance on September 29, 2016 (this
          sample was part of an in-depth review of the ARDG system)
      The inspectors selected these systems based on their risk-significance relative to the
      reactor safety cornerstones at the time they were inspected. The inspectors reviewed
      applicable operating procedures, system diagrams, the UFSAR, TSs, CRs, and the
      impact of ongoing work activities on redundant trains of equipment in order to identify
      conditions that could have impacted system performance of their intended safety
      functions. The inspectors also performed field walkdowns of accessible portions of the
      systems to verify system components and support equipment were aligned correctly and
      were operable. The inspectors examined the material condition of the components and
      observed operating parameters of equipment to verify that there were no deficiencies.
      The inspectors also reviewed whether Entergy had properly identified equipment issues
      and entered them into the CAP for resolution with the appropriate significance
      characterization.
  b. Findings
      No findings were identified.
1R05 Fire Protection
.1    Resident Inspector Quarterly Walkdowns (71111.05Q - 6 samples)
  a. Inspection Scope
      The inspectors conducted tours of the areas listed below to assess the material
      condition and operational status of fire protection features. The inspectors verified that
      Entergy controlled combustible materials and ignition sources in accordance with
      administrative procedures. The inspectors verified that fire protection and suppression
      equipment was available for use as specified in the area pre-fire plan (PFP) and passive
      fire barriers were maintained in good material condition. The inspectors also verified
      that station personnel implemented compensatory measures for OOS, degraded, or
      inoperable fire protection equipment, as applicable, in accordance with procedures.
      Unit 2
          ARDG/station blackout diesel generator (PFP-160A was reviewed) on August 4,
          2016
          Diesel fire pump house (PFP-265 was reviewed) on August 5, 2016
          Independent spent fuel storage installation pad (PFP-266A was reviewed) on
          September 29, 2016
          Transformer yard (PFP-263 was reviewed) on September 29, 2016
                                                11
      Unit 3
        Transformer yard (PFP-380 was reviewed) on September 27, 2016
        ARDG (PFP-388 was reviewed) on September 29, 2016 (this sample was part of an
          in-depth review of the ARDG system)
  b. Findings
      No findings were identified.
.2    Fire Protection - Drill Observation (71111.05A - 1 sample)
  a. Inspection Scope
      The inspectors observed a fire brigade drill scenario conducted on September 25, 2016,
      that involved a pressurized oil leak fire on the Unit 3 main boiler feedwater pump (MBFP)
      lube oil purifier located on the turbine building, 15-foot level. The inspectors evaluated
      the readiness of the plant fire brigade to fight fires. The inspectors verified that Entergy
      personnel identified deficiencies, openly discussed them in a self-critical manner during
      the debrief, and took appropriate corrective actions as required. The inspectors verified
      that the fire brigade:
        Properly used turnout gear and self-contained breathing apparatus
        Properly used and laid out fire hoses
        Employed appropriate fire-fighting techniques
        Brought sufficient fire-fighting equipment to the scene
        Effectively used command and control
        Searched for victims and for propagation of the fire into other plant areas
        Conducted smoke removal operations
        Properly used pre-planned strategies
        Adhered to the pre-planned drill scenario
        Met drill objectives
      The inspectors also evaluated the fire brigades actions to determine whether these
      actions were in accordance with Entergys fire-fighting strategies.
  b. Findings
      No findings were identified.
1R11 Licensed Operator Requalification Program (71111.11Q - 5 samples)
      Unit 2
.1    Quarterly Review of Unit 2 Licensed Operator Performance in the Main Control Room
  a. Inspection Scope
      The inspectors observed and reviewed the Unit 2 reactor startup conducted on July 7,
      2016. The inspectors observed infrequently performed test or evolution briefings,
                                                12
      pre-shift briefings, and reactivity control briefings to verify that the briefings met the
      criteria specified in Entergys operating procedure 2-POP-1.2, Reactor Startup, and
      administrative procedure EN-OP-115, Conduct of Operations. Additionally, the
      inspectors observed test performance to verify that procedure use, crew
      communications, and coordination of activities between work groups similarly met
      established expectations and standards.
  b. Findings
      No findings were identified.
.2    Quarterly Review of Unit 2 Licensed Operator Requalification Testing and Training
  a. Inspection Scope
      The inspectors observed Unit 2 licensed operator simulator training on August 10, 2016,
      which included an instrument failure, a loss of 138kV offsite power, followed by a loss of
      the 345kV grid, and a station blackout. The inspectors evaluated operator performance
      during the simulated event and verified completion of risk significant operator actions,
      including the use of abnormal and emergency operating procedures. The inspectors
      assessed the clarity and effectiveness of communications, implementation of actions in
      response to alarms and degrading plant conditions, and the oversight and direction
      provided by the control room supervisor. The inspectors verified the accuracy and
      timeliness of the emergency classification made by the shift manager and the TS action
      statements entered by the shift technical advisor. Additionally, the inspectors assessed
      the ability of the crew and training staff to identify and document crew performance
      problems.
  b. Findings
      No findings were identified.
      Unit 3
.3    Quarterly Review of Unit 3 Licensed Operator Performance in the Unit 3 Main Control
      Room
  a. Inspection Scope
      The inspectors observed and reviewed swapping of main lube oil coolers in accordance
      with 3-SOP-LO-001, Main Lube Oil System Operation, Revision 40, conducted on
      September 30, 2016. The inspectors observed pre-job briefings to verify that the
      briefings met the criteria specified in Entergys administrative procedure EN-OP-115,
      Conduct of Operations. Additionally, the inspectors observed operator performance to
      verify that procedure use, crew communications, and coordination of activities between
      work groups similarly met established expectations and standards.
  b. Findings
      No findings were identified.
                                                13
.4    Quarterly Review of Unit 3 Licensed Operator Requalification Testing and Training
  a. Inspection Scope
      The inspectors observed licensed operator simulator training on August 10, 2016, which
      included the rupture of the letdown line, a mispositioned control valve, a misaligned
      control rod, and a steam generator tube rupture. The inspectors evaluated operator
      performance during the simulated event and verified completion of risk significant
      operator actions, including the use of abnormal and emergency operating procedures.
      The inspectors assessed the clarity and effectiveness of communications,
      implementation of actions in response to alarms and degrading plant conditions, and the
      oversight and direction provided by the control room supervisor. The inspectors verified
      the accuracy and timeliness of the emergency classification made by the shift manager
      and the TS action statements entered by the shift technical advisor. Additionally, the
      inspectors assessed the ability of the crew and training staff to identify and document
      crew performance problems.
  b. Findings
      No findings were identified.
.5    Quarterly Review of Unit 3 Licensed Operator Requalification Testing and Training
  a. Inspection Scope
      The inspectors observed operating crew performance during an emergency planning drill
      on September 14, 2016, which included a failure of a steam generator level instrument,
      loss of the 6A electrical bus, a turbine trip without reactor trip, a small break loss of
      coolant accident, and entry into FR-C.2, Response to Inadequate Core Cooling. The
      inspectors evaluated operator performance during the simulated event and verified
      completion of risk significant operator actions, including the use of abnormal and
      emergency operating procedures. The inspectors assessed the clarity and effectiveness
      of communications, and the oversight and direction provided by the control room
      supervisor. The inspectors reviewed the accuracy and timeliness of the emergency
      classification made by the shift manager and shift technical advisor. Additionally, the
      inspectors assessed the ability of the crew and training staff to identify and document
      crew performance problems.
  b. Findings
      No findings were identified.
1R12 Maintenance Effectiveness (71111.12Q - 2 samples)
      Routine Maintenance Effectiveness
  a. Inspection Scope
      The inspectors reviewed the samples listed below to assess the effectiveness of
      maintenance activities on structure, system, and component (SSC) performance and
      reliability. The inspectors reviewed system health reports, CAP documents,
                                                14
      maintenance WOs, and maintenance rule basis documents to ensure that Entergy was
      identifying and properly evaluating performance problems within the scope of the
      maintenance rule. For each SSC sample selected, the inspectors verified that the SSC
      was properly scoped into the maintenance rule in accordance with 10 CFR 50.65 and
      verified that the (a)(2) performance criteria established by Entergy was reasonable. As
      applicable, for SSCs classified as (a)(1), the inspectors assessed the adequacy of goals
      and corrective actions to return these SSCs to (a)(2). Additionally, the inspectors
      ensured that Entergy was identifying and addressing common cause failures that
      occurred within and across maintenance rule system boundaries.
      Unit 3
        ARDG and auxiliaries (this sample was part of an in-depth review of the Unit 3
          ARDG system) on June 28, 2016
        Reactor protection and controls system on August 28, 2016
  b. Findings
      No findings were identified.
1R13 Maintenance Risk Assessments and Emergent Work Control (71111.13 - 7 samples)
  a. Inspection Scope
      The inspectors reviewed station evaluation and management of plant risk for the
      maintenance and emergent work activities listed below to verify that Entergy performed
      the appropriate risk assessments prior to removing equipment for work. The inspectors
      selected these activities based on potential risk significance relative to the reactor safety
      cornerstones. As applicable for each activity, the inspectors verified that Entergy
      performed risk assessments as required by 10 CFR 50.65(a)(4) and that the
      assessments were accurate and complete. When Entergy performed emergent work,
      the inspectors verified that operations personnel promptly assessed and managed plant
      risk. The inspectors reviewed the scope of maintenance work and discussed the results
      of the assessment with the stations probabilistic risk analyst to verify plant conditions
      were consistent with the risk assessment. The inspectors also reviewed the TS
      requirements and inspected portions of redundant safety systems, when applicable, to
      verify risk analysis assumptions were valid and applicable requirements were met.
      Unit 2
        21 ABFP and 138kV feeder 33332 OOS for maintenance on July 18, 2016
        Emergent work due to instrument air piping leak on August 8, 2016
        23 station battery OOS for maintenance on September 14, 2016
        13.8kV feeders 13W92 and 13W3 OOS for planned maintenance on September 28,
          2016
      Unit 3
        32 ABFP OOS for maintenance on August 8, 2016
                                              15
      ARDG and 31 residual heat removal pump OOS for maintenance on August 16,
        2016 (this sample was part of an in-depth review of the ARDG system)
      31 EDG OOS for surveillance on September 20, 2016
b. Findings
  Introduction. The inspectors identified a Green NCV of 10 CFR 50.65(a)(4),
  Requirements for Monitoring the Maintenance Effectiveness at Nuclear Power Plants,
  because between August 1, 2016, and August 17, 2016, Entergy did not perform an
  adequate risk assessment for the maintenance on the Unit 3 ARDG. As a result, they
  did not take the required RMAs.
  Description. The Unit 3 ARDG was declared non-functional on June 28, 2016, due to a
  failed battery charger. Entergy performed a modification to replace the battery charger
  and cleared the tag-out to restore the diesel generator to service on July 27, 2016.
  Entergy determined that the ARDG was available at this time, although the
  post-modification testing was not complete, in accordance with guidance in procedure
  IP-SMM-WM-101, Fire Protection and Maintenance Rule (a)(4) Risk Assessment. On
  July 31, 2016, the input breaker to the battery charger tripped open. Entergy determined
  that the ARDG was no longer available for risk purposes and commenced corrective
  maintenance. On August 1, 2016, during rounds, an operator discovered that the output
  breaker for the ARDG was crooked in its cubicle. The following day, maintenance staff
  reported a crackling noise from the output breaker indicating that it was not making
  proper contact in its crooked position. During follow-up interviews, Entergy determined
  that the output breaker had been racked in improperly while the tag-out was being
  cleared on July 27, 2016.
  Per IP-SMM-WM-101, and the Equipment OOS risk tool, fire risk is Green when taking a
  component OOS for maintenance results in only one safe shutdown path and that
  component will be OOS for less than thirty days. If the component will be OOS for more
  than thirty days, fire risk is Yellow and RMAs are required in certain fire areas,
  depending on the component. With the Unit 3 ARDG OOS, the Unit 2 ARDG is the only
  remaining credited safe shutdown path. After thirty days in this configuration, RMAs are
  required in the 31 and 33 EDG rooms, the cable spreading room, the switchgear room,
  the control room, and the upper electrical tunnel. These actions include shiftly
  walkdowns to look for transient combustibles, prohibiting hot work, confirming
  functionality of the fire protection equipment, postponing maintenance on fire protection
  equipment, and limiting work in the areas affected.
  On August 16, 2016, the inspectors asked Entergy whether fire risk was Green or
  Yellow. Entergy stated that they considered fire risk to be Green because the ARDG
  had only been OOS since July 31, 2016, which was less than thirty days. The
  inspectors observed that since the breaker had been racked in incorrectly while they
  were restoring from the original battery charger replacement, the ARDG had been OOS
  continuously since June 28, 2016, a time period greater than thirty days. Entergys
  response was that they had not considered the impact of the breaker on risk. As a
  result, Entergy wrote CR-IP3-2016-2538, changed fire risk status to Yellow, and began
  implementing RMAs on August 17, 2016.
  Analysis. The inspectors determined that not performing an adequate risk assessment
  for the work on the Unit 3 ARDG was within Entergys ability to foresee and correct and
                                                  16
      was a performance deficiency. The inspectors determined that this performance
      deficiency was more than minor because it is associated with the Protection Against
      External Factors attribute of the Mitigating Systems cornerstone and adversely affected
      its objective to ensure the reliability of systems that respond to initiating events to
      prevent undesirable consequences. Specifically, due to the inadequate risk
      assessment, Entergy did not perform shiftly walkdowns for transient combustibles and
      related fire and ignition sources on the available safe shutdown train.
      Using IMC 0609.04, Initial Characterization of Findings, and IMC 0609, Appendix K,
      Maintenance Risk Assessment and Risk Management Significance Determination
      Process, the inspectors determined that the failure to conduct RMAs for the
      unavailability of the ARDG required further assessment. A Region I SRA used
      SAPHIRE, Revision 8.1.14 and the Indian Point Unit 3 SPAR Model, Revision 8.20 to
      complete the DRE of this performance deficiency. To calculate the ICCDP for this
      finding, the SRA used an exposure time of 16 days and modeled the unavailability of the
      ARDG by setting the generators output breaker basic event (ACP-CRB-00-52EG4)
      failure probability to 1.0. Truncation for the analyses was set to 1.0E-11. The ICCDP for
      this finding was calculated to be less than 1E-7 or very low safety significance (Green).
      The dominant core damage sequences involve fires leading to a station blackout event
      resulting in a small break loss of coolant accident associated with reactor coolant pump
      seal failures.
      This finding has a cross-cutting aspect in the area of Problem Identification and
      Resolution because Entergy did not identify that an improperly racked-in breaker had a
      fire risk impact when combined with other plant conditions. [P.1]
      Enforcement. 10 CFR 50.65(a)(4) states that before performing maintenance activities,
      the licensee shall assess and manage the increase in risk that may result from the
      proposed maintenance activities. Contrary to this, between August 1, 2016, and
      August 17, 2016, Entergy did not adequately assess and manage the increase in risk
      from maintenance on the Unit 3 ARDG. Entergy wrote CR-IP3-2016-2538, changed fire
      risk status to Yellow, and began implementing RMAs on August 17, 2016. Because this
      violation was of very low safety significance (Green) and Entergy entered this
      performance deficiency into the CAP, the NRC is treating this as an NCV in accordance
      with Section 2.3.2.a of the NRC Enforcement Policy. (NCV 05000286/2016003-01,
      Failure to Adequately Assess Fire Risk Associated with Maintenance on the Unit 3
      ARDG)
1R15 Operability Determinations and Functionality Assessments (71111.15 - 8 samples)
  a. Inspection Scope
      The inspectors reviewed operability determinations and functionality assessments for the
      following degraded or non-conforming conditions:
      Unit 2
          CR-IP2-2016-05220, missed implications of baffle bolt jetting indications on Units 2
          and 3 spent fuel on August 22, 2016
          CR-IP-2016-05418, metal impact monitor system functionality assessment on
          September 1, 2016
                                            17
      CR-IP2-2016-05503, through-wall leak on non-essential SW header between 23
        Zurn strainer and SWN-2-2, 23 SW pump discharge valve on September 6, 2016
      CR-IP2-2016-05757, 21 CCW pump motor baker test results invalid on
        September 21, 2016
      CR-IP2-2016-05877, unexpected drop in SW header pressure on September 27,
        2016
  Unit 3
      CR-IP3-2016-01961, prompt operability determination for implications of degraded
        baffle bolts on July 11, 2016
      CR-IP3-2016-02910, bus 5A undervoltage time delay relay 62-2/5A failed to meet
        acceptance criteria on September 15, 2016
      CR-IP3-2016-01370, EDG AVR card solder joint cracking extent of condition on
        September 23, 2016
  The inspectors selected these issues based on the risk significance of the associated
  components and systems. The inspectors evaluated the technical adequacy of the
  operability determinations to assess whether TS operability was properly justified and
  the subject component or system remained available such that no unrecognized
  increase in risk occurred. The inspectors compared the operability and design criteria in
  the appropriate sections of the TSs and UFSAR to Entergys evaluations to determine
  whether the components or systems were operable.
  The inspectors confirmed, where appropriate, compliance with bounding limitations
  associated with the evaluations. Where compensatory measures were required to
  maintain operability, the inspectors determined whether the measures in place would
  function as intended and were properly controlled by Entergy. The inspectors
  determined, where appropriate, compliance with bounding limitations associated with the
  evaluations.
b. Findings
  (Closed) Unresolved Item (URI) 05000247/2016001-06: 23 EDG Automatic Voltage
  Regulator Failure
  Introduction. The inspectors identified a self-revealing Green NCV of 10 CFR 50,
  Appendix B, Criterion XVI, Corrective Actions, because between 2012 and 2016,
  Entergy did not perform specified inspections of the 23 EDG AVR cards. As a result, on
  March 7, 2016, and March 10, 2016, the 23 EDG failed to run due to poor voltage
  regulation caused by degraded connections on the AVR card.
  Description. A URI was issued in NRC Inspection Report 05000247/2016001. This item
  is closed based on the finding described below. On March 7, 2016, approximately one
  hour after the trip of the 3A normal feed breaker, the 23 EDG tripped on overcurrent
  while powering the 6A 480V safety bus. The 6A bus remained de-energized for
  approximately one hour until the crew restored the 6A bus via off-site power. The 23
  EDG was declared inoperable. All four 480V safety buses were restored to off-site
  power. Entergy suspected that an overcurrent relay had spuriously tripped, replaced the
  overcurrent relays, and retested the 23 EDG satisfactorily on March 8, 2016. However,
                                          18
subsequent bench testing of the overcurrent relays demonstrated that they were
accurately calibrated.
On March 10, 2016, during performance of PT-R14, Automatic SI System Electrical
Load and Blackout Test, the 23 EDG exhibited anomalous behavior during the train B
load sequencing. During this test, the voltage on safety bus 6A dropped to
approximately 200V when the 23 auxiliary feedwater pump was sequenced onto the bus
(CR-IP2-2016-01430) and the sequencer failed to complete the first two sequences.
The 23 EDG was again declared inoperable and the period of inoperability was
backdated to March 7, 2016, when it originally tripped. Further troubleshooting and
additional failure modes analysis by Entergy initially determined that the cause of both
events may have been a degraded resistor (R25) on the 23 EDG AVR card.
The 23 EDG AVR card was replaced, and the 23 EDG was again tested satisfactorily.
The voltage anomaly issues exhibited during the March 10, 2016, test were documented
in CR-IP2-2016-01430 which was closed in CR-IP2-2016-01260 to be included in the
causal assessment associated with the tripping of 23 EDG breaker on March 7, 2016.
Entergy assigned a vendor to perform confirmatory laboratory bench testing and failure
analysis of the 23 EDG AVR card. The vendor report attributed the cause of the
March 10, 2016, loss of voltage control to a degraded solder joint on the L1 magnetic
amplifier on the AVR card. The vendor report explicitly did not attribute the event on
March 7, 2016, to the same cause. Entergy assigned a corrective action in CR-IP2-
2016-01260 to review the cause of the 23 EDG overcurrent trip on March 7, 2016, and in
light of the vendor report. On September 1, 2016, Entergy documented that their initial
investigation into the failure on March 7, 2016, concluded that the failure was most likely
due to an intermittent connection to the L1 mag amp on the AVR card. Since they have
determined the causes of the failures on March 7, 2016, and March 10, 2016, are likely
the same direct cause, this violation closes URI 05000247/2016001-06, 23 Emergency
Diesel Generator Automatic Voltage Regulator Failure. The URI is closed because it
was determined that there was a performance deficiency.
In 2007, Entergy received a 10 CFR 21 notification (ML072750470) that there was a
potential for solder joint cracks on their AVR cards and wrote CR-IP2-2007-3825 and
CR-IP3-2007-3686. Cracked solder joints on the AVR cards affect the ability of the EDG
to achieve and/or maintain voltage. Because the connectivity of the joint can be
degraded by vibration, the impact on voltage regulation may be intermittent. The
notification recommended an initial inspection to look for cracked solder joints and then
subsequent inspections every refueling outage once the cards had been in service for 15
years. Entergy wrote a corrective action to write work requests to perform the initial
inspections but did not write any corrective actions to address the need for recurring
inspections. Entergy performed the initial inspections for all of their cards in 2009 and
2010 and did not find any degraded solder joints on any of the Unit 2 EDGs, although
the AVR card from the Unit 3 32 EDG did have degraded solder joints and was repaired.
Entergy did not establish a preventive maintenance activity to perform the subsequent
inspections every two years as stated in the service bulletin.
In response to the events of March 7, 2016, and March 9, 2016, Entergy performed
extent of condition inspections on both the 21 and 22 EDG AVR cards and identified
partially cracked solder joints on both cards. Entergy repaired the solder joints and
replaced the cards. Like the 23 EDG AVR card, the AVR card for the 21 EDG is also
original equipment, while the 22 EDG AVR card was replaced more recently.
                                          19
Analysis. The failure to establish recurring (two-year) inspections of the AVR cards that
had longer than 15 years in service is a performance deficiency that was reasonably
within Entergys ability to foresee and correct. The inspectors determined that this
performance deficiency was more than minor because it is associated with the
Equipment Performance attribute of the Mitigating Systems cornerstone and adversely
affected its objective to ensure the reliability of systems that respond to initiating events
to prevent undesirable consequences. Specifically, the 23 EDG failed to run on
March 7, 2016, and March 10, 2016.
The performance deficiency represented a loss of function of a single train (23 EDG) for
greater than its TS allowed outage time of seven days. Inspection of the 21, 22, and 23
EDG AVR cards all showed substantial degradation of the solder joints to the L1 mag
amp. The 22 EDG AVR card was observed to have degradation in the solder joint and
had been previously replaced in 2010. This degraded condition likely existed prior to the
failure on March 7, 2016. As a result, the failure mechanism could have activated at any
time between the last successful test on February 7, 2016, and the failure at the next
demand event on March 7, 2016. The inspectors evaluated the finding in accordance
with IMC 0609, Appendix A, The Significance Determination Process for Findings at
Power, Exhibit 2, Mitigating Systems Screening Questions. The inspectors noted that
while the degraded 23 EDG AVR had resulted in a trip of the EDG on March 7, 2016, it
was subsequently run on March 8, 2016, and twice on March 9, 2016, during test 2-PT-
R014, Automatic SI System Electrical Load and Blackout Test. During this test, the A
side logic was completed with no anomalies noted with the 23 EDG; however, during the
B side test, the 6A bus voltage dropped to 200V with several equipment load sheds
automatically occurring prior to success on the third attempt to load the EDG. The 23
EDG did not trip during this test because the low voltage relay protection is overridden
during an emergency start (when the EDG is started from an SI signal). Subsequently,
the AVR was identified as the likely cause of the voltage drop during the March 9, 2016,
test and the EDG was declared inoperable. While the facts support an intermittent type
of failure (several successful runs after March 7, 2016, without the AVR being repaired),
the inspectors concluded that the previous failure on March 7, 2016, was most likely
caused by the degraded AVR function. Therefore, the inspectors determined that the
23 EDG trip on March 7, 2016, represented an actual loss of function for greater than its
TS allowed outage time and a DRE was performed.
The Region I SRA determined that the estimated increase in core damage frequency
associated with this performance deficiency is low E-8/year or very low safety
significance (Green). The DRE was performed with the conservative assumption that
the intermittent failures would have resulted in impacting at-power conditions going back
to the last successful 23 EDG surveillance test performed on February 7, 2016. The
SRA used the guidance within the Risk Assessment of Operational Events, Volume 1 -
Internal Events, Section 2.4, to determine an exposure time at unit power conditions of
T/2 or 14 days from the last successful test due to the unknown nature of the failure
mechanism. This provided a bounding assessment. The SRA used the Systems
Analysis Programs for Hands-On Evaluation, Revision 8.1.4, and the SPAR Model for
Indian Point Unit 2, Model Version 8.19. The SRA considered the last load test which
resulted in unexpected load shedding to be a failure. Therefore, the last 5 times the
EDG had run, two of the runs were considered to be failures for a 0.40 failure probability.
Additionally, the SRA had to make modifications to update the model to perform the
evaluation. This included revising the base case SPAR model to substitute the Unit 2
ARDG for the combustion turbine which is no longer used for the offsite power recovery
                                          20
fault trees. The SRA reviewed Entergys probabilistic risk assessment model and
established a failure probability for the ARDG of 5E-2 based on a review of the Entergys
probabilistic risk assessment model which included operator actions and equipment
failure modeling.
The condition case was represented by developing post-processing rules to recognize
that the 23 EDG ran for over 75 minutes on March 7, 2016, prior to its failure.
Modifications to the SPAR model were performed to recognize that plant procedures
direct alignment of the ARDG to restore power to any safety-related 480V bus which
becomes de-energized (2A, 3A, 5A, or 6A buses) during a loss of offsite power (LOOP)
event and failure of an EDG. Therefore, if the 23 EDG would have failed during an at
power event, procedures direct for the ARDG to be aligned to its respective bus. The
SRA developed the modification only for LOOP events where capability may not exist to
isolate a failed open power operated relief valve (PORV). For events where a PORV
cannot be isolated, the ARDG is not credited due to timing considerations in aligning the
ARDG for this type of loss of coolant scenario. The SRA determined for this intermittent
failure condition, modeling should provide for the capability to isolate a failed open
PORV associated with the 23 EDG powered block isolation valve because the 23 EDG
had run for a nominal 75 minutes prior to its initial failure on March 7, 2016. Additionally,
the SRA made a conservative modeling assumption related to common cause, by
setting the 23 EDG failure to run basic event to TRUE to increase the probability of
common cause failure for all of the EDGs, even though the failure was intermittent. The
common cause failure probability for the EDGs was increased to 4.7E-3 from its nominal
value of 1.4E-4. Finally, the 23 EDG failure rate was set at a 40 percent probability of
failure due to the recent performance data. As a result, the SRA determined that the
estimated increase in core damage frequency associated with the performance
deficiency was 1.5E-8/yr for the 14-day exposure time assumed at-power conditions.
The dominant core damage sequences for the at-power condition involved LOOP events
with failure of the auxiliary feedwater system and feed and bleed. The dominant core
damage cutset consisted of a LOOP with failure of the turbine driven auxiliary feedwater
pump, failure of the 22 EDG to run, failure of the 23 EDG to run, and failure of the ARDG
to align power to a safety bus.
Because the 23 EDG AVR was not replaced and repaired until after the March 9, 2016,
test anomaly, the SRA also reviewed the risk associated with the EDG being degraded
during the unit shutdown condition until the AVR was repaired and the 23 EDG
clearance removed on March 16, 2016. The SRA determined the shutdown risk using
IMC 0609, Appendix G, Attachment 1, Shutdown Operations Significance Determination
Process Phase 1 Initial Screening Characterization of Findings. The SRA noted the
March 7, 2016, loss of safety bus power event and residual heat removal cooling was
caused by inadequate guidance in procedures, resulting in an overcurrent condition on
the Bus 3A normal supply breaker as part of load test setup activities for a surveillance
test. Without this error, the trip of the 23 EDG would not have caused a loss of residual
heat removal cooling; and, therefore, the EDG performance deficiency was not relevant
to any shutdown initiating event. The performance deficiency associated with the
23 EDG was evaluated within Exhibit 3 - Mitigating Systems Screening Questions.
Because the 23 EDG was conservatively assumed to have lost its safety function for
greater than its TS outage time, a Phase 2 evaluation within Appendix G was performed.
Using Worksheet 3, Loss of Offsite Power in plant operating state 1 (Head On, Reactor
Coolant System Closed), for the limiting condition, the SRA made the following
                                              21
      assumptions: 1) initiating event likelihood equal to two given the exposure time, 2)
      emergency AC credit of three based upon the availability of the 21 and 22 EDGs, 3)
      steam generator cooling credit of three based on the fact that the 24 reactor coolant
      pump was in operation and providing forced circulation, and 4) a credit of one for
      recovery of offsite power before core damage (RLOOP3). Based upon the Phase 2
      worksheet results, the shutdown safety significance of the performance deficiency was
      estimated in the E-9 range. The SRA noted the condition would also be in the E-8 range
      considering a plant operating state 2 condition (reactor coolant system vented) with no
      credit given for aligning the Unit 2 ARDG. Therefore, the total risk (at-power and
      shutdown) for this condition was estimated to be in the E-8 range or of very low safety
      significance (Green) and was considered to be a conservative bounding analysis (i.e.,
      assuming EDG exposure time 14 days at power, EDG common cause effect and no
      recovery of buses with ARDG during the outage risk evaluation).
      The inspectors determined that this violation was not indicative of current performance
      because the last time Entergy would reasonably have been prompted to create
      corrective actions to perform periodic inspections was during the initial inspections in
      2010. Therefore, no cross-cutting aspect was assigned.
      Enforcement. 10 CFR 50, Appendix B, Criterion XVI, states that measures shall be
      established to assure that conditions adverse to quality, such as failures, malfunctions,
      deficiencies, deviations, defective material and equipment, and nonconformances are
      promptly identified and corrected. Contrary to this, between 2010 and March 2016,
      Entergys CAP did not assure that a condition adverse to quality associated with the
      safety-related EDG system was promptly identified and corrected. Specifically, they did
      not perform the recommended once per refueling cycle inspections of the EDG AVR
      cards, and as a result, the 23 EDG failed to run due to undetected degraded
      connections. Entergy replaced the AVR card in the 23 EDG, repaired the solder joints in
      the AVR cards for the 21 and 22 EDGs, and wrote CR-IP2-2016-1260 and
      CR-IP3-2016-1370. Because this violation was of very low safety significance (Green)
      and Entergy has entered this performance deficiency into the CAP, the NRC is treating
      this as an NCV in accordance with Section 2.3.2.a of the NRC Enforcement Policy.
      (NCV 05000247/2016003-02, Missed Inspections on Automatic Voltage Regulator
      Cards Results in Emergency Diesel Generator Failure to Run)
      This URI is closed.
1R18 Plant Modifications (71111.18 - 3 samples)
      Temporary Modifications
  a. Inspection Scope
      The inspectors reviewed the temporary modifications listed below to determine whether
      the modifications affected the safety functions of systems that are important to safety.
      The inspectors reviewed 10 CFR 50.59 documentation and post-modification testing
      results and conducted field walkdowns of the modifications to verify that the temporary
      modifications did not degrade the design bases, licensing bases, and performance
      capability of the affected systems.
                                                22
      Unit 2
        Temporary modification 66349 to repair a crack on vital battery 23, cell 4
      Unit 3
        Temporary modification 65773 to replace the failed ARDG battery charger with a
          digital battery charger (this sample was part of an in-depth review of the ARDG
          system)
        Temporary modification 66780 to install jumpers in order to maintain bus 5A
          interlocking relay circuit while relay 62-2/5A is replaced
  b. Findings
      No findings were identified.
1R19 Post-Maintenance Testing (71111.19 - 7 samples)
  a. Inspection Scope
      The inspectors reviewed the post-maintenance tests for the maintenance activities listed
      below to verify that procedures and test activities ensured system operability and
      functional capability. The inspectors reviewed the test procedure to verify that the
      procedure adequately tested the safety functions that may have been affected by the
      maintenance activity and that the acceptance criteria in the procedure were consistent
      with the information in the applicable licensing basis and/or design basis documents.
      The inspectors verified that the test results were properly reviewed and accepted and
      problems were appropriately documented. The inspectors also walked down the
      affected job site, observed the pre-job brief and post-job critique where possible,
      confirmed work site cleanliness was maintained, and witnessed the test or reviewed test
      data to verify quality control hold points were performed and checked, and that results
      adequately demonstrated restoration of the affected safety functions.
      Unit 2
        21 ABFP recirculation valve FCV-1121 actuator preventative maintenance on
          July 19, 2016
        Replacement of 138kV breaker BT4-5 on August 12, 2016
        Corrective maintenance on the 21 CCW pump discharge check valve on
          September 22, 2016
      Unit 3
        ARDG protective relay replacement and calibration on August 23, 2016 (this sample
          was part of an in-depth review of the ARDG system)
        ARDG four-year preventive maintenance on September 2, 2016 (this sample was
          part of an in-depth review of the ARDG system)
        ARDG battery charger replacement on September 12, 2016 (this sample was part of
          an in-depth review of the ARDG system)
        Undervoltage relay 62-2/5A replacement on September 17, 2016
                                              23
  b. Findings
      No findings were identified.
1R22 Surveillance Testing (71111.22 - 4 samples)
  a. Inspection Scope
      The inspectors observed performance of surveillance tests and/or reviewed test data of
      selected risk-significant SSCs to assess whether test results satisfied TSs, the UFSAR,
      and Entergys procedure requirements. The inspectors verified that test acceptance
      criteria were clear, tests demonstrated operational readiness and were consistent with
      design documentation, test instrumentation had current calibrations and the range and
      accuracy for the application, tests were performed as written, and applicable test
      prerequisites were satisfied. Upon test completion, the inspectors considered whether
      the test results supported that equipment was capable of performing the required safety
      functions. The inspectors reviewed the following surveillance tests:
      Unit 2
          2-PT-Q034, 22 auxiliary feed pump quarterly surveillance, on August 1, 2016
      Unit 3
          3-PT-Q062A, 31 charging pump quarterly surveillance test, on August 24, 2016
          3-PT-Q98C, steam line pressure functional test, on September 13, 2016
          WO 00446386, 31 EDG AVR card inspection, on September 20, 2016
  b. Findings
      Introduction. The inspectors identified a Green NCV of 10 CFR 50, Appendix B,
      Criterion XVI, Corrective Actions, because Entergy did not take timely corrective action
      to perform an inspection of the 33 EDG AVR card. As a result, the degraded
      connections on the L1 magnetic amplifier card on the 32 EDG were not repaired for a
      prolonged period of time.
      Description. On March 7, 2016, and March 10, 2016, the 23 EDG on Unit 2 experienced
      voltage control issues while in unit mode. After performing troubleshooting on the
      voltage regulator card, Entergy determined that the solder joints on the L1 magnetic amp
      connections were degraded, resulting in intermittent connections that affected the ability
      to achieve and maintain voltage. Entergy further determined that the solder joints had
      been the subject of a 10 CFR 21 report in 2007. The solder joints on all six affected
      diesel generators at Indian Point had been inspected initially in 2009 and 2010, but the
      recommended follow-up inspections had not been performed. Entergy took action to
      inspect the AVR cards on the Unit 2 EDGs before the end of the Unit 2 refueling outage
      in May 2016 and identified indications of degradation in the L1 mag amp solder joints on
      all three cards.
      On May 19, 2016, Entergy wrote a corrective action to perform the same inspections on
      the 31, 32, and 33 EDG AVR cards, under CR-IP3-2016-1370, CA-5. This corrective
                                            24
action was originally due on June 10, 2016, with the intent to perform it prior to the next
monthly surveillance of each EDG. The EDGs had been evaluated as operable-
degraded/non-conforming, and completion of the corrective actions would restore the
EDGs to operable status. The inspections were not performed prior to the June
surveillances because Entergy staff raised questions about the adequacy of the planned
post-maintenance testing. The due date was extended to coincide with the next monthly
surveillance test. The inspections were not performed prior to the July surveillances
because Entergy prioritized post-outage work at Unit 2 over the inspections and the due
date was extended for a second time to August. The inspections were not performed
prior to the August surveillances because Entergy once again prioritized other work at
the station (repairs to the 23 circulating water pump) over the inspections, and the due
date was extended a third time. Entergys CAP requires that due date extensions
include the basis for why the extension is acceptable. The justifications provided for
each due date extension were that the EDGs had been determined to be operable-
degraded/non-conforming (vice inoperable). The third due date extension also stated
that this was an administrative action. Subsequent discussions with management
revealed that the scheduling of resources prevented the completion of the Unit 3 EDG
AVR card solder joints because of higher priority assignments of resources. These
assignments did not rise to the same level of risk significance as the Unit 3 EDG AVR
card degradation.
On September 23, 2016, Entergy performed the inspection on the 33 EDG AVR card
and identified two solder joints with signs of degradation. They replaced all of the solder
joints for the L1 mag amp and returned the diesel generator to service. The 33 EDG
performed satisfactorily during its last surveillance run.
Analysis. The failure to ensure that the solder joint cracking on the 33 EDG AVR card
was promptly identified and corrected was a performance deficiency that was within
Entergys ability to foresee and correct. Specifically, Entergy extended the due date
three times and performed the card inspections nearly four months after identifying that
the recommended periodic inspections had not been performed and that degradation
had occurred on three identical cards in Unit 2. The performance deficiency is more
than minor because it is associated with the Design Control attribute of the Mitigating
Systems cornerstone and adversely affected its objective to ensure the reliability of
systems that respond to initiating events to prevent undesirable consequences. The
existence of cracked solder joints on the AVR card decreases the reliability of the EDGs,
and the untimely corrective action allowed this degraded condition to persist without
being corrected. In accordance with IMC 0609.04, Initial Characterization of Findings,
and Exhibit 2 of IMC 0609, Appendix A, The Significance Determination Process for
Findings At-Power, issued June 19, 2012, the inspectors determined that the finding
was of very low safety significance (Green) because the 33 EDG maintained its
operability or functionality, it did not represent a loss of system or function, and it did not
involve external mitigation systems.
The inspectors determined that this finding had a cross-cutting aspect in the area of
Human Performance, Conservative Bias, because leaders did not take a conservative
approach to decision making, particularly when information is incomplete or conditions
are unusual. Specifically, Entergy did not inspect the 33 EDG AVR cards at the first
available opportunity due to resource constraints. [H.14]
                                                25
      Enforcement. 10 CFR 50, Appendix B., Criterion XVI, states that measures shall be
      established to assure that conditions adverse to quality, such as failures, malfunctions,
      deficiencies, deviations, defective material and equipment, and nonconformances are
      promptly identified and corrected. Contrary to this, between June 2016 and
      September 2016, Entergys CAP did not assure that a condition adverse to quality
      associated with the safety-related EDG system was promptly corrected. Specifically,
      they did not perform the recommended inspection of the 33 EDG AVR card, and as a
      result, the degraded condition existed for prolonged period of time. Entergy repaired the
      degraded solder joints on the AVR card in the 33 EDG and wrote CR-IP3-2016-3018.
      Because this violation was of very low safety significance (Green) and Entergy has
      entered this performance deficiency into the CAP, the NRC is treating this as an NCV in
      accordance with Section 2.3.2.a of the NRC Enforcement Policy. (NCV
      05000286/2016003-03, Untimely Corrective Actions for Degraded Automatic
      Voltage Regulator Cards)
      Cornerstone: Emergency Preparedness
1EP6 Drill Evaluation (71114.06 - 1 sample)
      Training Observation
  a. Inspection Scope
      The inspectors evaluated the conduct of a routine Entergy emergency drill on
      September 14, 2016, to identify any weaknesses and deficiencies in the classification,
      notification, and protective action recommendation development activities. The
      inspectors observed emergency response operations in the simulator to determine
      whether the event classification, notifications, and protective action recommendations
      were performed in accordance with procedures. The inspectors also attended the
      station drill critique to compare inspector observations with those identified by Entergy in
      order to evaluate Entergys critique and to verify whether Entergy was properly
      identifying weaknesses and entering them into the CAP.
  b. Findings
      No findings were identified.
2.    RADIATION SAFETY
      Cornerstone: Public Radiation Safety and Occupational Radiation Safety
2RS1 Radiological Hazard Assessment and Exposure Controls (71124.01 - 4 samples)
  a. Inspection Scope
      The inspectors reviewed Entergys performance in assessing and controlling radiological
      hazards in the workplace. The inspectors used the requirements contained in
      10 CFR 20, TSs, applicable regulatory guides (RGs), and the procedures required by
      TSs as criteria for determining compliance.
                                            26
  Instructions to Workers (1 sample)
  The inspectors reviewed HRA work permit controls and use, observed containers of
  radioactive materials, and assessed whether the containers were labeled and controlled
  in accordance with requirements.
  The inspectors reviewed several occurrences where a workers electronic personal
  dosimeter alarmed. The inspectors reviewed Entergys evaluation of the incidents,
  documentation in the CAP, and whether compensatory dose evaluations were
  conducted when appropriate. The inspectors verified follow-up investigations of actual
  radiological conditions for unexpected radiological hazards were performed.
  Contamination and Radioactive Material Control (1 sample)
  The inspectors observed the monitoring of potentially contaminated material leaving the
  RCA and inspected the methods and radiation monitoring instrumentation used for
  control, survey, and release of that material. The inspectors selected several sealed
  sources from inventory records and assessed whether the sources were accounted for
  and were tested for loose surface contamination. The inspectors evaluated whether any
  recent transactions involving nationally tracked sources were reported in accordance
  with requirements.
  Risk-Significant HRA and Very High Radiation Area Controls (1 sample)
  The inspectors reviewed the procedures and controls for HRAs, very high radiation
  areas, and radiological transient areas in the plant.
  Problem Identification and Resolution (1 sample)
  The inspectors evaluated whether problems associated with radiation monitoring and
  exposure control (including operating experience) were identified at an appropriate
  threshold and properly addressed in the CAP.
b. Findings
  Introduction. A self-revealing Green NCV of TS 5.7.1e was identified when workers
  entered the Unit 2 FSB truck bay that was posted and controlled as a HRA without
  receiving a briefing on dose rates in the work area. Specifically, on June 6, 2016, two
  NPOs entered the Unit 2 FSB truck bay to hang tags on the backup spent fuel pool
  cooling filters. The NPOs signed in on an RWP but did not receive a radiological briefing
  on the dose rates in their work area. After entering the area, one worker received an
  electronic dosimeter dose rate alarm and subsequently both workers promptly exited the
  area. Immediate corrective actions included restricting the access of the two NPOs to
  the RCA. The issue was entered into Entergys CAP as CR-IP2-2016-03610.
  Description. On June 6, 2016, two NPOs entered the Unit 2 FSB truck bay, a posted
  HRA, to hang tags on the backup spent fuel pool cooling filters. The NPOs signed in on
  a HRA RWP but did not receive a briefing on the radiological conditions in their work
  area. After entering the area, one worker received an electronic dosimeter dose rate
  alarm of 991 mrem/hr. The two NPOs exited the HRA after receiving the alarm and
  reported the incident to radiation protection.
                                          27
Event follow-up (apparent cause evaluation for CR-IP2-2016-03610) determined that the
NPOs entered the RCA at the Unit 2 health physics (HP) control point (HP1) but did not
check in with the HP shift technician. They subsequently proceeded to the 80-foot
elevation of the Unit 2 PAB where they were expected to dress out and receive a
detailed radiological briefing at the outage HP desk. The NPOs bypassed the normal
dress-out area and proceeded to the NPO field office, located on the 98-foot elevation of
the PAB, to dress-out. After completing dress-out, the NPOs proceeded directly to their
work location, a posted HRA, without having received a briefing on radiological
conditions from the HP control desk on the 80-foot elevation of the PAB as required.
Shortly after entering the Unit 2 FSB truck bay HRA, one NPO received a dose rate
alarm, later determined to be at 991 mrem/hr (alarm set point of 900 mrem/hr). Both
workers exited the truck bay and proceeded to the HP control point.
TS 5.7.1 requires that activities in a HRA with dose rates greater than or equal to
100 mrem/hr at 30 centimeters from the source but less than 1000 mrem/hr shall be
controlled by means of an RWP. This includes specification of radiation dose rates in the
immediate work area and other appropriate radiation protection equipment and
measures and that all workers shall be briefed on the radiological conditions in their work
area prior to entry.
Analysis. The failure to obtain a radiological briefing prior to entry into a posted HRA is a
performance deficiency that was reasonably within Entergys ability to foresee and
correct. The performance deficiency was determined to be more than minor based on
similar example 6.h in IMC 0612, Appendix E, and because it adversely affected the
Human Performance attribute of the Occupational Radiation Safety cornerstone
objective. Specifically, Entergy staff violated the TS 5.7.1 HRA radiological briefing
requirement designed to protect workers from unnecessary radiation exposure. Using
IMC 0609, Appendix C, Occupational Radiation Safety Significance Determination
Process, the finding was determined to be of very low safety significance (Green)
because it did not involve: (1) ALARA occupational collective exposure planning and
controls, (2) an overexposure, (3) a substantial potential for overexposure, or (4) an
impaired ability to assess dose. The finding was self-revealing because Entergy was
made aware of the situation as a result of an electronic dose rate alarm.
The cause of the finding is related to the cross-cutting aspect of Human Performance,
Procedure Adherence, in that the workers did not follow processes, procedures, and
work instructions for entering a posted HRA. [H.8]
Enforcement. TS 5.7.1e requires that entry into an HRA with dose rates not exceeding
1.0 rem/hr at 30 centimeters from the source be performed by personnel that have been
briefed on the radiological conditions in the area prior to entry. Contrary to this
requirement, on June 6, 2016, two NPOs entered the Unit 2 FSB truck bay, a posted
HRA, to hang tags on the backup fuel pool cooling filters. The NPOs signed in on an
RWP but did not receive a briefing on the radiological conditions in the area prior to
entry. After entering the area, one worker received an electronic dosimeter dose rate
alarm and both workers promptly exited the area. Immediate corrective actions included
restricting the access of the two NPOs to the RCA. Because this finding was determined
to be of low safety significance (Green) and was entered into Entergys CAP as
CR-IP2-2016-03610, this violation is being treated as an NCV consistent with
Section 2.3.2.a of the NRC Enforcement Policy. (NCV 05000247/2016003-04,
Entry into a High Radiation Area without Radiological Briefing)
                                                28
2RS2 Occupational ALARA Planning and Controls (71124.02 - 2 samples)
  a. Inspection Scope
      The inspectors assessed Entergys performance with respect to maintaining
      occupational individual and collective radiation exposures ALARA. The inspectors used
      the requirements contained in 10 CFR 20, applicable RGs, TSs, and procedures
      required by TSs as criteria for determining compliance.
      Radiological Work Planning (1 sample)
      The inspectors selected the following radiological work activities based on exposure
      significance for review:
        RWP 20162615, PCI-Baffle Bolt Removal/Repair
        RWP 20162616, Westinghouse-Baffle Bolt Removal/Repair
        RWP 20162601, Radiation Protection Support
        RWP 20162642, Cavity Liner Repair
      For each of these activities, the inspectors reviewed ALARA work activity evaluations,
      exposure estimates, exposure reduction requirements, results achieved (dose rate
      reductions, actual dose), person-hour estimates and results achieved, and post-job
      reviews that were conducted to identify lessons learned.
      Verification of Dose Estimates and Exposure Tracking Systems (1 sample)
      The inspectors reviewed the current annual collective dose estimate; basis methodology;
      and measures to track, trend, and reduce occupational doses for ongoing work activities.
      The inspectors evaluated the adjustment of exposure estimates or re-planning of work.
      The inspectors reviewed post-job ALARA evaluations of excessive exposure results.
  b. Findings
      Introduction. A self-revealing finding of very low safety significance (Green) was
      identified due to Entergy having unintended occupational collective exposure resulting
      from performance deficiencies in planning while preparing to perform reactor cavity liner
      repair activities during the Unit 2 refueling outage 2R22. Inadequate work planning
      resulted in unplanned, unintended collective exposure due to conditions that were
      reasonably within Entergys ability to foresee. The work activity planning deficiencies
      resulted in the collective exposure for these activities increasing from the planned dose
      of 2.386 person-rem to an actual dose of 10.305 person-rem.
      Description. Unit 2 has had a long-standing issue with refueling water storage tank
      water from the reactor refueling cavity (during refueling outages) leaking into the
      basement of the containment structure. Leakage rates of 4.5 gallons per minute were
      observed during initial cavity flood-up, and continued throughout the outage, placing an
      additional burden on the liquid radiological waste system to collect and process this
      leakage. Due to a period of limited work activity during the outage (2R22), a decision
      was made to effect repairs by draining down the cavity and performing
                                          29
welding activities on the cavity liner. Although the cavity liner leakage was a long-
standing issue, no extensive work/repair plan existed when this window of opportunity
opened.
The original scope of work was an area on the west face of the cavity liner approximately
eight feet in length. Upon closer examination of the cavity liner, it was determined by
Entergy that the area needing repair was much larger than originally intended on the
west face of the cavity liner and also needed to include the opposite face of the liner.
The welding method in the original repair plan also proved inadequate to the task,
resulting in most of the weld repairs not being able to be appropriately tested. As a
result, the repairs had only limited effectiveness, resulting in a small decrease of the
cavity leak rate from 4.5 gallons per minute to 3.7 gallons per minute. Initial work was
performed on April 4, 2016, without the intended shielding being installed, resulting in an
additional 1.1 person-rem of exposure before the appropriate shielding was put in place.
The work estimate in person-hours was challenged by scope increases, consisting of
greater than expected areas needing repair, difficulty of welding, and the material
condition of the cavity walls. Unintended collective exposure that was greater than the
planned collective exposure for cavity liner repair work was the result of the limited and
inadequate plan for the work to be performed and included the following: (1) conflicts
and discrepancies in the original repair plan (CR-IP2-2016-02528), (2) two significant
defects beyond the repair plan (CR-IP2-2016-02502), and (3) repairs could not be
completed due to the condition of the existing liner in localized areas
(CR-IP2-2016-02548).
Consequently, the total collective dose for the reactor cavity liner repair increased from
the planned collective dose of 2.386 person-rem to the actual collective dose of 10.305
person-rem. This issue was entered into Entergys CAP as CR-IP2-2016-02528,
CR-IP2-2016-02502, and CR-IP2-2016-02548.
Analysis. The failure to develop an adequate outage work plan for the reactor cavity
liner repair work was a performance deficiency that was within Entergys ability to control
and prevent. The performance deficiency was more than minor because it was
associated with the Program and Process attribute of the Occupational Radiation Safety
cornerstone and adversely affected the cornerstone objective to ensure the adequate
protection of the worker health and safety from exposure to radiation. Additionally, the
performance deficiency was determined to be more than minor based on similar
example 6.i in Appendix E of IMC 0612, in that the actual collective dose exceeded
5 person-rem and exceeded the planned, intended dose by more than 50 percent. In
accordance with IMC 0609, Appendix C, "Occupational Radiation Safety Significance
Determination Process," the finding was determined to be of very low safety significance
(Green) because Unit 2's current three-year rolling average collective dose for
2013-2015 is 39.69 person-rem, which is less than the criteria of 135 person-rem per
pressurized water reactor unit. The finding had a cross-cutting aspect in the area of
Human Performance, Work Management, in that the process of planning work activities
adversely impacted radiological safety. [H.5]
Enforcement. No violation of regulatory requirements occurred. The ALARA rule
(10 CFR 20.1101(b)) Statements of Consideration indicate that compliance with the
ALARA requirement will be judged on whether Entergy has incorporated measures to
track and, if necessary, to reduce exposures, and not whether exposures and doses
represent an absolute minimum or whether Entergy has used all possible methods to
                                                30
      reduce exposures. The overall exposure performance of a nuclear power plant is used
      to determine its compliance with the ALARA rule. Since Unit 2s current three-year
      rolling average is 39.69 person-rem, which is below the three-year rolling average
      criterion of 135 person-rem per unit, and has an established ALARA program to reduce
      exposure consistent with the 10 CFR 20.1101 Statements of Consideration, no violation
      of 10 CFR 20.1101(b) occurred. Entergy entered this issue into their CAP as
      CR-IP2-2016-02528, CR-IP2-2016-02502, and CR-IP2-2016-02548. Because this issue
      does not involve a violation and has very low safety significance, it is identified as a
      finding. (FIN 05000247/2016003-05, Failure to Maintain Radiation Exposure ALARA
      During Unit 2 Reactor Cavity Liner Repairs)
2RS4 Occupational Dose Assessment (71124.04 - 5 samples)
  a. Inspection Scope
      The inspectors reviewed the monitoring, assessment, and reporting of occupational
      dose. The inspectors used the requirements in 10 CFR 20, RG 8.9, RG 8.34, TSs, and
      procedures required by TSs as criteria for determining compliance.
      Inspection Planning
      The inspectors reviewed radiation protection program audits, National Voluntary
      Laboratory Accreditation Program (NVLAP) dosimetry testing reports, and procedures
      associated with dosimetry operations.
      Source Term Characterization (1 sample)
      The inspectors reviewed the plant radiation characterization (including gamma, beta,
      alpha, and neutron) being monitored. The inspectors verified the use of scaling factors
      to account for hard-to-detect radionuclides in internal dose assessments.
      External Dosimetry (1 sample)
      The inspectors reviewed dosimetry NVLAP accreditation, onsite storage of dosimeters,
      the use of correction factors to align electronic personal dosimeter results with NVLAP
      dosimetry results, dosimetry occurrence reports, and CAP documents for adverse trends
      related to external dosimetry.
      Internal Dosimetry (1 sample)
      The inspectors reviewed internal dosimetry procedures, whole body counter
      measurement sensitivity and use, adequacy of the program for whole body count
      monitoring of plant radionuclides or other bioassay technique, adequacy of the program
      for dose assessments based on air sample monitoring and the use of respiratory
      protection, and internal dose assessments for any actual internal exposure.
      Special Dosimetric Situations (1 sample)
      The inspectors reviewed Entergys worker notification of the risks of radiation exposure
      to the embryo/fetus, the dosimetry monitoring program for declared pregnant workers,
                                              31
      external dose monitoring of workers in large dose rate gradient environments, and dose
      assessments performed since the last inspection that used multi-badging, skin dose, or
      neutron dose assessments.
      Problem Identification and Resolution (1 sample)
      The inspectors evaluated whether problems associated with occupational dose
      assessment were identified at an appropriate threshold and properly addressed in the
      CAP.
  b. Findings
      No findings were identified.
4.    OTHER ACTIVITIES
4OA1 Performance Indicator Verification (71151 - 8 samples)
      Mitigating Systems Performance Index
  a. Inspection Scope
      The inspectors reviewed Entergys submittals for the following Mitigating Systems
      Cornerstone performance indicators for the period of July 1, 2015, through June 30,
      2016:
      Unit 2
        Emergency AC Power System (MS06)
        High Pressure Injection System (MS07)
        Heat Removal System (MS08)
        Residual Heat Removal System (MS09)
      Unit 3
        Emergency AC Power System (MS06)
        High Pressure Injection System (MS07)
        Heat Removal System (MS08)
        Residual Heat Removal System (MS09)
      To determine the accuracy of the performance indicator data reported during those
      periods, the inspectors used definitions and guidance contained in Nuclear Energy
      Institute Document 99-02, Regulatory Assessment Performance Indicator Guideline,
      Revision 7. The inspectors also reviewed Entergys operator narrative logs, CRs,
      mitigating systems performance index derivation reports, event reports, and NRC
      integrated inspection reports to validate the accuracy of the submittals.
  b. Findings
      No findings were identified.
                                                32
4OA2 Problem Identification and Resolution (71152)
      Routine Review of Problem Identification and Resolution Activities
  a. Inspection Scope
      As required by Inspection Procedure 71152, Problem Identification and Resolution, the
      inspectors routinely reviewed issues during baseline inspection activities and plant
      status reviews to verify that Entergy entered issues into the CAP at an appropriate
      threshold, gave adequate attention to timely corrective actions, and identified and
      addressed adverse trends. In order to assist with the identification of repetitive
      equipment failures and specific human performance issues for follow up, the inspectors
      performed a daily screening of items entered into the CAP and periodically attended CR
      review group meetings. The inspectors also confirmed, on a sampling basis, that, as
      applicable, for identified defects and non-conformances, Entergy performed an
      evaluation in accordance with 10 CFR 21.
  b. Findings
      No findings were identified.
4OA3 Follow Up of Events and Notices of Enforcement Discretion (71153 - 3 samples)
.1    Plant Event
  a. Inspection Scope
      On July 6, 2016, Unit 2 experienced a reactor trip caused by a human performance
      error. The inspectors reviewed and observed plant parameters, reviewed personnel
      performance, and evaluated performance of mitigating systems. The inspectors
      communicated the plant status to appropriate regional personnel and compared the
      event details with criteria contained in IMC 0309, Reactive Inspection Decision Basis for
      Reactors, for consideration of potential reactive inspection activities. The inspectors
      verified that Entergy properly reported the event in accordance with 10 CFR 50.72 and
      50.73. The inspectors reviewed Entergys follow-up actions related to the events to
      assure that Entergy implemented appropriate immediate corrective actions
      commensurate with their safety significance.
  b. Findings
      No findings were identified.
.2    (Closed) Licensee Event Report (LER) 05000247/2016-005-00: TS Prohibited Condition
      Due to a Surveillance Requirement (SR) Never Performed for Testing the Trip of the
      MBFPs.
      On March 26, 2016, an NRC inspector identified that the trip of the MBFPs was not
      tested in accordance with TS 3.7.3 (Main Feedwater System) SR 3.7.3.3. This
      performance deficiency was discovered as a result of an assessment of the failure of the
      MBFPs steam stop valves to close after the reactor trip on December 5, 2015. TS
      SR 3.7.3.3 required testing the MBFP trip function every 24 months on an actual or
                                              33
  simulated actuation signal. Surveillance tests 2-PT-V024DS60 and 2-PT-V24DS61 were
  performed every 24 months, but only tested up to the limit switch contact that actuates
  the MBFP turbine trip solenoid valves and did not include the trip function of the pump.
  A review determined the requirement to verify the trip of the MBFPs was added to the
  TS during the implementation of the improved TS conversion program in 2000 but the
  corresponding testing for MBFP trip was not added to the surveillance tests. The
  condition was recorded in the Entergys CAP in CR-IP2-2016-02247.
  The inspectors previously issued a Green NCV of TS 3.7.3 for failing to conduct required
  surveillance testing on the MBFP trip function as required by SR 3.7.3.3 in NRC
  Integrated Inspection Report 05000247/2016001. There was no evidence that the
  MBFP trip function had ever been tested and, therefore, did not qualify for treatment as a
  missed surveillance under SR 3.0.3. (NCV 05000247/2016001-04, Failure to Implement
  SR for MBFP Trip Function)
  The inspectors did not identify any new issues during the review of the LER. This LER is
  closed.
.3 (Closed) LER 05000247/2016-006-00: TS Prohibited Condition Due to Inoperable
  138kV Offsite Circuits Caused by a Disconnected SI Signal to the Station Auxiliary
  Transformer LTC
  The inspectors reviewed Entergys actions and reportability criteria associated with LER
  05000247/2016-006-00, which was submitted to the NRC on May 27, 2016. On
  March 9, 2016, during shutdown for a refueling outage, while performing testing of the SI
  system, the station SAT LTC failed to increase per design upon actuation of an SI signal.
  At the time, the condition was acceptable for the current mode but was unacceptable
  when the offsite AC electric power distribution and SI system is required to be operable.
  An investigation was performed and it was discovered on March 28, 2016, that the SAT
  control cabinet terminal blocks Wl05 and Wl06 had their links open thereby preventing
  proper operation of the LTC. A review of tests and WO did not identify any previous
  failed tests or any WO with instructions to open the links. The last successful test of LTC
  operation was performed on February 26, 2014. The inspectors reviewed the LER, the
  associated apparent cause evaluation analysis, and interviewed Entergy staff.
  Introduction. The inspectors identified a self-revealing, Green NCV for failing to comply
  with TS LCO 3.8.1, Electrical Power Systems, AC Sources - Operating, from
  February 26, 2014, to March 29, 2016. During this time, the auto transfer function for
  the 6.9kV offsite electrical buses was not operable because the SI anticipatory signal to
  the SAT LTC was disconnected. As a result, one of two qualified offsite AC circuits was
  not operable.
  Description. On March 9, 2016, Entergy discovered that the SAT LTC failed to increase
  voltage as designed in response to an SI signal during the performance of surveillance
  test 2-PT-R013, SI System, in Mode 5. Unit 2 conducted the loss of normal power
  surveillance test by manually actuating the SI signal from the control room. Test results
  revealed that the SAT LTC would not adjust to raise bus voltage in anticipation of the
  fast transfer of vital buses from the unit auxiliary transformer (UAT) to the SAT. Upon
  initiation of an SI signal, the SAT LTC was designed to raise bus voltage within 30
  seconds in anticipation of the fast transfer of the vital buses 1 through 4 to buses 5 and 6
  when loads are transferred from the UAT to the SAT and safeguards loads are
                                          34
sequenced in. This anticipatory auto transfer feature is required to be operable by TS
LCO 3.8.1 whenever the 138kV offsite line is supplying buses 5 and 6 through the SAT
and buses 1, 2, 3, and 4 are supplied from the UAT in modes 1 through 4. With the
as-found LTC condition, an event resulting in an SI and fast bus transfer could cause the
secondary voltage to drop below the degraded voltage setpoint for more than
10 seconds, resulting in a separation of the safety buses from offsite power.
On March 28, 2016, while in mode 6, Entergy identified that the state links (W105 and
W106) that connected the SI anticipatory signal to the SAT LTC were disconnected. A
document review over a two-year period did not identify any WOs or other activities
which directed these links to be opened. Entergy concluded that the most likely cause
was human error during the last outage, 2RFO21, when workers apparently left the links
in the open position following maintenance activities. The last successful test of the SAT
LTC was conducted on February 26, 2014. Entergy closed the links and reinstituted to
the SAT LTC SI anticipatory signal protective feature prior to entering mode 4. Entergy
also implemented corrective actions to maintenance procedures to require and
troubleshooting WOs to require concurrent verification that equipment was restored to
the proper configuration.
The failure to reinstitute the anticipatory SI signal to the SAT LTC increased the
likelihood that a LOOP to the vital buses during a fast dead bus transfer would occur if a
reactor trip and SI had actuated. If the reduction in vital bus voltage caused the
degraded voltage relay(s) to actuate during a fast transfer and during the period when
safeguards loads were sequenced onto the safety buses, the associated EDGs (which
would have already started on the SI signal) would have automatically stripped and
resequenced the safety loads onto the vital bus, which would then be powered directly
from the EDGs. In addition, the SAT LTC would have responded in automatic control to
the voltage transient and may have responded adequately to prevent a reduction in
voltage during the loss of normal power test on March 9, 2016.
A note in TS 3.8.1 states The automatic transfer function for the 6.9kV buses shall be
operable whenever the 138kV is supplying 6.9kV bus 5 and 6 and the UAT is supplying
6.9kV bus 1, 2, 3, and 4. UFSAR section 7.5.2.1.12.1 further states, The LTC is used
to maintain the nominal voltage level on the SATs 6.9kV buses by automatically raising
or lowering the SAT secondary winding taps in response to voltage variations on the
6.9kV buses. During an SI event, the SI anticipatory signal will raise the LTC tap
position, increasing the voltage towards a pre-selected voltage, in anticipation of the
increased loads from the fast transfer of the loads held by the four 6.9kV in-house buses
to the SAT, thus reducing the severity of a degraded voltage condition on the 480V and
6.9kV buses. As a result, Entergy concluded that TS 3.8.1(a) was not met because the
state links were not installed.
Analysis. The failure to reinstall the state links (W105 and W106) following maintenance
activities was a performance deficiency that was within Entergys ability to foresee and
prevent. Specifically, since February 2014, the SI anticipatory signal to the SAT LTC
was nonfunctional. TS 3.8.1 requires this signal to be functional in order for the
associated offsite AC source to be operable. This performance deficiency was more
than minor because it is associated with the Equipment Performance attribute of the
Mitigating Systems cornerstone to ensure the availability, reliability, and capability of
systems that respond to initiating events to prevent undesirable consequences (i.e., core
damage). Using IMC 0609, Appendix A, The Significance Determination Process for
                                                35
      Findings At-Power, Exhibit 2, Mitigating Systems Screening Questions, this issue
      required a DRE because the loss of the SI anticipatory function may have resulted in the
      SAT being unavailable under low or degraded grid voltage conditions and the second
      qualified offsite AC power line was therefore inoperable for a period longer than the TS
      allowable outage time. A Region I SRA completed a DRE using the Unit 2 SPAR model
      and qualitative analysis. The following assumptions were used in the SPAR model
      analysis: 1) an exposure period one year (maximum length of time per significance
      determination process guidance), 2) to mimic the LTC OOS (plant design feature not
      modeled) the failure probability of the SAT basic event (ACP-TFM-SAT) was increased
      from 2.27E-5 to 2.27E-4 (one order of magnitude) to represent the increased likelihood
      of the SAT being rendered unavailable due to a low grid voltage condition, 3) truncation
      was left at 1E-11, and 4) SAT recovery credit was not provided, although the SAT could
      be manually restored to service following initial electrical plant stabilization using the
      EDGs to restore power to the safety buses. Based upon these conservative modeling
      assumptions and the condition under which the SI anticipatory signal would be relied
      upon (a coincident loss of coolant accident and SI actuation), the safety significance of
      this issue is less than E-8/year or very low safety significance (Green). The dominant
      sequences involve a loss of coolant accident and failure of the EDGs.
      The inspectors determined that the finding had a cross-cutting aspect of Human
      Performance, Work Management, because Entergy did not implement a process of
      controlling and executing work activities. Specifically, the work process did not
      coordinate with different groups or job activities to ensure the state links were restored at
      the end of the work activities. [H.5]
      Enforcement. TS 3.8.1 requires two offsite AC electrical sources to be operable when in
      modes 1 through 4. A note in TS 3.8.1 requires the automatic transfer function for the
      6.9kV buses to be operable in modes 1 through 4 whenever the 138kV is supplying
      6.9kV bus 5 and 6 and the UAT is supplying 6.9kV bus 1, 2, 3, and 4. The UFSAR
      concludes that the SAT LTC SI signal feature is required to support the automatic
      transfer function. Contrary to this requirement, the automatic transfer function was not
      operable from February 26, 2014, until March 29, 2016. Unit 2 was operating in Mode 1
      for most of this time. Entergy entered this condition into their CAP (CR-IP2-2016-01386
      and CR-IP2-2016-02293) and restored the SAT LTC anticipatory SI signal by closing the
      state links W105 and W106. This finding was of very low safety significance and was
      documented in Entergys CAP. Therefore, this violation is being treated as an NCV,
      consistent with section 2.3.2.a of the NRC Enforcement Policy.
      (NCV 05000247/2016003-06, Failure to Maintain Two Qualified AC Sources of
      Offsite Power)
      This LER is closed.
4OA5 Other Activities
.1    Groundwater Contamination
  a. Inspection Scope
      In February 2016, Entergy notified the NRC of a significant increase in groundwater
      tritium levels measured at three monitoring wells (MW-30, MW-31, and MW-32) located
                                              36
  near the Unit 2 FSB. In August 2016, Entergy notified the NRC of the detection of
  Cobalt-58 measured in MW-32 located near the Unit 2 FSB.
b. Findings and Observations
  (Closed) URI 05000247/2016001-07: January 2016 Groundwater Contamination
  Introduction. The inspectors identified a Green NOV of 10 CFR 20.1406(c) for Entergys
  failure to conduct operations to minimize the introduction of residual radioactivity into the
  subsurface of the site (groundwater). Specifically, Entergy has not maintained the floor
  drain systems clear of obstructions and interferences and has not verified the ability of
  the floor drains to handle the volume and flowrates for draining activities being
  conducted. As a result, repeated spills of contaminated water within the RCA leaked to
  onsite groundwater. Two previous occurrences in April 2014 (NRC Inspection Report
  05000247/2015002) and February 2015 (NRC Inspection Report 05000247/2015003)
  resulted in a licensee-identified Green NCV and an NRC-identified Green NCV. This
  inspection report documents two additional similar floor drain backup spill events that
  resulted in groundwater contamination that are the subject of this violation. Specifically,
  on January 2016, a spill caused by multiple floor drain obstructions resulted in the
  backup of contaminated water onto the floor of the 35-foot elevation of the PAB and the
  subfloor of the Unit 2 FSB with subsequent leakage to onsite groundwater. In June/July
  2016, another event occurred due to an obstructed flow path through a floor drain in the
  FSB, which spilled to the subfloor and contaminated the onsite groundwater.
  Description. This violation involves two separate incidents of contaminated water spills
  that resulted in groundwater contamination due to poor floor drain management. The
  first incident involved a January 2016 groundwater contamination event. The inspectors
  previously identified a URI regarding whether Entergys controls to prevent the
  introduction of radioactivity into the site groundwater for this occurrence were adequate.
  Specifically, Entergy obtained increased tritium concentrations from onsite groundwater
  monitoring well samples in January 2016 indicating that a leak or spill had occurred
  allowing the introduction of radioactivity into the subsurface of the site. Entergy entered
  this issue into their CAP as CR-IP2-2016-00264, CR-IP2-2016-00266, and CR-IP2-
  2016-00564 with actions to characterize and evaluate this new leak. The initial Entergy
  investigation focused on identifying the source of the contamination which was
  preliminarily determined to originate from the reject water of a reverse osmosis (RO) skid
  that was in service from January 16-31, 2016. This causal determination was based on
  the timing of the groundwater contamination event and based on the unique matching of
  the radionuclide signature from the groundwater samples and the RO skid reject water.
  Based on subsequent completion of Entergys root cause evaluation, the URI can be
  evaluated and assessed. Two pathways to the site subsurface were identified. One
  pathway was the floor drain pathway in the PAB from below the RO unit to the PAB
  sump, where multiple drain obstructions led to spillage from two uncapped cut drain lines
  located above the floor on the 35-foot elevation of the PAB, and leakage to the
  subsurface from the floor wall interface on the 35-foot elevation of the PAB. The second
  cause was attributed to filling the Unit 2 radiological waste sump 28 until it backed up
  into the subfloor of the Unit 2 FSB truck bay and subsequently leaked out into the
  ground, contaminating the groundwater. This was attributed to rerouting a drain path for
  the RO skid reject water into a floor drain with a higher operating level in radiological
  waste sump 28 that caused backup into a subfloor drain channel into the subfloor of the
                                            37
Unit 2 FSB truck bay. This condition was the result of an inoperable radiological waste
pump and a temporary drain path arrangement that was not fully evaluated to prevent
potential groundwater contamination spills.
Regarding the second groundwater contamination incident, on August 10, 2016, Entergy
notified the NRC of the detection of Co-58 in monitoring well MW 32-59 located near the
Unit 2 FSB. This sample was drawn on July 5, 2016, and analyzed on the week of
August 1, 2016. The concentration detected was 76.7 pCi/l. This event was
documented by Entergy in CR-IP2-2016-05060. Following identification of Co-58 in the
well sample, Entergy directed its vendor laboratory to recount the sample, and to also
immediately send off the next sample taken from MW 32-59, on July 18, 2016, for
analysis. The sample recount, together with the counting of the July 18, 2016, sample,
confirmed the presence of Co-58. No increase in tritium concentration was seen at
MW 32 on either of these dates. The Entergy groundwater team, previously assembled
for the January 2016 event (described above), began investigating the cause of this new
leak. The presence of Co-58 was determined to be indicative of reactor coolant, due to
its relatively short half-life. Since Unit 2 had recently (in June 2016) completed a
refueling outage, the source of the leak could also have been from the spent fuel pool,
as the two systems were connected throughout the refueling outage. Previously, on
July 19, 2016, in CR-IP2-2016-04559, Entergy had identified high levels of
contamination in the Unit 2 FSB truck bay subfloor as part of their investigation into the
leakage path for the January 2016 event. Analysis of this contamination revealed the
presence of Co-58.
Entergys investigation focused on examination of the source of the contamination with a
pathway from the Unit 2 FSB truck bay subfloor. Based on this investigation, Entergy
identified that in June 2016 following conclusion of the Unit 2 refueling outage, the spent
fuel pool alternate decay heat removal system was drained to sump 28. This equipment
contained spent fuel pool water and could, therefore, have been the source of the Co-58
contamination. Review of the drainage pathway from the system to sump 28 identified
that the system was drained by pumping its contents to a floor drain located on the west
side of the Unit 2 FSB truck bay, with that drain going to sump 28. Further analysis
identified that the floor drain used was partially blocked by the presence of another large
temporary drain line previously used during the 2015 dry fuel cask storage project. The
presence of this second line going into the floor drain significantly reduced the capacity
of the drain, resulting in the alternate decay heat removal liquids backing up inside the
drain system, back-flowing into the north crane rail sole plate, and then spilling onto the
Unit 2 FSB truck bay subfloor, which was already identified as a known leakage pathway
to groundwater. This pathway was confirmed by Entergy based on the high
contamination levels detected in the north crane rail sole plate and the FSB truck bay
subfloor, including the presence of Co-58.
The NRC assessment of the safety significance of these events focused on validating
the safety impact of dose to the public from the release of tritium and Co-58 to the site
groundwater, and ultimately to the Hudson River. The NRC verified that Entergys
bounding public dose calculations on the groundwater contamination leaks were
sufficiently conservative, and a maximum worst case scenario would result in 0.000112
millirem (mrem) per year, which represents a very small fraction of the allowable dose
(liquid effluent dose objective of 3 mrem per year).
                                            38
Analysis. The failure to conduct operations to minimize the introduction of residual
radioactivity into the subsurface of the site, as required by 10 CFR 20.1406(c), is a
performance deficiency within Entergys ability to foresee and correct and should have
been prevented. Specifically, two events involving the leakage of contaminated water to
the onsite groundwater occurred due to Entergys failure to control and maintain its floor
drain systems clear of obstructions and interferences and to verify their ability to handle
the volume and flowrates for draining activities being conducted.
The issue is more than minor because it is associated with the Program and Process
attribute of the Public Radiation Safety cornerstone and adversely affected the
cornerstone objective to ensure Entergys ability to prevent inadvertent release and/or
loss of control of licensed material to an unrestricted area due to the actual
contamination of groundwater that occurred. In accordance with IMC 0609, Appendix D,
"Public Radiation Safety Significance Determination Process," the finding was
determined to be of very low safety significance (Green) because Entergy had an issue
involving radioactive material control but did not involve transportation or public
exposure in excess of 0.005 Rem.
In accordance with IMC 0310, Aspects within the Cross-Cutting Areas, dated
December 4, 2014, the finding had a cross-cutting aspect in the area of Problem
Identification and Resolution, Resolution, in that effective corrective actions to address
issues identified in two previous groundwater leaks since 2014 were not implemented in
a timely manner, which could have prevented this leak. [P.3]
Enforcement. 10 CFR 20.1406(c) requires, in part, that licensees shall, to the extent
practical, conduct operations to minimize the introduction of residual radioactivity into the
site, including the subsurface. Contrary to the above, on two occasions between
January 2016 and July 2016, Entergy failed to conduct operations to minimize the
introduction of residual radioactivity into the subsurface of the site. Specifically, Entergy
has not maintained its floor drain system clear of obstructions and interferences and has
not verified the ability of the floor drains to handle the volume and flowrates for draining
activities being conducted. As a result, repeated spills of contaminated water within the
RCA leaked into the site groundwater. Specifically, in January 2016, a spill caused by
floor drain obstructions resulted in the backup of contaminated water onto the floor and
subsequent leakage to the subsurface of the site. A subsequent June/July 2016
groundwater contamination event occurred due to an obstructed flow path through a
floor drain in the Unit 2 FSB, which spilled to the subfloor and contaminated the
subsurface of the site.
Entergys immediate corrective actions included decontamination of the adversely
affected plant areas, revision of the operating procedure for radiological waste sump 28,
and sealing the Unit 2 FSB subfloor to make it water tight to prevent further groundwater
contamination from this location. Entergys planned corrective action to address the
existing groundwater contamination is the start-up and operation of a recovery well
system (RW-1). The system will allow for the collection of contaminated groundwater to
be returned inside the PAB for processing.
This violation meets the criteria in Section 2.3.2.a of the NRC Enforcement Policy to
disposition as an NCV. However, the NRC considered that in April 2014 (NRC
Inspection Report 05000247/2015002) and again in February 2015 (NRC Inspection
Report 05000247/2015003), Entergy also had contaminated water spills inside the RCA
                                                39
      which leaked to groundwater due to blockages in the Unit 2 floor drain system.
      Entergys corrective actions for these previous occurrences were limited to clearing the
      specific floor drains involved in the flow paths for each event. The NRC concluded that
      Entergys actions for these most recent events, while similarly responsive to the specific
      occurrences, do not adequately address the broader concern regarding a lack of control
      and management of the site floor drain system. Therefore, the NRC is issuing a NOV
      and is requiring a response from Entergy that describes a more comprehensive CAP for
      maintaining an effective floor drain system and a process for evaluating and using the
      floor drains to handle the volume and flowrates for draining activities being conducted.
      The NOV is enclosed (Enclosure 1). (VIO 05000247/2016003-07, Inadequate Control
      of Floor Drains to Minimize Groundwater Contamination)
      This URI is closed.
.2    (Closed) URI 05000247/2016002-01, CVCS Goal Monitoring Under the Maintenance
      Rule
  a. Inspection Scope
      During the 2nd quarter of 2016, the inspectors identified issues of potential concern with
      Entergys application of 10 CFR 50.65(a)(1), Requirements for Monitoring the
      Effectiveness of Maintenance at Nuclear Plants, in regards to the reliability of the Unit 2
      chemical and volume control system (CVCS). These concerns included the
      establishment of appropriate (a)(1) goals and whether appropriate justification was
      established that the corrective actions to address identified maintenance weaknesses
      were effective prior to removal from (a)(1) status. A URI (05000247/2016002-01) was
      identified because additional NRC review and evaluation was needed to determine
      whether three identified issues of concern represented performance deficiencies and
      whether they were more than minor. The inspectors further evaluated the issues and
      reviewed against 10 CFR 50.65, Requirements for monitoring the effectiveness of
      maintenance at nuclear power plants; NUMARC 93-01, Industry guideline for monitoring
      the effectiveness of maintenance at nuclear power plants, Revision 4A; EN-DC-206,
      Maintenance Rule (a)(1) Process, Revision 3; and NRC Enforcement Manual, Revision
      9.
      For two issues of concern identified in URI 05000247/2016002-01, the inspectors
      determined that Entergys goals established for each of the issues were adequate to
      provide reasonable assurance that system components would perform their intended
      function on demand in accordance with the requirements of 10 CFR 50.65. For these
      two issues, the inspectors determined that Entergy placed the CVCS system in
      Maintenance Rule (a)(1) status and established goals to monitor performance. The
      goals were adequate to provided reasonable assurance that system components would
      perform their intended function. Therefore, no violation of 10 CFR 50.65(a)(1) occurred.
      However, the inspectors identified weaknesses in the narrowness of the scope, the
      applicable time periods, and the technical justification for the goals. The weaknesses
      are as follows:
        23 charging pump internal oil tube failure. Although 10 CFR 50.65 industry and site
          guidance documents provide leeway in whether to establish system, train, or specific
          component goals, the inspectors concluded that the goal on only the 23 charging
                                              40
        pump was narrowly focused and did not include similar conditions for the 21 and 22
        charging pumps
      22 charging pump check valve failure. Although 10 CFR 50.65 industry, and site
        guidance documents provide latitude on the number of surveillances and
        occurrences to monitor in accordance with your goal, the inspectors concluded that
        the goal with only one fill and vent maintenance activity was narrowly focused and
        additional activities were not included
  The third issue of concern involved a failure of the Unit 2 valve FCV-110A, boric acid
  flow control valve, to fully open on January 5, 2015. The valve was insufficiently
  insulated and, as a result, boron crystallized above the valve plug and blocked
  movement. The inspectors reviewed the (a)(1) action plan for FCV-110A, which
  specified a monitoring interval of six months to include the winter because previous
  valve failures had all occurred during the winter months. The inspectors noted that the
  action plan did not specify a goal and that the actual monitoring interval documented in
  the corrective action was from April to October 2015 and, therefore, did not include the
  winter months when failure would most likely occur. The inspectors determined that this
  was not in accordance with EN-DC-206, Maintenance Rule (a)(1) Process, Section
  5.5[3], which states, in part, that monitoring intervals should be long enough to detect
  recurrence of the applicable failure mechanism and 5.3[4](h) which states, in part,
  Goals should be quantifiable with specific limits, and trendable if practicable. In
  addition, the inspectors determined that represented a violation of 10 CFR 50.65(a)(1),
  Requirements for monitoring the effectiveness of maintenance at nuclear power plants,
  because the failure to monitor the condition during the winter months against licensee
  established goals, was a failure to monitor the performance of FCV-110A in a manner
  sufficient to provide a reasonable assurance that the valve was capable of performing its
  intended functions. This issue was determined to be a minor violation because the
  reliability of FCV-110A and the CVCS was not impacted. Although, Entergys failed to
  adequately monitor the performance FCV-110A, no valve performance issues or failures
  occurred during the winter months following repair of the insulation. Consistent with the
  NRC Enforcement Policy, Section 2.2.2, minor violations generally do not warrant
  enforcement action but are required to be entered into the stations CAP and actions
  taken to restore compliance. Entergy entered this issue into their CAP as CR-IP2-2017-
  00084 for resolution.
  URI 05000247/2016002-01 is closed.
b. Findings
  No findings were identified.
                                              41
4OA6 Meetings, Including Exit
    On October 26, 2016, the inspectors presented the inspection results to Mr. Anthony
    Vitale, Site Vice President, and other members of Entergy. On January 6, 2017, a
    telephone call was conducted between Mr. Eugene DiPaolo, Acting Branch Chief,
    Reactor Projects Branch 2, and Mr. Robert Walpole, Nuclear Safety Assurance
    Manager, to clarify details associated with the closure of URI 05000247/2016002-01.
    The inspectors verified that no proprietary information was retained by the inspectors or
    documented in this report.
ATTACHMENT: SUPPLEMENTARY INFORMATION
                                              A-1
                              SUPPLEMENTARY INFORMATION
                                  KEY POINTS OF CONTACT
Entergy Personnel
A. Vitale, Site Vice President
J. Kirkpatrick, Plant Operations General Manager
R. Alexander, Unit 2 Shift Manager
N. Azevedo, Engineering Supervisor
K. Baumbach, Chemistry Supervisor
S. Bianco, Operations Fire Marshal
C. Bohrens, Unit 2 Shift Manager
R. Burroni, Engineering Director
T. Chan, Engineering Supervisor
R. Daley, Engineering Supervisor
D. Dewey, Unit 3 Assistant Operations Manager
R. Dolansky, ISI Program Manager
R. Drake, Civil Design Engineering Supervisor
J. Ferrick, Regulatory Assurance and Performance Improvement Director
D. Gagnon, Security Manager
L. Glander, Emergency Preparedness Manager
F. Kich, Performance Improvement Manager
M. Lewis, Unit 2 Assistant Operations Manager
N. Lizzo, Training Manager
B. McCarthy, Operations Manager
F. Mitchell, Radiation Protection Manager
E. Mullek, Maintenance Manager
E. Portanova, System Engineer I (Nuclear)
M. Tesoriero, System Engineering Manager
M. Troy, Nuclear Oversight Manager
R. Walpole, Regulatory Assurance Manager
                                                                      Attachment
                                    A-2
          LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED
Opened
05000247/2016003-07    VIO        Inadequate Control of Floor Drains to Minimize
                                  Groundwater Contamination (Section 4OA5)
Opened/Closed
05000286/2016003-01    NCV        Failure to Adequately Assess Fire Risk
                                  Associated with Maintenance on the Unit 3
                                  Appendix R Diesel Generator (Section 1R13)
05000247/2016003-02    NCV        Missed Inspections on Automatic Voltage Regulator
                                  Cards Results in Emergency Diesel Generator
                                  Failure to Run (Section 1R15)
05000286/2016003-03    NCV        Untimely Corrective Actions to Address Degraded
                                  Automatic Voltage Regulator Cards (Section 1R22)
05000247/2016003-04    NCV        Entry into a High Radiation Area without
                                  Radiological Briefing (Section 2RS1)
05000247/2016003-05    FIN        Failure to Maintain Radiation Exposure ALARA
                                  During Unit 2 Reactor Cavity Liner Repairs
                                  (Section 2RS2)
05000247/2016003-06    NCV        Failure to Maintain Two Qualified AC Sources of
                                  Offsite Power (Section 4OA3)
Closed
05000247/2016001-06    URI        23 EDG Automatic Voltage Regulator Failure
                                  (Section 1R15)
05000247/2016001-07    URI        January 2016 Groundwater Contamination
                                  (Section 4OA5)
05000247/2016002-01    URI        CVCS Goal Monitoring Under the Maintenance
                                  Rule (Section 4OA5)
05000247/2016-005-00    LER        TS Prohibited Condition Due to a SR Never
                                  Performed for Testing the Trip of the MBFPs
                                  (Section 4OA3)
05000247/2016-006-00    LER        TS Prohibited Condition Due to Inoperable
                                  138kV Offsite Circuits Caused by a Disconnected
                                  SI Signal to the Station Auxiliary
                                  Transformer LTC (Section 4OA3)
                                                A-3
                                LIST OF DOCUMENTS REVIEWED
Common Documents Used
Indian Point Unit 2, UFSAR
Indian Point Unit 3, UFSAR
Indian Point Unit 2, Individual Plant Examination
Indian Point Unit 3, Individual Plant Examination
Indian Point Unit 2, Individual Plant Examination of External Events
Indian Point Unit 3, Individual Plant Examination of External Events
Indian Point Unit 2, TSs and Bases
Indian Point Unit 3, TSs and Bases
Indian Point Unit 2, Technical Requirements Manual
Indian Point Unit 3, Technical Requirements Manual
Control Room Narrative Logs
Plan of the Day
Section 1R01: Adverse Weather Protection
Procedures
OAP-008, Severe Weather Preparations, Revision 23
Condition Reports (CR-IP2-)
2016-04699
Section 1R04: Equipment Alignment
Procedures
2-COL-4.1.1, Component Cooling Water System, Revision 26
2-COL-21.3, Steam Generator Water Level and Auxiliary Boiler Feedwater, Revision 34
2-COL-31.2, Gas Turbine 2, Revision 7
2-COL-31.3, Gas Turbine 3, Revision 10
3-SOP-EL-013, ARDG Operation, Revision 30
COL-EL-6, ARDG, Revision 10
Drawings
9321-F-21213, Flow Diagram Appendix R 6.9kV EDG Fuel Oil System, Revision 6
9321-F-21203, Flow Diagram Appendix R 6.9kV EDG Lube Oil System, Revision 2
9321-F-21223, Flow Diagram Appendix R 6.9kV EDG Jacket Water System, Revision 3
Drawing 304122, GT-2/3 Fuel Forwarding System, Revision 7
Section 1R05: Fire Protection
Procedures
EN-TQ-125, Fire Brigade Drills, Revision 4
Condition Reports (CR-IP3-)
2016-03052
Miscellaneous
Transient Combustible Evaluation 16-017, Revision 1
                                              A-4
Section 1R11: Licensed Operator Requalification Program
Procedures
2-POP-1.2, Reactor Startup, Revision 59
3-AOP-ROD-1, Rod Control and Indication System Malfunctions, Revision 3
3-E-0, Reactor Trip or SI, Revision 6
3-E-3, Steam Generator Tube Rupture, Revision 4
EN-OP-115, Conduct of Operations, Revision 17
Condition Reports (CR-IP3-)
2016-02892 2016-02899
Miscellaneous
Simulator Training Scenario I3SX-LOR-SES013, Letdown Line Rupture, Main Turbine
      Generator Control Valve Shuts, Misaligned Rod, Steam Generator TR, Revision 4
Simulator Training Scenario LRQ-SES-ECA00A, Loss of 13.8/138kV (AOP-138kv-1) with
      Subsequent Loss of Grid and Main Generator Trip (E-0) and Loss of All AC Power
      (ECA-0.0, 0.1, 0.2), Following Turbine First Stage Press Instrument, PT412A,
      (AOP-INST-1) Failure and Loss of MCC-28, Revision 9
Section 1R12: Maintenance Effectiveness
Procedures
EN-DC-153, Preventive Maintenance Component Classification, Revision 14
EN-DC-205, Maintenance Rule Monitoring, Revision 5
EN-LI-102, Corrective Action Program, Revision 27
EN-WM-100, Work Request Generation, Screening and Classification, Revision 13
Condition Reports (CR-IP3-)
2011-05686 2014-00544 2014-00700            2014-01678    2014-02338    2014-02579
2014-02661 2014-02696 2014-02753            2014-02762    2015-01751    2015-01961
2015-03009 2015-03456 2015-03522            2015-03779    2015-03838    2016-01352
2016-02339
Miscellaneous
Maintenance Rule Action Plan - Unit 3 Reactor Protection and Controls, 07/30/2015
Section 1R13: Maintenance Risk Assessments and Emergent Work Control
Procedures
EN-OP-119, Protected Equipment Postings, Revision 8
IP-SMM-WM-101, Fire Protection and Maintenance Rule (a)(4) Risk Assessment, Revision 5
Condition Reports (CR-IP3-)
2016-02267 2016-02538
Miscellaneous
Equipment Out-of-Service Risk Assessment Tool, Unit 3
                                              A-5
Section 1R15: Operability Determinations and Functionality Assessments
Procedures
0-IC-SI-90-142, Digital Metal Impact Monitoring System (DMIMs) Baseline Recording Using
    Calibrated Hammers, Revision 0
0-IC-SI-90-143, DMIMs Signal Conditioning Calibration, Revision 4
0-IC-SI-90-145, DMIMs Operational Test, Revision 3
2-SOP-1.9, DMIMS Operation, Revision 7
3-PT-V49, DMIM System Check, Revision 1
EN-OP-104, Operability Determination Process, Revision 11
RXC-B-023-A, Metal Impact Monitoring System Signal Conditioner Calibration (NSID-EIS-90-
    143, Revision 4), Revision 0
RXC-B-024-A, Metal Impact Monitoring System Operational Test (NSID-EIS-90-145, Revision
    4), Revision 0
Condition Reports (CR-IP2-)
2010-03316 2010-03773        2010-04545    2010-05677    2010-07126    2010-07468
2011-01205 2011-01266        2011-03693    2012-03453    2012-04766    2012-06131
2012-07266 2013-01009        2013-02540    2014-01718    2014-02261    2014-02550
2014-02653 2014-02738        2014-05812    2014-05813    2014-05816    2016-01260
2016-01500 2016-03360        2016-03525    2016-03800    2016-03856    2016-04764
2016-05220 2016-05418        2016-05442    2016-05444    2016-05528    2016-05757
Condition Reports (CR-IP3-)
2016-01370 2016-02551 2016-02910            2016-02961    2016-03018
Maintenance Orders/Work Orders
WO 130432 WO 130454 WO 130456              WO 130460      WO 130462      WO 446386
WO 446387 WO 446388
Miscellaneous
Report of Defect per 10 CFR 21, Basler Electric SBSR AVR Card Solder Joints, dated
  September 21, 2007
Safety Evaluation by the Office of Nuclear Reactor Regulation Related to the Elimination of
    Large Primary Loop Ruptures as a Design Basis, Power Authority of the State of New York,
    Indian Point Nuclear Generating Unit No. 3, Docket No. 50-286, dated March 10, 1986
Supplement to Safety Evaluation by the Office of Nuclear Reactor Regulation Regarding
    Leakage Detection Capability in Elimination of Large Primary Loop Ruptures as a Design
    Basis, Indian Point Nuclear Generating Unit No. 3, Docket No. 50-286, dated January 30,
    2002
Westinghouse Proprietary Letter (RIDA 16-152)
Section 1R18: Plant Modifications
Procedures
EN-DC-112, Engineering Change Request Process, Revision 8
EN-DC-115, Engineering Change Process, Revision 18
EN-DC-136, Temporary Modifications, Revision 12
EN-DC-136, Temporary Modifications, Revision 13
EN-LI-100, Process Applicability Determination, Revision 18
Condition Reports (CR-IP2-)
2016-05311
                                            A-6
Condition Reports (CR-IP3-)
2016-02937
Maintenance Orders/Work Orders
WO 00454240-02        WO 00454240-03      WO 52713002
Miscellaneous
Engineering Change (EC) 66780, Temporary Modification to Install Jumpers in Order to
      Maintain Bus 5A Interlocking
EC 65773, Replace ARDG Battery Charger
Relay Circuit While Relay 62-2/5A Is Replaced
MCENPC23, Battery Charger Users Manual, Revision 2.2
Temp Mod No. 66349, Temp Modification to Preserve Structural Integrity of Battery 23 Cell
      Jar No. 4
TMCN 66790, Clarification for Connection of Temp Jumpers to Maintain Daisy chain
TMCN 66801, Alternate Connection Point for One of Temp Jumpers to Maintain Daisy chain
Section 1R19: Post-Maintenance Testing
Procedures
2-PT-Q030A, 21 Component Cooling Water Pump, Revision 19
3-GNR-028-ELC, ARDG 4-Year Inspection, Revision 8
3-GNR-036-ELC, ARDG Semi-Annual Inspection, Revision 8
3-PT-M66, Appendix R Diesel Battery Inspection, Revision 21
3-PT-Q139, ARDG Functional Test, Revision 1
Condition Reports (CR-IP2-)
2016-05742 2016-05777 2016-05795
Maintenance Orders/Work Orders
WO 00311837          WO 445129            WO 456276            WO 52509887
WO 52516076          WO 52680382          WO 52713002
Miscellaneous
EC 65773, Replace ARDG Battery Charger
Section 1R22: Surveillance Testing
Procedures
2-PT-Q034, 22 Auxiliary Feed Pump, Revision 30
3-PT-M079A, 31 EDG Functional Test, Revision 51
3-PT-Q062A, 31 Charging Pump Operability Test, Revision 17
3-PT-Q98C, Steam Line Pressure Functional Test - Channel III, Revision 8
Condition Reports (CR-IP3-)
2016-02881
                                              A-7
Maintenance Orders/Work Orders
WO 00446386            WO 52699018          WO 52699700
Miscellaneous
3-PT-Q062A, 31 Charging Pump Operability Test, completed August 24, 2016
IP3-CALC-ESS-00276, Instrument Loop Accuracy/Setpoint Calculation - Steam Line Pressure
        (Low) and Steam Line Delta P (High), Revision 2
MB-2007-01, Potential for Solder Joint Cracks on Basler SBSR AVR Cards and Technical
        Manual Addendum TM-2007-01, dated November 5, 2007
Section 1EP6: Drill Evaluation
Condition Reports (CR-IP3-)
2016-02892 2016-02894 2016-02895            2016-02899
Miscellaneous
Drill Scenario
Section 2RS2: Occupational ALARA Planning and Controls
Condition Reports (CR-IP2-)
2016-02502 2016-02528 2016-02548
Miscellaneous
Indian Point 2 Refueling Outage 22 ALARA Report
ALARA Committee Meeting Minutes for: March 29, 2016, April 5, 2016, April 6, 2016, April 8,
        2016, April 12, 2016, May 2, 2016, and June 14, 2016
Section 2RS4: Occupational Dose Assessment
Procedures
EN-RP-204, Special Monitoring Requirements, Revision 10
EN-RP-204-01, Effective Dose Equivalent Monitoring, Revision 0
EN-RP-205, Prenatal Monitoring, Revision 3
EN-RP-207, Planned Special Exposures, Revision 3
EN-RP-314, Passive Monitoring Sensitivity Tests, Revision 0
Miscellaneous
NVLAP Personnel Dosimetry Performance Testing for Landauer, Inc., 2016
Section 4OA1: Performance Indicator Verification
Procedures
EN-LI-114, Regulatory Performance Indicator Process, Revision 7
Section 4OA2: Problem Identification and Resolution
Procedures
EN-LI-102, CAP, Revision 27
CEP-NDE-0255, Radiographic Examination for ASME Welds and Components, ASME
        Section XI, Revision 8
CEP-NDE-0404, (PDI UT-1) Manual Ultrasonic Testing of Ferritic Piping Welds (ASME XI),
        Revision 5
                                              A-8
Welding Procedure Specification,134 F42 MN-GTAW, Manual Gas Tungsten Arc Welding,
      Revision 0
Condition Reports (CR-IP2)
2015-05755 2016-03818 2016-04085            2016-05358    2016-05503
Condition Reports (CR-IP3)
2015-05136 2016-01113
Maintenance Orders/Work Orders
WO 431643 WO 447966
Miscellaneous
Engineering Standard - Pipe Wall Thinning Structural Evaluation, Revision 0
Indian Point Energy Center NRC Generic Letter 89-13 SW Program, Revision 6
SW System Health Reports, IP Unit 2 and IP Unit 3, Second Quarter 2016
Section 4OA3: Follow-up of Events and Notices of Enforcement Discretion
Procedures
2-PT-V024-DS060, Valve BFD-2-21 IST Data Sheet, Revision 10
Condition Reports (CR-IP2-)
2015-05459 2016-02247
Drawings
9321-3140 Sheet 12, Boiler Feed Pump No. 22 Turbine Trip and Reset, Revision 34
IP2_SOD_013, Feedwater System, Revision 2
Miscellaneous
LER 05000247/2016-005-00, TS Prohibited Condition Due to a Surveillance Requirement Never
    Performed for Testing the Trip of the MBFP
LER 05000247/2016-006-00, TS Prohibited Condition Due to Inoperable 138kV Offsite Circuits
    Caused by a Disconnected SI Signal to the Station Auxiliary Transformer LTC
Section 4OA5: Other Activities
Condition Reports (CR-IP2-)
2016-00264 2016-00266 2016-00564            2016-04559    2016-05060
Miscellaneous
Root Cause Evaluation for CR-IP2-2016-00564
                                A-9
                        LIST OF ACRONYMS
10 CFR Title 10 of the Code of Federal Regulations
ABFP  auxiliary boiler feedwater pump
AC    alternating current
ALARA  as low as is reasonably achievable
ARDG  Appendix R diesel generator
AVR    automatic voltage regulator
CAP    corrective action program
CCW    component cooling water
CR    condition report
CVCS  chemical and volume control system
DRE    detailed risk evaluation
EDG    emergency diesel generator
FSB    Fuel Storage Building
HP    health physics
HRA    high radiation area
ICCDP  incremental conditional core damage probability
IMC    Inspection Manual Chapter
kV    kilovolt
LCO    limiting condition of operation
LER    licensee event report
LOOP  loss of offsite power
LTC    load tap changer
MBFP  main boiler feedwater pump
NCV    non-cited violation
NOV    notice of violation
NPO    nuclear plant operator
NVLAP  National Voluntary Laboratory Accreditation Program
NRC    Nuclear Regulatory Commission, U.S.
OOS    out of service
PAB    primary auxiliary building
PFP    pre-fire plan
PORV  power operated relief valve
RCA    radiologically controlled area
RG    regulatory guide
RMA    risk mitigating action
RO    reverse osmosis
RWP    radiation work permit
SAT    station auxiliary transformer
SI    safety injection
SPAR  standardized plant analysis risk
SR    surveillance requirement
SRA    senior reactor analyst
SSC    structure, system, and component
SW    service water
TS    technical specification
UAT    unit auxiliary transformer
UFSAR  updated final safety analysis report
URI    unresolved item
WO    work order
}}
}}

Latest revision as of 09:31, 30 October 2019

Integrated Inspection Report 05000247/2016003 and 05000286/2016003 and Notice of Violation (EA-16-193)
ML17013A233
Person / Time
Site: Indian Point  Entergy icon.png
Issue date: 01/17/2017
From: Eugene Dipaolo
Reactor Projects Branch 2
To: Vitale A
Entergy Nuclear Operations
DiPaolo E
References
EA-16-193 IR 2016003
Download: ML17013A233 (55)


See also: IR 05000247/2016003

Text

UNITED STATES

NUCLEAR REGULATORY COMMISSION

REGION I

2100 RENAISSANCE BLVD., SUITE 100

KING OF PRUSSIA, PA 19406-2713

January 17, 2017

EA-16-193

Mr. Anthony Vitale

Site Vice President

Entergy Nuclear Operations, Inc.

Indian Point Energy Center

450 Broadway, GSB

P.O. Box 249

Buchanan, NY 10511-0249

SUBJECT: INDIAN POINT NUCLEAR GENERATING - INTEGRATED INSPECTION

REPORT 05000247/2016003 AND 05000286/2016003 AND NOTICE OF

VIOLATION (EA-16-193)

Dear Mr. Vitale:

On September 30, 2016, the U.S. Nuclear Regulatory Commission (NRC) completed an

inspection at Indian Point Nuclear Generating (Indian Point), Units 2 and 3. On October 26,

2016, the NRC inspectors discussed the results of this inspection with you and other members

of your staff. The results of this inspection are documented in the enclosed report.

The NRC inspectors documented seven findings of very low safety significance (Green) in this

report. Six of these findings involved violations of NRC requirements. For five of these findings,

the NRC is treating the associated violations as non-cited violations (NCVs) consistent with

Section 2.3.2.a of the Enforcement Policy. If you contest the violations or significance of these

NCVs, you should provide a response within 30 days of the date of this inspection report, with

the basis for your denial, to the Nuclear Regulatory Commission, ATTN: Document Control

Desk, Washington, DC 20555-0001; with copies to the Regional Administrator, Region I; the

Director, Office of Enforcement; and the NRC Resident Inspector at Indian Point. In addition, 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 U. S. Nuclear Regulatory Commission, ATTN: Document Control Desk,

Washington, DC, 20555-0001; with copies to the Regional Administrator, Region I, and the NRC

Resident Inspector at Indian Point.

One violation associated with a finding of very low safety significance (Green) is cited in the

enclosed Notice of Violation (Notice), and the circumstances surrounding it are described in the

enclosed inspection report. The violation describes two examples of Entergys failure to conduct

operations to minimize the introduction of residual radioactivity into the subsurface

(groundwater) of the site. The violation is similar to two NCVs previously identified by the NRC

involving groundwater contamination events in 2014 and 2015 (NRC Inspection

Reports 05000247/2015002 and 05000247/2015003). Corrective actions for these NCVs were

insufficiently broad to address Entergys ineffective floor drain and radioactive liquid draining

operational controls, resulting in Entergys continued failure to minimize groundwater

contamination occurrences. The NRC evaluated this violation in accordance with the NRC

A. Vitale 2

Enforcement Policy. The current Enforcement Policy is available for review on the NRCs Web

site at http://www.nrc.gov/about-nrc/regulatory/enforcement/enforce-pol.html. This violation

meets the criteria in Section 2.3.2.a of the Enforcement Policy to be dispositioned as an NCV.

However, the NRC is citing the violation in the enclosed Notice because Entergys actions for

these most recent events do not adequately address the broader concern regarding a lack of

control and management of the site floor drain system. Accordingly, the NRC is issuing the

Notice and requiring a response from Entergy, as described below.

You are required to respond to this letter and should follow the instructions specified in the

enclosed Notice when preparing your response. In your response, describe a comprehensive

corrective action plan for maintaining an effective floor drain system and a process for

evaluating and using the floor drains to handle the volume and flowrates for draining activities

being conducted. If you have additional information that you believe the NRC should consider,

you may provide it in your response to the Notice. The NRCs review of your response will

determine whether further enforcement action is necessary to ensure your compliance with

regulatory requirements.

This letter, its enclosures, and your response (if any) will be made available for public inspection

and copying at http://www.nrc.gov/reading-rm/adams.html and the NRC Public Document Room

in accordance with 10 CFR 2.390, Public Inspections, Exemptions, Requests for Withholding.

To the extent possible, your response should not include any personal privacy or proprietary

information so that it can be made available to the Public without redaction.

Sincerely,

/RA/

Eugene M. DiPaolo, Acting Chief

Reactor Projects Branch 2

Division of Reactor Projects

Docket Nos. 50-247 and 50-286

License Nos. DPR-26 and DPR-64

Enclosures:

1. Notice of Violation

2. Inspection Report 05000247/2016003

and 05000286/2016003 w/Attachment:

Supplementary Information

cc w/encl: Distribution via ListServ

A. Vitale 3

Letter to Mr. Anthony J. Vitale from Eugene M. DiPaolo dated January 17, 2017

SUBJECT: INDIAN POINT NUCLEAR GENERATING - INTEGRATED INSPECTION

REPORT 05000247/2016003 AND 05000286/2016003 AND NOTICE OF

VIOLATION (EA-16-193)

DISTRIBUTION: (via e-mail)

DDorman, RA

DLew, DRA

MScott, DRP

DPelton, DRP

RLorson, DRS

JYerokun, DRS

EDiPaolo, DRP

TSetzer, DRP

JSchussler, DRP

BHaagensen, DRP, SRI

SRich, DRP, RI

CSafouri, DRP, RI

DHochmuth, DRP, AA

JBowen, RI OEDO

RidsNrrPMIndianPoint Resource

RidsNrrDorlLpl1-1 Resource

ROPReports Resources

DOCUMENT NAME: G:\DRP\BRANCH2\A - INDIAN POINT\IP2&3 INSPECTION REPORTS\2016\2016-003\IP2&3 2016.003.FINAL.DOCX

ADAMS Accession Number: ML17013A233

SUNSI Review

Non-Sensitive Publicly Available

Sensitive Non-Publicly Available

OFFICE RI/DRP RI/DRP RI/DRP RI/ORA RI/DRS RI/DRP

SRich non- BHaagensen via

NAME TSetzer BBickett/MMM for GDentel EDiPaolo

concur via telcon email

DATE 1/12/17 1/11/17 1/12/17 1/13/17 1/12/17 1/12/17

OFFICIAL RECORD COPY

1

NOTICE OF VIOLATION

Entergy Nuclear Operations, Inc. Docket No. 50-247

Indian Point Nuclear Generating Unit 2 License No. DPR-26

EA-16-193

During an NRC inspection conducted between July 1 and September 23, 2016, a violation of NRC

requirements was identified. In accordance with the NRC Enforcement Policy, the violation is listed

below:

Title 10 of the Code of Federal Regulations (10 CFR) 20.1406(c) requires, in part, that

licensees shall, to the extent practical, conduct operations to minimize the introduction of

residual radioactivity into the site, including the subsurface.

Contrary to the above, on two occasions between January 2016 and July 2016, Entergy

failed to conduct operations to minimize the introduction of residual radioactivity into the

subsurface of the site. Specifically, Entergy has not maintained its floor drain system clear of

obstructions and interferences, and has not verified the ability of the floor drains to handle

the volume and flowrates for draining activities being conducted. As a result, repeated spills

of contaminated water within the radiologically controlled area leaked into the groundwater

(subsurface of the site). Specifically, in January 2016, a spill caused by floor drain

obstructions resulted in the backup of contaminated water onto the floor and subsequent

leakage to the subsurface of the site. Similarly, a subsequent June/July 2016 groundwater

contamination event occurred due to an obstructed flow path through a floor drain in the

Unit 2 spent fuel building, which spilled to the subfloor and contaminated the subsurface of

the site.

This violation is associated with a Green Significance Determination Process finding.

Pursuant to the provisions of 10 CFR 2.201, Entergy is hereby required to submit a written

statement or explanation to the U.S. Nuclear Regulatory Commission, ATTN: Document Control

Desk, Washington, DC 20555-0001 with a copy to the Regional Administrator, Region I, and a copy

to the NRC Resident Inspector at Indian Point, within 30 days of the date of the letter transmitting

this Notice of Violation (Notice). This reply should be clearly marked as a "Reply to a Notice of

Violation; EA-16-193" and should include: (1) the reason for the violation, or, if contested, the basis

for disputing the violation or severity level, (2) the corrective steps that have been taken and the

results achieved, (3) a description of a more comprehensive corrective action plan for maintaining

an effective floor drain system and a process for evaluating and using the floor drains to handle the

volume and flowrates for draining activities being conducted that will be taken to address the

repeated problems with maintaining and controlling the floor drain systems, and (4) the date when

full compliance will be achieved. Your response may reference or include previous docketed

correspondence, if the correspondence adequately addresses the required response. If an

adequate reply is not received within the time specified in this Notice, an order or a Demand for

Information may be issued as to why the license should not be modified, suspended, or revoked, or

why such other action as may be proper should not be taken. Where good cause is shown,

consideration will be given to extending the response time.

If you contest this enforcement action, you should also provide a copy of your response, with the

basis for your denial, to the Director, Office of Enforcement, United States Nuclear Regulatory

Commission, Washington, DC 20555-0001.

Enclosure 1

2

Because your response will be made available electronically for public inspection in the NRC Public

Document Room or from the NRCs Agencywide Documents Access and Management System

(ADAMS), accessible from the NRC Web site at http://www.nrc.gov/reading-rm/adams.html, to the

extent possible, it should not include any personal privacy, proprietary, or safeguards information so

that it can be made available to the public without redaction. If personal privacy or proprietary

information is necessary to provide an acceptable response, then please provide a bracketed copy

of your response that identifies the information that should be protected and a redacted copy of your

response that deletes such information. If you request withholding of such material, you must

specifically identify the portions of your response that you seek to have withheld and provide in

detail the bases for your claim of withholding (i.e., explain why the disclosure of information will

create an unwarranted invasion of personal privacy or provide the information required by

10 CFR 2.390(b) to support a request for withholding confidential commercial or financial

information). If safeguards information is necessary to provide an acceptable response, please

provide the level of protection described in 10 CFR 73.21.

In accordance with 10 CFR 19.11, you may be required to post this Notice within two working days

of receipt.

Dated this 17th day of January, 2017.

1

U.S. NUCLEAR REGULATORY COMMISSION

REGION I

Docket Nos. 50-247 and 50-286

License Nos. DPR-26 and DPR-64

Report Nos. 05000247/2016003 and 05000286/2016003

Licensee: Entergy Nuclear Northeast (Entergy)

Facility: Indian Point Nuclear Generating Units 2 and 3

Location: 450 Broadway, GSB

Buchanan, NY 10511-0249

Dates: July 1, 2016, through September 30, 2016

Inspectors: B. Haagensen, Senior Resident Inspector

G. Newman, Resident Inspector

S. Rich, Resident Inspector

J. Ambrosini, Senior Resident Inspector, Millstone

F. Arner, Senior Reactor Analyst

S. Elkhiamy, Project Engineer

J. Furia, Senior Health Physicist

Approved By: Eugene M. DiPaolo, Acting Chief

Reactor Projects Branch 2

Division of Reactor Projects

Enclosure 2

2

TABLE OF CONTENTS

SUMMARY .................................................................................................................................... 3

REPORT DETAILS ....................................................................................................................... 8

1. REACTOR SAFETY .............................................................................................................. 8

1R01 Adverse Weather Protection ....................................................................................... 8

1R04 Equipment Alignment .................................................................................................. 9

1R05 Fire Protection ........................................................................................................... 10

1R11 Licensed Operator Requalification Program ............................................................. 11

1R12 Maintenance Effectiveness ....................................................................................... 13

1R13 Maintenance Risk Assessments and Emergent Work Control .................................. 14

1R15 Operability Determinations and Functionality Assessments ..................................... 16

1R18 Plant Modifications .................................................................................................... 21

1R19 Post-Maintenance Testing ........................................................................................ 22

1R22 Surveillance Testing .................................................................................................. 23

1EP6 Drill Evaluation .......................................................................................................... 25

2. RADIATION SAFETY .......................................................................................................... 25

2RS1 Radiological Hazard Assessment and Exposure Controls ........................................ 25

2RS2 Occupational ALARA Planning and Controls ............................................................ 28

2RS4 Occupational Dose Assessment ............................................................................... 30

4. OTHER ACTIVITIES ............................................................................................................ 31

4OA1 Performance Indicator Verification ............................................................................ 31

4OA2 Problem Identification and Resolution ....................................................................... 32

4OA3 Follow Up of Events and Notices of Enforcement Discretion .................................... 32

4OA5 Other Activities .......................................................................................................... 35

4OA6 Meetings, Including Exit ............................................................................................ 41

SUPPLEMENTARY INFORMATION ........................................................................................ A-1

KEY POINTS OF CONTACT .................................................................................................... A-1

LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED ..................................... A-2

LIST OF DOCUMENTS REVIEWED ........................................................................................ A-3

LIST OF ACRONYMS ............................................................................................................... A-9

3

SUMMARY

Inspection Report 05000247/2016003 and 05000286/2016003; 07/01/2016 - 09/30/2016; Indian

Point Nuclear Generating (Indian Point), Units 2 and 3; Maintenance Risk Assessments and

Emergent Work Control, Operability Determinations and Functionality Assessments,

Surveillance Testing, Radiological Hazard Assessment and Exposure Controls, Occupational As

Low as Reasonably Achievable (ALARA) Planning and Controls, Follow Up of Events and

Notices of Enforcement Discretion, and Other Activities.

This report covered a three-month period of inspection by resident inspectors and announced

inspections performed by regional inspectors. The inspectors identified seven findings of very

low safety significance (Green), including one Notice of Violation (NOV), five non-cited violations

(NCVs), and one finding (FIN). The significance of most findings is indicated by their color (i.e.,

greater than Green, or Green, White, Yellow, Red) and determined using Inspection Manual

Chapter (IMC) 0609, Significance Determination Process, dated April 29, 2015. Cross-cutting

aspects are determined using IMC 0310, Aspects within the Cross-Cutting Areas, dated

December 4, 2014. All violations of U.S. Nuclear Regulatory Commission (NRC) requirements

are dispositioned in accordance with the NRCs Enforcement Policy, dated August 1, 2016. The

NRCs program for overseeing the safe operation of commercial nuclear power reactors is

described in NUREG-1649, Reactor Oversight Process, Revision 6.

Cornerstone: Mitigating Systems

Green. The inspectors identified a Green NCV of Title 10 of the Code of Federal

Regulations (10 CFR) 50.65(a)(4) because between August 1, 2016, and August 17, 2016,

Entergy did not perform an adequate risk assessment for the maintenance on the Unit 3

Appendix R diesel generator (ARDG). As a result, they did not take the required risk

mitigating actions (RMAs). Entergy wrote Condition Report (CR)-IP3-2016-2538, changed

fire risk status to Yellow, and began implementing RMAs on August 17, 2016.

The inspectors determined that this performance deficiency was more than minor because

it is associated with the Protection Against External Factors attribute of the Mitigating

Systems cornerstone and adversely affected its objective to ensure the reliability of

systems that respond to initiating events to prevent undesirable consequences.

Specifically, due to the inadequate risk assessment, Entergy did not perform shiftly

walkdowns for transient combustibles and related fire and ignition sources on the available

safe shutdown train. Using IMC 0609.04, Initial Characterization of Findings, and IMC

0609, Appendix K, Maintenance Risk Assessment and Risk Management Significance

Determination Process, the inspectors determined that the failure to conduct RMAs for the

unavailability of the ARDG required further assessment. A Region I senior reactor analyst

(SRA) used SAPHIRE, Revision 8.1.14, and the Indian Point Unit 3 Standardized Plant

Analysis Risk (SPAR) Model, Revision 8.20, to complete an evaluation this performance

deficiency. The incremental conditional core damage probability (ICCDP) for this finding

was calculated to be less than 1E-7 or very low safety significance (Green). This finding

has a cross-cutting aspect in the area of Problem Identification and Resolution,

Identification, because Entergy did not identify that an improperly racked-in breaker had a

fire risk impact when combined with other plant conditions. [P.1 - Problem Identification

and Resolution, Identification] (Section 1R13)

Green. The inspectors identified a self-revealing Green NCV of 10 CFR 50, Appendix B,

Criterion XVI, Corrective Actions, because between 2012 and 2016, Entergy did not

4

perform vendor specified inspections of the 23 emergency diesel generator (EDG)

automatic voltage regulator (AVR) cards. As a result, on March 7, 2016, and March 10,

2016, the 23 EDG failed to run due to poor voltage regulation caused by degraded

connections on the AVR card. Entergy replaced the AVR card in the 23 EDG, repaired

similarly degraded solder joints on the AVR cards for the 21 and 22 EDGs, and wrote

CR-IP2-2016-1260 and CR-IP3-2016-1370.

The inspectors determined that this performance deficiency was more than minor because

it is associated with the Equipment Performance attribute of the Mitigating Systems

cornerstone and adversely affected its objective to ensure the reliability of systems that

respond to initiating events to prevent undesirable consequences. Specifically, the 23 EDG

failed to run on March 7, 2016, and March 10, 2016. The inspectors evaluated the finding

in accordance with IMC 0609, Appendix A and concluded it required a detailed risk

evaluation (DRE). The DRE was performed by a Region I SRA and concluded the

performance deficiency resulted in a change in core damage frequency of low E-8/year or

very low safety significance (Green). The inspectors determined that this violation was not

indicative of current performance because the last time Entergy would reasonably have

been prompted to create corrective actions to perform periodic inspections was during the

initial inspections in 2010. Therefore, no cross-cutting aspect was assigned.

(Section 1R15)

Green. The inspectors identified a Green NCV of 10 CFR 50, Appendix B, Criterion XVI,

Corrective Actions, because Entergy did not take timely corrective action to perform an

inspection of the 33 EDG AVR card. As a result, the degraded solder connections on the

card were not repaired for an excessive period of time. Entergy repaired the solder joints

on the AVR card in the 33 EDG and wrote CR-IP3-2016-3018.

This performance deficiency was more than minor because it is associated with the

Equipment Performance attribute of the Mitigating Systems cornerstone and adversely

affected its objective to ensure the reliability of systems that respond to initiating events to

prevent undesirable consequences. The existence of degraded solder joints on the AVR

card decreases the reliability of the EDG, and the untimely corrective action allowed the

degradation to exist for longer than necessary without being corrected. In accordance with

IMC 0609, Appendix A, The Significance Determination Process for Findings at Power,

the inspectors determined that the finding was of very low safety significance (Green)

because the 33 EDG maintained its operability or functionality, it did not represent a loss of

system or function, and it did not involve external mitigation systems. The inspectors

determined that this finding had a cross-cutting aspect in the area of Human Performance,

Conservative Bias, because leaders did not take a conservative approach to decision

making, particularly when information is incomplete or conditions are unusual. Specifically,

Entergy did not inspect the 33 EDG AVR cards at the first available opportunity due to

resource constraints. [H.14 - Human Performance, Conservative Bias] (Section 1R22)

Green. The inspectors identified a self-revealing Green NCV for failing to comply with

Technical Specification (TS) Limiting Condition of Operation (LCO) 3.8.1, Electrical Power

Systems, Alternating Current (AC) Sources - Operating, from February 26, 2014, to

March 29, 2016. Specifically, Entergy failed to maintain the auto transfer function for the 6.9

kilovolt (kV) offsite electrical buses in an operable condition because the safety injection (SI)

anticipatory signal to the station auxiliary transformer (SAT) load tap changer (LTC) was

disconnected. As a result, one of two qualified offsite AC circuits was not operable. Entergy

5

initiated corrective actions and promptly restored the SAT LTC SI signal to operation prior to

restarting the plant from the refueling outage.

The failure to restore the LTC SAT SI signal following maintenance activities was a

performance deficiency that was more than minor because it is associated with the

Equipment Performance attribute of the Mitigating Systems cornerstone and adversely

affected the cornerstone objective to ensure the availability, reliability, and capability of

systems that respond to initiating events to prevent undesirable consequences (i.e., core

damage). Specifically, the failure to reinstate the SAT LTC SI anticipatory signal following

maintenance resulted in the qualified offsite source of AC power becoming inoperable for a

period of time in excess of the TS allowable outage time. In accordance with IMC 0609,

Appendix A, The Significance Determination Process for Findings at Power, the inspectors

determined that the finding was of very low safety significance (Green) because a detailed

risk analysis determined the likelihood of core damage was less than E-8/year. The

inspectors determined that the finding had a cross-cutting aspect of Human Performance,

Work Management, because Entergy did not implement a process of controlling and

executing work activities. The work process did not coordinate with different groups or job

activities to ensure the state links were restored at the end of the work activities.

[H.5 - Human Performance, Work Management] (Section 4OA3)

Cornerstone: Occupational/Public Radiation Safety

Green. The inspectors identified a self-revealing NCV of TS 5.7.1e when workers entered

the Unit 2 Fuel Storage Building (FSB) truck bay that was posted and controlled as a high

radiation area (HRA) without receiving a briefing on the dose rates prior to entering the

HRA. Specifically, on June 6, 2016, two nuclear plant operators (NPOs) entered the Unit 2

FSB truck bay to hang tags on the backup spent fuel pool cooling filters. The NPOs signed

in on a HRA radiation work permit (RWP) but did not receive a briefing on the radiological

conditions in this work area. After entering the HRA, one worker received an electronic

dosimeter dose rate alarm; and subsequently, both workers promptly exited the area.

Immediate corrective actions included restricting the access of the two NPOs to the

radiologically controlled area (RCA). The issue was entered into Entergys corrective action

program (CAP) as CR-IP2-2016-03610.

The failure to adhere to a radiological briefing prior to entry into a HRA is a performance

deficiency that was reasonably within Entergys ability to foresee and correct. The

performance deficiency was determined to be more than minor based on similar example

6.h in IMC 0612, Appendix E, Examples of Minor Issues, and because it adversely affected

the Human Performance attribute of the Occupational Radiation Safety cornerstone

objective. Specifically, Entergy violated the TS 5.7.1e HRA radiological briefing

requirements designed to protect workers from unnecessary radiation exposure. Using IMC

0609, Appendix C, Occupational Radiation Safety Significance Determination Process, the

finding was determined to be of very low safety significance (Green) because it did not

involve: (1) ALARA occupational collective exposure planning and controls, (2) an

overexposure, (3) a substantial potential for overexposure, or (4) an impaired ability to

assess dose. The inspectors determined that the finding had a cross-cutting aspect of

Human Performance, Procedure Adherence, in that the workers did not follow processes,

procedures, and work instructions for entering a posted HRA. [H.8 - Human Performance,

Procedure Adherence] (Section 2RS1)

6

Green. The inspectors identified a self-revealing finding (FIN) of very low safety significance

due to Entergy having unintended occupational collective exposure resulting from

performance deficiencies in work planning while preparing to perform reactor cavity liner

repair activities during the spring 2016 Unit 2 refueling outage. Inadequate work planning

that included an incomplete scope of work, welding method qualification, and inadequate

timing of shield placement resulted in unplanned, unintended collective exposure due to

conditions that were reasonably within Entergys ability to foresee. The work activity

planning deficiencies resulted in the collective exposure for these activities increasing from

the planned dose of 2.386 person-rem to an actual dose of 10.305 person-rem. This issue

was entered into Entergys CAP as CR-IP2-2016-02528, CR-IP2-2016-02502, and CR-IP2-

2016-02548.

The performance deficiency was more than minor because it was associated with the

Program and Process attribute of the Occupational Radiation Safety cornerstone and

adversely affected the cornerstone objective to ensure the adequate protection of the worker

health and safety from exposure to radiation. Additionally, the performance deficiency was

more than minor based on similar example 6.i in Appendix E of IMC 0612, Examples of

Minor Issues, in that the actual collective dose exceeded 5 person-rem and exceeded the

planned, intended dose by more than 50 percent. In accordance with IMC 0609, Appendix

C, "Occupational Radiation Safety Significance Determination Process," the finding was

determined to be of very low safety significance (Green) because Entergy had an issue

involving ALARA Planning, and Unit 2's current three-year rolling average collective dose is

less than the significance determination process criterion of 135 person-rem per pressurized

water reactor unit. The finding had a cross-cutting aspect in the area of Human

Performance, Work Management, in that the lack of accurate planning for work activities

adversely impacted radiological safety. [H-5 - Human Performance, Work Management]

(Section 2RS2)

Green. The inspectors identified an NOV of 10 CFR 20.1406(c), Minimization of

Contamination, for Entergys failure to conduct operations to minimize the introduction of

residual radioactivity into the subsurface of the site (groundwater). Specifically, Entergy did

not maintain the floor drain systems clear of obstructions and interferences and did not

verify the ability of the floor drains to handle the volume and flowrates for draining activities

being conducted. In January 2016, a spill caused by multiple floor drain obstructions

resulted in the backup of contaminated water onto the floor of the 35-foot elevation of the

primary auxiliary building (PAB) and the subfloor of the FSB and subsequent leakage to

onsite groundwater. Entergy entered this issue into their CAP as CR-IP2-2016-00264, CR-

IP2-2016-00266, and CR-IP2-2016-00564 with actions to characterize and evaluate the

leak. Similarly, in June/July 2016, another event occurred due to an obstructed flow path

through a floor drain in the FSB, which spilled to the subfloor and contaminated the onsite

groundwater. This event was documented by Entergy in CR-IP2-2016-05060.

The issue is more than minor because it is associated with the Program and Process

attribute of the Public Radiation Safety cornerstone and adversely affected the cornerstone

objective to ensure Entergys ability to prevent inadvertent release and/or loss of control of

licensed material to an unrestricted area. In accordance with IMC 0609, Appendix D,

"Public Radiation Safety Significance Determination Process," the finding was determined to

be of very low safety significance (Green) because Entergy had an issue involving

radioactive material control but did not involve transportation or public exposure in excess of

0.005 Rem. The finding had a cross-cutting aspect in the area of Problem Identification and

Resolution, Resolution, in that effective corrective actions to address issues identified in two

7

prior groundwater contamination events since 2014 were not implemented in a timely or

effective manner, which could have prevented two additional groundwater contamination

events that occurred in 2016. [P.3 - Problem Identification and Resolution, Resolution]

(Section 4OA5)

8

REPORT DETAILS

Summary of Plant Status

Unit 2 began the inspection period at 100 percent power. On July 6, 2016, Unit 2 experienced a

reactor trip caused by a human performance error. Operators returned Unit 2 to 100 percent

power on July 8, 2016. On August 6, 2016, Unit 2 reduced power to 80 percent due to a trip of

both heater drain pumps. They restarted the pumps and returned to 100 percent power the

following day. Unit 2 remained at or near 100 percent power for the remainder of the inspection

period.

Unit 3 operated at 100 percent power during the inspection period.

1. REACTOR SAFETY

Cornerstones: Initiating Events, Mitigating Systems, and Barrier Integrity

1R01 Adverse Weather Protection (71111.01 - 3 samples)

.1 Readiness for Seasonal Extreme Weather Conditions

a. Inspection Scope

The inspectors performed a review of Entergys readiness for the onset of seasonal high

temperatures. The inspectors reviewed procedure OAP-048, Seasonal Weather

Preparation (Units 2 and 3). The focus areas were the switchgear rooms and service

water (SW) pump areas. The inspectors reviewed the updated final safety analysis

report (UFSAR), TSs, control room logs, and the CAP to determine what temperatures

or other seasonal weather could challenge these systems and to ensure Entergy had

adequately prepared for these challenges. The inspectors reviewed station procedures,

including Entergys seasonal weather preparation procedure and applicable operating

procedures. The inspectors performed walkdowns of the selected systems to ensure

station personnel identified issues that could challenge the operability of the systems

during hot weather conditions. Documents reviewed for each section of this inspection

are listed in the Attachment.

b. Findings

No findings were identified.

.2 Summer Readiness of Offsite and AC Power Systems

a. Inspection Scope

The inspectors performed a review of plant features and procedures for the operation

and continued availability of the offsite and alternate AC power system to evaluate

readiness of the systems prior to seasonal high grid loading. The inspectors reviewed

Entergys procedures affecting these areas and the communications protocols between

the transmission system operator and Entergy. This review focused on the material

condition of the offsite and alternate AC power equipment. There were no changes to

the established program since the last inspection. The inspectors assessed whether

9

Entergy established and implemented appropriate procedures and protocols to monitor

and maintain availability and reliability of both the offsite AC power system and the

onsite alternate AC power system. The inspectors evaluated the material condition of the

associated equipment by reviewing CRs and open work orders (WOs) and walking down

portions of the offsite and AC power systems including the Units 2 and 3 transformer

yards.

b. Findings

No findings were identified.

.3 Readiness for Impending Adverse Weather Conditions

a. Inspection Scope

The inspectors reviewed Entergys preparations for a Category 1 thunderstorm warning

on July 25, 2016. The inspectors reviewed the implementation of adverse weather

preparation procedures including OAP-008, Severe Weather Preparations, before the

onset of and during this adverse weather condition. The inspectors walked down the

Unit 2 SW pumps, the Unit 2 transformer yard, and the Unit 3 transformer yard to ensure

system availability and that there were no problems as a result of the severe weather.

The inspectors verified that operator actions defined in Entergys adverse weather

procedure maintained the readiness of essential systems. The inspectors discussed

readiness and staff availability for adverse weather response with operations and work

control personnel. The inspectors discussed severe weather preparedness with

operators and maintained an awareness of severe weather issues throughout the

inspection period.

b. Findings

No findings were identified.

1R04 Equipment Alignment

Partial System Walkdowns (71111.04Q - 5 samples)

a. Inspection Scope

The inspectors performed partial walkdowns of the following systems:

Unit 2

22 auxiliary boiler feedwater pump (ABFP) while 21 ABFP was out of service (OOS)

for planned maintenance on July 18, 2016

Gas turbine 2/3 fuel forwarding system EDG fuel oil reserve on August 31, 2016

Component cooling water (CCW) system while 21 CCW pump and discharge check

valve were inoperable during troubleshooting on September 21, 2016

10

Unit 3

31 and 32 EDGs while 33 EDG was unavailable due to planned testing on 480V

bus 5A on September 15, 2016

ARDG and support systems following maintenance on September 29, 2016 (this

sample was part of an in-depth review of the ARDG system)

The inspectors selected these systems based on their risk-significance relative to the

reactor safety cornerstones at the time they were inspected. The inspectors reviewed

applicable operating procedures, system diagrams, the UFSAR, TSs, CRs, and the

impact of ongoing work activities on redundant trains of equipment in order to identify

conditions that could have impacted system performance of their intended safety

functions. The inspectors also performed field walkdowns of accessible portions of the

systems to verify system components and support equipment were aligned correctly and

were operable. The inspectors examined the material condition of the components and

observed operating parameters of equipment to verify that there were no deficiencies.

The inspectors also reviewed whether Entergy had properly identified equipment issues

and entered them into the CAP for resolution with the appropriate significance

characterization.

b. Findings

No findings were identified.

1R05 Fire Protection

.1 Resident Inspector Quarterly Walkdowns (71111.05Q - 6 samples)

a. Inspection Scope

The inspectors conducted tours of the areas listed below to assess the material

condition and operational status of fire protection features. The inspectors verified that

Entergy controlled combustible materials and ignition sources in accordance with

administrative procedures. The inspectors verified that fire protection and suppression

equipment was available for use as specified in the area pre-fire plan (PFP) and passive

fire barriers were maintained in good material condition. The inspectors also verified

that station personnel implemented compensatory measures for OOS, degraded, or

inoperable fire protection equipment, as applicable, in accordance with procedures.

Unit 2

ARDG/station blackout diesel generator (PFP-160A was reviewed) on August 4,

2016

Diesel fire pump house (PFP-265 was reviewed) on August 5, 2016

Independent spent fuel storage installation pad (PFP-266A was reviewed) on

September 29, 2016

Transformer yard (PFP-263 was reviewed) on September 29, 2016

11

Unit 3

Transformer yard (PFP-380 was reviewed) on September 27, 2016

ARDG (PFP-388 was reviewed) on September 29, 2016 (this sample was part of an

in-depth review of the ARDG system)

b. Findings

No findings were identified.

.2 Fire Protection - Drill Observation (71111.05A - 1 sample)

a. Inspection Scope

The inspectors observed a fire brigade drill scenario conducted on September 25, 2016,

that involved a pressurized oil leak fire on the Unit 3 main boiler feedwater pump (MBFP)

lube oil purifier located on the turbine building, 15-foot level. The inspectors evaluated

the readiness of the plant fire brigade to fight fires. The inspectors verified that Entergy

personnel identified deficiencies, openly discussed them in a self-critical manner during

the debrief, and took appropriate corrective actions as required. The inspectors verified

that the fire brigade:

Properly used turnout gear and self-contained breathing apparatus

Properly used and laid out fire hoses

Employed appropriate fire-fighting techniques

Brought sufficient fire-fighting equipment to the scene

Effectively used command and control

Searched for victims and for propagation of the fire into other plant areas

Conducted smoke removal operations

Properly used pre-planned strategies

Adhered to the pre-planned drill scenario

Met drill objectives

The inspectors also evaluated the fire brigades actions to determine whether these

actions were in accordance with Entergys fire-fighting strategies.

b. Findings

No findings were identified.

1R11 Licensed Operator Requalification Program (71111.11Q - 5 samples)

Unit 2

.1 Quarterly Review of Unit 2 Licensed Operator Performance in the Main Control Room

a. Inspection Scope

The inspectors observed and reviewed the Unit 2 reactor startup conducted on July 7,

2016. The inspectors observed infrequently performed test or evolution briefings,

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pre-shift briefings, and reactivity control briefings to verify that the briefings met the

criteria specified in Entergys operating procedure 2-POP-1.2, Reactor Startup, and

administrative procedure EN-OP-115, Conduct of Operations. Additionally, the

inspectors observed test performance to verify that procedure use, crew

communications, and coordination of activities between work groups similarly met

established expectations and standards.

b. Findings

No findings were identified.

.2 Quarterly Review of Unit 2 Licensed Operator Requalification Testing and Training

a. Inspection Scope

The inspectors observed Unit 2 licensed operator simulator training on August 10, 2016,

which included an instrument failure, a loss of 138kV offsite power, followed by a loss of

the 345kV grid, and a station blackout. The inspectors evaluated operator performance

during the simulated event and verified completion of risk significant operator actions,

including the use of abnormal and emergency operating procedures. The inspectors

assessed the clarity and effectiveness of communications, implementation of actions in

response to alarms and degrading plant conditions, and the oversight and direction

provided by the control room supervisor. The inspectors verified the accuracy and

timeliness of the emergency classification made by the shift manager and the TS action

statements entered by the shift technical advisor. Additionally, the inspectors assessed

the ability of the crew and training staff to identify and document crew performance

problems.

b. Findings

No findings were identified.

Unit 3

.3 Quarterly Review of Unit 3 Licensed Operator Performance in the Unit 3 Main Control

Room

a. Inspection Scope

The inspectors observed and reviewed swapping of main lube oil coolers in accordance

with 3-SOP-LO-001, Main Lube Oil System Operation, Revision 40, conducted on

September 30, 2016. The inspectors observed pre-job briefings to verify that the

briefings met the criteria specified in Entergys administrative procedure EN-OP-115,

Conduct of Operations. Additionally, the inspectors observed operator performance to

verify that procedure use, crew communications, and coordination of activities between

work groups similarly met established expectations and standards.

b. Findings

No findings were identified.

13

.4 Quarterly Review of Unit 3 Licensed Operator Requalification Testing and Training

a. Inspection Scope

The inspectors observed licensed operator simulator training on August 10, 2016, which

included the rupture of the letdown line, a mispositioned control valve, a misaligned

control rod, and a steam generator tube rupture. The inspectors evaluated operator

performance during the simulated event and verified completion of risk significant

operator actions, including the use of abnormal and emergency operating procedures.

The inspectors assessed the clarity and effectiveness of communications,

implementation of actions in response to alarms and degrading plant conditions, and the

oversight and direction provided by the control room supervisor. The inspectors verified

the accuracy and timeliness of the emergency classification made by the shift manager

and the TS action statements entered by the shift technical advisor. Additionally, the

inspectors assessed the ability of the crew and training staff to identify and document

crew performance problems.

b. Findings

No findings were identified.

.5 Quarterly Review of Unit 3 Licensed Operator Requalification Testing and Training

a. Inspection Scope

The inspectors observed operating crew performance during an emergency planning drill

on September 14, 2016, which included a failure of a steam generator level instrument,

loss of the 6A electrical bus, a turbine trip without reactor trip, a small break loss of

coolant accident, and entry into FR-C.2, Response to Inadequate Core Cooling. The

inspectors evaluated operator performance during the simulated event and verified

completion of risk significant operator actions, including the use of abnormal and

emergency operating procedures. The inspectors assessed the clarity and effectiveness

of communications, and the oversight and direction provided by the control room

supervisor. The inspectors reviewed the accuracy and timeliness of the emergency

classification made by the shift manager and shift technical advisor. Additionally, the

inspectors assessed the ability of the crew and training staff to identify and document

crew performance problems.

b. Findings

No findings were identified.

1R12 Maintenance Effectiveness (71111.12Q - 2 samples)

Routine Maintenance Effectiveness

a. Inspection Scope

The inspectors reviewed the samples listed below to assess the effectiveness of

maintenance activities on structure, system, and component (SSC) performance and

reliability. The inspectors reviewed system health reports, CAP documents,

14

maintenance WOs, and maintenance rule basis documents to ensure that Entergy was

identifying and properly evaluating performance problems within the scope of the

maintenance rule. For each SSC sample selected, the inspectors verified that the SSC

was properly scoped into the maintenance rule in accordance with 10 CFR 50.65 and

verified that the (a)(2) performance criteria established by Entergy was reasonable. As

applicable, for SSCs classified as (a)(1), the inspectors assessed the adequacy of goals

and corrective actions to return these SSCs to (a)(2). Additionally, the inspectors

ensured that Entergy was identifying and addressing common cause failures that

occurred within and across maintenance rule system boundaries.

Unit 3

ARDG and auxiliaries (this sample was part of an in-depth review of the Unit 3

ARDG system) on June 28, 2016

Reactor protection and controls system on August 28, 2016

b. Findings

No findings were identified.

1R13 Maintenance Risk Assessments and Emergent Work Control (71111.13 - 7 samples)

a. Inspection Scope

The inspectors reviewed station evaluation and management of plant risk for the

maintenance and emergent work activities listed below to verify that Entergy performed

the appropriate risk assessments prior to removing equipment for work. The inspectors

selected these activities based on potential risk significance relative to the reactor safety

cornerstones. As applicable for each activity, the inspectors verified that Entergy

performed risk assessments as required by 10 CFR 50.65(a)(4) and that the

assessments were accurate and complete. When Entergy performed emergent work,

the inspectors verified that operations personnel promptly assessed and managed plant

risk. The inspectors reviewed the scope of maintenance work and discussed the results

of the assessment with the stations probabilistic risk analyst to verify plant conditions

were consistent with the risk assessment. The inspectors also reviewed the TS

requirements and inspected portions of redundant safety systems, when applicable, to

verify risk analysis assumptions were valid and applicable requirements were met.

Unit 2

21 ABFP and 138kV feeder 33332 OOS for maintenance on July 18, 2016

Emergent work due to instrument air piping leak on August 8, 2016

23 station battery OOS for maintenance on September 14, 2016

13.8kV feeders 13W92 and 13W3 OOS for planned maintenance on September 28,

2016

Unit 3

32 ABFP OOS for maintenance on August 8, 2016

15

ARDG and 31 residual heat removal pump OOS for maintenance on August 16,

2016 (this sample was part of an in-depth review of the ARDG system)

31 EDG OOS for surveillance on September 20, 2016

b. Findings

Introduction. The inspectors identified a Green NCV of 10 CFR 50.65(a)(4),

Requirements for Monitoring the Maintenance Effectiveness at Nuclear Power Plants,

because between August 1, 2016, and August 17, 2016, Entergy did not perform an

adequate risk assessment for the maintenance on the Unit 3 ARDG. As a result, they

did not take the required RMAs.

Description. The Unit 3 ARDG was declared non-functional on June 28, 2016, due to a

failed battery charger. Entergy performed a modification to replace the battery charger

and cleared the tag-out to restore the diesel generator to service on July 27, 2016.

Entergy determined that the ARDG was available at this time, although the

post-modification testing was not complete, in accordance with guidance in procedure

IP-SMM-WM-101, Fire Protection and Maintenance Rule (a)(4) Risk Assessment. On

July 31, 2016, the input breaker to the battery charger tripped open. Entergy determined

that the ARDG was no longer available for risk purposes and commenced corrective

maintenance. On August 1, 2016, during rounds, an operator discovered that the output

breaker for the ARDG was crooked in its cubicle. The following day, maintenance staff

reported a crackling noise from the output breaker indicating that it was not making

proper contact in its crooked position. During follow-up interviews, Entergy determined

that the output breaker had been racked in improperly while the tag-out was being

cleared on July 27, 2016.

Per IP-SMM-WM-101, and the Equipment OOS risk tool, fire risk is Green when taking a

component OOS for maintenance results in only one safe shutdown path and that

component will be OOS for less than thirty days. If the component will be OOS for more

than thirty days, fire risk is Yellow and RMAs are required in certain fire areas,

depending on the component. With the Unit 3 ARDG OOS, the Unit 2 ARDG is the only

remaining credited safe shutdown path. After thirty days in this configuration, RMAs are

required in the 31 and 33 EDG rooms, the cable spreading room, the switchgear room,

the control room, and the upper electrical tunnel. These actions include shiftly

walkdowns to look for transient combustibles, prohibiting hot work, confirming

functionality of the fire protection equipment, postponing maintenance on fire protection

equipment, and limiting work in the areas affected.

On August 16, 2016, the inspectors asked Entergy whether fire risk was Green or

Yellow. Entergy stated that they considered fire risk to be Green because the ARDG

had only been OOS since July 31, 2016, which was less than thirty days. The

inspectors observed that since the breaker had been racked in incorrectly while they

were restoring from the original battery charger replacement, the ARDG had been OOS

continuously since June 28, 2016, a time period greater than thirty days. Entergys

response was that they had not considered the impact of the breaker on risk. As a

result, Entergy wrote CR-IP3-2016-2538, changed fire risk status to Yellow, and began

implementing RMAs on August 17, 2016.

Analysis. The inspectors determined that not performing an adequate risk assessment

for the work on the Unit 3 ARDG was within Entergys ability to foresee and correct and

16

was a performance deficiency. The inspectors determined that this performance

deficiency was more than minor because it is associated with the Protection Against

External Factors attribute of the Mitigating Systems cornerstone and adversely affected

its objective to ensure the reliability of systems that respond to initiating events to

prevent undesirable consequences. Specifically, due to the inadequate risk

assessment, Entergy did not perform shiftly walkdowns for transient combustibles and

related fire and ignition sources on the available safe shutdown train.

Using IMC 0609.04, Initial Characterization of Findings, and IMC 0609, Appendix K,

Maintenance Risk Assessment and Risk Management Significance Determination

Process, the inspectors determined that the failure to conduct RMAs for the

unavailability of the ARDG required further assessment. A Region I SRA used

SAPHIRE, Revision 8.1.14 and the Indian Point Unit 3 SPAR Model, Revision 8.20 to

complete the DRE of this performance deficiency. To calculate the ICCDP for this

finding, the SRA used an exposure time of 16 days and modeled the unavailability of the

ARDG by setting the generators output breaker basic event (ACP-CRB-00-52EG4)

failure probability to 1.0. Truncation for the analyses was set to 1.0E-11. The ICCDP for

this finding was calculated to be less than 1E-7 or very low safety significance (Green).

The dominant core damage sequences involve fires leading to a station blackout event

resulting in a small break loss of coolant accident associated with reactor coolant pump

seal failures.

This finding has a cross-cutting aspect in the area of Problem Identification and

Resolution because Entergy did not identify that an improperly racked-in breaker had a

fire risk impact when combined with other plant conditions. [P.1]

Enforcement. 10 CFR 50.65(a)(4) states that before performing maintenance activities,

the licensee shall assess and manage the increase in risk that may result from the

proposed maintenance activities. Contrary to this, between August 1, 2016, and

August 17, 2016, Entergy did not adequately assess and manage the increase in risk

from maintenance on the Unit 3 ARDG. Entergy wrote CR-IP3-2016-2538, changed fire

risk status to Yellow, and began implementing RMAs on August 17, 2016. Because this

violation was of very low safety significance (Green) and Entergy entered this

performance deficiency into the CAP, the NRC is treating this as an NCV in accordance

with Section 2.3.2.a of the NRC Enforcement Policy. (NCV 05000286/2016003-01,

Failure to Adequately Assess Fire Risk Associated with Maintenance on the Unit 3

ARDG)

1R15 Operability Determinations and Functionality Assessments (71111.15 - 8 samples)

a. Inspection Scope

The inspectors reviewed operability determinations and functionality assessments for the

following degraded or non-conforming conditions:

Unit 2

CR-IP2-2016-05220, missed implications of baffle bolt jetting indications on Units 2

and 3 spent fuel on August 22, 2016

CR-IP-2016-05418, metal impact monitor system functionality assessment on

September 1, 2016

17

CR-IP2-2016-05503, through-wall leak on non-essential SW header between 23

Zurn strainer and SWN-2-2, 23 SW pump discharge valve on September 6, 2016

CR-IP2-2016-05757, 21 CCW pump motor baker test results invalid on

September 21, 2016

CR-IP2-2016-05877, unexpected drop in SW header pressure on September 27,

2016

Unit 3

CR-IP3-2016-01961, prompt operability determination for implications of degraded

baffle bolts on July 11, 2016

CR-IP3-2016-02910, bus 5A undervoltage time delay relay 62-2/5A failed to meet

acceptance criteria on September 15, 2016

CR-IP3-2016-01370, EDG AVR card solder joint cracking extent of condition on

September 23, 2016

The inspectors selected these issues based on the risk significance of the associated

components and systems. The inspectors evaluated the technical adequacy of the

operability determinations to assess whether TS operability was properly justified and

the subject component or system remained available such that no unrecognized

increase in risk occurred. The inspectors compared the operability and design criteria in

the appropriate sections of the TSs and UFSAR to Entergys evaluations to determine

whether the components or systems were operable.

The inspectors confirmed, where appropriate, compliance with bounding limitations

associated with the evaluations. Where compensatory measures were required to

maintain operability, the inspectors determined whether the measures in place would

function as intended and were properly controlled by Entergy. The inspectors

determined, where appropriate, compliance with bounding limitations associated with the

evaluations.

b. Findings

(Closed) Unresolved Item (URI) 05000247/2016001-06: 23 EDG Automatic Voltage

Regulator Failure

Introduction. The inspectors identified a self-revealing Green NCV of 10 CFR 50,

Appendix B, Criterion XVI, Corrective Actions, because between 2012 and 2016,

Entergy did not perform specified inspections of the 23 EDG AVR cards. As a result, on

March 7, 2016, and March 10, 2016, the 23 EDG failed to run due to poor voltage

regulation caused by degraded connections on the AVR card.

Description. A URI was issued in NRC Inspection Report 05000247/2016001. This item

is closed based on the finding described below. On March 7, 2016, approximately one

hour after the trip of the 3A normal feed breaker, the 23 EDG tripped on overcurrent

while powering the 6A 480V safety bus. The 6A bus remained de-energized for

approximately one hour until the crew restored the 6A bus via off-site power. The 23

EDG was declared inoperable. All four 480V safety buses were restored to off-site

power. Entergy suspected that an overcurrent relay had spuriously tripped, replaced the

overcurrent relays, and retested the 23 EDG satisfactorily on March 8, 2016. However,

18

subsequent bench testing of the overcurrent relays demonstrated that they were

accurately calibrated.

On March 10, 2016, during performance of PT-R14, Automatic SI System Electrical

Load and Blackout Test, the 23 EDG exhibited anomalous behavior during the train B

load sequencing. During this test, the voltage on safety bus 6A dropped to

approximately 200V when the 23 auxiliary feedwater pump was sequenced onto the bus

(CR-IP2-2016-01430) and the sequencer failed to complete the first two sequences.

The 23 EDG was again declared inoperable and the period of inoperability was

backdated to March 7, 2016, when it originally tripped. Further troubleshooting and

additional failure modes analysis by Entergy initially determined that the cause of both

events may have been a degraded resistor (R25) on the 23 EDG AVR card.

The 23 EDG AVR card was replaced, and the 23 EDG was again tested satisfactorily.

The voltage anomaly issues exhibited during the March 10, 2016, test were documented

in CR-IP2-2016-01430 which was closed in CR-IP2-2016-01260 to be included in the

causal assessment associated with the tripping of 23 EDG breaker on March 7, 2016.

Entergy assigned a vendor to perform confirmatory laboratory bench testing and failure

analysis of the 23 EDG AVR card. The vendor report attributed the cause of the

March 10, 2016, loss of voltage control to a degraded solder joint on the L1 magnetic

amplifier on the AVR card. The vendor report explicitly did not attribute the event on

March 7, 2016, to the same cause. Entergy assigned a corrective action in CR-IP2-

2016-01260 to review the cause of the 23 EDG overcurrent trip on March 7, 2016, and in

light of the vendor report. On September 1, 2016, Entergy documented that their initial

investigation into the failure on March 7, 2016, concluded that the failure was most likely

due to an intermittent connection to the L1 mag amp on the AVR card. Since they have

determined the causes of the failures on March 7, 2016, and March 10, 2016, are likely

the same direct cause, this violation closes URI 05000247/2016001-06, 23 Emergency

Diesel Generator Automatic Voltage Regulator Failure. The URI is closed because it

was determined that there was a performance deficiency.

In 2007, Entergy received a 10 CFR 21 notification (ML072750470) that there was a

potential for solder joint cracks on their AVR cards and wrote CR-IP2-2007-3825 and

CR-IP3-2007-3686. Cracked solder joints on the AVR cards affect the ability of the EDG

to achieve and/or maintain voltage. Because the connectivity of the joint can be

degraded by vibration, the impact on voltage regulation may be intermittent. The

notification recommended an initial inspection to look for cracked solder joints and then

subsequent inspections every refueling outage once the cards had been in service for 15

years. Entergy wrote a corrective action to write work requests to perform the initial

inspections but did not write any corrective actions to address the need for recurring

inspections. Entergy performed the initial inspections for all of their cards in 2009 and

2010 and did not find any degraded solder joints on any of the Unit 2 EDGs, although

the AVR card from the Unit 3 32 EDG did have degraded solder joints and was repaired.

Entergy did not establish a preventive maintenance activity to perform the subsequent

inspections every two years as stated in the service bulletin.

In response to the events of March 7, 2016, and March 9, 2016, Entergy performed

extent of condition inspections on both the 21 and 22 EDG AVR cards and identified

partially cracked solder joints on both cards. Entergy repaired the solder joints and

replaced the cards. Like the 23 EDG AVR card, the AVR card for the 21 EDG is also

original equipment, while the 22 EDG AVR card was replaced more recently.

19

Analysis. The failure to establish recurring (two-year) inspections of the AVR cards that

had longer than 15 years in service is a performance deficiency that was reasonably

within Entergys ability to foresee and correct. The inspectors determined that this

performance deficiency was more than minor because it is associated with the

Equipment Performance attribute of the Mitigating Systems cornerstone and adversely

affected its objective to ensure the reliability of systems that respond to initiating events

to prevent undesirable consequences. Specifically, the 23 EDG failed to run on

March 7, 2016, and March 10, 2016.

The performance deficiency represented a loss of function of a single train (23 EDG) for

greater than its TS allowed outage time of seven days. Inspection of the 21, 22, and 23

EDG AVR cards all showed substantial degradation of the solder joints to the L1 mag

amp. The 22 EDG AVR card was observed to have degradation in the solder joint and

had been previously replaced in 2010. This degraded condition likely existed prior to the

failure on March 7, 2016. As a result, the failure mechanism could have activated at any

time between the last successful test on February 7, 2016, and the failure at the next

demand event on March 7, 2016. The inspectors evaluated the finding in accordance

with IMC 0609, Appendix A, The Significance Determination Process for Findings at

Power, Exhibit 2, Mitigating Systems Screening Questions. The inspectors noted that

while the degraded 23 EDG AVR had resulted in a trip of the EDG on March 7, 2016, it

was subsequently run on March 8, 2016, and twice on March 9, 2016, during test 2-PT-

R014, Automatic SI System Electrical Load and Blackout Test. During this test, the A

side logic was completed with no anomalies noted with the 23 EDG; however, during the

B side test, the 6A bus voltage dropped to 200V with several equipment load sheds

automatically occurring prior to success on the third attempt to load the EDG. The 23

EDG did not trip during this test because the low voltage relay protection is overridden

during an emergency start (when the EDG is started from an SI signal). Subsequently,

the AVR was identified as the likely cause of the voltage drop during the March 9, 2016,

test and the EDG was declared inoperable. While the facts support an intermittent type

of failure (several successful runs after March 7, 2016, without the AVR being repaired),

the inspectors concluded that the previous failure on March 7, 2016, was most likely

caused by the degraded AVR function. Therefore, the inspectors determined that the

23 EDG trip on March 7, 2016, represented an actual loss of function for greater than its

TS allowed outage time and a DRE was performed.

The Region I SRA determined that the estimated increase in core damage frequency

associated with this performance deficiency is low E-8/year or very low safety

significance (Green). The DRE was performed with the conservative assumption that

the intermittent failures would have resulted in impacting at-power conditions going back

to the last successful 23 EDG surveillance test performed on February 7, 2016. The

SRA used the guidance within the Risk Assessment of Operational Events, Volume 1 -

Internal Events, Section 2.4, to determine an exposure time at unit power conditions of

T/2 or 14 days from the last successful test due to the unknown nature of the failure

mechanism. This provided a bounding assessment. The SRA used the Systems

Analysis Programs for Hands-On Evaluation, Revision 8.1.4, and the SPAR Model for

Indian Point Unit 2, Model Version 8.19. The SRA considered the last load test which

resulted in unexpected load shedding to be a failure. Therefore, the last 5 times the

EDG had run, two of the runs were considered to be failures for a 0.40 failure probability.

Additionally, the SRA had to make modifications to update the model to perform the

evaluation. This included revising the base case SPAR model to substitute the Unit 2

ARDG for the combustion turbine which is no longer used for the offsite power recovery

20

fault trees. The SRA reviewed Entergys probabilistic risk assessment model and

established a failure probability for the ARDG of 5E-2 based on a review of the Entergys

probabilistic risk assessment model which included operator actions and equipment

failure modeling.

The condition case was represented by developing post-processing rules to recognize

that the 23 EDG ran for over 75 minutes on March 7, 2016, prior to its failure.

Modifications to the SPAR model were performed to recognize that plant procedures

direct alignment of the ARDG to restore power to any safety-related 480V bus which

becomes de-energized (2A, 3A, 5A, or 6A buses) during a loss of offsite power (LOOP)

event and failure of an EDG. Therefore, if the 23 EDG would have failed during an at

power event, procedures direct for the ARDG to be aligned to its respective bus. The

SRA developed the modification only for LOOP events where capability may not exist to

isolate a failed open power operated relief valve (PORV). For events where a PORV

cannot be isolated, the ARDG is not credited due to timing considerations in aligning the

ARDG for this type of loss of coolant scenario. The SRA determined for this intermittent

failure condition, modeling should provide for the capability to isolate a failed open

PORV associated with the 23 EDG powered block isolation valve because the 23 EDG

had run for a nominal 75 minutes prior to its initial failure on March 7, 2016. Additionally,

the SRA made a conservative modeling assumption related to common cause, by

setting the 23 EDG failure to run basic event to TRUE to increase the probability of

common cause failure for all of the EDGs, even though the failure was intermittent. The

common cause failure probability for the EDGs was increased to 4.7E-3 from its nominal

value of 1.4E-4. Finally, the 23 EDG failure rate was set at a 40 percent probability of

failure due to the recent performance data. As a result, the SRA determined that the

estimated increase in core damage frequency associated with the performance

deficiency was 1.5E-8/yr for the 14-day exposure time assumed at-power conditions.

The dominant core damage sequences for the at-power condition involved LOOP events

with failure of the auxiliary feedwater system and feed and bleed. The dominant core

damage cutset consisted of a LOOP with failure of the turbine driven auxiliary feedwater

pump, failure of the 22 EDG to run, failure of the 23 EDG to run, and failure of the ARDG

to align power to a safety bus.

Because the 23 EDG AVR was not replaced and repaired until after the March 9, 2016,

test anomaly, the SRA also reviewed the risk associated with the EDG being degraded

during the unit shutdown condition until the AVR was repaired and the 23 EDG

clearance removed on March 16, 2016. The SRA determined the shutdown risk using

IMC 0609, Appendix G, Attachment 1, Shutdown Operations Significance Determination

Process Phase 1 Initial Screening Characterization of Findings. The SRA noted the

March 7, 2016, loss of safety bus power event and residual heat removal cooling was

caused by inadequate guidance in procedures, resulting in an overcurrent condition on

the Bus 3A normal supply breaker as part of load test setup activities for a surveillance

test. Without this error, the trip of the 23 EDG would not have caused a loss of residual

heat removal cooling; and, therefore, the EDG performance deficiency was not relevant

to any shutdown initiating event. The performance deficiency associated with the

23 EDG was evaluated within Exhibit 3 - Mitigating Systems Screening Questions.

Because the 23 EDG was conservatively assumed to have lost its safety function for

greater than its TS outage time, a Phase 2 evaluation within Appendix G was performed.

Using Worksheet 3, Loss of Offsite Power in plant operating state 1 (Head On, Reactor

Coolant System Closed), for the limiting condition, the SRA made the following

21

assumptions: 1) initiating event likelihood equal to two given the exposure time, 2)

emergency AC credit of three based upon the availability of the 21 and 22 EDGs, 3)

steam generator cooling credit of three based on the fact that the 24 reactor coolant

pump was in operation and providing forced circulation, and 4) a credit of one for

recovery of offsite power before core damage (RLOOP3). Based upon the Phase 2

worksheet results, the shutdown safety significance of the performance deficiency was

estimated in the E-9 range. The SRA noted the condition would also be in the E-8 range

considering a plant operating state 2 condition (reactor coolant system vented) with no

credit given for aligning the Unit 2 ARDG. Therefore, the total risk (at-power and

shutdown) for this condition was estimated to be in the E-8 range or of very low safety

significance (Green) and was considered to be a conservative bounding analysis (i.e.,

assuming EDG exposure time 14 days at power, EDG common cause effect and no

recovery of buses with ARDG during the outage risk evaluation).

The inspectors determined that this violation was not indicative of current performance

because the last time Entergy would reasonably have been prompted to create

corrective actions to perform periodic inspections was during the initial inspections in

2010. Therefore, no cross-cutting aspect was assigned.

Enforcement. 10 CFR 50, Appendix B, Criterion XVI, states that measures shall be

established to assure that conditions adverse to quality, such as failures, malfunctions,

deficiencies, deviations, defective material and equipment, and nonconformances are

promptly identified and corrected. Contrary to this, between 2010 and March 2016,

Entergys CAP did not assure that a condition adverse to quality associated with the

safety-related EDG system was promptly identified and corrected. Specifically, they did

not perform the recommended once per refueling cycle inspections of the EDG AVR

cards, and as a result, the 23 EDG failed to run due to undetected degraded

connections. Entergy replaced the AVR card in the 23 EDG, repaired the solder joints in

the AVR cards for the 21 and 22 EDGs, and wrote CR-IP2-2016-1260 and

CR-IP3-2016-1370. Because this violation was of very low safety significance (Green)

and Entergy has entered this performance deficiency into the CAP, the NRC is treating

this as an NCV in accordance with Section 2.3.2.a of the NRC Enforcement Policy.

(NCV 05000247/2016003-02, Missed Inspections on Automatic Voltage Regulator

Cards Results in Emergency Diesel Generator Failure to Run)

This URI is closed.

1R18 Plant Modifications (71111.18 - 3 samples)

Temporary Modifications

a. Inspection Scope

The inspectors reviewed the temporary modifications listed below to determine whether

the modifications affected the safety functions of systems that are important to safety.

The inspectors reviewed 10 CFR 50.59 documentation and post-modification testing

results and conducted field walkdowns of the modifications to verify that the temporary

modifications did not degrade the design bases, licensing bases, and performance

capability of the affected systems.

22

Unit 2

Temporary modification 66349 to repair a crack on vital battery 23, cell 4

Unit 3

Temporary modification 65773 to replace the failed ARDG battery charger with a

digital battery charger (this sample was part of an in-depth review of the ARDG

system)

Temporary modification 66780 to install jumpers in order to maintain bus 5A

interlocking relay circuit while relay 62-2/5A is replaced

b. Findings

No findings were identified.

1R19 Post-Maintenance Testing (71111.19 - 7 samples)

a. Inspection Scope

The inspectors reviewed the post-maintenance tests for the maintenance activities listed

below to verify that procedures and test activities ensured system operability and

functional capability. The inspectors reviewed the test procedure to verify that the

procedure adequately tested the safety functions that may have been affected by the

maintenance activity and that the acceptance criteria in the procedure were consistent

with the information in the applicable licensing basis and/or design basis documents.

The inspectors verified that the test results were properly reviewed and accepted and

problems were appropriately documented. The inspectors also walked down the

affected job site, observed the pre-job brief and post-job critique where possible,

confirmed work site cleanliness was maintained, and witnessed the test or reviewed test

data to verify quality control hold points were performed and checked, and that results

adequately demonstrated restoration of the affected safety functions.

Unit 2

21 ABFP recirculation valve FCV-1121 actuator preventative maintenance on

July 19, 2016

Replacement of 138kV breaker BT4-5 on August 12, 2016

Corrective maintenance on the 21 CCW pump discharge check valve on

September 22, 2016

Unit 3

ARDG protective relay replacement and calibration on August 23, 2016 (this sample

was part of an in-depth review of the ARDG system)

ARDG four-year preventive maintenance on September 2, 2016 (this sample was

part of an in-depth review of the ARDG system)

ARDG battery charger replacement on September 12, 2016 (this sample was part of

an in-depth review of the ARDG system)

Undervoltage relay 62-2/5A replacement on September 17, 2016

23

b. Findings

No findings were identified.

1R22 Surveillance Testing (71111.22 - 4 samples)

a. Inspection Scope

The inspectors observed performance of surveillance tests and/or reviewed test data of

selected risk-significant SSCs to assess whether test results satisfied TSs, the UFSAR,

and Entergys procedure requirements. The inspectors verified that test acceptance

criteria were clear, tests demonstrated operational readiness and were consistent with

design documentation, test instrumentation had current calibrations and the range and

accuracy for the application, tests were performed as written, and applicable test

prerequisites were satisfied. Upon test completion, the inspectors considered whether

the test results supported that equipment was capable of performing the required safety

functions. The inspectors reviewed the following surveillance tests:

Unit 2

2-PT-Q034, 22 auxiliary feed pump quarterly surveillance, on August 1, 2016

Unit 3

3-PT-Q062A, 31 charging pump quarterly surveillance test, on August 24, 2016

3-PT-Q98C, steam line pressure functional test, on September 13, 2016

WO 00446386, 31 EDG AVR card inspection, on September 20, 2016

b. Findings

Introduction. The inspectors identified a Green NCV of 10 CFR 50, Appendix B,

Criterion XVI, Corrective Actions, because Entergy did not take timely corrective action

to perform an inspection of the 33 EDG AVR card. As a result, the degraded

connections on the L1 magnetic amplifier card on the 32 EDG were not repaired for a

prolonged period of time.

Description. On March 7, 2016, and March 10, 2016, the 23 EDG on Unit 2 experienced

voltage control issues while in unit mode. After performing troubleshooting on the

voltage regulator card, Entergy determined that the solder joints on the L1 magnetic amp

connections were degraded, resulting in intermittent connections that affected the ability

to achieve and maintain voltage. Entergy further determined that the solder joints had

been the subject of a 10 CFR 21 report in 2007. The solder joints on all six affected

diesel generators at Indian Point had been inspected initially in 2009 and 2010, but the

recommended follow-up inspections had not been performed. Entergy took action to

inspect the AVR cards on the Unit 2 EDGs before the end of the Unit 2 refueling outage

in May 2016 and identified indications of degradation in the L1 mag amp solder joints on

all three cards.

On May 19, 2016, Entergy wrote a corrective action to perform the same inspections on

the 31, 32, and 33 EDG AVR cards, under CR-IP3-2016-1370, CA-5. This corrective

24

action was originally due on June 10, 2016, with the intent to perform it prior to the next

monthly surveillance of each EDG. The EDGs had been evaluated as operable-

degraded/non-conforming, and completion of the corrective actions would restore the

EDGs to operable status. The inspections were not performed prior to the June

surveillances because Entergy staff raised questions about the adequacy of the planned

post-maintenance testing. The due date was extended to coincide with the next monthly

surveillance test. The inspections were not performed prior to the July surveillances

because Entergy prioritized post-outage work at Unit 2 over the inspections and the due

date was extended for a second time to August. The inspections were not performed

prior to the August surveillances because Entergy once again prioritized other work at

the station (repairs to the 23 circulating water pump) over the inspections, and the due

date was extended a third time. Entergys CAP requires that due date extensions

include the basis for why the extension is acceptable. The justifications provided for

each due date extension were that the EDGs had been determined to be operable-

degraded/non-conforming (vice inoperable). The third due date extension also stated

that this was an administrative action. Subsequent discussions with management

revealed that the scheduling of resources prevented the completion of the Unit 3 EDG

AVR card solder joints because of higher priority assignments of resources. These

assignments did not rise to the same level of risk significance as the Unit 3 EDG AVR

card degradation.

On September 23, 2016, Entergy performed the inspection on the 33 EDG AVR card

and identified two solder joints with signs of degradation. They replaced all of the solder

joints for the L1 mag amp and returned the diesel generator to service. The 33 EDG

performed satisfactorily during its last surveillance run.

Analysis. The failure to ensure that the solder joint cracking on the 33 EDG AVR card

was promptly identified and corrected was a performance deficiency that was within

Entergys ability to foresee and correct. Specifically, Entergy extended the due date

three times and performed the card inspections nearly four months after identifying that

the recommended periodic inspections had not been performed and that degradation

had occurred on three identical cards in Unit 2. The performance deficiency is more

than minor because it is associated with the Design Control attribute of the Mitigating

Systems cornerstone and adversely affected its objective to ensure the reliability of

systems that respond to initiating events to prevent undesirable consequences. The

existence of cracked solder joints on the AVR card decreases the reliability of the EDGs,

and the untimely corrective action allowed this degraded condition to persist without

being corrected. In accordance with IMC 0609.04, Initial Characterization of Findings,

and Exhibit 2 of IMC 0609, Appendix A, The Significance Determination Process for

Findings At-Power, issued June 19, 2012, the inspectors determined that the finding

was of very low safety significance (Green) because the 33 EDG maintained its

operability or functionality, it did not represent a loss of system or function, and it did not

involve external mitigation systems.

The inspectors determined that this finding had a cross-cutting aspect in the area of

Human Performance, Conservative Bias, because leaders did not take a conservative

approach to decision making, particularly when information is incomplete or conditions

are unusual. Specifically, Entergy did not inspect the 33 EDG AVR cards at the first

available opportunity due to resource constraints. [H.14]

25

Enforcement. 10 CFR 50, Appendix B., Criterion XVI, states that measures shall be

established to assure that conditions adverse to quality, such as failures, malfunctions,

deficiencies, deviations, defective material and equipment, and nonconformances are

promptly identified and corrected. Contrary to this, between June 2016 and

September 2016, Entergys CAP did not assure that a condition adverse to quality

associated with the safety-related EDG system was promptly corrected. Specifically,

they did not perform the recommended inspection of the 33 EDG AVR card, and as a

result, the degraded condition existed for prolonged period of time. Entergy repaired the

degraded solder joints on the AVR card in the 33 EDG and wrote CR-IP3-2016-3018.

Because this violation was of very low safety significance (Green) and Entergy has

entered this performance deficiency into the CAP, the NRC is treating this as an NCV in

accordance with Section 2.3.2.a of the NRC Enforcement Policy. (NCV

05000286/2016003-03, Untimely Corrective Actions for Degraded Automatic

Voltage Regulator Cards)

Cornerstone: Emergency Preparedness

1EP6 Drill Evaluation (71114.06 - 1 sample)

Training Observation

a. Inspection Scope

The inspectors evaluated the conduct of a routine Entergy emergency drill on

September 14, 2016, to identify any weaknesses and deficiencies in the classification,

notification, and protective action recommendation development activities. The

inspectors observed emergency response operations in the simulator to determine

whether the event classification, notifications, and protective action recommendations

were performed in accordance with procedures. The inspectors also attended the

station drill critique to compare inspector observations with those identified by Entergy in

order to evaluate Entergys critique and to verify whether Entergy was properly

identifying weaknesses and entering them into the CAP.

b. Findings

No findings were identified.

2. RADIATION SAFETY

Cornerstone: Public Radiation Safety and Occupational Radiation Safety

2RS1 Radiological Hazard Assessment and Exposure Controls (71124.01 - 4 samples)

a. Inspection Scope

The inspectors reviewed Entergys performance in assessing and controlling radiological

hazards in the workplace. The inspectors used the requirements contained in

10 CFR 20, TSs, applicable regulatory guides (RGs), and the procedures required by

TSs as criteria for determining compliance.

26

Instructions to Workers (1 sample)

The inspectors reviewed HRA work permit controls and use, observed containers of

radioactive materials, and assessed whether the containers were labeled and controlled

in accordance with requirements.

The inspectors reviewed several occurrences where a workers electronic personal

dosimeter alarmed. The inspectors reviewed Entergys evaluation of the incidents,

documentation in the CAP, and whether compensatory dose evaluations were

conducted when appropriate. The inspectors verified follow-up investigations of actual

radiological conditions for unexpected radiological hazards were performed.

Contamination and Radioactive Material Control (1 sample)

The inspectors observed the monitoring of potentially contaminated material leaving the

RCA and inspected the methods and radiation monitoring instrumentation used for

control, survey, and release of that material. The inspectors selected several sealed

sources from inventory records and assessed whether the sources were accounted for

and were tested for loose surface contamination. The inspectors evaluated whether any

recent transactions involving nationally tracked sources were reported in accordance

with requirements.

Risk-Significant HRA and Very High Radiation Area Controls (1 sample)

The inspectors reviewed the procedures and controls for HRAs, very high radiation

areas, and radiological transient areas in the plant.

Problem Identification and Resolution (1 sample)

The inspectors evaluated whether problems associated with radiation monitoring and

exposure control (including operating experience) were identified at an appropriate

threshold and properly addressed in the CAP.

b. Findings

Introduction. A self-revealing Green NCV of TS 5.7.1e was identified when workers

entered the Unit 2 FSB truck bay that was posted and controlled as a HRA without

receiving a briefing on dose rates in the work area. Specifically, on June 6, 2016, two

NPOs entered the Unit 2 FSB truck bay to hang tags on the backup spent fuel pool

cooling filters. The NPOs signed in on an RWP but did not receive a radiological briefing

on the dose rates in their work area. After entering the area, one worker received an

electronic dosimeter dose rate alarm and subsequently both workers promptly exited the

area. Immediate corrective actions included restricting the access of the two NPOs to

the RCA. The issue was entered into Entergys CAP as CR-IP2-2016-03610.

Description. On June 6, 2016, two NPOs entered the Unit 2 FSB truck bay, a posted

HRA, to hang tags on the backup spent fuel pool cooling filters. The NPOs signed in on

a HRA RWP but did not receive a briefing on the radiological conditions in their work

area. After entering the area, one worker received an electronic dosimeter dose rate

alarm of 991 mrem/hr. The two NPOs exited the HRA after receiving the alarm and

reported the incident to radiation protection.

27

Event follow-up (apparent cause evaluation for CR-IP2-2016-03610) determined that the

NPOs entered the RCA at the Unit 2 health physics (HP) control point (HP1) but did not

check in with the HP shift technician. They subsequently proceeded to the 80-foot

elevation of the Unit 2 PAB where they were expected to dress out and receive a

detailed radiological briefing at the outage HP desk. The NPOs bypassed the normal

dress-out area and proceeded to the NPO field office, located on the 98-foot elevation of

the PAB, to dress-out. After completing dress-out, the NPOs proceeded directly to their

work location, a posted HRA, without having received a briefing on radiological

conditions from the HP control desk on the 80-foot elevation of the PAB as required.

Shortly after entering the Unit 2 FSB truck bay HRA, one NPO received a dose rate

alarm, later determined to be at 991 mrem/hr (alarm set point of 900 mrem/hr). Both

workers exited the truck bay and proceeded to the HP control point.

TS 5.7.1 requires that activities in a HRA with dose rates greater than or equal to

100 mrem/hr at 30 centimeters from the source but less than 1000 mrem/hr shall be

controlled by means of an RWP. This includes specification of radiation dose rates in the

immediate work area and other appropriate radiation protection equipment and

measures and that all workers shall be briefed on the radiological conditions in their work

area prior to entry.

Analysis. The failure to obtain a radiological briefing prior to entry into a posted HRA is a

performance deficiency that was reasonably within Entergys ability to foresee and

correct. The performance deficiency was determined to be more than minor based on

similar example 6.h in IMC 0612, Appendix E, and because it adversely affected the

Human Performance attribute of the Occupational Radiation Safety cornerstone

objective. Specifically, Entergy staff violated the TS 5.7.1 HRA radiological briefing

requirement designed to protect workers from unnecessary radiation exposure. Using

IMC 0609, Appendix C, Occupational Radiation Safety Significance Determination

Process, the finding was determined to be of very low safety significance (Green)

because it did not involve: (1) ALARA occupational collective exposure planning and

controls, (2) an overexposure, (3) a substantial potential for overexposure, or (4) an

impaired ability to assess dose. The finding was self-revealing because Entergy was

made aware of the situation as a result of an electronic dose rate alarm.

The cause of the finding is related to the cross-cutting aspect of Human Performance,

Procedure Adherence, in that the workers did not follow processes, procedures, and

work instructions for entering a posted HRA. [H.8]

Enforcement. TS 5.7.1e requires that entry into an HRA with dose rates not exceeding

1.0 rem/hr at 30 centimeters from the source be performed by personnel that have been

briefed on the radiological conditions in the area prior to entry. Contrary to this

requirement, on June 6, 2016, two NPOs entered the Unit 2 FSB truck bay, a posted

HRA, to hang tags on the backup fuel pool cooling filters. The NPOs signed in on an

RWP but did not receive a briefing on the radiological conditions in the area prior to

entry. After entering the area, one worker received an electronic dosimeter dose rate

alarm and both workers promptly exited the area. Immediate corrective actions included

restricting the access of the two NPOs to the RCA. Because this finding was determined

to be of low safety significance (Green) and was entered into Entergys CAP as

CR-IP2-2016-03610, this violation is being treated as an NCV consistent with

Section 2.3.2.a of the NRC Enforcement Policy. (NCV 05000247/2016003-04,

Entry into a High Radiation Area without Radiological Briefing)

28

2RS2 Occupational ALARA Planning and Controls (71124.02 - 2 samples)

a. Inspection Scope

The inspectors assessed Entergys performance with respect to maintaining

occupational individual and collective radiation exposures ALARA. The inspectors used

the requirements contained in 10 CFR 20, applicable RGs, TSs, and procedures

required by TSs as criteria for determining compliance.

Radiological Work Planning (1 sample)

The inspectors selected the following radiological work activities based on exposure

significance for review:

RWP 20162615, PCI-Baffle Bolt Removal/Repair

RWP 20162616, Westinghouse-Baffle Bolt Removal/Repair

RWP 20162601, Radiation Protection Support

RWP 20162642, Cavity Liner Repair

For each of these activities, the inspectors reviewed ALARA work activity evaluations,

exposure estimates, exposure reduction requirements, results achieved (dose rate

reductions, actual dose), person-hour estimates and results achieved, and post-job

reviews that were conducted to identify lessons learned.

Verification of Dose Estimates and Exposure Tracking Systems (1 sample)

The inspectors reviewed the current annual collective dose estimate; basis methodology;

and measures to track, trend, and reduce occupational doses for ongoing work activities.

The inspectors evaluated the adjustment of exposure estimates or re-planning of work.

The inspectors reviewed post-job ALARA evaluations of excessive exposure results.

b. Findings

Introduction. A self-revealing finding of very low safety significance (Green) was

identified due to Entergy having unintended occupational collective exposure resulting

from performance deficiencies in planning while preparing to perform reactor cavity liner

repair activities during the Unit 2 refueling outage 2R22. Inadequate work planning

resulted in unplanned, unintended collective exposure due to conditions that were

reasonably within Entergys ability to foresee. The work activity planning deficiencies

resulted in the collective exposure for these activities increasing from the planned dose

of 2.386 person-rem to an actual dose of 10.305 person-rem.

Description. Unit 2 has had a long-standing issue with refueling water storage tank

water from the reactor refueling cavity (during refueling outages) leaking into the

basement of the containment structure. Leakage rates of 4.5 gallons per minute were

observed during initial cavity flood-up, and continued throughout the outage, placing an

additional burden on the liquid radiological waste system to collect and process this

leakage. Due to a period of limited work activity during the outage (2R22), a decision

was made to effect repairs by draining down the cavity and performing

29

welding activities on the cavity liner. Although the cavity liner leakage was a long-

standing issue, no extensive work/repair plan existed when this window of opportunity

opened.

The original scope of work was an area on the west face of the cavity liner approximately

eight feet in length. Upon closer examination of the cavity liner, it was determined by

Entergy that the area needing repair was much larger than originally intended on the

west face of the cavity liner and also needed to include the opposite face of the liner.

The welding method in the original repair plan also proved inadequate to the task,

resulting in most of the weld repairs not being able to be appropriately tested. As a

result, the repairs had only limited effectiveness, resulting in a small decrease of the

cavity leak rate from 4.5 gallons per minute to 3.7 gallons per minute. Initial work was

performed on April 4, 2016, without the intended shielding being installed, resulting in an

additional 1.1 person-rem of exposure before the appropriate shielding was put in place.

The work estimate in person-hours was challenged by scope increases, consisting of

greater than expected areas needing repair, difficulty of welding, and the material

condition of the cavity walls. Unintended collective exposure that was greater than the

planned collective exposure for cavity liner repair work was the result of the limited and

inadequate plan for the work to be performed and included the following: (1) conflicts

and discrepancies in the original repair plan (CR-IP2-2016-02528), (2) two significant

defects beyond the repair plan (CR-IP2-2016-02502), and (3) repairs could not be

completed due to the condition of the existing liner in localized areas

(CR-IP2-2016-02548).

Consequently, the total collective dose for the reactor cavity liner repair increased from

the planned collective dose of 2.386 person-rem to the actual collective dose of 10.305

person-rem. This issue was entered into Entergys CAP as CR-IP2-2016-02528,

CR-IP2-2016-02502, and CR-IP2-2016-02548.

Analysis. The failure to develop an adequate outage work plan for the reactor cavity

liner repair work was a performance deficiency that was within Entergys ability to control

and prevent. The performance deficiency was more than minor because it was

associated with the Program and Process attribute of the Occupational Radiation Safety

cornerstone and adversely affected the cornerstone objective to ensure the adequate

protection of the worker health and safety from exposure to radiation. Additionally, the

performance deficiency was determined to be more than minor based on similar

example 6.i in Appendix E of IMC 0612, in that the actual collective dose exceeded

5 person-rem and exceeded the planned, intended dose by more than 50 percent. In

accordance with IMC 0609, Appendix C, "Occupational Radiation Safety Significance

Determination Process," the finding was determined to be of very low safety significance

(Green) because Unit 2's current three-year rolling average collective dose for

2013-2015 is 39.69 person-rem, which is less than the criteria of 135 person-rem per

pressurized water reactor unit. The finding had a cross-cutting aspect in the area of

Human Performance, Work Management, in that the process of planning work activities

adversely impacted radiological safety. [H.5]

Enforcement. No violation of regulatory requirements occurred. The ALARA rule

(10 CFR 20.1101(b)) Statements of Consideration indicate that compliance with the

ALARA requirement will be judged on whether Entergy has incorporated measures to

track and, if necessary, to reduce exposures, and not whether exposures and doses

represent an absolute minimum or whether Entergy has used all possible methods to

30

reduce exposures. The overall exposure performance of a nuclear power plant is used

to determine its compliance with the ALARA rule. Since Unit 2s current three-year

rolling average is 39.69 person-rem, which is below the three-year rolling average

criterion of 135 person-rem per unit, and has an established ALARA program to reduce

exposure consistent with the 10 CFR 20.1101 Statements of Consideration, no violation

of 10 CFR 20.1101(b) occurred. Entergy entered this issue into their CAP as

CR-IP2-2016-02528, CR-IP2-2016-02502, and CR-IP2-2016-02548. Because this issue

does not involve a violation and has very low safety significance, it is identified as a

finding. (FIN 05000247/2016003-05, Failure to Maintain Radiation Exposure ALARA

During Unit 2 Reactor Cavity Liner Repairs)

2RS4 Occupational Dose Assessment (71124.04 - 5 samples)

a. Inspection Scope

The inspectors reviewed the monitoring, assessment, and reporting of occupational

dose. The inspectors used the requirements in 10 CFR 20, RG 8.9, RG 8.34, TSs, and

procedures required by TSs as criteria for determining compliance.

Inspection Planning

The inspectors reviewed radiation protection program audits, National Voluntary

Laboratory Accreditation Program (NVLAP) dosimetry testing reports, and procedures

associated with dosimetry operations.

Source Term Characterization (1 sample)

The inspectors reviewed the plant radiation characterization (including gamma, beta,

alpha, and neutron) being monitored. The inspectors verified the use of scaling factors

to account for hard-to-detect radionuclides in internal dose assessments.

External Dosimetry (1 sample)

The inspectors reviewed dosimetry NVLAP accreditation, onsite storage of dosimeters,

the use of correction factors to align electronic personal dosimeter results with NVLAP

dosimetry results, dosimetry occurrence reports, and CAP documents for adverse trends

related to external dosimetry.

Internal Dosimetry (1 sample)

The inspectors reviewed internal dosimetry procedures, whole body counter

measurement sensitivity and use, adequacy of the program for whole body count

monitoring of plant radionuclides or other bioassay technique, adequacy of the program

for dose assessments based on air sample monitoring and the use of respiratory

protection, and internal dose assessments for any actual internal exposure.

Special Dosimetric Situations (1 sample)

The inspectors reviewed Entergys worker notification of the risks of radiation exposure

to the embryo/fetus, the dosimetry monitoring program for declared pregnant workers,

31

external dose monitoring of workers in large dose rate gradient environments, and dose

assessments performed since the last inspection that used multi-badging, skin dose, or

neutron dose assessments.

Problem Identification and Resolution (1 sample)

The inspectors evaluated whether problems associated with occupational dose

assessment were identified at an appropriate threshold and properly addressed in the

CAP.

b. Findings

No findings were identified.

4. OTHER ACTIVITIES

4OA1 Performance Indicator Verification (71151 - 8 samples)

Mitigating Systems Performance Index

a. Inspection Scope

The inspectors reviewed Entergys submittals for the following Mitigating Systems

Cornerstone performance indicators for the period of July 1, 2015, through June 30,

2016:

Unit 2

Emergency AC Power System (MS06)

High Pressure Injection System (MS07)

Heat Removal System (MS08)

Residual Heat Removal System (MS09)

Unit 3

Emergency AC Power System (MS06)

High Pressure Injection System (MS07)

Heat Removal System (MS08)

Residual Heat Removal System (MS09)

To determine the accuracy of the performance indicator data reported during those

periods, the inspectors used definitions and guidance contained in Nuclear Energy

Institute Document 99-02, Regulatory Assessment Performance Indicator Guideline,

Revision 7. The inspectors also reviewed Entergys operator narrative logs, CRs,

mitigating systems performance index derivation reports, event reports, and NRC

integrated inspection reports to validate the accuracy of the submittals.

b. Findings

No findings were identified.

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4OA2 Problem Identification and Resolution (71152)

Routine Review of Problem Identification and Resolution Activities

a. Inspection Scope

As required by Inspection Procedure 71152, Problem Identification and Resolution, the

inspectors routinely reviewed issues during baseline inspection activities and plant

status reviews to verify that Entergy entered issues into the CAP at an appropriate

threshold, gave adequate attention to timely corrective actions, and identified and

addressed adverse trends. In order to assist with the identification of repetitive

equipment failures and specific human performance issues for follow up, the inspectors

performed a daily screening of items entered into the CAP and periodically attended CR

review group meetings. The inspectors also confirmed, on a sampling basis, that, as

applicable, for identified defects and non-conformances, Entergy performed an

evaluation in accordance with 10 CFR 21.

b. Findings

No findings were identified.

4OA3 Follow Up of Events and Notices of Enforcement Discretion (71153 - 3 samples)

.1 Plant Event

a. Inspection Scope

On July 6, 2016, Unit 2 experienced a reactor trip caused by a human performance

error. The inspectors reviewed and observed plant parameters, reviewed personnel

performance, and evaluated performance of mitigating systems. The inspectors

communicated the plant status to appropriate regional personnel and compared the

event details with criteria contained in IMC 0309, Reactive Inspection Decision Basis for

Reactors, for consideration of potential reactive inspection activities. The inspectors

verified that Entergy properly reported the event in accordance with 10 CFR 50.72 and

50.73. The inspectors reviewed Entergys follow-up actions related to the events to

assure that Entergy implemented appropriate immediate corrective actions

commensurate with their safety significance.

b. Findings

No findings were identified.

.2 (Closed) Licensee Event Report (LER) 05000247/2016-005-00: TS Prohibited Condition

Due to a Surveillance Requirement (SR) Never Performed for Testing the Trip of the

MBFPs.

On March 26, 2016, an NRC inspector identified that the trip of the MBFPs was not

tested in accordance with TS 3.7.3 (Main Feedwater System) SR 3.7.3.3. This

performance deficiency was discovered as a result of an assessment of the failure of the

MBFPs steam stop valves to close after the reactor trip on December 5, 2015. TS

SR 3.7.3.3 required testing the MBFP trip function every 24 months on an actual or

33

simulated actuation signal. Surveillance tests 2-PT-V024DS60 and 2-PT-V24DS61 were

performed every 24 months, but only tested up to the limit switch contact that actuates

the MBFP turbine trip solenoid valves and did not include the trip function of the pump.

A review determined the requirement to verify the trip of the MBFPs was added to the

TS during the implementation of the improved TS conversion program in 2000 but the

corresponding testing for MBFP trip was not added to the surveillance tests. The

condition was recorded in the Entergys CAP in CR-IP2-2016-02247.

The inspectors previously issued a Green NCV of TS 3.7.3 for failing to conduct required

surveillance testing on the MBFP trip function as required by SR 3.7.3.3 in NRC

Integrated Inspection Report 05000247/2016001. There was no evidence that the

MBFP trip function had ever been tested and, therefore, did not qualify for treatment as a

missed surveillance under SR 3.0.3. (NCV 05000247/2016001-04, Failure to Implement

SR for MBFP Trip Function)

The inspectors did not identify any new issues during the review of the LER. This LER is

closed.

.3 (Closed) LER 05000247/2016-006-00: TS Prohibited Condition Due to Inoperable

138kV Offsite Circuits Caused by a Disconnected SI Signal to the Station Auxiliary

Transformer LTC

The inspectors reviewed Entergys actions and reportability criteria associated with LER

05000247/2016-006-00, which was submitted to the NRC on May 27, 2016. On

March 9, 2016, during shutdown for a refueling outage, while performing testing of the SI

system, the station SAT LTC failed to increase per design upon actuation of an SI signal.

At the time, the condition was acceptable for the current mode but was unacceptable

when the offsite AC electric power distribution and SI system is required to be operable.

An investigation was performed and it was discovered on March 28, 2016, that the SAT

control cabinet terminal blocks Wl05 and Wl06 had their links open thereby preventing

proper operation of the LTC. A review of tests and WO did not identify any previous

failed tests or any WO with instructions to open the links. The last successful test of LTC

operation was performed on February 26, 2014. The inspectors reviewed the LER, the

associated apparent cause evaluation analysis, and interviewed Entergy staff.

Introduction. The inspectors identified a self-revealing, Green NCV for failing to comply

with TS LCO 3.8.1, Electrical Power Systems, AC Sources - Operating, from

February 26, 2014, to March 29, 2016. During this time, the auto transfer function for

the 6.9kV offsite electrical buses was not operable because the SI anticipatory signal to

the SAT LTC was disconnected. As a result, one of two qualified offsite AC circuits was

not operable.

Description. On March 9, 2016, Entergy discovered that the SAT LTC failed to increase

voltage as designed in response to an SI signal during the performance of surveillance

test 2-PT-R013, SI System, in Mode 5. Unit 2 conducted the loss of normal power

surveillance test by manually actuating the SI signal from the control room. Test results

revealed that the SAT LTC would not adjust to raise bus voltage in anticipation of the

fast transfer of vital buses from the unit auxiliary transformer (UAT) to the SAT. Upon

initiation of an SI signal, the SAT LTC was designed to raise bus voltage within 30

seconds in anticipation of the fast transfer of the vital buses 1 through 4 to buses 5 and 6

when loads are transferred from the UAT to the SAT and safeguards loads are

34

sequenced in. This anticipatory auto transfer feature is required to be operable by TS

LCO 3.8.1 whenever the 138kV offsite line is supplying buses 5 and 6 through the SAT

and buses 1, 2, 3, and 4 are supplied from the UAT in modes 1 through 4. With the

as-found LTC condition, an event resulting in an SI and fast bus transfer could cause the

secondary voltage to drop below the degraded voltage setpoint for more than

10 seconds, resulting in a separation of the safety buses from offsite power.

On March 28, 2016, while in mode 6, Entergy identified that the state links (W105 and

W106) that connected the SI anticipatory signal to the SAT LTC were disconnected. A

document review over a two-year period did not identify any WOs or other activities

which directed these links to be opened. Entergy concluded that the most likely cause

was human error during the last outage, 2RFO21, when workers apparently left the links

in the open position following maintenance activities. The last successful test of the SAT

LTC was conducted on February 26, 2014. Entergy closed the links and reinstituted to

the SAT LTC SI anticipatory signal protective feature prior to entering mode 4. Entergy

also implemented corrective actions to maintenance procedures to require and

troubleshooting WOs to require concurrent verification that equipment was restored to

the proper configuration.

The failure to reinstitute the anticipatory SI signal to the SAT LTC increased the

likelihood that a LOOP to the vital buses during a fast dead bus transfer would occur if a

reactor trip and SI had actuated. If the reduction in vital bus voltage caused the

degraded voltage relay(s) to actuate during a fast transfer and during the period when

safeguards loads were sequenced onto the safety buses, the associated EDGs (which

would have already started on the SI signal) would have automatically stripped and

resequenced the safety loads onto the vital bus, which would then be powered directly

from the EDGs. In addition, the SAT LTC would have responded in automatic control to

the voltage transient and may have responded adequately to prevent a reduction in

voltage during the loss of normal power test on March 9, 2016.

A note in TS 3.8.1 states The automatic transfer function for the 6.9kV buses shall be

operable whenever the 138kV is supplying 6.9kV bus 5 and 6 and the UAT is supplying

6.9kV bus 1, 2, 3, and 4. UFSAR section 7.5.2.1.12.1 further states, The LTC is used

to maintain the nominal voltage level on the SATs 6.9kV buses by automatically raising

or lowering the SAT secondary winding taps in response to voltage variations on the

6.9kV buses. During an SI event, the SI anticipatory signal will raise the LTC tap

position, increasing the voltage towards a pre-selected voltage, in anticipation of the

increased loads from the fast transfer of the loads held by the four 6.9kV in-house buses

to the SAT, thus reducing the severity of a degraded voltage condition on the 480V and

6.9kV buses. As a result, Entergy concluded that TS 3.8.1(a) was not met because the

state links were not installed.

Analysis. The failure to reinstall the state links (W105 and W106) following maintenance

activities was a performance deficiency that was within Entergys ability to foresee and

prevent. Specifically, since February 2014, the SI anticipatory signal to the SAT LTC

was nonfunctional. TS 3.8.1 requires this signal to be functional in order for the

associated offsite AC source to be operable. This performance deficiency was more

than minor because it is associated with the Equipment Performance attribute of the

Mitigating Systems cornerstone to ensure the availability, reliability, and capability of

systems that respond to initiating events to prevent undesirable consequences (i.e., core

damage). Using IMC 0609, Appendix A, The Significance Determination Process for

35

Findings At-Power, Exhibit 2, Mitigating Systems Screening Questions, this issue

required a DRE because the loss of the SI anticipatory function may have resulted in the

SAT being unavailable under low or degraded grid voltage conditions and the second

qualified offsite AC power line was therefore inoperable for a period longer than the TS

allowable outage time. A Region I SRA completed a DRE using the Unit 2 SPAR model

and qualitative analysis. The following assumptions were used in the SPAR model

analysis: 1) an exposure period one year (maximum length of time per significance

determination process guidance), 2) to mimic the LTC OOS (plant design feature not

modeled) the failure probability of the SAT basic event (ACP-TFM-SAT) was increased

from 2.27E-5 to 2.27E-4 (one order of magnitude) to represent the increased likelihood

of the SAT being rendered unavailable due to a low grid voltage condition, 3) truncation

was left at 1E-11, and 4) SAT recovery credit was not provided, although the SAT could

be manually restored to service following initial electrical plant stabilization using the

EDGs to restore power to the safety buses. Based upon these conservative modeling

assumptions and the condition under which the SI anticipatory signal would be relied

upon (a coincident loss of coolant accident and SI actuation), the safety significance of

this issue is less than E-8/year or very low safety significance (Green). The dominant

sequences involve a loss of coolant accident and failure of the EDGs.

The inspectors determined that the finding had a cross-cutting aspect of Human

Performance, Work Management, because Entergy did not implement a process of

controlling and executing work activities. Specifically, the work process did not

coordinate with different groups or job activities to ensure the state links were restored at

the end of the work activities. [H.5]

Enforcement. TS 3.8.1 requires two offsite AC electrical sources to be operable when in

modes 1 through 4. A note in TS 3.8.1 requires the automatic transfer function for the

6.9kV buses to be operable in modes 1 through 4 whenever the 138kV is supplying

6.9kV bus 5 and 6 and the UAT is supplying 6.9kV bus 1, 2, 3, and 4. The UFSAR

concludes that the SAT LTC SI signal feature is required to support the automatic

transfer function. Contrary to this requirement, the automatic transfer function was not

operable from February 26, 2014, until March 29, 2016. Unit 2 was operating in Mode 1

for most of this time. Entergy entered this condition into their CAP (CR-IP2-2016-01386

and CR-IP2-2016-02293) and restored the SAT LTC anticipatory SI signal by closing the

state links W105 and W106. This finding was of very low safety significance and was

documented in Entergys CAP. Therefore, this violation is being treated as an NCV,

consistent with section 2.3.2.a of the NRC Enforcement Policy.

(NCV 05000247/2016003-06, Failure to Maintain Two Qualified AC Sources of

Offsite Power)

This LER is closed.

4OA5 Other Activities

.1 Groundwater Contamination

a. Inspection Scope

In February 2016, Entergy notified the NRC of a significant increase in groundwater

tritium levels measured at three monitoring wells (MW-30, MW-31, and MW-32) located

36

near the Unit 2 FSB. In August 2016, Entergy notified the NRC of the detection of

Cobalt-58 measured in MW-32 located near the Unit 2 FSB.

b. Findings and Observations

(Closed) URI 05000247/2016001-07: January 2016 Groundwater Contamination

Introduction. The inspectors identified a Green NOV of 10 CFR 20.1406(c) for Entergys

failure to conduct operations to minimize the introduction of residual radioactivity into the

subsurface of the site (groundwater). Specifically, Entergy has not maintained the floor

drain systems clear of obstructions and interferences and has not verified the ability of

the floor drains to handle the volume and flowrates for draining activities being

conducted. As a result, repeated spills of contaminated water within the RCA leaked to

onsite groundwater. Two previous occurrences in April 2014 (NRC Inspection Report 05000247/2015002) and February 2015 (NRC Inspection Report 05000247/2015003)

resulted in a licensee-identified Green NCV and an NRC-identified Green NCV. This

inspection report documents two additional similar floor drain backup spill events that

resulted in groundwater contamination that are the subject of this violation. Specifically,

on January 2016, a spill caused by multiple floor drain obstructions resulted in the

backup of contaminated water onto the floor of the 35-foot elevation of the PAB and the

subfloor of the Unit 2 FSB with subsequent leakage to onsite groundwater. In June/July

2016, another event occurred due to an obstructed flow path through a floor drain in the

FSB, which spilled to the subfloor and contaminated the onsite groundwater.

Description. This violation involves two separate incidents of contaminated water spills

that resulted in groundwater contamination due to poor floor drain management. The

first incident involved a January 2016 groundwater contamination event. The inspectors

previously identified a URI regarding whether Entergys controls to prevent the

introduction of radioactivity into the site groundwater for this occurrence were adequate.

Specifically, Entergy obtained increased tritium concentrations from onsite groundwater

monitoring well samples in January 2016 indicating that a leak or spill had occurred

allowing the introduction of radioactivity into the subsurface of the site. Entergy entered

this issue into their CAP as CR-IP2-2016-00264, CR-IP2-2016-00266, and CR-IP2-

2016-00564 with actions to characterize and evaluate this new leak. The initial Entergy

investigation focused on identifying the source of the contamination which was

preliminarily determined to originate from the reject water of a reverse osmosis (RO) skid

that was in service from January 16-31, 2016. This causal determination was based on

the timing of the groundwater contamination event and based on the unique matching of

the radionuclide signature from the groundwater samples and the RO skid reject water.

Based on subsequent completion of Entergys root cause evaluation, the URI can be

evaluated and assessed. Two pathways to the site subsurface were identified. One

pathway was the floor drain pathway in the PAB from below the RO unit to the PAB

sump, where multiple drain obstructions led to spillage from two uncapped cut drain lines

located above the floor on the 35-foot elevation of the PAB, and leakage to the

subsurface from the floor wall interface on the 35-foot elevation of the PAB. The second

cause was attributed to filling the Unit 2 radiological waste sump 28 until it backed up

into the subfloor of the Unit 2 FSB truck bay and subsequently leaked out into the

ground, contaminating the groundwater. This was attributed to rerouting a drain path for

the RO skid reject water into a floor drain with a higher operating level in radiological

waste sump 28 that caused backup into a subfloor drain channel into the subfloor of the

37

Unit 2 FSB truck bay. This condition was the result of an inoperable radiological waste

pump and a temporary drain path arrangement that was not fully evaluated to prevent

potential groundwater contamination spills.

Regarding the second groundwater contamination incident, on August 10, 2016, Entergy

notified the NRC of the detection of Co-58 in monitoring well MW 32-59 located near the

Unit 2 FSB. This sample was drawn on July 5, 2016, and analyzed on the week of

August 1, 2016. The concentration detected was 76.7 pCi/l. This event was

documented by Entergy in CR-IP2-2016-05060. Following identification of Co-58 in the

well sample, Entergy directed its vendor laboratory to recount the sample, and to also

immediately send off the next sample taken from MW 32-59, on July 18, 2016, for

analysis. The sample recount, together with the counting of the July 18, 2016, sample,

confirmed the presence of Co-58. No increase in tritium concentration was seen at

MW 32 on either of these dates. The Entergy groundwater team, previously assembled

for the January 2016 event (described above), began investigating the cause of this new

leak. The presence of Co-58 was determined to be indicative of reactor coolant, due to

its relatively short half-life. Since Unit 2 had recently (in June 2016) completed a

refueling outage, the source of the leak could also have been from the spent fuel pool,

as the two systems were connected throughout the refueling outage. Previously, on

July 19, 2016, in CR-IP2-2016-04559, Entergy had identified high levels of

contamination in the Unit 2 FSB truck bay subfloor as part of their investigation into the

leakage path for the January 2016 event. Analysis of this contamination revealed the

presence of Co-58.

Entergys investigation focused on examination of the source of the contamination with a

pathway from the Unit 2 FSB truck bay subfloor. Based on this investigation, Entergy

identified that in June 2016 following conclusion of the Unit 2 refueling outage, the spent

fuel pool alternate decay heat removal system was drained to sump 28. This equipment

contained spent fuel pool water and could, therefore, have been the source of the Co-58

contamination. Review of the drainage pathway from the system to sump 28 identified

that the system was drained by pumping its contents to a floor drain located on the west

side of the Unit 2 FSB truck bay, with that drain going to sump 28. Further analysis

identified that the floor drain used was partially blocked by the presence of another large

temporary drain line previously used during the 2015 dry fuel cask storage project. The

presence of this second line going into the floor drain significantly reduced the capacity

of the drain, resulting in the alternate decay heat removal liquids backing up inside the

drain system, back-flowing into the north crane rail sole plate, and then spilling onto the

Unit 2 FSB truck bay subfloor, which was already identified as a known leakage pathway

to groundwater. This pathway was confirmed by Entergy based on the high

contamination levels detected in the north crane rail sole plate and the FSB truck bay

subfloor, including the presence of Co-58.

The NRC assessment of the safety significance of these events focused on validating

the safety impact of dose to the public from the release of tritium and Co-58 to the site

groundwater, and ultimately to the Hudson River. The NRC verified that Entergys

bounding public dose calculations on the groundwater contamination leaks were

sufficiently conservative, and a maximum worst case scenario would result in 0.000112

millirem (mrem) per year, which represents a very small fraction of the allowable dose

(liquid effluent dose objective of 3 mrem per year).

38

Analysis. The failure to conduct operations to minimize the introduction of residual

radioactivity into the subsurface of the site, as required by 10 CFR 20.1406(c), is a

performance deficiency within Entergys ability to foresee and correct and should have

been prevented. Specifically, two events involving the leakage of contaminated water to

the onsite groundwater occurred due to Entergys failure to control and maintain its floor

drain systems clear of obstructions and interferences and to verify their ability to handle

the volume and flowrates for draining activities being conducted.

The issue is more than minor because it is associated with the Program and Process

attribute of the Public Radiation Safety cornerstone and adversely affected the

cornerstone objective to ensure Entergys ability to prevent inadvertent release and/or

loss of control of licensed material to an unrestricted area due to the actual

contamination of groundwater that occurred. In accordance with IMC 0609, Appendix D,

"Public Radiation Safety Significance Determination Process," the finding was

determined to be of very low safety significance (Green) because Entergy had an issue

involving radioactive material control but did not involve transportation or public

exposure in excess of 0.005 Rem.

In accordance with IMC 0310, Aspects within the Cross-Cutting Areas, dated

December 4, 2014, the finding had a cross-cutting aspect in the area of Problem

Identification and Resolution, Resolution, in that effective corrective actions to address

issues identified in two previous groundwater leaks since 2014 were not implemented in

a timely manner, which could have prevented this leak. [P.3]

Enforcement. 10 CFR 20.1406(c) requires, in part, that licensees shall, to the extent

practical, conduct operations to minimize the introduction of residual radioactivity into the

site, including the subsurface. Contrary to the above, on two occasions between

January 2016 and July 2016, Entergy failed to conduct operations to minimize the

introduction of residual radioactivity into the subsurface of the site. Specifically, Entergy

has not maintained its floor drain system clear of obstructions and interferences and has

not verified the ability of the floor drains to handle the volume and flowrates for draining

activities being conducted. As a result, repeated spills of contaminated water within the

RCA leaked into the site groundwater. Specifically, in January 2016, a spill caused by

floor drain obstructions resulted in the backup of contaminated water onto the floor and

subsequent leakage to the subsurface of the site. A subsequent June/July 2016

groundwater contamination event occurred due to an obstructed flow path through a

floor drain in the Unit 2 FSB, which spilled to the subfloor and contaminated the

subsurface of the site.

Entergys immediate corrective actions included decontamination of the adversely

affected plant areas, revision of the operating procedure for radiological waste sump 28,

and sealing the Unit 2 FSB subfloor to make it water tight to prevent further groundwater

contamination from this location. Entergys planned corrective action to address the

existing groundwater contamination is the start-up and operation of a recovery well

system (RW-1). The system will allow for the collection of contaminated groundwater to

be returned inside the PAB for processing.

This violation meets the criteria in Section 2.3.2.a of the NRC Enforcement Policy to

disposition as an NCV. However, the NRC considered that in April 2014 (NRC

Inspection Report 05000247/2015002) and again in February 2015 (NRC Inspection

Report 05000247/2015003), Entergy also had contaminated water spills inside the RCA

39

which leaked to groundwater due to blockages in the Unit 2 floor drain system.

Entergys corrective actions for these previous occurrences were limited to clearing the

specific floor drains involved in the flow paths for each event. The NRC concluded that

Entergys actions for these most recent events, while similarly responsive to the specific

occurrences, do not adequately address the broader concern regarding a lack of control

and management of the site floor drain system. Therefore, the NRC is issuing a NOV

and is requiring a response from Entergy that describes a more comprehensive CAP for

maintaining an effective floor drain system and a process for evaluating and using the

floor drains to handle the volume and flowrates for draining activities being conducted.

The NOV is enclosed (Enclosure 1). (VIO 05000247/2016003-07, Inadequate Control

of Floor Drains to Minimize Groundwater Contamination)

This URI is closed.

.2 (Closed) URI 05000247/2016002-01, CVCS Goal Monitoring Under the Maintenance

Rule

a. Inspection Scope

During the 2nd quarter of 2016, the inspectors identified issues of potential concern with

Entergys application of 10 CFR 50.65(a)(1), Requirements for Monitoring the

Effectiveness of Maintenance at Nuclear Plants, in regards to the reliability of the Unit 2

chemical and volume control system (CVCS). These concerns included the

establishment of appropriate (a)(1) goals and whether appropriate justification was

established that the corrective actions to address identified maintenance weaknesses

were effective prior to removal from (a)(1) status. A URI (05000247/2016002-01) was

identified because additional NRC review and evaluation was needed to determine

whether three identified issues of concern represented performance deficiencies and

whether they were more than minor. The inspectors further evaluated the issues and

reviewed against 10 CFR 50.65, Requirements for monitoring the effectiveness of

maintenance at nuclear power plants; NUMARC 93-01, Industry guideline for monitoring

the effectiveness of maintenance at nuclear power plants, Revision 4A; EN-DC-206,

Maintenance Rule (a)(1) Process, Revision 3; and NRC Enforcement Manual, Revision

9.

For two issues of concern identified in URI 05000247/2016002-01, the inspectors

determined that Entergys goals established for each of the issues were adequate to

provide reasonable assurance that system components would perform their intended

function on demand in accordance with the requirements of 10 CFR 50.65. For these

two issues, the inspectors determined that Entergy placed the CVCS system in

Maintenance Rule (a)(1) status and established goals to monitor performance. The

goals were adequate to provided reasonable assurance that system components would

perform their intended function. Therefore, no violation of 10 CFR 50.65(a)(1) occurred.

However, the inspectors identified weaknesses in the narrowness of the scope, the

applicable time periods, and the technical justification for the goals. The weaknesses

are as follows:

23 charging pump internal oil tube failure. Although 10 CFR 50.65 industry and site

guidance documents provide leeway in whether to establish system, train, or specific

component goals, the inspectors concluded that the goal on only the 23 charging

40

pump was narrowly focused and did not include similar conditions for the 21 and 22

charging pumps

22 charging pump check valve failure. Although 10 CFR 50.65 industry, and site

guidance documents provide latitude on the number of surveillances and

occurrences to monitor in accordance with your goal, the inspectors concluded that

the goal with only one fill and vent maintenance activity was narrowly focused and

additional activities were not included

The third issue of concern involved a failure of the Unit 2 valve FCV-110A, boric acid

flow control valve, to fully open on January 5, 2015. The valve was insufficiently

insulated and, as a result, boron crystallized above the valve plug and blocked

movement. The inspectors reviewed the (a)(1) action plan for FCV-110A, which

specified a monitoring interval of six months to include the winter because previous

valve failures had all occurred during the winter months. The inspectors noted that the

action plan did not specify a goal and that the actual monitoring interval documented in

the corrective action was from April to October 2015 and, therefore, did not include the

winter months when failure would most likely occur. The inspectors determined that this

was not in accordance with EN-DC-206, Maintenance Rule (a)(1) Process, Section

5.5[3], which states, in part, that monitoring intervals should be long enough to detect

recurrence of the applicable failure mechanism and 5.3[4](h) which states, in part,

Goals should be quantifiable with specific limits, and trendable if practicable. In

addition, the inspectors determined that represented a violation of 10 CFR 50.65(a)(1),

Requirements for monitoring the effectiveness of maintenance at nuclear power plants,

because the failure to monitor the condition during the winter months against licensee

established goals, was a failure to monitor the performance of FCV-110A in a manner

sufficient to provide a reasonable assurance that the valve was capable of performing its

intended functions. This issue was determined to be a minor violation because the

reliability of FCV-110A and the CVCS was not impacted. Although, Entergys failed to

adequately monitor the performance FCV-110A, no valve performance issues or failures

occurred during the winter months following repair of the insulation. Consistent with the

NRC Enforcement Policy, Section 2.2.2, minor violations generally do not warrant

enforcement action but are required to be entered into the stations CAP and actions

taken to restore compliance. Entergy entered this issue into their CAP as CR-IP2-2017-

00084 for resolution.

URI 05000247/2016002-01 is closed.

b. Findings

No findings were identified.

41

4OA6 Meetings, Including Exit

On October 26, 2016, the inspectors presented the inspection results to Mr. Anthony

Vitale, Site Vice President, and other members of Entergy. On January 6, 2017, a

telephone call was conducted between Mr. Eugene DiPaolo, Acting Branch Chief,

Reactor Projects Branch 2, and Mr. Robert Walpole, Nuclear Safety Assurance

Manager, to clarify details associated with the closure of URI 05000247/2016002-01.

The inspectors verified that no proprietary information was retained by the inspectors or

documented in this report.

ATTACHMENT: SUPPLEMENTARY INFORMATION

A-1

SUPPLEMENTARY INFORMATION

KEY POINTS OF CONTACT

Entergy Personnel

A. Vitale, Site Vice President

J. Kirkpatrick, Plant Operations General Manager

R. Alexander, Unit 2 Shift Manager

N. Azevedo, Engineering Supervisor

K. Baumbach, Chemistry Supervisor

S. Bianco, Operations Fire Marshal

C. Bohrens, Unit 2 Shift Manager

R. Burroni, Engineering Director

T. Chan, Engineering Supervisor

R. Daley, Engineering Supervisor

D. Dewey, Unit 3 Assistant Operations Manager

R. Dolansky, ISI Program Manager

R. Drake, Civil Design Engineering Supervisor

J. Ferrick, Regulatory Assurance and Performance Improvement Director

D. Gagnon, Security Manager

L. Glander, Emergency Preparedness Manager

F. Kich, Performance Improvement Manager

M. Lewis, Unit 2 Assistant Operations Manager

N. Lizzo, Training Manager

B. McCarthy, Operations Manager

F. Mitchell, Radiation Protection Manager

E. Mullek, Maintenance Manager

E. Portanova, System Engineer I (Nuclear)

M. Tesoriero, System Engineering Manager

M. Troy, Nuclear Oversight Manager

R. Walpole, Regulatory Assurance Manager

Attachment

A-2

LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED

Opened

05000247/2016003-07 VIO Inadequate Control of Floor Drains to Minimize

Groundwater Contamination (Section 4OA5)

Opened/Closed

05000286/2016003-01 NCV Failure to Adequately Assess Fire Risk

Associated with Maintenance on the Unit 3

Appendix R Diesel Generator (Section 1R13)05000247/2016003-02 NCV Missed Inspections on Automatic Voltage Regulator

Cards Results in Emergency Diesel Generator

Failure to Run (Section 1R15)05000286/2016003-03 NCV Untimely Corrective Actions to Address Degraded

Automatic Voltage Regulator Cards (Section 1R22)05000247/2016003-04 NCV Entry into a High Radiation Area without

Radiological Briefing (Section 2RS1)05000247/2016003-05 FIN Failure to Maintain Radiation Exposure ALARA

During Unit 2 Reactor Cavity Liner Repairs

(Section 2RS2)05000247/2016003-06 NCV Failure to Maintain Two Qualified AC Sources of

Offsite Power (Section 4OA3)

Closed

05000247/2016001-06 URI 23 EDG Automatic Voltage Regulator Failure

(Section 1R15)05000247/2016001-07 URI January 2016 Groundwater Contamination

(Section 4OA5)05000247/2016002-01 URI CVCS Goal Monitoring Under the Maintenance

Rule (Section 4OA5)

05000247/2016-005-00 LER TS Prohibited Condition Due to a SR Never

Performed for Testing the Trip of the MBFPs

(Section 4OA3)

05000247/2016-006-00 LER TS Prohibited Condition Due to Inoperable

138kV Offsite Circuits Caused by a Disconnected

SI Signal to the Station Auxiliary

Transformer LTC (Section 4OA3)

A-3

LIST OF DOCUMENTS REVIEWED

Common Documents Used

Indian Point Unit 2, UFSAR

Indian Point Unit 3, UFSAR

Indian Point Unit 2, Individual Plant Examination

Indian Point Unit 3, Individual Plant Examination

Indian Point Unit 2, Individual Plant Examination of External Events

Indian Point Unit 3, Individual Plant Examination of External Events

Indian Point Unit 2, TSs and Bases

Indian Point Unit 3, TSs and Bases

Indian Point Unit 2, Technical Requirements Manual

Indian Point Unit 3, Technical Requirements Manual

Control Room Narrative Logs

Plan of the Day

Section 1R01: Adverse Weather Protection

Procedures

OAP-008, Severe Weather Preparations, Revision 23

Condition Reports (CR-IP2-)

2016-04699

Section 1R04: Equipment Alignment

Procedures

2-COL-4.1.1, Component Cooling Water System, Revision 26

2-COL-21.3, Steam Generator Water Level and Auxiliary Boiler Feedwater, Revision 34

2-COL-31.2, Gas Turbine 2, Revision 7

2-COL-31.3, Gas Turbine 3, Revision 10

3-SOP-EL-013, ARDG Operation, Revision 30

COL-EL-6, ARDG, Revision 10

Drawings

9321-F-21213, Flow Diagram Appendix R 6.9kV EDG Fuel Oil System, Revision 6

9321-F-21203, Flow Diagram Appendix R 6.9kV EDG Lube Oil System, Revision 2

9321-F-21223, Flow Diagram Appendix R 6.9kV EDG Jacket Water System, Revision 3

Drawing 304122, GT-2/3 Fuel Forwarding System, Revision 7

Section 1R05: Fire Protection

Procedures

EN-TQ-125, Fire Brigade Drills, Revision 4

Condition Reports (CR-IP3-)

2016-03052

Miscellaneous

Transient Combustible Evaluation 16-017, Revision 1

A-4

Section 1R11: Licensed Operator Requalification Program

Procedures

2-POP-1.2, Reactor Startup, Revision 59

3-AOP-ROD-1, Rod Control and Indication System Malfunctions, Revision 3

3-E-0, Reactor Trip or SI, Revision 6

3-E-3, Steam Generator Tube Rupture, Revision 4

EN-OP-115, Conduct of Operations, Revision 17

Condition Reports (CR-IP3-)

2016-02892 2016-02899

Miscellaneous

Simulator Training Scenario I3SX-LOR-SES013, Letdown Line Rupture, Main Turbine

Generator Control Valve Shuts, Misaligned Rod, Steam Generator TR, Revision 4

Simulator Training Scenario LRQ-SES-ECA00A, Loss of 13.8/138kV (AOP-138kv-1) with

Subsequent Loss of Grid and Main Generator Trip (E-0) and Loss of All AC Power

(ECA-0.0, 0.1, 0.2), Following Turbine First Stage Press Instrument, PT412A,

(AOP-INST-1) Failure and Loss of MCC-28, Revision 9

Section 1R12: Maintenance Effectiveness

Procedures

EN-DC-153, Preventive Maintenance Component Classification, Revision 14

EN-DC-205, Maintenance Rule Monitoring, Revision 5

EN-LI-102, Corrective Action Program, Revision 27

EN-WM-100, Work Request Generation, Screening and Classification, Revision 13

Condition Reports (CR-IP3-)

2011-05686 2014-00544 2014-00700 2014-01678 2014-02338 2014-02579

2014-02661 2014-02696 2014-02753 2014-02762 2015-01751 2015-01961

2015-03009 2015-03456 2015-03522 2015-03779 2015-03838 2016-01352

2016-02339

Miscellaneous

Maintenance Rule Action Plan - Unit 3 Reactor Protection and Controls, 07/30/2015

Section 1R13: Maintenance Risk Assessments and Emergent Work Control

Procedures

EN-OP-119, Protected Equipment Postings, Revision 8

IP-SMM-WM-101, Fire Protection and Maintenance Rule (a)(4) Risk Assessment, Revision 5

Condition Reports (CR-IP3-)

2016-02267 2016-02538

Miscellaneous

Equipment Out-of-Service Risk Assessment Tool, Unit 3

A-5

Section 1R15: Operability Determinations and Functionality Assessments

Procedures

0-IC-SI-90-142, Digital Metal Impact Monitoring System (DMIMs) Baseline Recording Using

Calibrated Hammers, Revision 0

0-IC-SI-90-143, DMIMs Signal Conditioning Calibration, Revision 4

0-IC-SI-90-145, DMIMs Operational Test, Revision 3

2-SOP-1.9, DMIMS Operation, Revision 7

3-PT-V49, DMIM System Check, Revision 1

EN-OP-104, Operability Determination Process, Revision 11

RXC-B-023-A, Metal Impact Monitoring System Signal Conditioner Calibration (NSID-EIS-90-

143, Revision 4), Revision 0

RXC-B-024-A, Metal Impact Monitoring System Operational Test (NSID-EIS-90-145, Revision

4), Revision 0

Condition Reports (CR-IP2-)

2010-03316 2010-03773 2010-04545 2010-05677 2010-07126 2010-07468

2011-01205 2011-01266 2011-03693 2012-03453 2012-04766 2012-06131

2012-07266 2013-01009 2013-02540 2014-01718 2014-02261 2014-02550

2014-02653 2014-02738 2014-05812 2014-05813 2014-05816 2016-01260

2016-01500 2016-03360 2016-03525 2016-03800 2016-03856 2016-04764

2016-05220 2016-05418 2016-05442 2016-05444 2016-05528 2016-05757

Condition Reports (CR-IP3-)

2016-01370 2016-02551 2016-02910 2016-02961 2016-03018

Maintenance Orders/Work Orders

WO 130432 WO 130454 WO 130456 WO 130460 WO 130462 WO 446386

WO 446387 WO 446388

Miscellaneous

Report of Defect per 10 CFR 21, Basler Electric SBSR AVR Card Solder Joints, dated

September 21, 2007

Safety Evaluation by the Office of Nuclear Reactor Regulation Related to the Elimination of

Large Primary Loop Ruptures as a Design Basis, Power Authority of the State of New York,

Indian Point Nuclear Generating Unit No. 3, Docket No. 50-286, dated March 10, 1986

Supplement to Safety Evaluation by the Office of Nuclear Reactor Regulation Regarding

Leakage Detection Capability in Elimination of Large Primary Loop Ruptures as a Design

Basis, Indian Point Nuclear Generating Unit No. 3, Docket No. 50-286, dated January 30,

2002

Westinghouse Proprietary Letter (RIDA 16-152)

Section 1R18: Plant Modifications

Procedures

EN-DC-112, Engineering Change Request Process, Revision 8

EN-DC-115, Engineering Change Process, Revision 18

EN-DC-136, Temporary Modifications, Revision 12

EN-DC-136, Temporary Modifications, Revision 13

EN-LI-100, Process Applicability Determination, Revision 18

Condition Reports (CR-IP2-)

2016-05311

A-6

Condition Reports (CR-IP3-)

2016-02937

Maintenance Orders/Work Orders

WO 00454240-02 WO 00454240-03 WO 52713002

Miscellaneous

Engineering Change (EC) 66780, Temporary Modification to Install Jumpers in Order to

Maintain Bus 5A Interlocking

EC 65773, Replace ARDG Battery Charger

Relay Circuit While Relay 62-2/5A Is Replaced

MCENPC23, Battery Charger Users Manual, Revision 2.2

Temp Mod No. 66349, Temp Modification to Preserve Structural Integrity of Battery 23 Cell

Jar No. 4

TMCN 66790, Clarification for Connection of Temp Jumpers to Maintain Daisy chain

TMCN 66801, Alternate Connection Point for One of Temp Jumpers to Maintain Daisy chain

Section 1R19: Post-Maintenance Testing

Procedures

2-PT-Q030A, 21 Component Cooling Water Pump, Revision 19

3-GNR-028-ELC, ARDG 4-Year Inspection, Revision 8

3-GNR-036-ELC, ARDG Semi-Annual Inspection, Revision 8

3-PT-M66, Appendix R Diesel Battery Inspection, Revision 21

3-PT-Q139, ARDG Functional Test, Revision 1

Condition Reports (CR-IP2-)

2016-05742 2016-05777 2016-05795

Maintenance Orders/Work Orders

WO 00311837 WO 445129 WO 456276 WO 52509887

WO 52516076 WO 52680382 WO 52713002

Miscellaneous

EC 65773, Replace ARDG Battery Charger

Section 1R22: Surveillance Testing

Procedures

2-PT-Q034, 22 Auxiliary Feed Pump, Revision 30

3-PT-M079A, 31 EDG Functional Test, Revision 51

3-PT-Q062A, 31 Charging Pump Operability Test, Revision 17

3-PT-Q98C, Steam Line Pressure Functional Test - Channel III, Revision 8

Condition Reports (CR-IP3-)

2016-02881

A-7

Maintenance Orders/Work Orders

WO 00446386 WO 52699018 WO 52699700

Miscellaneous

3-PT-Q062A, 31 Charging Pump Operability Test, completed August 24, 2016

IP3-CALC-ESS-00276, Instrument Loop Accuracy/Setpoint Calculation - Steam Line Pressure

(Low) and Steam Line Delta P (High), Revision 2

MB-2007-01, Potential for Solder Joint Cracks on Basler SBSR AVR Cards and Technical

Manual Addendum TM-2007-01, dated November 5, 2007

Section 1EP6: Drill Evaluation

Condition Reports (CR-IP3-)

2016-02892 2016-02894 2016-02895 2016-02899

Miscellaneous

Drill Scenario

Section 2RS2: Occupational ALARA Planning and Controls

Condition Reports (CR-IP2-)

2016-02502 2016-02528 2016-02548

Miscellaneous

Indian Point 2 Refueling Outage 22 ALARA Report

ALARA Committee Meeting Minutes for: March 29, 2016, April 5, 2016, April 6, 2016, April 8,

2016, April 12, 2016, May 2, 2016, and June 14, 2016

Section 2RS4: Occupational Dose Assessment

Procedures

EN-RP-204, Special Monitoring Requirements, Revision 10

EN-RP-204-01, Effective Dose Equivalent Monitoring, Revision 0

EN-RP-205, Prenatal Monitoring, Revision 3

EN-RP-207, Planned Special Exposures, Revision 3

EN-RP-314, Passive Monitoring Sensitivity Tests, Revision 0

Miscellaneous

NVLAP Personnel Dosimetry Performance Testing for Landauer, Inc., 2016

Section 4OA1: Performance Indicator Verification

Procedures

EN-LI-114, Regulatory Performance Indicator Process, Revision 7

Section 4OA2: Problem Identification and Resolution

Procedures

EN-LI-102, CAP, Revision 27

CEP-NDE-0255, Radiographic Examination for ASME Welds and Components, ASME

Section XI, Revision 8

CEP-NDE-0404, (PDI UT-1) Manual Ultrasonic Testing of Ferritic Piping Welds (ASME XI),

Revision 5

A-8

Welding Procedure Specification,134 F42 MN-GTAW, Manual Gas Tungsten Arc Welding,

Revision 0

Condition Reports (CR-IP2)

2015-05755 2016-03818 2016-04085 2016-05358 2016-05503

Condition Reports (CR-IP3)

2015-05136 2016-01113

Maintenance Orders/Work Orders

WO 431643 WO 447966

Miscellaneous

Engineering Standard - Pipe Wall Thinning Structural Evaluation, Revision 0

Indian Point Energy Center NRC Generic Letter 89-13 SW Program, Revision 6

SW System Health Reports, IP Unit 2 and IP Unit 3, Second Quarter 2016

Section 4OA3: Follow-up of Events and Notices of Enforcement Discretion

Procedures

2-PT-V024-DS060, Valve BFD-2-21 IST Data Sheet, Revision 10

Condition Reports (CR-IP2-)

2015-05459 2016-02247

Drawings

9321-3140 Sheet 12, Boiler Feed Pump No. 22 Turbine Trip and Reset, Revision 34

IP2_SOD_013, Feedwater System, Revision 2

Miscellaneous

LER 05000247/2016-005-00, TS Prohibited Condition Due to a Surveillance Requirement Never

Performed for Testing the Trip of the MBFP

LER 05000247/2016-006-00, TS Prohibited Condition Due to Inoperable 138kV Offsite Circuits

Caused by a Disconnected SI Signal to the Station Auxiliary Transformer LTC

Section 4OA5: Other Activities

Condition Reports (CR-IP2-)

2016-00264 2016-00266 2016-00564 2016-04559 2016-05060

Miscellaneous

Root Cause Evaluation for CR-IP2-2016-00564

A-9

LIST OF ACRONYMS

10 CFR Title 10 of the Code of Federal Regulations

ABFP auxiliary boiler feedwater pump

AC alternating current

ALARA as low as is reasonably achievable

ARDG Appendix R diesel generator

AVR automatic voltage regulator

CAP corrective action program

CCW component cooling water

CR condition report

CVCS chemical and volume control system

DRE detailed risk evaluation

EDG emergency diesel generator

FSB Fuel Storage Building

HP health physics

HRA high radiation area

ICCDP incremental conditional core damage probability

IMC Inspection Manual Chapter

kV kilovolt

LCO limiting condition of operation

LER licensee event report

LOOP loss of offsite power

LTC load tap changer

MBFP main boiler feedwater pump

NCV non-cited violation

NOV notice of violation

NPO nuclear plant operator

NVLAP National Voluntary Laboratory Accreditation Program

NRC Nuclear Regulatory Commission, U.S.

OOS out of service

PAB primary auxiliary building

PFP pre-fire plan

PORV power operated relief valve

RCA radiologically controlled area

RG regulatory guide

RMA risk mitigating action

RO reverse osmosis

RWP radiation work permit

SAT station auxiliary transformer

SI safety injection

SPAR standardized plant analysis risk

SR surveillance requirement

SRA senior reactor analyst

SSC structure, system, and component

SW service water

TS technical specification

UAT unit auxiliary transformer

UFSAR updated final safety analysis report

URI unresolved item

WO work order