Text

Integrated Inspection Report 05000333/2017004 and Independent Spent Fuel Storage Installation Inspection Report 07200012/2017001
	ML18045A019
Person / Time
Site:	FitzPatrick
Issue date:	02/14/2018
From:	Anthony Dimitriadis; NRC/RGN-I/DRP/PB5
To:	Bryan Hanson; Exelon Generation Co, Exelon Nuclear
	Dimitriadis A
References
	IR 2017001, IR 2017004
	Download: ML18045A019 (34)
	v • d • e

UNITED STATES NUCLEAR REGULATORY COMMISSION ary 14, 2018

SUBJECT:

JAMES A. FITZPATRICK NUCLEAR POWER PLANT - INTEGRATED INSPECTION REPORT 05000333/2017004 AND INDEPENDENT SPENT FUEL STORAGE INSTALLATION INSPECTION REPORT 07200012/2017001

Dear Mr. Hanson:

On December 31, 2017, the U.S. Nuclear Regulatory Commission (NRC) completed an inspection at the James A. FitzPatrick Nuclear Power Plant (FitzPatrick). On January 23, 2018, the NRC inspectors discussed the results of this inspection with Mr. Joseph Pacher, Site Vice President, and other members of your staff. The results of this inspection are documented in the enclosed report.

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

These findings involved violations of NRC requirements. Additionally, the inspectors documented a licensee-identified violation which was determined to be of very low safety significance in this report. The NRC is treating these violations as non-cited violations (NCVs)

consistent with Section 2.3.2.a of the Enforcement Policy.

If you contest the violations or significance of the NCVs, you should provide a response within 30 days of the date of this inspection report, with the basis for your denial, to the U.S. Nuclear Regulatory Commission, ATTN: Document Control Desk, Washington, DC 20555-0001; with copies to the Regional Administrator, Region I; the Director, Office of Enforcement; and the NRC Resident Inspector at FitzPatrick. In addition, if you disagree with a cross-cutting aspect assignment or a finding not associated with a regulatory requirement 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 FitzPatrick. This letter, its enclosure, 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.

Sincerely,

/RA/

Anthony Dimitriadis, Chief Reactor Projects Branch 5 Division of Reactor Projects Docket No. 50-333 License No. DPR-59

Enclosure:

Inspection Report 05000333/2017004 w/Attachment: Supplementary Information

REGION I==

Docket No. 50-333 License No. DPR-59 Report No. 05000333/2017004 and 07200012/2017001 Licensee: Exelon Generation Company, LLC Facility: James A. FitzPatrick Nuclear Power Plant Location: Scriba, NY Dates: October 1, 2017, through December 31, 2017 Inspectors: K. Kolaczyk, Senior Resident Inspector B. Sienel, Resident Inspector E. Carfang, Senior Resident Inspector J. Lilliendahl, Senior Emergency Response Coordinator K. Mangan, Senior Reactor Inspector O. Masnyk Bailey, Health Physicist T. OHara, Reactor Inspector Approved By: Anthony Dimitriadis, Chief Reactor Projects Branch 5 Division of Reactor Projects Enclosure

SUMMARY

Inspection Report 05000333/2017004 and 07200012/2017001; 10/01/2017 - 12/31/2017;

James A. FitzPatrick Nuclear Power Plant (FitzPatrick); Maintenance Effectiveness, Follow-Up of Events and Notices of Enforcement Discretion.

This report covered a three-month period of inspection by resident inspectors and announced baseline inspections performed by regional inspectors. The inspectors documented two non-cited violations (NCVs) and one licensee-identified violation, all which were of very low safety significance (Green). 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 October 28, 2016. Cross-cutting aspects are determined using IMC 0310, Aspects Within Cross-Cutting Areas, dated December 4, 2014. All violations of NRC requirements are dispositioned in accordance with the NRCs Enforcement Policy, dated November 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) Part 50, Appendix B, Criterion III, Design Control, because Exelon did not verify the adequacy of the low pressure coolant injection (LPCI) motor operated valve (MOV) independent power supply (IPS) with respect to the 419 volt direct current (VDC) battery sizing calculation. Specifically, non-conservative design inputs were used for the safety-related battery sizing calculation which reduced the battery capacity margin. On November 22, 2017, Exelon performed an operability determination for the identified issue and determined that the batteries had sufficient capacity. This issue was entered into the corrective action program (CAP) as issue report (IR) 4079452.

The performance deficiency was determined to be more than minor because it was associated with the Design Control attribute of the Mitigating Systems cornerstone and adversely affected the cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences.

Specifically, based on the quantity and magnitude of the errors, there was reasonable doubt that the LPCI MOV batteries would have adequate capacity under all design conditions. 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 finding was of very low safety significance (Green) because it was a design deficiency confirmed not to result in a loss of operability. This finding does not have a cross-cutting aspect because the calculation was last revised in 2003 so the finding is not indicative of current performance. (Section 1R12)

Green.

A self-revealing NCV of very low safety significance (Green) of Technical Specification (TS) 5.4, Procedures, was identified for a procedural error which resulted in the inadvertent isolation of the high pressure coolant injection (HPCI) system. Specifically, on April 4, 2017, an instrumentation and controls (I&C) technician did not correctly perform procedure ISP-175B1, Reactor and Containment Cooling Instrument Functional Test/Calibration, which caused the HPCI system to isolate. Exelons immediate response to the event included stopping the surveillance test, and developing and implementing a plan to restore the HPCI system to an operable status. The HPCI system was subsequently restored to service approximately five hours after the inadvertent isolation. Additional corrective actions included increased observations of peer checks and validation of I&C activities. This issue was entered into the CAP as IR 03993791.

This performance defficiency is more than minor because it is associated with the Equipment Performance attribute of the Mitigating Systems cornerstone and affected the cornerstone objective to ensure the availability of systems that respond to initiating events to prevent undesirable consequences. Specifically, the failure to correctly implement procedure ISP-175B1 caused an isolation of the HPCI system and rendered it unavailable to respond to an initiating event. 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 this finding required a detailed risk evaluation since the HPCI isolation resulted in a loss of safety function. Using the Standardized Plant Assessment Risk Model (SPAR), the Region I senior reactor analyst (SRA) determined this finding was of low safety significance (Green). The inspectors determined that this finding had a cross-cutting aspect in the area of Human Performance, Avoid Complacency, because the I&C technician did not correctly implement error reduction tools and verify that the direct current voltage source was installed on the correct trip unit prior to performing the surveillance procedure. [H.12] (Section 4OA5)

Other Findings

A violation of very low safety significance that was identified by Exelon was reviewed by the inspectors. Corrective actions taken or planned by Exelon have been entered into Exelons CAP. This violation and corrective action tracking number are listed in Section 4OA7 of this report.

REPORT DETAILS

Summary of Plant Status

FitzPatrick began the inspection period at 100 percent power. On November 3, 2017, operators performed a planned power reduction to approximately 52 percent to perform power suppression testing for a reactor fuel leak and a subsequent control pattern adjustment. Power was restored to 100 percent on November 10, 2017. Operators performed a downpower to approximately 86 percent on December 19, 2017, to perform additional suppression testing and restored power to 100 percent the same day. The unit remained at or near 100 percent power for the remainder of the inspection period.

REACTOR SAFETY

Cornerstones: Initiating Events, Mitigating Systems, and Barrier Integrity

1R01 Adverse Weather Protection

Main article: IP 71111.01

Readiness for Seasonal Extreme Weather Conditions

a. Inspection Scope

The inspectors reviewed Exelons readiness for the onset of seasonal cold temperatures. The review focused on the standby gas treatment room and auxiliary boiler room. 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 Exelon personnel had adequately prepared for these challenges. The inspectors reviewed station procedures, including Exelons 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 cold weather conditions. Documents reviewed for each section of this inspection report are listed in the Attachment.

b. Findings

No findings were identified.

1R04 Equipment Alignment

Partial System Walkdown (71111.04 - 1 sample)

No findings were identified.

1R08 Inservice Inspection

Main article: IP 71111.08

(Closed) Unresolved Item (URI) 05000333/2017-001-01: Drywell Moisture Barrier Description in License Renewal Application

a. Inspection Scope

The inspectors reviewed URI 2017-001, Drywell Moisture Barrier Description in License Renewal Application, which was discussed in NRC Inspection Report 05000333/2017001 (ML17128A109). The URI documented a discrepancy identified by the NRC inspectors between the license renewal application and the actual plant configuration. Specifically, the NRC inspectors identified that the license renewal application stated that a moisture barrier was installed between the containment steel liner and the drywell concrete floor. However, inspectors walked down the area and determined a moisture barrier was not installed. The URI stated:

While evaluating drywell containment examination records, the inspectors reviewed FitzPatrick license renewal documents related to the drywell and identified an issue for which more information is needed to determine whether there is a performance deficiency. Specifically, the inspectors noted that NUREG-1905, Safety Evaluation Report Related to the License Renewal of James A. FitzPatrick Nuclear Power Plant, (ML081510826) referenced a drywell floor moisture barrier in Section 3.5.2.1.1. However, during a drywell walkdown, the inspectors noted that no moisture barrier existed on the drywell floor between the drywell liner and the concrete floor. The inspectors further noted that Section 3.5.2.2.1.4 of the initial license renewal application (ML062160494) submitted in July 2006, described a moisture barrier that was to be inspected as part of the IWE Program and Structures Monitoring Program, and that in Amendment 9 to the license renewal application (ML071060390), an audit question discussed the moisture barrier condition.

The inspectors reviewed Exelons evaluation and corrective actions to address the questions identified in the URI. Specifically, the inspectors reviewed condition reports (CRs) that documented the identification, evaluation, and corrective actions taken to address the discrepancy; interviewed engineers; reviewed correspondence between Exelon and the NRC that corrected the discrepancies (ML17192A449); and reviewed license renewal documents. The inspectors reviews were focused on assessing the questions raised in the URI.

b. Findings and Observations

No findings were identified.

The inspectors determined that Exelon staff performed an extent of condition review of license renewal documents submitted to the NRC to identify whether there were additional errors in the documents. The review identified several documents that described the moisture barrier, but did not identify any other discrepancies. Following identification and review of the issue, Exelon submitted a letter to the NRC dated July 17, 2017, correcting the errors and indicating a moisture barrier did not exist (ML17192A449). The inspectors reviewed the actions taken by Exelon staff to identify and correct any other potential errors in the submitted documents. The inspectors also independently reviewed license renewal documents and found no additional errors.

Finally, the inspectors reviewed the drawings, licensee inspection reports, and the UFSAR, and concluded that a moisture barrier had never been installed at the drywell floor and was not required for the design of the plant.

The inspectors determined a violation of 10 CFR 54.13, Completeness and Accuracy of Information, had occurred. Title 10 CFR 54.13 states, in part, that information provided to the Commission by an applicant for a renewed license must be complete and accurate in all material respects. The inspectors concluded that information submitted by Exelon in license renewal documents was not accurate because it described a moisture barrier between the containment steel liner and the drywell concrete floor and their actions to manage the effects of aging on the barrier, but a barrier was not installed per the plant design. However, following the inspectors review of the revised information, the inspectors determined that no additional regulatory actions were required because the moisture barrier was not a component required for the design of the plant nor was it a regulatory requirement. Specifically, the incorrect information did not result in a specific NRC-imposed condition or action (or lack thereof), and this did not change upon submittal of the correct information. Although this issue was required to be corrected, it constitutes a violation of minor significance that is not subject to enforcement action in accordance with Section 2 of the NRC Enforcement Policy, because it had insignificant safety or regulatory impact. This URI is closed.

1R11 Licensed Operator Requalification Program and Licensed Operator Performance

Main article: IP 71111.11Q

.1 Quarterly Review of Licensed Operator Requalification Testing and Training

a. Inspection Scope

The inspectors observed a licensed operator requalification challenge scenario on November 13, 2017. The scenario involved a number of hypothetical component failures including a trip of the A control rod drive pump, the loss of both recirculating water pumps, and a failure of all control rods to fully insert upon initiation of a manual scram signal by control room operators. 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 control room supervisor. 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.

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

a. Inspection Scope

The inspectors observed control room operators during a reactor downpower to 60 percent on November 3, 2017, in preparation for power suppression testing. The inspectors observed crew briefings, reactivity manipulations using control rods and recirculating water flow, and main turbine valve testing. Additionally, the inspectors observed crew 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.

1R12 Maintenance Effectiveness

Main article: IP 71111.12Q

a. Inspection Scope

The inspectors reviewed the samples listed below to assess the effectiveness of maintenance activities on structure, system, and/or component (SSC) performance and reliability. The inspectors reviewed CAP documents, work orders (WOs), and maintenance rule basis documents to ensure that Exelon was identifying and properly evaluating performance problems within the scope of the maintenance rule. For each 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 Exelon 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 Exelon was identifying and addressing common cause failures that occurred within and across maintenance rule system boundaries.

LPCI MOV IPS 419 VDC batteries on October 27, 2017 Reactor water recirculation pressure boundary leakage on October 30, 2017 Diesel generator ventilation system tornado structural integrity evaluation on November 30, 2017

b. Findings

Introduction.

The inspectors identified a Green NCV of 10 CFR Part 50, Appendix B, Criterion III, Design Control, because Exelon did not verify the adequacy of the LPCI MOV IPS with respect to the 419 VDC battery sizing calculation. Specifically, non-conservative design inputs were used for the safety-related battery sizing calculation which reduced the battery capacity margin.

Description.

The inspectors reviewed JAF-CALC-ELEC-01857, 419 VDC LPCI Power System 3A and 3B Sizing, which established the adequacy of the LPCI 419 VDC batteries to supply power to the LPCI MOVs. The battery sizing calculation concluded that the batteries had a 21.6 percent design margin. The inspectors identified that the sizing calculation contained two non-conservative design inputs which resulted in a significant reduction in the battery capacity margin. The non-conservative inputs were:

(1) using an incorrect battery capacity curve from the manufacturer, and

(2) neglecting to account for the inter-tier voltage drop in the battery. The sizing calculation was dated November 2, 1994, with a minor revision done on February 25, 2003.

The battery vendor updated the battery capacity curves in July 1995. Although Exelon updated the battery curves in the battery vendor manual, they neglected to update the sizing calculation. The new vendor curves reduce the sizing margin by approximately 22 percent.

The minor revision to the sizing calculation in 2003 accounted for the voltage drop from the batteries to the IPSs, which convert the direct current (DC) power to alternating current power for the MOVs. The minor revision determined that the voltage drop from the batteries to the IPSs was 1.5V. Neither the original sizing calculation nor the minor revision accounted for the inter-tier voltage drop. The inter-tier voltage drop is caused from the battery current flowing through cables that connect groups (or tiers) of battery cells. According to JAF-CALC-ELEC-01860, LPCI Battery Performance Test End Volt Cutoff, the total inter-tier resistance for battery 3A is 3179 micro-Ohms and for battery 3B is 5182 micro-Ohms. These resistances correspond to voltage drops of 2.9V for battery 3A and 4.8V for battery 3B for total voltage drops of 4.4V and 6.3V. The original calculation was sized with 3V of margin, so the voltage drop non-conservatism results in a subsequent worst-case sizing margin decrease of approximately 4 percent.

The result of these errors was that there was reasonable doubt that the battery capacity would have been adequate under all design conditions. Since the battery sizing calculation was the basis for the acceptance criteria of the battery service and performance tests, there would not have been indications of inadequate capacity during testing. Preliminary evaluations performed by Exelon during the inspection revealed that, although the errors resulted in the battery sizing margin being negative, there was adequate capacity based on recent capacity testing and the batteries ages. Exelon entered this issue into its CAP as IR 4079452. The inspectors reviewed Exelons basis for operability and independently evaluated battery operability. The inspectors similarly concluded that the issues identified did not render any of the batteries inoperable, based on the magnitude of the errors and currently available aging margin.

Analysis.

The inspectors determined that Exelons failure to ensure that adequate design control measures existed to verify the adequacy of the design capacity for the LPCI MOV IPS batteries was a performance deficiency that was reasonably within Exelons ability to foresee and correct and should have been prevented. The performance deficiency was determined to be more than minor because it was associated with the Design Control attribute of the Mitigating Systems cornerstone and adversely affected the cornerstone objective of ensuring the availability, reliability, and capability of systems that respond to initiating events to prevent undesirable consequences. Specifically, based on the quantity and magnitude of the errors, there was reasonable doubt that the LPCI MOV batteries would have adequate capacity under all design conditions. 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 finding was of very low safety significance (Green) because it was a design deficiency confirmed not to result in a loss of operability. This finding does not have a cross-cutting aspect because the calculation was last revised in 2003 so the finding is not indicative of current performance.

Enforcement.

10 CFR Part 50, Appendix B, Criterion III, Design Control, states, in part, that design control measures shall provide for verifying or checking the adequacy of design. Contrary to the above, as of November 30, 2017, Exelons design control measures had not verified the adequacy of the design regarding the LPCI MOV battery sizing calculation. Specifically, non-conservative design inputs were used for the safety-related LPCI MOV battery sizing calculation. Upon identification, Exelon verified that the batteries were operable while they de-rate the battery life or find other available margin.

Because this violation was of very low safety significance (Green) and has been entered into Exelons CAP (IR 4079452), this violation is being treated as an NCV, consistent with Section 2.3.2.a of the NRC Enforcement Policy.

(NCV 05000333/2017004-01, Inadequate Design Control for Battery Sizing Calculation)

1R13 Maintenance Risk Assessments and Emergent Work Control

Main article: IP 71111.13

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 Exelon 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 Exelon personnel performed risk assessments as required by 10 CFR 50.65(a)(4) and that the assessments were accurate and complete. When Exelon 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 as needed to verify plant conditions were consistent with the risk assessment. The inspectors also reviewed TS requirements and inspected portions of redundant safety systems, when applicable, to verify risk analysis assumptions were valid and applicable requirements were met.

Planned C EDG maintenance during the week of October 9, 2017 Planned A ESW maintenance, independent spent fuel storage installation (ISFSI)campaign heavy lifts, and heavy rains and area flood warnings the week of October 30, 2017 Planned HPCI preventive maintenance on December 12, 2017

b. Findings

No findings were identified.

1R15 Operability Determinations and Functionality Assessments

Main article: IP 71111.15

a. Inspection Scope

The inspectors reviewed operability determinations for the following degraded or non-conforming conditions based on the risk significance of the associated components and systems:

No findings were identified.

Cornerstone: Emergency Preparedness

1EP4 Emergency Action Level and Emergency Plan Changes

Main article: IP 71114.04

a. Inspection Scope

Exelon implemented various changes to the FitzPatrick emergency action levels (EALs),emergency plan, and implementing procedures. Exelon had determined that, in accordance with 10 CFR 50.54(q)(3), any change made to the EALs, emergency plan, and its lower-tier implementing procedures, had not resulted in any reduction in effectiveness of the plan, and that the revised plan continued to meet the standards in 50.47(b) and the requirements of 10 CFR Part 50, Appendix E.

The inspectors performed an in-office review of all EAL and emergency plan changes submitted by Exelon as required by 10 CFR 50.54(q)(5), including the changes to lower-tier emergency plan implementing procedures, to evaluate for any potential reductions in effectiveness of the emergency plan. This review by the inspectors was not documented in an NRC safety evaluation report and does not constitute formal NRC approval of the changes. Therefore, these changes remain subject to future NRC inspection in their entirety. The requirements in 10 CFR 50.54(q) were used as reference criteria.

b. Findings

No findings were identified.

OTHER ACTIVITIES

4OA1 Performance Indicator Verification

Main article: IP 71151

Mitigating Systems Performance Index

a. Inspection Scope

The inspectors reviewed FitzPatricks submittal of the mitigating systems performance index for the following systems for the period of October 1, 2016, through September 30, 2017:

Emergency Alternating Current Power System High Pressure Injection System Heat Removal System Residual Heat Removal System Cooling Water Systems To determine the accuracy of the performance indicator data reported during this period, the inspectors used definitions and guidance contained in Nuclear Energy Institute Document 99-02, Regulatory Assessment Performance Indicator Guideline, Revision 7, and discussed specific questions with the responsible system engineer. The inspectors also reviewed FitzPatrick operator narrative logs, CRs, IRs, NRC integrated inspection reports, and the FitzPatrick mitigating systems performance index basis document to validate the accuracy of the submittals.

b. Findings

No findings were identified.

4OA2 Problem Identification and Resolution

Main article: IP 71152

.1 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 Exelon 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 IR screening meetings. The inspectors also confirmed, on a sampling basis, that, as applicable, for identified defects and non-conformances, Exelon performed an evaluation in accordance with 10 CFR Part 21.

b. Findings

No findings were identified.

.2 Semi-Annual Trend Review

a. Inspection Scope

The inspectors performed a semi-annual review of site issues to identify trends that might indicate the existence of more significant safety concerns. As part of this review, the inspectors included repetitive or closely-related issues documented by Exelon in trend reports, site performance indicators, major equipment problem lists, system health reports, maintenance rule assessments, and maintenance or CAP backlogs. The inspectors also reviewed Exelons CAP database for the period of July 2017 to October 2017 to assess IRs written in various subject areas (equipment problems, human performance issues, etc.), as well as individual issues identified during the NRCs daily CR review (Section 4OA2.1). The inspectors reviewed Exelons trending information to verify that Exelon personnel were appropriately evaluating and trending adverse conditions in accordance with applicable procedures.

b. Findings and Observations

No findings were identified.

The inspectors evaluated a sample of issues and events that occurred over the course of the third and fourth quarters of 2017 to determine whether issues were appropriately considered as emerging or adverse trends. The inspectors verified that these issues were addressed within the scope of the CAP or through department review. Adverse trends and corrective action plans to reverse the trends were documented in the site performance improvement integrated matrix. The inspectors did not identify any trends that the FitzPatrick station had not captured in the performance improvement integrated matrix.

.3 Annual Sample: Abnormal Trends for A Main Steam Line Flow

a. Inspection Scope

The inspectors performed an in-depth review of Exelons evaluation and corrective actions to address abnormal trends for the A main steam line flow instrument. The inspectors reviewed CRs that documented the identification, evaluation, and corrective actions taken to address the issues. In addition to reviewing of these documents, the inspectors interviewed the responsible system engineer to determine whether the scope of the corrective actions addressed all identified deficiencies. Specifically, the inspectors reviewed actions completed by Exelon staff to diagnose and replace steam line flow instrument components.

The inspectors assessed Exelons evaluation, extent of condition review, and corrective actions, and the prioritization and timeliness of actions to evaluate whether the actions taken by Exelon were appropriate. The inspectors evaluated whether the corrective actions, which included replacing the A main steam line flow instrument transmitter and proportional amplifier, addressed the identified issues. The inspectors also evaluated whether the main steam line flow instruments were being tested in accordance with approved procedures. The inspectors reviewed the assessments of the failures, including operability determinations and equipment failure evaluations, to determine if Exelon was using the available processes at the correct thresholds.

b. Findings and Observations

No findings were identified.

The inspectors determined that Exelons evaluations and extent of condition reviews were thorough and the causes were appropriately identified. The inspectors also determined that the corrective actions were reasonable and addressed the deficiencies and corrected the identified issues.

The inspectors reviewed the instrument trend data which the control room operators had used to identify the A main steam line flow instrument trending low in February 2015.

The inspectors reviewed the adequacy of the calculation that Exelon performed which demonstrated that the worst-case instrument drift could not impact any safety systems or cause a plant trip. The inspectors also reviewed the operational decision making index, which established monitoring criteria for the instrument until it could be repaired. The inspectors reviewed the troubleshooting and calibration of the instrument components which identified the instrument transmitter was faulty. The replacement of the transmitter corrected the issue.

However, in November 2016, the control room operators identified the A main steam line instrument beginning to drift high. Again, operability was verified, and Exelon implemented a monitoring program until the next outage to fully troubleshoot and repair the instrument. In February 2017, Exelon performed calibration checks of all loops and determined that the proportional amplifier for the A main steam line was faulty. The faulty proportional amplifier was replaced and the system has since operated properly.

The inspectors reviewed the troubleshooting documentation and the electrical system diagram to verify the repair was adequate and the extent of condition review was appropriate. The inspectors also confirmed that the November 2016 instrument error was unrelated to the February 2015 instrument error. Specifically, the indications were different, the failed component was different, and the intervening maintenance was unlikely to have caused the subsequent failure.

.4 Annual Sample: Unplanned Elevated Risk Associated With Isolation of Normal and

Emergency Service Water to Unit Coolers

a. Inspection Scope

The inspectors performed an in-depth review of Exelons apparent cause evaluation and corrective actions associated with CR-2016-0838 for the removal of both emergency and normal service water to the crescent area unit coolers during an A ESW system flush.

This condition resulted in an unevaluated elevated risk condition from February 29, 2016, to March 1, 2016.

The inspectors assessed Exelons problem identification threshold, cause analyses, extent of condition reviews, and the prioritization and timeliness of Exelons corrective actions to determine whether Exelon was appropriately identifying, characterizing, and correcting problems associated with this issue and whether the planned or completed corrective actions were appropriate. The inspectors compared the actions taken to the requirements of FitzPatricks CAP and 10 CFR Part 50, Appendix B. In addition, the inspectors performed field walkdowns and interviewed work control staff to assess the effectiveness of the implemented corrective actions.

b. Findings and Observations

One licensee-identified violation was identified and is discussed in Section 4OA7 of this report.

Exelon identified two probable causes for the unplanned elevated (Orange) risk entry on February 29, 2016, and March 1, 2016. The first causal factor was the risk management program (EOOS) did not fully incorporate necessary equipment into the risk model.

EOOS is used by operators and work planning staff to ensure the risk of specific plant configurations is understood and appropriately compensated for when necessary. The second causal factor was related to the lack of training for key risk planning staff (senior reactor operators and work week managers) on the impact of removing normal service water.

The inspectors validated that discrepancies between equipment modeled in the probabilistic risk assessment and equipment not included in the EOOS risk program were rectified. The inspectors sampled updates for the 125 VDC, instrument air, control rod drive, and service water systems to verify updates were made, and the appropriate impact statement included in the EOOS program. The inspectors interviewed the manager responsible for training individuals on EOOS and reviewed work planning packages to verify procedural changes. Time-critical operator action documentation was also reviewed, which ultimately led to a final risk determination of a risk value of 3.88E-5 per reactor year versus the original threshold of 5.45E-5 per reactor year. The value of 3.88E-5 per reactor year is within the original range of risk (Yellow) identified by the licensee on March 1, 2016.

As part of Exelons extent of condition, two additional occurrences of the ESW chemical flush were identified in April 2015 and March 28, 2011. During these ESW chemical flushes, risk was identified as 3.56E-6 per reactor year, with a duration of 91 hours0.00105 days 0.0253 hours 1.50463e-4 weeks 3.46255e-5 months . This licensee-identified violation is documented in Section 4OA7.

In conclusion, inspectors determined that Exelon took appropriate corrective actions to address the EOOS program deficiencies and training gaps.

.5 Annual Sample: Evaluation of Corrective Actions to Repair Electric Bay Unit Cooler

Leaks and Technical Requirements Manual Usage

a. Inspection Scope

The inspectors performed an in-depth review of Exelons evaluations and corrective actions related to electric bay unit cooler leaks in 2016 and 2017, and Exelon staff implementation of the FitzPatrick Technical Requirements Manual sections applicable to the performance of these coolers. Additionally, the inspectors reviewed an apparent cause evaluation under CR-JAF-2016-05133 related to periodic service water leaks from cooler tubes and changes made by Exelon staff to their internal guidance related to the Technical Requirements Manual under CR-JAF-2016-5224.

The inspectors performed a walkdown of the electric bay and cable tunnel unit coolers to observe the operation and physical condition of the equipment, and interviewed engineering personnel to gain an understanding of the planned and implemented corrective actions related to the CRs listed. The inspectors further reviewed associated documentation including functionality reviews for cooler performance in the presence of leaks. The inspectors compared the actions taken to the requirements of Exelons CAP and 10 CFR Part 50, Appendix B.

b. Findings and Observations

No findings were identified.

The FitzPatrick plant design includes two electric bay coolers which remove heat from the electrical bay areas via forced air cooling units with either normal or ESW flow through the cooling coils. The inspectors determined that Exelon identified a leak from the east electric bay cooler (67UC-16B) in December 2016. Exelon staff opened and examined the unit cooler and identified two leaking tubes and noted evidence of tube material erosion on several inlet tube ends. As a result, Exelon staff installed mechanical plugs to remove the two leaking tubes from service and installed additional plugs in other tubes identified as degraded. Prior to returning the cooler to service on December 23, 2017, Exelon staff evaluated the thermal and structural capability of the cooler with the 29 additional tubes plugged under CR-JAF-2016-05140.

Subsequently, Exelon evaluated the problem via an equipment-apparent cause evaluation which was completed under CR-JAF-2016-05133. The inspectors reviewed the operational history of the electric bay unit coolers from approximately 2016 to the end of the inspection period, discussed it with the cognizant system engineer, and reviewed the equipment-apparent cause evaluation. The inspectors determined tube erosion-corrosion was identified by Exelon staff as the direct cause of the cooler leaks.

Exelon appropriately identified the apparent cause of this problem to be from increased service water flows resulting from several historical system modifications that made this wear more likely. Exelon also identified a contributing cause that involved an inadequate preventive maintenance frequency that did not sufficiently trend the tube conditions.

The inspectors determined that Exelon staff appropriately addressed the extent of the problem by including in their evaluation both electric bay coolers and the cable tunnel coolers, which are of similar design and operation. The inspectors determined design margin was restored to the east electric bay cooler (67UC-16B) via replacement in March 2017. Subsequently, the inspectors determined the west electric bay cooler (67UC-16A) was replaced in December 2017 (under WO 80464492). Exelon staff tracked further actions to examine the cable tunnel coolers with plans to repair or replace based on the results. Finally, the inspectors determined that Exelon completed actions to measure cooler tube service water flowrates as a prerequisite to determining if modifications should be pursued to minimize the potential for tube material loss due to erosion-corrosion. At the time of the inspection, Exelon staff were considering several options and were tracking these activities in their corrective action process. The inspectors concluded Exelons evaluation was of sufficient technical detail to identify the apparent causes of the electric bay cooler leaks in December 2016 and to develop interim and longer-term corrective actions that addressed the causes commensurate with their safety significance.

The inspectors further determined that under CR-JAF-2016-05224, Exelon staff documented retraction of an internal historical memo that identified TS 3.0.3 should be entered if one electric bay cooler could not be returned to service after 7 days. Exelon staff determined the memo was predicated on an assumption that an operability determination could not be completed. This memo guidance was determined by Exelon staff to be overly conservative because the Technical Requirements Manual statements and operability determination process provided sufficient guidance for this potential condition. The inspectors did not identify any issue of concern with this corrective action.

4OA3 Follow-Up of Events and Notices of Enforcement Discretion

Main article: IP 71153

(Closed) Licensee Event Report (LER) 05000333/2017-003-00: Inadvertent Isolation of the High Pressure Coolant Injection System The inspectors reviewed Exelons actions associated with LER 05000333/2017-003-00 which reported an inadvertent isolation of the HPCI system that occurred on April 4, 2017, during a planned surveillance test of instrumentation associated with the low pressure emergency core cooling systems. The inspectors identified one NCV while reviewing this LER. This LER is closed.

Introduction.

A self-revealing NCV of very low safety significance (Green) of TS 5.4, Procedures, was identified for a procedural error which resulted in the inadvertent isolation of the HPCI system. Specifically, procedure ISP-175B1, Reactor and Containment Cooling Instrument Functional Test/Calibration, was not correctly performed, which caused the HPCI system to isolate.

Description.

On April 4, 2017, an I&C technician inadvertently isolated the HPCI system while performing surveillance procedure ISP-175B1, which tests various instrumentation associated with the low pressure emergency core cooling systems. Step 9.4.5 of ISP-175B1 required installation of a DC voltage source on 02-3MTU-252B, Reactor Pressure Interlock Containment Spray Pump/Residual Heat Removal/Residual Heat Removal Shutdown Cooling Master Trip Unit. However, an I&C technician mistakenly connected the DC voltage source to the adjacent trip unit 23MTU-217B, HPCI Area Temp High Master Trip Unit, which caused the HPCI system to isolate. The error was immediately identified by control room operators with the unexpected receipt of control room annunciators. Exelons immediate response to the event included stopping the surveillance test, and developing and implementing a plan to restore the HPCI system to an operable status. The HPCI system was subsequently restored to service approximately five hours after the inadvertent isolation. Exelon entered this issue into the CAP as IR 03993791.

Exelons review of this incident determined that the I&C technician involved did not correctly implement error reduction tools and verify that the DC voltage source was installed on the correct trip unit prior to performing the surveillance procedure step. The inspectors reviewed the corrective actions that were documented in IR 03993791 and determined that Exelons conclusions and follow-up corrective actions were appropriate.

Analysis.

The inspectors determined that the failure to correctly implement procedure ISP-175B1 and install the DC voltage source on the correct master trip unit as specified in Step 9.4.5 was a performance deficiency within Exelons ability to foresee and correct and should have been prevented. This performance deficiency was more than minor because it was associated with the Equipment Performance attribute of the Mitigating Systems cornerstone and affected the cornerstone objective to ensure the availability of system that respond to initiating events to prevent undesirable consequences.

Specifically, the failure to correctively implement procedure ISP-175B1 caused an isolation of the HPCI system and rendered it unavailable to respond to an initiating event.

In accordance with IMC 0609.04, Initial Characterization of Findings, and Exhibit 2 of IMC 0609, Appendix A, The SDP for Findings At-Power, issued June 19, 2012, the inspectors determined that this finding required a detailed risk assessment by a regional SRA since the HPCI isolation resulted in a loss of safety function. The SRA assumed that the HPCI system was inoperable for 5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months and that no other risk significant equipment was unavailable. Using SAPHIRE 8 Version 8.1.6 and the FitzPatrick SPAR, model version 8.50 dated February 28, 2017, the SRA ran the above scenario and determined the increase in risk of an event leading to core damage (core damage frequency) to be 1.2E-8 events per year. The dominant risk sequence was a transient with a loss of condenser heat sink and a failure to depressurize. This corresponds to very low risk significance (Green).

The inspectors determined this finding had a cross-cutting aspect in the area of Human Performance, Avoid Complacency, because the I&C technician did not correctly implement error reduction tools and verify that the DC voltage source was installed on the correct trip unit prior to performing the surveillance procedure step [H.12].

Enforcement.

TS 5.4, Procedures, requires, in part, that written procedures be maintained as recommended in NRC Regulatory Guide 1.33, Quality Assurance Program Requirements, Revision 2, Appendix A, November 1972. Regulatory Guide 1.33, Appendix A, Section H includes the requirement for implementing surveillance procedures for emergency core cooling system tests. Contrary to the above, on April 4, 2017, procedure ISP-175B1, Reactor and Containment Cooling Instrument Functional Test/Calibration, was not adequately implemented, resulting in an isolation of HPCI. Corrective actions included restoring HPCI to an operable status, increased observations of peer checks, and validation of I&C activities. Because this finding was of very low safety significance (Green) and has been entered into the CAP as IR 03993791, this violation is being treated as an NCV consistent with Section 2.3.2.a of the NRC Enforcement Policy. (NCV 05000333/2017004-02, Human Error Resulting in Unplanned HPCI Isolation)

4OA5 Other Activities

Operation of an ISFSI at Operating Plants (60855, 60855.1 - 1 sample)

a. Inspection Scope

On October 2-6, 2017, the inspectors observed and evaluated Exelons loading of multi-purpose canister (MPC)-410, the first of five canisters scheduled to be loaded during Exelons ISFSI dry cask campaign. The inspectors also reviewed Exelons activities related to long-term operation and monitoring of their ISFSI. The inspectors verified compliance with the certificate of compliance, TSs, regulations, and Exelon procedures.

The inspectors observed cask processing operations to include welding of the lid to the MPC, non-destructive examination of welds, hydrostatic testing, vacuum drying of the MPC, and helium backfill. During performance of these activities, the inspectors evaluated whether procedure use, communication, and coordination of ISFSI activities met established standards and requirements. The inspectors attended Exelon briefings to assess their ability to identify critical steps of the evolution, potential failure scenarios, and human performance tools to prevent errors. The inspectors reviewed loading and monitoring procedures and evaluated Exelons adherence to these procedures.

The inspectors reviewed Exelons program associated with fuel characterization and selection for storage. The inspectors reviewed cask fuel selection packages to determine whether Exelon was loading fuel in accordance with the certificate of compliance and TS. The inspectors confirmed that Exelon did not plan to load any damaged fuel assemblies during this campaign. The inspectors reviewed recordings made of the fuel assemblies loaded into MPC-810 to ensure the loading was in accordance with FitzPatricks loading plan.

The inspectors reviewed radiation protection procedures and radiation work permits associated with the ISFSI loading campaign. The inspectors observed radiation protection technicians as they provided job coverage for the cask loading workers. The inspectors also reviewed the as low as reasonably achievable (ALARA) goal for the cask loading to determine the adequacy of Exelons radiological controls, to ensure that radiation worker doses were ALARA, and that project dose goals could be achieved.

The inspectors reviewed survey data maps and radiological records from the dry storage cask storage loading to confirm that radiation survey levels measured were within limits specified by the TS and consistent with values specified in the final safety analysis report.

The inspectors performed tours of the heavy haul path and ISFSI pad to assess the material condition of the path, pad, and the loaded Holtec International Storage Modules (HI-STORMs). The inspectors also verified that transient combustibles were not being stored on the haul path, ISFSI pad, or in the vicinity of the HI-STORMs. The inspectors checked the operations rover patrol daily logs and verified Exelon was appropriately performing daily HI-STORM vent surveillances in accordance with TS requirements.

The annual environmental reports were reviewed to verify that areas around the ISFSI site boundary were within limits specified in 10 CFR Part 20 and 10 CFR 72.104. The inspectors reviewed selected 10 CFR 72.48 screenings to verify that Exelon had appropriately considered the conditions under which they may make changes without prior NRC approval. The inspectors also reviewed CAP CRs, audit reports, and self-assessments that were generated since Exelons last loading campaign to ensure that issues were being properly identified, prioritized, and evaluated commensurate with their safety significance.

b. Findings

No findings were identified.

4OA6 Meetings, Including Exit

On January 23, 2018, the inspectors presented the inspection results to Mr. Joseph Pacher, Site Vice President, and other members of the Exelon staff. The inspectors verified that no proprietary information was retained by the inspectors or documented in this report.

4OA7 Licensee-Identified Violations

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

10 CFR 50.65(a)(4) states, in part, that before performing maintenance activities (including but not limited to surveillance, post-maintenance testing, and corrective and preventive maintenance), the licensee shall assess and manage the increase in risk that may result from the proposed maintenance activities. The scope of the assessment may be limited to structures, systems, and components that a risk-informed evaluation process has shown to be significant to public health and safety.

Contrary to the above, on March 28, 2011, and April 16, 2015, before performing maintenance activities on the electric bay unit coolers, as discussed in Section 4OA2.4, Exelon did not assess and manage the increase in risk that resulted from the maintenance activities. This issue was documented in Condition Report [[::JAF-2016-0838|JAF-2016-0838]]. In accordance with IMC 0609.04, Initial Characterization of Findings, and IMC 0609 Appendix K, Flowchart 2, Assessment of RMAs. The inspectors determined that the violation was of very low safety significance (Green) because the incremental core damage probability was less than 1E-5, with three risk management actions taken during the maintenance activities.

ATTACHMENT:

SUPPLEMENTARY INFORMATION

KEY POINTS OF CONTACT

Licensee Personnel

J. Pacher, Site Vice President

T. Peter, Plant Manager

C. Adner, Director, Site Operations

H. Borick, Senior Operations Instructor

W. Drews, Manager, Site Regulatory Assurance

J. Jones, Manager, Emergency Preparedness

A. King, Radiation Protection Supervisor

D. Loope, Radiation Protection Manager

T. Redfearn, Manager, Security

B. Sanders, Chemistry Supervisor

A. Smith, Director, Training

A. Sterio, Director, Site Engineering

LIST OF ITEMS OPENED, CLOSED, DISCUSSED, AND UPDATED

Closed

05000333/2017-001-01 URI Drywell Moisture Barrier Description in License Renewal Application (Section 1R08)

05000333/2017-003-00 LER Inadvertent Isolation of the High Pressure Coolant Injection System (Section 4OA3)

Opened/Closed

05000333/2017004-01 NCV Inadequate Design Control for Battery Sizing Calculation (Section 1R12)

05000333/2017004-02 NCV Human Error Resulting in Unplanned HPCI Isolation (Section 4OA3)

LIST OF DOCUMENTS REVIEWED

IR 05000333/2017004

Text

SUBJECT:

Dear Mr. Hanson:

Enclosure:

SUMMARY

Cornerstone: Mitigating Systems

Other Findings

REPORT DETAILS

Summary of Plant Status

REACTOR SAFETY

1R01 Adverse Weather Protection

a. Inspection Scope

b. Findings

1R04 Equipment Alignment

a. Inspection Scope

b. Findings

1R05 Fire Protection

.1 Resident Inspector Quarterly Walkdowns

a. Inspection Scope

b. Findings

.2 Fire Brigade Drill

a. Inspection Scope

b. Findings

1R06 Flood Protection Measures

a. Inspection Scope

b. Findings

1R08 Inservice Inspection

a. Inspection Scope

b. Findings and Observations

1R11 Licensed Operator Requalification Program and Licensed Operator Performance

.1 Quarterly Review of Licensed Operator Requalification Testing and Training

a. Inspection Scope

b. Findings

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

a. Inspection Scope

b. Findings

1R12 Maintenance Effectiveness

a. Inspection Scope

b. Findings

Introduction.

Description.

Analysis.

Enforcement.

1R13 Maintenance Risk Assessments and Emergent Work Control

a. Inspection Scope

b. Findings

1R15 Operability Determinations and Functionality Assessments

a. Inspection Scope

b. Findings

1R19 Post-Maintenance Testing

a. Inspection Scope

b. Findings

1R22 Surveillance Testing

a. Inspection Scope

b. Findings

Cornerstone: Emergency Preparedness

1EP4 Emergency Action Level and Emergency Plan Changes

a. Inspection Scope

b. Findings

OTHER ACTIVITIES

4OA1 Performance Indicator Verification

a. Inspection Scope

b. Findings

4OA2 Problem Identification and Resolution

.1 Routine Review of Problem Identification and Resolution Activities

a. Inspection Scope

b. Findings

.2 Semi-Annual Trend Review

a. Inspection Scope

b. Findings and Observations

.3 Annual Sample: Abnormal Trends for A Main Steam Line Flow

a. Inspection Scope

b. Findings and Observations

.4 Annual Sample: Unplanned Elevated Risk Associated With Isolation of Normal and

a. Inspection Scope

b. Findings and Observations

.5 Annual Sample: Evaluation of Corrective Actions to Repair Electric Bay Unit Cooler

a. Inspection Scope

b. Findings and Observations