{{#Wiki_filter: August 72, 2OILMr. Paul FreemanSite Vice PresidentSeabrook Nuclear Power PlantNextEra Energy Seabrook, LLCc/o Mr. Michael O'KeefeP.O. Box 300Seabrook, NH 03874

SUBJECT: SEABROOK STATION, UNIT NO. 1 - NRC INTEGRATED INSPECTIONREPORT 05000443/201 1 003

On June 30, 201 1, the U. S. Nuclear Regulatory Commission (NRC) completed an inspection atSeabrook Station, Unit No. 1. The enclosed report documents the inspection findings discussedon July 13,2011, with Mr. E. Metcalf and other members of your statf.These inspections examined activities conducted under your license as they relate to safety andcompliance with the Commission's rules and regulations and with the conditions of your license.The inspectors reviewed selected procedures and records, observed activities, and interviewedpersonnel.The report documents three NRC-identified findings of very low significance (Green) that weredetermined to involve a violation of NRC requirements. However, because of the very lowsafety significance and because the issues were entered into your corrective action program,the NRCis treating the findings as non-cited violations (NCV) consistent with Section 2.3.2.a ofthe NRC Enforcement Policy.lf you contest any NCV in this report, you should provide a response within 30 days of the dateof 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 RegionalAdministrator, Region l; the Director, Office of Enforcement, United States Nuclear RegulatoryCommission, Washington, DC 20555-0001; and the NRC Resident lnspector at the SeabrookStation. In addition, if you disagree with the characterization of any finding in this report, youshould provide a response within 30 days of the date of this inspection report, with the basis foryour disagreement, to the Regional Administrator, Region l, and the NRC Resident lnspector atthe Seabrook Station. The information you provide will be considered in accordance withInspection Manual Chapter 0305.In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and itsenclosure, and your response (if any), will be available electronically for public inspection in the NRC Public Document Room or from the Publicly Available Records (PARS) component ofNRC's document system (ADAMS). ADAMS is accessible from the NRC Web site athttp://www.nrc.qov/readinq-rm/adams.html (the Public Electronic Reading Room).

Sincerely,I-t-/ it rfi4t lrVArthur L. Burritt, ChiefProjects Branch 3Division of Reactor ProjectsDocket No. 50-443License No: NPF-86

lnspection Report No. 050004431201 1003wi

Supplemental Informationcc w/encl: Distribution via ListServ

lR 0500044312011003; 0410112011-0613012011; Seabrook Station, Unit No. 1; Routinelntegrated Report; Fire Protection; Operability Evaluations.The report covered a three-month period of inspection by resident and regional specialistinspectors. Three Green findings were identified. The significance of most findings is indicatedby their color (Green, White, Yellow, or Red) and determined using Inspection Manual Chapter(lMC) 0609, "significance Determination Process" (SDP). The cross cutting aspect of a findingis determined using the guidance in IMC 0310, "Components Within the Cross-Cutting Areas."Findings for which the SDP does not apply may be Green or be assigned a severity level afterNRC management review. The NRC's program for overseeing the safe operation ofcommercial nuclear power reactors is described in NUREG-1649, "Reactor Oversight Process,"Revision 4, dated December 2006.Gornerstone: Mitigating SystemsGreen. The inspectors identified a non-cited violation (NCV) of Technical Specificationtt.Sl O.Z.t.h, which requires that written procedures be established and implemented forthe fire protection program. Contrary to TS 6.7.1.f , the inspectors identified combustiblematerials which were not controlled per fire protection procedure FP 2.2, Revision 12'Specifically, (i) combustible materials were stored within three feet of an energizedsample panel in the primary auxiliary building room PB404, a PRA risk significant area;and, (ii) combustible materials in excess of the permissible amounts were stored inwaste process building area W8505. The in$pectors identified materials stored inWB505 in excess of FP 2.2 limits on three occasions. Collectively, the NRCobservations indicate a weakness in the programmatic control of combustible materialsdespite the fact that in each case the combustible materials were promptly removedfollowing identification by the inspector. Seabrook entered this performance deficiencyinto their corrective action program.The performance deficiency was more than minor because, if left uncorrected,inadequate control of combustibles could affect the Mitigating Systems cornerstoneobjective to assure external factors (fires) do not impact the availability and reliability ofsyitems which mitigate events. The inspectors assessed the finding using Appendix F ofthe Significance Determination Process (SDP) Based on a degradation rating of low,which screens to Green in the fire protection SDP, the finding is of very low safetysignificance. This finding has a cross-cutting aspect in Human Performance, WorkPiactices tH.4(b)l because Seabrook personnel did not follow procedures for the controlof transient combustibles. (Section 1R05)Green. The inspectors identified a non-cited violation (NCV) of Technical Specification(TS) 6.7.1.a that requires written procedures be established and implemented, includingadministrative procedures that define authorities and responsibilities for safe operationwith respect to operability determinations. Contrary to TS 6.7.1.a, NextEra identified adegraded and nonconforming condition related to reduced modulus of elasticity forbuiidings housing safety related equipment on May 27,2011 but did not complete anoperability determination until EC250348 was issued on June 28,2011 (AR1664399).The delayed entry of the issue into the corrective action process to assess operabilitywas contrary to Section 4.3 of EN-AA-203-1001 that requires operability assessments beEnclosure 4completed in a time frame commensurate with the safety significance of the issue (within8 hours). Seabrook subsequently completed an evaluation of the concrete issues anddetermined that the buildings housing safety-related equipment remained operable.Seabrook entered this performance deficiency into their corrective action program.The performance deficiency was more than minor because a reasonable doubt ofoperability for the affected concrete structure$ existed until further engineeringevaluations were completed to demonstrate the structures and systems that they housedwould remain functional under design and licensing basis conditions. The findingaffected the Mitigating Systems cornerstone Objective to ensure the availability, reliabilityand capability of systems that respond to initiating events in order to prevent coredamage. The issue was evaluated using IMC 0609, "Significance DeterminationProcess" (SDP), and was determined to be of very low safety significance (Green)because the finding was not a design or qualification deficiency, did not result in anactual loss of safety function, was not a loss of a barrier function, and was not potentiallyrisk significant for external events. The finding had a cross cutting aspect in the area ofproblem identification and resolution, P.1(a), because NextEra did not enter identifieddegraded concrete conditions for several site buildings into the corrective actionsprocess in a timely manner, which would have ensured the shift manager completedtimely operability evaluations for the affected structures. (Section 1R15.3)Green. The inspectors identified a non-cited violation (NCV) of Technical Specification(TS) 6.7.1.a that requires that written procedures be established and implemented,including administrative procedures that define authorities and responsibilities for safeoperation with respect to operability determinations. Contrary to TS 6.7 .1.a, NextEraidentified a degraded condition related to seryice water flow to the B emergency dieselgenerator (EDG) heat exchanger (HX) on June 28,2011 but did not fully evaluate thereduced flow under all plant conditions as required by NextEra procedure EN-AA-203-1001. Fouling of the heat exchanger tubes was subsequently identified and mitigated.Seabrook also completed an evaluation of the B EDG service water flow issues anddetermined that the EDG remained operable. Seabrook entered this performancedeficiency into their corrective action program.The performance deficiency was more than rninor because a reasonable doubt ofoperability existed untilfurther engineering evaluations were completed to demonstrateadequate service water flow to the B EDG HX existed and the B EDG remainedfunctional under design and licensing basis conditions. The finding affected theMitigating Systems cornerstone objective to ensure the availability, reliability andcapability of systems that respond to initiating events in order to prevent core damage.The issue was evaluated using IMC 0609, "significance Determination Process" (SDP),and was determined to be of very low safety significance (Green) because the findingwas not a design or qualification deficiency, did not result in an actual loss of safetyfunction, was not a loss of a barrier function, and was not potentially risk significant forexternal events. The finding had a cross cutting aspect in the area of problemidentification and resolution, P.1(c), because NextEra personnel did not thoroughlyassess EDG operability to assure reduced HX SW flow was acceptable under alloperating conditions, or assure appropriate corrective actions were timely completed.(Section 1R15.4)

Summarv of Plant StatusThe plant was shutdown at the start of the report period to conduct refueling outage OR14.NextEra completed reactor refueling and maintenance activities on the reactor and plantsecondary systems. The plant was started up and the reactor was taken critical on May 23,2011, and operation at full power resumed on May 26, 2011. The turbine was taken offline formaintenance on the secondary plant on June 4, 2011. Seabrook returned to full power on June6,2011.1.

Cornerstones: Initiating Events, Mitigating Systems, and Barrier Integrity1R01 Adverse Weather Preparation (71111.01 - 2 sample).1 Readiness for Seasonal Extreme Weather Conditionsa. Inspection ScopeThe inspector completed one seasonal extreme weather conditions inspection sample.The inspectors assessed NextEra's readiness for the onset of hot weather. Theinspectors reviewed the Updated Final Safety Analysis Report (UFSAR) descriptions forrelated design features and verified the adequacy of the station procedures for hotweather protection. The inspectors reviewed NextEra's actions per procedureON1490.09 for seasonal readiness, and procedure OS1200.03 for severe weather. Theinspectors also performed walkdowns of susoeptible systems, specifically theemergency feedwater, electrical distribution and service water systems. The inspectorsreviewed deficiencies related to extreme weather preparation and verified the issueswere entered into the corrective action program. The documents reviewed are listed inthe Attachment.b. FindinqsNo findings were identified..2 Readiness of Offsite and Alternate AC Power Svstemsa. Inspection ScopeThe inspectors completed one summer readiness of offsite and alternate AC powersystems inspection sample. The review focu$ed on NextEra procedure 051246.02,"Degraded Vital AC Power." The inspectors verified that plant features were maintainedand procedures for operation were adequate to ensure the continued availability of ACpower systems. The inspectors verified that communication protocols with thetransmission system operator were adequate to ensure that appropriate information wasexchanged when issues arose that could impact the offsite power system. Theinspectors also observed NextEra's implementation of OS1246.02 during periods thatEnclosure 6challenged grid conditions between April 1, 2011 and June 30, 2011. The inspectionincluded walkdowns of the onsite normal and emergency AC power systems and theinspectors reviewed deficiencies related to summer readiness of offsite and alternate ACpower systems and verified these issues were entered into the corrective actionprogram. The documents reviewed are listed in the Attachment.b. FindinqsNo findings were identified.

==1R04 Equipment Aliqnment (71111.04Q - 5 samples;7111 1.04S - 1 sample)==

.1 PartialWalkdowna. Inspection ScopeThe inspectors completed five partial system walkdown inspection samples for the plantsystems listed below. The inspectors verified that valves, switches, and breakers werecorrectly aligned in accordance with Seabrook's procedures and that conditions thatcould affect system operability were appropriately addressed. The inspectors reviewedapplicable piping and instrumentation drawings and system operational lineupprocedures. The documents reviewed are listed in the Attachment.o Primary component cooling water (PCCW) "A" Train with "8" service water (SW) and"8" PCCW out of service for work performed on April 11, 2011.. "A" train primary component cooling water (PCCW) during planned unavailability ofthe "B" train PCCW and SW systems on April 27,2011 through May 2, 2011'o Reactor and support system alignments on April 22, 2011, in preparation for plantstartup from Mode 6.. Residual heat removal (RHR) system alignment for low temperature over pressureprotection during shutdown cooling operations on April 1,2011 through April 4, 2011.. "B" train RHR on May 5,2011 through May 10,2011 during the removal andreplacement of 1-RHR-P-8A motor and seal package.FindinqsNo findings were identified.Complete Svstem WalkdownInsoection ScopeThe inspectors completed one complete system walkdown inspection sample on theservice water system, specifically, Train "A" during a Train "B" pipe replacement and SWocean outage. The inspectors walked down the accessible portions of the system toverify the system's overall material condition; that valves were correctly positioned; thatelectrical power was available; that major system components were properly labeled;that hangers and supports were correctly installed and functional; and that ancillaryequipment or debris did not interfere with system performance. The inspectors reviewedb.,2Enclosure 7plant procedures, system drawings, the UFSAR, and the technical specifications (TS).The documents reviewed are listed in the Attachment.b. FindinosNo findings were identified.

==1R05 Fire Protection (71111.05Q - 5 samples).1Quarterlv Review of Fire AreasInspection ScopeThe inspectors completed five quarterly fire protection inspection samples. Theinspectors examined the areas of the plant listed below to assess: the control oftransient combustibles and ignition sources; the operational status and materialcondition of the fire detection, fire suppression, and manual fire fighting equipment; thematerial condition of the passive fire protection features; and the compensatorymeasures for out-of-service or degraded fire protection equipment. The inspectorsverified that the fire areas were maintained in accordance with applicable portions of FireProtection Pre-Fire Strategies and Fire Hazard

The documents reviewed arelisted in the Attachment.. Primary auxiliary building 53 FT (PAB-F-3A-Z).. Containment 26 FT (C-F-3-2).. Fuel storage building 7 FT (FSB-F-1-A).o Site yard area with focus on containment outage access (PLT-F-1-0).. Containment 0 FT and +25 FT (C-F-Z-Z and C-F-3-Z).FindinqsInadequate Control of Combustible Materialslntroduction: The inspectors identified a non-cited violation (NCV) of TechnicalSpecification (TS) 6.7.1.h, which requires that written procedures be established andimplemented for the fire protection program. The inspectors identified combustiblematerials that were not controlled per NextEra procedure FP 2==

.2 in the primary auxiliarybuilding and in the waste process building room W8505. The inspectors identifiedmaterials stored in W8505 in excess of FP 2.2 limits on 3 occasions from April 15,2011to July 1,2011. Collectively, the NRC observations indicate inadequate programmaticcontrol of transient combustible materials. Seabrook removed the improperly storedmaterial identified by the inspector and entered this performance deficiency into theircorrective action program.Description: Procedure FP 2.2, "Control of Combustible Materials", providesrequirements for controlling combustible materials at Seabrook. The inspectorsidentified the following conditions that did not meet the requirements of FP 2.2:b.1.Enclosure I(a) During a walkdown of the Waste Processing Building area W8505 on April 15,2011,the inspectors identified ten rolls of new plastic bags. Section 4.7 of FP 2.2 allowspermanent storage of combustible materials in room W8505 in quantities specifiedfor normal operations on bag rack only (i.e., three rolls of bags). In addition to thebags on the rack, seven additional rolls of bags were beside the rack. Procedure FP2.2, Section 4.4.3, provides a permit threshold for quantities that exceed 100 poundsof National Fire Protection Association (NFPA) flammability category 1 solidmaterials (Class A materials). No transient combustible material permit was issued.The additional seven rolls of bags exceeded 100 pounds. The inspectors discussedthis issue with Operations Management (OM). The materials were removed.On June 15,2011, inspectors identified a similar condition in room W8505 in thatthree additional rolls of bags were near the bag rack. The inspectors discussed theissue with Shift Manager (SM) and Fire Brigade Leader (FBL). Condition Report1661217 was initiated and the non-permitted materials were removed. On July 1,2011, the inspectors identified the same conditions in room W8505. Specifically,three additional rolls of bags were near the bag rack. Further, there was a half-full55 gallon drum of used oil in the area. No transient combustible permit existed forthe materials. The inspectors discussed these observations with the on-duty FBLand SM. The non-permitted materials were removed. Condition Reports 1666354and 1666363 were initiated to enter this issue in the corrective action program.(b) During a walkdown of the primary auxiliary building (PAB) room PB404 on June 15,2011, the inspectors observed a cardboard box of paper towels and partially filledplastic bag stored next to (within three feet) 1-SS-CP-166-8, an energized sampleanalysis control panel. The materials were used by chemistry personnel to obtainsteam generator blowdown samples. The sample panel area is an elevated platformthat is approximately three feet wide. Section 4.2.5.c of FP 2.2 states that materialsare not to be stored within three feet of energized electrical equipment (panels, etc.).Room PB4O4 houses the primary component cooling water pumps and heatexchangers, and is a designated PRA risk significant area, defined as an area thatcontributes the greatest majority of risk of core damage to fire initiated events. Theinspectors discussed the observations with the on-duty Fire Brigade Leader and ShiftManager. The combustible materials were removed. Condition Report AR 1661010was initiated to enter this issue in the corrective action program.Collectively, these NRC observations indicate programmatic weakness in the control ofcombustible materials. The failure by worker$ to follow procedures and the ineffectiveNextEra actions to keep combustibles in WB505 below limits set by FP 2.2 raise aconcern with the control of combustibles which, if left uncorrected, could lead to a moresignificance safety concern. Further, the inspectors identified that restrictions containedin the Final Safety Analysis Report, Appendix A, Responses to BTP APCSB 9.5-1 -materials near safety related tanks, were not reflected in FP 2.2. NextEra entered thisissue into the corrective action program as AR 1667113.Analvsis: The inspectors determined that the failure to properly implement procedure FPZZtor the controlof transient combuStible materialwas a performance deficiency. Thisfinding was considered more than minor because, if left uncorrected, inadequate controlof combustibles could affect the Mitigating Systems cornerstone objective to assureexternal factors (fires) do not impact the availability and reliability of systems whichmitigate events.Enclosure 9The inspectors performed a significance determination of this issue using IMC 0609,"significance Determination Process" (SDP), Appendix F, "Fire DeterminationSignificance Determination Process."The issue met the Phase I qualitative screening criteria as discussed in Appendix F.Based on an evaluation using Step 1 of Appendix F, the inspectors determined thefinding affected the category of Fire Prevention and Administrative Controls in thatcombustible material was not being properly Controlled; the finding had a "low"degradation rating; and, the finding was of very low safety significance (Green). Theinspectors determined this event affected the cross-cutting area of H.4.(b), HumanPerformance, Work Practices, because of the failure of workers to follow stationprocedures.Enforcement: TS 6.7.1.h requires that written procedures shall be implemented for theFire Protection Program (FPP). Fire Program procedure FP 2.2,"Controlof CombustibleMaterials," Revisionl2, limits the quantity of transient combustible material stored inW8505 (Section 4.7) and near electrical panels in P8404 (Section 4.2.5.c). Contrary tothe above, NextEra did not limit the quantity of transient combustible material stored inW8505 and near electrical panels in P8404 in accordance with the requirements ofprocedure FP 2.2. Specifically, NextEra stored ten rolls of plastic bags in WB505 andstored a cardboard box of paper towels and a partially filled plastic bag within three feetof an energized sample analysis control panel in PB404. Because the failure to controlcombustible materials was of very low safety significance and has been entered intoNexEra's corrective action program (ARs 1661010, 1666354, 1666363), this violation isbeing treated as an NCV, consistent with Section 2.3.2.a of the NRC Enforcement Policy(NCV 05000443/201 1 003-01, Inadequate Gontrol of Combustible Materials).

==1R07 Heat Sink Performance (71111.07 - 1 sample)Insoection ScopeThe inspectors completed one heat sink performance inspection sample. Specificallythe inspectors reviewed the 2011 testing of the "B" component cooling water heatexchanger to verify that the heat exchanger could fulfill its design function. Theinspectors reviewed thermal performance monitoring (WO 01202862), trending data forheat exchanger temperatures and fouling factors, and ES1850.017, "SW HeatExchanger Program". The inspectors interviewed the system engineer to evaluate theprocess used to monitor the heat exchanger and commitments in Generic Letter 89-13,"Service Water System Problems Affecting Safety-Related Equipment." The inspectorsperformed system walk downs and reviewed condition reports to verify that issuesassociated with the heat exchanger were identified and corrected. The documentsreviewed are listed in the Attachment.FindinosNo findings were identified.a.b.Enclosure==

101R08 Inservice Inspection (71111.08 - 1 sample)a. Inspection ScopeThe purpose of this inspection was to review and assess the effectiveness of NextEra'sIn-service Inspection (lSl) program for monitoring degradation of the reactor coolantsystem (RCS) boundary, risk significant piping system boundaries, and the containmentboundary. The inspectors reviewed a sample of nondestructive examination (NDE)activities to verify compliance with American Society of Mechanical Engineers (ASME)Boiler and Pressure Vessel Code, Section Xl and applicable NRC RegulatoryRequirements. In addition, the inspectors reviewed samples of completed non-destructive examinations, inspection procedures and inspection test reports to verifycompliance with the ASME Code, Section Xl. The inspectors reviewed the results of thereactor vessel nozzle dissimilar weld evaluation in the post-MSIP configuration(AR1644106). Also, the inspectors reviewed repair and replacement activities whichinvolved use of welding and NDE on pressure boundary risk significant systems.The inspectors observed the performance of NDE activities in process and revieweddocumentation and examination reports for additional nondestructive examinations.Non-destructive test processes inspected and reviewed included Visual (W), MagneticParticle (MT), Penetrant (PT), Eddy Current (ECT), and Ultrasonic (UT) testing. Thesample selection was based on the inspection procedure objectives, risk significanceand sample availability. The inspectors reviewed examination procedures, procedureand personnel qualifications and examination test results.The inspectors reviewed the procedures used to perform visual examinations forindications of boric acid leaks from pressure retaining components including the vesselupper head penetrations and their connections to the control rod drive mechanisms.The inspectors reviewed samples of operability evaluations, engineering evaluations andcorrective actions provided for active and inactive boric acid leaks and determined theywere consistent with the requirements of the ASME Code and 10 CFR 50, Appendix B,Criterion XVl, Corrective Action.The inspectors performed a visual examination of the containment steel shell at the zeroand minus 26 foot elevations within containment to evaluate the reported condition of theliner coating. The inspectors reviewed a sample of test reports, photographs andcondition reports initiated as a result of the liner inspection performed by NextEra.Corrective action specified for conditions identified were evaluated by the inspectors toassess that the engineering organization was involved in providing evaluation anddisposition. The inspectors confirmed there was no notable damage or indication ofleakage identified during the ASME Section Xl Section IWE evaluation.Examinations I nsoected :. Magnetic particle test (MT) of weld F0104, field weld integrally attached pre-engineered pipe cap to 24 inch carbon steel SW pipe. Work order 1198488, ASMEXl, Code Class 3. MT examination procedure ES 1807'003 R 7 Ch 1.. Liquid penetrant (PT) test of weld F0104, examination of root pass of carbon steelattachment weld of cap to pipe using work document 1198488, ASME Xl, CodeClass 3, PT examination procedure ES 1807.002R7 Ch 1.Enclosure 11Ultrasonic thickness test (UT) of carbon steel SW piping to determine if wall thinninghad occurred at various selected circumferential and axial locations of the pipeshown on drawing 1 198488. The pipe wall thickness was measured using UTprocedure ES 1807.012 R 5.Visual test (W-2) of reactor pressure vessel bare metal upper head surfaces withattention to the area where control rod drives intersect the head using remote visualtechniques using test procedure ES 10-01-23.The inspectors reviewed the steam generator (SG) degradation assessment (DA) todetermine that NextEra had reviewed and incorporated the results of the previousoutage degradation assessment, operational assessment (OA) and condition monitoring(CM) assessment. The inspectors reviewed the eddy current test (ECT) procedure,sample plan and data acquired. lt was noted that no steam generator tubes wereidentified which specified in-situ pressure testing or specified "plugging".The inspectors reviewed documentation of reworl</repair activities which specified thedevelopment of ASME Section Xl repair plans with the use of welding processes tocomplete the repair. The work orders (WO) which detail these repair/replacementactivities are:. WO 1198488 02 repair of thru wall leak of SW pipe line SW 1814-1-156 and modifysupport 1814-SG-02 by installation of a pre-engineered pipe cap, Drawing SK-EC145189-2000. The lnspectors reviewed applicable welding and NDT proceduresto determine compliance with the ASME Xl Code requirements.. WO 40055977 01 fabrication of new SW pipe spool and reducer for replacement ofexisting spoolwhich was degraded (wall thinning). Pipe spoolwelds F0105, 0106and 0107 were made using weld procedure ES0815.004. The inspectors reviewedthe fabrication and inspection procedures to verify compliance with the ASME XlCode requirements.The inspectors reviewed the replacement material, weld procedure specifications andqualifications, welder qualifications, weld filler metals, non-destructive tests acceptancecriteria and post work testing for each activity. The documents reviewed are listed in theAttachment.b. FindinosNo findings were identified.

==1R11 Licensed Operator Requalification Proqram (71111.11Q - 1 sample)==

.1 Quarterlv Resident Inspector Reviewa. Inspection ScopeThe inspectors completed one quarterly licensed operator requalification programinspection sample. Specifically, the inspectors observed simulator just-in-time training oflicensed operators on April 28,2011 for reactor and steam plant re-start activities. Theinspectors observed formal classroom and simulator activities. The inspectors examinedthe operators capability to perform actions associated with high-risk activities, theEnclosure 12Emergency Plan, previous lessons learned items, and the correct use andimplementation of procedures. The inspectors observed and reviewed the trainingevaluator's critique of operator performance and verified that deficiencies wereadequately identified, discussed and entered into the corrective action program. Theinspectors reviewed the simulator's physical fidelity in order to verify similadties betweenthe Seabrook control room and the simulator. The documents reviewed are listed in theAttachment.b. FindinqsNo findings were identified.

==1R12 Maintenance Effectiveness (71111.12Q - 2 samples)a. Inspection ScopeThe inspectors completed two maintenance effectiveness inspection samples. Theinspectors reviewed performance-based problems and completed performance andcondition history reviews for the selected in-scope structures, systems or components(SSCs) listed below to assess the effectiveness of the maintenance program. Reviewsfocused on: proper Maintenance Rule (MR) scoping in accordance with 10 CFR 50.65;characterization of reliability issues; tracking system and component unavailability;10 CFR 50.65 (aX1) and (a)(2) classifications; identifying and addressing commoncause failures, trending key parameters, and the appropriateness of performance criteriafor SSCs classified (aX2) as well as the adequacy of goals and corrective actions forSSCs classified (aX1). For the periodic assessment inspection sample, the inspectorsreviewed the assessment frequency, the performance criteria, the use of operatingexperience and corrective actions. The inspectors reviewed system health reports,maintenance backlogs, and MR basis documents. The documents reviewed are listed inthe Attachment.. Residual heat removal (RH) system classified as MR(a)(2) with a focus on component performance impacting unavailability and reliability(AR 1647943).. SW system classified as MR (a)(2) with a focus on pipe wall thinning identificationand repair (ARs 161 2061, 1637922, 1639537).b. FindinqsNo findings were identified==

.1 R13 Maintenance Risk Assessments and Emerqent Work Control (71111

===.13 - 6 samples)a. Inspection ScopeThe inspectors completed six maintenance risk assessment and emergent work controlinspection samples. The inspectors reviewed the scheduling and control of planned andemergent work activities in order to evaluate the effect on plant risk. The inspectorsconducted interviews with operators, risk analysts, maintenance technicians, andengineers to assess their knowledge of the risk associated with the work, and to ensureEnclosure===

13that other equipment was properly protected. The inspectors reviewed the availability ofopposite train guarded and protected equipment. The compensatory measures wereevaluated against Seabrook procedures, Maintenance Manual 4.14,"TroLtbleshooting,"Revision 0 and Work Management Manual 10.1, "On-Line Maintenance," Revision 3.Specific risk assessments were performed using Seabrook's "Safety Monitor", asapplicable. The inspectors reviewed the maintenance items listed below. Thedocuments reviewed are listed in the Attachment.. Risk mitigation actions for orange risk condition associated with reactor headremoval on April 5,2011 through April 6, 2011 (WO 1205089).. Planned work associated with SW "A" Train during "B" train pipe replacement andmaintenance WO 00626035 for work performed April 14,2011'. Risk mitigation actions due to unplanned entry into orange risk condition due todegraded grid during planned work to remove steam generator nozzle dams onApril 22, 201 1 (WO 1203031 ).o Emergent work associated with the heavy lift for the removal'and replacement of"A" train RHR pump (1-RH-P-8A) on May 6,2011 and May 9, 2011 (WO 40083875).o Emergent work associated with the "A" train SW piping replacement andmaintenance for leak downstream of heat exchanger isolation valve SW-V-16 onApril 20, 2011 through April 22,2011 (WO 40078357).o Emergent work associated with the temporary repair of safety injection systemcheck valve SI-V82 which had a body to bonnet leak that was leak sealed with theplant at normal operating temperature and pressure on May 18,2011 throughMay 22,2011 (WO 40086371).b. FindinqsNo findings were identified.

==1R15 Operabilitv Evaluations (71111.15

* 5 samples)a. Inspection ScopeThe inspectors completed five operability evaluation inspection samples. The inspectorsreviewed operability evaluations and condition reports to verify that identified conditionsdid not adversely affect safety system operability or overall plant safety. The evaluationswere reviewed using criteria specified in NRC Regulatory lssue Summary 2005-20,"Revision to Guidance formerly contained in NRC Generic Letter 91-18, Information toLicensees Regarding two NRC lnspection Manual Sections on Resolution of Degradedand Nonconforming Conditions and on Operability'' and Inspection Manual Part 9900,"Operability Determinations and Functionality Assessments for Resolution of Degraded orNonconforming Conditions Adverse to Quality or Safety." In addition, where a componentwas determined to be inoperable, the inspectors verified that TS limiting condition foroperation implications were properly addressed. The documents reviewed are listed inthe Attachment. The inspectors also performed field walk downs and interviewedpersonnel involved in identifying, evaluating or correcting the identified conditions. Thefollowing items were reviewed:. AR1 662418, operability of the pressurizer code safety relief valve (1-RC-V-1 17) dueto seat leakage, June 20, 2011.Enclosure==

b.14. AR1641413, evaluation of containment shellwithApril 20, 2011.. AR1644074, operability of containment enclosurecraze cracking in concrete,building with reduced modulus ofelasticity, April 21, 2011.. AR1664399, operability of concrete structures with reduced modulus of elasticity,June 27,2011.. AR1664708, operability of B diesel generator with cooling water flow oscillations,June 28,2011FindinqsNextEra wrote ARs1644074 and 1664399 to document the preliminary laboratory resultsfor concrete core samples taken for the containment enclosure building (CEB) and fourother seismic Category I buildings. Twenty core samples were taken as part of anextent of condition investigation for AR 581434 in which NextEra determined thatsections of the below grade concrete walls could be affected by alkali-silica reaction(ASR). Prior NRC review of this area was documented in Inspection Reports 2010-04,201 0-05, 2011-02 and 2011-07 .Inadequate 50.59 Screeninq for Desiqn Chanqe EC 272057 - AR1664074NextEra issued EC272057, "Concrete Modulus of Elasticity Evaluation," onApril24,2Q11 to address the results of testing that showed a reduction in the concretemodulus of elasticity in the CEB (AR 1644074). EC272057 also address the reducedmodulus in the Control Building/Electric Tunnel CB/ET (AR581434). The lowestmeasured modulus was 2.16E+03 ksifor the CEB and 2.1E+03 ksi for the CB/ET, bothless than the design value of 3.62E+03 ksi. EC272057 was supported by calculationsC-S-1-10150 and C-S-1-10156 which reflected the degraded conditions in the designcalculations CD-20-CALC and CE-4-CALC for the control and containment enclosurebuildings, respectively.NextEra concluded the structures remained operable and used EC272057 to dispositionthe degraded condition as "use-as-is," by incorporating the degraded condition into thedesign basis. In a safety evaluation screen per 10 CFR 50.59 for EC272Q57, NextEraconcluded the change to the facility did not require a complete evaluation per 50.59(cX2)because adequate design margin existed and there was no adverse affect on an UFSARdescribed design function.The inspectors determined the 50.59 Screen for EC272057 did not correctly addressScreen Question 5.a: "Does the proposed activity involve a change to an SSC thatadversely affects an IJFSAR design function? Using the guidance of the Seabrook1OCFR5059 Resource Manual and NEI 96-07, Revision 1, the inspectors determinedthat a 50.59 evaluation is specified for changes that adversely affect design function. lnthis situation, the ASR impacted concrete with reduced modulus of elasticity whichreduces the flexural capacity of the walls would be an adverse effect. Therefore,NextEra should have evaluated the change to the facility per 10 CFR 50.59(cX2).The item is unresolved pending action by NextEra to complete a full 50.59 evaluation forEC272057 and subsequent NRC review of that evaluation to determine whether the.1Enclosure 15performance deficiency is more than minor. (URl 05000443/2011003-02, lnadequate50.59 Screening for Design Ghange EC 272057).Effects of Reduced Modulus on Concrete Structures - AR1644074 and 1664399NextEra's analysis of the CEB samples found that the concrete has acceptablecompressive strength and reduced but acceptable modulus of elasticity. To evaluate theeffects of the reduced modulus, NextEra assessed the increase in strain for CEBbuilding elements and found that the strain at the most limiting element remained lessthan the American Concrete Institute ACI-318 design stress limit and thus wasacceptable. NextEra evaluated the impact on flexural capacity by reviewing the changein bending moment of structural elements. The reduced modulus causes the concrete tohave increased flexure which has the effect of shifting the balance point in how load istransferred between the concrete and the imbedded steel (rebar). The reduced moduluscauses a shift toward the reinforced steel in tension. The resultant change in bendingmoment was evaluated to show that the reduction in capacity was minimal and thestresses on the steel and concrete remain below the design stress limits with margin.NextEra's evaluation of the condition concluded that a change in the dynamic seismicresponse of the structure would be minor, and the CEB remains capable of performingits design function.The prompt operability determination for the CEB (ARs 1644074 and 1664399)evaluated how the reduced modulus would affect the structure by analysis of locallyimpacted sections. The evaluation did not address the effects of reduced modulus onthe changes to the natural frequencies of the structure and the global response of thestructurelo seismic loads. The inspectors requested further information on the effects ofthe reduced modulus on stresses and strain in the concrete and rebar system for whichNextEra will complete additional analyses.The prompt operability determination (POD) for the Control Building (AR581434) as wellas for other ASR impacted structures (AR1664399) evaluated the effects of reducedmodulus on portions of the below grade structures and the components housed withinthem. The evaluations lacked details to explain the effects of the reduced modulus onstructuralflexure as related to components attached to the structures, such as pipesupports and cable trays. Similarly, the evaluations lacked details with regard to thestructure's response to seismic events as related to structure rigidity and changes in thenatural frequency, and the bases to use the ground response spectra. Further, theevaluations lacked details to explain how the function of support anchor bolts would notbe adversely impacted by reduced concrete compressive strength in the CBIET.This item is unresolved pending further NRC review of the above issues, action byNextEra to complete additional analysis of the CEB conditions and subsequent NRCRegion I review of that analysis, and the completion of reviews by the NRC Office ofNuclear Reactor Regulation specified in the associated task interface agreement(ADAMS No. ML111610530). The result of these reviews will determine whether thereis a performance deficiency associated with this item. (URl 05000443/2011003-03,Operability Evaluation for Degraded Goncrete in ASR Affected Plant Structures).Enclosure 16Untimelv Operabilitv Determination - AR 1664399lntroduction. The inspectors identified a Green non-cited violation (NCV) of TechnicalSpecification (TS) 6.7.1.a that requires written procedures be established andimplemented, including administrative procedures that define authorities andresponsibilities for safe operation. NextEra identified a degraded and nonconformingcondition related to reduced modulus of elasticity for buildings housing safety relatedequipment on May 27,2011, but did not complete an operability assessment until June27, 2011, when AR1664399 and EC250348 were issued. The delayed entry of the issueinto the corrective action process to assess operability was contrary to Section 4.3 ofEN-AA-203-1001 that requires an operability determinations (OD) be completed in atime frame commensurate with the safety significance of the issue (in most cases within8 hours).Description. Procedure EN-AA-203-1001, "OperabiIity Determinations/FunctionalAssessments," provides requirements for evaluation of degraded conditions andnonconforming conditions and requires: the Shift Manager (a licensed Senior ReactorOperator) make an OD for each condition that involves equipment issues related to theability of an SSC to perform its TS function (Section 3.2.1); degraded or nonconformingconditions be entered in to the corrective action program (Section a.2.1); an immediateOD be performed following the discovery of a degraded or nonconforming condition(Section 4.1.7); and, the immediate operability determination shall be completed in amanner commensurate with the safety significance (in most cases during the shift whena concern was generated or 8 hours) and consider all plant conditions (Section 4.3.1).On April 21,2011, NextEra issued AR 1644074 upon receipt of initial test resultsshowing the modulus of elasticity for concrete core samples taken from the containmentenclosure building (CEB) was below the American Concrete lnstitute ACI-318 designvalue 3.62 E+03 ksi. A measured modulus as low as 2.16E+03 ksi (60% of the designvalue) was a degraded and nonconforming condition with respect to the properties ofconcrete in Category I structures as described in Section 3.8 of the UFSAR. A reducedmodulus impacts the flexural capacity of the impacted walls and thus the function of thebuilding. The Shift Manager, with input from Engineering, documented the basis for animmediate operability determination for the CEB in AR 1644074. NextEra issuedEC250348 and Calculation C-S-1-10156 on April 25, 2011 , which evaluated the integrityof the CEB with consideration of the reduced modulus to disposition the CEB asoperable. The evaluations supporting EC250348 relied upon Calculation C-S-110150,completed for the Control Building on September 23,2010, to show that the reducedmodulus had minimal impact on flexure and bending moment capacity of the buildingwalls that are heavily reinforced with steel. NextEra also initiated core sampling inseveral buildings including - the equipment vault, the emergency feedwater theemergency diesel generator buildings as part of the extent of condition review for theissues identified in the control building.The initial report for the results of the additional testing performed identified reducedmodulus of elasticity in all of the buildings in the expanded scope (equipment vault,emergency feedwater and emergency diesel generator buildings). The information wasprovided to the responsible engineer and made available in a draft report to NextEra onMay 27, 2011, but subject to further review and comment with the vendor for finalacceptance. On June 27, 2011, NextEra issued AR1664399 with an immediateoperability determination to address the same reduced modulus condition described inEnclosure

===.417 AR1644074. A Prompt Operability Determination (POD) was issued on June 28,2011,to disposition the degraded condition for all impacted buildings which determined thestructures were fully operable with margins. The inspectors identified that, although thedata for the 3 buitdings was preliminary (final reports were not issued by the vendor untilJuly 1 and 27), NextEra should have initiated a condition report on May 27 ,2011 toestablish an immediate operability determination for the buildings since the reducedconcrete modulus was a degraded and nonconforming condition as described in UFSARSection 3.8. The failure to initiate a timely operability determination on May 27 wascontrary to Sections 4.2.1 and 4.3.1 of EN-AA-203-1001. The failure to promptly enter adegraded condition into the corrective actions process to allow the Shift Manager tomake timely operability evaluations was a performance deficiency.Analvsis. The inspectors determined that the failure to properly implement procedureEN-AA-203-1001 for the degraded and nonconforming condition discussed above was aperformance deficiency. This performance deficiency was considered more than minorbased on a comparison with Examples 3.j and 3.k of Appendix E of IMC 0612.Specifically, the performance deficiency was more than minor because a reasonabledoubt of operability for the affected concrete structures existed until further engineeringevaluations were completed to demonstrate the structures and systems that they housedwould remain functional under design and licensing basis conditions. The findingaffected the Mitigating Systems cornerstone objective to ensure the availability, reliabilityand capability of systems that respond to initiating events in order to prevent coredamage. The issue was evaluated using IMC 0609, "Significance DeterminationProcess" (SDP), and was determined to be of very low safety significance (Green)because the finding was not a design or qualification deficiency, did not result in anactual loss of safety function, was not a loss of a barrier function, and was not potentiallyrisk significant for external events. The finding had a cross cutting aspect in the area ofproblem identification and resolution, P.1(a), because NextEra did not enter identifieddegraded concrete conditions for several site buildings into the corrective actionsprocess in a timely manner that would have ensured the shift manager completed timelyoperability evaluations for the affected structures.Enforcement. Technical Specification 6.7.1.a, Procedures and Programs, requires thatprocedures be established and implemented covering administrative procedures thatdefine authorities and responsibilities for safe operation. Procedure EN-AA-203-1001defines responsibilities and requirements for r:naking immediate ODs to establish theacceptability of continued plant operation when SSCs are found to be degraded ornonconforming. Contrary to the above, NextEra did not make an immediate operabilitydeterminations to establish the acceptability of continued plant operation when thereduced concrete modulus for several plant structures was identified on May 27,2011.Because this failure to make timely operability determinations is of very low safetysignificance and was entered into NextEra's Corrective Action Program (CR1673102),this violation is being treated as an NCV, consistent with Section 2.3.2.a of the NRCEnforcement Policy. (NCV 05000443/20 1 1 003-04, U ntimely Operabil ity Determi nationfor Degraded Goncrete Structures Housing Safety-Related Equipment)Inadequate Operabilitv Determination - AR 1664708lntroduction. The inspectors identified a Green non-cited violation (NCV) of TechnicalSpecification (TS) 6.7.1.a that requires that written procedures be established andimplemented, including administrative procedures that define authorities andEnclosure===

18responsibilities for safe operation. NextEra identified a degraded condition related toreduced service water (SW) flow to the B emergency diesel generator (EDG) heatexchanger (HX) on June 28, 2Q11, but did not fully evaluate the reduced flow under allplant conditions as required by NextEra procedure EN-AA-203-1001.Description. Procedure EN-AA-203- 1 00'1, "Operabi l ity Determ inations/FunctionalAssessments," provides requirements for evaluation of degraded conditions andnonconforming conditions and requires: the Shift Manager (a licensed Senior ReactorOperator) make an OD for each condition that involves equipment issues related to theabif ity of an SSC to perform its TS function (Section 3.2.1); degraded or nonconformingconditions be entered in to the corrective action program (Section 4.2.1); an immediateOD be performed following the discovery of a degraded or nonconforming condition(Section a.1.7); and, the immediate operability determination shall be completed in amanner commensurate with the safety significance (in most cases during the shift whena concern was generated or 8 hours) and consider all plant conditions (Section 4.3.1).On June 28,2011, NextEra issued AR1664708 when operators observed reduced SWflow through the B EDG heat exchanger during weekly testing of valve SW-V18. Theflow initially varied from 500 to 1000 gpm, but increased to 1400 gpm with additionalvalve strokes. The operators questioned the adequacy of flow indication from SW-FE-6191 , but the operability evaluation documented in AR1664708 accepted the flow with"no operability issues noted" and with plans to monitor the condition. NextEra observed"normal" flow during a subsequent valve stroke.The operators again observed reduced and erratic SW flows (800-1500 gpm) during thenext valve test on July 9, 2011. The B EDG was declared inoperable, AR1667857 waswritten and a POD per Section 4.3.1 .C of EN-AA-203-1001 was requested at that time.A more detailed investigation and evaluation determined that flow element SW-FE-6191was partially plugged contributing to variability in flow indication (but not the reduction),and that marine groMh inside the SW pipe (line 1806-1-1 53-16) upstream of diesel heatexchanger DG-E428 was causing intermittent fouling of the heat exchanger tubes andreduced flow. Corrective actions were initiated to address potential heat exchangerfouling in both EDG SW cooling loops. The engineering evaluation associated with thePOD confirmed that the "8" EDG and cooling subsystem was and had been fullyoperable under design basis conditions, including cooling water temperatures at theenvironmental extremes for operation on the ocean or the cooling tower.The inspectors noted that diesel operating procedure OS 1026.09 requires a minimum of900 gpm when SW cooling is provided on the ocean, and 1800 gpm when SW cooling isprovided on the cooling tower. The inspectors noted further that normal SW flowthrough the heat exchanger varies from 1500 to 1900 gpm depending on ocean level atthe intake. The inspectors determined that the June 28 operability evaluationdocumented in AR 1664708lacked sufficient basis to explain the reduced flow at 500-1400 gpm, and failed to fully evaluate the EDG cooling function. The June 28 evaluationdid not fully evaluate flow under all plant conditions as specified by Section 4.3.1.A ofEN-AA-203-1001, namely, whether flow was adequate relative to the 1800 gpm neededfor operation on the cooling tower. NextEra should have fully investigated the flowanomaly on June 28 and evaluated EDG operability under all design basis conditionsper Section 4.3.1.C of EN-AA-203-1001 , since reduced SW flow in the range of 500 to1000 gpm was a degraded condition that impacted engine cooling. When EDG coolingwas further investigated on July 9, the presumption on June 28 that the flow anomalyEnclosure 19was caused by erratic indication was proven wrong. The initial incomplete operabilityevaluation resulted in the delayed identification, assessment and mitigation of adegraded condition impacting the functionality of the EDG. The failure to promptly andthoroughly evaluate degraded conditions for operability was a performance deficiency.Analvsis: The inspectors determined that not properly implementing procedure EN-AA-203-1001 for the degraded condition discussed above was a performance deficiency.This performance deficiency was considered more than minor based on a comparisonwith Examples 3.j and 3.k of Appendix E of IMC 0612. Specifically, the performancedeficiency was more than minor because a reasonable doubt of operability existed untilfurther engineering evaluations were completed to demonstrate adequate service waterflow to the B EDG HX existed and that the B EDG remained functional under design andlicensing basis conditions. The finding affected the Mitigating Systems cornerstoneobjective to ensure the availability, reliability and capability of systems that respond toinitiating events in order to prevent core damage. The issue was evaluated using IMC0609, "significance Determination Process" (SDP), and was determined to be of verylow safety significance (Green) because the finding was not a design or qualificationdeficiency, did not result in an actual loss of safety function, was not a loss of a barrierfunction, and was not potentially risk significant for external events. The finding had across cutting aspect in the area of problem identification and resolution, P.1(c), becauseNextEra personnel did not adequately evaluate operability to ensure that EDG coolingflow was acceptable under all operating conditions and assure appropriate correctiveactions were timely comPleted.Enforcement. Technical Specification 6.7.1.a, Procedures and Programs, requires thatprocedures be established and implemented covering administrative procedures thatdefine authorities and responsibilities for safe operation. Procedure EN-AA-203-1001defines responsibilities and requirements for making immediate ODs to establish theacceptability of continued plant operation when SSCs are found to be degraded.Contrary to the above, NextEra did not fully evaluate degraded service water flow onJune 28, 2011, resulting in the delayed identification, assessment and correction of acondition that impacted B EDG cooling. Because the finding is of very low safetysignificance and was entered into NextEra's corrective action program (CR1673102),this violation is being treated as an NCV, consistent with Section 2.3.2.a of the NRCEnforcement Pol icy. (NCV 05000443/201 1 003-05, I nadequate Operabil ityDetermination for Reduced EDG HX Gooling Water Flow)1R18 Plant Modifications (71111.18 - 3 samples).1 Permanent Modification - EC 145280: Proiect 52 SY Upqradea. Inspection ScopeThe inspectors completed one permanent modification inspection sample. Theinspectors reviewed modification package EC145280 that completed changes in the 345kV switchyard to enhance reliability. The modifications included the installation of newbreakers and bus sections to connect the Seabrook generator and unit auxiliarytransformer to the grid. The review was completed to verify that the design bases andperformance capability of the system was not degraded. The inspectors verified the newconfiguration was accurately reflected in the design documentation, and that the post-modification testing was adequate to ensure the SSCs would function properly. TheEnclosure b..2a.20inspectors interviewed plant staff, and reviewed issues entered into the corrective actionprogram to verify that NextEra was effective at identifying and resolving problemsassociated with temporary modifications. The documents reviewed are listed in theAttachment.FindinqsNo findings were identified.Temporarv Modification - EC 272290: lnstall Varistor in Panel for CBA-CP-177Inspection ScopeThe inspectors completed one temporary modification inspection sample. Theinspectors reviewed modification package EC 272290 associated with operation of the AEDG. The modification installed a varistor in the unit sub panel for CBA-CP-177. Thevaristor was installed across relay coils 52X and 52Y to minimize electrical transientswhen the anti-pump and breaker closing relays operated. The purpose of the varister isto suppress induced voltages in the emergency power sequencer logic circuits that cannegatively affect proper operation of the A emergency diesel generator (CR1645405).The review was completed to confirm that the design bases and performance capabilityof the system were not degraded. The inspectors verified the new configuration wasaccurately reflected in the design documentation (reference Drawing 310926 SheetAC4b), and that the poslmodification testing was adequate to ensure that affectedSSCs would function properly. The inspectors also interviewed plant staff, and reviewedissues entered into the corrective action program to verify that NextEra was effective atidentifying and resolving problems associated with temporary modifications. Thedocuments reviewed are listed in the Attachment.FindinosNo findings were identified.Temporarv Modification - EC 272512: Leak Sealinq of Sl-V82Inspection ScopeThe inspectors completed one temporary modification inspection sample. Theinspectors reviewed modification package EC272512 that installed a mechanical clampand seal on safety injection system check valve Sl-V82. The leak seal was installed tominimize gasket leak at the body to bonnet flange identified during plant startup to beginoperating cycle 15. The review was completed to confirm that the design bases andperformance capability of the system were not degraded. The inspectors verified thenew configuration was accurately reflected in the plant documentation and that theclamp installation and sealing process would not adversely affect the check valve designfunctions. The inspectors also interviewed plant staff, and reviewed issues entered intothe corrective action program to verify that NextEra was effective at identifying andresolving problems associated with temporary modifications. The documents reviewedare listed in the Attachment.b..3Enclosure 21b. FindinqsNo findings were identified.

==1R19 Post-Maintenance Testinq (71111.19 - 7 samples)a. Inspection ScooeThe inspectors completed seven post-maintenance testing (PMT) inspection samples.The inspectors observed portions of PMT activities in the field to verify the tests wereperformed in accordance with the approved procedures. The inspectors assessed thetest adequacy by comparing the test methodology to the scope of the maintenance workperformed. The inspectors evaluated the test acceptance criteria to verify that the testprocedure ensured that the affected systems and components satisfied applicabledesign, licensing bases and TS requirements. The inspectors also reviewed recordedtest data to confirm all acceptance criteria were satisfied during testing. The documentsreviewed are listed in the Attachment. The activities reviewed are listed below:. Retest of main steam to emergency feedwater pump turbine steam supply valve 1-MS-V-393 on May 18,2A11, following overhaul per WO 40065448.. Retest of chemical and volume control system charging flow control valve 1-CS-FCV-121 on May 18, 2011, following overhaul per WO 1 199620'o Retest of "8" train charging pump 1-CS-P-28 on April 26,2011, following motorreplacement per WO 627385.o Retest of reactor coolant loop 1 residual heat removal pump suction isolation valve1-RC-V-22 on April 11,2Q11, following overhaul per WO 1196480'o Retest of "A" train RHR pump 1-RH-P-8A following replacement on May 16,2011,per WO 40085334.o Retest of "A" emergency diesel generator on May 9, 2011, following failure of theemergency power sequencer during testing per WO 40082703 (CR1645405).. Retest of Sl check valve Sl-V-82 in accordance with OX1 401.04 on May 22, 2011,following leak seal repair per WO40086371.b. FindinqsNo findings were identified.1R20 Refuelinq and Outaqe Activities (71111.20 - 1 sample)==

.1 Refuelinq Outaqe OR14a. Inspection ScopeThe inspectors completed one refueling and outage activities inspection sample. Theinspectors reviewed the operational, maintenance, and testing activities for thefourteenth refueling outage (OR14) starting on April 1, 2011. The documents reviewedare listed in the Attachment.Enclosure 22Review of Outaqe PlanThe inspectors reviewed the outage plans to evaluate NextEra's ability to assess andmanage the outage risk. The inspectors reviewed the outage risk assessment providedin Engineering Evaluation EE-11-02, "OR14 Outage Schedule Initial Shutdown RiskReview."Monitorinq of Shutdown ActivitiesThe inspectors reviewed activities to shut the plant down in accordance with plantprocedures. The inspectors observed completion of various activities specified to placethe plant in a cold shutdown condition to assess operator performance, communications,command and control and procedure adherence. The inspectors reviewed operatoradherence to TS specified cooldown limits. The inspectors performed inspection toursof plant areas not normally accessible during plant power operations to verify theintegrity of structures, piping and supports, and to confirm that systems appearedfunctional.Refuelinq Activities and Reactivitv ControlThe inspectors verified that refueling activities were performed in accordance withprocedures OS1000.09 and RS0721 . The inspectors independently verified on asampling basis that requirements for core alteration were met. The inspectors observedNextEra actions during core alterations to assure core reactivity was controlled. Theinspectors observed activities from the control room, the reactor cavity and the spent fuelpool at various times. The inspectors verified that fuel movement was tracked inaccordance with the fuel movement schedule. The inspectors verified NextEra action tomeet the requirements of TS 3.9 for refueling operations, including the requirements forboron concentration and core monitoring using the source range monitors. Theinspectors observed communications and coordination of activities between the controlroom and the refueling stations while fuel handling activities were in progress. Theinspectors verified reactivity was controlled in accordance with the requirements ofTechnical Specification 3.9.Control of Outaoe Risk and ActivitiesThe inspectors reviewed daily shutdown risk assessments during OR14 to verify thatNextEra addressed the outage impact on defense-in-depth for the critical safetyfunctions: electrical power availability, inventory control, decay heat removal, reactivitycontrol, and containment. The inspectors reviewed how NextEra provided defense-in-depth for each safety function and implemented the planned contingencies in order tominimize overall risk where redundancy was limited or not available. The inspectorsperiodically reviewed risk updates accounting for schedule changes and unplannedactivities. The inspectors reviewed management controls to manage fatigue by reviewingwaiver requests and assessments.Controlof Heaw LoadsThe inspectors reviewed NextEra's activities to control the lift of heavy loads inaccordance with plant procedures and the commitments to NUREG 0612. Theinspectors observed the lift preparations and lift activities to verify adherence toestablished procedures and controls. The inspectors used an operating experiencesmart sample as a reference for this review.Enclosure 23Clearance Activities and Confiquration ControlThe inspectors reviewed a sample of risk significant clearance activities and verified tagswere properly hung and/or removed, equipment was appropriately configured per theclearance requirement, and that the clearance did not impact equipment credited tomeet the shutdown critical safety functions.Inventorv ControlThe inspectors reviewed NextEra actions to establish, monitor and maintain the properwater inventory in the reactor during the outage, and in the reactor and spent fuel poolafter flooding the reactor cavity for refueling activities. The inspectors reviewed the plantsystem flow paths and configurations established for reactor makeup and reactivitycontrol, and verified the configurations were consistent with the outage plan.Reduced Inventorv and Mid-Loop ConditionsThe inspectors reviewed NextEra's procedures to implement commitments from GenericLetter 88-17 and confirmed that controls for mid-loop operations were in place. Theinspectors verified reactor coolant system instrumentation was installed and configuredto provide accurate indication. The inspectors reviewed outage activities that wereperformed during periods when there was a short time-to-boil to assure adequatecontrols were in place. Periodically, during the decreased inventory conditions, theinspectors verified that the configurations of the plant systems were in accordance withthe commitments. During reduced inventory operations, the inspectors observedNextEra's control of distractions to assure the operator could maintain the specifiedreactor vessel level.Foreiqn Material ExclusionThe inspectors reviewed the implementation of Seabrook procedures for foreign materialexclusion control (FME) for the open reactor vessel, reactor cavity and spent fuel pool.The inspectors reviewed NextEra actions to verify that FME issues were documentedand resolved.Electrical PowerThl inspectors verified that the status of electrical systems met TS requirements and theoutage risk control plan. The inspectors verified that compensatory measures wereimplemented when electrical power supplies were impacted by outage work activitiesand that credited backup power supplies were available.RHR Svstem MonitorinqThe inspectors observed spent fuel pool (SFP) and reactor decay heat removal systemstatus and operating parameters to verify that the cooling systems operated properly.The review included periodic review of SFP and reactor cavity level, temperature, andRHR flow. The inspectors reviewed system status to verify the proper system alignmentwas established for vessel and cavity level measurement.Containment ControlThe inspectors reviewed NextEra activities during the outage to control primarycontainment closure and integrity, and to prepare the containment for closure prior toplant restart. The inspectors performed tours of all levels in the containment throughoutthe outage and prior to plant startup per procedure OS101 5.18 to review NextEra'scleanup and demobilization controls in areas where work was completed to assure thattools. materials and debris were removed. This review focused on the control ofEnclosure 24transient combustibles and the removal of debris that could impact the performance ofsafety systems.Monitorinq Plant Heat up. Approach to Critical and StartupThe inspectors observed operator performance during the plant startup activitiesperformed between April 28, 2011 and May 26, 2011. The inspection consisted ofcontrol room observations, plant tours and a review of the operator logs, plant computerinformation, and station procedures. The inspectors observed pre-job briefs for keyevolutions. The inspectors reviewed the preparations for changes in operating modes.The reactor was taken critical on May 23,2011 at 03:08 a.m., and completed powerascension to 100% FP on May 26, 2011. The inspectors verified, on a sampling basis,that TS, license conditions, and other requirements for mode changes were met. Theinspectors verified RCS integrity throughout the restart process by periodically reviewingRCS leakage calculations and by review of systems that monitor conditions inside thecontainment.Problem ldentification and ResolutionThe inspectors reviewed NextEra actions to identify outage related issues and enterthem into the corrective action program. This inspection included a review of thecorrective actions for Condition Report 1640003. The inspectors reviewed a sample ofthe corrective actions to verify they were appropriate to resolve the identified issues.b. FindinosNo findings were identified.

==1R22 Surveillance Testinq (71111.22 - 7 samples)Inspection ScopeThe inspectors completed seven surveillance testing inspection samples. Theinspectors observed portions of surveillance testing activities for safety-related systemsto verify that the system and components were capable of performing their intendedsafety function, to verify operational readiness, and to ensure compliance with specifiedTS and surveillance procedures. The inspectors attended selected pre-evolutionbriefings, performed system and control room walk downs, observed operators andtechnicians perform test evolutions, reviewed system parameters, and interviewed thesystem engineers and field operators. The test data recorded was compared toprocedural and TS requirements, and to prior tests to identify any adverse trends. Thedocuments reviewed are listed in the Attachment. The following surveillance activitieswere reviewed:. EX 1804.033, Containment Spray System 10 Year Air Flow Test, April 8,2011(wo1 209232 11209233).. OX1426.34, Diesel Generator 1A 18 Month Operability Surveillance, April 26,2011,May 2, 2011 and May 1 1, 2011 (WO 40077892).. OX1413.08, Residual Heat Removal Pump 8A Comprehensive Test (lST),April 18,2011 (WO 01203773).. RS1748, Subcritical Physics Testing Using SRWM, May 17 ,2011'. OX1 426.32, Diesel Generator 1B 18 Month Operability Surveillance, April 24,2011Enclosure==

25through April 25, 2011 (WO 40076902).. EX1803.003, Local Leakage Rate Testing of FP-V-588 and FP-V-592 (LLRT),April 1, 2011 (WO01209198).. EX1803.003, Local Leakage Rate Testing of Penetration X358, Pressurizer SampleLine (LLRT), April 5, 2011 (WO01209191 ).The inspectors reviewed deficiencies related to surveillance testing and verified that theissues were entered into the corrective action program. The documents reviewed arelisted in the Attachment.b. FindinqsNo findings were identified.2. RADIATION SAFEWCornerstone: Occupational Radiation Safety2RS01 Radioloqical Hazard Assessment and Exoosure Controls (71124.01)a. Inspection ScopeDuring the period May 9, 2011 through May 12,2011, the inspector performed thefollowing activities to verify that NextEra was evaluating, monitoring, and controllingradiological hazards for work performed during the OR-14 refueling outage in lockedhigh radiation areas (LHRA) and other radiological controlled areas. lmplementation ofthese controls was reviewed against the criteria contained in 10 CFR Part20, TechnicalSpecifications, and NextEra's procedures. The documents reviewed are listed in theAttachment.Radioloqical Hazards Control and Work CoveraqeThe inspector identified work performed in radiological controlled areas and evaluatedNextEra's assessment of the radiological hazards. The inspector evaluated the surveymaps, exposure control evaluations, electronic dosimeter dose/dose rate alarm setpoints, and radiation work permits (RWP), associated with these areas, to determine ifthe exposure controls were acceptable. Specific work activities evaluated includedtransferring the 8A residual heat removal (RHR) pump into the decay heat vault (RWP65) and hydrolazing the spent fuel pool (SFP) leak-off lines (RWP 61). For these tasks,the inspector attended the pre-job briefings, reviewed relevant documents, anddiscussed the job assignments with the workers. Radiation protection technicians werequestioned regarding their knowledge of plant radiological conditions for these jobs, andthe associated controls.The inspector reviewed the air sample records for samples taken prior to installing steamgenerator (SG) nozzle dams, to determine if the samples collected were representativeof the breathing air zone and analyzed/recorded in accordance with establishedprocedures. During plant tours, the inspector verified that continuous air monitors werestrategically located to assure that potential airborne contamination could be identified ina timely manner and that the monitors were located in low background areas.Enclosure 26The inspector toured accessible radiological controlled areas located in the primaryauxiliary building, fuel handling building, decay heat vaults, and waste processingbuilding. With the assistance of a radiation protection technician, independent radiationsurveys were performed of selected areas to confirm the accuracy of survey data, andthe adequacy of postings.Additionally the inspector reviewed the RWPs developed for other work performedduring OR-14 including installation of temporary shielding and scaffolding. ln particular,the inspector reviewed the electronic dosimeter dose/dose rate alarm set points, statedon the RWP, to determine if the set points were consistent with the survey indicationsand plant policy.lnstructions to WorkersBy attending pre-job briefings, the inspector determined that workers, performingradiological significant tasks, were properly informed of electronic dosimeter alarm setpoints, low dose waiting areas, stay times, and work site radiological conditions. Byobserving work-in-progress, the inspector determined that stay times were appropriatelymonitored by supervision to assure no procedural limit was exceeded. Jobs observedincluded transferring the 8A RHR pump into the decay heat vault and hydrolazing SFPleak off lines.During plant tours, the inspector determined that locked high radiation areas (LHRA) anda very high radiation area (VHRA) had the appropriate warning signs and were properlysecured.The inspector inventoried the keys to LHRAs to determine if the keys were appropriatelycontrolled, as specified by procedure. The inspector discussed with radiation protectionsupervision the procedural controls for accessing LHRAs and VHRAs and determinedthat no changes have been made to reduce the effectiveness and level of workerprotection.Contamination and Radioactive Material ControlDuring plant tours the inspector confirmed that contaminated materials were properlybagged, surveyed/labeled, and segregated from work areas. The inspector observedworkers using contamination monitors to determine if various tools/equipment werepotentially contaminated and met criteria for releasing the materials from the RCA.Radioloqical Hazards Control and Work CoveraqeBy observing preparations for installing the 8A RHR pump and for hydrolazing the SFPleakoff lines, the inspector determined that workers wore the appropriate protectiveequipment, had dosimetry properly located on their bodies, and were under the positivecontrol of radiation protection personnel. Supervisory personnel specified the roles andresponsibilities of each worker and reviewed the potentialjob hazards to assure thatexposure was minimized and that industrial safety measures were implemented.Radiation Worker PerformanceDuring job performance observations, the inspector determined that workers compliedwith RWP requirements and were aware of radiological conditions at the work site.Additionally, the inspector determined that radiation protection technicians were aware ofRWP controls/limits applied to various tasks and provided positive control of workers toreduce the potential of unplanned exposure and personnel contaminations.Enclosure 27Problem ldentification and ResolutionA review of Nuclear Oversight field observations (OR-14 Daily Quality Summaries)reports, dose/dose rate alarm reports, personnel contamination event reports andassociated condition reports, was performed to determine if identified problems andnegative performance trends were entered into the corrective action program andevaluated for resolution and to determine if an observable pattern traceable to a similarcause was evident.Relevant condition reports (CR), associated with radiation protection control access andradiological hazard assessment, initiated between January and May 2Q11, werereviewed and discussed with NextEra staff to determine if the follow up activities werebeing performed in an effective and timely manner, commensurate with their safetysignificance.b. FindinqsNo findings were identified.2RS02 Occupational ALARA Plannino and Controls (71124.02)lnspection ScopeDuring the period May 9, 2011, through May 12,2011, the inspector performed thefollowing activities to verify that NextEra was properly implementing operational,engineering, and administrative controls to maintain personnel exposure as low as isreasonably achievable (ALARA) for tasks performed during the OR-14. lmplementationof this program was reviewed against the criteria contained in the 10 CFR ParL 20,applicable industry standards, and NextEra's procedures. The documents reviewed arelisted in the Attachment.Radioloqical Work PlanninqThe inspector reviewed pertinent information regarding site cumulative exposure history,current exposure trends, and the ongoing exposure challenges for the outage. Theinspector reviewed various OR-14 ALARA plans.The inspector reviewed the exposure status for tasks performed during the outage andcompared actual exposure with forecasted estimates contained in various projectALARA plans (AP). In particular, the inspector evaluated the effectiveness of ALARAcontrols for alljobs that were estimated to exceed 5 person-rem. These jobs includedreactor vessel disassembly/reassembly (AP 11-01), steam generator (S/G) eddy currenttesting (ECT) (AP 1 1-02), and reactor vessel nozzle walk downs (AP 11-13).The inspector reviewed the ALARA plans and associated Work-ln-Progress (W-l-P)ALARA reviews for those jobs whose actual dose approached the forecasted estimate.Included in this review were the W-l-P's for cavity decontamination, reactor coolantpump seal replacement/motor maintenance, and scaffolding installation.The inspector evaluated the departmental interfaces between radiation protection,operations, maintenance crafts, and engineering to identify missing ALARA programelements and interface problems. The evaluation was accomplished by interviewing siteEnclosure 28staff, reviewing outage W-l-P reviews, and reviewing recent station radiation safetycommittee (RSC) meeting minutes. Included in this review were the actions taken by theRSC to lower outage pro.yect dose goals, as a result of lowering the plant's source termby an effective primary system cleanup.Verification of Dose EstimatesThe inspector reviewed the assumptions and basis for the OR-14 ALARA forecastedexposure. The inspector also reviewed the revisions made to various outage projectdose estimates due to a reduced source term (i.e., lower dose rates); including reactordisassembly/reassembly activities, reactor coolant pump (RCP) maintenance, and steamgenerator maintenance.The inspector evaluated the implementation of the NextEra's procedures associated withmonitoring and re-evaluating dose estimates and allocations when the forecastedcumulative exposure for tasks exceeded the actual exposure. Included in the reviewwere W-l-P reports, that evaluated the effectiveness of ALARA measures, includingsource term controls, and actions by the RSC to subsequently lower dose goals from theoriginal estimates.Additionally, the inspector reviewed the exposures for the ten (10) workers receiving thehighest doses for 2Q11 to confirm that no individual exceeded the regulatory limits orperformance indicator thresholds.Source Term Reduction and ControlThe inspector reviewed the status and historical trends for the source term. Throughreview of survey maps and interviews with the Radiation Protection Manager, theinspector evaluated recent source term measurements and control strategies. Specificstrategies being employed included use of macro-porous clean up resin, use ofsubmersible ion exchange filters in the reactor cavity, and installation ofpermanenUtemporary shielding.The inspector reviewed the effectiveness of temporary shielding by reviewing pre/postinstallation radiation surveys for selected components having elevated dose rates.Shielding packages reviewed included those placed on the RHR piping, pressurizerspray piping, steam generator penetrations, and RCP piping.Job Site InspectionsDuring plant tours, the inspector assessed the implementation of ALARA controlsspecified in APs and RWPs, performed during OR-'14. These activities include work onthe 8A RHR pump (AP 11-019) and hydrolazing SFP leak off lines. Workers werequestioned regarding their knowledge of job site radiological conditions and ALARAmeasures applied to their tasks.Problem ldentification and ResolutionThe inspector reviewed elements of NextEra's corrective action program related toimplementing the ALARA program to determine if problems were being entered into theprogram for timely resolution, the comprehensiveness of the cause evaluation, and theeffectiveness of the corrective actions. Specifically, recent condition reports related toprogrammatic dose challenges, personnel contaminations, dose/dose rate alarms, andthe effectiveness in predicting and controlling worker exposure were reviewed.Enclosure 29b. FindinqsNo findings were identified.2RS03 ln-Plant Airborne Radioactivitv Control and Mitioation (7 1 124.03)b.Inspection ScopeDuring the period May 9, 2011 through May 12,2011, the inspector performed thefollowing activities to verify that in-plant airborne concentrations of radioactive materialsare being controlled and monitored, and to verify that respiratory protection devices areproperly selected and used by qualified personnel. lmplementation of these programswas evaluated against the criteria contained in 10 CFR Parl20, applicable industrystandards, and NextEra's procedures. The documents reviewed are listed in theAttachment.Enqineerinq ControlsThe inspector evaluated the use of portable HEPA ventilation systems installed invarious plant areas during the OR-14 outage. The inspector determined that theventilation systems were located at work locations; e.9., steam generators, and the 8ARHR pump cubicle where airborne contamination could potentially occur. The inspectorreviewed testing records for portable HEPA ventilation systems to determine thatprocedural performance criteria were met.Respiratorv ProtectionThe inspector reviewed the use of respiratory protection devices worn by workers. Theinspector reviewed initial radiation survey and air sampling records for S/G nozzle daminstallations in the A through D hot and cold legs, associated RWPs, and APs todetermine if the use of respiratory protection devices was commensurate with thepotential externaldose that may be received when wearing these devices. Additionally,the inspector evaluated the use of respiratory protection; i.e., Delta Suits, for otheroutage tasks, including cavity decontamination.Problem ldentification and ResolutionThe inspector reviewed elements of NextEra's corrective action program related toimplementing the airborne monitoring program to determine if problems were beingentered into the program for timely resolution, the comprehensiveness of the causeevaluation, and the effectiveness of the corrective actions. Specifically, condition reportsrelated to monitoring challenges, personnel contaminations, dose assessments, and thereliability of monitoring equipment were reviewed.FindinqsNo findings were identified.Enclosure 302RS04 Occupational Dose Assessment (71124.04)Inspection ScopeDuring the period May 9, 2011 through May 12,2011, the inspector performed thefollowing activities to verify the accuracy and operability of personal monitoringequipment and the effectiveness in determining a worker's total effective doseequivalent. lmplementation of these programs was evaluated against the criteriacontained in 10 CFR Part.2O, applicable industry standards, and NextEra's procedures.The documents reviewed are listed in the Attachment.External DosimetrvThe inspector verified that NextEra's dosimetry processor was accredited by theNational Voluntary Laboratory Accreditation Program (NVLAP). The inspector verifiedthat the approved dosimeter irradiation categories were consistent with the types andenergies of the site's source term. The inspector reviewed NextEra's semi-annualquality control evaluation; i.e., TLD blind spiking, of the dosimetry processor.The inspector confirmed that NextEra has developed "correction factors" to address theresponse differences of electronic dosimeters as compared to thermoluminescentdosimeters.Internal DosimetrvThe inspector evaluated the equipment and methods used to assess worker doseresulting from the uptake of radioactive materials. Included in this review were bioassayprocedures, whole body counting equipment (FastScan, Chair counter, portalcontamination monitors) calibration checks and operating procedures, and the analyticalresults for 10 CFR Part 61 samples.The inspector determined that the procedural methods include techniques to distinguishinternally deposited radioisotopes from external contamination, methods to assess dosefrom hard-to-measure radioisotopes, and methods to distinguish ingestion pathwaysfrom inhalation pathways.The inspector reviewed the results from two whole body counts to assess the adequacyof the counting time, background radiation contribution, and the nuclide library used forassessing deposition. No individual exposure exceeded a committed effective doseequivalent (CEDE) of 10 mrem.Special Dosimetric SituationsDeclared Preqnant WorkersThe inspector reviewed the procedural controls, and associated records, for managingdeclared pregnant workers (DPW) and determined that no DPWs were employed duringthe outage. The inspector reviewed the procedural controls to assure compliance with10 CFR Part20.Multi-Dosimetrv MethodsThe inspector reviewed NextEra's procedures for monitoring external dose wheresignificant dose gradients exist at the work site. For OR-14, external effective doseEnclosure b.31equivalent (EDEX) methods were used to evaluate personnel exposure forinstalling/removing steam generator nozzle dams. The inspector reviewed thedosimetric results for these jobs. The inspector confirmed that in addition to the TLDsworn, workers also wore electronic dosimeters, equipped with telemetry, to assure thatdose fields were promptly monitored by radiation protection technicians.Problem ldentification and ResolutionThe inspector reviewed elements of NextEra's corrective action program related toimplementing the dosimetry program to determine if problems were being entered intothe program for timely resolution, the comprehensiveness of the cause evaluation, andthe effectiveness of the corrective actions. Specifically, condition reports related to doseassessments, personnel contaminations, and dose/dose rate alarms were reviewed.FindinosNo findings were identified.OTHER ACTIVITIESldentification and Resolution of Problems (71152 - 2 sample)Review of ltems Entered into the Corrective Action ProoramInspection ScopeAs specified by Inspection ProcedureTll52, "ldentification and Resolution of Problems,"and in order to help identify repetitive equipment failures or specific human performanceissues for follow-up, the inspectors performed a daily screening of items entered into theSeabrook corrective action program (CAP). This review was accomplished by accessingNextEra's computerized database. The documents reviewed are listed in theAttachment.FindinqsNo findings were identified.Semi-Annual Review to ldentifv Trendslnspection ScopeAs specified by Inspection Procedure 71152, "Problem ldentification and Resolution," theinspectors performed a semi-annual review of site issues to identify trends that mightindicate the existence of more significant safety issues. The inspection included areview of repetitive or closely-related issues documented by NextEra outside of thecorrective action program, such as assessment reports, trend reports, performanceindicators, major equipment problem lists, system health reports, and maintenance orcorrective action program backlogs. The inspectors reviewed the Seabrook correctiveaction program database for the first and second quarters of 2011, to assess CRswritten in various subject areas (equipment problems, human performance issues, etc.),as well as individual issues identified during the NRCs daily CR review (Section4OA2.1). The inspectors reviewed the 2011 First Quarter trend reports by the4.4c.A2.1a.b..2a.Enclosure b.32operations, security and nuclear projects departments, together with the Fourth Quarter2010 trend report to verify that NextEra was appropriately evaluating and trendingadverse conditions in accordance with procedure Pl-AA-207, "Trend Coding andAnalysis."Assessment and ObservationsNo findings were identified. The inspectors did not identify any trends that NextEra hadnot identified. The inspectors reviewed a sample of issues and events that occurred overthe past two quarters that were documented in the corrective action program. Theinspectors verified that NextEra appropriately considered identified issues as emergingtrends, and in some cases, verified the adequacy of the actions completed or planned toaddress the identified trends.NextEra noted the need for continued focus on human performance. NextEra completeda common cause evaluation for an adverse trend in human performance in Operations(CR594198) with improvements noted in the first quarter of 2Q11. During periodicmeetings with station management, the inspectors discussed NRC observations relatedto human performance. One example included the inadvertent loss of 345KV Line 394(CR 1640003) that was caused by a combination of inadequate work packageinstructions and inadequate worker knowledge of tagout conditions. Another exampleincluded the inadequate performance of a reactor coolant system (RCS) leakagesurveillance per Technical Specification 4.6.2.1.e (CR1663219), in which valve RC-V147, whose position is indicated on the main control board, remained closed for thirty(30) days. While the procedures used for the RCS leakage surveillance could beenhanced, the cause of the issue was the failure to use fundamental operator skillsduring the performance of routine duties. NextEra corrective actions include a renewedemphasis on operator fundamentals in the operator training program. NextEra continuesto address human performance site wide through procedure enhancements,management observations and a focus on procedure compliance in continuing trainingsessions.NextEra continued to focus on equipment performance and reliability. Performanceproblems with secondary plant equipment continue to challenge operators and haveresulted in the need to reduce plant power or take the turbine offline three times in threequarters (CRs 591828,1616988,1657622), as reflected in an adverse trend in the NRCPerformance indicator for Unplanned Power changes. During periodic meetings withstation management, the inspectors discussed emergent equipment issues thatimpacted safety system availability [e.9., service water system corrosion (CR1633034),EDG sequencer failure (CR1645405), A RHR pump seal leakage (CR1647943)lorimpacted the primary system boundary [e.9., Sl check valve leakage (CR1652573) andsafety valve RC-V117 leakage (CR1662418). NextEra continues to use the preventivemaintenance optimization process and the plant health committee reviews of systemhealth reports to focus on equipment issues. Self-assessments have been effective toidentify the need for additional actions to address service water system pipingdegradation (CR 1 637 922).Enclosure

=SUPPLEMENTAL INFORMATION=

NextEra Personnel

: [[contact::J. Ball. Maintenance Rule CoordinatorK. Boehl]], Health Physics Analyst

: [[contact::V. Brown]], Senior Licensing Analyst

: [[contact::K. Browne]], Operations Manager

: [[contact::W. Cox]], Radiological Engineer

: [[contact::R. Gutherie]], Plant System Engineer

: [[contact::F. Haniffy]], Senior Radiation Protection Analyst

: [[contact::E. Metcalf]], Plant General Manager

: [[contact::W. Meyer]], Radiation Protection Manager

: [[contact::M. O'Keefe]], Licensing Manager

: [[contact::M. Nadeau]], System Engineer, Control Building Air Handling

: [[contact::D. Perkins]], Supervisor, Radiation Protection Technical Services

: [[contact::M. Scannell]], Radiation Protection Technical Specialist

: [[contact::T. Vassallo]], Principal Engineer - Nuclear

: [[contact::J. Walsh]], Nuclear Steam Supply System, SupervisorAttachment

Opened:05000443/201 1003-02

: 05000443/201 1 003-03Opened and Closed:05000443/201 1003-0105000443/2011003-0405000443/201 1 003-05Closed:05000443/2515118305000443/25151184Discussed:NoneURIURINCVNCVNCVlnadequate 50.59 Screening for Design ChangeEC 272057Operability Evaluation for DegradedConcrete in ASR Affected Plant StructuresInadequate Control of Combustible MaterialsU nti mely Operability Determ i nation for Deg radedConcrete Structures Housing Safety-RelatedEquipmentI nadeq uate Operabil ity Determ i nation for Red ucedEDG HX Cooling Water FlowFollowup to the Fukushima Daiichi Nuclear StationFuel Damage Event (Section 4OA5.1)Availability and Readiness Inspection ofSevere Accident Management Guidelines(Section 4OA5.2)TITIAttachment

==LIST OF DOCUMENTS REVIEWED==

==Section 1R01: Adverse Weather ProtectionOP-AA-1 02-1002, Seasonal Readiness, Revision 0OAl.42, Operations Department - Severe Weather Plan lmplementationOS1200.03, Severe Weather Conditions, Revision 18NM11800, Hazardous Condition Response and Recovery PlanON1490.09, Summer Readiness surveillance, Revision 5ON0443.59, Yard Hydrant SemiAnnual Inspection, Revision 52011 Summer Readiness Site CertificationSBK 1==

: 1-018, Nuclear Oversight Report - Summer ReadinessCondition Report;

: 1653764, 1607562Work Order:

: 1384685, 40038436ODI 61, Redeclaration / Joint Owners & NDDO Notification Guideline, Revision 47ODI 90, 345kV Etectrical Disturbance Communication, Analysis, & Reporting Guideline,Revision 6051246.02, Degraded VitalAC Power, Revision 10Seasonal Readiness Review - System EngineeringER1.1, Classification of Emergencies, Revision 49Operations Department Turnover ReportDaily Status ReportStation Operating Logs - various

==Section 1R04: Equipment AliqnmentOS 1412.09, Rev. 7,==

: PCCW Monthly Flow CheckOX 1412.05, Rev. 8, Monthly PCCW Loop A Valve VerificationD rawi n g s 1 -CC-820205, 1 -CC- B 20206, 1 -CC-820207UFSAR Section 9.2.2 Cooling for Reactor AuxiliariesWork Orders

: 40040600, 40073132OX1416.01, Monthly Service Water Valve VerificationOX1416.06, Service Water Discharge Valves Quarterly Test and 18 Month Position VerificationSystem Health Report - Service Water SystemOperations Logs - variousPID: 1 -SW-820795, 1 -SW-820794, 1 -NHY-20247 6UFSAR Section 9.2,7.3Technical Specifications 3.7.4 Service Water System/Ultimate Heat SinkDetailed System Text - Service Water SystemPlant Engineering Action Plan RegisterOperations Logs - variousOS1013.03, Residual Heat Removal System Train A Startup and Operation, Revision2lOS1013.04, Residual Heat Removal System Train B Startup and Operation, Revision22OS1001 .1 1, Reactor Coolant System Shutdown Level, Revision 5OS1016.03, Service Water Train A Operation, Revision 11OS1016.04, Service Water Train B Operation, Revision 13OS1016.05, Service Water Cooling Tower Operation, Revision 19

==Section 1R05: Fire ProtectionFire Protection Pre Fire StrategiesFire lmpairment ListTechnical Requirement 11 Fire Rated AssembliesTechnical Requirement 12 Fire Detection InstrumentationAttachment==

: A-4UFSAR Section 9.5.1 Fire Protection SystemsUFSAR Section 13.2.2.9 Fire Protection PersonnelOS1200.004, Fire Hazards Analysis for Affected Area I Zone - Appendix AOS1200.00, Response to Fire or Fire Alarm Actuation, Revision 15NUREG 1805 Chapter 8FP 2.2, Control of Combustible Materials, Revision 13 (draft)Response to NRC Fire Protection issue 1-SS-CP-1668Fire Zone W-F-1A, 1B-Z & W-F-5-0Station Operating Logs - various

: CH 2, Visual Examination Procedure for WeldingES03-01 -27 Rev 2, PDI Generic Procedure for Manual Ultrasonic through Wall and LengthSizing of Ultrasonic lndications in Reactor Pressure VesselWelds (PDt-UT-7)ES10-01-32 Rev 00, Remote lnservice Examination of Reactor Vessel Nozzle to Safe End,Nozzle to Pipe, and Safe End to Pipe Welds Using the Nozzle Scanner(PDl-lSl-254-SE-NB, Rev 1 )ES1807.025 Rev 5, lnservice Inspection (lSl) Visual Examination Procedure (W-2)ES1807.012 Rev 6, Ultrasonic Thickness MeasurementsMA 10.3 Rev 5, Boric Acid Corrosion Control ProgramP1-AA-102 Rev 3, Non-Safety Operating Experience ProgramP1-AA-102-1001 Rev 4, Operating Experience Program Screening and Responding (tncoming)AR

: 00569156, 81 Boric Acid Leak in Outlet lsolation Valve Packing AreaAR

: 01636221, Medium to Heavy Boric Acid Leakage from RHR Pump Suction PackingAR

: 00210637, Boric Acid Leak at Packing on Valve FCV121AR 0021 9427, Boric Acid Leak from Transmitter Fitting

: RC-FT-415AR

: 00213435, Boric Acid Leak at Packing Charging Header Vent Valve 1-CS-V-836AR

: 01640609, Reactor Vessel Hot Leg Post MSIP Exam (158 degree nozzle)Examination Reports1198488, Liquid Penetrant of

: SW-1814 Joint F0104, dwg SKEC145189-20001198488, Magnetic Particle Exam of

: SW-1814 Joint F0104, dwg

: SK-EC145189-20001 1 98488, Ultrasonic Examination of SW1 81 4-1 -156-24 Thickness Report1-SW-1814-001 ,!/i'-2 Visual Examination Form, Service Water System40055977-01, Magnetic Particle Exam Data Sheet (SW) Weld F0105, 106 and 10701209165, Visual Examinat5ion (W-2) of Pressurizer Heater Sleeves1208874, Remote Visual (W-2) Examination of RPV Bare Metal Upper HeadSP-SWOL-DS01, Ultrasonic Exam of Pressurizer Spray Nozzle (Phased Array)S-SWOL-DS01, Ultrasonic Exam of Pressurizer Surge Nozzle (Phased Array)Work OrdersWO 01

: 199620 01, 1-CS-F?V-121 Overhaul Valve Replace Valve TrimWO

: 01202400 01,

: CS-V-836-B3 (Wet) Boric Acid Leak at PackingWO

: 01198488 02, Weld Repair of Salt Service Water Line lnstall Repair CapWO

: 40055977 01, Fabrication of Salt Service Welded Pipe Replacement Spool PieceWork RequestsWR

: 94002854, Boric Acid Leak at Charging Flow Control Valve

: FCV 121Attachment

: A-5WR 940d3420, Charging Header Vent Valve Boric Acid Leak

: CS-V-836WR 94002533. Fabricate and Install Reducer in Line 1814-01Salt Service WaterWeldinq Procedures (WPS) and Procedure Qualification Records (PQR)WPS ES0815.004, Manual Gas tungsten (GTAW) and Shielded Metal Arc (SMAW) Weldingof Carbon Steel to Carbon Steel (Pl to Pl )WPS ES0815.004, Manual SMAW of carbon steel to carbon steel PQR

: SBKI-8'15.004-1Weld Procedure Qualification Record GTAW/SMAW of P1 to P1 with Post Weld HeatTreatment (PWHT)PQR SBKI -815.004-2 WPS for P1 to P1 without PWHTUC 371 & 391, Welder Performance Qualification Record Review to use ES0815.004-1DrawinosSK-EC270505-2000, Installation Detail Service Water Piping Repair (SW 1814)SK-EC270505-2001, Fabrication Detail Service Water Piping Repair (SW 1814)MiscellaneousAR

: 220564, Self Assessment - Boric Acid Corrosion Control Program2010 3rd Qtr, Program Health Report - Boric Acid Corrosion Control Program2010 4th Qtr, Program Health Report - Boric Acid Corrosion Control ProgramCR 05-1 1634, Engineering Evaluation for 1-CS-FCV-121CRO1636130, UT results of SW Piping Indicates Wall ThinningCR (AR 00213435), Boric Acid Corrosion Evaluation (EDl 30560) Valve 1-CS-V-836CR (AR 210637), Boric Acid Corrosion Control ASME Bolting Evaluation 4-10-2011MSE#:05-040, Maintenance Support Evalfor Valves

: CS-FCV-121 and 1-CS-HCV-182EC145189, ASME Xl Repair/Replacement Plan Traveler Component

: SW-1814EC

: 271779 R0, Temp Installation for Repair of Section of

: SW-1814-001EDI 30560, Boric Acid Corrosion Evaluation of Valve 1-CS-V-836 Vent ValveSllR, Inservice Inspection Program Plan for 3'o Ten Year lnterval

==Section 1R11: Licensed Operator Requalification ProqramOS1000.02, Plant Startup from Hot Standby to Minimum Load, Revision 20OS1000.05, Power Increase, Revision 16OS1000.07, Approach to Critical, Revision 10OS1007.01, Automatic and Manual Rod Control, Revision 10OS1056.03, Containment Penetrations, Revision 6OS1213.01, Loss of==

: RHR While in Reduced Inventory, RevisionON1O31 .02, Starting and Phasing the Turbine Generator, Revision 26ON1031.13, Post Maintenance Turbine Startup, Revision 12RS1735, Reactivity Calculations, Revision 4ODt.101, Guarded Equipment Recommendations for Refueling Outages, Revision 5ODl.82, Mode Change Notice, Revision 15Section 1 Rl2: Maintenance EffectivenessSystem Health Report - RHR systemMaintenance Rule Performance and Scope ReportUFSAR SectionCondition Reports

: 1633034, 1636533PODs for CR1 61 2061 l

: 16324091 1633034Drawing 1-SW-820795OR14 Service Water Inspections / ResultsAttachment

: A-6OR14 Service Water Piping AssessmentAR1939781 - SW Train B Pump House InspectionWork Orders

: 0062557 1 02, 4007 8949EC272058, SW Pipe RepairsDesign Engineering Review for Service Water Pipe

: SW-1814 83 Day UT ResultsAR1637922 - DQS of Service Water Corrective ActionsSystem Health Reports - Service Water SystemPlant Engineering Action RegisterCondition Reports 2010-201 1Work Requests 2O1O-201 1Station Operating Logs - various

==Section 1R13: Maintenance Risk and Emerqent WorkOR14 Outage Schedule Initial Shutdown Risk Review Rev. 0OR14==

: SW Extent of Condition Inspection Matrix 411312011WM-AA-1000 Work Activity Risk Management Rev. 6OS 1016.1 1 Contingency Ocean Pump Restoration for SW Work Activities with OceanService Water Pumps not in Service. Revision 01UFSAR 9.2.5 Ultimate Heat SinkDrawings 1 -SW-820795, 1 -SW-B -8.20794M-Rule a(4), Risk Assessment ReportsStation Operating Logs - variousAR 1

: 1640932, 1640932wo 1

: 249348, 00626035Lift Plan and Rigging Evaluation - A RHR Pump Roof Plug and RHR motorTS - VariousRHR leak rate summaryPlant Engineering RegisterEX1801.002, Leakage Reduction Program Surveillance, Revision 9MS0523.24, Ingersoll-Rand Residual Heat Removal Pump Maintenance, Revision 7OS1213.02, Loss of RHR while Operating at Reduced lnventory or Midloop Conditions,Revision 12OS1215.05, Loss of Refueling Cavity Water, Revision 15OS1213.01, Loss of RHR During Shutdown Cooling, Revision 15OS1056.03, Containment Penetrations, Revision 6ODl.103, Conduct of Infrequently Performed Tests or Evolutions, Revision 0OD1.101, Guarded Equipment Recommendations for Refueling Outages, Revision 5Work Orders

: WO 1382815Adverse Condition Monitoring Plan for Sl-V82 dated 618111Sl-V-82 Operational Decision MakingMS0526.09, On Stream Leak Repairs, Revision 4Insulation Removal Evaluation for Sl-V-82lN93-90, Unisolatable Reactor Coolant System Leak Following Repeated Applications ofLeak SealantSection 1 Rl5: Operabilitv EvaluationsODM, Operational Decision Making for

: RC-V-117 Leak (AR 1633034)Station Operating Logs - variousAdverse Condition Monitoring PlanPlant Engineering Register -IMC ggo0, Operability Determinations and Functionality Assessments for Resolution ofDegraded or Nonconforming Conditions Adverse to Quality or SafetyAttachment

: A-7Seabrook 1 0CFR5059 Resource ManualNEI 96-07, Guidelines for 10

: CFR 50.59 lmplementation, Revision 1EN-AA-203-1001 , Operability Determinations / Functionality Assessments, Revision 5Prompt Operability Determinations for

: AR 581434, 1664399Condition Reports

: 1629282, 1664708Calculations C-S-1-10156, C-S-1-101 50, C-S-1-10155Design Change EC250348 ,

: 272057,CFR 50.59 Screen for EC272057OD/FA-11-0005, Reduced Concrete Modulus in Below Grade Walls in CEB, EHE EV, EFWPH,B DG FOST Room

 

==Section 1R18: Plant ModificationsPermanent ModificationEC12T3S, Seabrook Substation Reliability Upgrade ProjectPermanent Modification==

: EC145280, Seabrook Substation Reliability Upgrade ProjectPhase llForeign Print

: 1006065059 Screen for EC1 45280EC145280 Procedure and Training NeedsTemporary Modification EC272512,Team Inc Repair for Sl-V-82Temporary Modification

: EC 272290, Install Varistor in Panel for

: CBA-CP-177Switchyard Work Orders 01

: 384069-12, 01384069-1 4EN 10-01 -20,345KV Bus#6 System 1 TestingEN 10-01-22,345KV Switchyard Circuit Load TestLN0561.45, 345KV Bus Primary and Line Cable Differential Relay Testing & CalibrationCondition Report

: 1640003 Apparent Cause Report - Breaker 294 Open During SwitchyardModificationsSORC Meeting #11-015Condition Report

: 1652573, 1 652598IMC 9900, On-Line leak Sealing Guidelines for ASME Code Class I and 2 ComponentsEPRI Technical Report

: NP-6523-D, On-Line Leak Sealing: A guide for Nuclear Power PlantMaintenance PersonnelBoric Acid Corrosion Control ASME

: SA 453 Grade 660 Bolting Evaluation for Sl-V-82,511912011Form

: BS-72305-AR6-AR1 for 6" 1655 Swing check Valve,9t26t78Westinghouse Certification of Vendor Test Results Valve Studs & Nuts, 9128177Work Order 40086371Work Request 91W004461Team lndustrial Services Work Order 237-05131Drawing 1 -Sl-D20446, 1 -S l-25 1 - 1 3, D-048 08-837 4D 48Foreign Print 52914,

: 100630,Calculation C-S-1 -45864, Piping Qualification for Leak Repair of Sl-V-82Calculation C-S-1-10158, Sl-V-82 Injection Pressure Bolting Evaluation, Revision 0,5119111Calculation C-S-1-10158, Sl-V-82 Injection Pressure Bolting Evaluation, Revision 1,5120111

==Section 1Rl9: Post Maintenance TestinqOX1413.01, A Train==

: RHR Quarterly Flow and Valve Stroke Test and 18 Month ValveStoke Observation, Revision 16OX1456.86, Operability Testing of IST Pumps, Revision 4wo

: 620087 ,1 1 94007, 12037 97, 12037 98Attachment

: A-BAR 1 65591 0, 1

: 1642125, 1 631 81 1, 1647 943,1647949,

: 1649428,EC24938, 27 2291, 27 2303, 000246608MSE055PtD D20662Technical Specification - variousPlant Engineering Action Plan Register -Station Operating Logs - variousWO

: 40082703 Task 6.40082746Foreign Prints 31 417, 31 425, 31 61 0Foreign Print 31919, Emergency Power Sequencing SystemEPS Logic Drawing 2948-1020, Sheets 1, 3, 4, 6, 10OX1426.34, Diesel Generator 1A 18 Month Operability SurveillanceOX1401 .04, Reactor Coolant system Pressure lsolation Valve Leakage Rate Tests, Revision 0DCR 98-039, CBA Replacement ProjectCondition Report

: 1645405 - DG A EPS Did Not Fully SequenceFailure Investigation Process for DG A EPS (AR1645405)Seabrook Train A Emergency Power Sequencer Troubleshooting

==Section 1R20: Refuelinq and Outaqe ActivitiesAction Request 1640003Clearances==

: MTO, 1 -CC-V-1 1 12, 1-CC-V-1092Control Room Narrative LogsCondition Reportsand Repair, 515111Engineering Evaluation

: EE-1 1-02, OR14 Outage Schedule Initial Shutdown RiskForeign Print98727 - Reactor Vessel Outlet Nozzle DM Weld Flaw Evaluation inMain Control board and MPCS Plant Parameter Displays and TrendsMSIP Configuration (AR1 644106), 4121 11 1Mode Change Report Mode 6 to Mode 5Mode Change Report Mode 5 to Mode 4Mode Change Report for Modes 3,2, 1Open Condition Reports and Actions with Mode RestrictionsOperations Component Deviation Log - various datesOutage and Operations Department Turnover SheetsMS0504.15, Reactor Vessel Upper Internals Assembly Installation, Revision 12MS0504.16, Upper Internals Installation, Revision 11OD1.101, Guarded Equipment Recommendations for Refueling Outages, Revision 5ODl.82, Mode Change Notice, Revision 15OM-AA-O4, OR14 Scope Change Meeting ReportOM-AA-04, Plant Readiness for Operations, Revision 2ON1031.02, Starting and Phasing the Turbine Generator, Revision 26ON1031.13, Post Maintenance Turbine Startup, Revision 12OP-AA-103-1000, Reactivity Management, Revision 0OR14 Mode Hold / Milestone Report, 412512011OS1000.02, Plant Startup from Hot Standby to Minimum Load, Revision 20OS1000.03, Plant Shutdown from Minimum Load to Hot Standby, Revision 18OS1000.04, Plant Cooldown from Hot Standby to Cold Shutdown, Revision 30OS1000.05, Power Increase, Revision 16OS1000.06, Power Decrease, Revision 15OS1000.07, Approach to Critical, Revision 10OS1000.09, Refueling Operation, Revision 14Evaluation. 3118111the PostAttachment

: A-9OS1000.12, Operation with RCS at Reduced Inventory/Midloop Conditions, Revision 9OS1000.14, Reactor Coolant system Evacuation and Fill, Revision 10OS1007.01, Automatic and Manual Rod Control, Revision 10OS1001 .1 1 , Reactor Coolant System Shutdown Level, Revision 5OS1013.03, Residual Heat Removal System Train A Startup and Operation, Revision 21OS101 4.02, Operation of Spent Fuel Cooling and Purification System, Revision '15OS1015.05, FuelTransfer System and Upender Operation, Revision 7OS1015.07, Spent Fuel Bridge Assembly Operation, Revision 16OS1015.1 8, Setting Containment Integrity for Mode lV Entry, Revision 6OS1056.03, Containment Penetrations, Revision 6OS1213.01, Loss of RHR While in Reduced Inventory, RevisionRD0717, Automated EXCEL Core Offload Tracking, Revision 0RS0721, Refueling Administrative Control, Revision 9RS1735, Reactivity Calculations, Revision 4Technical Specification 3.9Technical Specification and Commitment LogsWO

: 01203652, Containment and Containment Spray Recirculation Sump Surveillance, SlllllWork Order

: 1209198,Station Operating Logs - variousSection 1 R22: Surveillance TestinqEE 11-003, Containment Spray System Spray Nozzle Test Surveillance FrequencyModificationwo

: 40049337 ,01 21 051 23,

: 01209191, 01 2091 90, 01 2091 99, 01 2091 98, 01203722Calc C-S-1-50006,Specification 9763.006-238-5 Primary Component Cooling Water PumpsAR

: 1645405,DBD-ESF-1, Engineered Safety Features Response Times, Revision 1Technical Specifications 3.4.6.2.f ,4.5.2.e and 4.0.5OR14 Local Leak Rate Test Summary, 412812011RE1707-B-R, Shutdown Margin Verification , 5117111Subcritical Rod Worth Measurement Data Analysis System Results 511712011Westinghouse Letter

: NAH-1 1-42, Cycle 15 Subcritical Physics Testing, 611612011Westinghouse Letter

: WCAP-16260-P-A, 4115l20OBWCAP-16260-P-A, The Spatially Corrected Inverse Count Rate (SCICR) Method for SubcriticalReactivity Measurement, September 2005Station Operating Logs - variousSection 2RS01: Radioloqical Hazard Assessment and Exposure GontrolsHD0958.03, Personnel Survey and Decontamination TechniquesHD0958.04, Posting of Radiologically Controlled AreasHD0958.17, Performance of Routine Radiological SurveysHN0958.25, High Radiation Area ControlsHD0958.30, Inventory and Control of Locked or Very High Radiation Area Keys and LocksetsCondition Reports

: 1640268,1650347 ,

: 639705,1 651 585,

: 1651072, 1 651 584Attachment

: A-10Section 2RS02: Occupational ALARA Planninq and ControlsRP-AA-1 04, ALARA ProgramRP-AA-1 04-1 000, ALARA lmplementing ProcedureRP-AA-1 01-2004, Method for Monitoring and Assigning Effective Dose Equivalent forHigh Dose Gradient WorkCondition Reports: See Section 2RS01Section 2RS03: In-Plant Airborne Radioactivitv Gontrol and MitiqationHD0955.01, Analysis of Smears and Air SamplesHD0958.01, Air SamplingHD0965.12, Respiratory Protection lssue and UseCondition Reports: See Section 2RS01Section 2RS04: Occupational Dose AssessmentHD0955.54, Operation of the TSA Model

: SPM-906 Portal MonitorHD0955.62, Use of the Argos 4AlBHD0958.1 9, Evaluation of Dosimetry AbnormalitiesHD0958.27, Dose Assessment for Personnel ContaminationsHN0958.39, Multi-Badge Control & Exposure TrackingHD0958.41, Blind Spiking of TLDsHD0958.42, Determination and Controlof Dose to an Embryo/FetusHD0958.49, Response Protocols for Whole Body Counting and Personnel ContaminationMonitoringHD0961.29, Internal Dosimetry AssessmentHD0963.28, Calibration and Troubleshooting of MGP Instruments

: DMC 2000 DosimetersHD0992.02, lssuance and Control of Personnel Monitoring DevicesRP-AA-1 01-2004, Method for Monitoring and Assigning Effective Dose Equivalent forHigh Dose Gradient WorkCondition Reports: See Section 2RS01Miscellaneous Documents:NVLAP Certification Records, Personnel Dosimetry Performance TestingAnnual Review Report of the 2010 10 CFR Part 61 Radionuclide AnalysisElectronic Dosimeter Dose/Dose Rate Alarm Reports, January - May 2011Top Ten Individual Exposure Records for 2Q11Portable HEPA Inventory & Test RecordsEPRI Standard Radiation Monitoring Program Data Summary for primary pipingReactor Coolant System

: OR-14 Clean Up DataNuclear Oversight Field Observation

: OR-14 Daily Quality Summary ReportsHPSTID 09-01 1, Use of Effective Dose Equivalent for Steam Generator Nozzle Dam WorkHPSTID 08-13, Calibration of the FastScan WBC SystemOR-14 ALARA Plans (AP)fuVork-ln-Prooress (WlP) Reviews:AR 1 1-01, reactor vessel disassembly/re-assemblyAR 1 1-02, steam generator (S/G) eddy current testing/tube pluggingAR 11-03, S/G secondary side maintenanceAP 1 1-11, scaffolding Installation/RemovalAP 1 1-13, reactor vessel bare metal visual inspectionsAttachment

: A-11ACIADAMSALARAAMSAPARASMEASRBACCCAPCB/ETCEBCEDECRDGDPWECTEDEXEDGEFWFBLFHBFPPGTAWHEPAIMCIPtslLHRAMRMSIPMTNCVNDENFPANRCNVLAPORODODsOMPABPARSPCCWPDIPMTPOD

American Concrete InstituteAgency-wide Documents Access and Management SystemAs Low As is Reasonably AchievableAirborne Monitoring SystemALARA PlansAction RequestAmerican Society of Mechanical EngineersAlkali-silica ReactionBoric Acid Corrosion Control (Program)Corrective Action ProgramControl Building/Electric TunnelContainment Enclosure BuildingCommitted Effective Dose EquivalentCondition ReportDiesel GeneratorDeclared Pregnant WorkersEddy Current TestingExternal Effective Dose EquivalentEmergency Diesel GeneratorEmergency FeedwaterFire Brigade LeaderFuel Handling BuildingFire Protection ProgramGas Tungsten Arc WeldingHigh Efficiency Particulate AirInspection Manual ChapterInspection ProcedureIn-service InspectionLocked High Radiation AreasMaintenance RuleMechanical Stress lmprovement ProcessMagnetic Particle TestNon-cited ViolationNon-Destructive ExaminationNational Fire Protection AssociationU.S. Nuclear Regulatory CommissionNational Voluntary Laboratory Accreditation ProgramOutage for RefuelingOperability DeficiencyOperability DeterminationsOperations ManagementPrimary Auxiliary BuildingPublicly Available RecordsPrimary Component Cooling WaterPerformance Demonstration InitiativePost-maintenance TestingPrompt Operability DeterminationAttachment

: [[PQRPTA]] [[-12Procedure Qualification RecordPenetrant TestPressurized Water ReactorReactor Coolant PumpReactor Coolant SystemResidual Heat RemovalReactor Pressure VesselRadiation Safety CommitteeRadiation Work PermitSevere Accident Management GuidelinesStation BlackoutSignificance Determination ProcessSpent Fuel PoolSteam GeneratorShift ManagerShielded Metal Arc WeldingSpent Fuel PoolScintillation Portal MonitorSubcritical Rod Worth MeasurementStructures, Systems or ComponentsService WaterService Water PumpTemporary InstructionThermolum inescent DosimeterTechnical SpecificationsUpdated Final Safety Analysis ReportUltrasonic TestingVery High Radiation AreaVisual TestWork-ln-ProgressWork OrderWeld Procedure SpecificationWork RequestPWRRCPRCSRHRRPVRSCRWPSAMGSBOSDPSFPSGSMSMAWSPFSPMSRWMSSCSWSWPTITLDTSUFSARUTVHRAVTW-I-PWOWPSWRAttachment]]