| number = ML20198R787

| issue date = 06/05/1986

| title = SALP Rept 50-443/86-99 for Jan 1985 - Mar 1986

| author name =  

| author affiliation = NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION I)

| addressee name =  

| addressee affiliation =  

| docket = 05000443

| document report number = 50-443-86-99, NUDOCS 8606100210

| package number = ML20198R772

| document type = SYSTEMATIC ASSESSMENT OF LICENSEE PERFORMANCE, TEXT-INSPECTION & AUDIT & I&E CIRCULARS

| page count = 42

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U.S. NUCLEAR REGULATORY COMMISSION

==REGION I==

MAY 14, 1986 8606100210 860605 3 ADOCK 0500 gDR t

O i

l SUMMARY TABLE 3 - ENFORCEMENT DATA i

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l l INTRODUCTION 1 Purpose and Overview   l l

The Systematic Assessment of Licensee Performance (SALP) is an integrated NRC staff effort to collect the available observations and data on a periodic basis and to evaluate licensee performance based upon this in-formation. SALP is supplemental to normal regulatory processes used to ensure compliance to NRC rules and regulations. SALP is intended to be sufficiently diagnostic to provide a rational basis for allocating NRC resources and to provide meaningful guidance to the licensee's management to promote quality and safety of plant construction and operatio An NRC SALP Board, composed of the staff members listed below, met on May 14, 1986 to review the collection of performance observations and data and to assess the licensee performance in accordance with the guid-ance in NRC Manual Chapter 0516, " Systematic Assessment of Licensee Per-formance". A summary of the guidance and evaluation criteria is provided in Section II of this repor This report is the SALP Board's assessment of the licensee's performance at the Seabrook Station for the period January 1, 1985 through March 31, 1986. This SALP differs significantly from previous Seabrook Station assessments. For the entire assessment period, Unit 2 has been in an

" indeterminate" status with licensee work confined to preventive main-tenance, preservation and protection activities and the construction completion required to support Unit 1 operatio Therefore, licensee performance related to Seabrook Unit 2 has not been assessed, although some inspection (See fiote in Table 2) has been performed of licensee efforts with regard to Unit Also, construction related activities have been combined into one functional area with emphasis not so much on the individual disciplines, but more upon constuction completion and readiness for operation. New functional areas were added to address other plant operations and readiness aspects of licensee performanc SALP Board:

E. Wenzinger, Chief, Projects Branch No. 3. DRP T. Elsasser, Chief, Reactor Projects Section 3C, DRP V. Nerses, Project Manager, PWR Project Directorate 5, NRR A. Cerne, Senior Resident Inspector

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Other Attendees W. V. Johnston, Deputy Director, DRS J. R. Johnson, Chief, Operational Programs Branch, DRS W. J. Lazarus, Senior EP Specialist, DRSS J. R. McFadden, Radiation Specialist, DRSS D. Ruscitto, Resident Inspector M. M. Shanbaky, Chief, Facilities Radiation Protection Section, DRSS R. W. Starostecki, Director, ORP (Part Time)

C. Background Public Service Company of New Hampshire (PSNH) applied for a license to construct and operate the Seabrook Station (DNs 50-443 and 50-444) on July 9,1973, and was issued Construction Permits (CPPR-135 and CPPR-136)

on July 7,1976. Each reactor is a Westinghouse four-loop, PWR rated at 1198 MWe and is housed in a reinforced concrete containment structur The units are arranged using a " slide-along" concept with certain struc-tures common to both units. PSNH has contracted with the Yankee Atomic Electric Company (YAEC) for services which include project administra-tion, facility design control, construction coordination, quality assur-ance, and licensin For the purpose of this report, these YAEC services are considered synonymous with PSNH activitie On June 23, 1984 the New Hampshire Yankee Division (NHY) of PSNH was created with the primary responsibility for construction of Seabrook Station. While some of the organizational interfaces and responsibili-ties between PSNH and YAEC have been restructured to accommodate the formation of NHY, at this time, PSNH continues to retain overall re-sponsibility for all activities related to Seabrook, as is specified in the Construction Permits. Proposed organizational changes seeking to name the New Hampshire Yankee Electric Corporation (i.e., NHY incorporated and separated from PSNH) as the new managing agent for Seabrook Station have not yet been effected. Thus, use of the generic term (" licensee")

in this SALP currently constitutes recognition of not only the ultimate responsibility of PSNH, but also the specific dutie's of both NHY and vAE Licensee Activities At the beginning of this SALP assessment period, the licensee pro-jected Unit 1 construction to be 83'. complete. The site work force, still building up from the 1984 work suspension, numbered about 2500 personnel, 1400 of whom were craft. As construction continued, priorities were directed to the support of preoperational testing and the completion of major milestone activitie In this regard, major testing progressed through the period with the conduct of the Reactor Coolant System Hydrostatic Test in April, 1985; Hot Func-tional testing during November, 1985; and Engineered Safety Features

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testing, Loss of Offsite Power testing and the Containment Struc-tural Integrity and Integrated Leak Rate testing in early 198 Additionally, six plant buildings were completed and turned over to the control of the plant staf By the end of the assessment period, only 3% of the plant systems remained in a construction status awaiting turnover to the startup test staf The remaining construction work, not yet substantially complete, includes insulation and fire sealant installation, paint-ing, activities in support of the remaining preoperational testing, building turnover, and design modification rewor Preservice in-spection, ASME Code stamping, and piping and pipe support stress reconciliation programs are also continuing. The construction work force, as of March 31, 1986 was approximately 3500 personnel, about 2200 of whom were craft. The licensee estimates Unit 1 to be 98%

complet Other licensee activities during this SALP period included continued operator licensing, emergency preparedness, and operational readiness planning and program reviews. New fuel was initially received on site in February, 1986 and an Emergency Orill, exercising NRC, the State of New Hampshire and licensee response, was also conducted in February, 1986. As of March 31, 1986, a station staff in excess of 500 personnel, in addition to a New Hampshire Yankee corporate staff, were in residence at the Seabrook sit The licensee projects a Fuel Load Date (FLD) of June 30, 1986 for Seabrook Unit b. Inspection Activities Two NRC resident inspectors were assigned throughout the assessment period with a third inspector assigned on site since May, 198 A total of 53 inspections were performed with 7912 hours dedicated to the inspection of Unit 1 activities. This corresponds to 6330 hours on an annualized basis. An additional twelve hours were utilized to confirm licensee preventive maintenance, preservation and protection efforts on Unit NRC inspections conducted during this SALP period are functionally categorized below, with the five types of team inspections listed separately by their unique scop Region e !_ Specialist __ Inspections Number Construction  8 Preoperational Testing  15 Fire Protection  2 Operational Readiness  4 Radiological Controls  3 Security   3 Emergent.y Preparedness (EP)  1

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Operator Licensing 2 Resident Inspections  9 Team Inspections Management Reorganization  1 NDE Independent Measurements  1 EP Appraisal  2 Safe Shutdown (Appendix R)  1 As-Built Plant  1 The nine resident inspections noted above represent continuous on-site coverage of licensee activities throughout this assessment period. A distribution of inspection hours, by functional area is shown in Table Enforcement data, resulting from these inspection activities, are summari:ed in Table This report also discusses the " Assurance of Quality" as a separate functional area. Although this topic is assessed in the other func-tional areas as one of the evaluation criteria, discussion of this ar 1 separately provides a synopsis. For example, quality assurance effectiveness has been assessed on a day-to-day basis by resident inspectors and as an integral aspect of specialist inspection Although quality work is the responsibility of every employee, one of the management tools to measure this effectiveness is reliance on quality assurance inspections and audits. These and other major factors that influence quality, such as involvement of first-line supervision, safety committees and worker attitudes, are discussed in each area, c. Other Activities An NRC Caseload Forecast Panel visit to Seabrook was conducted on September 4-5, 1985 to assess the status of Unit 1 constructio Their review found the June 30, 1986 fuel load date (FLD) to be reasonable, but recognized that funding and schedular uncertainties, known to exist at that time, made the achievement of fuel load dur-ing the third quarter of CY 1986 more likel It is noted that subsequent to the Caseload Forecast Panel visit to Seabrook, the joint owners of Seabrook Station voted to authorize full-construction funding and proceed with all scheduled construc-tion activities, effective October 1, 198 The EPA permit, granting final approval for use of the ocean cooling tunnels, became effective August 25,198 Testing of the circulat-Ing water system commenced that same da s

The NRC Special Nuclear Materials License No. SNM-1963 (Docket N ), authorizing the receipt, possession, inspection and stor-age of fuel assemblies and other radioactive materials for eventual use at Seabrook Unit 1, was issued on December 19, 198 Initial fuel receipt and storage on site, in accordance with the provisions of the 10CFR70 license, commenced in Febraury,198 A Prehearing Conference for the EP phase of the ASLB hearings was conducted in Portsmouth, New Hampshire on March 25-26,1986. In accordance with the ASLB Memorandum and Order, dated January 17, 1936, the hearings for New Hampshire Offsite Emergency Planning Contentions are scheduled to commence on July 21, 198 The " Proof & Review" edition of the Seabrook Technical Specifica-tions (TS) was issued for comment in late March,1986. The licen-see, Region I and the Office of NRR are currently involved in re-view activities for TS conformance to FSAR commitments, plant-specific as-built conditions, and operational safety consideration .

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II. CRITERIA Licensee performance is assessed in selected functional areas, depending on whether the facility is in the construction, preoperational, or operating phase. Each functional area normally represents areas significant to nuclear safety and the environment, and are normal programmatic area Special areas may be added to highlight significant observation The following evaluation criteria, where appropriate, were used to assess each functional are . Management involvement and control in assuring qualit . Approach to resolution of technical issues from a safety standpoin . Responsiveness to NRC initiative . Enforcement histor . Reporting and analysis of reportable event . Staffing (including management). Training and qualification effe:tivenes Based upon the SALP Board assessment each functional area evaluated is clas-sified into one of three performance categorie Tne definitions of these performance categories are:

Category Reduced NRC attention may be appropriat Licensee management attention and involvement are aggressive and oriented toward nuclear safety; licensee resources are ample and effectively used so that a high level of performance with respect to operational safety is being achieve Category 2. NRC attention should be maintained at normal levels. Licensee management attention and involvement are evident and are concerned with nuclear safety; licensee resources are adequate and reasonably effective so that satisfactory performance with respect to operational safety is being achieve Category Both NRC and licensee attention should be increased. Licensee management attention or involvement is acceptable and considers nuclear safety, but weaknesses are evident; licensee resources appear to be strained or not effectively used so that minimally satisfactory performance with respect to operational safety is being achieve The SALP Board also assessed each functional area to compare the licensee's performance during the last quarter of the assessment period to that during the entire period in order to determine the recent trend for each functional area. The trend categories t. sed by the SALP Board are as follows:

Improving: Licensee performance has generally improved over the last quarter of the current SALP assessment perio Consistent: Licensse performance has remained essentially constant over the last quarter of the current SALP assessment perio Declining: Licensee performance has generally declined over the last quarter of the current SALP assessment perio Notwithstanding the allowance permitted by a Category 1 rating to reduce NRC attention, NRC oversight at Seabrook Station will be maintained at a high level if a low power license is issue Due to the nature and scope of acti-vities conducted during low power testing and power ascension, it is NRC policy that close scrutiny be provided for- the first two years of operatio Subsequent SALP evaluation will therefore be done on a 12 month frequency ir-respective of the good performance noted in this repor _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _

. . . - _ .  -.  - - - - -- - . . . -. . _ -

..

during this period was far in excess of that of previous SALP period An evaluaticn of a broad spectrum of licensee activities was necessary because of the nature of ongoing construction completion, preoperational

;  on improving those areas identified in the previous SALP period as poten-tial problems. As a result, only minor problems were observed during i  the period.

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Regsrding operational preparedness, thorough planning and a high level of management attention to the readiness of plant hardware, programs, a'nd procedures are very' much in evidence. Licensed operator training and the preparation and receipt of new fuel are noteworthy examples of the effectiveness of the licensee's programs. Also, the licensee's de-velopment of the security program represents effective management plan-ning to integrate ekperienced staff supervisors with a trained contract i  security forc In summary,'where operational programs have been imple-mented, the quality exhibited during construction appears to have carried oser during the transition pro ~ cess from construction into operation While licinsee responsiveness to op'erational issues has been appropri-ately directed, it should be noted that these programs are still under developmen Future inspection and assessment of the full program im-plementation will provide an ongoing mea'sure of their effectivenes At Seabrook Unit I now enters a new phase of program development, im-

;  plementation, and work priorities, this oVerall facility evaluation should be considered both a positive reflection of past licensee per-

,   formance, as well as an indicator of licensee potential for continued performance at a high level during the operational phas eY I

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    . . _ - _ . , . , . - _ _ . , . . - _ _ ,- ,. _ _ . _ _ . , _ - - _ ,

9 Facility Performanco CATEGORY CATEGORY LAST THIS PERIOD PERIOD (7/1/83- (1/1/85- RECENT FUNCTIONAL AREA  12/31/84) 3/31/86) TREND *

Construction  2 1 Consistent Preoperational Testing  1 1 Consistent Fire Protection and Housekeeping N/A 1 Consistent Operational Readiness  N/A 1 Consistent Emergency Preparedness  N/A 2 Improving Assurance of Quality  1 1 Consistent (See Trend at the end of Section IV.F)

Licensing  2 1 Consistent

  * Trend during the last quarter of the current assessment period.

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t IV. PERFORMANCE ANALYSIS Construction (3788 hours, 48%) Analysis During the previous SALP assessment period, the following functional construction areas were evaluated and rated separately: Containment,

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ment in the piping systems & supports area, but declining trends in the electrical and instrumentation areas because of apparent programmatic problems. Management attention to routine problems I  (e.g., housekeeping) was solicited to: (1) correct deficiencies,

area. During the previous SALP period it was also noted that posi-

tive steps had been taken in the way of a project restructuring and organizational realignment to eliminate some of the interface and control difficulties which had been identified as the root cause  :

During this current assessment period all construction disciplines have been combined under one functional area. In recognition of both the management reorganization, which started during the pre-vious SALP period, and the problems raised by the previous SALP, i  a Construction Team Inspection (CTI) was conducted in June, 1985

: to assess the effectiveness of the resumption of construction acti-l  vities under the new site organizatio Particular inspection

viously been' identified. The results of this CTI (three violations, three weaknesses, and three strengths) provided no indication of programmatic deficiencies. In fact, the s!te management organiza-

tion (i.e., the area directed by the CTI trape to be the focal point of inspection effort) was identified as a 1.,.!nsee program strength.

, The CTI findings, when analyzed in conjunction with the enforcement

data and negative observations from other construction inspections, appear to share one common attribute -- while process control, documentation, and identification failures were identified, these

,  problems / errors did not appear to lead to an adverse impact on the hardware itself. It is noted that of the seven enforcement items

was found to result from deficient construction.

with design requirements and licensing commitments appears to be i  corroborated also by another more recent CT In March, 1986, an

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. - - - _- . - - = _ ._ _ - - - - _ . - .

Seabrook Unit I was constructed in substantial agreement with the FSAR. Additionally, an NRC independent measurements inspection of 68 weldments, utilizing the Region I Mobile Nondestructive Examina-

i hardware problem The NDE van inspection in July, 1985 did document some concerns re-i garding the conduct of the Preservice Inspection (PSI) program at Seabrook Unit 1. An unresolved item was written to track several i

  ; adequate licensee resolution to most of these questions. A recent, joint NRR/ Region I inspection of a demonstration of the UT technique planned for the loop cast SS elbows revealed not only technical acceptability, but responsiveness on the part of the licensee. The basic concerns regarding the PSI program, as raised by the NDE van inspection, have since been closed, although NRC follow-up of two specific items remains.

j As in the case of the PSI issue, other NRC inspections in this func-

  , tional area have raised questions more of a program and process i

control nature, than of the identification of' improper constructio Such issues include the improper usage of selected revisions of ASME Code Cases, failure to implement commitments to Regulatory Guide i (RG) 1.97, and the questionable adequacy of criteria for final building verification and cable tray testing qualification. For all of these items, licensee action to address the concerns has been j complete and responsiv For example, when problems were identified with the licensee adop-

tion and documentation of certain ASME Code Cases, not only was a

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project position on ASME Code Case adoption and usage announced and disseminated, but also a complete review of all past and present

Code Case usage was initiated. Both design and procurement speci-fications were checked. Such comprehensive corrective action was followed through by the licensee even though no evidence of material or construction defects existed as a result of the identified im-proper Code Case usag In fact, licensee completion of their in-vestigation, with subsequent NRC review, revealed the lack of any adverse hardware impac "

provided sufficient opportunity for the inspection of electrical and instrumentation activities, not only because by nature such work

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I is prevalent during the later stages of construction, but also be-cause the previous SALP had raised some concerns in these area Thirteen NRC inspections examined either in process or as-built work in these disciplines. Additionally, NRC team inspections reviewed such activities in conjunction with the scope of the CTI objective While some violations were identified, the overall findings of the NRC inspection effort into the electrical and instrumentation dis-ciplines confirmed the general effectiveness of licensee corrective measures initiated during the latter part of the previous SALP period. Analysis of all the inspection items, not just enforcement

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data, indicates a consistent theme of concerns with process and design control issues with no evidence that the questioned controls had resulted in incorrect construction. While some of these issues but remain open, licensee actions to address the questions appear to be pointed in the proper directio Similarly, an analysis of the CDRs (See Table 1) reported during

this assessment period reveals no real trend of programmatic defi-ciencies in this construction functional area. NRC review of in-1  terim and final 10CFR50.55(e) reports, as applicable, and involve-1   ment in the in process troubleshooting of several of these defi-j ciencies has confirmed adequate liaison with the vendors and working

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interfaces among engineering, construction, and test personnel to expeditiously solve the known problem as well as investigate any generic impac Thus, in summary of the assessment of construction activities, sig-nificant NRC inspection effort has identified few hardware defi-ciencies and the licensee appears to have adequate control over their self-identified construction problems. While some concerns over process controls were noted, they appear to have received ade-quate licensee attention. One CTI near the beginning of the as-sessment period evaluated construction management and programs, while another CTI at the end of the period examined the as-built plant hardware. These team inspections, in concert with resident and specialist inspections over the course of the entire SALP period,

verified implementation of a generally effective construction man-agement program with resultant evidence of quality hardware, mate-

rial, components and system !

2. Conclusion Rating: Category Trend: Consistent 3. Board Recommendation Non ,

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B. Preoperational Testing (2451 hours 31%) Analysis During the last assessment period, preoperational test activities were just commencin NRC review of the preoperational test pro-gram verified adequate controls and program direction. One specific problem area was noted in that unauthorized work activities on com-ponents under the jurisdiction of the Startup Test Department (STD)

were identified. The licensee responded with programmatic correc-tive action. A high level of performance was maintained in this area during the previous SALP period; however, this assessment was based upon a limited NRC inspection effort.

, Over the course of the current assessment period, the bulk of pre-operational testing for Seabrook Unit I was accomplished. NRC in-spections devoted effort to the witnessing of tests in progress and the review of approved test procedures and test results. Signifi-cant tests conducted and witnessed by the NRC during this time period

Test- (HFT), the Engineered Safety Features (ESF) and Loss of Offsite Power (LOP) tests, and the combined Structural Integrity Test (SIT)

and Containment Integrated Leak Rate Test (CILRT). It is noteworthy that all of these tests, also being major schedular milestones, were provided significant management oversight to ensure conduct in con-cert with schedular presssures and other construction prioritie Despite a situation where the pressure for progress might be per-ceived to be contrary to the quality objectives of the test program, the subject tests were performed, witnessed and reviewed with generally outstanding results.

exceptions being noted and the RCS hydro identified only one RCS boundary leak (other than the expected flanged joints) in an in-strument tub NRC questions on ESF testing have been raised with regard to valve interlocks and safety-injection "S" signal reset design, but in each case the conduct of the test was found to agree with the system design, as stated in the FSAR. Thus, the NRC con-cerns related to design, not testing, issues. Similarly, for other

testing activities (e.g., diesel generator operation), the problems that have arisen provided validation of the test objective itsel STD troubleshooting of some diesel generator air start problems

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This evaluation corroborates the finding of a minimal number of actual hardware problems identified in the construction area. Lic-ensee performance in this area reflects aggressive management in-volvement and serves as an impetus for and the STD to sustain such a level of testing performance as construction is completed and operations and the startup testing phase commence . Conclusion Rating: Category Trend: Consistent 3. Board Recommendation Non _

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C. Fire Protection and Housekeeping (296 hours, 4%) Analysis This area was not evaluated during the previous SALP period, al-though some housekeeping concerns were raised as they impacted the acceptability of safety-related component During this assessment period, a Region I team inspection was per-formed to evaluate the licensee's efforts to comply with the re-quirements of 10CFR50, Appendix R, concerning fire protection fea-tures necessary tc ensure the ability to achieve and maintain safe shutdown in the event of a fir Two Region I specialist inspec-tions into the Fire Main Loop installation and the readiness of th Fire Protection Program, particularly as it related to fuel receipt onsite, were also conducted. Additionally, routine resident in-spections have examined fireproof coating material applications, fire sealant installation, and cable separation and routing activi-ties. Housekeeping, as appropriate to the status of the Unit 1 plant conditions during construction, testing and building turnover to the plant staff, were observed during random plant inspection-tour Electrical separation concerns have been raised during both this and previous SALP periods. Where nonconforming conditions have been identified (e.g., less than six inch wire spacing internal to panels), the licensee had committed to corrective rework to retrain and separate the cables / wires or install barriers, as required by the applicable IEEE Standard However, a recent licensee submittal to NRR of an " Analysis of Electrical Separation Criteria for Sea-brook Station" establishes the basis for the adoption of certain new separation criteria at Seabrook, as determined by analysis and testin Thus, previous long-standing commitments for the correc-tion of electrical separation deviations need not be implemented if NRR approves the licensee proposal to relax the separation cri-teria, based upon site-specific testing. Similarly, the Region I team inspection identified two Appendix R exemptions in the areas of emergency lighting and the reactor coolant pump oil collection syste Each of these exemptions requires further NRR review to determine the acceptability of the plant design and to resolve the open inspection item Generally, with respect to the Appendix R team inspection at Sea-brook, both the corporate and site management were found to be ag-gressively pursuing fire protection issues to their proper resolu-tio The licensee's fire hazard analysis was thorough and detaile The licensee has made several modifications to achieve compliance with Appendix R, Section III.G separation requirements. The licen-see also had many redundant means of achieving a plant safe shutdown in the event of a fire, including two redundant Remote Shutdown

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portions of the procedures to safely shut down the plant. Walkdowns have further demonstrated that procedures were well planned and adequate procedural training was given to the operator The inspections team's conclusion was that the licensee's fire pro-tection program, when fully completed and implemented, will be ade-quate for its intended purpose. A major contributing factor is the rapport maintained by the fire protection staff and management and the increased awareness of the plant's personnel of fire protection concerns. Other NRC inspections of fire protection at Seabrook have confirmed this conclusion, even though one apparent deviation from FSAR commitments was identified. The installed Fire Loop hydrant isolation valves had not been procured as U.L. listed components, as was committe The licensee, however, provided a comparison of the installed valves with similar U.L.-listed valves and demon-strated that the existing valves are acceptable for their intended service. Another inspection item identified a discrepancy between the SER and actual plant design with respect to the inability to

start the fire pumps from the control room. This issue is being pursued by the licensee with the Office of NR With respect to housekeeping at Seabrook Unit 1, both NRC CTIs (discussed in Section IV.A of this report) noted acceptable levels of site cleanliness. Resident inspections have noted that the ac-ceptability of site housekeeping appears to be dependent upon the status of plant activities; construction areas require continual attention, buildings turned-over to the plant staff appear to be

been adequately addressed by plant management. Continued attention to this area, as well as to the resolution of the noted fire pro-tection licensing issues with NRR, is necessary to provide a con-sistency to the licensee's approach to fire protection as the plant

,

4 Board Recommendation Non .. _ -

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, D. Operational Readiness (743 hours, 9%) Analysis 5 This functional area was evaluated in the previous assessment period only from the perspective of Operator Licensing. In that area, a

of SR0/R0 candidates in their initial licensing examinations. Dur-i ing the current SALP period, the-functional area of Operational Readiness has been expanded to include consideration of procedures and staffing, radiological controls, and security, in addition to operator licensing. Analysis of each of these areas is discussed separately belo . Procedures and Staffing i  During the current SALP period four separate Region I inspec-  i

ment to have the Fuel Building and the appropriate fuel hand-ling and storage systems completed and tested prior to new fuel receipt onsite was noted. Scheduled fuel receipt was first delayed to allow time to meet such a commitment and subse-

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strative procedures all resulted in a finding of adequate pro-gress and proper direction by the licensee operations staff in addressing proper quality controls and generic industry in-itiatives. The status of operating and emergency procedures was not amenable to inspection during this assessment period, since most procedures were still in draft form. However, it was noted that the operating personnel had utilized these pro-cedures, where appropriate, during the conduct of preopera-tional testing, to troubleshoot procedural problem area While the development of operating procedures is dependent upon Technical Specification approval, management attention to their program for operating procedure issuance is warranted to provide not only a generic site perspective on the way regulatory guidance (e.g., NUREG-0737) is to be handled, but also assurance that these procedures can be reviewed and edited in a timely manner relative to the licensee fuel load dat In the same vein, licensee actions to demonstrate compliance with NUREG-0737 commitments have not been timely, as sufficient progress on certain TMI Action Plan requirements had not been made by the end of this assessment period. Licensee management attention was directed to this area, and since the end of the assessment period, greater progress appears evident. Continued management responsiveness to all remaining operational pre-paredness areas and items is necessary to assure Seabrook Unit 1 plant readiness for fuel load and operatio NRC inspection effort has also been devoted to the licensee's nonlicensed training program, and other training conducted to correct or prevent problems which have arisen in the construc-tion and preoperational test area One NRC concern in the area of nonlicensed training was raised in that no matrix and comprehensive schedule of such training was yet available to demonstrate that all personnel training needs would be ful-fille Since the identification of that item, NRC reinspec-tion has found the licensee responsive to this concern and has taken adequate action to allow closure of the open item.

l b. Operator Licensing

, During the current assessment period, two operator license ex-aminations were administered during the weeks of March 18, 1985 and September 30, 1985. Of the 17 senior reactor operator (SRO) and 3 reactor operator candidates examined in March, only one SRO candidate was denied a license. All 5 senior reactor operator candidates participating in the September examination were issued licenses. This included the candidate previously denied a license during the March exa . -- . _  . . - - _- - __ = _.. - - - _ ..    -.

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  !  fuel load and the follow-on startup test program. Based on this and the. fact that none of the operators will have been able to make " active use" of their licenses during the previous

  ,

reinforcement, but also identifies unique areas of specialized training that are required in preparation for the upcoming l'  startup test program. The licensed operator-requalification training program at Seabrook is considered an additional strength in the already strong operator licensing training progra :

  ,  With respect to licensed operator training and qualification at Seabrook, the licensee continues to devote substantial re-

. Three preoperational security program reviews were performed i

. . _ _ - . . _ . - . - - . .- -_ . _ _ _ ._ .. - - - _ _ - .. .- .

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i The effectiveness of the licensee's planning for the security program was evident from the first preoperational review. De-I   velopment of the security program was on schedule and station administrative procedures pertaining to plant security and

security program implementing procedures had been prepared and approved for use. Management attention was evident from the selection of personnel and the organization of key staff post-

experienced Security Program Manager, assisted by a Site Security Supervisor. Four experienced functional supervisors

  ,  are assigned to provide guidance and coordination in developing and implementing the program.

Early establishment of these

program features enabled the regional inspectors to conduct

:  an in-depth analysis of the Physical Security Plan, Training and Qualification Plan and Security Contingency Plan even be-

;  fore the receipt of new fuel on site. It also enabled the NRC's Office of Nuclear Material Safety and Safeguards to com-plete its plan reviews and an onsite program review expedi-tiously and with a minimum of effor The experience and pro-fessional attitude of the licensee security management and staff were evident.

i

;  NRC representatives found that the licensee had established

  ,   a professional management team to select, train and manage the contract security force. The licensee has aggressively re-

sponded to all NRC initiatives and is currently prepared to implement a fully developed security program.

With the receipt of fuel on site in February 1986, the resident inspectors routinely checked security controls for the fuel

;  building where the new fuel assemblies are being stored. Also, while not part of the Seabrook physical security program to

be implemented during operation, security controls of various areas of the plant where preoperational testing activities were in progress were inspected to confirm compliance with proce-

,  dural requirements and preoperational test assurance control These NRC inspections revealed that the appropriate program-j  matic security controls were being properly implemented.

  ,   are developing plans for badging and access provisions for NRC personnel to facilitate future NRC inspections when the Sea-

brook Physical Security Plan !: implemanted. While NRC in-l  spection effort during this SALP period cannot provide a com-i  plete assessment of the licensee's security controls, both the 1

lack of significant problem areas anc management responsiveness to security issues provide evidence of properly directed lic-l  ensee efforts in this area. Since the Physical Security Plan

        - _

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j    Procedures for fuel receipt and the posting and controlling 4    of a radiologically-controlled area (RCA) were found to have i    been effectively use Recordkeeping was adequate, but docu-j-    mentation of the dose assessment methodology was found to re-

!    quire additional licensee attention. Subsequently, the licen-

  '

ses remedied this NRC concern about dose assessment methodology documentation. Additional data is required to support the beta dosimetry methodology and is presently being developed by the

,

licensee.

>    A whole-body-counting program is available and in use. A real-time computer-based personnel training and dosimetry record-j    keeping system is being utilized. During this inspection l    period, additional portable survey meters, respirators, and

air samplers have been added to the licensee's equipment stores, j    while even more equipment is on orde However, testing and

!    turnover of certain systems to the station staff is not yet j    complete.

!    While the radioactive waste (RW) management, transportation, I    and effluent control and monitoring areas did not receive de-j

tailed inspections during this assessment period, NRC inspec-tors did review the organizational reporting lines and responsi-bilities and did interview responsible supervisors in these

;    disciplines. The laboratory facilities were observed to be i    spacious, well kept, and well equipped. Emphasis on multiple

levels of quality control was apparent from discussions with chemistry personnel . It was noted that RW supervisory and i

, . - , ,,m--- - - - - - - - - - - - - . - , , . , - - - - - - - - - - - - - - - - - - , - ,,--- - -

. . . - - . - - _ _ _ _ . -- _ - -    _ - . - _ _ _ _ _ _ .

1 Several new fuel shipments have been received, and adequate radiological controls and attention to DOT regulations were observed. Work controls were demonstrated to be effective for fuel receipt and for controlling and posting of RCAs. The

;    planned operational survey and monitoring program is acceptabl The operational readiness of the four radiological controls i

areas (radiation protection, waste management, transportation i    and effluent control and monitoring) in regard to organization j    and management controls, staffing and training, work controls and procedures, and facilities and equipment exceeds what would l    be routinely found at a plant like Seabrook Station Unit I at i    this preoperational stag Since radiological controls func-t    tions have not yet been adequately challenged by operational j    requirements, a full assessment cannot be made at this time.

!    attention to detail remain at the same level that has been l   de,onstrated up to this point.

Rating: Category .

Trend: Consistent.

A normal level of inspection activity on part of the NRC shall be i  maintained during the next SALP assessment period due to the pre-operational nature of the findings in this area.

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