{{#Wiki_filter:CATEGORY j.REGULAT INFORMATION DISTRIBUTIONSTEM (RIDE)l ACCESSION NBR'702180197 DOC.DATE: 97/02/12 NOTARIZED:

YES DOCKET 0*FACIL:50-335 St.Lucie Plant, Unit 1, Florida Power a Light Co.05000335 50-,389 St.Lucie Plant, Unit 2, Florida Power s Light Co.05000389.AUTH.NAME AUTHOR AFFILIATION PLUNKETT,T.F.

Florida Power 6 Light Co.RECIP.NAME, RECIPIENT AFFILIATION Document Control Branch (Document Control Desk)

.Provides info from util in NRC ltr dtd 961009 re adequacy 6 availability of design basis info.DISTRIBUTION CODE: A074D COPIES RECEIVED:LTR I ENCL l SIZE: I 0 t'ITLE: Responses to 50.54(f)Req.for Design Basis Info NOTES: RECIPIENT ID CODE/NAME PD2-3 INTERNAL FILE CENTER S,K EXTERNAL: NRC PDR COPIES LTTR ENCL 1 1 1 1 3 3 1 1 RECIPIENT ID CODE/NAME WIENS,L.NRR/DRPM/PGEB COPIES LTTR ENCL 1 1 1 1 NOTE TO ALL"RIDS" RECIPIENTS:

PLEASE HELP US TO REDUCE WASTE!CONTACT THE DOCUMENT CONTROL DESK, ROOM OWFN SD-5(EXT.415-2083)TO ELIMINATE YOUR NAME FROM DISTRIBUTION LISTS FOR DOCUMENTS YOU DON'T NEED!TOTAL NUMBER OF COPIES REQUIRED: LTTR 8 ENCL' Florida Powor Bc Light Company, P.O.Box 14000, Juno Boach, FL 33408-0420 L-97-28 10 CFR 50.4 10 CFR 50.54 (f)February 12, 1997 U.S.Nuclear Regulatory Commission Attn: Document Control Desk Washington, D.C, 20555 RE't.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 Request for Information Pursuant to 10 CFR 50.54(f)Regarding Adequacy and The purpose of this letter is to provide the information requested from Florida Power&Light Company (FPL)in NRC letter (J.M.Taylor to J.L.Broadhead) dated October 9, 1996.Your letter requested information that would provide the NRC with"added confidence" and reasonable assurance that our plants are being operated and maintained within their design bases and that any deviations identified are reconciled in a timely manner.FPL's response was requested within 120 days of receiving your letter (i.e., by February 13, 1997).The engineering design, configuration control, and corrective action processes are discussed in the enclosure.

These are active processes that are under continuous change and improvement based on operating experience, the corrective action program, and changing regulatory guidance or interpretations.

The enclosed information forms the basis for our conclusion that plant design bases requirements have been and will continue to be translated into operating, maintenance, and testing procedures; that system, structure, and component configuration and performance are consistent with the plant design bases;and that FPL has an adequate process for the identification and correction of identified deviations.

The overall effectiveness of our current processes and programs provides reasonable assurance that the configuration of St.Lucie Plant Units 1 and 2 is consistent with the plant design bases.$8004h'rr702iSOi'rr7 970212 PDR ADOCK 05000335 P PDR an FPL Group company

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Page 2 The Enclosure contains new regulatory commitments which are located in the response to NRC request[fj.In summary, FPL plans to complete the NEI Initiative (96-05)report by April 15, 1997, resolve the 1996 FSAR consistency review findings within a two year period, and complete the plant annunciator summary review in December 1998.Additionally, the recent NRC A/E Inspection findings will be addressed following issuance of the final inspection report, and the corrective actions will be provided by a separate letter or initiative as appropriate, The enclosed information is provided pursuant to the requirements of Section 182a of the Atomic Energy Act of 1954, as amended, and 10 CFR 50.54(f).The required oath or affirmation affidavit executed by my Engineering Vice President, is attached.Please contact us should you have any questions on the enclosed information.

Very truly ours, T.F.Plunkett President Nuclear Division TFP/GRM Enclosure cc: Director, Office of Nuclear Reactor Regulation, USNRC Regional Administrator, Region II, USNRC Senior Resident Inspector, USNRC, St.Lucie Plant St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Page 3 STATE OF FLORIDA COUNTY OF PALM BEACH R.S.Kundalkar being first duly sworn, deposes and says: That he is Vice President, Engineering, Nuclear Division, of Florida Power S Light Company, the Licensee herein;That he has executed this document;that he has read the contents of the attached Enclosure, and in reliance on the processes discussed in the Enclosure and independent oversight of its accuracy, hereby affirms that the statements made in this document are true and correct to the best of his knowledge, information and belief;and that he is authorized to execute the document on behalf of said Licensee.R.S.Kundalkar STATE OF FLORIDA COUNTY OF Sworn to and subscribed before me sids j+day of Wr/', 19~+by R.S.Kundalkar, who is personally known to me.a rne of Notary ublic-State of Flori ROBERTA S.ECONOMY es:.:s j MY QQQssfON g CC993929 EXPtQES June 1, 199T eoNDE0 THRv TMY FhN$$unAHcf,luc, Print, type or stamp Commissioned Name of Notary Public

'fl 4 r 4 St.Lucio Units I and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page I Response to NRC 10 CFR 50.54(fj Information Request Adequacy and Availability of Design Bases Information

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 2 Table of Contents 1.0 troduction

In~~~~~~~~~3 2.0 Response Preparation

~~~~3 3.0 Summaty of Conclusions

~~~~~~~~~~~~~~~~~~~~~4 4.0 Historical

.~~~~~~~~~~4 5.0 L A 1st of Actloils~~~~~~~~~~~~~~~~~~~~~~~~~o~~~~~7 NRC Request[a]"Description of engineering design and configuration control processes, including those that implement 10 CFR 50.59, 10 CFR 50.71(e), and Appendix B to 10 CFR Part 50.".........................

8 NRC Request[b]"Rationale for concluding that design bases requirements are translated into operating, maintenance, and testing procedures."............

~~29 NRC Request[c]"Rationale for concluding that system, structure, and component configuration and performance are consistent with the design bases."..43 NRC Request[d]"Processes for identification of problems and implementation of corrective actions, including actions to determine the extent of problems, action to prevent recurrence and reporting to NRC.".....................

65 NRC Request[e]"The overall effectiveness of your current processes and programs in concluding that the configuration of your plant(s)is consistent with the d 1 tt esign bases.............................................

76 NRC Request[f]"Supplemental request for information on design review/basis programs."~~~~~~~~~~~~~~~~~~~~85 Appendix A;Partial List of Acronyms.......................................

88 A ppendix B~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~89 Table B 4.7.1-QA Audit Findings....,...............................

89 Table C 3.12-QA Audits and Vertical Slice Reviews.........................

St.Lucio Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 3 1.0 Introduction By letter dated October 9, 1996, the Nuclear Regulatory Commission (NRC)requested information to provide added confidence and assurance that Florida Power&Light Company's (FPL)nuclear units, St.Lucie Units 1 and 2 and Turkey Point Units 3 and 4, are operated and maintained within their design bases and that any deviations are reconciled in a timely manner.The purpose of this enclosure is to provide the specific information requested by the NRC for St.Lucie Units 1 and 2.Although the engineering design and configuration control processes are similar for the St.Lucie and Turkey Point units, their licensing and design bases are different and certain activities associated with maintaining the design bases are plant specific.Therefore, the requested information for the Turkey Point units is provided in separate correspondence.

This process helped to ensure that the necessary information was provided to the Requests, and that the information submitted is complete.Due to the evolutionary nature of each of the processes discussed in this response, descriptions of processes are a snapshot in time.Each of the processes is subject to controlled change consistent with FPL procedures.  

St.Lucio Units 1 and 2 Docket Nos.50-335 and 50-389 L 97-28 Enclosure Page 4 3.0 Summary of Conclusions FPL understands the importance of the plant design bases and is committed to maintaining the plant consistent with the design bases.FPL has concluded with reasonable assurance that its processes ensure that the as-built plant is an accurate reflection of the plant's design bases and therefore, that plant changes do not erode or compromise the safety margins associated with risk-significant systems.Where performed, in-depth vertical slice reviews of design bases documentation and their use in plant modifications, procedures, and operations, support the overall conclusion that FPL processes are effective in maintaining the St.Lucie design bases.FPL has reviewed the results of St.Lucie audits, inspections, self-assessments and vertical slice reviews, current engineering design and configuration control processes, plant configuration and performance documentation, and problem identification/corrective action programs.Based on these reviews, FPL concludes with reasonable assurance that the St.Lucie units are operated and maintained within the design bases and that any deviations are reconciled in a timely manner.Further, it is concluded with reasonable assurance, that the design bases for St.Lucie are accurate, that the design bases and as-built plant configuration and procedures have been maintained consistent with the license through reasonably effective processes, and that the plant corrective action programs adequately identify and correct deficiencies in a timely manner.FPL has endeavored to keep pace with the latest thinking of the industry and the NRC on design bases and configuration management programs.By doing so, FPL has been able to enhance its programs and processes over time, improving the design bases information and further ensuring plant operation and configuration is consistent with the design bases.The necessary confirmation of this has been provided by the many internal and external assessments that continually occur at St.Lucie.While these assessments have confirmed an overall design bases program adequacy, they have also generated corrective actions to remove identified weaknesses.

These types of assessments provide for a continual strengthening of the overall design bases and plant operation.

One recent example of such an assessment is the comprehensive NRC Architect/Engineer (A/E)Inspection.

This inspection concluded that there were no major weaknesses in the St.Lucie design bases information for two major plant systems.Nevertheless, some improvement actions have been identified from the inspection.

Similarly, the St.Lucie management initiated self-assessment, conducted in the first half of 1996, found a general adequacy in the design bases area, but identified weaknesses which must be corrected to enable St.Lucie to regain its former excellent performance.

The original St.Lucie Unit 1 FSAR was submitted to the NRC on March 5, 1973.The original St.Lucie Unit 2 FSAR was submitted to the NRC on March 24, 1980.Revisions to the FSARs were submitted throughout the licensing process until the original NRC Safety Evaluation Reports were issued.The design of St.Lucie Unit 2 included enhancements from previous industry events such as the accident at Three Mile Island Unit 2 and the fire at Browns Ferry.These St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 5 enhancements were added to St.Lucie Unit 1 as plant modifications performed in accordance with 10 CFR 50.59,"Changes, Tests and Experiments," and 10 CFR 50.90,"Application for Amendment of License or Construction Permit." Similarly, FPL submitted the Topical Quality Assurance Report (TQAR).Periodic updates to the FSARs and the TQAR are performed in accordance with the Code of Federal Regulations.

During the design and construction phases of St.Lucie, FPL performed project management functions.

The A/E (EBASCO)and NSSS supplier (Combustion Engineering) performed the engineering and modification control functions, including original design and any subsequent modifications in accordance with 10 CFR 50.59.Following the implementation of plant upgrades at Turkey Point in response to NUREG 0737, a review of the engineering design and configuration management processes at Turkey Point indicated that the A/E and plant interface was not as robust as during the construction phase.In response to the activities at Turkey Point, St.Lucie implemented the Commitment to Excellence Program (CEP).The CEP did not include a formal design bases reconstitution program, since the vintage of the St.Lucie Plant allowed the capture of most of its design bases information within the original plant documentation.

However, the CEP did lead to improvements to the operation of the St.Lucie units.Beginning in 1989, FPL began to assume the A/E design functions for both St.Lucie and Turkey Point.St.Lucie design engineers obtained training from EBASCO and worked hand-in-hand with the A/E design engineers in the preparation of design change documents.

By late 1990, FPL Engineering was performing design, production engineering, and design modification functions.

The configuration and design control management processes were revised to reflect the in-house process.FPL has concluded that this change was a significant step toward better understanding and controlling the plant's design bases.In 1991, a configuration management manual was issued which delineated design and configuration control responsibilities as well as the process requirements for plant design, interfaces, reviews and approvals.

Engineering and Administrative Quality Instructions were developed to implement design and configuration control process requirements.

In the 1990 time frame, St.Lucie participated in the Combustion Engineering Owners Group project that resulted in the development of the St.Lucie Design Basis Reference System (DBRS).During the development of the DBRS, it was concluded that a program was needed to develop summary level documents which would consolidate information contained in reference design bases sources (i.e., calculations, analyses, etc.), thereby making it more accessible to respond to plant operational needs.In the 1991 time frame, in response to the above need, the St.Lucie Design Basis Program was initiated on a number of significant plant systems to develop the summary level documents, referred to as Design Basis Documents (DBD).The St.Lucie design basis program did not involve reconstituting the design bases, however, specific reconstitution efforts have been performed such as the LOCA containment re-analysis and electrical distribution system bases calculations.  

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 8[a]"Description of engineering design and configuration control processes, including those that implement 10 CFR 50.59, 10 CFR 50.71(e), and Appendix B to 10 CFR Part 50." The following outline provides the organization of the response to request[a].1.0 Configuration Management Overview 2.0 Detailed Descriptions of Engineering Design and Configuration Control Processes 2.1 Engineering Design Control Processes 2.2 Configuration Control Processes 3.0 Implementation of 10 CFR 50.59 3.1 3.2 3.3 3.4 Unreviewed Safety Question Determination Process 10 CFR 50.59 Screening and Evaluation Process 10 CFR 50.59 Safety Evaluation Non-10 CFR 50.59 Activities

Design and Configuration Control Process Training 4.1 4,2 4.3 4.4 Engineering Support Personnel (ESP)Training and Qualification Shift Technical Advisor (STA)Training Program Nuclear Plant Supervisor (NPS)Training Program Facility Review Group (FRG)Training Program 5.0 10 CFR 50.71(e)Implementation Process 5.1 FSAR Updates 5,2 Design Basis Document Updates 6.0 10 CFR 50, Appendix B Implementation Process St.Lucie recognizes that maintaining current and accessible design documentation is important to ensure that, (1)the plant physical and functional characteristics are maintained and are consistent with the design bases as required by NRC regulation, (2)systems, structures, and components can perform their intended functions, and (3)the plant is operated in a manner consistent with the design bases.This is accomplished through the St.Lucie Configuration Management (CM)processes, which encompass engineering design and configuration control.

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-2S Enclosure Page 9 1.0 Configuration Management Overview Configuration Management (CM)is comprised of processes that are used to control the plant design basis, design, design changes, physical configuration, operations, maintenance, testing, procurement, installation, training and documentation.

The CM program goals are to ensure that, throughout the life of the plant the following occur: 1.Design bases are identified, documented and maintained.

2, Approved design documents accurately reflect and implement the design bases.3.Plant physical structures, systems, components, (SSCs), and process control computer software conform to the approved design requirements.

4.Plant physical and functional characteristics are accurately reflected in plant documents.

5.Plant conditions conform to the requirements included in the design bases, procedures and other approved documents which are used to control the operation of the plant.6.Changes to the design or physical plant are optimized through an integrated review process with established approval criteria to make necessary changes to the design or plant.7.Changes to the design are approved, planned, budgeted and scheduled for all phases of the change from design through implementation, required testing and document update.8.Consistency is maintained between design bases, design documents, hardware, software, and plant procedures.

Activities which affect the CM goals listed above are controlled by engineering design and plant configuration control processes.

These processes ensure that the plant design, as-built condition, and operation remain in conformance with the original plant design bases and subsequent licensing commitments and requirements.

2.0 Detailed Descriptions of Engineering Design and Configuration Control Processes 2.1 Engineering Design Control Processes 2.1.1 General Description The processes whereby the design and design bases are maintained and controlled includes all plant departments.

The engineering design control processes are controlled under FPL Engineering Quality Instructions (ENG Ql).ENG QIs are designed in a hierarchical fashion with reference to interfacing instructions.

The overall governing ENG QI for the engineering design control processes is ENG QI 1.0,"Design Control." This instruction leads the engineer/designer/user to other governing instructions for maintaining and controlling the plant license, design bases, as-built design documentation, and operations, maintenance and testing procedures.  

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 10 Determination of the appropriate process vehicle to initiate a design change requires the understanding of the scope of the proposed change.The design change process is divided into Plant Change/Modifications (PC/M)and Non-Plant Change/Modifications (Non-PC/M).

The PC/M process is further subdivided into major and minor changes.Major design changes to the plant are controlled under ENG QI 1.1,"Engineering Packages," and are implemented using the complete PC/M Engineering Package (EP)process to perform modifications which constitute a change to the facility (physical and/or documentation), requiring a 10 CFR 50.59 safety evaluation.

EPs usually contain detailed implementation and testing information for complex or involved design changes.Minor design changes to the plant are controlled under ENG QI 1.2,"Minor Engineering Package", and are implemented using the process to perform minor modifications which constitute a change to the facility (physical and/or documentation) but which do not require a 10 CFR 50.59 safety evaluation.

Minor Engineering Packages (MEP)include 10 CFR 50.59 screening to document that a 10 CFR 50.59 safety evaluation is not required.The Non-PC/M process includes Drawing Change Requests (DCR), Item Equivalency Evaluations (IEE), Condition Report dispositions, and Maintenance Specifications.

This process also includes Temporary System Alterations (TSA), design document updates, minor repairs, and maintenance activities.

2.1.2 Plant Change/Modification (PC/M)Process For PC/Ms, the engineering design change control process includes: Design Change Initiation Design Change Package Preparation Design Implementation Documentation Updates 2.1.2.1 Design Change Initiation A change to the plant design may become necessary for a number of reasons, such as new or changing regulatory requirements, equipment reliability problems, obsolete equipment, or operational improvements.

A plant modification is usually proposed by using the Request for Engineering Assistance (REA)process.The REA process, AP 0005745,"Request for Engineering Assistance," can be initiated by any member of the plant staff requiring assistance from Engineering to resolve plant problems, conduct engineering studies, reconcile discrepancies, and update design documentation.

This process provides an anticipated scope, purpose, budget, cost and benefit, design/safety significance, and relative priority for the candidate project.It also identifies the sponsoring organization for the proposed modification.

REAs are processed using one of two paths: Real-y V I'y III,, y St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L 97-28 Enclosure Page 11 Time Support Team (RTST)review for easily implemented projects, and Plant Review Board (PRB)management review group for larger or construction-intensive projects.Following the issuance of an REA, Engineering performs a scope, schedule and cost estimate for a proposed project, including the evaluation of design options.If various options are possible, plant input is solicited so that issues of cost, simplicity, maintainability, usability, etc., may be factored into the evaluation for the preferred option.This initial information is used by the RTST or PRB review groups before they decide to recommend final approval for Engineering to prepare a design package and for the implementor to complete procurement and implementation activities.

The review groups are composed of plant management or their designees who review and approve projects, authorizing the use of Engineering resources both for estimating and designing activities.

The review includes consideration of the number of design changes planned for outage and non-outage work period, so that work scope can be scheduled and managed properly.If approved, the REA is forwarded to Engineering for design change package preparation.

2.1.2.2 Design Change Package Preparation The design engineers prepare design changes in accordance with the license, design basis, design standards, and configuration management requirements governed by ENG QI 1.0,"Design Control," and ENG QI 1.1,"Engineering Packages," and ENG QI 1.2,'Mnor Engineering Package." These procedures are approved under the QA 10 CFR 50 Appendix B program.Personnel who prepare design changes are appropriately trained and experienced.

The basic steps in the design change process include: a.The design engineer(s) conducts research and interfaces with the design change sponsor(s) to obtain a full understanding of the design change justification, scope, licensing/design impact, interdiscipline design requirements, affected engineering/operations documentation, etc.Applicable Operating Experience Feedback (OEF)(lessons learned from other utilities) is factored into designs or design modifications.

Engineers stay current with FPL and nuclear industry operating experience related to engineering activities.

NRC Bulletins, Information Notices, other regulatory requirements, internal FPL correspondence related to nuclear design experience, experience reports received from manufacturers and other industry sources are circulated appropriately.

In the development of a design document, the following computerized information retrieval services are currently available and may be used to obtain data related to design or safety analysis input: OEF program (FPL), Nuclear Plant Reliability Data System (INPO), Technical Library Database (INPO), Nuclear Network (INPO), LER Database (INPO), and the NRC Index (INPO).b.The design engineer(s) identifies and assembles the design input that must be considered in preparing the design or design change.Design input is defined as the set of criteria, parameters, bases or other information upon which detailed final design is

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 12 based.Design changes are based upon existing design bases documentation.

Design inputs are identified from the following sources:~FSAR/I'echnical Specifications

~Bases Documents (calculations, diagrams, drawings, design specifications, analyses, studies, vendor documents, DBDs, etc.)Applicable Codes and Standards Requirements

~Engineering Documents~Requests for Engineering Assistance Change Request Notices~Condition Reports The design organization performs design integration activities to ensure that all new designs/design changes are consistent with the base plant design, and that consideration is given to related design and design changes in progress.The design integration activities include a review of information sources such as TSA logs, and abandoned equipment logs.To aid the design integration, electronic information sources which are part of the PassPort database (FPL's computerized management information system)are also available.

These include the PC/M Index, Calculation Index, Engineering Evaluation Index, and Total Equipment Data Base.This review provides assurance that no other modifications which are in progress can affect the modification package which is being prepared.A limit is imposed by management on the number of modifications that are processed at the same time in order to minimize integration difficulties.

c.The design engineer(s) performs the detailed design change and prepares 10 CFR 50.59 screening and/or safety evaluations.

The PC/M defines the scope of the modification and activities associated with the change.The safety evaluation or screening is a major part of the PC/M and is required to demonstrate that the provisions of 10 CFR 50.59 are met when performing a design modification.

The requirements of 10 CFR 50.59 are a subset of the overall safety evaluation objectives.

The safety evaluation addresses the overall safety aspects of the modification including description and purpose of the change, analysis of effects on safety, failure modes and effects analysis, effects on Technical Specifications, Unreviewed Safety Question (USQ)determination, and plant restrictions.

The detailed design effort includes walkdowns of affected systems and components to verify their field configuration and their consistency with plant design drawings.Design change packages undergo interdisciplinary reviews, i.e., conceptual, detailed, and final, involving Engineering and plant personnel.

A conceptual review meeting S

St.Lucio Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 13 may be held for larger more complex design changes to solicit suggestions/input prior to commencement of a detailed design.When the proposed design is substantially complete, a draft design change package is issued for Implementation Review (IR)so that input can be solicited from the appropriate departments or groups such as Operations, Maintenance, System and Component Engineers, Health Physics, Configuration Management, etc.The early and final review processes ensure that the design change is understood and meets the design basis, design and operations requirements.

They also ensure that the impact of the design change is reflected in the appropriate plant design documents and procedures, and that the final product will be acceptable upon turnover to the plant.After incorporating interdepartmental comments, the design change package is finalized by Engineering.

d.The design engineer(s) and other affected site organizations identify and assemble the documentation affected by the design or design change for inclusion in the PC/M package.Documentation is updated and maintained to reflect the"as-built" status of the plant.Responsibility for updating each type of documentation is assigned to the appropriate department, functional group, or organization.

The PC/M affected design documents are tracked to aid in design integration.

The types of documents that may be affected include:~FSAR Licensing Documents~Design Bases Documents~Engineering Drawings~Design Specifications

~System Specifications

~Analyses~Vendor Drawings~Vendor Instruction Manuals~Databases~Indices The final design change package is approved and issued by Engineering management and is processed by the plant for implementation and document control.2.1.2.3 Design Implementation The design change package is then submitted to Configuration Management.

The approved design change package is routed to affected plant departments for review and preparation for implementation.

The appropriate department identifies training requirements and any additional functional tests required to be performed following the modification.

The implementing departments prepare work documents, i.e., Plant Work Orders (PWO), which provide instructions

St.Lucio Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 14 for implementing the design change.Each affected department identifies revisions to programs, processes, and documents required as a result of the design change.These revisions are made in accordance with plant procedures ensuring that plant SSCs are installed and operated in accordance with established design requirements and plant documentation.

CM submits the PC/M package to the Facility Review Group (FRG), a multi-discipline group, for review and recommendation to the Plant General Manager (PGM)for approval.Upon approval by the PGM, the design change may be implemented.

The Company Nuclear Review Board (CNRB)also provides an independent review of the design modifications to verify that the change did not constitute a USQ.Both the FRG and the CNRB reviews are Technical Specification requirements for St.Lucie.2.1.2.3.1 Changes to PC/M After a PC/M has been issued for implementation and prior to final closure, if a minor technical change or a documentation change to the PC/M is required, it is evaluated for disposition via the Change Request Notification (CRN)process.The engineering design organization reviews and resolves CRNs.Special generic updates to P/CMs are issued periodically.

These PC/Ms are used to make equivalent replacements, change drawings, or execute minor configuration changes bounded by the scope of the original PC/M.These changes are processed as CRNs to the PC/M.If the change to the PC/M affects the safety evaluation, design criteria or original PC/M intent, then the PC/M is revised and the revisions to the PC/M receive the same review as the original PC/M.2.1.2.3.2 PC/M Closure The Configuration Management (CM)department is the plant organization specifically tasked to supervise processes affecting configuration management and to ensure that the plant design and configuration are maintained accurately.

The implementing department provides the implementing documents to CM as a turnover package.Formal verification of completion by CM entails verifying the completeness of open items from the implementing department, satisfactory completion of PC/M requirements including implementation instructions, tests and inspections, and compliance to governing procedures.

2.1.2.4 Documentation Updates Drawings required by Operations for the safe operation of the plant are defined by St.Lucie and Engineering procedures as Plant Operational Drawings (POD).As part of the PC/M closure process, these drawings and appropriate plant operating procedures are updated and placed in the Control Room prior to the Operations Department accepting the modification.

The remaining documentation is updated in accordance with approved procedures,  

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 15 2.1.3 Non-PC/M Process Non-PC/M processes allow administrative document update, equivalent replacements, and minor, non-nuclear safety-related design changes.The non-PC/M processes, including document updates and equivalent item replacements are intended for changes that are outside of the scope of 10 CFR 50.59, but a screening is conducted as appropriate to ensure the change does not require a 10 CFR 50.59 safety evaluation or Technical Specification change.The non-PC/M process controls temporary system alterations, equivalent replacements, minor scope changes, drawing change requests, and design document updates.These activities are controlled under Engineering and Plant procedures.

The Temporary System Alterations (TSA)process, AP 0010124,"Control and Use of Temporary System Alterations," maintains plant and design configuration control for non permanent changes to plant SSCs, while ensuring the applicable technical and administrative reviews and approvals are obtained.The TSA process ensures that personnel are aware of temporary plant configuration and that TSAs made to plant equipment do not unacceptably degrade the original design intent.To maintain plant configuration control, the affected drawings are stamped in the work control center and control room and identified as affected by TSA.The Item Equivalency Evaluation (IEE)process is used to perform equivalent item replacements requiring implementation that are within the bounds of a maintenance activity.An IEE is required if a replacement item is not a like-for-like (identical) replacement for the original item.IEEs determine and document the acceptability of non-identical replacement items by evaluating form, fit and function.Implementation of the replacement item must fall into the maintenance arena (no modifications or construction).

If not, the appropriate design change vehicle is required to replace or augment the IEEs.The Drawing Change Request (DCR)process is used to perform administrative changes to design documents for which there is an approved basis (no physical change or design change).Typical uses of DCRs are administrative changes to controlled documents, or changes in controlled documents substantiated by IEEs.The Non-Nuclear Safety (NNS)modification process is used to perform minor NNS changes in support of maintenance activities which have a technical relationship or interface with the plant, and do not affect PODs or plant operating procedures.

Facilities such as the water treatment plant or components such as air conditioners for the service building may be modified by this process.Typically the Condition Report process initiates these minor modifications.

Certain engineering specifications referred to as"Re-use," provide generic guidance, instructions and details which can be used for routine repetitive maintenance activities.

These engineering specifications are supported by 10 CFR 50.59 safety evaluations, if required.Each specification identifies the scope of activities it addresses.

The appropriate specifications can be invoked within plant documents e.g., PWOs, for routine maintenance activities, If plant Maintenance determines 1~

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 16 during the implementation of a PWO that the maintenance activity may not be covered by the engineering specification and a change is required, an engineering review is provided.Engineering reviews the maintenance activity and either approves or disapproves the change requested.

If the design change process is entered, e.g., an REA may be issued.2.1.4 Types of Evaluations When design changes are desired/required the safety evaluation process is utilized to demonstrate that safety is maintained in the modification process.There are different types of evaluations performed by Engineering and other qualified personnel for different aspects of plant support.These include general evaluations (studies, feasibility assessments), operability assessment, nonconformance assessment and resolution, condition assessment and resolution, proposed license amendments (10 CFR 50.90), probabilistic safety assessment, etc.2.1.4.1 Stand-Alone Safety Evaluations Stand-alone safety evaluations (SASE)are used for meeting 10 CFR 50.59 requirements in which no hardware change is involved, thus an EP may not be required.The SASEs include a concise description of the proposed change, why the change is necessary, the effect on plant operation and safety, any changes in design or operating practices or philosophy, any restrictions on plant operations, whether a USQ exists or Technical Specification change is involved.The evaluation also describes the licensing requirements including the information normally contained in the design section of an EP and the actions required including short-term and long-term actions by the plant and/or engineering departments.

The affected documents are identified and the appropriate change package is attached to the evaluation, including a list of applicable documents used in preparation of the evaluation.

These evaluations are submitted to the FRG for review and recommendation for approval by the PGM.Any action items listed in the evaluation are tracked using the Plant Management Action Item (PMAI)process.2.2 2.2.1 Configuration Control Processes General Description The configuration control processes integrate all plant activities.

These processes accomplish the CM process objectives described in Section 1.0 above by defining and documenting the requirements for maintaining the plant's configuration (design, physical plant, and procedures) consistent with the plant design bases.The governing procedures for these processes are Engineering and Plant QIs and other applicable plant procedures some of which are listed below: ENG QI 1.0 Design Control ENG QI 1.1 Engineering Packages (EPs)ENG QI 1.2 Minor Engineering Package (MEP) l ENG QI 1.3 ENG QI 1.4 ENG QI 2.0 ENG QI 2.1 ENG QI 2.4 ENG QI 2.5 ENG QI 3.0 ENG QI 3.1 ENG QI 3.2 ENG QI 3.3 ENG QI 3.4 ENG QI 3.5 ENG QI 3.6 ENG QI 4.2 ENG QI 6.7 QI 3-PR/PSL-1 QI 6-PR/PSL-1 ADM-08.04 AP 0006129 QI-5-PS L-1 AP 0010148 OP 0010122 ADM-17.10 ADM-17.03 AP 0006130 AD M-0010432 ADM-78.01 St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 17 Drawing Change Requests (DCRs)Change Request Notices (CRNs)Engineering Evaluations 10 CFR 50.59 Screening/Evaluation Non Conformance Reports (NCRs)Condition Reports Quality Assurance Records Controlled Document Distribution Drawing Control Vendor Technical Manual Control FSAR Updating Design Basis Document (DBD)Updating Total Equipment Data Base (TEDB)Procurement Engineering Control FSAR Reviews Design Control Document Control Root Cause Evaluation PMAI Corrective Action Tracking System Preparation, Revision, Review/Approval of Procedures Temporary Changes to Procedures In Plant Equipment Clearance Orders Processing Safety Evaluations Operating Experience Feedback Condition Reports Control Of Plant Work Orders Post Maintenance Testing 2.2.2 Integration of Configuration Control Processes Configuration control processes establish the authorities and responsibilities for integrating plant activities which could affect the plant configuration.

They ensure that the integrity of the design bases is maintained by requiring changes that may impact the design bases to be reviewed by the proper organization.

These changes include physical changes to the plant that may originate through the modification process, or daily operational and maintenance tasks, The design bases, in turn, must be accurately reflected in the engineering, licensing, operating, maintenance, testing, training, and quality assurance documents for the plant with consistency maintained among these documents.

Design, Physical, and Operational Plant Configuration Change Processes The design change PC/M package preparation activities are performed by Engineering and must account for affected design and administrative documents.

Design integration reviews are performed to ensure that"open" plant changes in progress do not conflict or compete with the

'Ik d.~

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 18 new design change.Relational databases to track change documents and other design integration tools are available to facilitate this design integration review.Walkdowns are performed to validate the design change packages against field conditions.

As-building of affected documents is automatically triggered by the relational document control databases upon completion of a design change package.Part of the design change activity is the procurement control process that provides a mechanism to purchase initial parts and services for PC/Ms, and subsequent stock replacement parts.Plant work is controlled and documented with the Plant Work Order (PWO)process.This process is a mechanism to provide the administrative requirements and work controls for plant work activities on Safety-Related (SR), Quality-Related (QR), and NNS SSCs.The PWO is the primary implementing document for PC/Ms.PWOs become the plant's historical work records.When work is complete, the information provided in the PWOs is entered into FPL's PassPort database for easy retrieval.

Changes to the plant's operational configuration that are not controlled by procedures, are controHed and documented with the clearance process, OP-0010122,"In-Plant Equipment Clearance Orders." This process tracks the removal and restoration of equipment out of service.The clearance process provides administrative controls that allow for the isolation of components for maintenance activities, or for the safety of plant personnel and equipment.

Each clearance is checked against Technical Specification requirements, and risk significance is reviewed prior to the issuance of the clearance.

Multiple reviews and checks are performed to ensure that the components are isolated and restored correctly to operable'status.

Design changes are required to be reviewed by interfacing organization personnel knowledgeable in plant processes and configuration, and by system engineers knowledgeable about the affected SSCs, Operations, maintenance and testing personnel perform interface reviews for FRG-affected procedures.

A final review by the FRG is performed for safety impacts.During implementation, any necessary field changes must first be documented and approved by Engineering, via the CRN process, before they are implemented.

Post-modification testing requirements are part of the design change package and test results become part of the design change permanent records.Implementation documents such as temporary procedures, test results, etc., are submitted to CM for review as an implementation turnover package (ITOP).This package is then used to prepare a system acceptance turnover sheet (SATS)to document turnover of the modified equipment/system to Operations.

This system acceptance and turnover process which is used as part of the final design change implementation, requires mandatory approval from all affected plant departments.

High priority affected documents (operating procedures, plant operating drawings (POD), etc.)receive first priority for update upon notification of design change implementation completion.

These documents must be updated and available as part of the final SATS.Training is conducted on design changes and operations procedures prior to final system acceptance, as appropriate.

N V~L P Qe St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 19 2.2.2.2 Procedure Change Process This process provides a mechanism to make procedure changes in a controlled manner.Procedure changes may be either permanent or temporary.

New procedures and changes to existing procedures require as a minimum, a 10 CFR 50.59 screening to determine if the new procedure or change is consistent with the FSAR, Technical Specifications or whether a USQ exists.If a 10 CFR 50.59 safety evaluation is prepared for new procedures or changes to an existing procedure, the changes are reviewed by the FRG.Procedures required to be reviewed by Technical Specification are reviewed by the FRG.New procedures are validated prior to use and revised procedures may be validated if the change is extensive in nature.2.2.2.3 Document Control Process e The document control process governs the preparation, issuance, and revision of documents such as instructions, procedures, and drawings which describe activities affecting quality.Document control processes ensure that documents including changes, are reviewed,'pproved for release by authorized personnel, and distributed to the responsible individuals/organizations for implementation and use as appropriate.

Databases or hard copy logs that identify the most recent approved revision of documents are maintained.

Controls that prevent the inadvertent use of obsolete or superseded documents are provided.Document control process responsibilities include identifying, storing, updating, and retrieving appropriate documents throughout the life of the plant.The FSAR and DBD updating processes are described in section 5.1 and 5.2, respectively which addresses the implementation process for 10 CFR 50.71(e)requirements.

2.2.2.4 Quality Assurance Records Records are maintained to provide documentary evidence of the performance of activities affecting quality including design activities, 2.2.3 Discrepancy Documentation and Commitment Tracking Processes 2.2.3.1 Condition Report (CR)Process The CR process allows personnel to document, evaluate, analyze and correct conditions of concern.CRs are initiated for nonconformances and other events or conditions that may appear to be adverse to the safe and orderly conduct of plant operations.

The CR process is not intended to replace or duplicate the functions of other St.Lucie programs which provide for identification, disposition and trending of adverse conditions, e.g., PWOs, REAs.The CR originator delivers the CR to the Nuclear Plant Supervisor (NPS).The NPS reviews each CR for operability and reportability concerns, logs it and forwards it to the PGM.The PGM screens each CR and assigns the investigating group responsible for the investigation, analysis and determination of corrective actions if required.The Condition Report Oversight Group (CROG)reviews daily the CRs generated in order to verify reportability, outage significance, and classification of condition.  

~I.Il St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 20 The dispositioning Department Head determines if the root cause is adequately identified and if the corrective actions are adequate to prevent recurrence.

Closing a CR requires that the PGM accepts satisfactorily completed evaluations.

If the corrective actions can not completed within the designated time frame, the remaining open items are transferred to the Plant Management Action Item (PMAI)or other tracking system.2.2.3.2 Nonconformance Report (NCR)Process The NCR is considered a subset of the CR process which provides a means for capturing potential or real concerns with respect to the plant, and allows for their correction using other existing and integral plant processes, e.g., the PC/M process, PWO.Nonconformances have historically been addressed using an NCR.The NCR provides a mechanism for documenting the identification of a nonconformance, getting appropriate reviews, and resolving the nonconformance or taking corrective actions.This process is used to collect data for future improvements.

Engineering evaluates the NCR and provides an appropriate disposition (i.e., corrective action, if any)to the NCR for implementation.

2.2.3.3 Plant Management Action Item (PMAI)Process The PMAI process provides a method for controlling and scheduling corrective actions to meet internal commitments and ensures follow-up and closure of long-term corrective actions generated by the CR process.The PMAI is a tracking system which follows the corrective actions to completion and gives the items visibility within the plant organization.

2.2.3.4 Commitment Tracking Process A commitment tracking process is in place to provide a method of identifying and tracking commitments.

Sources of commitments include Licensee Event Reports, Notice of Violation responses, NRC requirements, INPO or internal audit findings, and NRC safety evaluation reports.The major objective of the process is to assure completion of the commitments in a timely manner.3.0 Implementation of 10 CFR 50.59 The 10 CFR 50.59 safety evaluation provides assurance that the documented information used by the NRC, as a basis for licensing the facility, remains valid in light of the proposed changes.FPL uses NSAC 125 as guidance for safety evaluations and 10 CFR 50.59 screenings.

When proposed design changes are desired or required, the 10 CFR 50.59 process determines if the change requires a revision to Technical Specifications or if the change constitutes a USQ.

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 21 3.1 Unreviewed Safety Question Determination Process Changes to the facility, procedures described in the FSAR, or a test or an experiment not described in the FSAR are screened for the need to determine if a USQ exists.This section discusses the definitions of a change, the 10 CFR 50.59 screening process, and the preparation of a formal safety evaluation in accordance with 10 CFR 50.59.3.1.1 Change to the Facility Changes to the facility include additions or deletions of SSCs described in the FSAR, modifications which affect design function or method of performing a function of an SSC, and temporary modifications.

3.1.2 Change to the Procedures FPL revises procedures as described in the FSAR without prior NRC approval provided the change does not involve a Technical Specification change or a USQ.Procedures that may require a 10 CFR 50.59 safety evaluation are those that are outlined, summarized or completely described in the FSAR.3.1.3 Tests and Experiments Tests and experiments that require a 10 CFR 50.59 safety evaluation are those that are not discussed in the FSAR, but are within the scope of the FSAR, i.e., tests and experiments which could degrade the margins of safety during normal operations, anticipated transients, or that could degrade the adequacy of SSCs to prevent accidents or mitigate accident conditions.

10 CFR 50.59 safety evaluations are also required for changes to tests or experiments that are described in the FSAR.3.2 10 CFR 50.59 Screening and Evaluation Process St.Lucie facility changes are evaluated for 10 CFR 50.59 applicability.

This evaluation is referred to as a 10 CFR 50.59 screening.

Formal safety evaluations are prepared for those changes that fall within the scope and intent of the 10 CFR 50.59 rule.The applicable procedures to the design change process contain guidance on screening criteria.The following criteria are used in screening activities for 10 CFR 50.59 applicability:

1.Does the change represent a change to the facility as described in the FSAR?2.Does the change represent a change to procedures as described in the FSAR?3.Is the change associated with a test or experiment not described in the FSAR?  

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 22 4.Could the change affect Nuclear safety in a way not previously evaluated in the FSAR?5.Does the change require a change to the Technical Specifications?

A positive response to any of questions 1-4 requires a formal 10 CFR 50.59 safety evaluation.

A positive response to question 5 requires a license amendment in accordance with 10 CFR 50.90 prior to change implementation.

Furthermore, a design change which requires a change to the Technical Specifications requires NRC review and approval of a license amendment prior to implementing the change.3.3 The 10 CFR 50.59 Safety Evaluation For the purpose of a safety evaluation the 10 CFR 50.59 criteria have been expanded into seven questions for clarity: 1.Does the proposed activity increase the probability of occurrence of an accident previously evaluated in the SAR?2.Does the proposed activity increase the consequences of an accident previously evaluated in the SAR?3.Does the proposed activity increase the probability of occurrence of a malfunction of equipment important to safety previously evaluated in the SAR?4.Does the proposed activity increase the consequence of a malfunction of equipment important to safety previously evaluated in the SAR?5.Does the proposed activity create the possibility of an accident of a different type than any previously evaluated in the SAR?6.Does the proposed activity create the possibility of a different type of malfunction of equipment important to safety than previously evaluated in the SAR?7.Does the proposed activity reduce the margin of safety as defined in the basis for any Technical Specifications?

Based upon the answers to these questions, a determination is made if a USQ exists or a Technical Specification change is required.If either exists, NRC review and approval of a license amendment is obtained prior to the change being implemented.

The primary participants in the 10 CFR 50.59 safety evaluation preparation are as follows;~~~~~~~~~a.Preparer: A properly trained and qualified preparer who is familiar with the 50.59 process develops an understanding of the design basis of the plant and applicable St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 23 regulatory requirements.

The design change under consideration typically falls within the preparer's field of expertise.

b.Emmy: A properly trained and qualified reviewer that has not been participating in the preparation of the 50.59 evaluation verifies the acceptability of the safety evaluation.

c.ZRQ: The FRG is composed of designees representing the functional areas of the plant and provides a multi-discipline review of the safety evaluations in accordance with 10 CFR 50.59 guidelines and concurs with the determination that a USQ does not exist and no Technical Specification change is required.Additionally, the following after-the-fact reviews are conducted:

d.Q5RB: An offsite safety review board, the CNRB, composed of officers, managers, or specialist in design, operations, safety analysis or related activities, with extensive nuclear plant expertise is responsible for the review of evaluations prepared according to 10 CFR 50.59 guidelines.

The purpose of the review is to confirm the change does not constitute a USQ and no Technical Specification change is required, e.~: Quality Assurance performs periodic audits of organizations involved in the 10 CFR 50.59 evaluation process, Audit results are documented and reviewed by management having responsibility in the specific areas audited.Corrective actions are documented and follow-up audits are performed, if required.The 10 CFR 50.59 safety evaluation process is applied to potential design, physical plant and procedural changes that may impact the plant license, design bases or the FSAR.However, there are changes to the plant which are not governed by the 10 CFR 50.59 requirements and are managed under St.Lucie procedures.

These are referred to as non-10 CFR 50.59 activities as discussed below.3.4 Non-10 CFR 50.59 Activities Plant activities, controlled under various administrative, engineering, operations and maintenance procedures, which are not normally considered design activities, but which could possibly affect the design basis are screened for 10 CFR 50.59 applicability.

Each procedure controlling these activities contains a requirement to perform a 10 CFR 50.59 screening.

These screenings are performed by qualified personnel trained on the 10 CFR 50.59 requirements.

Design and Configuration Control Process Training St.Lucie training includes indoctrination, technical and continuation training for engineering and supporting interface department personnel.

This training provides instruction and on-the-job training required to ensure compliance with St.Lucie procedures/policies regarding plant St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 24 activities, including design.Formal training activities are governed by two Quality Instructions:

QI 2-PR/PSL-2,"Indoctrination and Training of St.Lucie Personnel," and QI 1-PR/PSL-11,"Site Services Organization." Training materials are developed from and maintained consistent with currently issued FPL and St.Lucie plant design documentation, procedures and policies.The St.Lucie Training Department is on distribution for updated plant design bases documents, procedures and FPL policy notices.In addition, the St.Lucie Training Department is on distribution for relevant NRC and industry correspondence regarding power plant requirements and activities.

New or revised training materials are developed which are current with the best industry practices.

Training associated with design and configuration control processes that implement 10 CFR 50.59, 10 CFR 50.71(e), and Appendix B to 10 CFR Part 50 are discussed in the following sections.4.1 Engineering Support Personnel (ESP)Training and Qualification Initial indoctrination training for engineering support personnel includes a basic review of the plant QIs and procedures associated with the configuration control process, the plant modification process, the use of a 10 CFR 50.59 safety evaluation to modify the plant or identify an unreviewed safety question.Each of the reviews is part of the initial indoctrination training section of the INPO accredited ESP Training Program for all new engineering support personnel.

The ESP Qualification Guides provide individual qualification requirements.

These qualification requirements are based on an evaluation of the individual's education, previous experience and technical training.The training required for each individual is specified by the department supervisor.

4.2 Shift Technical Advisor (STA)Training Program The STA is responsible for reviewing procedure changes for applicability to the requirements of 10 CFR 50.59.STAs are trained on the requirements of 10 CFR 50.59 and the requirements of the CR process.4.3 Nuclear Plant Supervisor (NPS)Training Program The NPS is responsible for reviewing CRs for safety issues and operability concerns.The NPS training program contains specific lessons on plant changes in accordance with 10 CFR 50.59 and applying the plant's design basis to operations.

4.4 Facility Review Group (FRG)Training Program Training on 10 CFR 50.59 requirements is presented as part of the FRG initial and requalification training.It is designed to introduce FRG members and alternates to their responsibilities as related to FRG review of procedure and design changes.

N g g~'+I r St.Lucic Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 25 5.0 10 CFR 50.71(e)Implementation Process The engineering design and configuration control processes described in the response to this request, detail the activities that ensure the accuracy of the changes which are made to the FSAR.5.1 FSAR Updates The St.Lucie Unit 1 and Unit 2 FSARs were originally submitted to the Nuclear Regulatory Commission (NRC), as part of the operating license application, and are maintained and updated in accordance with the requirements of 10 CFR 50.71(e)(3)(l).

Amendments reflect FSAR changes up to a maximum of 6 months prior to the date of filing.Special FSAR amendments may be submitted to the NRC more frequently than the minimum required by 10 CFR 50.71(e).ENG QI 3.4,"FSAR Updating," provides the instructions for updating the FSAR in accordance with 10 CFR 50.71(e), FSAR amendments consider the following categories of items implemented, revised, or identified since the last amendment:

~Changes made in the facility/procedures as described in the FSAR~Safety analyses performed in support of license amendments

~Safety evaluations performed per 10 CFR 50.59~Safety evaluations performed at the request of the NRC~New or modified NRC requirements

~Changes made to drawings contained in the FSAR~Commitments in FPL'orrespondence to the NRC~Corrections to the FSAR~Changes to design bases or design criteria identified in the FSAR~Changes to quality, procedural, test, inspection, or other criteria cited in the FSAR~Abandoned equipment noted in the FSAR Engineering design changes are procedurally required to address the impact on the FSAR as part of the engineering design change process, and to include proposed changes to the FSAR with the issuance of each design change package, as applicable.

This process provides a comprehensive mechanism for capturing changes to the FSAR and for their incorporation into the design bases.Changes to the facility may affect the FSAR descriptions and associated accident analyses.Engineering design outputs, e.g., EPs, stand-alone Safety Evaluations, which impact the FSAR include an FSAR Change Package (FCP)as an attachment to the document.FCPs are reviewed, and if adequate, are incorporated into the next amendment of the FSAR following the implementation of the change, Plant design changes implemented during the update period and all 10 CFR 50.59 safety~~~~~~~~~~evaluations are reviewed for impact on the FSAR.When a change is proposed, the organization initiating the change determines whether the change will result in the revision of any documents.

gd lf't I!P~'

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 26 Changes to licensing documents can result from design changes, as-found conditions, evaluations, procedure revisions, and NRC requirements.

FPL responses to NRC Information requests, IE Bulletins/Circulars/Information Notices, FPL correspondence to and from the NRC, etc.may affect the FSAR.Incoming and outgoing NRC correspondence is reviewed for impact on the FSAR.If it is determined that an FSAR change is required, an FCP is prepared along with any necessary supporting evaluations.

The intent of the NRC correspondence review is to identify and document NRC requirements that impact the design, operation, or maintenance of the facility, regardless of the level of detail associated with the requirement.

Commitments in NRC correspondence to implement physical changes to the facility are not incorporated into the next FSAR revision.Physical changes are only incorporated after implementation and turnover for use.Stand-alone safety evaluations that require FSAR changes have an FCP attached.Engineering reviews stand-alone safety evaluations forwarded by other departments and/or contractors for potential FSAR impact.FCPs are developed as necessary.

The FSAR user comment form, which is proceduralized, permits the FSAR user to identify actual or perceived discrepancies in the content or accuracy of the FSAR.FSAR user comments concerning the content of the FSAR are forwarded to Engineering for review and incorporation into the FSAR.The FSAR user comment is reviewed to determine if enough information is provided.In order to be processed for inclusion in an FSAR amendment, the user comment must meet one of the following criteria: I)Editorial, such that back-up documentation is not required.2)Providing sufficient bases, e.g., safety evaluation, PC/M reference, or equivalency justification to show that the desired change has been evaluated and/or analyzed.If the criteria stated above is not met, the deficiencies are documented on the user comment form and returned to the originator.

If the user comment is adequate, it is forwarded to the cognizant discipline for review and disposition.(Note that user comm'ents are typically forwarded to Engineering as part of a CR.)If a valid error or concern is identified, the comment process will initiate those activities required to correct/update the FSAR prior to submittal to the NRC.A completed FSAR amendment is reviewed for accuracy and completeness by the appropriate plant departments prior to submittal to the NRC.5.2 Design Basis Document Updates The Design Basis Documents (DBD)for St.Lucie have been issued.Some change packages to this document have been generated but have not been incorporated into the document.Periodic updates are planned on a schedule consistent with the FSAR and will follow the process for updating in accordance with ENG QI 3.5,"Design Basis Document (DBD)Updating."

I'V St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 27 DBD updates consider the following categories of items implemented, revised, or identified since the last revision;~Changes to design bases or design criteria identified in the DBD~Changes made in the systems/components described in the DBD~Safety evaluations performed per 10 CFR 50.59~Safety evaluations performed in support of license amendments

~Safety evaluations performed at the request of the NRC~New or modified NRC requirements

~Commitments in FPL correspondence to the NRC~Changes made to figures contained in the DBD~Corrections to the DBD Changes to the facility may affect the DBD descriptions.

These changes may result from design changes issued by Engineering, Contractors, or other St.Lucie departments.

Engineering design outputs, e.g., EPs, MEPs, DCRs, evaluations, which impact the DBD include a DBD Change Package (DCP)as an attachment to the document.The level of detail and format provided in DBD updates are consistent with the level of detail and format contained in the original DBD.The review of NRC/FPL correspondence and stand-alone safety evaluations for impact on the DBD is the same as the method used to review the FSAR updates discussed in Section 5.1.DBD user comment forms are proceduralized and used similar to FSAR user comment forms (see Section 5.1)to identify actual or perceived discrepancies in content or accuracy of the DBD.Prior to issuing a DBD update, a review of the revised DBD is coordinated with applicable departments and organizations.

6.0 10 CFR 50, Appendix B Implementation Process The FPL Quality Assurance (QA)Program is described in the FPL Topical QA Report (TQAR)and is structured to be in compliance with the requirements of Appendix B to 10 CFR Part 50.The TQAR delineates the QA Program requirements and summarizes the FPL approach to activities related to materials, parts, components, systems and services included in the QA Program.The TQAR states that a QA Program be established for design-related activities.

More specifically, the TQAR provides the general guidance that the design control program must ensure that the design is defined, controlled and verified, that applicable design inputs are specified and correctly translated into design output documents; that design interfaces are identified and controlled; that design adequacy is verified by persons other than those who designed the item;and that design changes, including field changes, are governed by control measures commensurate with those applied to the original design.The general design requirements described in the TQAR are implemented through QIs.For each applicable criterion in 10 CFR 50, Appendix B, there is a corresponding Engineering and Plant QI or series of QIs that comply with the criterion in Appendix B.

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 28 The design records are developed to provide evidence that the design process and design verification were performed in accordance with the requirements of St.Lucie's QA Program.QIs are developed as required by each of the implementing departments that describe the measures to be used to implement the quality assurance requirements.

QIs describe actions and responsibilities to be performed within a department or organization and address the requirements of the appropriate TQAR requirements.

QA performs periodic audits of the configuration control processes.

The FPL TQAR requires that audits be regularly scheduled for on-going activities, and the scope of those audits include the preparation, review, approval and control of the FSAR, designs, specifications, procurement documents, instructions, procedures, and drawings.QIs require a biennial functional area audit of design and configuration control to be performed by the QA organization.

Design control is also audited during audits of other functional areas such as fire protection, fuels, refueling operations, environmental protection, and protection and control.Activity audits of specific design and configuration control issues may be performed at any time.In addition, reviews of safety-related and non safety related SSCs have been performed as part of audits and technical reviews.Also, St.Lucie procedures require that procedures and instructions (including those related to design and configuration control)be reviewed by QA for compliance with the TQAR, and other applicable industry standards and requirements.

TQR 18.0,"Audits," requires that QA Audit Findings be issued to the responsible management of the audited organization, who are required to correct the deficiencies identified in the audit report and take actions to prevent their recurrence.

The status of corrective actions are tracked by QA until the corrective actions have been accomplished and verified by QA.

St.Lucic Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Pago 29[b]"Rationale for concluding that design bases requirements are translated into operating, maintenance, and testing procedures." The following outline provides the organization of the response to request[b]: 1.0 Introduction 2.0 Programs Affecting Design Basis 2.1 Commitment to Excellence Program 2.1.1 Operating Procedure Upgrade Project 2.1.2 Technical Specification Improvement Project 2.2 Design Basis Program 2.2.1 Design Basis Document Development 2.2.2 Design Basis Document Use and Maintenance 3,0 Recent Design-Related Projects 3.1 Plant Procedure Improvement Program 3.2 Containment Penetration Review 3.3 Instrument Setpoint Verification

==4.0 Functional==

Review and Verification of Design Basis Translation into Procedures 4.1 4.2 4.3 4.4 4.5 4.6 4.7 FSAR Procedural Consistency Review Annunciator Summary Review Independent Safety Engineering Group Inservice Inspection and Testing Programs Surveillance Testing NRC Inspections 4.6.1 Emergency Operating Procedure Team Inspection

====4.6.2 Operational====

Safety Team Inspection

 

====4.6.3 Maintenance====

Team Inspection 4.6.4 Equipment Environmental Qualification Inspection 4.6,5 Conclusion from NRC Inspection Efforts FPL Audits, Self-Assessments and Findings 4.7.1 Audit Findings and Strengths 4.7.2 1996 Plant Self-Assessment 5.0 Conclusion b'

St.Lucio Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 30 1.0 Introduction FPL has reviewed the processes used to license, design, operate and test the St.Lucie Plants.This review has indicated that the processes will maintain the design basis and assure that operating, maintenance and testing procedures preserve the design basis.This includes the recently completed FSAR Procedural Consistency Review and the self-assessment performed in preparation for the recent NRC A/E Inspection.

The rationale for concluding that the St.Lucie design basis requirements are translated into plant procedures is based upon the following:

1.The design, procedures and plant modifications have been under procedural control since initial operation to assure that changes to the procedures, the design or to the FSAR are consistent.

The St.Lucie programs and initiatives which have aided in assuring this consistency were the Commitment to Excellence Program, plant procedure improvement program, and the containment penetration review.2.The startup test procedures verified that the plant operated as designed and met the design bases for plant operation.

p>>3.The Design Basis Program helped to ensure that the design bases was correctly incorporated into the plant's operating procedures.

4.Current and past plant programs, such as the plant procedure improvement program and the instrument setpoint verification, confirm the acceptability of plant procedures.

5.Self-assessments, FPL audits, and NRC inspections have evaluated through sampling programs that the processes for maintaining procedural consistency with the design bases are acceptable and provide reasonable assurance of their effectiveness.

The original design process produced design documents such as calculations, drawings, specifications, evaluations, and analyses necessary to support initial construction, testing, operation and licensing of the plant.The design documents produced by this process were used as the bases for system startup and acceptance testing.The design and construction process included various quality assurance audits, quality control inspections, and documentation requirements to assure consistency between construction and design.The FSAR was created during the plant design process and was submitted to the NRC for review and approval.The FSAR includes descriptions of the plant's design and operating practices required to show compliance with NRC regulations.

NRC review of the original FSAR resulted in additional amendments prior to plant operation.

The NRC Safety Evaluation Report documents this review and the NRC staff's findings that the plant design and operating practices were acceptable, Technical Specifications were developed (in conjunction with the NRC review)to identify functional requirements, controlling parameters, and surveillance and testing requirements that are significant to the safe operation of the plant.The maintenance procedures

 

This new group provides a single point of contact for procedural issues.The goal of this new group is to take the current set of plant procedures and identify tasks for which procedures do not exist, and identify existing procedures that need to be upgraded.These procedures will be placed into a standardized format and use industry-proven language techniques to give the end-user technically correct, first time implementable procedures.

~Review procedures for critical characteristics and attributes

 

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 40 or unresolved items.EQ documentation files were considered well organized and complete, requiring minimal additional information to support the analysis provided in the file.EQ maintenance program procedural compliance was good, and the special maintenance requirements described in the EQ document packages were confirmed to have been incorporated into the procedures for those sample items reviewed.The inspection team noted that the tracking mechanism used by the plant to ensure scheduling and completion of EQ maintenance tasks appeared to be fragmented with separate lists for calibration, surveillance, preventive maintenance (PM), and replacement.

There was no overall program to ensure that maintenance activities were being accomplished.

This was considered a weakness in FPL's EQ maintenance program.FPL acknowledged the concern and committed to implement a formalized maintenance tracking system as outlined in the inspection report details.The inspection team considered these actions to be adequate to resolve concerns.This inspection supports FPL's position that St.Lucie equipment under the EQ Program was performance tested and maintained in accordance with the plant design bases.4.6.5 Conclusion from NRC Inspection Efforts These inspections evaluated the St.Lucie processes for operating and maintaining the plant as designed.Plant configuration, SSC maintenance, component testing and plant operation were evaluated by these teams and found to be acceptable.

Follow-up inspections verified the corrective action process.Therefore, these inspections support the rationale that the processes in place will assure that design basis information is maintained in maintenance, operating and testing procedures 4.7 FPL Audits, Self-Assessments and Findings The effectiveness of St.Lucie initiatives, projects, programs, and processes have been audited by FPL QA.Provided below and in Appendix B, Table B 4.7.1 are details of selected QA audits.The overall review of these audits supports the conclusion, with reasonable assurance, that St.Lucie design bases requirements have been maintained and properly translated into operating, maintenance, and test procedures, and that discrepancies found are corrected in a timely manner.4.7.1 Audit Findings and Strengths Since the initial startup of the units, numerous formal audits have been performed by the Quality Assurance organization in areas related to the control of design bases, design, configuration, testing, and plant procedures at St.Lucie.Design program audits typically reviewed engineering processes, implementing procedures, and the implementation of design changes and associated records (i.e.modification packages).

QA audits consistently found that Quality Assurance Program elements (including design requirements) were adequately addressed by procedures, and that the implementation of those procedures was effective, The programs and procedures for c l hg' St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 41 translating design requirements into procedures and instructions were consistently determined to be adequate.Audit Findings were resolved through the corrective action process, and resulted in improvements of Engineering, Operations and Testing processes and procedures.

Other relevant examples of QA audits which prompted plant and process improvements are highlighted in Appendix B, Table B 4.7.1,"QA Audit Findings," and are summarized below.~QAS-JPN-91-8,"Juno Nuclear Engineering

-St.Lucie Design Control."~QAS-JPN-95-1,"Nuclear Engineering Audit." QSL-PM-96-18,"Performance Monitoring Audit." Other QA audits and self-assessments listed in Appendix B, Table B 4.7.1 resulted in findings which directly related to the proper translation of design bases requirements into operating, maintenance and testing procedures.

Resolution of findings from the following audits listed in Appendix B, Table B 4.7.1 promoted significant improvement in the St.Lucie design basis maintenance and procedure consistency processes:

4.7.2 1996 Plant Self-Assessment In October 1996, St.Lucie completed a five and one half month self-assessment of site performance during the two year period from January 1994 to May 1996.On October 18, 1996, the Self-Assessment Team published a comprehensive report which documented their evaluation of the performance of operations, engineering, maintenance, and plant support functional areas, as well as management policies and the corrective action program.The evaluation of the St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 42 engineering functional area included engineering design control and configuration management.

The team concluded that the overall quality of engineering work was superior.However, plant drawings, procedures and licensing documents were not always updated to reflect changes to the plant.In addition, guidance for updating operating procedures, as-built documents, and the FSAR, to reflect changes due to plant modifications, was unclear.The issues were addressed in the summer of 1996 with the implementation of new guidelines for implementing plant modifications.

The complete history of QA audits and self-assessments has resulted in continual process improvements in design and configuration control, and in plant procedure development and compliance with the plant design bases.5.0 Conclusion There is adequate rationale for concluding with reasonable assurance that the operations, maintenance, and testing procedures at St.Lucie are consistent with the design and that discrepancies between design documents, the FSAR, procedures and the plant are not significant with respect to safety based upon the facts that:~The verification at initial licensing of the plant, FSAR and the design are consistent.

~Various improvement projects and programs throughout the history of the plant confirm the acceptability of plant procedures.

~The various audits, inspections, and self-assessments have verified consistency of design with the plant and its translation into the procedures.

~Processes have been and are in place for identification, evaluation and correction of discrepancies between the design and the plant procedures.

St.Lucio Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 43 Ic]"Rationale for concluding that system, structure, and component configuration and performance are consistent with the design bases." An outline of the organization of the response to this request follows: 1.0 Introduction 2.0 St.Lucie Programs and Initiatives 2.1 Design Basis Program 2.2 Containment Penetration Review 2.3 LOCA Containment Re-analyses

===2.4 Instrument===

Setpoint Verification 2.5 Unit 1 Steam Generator Replacement Project (SGRP)2.6 Simulator Validation Project 2.7 Operating Experience Feedback (OEF)Program 2.8 Surveillance Testing 2.9 Maintenance Rule Program 2.10 Plant Procedure Improvement Program 2.11 Annunciator Summary Review 3.0 Walkdowns, Inspections, Audits and Reviews 3.1 FPL Plant Walkdowns 3.2 FPL Seismic Walkdowns 3.3 FPL Unit 1 Steam Generator Replacement Walkdowns 3.4 NRC Electrical Distribution Functional Inspection (EDSFI)3.5 NRC Service Water System Operational Performance Inspection 3.6 NRC Inspection of Plant Changes and Modifications 3.7 NRC Integrated Inspections 3.8 NRC Equipment Environmental Qualification Program Inspection 3.9 NRC Inspection of the Motor Operated Valve Program 3.10 NRC Check Valve Inspection 3.11 NRC Architect/Engineer Team Inspection 3.12 FPL Audits and Reviews 4.0 Conclusion St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 44 1.0 Introduction The rationale for concluding with reasonable assurance that the St.Lucie Plant system, structure, and component (SSC)configuration is consistent with the design bases is based on the following:

1.The plant configuration was verified to be consistent with design information and the FSAR prior to initial operation.

2.Startup testing verified plant performance conformed with the design bases for plant operation.

3.Plant changes have been under procedural control to assure consistency with the design bases since initial operation.

4.Process improvement initiatives have resulted in improved effectiveness of the processes used to maintain the plant configuration and performance consistent with the design bases.5.Routine audits, inspections and vertical slice reviews confirm that plant performance and configuration is consistent with the design bases.St.Lucie Units 1 and 2 were licensed in 1976 and 1983, respectively.

The plant configuration was verified to be consistent with design information and the FSAR prior to initial operation.

The original design process produced design documents such as calculations, drawings, specifications, evaluations, and analyses necessary to support initial construction, testing, operation, and licensing of the plant.The design documents produced by this process were used as the bases for system startup and acceptance testing.The design and construction process included various quality assurance audits, quality control inspections, and documentation requirements to assure consistency between the as-built systems, structures, and components, and the design.The FSAR was produced as part of the plant design process and submitted to the NRC for review and approval.The FSAR includes sufficient descriptions of the plant's design, configuration and performance requirements to document compliance with NRC regulations.

NRC review of the original FSAR resulted in amendments prior to plant operation, The NRC Safety Evaluation Report documents this review and the staff's findings that the plant's design, configuration, and performance parameters were acceptable.

Technical Specifications were developed (in conjunction with the NRC review)to identify configuration and functional requirements, controlling parameters, and surveillance and testing requirements that are significant to the safe operation of the plant.These licensing, design, and as-built configuration reviews, conducted in conjunction with the initial startup testing of the plant, confirmed that the system, structure, and component configuration and performance were consistent with the design bases prior to initial operation.

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 45 Startup testing verified plant performance conformed with the design bases for plant operation.

The initial startup testing program was developed based on design basis requirements identified by the NSSS supplier and the A/E.Abstracts for the startup test procedures were provided to the NRC for review and acceptance, The successful completion of the initial startup test program verified that the plant's licensed configuration and performance were in compliance with its design bases.A startup test report was submitted to the NRC prior to commercial operation.

This report formed the basis for subsequent plant operation and inservice testing.Since startup, plant changes have been under procedural control to assure consistency with the design bases.As discussed in the response to Request[a], the evolutionary and current engineering design and configuration management processes have provided the necessary controls to ensure that the St.Lucie SSC configuration and performance have been and remain consistent with the design bases.In addition, FPL has sufficient documentation (calculations and/or pre-operational, startup, and surveillance test data)to conclude that the current plant configuration is consistent with its design bases.The FPL engineering design and configuration control processes were developed and maintained to ensure that the plant design, as-built condition, and operation remain in conformance with the original plant license, design bases, and subsequent licensing commitments.

These processes are used to control the plant design basis, design, design changes, physical configuration, and operations, maintenance, testing, installation, procurement and training requirements and documentation.

2.0 St.Lucie Programs and Initiatives St Lucie programs and initiatives support the rationale that SSC configuration and performance are consistent with the design bases.Together they have helped identify process improvements, correct procedural/plant configuration inconsistencies, improve content and accessibility of design bases information, and improve plant performance.

These programs and initiatives, which support the rationale that systems, structures and component configuration and performance are consistent with the design bases, are discussed in the following sections, 2.1 Design Basis Program The Design Basis Program involved the development of a set of unit-specific system-level documents, referred to as design basis documents (DBD), that contain a roadmap to the reference regulations, codes, standards, calculations, analyses, specifications, etc., that form the basis for system design, testing and operation.

Each DBD was reviewed against plant drawings in an effort to ensure consistency with the design bases, and the plant configuration and operating procedures.

The DBDs explain system design and provide a definition of bases for the design, component design constraints, and design features.The results of the Design Basis Program support the conclusion that SSC configuration and performance are consistent with the plant's design basis.

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 46 2.2 Containment Penetration Review In 1991, an evaluation,"Technical Assessment of Containment Penetration Boundaries," was issued for each unit to address plant events related to the control of containment isolation boundaries.

The objectives of these evaluations were to: 1)perform a technical assessment of each mechanical containment penetration to determine those components whose integrity or operational position were vital to containment integrity; and 2)provide sketches identifying containment boundary components to assist plant personnel involved in operations and maintenance activities.

The evaluations documented the containment penetration boundary, including components that are vital to containment integrity.

In preparing the evaluations, each penetration configuration was evaluated to: 1)confirm that the intent of the 10 CFR 50 Appendix A, General Design Criteria (GDC)requiring a double barrier is satisfied for each line penetrating the containment; and 2)identify those components that form the containment penetration boundary, including those components that can be manipulated (e.g., valves opened, caps removed, or piping blind flanges removed)such that the double barrier criterion could be violated.Appropriate design and construction documentation was consulted and, where possible, the system components were walked-down to generate and confirm the containment penetration sketches.The Unit 1 evaluation concluded that the isolation system meets the intent of the 10 CFR 50 Appendix A, General Design Criteria (GDC)in that a double barrier is provided in each line penetrating the containment.

However, certain containment penetration valving did not conform in detail to the requirements of GDC 54 through GDC 57, since the General Design Criteria were published after the Construction Permit was issued, and hence, were not available as a guide.The Unit 2 evaluation concluded that the isolation system meets the requirements of the 10 CFR.50 Appendix A, General Design Criteria (exceptions taken to GDC provisions are discussed in Section 6.2.4.3 of the St Lucie Unit 2 UFSAR)in that a double barrier is provided in each line penetrating the containment.

2.3 LOCA Containment Re-analysis

~~~In 1993, the LOCA containment analyses of record were updated.Prior to the update, the containment section of the FSARs included much of the original design basis sensitivity studies.

St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 47 Plant changes, (e.g., power uprate), had been addressed, however, this information was typically updated with the most limiting case of record, and as a result, portions of the FSAR had become unclear.The re-analyses and associated FSAR updates, incorporated changes into one evaluation for each unit.It utilized operating experience where necessary to support inputs including the final product of peak and transient containment pressure and temperature, and input for the Design Basis Program.The results of the re-analyses showed containment pressure to be within both the peak containment design pressure and the Technical Specification integrated leak rate test pressure.The peak containment temperature was also well within the peak containment vessel temperature limit.The long term temperature response was also shown to be within the existing equipment environmental qualification (EQ)envelope for Unit 2.Although the long term temperature response for Unit 1 was shown to slightly exceed the existing equipment EQ envelope for a limited time interval, when the equipment test curves were reviewed, they bounded the new analyses, and the EQ curve was revised.Additionally, the re-analyses evaluated the CCW temperature response using a time dependent containment heat load.The CCW and ICW loops were conservatively modeled without credit for the time lags associated with loop transit times and piping volumes.In this manner, a realistic approach to peak CCW temperature calculations was conducted, thereby providing an accurate baseline of predicted CCW temperature for any future analyses, and valuable input for plant operation.

===2.4 Instrument===

Setpoint Verification Between 1991 and 1993, FPL performed an instrument setpoint review for the St.Lucie Plant to verify and document current setpoints.

Approximately 250 safety-related and important-to-safety instrument loops were evaluated with approximately 150 loops requiring documentation or recalculations.

Plant operating and maintenance procedures were compared to the current field conditions and design documents to verify consistency.

There were no design basis inconsistences found which were of a magnitude which required NRC notification.

This program provides a basis to conclude that the current plant setpoints are correctly translated into plant procedures and that the design basis is available.

The original St.Lucie instrument setpoints were furnished by the A/E, the NSSS designer, or other equipment vendors, and have been supplemented through the years by engineering packages, which were typically produced by the A/E.Prior to the instrument setpoint verification effort, control of instrument setpoint changes was governed by a separate process that involved plant and engineering procedures.

In addition, it was an accepted practice at the time that some of the setpoints could be changed by the plant based on A/E or vendor input with limited documentation.

Historically, the setpoint bases have been maintained in various documents including drawings, vendor manuals, and maintenance procedures, and the calibration/scaling values (typically calculated by maintenance) were maintained in the calibration procedure.  

, I St.Lucie Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 48 The setpoint verification effort (in addition to documenting or recalculating instrument setpoints) changed the old process by incorporating instrument setpoint changes into the configuration management process.The process change converted the setpoint list into an engineering drawing and placed instrument setpoints under engineering control in the configuration management process.Bases documents such as calculations were updated as appropriate to reflect the instrument setpoints described in the design drawings.2.5 2.5.1 Unit 1 Steam Generator Replacement Project (SGRP)Evaluation of Accident Analysis The accident analyses presented in Chapter 15 of the St.Lucie 1 FSAR were evaluated to determine the effects of use of the replacement steam generators (RSG).The objective of each evaluation was to demonstrate that the St.Lucie 1 plant response with the RSGs would meet all NRC approved FSAR acceptance criteria.The specific transients considered in the Stand-Alone Safety Evaluation (SASE)were grouped according to the categories described in NRC Regulatory Guide 1.70, with a cross reference to the St, Lucie 1 FSAR.The categories are: e 1.Increases in heat removal 2.Decreases in secondary heat removal 3.Decreases in reactor coolant system flow 4.Reactivity and power distribution anomalies.

5.Increases in reactor coolant inventory 6.Decreases in reactor coolant inventory 7.Radioactivity releases from subsystems The FSAR was reviewed to determine the effects of using the RSGs.The safety evaluation of the FSAR Chapter 15 accident analyses, the main steam line break and loss of coolant accident analyses for reactor building pressure response in FSAR Chapter 6, and the overpressure protection and natural circulation analyses in FSAR Chapter 5 are also discussed in SASE.2.5.2 Evaluation of Reactor Building Response The RSGs can affect the mass and energy releases for primary and secondary system ruptures.Consequently, the effects of use of the RSGs on the St.Lucie 1 reactor building pressure calculations in Chapter 6 of the FSAR were assessed.2.5.3 Evaluation of Structural Response~~~The loadings resulting from a LOCA, Main Steam Line Break and seismic events were evaluated for the RSGs and reactor coolant system.The objective of these evaluations was to verify that r 0 4 I~A St.Lucic Units 1 and 2 Docket Nos.50-335 and 50-389 L-97-28 Enclosure Page 49 the existing components, supports, and restraints were adequate to accommodate the RSGs under normal and accident loading conditions.

The evaluations addressed all primary components.