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{{Adams
#REDIRECT [[RBG-16-496, Forwards Responses to 830523 & 0602 Requests for Addl Info Re Plant Personnel Training & Revised Sections of FSAR Chapter 13]]
| number = ML20083E986
| issue date = 12/02/1983
| title = Forwards Responses to 830523 & 0602 Requests for Addl Info Re Plant Personnel Training & Revised Sections of FSAR Chapter 13
| author name = Booker J
| author affiliation = GULF STATES UTILITIES CO.
| addressee name = Denton H
| addressee affiliation = NRC OFFICE OF NUCLEAR REACTOR REGULATION (NRR)
| docket = 05000458, 05000459
| license number =
| contact person =
| document report number = RBG-16-496, NUDOCS 8312300076
| document type = CORRESPONDENCE-LETTERS, INCOMING CORRESPONDENCE, UTILITY TO NRC
| page count = 99
}}
 
=Text=
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                                                                                                      ^^* k)
GULF STATES              UTILITIES COMPANY POST CFFfCE box 2451                                  a E. A U V O N T . TEXAS 77704 AREA CODE 713 838-6631 December 2, 1983 RBG- 16,496 File No. G9.5.3.1 G9.8.2.13 Mr. Harold R. Denton, Director Office of Nuclear Reactor Regulation U. S. Nuclear Regulatory Commission Washington, D. C.' 20555
 
==Dear Mr. Denton:==
 
River Bend Station Units 1 & 2 Docket Nos. 50-458/50-459 Enclosed are Gulf States Utilities Company's responses to the requests for additional information on Plant Personnel Training (dated May 23, 1983 and June 2, 1983) as well as revised sections of the Final Safety Analysis Report (FSAR) Chapter 13. Discussions with members of Region IV Staff have been the bases for other changes in Sections 13.1-Organizational Structure; 13.2-Training; 13.4-Review and Audit; and, 13.5-Plant Procedures. Attachment I summarizes the requests for information and indicates the section containing the corresponding discussion; Enclosure I contains the revised sections with comments and changes incorporated; and Enclosures 2 through 4 provide additional discussion which will be included in the FSAR in the next amendment.
Sincerely,
                                                                                    . f.
J. E. Booker Manager-Engineering, Nuclear Fuels & Licensing River Bend Nuclear Group JEB/E          t l
I l                                                                                  D \
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l 8312300076 831202 PDR ADOCK 05000458                                                9(          h A                  PDR                                                  \  kV
 
ATTACHMENT 1
                                          ~
REQUEST                    REQUEST                    REFERENCED NUMBER                  DESCRIPTION                      SECTION May 23, 1983 DOCKET 1    SRO/R0 EMERGENCY PROCEDURE TRAINING            13.2.1.1.4 (2p) 13.2.1.1.5 (15) 13.2.1.1.9 (70)
SUB-ITEMS: a,b,c,d,e                            SEE ENCLOSURE 2 2    LICENSE CERTIFICATION PROCESS                  13.2.1 PAR. 6 3    MODIFY TRAINING PROGRAM TO INCLUDE              13.2.1.1.1 PHASE II ITEM I.A.2.1 0F NUREG-0737 SUB-ITEMS: a,b                                  SEE ENCLOSURE 3 4    MODIFY TRAINING PROGRAM FOR MITIGATING          13.2.1.1.7 CORE DAMAGE TO INCLUDE ITEMS FROM MR. H. R.
DENTON'S 3/28/80 LETTER SUB-ITEMS: a,b,c                                SEE ENCLOSURE 4 5    PROVIDE A COMMITMENT TO COMPLY WITH            13.2.1.1 PAR. 4 ITEM I. A.2.1 OF NUREG-0737 REGARDIt!G RO/SRO EXPERIENCE 6    DISCUSSION HOW FIRE BRIGADE TRAINING WILL      13.2.2.2 (4)
MAINTAIN THEIR RECORDS 7    MODIFY THE REQUALIFICATION TRAINING PROGRAM    13.2.2.3 (3 PAR.1)
FOR ON-THE-JOB TRAINING TO INCLUDE GUIDANCE FROM MR. H. R. DENTON'S 3/28/80 LETTER 8    MODIFY THE REQUALIFICATION TRAINING            13.2.2.3 (4)
PROGRAM TO COMPLY WITH SECTION 4(c) AND 4(e) 0F 10 CFR 55 APPENDIX A JUNE 2, 1983 DOCKET 1    MODIFY THE SIMULATOR TRAINING PROGRAM TO        13.2.1.1.4 P/J1.1 MEET THE GUIDE-LINES OF REG. GUIDE 1.149 SECTION C.2.
 
Enclosure 1
 
                                                            -._ _=.          - _ . .
,-      FSAR 13 13.1 I
      '                                                                              I RBS FSAR CHAPTER 13 CONDUCT OF OPERATIONS e
13.1 ORGANIZATIONAL STRUCTURE OF APPLICANT 13.1.1  Management and Technical Support Organization This section provides information relative to the corporate organization, its functions and responsibilities, and the number and qualifications of personnel participating in the
        -facility    design,  design    review,    design        approval, construction management, testing, and. operation of River Bend Station.
13.1.1.1  Design and Operating Responsibilities The following sections summarize the degree to which design, construction, and preoperational activities            have    been accomplished and describe the specific responsibilities and
()  activities relative to technical support for operations.
13.1.1.1.1  Design and Construction Activities (Project Phase) 13.1.1.1.1.1  Principal Site-Related Engineering Work Meteorology A    preoperational meteorological monitoring program was established'at the site on December      16, 1971 to provide those meteorological factors that bear upon plant design, operation, and safety. During the first two annual cycles, the    meteorological systems were calibrated by Weather Measure Corporation personnel. In March 1977 the program changed in that Teledyne-Geotech supplied new meteorological instruments. This company checked the instruments every two months.      In addition, S&W site personnel checked the instrumentation five days a week.        S&W's meteorological group reviewed data obtained via this monitoring program.
The systems have since been turned over to GSU personnel with-    the  most recent calibration by Teledyne-Geotech occurring in April 1983.          The monitoring    program      is discussed in Section 2.3.
Geology Prior to the initiation of construction, site and regional geological investigations were conducted by geotechnical 13.1-1
 
O                                                            RBS FSAR
                .                                                                                                                                              I personnel of S&W or by consultants retained by S&W during the period from 1972 to 1975.                                                During construction, all foundations were inspected and photographed. Section 2.5 provides details of these investigations.
e Seismology Consultants to S&W were assisted by. S&W personnel in conducting geophysical surveys of the site.                                                      In particular,        l Dr. Clay Durham, an independent consultant, was retained to make the seismicity study and interpret seismic survey data.
Section 2.5 includes more detailed information.
Hydrology S&W made use of the project design flood defined by the U.S.
Army Corps of Engineers to estimate the probable maximum flood (PMF) from offsite areas for the River Bend Station site. Since the plant grade elevation is well above the PMF elevation of the Mississippi River, the controlling event is the' potential flooding of the site due to a combination
()          probable          maximum precipitation and an Operating Basis Earthquake. Design integrity of safety-related structures l
in the event of this occurrence has been assured. Flood protection is discussed further in Section 3.4.1.
Demography i
S&W consulted with the                              U.S.                  Bureau of the Census, the University of New Orleans, and Gulf South Research Institute for -demographic studies relative to population within 50 mi of the plant as discussed in Section 2.1.3.
{
Environmental Effects A preconstruction monitoring program was developed to enable the collection of data necessary to determine possible impact on the environment due to construction activities and to establish a baseline from which to evaluate future environmental monitoring.
3                  A portion of this program was established to provide for a periodic review of all construction activities and to ensure that    those                  activities              conform                            to the environmental conditions              set      forth            in              the                  construction  permit.
Preoperational monitoring will begin at Icast 2 yrs. prior
. .                to commercial operation of Unit 1.
1                                                                        13.1-2
 
F I
1' O                                                    RBS FSAR 13.1.1.1.1.2  Design of Plant and Ancillary Systems An evaluation of progress as of October 31, 1983, indicated overall completion of Unit 1 at 80.0 percent with 79.2 percent of the construction completed.                            Activities are  e planned in accordance with a fuel load in April 1985 for Unit 1. Commercial operation for Unit 2 is not scheduled at this time.
13.1.1.1.1.3  Review and Approval of Plant Design Features Design    control  and review of safety-related systems, components and structures was performed in accordance with the Construction QA Program.
During the construction phase, the implementation of design control has been delegated to General Electric for the NSSS and to Stone & Webster Engineering Corp. for the BOP. While GSU does not design any safety-related components, the Project Engineer is responsible for review, analysis, and comment on proposed design changes or modifications.                        This
()    design review is accomplished through written procedures in accordance with the QA Program.                        In addition, the Project Manager directs GSU interfaces with GE and SWEC Engineering, as well as arranging the necessary support                              for  the construction process.                          Design control as applied to fire protection requires input from a qualified fire protection engineer.
O 1
13.1-3
 
RBS FSAR 13.1.1.1.1.4    Site Layout with Respect to Environmental Effects and Security Provisions The shield, turbine, radwaste, and auxiliary buildings have portions of their structures below station grade, thus giving a low profile to the station. The grounds in the immediate vicinity of the        plant  buildings    will  be attractively landscaped.      Undisturbed portions of the site will be allowed to remain in their natural state, with provisions having been made for management of wildlife.          l Security    provisions in accordance with applicable NRC regulations were incorporated into the overall site layout as described in Section 13.6.
13.1.1.1.1.5    Development of Safety Analysis Reports Overall responsibil.ity for preparation and updating of the FSAR rests with the GSU          Nuclear  Licensing    section.
Preparation of the individual sections was assigned to the cognizant technical groups within GSU, or to S&W for balance
() of plant systems and GE for NSS systems.
1 13.1.1.1.1.6    Review and Approval of Material and Component    I Specifications Safety-related    project specifications were reviewed in accordance with the construction phase quality assurance program.
13.1-4
 
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v RBS FSAR 13.1.1.1.1.7        Procurement      of Materials, Equipment and Services Procurement      of safety-related materials, equipment and services is accomplished in accordance with construction phase QA programs.
Efficient      procurement      procedures and instructions are established to provide for plant needs in accordance with established        GSU      Quality      Assurance    and    Corporate requirements. Measures have been taken through revision of the    GSU    Corporate      Purchasing Policy to assure that procurement for nuclear requirements occurs under Quality Assurance policies and procedures.
The Manager-Engineering, Nuclear Fuels, and Licensing is responsible      for    nuclear      fuel      procurement.      This responsibility has been delegated to the Supervisor-Nuclear Fuels and his staff which develops contracts regarding nuclear      fuel    procurement.      During    construction, the remainder of contract management is the responsibility of the Project Manager. The Project Manager's duties include
(~)  directing the monitoring of contracts and the procurement efforts required for the construction of River Bend Station.
13.1.1.1.1.8        Management      and    Review    of Construction Activi'.ies Commencing with the start of site preparation in September 1975, the following review activities have been performed at the construction site by the GSU construction group.
: 1. The River Bend Project Manager delegates authority to a staff that has technical and administrative competence in Engineering; Contract Management; Accounting, Cost, and Scheduling; and Start-up.
During the construction phase, he reports to the l                Vice President - River Bend Nuclear Group.
: 2. The River Bend Project Engineer delegates authority to a ataff that has technical competence                in nuclear,          electrical,        mechanical,      and civil / structural matters. During the construction phase, he reports to the Project Manager.                In addition, General Electric has been delegated the responsibility for the design and procurement of the NSSS and nuclear fuel; and Stone & Webster 7-)
l (,,/          Engineering Corporation has been delegated the
!                responsibility for the design and procurement of l                the BOP.        ..
13.1-5
 
'-/
RBS FSAR
: 3. Ccst    and    scheduling  personnel  monitor    the contractor's cost and schedule performance to keep the GSU construction group informed of project status.
: 4. The    GSU    Director of Contract Management has monitoring    responsibility    for  all      onsite construction activities performed by S&W and other contractors to ensure compliance with contractual obligations.
: 5. The Director-Accounting, Cost & Scheduling and the Director-Management Systems have a staff of analysts and engineers that evaluate and control the construction costs and scheduling problems.
These persons report to the River Bend Project Manager.
13.1.1.1.2    Preoperational Activities 13.1.1.1.2.1      Development    of Human Engineering Design
(~ )                    Objectives and Design Phase Review of Proposed Control Room Layouts The human engineering design objectives were developed jointly with GSU headquarters personnel, S&W, and GE.
Features pertinent to making the main control room an environment conducive to shift operations include: the use of consistent color schemes providing visual relief and instrumentation coordination; floor layering yielding noise abatement; and lighting that minimizes strobing effects and operator disorientation (which can be caused with neon lamps).
The main control room control center area was arranged to be efficient in operation. Every effort was made to ensure compatibility of all indicating and alarm systems for ease of operator interface.        Instrumentation was arranged to minimize personnel interference with control system dynamics and to provide ease of maintenance and calibration.
Several design features were implemented that improve the man-machine interface.
: 1. Control panels were placed for greater ease in 7-                control and panel-mounted indicators that provide
(_)\              the best readability were obtained.
13.1-6
 
\-
RBS FSAR
: 2. Control display arrangement was designed to allow the operator to distinguish immediately the primary device from some auxiliary.
: 3. The use of color CRTs in a limited graphics mode increases operator comprehension and information access.
: 4. Uniformity of panel-mounted consoles provide for better recirculation control system operability.
: 5. Design includes features      for ready location of faulty component control devices.
13.1.1.1.2.2      Development    and Implementation of Staff Recruiting and Training Programs The training programs to be utilized for this facility are described in Section 13.2.          These programs are      being implemented in accordance with the schedule indicated in that section. Recruiting of personnel to fill positions is
('s currently taking place. The organization dedicated to Unit 1 operation is scheduled to be filled b3 April 1985.            A      l position on Regulatory Guide 1.8, Personnel Selection and Training, is presented in Section 1.8.
13.1.1.1.2.3    Development of Plans for Initial Testing The    GSU    River    Bend Station (RBS) Startup and Test Superintendent and his staff have responsibility for all aspects of the River Bend Station startup and test program.
The scope of testing to be accomplished during the test program was defined by this group. This included defining the boundaries of the systems to be tested so that a clear interface could be established where systems overlapped.
Effort was expended towards defining the manpower and material requirements required by the startup and test program (Chapter 14).
A conceptual plan for RBS-1 was prepared and approved by GSU. This plan details the GSU startup organization and presents manpower estimates for the testing sequences.
Administrative controls for the test program have been detailed and agreed upon, and an overall schedule for RBS-1 startup program was finalized in December 1982.                          l O
(_j The    startup manual contains a general description of organizational responsibilities and of S&W and GE interfaces regarding the startup program.          Procedures for writing, 13.1-7
 
O                                  RBS FSAR reviewing, and implementing tests are given.      Preoperational and initial test program policies are stated and the responsiblities of the Facility Review Committee (FRC) and Joint    Test    Group '(JTG) are delineated regarding the      l performance of reviews. Startup procedure preparation has          e begun and will continue throughout the startup program.
Preoperational and      startup    and  test  programs    will incorporate    operational staff as discussed in Section 13.2.1.2. The experience gained provides an        improved working knowledge of the systems, components, and equipment at RBS.
13.1.1.1.2.4    Development of Plant Maintenance Programs The maintenance programs are organized to ensure efficient maintenance while maintaining radiation exposure as low as is reasonably achievable. The organization of the resident maintenance forces is described in Section 13.1.2.          The mechanics, electricians, and technicians report through their respective supervisors to the General Maintenance Supervisor. RBS will employ qualified and experienced
()    maintenance personnel prior to the initial fuel loading.
The RBS maintenance program ensures the safety of the public and plant personnel, provides reliable equipment,            and satisfies the requirements of the regulatory agencies having jurisdiction. Those structures, systems, and components that prevent or mitigate the consequences of postulated accidents are maintained in accordance with the quality assurance program promulgated by GSU.
The maintenance staff is sized to perform the routine and preventive maintenance work load.      The station staff is supplemented as necessary by GSU maintenance crews and outside contractors. Maintenance and repairs of safety-related equipment are performed under the direction of cognizant supervisors and in accordance with            accepted procedures and work practices.
The scope and frequency of the preventive maintenance is based on past experience with similar equipment, engineering judgment, and the manufacturer's recommendations. Suitable records are kept to establish, at the            minimum,  the maintenance    history of major safety-related equipment.
Maintenance and repairs of safety-related equipment are performed      in    accordance  with    written    maintenance instructions, operating instructions, station and division O. -
orders, vendor technical manuals, and applicable codes and regulations. Except for emergencies, all maintenance work is preplanned.
13.1-8
 
g V                                RBS FSAR The responsibility for development of Plant Maintenance Programs lies with Plant        Staff. Recommendation    for creating, modifying, or removing any programs or procedure which affect Plant Maintenance must be reviewed by the General Maintenance Supervisor, Assistant Plant Manager-        o Operations, and the Facility Review Committee for forwarding to the  Plant Manager for final approval. Should changes affect  either design or operation, the Technical Staff and/or  Nuclear Plant Engineering are notified for proper review  and approval.      During startup,    any  tests  or experiments    requiring changes to existing or proposed maintenance programs or procedures are reviewed by the Superintendent-Startup and Test and the General Maintenance Supervisor for resolution of potential problems.
13.1.1.1.3  Techt.aal Support for Operations Technical support for plant operations has been established and is in effect for RBS. Refer to Fig. 13.1-1 for the corporate organizational structure; Fig. 13.1-2 for the plant operations organizational structure. The Engineering, Nuclear Fuels, and Licensing Department provides technical f}
'    support to RBS for the life of the plant (See Fig. 13.1-4).
Safety-related design work for RBS is the responsibility of the Manager-Engineering, Nuclear Fuels        and  Licensing.
Performance of safety-related design work is delegated to the Director-Nuclear Plant Engineering and his staff (both onsite and offsite) with additional input available from Plant Staff or outside consultants.      This safety-related design work (i.e. configuration management including drawing control, see Section 13.1.2 and 17.2.5) is accomplished in accordance with procedures which have been reviewed by the Director-QA or his designee.        Departmental    procedures reflect applicable regulatory requirements and stipulate proper preparation, review, approval and verification.
The    Nuclear Licensing section coordinates and effects official communications with the NRC          staff,  develops documentation concerning the station facility licenses and permits, and provides recommendations on regulatory issues.
The Emergency Planning section directs the preparation of the necessary emergency plans for RBS to assure that the federal,    state,  and local regulatory requirements for licensing and operating the nuclear generating facility    are g-  met in a timely fashion.
C    The Nuclear Fuels section coordinates, monitors and directs (1) GSU    contracts    and  activities    for  procurement, 13.1-9
 
O                                                      RBS FSAR l    -
r l
l      conversion, enrichment, and fabrication of uranium fuels, (2) spent fuel,-high level, and low level waste disposal programs, (3) material safeguards programs and (4) incore
: f.      fuels management programs.
      'The Power Plant Engineering and Design group (supporting GSU's fossil plants) is an inhouse organization available to the River Bend Nuclear Group. Whenever additional expertise or resources are required, GSU's Power Plant Engineering and Design group or outside consultants are contacted.
Since GSU has only one nuclear project, the River Bend Nuclear Group (RBNG) was formed to concentrate the company's expertise on RBS. Therefore, there are no plans for offsite technical support in the areas of chemistry / radiochemistry, health  physics,    and fueling and refueling operations support. These areas are capably, handled by the onsite organization. as delineated in Section 13.1.2.            However, the Department of Nuclear Plant Engineering does have technical staff available for input in these areas as required. This support is available on an individual problem area basis as specified by the Director-Nuclear Plant Engineering.
O 13.1-10
 
l 1
(
RBS FSAR
'                                                                                                                                          i 13.1.1.2  Organizational Arrangement                                                                                    f 13.1.1.2.1    General Fig. 13.1-1 depicts an organization chart for the Corporate                                                        .
Structure; Fig. 13.1-2 depicts an organization chart for Plant- Operations; Fig. 13.1-3 depicts an organization chart for Project Management present only during construction; Fig. 13.1-4 depicts an organization _ chart for additional technical support; and Fig. 13.1-5 depicts an organization chart for unit shift staffing of Unit i during operations.
GSU is committed to providing the necessary fire protection for RBS during. construction, start-up                                                  and    operation.
Administrative controls and procedures exist which insure safe, reliable _ activities at RBS.                                          Additional          details regarding fire protection at River, Bend Station can be found in FSAR Section 9.5.1 and Appendices 9A and 9B.
13.1.1.2.1.1    Senior Vice President - River Bend Nuclear Group C:)            The    ultimate    responsibility                              for design, procurement,
'                construction, testing, quality. assurance, and operation of                                                              '
i                RBS ' rests with the Senior Vice President-River Bend Nuclear Group who reports to the Chairman of the Board.                                                The Senior i                Vice President-River Bend Nuclear Group delegates authority to the Vice President-River Bend Nuclear Group and the Director-Quality Assurance.                                                                                    l 13.1.1.2.1.2  Vice President - River Bend Nuclear Group The Vice President-RBNG assists the Senior Vice President-RBNG with the executive direction and coordination of the RBNG. The Vice President-RBNG delegates authority to the Vice President-Nuclear Operations, the Project Manager, and the Manager-Engineering, Nuclear Fuels and Licensing who,                                                                !
I                with their respective staffs, provide technical support for plant design and construction.
13.1.1.2.1.3  Vice President - Nuclear Operations The Vice PresidentNuclear Operations reports to the Vice President-RBNG.      He is responsible for developing                                                  and
!                maintaining an efficient operations staif and supporting programs. Assistance is provided as indicated on Figure 13.1-2. His principal accountabilities are:
k O. .
13.1-11
 
O                            RBS FSAR
: 1. Ensure that the River Bend Station has adequate staffing to        successfully              perform    operations, maintenance and protection functions.
: 2. Direct the management of documentation and records management functions in compliance with regulatory requirements.
: 3. Direct the development of procedures and procedure manuals for all operating functions and activities and ensure the verification of procedures.
: 4. Ensure the procurement and development of qualified staff to        meet  the            project's      needs            during development and eventual operation.
: 5. Ensure that regulatory requirements imposed by NRC and other agencies are implemented.
: 6. Direct the operations staff of the River Bend Station facility.
O  7. Direct    contract management and procurement of materials, equipment and services excluding nuclear fuel.
: 8. Direct Nuclear Training which plans, administers, and documents all nuclear related training required for    the    startup and operation of River Bend Station.
l i
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O 13.1-12
 
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RBS FSAR 13.1.1.2.1.4  Manager-Engineering, Nuclear Fuels & Licensing The Manager-Engineering, Nuclear Fuels and Licensing is responsible for the administration of the Nuclear Licensing, Emergency    Planning,    Nuclear Fuels, and Nuclear Plant        .
Engineering Sections.      His supervision ensures that the necessary licenses are obtained in compliance with pertinent regulations; emergency plans are adequate, effective, and up-to-date to ensure the safety of the public and plant personnel; nuclear fuel procurements are made to support schedules,    and    in-core      fuel management programs are adequate; and engineering support for design, construction, and operations is available and commensurate with the changing needs of RBS. His principal duties include:
: 1. Direct preparation and submission of all supportive data for RBS nuclear 1icenses and permits and specifically assure the collation and submission of data to support the application for the operating license.
I~)#    2. Reviews and analysis of proposed design changes (specifications and drawings) of the plant to ensure    that    the    design meets GSU corporate requirements and the requirements of regulatory criteria    (10 CFR 50.59, etc...) and industry concerns.      This    includes    investigation    and suggestion of alternative designs if there is concern with the existing or proposed design.
: 3. Interface    with    other  RBNG    and    parent GSU l
departments to assure availability of technical l                information, to project internal cost estimates and schedules, and to assure compliance with regulatory agency requirements and GSU policies.
: 4. Maintain appropriate GSU corporate interface with the NRC and appropriate state and local officials.
I          5. Develop a satisfactory emergency response plan for RBS that meets regulatory requirements to support the operating license application, and ensure such a plan remains up-to-date          and    cognizant  of
!                regulatory requirements.
l
: 6. Develop    and    assist    local  (parish) emergency response programs and assist and interface with k,s)          analogous state (Louisiana and Mississippi) groups to meet regulatory requirements.
13.1-13
 
1 RBS FSAR
,                        7. Coordinate,        manage, and monitor contracts and activities        for        the      procurement,        conversion, enrichment, and fabrication of uranium fuels for RBS to meet the schedule of first core fuel loading by April 1985, and reload schedules as required.                                            .
: 8. Develop nuclear fuel safeguards and incore fuel management programs.
: 9. Develop programs for disposal of spent fuels and high    level      wastes          that      will    meet                agency requirements and satisfy GSU requirements.                                            l
: 10. Direct the analysis of potential safety problems which may need to be reported to the NRC as significant        deficiencies                (as    defined                    by 10CFR50.55(e)) or subs.tantial                      safety              hazards (reportable under 10CFR21).
: 11. Review analyses pertinent to safety as conducted in response to issues that raise regulatory                                          and
()                          industry concern.
: 12. Coordinate and oversee technical support from the corporate engineers.
: 13. Oversee the yearly FSAR updates and other license documents.
13.1.1.2.1.5      Project Manager During the construction phase, the Project Manager assists the      Vice-President-RBNG              through        the    direction                    and coordination        of      four areas:                1)  Accov.ating, Cost &
Scheduling, which involves managing monies and schedules to ensure River Bend Station is completed on schedule and budget; 2) Contract Management, which entails monitoring contracts and procurement for the station; 3) Project Engineering, which is responsible for directing the A/E and GSU engineering and construction activities, and; 4) Startup
                  & Test, which includes preparation of procedures and startup and testing activities. His principal activities include:
: 1)    Coordinating, accounting, budgeting and scheduling activities to ensure adequacy of cost records and to accomplish completion of the River Bend Station
;                              on schedule and within budgetary constraints.
13.1-14
 
O.                                                        RBS FSAR
: 2)    Directing                  monitoring                        of          contracts        and  the procurement effort required for the construction of the River Bend Station.
: 3)    Directing the A/E and GSU engineering effort to                                                                                      e ensure implementation of the plant design and arranging the necessary support of the design and construction process.
: 4)    Ensuring the development of plans and procedure to accomplish the objectives of the startup and test phase of the project and directing the startup and test program.
13.1.1.3    Qualifications of Headquarters Staff 13.1.1.3.1        General Members      of              the headquarters staff (personnel in the                                                                            ,
Engineering, Nuclear Fuels,                                    &                Licensing          Departments) available for the technical support of RBS possess the
()              education, experience, and skill that provides reasonable assurance that decisions and actions during the design, procurement, constructitn, testing, quality assurance, and operation of RBS does not constitute a hazard to the health i:                and safety of the public.
The Nuclear Review Board (NRB), responsible for independent reviews, primarily has members who are                                                      not        directly responsible for plant operations.                                                    Membership in the NRB shall require a bachelor's degree in engineering or the
;                  physical sciences (or equivalent experience) as appropriate, and 3 yr of professional level experience in the field of his spacialty.                    More details on the NR3 can be found in Sections 13.4 and Section 6 of the Technical Specifications.
The    educational                  background                      and              experience        of  the headquarters staff meet or exceed the criteria presented in                                                                                  ,
i                  ANSI /ANS-3.1-1978.                  The qualifications for nuclear plant personnel are described in Section 13.1.3.
13.1.1.3.2        Resumes The    resumes                of    key headquarters personnel providing technical assistance for the construction and operation of RBS are presented in Appendix 13A.
O V
13.1-15
_        _ _ _ _ . _ _ _                . _ . . . ~ _ . _ _ _ _ _ _ . , . _ _ _                            _ _ _ ~. . . _ _ _ , _ _ _ _
 
A V
RBS FSAR 13.1.2 Operations Organization The operation of RBS is under the responsibility and authority of the Plant Manager.
RBS instructions, procedures, and drawings used by the operation staff are reviewed by the QA Department per the GSU 0QA Manual.      Further discussion of drawing control is addressed in FSAR Section 17.2.5.
13.1.2.1  Plant Organization The plant organization for RBS-1 is shown in Fig. 13.1-2.
The number of personnel necessary            to support    plant operations and those plant positions requiring NRC licenses are indicated in Figure 13.1-5. The functional positions in Fig. 13.1-2 and Figure 13.1-5 will be filled by the time of initial fuel loading.      When additional      personnel    are required to augment the normal crews during outages, GSU plans to have plant personnel work overtime and use consultants    and  contractor        personnel to handle the additional work load. Where the number of personnel        in a f'')
duplicate position is increased for the second unit, these positions will be filled prior to the initial fuel loading of Unit 2.
13.1.2.1.1  Operations Section The operations section is responsible for fuel 1.oading, startup, operation, and shutdown of all station equipment.
It also provides the nucleus of the emergency and fire-fighting teams. The operations section is under          the responsibility and authority of the Operations Supervisor who reports to the Assistant Plant Manager-Operations.            l The minimum shift crew is shown in Fig.            13.1-5. In addition, at least one radiation protection technician, one chemistry technician, and one test technician - nuclear arc on duty at all times.
plant management and technical support is present or on call at all times. This shift composition provides adequate manpower    to  cover  operating contingencies which can reasonably be expected to occur, and if necessary, implement the Emergency Plan. Additional operating personnel will be added for Unit 2 operation.
,~
13.1-16
 
V RBS FSAR 13.1.2.1.2    Maintenance Section The maintenance section is responsible for all mechanical, electrical, and I&C maintenance activities in the plant.
The maintenance section is under the responsibility and authority of the General Maintenance Supervisor, who reports to the Assistant Plant Manager Operations. The raintenance          l section also provides trained personnel and supervision to perform the tasks related to supplies and spare parts for the plant.
13.1.2.1.3    Radiation Protection / Chemistry Section              l The radiation protection / chemistry section is responsible for establishing and implementing          the    RBS    radiation protection program, and is responsible for the sampling and analysis of plant fluid systems.        This includes ensuring that radiation exposure is kept as low as reasonably achievable (ALARA) and within the guidelines of 10CFR20.
This section also ensures that all plant staff, contractors, and visitors to RBS have received proper radiation training I^)
and are monitored for radiation in accordance with the Radiation Protection Manual and NRC regulations.              This section certifies that all radioactive material meets DOT, NRC, and receiver requirements prior to being removed from RBS.
The radiation protection / chemistry section is under the          l responsibility      and    authority      of    the      Radiation Protection / Chemistry    Supervisor,    who  reports    to the Assistant Plant Manager-Operations.                                l 13.1.2.1.4    Technical Staff Section The technical staff section is responsible for plant and reactor engineering activities at the plant.        This section is also responsible for technical support, plant systems engineering,    instrumentation      and  control    engineering, surveillance and outage planning, performance, reliability, and compliance verification and fire protection.              This section is under the direction of the Technical Supervisor, who, reports to the Assistant Plant Manager-Services.
13.1.2.1.5    Administrative Section The administrative section maintains the plant records and
    -    document control system and provides various administrative
(,_,s) and clerical services to the plant staff. This section is l
under the direction of the Administrative Supervisor, who reports to the Assistant Plant Manager Services.
l 13.1-17
 
  \
(~/
x_
RBS FSAR 13.1.2.1.6  Security Section A  contracted    security force of properly trained and qualified personnel implement and maintain the RBS Physical Security Plan.      This force is under the direction of the Plant Security Supervisor, who reports to the Assistant Plant Manager-Services.
13.1.2.2  Plant Personnel Responsibilities and Authorities The functions, responsibilities, and authorities of Key supervisory and technical positions in the RBS organization are briefly described in the following sections. Detailed job descriptions for these positions have been prepared in accordance with ANSI /ANS-3.1-1978, Selection and Training of Nuclear Power Plant Personnel.
13.1.2.2.1  Plant Manager The Plant Manager has overall responsibility for the safe, reliable, and efficient operation of the plant and training
(~)
\'
of the staff. He is responsible for maintaining compliance with the requirements of the operating license and technical specifications. It is his responsibility to maintain a staff of properly trained and licensed        personnel    to accomplish all the various plant functions. He reports directly to the Vice President-Nuclear Operations.
The Plant Manager is responsible for the security of River Bend Station and has the authority to direct any action to ensure that security is adequate and properly maintained.
FSAR Sections 13.3.3.3 and 13.3.3.4 further describe station security management responsibilities and chain-of-command, with Fig. 3.3-1 of the Physical Security Plan illustrating RBNG management structures and Fig. 3.3-2 showing site security structure.
The Plant Manager issues plant administrative procedures which clearly define the responsibilities and authorities of key plant personnel.
During    the    absence  of  the  Plant  Manager,  his responsibilities are assumed by the Assistant Plant Manager-Operations.
13.1.2.2.2  Assistant Plant Managers n
(_)  The Assistant Plant Managers report to the Plant Manager.
They exercise managerial responsibility for the safe and efficient operation and maintenance of RBS. They have been    l 13.1-18
 
s a
                                          >                                4
(~%
x_J RBS FSAR trained to a level commensurats with a Senior . Reactor Operator or have been previously certified or licensed,as an SR0 on a BWR Power Plant.
The following section heads report to the Assistant Plant Manager- Operations:                    ,              ,
: 1. Operations Supervisor
: 2. General Maintenance Supervisor 3    Radiation Protection / Chemistry Supervisor -                      l In the absence of the Assistant Plant Manager-Operations,                    l his responsibilities are        assumed        by    the        Operations Supervisor, or another designated individual.                    .
The following section heads report to the Assistant Plant Manager-Services:
: 1. Technical Supervisor I')
'~
: 2. Plent Security Supervisor
: 3. Administrative Supervisor In the absence of the Assistant Plant Manager-Services, his responsibilities are assumed by the Technical Supervisor, or another designated individual.
13.1.2.2.3  Operations Supervisor The Operations Supervisor, an SRO, is responsible for the actual day-to-day operation of the plant, including the radwaste system. He reports to the Assistant Plant Manager-Operations. He supervises a group of approximately 48 operators and 14 supervisors including the Radwaste Foreman.
The Operations Supervisor is responsible for issuing special orders to shift operations personnel.
In    the  absence  of    the    Operations Supervisor, his responsibilities are assumed by the Assistant Operations Supervisor.
13.1.2.2.4  Assistant Operation .        iv rv isor
,g  The Assistant Operationt        ,g r.      or, an SRO, functions as
(_? the Operations Supervisor's Seniui Shift Supervisor and is                      ,
qualified    to    assume      the    Operations              Supervisor's responsibilities and duties if necessary.
13.1-19
 
O V
RBS FSAR 13.1.2.2.5  Shift Supervisor The    Shift Supervisor, an SRO, is responsible to the                                                                                                                        l Operations Supervisor for all activities relating to station operation and safety during his assigned shift.                                                                                                                          This  e responsibilility includes compliance with applicable license and    regulatory requirements, and the safety of plant personnel and equipment.                          In the event of an accident or emergency,                  the      Shift              Supervisor                                                                                    is responsible for determining the severity of the situation and directing the actions of the shift personnel until he is relieved. The Shift Supervisor has the responsibility to shut down the plant    if, in his judgment, conditions warrant this action.
There is one Shift Supervisor assigned to each shift, representing the senior management individual on shift, and is on-site, in the main control room, when fuel is being moved or loaded.
13.1.2.2.6  Control Operating Foreman The    Control                      Operating Foreman, an SRO, monitors and
()  manipulates the reactor alterations, and directs the activities of the Nuclear controls,                                                                            directs    all core Control Operators and Nuclear Equipment Operators.                                                                                                                        He reports to the Shift Supervisor and has the authority and responsibility to shut down the plant if, in his judgement, conditions warrant this action.                                                                                                        There is at least one Control Operating Foreman assigned to each shift.                                                                                                                        The Control Operating Foreman will be the Fire Brigade Leader on his assigned shift.                      FSAR Section 9B.4.8 describes fire brigade size and membership.                                                                                    Administrative provisions exist so that, in the event that the Control Operating Foreman is temporarily acting as the Shift Supervisor at the time a fire breaks out, the Shift Supervisor or Assistant Operations Supervisor is notified imme'diately thus allowing the Control Operating Foreman to assume his duties as Fire Brigade Leader.
13.1.2.2.7    Nuclear Control Operator The Nuclear Control Operators, an R0, under the direction of the Control Operating Foreman or the shift supervisor, monitor and manipulate the reactor controls as well as other controls.and plant auxiliary equipment. There are norn.sily three Nuclear Control Operators assigned to each shift and at least one in the Main Control Room at all times.
C) 13.1-20
 
O v
RBS FSAR 13.1.2.2.8  Nuclear Equipment Operator
                  ' The Nuclear Equipment Operators, under the direction of the Control Operating Foreman or Shift Supervisor, operate the
                  - plant auxiliary equipment and the radwaste system. There                                                                      e are normally four Nuclear Equipment Operators assigned to each shift. They are non-licensed personnel.
13.1.2.2.9  General Maintenance Supervisor The  General Maintenance Supervisor is responsible for overall direction of electrical maintenance, mechanical maintenance,  instrumentation and control maintenance, and spare parts supply at RBS.                      He reports to the Assistant Plant Manager-Operations, and is responsible for compliance
                  - with technical specifications relating to maintenance.                        The General    Maintenance                    Supervisor    provides    maintenance expertise and directs the work of the Mechanical Maintenance Supervicer,            E1cetrical                    Maintenance      Supervisor, Instrumentation and Controls Supervisor, Maintenance and Planning Coordinator, and the Building and Grounds Foreman, L
rm 13.1.2.2.10  Instrumentation and Controls Supervisor The Instrumentation and Controls Supervisor reports to the General Maintenance Supervisor and is directly responsible for all work performed by instruments and controls (I&C) foreman and technicians                        maintain    and/or    repair  any instruments or controls. ~His duties include coordination,
,                    development, and administration of the I&C section and personnel;    development, scheduling, implementation, and
;                    review of appropriate procedures with proper record control; conformance to RBS OQA/QC Program; and adherence to RBS Operating-    Manual                      and    applicable      I&C    Technical Specifications.
13.1.2.2.11  Radiation Protection / Chemistry Supervisor The Radiation Protection / Chemistry Supervisor is responsible for the management of the RBS radiation protection program, the  direction            of all radiation protection department personnel, and directing the sampling and analysis of plant
:                    fluid systems as well as evaluating and reporting the results. He supervises the radiation, environmental, and personnel    monitoring programs, the ALARA program, the respiratory protection program, and the whole body counting program. He ensures that adequate radiation protection
      %              training has been given to all plant staff and emergency
;                    team members and that they have completed training and medical qualifications prior to working in radiation areas.
13.1-21
_--__m_                    , _ . _ _ _ _ _ _ _ . . .                                      , . . . _ . . . . - _ _ - - , , _ - _ . _ , _
 
O                                  RBS FSAR The Radiation Protection / Chemistry Supervisor reports to the Assistant Plant Manager-Operations, but has direct access to the Plant Manager, on all radiation protection matters.
13.1.2.E.12    Technica]' Supervisor The. Technical Supervi.c.      reports to the Assistant Plant Manager-Services and is re.ionsible for directing all plant systems    engineering,    performance evaluation, technical support, and instrumentation aid controls engineering at the plant. He directs the work ot the Performance Supervisor, Process Systems Supervisor, Supervisor Computer Systems, Control    Systems    Supervisor,      and  Reactor Engineering Supervisor.
The Technical Supervisor also has the responsibility for
      -development of the fire-protection          program,    including assisting in the development of the fire protection-related training program, and maintaining, inspecting, and testing of all fire protection equipment (see Section 9A.3.2.1 for additional discussion.)-
0    13.1.2.2.13    Operational Quality Assurance Supervisor The'    0QAS    has  direct    responsibility  for    assuring implementation of the GSU QA program at RBS.          He reports directly    to the Director-QA, and maintains a working
      -interface and communication with the Plant Manager as described in Section 17.2.
13.1.2.2.14    Administrative Supervisor The Administrative Supervisor reports to the Assistant Plant Manager-Services and directs the activities of the plant
      -clerical staff. He directs the work of the Clerical Section Head, the Materials Supervisor, and the Budget Analyst.
13.1.2.2.15    Security Supervisor The Security Supervisor reports to the Assistant Plant Manager-Services and is responsible for the conduct and content of the security programs. A contracted security force of properly trained and qualified personnel implement and maintain the RBS Physical Security Plan.
13.1.2.2.16    Contingency Responsibilities
() ~
During    normal plant operations, the Plant Manager is responsible for overall plant operation. In the event of unexpected    contingenc'ies    of    a temporary nature, the 13.1-22
 
RBS FSAR following persons are responsible in the order listed for plant activities.
: 1. Plant Manager
: 2. Assistant Plant Manager-Operations                              l
: 3. Operations Supervisor
: 4. Assistant Operations Supervisor
: 5. Shift Supervisor 13.1.2.3  Operating Shift Crews During normal operations, the licensed shift complement consists of one Shift Supervisor, holding a senior reactor operator . license; one Control Operating Foreman, holding a senior reactor operator license; and three Nuclear Control Operators, holding reactor operator licenses. In addition, each shift includes four nuclear equipment operators who are
    ~()
nonlicensed operators. There is also a qualified Radiation Protection Technician assigned to each shift to implement the radiation protection program, a Chemistry Technician to perform necessary sampling and analysis, and                      a Test Technician-Nuclear to troubleshoot electrical problems.
During refueling operations, any additional shift personnel requirements are filled by qualified personnel working overtime and utilizing relief shift personnel; however, any overtime which may be required will follow the guidelines of Generic Letter 82-12 as reprinted below:
A. An individual-should not be permitted to work more than 16 hours straight, excluding shift turnover time.
D. An individual should not be permitted to work more than 16 hours in any 24-hour period, nor more than 24 hours in any 48-hour period, nor more than 72 hours in any seven day period, all excluding shift turnover time.
C. A break of at least eight hours should be allowed between work periods, including shift turnover time.
      -(,,/
f')      D. Except during extended shutdown periods, the use of overtime should be considered on an individual basis and not for the entire staff on a shift.
13.1-23
 
4  .
s  .
RBS FSAR Any deviation from the above guidelines must be authorized by the Plant Manager, his. assistants, or . higher levels of                                                            ,
management.            Controls are included in the procedures such that individual overtime is reviewed monthly by the Plant f                  Manager, or his- designee, to assure that excessive hours                                                          e have not-been assigned.
,                  13.1.3 Qualifications of Nuc1 car Plant Personnel 13.1.3.1  Qualification Requirements RBS personnel meet the requirements of ANSI /ANS 3.1-1978, Selection and Training of Nuclear Power Plant Personnel.
13.1.3.2  Qualifications of Plant Personnel Resumes are provided in Appendix 13A.
O i
o l
lO l
13.1-24 e
 
O Chairman                          -
of the 6                                                        Board CORFORATE OFFICES
                                                                                                              '31 RIVER BEND STATION                                                                                            gg Senior Vice                    ll
* President RBNG                        II il Ii li Vice                      Il President                    lg RBNG ll                                        During Jg                                  Construction
                                                                                                                '                                            Only O                                                                                              ,.
5'_________,
a' S                                                                    l l
11 Director            i                      Vice                        2                  Manager          3                                    Proj ect  4 Quality Assurance                        President                                  ll        Engineering,                                              Manager luclear Operations                                            Nuclear Fuels, ll                                                                                          ,
and Licensing Il 11
= ===============it i
Figure 13.1-1                                          .,
Corporate Structure River Bend Station-Unit 1 O 1 See Figure 17.2-1 2 See Figure 13.1-2                                                                                                                                        ,
3 See Figure 13.1-3 4 See Figure 13.1-4
 
O                                                                  .
Vice President Nuclear 5
Operations Director                                                                      r ctor Plant Nuclear                                                                      Support Training                                                                    Services q
l i
I O.- PlantServices Assistant
              !!anager                                                                  Assistant Plant Manager    "
Operations y
I I
5      l'
    -        Technical                                                                  Cperations      =
Supervisor                                                                                      l Supervisor I
I Radiation              0
    -      Administrative                                                            Protection and        -1 Supervisor                                                              Chemistry Sunervisor l
Plant                                      Figure 13.1-2                  General Security                                                                                  -
Plant Operations Structure          Maintenance Supervisor                            River Bend Station-Unit 1            Supervisor s
O
  --- Direct Access for Radiation Protection Ifatters 5 See Figure 13.1-5
 
O
                                                                                      -1 Project Manager 6                  7                                                                6                            Director  7                        6 Project                              Director                                  Director Engineer                                                                                                                                        Accounting,            Superintendent Contract                              Management                                                          Cost, and              Start-up Management                                    Systems                                                  Scheduling i                                                                                I                                                                                I 6                                                                                      6                                                              6 Construction                                                                            Supervisor Supervisor                            =                                                                                                                                          PGCC
                                                                                    =                  Planning                                                                      ""
Supervisor and Scheduling 9                                                                                '
Supervisor                                6 Supervisor 6                                                  Assistant 6 Site                          .                          ,                                                                                                ,,
Superintendent Engineering                                                                            Cost Systems l
Supervisor 6                                                                                Project                          6                                                  Supervisor 0 Design                          .  .
Supervisor                                                                              Preoperational Engineering                                                                              Computer                                                                                  Testing Applications Supervisor                                6 Supervisor Coordination                                    -
                                                                                                                                                                                    -      Preoperational 4
i and Expediting                                                                                                                                                                                Testing Figure 13.1-3 Project Management Structure (Construction Phase Only)
Supervisor                                6                        River Bend Station-Unit 1                                                                                      Supervisor-Site                            --                                                                                                                                  Preoperational Controls                                                                                                                                                                        Testing Q                                                                6 Located at River Bend Station 7 Staff located at River Bend Station and Corporate Offices
 
O                                                                                                                  ,
Manager            .
Engineering, g                                                                              . Nuclear Fuels, and Licensing
                                                                                                                                    -          1 Supervisor 6                                                                      Director                          Supervisor                  Director Emergency                                                        Nuclear Plant                                    Nuclear Fuels            Nuclear Licensing  _
Planning                                                                  Engineering i                                  l                            l Supervisor                                                                  Supervisor                              Supervisor      6 Nuclear                                                                  Mechanical                                                            Supervisor          (
                                                                                                                    "      In-Core Engineering                                                                  Engineering                                Fuels                  Nuclear Licensing "  '
i -
Supervisor                                                                Supervisor Electrical                                                                          Civil                          Out-of-Core                  Supervisor Engineering                                                                Engineering                                Fuels                Nuclear Licensing  "
Supervisor                                                                  Engineering Engineering                                                                Coordinator                                                        Environmental Analysis                                                                                                                                          Licensing    "
Supervisor 6 Site Engineering                                                                                                          Figure 13.1-4 Technical Support n
(Offsite)
River Bend Station-Unit 1 Independent 6
_      ' Safety Engineering O                  cr en 1
Site                                                        6                                                                        '
l
          -        ngineers 6 Located at River Bend Station
 
O SRO    9 Operations 5                                                Supervisor SRO                          9                                              8 Assistant                                                      SRO                1/6 Operations                                                            Shift Supervisor                                                          Supervisor 1
                                    '      NLR                                        1/6                  SRO              1/6                      NLR                                    1/1
(,,                Radiation                                                Control                                              Radwaste Protection                                              Operating                                            Foreman l                  Technicians                                              Foreman 8
l                                                            l 0
NLR                                          1/6                RO          3/18                          NLR                                  1/1
(~~                Chemistry                                                Nuclear                                          Nuclear Technician                                                  Control                                          Equipment Operators                                        Operators 8
I t
NLR                                        1/6                NLR          4/24
( ,, _
Test                                                    Nuclear TE hnician                                                Equipment I
Nuclear                                                  Operators I                                                                                                                '
l l
Figure 13.1-5 River Bend Shif t Organization River Bend Station-Unit 1 l
,  NLR No License Required SRO Senior Reactor Operator RO Reactor Operator x/y Number per Shift / Total Staff                                                                                                                                                    '
8 Trained to a Level Equivalent to a Shift Technical Advisor (STA) 9 Not on Shift; Shown for Clarity Only
 
\
.s
%.j RBS FSAR FSAR 13 13.2 13.2 TRAINING 13.2.1  RIVER BEND STATION STAFF TRAINING PROGRAM The objectives of this program are to:
: 1. Establish and maintain an organization fully qualified to be responsible for the operation, maintenance, and technical aspects of the River Bend Station
: 2. Train sufficient personnel to operate and maintain the plant in a safe and reliable manner throughout its life
: 3. Prepare    operational, technical, professional, and other personnel    requiring    licenses  for    Nuclear Regulatory Commission (NRC) Examinations, both cold and hot
: 4. Provide the necessary training, on a continuing basis to insure adequate numbers of qualified individuals exist to offset the impact of promotions and attrition
('-
: 5. Provide requalification training to maintain a high level of proficiency throughout the plant staff The initial plant staff training schedule including that for cold license operator candidates, is presented on Fig. 13.2-1.          This schedule is established to meet an April 1985 fuel load date. It is the intent of Gulf States Utilities Company (GSU) to provida training to each individual (s) as outlined on this schedule unless;
: 1. The individual (s) are already qualified on the basis of experience, academic or related technical training
: 2. The individual (s) have received sufficient documented on-the-job training to negate the need for specific formal classroom instruction
: 3. The individual receives or has received + raining in a particular area / topic to a greater depth than that outlined in the above schedule. Any deviation between the training an individual actually receives and that identified in Fig.
13.2-1    will be documented in accordance with approved programs and this documentation retained in the training records system. Having not received all the identified training does not in itself disqualify an individual from
,r g          performing duties associated with his or her job, so long as, ts,)          he or she is allowed to perform only those function (s) for which documented qualifications exist.
13.2-?
 
r~x RBS FSAR Subsequent training for plant staff will be the same as depicted on Fig. 13.2-1 with exceptions, and/or deviations as noted.          The frequency of presentation of this training will be sufficient to develop the proficiency required, for safe, competent performance and supervision.
The overall training program for the plant staff is the responsibility of the Vice President-Nuclear Operations. The details of the training program (s) and the administration thereof is the responsibility of the Training Director or his designee.
The Training Director delegates the responsibility for implementation of specific programs to individual discipline coordinators.          The coordinators are responsible for the quality and adequacy of the program content, material development, presentation, examinations, performance evaluation, and documentation of each respective program.
l          As of October 1983, there are 41 operations personnel on shift or in        l training with 24 additional openings scheduled to be filled prior to fuel load. This staffing allows for a full six-shif t complement with a 10% attrition rate. Those individuals applying for a license or I~h  license renewal will have certification complete pursuant to 10 CFR
    \#    Sections 55.10 (a)(6) and 55.33 (a)(4) and (a)(5) signed by the Vice President-Nuclear Operations and provided to the NRC on NRC form 398.
Section 12 of Form 398 will be a breakdown of the training received by each license candidate including classroom training, specific River Bend simulator training, and training gained at any other operating facility.
13.2.1.1      PROGRAM DESCRIPTION The overall training program for River Bend Station (RBS) is designed to provide the initial plant staff training. The individual training programs comply with Regulatory Guide 1.8 through implementation of ANSI /ANS 3.1-1978. They are designed to utilize past training and/or experience coupled with the necessary site specific training to insure each position within the plant staff is manned by a competent well qualified individual.
Pursuant to ANSI-3.1-1978, differences in the training programs based on the extent of an individual's previous nuclear power plant experience may be used to establish eligibility for cold license examinations as follows:
: 1. Individuals who have had ruclear experience at facilities not subject to licensing (e.g., U.S. Navy) are evaluated on a case-by-case basis to determine training required.
7s d        2. Individuals who hold, or have held, licenses for comparable facilities (light water reactor experience will be evaluated  i 13.2-2 L-    -
 
s-l l
    .                                                                                                                                                        .i I)
RBS FSAR on a case-by-case basis to determine if credit may be given) l participate in the RBS Simulator Course.
: 3.            Individuals certified to have completed an NRC approved training program utilizing a nuclear power plant simulator or.
having completed an NRC administered written examination and operating test at a comparable licensed reactor facility                                                      !
without issuance of a Reactor Operator (RO) or Senior Reactor
!                                                  Operatior (SRO)~1icense will attend the RBS Simulator Course as a minimum.                      Additional training is specified on a case basis commensurate with the individual's needs.
;                                    4.            Individuals with no previous nuclear experience attend the i                                                  complete training program.
SRO candidates who will serve in the dual role SR0/ Shift Technical                                                              ,
,                              Advisor (STA) will have as a minimum the education and training
                                                                                        " Clarification of TMI Action Plan
~
provided                  in            NUREG-0737, Requirements: Item I.A.1.1.                            Present plans make use of Memphis State University's                            Advanced Technical Principles for Senior Operators
~
!                              Program which'is described in FSAR Section 13.2.1.1.2.
(:)                      GSU also complies with NUREG-0737 Item I.A.2.1 in that after one year of station operation, RBS will require one year of experience for hot license SRO applicants.                                In addition, three months of on-shift
.                              experience as an extra person will be accomplished during the control room training program as the candidate assumes a trainee status with j                              no concurrent duties.                                                                                                          ,
                                                                                            ~
i l
l I
I
  ~
13.2-3 4
      -,,-,,,--,,.v  - , _ ,.,c,--  ..,_.,y..,.-.-._..,_,,.,,,._,m.y,-                      .._,._vroy-..,_n.,~~~.- ..,m...vm,....-, ,-.m-  ,y m . . , , ,
 
O..
RBS FSAR l                    In the following subsections each course is described to
.                    include (1) a general                            course                  description, (2) the approximate course length, (3) the organization responsible for teaching the course or supervising the instruction, and (4) a. listing by title of personnel required to attend.                                                                          e 13.2.1.1.1    FUNDAMENTAL / TECHNICAL TRAINING-PHASE I AND II (A1, A2) 12 WEEKS These courses are structrued to teach basic power plant technology with added emphasis on nuclear power plants.
Included is a review of mathematics and science. Phase I of this segment is designed for the entry level trainee, while Phase II is tailored toward the upper or journeyman level trainee. In addition- the Phase II portion will insure compliance with Enclosure 2 of Mr. H. R. Denton's letter dated March 28, 1980.
The      course      is conducted by Memphis State University personnel and contains, but is not limited to, the following material:
O V                      TECHNICAL / FUNDAMENTAL TRAINING - PHASE I - 6 weeks
: 1. Power Plant Cycle
: a. Basic Steam / Water Cycle
: b. Physical Processes
: c. Direct Cycle BWR l                          d. Major Reactor Auxiliaries
: 2. Piping Systems and Components g                    3. Flow of Fluids 1
: a. Natural Convection
: b. Forced Convection
: c. Types of Flow
: d. Units of Flowrates
,                    4. Plant Components
: a. Turbine
: b. Pumps
: c. Valves
: d. Heat Exchangers j
()                      e. Compressors
: 5. Introduction of Plant Electrical System 13.2-4
 
4 i
tO V
1 RBS FSAR                                                          ,
: a.          Sources of Electrical Power i                                    b.          Components                                                                                    ,
: c.          Distribution
: 6. Diesel Engines
: a.          Basic Principles of Operation
;                                    b.          Mechanical Cycles                                                                            ,
: c.          Construction
: d.          Moving Parts
: e.          Support Systems
: 7. Basic Water Chemistry
: a.        . Purpose
: b.          Impurities
: c.          Effects of Impurities
: d.          Analysis
: e.          Control
; j }                          8. Principles of Lubrication
: a.          Purpose and Necessity                                                                        ;
i                                    b.          Friction and Wear l                                    c.          Oils
: d.          Greases
: 9. -Basic Print Reading
: a.          Piping
: b.          Electrical
;                                    c.          Logic
: 10. Basic Reactor Fundamentals I
: s.          Fission Process
;                                    b.          Neutron Sources and Interaction
!                                    c.          Moderator i
: d.          Fuel
: e.          Reactor Control
: f.          Basic Core Design I
: 11. Measurement of Process Variables
: a.          Temperature
: b.          Pressure i
()                              c.
d.
Level Flow i
13.2-5 i
4
'a. - ,e  .--,--,,.n,nr~      ,,    -m,,-n-,          n.,,,_-, , --_n,r-,-        n,n----n,------r--...-m-,-.-,-,,a    -. n-+-,w_--. -,
 
1-4 O                                                                                                              -RBS FSAR i.
FUNDAMENTAL / TECHNICAL TRAINING - PHASE II - 6 weeks
: 1.          Classical. Physics
: a.              Units
.                                                b.            . Mass
: c.            ' Force
: d.              Energy
: e.            Work
: f.              Power
: 2.          Thermodynamics
!                                              b.              S cond L w
}                                                c.            Working Substances
: d.              Properties
: e.              Steam Water Cycle
: f.              Heat Transfer
: g.              Fluid Flow l''N G
: 3.          Atomic and Nuclear Physics
: a.              Atomic Structure
: b.              Nuclear Structure
: c.              Isotopes
: d.              Mass and Energy Conversion
.                                                e.              Nuclear Interactions l
: 4.          Nuclear Heat Source
: a.              Fission Process                                                                                                    i
: b.              Radioactive Decay J
: c.              Residual Heat
: 5.          Reactor Theory
: a.              Source of Neutrons
: b.              Classification of Neutrons
;                                                c.              Cross Sections
!                                                d.              Interactions
: 6.          Radiation Protection
{
!                                                a.              Effects of Radiation
: b.              Units
: c.              10CFR20 O  ~
d.
e.
Detectors Personnel Dosimetry 13.2-6
_  . . - - - - . _ , . - . . = . _ . . . . _ , - . _ _ _ _ _ _ _ . . _ . . _ _ _ . _ _ _ . . , _ . _ _ . _ . . - , _ _ . _ . . _ - _ . , _ _ _ . . . _ . . . . _ . . _ . , -
 
/  '\
l      $
\_/
RBS FSAR
: 7. Chemistry
: a. Impurities
: b. Sources of Impurities
: c. Effects of Impurities                                  o
: d. Control / Removal of Impurities
: 8. Metallurgy
: a. Definition
: b. Physical Properties of Metals
: c. Alloys              -
: d. Heat Treating
: e. Brittle Fracture
: 9. Instrument and Controls
: a. Basic Control Loop Diagrams
: b. Logics
: c. Basic Control Circuits
()        10. Reactor Plant Protection Concepts
: a. Thermal Hydraulic Operating Limitations        '
: b. Safety Limits
: c. Limiting Conditions for Operation
: d. Administrative Controls and Procedural Concepts.
Personnel attending this course include:
: 1. Shift Supervisor
: 2. Control Operating Foreman
: 3. Nucler Control Operator
: 4. Nuclear Equipment Operator
: 5. Other 13.2.1.1.2  ADVANCED TECHNICAL PRINCIPLES FOR SRO (A3) 32 Weeks This course providas academic training in mathematics, reactor physics, chemistry, materials, thermodynamics, fluid mechanics, heat transfer, and electrical theory. The course it designed to provide the required academic training to qualify individuals for dual role SRO/STA status. The presentation of this course will be supervised by GSU. The course contains, but is not limited to, the following:
f~            Individuals pursuing NRC Licenses will receive these
\ -)'
courses or      their  equivalent    prior  to  taking  the examination (s) 13.2-7
 
I 1
i
/^T RBS FSAR
: 1. Differential Calculus
: a. Algebra
: b. Trigonometry
: c. Geometry
: d. Special Functions
: e. Differentiation
: f. Special Applications
: 2. Integral Calculus
: a. Integration
: b. Definite Integrals-
: c. Multiple Integrals
: d. Applications
: e. Differential Equations
: f. Special Techniques
: 3. Advanced Reactor Physics
: a. Reactor Physics
(~')    b. Reactor Control
\/      c. Nuclear Fuels
: d. Ccre Hydraulics
: e. Application
: f. Operating Experience
: 4. Materials Study Course
: a. Metallic Materials
: b. Plastic and Elastomers
: c. Ceramics
: d. Special Materials
: 5. Fracture Mechanics
: a. Crystal Structure
: b. Mechanical Properties of Metals
: c. Thermal Properties of Metals
: d. Fracture Mechanics
: e. Methods of Testing
: f. Neutron Damage
: 6. Corrosion Processes
: a. General Attack g3      b. Electrochemical Cerrosion
( ,/    c. Stainless Steels
: d. Special Corrosion Processes
: e. Erosion 13.2-8
 
O                                    RBS FSAR
: f. Nuclear Pressure Vessel and Tubing
: 7. Computer Technology
: a. Program Languages                                          e
: b. General Computer Technology
: c. Computer Systems
: d. Digital Systems
: e. Problem Solving
: 8. Electric Generation and Transmission
: a. Basic Electric Generation
: b. Plant Generation
: c. Station Electric Circuits
: d. Electric Transmission
: e. Instrumentation
: 9. Thermodynamics I
: a. Dimensions, Units, and Properties
()                b.
c.
Gas Laws Non-Flow Process
: d. Flow Processes
: e. Introduction to Cycles
                          .f. Carnot Cycle
: 10. Thermodynamics II
: a. Water and Steam
: b. Saturation Properties
: c. Reactor Power Plant Equipment
: d. Basic Steam Turbine
: e. Feed Water Heating
: f. Condenser Thermodynamics
: 11. Heat Transfer
: a. Basic Quantities
: b. Conduction
: c. Convection
: d. Radiation
: e. Overall Heat Transfer
: f. Boiling Two-Phase Heat Transfer
: g. Condensation
: h. Application O
13.2-9
 
O                                  RBS FSAR
: 12. Fluid Mechanics
: a. Fluid Flow Basic Principles
: b. Ideal Fluid Flow
: c. Actual Fluid Flow                              e
: d. Fluid Flow Measurement
: e. Fluid Flow Pumps
: f. Fluid Flow in Turbines
: 13. Human Behavior
: a. Basic Principles
: b. Personality Traits
: c. Social Traits
: d. Applied Psychology
: e. Applications
: 14. Project Course
: a. Analysis Techniques
: b. Methodology of Analyzing Systems
:( )            c. Methodology of Analyzing Components
: d. Operating Experience Reports Personnel attending this course include the following:
: 1. Shift Supervisor
: 2. Control Operating Foreman 2 13.2.1.1.3    RIVER BEND STATION BWR SYSTEMS TRAINING (A4) 6 Weeks l
l        This course is designed to provide the student with an
;        understanding of the design, construction and operating l
characteristics of RBS. In conjunction with the classroom phase of this course, students will gain " hands-on" training on these systems.        This will be accomplished through the completion of system qualification cards. The course length may vary according to the experience level of the student.
This course will be taught by General Physics Corporation (or other Training Contractor Firms) and will include the followingi Sufficient    number    of these individuals to meet STA requirements prior to fuel load.
This course will be approximately twelve (12) weeks for the
( )'  initial cold license candidates.
13.2-10 4
 
4 O                                                      RBS FSAR i
: 1. Introduction to the River Bend Station BWR
: 2. Reactor vessel and internals
: 3. Reactor vessel instrumentation
: 4. Recirculation and flow control system
:                              5. Control rod drive mechanism                                            e
: 6. -Control rod drive hydraulics
!                              7. Control rod motion control systems F                              8. Startup range nuclear instrumentation systems
: 9. Power range nuclear instrumentation
: 10. Fuel
: 11. Reactor water cleanup system
: 12. Decay heat removal systems
: 13. Main steam
: 14. Feedwater control system
: 15. Reactor protection system i                            16. Primary containment and generic support systems
: 17. Fuel pool cooling and cleanup system
: 18. Emergency core cooling systems
: 19. Standby liquid control system
: 20. Process and area radiation monitoring i                            21. Reactor refueling equipment and operation I    (~                      22. Plant startup and operation
: 23. Turbine 24 .~ Turbine auxiliary systems i                          25. Generator    ~
: 26. Generator auxiliary systems                          ,
i                        ~27. Generator excitation
-                            28. Condensate system
: 29. Feedwater system
: 30. Condensate demineralizer system
: 31. Auxiliary steam system
: 32. Leak-detection systems
: 33. Circulating water system I-                          34. Condenser air removal system
: 35. Service water systems
: 36. Feedwater heaters
: 37. Extraction steam system i
: 38. Floor and equipment drain systems
: 39. AC electrical distribution l                          40. Diesel generators
: 41. DC electrical distribution
: 42. Radwaste processing systems
: 43. Off gas system 44 .- Instrument air system
: 45. Service air system
: 46. Heating, ventilation, and air-conditioning system
: 47. Chilled water systems t  (      -
: 48. Makeup water systems
  ;                          49. Fire protection systems 13.2-11
 
:n w _-
RBS FSAR A shortened Systems Training Course will be taught for the Hot License Candidates because thase candidates will have had      River    Bend    Systems    Training  or equivalent training / experience prior to attending license operator training.                                                    .
As part of this systems training, candidates will go through a systems checkout program. This includes a walkdown to perform or simulate developed performance criteria.
Personnel actending this Course include:
: 1. Operations Supervisor
: 2. Shift Supervisor
: 3. Control Operating Foreman
: 4. Nuclear Control Operator
: 5. Nuclear Equipment Operator
: 6. Others 13.2.1.1.4    Simulator Training (A-5) 5 Weeks g
  '(_j      The    simulator training course is designed to provide classroom as well as " hands-on" training for the operations staff who are or will be licensed as R0's and SRO's. The simulator at the River Bend Training Center is a full-scope, plant-referenced      simulator that meets Regulatory Guide 1.149,    including Section C.2 as it relates to        plant malfunctions (see FSAR Section 1.8.) The intent of this program is to provide these individuals with a requisite understanding of the integrated response of the plant during normal and off-normal conditions; the bases for          this response; and the appropriate operator actions to maintain the plant in a safe condition with emphasis toward procedure usage and understanding.
4 Individuals    pursuing NRC licenses will receive these courses or their equivlent prior to taking          the  NRC examination (s) 10 V
13.2-12
 
                                                            -~ . __        -              ._. ...
t O                                            .RBS FSAR 1
The simulator training program for cold license candidates
:will be twelve weeks in length while that for hot license candidates will~ be five weeks in length. The additional cold training is a certification program that includes five weeks _of classroom training and two weeks of written and -
performance exams.          The successful completion of either program, in conjunction with observation training, results 4
in the certification required to establish eligibility for i
either NRC " Cold" or " Hot"' license examinations.
Each instructor who will conduct programs for licensed
              -operators -on      the River            Bend Simulator shall be _ SRO certified on the River Bend Simulator. This certificiaton
;              process is supported by their previous experience and participation in the development phase of material at River I              Bend, as        well    as        an    intensive      6-week instructor certification program including knowledge of River Bend
;,            specifics and simulator training program goals and format.
i            Subject matter for the Simulator Training Program consists                          ,
of the following:
: 1.      Classroom Training
: a. BWR reactor theory review
: b. BWR thermal hydraulics i                            c. RBS technical specifications
,                            d.  -NRC licensing requirements                                      ;
j'
: e.  . Health physics review
: f. RBS transient response
: g. RBS accident response i                    2.    ' Simulator Training (includes malfunction response training)
: a. Main control room familiarization
: b. Perform cold startup preparations
: c. Perform RBS startup procedure for criticality I                            d. Perform system startups
: e. Approach to critical i                            f. Reactor startup and establish heatup
; _-                        g. Plant heatup l                            h. Roll turbine and synchronize generator
: i. Transfer station service l                            j. Mechanical trip valve tests t    'O                    k. eew r chenSes ceP end d wn gewer maneuvers)
: 1. Normal shutdown procedure 13.2-13
 
rs s-RBS FSAR
: m. Shutdown to cold conditions
: n. Rod restraint in transition zone
: o. Observation of Xenon effects
: p. Emergency procedures
: q. Radiation monitor malfunctions                e
: r. Load rejection transients
: s. Malfunctions involving core damage
: t. Feedwater and pressure regulation malfunctions
: u. Multiple malfunctions with various size LOCA
: v. Post-LOCA conditions
: w. Plant hydrostatic test procedure
: x. Reactor scrams Personnel attending this course include:
: 1. Shift Supervisor
: 2. Control Operating Foreman
: 3. Nuclear Control Operator
: 4. Others O
  'J 13.2.1.1.5  Observation Training (A6) 4 Weeks The observation course is designed to give the " Cold" license candidate access to an operating nuclear plant facility in which to gain experience prior to the NRC license examination. The experience is gained by both academic classroom time and actual in plant observation.
Current plans are to use Georgia Power Company's Hatch Plant as the principle observation site; however, othar plants will be used if the need arises.        Supervision for this portion of the cold license training program will be the responsibility of GSU.      The training consists of    the following:
: 1. Routine processing / indoctrination
: 2. In plant tours (following classroom reviews)
: 3. Site tour
: 4. Systems reviews
: 5. Equipment arrangements
: 6. Containment design
: 7. Control room review
: 8. Instrumentation
: 9. Technical specifications
  ,3        10. Routine equipment checks
  %-]     5 Individuals pursuing NRC licenses will receive this course or its equivalent prior to taking the examination (s).
13.2-14
 
.c RBS FSAR
: 11. Radiation detector locations
: 12. Plant performance logs
: 13. Following plant evolutions in progress
: 14. Surveillance activities
: 15. Station emergency procedures
: 16. Station standard practice manual
: 17. Station fire protection systems and controls Personnel attending this course are'the same as indicated in 13.2.1.1.4. l 13.2.1.1.6  CONTROL ROOM TRAINING (A7) 12 WEEKS This phase of the licensed operator training program is designed to provide the " Hot" license candidate with an opportunity to cbserve the operating practices as well as the operation of a nuclear power plant from a central control room. Further R0 candidates will manipulate the controls under the supervision of a license operator. This training is a requirement for both R0 and SRO candidates.
This segment of the training program will be supervised by GSU and utilize the RBS main control room where candidates will be maintained
(")
\'
in a trainee status and will not be assigned concurrent duties. Any individual pursuing a " Hot" license will participate in this training segment.
13.2.1.1.7  REACTOR TRANSIENTS AND MITIGATING THE CONSEQUENCES OF SEVERE CORE DAMAGE (A9) 1 WEEK This program is intended to provide training for operating personnel in the use of installed plant systems to control or mitigate an accident in which the core is severely damaged. Criterion used in developing this program included suggestions from Enclosure 3 of Mr.
H. R. Denton's letter dated March 28, 1980, the INP0 letter of April 30, 1980, the first revision to INP0's letter dated January 15,    1981, as well as General Physics originally proposed program.
The presentation of the course will be by General Physics Corporation (or other Training Contractor Firms) and will consist of the following outline showing approximate time to be spent in each topical area.
Chapter 1 - Introduction (1 hour)
A program designed to ensure that all operating personnel are trained in the use of installed plant systems to control or mitigate an accident in which the core is severely damaged. This program has been divided into 10 chapters.      The overall program will be previewed 7-s during the introduction.
C  Chapter 2 - Three Mile Island Incident (4 hours) 13.2-15
 
m b                                          RBS FSAR Objective: The trainee will be introduced to the accident at TMI-2 in order to have a better understanding of the lessons learned from the transient.
Subject Areas Presented:
                    . The first 16 hours of the TMI-2 accident.
                    . Basic    system      drawings                    and event graphs to help understand this incident.
                    . Review of actual accident data to better understand this incident.
                    . Review of actual accident data to better understand its general applicability to other light water reactors.
Chapter 3 - Core Cooling Mechanics (8 hours)
Objectives: The trainee will be able to:
(}              . Understand BWR Core Thermal Hydraulics relevant to ensuring adequate reactor core cooling.
                      . Understand the operational effectiveness of the Core Standby Cooling Systems
                      . Understand natural circulation in a BWR.
                      . Understand the criteria for operation and cooling mode
                          -selection to receiver from an inadequate core cooling condition to mitigate reactor core damage.
Subject Areas Presented:
                      . BWR Core Thermal-Hydraulics
                      . Critical        Power                      and Linear  Heat Generation Rate Considerations
                      . Operation of Core Standby Cooling Systems
                      . Effectiveness of Core Standby Cooling Systems
                      . Criteria for operation and cooling mode selection g    Chapter 4 - Potentially Damaging Operating Condntions (4 hours)
      '( )
13.2-16
 
A U                                  RBS FSAR Objectives: The trainee will be able to recognize plant operating conditions in which the plant is most vulnerable to multiple failures.
Subject Areas Presented:
                  . Plant Response to Loss of Feedwater Events
                  . Plant Response to Small Break LOCA Chapter 5 - Recognizing Core Damage / Critical Plant Parameters (4 hours)
Objectives:The trainee will be able to relate certain available parameters in the plant to suspected core damage and utilize    available vital instrumentation to confirm possible damage.
Subject Areas Presented:
                  . Fission Product Release Scenario
()          . Isotopic Analyses of Radionuclides
                  . Hydrogen Production and Zr02 -UO2 Eutectic Formation
                  . Reporting    Requirements  for    Plant  Transients and Accidents
                  . Vital Parameter Instrumentation
                  . Monitoring    of    Critical Parameters During Accident Conditions Chapter 6 - Hydrogen Hazards During Severe Accidents (3 hours)
Objectives: The trainee will be able to:
List the sources of hydrogen within the containment
                  . State the hazardous concentration ranges of explosive and flammable mixtures of hydrogen and oxygen
                  . Describe the means of concentration measurement and control of hydrogen oxygen Subject Areas Presented:
()          . Sources of Hydrogen in Containment 13.2-17 I
 
h.
V RBS FSAR
                  . Hazardous Concentrations and Characteristics of Hydrogen Explosives
                  . Hydrogen Phenomena at TMI-2
                  . Hydrogen Pressure Effects on BWR Containment Types
                  . Sample BWR Hydrogen Generation Calculation
                                '      i Chapter 7 - Neutron Monitoring System / Core Recriticality (4 hours)
Objectives:The trainee will be able to quickly ascertain whether or not reactor core damage has occurred through the use of nuclear instrumentation Subject Areas Presented:
                  . Incore Nuclear Instrumentation Systems lessons learned at TMI                              ,
                  . Out-of-core        Nuclear Instrumentation Systems lessons
/~N                    Icarned at TMI
(_)                                                      '
                  . Neutron Monitoring System for a BWR
                  . Neutron Monitoring System Lessons Learned from TMI
                  . Standby Liquid Control System          v s
Chapter 8 - Radiation Hazards / Radiation Monitorint;.(4 hours)
Objectives: To enable the trainee to:
                  . Discuss      the    content  and  implementation of the radiological Emergency Plan 2
                  . Identify plant areas ncrmally used that may become High Radiation Areas                                  s
                  . Discuss the precautions associated with sampling primary coolant and containment atmosphere
                  . Describe post accident response from radiation monitors within containment
                  . Discuss radiation monitor failure modes.
ew
( ')
                  . Discuss a method of determining radiation levels by direct measurement of detector (Radiation' Monitoring System) output signal.
                                                                ^
13.2-18
 
O                                                          RBS FSAR Subject Areas Presented:
                . Radiological Emergency Planning
                    .      Plant High Radiation Areas
                    .      Plant Radiation Monitoring System
                . Radiation Monitor Accuracy and Pctential Failure Modec
                . Anticipated Radiation Hazards
                . Lessons          Learned from the TMI Concerning Rediation Hazards Chapter 9 - BWR Lessons Learned (1 hour)
Objective: The trainee will understand the lessons learned at the TMI-2 Incident as they apply to a BWR.
Subject Areas Covered:
O            ,  A summary of the lessons learned from the Three Mile Island incident which have general epplicability to a BWR    is                listed.            These lessons learned have been presented in the preceding chapters but are simply summarized here for review.
Chapter 10 - Federal Register on Mitigating Core Damage (1 hour)
Objective:      The trainee will become familiar with the interim requirements related to hydrogen control and certain degraded core considerations.
Subject Areas Covered:
                  . Hydrogen Management
                  . High Points Vents
                  . In-Plant Iodine Instrumentation
                  . Leakage Integrity Outside Containment
                  . Detection of Inadequate Core Cooling Final Examination (2 hours)
  .O 13.2-19
 
RBS FSAR
                                                                    ?
A Final Examination of two hours in length is scheduled to follow this course. The exam will cover each of the chapters presented during this program.
For hot license candidates the duration of this portion of their training program will increase from about I week to around 2 weeks.
This increase is provided to augment t'ae . reduct, ion in simulator trainlag and incorporate additional transient accident - analysis training.
Although specific inclusion of a Primary Chemistry Section does not exist, the concept developed in Enclosure 3 to Mr. H. R.              Denton's March 28, 1980 letter are integrated into Chapter 5, Recognizing Core Damage, and Chapter 8, Radiation Hazards. The topic of Gas Generation is addressed in Chapter 6, Hydrogen Hazards, and also in Chapter 5.
Personnel attending this course will consist of:
: 1. Plant Manager                                            <
: 2. Shift Supervisor
: 3. Control Operating Foreman
: 4. Nuclear Control Operator
    ~
: 5. Other6 ,7 13.2.1.1.8    ADMINISTRATIVE TRAINING (B1) - 1 WEEK This course      of study consists of training in the following areas for all supervisory positions requiring an NRC SRO License:
: 1. Leadership
: 2. Interpersonal Communication
: 3. Command Responsibilities and Limits
: 4. Motivation of Personnel
: 5. Problem Analysis
: 6. Decisional Analysis
: 7. Administrative Controls k.
This course is presented under the supervision of GSU.
            '6 Supervisors, foreman, and technicians in the Instrumentation &
Controls, Health Physics, and Radiation              Protectio./ Chemistry sections of the operating staff will be provided with the mitigating core            damage  training  commensurate    with  their responsibilities,
          ~
Individuals pursuing NRC licenses will receive this course or its equivalent prior to taking the examination (s).        4 13.2-20
 
l-i
()                                    RBS FSAR 13.2.1.1.9  SIMULATOR REFRESHER AND NRC EXAMINATION REFRESHER (B2) - 4 WEEKS This. particular portion of the license operator training program is designed to be a period of intensive review with emphasis directed toward those topics or areas associated with the NRC examinations. As necessary, individuals will be given a simulator refresher with concentration on of f-normal plant response with emphasis directed tcwcrd the underetending and uce of plant abner =al and c=crgency
        -operating procedures.
1 I
This phase of the licensed operator training program is conducted under the general supervision of GSU and includes the following          l topics:
: 1. Preoperational and other checks performed by                ,
operators
: 2. Performance of startup checks
: 3. Daily operational checks
: 4. Scram recovery checks
: 5. Identification of nuclear instrumentation
()      6.
7.
Principles of nuclear instrument operation Interpretation of nuclear instrument respoima
: 8. Perform reactor startup
: 9. Estchlish reactor criticality
: 10. Reactor heatup and pressurization
: 11. Transfer from " start to run"
: 12. Turbine roll and generator synchronization
: 13. Power increase to 100 percent
: 14. Interpretation of effects on reactivity during startup
: 15. Startup physics review
: 16. Response to alarms and annunciators
: 17. Interpretation of alarms and annunciators during startup
: 18. Response to' alarms and procedures using appropriate procedures
: 19. Predictions of pertinent instrumentation response
: 20. Normal operating parameters during startup
: 21. Parameter changes and control during startup
: 22. Reactor power control and changes
: 23. Power control systems and operation review
: 24. Perform power changes with control rods
: 25. Power change limitations 26    Auxiliary systems
: 27. Startup neceasary auxiliary systems during plant startup s
O      28.
29.
Predict auxiliary systems effects upon the reactor Standard calculations operators perform
: 30. Period calculation during startup 13.2-21
_ _ _ _ _ _ -                      J
 
2
(:)
RB5 FSAR
: 31.              Power increase calculations
: 32.              Calculating power from nuclear instrumentation
: 33.              Auxiliary ard emergency system operation
: 34.              Review of auxiliary and reactor systems
: 35.              Operation of systems in different plant conditions
: 36.              Identification and interpretation of system instrumentation
: 37.              Radiation monitoring systems
: 33.              Interpretation of radiation monitoring system
: 39.              Plant operation in abnormal radiation conditions
: 40.              Abnormal and emergency conditions
: 41.              Selected equipment malfunctions
: 42.              Analyze effects of selected equipment malfunctions
: 43.              Selected plant transients
,    44.              Transient analyses
: 45.              Abnormal and emergency procedures
: 46.              Familiarity with operating procedures and standards
: 47.              Proper procedure used during normal, abnormal, and emergency operation
: 48.              Technical specifications
: 49.              Restrictions and limitations imposed on power
(). 50.
operation Principles of reactor operation
: 51.              Reactor theory
: 52.              Nuclear terminology
: 53.              Features of facility design reactor
: 54.            System design intentions j      55.            System design parameters
: 56.            Parameter limitations
: 57.            General operating characteristics
: 58.            Parameter controls of the reactor l      59.            Normal operating parameter values
: 60.            Parameter value change resulting from l
process changes
: 61.            Parameter changes from normal and abnormal transients
: 62.            Nuclear instrumentation characteristics
: 63.            Process and control instrumentation characteristics
: 64.            Interrelationships of instrumentation l      65.            Indications / Consequences of improper instrument performance
: 66.            Safety and emergency systems
[      67.            Reactor safety system
: 68.            Design, construction, and interrelationships
: 69.            Conditions requiring the use of safety systems g  70.            Standard and emergency operating procedures
: 71.            Administrative controls i
: 72.            Fission products 13.2-22
 
("T
(.)                                        RBS FSAR
: 73. Neutron multiplication source and control rod effects
: 74. Criticality indication
: 75. Heat transfer and fluid flow effects on core
: 76. Radioactive material handling, disposal, and hazards
: 77. Operational radiation hazards
: 78. Title 10CFR20
: 79. Facility radiation regulations
: 80. Handling and disposal of radioactive materials
: 81. Specific operating characteristics of the reactor and auxiliary system
: 82. Effects and causes of system changes
: 83. Fuel  handling and core parameters
: 84. Fuel  handling and loading
: 85. Core  loading procedures and limitations
: 86. Fuel  transfer and storage
: 87. Fuel  characteristics
: 88. Fuel handling personnel requirements
: 89. Administrative procedures and controls
: 90. Administrative, procedural, and regulatory items
('}          91.
affecting facility operations Design and operating considerations
: 92. Facility license considerations Personnel attending this phase consists of those listed in 13.2.1.1.4 13.2.1.1.10    PRE-LICENSE EXAMINATION (B3)
This service consists of actual written and oral examinations closely adhering to NRC methods and practices.      These examinations will be completed prior to certification of competency of an individual to the NRC. Examinations are critiqued and reviewed with GSU management as part of this service.
These examinations will be administered by a qualified outside agent experienced in this area.
Personnel participating in this phase of the training will consist of any license candidate who has not been previously licensed on a commercial reactor.
13.2.1.1.11    FIRE PROTECTION TRAINING Fire protection training consists of training in three specific areas:
,-)          1. Employees designated to be members of the station sy ,/              fire brigade
: 2. Employees assigned to the fire protection staff
: 3. Offsite fire departments 13.2-23
 
I RBS FSAR Specific training requirements for each of the above categories of personnel are as described in the following sections.
13.2.1.1.11.1      Fire Brigade Training (B4) - 1 Week All personnel assigned to be designated as fire brigade members receive formal training prior to fuel load. The course subject matter is selected to satisfy the requirements of Regulatory Guide 1.120 and the NRC document                              " Nuclear  Plant  Fire Protection Functional Responsibilities, Administrative Controls, and Quality Assurance." In addition, course material selection also includes the guidance of NFPA                      i Codes 801, 802, and 803. The instruction period of I week consists of approximately one-half classroom and one-half practical applications.
Specific course and lesson plans for both on-s ite and off-site training programs are being developed.
Course material includes the following:
: 1. Chemistry of fire
: 2. Classification of fires and principles of extinguishment
(,_)      3. Fire prevention and inspection techniques
: 4. Fire protection systems - tailored to systems of interest at the River Bend Stations
: 5. Respiratory protection equipment - use and maintenance
: 6. Radiological safety aspects of fires at nuclear facilities - survey and contamination control
: 7. Fire brigade command and control - evaluation and direction
: 8. Field exercises
: a.      Electrical fires, including transformers and cable trays
: b.      Flammable gas and liquid fires
: c.      Wasta/ debris fires
: d.      Pressurized fuel storage tank fires, techniques to control, and source shut-off
: e.      Spill fires
: f.      Industrial fire hose and nozzles
: g.      Portable extinguisher on small fire
: h.      Fuel transfer pump fire
: 1.      Breathing cpparatus use in confined, smoke -
filled structure
: j.      Multi-level structural fire, including rescue and recovery
: k.      Firefighting with radioactive contamination, (s) s_                      including rescue and decontamination 13.2-24
 
O                                        RBS FSAR Onsite Fire Brigade Training The onsite fire brigade training program ensures that the capability to fight potential fires is established and maintained.          The program consists of an initial classroom instruction program followed by periodic classroom instruction, firefighting practice, and                  fire drills:
: 1. Instruction The initial classroom instruction includes:
: a. Indoctrination of the plant firefighting plan with specific    identification      of    each      individual's responsibilities,
: b. Identification of the type and location of fire hazards and associated types of fires that could occur in the plant.
: c. The toxic and corrosive characteristics of expected h                  products of combustion.
[~'/
s_
: d. Identification    of    the    location    of fire-fighting equipment for each fire area and familiarization with the layout of the plant, including access and egress routes to each area.
: e. The proper use of available firefighting equipment and the correct method of fighting each type of fire.            The types of fires covered should include fires in energized electrical equipment, fires in cables and cable trays, hydrogen    fires,    fires    involving    flammable      and combustible liquids or hazardous process chemicals, fires    resulting from construction or modifications (welding), and record file fires,
: f. The proper use of communication, lighting, ventilation, and emergnacy breathing equipment.
: g. The proper method for fighting fires inside buildings and confined spaces.
: h. The direction and coordination of the firefighting activities (fire brigade leaders only).
~              i. Detailed    review    of    firefighting    strategies      and y                    procedures.
13.2-25
 
L!
RBS FSAR
: j. Review  of  the    latest  plant  modifications    and corresponding changes in firefighting plants.
Note:  Items  (i) and (j) may be deleted from the training of non-operations personnel who may be assigned to the fire brigade.
The instruction is provided by qualified individuals who are knowledgeable, experienced, and suitably trained in fighting the types of fires that could occur in the plant and in using the types of equipment available in the nuclear power plant.
Instruction is provided to fire brigade members and fire brigade Icaders.
13.2.1.1.11.2 Fire Protection Staff Training (BS)
The station fire protection staff receives training in:
()-'
: 1. Design and maintenance of fire detection, suppression, and extinguishing systems
: 2. Fire prevention techniques and procedures
: 3. Firefighting techniques and procedures for plant personnel and the fire brigades.
Specific arrangements for this training have not been completed, but will be provided in a future amendment.
13.2.1.1.11.3    Offsite Fire Department Training (B6)
Training    for offsite fire departments includes basic radiation principles and practices, typical radiation hazards that may be encountered, and procedures.
GSU plans to utilize General Physics Corporation (or other Training Organizations) to conduct this training. Specific course material has not been developed at this time, but will be provided in a future amendment.
13.2.1.2    COORDINATION WITH PRE-OPERATIONAL TESTS AND FUEL LOAD On-the-job training for plant staff personnel, including reactor and
()s  senior reactor operator license candidate, commences with the pre-operational test program.      During periods when members of the plant staff are not engaged in formal classroom exercises, they are utilized 13.2-26
 
V,f3 RBS FSAR by the Start-up and Test group, through their respective supervisor.
for such operations as component testing, system flushing, system line-ups and checkouts, functional tests, etc.
The RBS staff reviews operating procedures, system descriptions, emergency plans, etc.
Documentation of the participation of " Cold" license candidates will be maintained in accordance with Training Department documentation procedure.
13.2.1.2.1        CONTINGENCY PLAN IN THE EVENT FUEL LOADING IS SUBSTANTIALLY DELAYED The RBS staff training plan will be adjusted accordingly in the event fuel loading is substantially delayed.
13.2.1.3        TRAINING PROGRAMS FOR NONLICENSED PERSONNEL Professional, Supervisory, and Technical Personnel receive training necessary to satisfy requirements for their positions. This training I'')
  \'
will consist of formal classroom presentations coupled with on-the-job training. Vendor training will be utilized to provide additional knowledge on specific tasks.
13.2.1.3.1        BWR TECHNOLOGY TRAINING (B7) Length: 4 Weeks This course provides BWR plant operating, technical, and maintenance personnel with the design and operating details of the balance of plant systems at the River Bend Station.
This course will be taught by NUS Corporation (or other Training Contractor Firm). Subject matter includes, but is not limited to:
: 1. Turbine
: 2. Turbine auxiliary systems
: 3. Generator
: 4. Generator auxiliary systems
: 5. Condensate system
: 6. Feedwater system
: 7. Condensate demineralizer system
: 8. Auxiliary steam system
: 9. Leak detection system l          10. Circulating water system
: 11. Condenser air removal system
: 12. Service water systems rs        13. Feedwater heaters
(_)      14. Extraction steam system
: 15. Floor and equipment drain system                          !
: 16. AC electrical distribution 13.2-27
 
O                                              RBS FSAR
: 17.      Diesel generators
: 18.      DC electrical distribution
: 19.      Radwaste processing systems
: 20.      Off gas system
: 21.      Instrument air system
: 22.      Service air system
: 23.      Heating, ventilation and air-conditioning system
: 24.      Chilled water systems
: 25.      Makeup water systems
: 26.      Fire protection systems Personnel attending this course include:
: 1.      Maintenance Supervisors (Mechenical, Electrical, I&C)
: 2.      Maintenance Foreman (Mechanical, Electrical, I&C) l
: 3.      Mechanics
: 4.      Electricians
: 5.      I&C Technicians
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: 6.      Chemical Foreman
: 7.      Chemistry Technicians
: 8.      Health Physics Foreman
: 9.      Rad Protection Technicians
: 10.      Selected Personnel from the Technical Staff 13.2.1.3.2            BWR CHEMISTRY (B8) LENGTH:  12 WEEKS The course is designed to prepare the members of the plant chemistry staff to set up and operate the chemistry program.          It includes BWR water chemistry, waste disposal, process instrument calibration, environs sampling, and studies in laboratory work.                The course promotes the understanding of the process involved in the transport and control of radioactive materials within the power plant.
The initial training will be performed by General Electric.
This course includes, but is not limited to, the following:
f-~      1. Basic BWR chemistry cycle
(_)    2.      Responsibilities of the chemistry staff
: 3.      Equipping a BWR laborstory and counting room
: 4.      Understanding the chart of the nuclides 13.2-28
 
H
  .U                                                  RBS FSAR
,              5.              Interpreting decay schemes
: 6.              General characteristics of alpha, beta, and gamma counting
: 7.              Operation and calibration of the integral gamma counter
: 8.              NaI (TI) spectrometry - operation and calibration
: 9.              Ge (Li) spectrometry - operation and calibration
: 10.              Calculator - computer application to gamma spectrometry
: 11.              Alpha and beta counting - proportional and scintillation detectors
: 12.              Liquid scintillation counting
: 13.              Basic radiochemical separation procedures and techniques 4
: 14.              Activity balances using gamma spectrometry and integral gamma and beta counters
: 15.              Formation, release, and behavior of the principal fission products
:            16.              Interpretation of fission gas and iodine release data
: 17.              Determination of fission gas geometry factors
()        18.
19.
Gas transfer and charcoal collection techniques Functions and capabilities of the process radiation monitors
: 20.              Calibration of the process radiation monitors and                        ,
flow instrumentation l
: 21.              Startup chemical and radiochemical tests
: 22.              Routine chemical and radiochemical analysis required to follow and understand the safe operation of a BWR
: 23.              Metals analysis using both atomic absorption i                              and spectrophotometry
: 24.              Sample station design
: 25.              Off gas treatment system
: 26.              Methods for locating failed fuel
;            27.              NRC requirements and their implementation
!            28.              Ion exchange resins and water treatment                                  ,
Personnel attending this course include the Lead Plant Chemist.
13.2.1.3.3                  RADIOLOGICAL ENGINEERING (B9) LENGTH:
7 WEEKS This 7-week course consists of classroom lectures, field exercises, and projects, and is designed to give the station Health Physicist and/or Radiation Protection Supervisor the needed background in science,- laws and regulations, and operational                        experience for O. effective implementation of the Radiation Protection program.
The presentation of this course will be supervised by GSU.
13.2-29
 
4 1
I O                                                            RBS FSAR Subject matter includes, but is not limited to:                                                            i
: 1.              Radiation Fundamentals
: 2.                External Gamma and Beta Dosimetry
: 3.                Biological Effects of Radiation
: 4.                Internal Contamination and Dosimetry                                                i
: 5.              Federal Regulations and Guides
.                        6.            -Health Physics Instrumentation
: 7.                Radiation Monitoring.
: 8.                Contamination Control
: 9.                Radiation Exposure Control
: 10.                Environmental Monitoring
;                  13.2.1.3.4                  GENERAL EMPLOYEE TRAINING (C1) a
;                  The objective of the RBS General Employee Training program is to                                          ;
indoctrinate all personnel requiring unescorted access to the plant in the general procedures. utilized to assure nuclear plant safety and personnel safety. Only those personnel who have completed the General Employee Training Course are allowed unrestricted plant access.
n General Employee Training covers seven areas, as specified in ANSI /ANS                                    !
V              3.1-197
: 1.              Quality Assurance Training
;                        2.              Radiation Protection Training
: 3.                Station Emergency Procedures 4
: 4.                Industrial Health and Safety 3
: 5.              Access Control and Security
: 6.                Plant Description, Operating Policy, Organization and Administration
: 7.              Fire Protection New employees and contractor personnel participate in the initial l'                  General Employee Training. Temporary consultant, maintenance, service personnel,                  vendor personnel, etc, receive the General Employee
,                  Training to the extent necessary to safely execute their duties.
The course is presentation will be supervised by GSU.
I 13.2.2 RETRAINING 13.2.2.1                  GENERAL EMPLOYEE TRAINING (C2) g                  In order to maintain the knowledge acquired during the initial jg            training, periodic retraining is provided.                            The material presented
(,j .          during the retraining will be the same as used for initial training and will cover the seven areas listed in 13.2.1.3.4. As specified in ANSI /ANS 3.1-1978, RBS plans to keep training programs up-to-date to 13.2-30 i
 
RBS FSAR reflect plant modliication and procedural changes.      The retraining will also be updated to assure all plant personnel remain proficient.
The. radiation protection training segment is conducted twice each calendar year and the entire GET program is conducted once each calendar year.
13.2.2.2  FIRE BRIGADE TRAINING (C3)
: 1. CLASSROOM Regular planned meetings are held at least every 3 months for brigade members to review changes in the fire protection program and other subjects as necessary. Periodic refresher training sessions are held      to  repeat  the  classroom instruction program for brigade members over any 2-year period. These sessions ma:7 be concurrent with the regular planned meetings.
: 2. Practice o            Practice sessions are held for each shift fire brigade on the proper method of fighting the various types of. fires that could occur in a nuclear power plant. These sessions provide brigade members with experience in actual fire extinguishment and the use of emergency breathing apparatus under strenuous conditions encountered in firefighting.      These    practice sessions are provided at least once per year for each fire brigade member.
: 3. Drills Fire brigade drills are performed in the plant so that the fire brigade can practice as a team.
Drills are performed at regular intervals not to exceed 3 months for each shift fire brigade. The offsite local fire department is invited to participate in at least one drill per year.
Each fire brigade member should participate in each drill, but must participate in at least two drills per year.
: 4. Records
                      . Individual records of training provided to each fire brigade O            member, including drill critiques, will be maintained as part of the permanent plant files for at least 3 years to ensure that each member receives training in all parts of the 13.2-31
 
V RBS FSAR training program. Retraining or broadened training for fire-fighting within buildings will be scheduled for all those brigade members whose performance records show deficiencies.
A system to document drills        including    critiques  and corrective actions is under development.        As well, Fire Brigade Training Review and individual performance programs are also under development. These areas will be incorporated into the FSAR Section 13.2.3. Training Program Documentation, when they become available                                      I 13.2.2.3    LICENSE OPERATOR REQUALIFICATION TRAINING (C4)
The following outlines the training program as set forth in the NRC Regulatory Guide 1.8, " Personnel Selection and          Training" that endorses,    in part, ANSI /ANS 3.1-1978, " Selection and Training of Nuclear Power Plant Personnel."
In accordance with 10CFR55, the NRC issues two types of licenses.      In general, anyone who manipulates reactor controls must be licensed as an Operator, and those who direct the activities of 11< sed Operators must be licensed as SRO's. In practice, the Control Room Operators at a power station are the Licensed Operators and their immediate
(~)
supervisor is normally the SRO.
Periodic requalification for all R0's and SRO's is necessary to maintain their continued competence. The following is an outline of the NRC requalification requirements (10CFR55 Appendix A):
: 1. Schedule  -
The requalification program is conducted for a continuous period not to exceed 2 years, and upon conclusion promptly followed, pursuant to a continuous schedule, by successive requalification programs.
: 2. Lectures  -
The requalification program includes preplanned lectures on a regular and continuing basis throughout the license period in those areas where annual operator and senior operator written examinations indicate that emphasis in scope and depth of coverage is needed in the following subjects:
: a. Theory and principles of operation
: b. General and specific plant operating characteristics
: c. Plant instrumentation and control systems
: d. Plant protection systems
: e. Engineered safety systems f-w,            f. Normal, abnormal, and emergency operating
(_)                    procedures
: g. Radiation control and safety
: h. Technical specifications 13.2-32
 
hJ RBS FSAR
: 1. Applicable portions of Title 10, Chapter I Code of Federal Regulations J. Heat transfer, fluid flow, and thermodynamics
: k. Station QA program as related to station operations
: 1. Mitigating core damage The R0/SRO requalification will not be a reiteration of previously covered topics, instead, the program is designed to ensure a level of knowledge and skill which will be built upon to better improve the operation of RBS.
Classroom lectures, seminars, and exercises will include a special emphasis toward LER's, I&E Bulletins, Information Notices, and Operational Experience and the Adaptation to River Bend specifics.      The "How's" and "Why's" of the reference events or occurrences will be emphasized and details of observational experience will be applied to specific systems, subsystems or components.
()    Individual study on the part of each operator is encouraged.
A requalification program based solely upon the use of films, videotapes, and/or individual study is not an acceptable substitute for the lecture series.
: 3. On-the-job training - The requalification program includes on-the-job training so that:
.        Each licensed Operator at RBS manipulates tue plant controls l        and each licensed Senior Operator shall either manipulate the  ,
l        controls or direct the activities of individuals during plant    ;
(        control manipulations in any combination of reactor sr rt aps, reactor    shutdowns or other control manipulations which demonstrate skill and/or familiarity with reactivity control systems. The On-The-Job Training with respect to reactivity l        control manipulations will incorporate the guidance specified
!        in Enclosure 4 of Denton's Letter dated March 28, 1980. The use of a simulator for yearly retraining may fulfill the ten reactivity    control  manipulation requirements, and will include as a minimum 12 days per year on a 3-day per quarter basis.
i        During this segment, emphasis will be placed on polishing and L
refining operational skills and knowledge necessary          to control the plant during normal, abnormal, and emergency
!  ~    conditions. Special emphasis will be      directed  toward x_j    observed      trouble    areas    or    upcoming  evaluations.
Additionally, the use of procedures and other administrative i
13.2-33
(
 
V RBS FSAR documents will be stressed as part of the requalification program.
Each    licensed    R0    and    SRO  demonstrates satisfactory understanding of the operation of            all    apparatus    and mechanisms and know the operating procedures in each area for which he is licensed.
Each licensed R0 and SRO is cognizant of facility design changes, procedure changes, and facility license changes.
Each licensed R0 and SRO reviews the content of all abnormal and emergency procedures on a regularly scheduled basis.
: 4. Evaluation An integral part of the continuous and on going Operator Requalification Program will be an            annual      performance evaluation. This evaluation will normally be completed based on an individual's performance on the Simulator. However, as available, input from the licensed individual's supervisor (s)
()    will be incorporated into the performance evaluation.
Key elements to be addressed in completing the evaluation will include:
: 1. The individual's ability to recognize and diagnose abnormal / emergency situations.
: 2. The ability of the individual to progress from the recognition of the abnormal / emergency situation to the appropriate plant procedure (s) designed to cope with or mitigate the consequences of the existing condition.
: 3. The ability of the individual to use and/or adapt the applicable procedures (s) to the situation at hand.
: 4. The ability of the individual to perform competently the steps of the applicable procedure (s).
: 5. The ability of the individual to relate the existing condition (s)      to        established          Administrative Policies / Guidelines including the Plant Emergency Plan and the River Bend Technical Specifications.
Documentation of the above evaluations will be reviewed by gg    the Operator Training Evaluation Committee. The results of
()    this review will be utilized to upgrade the content of the Operator Requalification Program.
13.2-34
 
h O                                    RBS FSAR Following completion and review of an individual's Annual Performance Evaluation and/or, the results of the annual written examination, a determination by the Operator Trainng Evaluation Committee will be made as to the competency of a licensed individual to execute the duties associated with his/her job. If the determination is such        that  the competency of the individual is deemed inadequate, he/she will be removed from independent shift assigneont until deficient areas are corrected. The correction could consist of either documented classroom lectures, required reading, or simulatory training.
The    on going  prograa    of    evaluation and feedback is implemented via direct feedback at meetings with plant staff and supervisor personnel, in-class evaluation of instructors and students and the review of student performance. Training effectiveness, changing training needs, and meeting course performance objectives are stressed in the evaluation phases.
13.2.3 TRAINING PROGRAM DOCUMENTATION
() Records are maintained to document each person's participation in this program. These records include:
: 1. Attendance records
: 2. Copies of all operator requalification examinations given with acceptable answers
: 3. Copies of the answers to these examinations
: 4. Results of performance evaluations of licensed operators
: 5. Records of any additional training given to correct exhibited deficiencies of licensed operators
: 6. On-the-job training records
: 7. Copies of licenses of all operators
: 8. Records for personnel other than operators as addressed in ANS 3.1-1978.
I O
13.2-35 I
                      -              ._    _    - _                                      1
 
O
. V RBS FSAR 13.2.3 Applicable Documents-
        - The' River Bend Station training program follows the regulations and considers the guidance listed below:
: 1. 10 CFR Part 50,              " Domestic Licensing of Production and Utilization Facilities"
: 2. 10 CFR Part 55, " Operators' Licenses"
: 3. 10 CFR Part      19,        " Notices,      Instructions, and Reports to Workers; Inspections"
: 4. Regulatory Guide 1.8, " Personnel Selection and Training"
: 5. Regulatory Guide 8.2, " Guide for Administrative Practices in Radiation Monitoring"
: 6. Regulatory Guide 8.8, "Information Relevant to Ensuring that Occupational Radiation Exposures at Nuclear Power Stations will be as Low as is Reasonably Achievable" O                7. Mr. H. R. Denton's letter to All Power Reactor Applicants and Licensees dated March 28,                    1980          on            the        subject            of Qualifications of Reactor Operators
: 8. Clarification of TMI Action Plan Requirements, NUREG-0737, November 1980
: 9. INP0's letter dated April 30, 1980 " Nuclear Power Plant Shift Technical Advisor: Recommendations for position description, qualifications, education and testing." Revision )
                  . 10. INPO's letter dated January                        15,      1980. Revision 1 to the April 30, 1980 letter.
I                                                      13.2-36 ie- .w y ., -        ~              ,,wyv..p-wc                                                                                vs-..m,-
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j984                        ,1                ; qg f.a CLASSIFICATION        _I 2_ 3              4 1      2,    3 j ,[              [, 3              <:/        j. ]          '[          3          djl            [ [ g qi
      .fltnt Manager                        ,
                                                                  '                l
                                                                                                                                          ]</                      y                ~~'        -
Sacratary                                                                                                                                                            i l Assictant Plant Manager -
Services                                                                                                                                l                    q
! Assistant Plant. Manager -
l Operationa                                                                                                    j                            g g
j Administrative Supervisor          g                                                    ;                    ,
l t                                    3                                                    .                                  g              ,
Budgst Analyst              ;                    ,                              [                                i      .
s l      Clerk                        1 l
ll    '                                g. Ay      '
Materials Supervisor          f r
[
Materials Foreman            i    I
                                                      .l                                                                                                        j i                                    .
                                                                                        ]
f                            i
                                                                                                                                                              .j ,gf I
Sterckeeper                  j                  ,
I              '
l                  ;
[
i j      Storekeeper Assistant                                        ,
i l                            gl Date Entry Clerka                                                                                                  l                        ;
f Szction Head j                                                                                                                                                      g}
Peacedure Writer                  ,
g
* Technical Supervisor      -
g                                                                                  l    i                      gl l,
Perfuruance Supervisor                    '
l                      ,              ;  g7                                  .
fgg              --
                                                                                                                                                                                                ~~
Precess Systems Supervisor j              l L
i g7,                                                      gfl                    '        ~~  -
Computer Systems Supervisor l
* l f
Cbutrol System Supervisor                                                                      ; [7,                                                  i [f Reneter Durineering                                                                                                                                  l Supervisor                                    ;                        i l
[/              )            '[                        h
 
s h
e
                                            . N8/      l      J4W2                        " 1983 1                                  l            /989                          796'S* '          f
_ _ .          CLASStnCATION Sy;tes Engineer 1 ?5      $$.        S 3            k          $    $      ~5 lgy
                                                                                                                'h          $          $      5 gf
                                                                                                                                                        $,        $ Y                W f                            i      f                                ,            ;
i S:curity Supervisor                                                                                -
{                      .
l As21stant Security                                                            E                    '                                              '
[
l                                          .'
Supervisor                      j                                                            l l      g                                            l                                                                                      ,
Srcurity Training                      l      <
l        {'          l Coordinator                                                                '
I l              g              ;      j              ,
Asmittant Access Progra:s                                                                                                                                                          '
                                                                                                                                              ]9 l            ;      l      !      f I
Director                                                                                l        .
l
                                                  }    'g            {              j                      j        [
s Operations Supervisor                  ,
j                                                            ?
e Assistant Operations        -
I  f    'I                                            i                I                                      i      i                i      :
                "      '8 #                                                        j!
                                                                                    !              l      l        3                                    1              :          !
  , Shift Supervisor                      gf gg                                                      !/4 //9/M4f 44 6M 42 ! 83, PA5i                                                                                                        I
  . Radwaste Foreman G Control Operating Foreann gfgg                          '
                                                                              .h3                      ~Mb/ 8                          #4  &f&                  8
* Nucitar Control Operators            gf gg                        ,
h                        .g4 g J
g gfg                                                I
  . Nucicar Equip:: tent Operators                                                                  J gg :gg
(                          f t
Ig g                        j Cen:ral Maintenance                                                        '
                                                                                                                                  .                                        j I
{
g7I Supervisor j.:
l
                                                                                                          ,                                          [f                  j                j Electrical Maintenance a      -
t        '
N              i-l Supervisor q              g              .
[7                          ,
Einetrical Maintenance Foreman                          l    l                        $                                        gy            '
g    l L
j l E1 ctricians f'
L l                k              f                jg7            .
g                        l l                    ,e              *      *        .
([7 l J
i          Maintenance Planners        j i
{                          [;              j      l                            _ [g              l            l
 
n          -
a
                                                                                                                                                                                                                                                                      ~
:u                        .,.,z                ms            -
m+                                                                                      ~
1 1 2 3 4 2 23                                A      E
                                                                                                      ~
cussmemon                                                                                                  'Y          A              E            ~
I&C Supervisor 4-                                                                        '                                                                                        ^
* N l                      l                              l                                                                                                                                  ,
7-IEC Foreman i
{                                              k                                                                          -
I&C Technicians                                                          ;          li,
                                                                                  ~
l            N'      '[M O7 bI'                                                                                                !
Mechanical Maintenance                                                                .
j        i    -                      -                                                                                                      t Supervisor                                                      (,        i          ,
L      l  -                                                                                                                          l
                                                                                                                        *[7 r          i          !                            l                                                                                                                      ,              .
Mechanical Maintenance                                                                i                                i Repairman I_      7                                      1                                      _
i Zuilding 6 Crounda Fo, reman l
l    i                  .'      '                                            '
i
                                                                                                                        '                                                                                                                                    f Utility Worker j'
                                                                                          '  i l            }                        l                                                        -                                                                          !
Radiation Protection /                                                  '
l l    j        i Chenistry Supervisor                                                            )                    I        j                          :#            ,          '
i        l                    {        }                        i
                                                                                                                                                                /e          I i
    . Radiation Protection i
d          !
supervisor                                                                              '
                                                                                                                                          . ff n                                pgl j                                                                                                                                                                              ]
O/                                V4                                                                  '          '
Environmental Supervisor i
l                    b Ch:mistry Supervisor                                                    '
                                                                                                                                        '[7
                                                                                                                                        .                                                                                                            i Radiction Protection Foreman t
i
                                                                                          .      i
[7 '                      i Radiation Engineer e
((
52nier Healtih Physicist N alth Physicist 2      W'f
                                                                                                                                      .#7 'M l j                i Radiological HyRienist                                                                                                        ,                              ,                                                                                      .
(i              l      l      1.                _                  l Environmental Specialist                                                                                                                                                                                                                                      ,
                                                                      !                    fil            }
                                                                                                                                      ;                                    I                                                                    -
 
m g            .. .;.              .-  . .
l . .. : w:
i py bQ
'or'N                              .
1 y
v g          it                              4y y
* 5000"4                          %        h4 R$ # #
V y y                                                  pl,        .
[pd k D%kt                            4            *
                                                                                          .y $
[                                                                            54 h%y 8                                                                                    %
        ,                                                                                otl y o    W                    '                                  %w4 &              ,  4 y                          ,
l 8                              .
r                        K4        i            !
l  :
p  -
l?l      ;?~ ;!
E g    ,v                                                                                              se a?        e h            !! ! ! !
                                                                                                    + llll:: lll
                        ~
      ; N                                                                                  y Q                                                                                                              !l!
          'm
          '          '                                            y
                                                                                                              !l!!l!l!l!
la=.=;
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O                                                                  RBS FSAR FSAR 13 13.4 13.4 REVIEW AND AUDIT GSU has developed a comprehensive program for reviews and audits of                                                      e operating phase activities that are safety-related. This program has been      developed                      from    the guidance provided by NRC Regulatory Guide 1.33, Revision 2, which endorses ANSI N18.7-1976.
A program for reviews, including in plant and independent reviews, is established to accomplish the following:
: 1. Verify that activities affecting safety-related structures, systems and components during the operational phase are performed in conformance with applicable codes and standards, company policy and rules, approved operating procedures, license provisions, and QA requirements.
: 2. Review                      proposed    plant    changes to design, tests, and l
procedures that affect nuclear safety.
()                3. Verify that reportable events, which require reporting to NRC in writing within 24 hr,                          are promptly investigated and corrected in a manner which reduces the probability of such events recurring.
: 4. Detect trends which may not be apparent to a day-to-day observer.
To perform these reviews, CSU utilizes two committees and one permanent group.                          Reviews at the plant level are i.erformed by the
!            Facility Review Committee (FRC).                            Independent reviews are performed by
;            the Nuclear Review Board (NRB), of which a majority of members are independent                    of direct responsibility for plant operations.                            In j            addition, an Independent Safety Engineering Group (ISEG) performs                                        on-
;            site independent review of plant operations with respect to unit, j            technical, industrial, and regulatory requirements as a method of I            providing additional, on-site, technical expertise for improving plant safety. These two committees and the ISEG are discussed in the following sections and in the Technical Specifications, Chapter 6.
13.4.1      Onsite Review The FRC is responsible for in plant reviews.                                          It will be established and functional at least 6 months prior to initial fuel loading.                                          The committee is made up of management and technical personnel from the
    --      operating plant staff and others as necessary functioning to advise the Plant Manager on all matters related to nuclear safety. The FRC activities and membership are defined in a written administrative procedure.
13.4-1 l
 
O                                                                                    RBS FSAR
;                        13.4.1.1        Membership The FRC membership is:
l                            Assistant Plant Manager, Operations - Chairman.                                                                                                  l          .
Operations Supervisor - Member.
I                              Technical supervisor - Member.
General Maintenance Supervisor - Member, Reactor Engineering Supervisor - Member.
Radiation Protection / Chemistry Supervisor - Member.
Operations Quality Assurance Supervisor - Non-Voting Member.
Supervisor, Site Engineering - Non-Voting Member.
Nuclear Licensing Representative - Non-Voting Member.
13.4.1.2        Alternates Alternate members are appointed in writing by the FRC chairman to serve on a temporary basis.                                        An alternate                          has  qualifications comparable            to the absent permanent member.                                                      No more than two alternates participate as voting members in FRC activities at any one L
time.
13.4.1.3        Meeting Frequency The FRC meets at least once per calendar month and as convened by the
;                          Chairman or his designated alternate.
1 13.4.1.4        Quorum The      minimum              quorum necessary for the performance of the FRC responsibility and authority consists of the Chairman, or                                                                                        his designated alternate, and four voting members including no more than two voting alternates.
13.4.1.5        Responsibilities The FRC is responsible for:
: 1.        Review            of                all        procedures                  required            by        Technical p),
g,,                                  Specification 6.8 and its changes, and of any other proposed procedures, programs                                          and changes as determined by the Plant Manager which constitute an unreviewed safety question.
13.4-2                                                                                                .
        -43r'- **< +e+-,    . m =  ev r  -e -------e v      3e-g-m----+v-.y<              -in,  ay-u    y- w---v-w--y.v--w--,my-      -v-q- -9,-g,e+-->o-w,-,y, - - ~rm      ----"**rt*~b"
 
(~~\
U RBS FSAR
: 2. Review of all proposed tests and experiments that affect nuclear safety.
: 3. Review  of    all    proposed    changes  to the  technical specifications.                                                  o
: 4. Review of all proposed changes or modifications to plant systems or equipment that affect nuclear safety.
: 5. Investigation      of  all    violations    of the  technical specifications, including the preparation and forwarding of reports covering evaluation and recommendations to prevent recurrence to the Operations Supervisor and the NFB.
: 6. Review of events requiring 24-hr written notification to the NRC.
: 7. Review of unit operations to detect potential nuclear safety hazards.
: 8. Performance of special reviews, investigations or analyses, and reporting on them as requested by the Plant Manager or
(''')      the NRB.
: 9. Review  of the Physical Security Plan and Implementing Procedures and submittal of recommended changes to the NRB.
: 10. Review of the Emergency and Fire Protection Plans and Implementing Procedures and submittal of recommended changes to the NRB.
: 11. Review of unplanned releases, which require reporting, of radioactive material        to    the  environs including  the preparation and forwarding of reports covering evaluation, recommendations and disposition of the corrective action to prevent recurrence to the Vice President-Nuclear Operations and to members of the NRB.
: 12. Review of major changes to the radwaste system.
: 13. Review the following list of River Bend Station audit reports:
A. Nuclear Regulatory Commission B. Quality Assurance
!,r)
C. American Nuclear Insurers D. Nuclear Review Board 13.4-3
 
RBS FSAR
: 14. Review the following programs and changes thereto:
A. Primary Coolant Systems Outside Containment B. In-Plant Radiation Monitoring C. Post-Accident Sampling D. Process Control Program E. Offsite Dose Calculation Manual 13.4.1.6  Authority The FRC's authority includes:
: 1. Recommend in writing to the Plant Manager approval or disapproval of Items 1 through 4 considered in Section 13.4.1.5 prior to their implementation.
: 2. Rendering determinations in writing with regard to whether or
(, )          not each item considered under        Items 1  through 5  of
    \"'            Section 13.4.1.5 constitutes an unreviewed safety question prior to their implementation.
: 3. Providing written notification within 24 hr to the Vice President -Nuclear Operations and the NRB Chairman          of disagreement between the FRC and the Plant Manager; however, the Plant Manager has responsibility for resolution of such disagreements.
13.4.1.7  Records The FRC maintains written minutes of each meeting that, at a minimum, document the results of all FRC activities performed under the responsibility and authority provisions of Section 13.4.1. Copies are provided to the Plant Manager, the NRB Chairman, and the FRC members.
13.4.2  Independent Review The NRB, which is responsible for independent reviews, will be established and functional at least 6 months prior to initial fuel loading. The NRB is chaired by the Senior Vice President - External Affairs and includes a majority of members who are not directly responsible for plant operations.        The NRB functions to provide independent review and audit of designated activities in the areas of nuclear power plant operations, nuclear engineering, chemistry and
( ~y radiochemistry, metallurgy, instrumentation and control, radiological s_)
safety, mechanical and electrical engineering, quality assurance practices, and any other appropriate fields associated with the unique characteristics of the nuclear power plant.
13.4-4
 
RBS FSAR 13.4.2.1  Membership
          .The NRB membership is:
Senior-Vice President, External Affairs - Chairman Vice President, River Bend Nuclear Group - Alternate Chairman.
Vice President, Nuclear Operations - Member.
Vice President, Power Plant En;;ineering and Design - Member.
Manager, Engineering, Nuclear Fuels, and Licensing - Member.
Director, Quality Assurance - Member.
RBS Plant Manager - Member.
Director, Nuclear Plant Engineering - Member.                                                  !
Director, Nuclear Licensing - Member.
13.4.2.2  Alternates Alternate members are appointed in writing by the NRB Chairman to serve on a temporary basis; however, no more than two alternates participate as voting members in NRB activities at any one time.
13.4.2.3  Consultants Consultants are utilized as determined by the NRB Chairman to provide expert advice to the NRB.
13.4.2.4  Meeting Frequency The NRB meets at least once per calendar quarter during the initial year of unit operation following fuel loading and at l' east once per 6 months thereafter.
13.4.2.5  Quorum The minimum quorum of the NRB necessary for the performance of the review and audit functions consists of the Chairman, or his alternate, and at least four NRB members, including no more than two alternates.
No more than a minority of the minimum quorum may have line responsibility for operation of the unit.
  .O 13.4-5
 
5
                                                                          's f\                                                                                  .
    }
* L' RBS FSAR              <
                                                                    ~
13.4.2.6    Review The NRB reviews:
s            -
: 1. Safety evaluations for changes to procedures, equipment, or systems, and for tests or experiments completed dnder the provision of 10CFR50.59 to verify that such actions did not constitute an unreviewed safety question.
                                                                                      }
: 2. Proposed changes to procedures, equipment, orsfs[temswhich involve an unreviewed safety question                    as    defined          in 10CFR50.59. A subcommittee reviews the Security Plan-and Implementing Procedures, with direct input' from Nuclear Operators                to assure testricted access to safety-related are,as does not present impediments to unit operation or safe shutdown.
: 3. Proposed tests or experiments which* involve an unreviewed safety question as defined in 10CFR50.59.
'p S      , 4. ProposedchangestoTechnicalSpecificationd.
(^)        5. Violations    of    codes,    regulations,        orders,              technical specifications,  license      requirements, .or              of        internal procedures    or      instructions      having nuclear                    safety significance.
: 6. Significant operating abnormalities or deviations from normal and expected performance" of unit equipment that affect nuclear safety.
: 7. Events requiring 24-hr written notification to the NRC.
: 8. All recognized indications of an unanticipated deficiency in' some aspect of design or operation of structures, systems, or components that could affect nuclear safety.                          ,
: 9. Report,s and' minutes of meetings of the FRC.
                        ,                                      w 13.4.2.7    Audits                              s Audits' of River Bend Station act6/itins are performed by the Quality                          l Assurance Department under tGe cognizance of the NRB.                    These audits, encompass:
: 1. Conformance o'f unit operation to    provisions contained within'
/~''i            the Technicalv Specifications            and  applicable                  license kal              conditions at least once per 12 months.
: 2. Performance, training, and qualifications of the entire unit staff at leastoncg{per12 months.
13.4-6                            '
 
RBS FSAR
: 3.              Results of actions taken to correct deficiencies occurring in unit equipment, structures, systems, or methods of operation that affect nuclear safety at least once per 6 months.
: 4.              Performance of activities required by the Operational Quality Assurance Program to meet the criteria of                                                                        Appendix B, 10CFR50, ac least once per 24-months.
: 5.              Emergency Plan and Implementing Procedures at least once per 24 months.
: 6.              Security Plan and Implementing Procedures at least once per 12 months.
: 7.              Any other area of unit operation considered sppropriate by the NRB or the Senior Vice President - River Bend Nuclear Group.
: 8.              Fire Protection Program and Implementing Procedures at least once per 24 months.
()                9.              . Independent fire protection and loss prevention inspection and audit performed annually, utilizing either qualified offsite licensee personnel or an outside fire protection firm.
: 10.            Inspection                    and audit of the fire protection and loss                                                                                      ,
prevention program performed by an outside qualified fire
;                                        consultant at intervals no greater than 3 years.
: 11.            The Radiological Environmental Monitoring Program and the results thereof 'a t least once per 12 months.
: 12.            The. Offsite                            Dose                    Calculation Manual and implementing procedures at least once per 24 months.
: 13.            The. Process Control Program and implement procedures at least once per 24 months.
: 14.            The    performance of activities required by the Quality Assurance Program to meet the criteria of Regulatory Guide 1.33 Revision 2 at least once per 12 months.
: 15.            The documentation of the 10 CFR 50.59 evaluations.
13.4.2.8                  Authority
()        The NRB is chaired by the Senior Vice President - External Affairs and advised                  in    those                      areas                      of                    responsibility    specified            in l
Sections 13.4.2.6 and 13.4.2.7.
I e
13.4-7 i
_. _ , _ _  _ . . _ _ , . . . _ ,          ._ - . _ . . , , _ . _ . . _ _ . . _ , - . _ , _ . _ , _ - - . - - . , _ .                . ~ . . , - . _ ~ , __  , - . _ _ , _ . _ _ , , _ _ , _
 
V RBS FSAR 13.4.2.9  Records Records of NRB activities are prepared, approved, and distributed as follows:
o
: 1. Minutes of each NRB meeting are prepared, approved, and forwarded to the Senior Vice President - River Bend Nuclear      l Group within 14 days following each meeting.                    I
: 2. Reports    of reviews encompassed by Section 13.4.2.6 are prepared, approved, and forwarded to the          Senior  Vice President - River Bend Nuclear Group within 14 days following completion of the review.
: 3. Audit reports encompassed by Section 13.4.2.7 are forwarded to the Senior Vice President - River Bend Nuclear Group and      l to the management positions responsible for the areas audited within 30 days after completion of the audit.
13.4.3    Independent Safety Engineering Group The ISEG is an on-site,        technically-oriented,  independent review
[~)'
  '-  organization. This group will be established and functional at least 3 months prior to initial fuel load and physically located at River Bend Station. The function of the ISEG is to increase the available technical    expertise  located    on-site    and provide continuing, systematic, and independent assessment of plant activities.
The ISEG reports to the Supervisor-Site Engineering on-site who reports to the Director-Nuclear Plant Engineering.          Finally, the Director-Nuclear Plant Engineering informs the Manager-Engineering, Nuclear Fuels & Licensing of all ISEG activities and recommendations.
13.4.3.1 Membership The ISEG is composed of at least five, dedicated, full-time engineers located on-site. Each has as a minimum, a Bachelor's Degree in Engineering or a related science, and at least 2 years of professional level experience in their field, one of which must be in the nuclear field.
13.4.3.2 Meeting Frequency As a full-time engineering group, the ISEG does not hold routinely specified meetings but interacts, instead, on a continuous basis with the    technical    staff,  operational    staff,  quality  assurance 3 organizations, and engineering support groups in order to complete
  ,)  their responsibilities as defined in Section 13.4.3.3.            Special meetings may be called for and announced by the Manager-Engineering, Nuclear Fuels, and Licensing in order to accomodate any abnormal occurrences or special problems.
13.4-8
 
A U                                  RBS FSAR 13.4.3.3 Responsibilities The principal function of the ISEG is to examine plant operating characteristics, NRC    Issuances,    Licensing    Information  Service Advisories,    and other appropriate sources of plant design and operating experience information that may indicate areas for improving plant safety. The ISEG is to perform independent review and audits of plant activities including maintenance, modifications, operational problems,  and operational analysis.      The ISEG need not perform detailed audits of plant operations and is not responsible for sign-off    functions  such that it becomes involved in the operating organization.
Another function of the ISEG is to maintain surveillance of plant operations and maintenance      activities      to provide  independent verification that these activities are performed correctly and that human errors are reduced as far as practicable.
13.4.3.4 Authority The ISEG has continued access to plant facilities and records and
[~h direct contact with operating personnel.
x_/
The ISEG will interface with Engineering Support Groups; however, the ISEG is not an integral part of the QA organization.
Where useful improvements can be achieved, the ISEG develops and presents detailed recommendations to the Manager-Engineering, Nuclear Fuels, and Licensing for any of their responsibilities defined in Section 13.4.3.3. The ISEG also has the authority to advise GSU management on.the overall quality and safety of operations.
13.4.3.5 Records Records of activities performed by the ISEG are prepared, maintained, and forwarded each calendar month to the Manager-Engineering, Nuclear Fuels, and Licensing.
13.4.4 Audit Program A comprehensive program of planned and periodic audits is established and implemented by the Quality Assurance Department under              the direction of the Director - Quality Assurance. The audit program is fully described in Section 17.2 and complies with the guidance in NRC Regulatory Guide 1.33, Revision 2. Audit results pertaining to plant operation are distributed to appropriate management for corrective
-- action and the NRB for review and assessment.
s-13.4-9
 
                  ~ FSAR 13 13.5 RBS FSAR 13.5 PLANT PROCEDURES 13.5.1 Administrative Procedures Management of the River Bend Station in a safe, productive, and efficient manner is assured through the                                use    of administrative      procedures.                The      responsibilities, assignments, methods used, and procedural action are defined in these procedures which are the top level documents within
                  - the station operating manual. All safety-related operations are conducted by detailed written, approved procedures.
Administrative procedures address procedure development and                                  l the organizations of administration, operation, maintenance, technical    support,    radiation protection / chemistry, and-l training. These    administrative                procedures          may    have individual instruction. in areas of significant safety or management administrative control.                  In addition, specific plant sections include procedures in which the supervisor specifies- section      policies,        practices            and          assigns
()          responsibilities to section personnel.
Administrative procedures, as a minimum, cover such subjects as standing orders to shift operating personnel, senior reactor    operator    and      reactor operator authority and responsibilities, responsibilities to meet 10CFR50.54 (i),
(j),  (k),  (1), and (m) requirements, special orders of a transient nature, equipment          control,            maintenance          and modification    control,      scheduling surveillance testing, temporary procedures,    fire protection procedures, and a diagram of the control area indicating the area designated "at the controls."
13.5.1.1    Conformance with Regulatory Guide 1.33 River Bend Station is operated according to documents such as the Technical Specifications and Station                              Operating l
Manual. Specific conformance with Regulatory Guide 1.33 is addressed in Section 1.8.
13.5.1.2    Preparation of Procedures Procedures for the River Bend Station Operations Manual are prepared by the plant staff and others under the direction of    the    Plant Manager.        These procedures include the
      -(          activities, systems, and subjects listed in Appendix A to
            /
s            the Regulatory Guide 1.33 which are applicable to the River Bend Station configuration.        Administrative and technical aspects are addressed in these procedures.
13.5-1
 
    - g  Procedures are classified as safety-related or nonsafety-s)  related and are reviewed by qualified individuals. Approved plant procedures required to support fuel load will be completed at least 70 days prior to- fuel load.      Approved procedures may be chenged in accordance with River Bend Station Operations Manuel Administrative Procedures. These revisions to . safety related procedures are reviewed for conformance to 10 CFR 50.59 by a qualified individual.
13.5.1.3    Procedures A procedures status list includes the procedure type, l
procedure number, and responsible office for each procedure.
These include:
: 1. Administro  .. procedures
: 2. Abnormal operating procedures
: 3. System operating procedures
: 4. General operating procedures.
: 5. Surveillance test procedures
: 6. General maintenance procedures
: 7. Alarm response procedures
: 8. Emergency operating procedures
: 9. Chemistry and radiochemistry procedures
: 10. Radiation protection procedures
: 11. Fuel handling procedures
: 12. Reactor engineering procedures
: 13. Instrument control procedures 1
: 14. . Plant procurement procedures
: 15. Material handling procedures
: 16. Plant engineering procedures l
: 17. Plant security procedures l
: 18. Fire fighting procedures g-      19. Training program procedures                            l l
: 20. . Emergency plan implementing procedures 13.5-2 l
 
13.5.1.3.1                                      Administrative Procedures - General The general- format for administrative procedures is as
* follows:
: 1.              Cover sheet
: 2.              Later's page, if applicable
: 3.              List of effective pages                                                  e
: 4.            Table of contents
: 5.              Text pages - purpose,                            references, definitions, precautions, limitations and actions, procedures
: 6.              Other documents, attachments, or enclosures                                  ;
Administrative procedures have been developed to provide administrative controls of a general nature and include, but are not limited to, the following:
: 1.              Procedural Review and Approval
: 2.              Equipment Control Procedures
: 3.              Control of Maintenance and Modifications l'')i
: 4.              Fire Protection Procedures
: 5.              Crane Operation Procedures
: 6.              Temporary Changes to Procedures
: 7.              Temporary Procedures
: 8.            'Special                          Orders' of a Transient Scif-Cancelling l
Nature l          Additional administrative procedures, of a specific nature, have been developed to define and provide control of plant staff operational activities. These procedures include, but l          are not limited to, the following:
: 1.              Standing orders to shift personnel
: 2.              Assignment of shift personnel to duty stations
: 3.              Shift relief and turnover
: 4.              Control Room access
()          5.                Limitations on working hours
: 6.                Feedback of operator experience 13.5-3
 
r ew        7. Shift supervisor administrative duties N.).
: 8. Verification of correct performance of operating activities 13.5.1.3.2      Administrative    Procedures    - Initial Test Program The general format for these procedures is the same as for administrative procedures - General RBS has commited to providing administrative controls on procedures relating to the Initial Test Program in the RBS Startup Manual and references such in appropriate sections of the FSAR.
Control has been provided        in,  but not limited to the following three areas of the initial test program:
: 1. Test    Program Procedures  -
Preoperational Test Procedures  (14.2.3.1) and Initial Startup Test Procedures    (14.2.3.2) delineate Development, Review, and Approval Procedures.        The Facility Review Committee (14.2.2.7 and 13.4.1), Joint Test Group (14.2.2.6) and the GSU Startup and Test Department    (14.2.2.1)    responsibilities      and
(_,)            functions are discussed as they pertain to the review and approval of Initial Test Procedures.
Additional groups / individuals which participate in procedural review processes are described in FSAR Sections 14.2.2.3,  14.2.2.4,  and 14.2.2.5 while Section    14.2.2.8    stipulates    the    minimum qualifications for any personnel responsible for developing,    performing,  and    generating    test procedures.
: 2. Conduct of Test Program - Conduct of Preoperational Phase Testing (14.2.4.1) and Initial Startup Phase Testing (14.2.4.2) addresses testing prerequisites and procedural adherence; while        FSAR    Section 14.2.4.3,  GSU Work Request, discusses performance of modification and/or repair resulting from test program analysis and subsequent retesting.
: 3. Review, Evaluation, and Approval of Test Results-FSAR Section 14.2.5, Review,        Evaluation,    and Approval of Test Results, provides discussion of organizations involved in these processes (when acceptance criteria is met or not met), appropriate    I technical review by qualified groups, and assures      !
prerequisites are met before advancing to the next scheduled test or phase of testing. FSAR Section    {
fS                                                                      ;
is,)            14.2.6, Test Records, provides proper documentation    j and permanent plant filing for each individual test    j and phase of the test program.                          {
13.5-4
 
l 13.5.2 Operating and Maintenance Procedures                        l 13.5.2.1  Control Room Operating Procedures 13.5.2.1.1  System Operating Procedures The general format for system operating procedures is as follows:
: 1. Cover sheet                                ;
: 2. Table of contents
: 3. Text pages      purpose, precautions and limitations, prerequisites, procedure, references.
: 4. Other    documents    -
attachments such as valve lineups,    electrical    lineups,  data    sheets, instrument lineups.
System  Operating Procedures provide detailed operating instructions for specific plant systems.      System- Operating Procedures' include, but are not limited to, the following:
: 1. Nuclear boiler system
          -2. Control rod drive hydraulic system
        ~3. Reactor _ recirculation system-
: 4. Containment isolation system'
: 5. Bearing cooling water system
: 6. Circulating    water, cooling towers, and vacuum priming system
: 7. Condensate system
: 8. Condensate storage, makeup and transfer system
: 9. Reactor feedwater system
: 10. Moisture- Separater Reheater (MSR) and feedwater heaters extraction steam and drains system
: 11. Main steam system
: 12. Main turbine lube oil systea                          l
:          13. (Spare)
    !      14. Electrohydraulic Control (EHC) oil system l
: 15. Gland seal system 13.5-5
,                                                                      1 i                                                                      ll
: 16.                                  Reactor plant component cooling water system
: 17.                                Turbine plant component cooling water system
: 18.                                Normal service water system
: 19.                                Generator seal oil system
: 20.                                  Generator stator cooling system e
: 21.                                  Service and breathing air system
: 22.                                  Instrument air systems
: 23.                                  Generator            hydrogen              and carbon dioxide system (generator)
: 24.                                  Nitrogen blanketing system
: 25.                                  Condenser air removal
: 26.                                  Auxiliary steam system
: 27.                                  Remote shutdown system                                                          i
: 28.                                  Standby liquid control system O                                                                                                                                                  29.                                  Automatic depressurization system                                              l
: 30.                                  High pressure core spray system
: 31.                                  Residual heat removal system
: 32.                                  Low pressure core spray system i                                                                                                                                                          33.                                  Drywell and containment leak detection systems l                                                                                                                                                          34.                                  Main Steam positive leakage control system l                                                                                                                                                          35.                                  Reactor core isolation cooling system
!                                                                                                                                                          36.                                    (Spare)
: 37.                                    (Spare)
: 38.                                    (Spare)
: 39.                                    (Spare)
: 40.                                  Hydrogen mixing, purge, and recombiner
: 41.                                    Penetration valve leakage control system
    .O                                                                                                                                                      42.                                  Standby service water system
: 43.                                  Standby gas treatment system 13.5-6
: 44.  (Spare)
: 45. 13.8-kV ac system
                '46. 4,160-V ac system
: 47. 480-V ac system
                '48.
120-V ac system
: 49. 125-V de system
: 50. 24 and 48-V'dc systems
: 51. Cathodic protection system                                                      ,
: 52. High Pressure Core Spray (HPCS) diesel generator &
auxillary System s
: 53. Emergency diesel generator and auxiliary system
,                  54. Main generator operation
: 55. Main and station transformers 1
l .    .
: 56. Station lighting system
: 57. Administration building Heating, Ventilation, and
,                      Air Conditioning (HVAC) system
: 58. Control building HVAC system                                                    >
l                  59. Containment HVAC system
: 60. Drywell cooling system
: 61. Diesel generator building HVAC system i
: 62. Fuel building HVAC system                                                      4 4
: 63. Radwaste building HVAC system i
: 64. Turbine building HVAC system
: 65. . Auxiliary building HVAC system
: 66. Plant and control building chilled water system f
: 67. Isc lation phase bus cooling system
: 68. Water treatment building HVAC system                                            i
()            69. Auxiliary boiler room HVAC system
: 70. Yard structure HVAC system 13.5-7
 
r~w  71. Rod control and information system
%)
: 72. (Spare)
: 73. (Spare)
: 74. Reactor neutron monitoring system
: 75. (Spare)
: 76. (Spare)
: 77. Traversing incore probe system
: 78. (Spare)
: 79. Reaccor protection system
: 80. Main turbine and EHC control system
: 81. (Spare)
: 82. Process radiation monitor system
: 83. (Spare) t%
a
  ; 84. Containment atmospheric leakage monitoring system L./
: 85. (Spare)
: 86. Digital radiation monitoring system
: 87. (Spare)
: 88. (Spare)
: 89. (Spare)
: 90. Reactor water cleanup system
: 91. Fuel pool cooling and cleanup systems
: 92. Off gas system
: 93. Condensate demineralizer system
: 94. Hypochlorination and chemical feed systems
: 95. Cooling tower makeup water and clarifier
: 96. Domestic water f^)
(_/  97. (Spare)
: 98. Makeup demineralizer system 13.5-8
                                        - - . .. . ~      .
 
r3          99. Makeup water system
  ;      1
(/
100. Waste oil disposal system 101. Liquid radwaste system 102. Solid radwaste system.
103. (Spare) o 104. Floor & equipment drains system 105. (Spare) 106. Sanitary sewage treatment 107. Waste water treatment 13.5.2.1.2  Abnormal Operating Procedures Abnormal    Operating Procedures are provided to correct abnormal conditiens which in thems. elves do not constitute an actual emergency condition, but which could degenerate into a true emergency in the absence of positive corrective action. These conditions include but are not limited to those events listed in Appendix A of Regulatory Guide    1.33.
  \#      The general format for Abnormal Operating Procedures is as follows:
: 1. Cover Sheet
: 2. Text Pages      purpose, symptoms, automatic actions, immediate operator actions, and subscquent operator actions.
: 3. Other Documents    -  attachments such as charts, tables, etc...may be included as needed.
Abnormal Operating Procedures include, but are not limited to, the following:
: 1. Reactor scram
: 2. Main turbine and generator trips
: 3. Automatic isolations
: 4. Loss of offsite power s      5. Loss of main condenser vacuum (v )
: 6. Loss of feedwater flow
: 7. Loss of feedwater heating 13.5-9
 
f~g      8. Loss of instrument air V
: 9. Loss of normal service water
: 10. Loss of one or both Reactor Protection System (RPS) buses
: 11. Loss of reactor plant component cooling water
: 12. Loss of turbine plant component cooling water
: 13. Loss of containment integrity
: 14. Loss of 125 V dc
: 15. Loss of drywell cooling
: 16. Loss of standby service water
: 17. Pressure                        regulator    failure -
increasing  &
decreasing
: 18. Fuel cladding fallare
: 19. Resin intrusion of the reactor coolant system f')
w
: 20.  (Spare)
: 21.  (Spare)
: 22.  (Spare)
: 23. Feedwater                        level control signal failure-maximum demand
: 24. Decrease in recirculation system flow rate
: 25. Loss of Reactor Protection Isolation System (RPIS)
: 26. Misaligned control rods l
: 27. Fuel handling mishaps                                                                        l l
: 28. Earthquake
: 29. Severe weather operation
: 30. Control rod drive malfunctions
: 31. Shutdown from outside the main control room
: 32. General employee response to fire
(
: 33. Reactor Recirculation pump trip 13.5-10
 
                  ~_ _                                                                                                                      _                _
f-sg                  34. Inadvertent initiation of an Emergency Core Cooling
  . %./                        System (ECCS)
: 35. Safety relief valve stuck open
: 36. Single Main Steam Isolation Valve (MSIV) closure
: 37. Condensate high conductivity
: 38. Unexplained increase in reactor power
: 39. Hydrogen explosion in the offgas system
: 40. Operation with a limiting control rod pattern i
: 41. Main turbine bypass valve stuck open 1
: 42. Instrument bus power failure i
: 43. Offgas system leak
                        . 44. Main transformer cooling system malfunction
: 45. Failure          of    Short          Range        Monitor.            (SRM)      or Intermediate Range Monitor (IRM)                              detector              to retract
: 46. Offgas activity high i
                      - 47. Off-site gaseous releases
: 48. Liquid radwaste system leak or failure
: 49. ' Increase in recirculation system flow rate
: 50. Station blackout
: 51.  (Spare)
: 52.  (Spare) 4 13.5.2.1.3      General operating procedures i'
General      operating          procedures are written to instruct operators in the conduct of major plant evolutions.                                              In general, The General Operating Procedures direct system alterations and lineups in accordance with the System Operating Procedures by direct reference.
The General Format for General Operating Procedures is as follows:
}  ()                      1. Cover Sheet
: 2. Later's Page, if necessary j                                                            13.5-11
                                                              ~
s
    - = v-- ,v.,      ,--r-t*=m      -em-+v--=wm    e +<r*-    --em  , t-ws-r .----
v-n---  - = - - - - . - - , +    -, -=w- 1w- y -m-,---,+-ew,,.--, ----m,-am-
: 3.              Table of Contents
: 4.                List of effective pages, if necessary
: 5.              Text-Purpose, references
: 6.              Enclosures
: 7.                Performance package - cover sheet, precautions, limitations and actions, prerequisites, procedure with step sign-off spaces, other attachments General operating. procedures include, but are not limited to:
: 1.              Plant startup to Low Power Alarm Point (LPAP) (35%)
: 2.              Power Operations
: 3.              Shutdown from LPAP to Hot Standby or Hot Shutdown
: 4.              Shutdown from Hot Shutdown to Cold Shutdown
: 5.              Startup from Hot Shutdown to LPAP
: 6.              Startup from Hot Standby to LPAP G
V                          7.              Scram recovery
: 8.                (Spare)
: 9.                (Spare)-
: 10.              (Spare) 13.5.2.1.4                          Emergency Operating Procedures Emergency operating procedures are provided to govern the plant operation during emergency -conditions and specify
,                          operator actions to be taken to return the plant to a stable
!                          condition.
i' The general format of Emergency Operating Procedures is as follows:
: 1.              Cover sheet
,                                  2.              Text - purpose, entry conditions and symptoms, operator actions                                          (including instructions and contingency actions)
Licensed plant operators are required to know the entry conditions in the Emergency Operating Procedures.
1 13.5-12
 
l
  'p- Emergency Operating Procedures include, but are not limited V  to, the following:
l          1. Reactor Pressure Vessel (RPV) control
: 2. Primary containment control
: 3. Secondary containment control
: 4. Radioactivity release control
: 5. Level restoration
: 6. Emergency RPV depressurization
: 7. Steam cooling
: 8. Core cooling without level restoration
          -9. Alternate shutdown cooling
: 10. RPV flooding
: 11. Level / power control 13.5.2.1.5    Alarm Response Procedures O  Each Alarm Response Procedure is composed of a group of individual alarm enclosures. These groups are normally by systems and are located near the panel that contains the alarms annunciator to provide timely reference by the operator.
Each    Alarm    Response Procedure contains at least the following information:
: 1. Alarm number
: 2. Alarm window / title
: 3. Alarm panel, sections, and grid numbers
: 4. Alarm set points
: 5. Alarm initiating devices
: 6. Automatic equipment actions that occur when the alarm is received
: 7. Immediate operator actions
: 8. Possible causes for the alarm condition
: 9. Subsequent operator actions.
13.5-13
 
ex    13.5.2.1.6  Temporary Procedures (a  i Temporary Procedures are procedures that may be used to direct operations during testing or maintenance that are not covered in any other plant procedure. Temporary Procedures are of a self-cancelling nature, and are subject to the appropriate approval cycle described in the Administrative Procedures (Section 13.5.1.2).
13.5.2.2  Other Procedures 13.5.2.2.1  Radiation Protection Procedures Radiation Protection Procedures are as described in Section 12.1.
13.5.2.2.2  Radioactive Waste Management Procedures Radioactive Waste Management Procedures are as described in Section 12.1.
13.5.2.2.3  Chemistry and Radiochemistry Procedures Chemistry and Radiochemistry Procedures provide direction to technicians in the proper methods to obtain, analyze, and
,_  report required fluids systems samples.
( ')
13.5.2.2.4  Plant Security Procedures Plant Security Procedures are as described in Section 13.6.
13.5.2.2.5  Emergency Plan Implementing Procedures Emergency Plan Implementing Procedures are prepared under the direction of the Supervisor of Emergency Planning and approved by the Plant Manager. They contain instructions to plant staff personnel on the requirements and methods to implement the RBS Emergency Plan.
13.5.2.2.6  Instrument Control Procedures Instrument Control Procedures are under the direction of the General Maintenance Supervisor. They provide instructions to the instrumentation and controls group for instrument calibration, test, and repair.
13.5.2.2.7  General Maintenance Procedures General Maintenance Procedures are under the direction of the General Maintenance Supervisor.        Maintenance which affects the performance of safety-related equipment is
  -w  performed by maintenance personnel in accordance with these
%,)    written procedures. These procedures contain provisions to ensure that, when a safety system is removed from service, requirements for operability of the redundant safety systems are not violated.
13.5-14 l
____                                  1
 
4 -
Material Control Procedures
          ~
rg              13.5.2.2.8 V
Material Control Procedures are under the direction of the Administrative Supervisor. These procedures are followed by plant storeroom parsonnel to ensure proper handling and storage of spare parts.
13.5.2.2.9                Fire Protection Procedures Fire Protection Procedures are under the direction of the Technical Supervisor. These procedures are followed in the implementation of the fire protection program described in Section 9.5.1.
13.5.2.2.10 Reactor Engineering Procedures Reactor Engineering Procedures are under the direction of the Technical Supervisor. They provide direction to the technical staff for implementation of core monitoring and reactor kinetics ~ determinations.
13.5.2.2.11                    Plant Engineering Procedures Plant Engineering Procedures are under the direction of the Technical Supervisor. They provide direction to the plant staff in the implementation of engineering support to other staff sections.
( }) _
1 k
i i
1 k
1 13.5-15 b
      - ,.    -e ,  . , , - - - - -s.,..me---,-------..-    ,,~r--,.,    .-.,- se, - , - - > , , - , , ,, - - - - - - - , - - - , - - - , - - - - - , - , , , - + - ,,-,----,a
 
ENCLOSURE 2 In response to Question 1 concerning the program which will provide training to Reactor Operators and Senior Reactor Operators, there are specific Emergency Implementing Procedures (EIPs) to the RBS Emergency Plan related to items a through e. The EIPs corresponding to items a through e are as follows:
ITEM          TRAINING PROGRAM AREA        EIP NUMBER          EIP TITLE a      RECOGNITION OF EMERGENCY            l-EIP-1    EMERGENCY ACTION CONDITIONS                                    - LEVEL IDENTIFICATION b      CLASSIFICATION OF OBSERVED          l-EIP-1      EMERGENCY ACTION EMERGENCY CONDITIONS                            LEVEL IDENTIFICATION c      NOTIFICATION OF EMERGENCY TO        l-EIP-6    EMERGENCY NOTIFICATION OFF-SITE AUTHORITIES                            AND COMMUNICATIONS d      RECOMMENDATION OF PROTECTIVE        l-EIP-ll    RADIOLOGICAL DOSE ACTION TO OFF-SITE AUTHORITIES                  ASSESSMENT e      DIRECTION TO STATION STAFF          1-EIP-10    EVACUATION TO TAKE PROTECTIVE ACTION The training program for the RBS Emergency Plan will be designed so that persons designated as the Shift Supervisor will be required to demonstrate a working knowledge of the above listed procedures through classroom instruction and examinations, walk-through drills, and the annual full-scale NRC-reviewed emergency exercise. A matrix of the EIPs, lesson plans, and emergency positions will specify which individuals receive which training and the degree of depth of that training. The training program will also be documentable to allow for audits and to identify both (1) qualified personnel and (2) on-going training needs.
The training program will be developed during the first quarter of 1984, with the classroom phase beginning in M  a y, allowing an eight-month period for preparation for the January 1985 full-scale exercise.
 
ENCLOSURE 3 Training in the topics listed below will be provided as part of the Fundamental / Technical Training - Phase II.
A. Training in Heat Transfer,-Fluid Flow, and Thermodynamics The Phase II portion of this training will consist of approximately six (6) weeks of instruction with approximately one (1) week devoted to the above topics. The majority of the elements identified in Enclosure 2 to the H.
R. Denton's letter dated March 28, 1980, will be addressed in the Introduction to Thermodynamics section of the Phase II training. Certain elements, Burnout and Flow Instability, and Reactor Heat Transfer Limits, will be covered during the Reactor Plant Protection Concepts segment of the program.
B. Training in reactor and plant transients, and all normal, abnormal, and emergency procedures Training in reactor and plant transients and all normal, abnormal and emergency procedures is not contained in a single segment of the operator training program.      Instead, this forms the fundamental basis for the majority of the Operator Training Program.
The " Cold" License Operator Training Program, excluding Fundamental / Technical and other non position training, will be approximately thirty-seven (37) weeks in length for the classroom portions. A breakdown of these portions along with a discussion of each phase is provided below.
: 1. River Bend Systems - 12 weeks In order for an operator to safely and reliably perform the duties associated with his job, he must be thoroughly knowledgeable of the systems witnin the plant. This knowledge must include the function (s) which these systems are capable of performing and under what conditions they can be performed. Further, he must be able to align and operate these systems to perform these functions. The operator must monitor system          i
    -operation and from available indication (s) he must determine whether the system is responding normally or as expected.
: 2. Simulator Training - 12 weeks Following acquisition of the required systems level knowledge, the candidates are provided with training in the actual systems operation. That is, they learn to manipulate the system controls necessary to align and operate the system. Evolutions are guided by the use of normal operating procedures. Further, the student is taught to integrate this system's knowledge into overall
 
plant operations. The trainee learns to monitor and/or control the plant during normal and abnormal / emergency conditions.
The use of abnormal / emergency procedures is stressed.
As an aid in developing the ability to use these procedures, classroom lectures and/or seminars are conducted to explore the bases behind certain procedures or procedural steps. Trainees are closely monitored and evaluated on their ability to operate and/or maintain      o the plant in a safe condition.
The trainees become familiar with the administrative controls and guidelines, i.e., Emergency Plan, Technical Specifications applicable not only to normal but abnormal / emergency conditions as well.
: 3. Observation Training - 4 weeks During this period, the trainees will be assigned to an operating plant. While there, the trainee will observe the day-to-day operation of a commercial nuclear power plant.
: 4. Mitigating Core Damage - I week This program is intended to train operating personnel in the use of installed plant systems to control or mitigate an accident in which the core is or potentially could be severely damaged. Included in this segment is an analysis of selected plant transients / accidents.
: 5. Intensive Review - 8 weeks This segment of the program will provide specific training in those areas requiring operator knowledge.
Formal classroom discussion will be conducted on the use and understanding of Abnormal and Emergency Operating Procedures, Administrative Controls, Technical Specification and Emergency Response. Included during this segment will be a one week Simulator Refresher.
 
ENCLOSURE 4
}
A. The topic, " Gas Generation," as addressed in Enclosure 3 of H. R. Denton's March 28, 1980 letter, should be addressed.
While not specifically referenced as a topic, the intent of the " Gas Generation" segment of the Mitigating Core Damage training as referenced in Enclosure 3 of H. R.
Denton's letter will be met. There will be included instruction in:
: 1. The sources of hydrogen as well as other gas in the post-accident Drywell/ Containment at River Bend.
: 2. Methods for minimizing and/or reducing the concentration of these cases.
B. Provide and justify the training duration for each topic of the program.
See FSAR Section 13.2.1.1.7 C. Managers and Technicians in Instrumentation and Control (I&C), Health Physics, and Chemistry Departments shall be provided with the mitigating core damage training commensurate with their responsibilities.
Provisions will be made to provide Mitigating Core Damage training to those individuals listed. This training will be provided to the Plant Manager. See the paragraph listing personnel attending this course and footnote 6 of Section 13.2.1.1.7.
i l
l
                                                                /}}

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