ML20095H335

From kanterella
Jump to navigation Jump to search
Forwards Environ Qualification Summary Rept. Related Correspondence
ML20095H335
Person / Time
Site: Hope Creek PSEG icon.png
Issue date: 08/22/1984
From: Conner T
CONNER & WETTERHAHN, Public Service Enterprise Group
To: Mark Miller, Morris P, Schink D
Atomic Safety and Licensing Board Panel
References
OL, NUDOCS 8408280448
Download: ML20095H335 (143)
v  d  e


Text

{{#Wiki_filter:- S:,4 - a. RE' LATED CoanESPOON

f,-

w ~- LAW OFFICE 3 GONNER Sc WETTERHAHN. P.C. 1747 PENNSYLVANI A AVENU E. N. W. AMR. wt7 E HANN WA S HINGTON. D. C. 2 0000 ESB E RT M. M ADER ~ INORID M. OLSON August 22,71984 AEC M OO R E. J R. RO B E RT H. PL"R L OF COL.SEL 1902)833 3800 03' .......E..."'- 8 CABLE ADDRESS: ATON LAW Marshall E. Miller, Esq. t Dr. Peter A. Morris Chairman, Atomic Safety .g. Atomi,c7. Safety and and Licensing Board Panel $0d2.)$LigedsingBoardPanel U.S. Nuclear Regulatory UYS7 Nuclear Regulatory Commission Commission Washington, D.C. 20555 Washington, D.C. 20555 Dr. David R. Schink Atomic Safety and Licensing Board Panel U.S. Nuclear Regulatory Commission Washington, D.C. 20555 In the Matter of Public Service Electric and Gas Company (Hope Creek Generating Station) Docket No. 50-354p { Gentlemen: Enclosed is a copy of Environmental Qualification Summary Report for Hope Creek Generating Station, Public Service Electric & Gas. This document is being submitted to the NRC in conjunction with its review of the environmental qualification of equipment at the Hope Creek Generating Station. The document describes the manner in which equipment requiring qualification is being identified and the manner in which the qualification will be carried out. As is usual in reviews of this type, this document will be supplemented by specific information relating to qualification of individual components as such qualification is completed, documented and reviewed. Sincerely, ? of Troy B. Conner, Jr. Counsel for Public Service, Electric & Gas Company - cc: Service List ~~ a, - %g 3 q J 8408280448 840822 PDR ADOCK 05000354 9 PDR

r.

  • ~

e ..L' M,~. T-4 - ' F 7" - c' *% . g. y.

n t

s ENVIRONMENTAL QUAL.IFICATION

SUMMARY

REPORT FOR HOPE CREEK GENERATING STATION PUBLIC SERVICE ELECTRIC & GAS REV DATE PREPARED , REVIEWED APPROVED o s 12.lRA %:1l'M.L /Sf d7hj WpWfb s i ) S r D 9M I Y' 4.' --v,--,_, __,-______.-,-_,.......,__-.-....___...,______.-_,,-___m--

. c, e'd ,-fA >w:: 33 r&T cu " m;gy 7;g-sp l(Mg ?@ e + f- .g ..m ENVIRONNENTAL QUALIFICATION SUMNARY REPORT FOR HOPE CREEK GENERATING STATION SECTION TITLE I Pu'rpose II Program Synopsis III Procedures IV Regulatory Compliance V Quality Assurance Provisions VI Environmental Conditions VII System / Component Identification VIII Qualification Testing / Analysis IX Follow On Program X Equipment Environmental Summary Sheets =

I gh l

l I

[fd fys qf $y %l.gQg M y.g __y n f i f Q ;_ V-x l ~ => .w 1. PURPOSE The purpose of'this HCGS Summary Report is to explain the approach taken to identify and to ensure the operability, under any postulated environmental conditions (normal /ab-normal / accident), of the safety related electrical and mechanical components required to bring the plant to, and maintain it in a safe shutdown condition any time during l its anticipated forty y'ea'r life. In accordance with Item (b) of 10CFR50.49, thic report ad-dresses qualification of: (1) safety related electrical equipment, (2) non-safety related electrical e'quipment whose failure under postulated environmental conditions could prevent satisfactory accomplishment of safety func-tions, and (3) post accident monitoring equipment located in a harsh environment as delineated in HCGS FSAR Section-1.8.1.97 and FSAR Table 3.11-5. As HCGS is qualifying each of these types of equipment equally in this EQ program, the words " safety related" as applied to electrical components ' and when used in this report only, are synonymous with the three categories noted. HCGS compliance with 10CFR50.49 is summarized in the attached-FSAR Table 3.11-3 (pages 1-3 thru I-6). This Summary Report includes a synopsis of: (1) The identification of the various parties,(PSE&G, GE, Bechtel, etc.), responsible for the ongoing technical re-view as well as the establish.nent and periodic updating of the EQ file and EQ Summary Repvrt (Section III). (2).The listing of applicable EQ Program related design criteria including Regulatory Guides, TEEE Standards, .NUREG's, IE Bulletins, Notices, etc. (Section IV). c '(3) The Quality Assurance programs utilized to assure ad-herence' of the' EQ program to the requirements of 10Cf50, '~ ty Appendix B (Section V). (4) The analysis methods used to determine the environmen-4 tal design envelopes (radiation, pressure, temperature, ~' humidity) for normal as well as abnormal and Design Basin . c ej, dent (DBA) operating conditions (Section VI). h u. A (5) The identification process used to determine (a) the systems required to mitigate and follow the course of nny l postulated DBA as well as achieve and maintain safe shut-down following a DBA and, (b) the selection process used tu I ( identify the ' individual electrical and mechanical compon-i.._. ents within each of,these systems required to function to Fensurecrequired system operation-(Section VII). ~ l 'y a* m o 1-1

g;w a ~ c.3;,;p,.w.4sw - 09: p. W ,ty f~ ~(6) _ Th9 review proccos nothoda ucad to ensure the enn.- ~ ~' plotendds' of'EQ reports for occh of the identi fied safet y related system components to veri fy compliance with app]i-cable EQ design criteria including HCGS Licensing commit-ments to IEEE Standards, Regulatory Guides, NURECS, IE Bulletins / Notices, and Code of federal Regulations. (Section VIII). (7) The description and implementation process for a com-puter based maintenance and surveillance program to docu-ment the proper monitoring, and performance of maintenance related repairs and/or teplacement of EQ related electrical and mechanical components to ensure operability under any anticipated env.ironmental conditions during the forty year life of the plant (Section IX). (8) The development method used for the compilation of Equipment Evaluation Summary Sheets (EESS) by system which summarizes the EQ ista on a component by component basis (Section X). In addition to the EQ data contained in this Summary Re-port, the following sections of the HCGS FSAR contain EQ support documentation: (1) Section 1.8 Con fo rmance to NRC Guidelines (2) Section 1.10 THI-2 Related Requirements for New Op-erating Licenses. (3) Section 1.11 Differences from Standard Review Plan. (4) Section 1.12 Unresolved Generic Safety Issues. (5) Section 3.1 Conformance with NRC Ceneral Design Cri-teria. (6) Section 3.2 Classification of Structures, Compon-ents, and Systems. (7) Section 3.9 Hechanical Systems and Components. (8) Section 3.10 Seismic Qualification o f Seismic Cate-gory 1 Instrumentation and Electrical Equipment. (9) Section 3.11 Environmental Design o f Hechanical and Electrical Equipment. 3 - (10) Chapter 6 Engineered Sa fety Features. (11) Chapter 7 Instrumentation and Controls. (12) Section 8.3 On-site Power Syst' ems. (13) Chapter 15 Accident Analysis. Various EQ applicable sections of the FSAR are summarized in this EQ Summary Report. These sections of the FSAR were utilized and referenced to determine the environmental de-sign criteria, to identify the systems / components required to achieve and maintain plant shutdown, and to verify the licensing criteria (NUREGS, Reg. Guides, IE Bulletins-g Notices, etc.);to-which the HCGS EQ Program is committed. 1-2 i

s.-ee r. m g, l n z,, HCGS FSAR TABLE 3.11-3 Page 1 of 4

SUMMARY

OF HCGS COMPLIANCE WITH 10 CFR 50.49 This table represents a summary of Hope Creek Generating Station compliance with 10 CFR 50.49. 1. Paragraph (a) - Requirement incorporated. A program has been established for qualifica-tion of electric equipment in a harsh environment that is safety-related. The present program will be discussed in detail by an E0 summary report as referenced in Section 3.11. 2. Paragraph (b)(1) - Requirements incorporated. Safety-related electrical equipment needed to mitigate design basis events has been identified, designed, and will be qualified to function properly in the environmental conditions during normal, abnormal, and design basis events. 3. Paragraph (b)(2) - Requirement incorporated. The methodology used to identify non-safety electric equipment whose failure could affect operation of safety-related equipment will be included in the summary EO report. 4. Paragraph (b)( 3) - Requirement incorporated. The parameters required to be measured by Regulatory Guide 1.97 are included to the extent noted in Section 1.8.1.97. Equipment required by Regulatory Guide 1.97 to be environmentally qualified has been included in the equipment qualification program. 5. Paragraph (c) - No requirement. This section details items (mild environment, seismic qualification, etc.) that are not included within the scope of this rule.

+ s: : gpemw, w ~ 93 3 gg y3 [y -- g. s

l g.a 3

g. -c li wg4gjg, z 9... y,~;p, = w ' -. w -w a' u r.p. 2 HCGS FSAR TABLE 3.11-3 (Cont'd) Page 2 of 4 Requirement incorporated. Table 15. Paragraph (d) 3.11-5 has been developed to identify safety-related electric equipment located in a harsh environment. This table is included in Section 3.11 and will be included in the.EQ summary a report. Requirement incorporated. The 7. Paragraph (d)(1) equipment evaluation summary (EES) sheets in the EO summary report will - provide this information. 8. Paragraph (d)(2) - Requirement incorporated. Equipment test reports will provide this info rmation. 9. Paragraph (d)(3) Requirement incorporated. The EES sheets in the EO summary report will provide this information.

10. Paragraph (e)(1) - Requirement incorporated.

Section 3.11 discusses the design basis including temperature and pressure. A plant specific profile for tempera-ture and pressure vs. time for equip-ment qualification will be included in the E0 summary report. Tempera-ture and pressure limits are included on the EES's and in Table 3.11-1.

11. Paragraph (e)(2) - Requirement _ incorporated.

Humidity has been considered where it is applicable and is included on.the 'EES's and in~ Table 3.11-1.

12. ~ Paragraph (e)(3)

Requirement incorporated. Chemical i ef f ects are not applicable since -domineralized water is used. Effects of domineralized spray are encom- ~ " passed by testing at 100 percent ~~, . relative humidity. ' Equipment subjected to direct spray 1mpingement will be evaluated to determine if testing under spray conditions in . addition to 100 percent relative humidity conditions is required. t. 7'. A

  • e-w l

4 3 m + eew---e- - - -.mw .w--ew.----e,--.y---g, =y,y ,3-,p.,3.v~,e-mi-a.++w.--tww-.=ww-W--+- - - w=- wen n w y,'* ig e w e we y + s Fw-a -m w mer ww'ei-pw-7 e y w - P y -w oww 3 m - +ww-g o g -g -* N"

y y-{7g ~', g g y y-p p -- g HCGS TABLE 3.11-3 (Cont'd) Page 3 of 4

13. Paragraph (e)(4) - Requirement incorporated.

Radiation effects on safety-related electrical equipment have been taken into account, where applicable, including radiation resulting from recircu-lating fluids. Radiation levels are included'on the EES's and in Table 3.11-1.

14. Paragraph (e)(5) - Requirement incorporated.

Aging is included as part of equipment quali-fication except where equipment is not considered to be age sensitiv.e. Qualified life is included on the EES's.

15. Paragraph (e)(6) - Requirement incorporated.

Equi'pment that could be submerged has been identified and demonstrated to be qualified by test for the duration required.

16. Paragraph (e)(7) - Requirement incorporated.

Synergis-tic effects have been considered in the accelerated aging programs. An engineering evaluation will be performed to identify known synergis-tic effects for materials that are included in the equipment qualified. Any identifed synergistic effects are accounted for in the qualification programs. Section 3.11.2.7.4' dis-cusses the design basis for synergis-tic effects.

17. Paragraph (e)(8) - Requirement incorporated.

The equip-ment technical specification includes the margin in the environmental con-ditions of the plant and the margin to be applied to service conditions. Section 3.*11.2.7.1 discusses margins ,u as part of the design basis.

18. Paragraph (f)

- Requirement incorporated. Section (1-4) 3.11.6.1 discusses performance of environmental qualification by testing and/or analysis. v ~ ,q.

+ n W -m w^ -- w. y; X, "" i W u .e ,gt+ sg: +: y a.a.C.o. 3 .w y,. u ?=e. (+ ,nug-HCGS TABLE 3.11-3 (Cont'd) Page 4 of 4 l l

19. Paragraph (g)

- N/A. Pertains to plants receiving operating licenses prior to February 22, 1983.

20. Paragraph (h)

- N/A. Pertains to plants receiving operating licenses prior to February-22, 1983.

21. Paragraph (i)

- N/A. Pertains to plants receiving operating licenses prior to November 30, 1985.

22. Paragraph (j)

- Requirement incorporated. Se ction 3.11.3 states that environmental qualification documentation for safety-related electrical equipment will be available for NRC audit.

23. Paragraph (k)

- No requirement. This section permits applicants for, and holders of, operating licenses exemption for this rule if the Commission previously required qualification of equipment in accordance with DOR guidelines or NUREG-0588.

24. Paragraph (1)

- Requirement incorporated. Replacement equipment will be qualified in accordance with 10CFR50.49. F '9-, ' i w 4 ) j. 1 L ^ a mR gr ,,T _ g g 4

3. -

o

  • Wr h-

's y-j e y ,\\ p - ~ _,., g + {\\ e n. .a+ r, e

Qg 3 7,a.m.K Q l3; 3 y ( a 4 o N'- $ ' a e&l. t II. PROGRAM SYNOPSIS The objective of the EQ program is to ensure that compon- . shut down the station under'any ents required to safely postulated DBA will successfully perform their safety re-lated function. This DBA could occur at any time during -the anticipated f or ty 'y e ar plant life. This objective is r met by: (1) Identifying the systems and the components within each system required to safely shut down the station. (2) Determining the normal environmental operating conditions that the components will be function-ing under. (3) Determining the worst case environmental condi-tions the components will be subject to under ab-normal, abnormal, and DBA occurrences. (4) Ensuring that the EQ test / analysis data for each component verifies component o p e r a b ility. under both these normal and worst case DB A environmen-tal conditions. These items are performed by comparing the detailed manu-facturer or component supplier EQ reports for each identi-fled component to the environmental envelopes calculated for both normal, abnormal, and DBA operating states under which that component will be required to operstg. (1-) Identification of the Components Required to Saf ely . Shut Down the Station: These were defined as those system components required to detect, follow and mitigate an acci-dent condition and to maintain the station in a safe shut-down condition. following the accident. Each accident scenario was reviewed and the components required to per-form detection,' monitoring and/or mitigating functions were identified on a system-by-system basis. Thesesystemsandtheirrelatedcomponentsweredefinedand separated into the following categories: (a) Protection Systems - those systems which ini-tinte safety actions to mitigate the conse-quences of a 08A. those (b) Engineered Safety resture Systems ~ systems which provide cooling, core protec- , tion and isolation of the reactor plant dur-

  • A, ing.alDBA..

+ s w - 4 Il-1

j;

qvg.

7g-Wqs w..;wy. y-y 3 m _sM' 4.M, M. M g# g (c) Safe Shutdown Control Systems those control systems used to achieve and maintain the sta-tion in a safe rhutdown condition following a DBA. (d) Safety Related Display Instrumentation - the display instrumentation available to the operator to indicate proper functioning of safety related systems including indication of required soRerator manual initiation and control of safety systems / components. (2) Determination of Normal Environmental Conditions Once the components required for safe shutdown were identi-fled, their physical locations within the station were de-termined. The architect / engineer (A/E) for HCGS (Bechtel) then calculated the conditions that exist during routine station operation including startup, shutdown, power opera-ll tion, refueling and maintenance. This data was used as the baseline data in de termining normal environmental ef fects i on components required to safely operate and shut down the l station. (3) Determination of Worst Case Environmental Conditions The A/E then analyzed the effects that abnormal operating conditions would have on the environment of each identified safety related component. This analysis incl,uded such con-ditions as loss of offsite power and loss of ventilation as well as Design Basis Accidents (DBA) such as LOCA, feed-water line break, etc. The resultant worst case environ-mental conditions postulated were chosen for each plant area. From this analysis, two categories of environmental states were defined: l (a) Harsh Environment-Components located in I these areas would be subjected to worst y case DBA anticipated temperatures, pres-sure, humidity, and/or radiation extremes well above the normal operating environ-i ' mental conditions. (b) Mild Environment-Components located in these areas would at no time (including under worst case DBA) be subjected to en-vironmental conditions significantly more severe than those experienced under nor-mal plant operating conditions. + ?,. q, II-2

f x.Q 4 w - p:.... ~,. .. w s III. PROCEDURES The r e s p o n s ib i l i t.y for the development and ongoing tech-nical. review of the HCGS EQ program, including the creation and updating of the EQ central file, has been undertaken by the Centrols and Electrical Division of the PSE&G Engineer-ing and Construction pepartment. As such, it is respon-sible for the coordination and monitoring of the e f forts of the various participants involved in the EQ program includ-ing the A/E (Bechtel), NSSS supplier (GE), as well as as-sociated independent consultants, component suppliers, and testing labs. The EQ program supervision is under the direction of a PSE&G Principal Engineer and includes a functional engi-neering staff which is supported by Bechtel, GE, and a con-sultant. The work activities are applicable to; (1) the NSSS EQ program and (2) the Balance-of-Plant (BOP) EQ pro-gram and include the following Direct the efforts of-the architect-engineer (A/E) requiring interface with GE and other vendors. Verify that all equipment requiring qualification is identified. Review specified environmental conditions and qualification plan compliance. Review / approve all EQ documents submitted by the vendor including test plans, analyses, and re-ports. Prepare qualification documentation in the form of NRC auditable packages. Assure that necessary checklists and equipment evaluation work sheets are prepared and approved. Review / approve work done by consultants, GE, or the architect-engineer. Participate as a member of Technical Review Com-mittee (TRC) in GE-EQRT program (NSSS EQ Program only. Resolve comments generated on plans and' reports and provide recommended resolutions of equipment qualification issues. e 111-1

K [ ~ ~ 7,. .u % + -: :o + t s. fn ~' w-r - w; 8

  • 43-t

., ~;. . 'g,w - M2nitor.cptn focuco. ' Establish a program to provide documentation for the development of a plant maintenance, surveil-lance, and replacement program for EQ related com-ponents. Review of USNRC IE Bulletins / Notices to determine any impact on the EQ program and resolution of any resultant discrepancies. i In addition, PSE&G's engineering personnel involved in EQ are responsible for p r.e p a r a t i o n and updating of this EQ Summary Report. This includes review and resolution of USNRC licensing concerns as they pertain to the EQ pro-gram. e l >er O e [ l l ,c f

  • $4 Q.ane

& 44 e-I III-2

g =% ,1 x4 J.Cigg,. -

p 7.

.w e L C y y iV. REGULATORY COMPLIANCE ~ The HCGS EQ effort for safety related electrical equipment located in a harsh environment is required to comply with Category II of NUREG-0588, " Interim Staff Position on En-vironmental Qualification of Safety Related Electrical romponents" dated December 1979 and IEEE-323-1971 "IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations". However, the EQ program is at-tempting to meet, wher,ever possible, and qualify equipment to the Category I requirements of NUREG-0588 and IEEE-323-1974 In addition, the EQ program will conform to the criteria of 10CFR50.49 for safety related electrical equipment located in both harsh and mild environments. For safety related mechanical equipment located in a harsh environment, the EQ Program establishes, via analysis, the qualified life of the components including proper required operability before, during, and after a DBA. This analy-sis is per formed by identifying significant aging mechan-isms within each mechanical component in accordance with IEEE-62"/-1980, " Design Quali fication of Sa fety Systems Equipment Used in Nuclear Power Generating Stations", Sec-tion 4.4.1. Environmental zones and conditions for which this mechen-ical equipment is designed to operate is identical to those environments described for the electrical compon-ents. However, this adherence to the EQ program is de-signed to supplement, and, as such, neither replaces nor modifies compliance with other applicable codes and stan-dards prepared by ASME, AISC, ACI or any other governing organization. Additionally, the safety related mechanical components meet the sequential testing, seismic mounting configuration verification, operability assurance cri-teria, identification of aging mechanism's process, main-tenance/ surveillance interface requirements and other ap-1 p11 cable criteria delineated in the Selomic Qualification Review Team (SQRT) and the Pump and Valve Operability Re-view Team (PVORT) documentation. This includes, but la l not limited to, conformance with the following as'deo ' cribed in the FSAR. (a) ASME Section III, Class 2 Criter,ia. (b) IEEE Standard 344-1975 " Recommended Practices'for Seismic Qualification of Class 1E Equipment" (c) IEEE Standard 323-1971 " Qualifying Class 1E Equipment for Nuclear Power Gen-erating Stations". w 4 e x, p, 3 IV-1

NW.n. = h' ^ ~ " " ~lLi, 3$; (i. W

c 7

L , M:r L a (d) IEEE Stonderd 382-1972 " Typo Teot'or Class 1E Electric Valve Operators". (e) IEEE 627-1980 " Design Qualification of Safety Systems Equipment Used in Nuclear Power Generating Stations". "Self Operated (f) ANSI Standard N-278-1 and Power Operated Safety Related Valves functional Specification Standard". (g) Regulatory Guide 1.148 " Functional Specification for~ Active Valve Assemblies in Systems Important to Safety". (h) NUREG 0800 - " Standard Review Plan for the Review of Safety Analysis Reports for Nuclear Power Plants". As is noted in FSAR Section 3.11, the EQ program is also designed to be in conformance with the following 10CfR Ap-pendix A General Design Criteria and Regulatory Guides: [The extent of compliance with these guide-lines / criteria are delineated in the paren-thesized FSAR Chapters / Sections). (a) General Design Criterion 1: Quality Standards and Records (Chapter 17) (b) General Design Criterion 4: Environmental and Missile Design Basis (Sections 3.5, 3.11). (c) General Design Criterion 23: Protection System Failure Modes (Chapter 7) (d) General Design Criterion 50 Containment D,esign Basis (Chapter 6) (e) Regulatory Guide 1.30 ) Quality Assurance Requirements for Instrumentation and Electrica1' Equipment (Chapter 7) (f) Regul'atory Guide 1.33 Quality Assurance Program Requirements (Sections 1.8, 3.11) t ~. y. n l w l IV-2 l l

e W&r S "*'TSCLC. a y ~ . 3, l 4 ~ i V. QUALITY ASSURANCE PROVISIONS Per the licensing requirements of 10CFR50, Appendix B, the Qualit'y Assurance (QA) programs of both PSE&G and the archi-tect/ engineering firm, (Bechtel Power Corporation) for HCGS have been implemented in the establishment as well as the ongoing efforts of th'e'EQ program. PSE&G's QA commitments are described in detail in both Chapter 16 of the HCGS PSAR and in PSE&G's Q A M a n u a l'. The applicable EQ sections of Bechtel's QA program are delineated in an appendix to its Engineering Procedure Manual. The purpose of the QA program is to ensure that the documen-tation required to validate EQ safety related equipment's proper per formance over its qualified life is complete, ac-curate, traceable and auditable. This QA program effort in-cludes: Audit of the overall EQ program including the doc-umented selection process for safety related clas-sification. QA ensures that this documentation is traceable, auditable and independently reviewed and approved. Audit of the environmental design and accident analysis to ensure that the correct conditions and calculations were utilized and independently veri-fied for correctness. Review and approval of vendors to verify that they are qualified to supply the specified sufety re-lated equipment. This vendor approval may include vendor subcontractors and may involve vendor /sub-contractor site visits to review the in-house QA/QC program and evaluate the objective evidence .of the vendor's ability to meet his QA/QC commit-ments. ud Review and approval of testing laboratories used to perform EQ analysis and/or testing. Site visits to review in-house QA/QC programs, test facill- ~ ties, test instrumentation calibration documenta-tion, test setups, data collection, analysis and storage,.etc., are,also performed. e..s + p. r vs - V -1 I

7 ,x ~ ;; a g, a .c: q. Verification of proper procedures and practices for the shipment, storage and mounting of safety related equipment including proper signoffs of equipment receipt inspection, and proper signoff of pre-installation / operation tests. Level of storage in accordance with vendor and EC require-monts is verified. Audit of the'EQ [iie to verify that the required support documentati'on is available for review. This includes auditing of the vendor supplied de-tailed operating, test, and maintenance manuals, noting particular the highlighting of any EQ re-lated requirements, as well as verification of document control for any equipment replacement or modification. Audits to ensure proper review and signof f of ven-dor qualification plans, test procedures and ana-lysis documentation. Witnessing of tests and sign-offs at prescheduled hold points is performed. Audits of plant surveillance and maintenance pro-gram procedures to ensure compliance with vendor's recommendations and in-plant experience. Equip-ment repair and replacement activities must be verified to be in strict accord with EQ require-ments over the qualified life of each piece of equipment. The90.CQ related programs are audited to verify periodic update based on IE Bulletins, vendor feedback, industry data and the plant's own experience with the equipment. Verification of a program to procure qualified spare parts and/or replacement equipment from ap-proved vendors. Establishment of a documented process for QA iden-tified deficiency resolution. t V -2

+, 9: ~ y .y 3 3 m. o. ^ 3 x ~ + VI. ENVIRONMENTAL CONDITIONS The development of the abnormal / Design Basis Accident (DBA) environmental envelopes established for each harsh environ-mental area of the plant in which safety related electrical and mechanical equipment is located was based on accident scenarios described and analyzed in FSAR Chapter 15. In selecting an environmenta,1 envelope for any particular com-ponent, the DBA-which results in the worst case environ-mental extremes (temperature, pressure, humidf' radia- ~ tion) was chosen. The analysis to determine the environ-mental envelopes for the DBA's was performed by Bechtel Power Corporation, the Architect / Engineer for HCCS. The DBA's identified as causing worst case harsh environment conditions were: (1) Loss of Coolant Accident (LOCA) Inside Containment. (2) Main Steam Line Break Outside Contain-ment. (3) Instrument Line Break Outr,ide Drywell. (4) Feedwater Line Break Outside Contain-ment. (5) Control Pod Drop Accident. Based on these analyses, the environmental conditions for each harsh environmental plant area were determined and the resultant parameter excursions are listed in Table 3.11-1 of the.FSAR. The plant areas ares (1) Reactor Building (2) Turbine Building (3) Auxiliary Building (4) Intake structure (5) Inside Drywell (6) Inside Suppression Chamber Each table provides the following informations (1) Area description and elevation. (2) Normal operating environmental condi-tions (temperature, presseure, humidity, radiation). (3) Abnormal operating environmental condi-tions. (4) DBA environmental conditions (worst case). + ~ l VI -1

3 m;.k n % 3;_ ht : ~ ~' Sm-3 3 w m.~ NV * - l's & ' y";.w:

  • Q u.n y.

, z. > f-3 The ' components are -qualified to these environmental envelopes with emphasis upon the DBA (worst case) extremes. This worst case environmental envelope approach is con-servative in that it ensures that each safety related com-ponent located in a harsh environment will perform its re-quired safety function under each DBA condition regardless of whether or not its environment is affected by that DBA. ~ In addition to determining worst case environmental condi- ~~ .tions, margin was addied to both the qualification para- - meters and the analyzed time duration, to increase con-fidence in the componen.ts ability to perform its defined safety function. This margin, added in accordance with I E E E -3 2 3 I E E E -6 2 7, and NUREG 0588, includes conservatisms for analyzed environmental conditions as well as for varia-tions (by the vendor) in production processes, inaccuracies in test. equipment and for errors associated with the defin-ing of satisfactory equipment performance. The DBA radiation total integrated doses (TID) and dose rates were established in accordance with NUREG 0588. The TID inside c'onta~inmen t was calculated for a period of 180 days after which sa tur ation, conditions were assumed. TID levels were based on release to containment of 100% of core noble gas inventory, 50% of core halogen inventory and 1% core solid flesion inventory. Enveloping TID conditions out-ide containment but inside the reactor building, based again e on NUREG 0588, were assumed to be from two sources: (1) After a DBA, 50% of core halogen inventory.and 1% of core solid fission product inventory were in-traduced to the emergency core cooling system water. (2) 'After a DBA, the airborne cloud has been released to the reactor building from the primary contain-ment. a 5 The TID ~ inside the react or building, like t lat inside con-rtainment, is assumed for a 180 day period with saturation ~ ass'umed-thereafter. Dose rates were determined based on ~,, normally anticipated radiation levels preceding, during and following the DBA. ,.n.^ Environmental Maps ., Y '9 The locations given on the component summary sheets for the ~ ~ ~ ~ various defined-harsh environmental areas correspond to the various areas of the plant shown in the attached harsh en-vironment zone maps (Figures 1 thru 9) and correspond-c ing " Enveloping Plant Environmental Conditions - Reactor Building", T able 3.11 -1 a (9 pages). ( M- ..m *p g' ~ V I -2

~ z. r Ow. -x .r n g- ,m N i..'s ]. ..-'. P., l C

! i me <.rw s

wegggg 4,...h.,h'\\/ 3 ^ - ve Gnt1 M. -1 ^j. / Lap.2j ,w. ^$$ y .,,~ m N. s. 1 t. f l /

. w w i

cxw c=es ,l G/%%'f

tww

\\. \\- im i / f ,p ] ] .I' .j _*l ~Y \\ C \\ If'! \\ , EE -,\\ \\ i .s." ,/ .E '. pW -wj s. No ns m rp ru w m wo*i -s S:-l- - $ _,.. ' '~z ,~ L e.g. gg im.esh'Y Y g4,%l ca EEist ret %g .s anu i Ei - c,, W w.1 e 2 m b..+ 6 ..~ . m-tiOTES

1. ENVIRONMENTAL CONDITIONS FOR PUBLIC SERVICE ELECTRIC & GAS COMPANY ROOMS 4102 THRU 4118 SHOWN HOPE CREEK GENERATING ' STATION ABOVE APPEAR ON FSAR TABLk 3.11-1a. (FIG. la)
2. ROOM 4101 DOES NOT HAVE HARSH EQUIPMENT QUALIFICATION ENVIRONMENT ESTABLISHED FOR HARSH ENVIRONMENT C

REACTOR BLDG. EL ' 54 ' ENVIRONMENTAL QUALIFICATION IN ^ ACCORDANCE WITH FSAR TABLE ' REV JoS NO. DMING NMER l

3. ll-la. (FIG. la) l FIG. 1 1

l t

O' N~ l .f l l r .h 1-i i,4 .. ( ( 3 c succa team TAsta 3.Il-la i +3 BfvEtattIIQ FIAstr ENVIRDISEE3ffAL ONIDITIONE - REACTOR BUILDttuG pose 9 et e normat operett e Conditions abnormal conditione ces Ceedittene Frees

Temp, e Del sens Dose Intege e met
prose, Temp e Se1 stam LACA SACA setogs 2.9 r

BetettF Wee mete,

eses, o

Aree Description 6 sens/ Min,

  • r Bustetty Rete.
Dose, press Temp Beletty pelg mesma thumber ese test / Man / nee / Man stam/ Min med/h med (I) pele Of peaa/ Min (2)

(2) had/h (S,1) had (4,7) r' meneter Dutidine, -i k. 3.' e' 7 Core spray 1/-o.25 11e/70/60/49 90/20 e.et 3.S83 Ata 113 fee /20 3-30 man 140 tee 1.tsS and ' pump :oome (3) 4l04, ell 6, lies, elle l5 t;rcl ymp t/-e.25 tef/es/72/se 90/2e 2.s 9.tes atm sie tes/2e s-se et. see-se age toe

t. 3m s 3se 4 soom 4119 (33 (43
  • s aan pump 1/-0.25 111/04/73/4e 90/2e te.e 3.Ss4 atm 112 100/2e 3-3e sin 14e toe 1.tes has roome 4114, 4te?

(33 6 aan ymp a mz t/-e.25 st9/19/se/4e to/20 to.e 3.sse Ata 113 toe /2e s-se man see-se sin toe t.sss ses roome 49et, 4113 133 (4) acicper 1/-9.25 166/79/69/69 9e/20 4.5 9.133 Ata 112 100/20 3-3e ein 340-3e ata lee e.est ses room tile (3) t4l i Bloct. equipment 9/-o.25 -/te4/72/4e 90/30 e.se25 4.se2 atm 104 100/2e F3e sin see 19e 7.es-3 ese l room 4812, 49ee (3) l Cser/D8st pump 1/-e.25 -/05/74/4e 90/20 e.21 7.4B4 Ata 116 100/20 F3e sie 14e 19e 1.tal See room 4te6 (3) forme water t/-o.25 -/113/194/40 90/2e 0.015 S.25s3 ata 142 tes/2e 3-30 mim. les toe 5.9s2 See ' lt 3-30 st. 14e ststr vestibute 1/-e.25 =/te4/-/4e 90/20 0.0e25 8.es2 4903, ell? (3) r l Torme compartment 1/-o.25 -/te/77/4e 90/2e 9.10e 3.5s4 Ata tee tes/20 3-3e man 340-30 min 100 1.281 483 ~'! ] 4te2 (33 top cia,/.e - v-0.2. --nine/.0 tone 0.2. 7.. 4 .tm ti. isene 3-3. ein its i.. 2.0., 37 4 room 4115 131 a los 2.434 3et 1 I ric. la l Tles2729T-A2 4 p w T-*w? 2, 1e/01

>m,;.. ..J .s u v ,_q N Ridj M: ~ ycnos. W i I cAo ' cWWas. U f W_ \\ I42ozi / x. x \\ 1 i.P i ii7 / ~ww f3 Gum e,- ,g 7- %. c72ST s 7 T, f l-l lGCy l- ,3 i f s \\ - -l ' ( connicon ~ .\\ \\W !l - rmM m ~- d -y 7-J vasrimum n '# sM l ~ ,een. e .N 5'

  • wo7tyt co#77tx.

CENTER AREA h -l4/205l s. w,- W . gag. .gg w. vesvanz - mn' .[ . di gEA

  • }&

.e g s.ess N 1997R.Jk2M, @ N:I / \\gg; gr 1 ~ ~ j y- 'RACS "M HX AREA A . l-k T2 Peril lWi..- ., g., p.. < e: .c s. l_ LVESTIBULE l+21'll , j l PASSAG6E [+213] j. ~ ~ ' x NOTES ~... .s 1. ENVIRONMENTAL CONDITIONS FOR ROOMS PUBLIC SERVICE ELECTRIC & GAS COMPAhi 4201.THRU 4219 SHOWN ABOVE APPEAR HOPE CREEK GENERATING STATION ON FSAR TABLE 3.ll-la. (FIG. 2a) p

2. " ROOMS 4220 AND 4221 DO NOT HAVE HARSH ENVIRONMENTS ESTABLISHED FOR EQUIPMENT QUALIFICATION

~ ENVIRONMENTAL QUALIFICATIONS HARSH ENVIRONMENT ~ IN'ACCORDANCE WITH 10855-D.75 REACTOR BUILDING EL. '77' (FIG. 2b & 2c) JOB NO. DRAWING NUMBER

REV

- FIG. 2

y- -[ t , - }9,F I e /) 4 .j ( + ,j h t' ~ E 3: 4 ' ^h

. A l

.' { d 'p*.w q ? g HCCS rpAA TASL2 3.tt-te y RNVEIAFING FLANT sNVlausstENTAL CONDITIOue - ItEACTom WUllmiuG Pege 2 mF e 'R

.4 anoame! Operatine conditions Abnormal conditione ces condittene Press
Temp, a 8e1 mes Does Integt e met Pr e ss, Tony e met mee tecA IACA Integei '

Aree Description 6 Sees /Itin, 'F Ihantalty

Rete, Dose, Press Temp Besidit y pelg

'r sumidity Dose Bet e,

ease,

') ; nous number ese Test /ttes/aee/ Min Mea /Mia Aed/h Dad (Il pote

  • f Mes/ttin s23 (2)

Ba4/h (S,75 Rae (6.75 9 d. ( 1 seector autadame, at 77* t b macs pump 1/-o.25 -/93/02/4e 90/2e e.0025 8.es2 Ata 124 100/2e 3-30 min see toe 1.2st 2st i' (3) sc.mne east, ancs as 1/-o.25 -/93/02/4e 90/2e e.ee25 0.es2 Ata 124 tee /2e 3-30 min 14e ki toom 4219 (3) los 1.231 2ss ] l man us 1/-o.25 111/79/69/40 90/20 10.0 3.554 Ata $13 100/20 S-Se mLa 340-30 m'in roome 420s, 4914 (33 (4) 10e 1.tss 384 les 'l I 3-30,, min esteguard inet 1/-e.25 -/s2/77/de 90/2e e.es2S 0.es2 Ato 11S 10e/20 ( 108 ro_. 4218. 219 santor control 1/-e.25 -/77/70/4e 90/2e 8.0023 e.est Ata 109 100/20 3-30 mim 14e (Il 100 1.2e1 283 center 4285 sooter control 1/-e.25 -/07/79/40 98/20 0.002S e.es2 atm 180 194/2e 3-30 min 144 ' L, (3) 900 2.3st km) teatte east et 30 h septor control t/-8.25 -/76/67/4e 90/2e 0.002S 0.8s2 Ata 107 100/2e 3-30 min les (3) toe 1.tse 2st eenter este f cuopg t/-o.25 -/97/es/4e 9e/3e e.ee25 e.es2 Ata 13e tes/to 3->e ein 14e room essa (3) 30e 2.3st as 2, j et 34 h t constene 42e3 t/-a.2S -/s2/77/se 90/2e

e. seas e.es Ate tie tee /se 3-se man tse i !

ts) ' toe 9.tse esS 3-30 min .340-30 min 4 voitibute 4244 1/-o.2S =/fle/-/4e 90/2e e.stl S.383 = = (31 (n tot 3.ese 389 ja b30 m. 10 s... oe,, t,-o.2S -, tee,-,.e 90,2. 0.0425 e.082 (3) toe

3. ewe 3st 4

4293 5-30 min 34b33 min I Tuttbule 42e6, 1/-0.2S =/ItS/-/40 90/2e es015 S.3s3 (33 tel 10e 3.eee 389 ella sentre montrol t/-0.25 -/77/70/4e 90/29 e.0029 0.052 Ate let 100/20 3-Se ein 100 (Il les 2.48 est conter 4206 Cossloos 4294 t/-8.25 -/02/77/40 90/2e e.0025 0.08.2 Ate 11e 100/20 b3e ein 180 (31 toe 2.tse M8 3-3e min 340-3e min I vsettbute 4217 t/-o.25 -/te4/-/40 00/20 e.etS S.3s3 J )) EG) les, _ 7.tri 289 l l 'm % I

/ N f> l' ; ~ ', ip HOG 8 F::AR TABLE 3.11-th ENVEIDPIle RADIATION CONDITIONS INSIDE PRINARY CONTAINNENT i Radiation Operating Dose Design Basie Event Integrated Doseta,ss J' g Area (?S

Jygg_,

Rata ( 8 3 Tygg pggg,ggge(8.33 Marmal Dgg _. g Gamma 2.3 x 109 I4CA 8.1 x IOS Drywell, inside i'( biological ehield Neutron 8.8 x 10m (e3 3.1 x 10' (*8 -t" Beta (*8 7;y' outside biological shield Sone 1 Gamma 52.3 x 10* IDCA 5 8.1 x 10* Above core Neutron 58.8 x 108 (e8 53.1 x 10* (** t ~~ Beta (43 1 1 J Sone 2 Gamma 54.0 I4CA 1.9 x ter - l $. (el 4.3 x 10* (*8 31 ' Neutron, 12 ) Core region nota 3 (*3 y k" l Ione 3 Gamma 52.3 x 10* I4CA 58.1 x 10* (el 13.1 x 108 (*8 4 under veneet Neutron 58.8 x 10s ' t.: ) (*8 Beta Sone 4 Gamma 50.0 14CA 1.4 x lor g.t (s3 g.3 x 10 (es Hear recirculation Neutron 512 + Beta (*8 q l sone 5 Ga-pa 50.0 14CA 1.4 x 10* j > 15 f eet f rom recir-Neutron 512 (s3 4,3 m too (* g culation Beta Ces Sone 6 Gamma 50 IACA 5.1 x 104 at 48 h 1.8 x 10r 6.3 x 104 Suppreselon chamber Neutron 512 4.3 x 10* Beta (*8 1.5 x 10* at 48 h

3. 5 x 108 i

j (83 The unit of dose rate is Rade/hr, The unit of does le Rede (s) Normal integrated does is calculated for 40 yeare D8E dose rate le the dose rate immediately following the DBE, unless otherwise specified. (88 I (* 8 The beta dese is not significant compared to othere during normal operation. l (s3 Gamma 1.9 st 107 (airborne) l 1.9 x 108 (plateout at 1 h) l Beta 3.1 x 10e (airborne) 1.1 x 10' (plateout at I hl (** Gaema 2.6 m lor (airtorne) I l 3.4 a 10* (plateout) { g 4 g gg gh i eeta 9.5 e 108 (airtorne) 6.7 e 10e (plateout) (88 See Fagure 3.11-1 f or areas instae pramary contattent. I

.v-... ~ ... ih...,, : n e,'} ' u

g,

j (. + rj :

s. g ---

Table-5 .v. Environmental, Conditions Inside Primary Containment for the Design Basis Event j Drywell Temperature Pressure Humidity Time (Decrees F) ' (psic) (%) 0 - 20 see 340 0 - 62 100 20 see 5 min 340 62 100 5 min - 3 hr 340 40 100 3 - 6 hr 320 40 100 6 - 24 hr 250' 25 100 1 - 4 days 200 25 (00 4 - 180 days 200 10 100 FIG. 2c d s 2

k.

,e O e -. ee 4 '*4 .. -,--.--.--,--.-i..-,_

'fY x,_lW. -2~ u ~ w. ~ ~ ' (ret saE*x eA ami N 4 145t51 ELEv MACH RM AIRLOCK C oRRIDOR. l933+1 143631 cRo gxsTeg control j -e ARE A[43 n l ' g t-H y CORRIDOR t [43otl. [43 j '- - gorca.wrw-McToK CONT CTR ARE A-e."PERS.4 .j. - STEAM ~

  • 3!3E ce+=a.

TUWNEL L43601 AcM8s g 3i c,1 'NELiEs"rdM?f l AREA i .-RCic PIPE w DRYWELL I433' I- ,\\ CHASE [47ilf] ACCESS /d-WASM -s /. D6WM A R E A. 143301 AREA;433g cap swo e PIPE CHASEJ 3 ~ l4329] CRD 1 [ '4. UL*r 'y 'q rN -.- } ^ ' 4 "P% HPC) flPE gg s, p %g.. CRo s To'.*AN." PIPE CHME CHASE [432.1 AF.E A l432.1 l { 76(N 'J PERS Off Access A A IE Matadt. CRD ~ REM WA' AIRLOCK j4324 l . AlRLoCK,,;' ~ EQUIP ( REPAtp AREA [+3tGel b( g _14323) pe,i.eeg s.. ww 85!$ .vwt 6 i ~ .-wj S AC S H E AT ( k EXCHANC2ERSE, 9 SACS HEAT EXCHARC=ER S l PUMPS RM PUMPS RM l-- l43o9l 143011 g 'k -l, t i ..<e-d- t-NOTE ' PUBLIC SERVICE ELECTRIC & GAS COMPANY i HOPE CREEK GENERATINC STATION . 1. ENVIRONME;TAL CONDITIONS FOR ROOMS 4301, 4303 THRU 4305, 4307, 4309 THRU 4311, 4313, 4315 THRU 4324 AND 4326 THRU 4334 SHOWN ABOVE APPEAR [ EQUIPMENT QUALIFICATION ON FSAR TABLE 3.11-la (FIG 3a & 3b). HARSH ENVIRONMENT [ REACTOR BUILDING EL. 102' ^ ~ JOB NO. DRAWING NUMBER REV FIG. 3 _ _. - ~. _. _ _

s', ) I r b i ,e r T P 9 v ncos reAn i Tasta 3.It-la y I b ( suvstattac PIANy IsrVinosotrmTAL Conditions - meAcws sustatuc page 3 of 9 i snormet operettne Corditions Abnormen (bnditione DRs (heltlone Frees

Temp, t Bel-Men Does Intege 4 pel Pr e ss, Temp 9 Stel Mae 8ACA EmCA Satoer Arse pesetiption 6
seasAln,

' 'r ~ Iamletty

pate, pose, press hop sustelty pelg

'r RuntMty Does mate,

mee,

~ maam number tut Test /Mes/AveAin sees / min med/h pad II) pelg 't MasAin (2) (2) ame/h (5,1) had 16,1). peectrr aut14 tag, el 192' etsma tunnel 1/-0.2S -/97/06/40 90/20 10.0 3.356 Ata 129 100/20 80-30 min 380-30 min 100 gamme 1.937 3s1 13) (4) bote 3.tst 109 4316 i 5 porth pipe cheee 1/-0.25 -/103/94/40 90/20 0.715 2.Ss1 Atm 129 100/20 3-30 min 349-30 min " 100 1.185 ese I-(3) del {- . t. .k 4339 9 seeth,ir e.e i/-..n -/9 v0 v40 not i.0 i. n. Ata up iD0nt 3-n mi. 34 n mi. 20. i.is5 .s. / (3) (4) 4321 i l [t arcs pipe chose 1/-0.25 -/71/42/40 90/20 2.S 9.183 Ata 104 100/20 b 30 min 340-30 min 100 T.7s4 ese (3) (4) 24 b t 4322 4 aCIC pipe chose 1/-0.25 -/71/62/40 90/20 1.5 6.183 Ata 105 100/20 F30 min 340-30 min 100 3.Ss4 ese (3) (4) 24 h 4319 personnel 4 equip-1/-0.2% =/92/02/40 90/20 0.002$ 0.0s2 Ate 115 100/20 3-30 min 140 100 1.208 . es) f (33 ment acceeg eros 4322, 4331 ' poetron monitoring 1/-0.25 -/99/90/40 90/20 250.0 1.1s6 Ata 110 100/20 F30 min 140 190 1.032 3s3 (3) system 4380 Cao hydrootle 1/-4.25 =/92/02/40 90/20 0.0025 0.052 Ata ll$ 130/20 3-30 min 143 100 0.482 654 (3) et 36 h 4323 Cup metttr control 1/-0.25 -/92/02/40 90/20 0.0025 0.0s2 Atm IIS 100/20 3-30 min 140 100 9.650 483 j tets 6 cortteot 7 4317, 4313 I' Weehtown area 1/-0.25 -/92/02/40 90/20 0.0025 0.es2 Ate 115 100/20 >30 min let let 1.2s1 est (3) 4332 3-30 man tot 100 1.98-2 2st seulpment tar teet s/-0.25 -/t04/-/40 90/20 0.0o25 0.0s2 (3) 4304e 4305, 4383 1 setor control 1/-0.25 b/91/77/40 90/20 0.0021 0.032 Ata 122 100/20 3-30 min 140 100 1.$s See (3) conter 4310 g se> tor contret 1/-4.25 =/05/74/40 90/20 0.002S 0.Os2 Ata 115 100/20 F 30 min 840 t00 4.Ss2 Js2 (3) center 4303 Bacs p g & at 1/-0.25 -/94/07/40 90/20 0.0021 0.052 At m 95 100/20 3-3s ein 180 100 2.781 S82 F I'*, .l' f~-~ IU-'-~~ ~ - ' ~ ~~' ~ " ' ~~ "'* *'*'* *}*?

f i 0 9 4 ^ i 4 PCue FEAR TksLE 3.ti-la sNVE10 PING FRANT ENVInoseWWTAL CONDIf30Me - 33 ACTOR SUltD!pg Page 4 ef $ l t4 r 7 pormat operatine conditione Abnormat conditnone Das conettione I er...

temp, i set n.= co.e z.t.,e i m.t n..e,

v.m, e met n soca socA .t.,, Area Description & Mas / Min,

  1. F Rumidity
Bate, Dose, Press Temp R=totty pelo
  • F Bumidity Deee mate,
enee, poom pueber us Test / mas /aveAin Mas / Min mad /h Rae (1) peig

't Man / Min (21 (23 mad /h (S.73 med (4,73 3 3e min see can remo,e1 e 1/-e.25 -/104/-/4e 9e/2e e.se25 e.es2 repear 4336 (3) toe 9.6a4 ta3 can storage 4333 1/-o.25 =/te4/-/4e 9e/2e e.le 3.$34 = 3-3e ein 14e (33 toe 9.659 4t3 3-30 mia 14e vestituste o elev 1/-e.25 =/104/-/4e 9e/20 e.se25 a.es2 nachtme some 4319 (3) toe 3.132 2st 0

4334, 3-30 sta les Drywell access 1/-o.25

-/te4/-/4e 9e/20 2.5 e.et$ = room 433e (3) tes guana 1.987 3e7 bote 3.lBe les RFT brester seem t/-o.25 =/9t/77/4e 9e/20, e.co2S e.es2 Ata 122 tes/2e 3-30 mia 14e 43el (3) toe 1.5a-3 rol aquipment ett 1/-e.25 =/e4/74/4e to/2e e.es2S e.est Ata 107 tes/2e 3 3e min 144 teos,4323 (3) toe 9.sse est 3-30 man see squis ent ett t/-e.25 -/104/-/4e to/2e e.se25 e.es2 teen, 4324 (33 toe 9.6se 4E3 can liydraatto 1/-e.25 -/92/s2/40 to/2e e.e2 7.eas Ata 1st tes/2e t.as$ ess elas f FIG. 3b e - t * *

  • 9 9 9 U. a t R

+

e f.

  • ~.

~?. ,.c a.

c. 2.

2.. r ~ 4 INSTR G AS M Co mP RES S OR. IM % M l4 4l2.I F. CENTRAL ALARM g y g7g g gg $TATi I ++ ' #" I COMPRESS A coMPvTER i+418 I " " I44'3I j j 4 c...u..-. : q.y .+ @k3j j COMPUTER "") y n w gi g I44191 / J-N H g.>' d sowiT.eiw s. (CommoNic h / l .W - EQUIP ARE A j,s j i44oil AREA 144151- [tCc .s

.a

~ N nR g [. FRys RECIRC. FVt "y \\\\ t' r UMtT AREA \\ _PtPE CH ASE e M [441 g j [ ~ '0 {~~(k O l44o2.l [.]_. U ? f- - g[/ - --- ^ !-REACTOR WTR / 4 L.. .'q==._' 1 c.u. RE ct Rc, 1 a u ~ PU M P RM FRVS RECIRC\\ {.. .f / 5!! ,. 144031 ? UNtTS AREA (..,l.+ .Q q' 7 CORRIDOR i 14 4101

23. f i ;J

/ W \\ ~' g I44o4i " REACTOR WTR J C.U. RECIRC PMP RM144osi l 8 - -REACTOR l . WTR C.U. SAcKWASH . og, ggl-{, ', TRANSFER l ' e PUMP RM u I4+oM -w Co MP8i"E 5 5 0 R 8 STEAM VIENT-cTRicAl. W ,N REAc. tor. l AREA g.4egl wTR c.U. 144091 BACKWASH 2 W RECEtVINS ~., TANK & INSTR RACK ~ 14 4 o71 f n NOTES gr. 1. ENVIRONMENTAL CONDITIONS FOR ROOMS PUBLIC SERVICE ELECTRIC & GAS COMPANY 4401 THRU 4413, 4415 AND 4416 HOPE CREEK GENERATING STATION SHOWN'ABOVE APPEAR ON FSAR TABLE [ 3.11-1a,.. (FIC. 4a) 2. ROOMS 4418 AND 4419 DO NOT HAVE EQUIPMENT,QUALIF,1 CATION HARSH ENVIRONMENTS ESTABLISHED FOR HARSH EhTIRONMENT ENVIRONMENTAL QUALIFICATIONS IN [ REACTOR BUILDING EL. 132' ACCORDANCE WITH FSAR TABLE 3.11-la. JOB NO. DRAWING NUMBER REV (EIG. 4a) FIG. 4

l t t + ? ncos renn inoLa 3.It-te BatWBIDFING PLANT ENytnDeseurTAL CONDI?tous - meAcTon auttateus Pete S ek ( j, f enorme1 opeeatins conditione abnorme1 Conditiona car condit1one Frees

hop, t nel nas pose latest s nel Pr ess, hop e set mee toca adCA $ntege Area DescalPtten 6 sena/nin,
  • r numidity mate.
Dooe, Press Temp puntelt F Pete

'r Bu"IditF Dose hete,

Does, i

snom zwsber les TestAlas/ Ave / Min Otos/ Min Red /h pad (1) pelg

  • f man / Min (2)

(2) had/h ($,1) ans (4,75 re meector tutt4lne, vt 132* {t. seExp rectre h h/-0.25 =/804/-/40 90/20 s 7.'92.e f.tse 6 30 min 250-30 min room 4403, 440S (3) g43 100 f.Su-2 2st laK2s beetwooh pg t/-0.25 -/194/-/40 90/20 55.0 1.186 6-30 mia 250-30 min room 4406 (1) (4) 100 1.5B-2 251 ; <g, pucU bechweste t/-0.25 =/194/-/44 90/20 1.1982 4.287 y rectre tent 4407 6 30 min 258-30 mlIn (3) (4) 100 1.58-2 388 seith pipe ehese 1/-e.21 -/91/79/4e 90/20 09.0 2.es6 Ate 199 100/20 6-30 min 340-30 min 44e2 (3) (4) tee

e. ora es4' v

rave rootte 449e, t/-e.25 -/08/69/4e to/20 0.0025 s.es2 Ate its tee /2e e 14e et 34 h 4419 tot 2.ts3 ase Equis=ent stem t/-o.25 -/76/s5/40 90/20 e.es25 e.esa Ate tes les/2e 3-se ein See et le aere 44e1 {33 104 1.5s-2 2st Corridor 4404 t/-e.25 =/104/-/4e 90/20 0.0025 e.oE2 Ata 105 100/20 3-30 min see l 3, its t...-2 -1 ('. Comprecaer a elect t/-e.25 =/104/-40 9e/20 0.0025 0.0t2 Ata les 100/20 3-30 min 140 - eest,,ee. 440s 1 3, les 4. -2 ,.1 .t to. e IIstrument gas 1/-e.25 -es/67/4e 90/2e 4.0025 0.t22 Ata Ste les/20 3-30 min its comproteor room 4412, 449) (3) 100 2.ese 3es et to dere Entranc3 to 1/-o.25 -/se/75/40 90/20 0.0025 0.eE2 Ata 10e 10e/20 3-30 min 340-30 min assem etat 4409 (33 (4) tot 3.082 GE3 Catast storm .23/-0.25 =/904/-/40 90/20 0.e005 2e2 ttition 4416 Dennitoring and one- .2S/-o.25 -/104/-/40 90/20 0.00eS 2n2 muntletion atos 4435 = FIG. 4a i 1 Tie 0373ev-e

.;a _,n n DOCUMENT STORAGE RM l +5tG,1 STE AM T'J N M E* L HV AC EQUtP. Rbi 145 t 81 i A g 1RLocK[45101 CON FEREt4cE I - [ .ELEc EqueP gM 145151 'I u/ GENERAL - /* AKEA l45otl MA%t.E wor *:. AREA' ~ o g 145141 s g,j 14 5 : 31 }j V REAcToK WTR FRYS YENT UNIT KM - e./ I"q DEMtN HOLD)MG C.U. ElLTER ,\\ PUMP RM /y 14511 l y N k-T 145031 f l I ) FRvs VENT Y - ~ ~ REAc,T oR, WT g [ _p*e. 3.%. _ C.u. F1t.TE A ( UNIT RMd._..mma ;. ;.-- N_** '

  • DEMIN.goto NG 145811

\\" " l! N. PMP KMl4soz) 7\\ /;/ .,g h/7" (t 'PAsSAGi WAY d E f ' ~ 14504i ll-N lq' N PIPE CH ASE 145051 s C O R RID OR ..yg 1 145061 ' REACTOR vlTg l t C.U. HE AT EXCM RK 'g' arme 4*7 PIPE CHASE 14 5o 61 4 145o9] l . _.. _ poor _.._...

a i

6 -~ ~ f-NOTE [ PUBLIC SERVICE ELECTRIC & GAS COMPANY 1. ENVIRONMENTAL CONDITIONS FOR ROOMS HOPE CREEK GENERATING STATION 4501 THRU 4506 AND 4508 THRU 4513, l 4512, 4516 AND 4518.SHOWN ABOVE APPEAR ON FSAR TABLE 3.ll-la. (FIG. Sa) EQUIPMENT QUALIFICATION ma HARSH ENVIRONMENT oats REACTOR BUILDING EL. 145' JOBNO. DRAWING NUMBER REV FIG. 5

~. -

)

) '5 't, ?- t g- [' [ {n e 1., MCGs reAA TABLE 3.10-te eNVEIAPING PEAltf ENVIROBeqENTAL CONDITIONS - REACTOR s01EAIuc pese 6 ef 9 normal operettne enditione Abnormal conditione ces condettone 6 press

Temp, e met sees pose 2ntogs e nel
prose, Temp e nel same sACA
DCA lotogs
  • r shmidity mate.
Dooe, Frees hop nuntetty
pet,
  • r sele t ty enee mete,
ames, Area Description a sema/ Min, 2

amos puebet les ' h et/ttem/ Ave /tain seea/ Min med/h And (13 pelg

  • f pass / Min (23 (23 med/h (5,1) pad 46.11 neacter set 1 dine, F1 145' i

C.,. 4,0. t,-0.25 -,110,-,.e tone S., 26 Ata ,4e ,oene 6.2,-,0.tn ,0.-,e.t. ,0. e.4e2 6 (31 tel et 24 h l' South plye chose 1/-8.2S h91/19/4e 9e/2e SS.e 2.ee6 Ata 119 100/20 6-20 min 250-30 min toe e est 6a4 eleS tal 14) et le h t CleoE49 filter 6 1/-es25 -/94/e3/40 94/2e 0.o825 0.0s2 Ate 126 100/20 6-30 min 250-30 min see t.Se-2 amt hoteep pump room (31 tot 4502, 4503 f corrider 4500 t/-8.25 -/94/o3/48 '9e/2e 8.se25 e.est Ata s26 800/28 9 14e See 4.7s.2 tot lr F et to dere I ineet pipe ehese t/-a.25 -/94/03/4e to/2e e.etS 5.Ss3 Ata 126 tee /as e see too s.est one et 24 h 4So9 slectrical e, sty-t/-e.25 -/94/ea/40 90/2e e.9825 e.es2 Atm 126 100/2e e 14e 100 S.2s-2 1st et le daye meet eree 4 Set i Airloct 45te 1/-0.25 -/194/98/4e 9e/2e e.te25 e.eE2 Ato 122 100/20 e see toe t.Sa-2 at rave weet rams 1/-e.25 -/tes/se/se 9e/2e e.oe25 e.esa Ate las tee /2e e 14e see 1.ise its t at to dayo 4588, 4592 f semple etetten 1/-4.25 -/984/9'1/48 98/2e e.0025 e.eS2 Ata 122 100/20 e les 100 1 room 4$13 Genert! work t/-4.25 -/7e/13/68 9e/20 e.es25 e.est Ata 104 100/20 0 See toe i essa 4514 C.nus _ r 4515 t/-e.25 -nen3/6e 9en.

e. Seal

..es2 Ato 95 toene o 14. ice 1 onc =ent etersee 1/-a.25 -nen3/Se 9e/as e.es25 e.esa Ate 99 tee /2e e 14e lee room 4516 etstruell 4517 t/=e.25 -/7e/73/6e 9e/20 e.e425 s.es2 Ata 195 100/2e e los too stee 45:4 svec deet 45te 1/-e.25 -/1e4/98/68 9e/as e.002S o.est Ata 109 100/2e e its See opeoe osselder 4S44 t/-c.25 =/94/03/4e 90/2e 0.042S e.esa Ate its 100/20 e 140 tee e.4e2 ese et 36 h i flet2729V-o

  • =-- rf 3 to/s) l
p. g g

3 += ~~ s /_ _. h'e- . - ~ - N RE actor WTR c.o. FILTEPdDEMtHERAUZ.ER ARE A [46tol l+6'4II js ..: j -,u (... " a- >., l -y y MPt i c.- ~k SPEh1T FucLI ( FRVS RM Pool l 4GI2.1 l%ISI \\ FRVS RM GAMMA SCMir l % 41 1 -NCc AREA DETECTOR .j \\ AREA I46 3]q 146 oll C ASK to ADlHG 4.g:

y....;..

I ENT O I' l % IIl U g \\ ,p- \\ l,I, Ct.EA4uP RM [N \\_- '. MTS*h...$ ? '.. gad. et 'O (' lM VAULT l%Iol FUEL Pool c cool. PUMP i'.i / -rREcoMBINEPs M N ,.4 { AREA f YgN'f D }g,,,;;.l.'. ;- 146o91 4 ~7" ) WREcoMBl4ER b EqutP. AREA (sec) AREA l%o41 FoEL Poot cool. Pump ; k Il [W oSl ~ n 14G'Zf-l / ~ - - t C E "'D * !~ STANDBY FUEL Po e t = / HEAT Excn - 146o81 I Liquio

cc,q7 gog 1%E 71 FUEL Pool AREA E s.w WATER. Sochi 14606]

FUEL Poo L j ARE.A l%o7 l, HE AT ExcH { l%28l l i i 1 i i s NOTE PUBLIC SERVICE ELECTRIC & GAS COMPANY 1. ENVIRONMENTAL CONDITIONS FOR HOPE CREEK GENERATING STATION ROOMS 4601 THRU 4615, 4620, 4621 AND 4625 THRU 4628 SHOWN ABOVE APPEAR ON FSAR TABLE j 3.ll-la.(FIG. 6a & 6b) [ EQUIPMENT QUALIFICATION im HARSH ENVIRONMENT o.n REACTOR BUILDING EL.162' JOB NO. DRAWlHG NUMBER REV FIG. 6

i l l l l N 5 e i i ma run l TheLs 3.19 9. ENVsbino ptANT ENVInossesNTAL ConDITBone - maAC10m auttAlso reg, y og 9 .. v t Isosmal Operatine Onseditione Abnormal Conditions Das Cond$tione prese Tempe t met pean Dose Intest t pel presse Temp t me t sees 4ACA BACA letagt Aree peastlption & tees / Min, 'r sees /tein med/h med Ett pelg 't se o/MLn III tal mad /h (5,73 med 44.75 Ihamidity ' pote.

Dose, press Temp Ilueletty pelg
  • F sueletty pose hete.

Dese. sessa tomber ese Teet/teos/ Ave /tenn peecter tuletage et 142' & 170' Gemme seem 1/-0.25 -/tes/93/4e 90/20 e.eet 3.Ss2 Ata 189 tes/2e e 14e toe t.Sa-2 1st detector stee 4413 cast noedtne 1/-a.25 -/te4/-/se se/2e e.te 3.$se e see ios I.Se-2 2mt asee sets et to dere j conttineent pre-t/-e.2S =/te4/98/4e 90/28 e.le 2.Ss4 0 Ise see 4.0s3 7s3 purge elemeup to 44e3 8eotes centrel 1/-o.25

  • /tet/09/4e 98/20 e.ee2S e.es2 Atm t '2 4 100/2e e

see tot 2.38l 234 e.nt.t ues .t se d.,. 1 :, l l Decuelner (poet t/-o.2S

  • /104/74/4e 90/2e 0.002" 8.es2 Ata 189 100/2e e

14e see e.est See j toCAD 4402.44e4 et 34 h reve unite 4419, 1/-e.2S -/e3/73/4e 90/2e e.eell e.es2 Ate see les/2e e 14e 100 2.8s3 2se 4437 et le deye carateer 44ee t/-e.2S -/ tee /93/4e to/2e

e. coal e.est Ata 1st 10o/2e e

see fee S.Ss. est et 34 h ) e see see t.Ss-2 ame new feel vault 1/-o.25 -/te4/tt/4e se/as e.to 2.$se 44to 1 e 14e see t.Ss-2 1st j cxk leadine stem t/-o.25 -/te4/91/4e 90/28 e.te 2.sse 4498 comme seen 1/-o.2S .-/100/93/4e 9e/2e e.eet 3.Ss2 Ata 119 100/20 e see fee I.Ss 2 ast tioctsanlee to 44e9 i e 144 toe t.Ss-2 El spent feel pool 1/-o.2S -/te4/91/4e 90/2e e.ee25 e.est 1. 4482 e les toe t.So-2 201 Detten of opent 1/-e.25 -/292/125/4e lee 3.e7E4 1.eele fuel poet 44 2 f e 14e see t.se-2 2tt l spent foot peel t/-o.2$ -/212/92S/4e tes 3.8734 1.737 m gite 4412 g .et e.nt... t,-o.2, -,,e,/,8,4e ,e,2e e.ee25 e.es2 .t. ,24 ,es,,e e ,4e ,00 e.. 3 ese centit. 44e1 et 34 h T1oe s t a tv-m pyg, r,a _,,,,,,,,y,

+ k, t~

4 s

J Q ncos r0Am v TABLE 3.11-Se p.g. g og h

  • ENVERDPING FIANT ENVipageMNTAL (X)NDIT30er0 = REACTOR SUIIAIIeG 5

Norman operating Conditione Atmormal Conditione Dht Conditione Press Te*P, t Get mas Does Integs t met

Press, Tway 4 set pas 14CA asta Intege Aree esecription 6 mes/nta,

'r muntdity

mate, pose.

Prese teop puntasty

pet, or n=edity poe. mate,
ease, hoom Number tag Teat / Man / Ave / Min has/ Min BaA/h had i t) pelg Of Mas / Min (2)

(2) Dad /h 65.73 had (6,1) steet access 1/-0.25 -/194/91/40 90/20 0.0025 0.02 Ata 122 100/20 0 tot 100 t.5r-2 204 - erea 44t9 Gif room 4606 1/-0.25 -/101/91/60 90/20 0.0025 0.0E2 Ata 124 100/20 0 940 100 6.95-2

See, t

fe8CU r/D re 1/-0.25 -/904/99/40 90/20 7.352 2.6te Ata 122 100/20 6.7-30 min 235-30 min 100 1.55-2 2s t ~ 4620, 4621 (3) (4) ruel pool coo 2ing t/-0.25 =/100/93/40 90/20 0.15 5.384 Ata 119 100/20 0 140 100 1.5a-2 1st t pump room 4625, 4626 Dryer separator. 1/-0.25 -/104/9t/40 90/20 0.002$ 0.032 Ate 122 100/20 0 840 ISO 1.Sa-2 2st' pool 4623 j tottom of dryer t/-0.25 -/115/-/40 100 10 2.2E5 Ata 122 100/20 0 tot 100 1.58-2

  • st esperstot pool ruel pool as 1/=0.25

-/100/93/40 90/20 0.5 9.055 Ata 119 100/20 2 250-30 min 100

9. 5 s-2 2al room 4627, 4620 (4)

,3l Isoletten ealve 1/-0.25 -/110/90/40 90/20 0.0025 0.052 Ate 122 100/20 0 140 100 4.73-2 731 room 4624 et te doye l rRVs rectre 1/-0.25 -/104/91/40 90/20 0.0025 0.082 Ata 100 100/20 0 140 ISO 2.tE3 2os mit room 4614, 4656 at le doya Fuel pool water 1/-0.25 -/t04/91/40 90/20 0.140 5.2654 Atm 122 100/20 0 let 100 1.5e-2 2s9 emetton eroe 4607 Voetttmle 4610 0.0025 0.0s2 2.133 234 et le doye FIG. 6b p p - wr e --- f 1 10/09 Tt M 7 7 79W-R

c, e a em. 5.- g 1 l 1 ) . s-t- p ! ) '! N i { (- .!/ i \\ FRvs RM \\ i 146l ggg gg 14 6161 N

>"= _.

hi,4 - s? -'l p 6 ,e ~ ? SPENT FUEt_ Pook .,_ g l4rol2.] 3pgygg A p p. j SEPpAToR 'SToR Pool .j l%I3I .d. 1.ECTRI C AL-VESTt SULE Access ARE A 1 % l81 e v.ss::pe-1 % ldll l i t t =' NOTE PUBLIC SERVICE ELECTRIC & GAS COMPANY HOPE CREEK GENERATING STATION 1. ENVIRONMENTAL (,CNDITIONS FOR . ROOMS 4616 THRU 4619, AND 4623 SHOWN ABOVE APPEAR ON FSAR TABLE 3.ll-la. EQUIPMENT QUALIFICATION (FIG. 7a & 7b) HARSH EhTIRONMENT REACTOR BUILDING EL. 178'-6" OATE JOB NO. DRAWING NUMBER REV FIG. 7

l ? '. - ~ .y' -l h 1 I i 4. {?'

-s 1

t i McGe Feat >4 j TASLR 3.Il-te i 6 ENVElbrING PIANT sWWitcasetwfAL CONDITIONS = DEACTOR SOttalWO yege y og y ' =d ' g )j smessen operet tne Omottlene Abnerset conditione ces conettiene r...e me,. . set M.e Imee tat.,. t met eie.e, n., t met me. ioca ioca s.te,, h s anse pimmber toy

  • r Rueletty Rate.

Dose. Trees Tver Hvaldity pelg 'r avetetty seee mate, tooe. Asse seeeslyttes a fens / Min,. Test /Hes/hwe/Hin Mes/Hin Red /h med l e t pelg 't Mes/ Min 139 tal med/h 15.73 med le.1) j 2 meector Soldlage j el 143' s I?e' i, femme seen 1/-e.3s -/les/93/4e 9e/3e G. set 3.sta Ata II9 100/3e e 14e toe f.st-3 3et detector stee 4683 'l e 140 tee f.ss-3 3s t'. f Cast toeding ,t/-e.35 -/le4/-/4e 90/3e e.te 3.sse etes 4419 at to doye l ~ r centtinment pre = 1/-e.35 =/te4/91/40, 90/3e 9.1e 3.ste e les too e.gg) Tea e posgo steenet te j .us j i Mete. t.et v-e.as -/ni/ sone teen - e.eets e.e=3 at. in itene e i.e i.e

3. ni 1.4 eentee aset i

1 et se dere f; secensenee tenet t/ s.ss -/te4/74/se to/te e.eens e.ses ate 109 tee /3e e see see

e. ora ese g p j

incas ena.nu .. n= i rave entse 4615e 9/-e.as -/e3/73/48 to/3e

e. seas e.or3 ata toe tee /3e e

see see 3.ts: ses 1 4557 et to deve i corridoe esse 9/-e.35 -/tes/93/se te/3e e.ee35 e.sta ate 119 teo/3e e see see s.ss-s esi ~ 7 et se h 1 i new feel veelt 1/-o.3s -/104/98/4e to/se e.te 3.sse e tse see s.ss-3 set este s l coen tendene seem t/-e.as -/te4/9t/4e 9e/3e e.te l 4449 3.sse e see see t.ss-3 ast g comme seem t/ e.35 -/ tee /93/se to/3e e.eet 3.ssa Ate 119 toe /3e e see see t.sa 3 as t. Enoctsenice to j 46et ( 1 spent teet poet t/-e.3s -/te4/98/4e to/te e.eets e.ess e see see t.se 3 act 3 4413 l setten et opent t/-o.35 -/313/13s/se see 3.e7s4 1.este e see toe ,.se-a set i test past 4613 spoet teet poet 1/-8.25 -/sta/sas/se tes 3.e7s4 s.7s? e see see t.ss.s ass gett 4413 seet e eenteet s/-o.31 -/tet/91/se Se/20 e.ee25 s.est ate s34 toe /3e e see see e.ees see seatsu, sees et se n l Tiee3139v-S i ,, g f,, ric, 7a

Y 5-I I e T e .3 n FCCS re451 TASIA 2.s t-f e ENVttDPtieg ytJury anygposeWNTAL CUNDITIONS = REACTOR DU3!A8WG Pege S of 9 enormes operettet Conditione atmoroet conditione cet condittone

)

Press

Temp, 4 Set Mes Dose Integt 4 Del Pt e es, Tony 4 Ret snee 54CA lOCA Integg Aree Desertption &

8ees/ Min,

  • r Ihm=1d it y
mete, pose.

Press Twep numidtty pelg 'r puoletty poe, mete,

Deee, anos sne ber ing twet/hes/ hee / Min sies/ntn med/h Red ( t l pelg

't lems/ Min (2l (2) Red /h (1,73 pad 16.13 Elect access 1/-0.25 -/104/95/40 98/29 0.002S 8.st2 Ata $22 900/20 e les See t.St-2 1st esse 4689 StC gone 4696 t/-0.25 =/101/98/69 90/20 0.0025 0.082 Ata 124 100/20 8, 144 400 6.te-2 Sre [w susCU F/D se t/-e.25 =/194/91/40 90/20 7.283 2.6tt Ata 122 100/20 6.7-20 min 225-20 min tee 9.55 2 tal este. 4629 (2) (4) i ruel pool coollag t/-8.25 -/100/92/40 90/20 0.95 S.284 Ata 119 100/20 0 140 =- toe t.58-2 2sl puer team 4125,4;24 Day 2r seperatet 1/-c.25 =/184/98/40 90/20 0.0025 8.882 Ata 123 100/29 0 14e les 1.Ss.2 2eg real 4422 tottee of deret 1/-0.25 -/995/-/40 tee to 2.2tl Ato 422 100/2e t tee see t.Ss.2 tot eeposetor pool Fuel pool WE t/-0.25 -/190/92/40 90/20 0.5 f.035 Ate 119 tes/20 2 250-20 min toe t.Se-2 1s t team 4627, 4620 (49 teetettee estee 1/-8.25

  • /199/98/49 90/20 0.0025 8.932 Ate 122 100/20 0

140 tot 4.7s-2 Tat room 4624 at 10 daye ,eci,e 1/.. 25 -/../95/.. 9./2. ... 25 ... 2 At. 90./2. it. t.. 2.t.2 2 i teilt seen 4614, 4616 et le deye twet pool ester t/-8.25 =/984/98/48 90/20 9.140 S.2684 Atm 122 3e0/20 9 tot toe t.Se-2 1s t l owetten sees 4401 Weettbe13 este 9.002S 8.est 2.ts2 236 q et IS doye ~- FIC. 7b T9002729W-3 AMestomr? 2, to/02

.~

  • J.A

-n.- e. ..$~ ,oc. y; N ISOLATION. VALVE RM l4ro24] 'r. 2r:==.: p._ _ r 3 ... M l. F .,,,,,- l ROC E I / LAYDoWN AREA l47:o j I t _ _ -.,. y, woRx i D AREA - I [REAT6s0 _ t [43o 91-D 1 DM1H... F N.EW FOEL d.b_,, _,, _. _. __j AREA I41oeI' LAYDoWN \\ / -RPV HEAD .l ARE A 147oGl WASHDoWN AREA 147051 .l..# CASK WASHDOW hl l AREIA 14 767I J 1 a l 1 l 5 1. ENVIRONMENTAL CONDITIONS FOR ROOMS PUBLIC SERVICE ELECTRIC & GAS COMPANY 4624, AND 4705 THRU 4710 SHOWN HOPE CREEK GENERATING STATION ABOVE APPEAR ON FSAR TABLE 3.11-la. (FIG. 8a) 2. ROOM 4703 DOES NOT HAVE HARSH ENVIRONMENT ESTABLISHED FOR EQUIPMENT QUALIFICATION ENVIRONMENTAL QUALIFICATION IN HARSH ENVIRONME!TI ACCORDANCE WITH FSAR TABLE 3.11-la. REACTOR BUILDING EL. 201' o.ra (FIG. Ba) sos No. oRAwmG NUMBER REV FIG. 8

.. I i 1, 4 s t [ r l necs rean ThaLE 3.lt-te BMWEtDFING PIANT ENVImosseBerTAL CONDITIOue - BBACTOR BUIIAtssG Pege 9 of 9 anosme1 operatine_ conditione namormet conditione per coneatsone f russe

Temp, e met Mas pose lateer 4 me t
Frees, Tony t met snee saca saca sategt Area Deectlptism a sees /sein,
  • F nustetty
mate, pose, Prese Temp numidity pelg
  • r sumidity enee mate,
pose, 1:

anon tsumher eng Test /Mes/hve/ Min peos/Isin had/h med (Il pole

  • r pase/ Min (2) 120 med/h (5,73 Bad 18,7) l l

l Deer.3r Bel 141me, el 2498 l Blevator machtas 9/-o.25 -/teS/92/4e n/3e e.se25 8.es2 Ato 123 tee /20 e les 100 9.ss.3 amit l 4745 roter <rene t/-o.as -/tes/s2/4e n/a e.eets e.es2 at. its ice /2. e see ice i.n.3 35 platfors 47. enter 2 e BFW bead usehdeum 1/-o.35 =/te5/92/40 n/2e e.e25 9.6E3 Ata 123 100/20 e 14e see 1.58-3 att eroe 4705 mi % area u-o.n -/iss/9u.e n/n

e. en

..en .t. in i 0/n e i.e .... 3 4?e4 cast meshdeen aree 1/-e.25 =/tes/92/4e 9e/2e e.es2's e.est atm 122 fee /2e e 14e see t.se-2 ast ; 47e7 new teet store,e s/-o.25 -/tes/92/4e 90/2e

e. seas e.est sta 12e tee /as e

see see 1.se-ses 47ee most area 47 9 I/-. 25 -/105/92/4e 9e/20 .. 02S e.est Ata III tes/2e e se. 800 1.58-3 358 tordown eroe t/-e.25 -/tes/s2/se se/2e e.oets

e. set ate.

12e tee /2e e see see 4.7s. tot et to dere else FIG. Da 99

-e.m_.wm y,- -.- p ..e. s. O ..,,.f -s i i ~, \\ d. ELEv MACH RM 1470ll ELGEN Md _ ( gen e. Tog il [ POLAR CRANE ENTRY PLAT FoRNi M EL. PAT 9_Q 7Y@._ I 4gegc,7,g o t REACTOR .s NOTE PUBLIC SERVICE ELECTRIC & GAS COMPANY

1. ENVIRONMENTAL CONDITIONS FOR HOPE CREEK GENERATING STATION ROOMS 4701 AND 4702 SHOWN ABOVE APPEAR ON FSAR TABLE 3.11-la.

(FIG. 9a) EQUIPMENT QUALIFICATION c"" HARSH ENVIRONMENT

      • a REACTOR BUILDING oava EL. 218'-6" & 228'-6" JCS HO.

s ORAW1HG NUMBER REV FIG. 9

-_--m r s .,*2 + 1 .1-A E R R A "'A E 3 1 W .t .a .a .a .a .a .a .a 2' '. a J. ' ' Ia.t 2 L 3 24 3 2 l I

  • l e

a. .I". A l I.I: en t 8 a ~ ~ s s s s s s s s 2 E. S. . *.g 2 E 7 3 p ~ .M p. 4. W. j 8 a 3. m 2 2 2 2 2 2 2 2 ~ .E 5 t.. o 3 N 5 E. g 1 8,2 a a a 4 a 4 8( .22 I. 2 S. i i i .i i S 2 .a. .t ~ ~ ~ ~ s s s s s s s

  • g.

= .2 3 .t 4 y .b gc#1 s s. s. s.e s. s. s s t, w w w = e. 8 e. e. O s s s s s s s a 4 8 8 8 8 4 0 2 f f f. p. e. W. p. M. .4E Z2 5. .r I a t i 3 E i .a E

a 1.

1., 8 .s.. a.

t..

o 2 t 3 v 2 3 o 3 2

3 a ~ * ** ..A --4_. -+ VII. SYST EM/COMPONEN T IDENTIFICATION The systems. determined to be required to operate during and following a DBA to mitigate the consequences of and follow the course of the DBA, as well as to maintain the plant in a safe shutdown condition, were those safety related systema defined in Section 7, " Instrumentation and Controls", and Section 8, " Electric Power", of the HCGS FSAR. s Specifically, these systems were defined and separated into the following categories and are inclusive of the electrical power systems that supply them: Protection Systems - the protection systems initiate safety actions to mitigate the con-sequences of a DB A and include the Reactor Protection System (RPS) and the initiation functions of the Engineered Safety Features' (ESF). Engineered Safety Features - the ESF includes both the operational and control elements which ensure proper cooling of the reactor plant as well as core protection and isola-tion of the reactor plant during and follow-ing a DBA. 4 Safe Shutdown Systems - the safe shutdown systems are those operational and control systems used to achieve and maintain the plant in a safe shutdown condition following a DBA and include core cooling, remote shut-down capability and required support sys-tems. Safety Related Display Instrumentation -this display instrumentation provides the operator with information critical in determining the status and proper functioning of safety re-lated systems to enable the operator to ini-tiate manual action to mitigate operational transients and/or anomalies. This display in-cludes the status of bypassed or inoperable i systems important to sa fety as well as Post Accident Monitoring Instrumentation as delin-eated in HCGS FSAR Section 1.8.1.97. M -t. VII-1

m.~ w. --m _ -~~,~~.-..y---n.---- ,-~ .o j q As is noted in FSAR Sections 7 and 8, these safety systems are designed to meet the criteria for design, fabrication, construction, testing and performance as delineated in the i HCGS applicable CFR's, Reg. Guides, NUREG, IEEE Standards, BTP's, SRP's, etc. Included in these criteria are the EQ requirements for these safety related systems. The HCGS E0 program is designed to' ensure that the systems and related components, listed in the applicable aforemen-tioned FSAR sections are qualified to correctly perform their defined safety functions in their anticipated worst case environmental conditions during and following a DBA. A. System List The HCGS project "Q" list (maintained throughout the project life) was established in accordance with the requirements of Appendix 8 to 10CFR50 as the controlling document identify-ing the safety-related structures, systems, and components required to assure: Integrity of the reactor coolant boundary. Capability to achieve.snd maintain a safe shut-down. Capability to prevent or mitigate the consequences of an accident which could result in potential o f f-site. exposure comparable to the guidelines of 10CFR Part 100. Retaining of.uel temperature within design limits by maintaining fuel coolant inventory and tempera-ture within design limits. Control the concentration of combustible gases in the containment system within established limits. All structures, systems and components are evaluated by PSE&G and Bechtel Power Corporation to determine those which are required to achieve the above safety functions in accor-dance with the criteria listed in 10CFR50, Appendix A. The Q-list is updated as required to reflect design changes and is thoroughly reviewed by both engineering organizations to ensure that structures, systems and components have been correctly classified. l l V I I -2

. _ _ _, ~,,, .- p / s The following is a listing of the safety related cystems de-termined to be required to operate during and/or after a DBA as a result of the analyses. This listing includes the sys-tem designators (in parenthesis). 1. PROTECTION SYSTEMS 1.1 Reactor Protection System (RPS). -1.2 Engineered Sa(ety Feature System ( E S F ) -I ni t i a t i on. 2. ENGINEERED SAFETY FEATURE SYSTEMS (ESF) 2.1 Emergency Core Cooling System (ECCS). 2.1.1 High Pressure Coolant Injection Sys-tem (HPCI). 2.1.2 Automatic Depressurization System (ADS). 2.1.3 Core Spray System (CS). 2.1.4 Residual Heat Removal System (RHR) Low Pressure Coolant Injection (LPCI) Mode. 2.2 Primary Containment and Reactor Vessel Isola-tion Control System (PCRVICS). 2.3 Residual Heat Removal (RHR) -Containment Spray Cooling Mode (CSCM). 2.4 Residual Heat Removal (RHR) - Suppression Pool Cooling Mode'(SPCM). 2.5 Primary C ntainment Isolation System (PCIS). 2.6 Containment Atmosphere Control System (CACS). 2.6.1 Containment Hydrogen Recombination System (CHRS). 2.6.2 Vacuum Relief Valve System (VRVS). 2.7 Main Control Room Habit' ability and Isolation System (MCRHIS). f 2.5 Main Steam Isolation Valve Sealing System-(MSIVSS). 2.9 -Filtration, Recirculation, and Ventilation System (FRVS.). 2.10 Reactor Building Ventilation Isolation System (RBVIS). .i / r .. / I I -3 i

s -

t y,:. . ; c. O - m.-( ~,- + a- ~-w ~. c i. a.... ,.mm - -. c. 3 w ...... ~ g- < 42 7 ~ m. 2.11. Essential Auxiliary Supporting Systems (EASS). 2.11.1 Station Service Water System (SSWS). 2.11.2 Safety Auxilleries Cooling System (SACS). 2.11.3 Class 1E Power Systems. 2.11.4 P rima ry Containment Instrument ' Gas System (PCIGS). 2.11.5 Engineered Safety Feature-Equip-ment Area Cooling System (ESF-EACS).' 2.11.6 Control. Area Chilled Water Sys- . ' tem (CACWS). 3. SAFE SHUTDOWN SYSTEMS 3.1 Reactor Core Isolation Cooling System (RCIC). 3.2 Standby Liquid Control System (SLC). 3.3 Residual Heat Removal - Reactor Shutdown Cooling Mode ( RHR -RSCH). 3.4 Remote Shutdown Facility (RSF). 3.5 Essential Auxiliary Supporting Systems -Sa fe Shutdown (EASS-SS). 3.5.1 Station Service Water System (SSWS). 3.5.2 Safety Auxiliary Cooling System (SACS). 3.5.3 Class 1E Power Systems. 3.5.4 Safe Shutdown Equipment Ventilation Systems (SSVS). 4. SAFETY-RELATED DISPLAY. INSTRUMENTATION 4.1 Bypassed and Inoperable Status Indication Sys- ~ tem (BISIS). .c n Post Accident Monitoring Instrumentation . /* - ~ ~g -,(pagI), s., 1 " rh, ~ VII-4

7 -
y 3--

--- 3, 3-e, 1: a ~ -::e - ,, ve..~ un: -w, r -w _a me-5. OTHER INSTRUMENTATION SYSTEMS REQUIRED FOR SAFETY 5.1 Process Radiation Monitoring System (PRMS). 5.2 High Pressure / Low Pressure System Interlocks-(HPLPSI). 5.3 Leak Detection System (LDS). 5.4 Neutron Monitoring System (NHS). 5.5 Recirculation Pump Trip (RPT) Controls and In-struments. 5.6 Main Steam Safety / Relief Valves (SRV) -R e lie f Function. 5.7 Redundant Reactivity Control System (RRCS). 5.8 Screty System /Non Safety System Isolation-(SSNSSI). 8. Functional System Reviews HCGS has established a comprehensive,. systematic program identifying electrical equipment required to be environmentally qualified. S a f e ty -relat e d equipment is identified according to the safety function objectives of 10CFR50.4 9(b)(1), and is placed on the HCGS project Q-list. For non-sa fety-relat ed electrical. equipment whose failure could prevent achieving these sa fety ob-jectives (paragraph (b)(2) of 10CFR50), a review of systems interactions had been performed to as-certain which components fall into this category. This systems -interactions review took into account the following studies and analyses: 'w 1. Separation Review Pror (a$ High Energ-( r" areak Analysis (safe shutdows, mau = developed). e 9 O V I I -5 ~ ,.g. 9' s

M w-

qs

.c ~_ y _ _c_ -.. _m.sw: r .n w y-y w*

?

y i v a % C,u-% -d. h w-,5 9 pai-, 6aw - M -- (b)~" Moderate Energy Line Break and Flooding Study. ~ (c) Fire Hazard Safe Shutdown Study (Appen-dix R) (d) Electrical Equipment Separation per i Reg. Guide 1.75. 2'. Common Sensor Failure Study. 3. Control Systems Failure Study. i 4. Reactor. Vessel Water Level Instrumentation (' Study. l l S. Nuclear Safety Operational Analysis 6. Control Room Design Review 7. Effect of High Energy Line Breaks in Control Systems. Any components identified by these studies whose fail-ure could prevent attainment of the safety function objective are included on the project Q-list. A separate HCGS program ~ to verify that all safety-related equipment for both the NSS and BOP systems and components have been properly classified was completed. This classification program involved a re-review of the following documents: - FSAR - P& ids, Elementaries - Systems Descriptions and Operating Manuals - Logic / Loop Diagrams - Instrument, Equipment and Valve Indices - Electrical Drawings The P&ID is the basic lead design document and is developed by the use of the system descriptions, which are based on multi-discipline design standards, the ~~ logic / loop diagrams identifying the process control /in-l' dication required ~ and in some systems, a process-flow diagram is developed. From the P&ID, PSAR and later, FSAR,. commitments are made,.the Q -lis t is updated, all inputs to the indices are made, and all required com- ~ ponents are purchased for the design depicted.. Later - receipt of the supplier drawings and components com - ., s. ~ pletes that portion of the design furnished by'the supplier. All the information developed is entered .into the Master Equipment List (MEL) computerized system for maintenance, surveillance and spare parts accountability. w" V I I -6

7, g m e 7-2 g;g F ~~ - {G ; ,, :V The postulated event analyses in Chapter 15 of the FSAR a s a f ety - were reviewed to identify systems which have related function or support in any manner a s a f e ty - related function. The Q list was updated to reflect any systems and components identified in the Chapter 15 analysis. The following information describes the interface activities between Bechtel and PSE&G which were performed to assure that all components rec \\uiring qualification were identified. (1) Bechtel furnished', for PSE&G review and comment, a listing of both safety and non-safety related components used at HCGS. The-safety related com-ponents were further subdivided into those that require actuation during or following. the DBA (" active") as well as those not requiring actua-tion to mitigate or follow a DBA (" passive"). (2) This list was used to develop a safety related components list for both active and passive com-ponents. Included in this listing by Bechtel was the physical location on a component-by-com-ponent basit which was determined from review of HCGS arrangenent drawings, instrument location drawings aad HVAC location drawings. (3) Bechtel reviewed the environmental effects of each postulated DBA and determined which loca-tions at HCGS would be subjected to a harsh en-vironment. Areas found not to be affected were designated as mild environment locations. The identified harsh environmental areas were found to be within either the Reactor Building or the Steam Tunnel. Comparison of the areas identified as being sub-(4) , 'jected to a harsh environment to the list of safety related components developed in Item #2 resulted in the determination of which active. safety related components required qualifica-l tion for harsh environment. Safety related mech-anical components which could be shown to have l ~ no age related failure mechanisms that could im-pair the components ability to perform its de-fined safety function were considered exempt ~ from EQ requirements. Their qualified life was assumed to be equal to the stated service life. ~ Passive safety related components were not i,n-cluded as they were assumed to fail "as is" and were determined not to require actuation to per-form either short or long term monitoring-or control functions. V I I -7

% W y 3 gyp w g-- +. Q(i). 4 ~ uw- .During the ' course o f.li'dentif ying the equipment ~ q, 3 ~ ~~ = g!:7

which requires q u ali fic a t i on, sa f e ty ~ rolstod' equipment was identified which is both subject to a harsh environment and for which exception is taken with respect to qualification to that harsh environment.

In these instances the equipment meets one or more of the following conditions: Equipment is not required to perform its safety function to mitigate the ef fects of any DBA in the, harsh environment, and equip-ment failure in the harsh environment will n o t" a dv e r s el y,~ imp ac t safety functions or mislead the ope.rator. - Equipment is required to perform its safety function to mitigate the effects of a specific DBA, but is not subjected to a harsh environment as a result of that DBA. - Equipment performs its function before its exposure to the harsh environment, and the adequacy of the time margin provided is justified; subsequent failure of the equipment as a result of the harsh environment will not degrade other safety functions or mislead the operator. - T he safety function can be accomplished by some other designated equipment that has been adequately qualified and satis fies the single-failure criterion. Appropriate justification for the determination of one of the above categories is provided on an equipment-specific basis. 7(6) All saf,ety related devices which were determined to be required to operate during and/or follow- '.J gs ,ing.a.DBA but which were located in a mild en-vironmental area, were also identified. (7) The above activities resulted in FSAR Tables' -d 3.11-4 (mechanical) and 3.11-5 (electrical)' which include all NSSS and non-NSSS components requiring qualification for a harsh environment. F Table J.11-5.is alsolinclusive of components ^ .u- ' required for post accident monitoring'per Reg. Guide 1.97, Revision 2 (HCGS FSAR Section l 1.8.1.97) and post TMI-2 action items. .VII-8 1 l

x

_x ^ YY : Y', _.Q: .2% ant.. 4 -:i ,e. -s a.

e;.
r..

+e w:w a. y,. p, (8) Verification that a particular component listed in Tables 3.11-4 & 5 existed and that it was correctly -identified as being safety related was performed by re-reviewing relevant documenta-tion such as the instrument index, P&ID's, loop diagrams, electrical drawings, FSAR sections, Systems Descriptions, the electrical device list, and other design documents. C. System Component L*isting The listing of safety related components requiring harsh EQ are per the attached tables: T able 3.11 -4 Mechanical Components T able 3.11 -5 Electrical Components k' e 4, 1 - % c. ~ '9 1 Le A. A 24 . go q Z :. VII-9

~' ~ N J'A_ l. _a2 iw :q F &P:;u 85, W .. y.. o

v
u y

p y n u a. g.. G1p= ' =y)*'.Q~ m; e- 'C .. [.;&. . > ' - Qt T ABLE 3.11 -4 MECMANICAL EQUIPMENT SELECTED FOR HARSH ENVIRONMENT QUALIFICATION PURCHASE ORDER COMPONENT I.D. NUMBER M -001 Safety Relief Valves 8 21 -F 013 M-001 Main Steam Isolation Valves B 21 -F 022 /F 028 M-001 Recirculation Pumps B 31 -C 001 M-001 Recire. System Valves 8 31 -F 023 /F 031 (Suction and Discharge) M -0 01 Hydraulic Control Units C 11 -D 001 M-001 .CRD Vent Valves C11 -F 010/F180 M-001 CRD Drain Valves C11 -F 011/F 181 M-001 SLC Pumps C41 -C 001 M-001 RHR Heat Exchanger Relief E 11 -8001 Valves M-001 RHR Pumps E 11 -C 002 M -001 RHR Check Valves E 11 -F 041/F050 M-001 LPCS Check Valves E 21 -F 006 -001 LPCS Pump E 21 -C 001 M-001 HPCI Pump E41 -C 001 M-001 RCIC Pump E 51 -C 001 M -001 Neutron Monitoring System C 51 -J 004 Valve Assembly M-001 RCIC Turbine Assembly E 51 -C 002 P-301(Q)' Valves P -3 02 ( Q ) Valves P -3 0.T A ( 0 ) Valves P -305 ( Q ) Bu t t e r fly Valves P -3 66 ( Q ) Check Valves P -4 01 D Snubbers M-070(Q) SACS Pumps M-082(Q) Fuel Pool Pumps c M -141 Relief Valves M -150 ( Q ) Vacuum Relief. Valves M -713 (Q ) Centrifugal Fans J-601(Q) Control Valves 3-605(Q) Valves J -703 (Q) E' cess Flow Check Valves x J-705(Q) Instrument Valves J -715 (Q ) Instrument Valves C' 2 m_ V I I -10 l i

., oh,_ ., j - NU, i-3 es ?' . ;{ " ' .!.~ I Q + .l. ,s. ~ p' Q N ' y: ,p ^ ' ' A.t 5< g '+ ,s..- x 1 6 .[- p a .[ r, HCCS FSAR h' ,g#. s. A I '^ .j TABLE 3.ll-5 [} f.k, i. 3e EQUIPMENT SELECTED FOR HARSH ENVIRONNENT QUALIFICATION PEED Page I of 7% M-08-8 - G 'l 1 SYSTEM: MAIM STEAN AR LOCATION FOUIP.. PIAN EUUIP. ' l'

  • [

PAM. TMI ACTION O t-RLf1EI. ELEV. NOTE (1) DN3TE (2) COfNet'NTS / M. 10 NO. NPL NO. COMPONENT M001 1-SB-PS-N005A C11 Press. Switch Turbine 1 37 40 No MODI l-Se-PS-N005R C71 Press. Switch Turbine 137 No No NOUR l-SR-PS-N005C C71 Press. Sultch Turbine 117 No No M004 3-SB-PS-N005D C71 Press. Switch Tur bi ne 1 37 No No 'e r / . i 7' s ~ M' e y< 5 4 h .. e .1 i M 4,.

  • 'h.
,/ -
  1. 1 3

'.x.y 3 l / V '? ,i r s. s

.?.N, . $..' ri -.0 hi T Ijk,. ?i

j -

q

Q eia r

t (:1 A .f g ';,g <.),4 y 4 a 3; 4 s + o f" [ k- - ([ h f [ m .f,. ' h, &,

  • fl. ' V

'f< z i_

l_

q L ;, s. {( k( v fi, ?}

g. 9 -4 ?

8 4 ? s '? 9, 1 HCfE FSAR ), 4-2 ,c, t 't T Apt.E 3.II */ 1 - ) (( .. p, : )- [i

- )

.Page h;of 15' ~ i EOUIPMf:NT SELECTED FOR NARSH ENVIRONMENT OHAl.lFICATION P&lD M-08-0 t-1 NYSTEM: CONDENSATE 6 RErtJELING NATER STORAGE & TRANSFER I !, '.,, , y-[,(y g AP ),. P * *1 .TMI ACTION "f ' LOCATION EQUIP. Pl.AN E0 HIP. (q f;g, f i I'. O. I D No. MPL NO. CtmPONENT R LtW. ELEV. NOTE Ill NOTE 12) COMMENTN 4: P3010 1-RN-HV-2069 ront r. Velve React or 54 No No [' P3010 1-AP-NV-2072 Contr. Valve Beactor 54 No No P3010 1-AP-HV-2073 Contr. Valve React or 54 No No ! ;,1 M001 3-sJ-LT-M06IA. E45 Level Trans Reactor 77 No No- [ _. Mool 1-RJ-LT-N06lE E41 1.evel Trans Reactor 77 No No M001 1-8D-L I S-N0 35A E51 Level Indicating Sw. Reactor 77 No No ^ M001 I-BD-LIS-NO 35 E E51 B. eve l Indicating Sw. Reactor 77 No No e I - Q'4 .e-e .r .: I 'y i.i s s 1 1 \\4 l .... f : w;Sla

N l $nEc hK e ' a.! i 4 j g' ,j

y

+. ]. t -7 f o jk4A[u /i " f i k r -) l' ega P STN E M M OC 1 p0 I1 PN NP OIUp IT)2 CMl A NE IAT N MLO OOOOOOOOOOOoOOOOOOOOOOOOOO0OOOOOOOOOOO1 OOO e 0 H O TPN NNNNNNNNNNNp NNNNNNNNNNNNNN9 NNNNNNNNNNNp NNN I TA C I F ) I .I 1 I P A RE I IQ MUT AQO O0OOOOOMOOOn) OOOOOOOOOOOOOOOOO00OOO0OOoO0O 0 e N 8 0 s0 N0 NNNNNINNNp D NNNNNNNNMNNNNNNNN1 0 NNN0 NNNe3 N T PEsI 9 N E Mh O p 5 i V R1 N V. A1 E E 22222222222 2222 22 2222 2 2 2222 S L 006600000tt 07777000077007000077777070700007 r3 H NE 111111111I17771131117117111177777171711117 t S t sE R t cL A f Cn H A rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr HA C. oooooonoooooonoooooooooooooooooooooooooooo T R t ttt t t tt t t ttt t tt t t t t ttt ttttt t tt ttt ttt ttttt t D LG cccccccccccccccccrccccccccccccccccccccccce f D aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaan t eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee D p RpppppRpppRpRRRpRppRppppRRRRRRRppRpppppppp E TC g i l F S T N E M P I ss.. U nnss Q aann E rraa TTrr eeeeeeee eeee eeeeeeeeeeeeeeee..TT vvvvvvvv vvvv vvvvvvvvvvvvvvvv .lllllll llllhhhhllllllllllllllllff.. ssssesaaaaaaaal aaaaccccaaaaaaaaaaaaaaaaffff n n n n n nvv VVV Vvv tvVVVVVVVVVVVVVVViiff aaaaaa T VvVVtt t D Dii r r r r r rdd d d d dd d N ilii oonoSSSSooooooonoonnonoo..DDTTTTTTllllllioonoonoo , E lltl wuwwl illlll!lli!l!ll i S i S O rrrr rrrrrrrrrrrrrrrrssssssssssnnnnnnnn P tt t tddddtt tt tt ttttt t t t t t sssssssssseeeeeeee M nnnnnnnnnnnnnnnnnnnnnnnneeeeeeeeeelllllll 4-O ooooaaaaooooooonoor. onooorrrrrrrrr rooooooool t C CCCCHtHHCCCCCCCCCCCCCCCCPPPPPPPPPPSSsSSsSS l O. N i R l P It E AR48l23I23 f ARCD 4HAnANAR 4433AAABna A9CD s y h. R 677877773474686556677383557766666657977774 E 444466660003334555555777333355555533366667 T 446633312222223333333330222233333322233330 A 22442222222222222222222F- - - - 2222222222222F N VVVVSSSsVVVVVVVVVVVVVVVVDtD D T T T T T T V' V V V V V V V TrTT- - - - - - - - - - - - - F E HHHHHHHstHHHHHHHHHHHHHHHHPPPPPPPPFPSSsSSsSS C O I N GGCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAC V EEEEECEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEp;h RA D EE I ll1l31333l1111l11I13ll111l1l1ll11l11111l1I S N OO0O E AAAA000000000000000000000O00000Q000000000Q T 3333111155555555555555551l3113848l33333333 O. 000900000000000000000000000000000080000000 S 3 33122223333331333333333333313333366666666 Y s P PPPP481 B PPPPPPPPPPPPlPPP9 J31 J83J I.JJ3 JJ3 3 8 5 9

i ye ' ' P, f [ f., ,V a S -9 }- q ';M s s u' q) s. ,J

b,

a d '_3., j x' = e 41 N.4 (jy m ,m .e i 4, g w. _7: ~

5. U )

t.. HCGS FSAs

F

-d TARLE 3.18-5 (;1

v

^ Page 'f ofI7%2 EQUIPMDrf SELECTED FOR HASSN ENVipONMFMT QUALIFICATION ~ P&BD M-ll-1 S. SYSTEM: SAFETT AUX Cont. SvSTEM EG PAM TMI ACTION g4> ,4 l.OCATION EQUIP. PIAN EUUIP. P.O. ID NO. MPL NO. COMPONENT BLDG. ELEV. NOTE II) NOTE 829 COMMENTS 4 SACS Control Panel A peactor 102 No No J 20lO. 1-AC-201 peactor 102 No No .+ s + Ell 2AO l-AP-2 5 0 SACS Pump Motor SACS Control Panst n peactor 102 No No J2OlO l-8C-201 peactor 802 No No Ell 2A0 1-tP-210 SACS Pump Motor SACS Control Panel C peactor 102 No No , J 2010 1-CC-201 peactor 102 No No fril2AO l-CP-210 SACS Pump Motor SACS Control Panel D peactor 102 No No

f il.

J2050 3-DC-201 peactor 102 No No ~ .a ] Ell 2AO l-DP-280 - Pump Motor React or 77 No No g J3010 1-EG-FT-25tlA Flow Trans. peactor 77 No No J 3010 1-EG-FT-258tn Flow Trana, peactor 102 No No f 5 J3OIO l-EG-FT-2544A - Flow Trans. peactor 102 No No h ?J3080 1-EG-rT-25448 ritas Trang. spect or 102 No NO pi l-EG-FT-2544C Flew Trana, peactor 102 No No 7 J 3GIQ J3090 1-EG-FT-2544D Flow Trang. Reactor 102 Ves No J3G10 l-tG-FT-2549Al Firew Trans. Reactor 102 Yes No J30lO l-EG-FT-254951 Flw Trans. peactor 102 No No J3040 l-EG-FT-2549n3 Flew Trans. Hand Switch peactor 102 No No J2010 1-EG-HS-2457A J2010 1-EG-MS-24575 - Hand Switch peactor 102 No No J2010 1-EG-HS-2485A2 Hand Switch peactor 102 No No [ J2010 1-EG-MS-2485n2 Hand Swltch peaceor 102 No No J2010 1-EG-MS-24ST2 fiand Swltch peactor 102 No No l J 2010 1-EG-HS-248502 Harri Switch peactor 102 No No peactor 102 No No J2Ol0 1-EG-HS-2517A Hand Switch Hand Switch peactor 102 No No J2010 1-EG-MS-25175 P3050 1-EG-HV-2314A Contr. Valve peactor 162 No No '} k P3050 5-EG-fiv-23148 Contr. Valve peact or 162 No No 2' 3 rP3850 1-EG-HV-2317A Contr. Valve peactor 162 No No P3050 1-EG-HV-23178 Contr. valve peactor 142 No No m> P303AQ 1-EG-HV-2320A Contr. Valve peactor 132 No No 1 P303A0 I-EG-HV-2320s Contr. Valve peactor 132 No No P303AO l-EG-HV-232]A Contre Valve peactor 132 No No P303AO l-EG-HV-23258 Cont r. Valve peact or 532 No No ( Contr. Valve peactor 132 No No P303AO' l-EG-HV*24524 Cont r. Valve peactor 132 No No 'P303AO l-EG-HV-2452s P303AO l-EG-HV-2453A contr. Valve peactor 432 No No P303AO l-EG-HV-2453e contr. Valve peactor 132 No No P3050 1-EG-HV-249tA Contr. Valve peactor 102 No No Contr. Valve peactor 102 No No P3050 1-EG-HV-24913 P3050 1-EG-HV-2494A Contr. Valve peactor 102 No No Contr. Valve peactor 102 No No 7 P3050 l-EG-HV-24949 'l4

p i

l J t e

~V A N' ,42* = G- ~C-e g 3e b e e i EI u C-4bz I s e zbC"a U.ON 4 zu ~5> eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeem zzzzzzzazzazzzzzzzzzzzzazzzzzzzzzazzzzzzi z e 2o Hb2 H4 W a h m m J ow a b -g 5 gge E, e =,, E _f f,z z z E I f E n_,,z E,z,z,,z,z E z,z z z z, E E E MEE,,EE eg. 3 eee zazzz E z f e bsf z I z R = e a& Em z NNNN N n N N N N eu n o m m m N n NaNMNm 4-M omede*** o c o o

  • M e *
  • e o o o o o o o o e d * * * *
  • k '@ * * * *
  • m@@@@@mmmmmmp@@

me J mme-MMmmmmmmmmMNNNm=@@@@MM hM z {W m my E = C= g_ wwwwwwwwwwwww wwwww .w w = 66666666 wwwwwww vE CCCCCC 0000000 wwwewww.CCCCCCCC e m u m.C.C.C C.C C.C.C.C.C C C.C C.C C CCCC E4 o w wwwwwwwweww > g Ce w w ww uuuUUYGuuu . uuvvuUU uUYUUUUVu9UUvuvUUUUUU s JQ seseeseeeeseseee=ese===============eseese seesesee&&4 e&&ee&Weeetweeetestesseeseeees g =S EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE C W 2 z . e Fr = CC

  • 5 ee W
w. >>>>>>5>teksessestees e

Hk&seSteb e e o e o e============mmmmmmmm-e s s e s s >e e s e p r e r ww g e e s e g g e e s e e e e e e e e e e e ccccw=>>>>>>>>>>>>>>>>>>>>>

==

eeeeeeeggewwwwesee== z > > > > > > > > > > e.e.s e = b w w C C T T T T T T T T. T T T T T. T T. T. T. T. T T T--- wpp>>

===...-

.hh h hh w I ww===w w=ddees mammer m> > > > e e s s e e e s* e s e e e e e e e e e e t e t e s e s

=

> > e t = = = = = - - =C C C C C C C C C C C C C C C C E C C C C C C c c g c. c D > g CCCC CD uuuuWUUWUbbu'yJJqewwJbbmmmmE"mWE2mKKEEmudamma CCCQOCCCCCC..Cee wU e A J& f l g \\ g ~ Hm>m (S d 2 U0 4 8 d 2 4 2 4 E UC 4 RU C ee 4 2 UC M b C z t 9 4 8 48 U C Hb 4 8U

    • eenN=~nnnnnnemooNNoooooooonnmmnnNmnne++

e e e* =mnn nNn nnn o o o o + e * * *

  • e e e e e e e e oo o o o o M nn NNnnnnNnnnNnmemmmmmme
  • * *
  • e c e e e e e e e e + + + + n. N.

- s, M M.n. M. M. M. M. M. M.M. M.M.M. M.M.n. M. M.N.k H. M.M.M. M.M.M. M.M.M. M.M M. N N M M M M. M. M. M f f f f f f y M >>>>>>>>>>>>>>>HHHCO>>>>>>>>>>>>>>>>>>>>>e. 3 z z, z, z, z, z, z, z, z, z, =, z. z. z. J.J. J. J. b. h. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. 4 I S.,88888828388._2._S._5._8._8._8._8882888._8._8._8._3._2._88._ C l C m,o (G r ce i r I = l 5 . 9 o999,o9 o 9o9999 o o oo o o o o o o o'o o o o of f ooo o oo o oo mm-----m--- t e coooooooooooooooooooooooooooooooooooooooo m e mammmmmmemem-mmmmmmmmmmmemmemem-mmmmmmmem bbbbbbbbbbbbbbDS99DDbbbbbbbbbbbbbbbbbbbbb "a be ~ l 1

(.kk N ,4 f: 9 4 ~ e 4 Wg - =zs[ sd' 3 A. \\ b I m l W: z l E I o$ e Cm

==ee bE \\ Ib Cm

=

HQN bem 4 EW mf& 2 EwC CCCCCCCCCCCCCCCCCCS Q e&E EZEEEEZZZZE22222222 >4 V = b a a ma sue 4 b=W -5 Ese

== 400 CCCCCCCCCCCCCCCetCC H mW2 212222x332322zz>>22 EWE 5 E m e 2 E m. 4 W W nnne nnnN m e J

          • oCCCw***oooow*

bM g $W @@@@&Mmmmm@@@@mmmm@@ v. O WW E m Oe 4 Us 3 4 bbbb bb bbbb bbbkbb bbb CCCCCCCCCCCCCCCCCCC E4 u e wmod oddeed mome=d due CJC UUUU UUUUUUUUUUUU bUU b C 4 Sees 4444eeettee444 4 9 &&W $$$986 999 998 999 g EEEEEEEEEEEEEEEEEEE k, ~ L W J W m WE &= W DDDD 999999 999 >>>>>>sde WWW mmmm mmmmm==== CCC CCC 4 444 894449 ett egD 999 >>>>>>>>>>>>>Em$aEE F est eet 2 TTftTTTTTTTTT==mm== mmm mmmmmmmm-WWWWWW m E S E S S E. E. E. E. E. ! ! !...... ...smaccc

============m ggg3gE CCCCCCCCCCCCC6et 666 8-O mur.mmmmmmmmmakHHHMk i a

== 1 mmWW E E % b t m r f CW6C2424242UCCE4E4C @ @@@@bhMeooCoPM@@@@ g NNNnN@@mmnnnn@@mmoo h mmmmmewe@@@@@ww@@So ~~nnnnnnnnnnnnnnnns M e ee e e e eeo e eoee e e e e # 3 >>>>>>>>>>>>>WWWWWW mammmmmmmammakeekke 4 e e e e e e e e e e o e e e e e e e e 0 000 000000 C 0 W WWW WWWWWb W W W C e a e e e e e e e e e e e e e e e e e bd m

=======

4W m E 0000 000000 0044440000 W

=====# @@mmmmeweemm p o. ooooooooooooo@@@@oo e mmmmmmmeemmem+@e@co w b. bbbbbbb39bObbS7DDEE d 4

..m. .m ....m.. 1* ' I r 1 e HCCS PSAR TABLE 3.18-5 t'OttlP fef:NT SEL.FCTED DDR HARSH FMVilN)NNFNT OIIAI.IPICATitwe psi D Page 7 ol 1 N-I1-8 SYSTENs DEACTOR AstitiLI ARIFS CDEM.ING ED PAN TNI At f ttWe LtTATION FUUIP. Pl.AN 6UJIP. P.O. ID MO. NPL NO. CTWePOSSENT St.lM3 EI.EV. 00tFTE 4 Il DMJTE f2) CriseNENTS P3080 l-ED-HV-2553 contr. Valve acact or 102 No No P30lO l -E D-HV-2 55 4 Cnntr. Valve peactor 100 No No P)SIO l-ED-HV-2555 Contr. Valve f vector 102 No No P)SIO l-ED-HV-2556 Centr. valve peactor 100 No No P3050 l*ED-HV-2598 Contr. Valve peactor 54 No No F)S50 I-ED-NV-2599 Centr. Valve peactor 54 No peo P3980 I-ED-25-2553 Limit switch peact or In2 Yes No Plet0 1-ED-IS-2554 1.6mit Switch peactnr . loo Yes No PIORO l-ED-2S-2555 I.imit Switch peact nr In2 Yes No P30lO l-ED-2s-2554 1.6 mi t Sw i t cle Reactor 100 ves No I i 9 r ---- T

-g ',w - %4 ~, _ g- ./. y + _y .g ft - t .-s,... e .<,.s 2 e J-g C 1

,,,% r. P.,
    • t,.

?- O t s " 3 f. 4 a. u 3 &c

= =

40 s p bE I g a g Ib (oes e h IE C 4 .g= g 4 U .A. M e. M b C*g

  • u 5

It a. I Ib 1 E== > 4== 1 m W S e M P= gd JJ s b' 5 4 4 to te E4 S CC to a e, se S L* W W C G G G e um sul 99-S SS E s.4b GR $=E I It I eS >o >d e e b he .'t'r o ou ) E ?e I .e g 1 I w sp gg ~~ e* O r= em Ws 0 0 2 4.& .O .e.e. .e.... g U A 5) 4

5. <,,.

_o _o R ' C OO as

  • -
  • mm b bb

+ s n q 4' y' s _- q e-f

  • ~ " '
  • "!'..,,. fw', -

-c~~ie .: u.. I ~ ~' c.,,,Z ne w.~ '+ r.. 0 A Gtw * ,p_ rxr l + c We f ,b. '( L*d g l'M

  1. g em 4

t. >Ew E Eu ? .c.. .e d 9 bE k g o E6 ew-

  • h w.

4 C Eu E m4> EJC E kbE O. b4 U b e.

== b M 4 =w C E E 5 48'h 6 1 Iw I E==. 4e 3 E.J (A

  • E bm 2 ina Z

C. qW W1 m .d E I= 4 4 b 4 E C M E v 5 m E .a E E C. v. k E k E5 6 2 b +- E as e b es 5 8 ~ c w ) ~ 't E m E k 1 W D M. W 8 PG ab 9 W C. 4m E e .E. E4 E O e Ik K. .O. Wp en O v .o m b b .y

y 7, g m ,p t'. k ~,8 ( L et _I! ' s-4

  • f t v t

f . '4 ;[v (4 j .? lf NCCS FS As 1 TABLE 3.85-5 EQUIPMENT SELECTED FOR NAWSN ENVipONeeENT QU ALIFICATION P&lD {D of hTSTEM: PLANT LEAR DETECTION ' 4c ^ Q' N-25-8 Page I V SE PAR TNI ACTION LOCATION FQIs t P. PIAN EQUIP. y P.O. ID No. MPL NO. COMPoseENT B LIC. ELEV. NOTE (1) NOTE 12) CO8eserNTS N001 5-SE-TE-es0 3 2 A ' 323 'J e s )O l-ac-LSet-440)nl- ' Temp. Elemt. peact or 102 eso No y,} t.evel Sw. eligh peactor 54 No No .h J 4 8 )Q 4-DC-LSN-440)n2 6 Level Sw. High peact or 54 No No Jj 4 's J 40 )O l-DC-LSN-4403Cl level Sw. Nigh peactor 54 No No

  • ?

J48 )Q 1-leC-LSN-4 40)C2 Level Sw. lligh peact or 54 No No ~ 6 J 48 )Q 1-DC-LSN-440)DI Level Sw. High peactor 54 No No -k _4 J48)Q 3-nc-tsse-4 40 ln2 Level Sw. Nigh peactor 54 No No I

  • g j

N005 3-SE-TE-N030A Ell - Temp. Elemt. peactor 54 No No e-J48)O l-nD-LSH-415 5 - I Level Sw. High peactor 54 No No 't J4030 1-sD-LSN-4151-2 Level Sw. High peactor 54 No No J 48 )O I-at-LSee-45elAl Level Sw. High peact or 54 No No l J44)Q 4-BE-LSet-458lA2 Level Sw. Nigh peactor 54 No No f J 48 )Q 1-DE-13el-4 5E l p! level Sw. High peact or 54 No No J48)O l-BE-I sse-45 B Ip 2 Level Sw. Nigh peactor 54 No No J40)O l-nF-t3N-454tCI Level Sw. tilgh peact or 54 9eo No d 4 l - J 4 5 )Q I-SE-LSN-45 SIC 2 Level Sw. High peactor 54 No No i J48)Q 5-DE-LSN-4 58 t DI Level Sw. Nigh peact or 54 No No J 48)O l-#E-LSN-458tD2 Level Sw. Is t gh peactor 54 No No i a N005 3-pG-TE-N016E C)) Temp. Elemt. peactor 132 No No N001 1-ec-TE-N016N C)) Temp. Elemt. peactor 132 No No MeOS l-pG-TE-ss0I6J C)) Temp. Elemt. Reactor 145 eso seo ] y R005 3-RG-TE-N086N C)I Temp. Elemt. Reactor 145 No No i m003 3 -IsC-T E-No l 6 7 C)I Temp. Fleet, peactor 145 No No } i' J4350 4-BJ-L$N-4007 Level Sw. Nlgh peactor 54 No No J48)O I-pJ-13N-4808 Isvel Sw. N!qh peact or 54 No No J 40 )Q 4-ED-LSN-2J65A Level Sw. Nigh peaClor 77 No No J 4810 1-ED-LSN-23658 Level Sw. High peactor 77 No No I J 40 30 1-SE-LSit-2 345c Level Sw. Nigh peactor 77 No No 3 J48)O l-EG-LSit-2359A Leve l Sw. High peact or 102 No No j J48)Q 3-EC-LSN-2359a level Sw. Higts peactor 102 seo No J48)Q 3-EC-LSet-23644 8.evel Sw. Nigh peactor 102 No No j J40)Q 3-EG-LSN-2364R Level Sw. Nigh peactor 102 No No 4005 l-SE-TE-N0258 E55 Temp. Eleme, peactor - 54 No No MUOI l-SE-TE-N025P ESI Temp. E lemt. peactor 54 No No M005 1-SE-TE-N0255 ESS Temp. Eleet. peact or 54 No No muGI I-S E -TE-N 0 25M ESI Temp. E lemt. peactor 54 No eso N001 1-SE-TE-se025 p Est Temp. Elemt. peactor 54 seo No se001 3-SE-TE-NO284 tel Teep. _ E lemt. peactor 54 No No NGOI 4 -S E -T f-se0 20C E41 Te*p. Elemt. peact or 54 No eso Noel 3-SE-TE-N029A E45 Temp. Elemt. peactor 54 No No M005 1-S E -T E-M0 294 Ell Temp. Elemt. peact or 54 No leo MODI l-SE-TE-N0299 Fil Temp. Elemt. Reactor 54 No eso W j

4i i t f N s 4 / e t 4 I t h 4

.3
.y

=)'- NCCS FSAR 1 T AliLE 3.11-5 EQUIPMFNT SELECTFD FON bAp5H ENVlmONMENT QUALIFICATION P&lD ' 11 N-25-4 Page II of ,STSTFMs PLANT LEAE DETECTION SE lf,( PAM TMl ACTION l.OCATION FOU I P. PLAN ITJU IP. P.O. ID NO. MPL NO. COMPONENT RLtwi. SLEV. turTE (1) NOTE 12) COMMFNTS i a J M001 3-sE-TE-N029C E45 Temp. Elemt. React or 54 No No N005 1-SE-TE-NO30A E41 Temp. Elemt. Reactor 54 No No Ne05 l-FD-TE-NO 30C E48 Temp. Elemt. React or 77 No No P 301AO l-SE-Nv-4953 control valve Reactor 145 No No P303AO l-sE-NV-4957 Control valve peact or 145 No No P303AQ I-SE-NV-4908 Control Valve peactor 145 No No [' I' ' P301AO l-SE-HV-SOIS Control valve peact or 145 No No J 48 Do I-pD-LE-485I-l Level Element po ect or 54 No No ~ q .34830 l-so-LE-4853-2 Level E!* ment peact or 54 No No 'L J4830 1-pC-LE-4403Al Ievel Element peactor 54 No No h d J 4 8 30 l-pC-1.E-4403A2 Level Element peact or 54 No No e J 4 8 30 1 -pC-l.E-4 4 0 3 p l I.evel Element peactor 54 No No J 4 a lo I-pC-LE-4403n2 level Element preet or 54 No No J 4810 3-pC-LE-4403Cl Level Element pe act or 54 No No J4830 3-pC-LE-4 4 0 3C2 Level Element peactor 54 No No J4010 3-pC-LE-440lDI Level Element peactor 54 No No J 48 30 1-pC-LE-440)D2 Level Element peact or 54 No No J 48 30 1-RJ-LE-4807 Level Element peactor 54 No No y J4830 1-RJ-LE-4808 Level Element peactor 54 No No +. J 48 30 1-pC-LSH-4403Al Level Sw. Nigh peactor 54 No No i J4830 1-pC-l_SH-4 4 0 3 A2 Level Sw. High peact or 54 No No ,i M001 1-SE-TE-M009A Ell Temp. Elemt. peactor 77 No No el M005 3-SE-TE-M009p Ell Temp. Elemt. React or 77 No No M001 8-SE-TE-M010A 521 Temp. Elemt. Reactor 102 No No l M001 I-5E-TE-MOION 828 Temp. Elemt. Reactor 102 No No ROOI I-SE-TE-N010C R2I Temp. Elemt. peactor 102 No No p' M001 3 -s E -T E-Mo l 0 D 928 Temp. Elemt. React or 102 No No id M003 l-SE-TE-N0ll ESI Temp. Elemt. peactor 54 No No 'l MUGI l-SE-TE-N0llA R2R Temp. Elemt. peact or 132 No No f l MODI l-SE-TE-N0tlp p28 Temp. Elemt. Reactor 132 No No l MODI l-pK-TE-NollD D28 Temp. Elemt. panct or 132 No No h M005 1-SE-TE-N012p M25 Temp. Elemt. Reactor-102 No Nn MGel l-RE-TE-N082C M2I Temp. Eleet, peact or 102 No No MUgl 1-tE-TE-N012D 028 Temp. Elemt. Peettor 842 No No V g M001 I-ME-TE-NOI34 p23 Temp. Elemt. Deactor 432 No No ,g M004 3-sE-TE-N013p p21 Temp. Eleet. Reactor 132 No No p MOSI l-SE-TE-Mol3C p28 Temp. Elemt. React or 132 No No M001 3-SE-TE-N0130 m28 Temp. Elemt. peactor 132 No No M005 3-5E-TE-N014 928 Temp. Elemt. Peactor 132 No No M001 l-SE-TE-Nel6 p23 Temp. Elemt. Reactor 102 Mo No M004 3-SE-TE-N0164 C33 Temp. E lemt. peactor 132 No No ]' Mo04 l-5E-TE-Nol6AA Cl) Temp. Elemt. Reactor 145 No No i ?

3 1

W r ,( A ,[ >p t;_1 M, ~ e teCCS PSAB E TAhLE 3.18-5 .f. 4 gds!PseENT SELECTED FUp NAPS 40 EsfVIROI8 MENT ONALIFICATIOct P6fD w M-25-3 Page Ih eI T stSTENs Pt. ANT LEAR DETECTIOss , i m SE f;' PAN TNI ACTIINI a t.OCATION EUtf l P. PLAN FOIL lP. h , p{ P.O. ID 000. NPL eso. CosePOISENT GLlw;. ELEV. IeUTE Ill as0TE 12) C080 STENTS 3 secol 1-SE-TE-teol6D

G33 Temp. Eleet.

Reactor 132 No No

  • ,Q.,

+ N' pe003 3-SE-TE-es016DO - Cl3 Temp. Eleet. Reactor 845 No No '). V n

se005 1-5E-TE-N0 8 6se Cll Temp. Fleet.

React or 14% No No 3 M005 1-ss-TE-as0865 Cl3 Temp. Eleet. Reactor 54% No No ei ie00 3 3-5E-TE-N016N Cl3 Temp. Eleet, peact or I45 No No se008 3-SE-TE-Nol? p23 Temp. Elemt. Reactor 132 No No Noel 1-S u -T E-ssO 2 5 0 E48 Temp. Eleet. React or 54 No eso 1 80005 3 -5E -TE-IbO 2 t O PSI Temp. Eleet. Reactor 54 No No 'g' g N005 3-SE-TE-N0224 C33 Temp. Eleet. React or 832 No No pe005 3 -sE-TE-es0 22 AA C33 i Temp. Eleet, peactor 132 No seo peOSI l-D E-TE-ss0 22 p ESI Temp. Eleet. React or 54 No No de001 3 -S E -TE-te0 220 9.58 Temp. Eteet, peactor 54 No No -j, se00 5 l -e n -TE-te0 2 20 C33 Temp. Eleet, pe act or 432 Iso No se005 1 sE-TE-es022DD C33 Temp. Elemt. Reactor 84% No No { N001 3-sa-TE-NO22E C33 Temp. Eleet, peact or 132 No tha pe004 1-SE-TE-te022M C33 Temp. Eleet, peact or 832 No No se003 8 st-TE-as022J r.3 3 Temp. Elemt. React or 145 eso No 80005 1 -5 E -T E-es0 2 286 C33 Temp. Eteet. Reactor 54% No No pe00 5 1-5E-TE-NO22M G33 Temp. Eleet. Reactor 145 No peo N005 1-sE-TE-N022S C11 Temp. Eleet. Peactor 145 No No Temp.,Eleet. peactor 145 No peo i pe005 l-S E-TE-te0 227 C33 ' Temp. Eleet. Re actor 145 No No d es005 l-SE -TE-N0 2 2w C33 N005 1-sa-TE-NO234 C3R Temp. Eleet. React or 312 No No se001 1-sE-TE-NO234A C33 Temp. Eleet. Reactor 845 No No a. se005 l-SE-TE-N0230 Eit Temp. Eleet, peactor 54 No Iso [] se005 5 -SE -TE-ese 23D ESI Temp. Eleet. Reactor 54 Iso No N004 l-5 E-TE-es0 2 3D C33 Temp. Eleet. peact or 132 No No N004 3-SE-TE-es02381D C33 Temp. Eleet, pe ctor 145 seo No se008 3-5E-TE-N023E C33 Temp. Eleet. Reactor 132 No eso N005 3-SE-TE-N023N C33 Temp. E leet. Seactor 132 No No p les too No r, se00 5 l-SE -TE-te02 3J C33 Temp. Elemt. Reactor

  • I4%

No No .' f 80003 3-sE-TE-es02 3se C33 Temp. E leset. Desctor secol 1-SE-TE-N02 3ee C33 Temp. Eleet. Reactor 34% son No g fe003 I-58 -T5-860 2 35 C33 Temp. Elemt. Reactor $45 Iso No s seGO! l-sE-TE-te0 2 4 e Eel Temp. Eleet. peact or 54 peo No ~ ((' se005 3-$E-TE-se0237 C33 Temp. Eleet. React or 145 No No geGel 1-SE-TE-es02 3et Cl3 Temp. Elemt. peactor 845 peo No i g { setel 3-sa-TE-es0254 , E45 ' Temp. Elemt. Reactor 103 No No secol 1 -st -T E-Ise 2 SG E%l Temp. Eteet. Reactor 102 No eso les0 R l -EE -TE-es0 25C Eel Teep. E lemt. peactor 802 No No se001 I-SE-T E-N0 250 ESI . Temp. Eleet. React or 102 sso No d-se001 3 -bE -TE-se0 25E E45 Temp. Eteet. Reactor 54 eso No . 4 i n

-.7 - f,.:y 1-p. .t t s

  1. f

.I f ', r ,. 1 I i . ra 4 <3 , I,,Y ' [' .y 1 / 5 _g ( >^ } 's ' i8 esCGS FS AR 3 I b' ;: TABLE 3.!!-5

(,

g-EOuPnENT SELECTED Poe MApsn EsevisosseeENT QUALIFICATI0ss P&ID 'N! i. l [ l '-- 4-25-1 Page l $ of i? - 5 v t' SYSTEns PLAstr LEAR DETSCTIoss b SE Pass TMI ACTIOss LOC ATIOss l'QU IP. PlAss tOUIP. ] P.O. ID tsO. hPL NO. COstposetss?

DLDG, ELEV.

asOTE ll) esOTE 12) CtsueENTS ? 15 [,3 estel 1-SE-TE-see25F ESt Temp. Eleet. peactor 102 soo eso 'by:~' Ti se#98 l-sE-TE-pe2% E45 Temp. Elemt. Reactor 54 no No seOSI l-sa-TE-me25ss ESI Temp. Eteet. peactor 54 wo eso y 1 p sees t 5 -SE-TE-se025J Eel Temp. Eleet, peactor 54 po No se001 4-5E-TE-se0 25 L F48 Temp. Eleet, peactor $4 No No f g seeel 3 -SE-TE-w025ss Ett Temp. E lemt. peactar 54 son too MOSI l-SE-TE-n030s Kit Temp. Eteet, peact or 17 eso No } ;t y see#8 l-sE-TE-esollC m28 Temp. Eteet. Desctor I32 eso eso Ple3AO l-SE-25-4953 tim 6L swttch peact or 145 veo no P30 3AO I-5E-SS-4957 Limit SwitcIs peactor 145 Yes No ( P303AQ 3-5E-2S-4984 Limit Sultch peactor 14% Von Iso f j P383AQ 3-55-35-5048 8.imit Switch peactor 145 res eso s$, p. ~. l> <Ii* .'#. v iu i. 4 n n a s b v ^ 4 h 't' f, ?, . k' { -1 - _ - - _ _ _ _ _ ~ _ _ _ - _

m-2. ~;., _'~~.," w W,a; W~ -~ c,c.,...a c,--. ~~ ~ T.

  1. F, it
  2. s-v,

maa.

+
k;;7 g(

c <:y

day,
,w

.. +. a. t .1 3: t& i g a.

I~-C. -

1 e!! eeece l ee s>>$ssaan I _ g en sa _E EiI t u_ t a 5

2. 12222:111111 5

ge e a. I 5 ._I .:._ l ~ ~ ~,... _ _ _... ea. _5ee: s:::::::: !8 5g. .t.r.r.r.i.r..s..t.i.r.r e s t a e C f e. E v.- g

trustris t

188818111 ciiasisam11*mi _8_8_8_8_8_8_5 _E _I _I _I_I .%.%._%_;T_"%.%%%_% 8 1 8.11111111111 i C 1 I _I $ 3333 _t I._,.... 8_ <^.. 3g**:...$33. oa. ..y

s.. s. f :.. :. :. :. :. :. :.

~ XXMt!IIMIMEX L.3'L.L.L.L.L.L.L.L.L.L. lk LLLLLLLLLLLL E oooooooo C

i.. 33;;;;;;;;;

\\- .g .r 9"8999999

.-----__y f_ r ", A 4 y l \\ + g. 3 Q ? s 4 ! ~ k s

x 4

t _. gf' h. A t 39*j

P..

c. +

  • A F.

l Y .Y l.: 1 pCCS FSAs g TapLE 3.88-5 1 EQUIPre'NT $FLFCTED Fue NApSes tNV8 pose'ENT OUALIFICATION P&lD N-)S-e Page R$ of 7) STS7 Ens POST ACCipENT Lsgulp & CAS smsePLimG 1 t DC 'l PAM Till A(Tl088 k. LOCATIOst FQuflP. PLAf6 FOUIP. P.O. ID Iso. nPL pen. CostpDsefssT BLDG. ELEV. teOTE ( B ) sN7TE f 29 CoeuerNTS .o. J60)O l-pC-SV-0443A Solenoid Valve peactor 77 eso Yes iJ J60)O l-pC-SV-964)e Solenoid Valve peactor ?? soo ves l J6030 1-DC-ST-0645A Solomold Valve peact or 54 80 0 Tes yjg = l J68)O l-pC-ST-4645p Soleno6d Valve peactor 54 eso Tes J60 30 I-pC-SV-6646A Solemntd valve peect or 54 sso ves , i t t J60)O l-DC-SV-0646a Solenold Valve peactor 54 sao Ten 4 1 J60 D0 3-pC-SV-9797A Solenold Valve peact or 77 leo Tes J48 90 1-pC-SV-t?O7A Solenoid Valve poector 77 95 o Tes c. J60)O l-pC-SV-67204 -solenoid valve peect or 77 peo Tee t J64 )Q 3-DC-4V-872Sn solenoise valve poector 77

  1. sts Te9 M*-

J68)g I-sc-SV-ST294 solemnld valve peact or 77 pso Tee ab 9' J60)Q 3-DC-SV-9729e solenoid valve seatfor 77 son Yes J64 )Q 3-pC-SV-e7304 Solenald valve peact or 162 Iso Teg 4 J68)u l-sc-SV-07)ee Solemnld Valve peactor 862 seo Tee !+ J68 %Q 3-pC-SV-e7384 Solennld Valve peact or 162 see fee ,) J60 )G l-DC-SV-07 3 t es solenoid Valve peactor 162 sao Yes l 1 J6 e DQ I-pC-SV-e901A solenald Valve peact or 77 soo ves I J60)G I-DC-SV-8903m Solenoid Valve peactor 77 esa Tes J69 30 3-pC-IS-0643A Limit Switch peactor 77 Tes too J64)Q 3-DC-IS-064th Limit Switch peactor 77 Tes eso y l J68)O l-pC-25-0707A . Limit Sultch peact or ?? Tee No i J6e30 1-DC-2S-97078 Limit switcti peactor 77 Tes No J6030 5-pC-ts-07204 Limit Switete peact or 77 Ten wo i J6030 1-pC-25-072em Limit Switcle peactor 77 Tes No J68)O l-pC-IS-0729A Limit sw6 tete peact or 77 Tem Iso ' } 3 J60)O l-pC-IS-47299 Lielt Switch peact or 77 Tea feo J60)O l-pC-2S-0730A Limit Switch peact or 162 Yee esa J64)O l-pC-25-473en Lim 6t settets peactor 162 Ten No ? J60)O l-DC-IS-973tA Limit Switets peact or

  • 16 2 fee seo J68DO l->C-35-e?)la L6mit Switch peactor 162 Yes No J6030 3-SC-25-8993A Limit Switets peact or 77 Tes too J60)O l-DC-25-896)G Limit Switeln peactoe 77 Tee too
S' r.

t

3 9, m . e = s. w-- _. 7 mm y m-e m. ~. s. m. x, .gg4qc, m.a.m. +.~ q jg.. _. .c ~. ~ e E b .H .z I 1 g ba EI I cocootocco e e ocoococeeceeeccccccecccoocoe i z. zzzzazzazz a a azzazzzzzazzzzazzzzmazzzazzz -4R 5 EEE _>b e bbh =... sees===eseseeesemees=_=_b>>>,e a>>> meeseeee - _6 6 _> _ _ _ _ D _D D _====__m_mm m>> 3 = eeee= -=__= eeee>>>>eeswwww>>>>>>>>>>>>>>>>>>>esseeeege >>>wmw=,,,,,,,,,,,,,,,,,,,>>>>>>>>> .z.___,,, I ' ~!

  • E ! a l S S
  • E
  • e m e e t S E S S S i t t i E S S S S E S 2 3 2 ' !
  • 2 2 E E E i

~- 222 t-2222222222222222222--~~~~~~~ v u u v.c.o 2 8. 8 : : :b b.o.e.o.e.c.e.o.c.o.e.o.c.e.c.o.c.e.o 888888888 8888 .o 8 b b uuubbbb vuvuuuuuo o m e_ m - - m_ m_ m_ m m _ _ m_ m_ m m m e m

2. _ _ _ _ _ _ _ _ _ _ _ n ~ n n - - _. _. _. _. _. _....

a

n. n. n. n. n. n. n. n. n n n - - - - n. n n,.,. n n. n. n. n. n. n. n. n. n n n. n. n
n. n. n. n. n.

s assuuuu s z a r n - _... n.. n. _..u. -.. -...-..n.. m...nnm -..z ...._......_._. _v_. .s.. ..u ...z...... n-... n.... .........--m---... _a .....z.2.z..m.....................m.......m...... ->...........m... m.... m... m. >>>>>>>>>>>QQGD>>>>>>>>>>>>>>>>>>>>>>>>>>>>

z. z. E..... z z. a. k.. b.................... z z a z, z z a, z, z z

.x.. ...a 4...... a a s a.z.z.z.a a m a.a z z a a a.z z a 4. 4 4.. a ..s... i ??? ...??? .e n..a n a.n n a................ - - -.... - _... n e. n.e n -m-mm-mMmme g g gg. g m-m-mmmmm b bbbbbbbbbbb a a a saz a bbbbbbbbb

r-x- A; ? 4 ( } (p -- t ] j;2j< ) ' o; '+ q ', ,N,h- .l ' g.' } CF 5i ^ j r y?- .l*-. (

ti 3y.

jL ', *1 HCCS IS AR p l TABIE 3.Il-5 y,, FOulPMrNT SELECTED FOR NApSN ENVIRONMENT OUALIFICATION P&lD -y, M-41-1 Page 17 of 7%. Ik.' { STSTENs NUCLEAR 90lLEp AR l PAM TMI ACTION { l.DCATION FQtt lP. PIAN fWu ':', P.O. ID NO. MPL NO. COMPONENT BLDG. El.EV. NOTE lip NOTE 12) COMMENTS r P303AO I-As-HV-r0670' 525 Control Valve peact or 102 fro No N k ] i P303AQ 1-AB-HV-r070A M24* Control valve peactor 102 No No 9 P303AQ I-AR-NV-r0708 521 Control valve peect or 102 No No .l P303AO 1*AM-NY-r070C p23 Control valve peactor 102 No No P103AO l-AR-HV-r070D M23 Control Valve peactor 102 No No 't P303AQ 8-As-HV-r071 828 Control Valve peactor 102 No No M001 I-A B-Ptfr-N00 64 R23 Press Diff. Trane. Reactor 77 No No j M004 1-AS-PDT-N0068 R28 Press Diff. Trans. Reactor 77 No No 9 } M005 l-AD-Pur-N006C M21 Press Diff. Trans. Peactor 77 No No l l MGot 1-AS-PDT-M006D h25 Press Diff. Trans. Reactor 77 No No a i M005 1-A p-Pffr-N08 7 A p28 Press Diff. Trans. Reactor 77 No No / M001 1-An-Pl'T-N0878 D28 Press Diff. Trane, peactor 77 No No 2 M001 1-Ap-Ptvr-N00 7C M23 Press Diff. Trans. Reactor 77 No No t.' M005 l-An-PDT-N007D n23 Press Ulff. Trans. Reactor 77 No No

  • j,*

M001 3-As-Ptyr-N05 0 A p23 Press Diff. Trans. peactor 77 No No M001 1-AB-PDT-N0008 R21 Press Diff. Trans. Reactor 77 No No M005 3 An-Pirr-NON4C 521 Press Diff. Trane. Reactor 77 No No h M005 1-An-PDT-N008D h28 Press Diff. Trans. Reactor 77 No No MODI I-A n-Perr-NOS 9 A 821 Press Diff. Trans. React or 77 No No M001 l-Ah-PDT-N0098 825 Press Diff. Trans. peactor 77 No No j .;'4 M001 3-A> PtYr-N009C 525 Press Diff. Trans. Reactor 77 No No j <' t -~ MOOI l-AD-PDT-N001D R23 Preeg Diff. Trans. Reactor 77 No No 5 M005 5-An-PT-5838A Press. Trans. Reactor 102 No No M001 3-An-PT-5838B Press. Trans. Reactor 102 No No M001 l-As-SV-F022Al p21 Solenoid Valve peactor 100 No No j M001 1-Ah-SV-r022A2 R28 Solenoid Valve peactor 100 No No i h M005 l-AMSV-r022p3 923 solenoid valve pesct or 100 No No MODI l-An-SV-r022R2 p23 Solenoid Valve peactor 100 No No M001 1-An-SV-r022Cl R23 Solenold valve peact or 100 No No M005 l-An-SV-r022C2 R28 Solepolci Valve peactor 100 No No MOSI l-AM-SV-r022DI M25 Solepold Valve peact or 100 No No / MOSI l-An-SV-r022D2 h28 Solenoid valve peactor 100 No No MOOR l-AR-SV-r028Al B28 Solenoid Valve pe act o r 102 No No t M005 1-An-SV-r020A2 B2R Solenold Valve peactor 102 No No g M005 1-AD-SV-F029nl 921 Solenoid valve peact or 102 No No M001 1-AS-SV-r02982 B21 Solenoid valve peactor 802 No No d MOOR l-AR-SV-r020Cl A28 Solenoid Valvo peactor 102 No No 7 i;I l M005 l-As-SV-r020C2 921 Solenoid valve peactor 102 No No M001 3-AS-SV-r020DI 221 Solenoid Valve peactor 102 No No lkl M001 1-As-SV-r02eD2 mal Solenoid valve peactor 102 No No J5560 1-Sp-TE-36474 Temp. Eleet, peact or 54 Tes No p J5560 1-Ss-TE-36478 Temp. Eteet. Reactor 54 Yes No j 3 J5560 3-SB-TE-3647C Temp. Eleet, peactor 54 Tes No

  • P s

m .q eW .c ,.g., 2 1 v. .,J : 1 et s su f y'. y9, ?* t '.1 'g 3 'E ffCGS FSAR i TABLE 3.18-5 J EQUIPMENT SELECTED FOR PApSH ENVIDONMENT OUALIFICATION P6tp M-48-1 Parle 10 of 7' f SYSTEMS NUCLEAR BOILER 4 AR PAM TMI ACTION [ h. LOCATION rQUIP. PtAN M)U IP. P.O. ID NO. NFL No. COMPONENT BLDC. ELEV. NOTE Ill NOTE (21 COMMrNTS 4 Ql l: { J5560 1-Sn-TE-3647D Temp. Elemt. peactor 54 Yee ho [.' ' J5560 1-SB-TE-3647E Temp. Elemt. peactor 54 Tes No ,s .i 1 j,. J5560 3-SB-TE-3647F. Temp.,Elemt. peact nr 54 Yes No J5560 1-SB-TE-3647G Temp.'Elemt. Reactor 54 Yes No s C J5560 I-SB-TE-3647N Temp. Elemt. Reactor 54 Yes No '6 J5MO l-$3-TE-3647J Temp. Elemt. Reactor 54 Yes No 6 .) J5560 1-Sn-TE-3647E Temp. Elemt. Reactor 54 Yes No J5%O l-SD-TE-364?L Temp. Elemt. peactor 54 Tee No J5560 3-SB-TE-3647M Temp. Elemt. React or 54 Yes No q' L-J5560 l-Sn-TE-3647N Temp. E lemt. Reactor 54 Tes No J5560 1-Sa-TE-3647P Temp. Elemt. peactor 54 fee No J5560 1-sa-TE-36470 Temp. Elemt. peactor 54 Yes No e L .*e J5560 1-Sa-TE-3647R Temp. Elemt. React or 54 Yes No A J5560 3-88-TE-344eA temp. Eleme, peact or 54 Fee No J5560 1-So-TE-3640s Temp. Elemt. React or 54 Tes No J5560 1-Sa-TE-3640C Temp. Eleet, peactor 54 Yes No J5560 1-So-TP-16400 Temp. Elemt. React or 54 Ves No m005 3-An-13-N004A 921 Temp. Elemt. Deact or $25 No yes Mo05 3-Ah-TE-N0045 h28 Temp. Elemt. React or 128 No Yes MOO! l-An-TE-N004C R21 Temp. Elemt. Reactor 128 No Yes mu01 1-AR-TE-M004D h28 Temp. Elemt. pract or 121 No Yes i M005 l-A8-TE-N004E R28 Temp. Elemt. Deactor 125 No Yee J MOO) 3-AB-TE-M004F M25 Temp. Elemt. peact or 12I No Yes ' f M001 3 - AR-TE-M004G R28 Temp. Elemt. peactor 128 No Yes Muel I-AR-TE-N004H h28 Temp. Elemt. Reactor 121 No Yes Mool I-An-TE-N004J R21 Temp. Elemt. peactor 128 .No Ten MOSI l-Ah-TE-N004E R28 Temp. Elemt. Reactnr 121 No Yes g M004 1-AS-TE-N004L M24 Temp. Elemt. Reactor 128 No Ye s l MOOR l-AD-TE-N004M h28 Temp. Elemt. React or 128 No Yes 400t I-AS-TE-N004P R29 Temp. Elemt. peactor 128 No Yes MOOR

l. AB-T E-NOO 4 R 225 Temp. Elemt.

peact or 121 No 79e M005 l-AD-TE-N057A M25 Temp. Elemt. Reactor 102 No No M005 1-Ah-TE-N0578 R23 Temp. Elemt. peact or 102 No No COSI l-AD-TE-N057C R21 Temp. Elemt. Reactor 802 No No Noel 3-AFTE-N057D p23 Temp. Elemt. peact or 802 No No g MOSI l-Aa-TE-N057E 228 Temp. Elemt. Reactor 102 No No . g a M001 3-Ah-TE-N059 R23 Temp. Elemt. peact or 102 No No J0000 3-Ah-RE'-4507A Acountic Elemt. Reactor 128 No Tee J0000 3-AD-NE-4507R AcouetIc Elemt. Reactor 121 No Yes J0000 3-AS-NE-4507C Acoustic Elemt. Reactor 125 No Yes + J0000 1-AR-EE-450?D Acoust ic Eleet. Reactor 128' No Yes 3 Jt000 3-As-RE-4507E Acoustic Elemt. nesctor 102 No Yes J0000 l-Ah-3E-4507F . Acnuette Elemt. peact or 12I No Yes 4:-3 1' f (

.~. v 4 L V l f r i'. p .} - t r, i ,['ki l' 3 i , 'g. s y E f(, ' +k ~ l

i. '

3

1

[' ' k NCGS FSAR T Apt.E 1.II-5 I y 4 .- 4 FOfflPRENT SFI ECTED FOlt NASSN ENV!pONMENT CUALIFICATION P6lD A 7 ~ N-4 8 8 Page 59 of 75. i ? SY$ tdt setsCLEAR ROLLER 2 Am PAN TNI ACTION LOCATION FQttlP. PIAN IVUIP. ?* I P.O. ID 800 9 RPL NO. COf8PONENT BLOG. FLEV. INITE III NUTF 121 CfweseFMTS g f. l

  • i

.i a s c } 18000 1-An-X E-450?G - Acountic Elemt. practor 123 No Yes ~ .~ 10000 1-AB-RE-4507H Acoustic Elemt. Reactor 123 No Yes { ,I8000 I-Aa-sE-4507J Acoustle Elemt. Reactor 121 No Yes 1p000 1-AD-EE-4507E Acoust ic Elemt. Reactor 121 No Tem IA000 1-An-XE-4507L Acoustic Elemt. React or 128 No Yes .80000 1-AR-RE-4507N Acountic Elemt. Reactor 821 No Yes I 84000 1-As-RE-4507P/ Acount Ic Elemt. Reactor 121 No Yes a .00000 l-AR-ME-45073-Acoustic Elemt. Peactor 128 No Tem i f4000 1-AB-NT-4507A Acountle Trans. Reactor 12% No Yen p,J 10000 3-AS-XT-45078 Acoustic Trans. Reactor til No Yes j D . J s0000 1-AD-RT-4507C Acount le Trane, peactor 121 No Yes .r. In000 1-AR-MT-45070 Acouette Trans. Reactor 128 No Tes t,.. y[ -{: 18000 l'AR-MT-45079 Acount le Trans. Peact nr 328 No Yes 08000 3-AD-RT-4501F Acoustic Trane. Reacter $28 No Yes .t8000 1-AR-MT-4507c Acoustic Trana, p e act or 128 No Yes .50000 1-AR-XT-4507tl Aemantic Trane. Reactor 121 No Yom 38000 3-AB-MT-4507J Acoust ic Trann. Reactor 128 No Te9 1 .e0000 3-AR-ET-4507E Acoustic Trans. Reactor til No Yes 18000 1-An-NT-4507L Acoustic Trans, peact or 128 No Yes .38000 1-AB-RT-4507N Acoustic Trang. Reactor 128 No Yes g 85000 l-An-XT-4507P Acenegtle Trans. Reactor 128 No Yes {

  1. 8000 1-AB-IT-4507R Acoustic Trans.

Reactor 128 No Yen Pl020 1-AR-2S-F0l6 8.imit Sultch peactor 100 Yes No 7 r1820 1-AD-25-F019 8.i m i t Switch peactor 102 Yes No 9001 l-Ah-25-F022A B21 Limit Switch peactor 100 Tes No M005 l-AB-IS-F022n R28 Limit Switch peactor 100 Yes No M003 1-AR-Is-F022C 025 Limit switch peactor 100 Yes No / 4001 l-AR-35-F022D R23 l.imit Switch peactor 100 Tes No M005 l-AR-33-F0204 p28 Limit Switch peactor 102. Yes No M003 1-AB-IS-F0208 p23 Limit Switch peactor 102 Yes No 'l M003 3-AR-*S-F020C R21 Lielt Switch peactor 102 Yes No f k 9005 l-AS-15-F0200 821 Limit Switch peector .502 Tes No ele 2O l-AR-IS-F0324 Limit switch peact or 102 Tes No 4 P30 20 3-AR-35-F012R Limit Switch peactor 802 Yes No ) P301AO l-AD-Is-F0674 1.5mit switch peactor 802 Tes No P30 3AO l-AR-35-F067s Limit Switch peactor 102 Tes No PlelAO l-AR-ts-F067C Limit switch peact or 102 Yes No P 30 3AQ 3-AR-35-F067D 3.5mit Sw i t cle peactor 102 Tgs No P 90 20 3-AR-2S-F074A Limit Switch peactor 802 Yes No r P3020 I-AR-ts-F074n Limit switch peactor 102 von No j 9003 to-C OIS .4 21-PO I S Panel peact or 77 No No [ l4

I) 4

~ l {..l,.,.p ^i 4 I ^ , c.{,l-kif ,g v 1. 9 K l .: -3 'r, . 4: Je.. ~ Ll. - t Q t U r e, a + + i l A' = L ,i 4 seccs FSAR di - - TARLE 3.88-5 '.sp'. }M FQeelPseEseT SFt.ECTFD FOR MAasn ENvspounENT 00ALirICAftose P630 Page 2S ied, 74 ;( M-41-1 i } ; Ty g NTSTSm seuCLEAR DOILER-7 -r A. 9E PAN TMt ACTInee OnCAf tose FOsflP. PtA8e 50UIP. .. I : 1$( P.O. ID sed. NFL seo. CUseroseENT teLOG. ELEV. IsuTE (l) eeUTE (2) 00RRE88TS

  • , -.!(

t te h # N. *I meet IS-C 025 'k es28-PG25 Postel - I . J peactor 77 No No seeGI IS-C Set m21-PG48 Postel peacter 77 eso No fA= ~ se#8 8 19-C 042 te28-PG42 Panel peact or 77 No too N, [. ',e -f>' h_l E: ( ; (, [- 4 3, 4 / II 3... 4 .g 1 .) 2 i' c: +- k g* l'a t fi r + i 9 l l m. l 1:,. i 4 5 I l si l

, a. ; M t c g h"l

  • l-l 'l' f

.-Q-., 9 - a a d,. 3 g. j 'a ??_; y- . p, c-A s t fh. M.S Mi, 4 e r, 4 y- ' y + { c -T y We

  • Q

-g1:

  1. } i;.. ' ir t

N L s

  • b e.

4 1 8 } ;{ .J 4; r a .xs -a ) QLi ^ ' * 'j, 'vg .,O.* esCCS F5AR \\ thele 2.II-S '3 ) C. g. _ s. q4 P6It g re+pe 23'of 7% 3 E0HIPaurwT at*1PCTeo pop genesse Esevspan== east rueALIFILATloss s pe-4 2-3 5 i g.g i,. I ~_ %TSTtses supCLEAR entLEe WEsssL lasturt y \\, me IJiCATIose rees t P. PIAse Is0esIP. 'h*,.h' ' 34 - k ? Pass Tees ACTlose ~ J A 4 P.O. ID Isp. GW L em). CGIpeousEIst St3G. ELFV. OsDTE Ill IWW78 12 9 C'NWeEseTS %.I '~ . nM _ Up }j-s I sueel 1-se-PT-ee944 221 Pressere Tramoeitter peact or 862 eso see meel 3 -3e-77-80948

  1. 21 Pressere Traneeltter mesetor 162 eso eso

\\ i ' .. Ql, 7 .x' j sueel 1-Se-PT-ese94C

  1. 25 Pressure Trammeltter

.menctor 162 sto sto 9 1

  • esel l-ee-PT-ene940

- p23 Pressere Transetteer peactor 162 eso no asee t 3-t,a-PT-ee945 e25 Presses,-Transmitter nearter 162 soo een -+ -'~ 1 Pressere Traammitter seactor 162 ano eso l seeel 1-se-FT-es094F Ik2 B .4 2 9004 3-se-FT-ee94G Je28 Pressere Te enemitter peact or 562 see Iso \\- 3, ] =003 3-et-FT-es094st 328 Fresenere Transeltter peactor 162 sen soo jh 928 B.eeel Traeseltter teact or ?? peo feo reo# B l-pe-LT-30970 j s ' m28 Lesel Tsaammitter peactor 77 Iso Iso .i segel - 3-et-LT-se97F Meel ' l-DP - LT-=sG9 70 p23 Bseel Traneelt ter peactor 77 son geo j '9998 - 5-em-LT-ce97e 328 Level Traaneltter peactor 77 Iso geo r eleto 8-ce-rf-a9een2 Pr.esure Trameestler peactor Is2 7ee fee aselg 1-ss-yT-496es2 Preesere Tramenetter peactor B62 Tee Tee 7 )

  • esel 3-me-LT-esseen

- p23 aswel Transeltter peact or 77 see too 'b

  • emel 1-at-LT-estese.

m28 feeel Trammeltter peactor 77 sea ese b; } =005 1-se-LT-eastl4 L 328 Level Trememitter peact or ?? Tee Itu i steel 3-es-L1-e0989 928 B.eeel Trene sit ter peact or 77 fee seo ]' aseel 3-me-LT s#93C , 228 Level Treamoitter peactor 77 seo soo sesel 3-se-LT-ee95e 928 Level Treasaltter peact or-7? eso geo I [j l espel 1-ee-LT-ene98 E . 423 8.eeel T reaselt t er peact or 77 sea see l

  • seet l-pe-LT-enG9tF D21 Level Trameeltter peactor 77 see too
y.'j steel l-pe-LT-es098G 928 level Traaneltter peactor 77 see peo a

Mf ] , aseel l-se-LT-eee985 se25 Level Tramoeitter poactor 77 see een 1 I spe#I l-to-Per-es004e Cl2 Press elft. Trame. peact or 77 eso geo l aseel 1-se-FT-Esete C32 Pregeure Transmitter peector 77 geo ano j aseel 1-se-FT-te9784 - 225 Pressiere Transeltter teact or 77 seo too it i sueel 5-Be-FT-ce8709 D25 Preenere Trammeltter peactor 17 see po i aseel I-pe-yT-tee 994 D25 Preesere Trameeltter peactor 77 see peo 'A semel 3-se-rf-eneten e25 r Pressere Trasneeltter peactor 77 ano see 1, sesel 1-se-FT-u890E se25 Pressere Treammitter peact or 77 00 0 ese 1: ? 5s005 I-SS-PT-cee9er 321 Pressere Ts assomit ter peector 77 sto to 9-g 'geel 1-pS-py-asets2 ; p28 Pressere Trameeltter peactor _77 see too sensel 3-as-PT-see90s 939 Pressere Trasnoete ter peect os-77 eso. see 'L t{

  • esel 3-Se-FT-es09ees m2l Preemere Tresseeltter peact or 77 98 0 seo
  • (

fA 'seel 1-DE-PT-Iseter 928 Preesere Tsasemmitter peector ?? geo geo -i l q s .c 3 ye ^* } l ? } ( 4 1 i l i

~ ~ ic 6,f$.y p F 7 *; ff ig fN ^; es

f. ; y

^ it b

w'

,{ } -.y y- . E '- 't , I. " '.

=

ww-(4... s T ,7 - (. ; y . ~ . 3'

  • -g e

" hi a-t ? 4 bW sort:s esAs TA#LE 3.88-5 P6tD Page 22 e4 7% {; ,,j. BOHIFastes? SFLECTED plie esAsses Essvlarusserser gesALIFICATiese n-42-3 .1 - A i 3 e % :. q,i flh avs7sses supCtsam gesetse wEsset, leeTess / I [

i. } j se Pass TUDI ACTIOss

',J (- E.fiC A180se SOHIP. PEAst Fges se. I[,('.f' 1 5 ,e.e. ID esp. ePL ssO. Clasynmemy .eLec. ELEv. sepFE lil WOTE (2) CusesEssTS g. SWlat less Elset. Deact or 32% No sto teel 1-SE-RE-enee t A ' CSI. mediatlawe Eleet, peactne 328 me . soo vel ' l-SE-sE-esselC CSI Radlet less Elset. Peact or 323 eso son [ ' 'F yJj seel 8-SE-et-eeste CSI s - ^ isel 8-st-nE-eeele CSI a.dlatlee Eleme. Peactor 328 so no WI l-SE-SE-eee2A C4 8. passlat tese Eleet, peact er 325 see ese WI l-SE-SE-cotas CSI ' padiatlose Eleet. peactor 325 sto eso J~ lv 'seel 3-SE-SE-enee2C CSI eettatlose Eleet, peacter 325 se see ~~ t J f' Q' asel 3-SE-sE-eBee3p. Csl sa44ation Eleet. peact ar 825 suo ese uset 5-5E-88-ss8828 9 CSS mett at lass Eleet, peact or 328 sen eso seGI l-SE-st-esee2f Cil paastation Eleet, peactor 328 gen eso f me t 5-SE-st-sece2C CSI sett at lass Eleet. peact or 325 en soo meel I-SE-sE-see3n CSI maallat inst Eleet. peactor 125 seu 16 o P4 wel 4-ese-LT-ees t a e25 8.avel Trenam6tter peactor 77 see . soo g%. d-tuset 8-Sut-LT-smeels 328 s evel Treaseitter peacter 77 suo see i' tI

s WI l-SsD-LT-esse Ie 321 iseeI TrammeItter Deact at 77 eso see

=stel 8-issp-LT-es095m 92I 5evel Trassee6tter Deactor 77 eso eso j WI l-$ss-LT-eneG50

  1. 28 sewel Treasentter peact or 77 see eso

'4 elese 8-me-LT-M224 towel Treamm6tter peact ar 77 ves som eDelg B-Se-LT-M 2 29 towel Tranoellter peacter 842 fee eso stelg 8 -So-LT-M8 24 Level Trammeltter peactor ?? sao eso p' fleig 3-09-LT-Me2e Iswel Trasseeltter peactor 77 eso sen stelO I-ee-LT-Me m Level Tranoeltter peact er 77 00 0 soo e le to l-pe-LT-Me les 84veI Trameattter seacter 77 soo see sleI0 3-se-LT-7854 tswel Transetteer peactor 77 see ese

  • sel 3-to-LT-ses27 DJI iswel Treammitter peact er 77 sea see

-seel 1-ND-LT-seateC W.I iswe3 Transeitter 3,octor 77 sto ato 1849 l-to-LT-esecep 321 tewel Tramanitser peact or 77 soo eso ausel I-tub-LT-estelC 325 sevel Tramoeit ter peactor ?? eso see WI l-op-LT-esee%A P21 Bevel Transmit ter peactor 17 Tes soo peel 3-89-LT-teseSe 328 E4wel Transmit ter peactor 77 Tes eBo

l y

w jP e N 4 . h. s 4 I I.

..4, ~ ~ l "t~ 1 M;r g, '[ .) t 61b 4 c ph < ' = y [t yj, ,7 l 3g

s N..

Y

  • 2PrG r

- i.'! .S.' y < $1 ~

  • 6 i

s s f . p s. e r, p t 3 p s v 1 y s-( ~ .gJ r-2, ,v t' k. D "1' f la 1[j i g? N n- ' f. ~ ' ;5 -a HrCS FSAs !T = h TAntE 3.58-5 i,, -c o {3 " < ji l --.g

  • v

.e ' EQUIPMENT SELECTED POlt HApSH ENVlmONNENT OUALirtCATION PkID Page'53lof 14e p 3 . h-M-4 2 tw '['

YSTEN
estsCLEAR polLEst vessel iMStau nn 0...

PAN - TNI ACTION C3+ g*y LOrATION FOts t P. PLAN DDUIP. A' l'. f 6 '. O. ID 100. 9tPL NO. ' COftP000 Elf?

BLDG, ELEW.

NOTE ilI 8eOTE (28 CUstesFNTS I-f - i. 1001' 1-SA-LT-402A -- n21 l.evel Transmitter peact or 77 No No f

  • A,f idSi l-5A-LT-tI4028 028 Level Trangeltter peactor

?? No No

  • p!O R l-SA-LT-N402E p28 tweet Transmit ter peactor 77 No No

,.l

  • 91 3-sA-LT-N402r.'

n21 1.evel Transmit ter peactor 77 No No g a ,b ' *Ld l I-SA-PT-N403A R21 '8 Press Transmitter peactor 77 No No. .-S

    • ue l 1-SA-PT-N403n<

' N2n Freen Trannoitter peactor 17 No No 4'[ 2 twel 1-sn-Ptyr-N004A C32 Prean Diff. Tsang. React or 77 No. No '63 tes01. 1-De PDT-N004C. C32 Press Olft. Trans. Reactor 77 No fio ?0 '9401 3-me-PDT-NO32 1:28 Press Diff. Trans. Reactor 77 No No tgGI : 1-me-Pfff-N017 ' - (*3 2 Press Dlff. Trans. Meact or 17 No peo 4 86010. 3-sp-PT-3684A Pressure Transmitter peector 77 7es No n ,cg Preneure Transmit ter peactnr 77. Teo No 4. ht, e3010 1-ha-PT=J604n Pressure Trannoitter pea < tor 162 No No a - 6: 1 ,1tc 18010 l-r.s-s r-496043 4 89010 ' l-fate-PT-7 853A Pressure Transmitter 8 ten tor 77 No 90 0 l.< b l*) 88010 1-Sn-PT-7853D Prensure Transmitter peaact or ,77 NO No ,j T101 1-BR-PT-N005 C32 Preneure Transmitter peactor 77 No No "4

  • spel 1-BM-PT-N050A C73 Paessure Transmitter peactor 162 No No f I g er7

'9005 l -Ise-PT-N 05016, C71 Pressure Transmit ter 8teactor 162 No No s 3 . Js..' Q' Mool 8-ph-PT-N050Ci C73 Pregnes e Trennoitter peactor 16 2 No No - ~ V: J 1.1 8008 1-ten-PT-MG50D C?l Pregsure Transmitter peactor 162 - No No 3n0 4 1-BR-PT-N078C p2B Pressure Transmitter peact or 77 No No ' i' ' ~ MUOI l-pe-PT-NU70D D21 Prengure Transmitter peactor 77 - No No at001 l-en-PT-N403E H21 Press Transmitter peactor 77 No No w at001 1-SA-PT-N403P h21 Press Transmit ter peactor 77 No No a' I

  • t00 5 l-SA-pE-12Dl93.

pil Radiation Elemt. Reactor. 120 No No "\\ M005 1-Re-et-83Dl93 mil Radiation Elemt. peactor 120 No No ~

  • J j

e 'too l " l-pa-pE-14DB93 Bil Radiation Elemt. React or, 120 No No . ^ MuGI 3-De-pE-15Dl93 pil Itadiat ion Elemt. peactor 220 No No ~ '4001 3 -stt-p f - 9 6 ts19 3 HII Itadiat ion Elemt. peactor 120' No No MHul I-pe-pt-21Dl91 pil Radiation Elemt. peactor 120 ' No No 9001 3-pe-pt-220193' pil padletton Elemt. peactor 120 No No y 4 '.. M003 I-RA-RE-23Dl93 . pll Itadiation Elemt. Reactor ,820 No 90 0 .j? > t[. g -

f..t '

M003 ; l-85-RE-24Dl%2 Bit' Itadiation tient. Iteact or 120 No No 4 '9003 .l l-sG -ps-25 Dl 9 3 ell ' padiation Elemt. peactor 120 No No fin 9 5 - I-ps-ME-26Dl93 mil padistlon Elemt. 'peactor 120 No No at001 1-98-RE-27Dl93 mit Itadiat ion Elemt. _ peector 320 No No MuGI 1-Inn-RE-18 n19 3 pli nadiation Elemt. Reactor 120. No No padiation Elemt. Ite ac t or 320 No No 't M001 1-me-DE-32Dl93 nli. t; i f p p h + a W s y ) t 4 r

m.. y y 3 4c O w < *Mo A. m.

3. %

,s w ~ ,o b I 1 .i z! E! 5' O~ l

== s l E t !. 9~j' t~ I r l z I z I z f a z= z a l z z II-I z z z z z z z z z z z I z I z i z,a l a z e e e eo ce eo eeeeeeeeeee o e eo ce E z, - 3 I-E. a:e 4u .-1 t.. af f 22!a12fif!!!f!Ifif f!f!!if fif f f f!!!f fi i 5 5$9 z- >zw K 5 E s E-z W 0000000000o000000000000000000->-an--N~~~ . a. ~~~~_~~~~~~~.~_~~~~~_~~_~_~_~_~_~~~~_~.~-------0300 o b-E -Q M. E k L* a 4 4 hbbb bbbbbb bbbbb b b b b bb kb b bbbbb b bbbbbbbbbb O. s 8 .C.C.C.C.C.C.0 0 0.C.C.C.C.C.C.C.O.C.C.D.0 0 0.C.C.C.C.D C.C.C.C.C.C.C.O.C.C.C.O s R a h* H U.U U U U. U. U ..... U..U U U U. U U U U U U. U.U.U U U..U.U U U.U U. U. U U.U.U.U.U U o a. EEEEEEEEEEEaEEEEEEEEEE2EEaEEEEEEEEEEEEEE Cw-uw 4 W. >zw E h s e m.e r.s a.a s.e e.e e e s e a.s.e.e e.a e t a.e a s.e.a w .........................n. k CCCCCCCCCCCCCCCCCCCCCCCCCCCCC 0000000000CCc00COCCCCCCCCC0C .z...._.._._._....._._........_._._..._.0 T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. T. C C C. C. C. C C. C. C.C C. EEEEEEEEEEEEEEEEEEEEEEEEEEEEE&&&Lbb&&&&& 3 .+..O.-O--- O O 8 O. = ~O O O O O O ~~m*- E er OO zu M.

k. b.b. k. a. b. b.b. h. b. b.

x a _ - _ - - - _ - - - _ - - _ _ - - - - - _ - - _ - - - _ - - - - - _,, ~ ~ ~ ~ ~ ~ s -~~~ E ESSE. XEmazaaEEESESESESSEEEEEEEEEEEEEEEE .aw 5a E Q a -.0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.Q.0 Q 0 0 0.Q.0 0 0 0.Q e.e.. ~-~ -~- ~~ WMMMWWWWMM 2 MMoOOo_O.-O--- WEw MWWWWWWWWW ~~-*-- E EEEEEEEEEEEEEEEEEEEEEEEEEEEEROOOOOOoComo 2 A.A.A A i a a. 4 4 a A 14 a a.l a i.a l. a A. 4.

  • a a ' a ' u. u. u. u. u. u. u. u. u. u. u.

a .... E.. E. E... =. =....... =........ =. =... 00000000o00 .o to u------ km 5 1 e o.n 3093o003o300000o3000oo00000o0o00oooo0300 a L(. opo s e n o s s o c o n oc e s so = o = o o C o g o n oc on s o s o cc o EtKEttEEKKKEEEEEEKEEKEEEEKEEEKEEEEEEEEEE -n

w- } h- -}j s '{; q: _ ^

f h.'

- A y ' {; u r g s o

  • a t

It ',4 si. - .o .k. 4 4 i'. ]4, '.}

r. 3 -

tl: r 4' } .m. 5 e. IMCS FSAR TARLE 3.11-5 F.O'llPMENT sr.l.ECTF.D fDR IIARSif FMVlpONMt:NT Ol'Al.lFICATION P6tp M-43-1 Fage 25 of 7% d 8 YNT F.M DEACTOR PFCipC $Y3 98 PAN TMt ACTION LOCATION FQUIP. Pl.AN FUtil P. I'. O. I D NO. MPf. NO. COMPONENT R t.tC. FLFV. NOTE Iil 980TE 123 CO888E ENT N 4* IG I AO l-D F-NV-3 0 00 A Centrol' Valve React nr 77 No No e'IUSAO l-RF-NV-880Gd Cont rol Valve peactor ?? N9 Nn i elulO l-MM-FT-N014 A Finw Trans. React nr 77 No No 78080 1-BR-FT-N0145 Flow Trans. Reactnr 77 No M4 9 Flow Trans. Reactor 77 Na No 88080 l-RB-PT-N0 5 4C 19080 1-na-FT-NUB 4D Flew Trans. Reactor 17 NT No I 81010 1-na-FT-N024A Flem Trans. Deact or 77 No No BBORO l-na-FT-Nu248 Finw Trans. Reactor 77 No No r-83010 1-De-FT-Nd24C Flow Trans. pract or 77 No No 83010 !=HH-FT-N024D_ Firma Trans. Neartor 77 Nn Nn .l 86030 3-MM-SV-4310 solennld Valve React or 121 Yeg No .16030 l-hn-liv-4 5t l Solerwild Valvs peactor 145 Yes No e6010 1-BH-35-4310 Limit switch peact or 77 Yen No f 6UlO l-nn-Is-45tl I.imit swit ch pe act or 77 ves No l*80)AO l-BF-IS-3000A Limit Mwitch Peart er 77 Ten No

  • i

( t-v 20 3AO l-ar-Is-se00n L1=lt swle ch peact or 77 res No A i 4 l + e

<*l 1 t a I; e i: d g. / 'A 8 ? 9 HCCS FSAR 3i TANIE 3.11-5 'r F4ID Fage 26 of 7%' FQtBIPMFNT SFl.ECTED fY)R MARSH ENVIRONMENT OUAltflCATION N-44-8 MY9 kens PEACTOR NATER Ct.F AN-UP t DG FAN TNI ACTitwe I.OCATI(Wi fUllF. FLAN IVf lF. P.O. ID 900 NFL NO. COMPONENT RLDC. E l.E V. NOTF (ll NOTE (2) COfWIFNTS e+ E[ P1020 1-AE-HV-FO)9 G)) Contr. Valve peactor 102 No No P1020 1-eG-IS-F004 G)) Limit Switch peactor 145 Yes No Reactor 77 No No M001 1-9G-FT-N082A C)) Flow Trans. Reactor 102 No No N001 l-MG-FT-N0120 G)) Flow Trare. Peact or 77 No No M001 3-pG-FT*NO)64 G)) Flow Trans. peact or 77 No No MOOR l-nG-FT-NO)6D G)) Flow Trane, React or 102 No No 9001 1-PC-FT-N04tA G)) Flow Trans. M001 l-DG-FT*N041D 03) Flow Trana. Reactor 102 No No / P3020 3-nG-HV-F001. G)) Contr. Valve peact or 145 No No P1020 3-9G-HV-F004 G3) Contra valve Reactor 14% No No P3020 1-DG-HV-F054 C)I contr. Valve peactor ?? No No F3020 1-hG-HV-F035 c)) Contr. Valve peactor 77 No No at00 5 1-MG-TISH-N008 G)) Temp. Inificating Sw. High peactor, 77 No No P3020 4-pC-2S-F005 C)) 8.imi t switch peactor 145 Yes No P)G20 I-pG-IS-F039 Limit Hwltch peactor 102 Yes No 4001 10-C 002 H21-FUO2 Panel peactor 102 No No 'j f 4 Y et a

1 j - 3a 4 k s .7'. , i 'f k .e* h f, e 7 i 5 , 4, yf y3' j' V e J m P 4 S T N E' MM O 1 C D5 l4 6 - PN o NP Ol liiv29 rt4 A o NE N A. T I MlO N TPN O I TA C I ) F l. .( P o l 1E N A t MfT I O AVO PDN T NE MN O 5 R RI I V. V A I. N E 2 S F L 1 F) 1 O 1 NF S F. S I GI R T CH A A r HA H C o EO. 0. t T R c U a 1 e P 8 R 8 ) EE TC E. lE S T NrM P l l'O F ev l T a N V .E - N O r 9 P t M n O o C C v R E O. N l

  • L A

R P E M N I M 7 F ) t t I' / R E T 0 ' L 8 I 9 F 3 t P V U i O N N G A p F D L4 I 1 Ch N 0 f 7 T 1 0, 0 S Y J

l' 6 ? e. i ise )1 1', / ega P ST N E M MO 8 C D6 l4 t Ff o NP OI J ITV2D CG$ A so NE A. T e t ) Ml H TPD NO I TA C l I l F .I lI. P o IE N A MUT ll AOO O PFN T N F. MN 5 O R R1 E V. A1 V F3 F. NEtt S N 4 5 e O S E. i I Gt S T Cn R A r HA A C o T H lO. 0. tc R 8 a U 1 e F B R D E TC E. l E S T N t M P t i tQ E ev l T a N V E N O r P t M n f o ' C C A O T N R A P .I P M D T f i E V e _ I R D 5 D s 00 m O 4 B O O. V L H R M r T p N D Dr CB I l M T 10 r Y< ,O. l S 0 8 )'

_,. -r 5 -- .T j 1 J li'

f E

3 e 6; ',C, e p. 1 ' N k J+ HCt;S FSAR 6 TARLE 3.II-5 EOUlrMENT SELECTED FOR HARSH ENVipOMMENT QUALIrtCATION P6lD rage 29 of 74 5:g g M-47-1 SYSTEMS CONTpoL 900 fullVE NYD-PART B Br PAM TMI ACTitW8 E LOCATION EQURP. PLAN EQUIP. ) P.O. I D NO. MPL NO. COMPONENT B Lor.. ELEY. NOTE II) NOTE 12) COMMENTS M001 1-pr-LT-N012A C'l l I.evel Trane peact or 102 No No M001 1-nF-LT-N012e Cll Level Trans peactor 102 No No M001 3-RF-LT-N012C. Cil Level Trana peact or 102 No No M001 1-8F-LT-N082D Cil Level Trane peactor 102 No No 4' M005 1 -R F-LS-N013 A Cil I. eve l Swi tch peactor 102 No No MOOR I-8F-LS-N0838 Cll f.evel Switch peactor 102 No No N001 1-O r-LS-N0 l 3C Cil Level Switch peactor 102 No No 4005 l-Br-Ls-N013D Cll Level Switrh peactor 102 No No f M003 3-pr-IS-Mo l 3 E Cll Level Switch peact or 102 No No N004 l-Br-l.S-NOllr Cll f.evel Switch peactor 102 No No MOOI l-HF-l.5-N0 8 30 Cll Level Switch peact or 102 No No M005 l-Br-LS-N013N Cl3 Level Switch peactor 102 No Ne p M001 1-ar-SV-I t ? Cll Solenold valve peactor 102 No No M001 3-BF-SV-r009A Cll Solenold Valve peactor 102 No No Mu05 l-pr-SV-r0098 Cll Solenold Valve peact or 102 No No M001 8-BF-SV-ril0A Cll Solenoid Valve peactor 102 No No M001 1-Rr-SV-r110R Cll Solenold Valve peactor 102 No No M003 l-pr-SV-Fl60A Cll Solencid Valve peactor 102 No No M001 1-pr-SV-Fl60s Cl3 Solenoid valve peactor 102 No No M005 l-Br-sV-r162A Cll Solenold Valve peactor 102 No No M001 1-Br-SV-Fl628 Cll Solenoid Valve peactor 102 No No M001 1-BF-SV-F162C Cll Solenoid valve peactor 102 No No M001 3-Mr-SV-r162D Cll Solenold Valve peactor 102 No No M001 1-pr-SV-F163A Cl3 Solenold Valve peactor 102 No No M001 1-pr-SV-F l 6 38 Cil Solenoid valve peact or 102 No No M004 l-pr-SV-r182A Cl3 Solenold Valve peactor 102 MO No M001 1-Br-SV-Fl82R Cil Solenoid Valve peactor 102 No No .I M005 1-Br-TRS-90le. Cil Temp. Recorder peactor 102 No No MOOR l=pr-SS-r080. CII-reI0 Limit Switch peact o r 102 No No y M005 l-Br-IS-r0l! Cll-roll I.imit Swit ch peactor 102 No No 7, g; M001 10-C 007 H21-P007 Panel peactor B02 No No l' f .% s v

4 sI* ,Il"i ) . + jill1 gg s 9 a >,. c n# I 6 ? 3 E jAl' s 7 e c, f s Q;, o 5f l '

  1. he.)

l A 9 I / e wg ~ I STN F M ts f 1 O D8 l4 PM NPInl f TU2) t CF( A ooooooooooooooooo NE NNNNNNNNNNNNNNNNN I AT MLO N TPN O I TAC I l F l l. .( ss P oooooooooeeoooooo l lT A tE NNNNNNNNNYYNNNNNN H Mt O AQ0 PF80 T N E M M O 5 p R8 8 V V A1 N E. 22225522255222228 S E t 166664466644666660 F3 l O 1111111111111112 NF i S E. N I C! R T Ch A

  • A r r. rrrrrrrrrrrrrrr HA lt M

oe oooooooainoooooo T f tt ttt ttt ttt t tt ttt R LC crccccccccccccccc O I .aaaaaaaaaaaaaaaaa F L eeeeeeeeeeeeeeeee B ppRPppRpRppRpRRRp D F FC F. t ee F vv S laa l T VV NF li M on P rr l tt f nn tU on F CC ee.ddhh vv t. seeccnssse l rr .aniltt nnnnn T oo..VVaffii aaaae i N. tt ril wwrrrrr .[ oowwllTsessTTTTT N', E N mMSSoo ss O rrmaatt slllll P ppddt t allii seeeee M,mmnnnneccmmevvvvn O u u a a o o r n n l. i. r e. e. L 1e e. Pa C PPHHCCPUUllP11 N* 11 l O. 00 i 00 i N CC N AA f* L 185l3311188111181 P 44444444444444442 p 5 M CCCCCCCCCCCCCCCCI I 0 18 T N) I O b l ARAApApBAsEF ) l 664446640o0011 i A80000000O1l tQ I 440000000O0000 S8FFNFFFFNNNNN L 00 - - - - - - - - - - - - - l 0 0 S S V V T V V 8 s T T. L L L OT 7. T i Y 22MHHHPXX1aPl R O. D N PPHHet lHHtts t - - - + N AnHDDppOBMIniil HHHC i ie DppnM-A D 0 TH I 111113515lI1111l1 SD s M QQ OO F AA AA / .( T 11511)311334111I1 Y A*- O. 000000000000000D0 . j S 000033000330000O0 T' M P MMMMPPMMMPPMMMHMM l

{. 1 l j y .) 6-A 4 HCGS FSAp TABLE 3.ll-5 EOfflPNFNT SELECTED FUR HAPSH FNVIRONMENT OHALIFICATites P6tD Page 3% ofc # *. M-49-8 SYSTEMS REACTop CDet ISOL CrM)L. BD PAN TMI ACT I ON ISCATION EQUIP. PLAN EQUIP. P.O. I D Ho. MPL No. COMPONENT BLDG. E l. E V. NOTE I I I NOTE I28 COMMENTS P3020 1-FC-HV-F007 F51 Control Valve peact or 100 No No P3020 l-FC-HV-F000 E51 Control Valve peactor 102 No No P3010 1-FC-HV-F059-ESI Control Valve peactor 7F No No P303AO l-FC-HV-F060 E51 Control valve peactor 54 No No ,e-P30lO l-FC-HV-F062 ESI Control Valve peactor 54 No No P303AO l-FC-HV-F076 E58 Control valve peactor 100 No No y = ,4 P3010 1-FC-HV-F004 Eit Cnntrol valve peactor 77 No No N001 1-FC-PT-N05en E51 Press. Trane peactor 77 No No M004 l-FC-PT-N 0 50 0 ESI Prens. Trane peactor 77 No No M001 1-DC-PT-M050F E51 Press. Trano peactor 77 No No MuG1 3 - FC-PT-N058 N E51 Press. Trane peactor 77 No No Eil Solenold Valve peactor 54 No No P303AO l-FC-SV-F025 P303AO l-FC-S V-F0 26 ESI rolenolil Valve peactor 54 No No J600 l-FC-SV-F054 E51 Solenold valve peactor 54 No No ' s, P3010 1-FC-IS-F059 E51 Limit switch peactor 77 Yes No P30lO l-FC-IS-F062 ESI Limit Switch peactor 54 Ye s No P303A0 1-FC-IS-F076 ESI l.imit Switch peactor 100 Yes No (' / P3010 1-FC-IS-F084 E51 1.imit Switch peactor 77 Yes No J30lO l-BD-FT-4158 Flow Trans. Reactor 54 No No M001 1-BD-FT-N003 E58 Flow Trans peactor 54 Yes No C* N005 l-BD-FT-N05 8 E55 Flow Trane peact or 54 No No P3010 1 - B D-H V-F 010 ESI Control Valve peactor 54 No No P3020 1-BD-HV-F012 F.51 Control Valve peactor 54 No No P3020 l-BD-HV-F01) ESI Control valve peactor 102 No No J6030 1-BD-SV-F019 Solenoid Valve peactor 77 No No P3020 l -n D-HV-F0 2 2 til Control Valve peactor 77-No No P3010 3-nD-HV-F0 3 I E51 Control Valve peactor 54 - No No Mu04 1-FC-LSH-N010 til I.evel Switch High peactor 54 No No M001 1-FC-PIFT-N0578 FSB Press. Diff. Trane peact or 77 No No M005 1-FC-PDT-N057D E58 Press. Diff. Trans peactor 77 No No J30lO l-h D-PT-415 7 Press. Trane. Peact or 54 No No M001 4-BD-PT-N007 E51 - Press.'Trana-Remet or %4 No No N001 l - B D-PT-N 050 ESI Press. Trana peactor 54 No No P3020 1 - RD-IS-F0 07 ESI . Limit Rwitch peactor 100 Yes No P3020 1 - B D-I S-F 000 E58 Limi. Swltch peactor 102 Yes No P3020 I-DD-3 5-Fo l 3 E51 Limit Switch peactor 102 Yes No P303A l-h D-3 5 - F019 ESI Limit Switch peactor 77 Yes No P3010 1-eD-25-F035 E58 Limit switch peactor 54 Yes No P303AQ 1 - B D-2 S-F 060 E55 I.l mi t Switch peactor 54 Yes No M001 IO-C O l? H21-P037 Panel peactor 77-No No

1 . yjf 5 ,k; ^

g jy s o

a a, "p_,, a

f. 4 s t P

'#YT 9 t. a e& m. si E na E E -u e CD - en up 4 fa. E I s e f a. ~~ $ 8% Wpom. CCCCCCCCCCCCCCCCCCCCCCCCCCC ve 4 W ZZEz22222xx22x23zzE3zzEz2x2 m. >eO E. E. E >=4u k

== W 2EZE2 2232ZZEEZZZZZEEZZEE E e. 5 L E e= 2w I E e E= 4== 2 W er.

  • W wonNMewwwwwwwwwm>>

hm 3E em e c= e e am en en e en en ae un ie em e. *'. c. P w w w w w w w e rW E > in en em in in en en en da E k uE C ( b b h. 4s b b h. 4. b b 1. b 4. b 4. h. b t. b h. b h. h. b b

t. h.

Ed E y

    • C C. a*C.C C CC,* C.C..C..C..C..C. e m C

C C C. e e en e u e C,o e *C C e CCCCCC C a m-a

  • se E

a; yuuuGUuusuyuuuy uvuuuuuuuuuu eeeeeeeeeeeeeeeeeeeeeaeeeee ~ =J &eeeeeeeSe&eeeeeeteeee6e& ee E EEEEEEEEEEEEEEEEEEEEEEEEEEE W b M Ym k 2 bE b C P s."- E A D==

h. e C=
n. E C==

C O =e as C. 3 w C>

  • Oae3 e6EE e*

E t e DE 3 e.C >>D e e e== -. - a.D >Eeee

== >>a-E 4eeeeae accc*C .= = a e se .ccccccwee==3 e s e. e. e r b ee.me s-=3 et=.eaa>> .m e.b >b 6 i b s i.>> . b e > > > > E c e .a e3 6 e c E k k k k k k - T T.= EC 2 O J'a, 2 3 3C W

== C ** = e s-- g C * *.. hu b C C.e s e m e* e* a* e* e* e* e*t c c...e - ace CC s E

n. e a e a e ob b

w t omem)>ww 6 2 m e e m e e m.us e e G L= y em 8 e.s. .s. e C g>u c ess 3 > u & G. G .a. bs.s. be .--ase . C. b *2 h u y 6.e e b b b e c.a o e e s & G. 8. & G. E., en we H u. < en-a- y e NN NN NN N NNN 2O DO DO O OCO O CD DO DO O OCO 3 u 'as up Vu u uuu se as

== o. e e e o e e o e n .,3 m. se - ao em.-.= am m os m. - se

= = = =

A en== an am te en in e en. e er em w* en en em am en en so in em E M feb faa fel f.L M E M hT M M M M de E M M M M lab sub M - 4 W 2 e f e E es M e 8=e M P* *'m e og e 4 = e PoeECh28h P* e +w N m em om um um e w O

  • em m P* tM.

E

  • O N e in e a w z eg w es um ee in en en em e O O N N e S

O 8'i O O O NNO ewOOOOOONOO**N

  • b. re w l

h=zzz e meazzZzawbh e ee a e . = e. O us.a e e e e e e e o ezze e e e e eee 8. > k = e k. k 6= ee > 3= > > V.== es C. V > > > > b e. W > > m en m E G a. A N h h E =.2 N N G a a. a & C. am G 4A m m k > *e D C* i e * * *e e e e e e e e e e e e e e e e a e a. g a.O u u u u a s.u y y u u u u u y y u u u o EEEEEEhhhhhochhAhhem6m.bbbbbh u O,e e e e e e e e e e e e e e a e e e e e e e e a e me=============e=====.e e } e

=== se== en se se==== se se se==== es uu Eh Ee. O O e,e e s.i.O.== me.= N== e..e.-.= am = = me. - m se = -e== h 4 O O 4O E Ca O O O O S e O O D Es O O O O O C00000000ODO r m m o "J O D O O M & "3 E E E E E E a. O C 0 0 0 O O O D O O C O s=* w O D O .,'_ k .?[~ E r . b ;. E E E E E E E E E E E E E a. *3 E E E -. i l 1

? L: i 3< s ): . E t t A 1 l HOGS FM AR h TAHLE 3.51-5 r a t FGilPMFMT SELFCTED FOR HARSH FNVipONMENT QUALIFICAT.ON P68D Page 31 ot l '. l M-SI-l ( [ I; j f NYSTEM: DESIOU AL HEAT ptMOVAL SYSTEM j BC i I z l ID NO. MPL NO. COMMMtENT BLDG. ELEV. NOTE III NOTE 12) COMMENTS j*{ I PAM TNI ACTION EnrATION EOtIIP. PIAN 90U RP. l P.O. MOOR l-AP-202 Ell C002 RHR-Pump Motor React or 54 No No I M003 3-9P-202 Elk C002 pHR-Pump Motor Reactor ?4 No No MUG8 l-DC-CE-M00lA Ell Cnn<luctivity Elemt. peactor 54 No No I[ M005 1-9C-CE-N0018 Ell Conductivity Elemt. Reactor 54 No No 1 M005 3-CP-202 Ell C002 RH R-Mot or peact or 54 No No } M001 l-DP-202 . Ell C002, Jockey Pump Mo'or Reactor 54 No No - V M0020 3-CP-228 pH R-Mot or p*act or 54 No No M0020 1-DP-228 Jockey Pump Motor peactor 54 No No .33010 3-RC-FT-4435 Flow Trans. Reactor 77 No No J)010 I-bC-FT-446BA Flow Trans, peactor 77 Yes No 9 J1010 1-DC-FT-444tn Flow Trans. React or 77 Yes No J)DIO l-hC-FT-4462A Finw Trans. Reactor 102 Ves No J1010 1-RC-FT-4462R Flow Trans. Reactor 77 Yes No k f M001 3-DC-FT-N01) Ell Flow Trannoitter Reactor 102 No No MUOI l-PC-FT-N0154 Ell Flow Transmit ter p r act o r 77 Yes No I M001 1-PC-FT*N0524 Ell Plow Transmitter peactor 77 No No MU01 1-nc-FT-N015M Fil Flow Transmit ter peactor 77 Yes No Muel l-pC-FT-NOI5C Eli Flow Transmitter peactor 54 Yes No M001 1-pC-FT-N015D Ell Flow Transmitter peactor 54 Yes No M005 3-nc-PT-N052n Ell Flow Tranamitter Pe art nr 77 No No SI MJ01 4-AC-FT-N052C Ell Flow Tranamitter p e act o r 54 No No M004 l-nC-FT-N052D Ell Flow Transmitter Reactor 54 No No 9 - )( P3010 1-BC-HV-4420A Contrn! Valve pract or 77 No No P)DIO l-DC-HV-44208 Control valve practor 77 No No P3010 1-BC-HV-4428 Control Valve Reactor 77 No No P30340 1-pC-HV-4428 Control Valve peactor 77 No No { P3010 1-nc-HV-4439 Control Valve peactor 77 No No 'd P30lO l-BC-HV-FOO)A Ell Cont rol Valve Reactor $4 No No P3030 1-BC-HV-F00)n Ell Control Valve React or 54 No No P3010 1-DC-HV-F004A Ell Control Valve Reactor $4 No No P)010 1-nc-HV-F004n Ell control Valve peactor 54 No No P30lO l-RC-HV-F004C Ell Control Valve Reactor 54 No No i P)SIO l-8C-HV-F004D Ell Control Valve peactor 54 No No P1010 1-BC-HV-F006A Ell Control Valve Reactor .54 No No P3010 3-BC-HV-F0065 Ell cont rol valve peactor 54 No No P30lO l-pC-HV-F007A Ell Contrnt Valve peactor 94 No No [l I P3010 1-eC-nV-F007e Ell Control Valve React or 54 No No P30lO l-DC-HV-F007C Ell Control Valve Reactor 54 No No [ P3030 1-RC-HV-F007D Fil Control valve peactor 54 No No P3020 l-BC-HV-F000 Eli Control Valve Reactor 802 No No P3020 3-SC-HV-F009 Ell Contrni Valve peactor 102 No No j

s --,-, n pm ,,aq w gm

g_

y_ .;%4-.

... v-as.*

~ e i ~ l l 0 4 = l m p ' ~ E I s 1 t?e b W>Zw I C= m e. e g &E EL C= m Em hb$ 4 000Coc000COCCCCCCCCC000CCCCCOCCCCCCC0000CC EW EEEEEEEEEEEEEEEEEEEEZZZEEEEEEEEEEEEEEEEEEE 4 E "E - C = k4U m 6 m m ..m. J W EEEEEEEEZZ2EEEEEEEEZZEE2EEEEEEEEE EEEEEEEE 5 E=> Cog g bm m E 1 e. m E 4-E >a W, s= m W NNMMMMMNMMe wwweCocOOOOOcm,e k e a wwwwwnmememommmmm>>>wwwem>> m = EW ececem-mm---mmm -ececomemenem>>>>>>>cce>>>m P. W C QW E m Ue 4 h EE - C b bb wwwbbb wb b bw bbb bwwwbwwwb bbbkbbkbbbkbbbb CCCOOO L = = = w w w.C C.C C O C.C C C.C.C C.C.C.C C C.C C C C.C.C.C C C C C C O C O.O.C.C.C 3 w www ww w ww www wwwwewwe J L' uvuuuuuuuuuuuuuuuuuuuuvuuuuuuuuuuuuuuuuuvo O eseGegeseseeeseessegeseeseeSeee44 etesteeee J eeteeneeneseeseseeest eteseeseeseeenespeese g EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE C W 4W W mE ww.... = w.e s e e = = 5 ucccc w e=64.Se weewwww wp>>>>> --mm---mmm-m-mmm-m-mmmm-mmmmm--m-mmeuU.!!!!!!!!!!!!!!!!!!!!!!!!!!!! m emesseegeeseseeseeeeg esee

===- > > > > > > > > > > > > > > > > > > > > > > > > > >s e s e e s e e e e c>>>>>>>>>e&&=-m-E mmm-mmmmmmmmm-m==m---mm-----m-mm-mmp%NQQQC w ,a W em C C 0 0 C C 0 0 C C C C. C o c C C C C C C C C C 0 0 0 0 C C C C C c c wbbwwwwwwww wbwwbwb b b bwwb wwwwwbwwbwmmmeese odummommewowemo ouowwwmwewwwdewwwd wm esteeen [ 888888888888!8888888888888888888888*88:::: UUU UUU UU U UUU UUU UUU UUU UU U UU U UUU UU UUU JJbb&& EW O* M E m> J ---mmm-mmm---=-m----mmmmm m-mmmm---m-mm-m a m m m m m - m = = = m m - - - -- - - m m. W m W W -we mm-mmmmmmmmm-m-E WWWWWWWWWWWWWWWWWWWW WWWWWWWWWWWWWWW Y lm "E dSUO 4848d24E480048 4C4848 (ECE 48 4E40S Seeem O O m m e c e e m o m m -- m m e w e e m > O p p o s e m m e m m w e e -( m e m e c ' k( -mmmmm----mmmmmmmmmmMMww****demOOOOOOOOOOO W C000000000000000000000000000000m==6mEEEm O 0 0 2 2 2. E. E

m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m. m
m. m. m. m. m. m. m.......kuur 4

>>>>>>>>>>QQQQ E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. E. J. J. J. &. &. g g WWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWWW l m. W m

==--mm---mmm-mmmmme----mm--mmm-m-mmm-mmm-m i E 5e m m - m RR e m R~oR~o ooR ~oo o o o o oo o oRR m R~o o2222 oooo oo mm m---m-me= mmmmmmmmmmmm o <-A. 74 -,C m M -Q OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO m mm m m m m m m m m m mmm mm m m mm mm m me s mmm mm m mm O O O O Q O O W L b&&&b&&&&&&&&&&&&&ba&&b&b97b&bb&&&&EEEEEEE \\

t- .}

  • 1 f:q 'g

- i k! ' ) g i . ar,R yn Q g s.

l. ps.,

f s .6 f i' ) -~ b f i ~ "<,

i' 7

4 L' b . ys 4_ ' lt HCGM FS AD TARIE 3.II-5 EQUIPMFNT SELECTED POR HAPSH ENVipONMENT QUALIFICATION P 6 t la Page is et .I' g's M-St-I e.' SYSTEMS RESIDU AL HEAT REMOVAL SYSTEM BC PAM TMI ACTION LOCATION FOUIP. PIAN EVO IP. P.O. ID MO. MPl. NO. COMPONENT RLDG. ELEV. NOTE lll NOTE 12) CIM4MENTS M001 1-DC-Pt4-n060A Ell Press. Diff. Trans. Reactor 77 No No M001 1-pC-PDT-N060s Ell-Presse Dif f. Trans. Reactor 77 No No M001 I-BC-PT-NO 26 A Eli Press. Trenamitter peactor 77 No No M005 l-pC-PT-N026n Eli Press. Transmitter peactor 77 No No y M001 3 - pC-PT-N0 5 ) A Eli Press. Trans peactor 54 No No i M001 1-BC-PT-N0535 Ell Press. Trans peactor 54 No No 8 MOOR l-DC-PT-se05 30 Ell Press. Trans peact or 54 No No M005 l-pC-PT-N051D Ell Press. Trans pe act nr 54 No No 8 M001 1-ac-PT-N0558 Eli Press. Trans peactor 54 No No M001 1-hC-PT-M055D Eli Press. Trans peactor 54 No No MOUI l-pC-PT-N055F Eli Press. Trans peact or 54 No No M001 1-DC-PT-N0 5561 Eli Press. Trans peactor 54 No N3 MODI l-pC-PT-N0568 Ell Press. Trans peact or 54 No No '4 4-M001 1-pC= PT-N 0 56 D Ril Press. Trans pa art or 54 No No i T! [' M001 l-SC-PT-N 0 5 6 F Eli Press. Trans peactor 54 No No c M001 1-BC-PT-N056M Eli Press. Trans peactor 54 No No M001 1-eC-PT-N057 Ett Press. Trans, peact or 77 No No M001 1-pC-PT-p003A Ell Press I/P Converter peactor 77 No No M001 3-pC-PT-p00ln F. l l Press I/P Converter peact or 77 No No MOOR l-DC-1.T N006A Ell f.evel Transmitter peactor 54 No No M008 l-sC-SV-F041A Eli Solenoid valve peact or 100 No No MOOI l-HC-SV-F041n Ell Solenoid valve peactor 100 No No M001 1-pC-SV-F041C Ell Solenoid valve peact or 100 No No M001 1-SC-SV-F041D Ell Solenoid Valve peactor 100 No No M001 1-pC-SV-F050A Eli solenoid Valve peactor 100 No No M001 l-pC-SV-F050n Ell Solenoid Valve peactor 100 No No J60lO l-BC-SV-F051A Solenoid Valve peact or 77 No No J6080 l-DC-SV-FOste Solenoid valve peactor 77 No No J6010 1-pC-SV-F05)A Solenoid Valve peact or 54 No No J60lO l-BC-SV-F 0 5 31s solenold valve peactor 54 No No J60)O l-BC-SV-F079A Solepold Valve peact or 77 No No J60)O l-DC-SV-F0795 Solenoid Valve peactor 77 No No J60)O l-pC-SV-F080A Solenoid Valve peact or ' 54 No. No J60)O~ I-pc-SV-F080s solenoid Valve peactor 77 No No d P303AQ l-DC-SV-F122A Eli Solenold Valve peact or 100 No No P303AQ I-9C-SV-Fl228 D:ll Solenold Valve peactor 100 No No P303AQ 3-pC-SV-Fl46A Ell solenold Valve peactor 100 No No PSO3AQ l-pC-SV-Fl468 Solenold Valve peactor 100 No No I P303AQ 3-HC-SV-F146C Notenold Valve peactor 100 No No P303AO l-pC-SV-F1460 solenold Valve peactor 100 No No J5560 1-pC-TE-4401 Temp. Elemt. pract or 77 No No i M001 3-pC-TE-N027A Ell Temp. Element peactor 77 Yes No M001 l-pC-TE-N027n Ell Temp. Element peact or 77 Yes No

l l l l i l l NCGs FS As TABLE 3.11-5 l FoulFmFNT SELECTED R1e HApSN ENV!pONmENT @f ALIFICATION P6BD Page 36 of 7* N-51-1 l MTSTEms ptsitnJAL NEAT BFNOVAL SYSTEN l NC fag TNI ACTime ISTAfinN FQUIP. FIAN FOulP. P.O. 10 No. NPL No. Cos*Ft.mn fMT P LTE ILEV. NOTE ll) NUTE E2) G_ena_f M TS 4 P303AO l-#C-IE-F103A Fil Poeltlan Fleet. peactor 77 No No P303AO l-BC-IE-FIO3R E l l_ Positlom Elemt. psactor 77 No No ) P303AO l-sc-tE-F1044 Eli Position Elemt. React or 77 No No l P303AQ 1-9C-!E-Fl049 Fil Poettien Elemt. peacter 77 No No P1010 1-pC-IS-44'0A Limit Switch peact or 77 Tes No i l P3010 1-bC-IS-4420s Limit Nwitch peector 77 Yes No P30lO l-BC-25-4423 l.imit Switch peactor 77 Tes No P30lO l-pC-IS-r0044 Fil Llmet Switch peactor 54 tes No P30lO l-sc-IS-F0048 FII Limit Switch peactar 54 Yes Na P30lO l-hC-25-F004C Fil limit Swit ch pe act or 54 Yes Nn P30lO l-BC-25-F004D Eli Limit switch peector 54 Yes No i l P30lO l-pC-25-F0074 LII Limit Swit ch peactor 54 Yes No P30lO l-PC-25-F0075 Fil Limit Switch p e act or $4 Yes No P30lO l-hC-25-F007C Eli Limit switch peactnr 54 Tc= un P3010 1-hC-33-F007D Fil Limit Switch peact nr 54 fee No P3020 1-bC-25-F000 Fil I.i ni t Switch peactor 102 tes Nn P302Q I-BC-25-F009 Ell Limit switch peact or 102 fee No P30lO l-hC-IS-F080A rll Lielt Swlerh peactor 54 Yes No P30lO l-DC F0 l o n Ell Limit Switch peact nr 54 Tes No P30lO l-sC-25-Fell 4 Eli I. i m i t Switch p* actor 54 Tes No PROlO l-hC-25-F0lln Fil Limit Switch ac act or 54 Tes No P3020 I-hC-IS-Ful5A Fil B.imit Switch teactor 102 Yes un F30 22 1-DC-IS-F085R Ell Limit Switch peact o r 102 vee No P30lO l-nc-25-FoI64 Eli

8. l e l t switch peactor 102 Tes No P30lO I-9C-25-F0168 Ell limit Swltch peact or 102 Teg No P3020 1-BC-25-FOI74 Ell I.imit Switch peactor 102 Tes No P3020 1-SC-25-F017p Ell Llelt Switch peact or 102 fee No P3020 1-nc-IS-F017C Fil I. i n i t Switch peactor 802 Tes No P3020 1-9C-IS-F017D Ell Ilmtt Switch pe act or 182 Ten No P3010 1-bC-IS-F02tA Eli Limit Switch peactor 102 veg No P3010 1-pC-IS-F0218 Ell 4.imit Switch peactor 132 Yes No P3020 1-hC-2S-F022 Ell Limit Sw it ch peactor 145 Yes No P3020 l-sC-IS-F023 Eli Llmlt Switch peactnr

'I45 Tes No P30B0 3-pC-IS-F024A Ell Limit Switch pear *- Tee No P3SIO l-DC-IS-F024R Ell Limit Switch Yes No P3010 1-nc-IS-F027A Ell Limit Switch Yes No P30tQ 1-DC-25-F0278 Eli Limit Switch Ten No P3020 1-pC-IS-F060A Ell Position Sw. No No P3020 3-sC-IS-F060s Ell Poeltion Sw. No No P3020 I-DC-IS-F065A Ell Positten Sw. No No P3020 1-BC-IS-F065a Ell Position Sw. No No P3020 1-nC-IS-F065C Eli Poettion Sv. No do p3020 1-mC-23-F065D Ell Posittna Sw. .00 No No 4 /

1 4

f. {.'

Lf;. + . d., ' ) .f ; '?1 5.: +. lf ? ?%w r y- . i

f. N r:

g,. 't j =,; HCGS F3 AR TABLE 3.83-5 EQUIPMENT SELECTED FOR HARSH ENVipONNENT OHALirlCATION P68D Page'37 oll7 a M-St-l 5 SYSTEM: RESIDUAL MEAT REMOVAL SYSTF.M DC FAM TMI ACTIt98 I,0 CATION FOHIP. PIAN QUIP. P.O. ID NO. NPL NO. COMPONENT BLUG. ELEV. NOTE III NOTE 12) Ct WIMEN'fS P3020 1-pC-2s-r077 Ell Position Sw. peact or 802 No No g. P303AO l-DC-25-P103A 1.imit switch Reactor 77 Yes. No P303AQ I-BC-25-F103p Iimit Switch peact or 77 Yes No MOOR 10-C OIS H2l-POIS Panel peactor 54 No - No M005 IO-C 021 H21-P028 Panel React or 54 No No Moul IO-C 061 H28-P069 Panel peactor 54 No No .t Y .,fg, e p 5 t i

  • %
  • t L

y r e i 'I 6 HCCS FSAp Tant.E 3.11-5 -,? q EQUIPMFNT SELFCTED FOR HARSH ENVipONMF.NT OUALIFICATION P6tD Page 30 of

  • M-52-1 SYSTEMS CONF SPPAY BE PAM TMI ALTION LOCATION EQUIP.

Pl.AM EQUIP. P.O. ID No. MPl. No. COMPONENT DLDG. ELEV. NOTE ( 1) NOTE 12) CretM rstTS M005 1-AP-206 E2B C005 Pump Motor peactor 54 No No M001 1-BP-206 E23 C001 Pump Motor peactor 54 No No M005 1-CP-206 E21 0001 Pump Motor peactor 54 No No M001 3 - DP-2 0 6 E28 C001 Pump Motor peactor 54 No No e MODI l-BE-FT-NOO3A EJB Flow Trans, peactor 54 Yes No el I MOUR l-pr-FT-N0038 C21 F lew Trans. Peactor 54 Yes No MODI I-RE-FT-N051A E21 Finw Trans. Reactor 54 No Na M001 1-at-FT-N051R E23 Flew Trang. Reactor 54 No No f P30lO l-RE-HV-FOCIA E23 Cont r. Valve penetor 54 No Ncn P30lO l-hE-HV-F0048 E24 contr. Valve peactor 54 No No P30lg 1 hE-HV-F00lC EJ1 ,contr. Valve peact or 54 No No P30lO l-BE-HV-F00lO E21 Contr. Valve peactor 54 No No P3020 4-sE-HV-r004A E21 Contr. Valve near tor 102 No No P3020 I-pE-HV-roote E23 Contr. valve peactor 102 No No .P3020 3-pt-HV-F005A F.21 Contr. Valwe peactor 102 No No P3020 1-RE-HV-F0058 E2B Contr. Valve peactor 102 No No M001 3-hE-PDT-N056 E24 Press. til f f. Trang. Peactor 77 No No M001 I-BE-PT-N054A E21 Press Trang. Reactor 54 No No M005 l-RE-PT-N054R E2l Prege Trann. Reactor 54 No No M001 l-pt-PT-N055n E23 Preme. Trans. Reactor 54 No No MODI l-RE-PT-N055D E23 Press. Trang. React or 54 No No M001 1-HE-PT-N055F E23 Press. Trang. Reactor 54 No No M001 1-HE-PT-N055H E21 Press. Trang. peact or 54 No No M001 1-HE-SV-F006A EJB Solenoid Valve peactor 100 No No MODI l-DE-SV-F006n E23 solenol<I valve peactor 100 No No P30lO l-BE-3S-F00lA E21 Limit Switch peactor 54 Yes No P3010 1-pt-2S-F0018 E24 Limit Switch peact or 54 Yes No P3010 1-9E-IS-F001C E21 Limit Switch peactor 54 Yes No P30lO l-BE-3S-F00lO E23 Limit Switch peact or 54 Yes No P3020 l-DE-IS-FOOSA E23 Limit Switch peactor 102 Yes No P3020 3-hE-25-F0058 E21 Limit Switch peactor 102 von No P303AQ I-RE-IS-7007A E21 Position SN peactor 100 No No P 30 3AO l-9E-IS-F0078 .E28 Position SN peactor 100 No No P3010 l-sE-Hy-Fol5A E24 contr. Valve peactor 77 No No P30lO l-at-IS-Fol5A E21 Limit Switch peactor 77 Yes No P3010 1-BE-etV-Fo l sa E23 ~ Conte. Valve peactor 77 No No P3010 l-BE-IS-F0158 E28 . Limit Switch peactor 77 Yes No P3010 1-pt-stV-F0 3 t A E2B Contr. Valve peactor 54 No No P30l0 3-eE-IS-F0 3I A E23 limit Switch peactor 54 Yns No P3030 1-RE-HV-F03tn E23 cont r. Valve peact or 54 No No P3010 1-ME-2$-F0319 E21 Limit Switch peactor 54 Yes No P303AQ l-DE-SV-F0394 E23 Holenoiel Valve peact or 100 No No P103AQ l-sp.-SV-F0 39p E23 Solenoict valve peactnr 100 No No P301AO l-hE F0 39n E21

1. i m i t Switch Heact or ind Yes No

v y y)_ jy ,g Dy' i; ' ,1 HCCS FSAR TAptE 3.14-5 EOulParMT SELECTED FOR HANSH ENVIRONNENT OOALIFICATION P&lD Page 39 of 7 % '. N-53-1 NYSTENs FUEL GOOL COOLING 6 TOpuS WTR CLEANUP EC FAN TN! ACTION LOCATION EVoIP. PLAN l'UUIP. P.O. ID NO. NPL 580 COMPO0fENT p t. fig. ELEV. seOTE Ill NOTF 12) CONNF.MYS P3010 1-EE-HV-4652 Control valve peactor 54 No No P30lO l-EE-SV-4655 solenold Valve peactor 54 No No P30lO l-EE-SV-4656 solenoid valve peactor 54 No No P30lO l-EE-SV-4663 solenoid Valve meactor 77 No No P30lO l-tE-HV-4679 Control Walvo peact or 54 No No P301Q I-EE-HV-46SO Contrnt Valve peactor 54 No No P3010 1-EE-HV-46sl Cont rol Valve peactor 54 No No agos}g 1-6p.2tl l' ump Not or peactor 162 No No N0020 l-RP-2ll Pump Notor peactor 162 No No .f3u30 l-EC-FT=4649A Flma Transmi t t er peactor 162 No No .33030 l-EC-FT-4649N Flow Transmitter peact or 362 No No .53010 I-EC-LT-466IA l.evel Transmitter peact or 162 No No 18080 1-rc-LT-4661n level Transmitter peact or 178 No No J1010 1-EC-PT-4669A Pressure Trannoitter peactor 162 No No .fl010 3-EC-PT-4669a Prengure Transmitter peactor 162 No No P3080 l-EC-SV-46764 Solenoid Valve peactor 77 No No P30lO l-EC-sV-4676n solenoid Valve peact or 77 No No P30lO l-EC-SV-4670 Solenold Valve peactor 77 No No P3083 l-EC-25-4652 8.imit Sultch peactor 54 Yes No P30lO I-EC-zs-4679 1.5mit Switch peactor 54 Yes No P3030 4-EC-Is-4680 1.im i t Switch peactor 54 Yes No P3080 1-EC-IS-46el Limit Switch peactor 54 Yes No

  1. 5560 l-EC-TE-4683 Temp. Elemt.

Reactor 162 No No P3010 1-EC-HV-4689A Control Valve peactor 162 No No P30lO l-EC-NV-46098 Cont rol Valve peact or 162 No No e e

I 4 HCCS FS AR T A RI.E 3.18-5 EQUIPMENT SELECTF.D FOR HApSH ENVlpONMFNT OUALIFICATION P&lD Page 40 of.7% M-5 5-1 MYSTEMt itIGH PRESS COOL. INJECTION BJ PAM TMI ACTION OCATION EQUIP. PLAN FJ)H I P. P.O. ID NO. MPL NO. COMPONFNT BLDG. ELEV. NOTE lll NOTE 12) COMMENTS P3020 1-AP-HV-Foll" Ett

  • Control valve peactor 77 No No M005 3-FD-FT-N000-E41 Flow Trans.

Reactor 54 Yes No P1020 1-FD-HV-F001 E41 Control valve peactor 54 No No P3020 l-FD-HV-F002 E45* Control valve peactor 100 No No P3020 1-FD-HV-F003 E4. 8 Control Valve peactor 102 No No P30lO l -FD-HV-F 0 7 5 F4) Control Valve peactor 77 No No P3010 1 -FD-HV-F 0 7 9 E48 Control valve peact or 77 No No P303AQ 1-FD-HV-F100 E45 Control Valve peactor 100 No No MOOR 3-FD-LSH-N014 E41 1.evel Switch High practor 54 No No M001 3 -F D-PDT-N05 74 Eel Press. Diff. Trans, peactor 77 No No q Mvol 1 - F D-PtFT-N 0 57C E41 Press. Diff. Trann, peactor 77 No No M001 3-FD-PT-N01) Eel Press. Trans. Reactor 51 No No M005 1-FD-PT-M05AA Ett Press. Transmitter peactor 47 No No

  1. ~

MuGI l-FI)-PT-M058C E41 Press. Transmitter paactor 77 No No Mn01 3-FD-PT-N05eE Eel Press. Transmitter peactor 77 No No M003 I-FD-PT-NOSSG E48 Press. Transmitter peactor 77 No No P303AO l-F D-SV-F0 2 0 E48 Solenoid Valve peact or 54 No No P303AQ 1-F D-SV-F 0 29 E41 Snlenold Valve peact or 54 No No J6000 1-FD-SV-F054 Solenoid Valve peactor 54 No No P3010 l-FD-HV-F078 Edl Control valve peactor 77 No No M005 1-BJ-FT-N051 F41 Flow Trans. peact or 54 No No P103AQ 1-BJ-HV-400) Control valve practor 54 No No PJ01AO I-BJ-HV-4804 Control valve peactor 54 No No P10 3AQ 1-BJ-HV-4865 Control valve peactor 54 No No Control Valve peactor 54 No No P303AO l-RJ-HV-4866 ~ Control Valve practor 102 No No P3020 1-BJ-HV-8278 P30lO l-BJ-HV-F004 E41 Control Valve peact or 54 No No P3020 1-SJ-HV-FOO6 E4B Control Valve peactor 102 No No P3020 l-RJ-HV-F007 Eel Control Valve peact or 54 No No P3020 l-RJ-HV-F000 E41 Control Valve poactor 77 No No P3020 l-pJ-HV-F012 E45 Control Valve peactor 54 No No P)oIQ I-pJ-HV-F042 E4I Control Valve peactor 54 No No .53010 1-RJ-LT-4eot Level Trans. Reactor 54 vem ves .53030 1 -8 3 -LT-4 5 05-l Level Trana. Reactor. 54 Yes No .89080 3-RJ-LT-4005-2 Level Trans. anact or 54 No

  • No M001 1-BJ-LT-N062A E41 Level Transmit ter peactor 54 No No M001 1-pJ-LT-N062E Ett Level Trane.

Reactor 54 No No J)010 1-RJ-PT-4771 Pream Trans. peactor 54 No No M001 1 - pJ - PT-N0 50 Eel Presn. Trans. Reactor 54 No No P30)AO l-R3-Is44003 Limit Switch peector 54 Vos No P103AO l-RJ-25-4004 Limit switch peactor 54 Yes No p)O)AQ 1-RJ-IS-4865-Limit Switch peactor 54 Yes No

1 ,L sb NCCS ES AR TAnLE 3. I I-5, EQUIPMENT SEl.ECTFD FOR HARSH ENVIRONMt.NT QUALIFICATION P6th Page 48 of 7*, N-5 5-1 SYSTEMS HICH PRESS COOL. IILJ ECTI(se MJ PAM-TMI ACTION LOCATION EQUIP. . PLAN fUtf lP. P.O. ID NO. MPt. 900. COMPONF.hT BLtWI. El.EV, NOTE (1) NOTE (21 CtNNef NTS P303AO I-sJ-2S-4866 Limit Switch peact or 54 Yeg No P3020 - 1-mJ-IS-8278 Limit Switch Reactor 102 Yes No P3020 1-RJ-25-F002 F41* Listt Switch peact or 100 Yes No P3020 3-RJ-IS-F003 E45 8.i m i t Switch peactor 802 Yes No P3020 3-RJ-IS-F006 E4B t.imit Switch Peact or 102 'Yes No P3020 I-BJ-25-r012 Ett Limit Switch Reactor 54 Yes No P3030 3-RJ-25-F042 Ett Limit Switch peact or 54-Yes No P3010 I-hJ-SS-F075 Ett I.imit Switch Reactor 77 Yes Na e P30lO l-BJ-3S-F075 Eel I.imit Switch peact or 77 Yes No 9 P3010 I-aJ-3S-F079 F.4 8 I.i ni t Switch React or 77 Yes No e P303AO I-RJ-IS-F100 E4l I.imi t Switch peactor - 100 Ye4 No, M001 IO-C 014 H28-P014 Panel React Or. 54 No No. M001 10-C Ol6 H21-Pol 4 Panel peactor 77 No No I + l 4 l

- a

s + m HCGS FSAp TARLE 3.11-5 EOttIPMFNT SFLf:CTED FOR HApSH ENVIRONMENT UUALIFIC ATION MID Page 42of t 's M-56-1 SYSTFMs HPCI PUMP TURRINE FD PAM TMI ACTItNt t.OCATION EQtilP. PI.AN tXMII P. P.O. ID NO. NPL NO. COMPOS 4ENT PLDG. ELEV. N(FFE I Il NOTE (2) COpeMENTS P303AO l-BJ-HV-7059 E41 Cont rol Valve peactor - 54 .No. No MODI l-RJ-PT-h052 Ett Press. Trann. Reactor' 54 No No MODI l-F D-PT-N 056 A rol Press. Trans, peactor 54 No No J30lO l-aJ-PT-4e91 Press Trans. Reactor 77 No No M0020 1-AP-220 Jockey Pump Motor peactor 54 No ' No q M005 1-F D-F v-4 0 79 E45 Finw cont rol Valve Actuator peactor 54 No Nn M005 1 - F D-FV-4 0 B0 Eel Finw contrnt Valve Actuator peactor 54 No No PJ20 1-FD-HV-4922 Control Valve peactor 54. No No M006 1-OP-233 Ann. Oil Pump Motor peactor 54 No No M001 1-BJ-PT-N05) Press. Trans. Reactor 54 No No MOOI l-FD-PT-NOS6E E4t Press. Trans. Reactor 54 No Nn MODI l-Fly PT-NO5SA E41 Press. Trans. Reactor 77 No No N001 l-FD-PT-N055C E45 Press. Trans, peactor 77 No Nn M001 - l-FD-PT-N055E E41 ' Press. Trans. Reactor 77 No No M005 1 - F D-PT-N 055G E41 Press. Trann, peact or 77 No No J6080 1-FD-SV-P025 solenoirt Valve peactor 54 No No P303AO l-FD-SV-P026 L48 Molenoid Valve peact or 54 No No e'

  • % e h

s g4 s x 1 7 -; i 5 1 IWT.S FS AR TARB.E 3.11-5 FOUIPMENT SEl.ECTED FOR HApSH ENVlpONMENT OHAl.frlCATION P 61 D Page 47 o 71 M-58-1 ] d SYSTEM: CONTAINMENT HYDROGF38 DECOMRIN ATirst SYSTEM GS PAM TMI ACTION 8.OCATION EQtitP. PLAN H)U IP. P.O. ID NO. MPL NO. COMPONENT DLOG. ELEV. NOTE Ill NOTE $2) COMMENTS M47AO l-AC-235 Power Panel peactor 162 No No i I M4740 1-AE-235 Heater peactor 162 No No .' s.. M47AO l-AS-205 ' Hydrngen Recomhiner peactor 162 No No A k? M47AO l-AV-235 ran Motor peactnr 162 No No ~A M47AO l-pC-235 Power Panel pe act or 162 No No. M47AO l-RE-215 Heater peactor 162 No No M47AO l-pS-205 . Hydrngen pecnabiner peact or 162 No No y M47AO l-DV-235 ran Motor peactor 162 No No M47AO l-GS-rf-5066 A Flow Trans. Reactor 162 No No M47AO l-GS-rT-50668 Plow Trans. Reactor 162 No No .i 0 ' M47AO l-GS-rT-5067A Flow Trane, peact or 162 No No M47AO l-GS-rf-50675 riow Trans. Reactor 162 No No P30lO l-GS-HV-5050A con t r. va l ve peact or 145 No Yen P30lO l-GS-HV-5050p Contr. Valve peactor 102 No Yen f P30lO l-GS-HV-5052A Cont r. Valve peact or 145 No Yen s P30lO l-GS-HV-50524 contr. Valve peactor 102 No Yeg P30lO l-GS-HV-50534 Contr. Valve peactnr 77 No Yes e P30lO l-CS-HV-5053R Contr. Valve peactor 77 No 7eg P30iO 1.CF HV-50544 Centr. valve peact or 77 No Yes P30lO l -GS-HV-50 5 4 R Contr. Valve peactor 77 No Yes P303AO l-GS-HV-50554 Cnntr. Valve peact or 54 No No Plo)AO l-GS-HV-5055M contr. valve pe act or 77 No No P303AO l-GS-ttv-50574 Contr. Valve scactor 54 No No P303AO l-GS-HV-5057M Cnntr. Valve peactor 77 No No M47AO I-GS-HV-5077A Cont r. Va l ve peact or 162 No No M47AO l-GS-HV-5077p Contr. Valve peactor 162 No No M47AO l -GS-IIV-50 7 8 A Cont r. Valve peact or 162 No No M47AO l-GS-HV-507PB Cont r. Va l ve peactor 162 No No M47AO l-GS-HV-50004 contr. valve peactor 162 No No M47AO l-CS-HV-5000H Contr. Valve peactor 162 No No f M47AO l-GS-PT-5 09 8 4 Preen. Trane, peact or 162 No No M47AO I-GS-PT-50909 Press. Trans. Peactor 162 No No M47AO l-GS-TE-5068A -Temp. Elemt. React or 162 No No e, i ' M47AO l-GS-TE-5068B Temp. Elemt. Reactnr 162 No No M47AO l-CS-TE-5069A Temp. Elemt. Reactor 162 No No l M47AO l-CS-TE-5069n Temp. Elemt. peactor 162 No No ^ M47AO l-GS-TE-50704 Temp. Eleet. React or 162 No No M47AO l-GS-TE-5070s Temp. Elemt. Reactor 162 No No M47AO I-GS-TE-5073A Temp. Elemt. React or 162 No No M47AO l-GS-TE-50738 Temp. Elemt. Reactor 162 No No M47AO I-GS-TE-5074Al Temp. Elemt. React or 162 No No M47AO l-GS-TE-5074A2 Temp. Elemt. Reactor 162 No No I 1 i I L

). l '. - A k I, i

7..

Y l.+ j - ; 3 3 e' s' .~

1. 3

'. '4.7 ) y;j ;, jj A I i$ )- jf - it l g - W 4 - d e, j c o m ,E-gq g 'l l NCGS FS AR TABLE 3.58-5 ( j EQUIPMENT SELECTED FOR HARSH ENVIRONMENT QUAI.3FICATION P63D Page.48 ol-?< M-5 R -l

'y w

SYSTEM: CONTAINMF.NT NfDRfM;De RECOMRIN ATi(se SYSTEM CM PAM TMI ACTION A I LOC AT ION FOHIP. PLAN IVUIP. '!I [i, P.O. ID NO. MPL NO. COMPONENT BLDG. ELEV. NOTE lli NOTEJ2) CtweMENTS c;) M47AO l-CS-TE-5074RI Temp. Elemt. Reactor 162 No No. g'. '( M47AO l-GS-TE-5074R2 Temp. Elemt. Reactor 162 No No s M47AO l-CS-TE-5075A Temp. Elemt. Reactor 162 No No .1 M47AQ 3-GS-TE-50758 Temp. Elemt. Reactor 162 No No Y M47AO l-CS-TE-5076A Temp. Elemt. Deartnr 162 No No y M47AQ 3-GS-TE-5076e Temp. Elemt. Reactor 162 No No M47AO l-GS-TE-5097A Temp. Elemt. React or 16 2 No No ( M47AO I-GS-TE-5097R Temp. Elemt. Reactor 162 No No = P30lO l-GS-IS-5050A 1.5mst Switch peart nr 145 Yes No P3010 1-Gs-35-5050m I.imit Switch Reactor 102 Yes No P3010 1-GS-IS-5052A Limit Switch React or 145 Yes No P30lg 1-08-18-5052R 1.5mli Nwilth React or 102 fee No h'~ l P3010 1-CS-Is-50534-1.lmit Switch Reactor 77 Yes No P)O10 1-GN-se-5053nl it.init swit et, Reactor 77 Yes No s yj, 6/- P3010 3-UN-2s-5054A ' Limit Rwitch peact air 77 Yee No P3010 1-cS-IS-5054R Limit Switch Reactor 77 Yes No ' j e . 6 h e M ,'4 -F 4 ) s +N p i o V ' lq

7p g .t F i. ,E 'S t , f: i N ..A .th H4CS FS AR -,, " h TARLE 3.88-5 s EQUIPMENT SELECTED FOlt HARSil ENVIRONMENT OuAl.f rtCATION P6tp Page 49 of 7. M-59-l -p SYSTEM: PalMART CONTAINMENT INSTRUME7tf CAS-EL PAM TMI ACTIoM l.OC ATifWe EOlllP. PIAN fQtI I P. P.O. ID NO. MPL NO. COMPONFNT pl.DG. ELEV. NOTE II) NOTE 12) rnMMENTS M480 3-AC-253 C<weressor A CTRL PNL peact or 512 No No .g ,., 7 Compressor instr. Gas peactor. 132 No No

3[

M400 l-AK-202 s M480 1-nc-283 Compresonor n CTRL fwL peact or 132 No No q, M400 I-sE-202 Compressor instr. cas peactor 132 No No M400 I-EL-H5-5137A-2 Hand Switch peactor 132 No No M400 1-EL-HS-Sl378-2 Hand Switch peactor 132 No No 'f P303AO l-EL-HV-5824A Control Valve peact or 102 No No g P303AO l-EL-HV-Sl24R Control Valve peactor 121 No No g J. P303AO l-EL-HV-51264 Cnntrol Valve peact or 102 No No P303AO l-EL NV-5826M Control Valve peactor 102 No No .l pO-P303AO l-EL-HV-Sl47 4 control valve p eact or 145 No No d 1I P303AO l-EL-HV-Sl40 Control Valve peact or 145 No No P303AO l-EL-HV-Sl52A Crme rn! Valve peactor 100 No No t P303AO l-EL-HV-5152n Control valve peactor 100 No No I P303AO l-EL-HV-5160A Control valve peact or 132 No No h 4 P303Au l-E L-stv-S i sons Control Valve smactor 132 No No P303AO l-EL-nV-Sl62 Control valve peactor 132 No No Lj P30)AO l-EL-HV-5172A Cont rol Valve peactor 102 No No P303AO l-EL-HV-Sl?2p control Valve peactor 102 No No M480 1 -E l.-MAH-50 3 t A Moisture Alarm High peactor 132 No No M400 1 - E L-M AH-50 318 Molature Alarm High peact or 132 No No M490 1-E L-ME-503 3 A Noisture Flement peactor 132 No No 4 'q

448tr I-El.-ME-5031n Nolsture Element peact or 132 No No j

M480 l-EL-PAH-58404 Press Alarm High Reactor i12 No No 4 M4&O l-E l.- P AH -S l 4 0 R Preeg Alarm High peactor 132 No No M480 1-El.-PAL *Sl42A Press Alarm I.ow peactor 132 No No M400 1-EL-PAL-Sl42n Press Alarm Low peactor 132 No No M400 1-E t.-PA L-5 8 4 54 Press Alarm raw anactor 132 No No M400 1-EL-pal.-S I 4 55 Press Alasm Inw peactor 112 No No M400 I-EL-PAL-5158A Press Alare Inw peactor ll2 No No M400 3-EL-PAL-5158n Press Alarm 1.ow meactor 132 No No M490 l-EL-PSH-SillA Press Swit ch High peactor 132 No No M480 l-El.- PSH-S I l l n Press Switch Hloh peact or 132 No No M490 3-EL-PSH-5140A Press swit ch High peactor 132 No No M480 1-EL-PSH-51404 Press Switch High peact or ' 132 No No g' M400 1 - E L-PSL-5130 A Prese Swit ch Low peactor 132 No No [ M480 'l-EL-PSL-51los Press Switch I.ow peaceor 132 No No M400 l-E L-PS L-514 2A Press Switch Low peactor 132 No No M400 1-EL-PSL-5842n Prese Switch Low peactor 132 No No h M400 3 -E L-PSil-514 5A Press switch Low peactor 132 No No h 's;

. h.. ' g = f. iQ W A l 1 ~ I k l r-r 7 3 ir HCGS nap TAHl.E 3.11-5 [ g l EOUIPMENT SELECTED FOR HANSM ENVipONMENT QUALIFICATION P&ln Page;$0 of)<'t M-59-I SYSTEM: PRIMARY CONTAINMENT INSTRUMENT GAS - EL PAM TMI ACTION 1.OCATION FOHIP. PIAN FOUIP. F,0. ID MO. MPL NO. COMPONENT

HLDG, ELFV.

NOTE (8) NOTE (21 COMMENTS M480 1-EL-PSL-51458 Press switch 1.ow neactor 132 No No M480 1 - E L-PS L-5158 A Press Switch Low peactnr 132 No No h-g M400 1-EL-PSL-5850m . Prens switch Lnw p r ac t o r 832 No No M400 1 - E L-P S LL-S I ) 2 A Press Switch Low Low peact or 132 No No E M490 l-EL-PSLL-5132n Prene Switch Low Low peact or 132 No No P303AO l-EL-SV-5154 Solenoid valve peactor 77 No No (' P303AO l-EL-SV-5855 Solenoid valve peactor 77 No No P303AQ I-EL-SV-51564 Solenoid valve peactor 132 No No P303Ao I-EL-SV-Sl56n Solenoid valve peact or 132 Nn No g Meno I-EL-sv-5157A solenoid valve peactor 112 No No M480 I-EL-SV-Sl57n Solenold Valve peact or 132 No No Pl03AO l-SE-SV-5161 Solenold valve peact or 100 No No 4400 1-EL-sV-5164A Solenold valve peact or 132 No No M480 l-EL-SV-5864s Solenoid valve peactor 132 No No M001 1-se-SV-J004A-l CSI solenoid Valve peact or 102 No No 051-J h 00 3 A El6 i M005 1-SE-SV-J004 A-2 i CSI . Solenoid Valve peactor 102 No No 051-J6003A E26 MODI l-SE-SV-J0044-3 ' C5I Solenold Valve peactor 102 No No 051-J6003n E16 M001 I-SE-SV-J 00 4 A-4 CSI Solenoid valve peactor 102 No

40 058-J600)n E26 M003 I-S E-SV-J0 0 4 4-5 CSI Solenold Val =e scactor 102 No No 058.16HU4 E16 M48Q 1-EL-TAH-Sl4BA Temp. Alarm High peactor 132 No No M480 l-EL-TAH-Sitta Temp. Alarm High peactor 132 No No M480 1-E L-T All-514 34 Temp. Alarm Hlyh peactor 132 No No M480 1-El.-T Ait-5 3 4 3n Temp. Alarm High peact or 132 No No i

M400 1-EL-TAH-5144A Temp. Alarm High peactor 132 No No y M480 1-EL-TAH-5144n Temp. Alarm High peact or 132 No No ( M480 l-EL-TAH-Sl59A Temp. Alarm High peactor I 12 No No P M480 1-EL-TAH-5159n Temp. Alare High peactor 132 No No M480 l-EL-TAH-5223A Temp. Alarm High practor I12 No No h M480 l-EL-TAH-522th Temp. Alarm High peactor 132 No No i M480 3-EL-TAH-5223A Temp. Alarm High peactor 132 No No { t - M480 1-Et.-TAH-5223R Temp. Alare High peact or 132 No No M480 1-EL-TSH-51414 Temp. Swit ch High peactor 132 No No } M480 l-EL-TSH-5141a Temp. Swi t ch H igh pe act o r. 132 No No f M480. I-E l.-TSH-S l 4 34 Temp. Switch High peactor 132 Nt3 Nn M480 1-EL-TSH-Sl43R Temp. Rwitch High peactt r 132 No No ( M480 I-EL-TSH-53444 Temp. Switch High peactor 132 No No M400 1-EL-TSH-5144n Temp. Switch High peactor 132 No No ' p M480 1-EL-TSH-51594 Temp. Switch High peactor 132 No No g M480 1-El.-TSH-5159a Temp. Switch High peactor 132 No No M480 1-E l.-TSH-5 22 8 A Temp. Switch High peactor 132 No No M480 I-EL-TSH-522tn Temp. Switch High peact or 132 No No M480 1-EL-TSH-5223A

  • Temp. Swi tcle High peactor 132 Men No i

7r p . f'd C y %' y, q h [ v '. A. 4, i i 1 -p, ':) ..r $.}! e-1'.'K 4 IfCCs r$AR T AHI.E 3.11-5 s EpstrMENT SrlECTED POR llARSH FNVIPONNF.NT Otf Al.lFICATION PhlD. 'Page 58 ol,. ', N;id p< 2 n-55-1 SYSTEMS PRinART CONTAINnEstt INSTINJseENT CAS f, NL ,7~ * -#4 PAM TMI ACTION l.OCATI(M EDIIIP. PLAN FOtl lP. P.O. ID NO. MPL NO. COMPONENT B LIWi. ELEV. NOTE (I) NOTE 12) OWNGENTS .M400 1-EL-TSH-52238-Temp. Switch High peact or 132 No No }t, ;$,. P303AO l-EL-Is-5126A l.im i t switch Reactor 102 Yes No 4/A $ { # (P303AO l-EL-IS-5326n q '. v _ 4-k.i Limit Switch peart nr 102 Vete No S

P 30140 1-E L- #S-5 3 4 7 Limit switch Reactor 145 Yes Nn P303AO I-KL-35-514e Limit switch Reactor 145 Yes No P303AQ 1-EL-28-Sl52A Limit switch peactor 100 Yem No l

P303AO l-sL-IS-5152n I.i mi t switch peactor. 100 Yes No ,l e.I P303AO l-E L-IS-5154 f.imit switch peactor 77 Yes No e Limit Swltch peact or 77 Yee No -1 P303AO l-EL-tit-5155 P303AO l-s L-IS-S t 6 l 'S I.I m i t Switch Reactor 100 Yes No 6 P30)AO l-sL-IS-5162 f.imit switch Peact nr 132 Yes No a 4 1 l ~. y 't yo 't + di o u ? ). i -r i "9 I .?

'.' ?, ,9t-i . s? ?O i, s )[ i / f,. '[ -i .,1 ' )*- f_ ,g. (,, 3 - .k.' ,\\? v ~ ~l h, ' .k. ]gi c s.

  • 1 '

s s b 1k .1 ' ,p 'i ep 'j ,.g i .h, 4 s,f t { HCCS FSAR ' E !,) 6 ~g ^ y .t, TAes.E 3.83-5 FOl'IPNFMT SELECTF.D PDP HAPSM ENVlmONNFNT QUALIFICATION P& lls P.m3e k 2 of Ti lQ N4 5 -1 1 SYSTENs LIOulD RADNASTE CnLLECTION 1[, #Q [J MS E PAN TM1 ACTION T, k s;. I:y ' ' r LOCATION E00lP. Pl.AN FOUIP. '1 h /' j P.O. ID 900 MPb'NO. ' COftPONENT BLDC. E LE V. 900TE ( 1) NOTE f2) CONNENTS w?a

9. p$l.

P30lO l-HB-NV-5262 cont rol valve peact or 77 No No ,4 ,.. '.g P3010

  • I*HB-HV-5275 Control valve peactor 77 No No P3010 1-HR-HV-F003 Gl4 Control Valve peactor 77 No No

'{ P3010 1-H8-HV-F004 Cl4 Control Valve peactor 77 No No '{~ P30lO l-HM-HV-F019 Cl4 Control Valve peact or 77 No No 9' + P3010 1-HH-HV-F020 Gl4 . Control valve peactor 77 No No PIGIO l-HR-IS-FOO) cl4 Limit Sultch peactor 77 Yes No 'i P3010 3-Hp-IS-F004 G14 f.imit Sultch peactor 77 Yes No b P)CIO l-HR-IS-F019 Cl4 f.imit Rwitch peactor 77 Yes No P30lO l-HM-IS*F020 Cl4 Limit switch peactor 77 Yes No h 5 1-4 9 e f ' I 1 1 i, r ' l '-4 ,. A 'i 3 E F.

= .q h[h l- + e -y l4 v f. 4 .i , fr: y{ , ' c-t. < : %j T w s 5 L. '_} - 3,. - 2 + N-b-9 J,

' ' ~ } ;

2 HCCS FSAR 4 y. ag w ,.2 T ABLI. J. l l-5 EQUIPMENT SFLECTED mR IIARSH ENVf pOMBeENT OtsALIFIdAf aIW . P&lD rage'il est i k,..- s .m M-%-0 .. p SYSTEMS SOLID SADes4STE 04t.ECTIose .} p.: ,2 teC PAM Yng ArTIOef ~ 3 c' = s- .J. 1-thCATIOt*' RQUIP. PLAN EQU(f. P.O. 10 300 IIPC 500 CopePO9eENT RLtf., ELgv. IsoTE (1) J IIOTE ( 2 5

  • CNE88TS

' y g ~ " 't P3850 I-Ces-Hv-554 3 Contr. valve peector 77< No No No No h P3GlQ 1-HC-NY-5551

Conte, valve Reactor 132,

g g, ? ' f ~.} i _p u' r 4 s' .,.;\\ 44 y,s -. + .,.y 'k 4 d b e. 'h ak t e s 4 ..e4 E' t Y b

.w < ++ -A n ye.% m 4 %.m,n w-m+ar c ..a- .c ~ ~ n . a ~ w. C . e T - ~ b TM. h[,- M m.,> ~.., s r i 1 e= E.1 I E E w u e cN-se I g e E. &. _ ~ t = -1 ELE >z>t>ZzEzz2211zz12ZE2E222Z>ZZE>>>>>>>> 5 Es> i l <OC k

8. W E ZW i

I I E e E.e z e i.; M Fe N 9e N N N 9e n eF 9e N re Pe re *e re N ne ne ce N ee N N N N N *e N N N *e N ee N N e m*

c. 0 0 0 0 0..c..*.
  • c. 0 0 0 0 0 0 0. 0. 0..o. 0 0. 0 0. 0 0. o. 0. P >
  • o. 0. 0 0 0. 0 0 0 bm z

zw

.....

m e. >. C. E mW E (,*, a 4 gz z kwbwhwkwkmb wwkkwwwbwwwbwwkbbbbbbwhkbbbb u .C.0 C.C..C.C..C.C.C.C.C..C.0.C.C.C.C.C.C.C C 0.C.C. 0.C..C.0 C C.C O C.C 0 0 0, 0 C E q= w ww ww ww

  • u w

c -g uvuuvuuvuuuuuuuuuuuusuvuuuuuuuuuuuuuuuu l h eeeeeeeeeeeeeeeeeeaeeeeeeeeeeeeeeeeeeee 4 eeeeet eeoeeeeeeeeeeeeeeeeoeoeeeeeeoeeoe g E EEEEEEEEEEEEEEEEERESEEEEEES&EEEEEEEEEEE C= h c w to I b. E eawh ( w >>eo E .o I e h. a. en. e l a, b e e vuuv .ee eeeeeaeeee e .b..>. >.> m> e.e, quie e e o e *==. 22222gg2 e e e e ** e e e eeeeeeaee e c c c C c c c c c e e e e e e e e e e e e = w w ee. e e e e e e u u u 9 u u.u.u, e eeeeeeeeecc>>>>>>>>>>===ccc>>>wwwwew k eee

==

2 h w as bw-6wwag 33333 333 > k k e > e= k > k b b === = ===.=.===== C C C C h w b T T..T. E m oc en es e a m W > > > =. i >>CCCCCCCCCC e = e o CCC eeeeeeeoe wwwwwww i e o e e e e e e e c. = =. a e a e e e e e 3 3 .h,.e,.h eaeeeaeeeaawwwwww. I y l eeeeeeeeeOCC"cCCcCCCCwwwwww-occ=EEEEEEE CcccCCCceeeeeee===E wwh wwwwmba= C5 -===== , * ~

s. a. & a a. a. L A & aw h u u u u u u u u u u a. a. 8. 8. a 8 a. E a m.a.J J.J.J.3 e.1

.e M .3 K a. ,As a v l N <e<E e4e<e4 e.*<*c<a4e=*<*ecesc<aeaceaea<a<<a <aseeans E C l m.n.e m m M m.e e m m m M m e e e e ce N m em em em M M m.6.e @.e @ s= k ee en e e e e aae em se e w & m ee N N Pe P* M w e6 th M w to e e sc. a s re N e6 em N es e e see m e e e e e e e e e o o e e e e e e e e e e en op en op e e e o o o e e e e e e e e en en en op # to en en en W d e en e6 e6 e6 e en to e6 e6 e o e e en en em 4 W W ep en en em em en to ep E e e e e e e e e > e.s.e.6. k te k.L >a.e. > > > > > > > > > > Q C.8. k e.ane > > > > e. 6. > > > I. e e e e e e e e e e e e e e e o e e e e e e o e e QQ6

a. A b a, & a. a. a b = 3 2 E E E E = 3 E a. s
8. en em as ce se e. De se es se se E

H Q e e e e e e * *e e e e e e e e e e e e e e e e e ee e e e ee e e e $ S E S $ $ E $ E S. S. a. S. S. 8. & & & & G. &.o2 eJ.e.e3 & a. e & &.e2 & a. & & & & G. & m 3 3 < < < < < < < & E as W as as as as as as as as a m as ed as as as as a as a as as as as as as as as as 2 O. .e.e..e..a..e..e. o= =..e..e..e..e.

e..e..o..e..o.e

.e..e..e..e..e..e..e. e.e.e..e..e..e..e..e. e =.e..e..e.e e e tt E O300000OOO 00O0S00000O ti.: o o o o o o o o o o o o o o o.o. o o o o o o o o o o o o o o o o o o o o o o o

0. 0. m m m.<. m< m< m< m< m< m< s e m m s%.0. 0 s<.e m< m< m< m m m m m s<e.<ii 44e 0000 da444 pe o

3-' "I >- ~ u. o g o g o g o q q e m.3 & A. & 4. G m =e m m m e w o.'s.'3.') "51 S. & 4. S. & & & S. & & & mmmm wmmommmmmmmmmme a - wp gaEaKEEEE7 & & A. a. & =3 s's e4

t .;], b ~ ji

,r 7,,

~ ~ e Y ' 6 3 s v p i ItCGS t% AR T A p t.E 3.11-5

  • 1 8

FOut rMENT set.ECTFD Fr* HApSH F.NVlpONNFNT OUAt.s rtC4 TION P6BD Page %$ of M-83-1 if. SYSTEM: pKACTop RLiv3. SUPPLY CONTROL DI Af;. CR 'l PAM TMI ACTION t.0 CATION EQUIP. PIAN FDUIP. Q._ ID NO. MPL NO. COMPONFNT 8 t.DG. ELEY. NOTE lll NOT F. _. 3 2 ) COM84TNTS ' .[- M18dAO l-cu-FSL-9377AA ~ riow Sw. tow peactor 145 No No M180A0 1-GU-FSt.-9 37 7 AR Flnw Sw. l.ow peactor 145 No No i M780AQ I-CU-FMt.-9 3 7 7pA .Finw Sw. l.ow peactor 178 No No s. M700A0 1-CU-FSL-9377ma Flow Sw. 3.nw . penetor 178 No No M780A0 l -CU-FSt.- 9 3 7 7CA Flow sw. s.ow peactor 145 No No M780A0 1-cu-FSL-9 3 7 7C8 ' Flow Sw. Low peactor 145 No No M780A0 1-cu-FSL-9377DA Flow sw. l.ow peact or 162 No No M780A0 1-GU-FSL-9377DR Finw Sw. 1.ow Peactnr 162 No No M780A0 l-CU-FT-9377A Flow Ts'ang. React or 145 No No M780A0 1-cu-FT-93778 Plow Trans. Reactor 178 84 o Ne !I f @f - M780A0 l-CU-FT-9377C Flow Trang. React or 145 Nu No e M780AQ 3-GU-FT-93?7D Flow Trann. Peactor 142 Ne Pfo M780Ao 1-cu-FT-9377E Flow Trang, peact or 162 No No f M780A0 l-CU-FT-9377F Fltne Trann. Reactor 162 No No l^ J30lO l-GU-FT-9394A Flow Trang. peart or ' 132 No No .-k J3010 1-Oti-FT-9 39 4 8 Flow Trang. Reactor 178 No No J3010 1-GU-FT-9394C Flow Trang. Reactor i12 No No J3010 3-CU-FT-93940 Flow Trans. Reactor 162 No No J)010 1-Gu-FT-9394R Flow Trang. Re act or 162 No No % {- J3010 1-GU-FT-9394F Flow Trann. Reactor 178 No No. j M7870 1-GU-HD-9377A-1 Hami Damger Actuator peact or 112 No No i M7170 1 -Ctf-HD-9 3 7 7 A-2 ff and Damger Actuator peactor 145 No No . 2 M7170 1 -GU-TID-9 3 7 7R-3 Hanel Damper Act uator pract or 178 No No M7t70 1-GU-HD-9 377 8-2 fland Damper Actuator practe r 178 .No No 'I M7170 1-CU-Ito-9377C-1 Hand Damger Actuatnr peact nr 132 No No g M7170 1-GU-HD-9377C-2 Hand Pomper Actuator peactor 145 No No w M7370 1-GU-HD-9377t>1 Hand Danger Actuator peact or 162 No No M7870 E -GH-HD-9 37787-2 Hand Damper Actuator peactor 162 No No M7870 1*G8-HD-9377E-l lland Damper Actuator peact or 162 No No M7870 1-CU-ftD-9377E-2 Hanet Damper Actuat or ' peactor 162 No No M7170 1-Cl?-HD-9 3 7 7F-2 . Hand Damgw r Actua t or ' peact or 178 No No M789AO I-GU-MT-9379A Molature Trans. Reactor 132 No No M780A0 1-cts-MT-9 37 9n Molature Trans. Peactor 178 No No M780A0 l-CU-MT-9379C Molgture Tranc. Reactor 132 No Na e M780A0 1-GU-MT-9379D Molature Trans, pe act or 162 Mei No M780A0 1-cu-NT-9379E Moteture Trans. Reactor 162 No No 1 M780A0 I-cu-MT-9379F Moleture Trann, peact or 178 No No M7860 1-fW-Mf-9379A Moteture Converter peactor 132 No No M7860 I*CU-MT.*93799 MOlSture Converter peactor 178 No No ~ f M7860 1-cU-MY-9379C Moleture Converter peactor 132 No Mo ' f M7860 1-GU-MY-93790 ' Mot eture Converter peactor 162 No No M7860 1-cu-MY-9 3 79E ..Moteture Converter peactor 162 No fro j n; ' * *.l .- / k

y-Y' l 5 l jX y 1 e

p.,, '. 1 g-M

~ lt 3 h b* g : -_Jf. - ^ n s no j, m + [ qg ^ T-a J

  • %7 HCGS FSAp j

TABLE 3.11-5 p, ) ,? w. FOtfil' MENT NELECTED fop HARSH ENVIRONMENT QUAL.IFICATION P6tD Page 44 of /$ '3 3 M-83-1 SYSTEM: REACTop pl.Drl. SUPPLY CONTROL DI AG. Cp E PAM TMI ACTION 1.nCATION EOts t P. I' TAN PUUIP. + P.O. I D NO. MPL NO. COMPONENT P LIMI. ELEV. NOT F' ll) NOTE 12) COMMENTS L; Mot e ture convert er peactor 87 8 No No ye M7860 1-Cu-MY-9379P 3 M70A0 1-GU-PDSH-9377Al Press. niff. Sw. High' peactor 132 No No M780A0 1-Cll-PD5H-9 3 7 7pl Press. Dif f. Sw. lin gh pe act o r 178 No No I M780A0 3-CU-PDSM-9377Cl Press. Diff. Sw. High peactor 13Z No No M700A0 1-GU-PD6H-9377DI Press. Diff. Sw. High peact or 86 2 No No M180A0 1-GU-FDSH-9377El Press. Diff. Sw. High peactor 162 No No M180A0 1-Clf-PDSH-9 37 7 F l Pres s. Dif f. Sw. High peactor 178 No No , {.- M180A0 l-Ctl-PDT-9 377 A Press. Diff. Trans. Peact or 132 No ' No

t. a 61 '

M780A0 1-CU-PDT-9377C Press. Diff. Trans. React or 132 No No DI M780A0 l-CU-PDT-9377D Press. Diff. Trans. Reactor 862 No No M700A0 1-GU-PDT-9377E Prene. Dif f. Trane. peact or 162 No No M700A0 I-GU-PDT-9377F . Pregs. Diff. Trang. Reactor 178 No No e M7280 1-GU-SV-9370s Solenatal Valve peact or 178 No No - gi 4 2d ,Solenold Velve peactor 162 No No M780AQ 1-CU-SV-9372C p, M7860 1-CU-TE-9377A , Temp. Elemt. Peact or 132 No No + M7860 l-CU-TE-9377n Temp. Elemt. peactor 178 No No M7860 1-GU-TE-9377C Temp. Fleet. peactor 112 No No M7860 1-CU-TE-9377D Temp. Elemt. peactor 162 No No M7860 1-GU-TE-9377E sTemp. Elemt. React or 162 No No M7860 1-CU-TE-9377r Temp. Elnet. unactor 178 No No N I' j/ h M700AQ l-CU-TE-9378A . Temp. Elemt. Reactor 1 12 No No M700AQ 1-GU-TE-9378H Temp. Elemt. Reactor 178 No No Y r M700A0 1-CU-TE-9378C Temp. Elemt. React or 132 No No M780A0 1-Cu-TE-9378D Temp. Elemt. peactor 162 No No 'j M780A0 1-CU-TE-9378E Temp. Elemt. React or 162 No No 3 M780A0 3-Cu-TE-9 37 8 r Temp. Elemt. Reactor 178 No No { 'N M7170 1-CT-2S-9372A 't.imit Switch peactor 145 Yes No M780A0 I-AC-281 Ifntt Cooler Ctrl Pnt, peactor 102 No No 1 M7130 1-AV-213 Fan 6 E-H Actuator peactor 132 No No M7860 1-AVE-213 Heater peactor 132 No No M71tQ 1-AVH-208 Unit Cooler peact or 54 No No ,e M7110 .I-AVH-209 linit Cooler peactor, 54 No No "n M7tio I-AVH-210 tin i t Coole r. React or 54 Ne No M7llo I-AVH-21I finit Cooler meactor 44 No No l. M7tIO l-AVH-214 Unit Cooler peactor 802 No No M700AQ I-DC-201 Unit Cooler Ctrl Pnt. Reactor 102 No No 'I M1130 3-8V-233 Fan 6 E-H Actuator peactor 178 No No M7860 l-pVE-213 Elea t e r peactor

78 No No M18to 1-nVH-200 linie cooler peact or 54 No No M7110 3-DVH-209 Unit Cooler peactor 54 No No

.f .1 M7810 1-hvH-210 Unit Cooler peactor 54 No No M7110 1-BVil-2 t l Unit Cooler peactor 54 No No .q

,c i, 9 = \\ }; e.'3 b 5' x s 6 ~ t. g +,4 HCCS FS Ap TApt.E 3.11-5 EQttlPMFNT SELECTEt3 FOR HANSH FMVipONMF.NT QUALIFICATION P&lD t' age $7 ni f-M-82-1 .j " t SYSTEMS REACTOR RLOG. SUPPLT CONTROL DIAG. Cp r FAM TMt ACTION I.OC AT!DN FOtllP. P(AN R)tIIP. r P.O. ID NO. MFL No. COMPONENT plDG. F l.FV. NOT E (1 ) NOTE 121 COMMENTS Uj M7110 l-BVH-214 48 nit Conle r peact or 102 No No 2 i M780A0 1-CC-281 tinit Cooler Ctrl Pnt. Reactor 102 No No M1130 I-CV-213 Fan 6 E-H Actuator peactor 132 No No M7860 1-CVE-213 Heater peactor 132 No No M7810 1-CVH-210 Unit Cnot e r React or 54 No No M7810 l-CVH-281 tinit Cooler peactor 54 No No [.' s M7110 l*CVH-284 Unit Cooler peactor 102 No No M780A0 1-DC-288 Unit Cooler Ctrl Pnt. Reactor 77 No No M7330 1-DV-283 Fan & E-H Actuator peactor 162 No No p M7860 1-D"E-213 Neatnr peactor 162 No No M7110 1-DVH-210 tinit Cnnlar peact or 54 No No M7tlO l-DVH-2tl Unit Cooler peactor 54 No No I lin i t Cnnle r peact or 102 No No C M7110 1-DVH 214 j. M7130 1-EV213 Fan 6 E-H Actuator peactor 162 No No r M7860 1-EVE-283 Heater peect or 162 No No f jl M7tlO l-EVH-210 tinit Cooler Reactnr 77 No No M7810 1-EVH-211 limit Cont e r peactor 54 No No M780A0 1-C R-FSL-9 381 Al Flow Sw. Low peact or 54 No No 3 M780A0 1-CD-FSL-9181A3 Flow Sw. Inw peact or 54 No N7 M780AQ 3 -CR-FNI.-9 3 81 H1 Plow Sw. Iow peactor 54 No No a M780AQ 1-CR-FSL-9381H3 Finw Sv. few peactor 54 No No M780A0 1-CR-FSL-9382Al Flow Sw. I.cne peactor 54 No No j M780A0 1-CR-FS t.-9 38 2 A 3 Finw Sw. Iow peactor 54 No No M780AO l-GR-FSL-938288 Flow Sw. t.ow peactor 54 No No M780AQ 1-CR-FSL-9302p) Finw Sw. Inw React or 54 No No M7804Q 1-CR-FSL-9 30 3 Al Flow Sw. t.ow peactor 54 No No a M780A0 l-CR-FSL-9383A3 Flow Sw. Inw peact or 54 No No M780A0 1-CR-FSL-9383nt Flow Sw. Low peactor 54 No No M780A0 1-CR-FSL-9383R3 Flow Sw. lew peact or 54 No No M780AQ I-CR-FSL-9 38 3Cl Flow Sw. Low peactor 59 No No M780A0 1-CR-FSL-9383C3 Finw Sw. Inw peactor 54 No No ( M780A0 1-CD-FSL-9303DB Flow Sw. Inw peactor 54 No No / M780AQ I-CR-FSL-938303 Finw Sw. Iow React or. 54 No No [ Q M780A0 1-CR-FSL-9383El Flow Sw. 8.nw peactor 77 No No M780A0 1-CR-rSL-9303E3 Flow Sw. Iow peact o r 77 No No M780AQ 1-CR-FSL-9383F8 Flow Sw. Iow ne act or 77 No No M780A0 1-CR-FSL-9383F3 Flow Sw. Inw peactor 77 No No M780AQ 1-CR-FS t,-9 38 )C I Flow Sw. Inw neactor 54 No No p M780A0 1-CR-FSL-9383C3 Finw Sw. Iow Reactor 54 No No M780A0 1-CR-FSL-9 38 3H I Flow Sw. 1.nw peactor 54 No No I M780A0 1-Cp-FSL-9303H3 Flow Sw. l.ow peactor 54 No No .' + M F e

.i ~. 4Q q h i 2 ,g }. e ,0 e -) r N g-f' s e A [ HCCs FSAR - g9 y-TARLE 3.15-5 ~11 ' ,1 7 = EQUIPMENT 5FLECTFD FOR HARSH ENVIRONMENT QUALIrtCATION P&lD Page.50 sie 8 ' 't: M- 0 3-1 STSTEM: REACTOR BLOG. SUPPLY CONTpot DIAC. CR + PAM TMS ACTION

1 LOCATION FOutr.

PtAN FDU IP. P.O. ID NO. MPL No. COMPONrNT B tSG. ELEV. NOTE II) NOTE 42) COMMrNTS M700A0 1-CR-FSt.-9 30 4 Al Flow Sw. Im peactor 54 No No M100A0 3-CR-rSL-9304A3 Plow Sw. Inw peactor 54 No No kj M700A0 I-CR-r$L-9304RI riow Sw. Iow Reactor 54 No No M700A0 1-CR-FSL-9304e3 rinw Sw. l.ow Reactor 54 No No M700A0 I-CR-rSL-9304Cl FInw Sw. low React or 54 No No 'I i 1 M700A0 1-CR-rSL-9304C3 rinw Sw. 1.nw Reactor 54 No No M70040 1-CR-rSL-9304DI Flow Sv. Low peactor 54 No No M700A0 3-CR-r$L-9304D) Flow Sw. l.ow peactor 54 No No M700A0 1-CR-rSL-9304El Flow Sw. Iow React or 54 No No ( Y ' f M700AO l-C R-rS L-9 30 4 E 3 Flow Sw. Low peactor 54 No No - jc

9' M7&OAO l-CR-rS L-9 3 0 4 r l Flow Sw. Inw Reactor 54 No No M700A0 1-GR-FSL-9304r3 Flow Sw. Low peact or 54 No Mr M700A0 1-CR-rSL-9304GI Flow Sw. Inw peact or 54 No Ne t

M700A0 l-CR-rSL-930lG3 Finw Sw. l.ow Deactor 54 No On g M700A0 1-CR-rSL-9304HI riow Rw. Inw Reactnr 54 No 1o M700A0 3-CR-FLL-9304H3 riow Sw. Inw Reactor 54 No No M700A0 l-CR-rSL-9305Al rinw Sw. Inw peact or 102 No No M700A0 1-CR-FSL-9 38 5A3 Finw Sw. Iow peactor 102 No No M700A0 1-CR-rSL-930501 riow Sw. Inw peact or 102 No No M700A0 1-CR-rSL-930$h3 riew Sw. Inw beactor 102 No No '.g M700A0 l-CR-r$L-9305CI Flow Sw. Inw peactor 102 No No M700A0 1-CR-rSL-9305C3 riow Sw. Low peactor 102 No No 'b M700A0 1-CR-rSt.-9 3 0 5DI Flow Sw. l.ow Reactor 102 No No p a s M700A0 1-CR-rSL-9305D3 Flow Sw. Low Reactor 102 No No. M7I30 1-rV-283 ran s E-H Actuator Reactor 170 No No ,,( M7060 I-rVE-283 Heater Reactor 170 No No M7tlO l-rVH-210 Unit Cooler peactor 77 No No M7tlO l-rVH-211 linit Cooler peactor 54 No No M71BO l-CVN-210 Unit Cnoler Reactor 54 No No l M7870 1-CU-HD-9377r-l Hand Damger Actuator peact or 16 2. No No l M7tlO l-GVH-2tl unit Cooler peactor 54 No No

[$

M100A0 1-CR-HS-930lA Hand Switch peactor 102 No No M700A0 l-CR-HS-910lp Hand Switch peactor, 102 No No M100A0 1-CD-HS-9302A Hand Switrh Reactor 102 No No M700AO' I-CR-HS-9302R Hand Rwitch Reactor 102 No No M700A0 l=CR-HS-9303A Hand Rwitch peactor 102 No No M700A0 3-CR-HS-9303R Hand Switch peactor 102 No No M70040 1-CR-HS-9303C Hand Switch peactor 102 No No M700A0 1-CR-MS-9303D Hand Swltch React or 77 No No ,f f M70040 1-CR-HS-9303E Nand Switch Reactor 102 No No M700A0 1-CR-HS-9303r Hand Switch Reactor 102 No No I M70040 1-CR-HS-9 30 3G Hand Switch Reactor 102 No No i i rj \\

[k [ .-(_,' .. y n 4. .J l 4 - 4b eh o .i e 4 .i HCCS FMAR TARLE 1.48-5 g EQUIPMENT SEl.ECTED FOR HAR&I t'NVI RONMENT OEI ALI FIC ATI ON P&ID Page %9 eef 7; M-83-1 SYSTEM: PEACTOR BLDG. SUPPLY CONTROL DI AC. CR l 73 PAM TRI ACTION ~ l LOCATinN EQEllP. PIAN FOUIP. f P.O. ID NO. MPL NO. ~ COMPONENT BLDG. ELEV. NOTE (Il NOTE 12) COMMENTS 4 .,g a 3 M700A0 1-CD-MS-93834-Hand Switch peact or 77 No No i.3 '%g, 'b / M7004Q 3-CR-HS-9384A Hand Swit ch peactor 102 No No M780A0 1-CR-MS-9384B Hand Switch peact or 102 No No ~? 'b M780AQ 1-CR-HS-9 38 4C Hand Swit ch peactor 802 No No M700A0 I-CR-HS-9384D Hand Switch peact or 77 No No M700AQ 1-CR-HS-9384E Hand Switch peactor 102 No No M700A0 3-CR-HS-9384F Hand Switch peact or 102 No leo rW# M700A0 1-GP-HS-9 3 8 4C . Hand Switch peactor 802 No No e M780A0 1-CR-HS-9 38 4H Hand Switch peact o r 77 No No N T. sf + M78 W 1-CD-HS-9385A Hand Switch peactor 102 No No .se00A0 1-CR-HS-93858 Hand Switch peactor 302 No No M780AQ 1-GR-HS-9 3 85C Hand Swllrh peactor 87 No No M780A0 1-CR-HS-9305D Hand Switch peactor 77 No No M7llO l-HVie-210 unit Cooler peactor $4 No No / M7tlO l-HVH-2tl . Itn i t Cnote r Feat t or 54 No No M790A0 1-CU-MT-9425A Molature Trane, peactor 145 No No M700A0 1-GU-MT-9425M Molature Trane. peactor 145 No No M1960 1-CH-MT-9425A Molature Converter peactor 14% No No M7060 1-Cts-MT-94 25M Molature converter peact or 145 No No M700A0 1-GU-SV-9372A Solenold Valve Reactor 162 No No M700A0 1-Cu-SV-9395A Solenold Valve peact or 17e No No ' M780A0 1-CU-SV-93958 solenoid Valve peactor 178 No No M780A0 I-CR-TE-9381A Temp. Elemt. React or 54 No No - M700AQ 1-CR-TE-93BIR Temp. Elemt. peactor 54 No No M780A0 1-CR-TE-9302A Temp. Flemt. React or 54 No No M78040 1 -CR-TE-9 38 2s Temp. Elemt. Reactor 54 No No M700A0 1-CR-TE-9381A Temp. Elemt. Reactor 54 No No M780A0 1-CR-TE-9383R Temp. Elemt. Reactor 54 No No M700A0 l-CR-TE-9383C Temp. Elemt. Reactor 54 No No M700A0 1 -GR-TE-9 38 3D Temp. Elemt. Reactor 54 No No M780A0 1-CR-TE-9383E Temp. Elemt. Reactor 77 No No 9 M700A0 1-CR-TE-9383F Temp. Elemt. Reactor 77 No No M700A0 1-CR-TE-9381C . Temp. E l emt.. React or' 54 No No j. M7ADAO I-CR-TE-9383H - Temp. Elemt. Reactor 54 No No L M7e0A0 I-CR-TE-9384A . Temp. Elemt. React or 54 No No M780A0 1-CR-TE-93048 Temp. Elemt. Reactor 54 No No M790A0 l-CR-TE-93A4C Temp. Elemt. peactor 54 No No M7A0AQ 3 -CR-TE-9 3 0 4 D Temp. Elemt. Reactor 54 No No ,M780A0 1-CR-TE-9304E .- Temp. Elemt. React or 54 No No i M780A0 l-CR-TE-9384F Temp. Elemt. React or $4 No No

  • 'h'

. M10CAO l-CR-TE-9304C i Temp. Elemt. Peact or $4 No No M190A0 l-CR-TE-9)R4H Temp. Elemt. Reactor 54 No No m

V li 'i llh ^f y' % .( y x. t t .e { f. i ~.c 1) b J <r

.y

' 3 I 1: '4 l. 3 k. 3 ,d ~ + y i HCCS FS AR 1 TABLE .13-5 EQUIPMENT SELECTED FOR NASSP FNVlpONMENT QUALIFICATION P&lD Page 60 of A M-83-8 SYSTEM: REACTOR mLDG. SUPPLY CONTROL DIAG. GR PAM TMI ACTIOM LOCATICH FOUIP. PLAN FOUIP. 3( P.O. ID NO. MPL NO. COMPONENT plDG. P: LEV. NtFTE Ill NOTE 121 Ct*MENTS j.v; 1* I M780A0 1 -CR-T E-9 38 5 A Temp. Elemt. Reactor 102 No No M780A0 1-C D-TE-9 385C Temp. Elemt. Reactor F02 No No M780A0 1-CR-TE-9385D Temp. Elemt. pe act or 202 -No No ' I M780A0 1-GR-TS-9 301 A Temp. Sw. Reactor 44 No No M780AQ 1-CR-TS 9381R iTemp. Sw. React or 44 No No {. i ('[' M180A0 1-CR-TS-9 30 2 A Temp. Sw. practor %4 No No M780A0 1-CR-TS-9302n Temp. Sw. React or 14 No No Reactor 44 No No M780AQ I-CD-TS-9383A Temp. Sw. M100A0 1-CR-TS-9383n Temp. Sw. Reactor 14 .No No h M780A0 1-CR-TS-9383C Temp. Sw. Reactnr 14 No No e Reactor 14 No No M780A0 1-CR-TS-9183D Temp. Sw. peactor 17 No No M780A0 1+GR-TS-9303E . Temp. Sw. ' k ;^ M700A0 1-CR-TS-9383F rTemp. Sw. React or 17 No Nn M780Ao I-GR-TS-93830 sTemp. Sw. Reactor 14 No Mn - 4:

  • I M780AQ 1-Gp-TS-9383H

' Temp. Sw. peactor 14 No No Peactor %4 No No M780AQ I-GR-TS-9,84A Temp. Sw. M780A0 1-CR-TS-9384R Temp. Sw. React or 54 No No M780A0 1-GR-TS-9344C _ Temp. Sw. Reactor 54 No No React or 54 Hn No M780A0 1-CR-TS-9384D rTemp. Sw. 1 i J peactor %4 No No M780A0 1 -G R-TS-9 3 8 4 E . Temp. Sw. ) M190A0 1-Gp-TS-9394F Temp. Sw. React or 14 No No M700AQ I-GR-TS-9 3 9 4 G Temp. Sw. Neactor 54 No No Vr M780A0 1-GR-TS-9384H Temp. Sw. Reactor 54 No No M780A0 1-CR-TS-9385A Temp. Sw. Reactor 102 No Nn I M780A0 l-GR-TS-93858 , Temp. Sw. React or 102 No No i e M700A0 1-GR-TS-9385C Temp. Sw. Reactor 102 No Nn M180AQ !=GR-TS-9385D Temp. Sw. React or 102 No No r -.a M7280 1-CR-IS-9 370R I.imit Switch peactor 178 Yes No ^ M7870 1-GT-IS-9372C 1.imit Swltch peactor 56 2 Ves No -i. g t I '1, bi a:p n a '4

,s i; i g.. g. k^ ~ (- j ', [ + e w y p

  • n HCCS rS AR

?> T ARI.E 3.15-5 rotilPMENT SELECTrD FOR HApSH FNVlpONMENT Otl ALirtCATIOh P6tD rage 6 5 of 7'+ N-84-1 NTSTENs DEAC BLI1G EXH CONTRL Cal PAM TMI ACTIDM 4 LHCATION F.Qtt l P. PIAN FD411P. f*. O. ID NO. NFL NO. COMPONENT pl. llc. ELEV. NOTE 15) NOTE $2) C(NtMENTS 47170 1-CT-PD-9430C2 Press. Damper Actuator peact or 162 No ho M7870 1-CT-PD-9438HIL Press. Damper Actuator peactor 162 No Nn ,.._./ 1 peactor 162 No No E L' M7470 1-CT-PD-9438H2a ja. Preme. Damper Actuator .I }' (Af M780A0 I-AC-281 i,' tinth Cooler Ctrl Pal peactor i t12 No atn Mil }O l-AV-206 ran peactor 145 No No M7860 l-AVE-206 Heater peactor $45 No No MF860 1-AVE-268 Hester peactor 162 No No M780A0 1-pC-281 ifnit Cooler Ctrl Pnl peactor 102 No No M7830 I-RV-206 ran peact nr 145 No Nn 4' -j 47860 1-nVE-206 Heater menctor 145 No Nn M7860 l-RVE-261 11*at e r peact or 162 No No M180A0 1-CC-281 unit Cooler Ctrl Pnl peactnr 102 No No f M780A0 1-DC-281 unit Crwile r Ca rl Pnl peactor 102 No No st7870 3-CU-FD-9425A3 Flow tumper Actuator peactor 145 No No M7870 3-cu-FD-9425A4 Flow Hamper Actuator peact or 145 No Nn M7870 1-CU-rD-9425A5 riow Hamper Actuator peactor $45 No No at7870 1-GU-FD-9425R1 Flow Damper Actuator peactor 145 No No M7370 1-CU-rD-9425R4 Flnw Damper Actuator peactor .45 No No M7370 1-CU-FD-942585 rinw Damper Actuatnr peact or 145 No No M7830 1-CU-FD-9426A Flow Damper Actuator peactor 145 No No st7 3 30 1-CU-FD-9426R rlow Damper Actuator peact or 145 No No ,'l M780A0 3-Cu-rSL-9426Al Flow Sw. l.cw peactor 145 No Nn M780A0 1-Ctf-rSL-94 26 A2 Finw Sw. Inw pe act or 145 No No M780A0 3-CU-r$L-9426pl rinw Sw. lnw peactor 145 No No M780A0 1-Cil-rS t.-9 4 26 p 2 Flow Sw. Iow peact or 145 No No 11010 1-GU-rT-9425A rinw Trans. Reactor 145 No No .33010 1-CU-rf-94258 rinw Trans. React or 145 No No M780A0 3-CU-rT-9426A rinw Trann. Reactnr 145 No No at ? 80 A0 1-Cts-rT-9 4 26 R Flow Trang. React or 145 No No M7170 l-GU-HD-9425Al Hand Damper Actuator peactor 162 No No M7170 1-GLI-HD-9 4 25 A 2 Hand Damges Actuator peact or 145 No No M7170 1-Ctf-HD-9 4 25B I fland pamper Actuator peactnr 162 No No M7170 1-CU-HD-942582 Hand Dam [er Actuator po act o n- '345 No No M780A0 1-CU-HS-9428-l Hand Switch peactor 102 No No M780A0 1-GU-HS-9428-2 Hand Switch peactor 102 No No f' M780A l-CU-HS-9429-I Hand Switch peactor 102 No No M7e04 l-CU-HS-9429-2 Hand Switch peactor 77 No No M780A l-CU-MS-9'432-1 Hand Switch peactor 102 No No M7804 1-Gt3-HS-94 32-2 Hand Switch peactor 102 No No M7804 1-Ct3-HS-9 4 3 3-5 Hand Switch pnector 102 No No M780A 4 -CU-M S-9 4 3 3-2 Hand Sultch peact or 77 No No e47804 1 -CU-IIS-9 4 3 4-3 Hand Switch peactor 102 No No

v rf ~ ,,j E ' c \\ 4 ~ k a.- a '8 .1 x ,f', f e s 4 . b ~}. 'f' +: T y g - MCCS FS AR I TABLE 3.11-5 ^ P6tD Page 62 of 7%,g. EQUtrMENT SELECTED FOR HASSH ENVipONMENT Ou AI.lFICATION n-et-l 3. MfSTEMs REAC PLIC EXH COrrTRI. n Gu PAM TMt ACTite RAICATI ON t,OH I P. PIAN FQu tP. f*. O. I D NO. MPL NO. COMPONENT BLOG. ELEV. NOTE (3) NOTE (2) COMMENTS [./ M780A0 1-cu-HS-9414-2 Hand Switch peactor 102 No No g g M780A0 1-GU+HS-9435-1 Hand Switch peactor 102 No No ( f i. '( M780A0 1-CU-HS-9435=2 . Hand Switch peactor 102 No No M780AQ 1-GU-MS-9436-4 Hand Switch peactor 102 No No -{~ M700A0 1-CU-MS-9434-2 Hand Sultch peact or 77 No No M700A0 1-cu-MS-9437-1 Hand Switch peactor 102 No No M780A0 3-Gu-HS-94 37-2 Hand Swltch peactor 102 No No M780A0 l-CU-HS-94)8-5 Hand Switch 'peactor 102 No No 9700A0 3-CD-MS-9418-2 Hand Switch peact or 102 No. No "y M740AQ 3-CO-HS-9439-1 Hand Switch peactor 802 No No a M700A0 1-GU-MS-9439-2 Hand Switch peactor 102 No No M190A0 1-GU-MS-9450 Hand Switch peactor 102 No No Hand Switch peactor !?8 No No M780A0 1-CU-HS-9451 tiend Swltch peactor 102 No No j M700A0 l-CU-MS-9457-2 Hand Swltch peact or 77 No No M700A0 1-cu-HS-9457-1. P3010 3-cu-Hv-9458 Control valve peactor 178 No No 4760A0 I-DC-286 Control Panel peactor 102 No No M7060 l-oVE-259 steater peact or 54 No No M3860 1-OVE-260 Heater peact or 54 No No ,. g M7170 1-GU-PD-9428Al Press. Damgwr Act uat or enactor 102 No No M7170 3-Cu-PD-9428A2 Pr ess, namper Actuator peactor 102 No No b M7170 3-GU-PD-942WBI Press. Damper Actuator peactor 145 ffo No L M7870 1-CU-PD-9428H2 Preng. Dampe r Act u a t or peactor 145 No No M7170 1-Co-PD-9429Al Press. Damger Actuator peactor 145 No No M7570 1-Gi-PD-9 4 29 A2 Preen. Damger Actuat or peactor 145 No No M7870 1-GU-PD-942991 Pres 9 Damper Actuator peactor 145 No No M7870 I-Gi-rD-9 4 29H2 Prena. Damper Actua tor peactor 145 No No M7870 1-CH-PD-9412Al Press. Damper Actuator peactor 77 No No M7370 1-cu-PD-94 32 A2 Pream. Damswr Actuator peact o ?? No No M7870 1-Gi-PD-9 4 3 2fi t Press. Damswr Actuator, peactor 54 No No M7170 l-cu-rD-943282 Press. Dampnr Actuator peactor 54 No No k Mil 70 1-cu-PD-9433Al Prenn. Damper Actuator peact or 54 No No M7870 3-GU-PD-943342 Press. Damper Actuat or practor ~5 4 No No M7370 1-G8-PD-9 4 3 3pl Press. Damper Actuator peactor 77 No No M7870 3-cu-PD-943182 Press. Damler Actuator peact or 77 No No

  • t7870 1-GU-FD-9434Al Press. Damper Actuator peactor 54 No No M1170 1-cu-PD-9434A2 Press. Damper Actuator practor 54 No No M7170 1-cu-PD-9 414 HI Press. Damper Actuator peactor 77 No No

'87870 1-cu-PD-943492 Press. Damswr Actuator peact or 77 No No

  • t 7 t ?O l-cu-PD-9415Al Press. Damper Actuator peactor 54 No No s

~ y,s.. 7g + v r . v; m z 3: -g feCCS PN AR n:I' TAPLE 3.Il-5 t FOUIPMFNT SELECTED FOR HARSH ENVIRONMENT OuALIPICATIDN P&lD Page 63 of 74 M-84-1 4TSTEMs REAC BLIG EIN CONTpt. + CU i PAM TMt ACTION LOCATION EQUIP. PtAN FUU lP. t g P.O. ID 880 igePL No. CostPONENT

BLDG, ELEV.

NO7E (I) BeUTE (2) (TWeMENTS kh M7170 1-GU-PD-9435A2 Press. Damger Actuator i esctor 54 No No

  • t7170 1-CO-PD-943581 Press. Damper Actuator deactor 77 No No j

17170 1-CU-PD-9435n2 Press. Damper Actuator p eact or 77 MO No M7870 1-CU-PD-9436Al Press. Damper Actuator peactor 77 No No O '97870 1-CU-FD-94 36 A2 Press. Damper Actuator peact or 77 No No 897570 1-Gu-PD-9 4 36BI Press. Damper Actuator Re act or 77 No No '97570 I-CU-PD-9 4 36M2 Prese. Damper Actuator peactor 77 No No

  • til?O l-GU-PD-9437Al Press. Damper Actuator Reactor 102 No leo

'I '97170 I-GU-PD-9 4 37 A 2 Press. Damper Actuator Peact or 102 No No M7870 1-GU-PD-9 4 3?n t Press. Damper Actuator Reactor 102 No No i i M7870 1-CU-PD-9437s2 Prese. Dampe r Act ua t or peact or 102 No No

  • 17870 1-CU-PD-9 4 39 Al Presg. Damger Actuator peactnr 145 No No r

17170 1-CU-PD-9439A2 Press. Damper Actuatnr peact nr 145 No No 1 47370 1-CU-PD-9438nt Prong. Damler Actuator Seactor 102 No Nn 17170 1-CU-PD-9438n2 Press. Damper Actuator peact or 102 No Na styl?O l-CU-FD-9438Cl Press. Damger Actuator Deactor 102 No No 17870 1-Cu-PD-943OC2 Presa. Damgwr Actuatnr Reactor 102 No No M7870 3-CU *D-9430D1 Prese. Damper Actuator peactor 132 No No

  • t 7 5 70 1-CU-P6 9430D2 Press. Damper Actuator peact or 132 No No at ?!?O l-Gu-PD->*18E8 Prego. Damper Actuator pe act or 132 No No 17870 l-CU-PD-94x '2 Pre e n. Damge r Art ua t nr peact or 132 No No M7870 3-Cu-PD-9438rl Preen. Damper Actuator peactor 132 Na No M7t?O l-Cts-PD-9 4 38 r2 Press. Damper Actuator peactor 132 No No 97170 1-GT-PD-943BCl Press. Damper Actuator Reactor 162 No No 17870 l-GU-FD-94 39 A1 Press. Damper Actuator React or 102 No No

'97170 1-GU-FD-9439A2 Press. Damper Actuator Peactor 102 No No M7170 4-Cit-PD-94 39RI Press. Damler Actuator Reactor 102 No No M7170 8-Cu-PD-9439n2 Press. Damper Actuator Reactor 102 No No 17170 1-CU-PD-9457At Press. Damper Actuator React or les No No 17170 1-CU-PD-9457A2 Press. Damper Actuator peactor 545 No No 1780A0 3 -Cu-PDSH-94 26 -1 Press. Diff. Sw. High peact or 102 No No M780A0 1-Cu-PDSH-9428-2 Press. Diff. Sw. High peactor 102 No No M780A0 1-CU-PDSH-9429-5 Prens. Diff. Sw. High peactor 845 No No M7s0A0 3-CU-PDSM-9429-2 Preeg. Diff. Sw. High Reactor 145 No No t?80A0 1-CU-Pix 44-94 32-1 Press. Diff. Sw. High Meact or 54 No No 4780A0 3-CU-PDCH-9432-2 Press. Diff. Sw. Hlgh peactor 54 No No 9780A0 1-Cn-Posh-94 3 3-1 Press. Diff. Sw. High peact or 54 No No '9780A0 l-CU-PDSH-9 4 3 3-2 Preen. Dif f. Sw. High Reactor $4 No No 1780A0 3-Cu-Ptutt>94 34-1 Press. Diff. Sw. High peact or 54 so s No I 1780A0 1-CU-FDSM-9434-2 Press. Diff. Sw. High Deactor 54 No No t70040 3-Cit-PD6H-94 35-8 Prens. Diff. Sw. High peact or 54 No No 174040 1-GU-FDSM-9435-2 Press. Diff. Sw. High peact or 54 No No tis 0A0 I-GU-PDSM-94 36-3 Press. Diff. Sw. High Beact o r 77 No No ____,.c

~ .. A, t ,s 4 1f1 (;

  • i $ '! '

)- +

{'

e [- g / Lp m. ] ~q y iQ, <t G NCCS FS AR 'TApLE 3.II-5 '4 ,73 + EQUIPMENT SEEFCTED FOR HApSH FNVIRONMENT OuALIFICATION P&lD Page 64 of 75 so-84-1 NYSTEM: REAC SLIC EXH CONTRL GU PAM TMI ACTION 3 LOCATION Ept?IP. PIAN FOtf lP. i P.O. I D MO. MPL 000 COMPONFMT DLtC. FLEV. NOTE II) OKTTE 12) COMMFNTS de 4 M700A0 1-GU-PIISH-9436-2 Press. Diff. Sw. Migh peactor 77 No No Press. Dif f. Sw. High peactor 102 No No M700A0 1-GU-PDSH-9437-1 M780A0 1-CU-PDSM-9437=2 Preen. Diff. Sw. Migh peactor 102 No No M780A0 3-cu-PDSH-9438-8 Press. Diff. Sw. High peactor 102 No No d MF80A0 1-CU-FDSM-9438-2 Press. Diff. Sw. Nigh peactor 102 No No { M780A0 1-GU-PDSM-9439-1 Press. Diff. Sw. High peactor 102 No No M780A0 1-GU-POSH-9439-2 Prope. Dif f. Sw. High peact or 102 No No M780A0 1-GU-PDSM-9457-5 Preeg. Diff. Sw. High peactor 845 No No g M780A0 l-CU-PDSH-9457-2 Prea s. Dif f. Sw. High peact or 145 No No i M780A0 I-GU-FDT-9425A Press. Diff. Trano. Reactor 145 No No 4780A0 1-cu-s w t425p Preen. Diff. Trane. peactor 145 No No M780A0 1-CU-FDT-9426Al Press. Diff. Trang. peactor 102 No No 0 M780A0 1-CH-ppt-94 26 A2 Press. Dif f. Trang. React or 102 No No MF80A0 l-GU-PDT-9424pl Press. Dif f. Trans. peactor 102 No teo q' M780A0 1-cu-PDT-9 4 2682 Press. Diff. Trane, peactor 102 No No' - p M7200 1-Gu-SV-9414A Solenold valve peactor 178 No Nn M7280 1-cu-SV-9450A Solenoid valve peactor 102 No No M7200 1-GU-SV-9450s solenold Valve peactor 102 No No N7860 5-CU-TE-9425A Temp. Elemt. peactor 145 No No M7860 4-cu-TE-9425e Temp. Elemt. Reactor les No No i e at 7 80 A0 l-GU-T E-9 4 28 - 8 Temp. (lemt. React or 102 No No ~ j M780A0 1-GU-TE-9428-2 Temp. Elemt. Reactor 102 No No i* M780A0 3 -GU-TE-9 4 29 -l Temp. Elemt. Peact o r 145 No No M700A0 1-cu-TE-9429-2 Temp. Elemt. Reactor 145 No No 9780A0 1-cu-TE-94 3 2-1 Temp. Elemt. R eact or ?? No No 1780A0 l-CU-TE-9432-2 Temp. Elemt. peactor 77 No No j 't780A0 1-CU-TE-9433-1 Temp. Elept. React or 77 No No 1F80A0 1-Gil-TE-9 4 3 3-2 Temp. Elemt. Reactor 77 No No 1780A0 1-Cu-TE-9414-1 Temp. Elemt. React or 54 No No M780A0 1-GU-TE-9414-2 Temp. Elemt. Reactor 54 No No 1780A0 1-Cu-TE-9435-8 Temp. Elemt. Reactor 54 No No Temp. Elemt. Reactor 54 No No h. M780A0 1-GU-TE-9435-2 9780A0 l-Cat-TE-9 4 36-1 Temp. Elems. React or '77 No No Q M780A0 1-cu-TE-9436-2 Temp. E lemt. React or 77 No No M780A0 1-cU-TE-94 37-I Temp. Elemt. React or 102 No No M78040 1-co-TE-9 4 37-2 Temp. Elemt. Reactor 102 No No M780A0 3-cu-TE-9438-1 Temp. Elemt. React or 145 No No M780A0 3-cu-TE-9438-2 Temp. Elemt. Reactor les No No M780A0 1-Cts-TE-94 39-8 Temp. Elemt. peact or 102 No No l M780A0 1-cu-TE-9439-2 Temp. Elemt. Reactor 802 No No i M780A0 I-cu-TE-9457-1 Temp. Elemt. React or 145 No No 1 M780A0 1-Cu-TE-9457-2 Temp. Elemt. Reactor 545 No No l ae7860 1-Cu-TIC-9434 Temp. ladicator Controller peact or 54 No No f

T E,k!.

t. k..

n 4 i f.I - e. t t ^ 'p~ 4 I.1 'n p q, /.., ei $p 't ! 7 - ~ 3 f 3gjM :x r S i17-t o Y 5 6 y ega e 7 P ST esE .Ntu tC 3 Dq e t e. 6 Pn NP OI IU) TO2 CF( A oooo NE NNNN e IAT hf O s I TPe o l TAC I F ) I - .( s I LA - P oooe U t E Ns NY o Q Nti T AO0 T PE9 8 NE MN O R 5 I - V R8 N V A4 E E 228 L 4667 S. 88 E 5111 F3 HS O SE R I GL A T CB M A rrrr MA C oooo T R O. t ttt O LC cccc F D aaaa L eeee D D pppp E TCE LF rrr S eee l ll T tll N noo E rrr M ttt P nnn l ooo l CCC t O E rrr ooo t tt a a ah icccc ilt T ddli w N nnr w s I IIS E s 's. $. 'f' o .t i' - p pppt mmme tso eeel I C TTTL 0. 09 LP M L A 4" T NOC 5684 3 334 N 4445 I 9994 E 9 CCC-I IIS C . TTTS IL 0 B 0 uuUU 8 cCGC C D A I 1311 EU DG N t ~? E 0000 T . 6660 O. ee82 S Y 7 777 P s 1984 e

n

.. ;.: ; -- m -- r -u;m ,, 47s. _ _, - 9., ,, m . h. .= ,g_.. __p. ,.y g..... %m , m ,~ .O .w.e p.-- .,y., ,~. %e Yrw'. w . hp >, e- -~ is.c.

auw a.

.c, e r. 1 y s m> E b Iu i e O Pm . e &E l e

a. =

t9" -t> E Erf d u-m e e e e C e e e e e s e.. e e. t. ..e.. se -W Z2IE222221>>>>>>>> 5 s t-sNE 4 e. EW E 2 e - e > l E m.e. q b w m 4 km E Es m C mW m U.J 4 us E 4 24 u e to E C

  • Q
  • J W2 nn nno c e.nnn n n n o c e c

a

c. o. ce.o c.c..o. e. e d c o c..o..c..o. c e*

.. c b e-e= - se - - a p. bw h b b bbb bb b bbb bbbbbbb .C 0 C 0.C C.C C.C 0 0 C O O C C.C 0 m www u

    • wwwww m

0= uuuuuuuuLuuuuuvuuu z eeeeeeeeeeeeeeaeee 4 eeeeeeeeeeeeeeeeee E aaaaaaaaaaaaaaaaaa 228!!!B!!t,,,,,,,, I

sbuuuwuu eeeeeeeeee=w=www.=

I >= > > > > > > > > > > = = = = = = * - - 3 3333 333 3 l ii. -- --- --- -- m E a e a e e a i CCCCCCCCCC "44 ' 4. - p w w b b.b.b.b.b,b b.e. w w w w-w w =w kb w Cg.CCCC6CC6EEEEEEEE CCCC*CC* y,. g C

==

u u u u u u u u u p.a.4.J 4.a 4.3 a I d, "h. ~ b 4 = 3 .E Ew N -r m

  • s.-

w .en ne-n ew n.en ne.enne

4. 4. s.a.a..g a s e e.g 4. d.d.s a s a

. - - n eo.. gu mmmmmmenemommmmmeen +++++e6e++e++++++++ a e e e e e e e ar e e e e e e e e e e 3 e e e e e ee e ee e e o e e e e e > > > > > > > > > > m a en m e e e m E E E E E E = 3 E E se se to se N et N e4 O C e e e e e e e e e e e e e e ee t e 3 eaSSeaqeaeaeseMeae 4 C d Q d C Q u t--*CdOQQQwQQd O eT eTe e eTeTe e e e ee e T g3 -.0.00000000000.O.000O 0 e n E C. oooooo.oooooooooooo m m m m.m e .m --mm -mm 1 & L am 1 Jo a&L&&LL&L1b7.& l l ...,s

~ 1Q e e MCCS FSAR A 4' T API.E 1.15-5 EOtflPMENT SFLECTFD FOR HADSit FNVIRONMFJsT OtfAl.lFIC ATION FLEcy, gng** PMe 6 Of P* E-o0:n SYSTEM: 250VDC A.4 b,. PJ .a PAM Tut ACT I ON LOC ATICW8 FOUIP. Pl. Ape @fIP. p.O. ID M. Mpt M, cm py rug B Lf1C. EtEV. seOTE (Il MOTE ( 2) CCW4MFNTS 2 F1210 1-00-253 250VDC MCC p eact or 54 No No

  • 1210 1-00-261 250Vic seCC peactor 54 No No L

f t e Y t i I 4 l

.-m- ~ ~ _ - ~

n_ -~

w-g:,,y:, ;. (e.. .v-x

  1. '_?w - ; -
  • _

.m2 t y gs = 0 C s e + U l R:-* c.g w j v. bx = w y E f, N C e b= bo do 4 Ww I Ih ~. ~ I cccc a2zE - E. we g IEl -p 4 m i 6 1, h =W CCCC g Egg 1322 msE I E 1 s a. g u ~~~ M

  • la.

=J OSOM ha gw

===e t -u v. Ug a v_ = a w==w z4 s .C C C C w=w a g uvuu e ee=e L .a ee6 e a assa e tb .J b V. EE D UyUU x kEII h E gggg e.ee wwww E. a E l 1 nnnn me n e e . nnnn N k meEb 000o o O s e e e e2 E 0000 <W = e e e. e H C.... ~ en ~~ Y b WW5& _____.m

6 x i 1 E! (' e s ? 4 k' .g-s A r NCCs FSAR TARLE 1.81-5 FOUEFMFNT SF1ECTED FOft NARSM FMVIDOpetENT OuALIFICATION P&lD Page 49 of I'. N/A %YSTEsos CFMERIC PAN TNI ACTI ON LOCATION FOUIP. PtAN EQUIP. P.O. ID NO.

  • VEpspop COseP00erNT RfDC.

FLEV. INFT E II) NOTE ( 23 CreeMENTS mit - 9:3290 A00 okontte SkV Power Cable Not e ( 3 ) N/A N/A F. 8 29Q A04 okontte SkV Power Cable Note (3) N/A N/A EI290 A)$ Okennite ShV Power Cable Not e 1 )) N/A N/A El290 A50 Ok on t t e. Sky Power Cable Note (Il N/A $s/A FIJ90 A75 Okonnte SkV Power Cable Not e (1) N/A N/A h E S 350 law 200 wentinghouse Electric Penetration Assy. Note (Il N/A N/A rl)50 Ines200 weetinghnuwe Electric Penetret ton Aegy. Not e ( 3 ) N/A N/A 6.1350 ICw200 weetinghouse Electric Penettetton Aeny. Note (3) N/A N/A / toestinghouse Elect ric Penet rat ion Aagy. Not e ( } ) N/A N/A g t:1350 tow 200 t EI350 law 208 weetinghnume P lectric Penetrat ion Aney. Note (Il N/A N/A EI 350 Ipw208 tsagtinghouse Elect ric Penet rat ton Assy. Not e (l) N/A N/A k EI)50 ICw201 wegtinghouse Electric Penetration Assy. Note (3) N/A N/A EI)5O IDw203 weg e lnghruise Elect ric Penet rat ion Aegy. Not e ( 3) N/A N/A 'g EE)50 IEw208 westinghouse-Electric Penetration Assy. fe st e (1) N/A N/A E I )>O 3Fw208 weetinghnwee Flect ric Penet rat lan Anay. Note 11) N/A N/A EIISO IAw202 westinghouse Electric Penetration Aasy. Note (Il N/A N/A FI )5O SpW202 weetinghouse Elect ric Penet rat ion Angy. Not e (1) N/A N/A 3 El350 BCw202 West inghemse Elect ric Penet rat non Assy. Note (Il N/A N/A Ell 50 IAw20) wegti ghouse Electric Penetrat ion Amsy. Not e ( 3 ) N/A N/A EI )50 Inw203 weetinghouse Electric Penetration Aeny. Note (1) N/A N/A KI )5O ' IAw204 Westinghouse Electric Penetration Amay. Not e ( Il N/A N/A EI)50 inw204 westinghouse Elect ric Penetrat inn Agey. Note (3) N/A N/A ES350 BCw204 wes t i ngh<m me Electric Penetration Assy. Not e (1) N/A N/A El350 lEw204 westinghouge F.lectric Penetration Assy. Note (3) N/A N/A I Ep350 IFw204 toes t i nghou se Elect ric Penet rat ton Amey. Not e ( 3 ) N/A N/A El350 BCw204 weetinghouse Electric Penetration Assy. Note (Il N/A N/A EI)50 IJw204 toestinghouse Electric Penetration Assy. Not e f E l N/A N/A u E R )$O Isw204 toestinghouse Electric Penetratinn Assy. Not e (Il N/A N/A E l )50 I Aes20% toest ingheiune Electric Penet rat ton Aegy. Not e ( 1) N/A N/A E1350 f ees205 weetinghouse Electric Penetration Aeny. Note (Il M/A N/A F1350 lists 20) tenetInghouse Electric Penets at ton Assy. Note (3) N/A N/A ) P. b

,,w p t p y ~ i e .. k 1 e 1 -f'>) L i . I. 4 'f NCCS FSAR Tant.E 3.18-5 8 f p:OHIPRENT SE1.ECTrp ft)R HAR$N FNVIRONNFNT Ot1ALirICATION P6tD Payej70 of ' ' J-f t N/A 1 nVSTENs CENERIC PAN TN1 ACTION IJDCATION FOUIP. PLAN EQUIP. VENDOR CoNPOurNT BLDO. E t.E V. NOTE (l) NOTE (2) CrWwtFNTS P.O. ID NO. i ES)5 IDW205 Westinghouse Elect ric Penetration Assy Not e ( )) N/A N/A ES)5 IEw205 west imahouse Electric Penetration Assy Note $3) N/A N/A ER)5 Irw205 weatinghouse Electric Penet rat ion Assy Not e 1 )) N/A N/A El35 IGw205 Westinghouse Electric Penetration Assy Note (3) N/A N/A 9' FI)5 INw205 wes t i nghnu se Electric Penetration Assy Not e 1 )) N/A N/A ER)5 IAw206 westinghouse Electric Penetration Assy Note (3) N/A N/A

  • 835 Inw206 Westinghouse Elect ric Penet rat inn Assy Not e (3)

N/A N/A EI)5 ICw206 Westinghouse Electric Penetration Assy Note (Il N/A N/A EI)5 IAw207 westinghouse Elect ric Penetration Assy Not e ( Il N/A N/A Fl35 inw207 westinghouse Electric Penetration Assy Note (3) N/A N/A l ( Ell 5 ICw207 was t i ng hmise Elect r ic Penet rat ton Aggy Not e l )) N/A N/A El)5 IDw207 Westinghraune Electric Penetratton Assy Note (3) N/A N/A EI)5 IAw208 Wes t ingImu ne Elect ric Penet rat ton Assy Not e ( } ) N/A N/A EI)5 IAw209 weetinghoune Electric Penetration Assy Note (3) N/A N/A E1570 (nJ okemi t e 60nv Control Cable Note $39 N/A N/A r1570 00) Ohnnite 600V Control Cable Nate (3) N/A N/A l E8570 CDS Okemit e 6nnV Control Cable Not e ( 3 ) N/A N/A l E1570 C07 okonnte 600V Control Cable Note (3) N/A N/A f EI5?O CD9 okemi t e 600v Cont rol cable _ Note 13) N/A N/A Fl570 Col 2 okontre 600V Control Cable Note ()l N/A N/A E1570 0019 ononite 600v Cretrol Cable Not e ( 3 ) N/A N/A El500 IT) ok on t te 600V Power Cable Note (3) N/A N/A E8580 ITS okonIte 60uv Power Cable Not e ( 3 ) N/A N/A El580 102 Ohnn6te 600V Power Cable Mete (3) N/A N/A E8500 106 okontte 600V Power Cable Not e (3) N/A N/A E1500 lie okontte 600v Power Cable Note (3) N/A N/A El580 382 okonnte 600v Power Cable Not e ( 3 ) N/A N/A E8580 120 / okonite 600v Power Cable Note t}) N/A N/A R 6:5580 135 okonite 600v Power Cable Not e ( 3) N/A N/A I El580 140 ok o.il t e 600V Power Cable Note ()) N/A N/A E!580 ISO okontte 600v Power Cable Note ( 3) N/A N/A E1580 202 Okon t te 600V Power Cable Note ()) N/A N/A i ,4 j. 1 l

.i ' h .I{gi [t l>I .I li m. l,* +4#* 4h - g;} g' j tI p .e t - t f e. U< s 5 7 s. 1a e f: 'k e, gaP - s T N FeuW CC D tg 6f e Pp NP IOIH) TO2 ( F{ A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA NE //////////////////////////////// T NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN A. O I Mf N TPN O I TA C I ) r 1 t. .( P l IE A l' NHT AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA O A}O //////////////////////////////// t PfN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN T N F NN O 5 p - i s1 V V. A1 N E S F L F3 NE N o S E. S i Ct p T ))) )))))) ))))))))))l)))))))))))) Cn A A 3933)333)3333331}1)I313313l 33333 NA N C, eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee ((((((6(((61(((((((((((((((((((( T O R LG O D t tt t tt t tt tttt tt t t tt tt t t t t tt tttt t F L oooooooooooooooooooooooooooooooo m NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN D F TC leeeeeeeee F llll llll L hbbbbbbbh eeeeeee E aaaaaaaaalllllll S CCCCCcCcCbbbbbbbaaaaaaa CCCCCCC T llltlllll N aeaaaaaaa uuuuuuu F tlilttlil N nusunnus wrrrrrrr P aaaaaaaaatt ttt tt l nnnnnnnnnsssssss l e e e e e e e e e e e e e e e eiiiiiiiii n n n n n n n l llllllllllllllll wwwwwwwwwII iIIII O E bbbbbbbhbbhbbbbbTTTTTTTTT aaaaaaaaaaaaaaaa ddddddd CCCCCCCCCCrCCCCCdddldddddeet e eeeee nnnnnnnnnd e dddd rrrrrrrrrrrrrrrraaaaaaaaaillllll 3 T eee ereeeee e e e e e e e e e e a e e, w w w,,,,,,,, ,li wwwwwwwwwwww N iiiii n F oooooooooonoioooll lllllllhhhhhhh N PPPPrFPPPPrl' PPPPrrrrrrrrrSSssssS O TTTTTTTTT v V v v v V V v V V V V V V v v,..,,,, ,0 0 0 0 0 0 0vvVVVvv . P e 0000000000000000 g' is 0000000000000000 ooooooooo0000000 Y( 6666666666666666CCCCCCCCC6666666 sn snnnn nnoo eeeeeeet t A eeeeeeeeeeeeeeeepPpppppns ee t tttt ttttt ttt ett t - - - - - ttitiiiititttttidddddddhl nnnnnnn n i nnnnnnnnnnnnnnnnnnnnnnnkk ooooooo N ooooonooooooooooeeaaeaecct t t tt tt m k k k k k n r r r r r r r o o a g a. E E E E s aaaa E kknkkht tk oO o o oo UO o ooO o o o o pp pI pppppEEr V C O I R N 46492 E 924sS920024920o22)ll55662412)456 GCcGGGCo200nnU00 N D 000oD012400082t 8 E I 233J)1333 44444S7PDpRDappm10ooE 00 C N 00 E 000000000000O0000O0O000AA0O00OO0 f T 000000080880S800080O00000lIl3tI1 S O. 5 5 5 5 5 5 5 5 5 5 5 5 S 5 5 51 T 1 ? 7 7 7 7 7 f T f 7 ? 17 EEEEEEEEEEEEEEEFEEr.Illl 4888Ill8lIllI)1lll ll Y 4l41444 1 EEEEEE S P FEET E9 6

g Ai .[ L ~ g i ' { > s ,1 k 3 y .i 3 ' Q,; l* ' C' s + HCCS FSAR 3 Jt, s TAhl.E 3.11-5 P6tD Page 72 r*f {,. EQUIPNFNT SFA.FCTED FOR HA95N ENVlpOfeIENT CUAl.IFICATloN N/A f SYSTEfet GENERIC e PAN Tie l ACT i t #8 .Q 8,0 CATION EQUIP. F1AM FOUIP. P.O. I D NO. VENDOW CosePOI8ENT PLDC. ELEV. le0TE (I) IsOTE $Il COpestFN75 FI730 Do? Eaton 1 600v Shteided Instru Cable Not e (3) N/A N/A El?IO DOS Eaton 600V shielded Instru Cable Note (5) N/A N/A Elfl0 009 Eaton 600V Shnelded Instru Cable Not e ( 3 ) N/A N/A ~ El710 D30 Eaton 60DV Shielded Instru Cable loote (3) N/A N/A t El?!O D38 Eat on 600V Shielded Instru Cable Not e ()) N/A N/A El73Q D32 Eaton 600V Shielded lastru Cable Note (3) N/A N/A El?IO D33 Eaton 600V Shielded Instru Cable Not e ( 3 ) N/A N/A EB7tg 102 Ea t twe 600V Shielded Instru Cahle Note (3) N/A N/A y ' E8780 303 Fatan 600V Shielded Instru Cable Not e ( 3 ) N/A N/A Elfl0 tot . Faton 600V Nhleided Instru Cable Note (3) N/A N/A

I

[ l EI780 806 Eaton 600V Shteided Instru Cable Not e ( 3 ) N/A N/A EI730 333 Eaton 600V Shielded Instru Cable Note (3) N/A N/A El?t0 Il2 Faton 600V Shielded Instru Cable Not e ( 3 ) N/A N/A Elfl0 320 Fatem 600v shielded Instru Cable Note ()) N/A N/A E1750 874 Estan 600V shleided Instru Cable Not e ( 3 ) N/A N/A El?IQ $28 Ea t rwe. 600v Shielded test ru Cable Note fil N/A N/A rI7tO IT2 Emann - 600V shielded Instru Cable Not e ( 3) N/A N/A g' Elfl0 ST) Eaton 600V bhlelded Inst ru Cable Note (Il N/A N/A EITIO BT4 Eaton 60uv Shielded Ingtru cable teote (3) N/A N/A 'l P:4780 376 Estre 60DV Shielded Innt ru Cable Note (3) N/A N/A 9:5710 cent Eaton 600v Shielded Instru Cable Note (3) N/A N/A t8780 $03 Fatem 600V Shielded Instru Cable Note (35 N/A N/A Fl?!O SI9 Eaton 600V Shleteed Instru Cable Note (3) N/A N/A E4730 $24 Eat <we 6eov Shiel. led Instru Cable Note (3) N/A N/A El?IO S28 Eaton 6anV Shielded Instru cable Note (3) N/A N/A Flfl0 TAR t:st on 600V Shielded Instru Cable Note (3) N/A N/A 'l i 9.8730 TA2 Eat een. 600V Shletried Instru Cable Not e ( 3 ) N/A N/A El?IQ Th' Eaton 600V Shielded Instru Cable Note (3) N/A N/A Elfl0 Th2 Eaton 600V Shielded Instru cable Not e ( 3 ) N/A N/A I Elfl0 TNI Eaton 600V shielded Instou Cable Note (3) N/A N/A }j El?lO TN3 Eaton 600V Shielded Instru Cable Note (3) N/A N/A ?

i f. ,s r> p ll A r i NCGS ISAR TABLE 3.88-5 EQUIPMENT SELECTED FOR HARSM ENVipONNFNT OUALIFICATION P610 Page 7 3 of N/A iTSTEN: CENERIC PAN TNI ACTION

    • .O.

ID No. VENDOR

  • CosePONENT RLDC.

E!EV. NOTE (3) tsOTE (2) CONeeFNTS 'i LOCATION EQti t P. PLAN EQUIP. rt?IO TPS Eaton 600v shletded Instru Cable Note (3) N/A N/A [< Flfl0 TP2 Eaton 600W Shielded Inst ru Cable Note (3) N/A N/A F.8710 TP3 Eaton 600v Shielded lastru Cable Note (3) N/A N/A El?!O TP4 Eaton 600v Shielded Instru Cable Note (3) N/A N/A FIELD PURCHASE RAT-853 Thomaa s netts Pressure Terminal Connectore Note 83) N/A N/A ,q FIELD PURCHASE RAT-06) Thomme 6 Rette Pressure Terminal connectors Note (3) N/A N/A e FRELD PURCMASE RAT-073 T hnsame 6 net t e Pressure Terminal Connectors Not e ( 3 ) N/A N/A FIElb PtfRCHASE RAT-713 Thomme 6 Rette Pressure Terminal Connectors Note (3) N/A N/A FIELD PtfRCHASE RST-OS3 Thomas & Mette Pressure Terminal Connectore Not e ( 3 ) N/A N/A FIElm PURCNASE 997-063 Thomme & Bette Pressure Terminal Connectore Note (3) N/A N/A FIELD PoncetASE pnt-073 Thomme & Pette Pressure Terminal Connectare lente 83) N/A N/A FIELD PURCNASE R87-713 Thomae 6 sette Pressure Terminal Connectors Note (3) N/A N/A FIELD iltpCNASE RCT-333 Thoman 6 netta Pressure Terminal Connectors Not e ( 3) N/A N/A FIELD PURCHASE RCT-063 Thomas & Betts Pressure Terminal Connectors Note (3) N/A N/A FIELD PURCHASE RCT-363 Thomae & Nette Pressure Terminal Connectore Not e 13) N/A N/A FIElb PORCNA8E RCT-713 Thnmas & hette Pressure Terminal Connectors Not e ( 3 ) N/A N/A FIELD PURotASE RCT-103 Thnmas a pette Preenure Tesminal Connectore Not e (7) N/A N/A FIELD PURCNASE RCT-733 Thomae 6 hetts Pressure Terminal Connectors Note (3) N/A N/A FIELD PURCNASE ROT-10361 Thnmas & met ta Pressure Terminal Connectnre Not e ( 3 ) N/A N/A FIELD PURCHASE RDT-107tl fl.omas 6 hette Pressure Terminal Connectors Note (3) N/A N/A FIELD PURCNASE RDT-10721 Thomas & Retts Pressure Terminal Connectors Note (3) N/A N/A FIELD PURCHASE B0740 7 31 Thomas s netts Pressure Terminal Connectors Note (3) N/A N/A PIELD PURCHASE RET-80268 Thounas & Retts Pressure Terminal Connectore Note (3) N/A N/A FIElb PURCHASE RET-IOill Thomae 6 Betts Pressure Terminal Connectors Note (3) N/A N/A FIELD PURCHASE ptT-80721 Thnemas & Mett s Pressure Terminal Connectore geot e 83) N/A N/A FIElb PURCHASE RET-10738 Thomas & potte Pressure Terminal Connectors Note (3) N/A N/A FRELD PURCHASE RFT-80 261 Thomas & Betta Pressure Terminal Connectore Not e ( 3 ) N/A N/A FIELD PURCMASE RFT-10711 Thomas & Detts Pressure Terminal Connectors Not s ( 3) N/A N/A II FIELD PURCNASE RFT-IO128 Thomas & Mette Pressure Terminal Connectors Note (3) N/A N/A

  • IElm PURCHASE RFT-10738 Thomes & Netts Pressure Terminal Conne% tore Note (1)

N/A N/A t u y w- - - - - - - - -

.v .$o 7 m, g: .3 3.. 'X, f 't. ..s r~

  • j' a

{.f sf' 5.

  • 11 i

. 4, fj. !g: di ' I['q i 5 4 4{b 5a r NCCS FSAN TAeLE 3.18-5 t EX)UIPNFNT Fft.ECTED FOR NARSM F30VIRONMENT 00Al.lFICATION P&lD P89e Tk of I[ g N/A SYSTEn GENEDIC J.f,' , ~. PAN T*I I ACT i tus LDCATION FCUIP. PLAN EQUl?. ' l'., f../ +.h '

e. o,

3 D geo, WENIN>A COSEPONENT BLDG. ELEV. 8007E (I) teOTE ( 2) CONNENTS D IELD PURCNASE DGT-9261 Thomas & Pet to Preneure Terminal Connectors Note t3) N/A N/A FIELD PueCNASE DGT-9711 Thness & Bette Pressure Terelpel Connectorn Note (3) N/A N/A tlELD PURCNASE PCT-9728 Thness & pet te Pressure Terminal Connectore Not e (1) N/A N/A D I ELD PtspCN ASE DGT-9731 Thomme & patt e Pressure Terminal Connectore Note (3) N/A N/A F R ELD PURCM ASE TV 3-2181 Thomas & pat te TV-PAP Cable Tie Note (3) N/A ~ ge/A PIELD PURCNASE DGT-9731 Thomen & Bette Pressure Teralpel Connectore Not e (3) N/A N/A DIELD PUSCNASE TTI-25se Thomme & pot te TY-PAP Cable Tie Note (31 N/A N/A Thomme & Bette TV-RAP Cable Tle Note (3) N/A N/A FIELD PueCNASE TTI-2781 o g,. j/ Thnees & pot te TY-RAP Cable Tle l esot e (3) N/A ps/A ,, y FISLD PURCHASE TY 3-20st ,7 ^ i 0 15 k' k t t =

f.f.
-qq y

L: s -l b'g ~i v f-5 ' t 6 i,i O i.- 3 s 4 Y 4 .}' MCCS FSAgt j 'j' TAftLF. 3.15-5 800TES ' page h5 ef ?,'y> .d

  • 88 This column identiftee the equipment located in a harsh environment required for post accident mnitoring as def ined in.

,f g B.C.I.97 and FSAR Sect ion 1.8.1.97.l. e y

82) ' This colven identif tee the equipment located in'a harsh environment identitled as Tnt Action Plan Equipment as defined in-

. I' suppSG 4737 8 38 Stees that are generic are purchased and used thrcmqhout the plant and may to used in t he DRA Mateh Fnvirossent, I i' _~ e-b i. J 4 -I 'i 5 s ? Y. s 4 5 .f -. _. _ ~ - _ _.

.Lf.L N A- ~ W O f 2 b % 5 i*> % f.

;;$U

%N g ~ 7 .y ,. ~ m.

Q ;

_f& ; .;y 'g T' u. FI ,.,y,9 -; ++f r

-me

.VIII QUALIFICATION TESTING / ANALYSIS 3 As is noted in HCGS FSAR Section 3.11, NSSS and non-NSSS electrical components are qualified in accordance with the EQ criteria and guidelines delineated in IEEE-323-1971 ~and noted'as Category II in NUREG 0588. Upgrading to I E E E -3 2 3 - 1974 and to Category I as de fined in NUREG 0588 is being attempted wherever spheduling constraints and. technical feasibility allow. The safety related c'omponents located in a harsh environment are being qualified by test, analysis, or a combination thereof~for the worst case anticipated en-vironmental transients ~under which they are required to function. For safety related mechanical equipment located in a harsh environment, the EQ program establishes, via analysis, the qualified life of the component. This analysis is per-formed by identifying significant aging mechanisms as de-fined in IEEE-627-1980, Section 4.4.1. The EQ' program conforms with 10CFR50.49 in that testing or a combination of testing and analysis was the preferred method of proving component operability under the worst case environmental scenarios. IEEE-3 23 methods were used for the analysis. These analyses, when performed for EQ to i supplement testing, were justified and documented in the appropriate EQ packages. Additionally, analyses were used only when their results could be shown to be conservative. Analytical techniques included similarity, extrapolation and mathematical modeling. The actual implementation of the HCGS EQ program is sub-divided-into the following two sections: (1) NSSS Safety Related Components (a) Electrical Components M %The'HCGS EQ: program efforts for' NSSS safety re-- ). lated electrical components are based upon the ' guidelines'and methodologies outlined in General Electric's Licensing Topical Report # NE D E -24 3 2 6 -

1 - P '.,

This' generic approach, when coupled with HCGS, plant specific environmen t al p arame t e rs has been reviewed and found to be acceptable by the .USNRC Division of Equipment Safety. HCGS has sub-mitted plant specific environments consistent with those provided in FSAR=Section 3.11 including seismic and dynamic input into GE's EQ program. 4 g h o.,. W v V I I I -1

' ~ -R ,,n s These parameters were enveloped in GE's qualifica-tion program for devices in the HCGS scope. The specific seismic and dynamic qualification docu-mentation will include a determination of natural frequencies to assure that none are below 4 Hertz. Appropriately justified analysis and testing will be done to verify this depending on the equipment t~ype being qualified. Additionally, the four fol-lowing generic USNRC "Open Items" concerning GE EQ Program #NEDE-24326 P will be responded to in the following man'ner: USNRC OPEN ITEM #1 "1. Application of time margins less than one hour will be justified for each piece of equipment, including any judg-ments regarding survivability limits of the equipment." GE/HCGS RESPONSE TO OPEN ITEM #1 The Functional Performance Requirements shall document the function times for all Class 1E equipment and the supporting Design Record Files shall contain the justification for the margin for each function time less than ten hours if a time margin less than one hour is used. The qualification reports for Class 1E { equipment with time margins less than one hour shall document judgments regarding the survivability limits of the equipment beyand the tested time to the o r. e hour margin limit. I USNRC OPEN ITEM #2 "2. The required operability time will be justified with consideration for a spec-trum of breaks and the potential need for the equipment later in an event or during recovery operations." CE/HCGS RESPONSE TO ITEM #2 The functional Performance Requirements shall document the function times for all Class 1C equipment and the supporting Design Record Files shall contain the justification for the margin for each function time less than ten hours if a time margin less than one hour is used. The applicable function times for all such accidents and qualification shall be addressed in the qualification report. VIII-2

1 S. ',d ~ I 'y

y

+ A *A T _ y4, em + i- <W -s+ e +,, USNRC OPEN ITEM #3 "3. It will be demonstrated that failure of the equipment after the required opera-bility time will neither mislead the op-erator to take an improper action nor further degrade the event by causing a f al_lu re in systems necessary for mitiga-tion ofithe event." GE/HCGS RESPONSE TO ITEM #3 The Functional Performance Requirements shall contain failure analyses which address fail-ure e f fects on other, needed equipment for those cases where qualification is based on a time less than the accident duration. USNRC OPEN ITEM #4 "4. The margin applied to the required operabil-ity time when combined with other test margins will account for the uncertain-ties associated with the design, produc-tion tolerances, testing techn1 ques, and the number of units tested." CE/HCCS RESPONSE TO ITEM #4 For function times less than ten hours with time margins less than one hour, tests shall be performed on more than one sample (size, cost and availability permitting) or margins increased, and the qualification report shall clearly state that the equipment is only qualified for the time tested which shall in-clude appropriate time margin. All other mar-gins shall also be applied as required by NEDE -24 3 26 P. This HCGS EQ Summary Heport will be updated to reflect final re-solution of these open items. e (b) Mechanical Components The NSSS program for mechanical equipment ~' qualification consisted of the GE recommended listing of all the Class 1 mechanical compon-ents which met the following criteria: (1) Safety related as de fined by safety function / time. (2) Located in a harsh environ-ment. V I I I -3

y + ~ y -. - (3) Used to mitigate an accident including post accident opera-tion. (4) Contained non-metallic parts which were known to be age sensitive. This listing, included in this EQ Summary Report and in FSAR Section 3-11 as Table 3.11-4, is in-dependent of othet ongoing EQ efforts such as ATWS/SDS Phase 2 efforts, Class 1E e f forts in-cluded in this report, HPCI EQ and mechanical com-ponents located in the main control room. (2) Non-NSSS (BOP) Safety Related Components (a) Electrical Components The Balance of Plant (BOP) EQ program is limited to the safety related electrical com-pone.nts supplied to HCGS by the A/E (Bechtel) and are identified and ordered by "Q" pur-chase orders. Each purchase order includes a material specification which identifies to the component vendors the envelopes to which the components were to be qualified. Prior to the actual performance of the EQ test, the j vendors were required to submit the test plan to PSE&G/Bechtel for review and approval. Testing approaches were justified and docu-mented for inclusion in the EQ central file. (b) Mechanical Components The BOP mechanical components, like the elec-trical components, were identified and ordered by "Q" purchase orders. If the iden-tified non-metallic part was found to be the same material as that identified in the NSSS/GE qualification program, the results of the NSSS/GE prograr. were used and no further qualification was performed. For other iden-t i fie d. ag e sensitive non-metallic parts, a failure modes and effects analysis (FMEA) was performed by Bechtel to determine if the parts failure would jeopardize the compon-ents' ability to perform its required safety function. I f so, analysis was performed by either the vendor or an independent testing laboratory to determine the parts replacement interval. VIII-4

.u:w - n-w. ~ gg;[ 3f .. r. qq -y c w= The listing of these BOP safety r e l a t e'd, mechanical parts located in a harsh environ-ment and requiring EQ are listed in the at-tached T able 3.11 -4. Revie~w of Vendor Reports T'he purpose of the-review of vendor environmental quali-fication reports is tb assure that the applicable environ-mental operating conditions (normal / abnormal / accident) for each component required to operate have been considered, evaluated and achieved, or that deficiencies have been identified and resolved. Each qualification report received by Bechtel and trans-mitted to PSE&G for review is assigned a unique documenta-tion identification number. For components supplied by the NSSS vendor (GE), this number references a "GE Book Number". For the remaining components, this number is cor-related to the purchase order identification number. In either case, when an EQ report is received by PSE&G and/or Bechtel, it is reviewed in detail in the manner described below. Items included in the review of EQ reports include the fol-lowing a) Verification of the test method used (i.e., type test, analysis, operating experience or combina-tion), b) Review of the equipment type, model or product identification number, serial number, batch number and other salient component descriptions to en-sure that the component being tested is indicative of the actual component being procured for system L installation. c) Verir.ication that EQ documentation is traceable to.. the compo'nent being tested. d) Correct cate.gorization of the component testing to applicable standards (NUREG 0588 Cat. I or Cat. II, IE E E -3 23 -1971 or 1974, etc.). n. e) Verification of the adequacy of the test proced-ures to address the following areas of concerns (1) Performance of testing sequence per I E E E -3 2 3 -1974 or justification of method used to ensure most severe sequencing. This includes pretest preparation, com- ,y ponent mounting configurations, inspec-VI I I -5

4 1*- .y ~ s j c p-N ) tion and proper function measurements as l well as verification that the same test specimen (s) is used throughout any test-ing. (2) Addition of margins to test parameters-time durations and the justifications for these margin selections to meet the intent of I E E E -3 2 3 -19 7 4 and I EE E -6 2 7 - 1980. (3) Verification that the aging (thermal, radiation, ruechanical cycling, electri-cal cycling, synergistic effects) tech-niques are properly analyzed, applied and justified to provide the most con-servative e nd-o f-li f e component test condition. Acceptable thermal aging techniques for electrical and mechanical components in-cluded the Arrnenius method or other Justified methodology in accordance with IEEE -3 23 or IEEE -.627. Thermal and radia-tion aging was considered on an indivi-dual component basis in that the compon-ept must contain an age sensitive (o'rganic) part to be applicable. f Each aging method (thermal, radiation, l mechanical, etc.) was reviewed to ensure .that it placed the equipment in its end of qualified life condition before sub-jecting it to its worst case DBA. The age related degradation verification in-cluded concerns about normal / abnormal operating temperatures, radiation expos-ure and cyclical mechanical operation and electrical (feeder voltage varia-tions, etc.) stresses which are antici-pated to occur during the normal (pre-p DBA) qualified life operation of the equipment. (4) Verification that synergietic effects were accounted for, justified, and docu-mented, where applicable, in accordance with NUREG 0588. (5) Review to ensure that variations in am-bient environmental conditions, such as non-selsmic vibration, dust, humidity, submergence, etc., have bcen considered, evaluated end addressed. he V I I I -6

D. J;. f &L.: w w. ( .E ^ %:.. % M. s tg n s u, m~ ~ W %;f >ad e ,,w,. (6) Verification-that the most. conservative DBA environmental conditions for the component being tested have been envel-oped or that deviations have been ade-quately justified. (7) Review of the test results to ensure 'that the component was correctly ener-gized.and/or operated to' simulate re-quired normbl/ abnormal /DBA operating conditions during all phases of the EQ testing. This includes review of the test parameters monitored to verify re-quired extremes in test-conditions (voltages, currents, input / output signal ramping, loading, etc.), are achieved. Also, verification that the instrumenta-tion used to monitor, control and record test parameters has been properly cali-bested and documented. (8) Verification that the determination of equipment failure has been defined and that resolution of any f ailu re has been clearly identified and justified. If modifications to either the component or test setup have been-made, verify that they are justified. f) Verification that the documentation packages are complete and accurate and that they address: (1) Applicability of component testing to HCGS. (2) Equipment performance per vendor technical specification require-ments. (3) SynopsIis of test plan including test' objective; equipment tested; test facility description; listing 3 of calibrated instrumentation used; ^ ,~ . test procedures; test data and ac-curacy; summary, conclusions and recommendations; support data; and > proper wignof f and '~ dating of EQ re-port. 's. -..e VI I I -7 i

~ c, - ~. .xw _ r. J x g) If' operating experience is used, verify that the components monitored and the environmental condi-tions listed are applicable to HCGS. Documentation and justification of applicable performance, en-vironmental, failure and maintenance conditions must be verified. h) If' analysis methods are used, justification for analysis and the' analysis methodology must be verified. All assumptions, empirical values, mathematical models,' failure a n a l y s i s,- computer

programs, extrapolations, etc.,

must'be docu-mented, justified, and properly signed off/ dated. s Upon completion.of this detailed review, areas of concern by PSE&G/Bechtel are documented, numbered and returned to the. component supplier for resolution. Resubmittals are in turn reviewed in detail and this " review / comment to vendor- / resolution /resubdittal" process is repeated until the EQ report satisfies the concerns of PSE&G/Bechtel of the com-ponents ability to perform its'. function under any postu-lated plant condition. Component Test Witnessing Stipulations within purchase orders placed with vendors sup-plying safety related electrical and mechanical equipment requiring _envi'ronmental qualification testing specify that Bechtel and/or PSE&G be advised of the schedule of particu-larly important stages and events of the EQ test program. This timely no ti fica t i on has allowed the opportunity for Bechtel/PSE&G. to inspect both the components being tested and the test facilities as well as to' witness key events. Th'e activities, stages, and events that have been witnessed include, but cre not limited to, the following: a) Smponent physical mounting / set up for DBA test-Ing.~ ~ ^ ~ b) Start-up of DBA chamber testing. c) Configuratio'n, of test monitoring /dat a collection instrumentation. d) Set up-end performance of seismic testing. e) Verification of proper test sequencing. ) f) Thermal aging facilities and test setups. YIII-8

f,':,',M:glp:#;z n, ene-~.,maarm wm mv ~,.. ' - zw. -s ...:.~.' ,~d.- y* r v . 4r - s ~ x wen e s. ,, a g -y .g; .(.... +. ~ g) Mechanical (repeated operation) and electrical-(voltage / current / frequency variations) eycling methodologies and test setups. b) Radiation exposure rates, durations and source strengths. 1) Component failuresrecognition and determination of problem resolutions. The above noted t a's k s. a r e separate from, and in addition ~ to, those function: performed by the Quality Assurance organization noted in Section V of this EQ Summary Report. i e 4 ,-u, w 4 - q w p,, wc+ -s.. . p- .x =, ~ >g- + c%- q' /*

b. ( - *.. p-G e

s, 5 - F e .Tes W. .w.. - m. '.k'- I i. ^* h. VIII-9

~ i; ~- n s.- IX FOLLOW-ON PROCRAM HCGS is developing a computer based maintenance and.sur-veillance program to ensure compliance with 10CFR50.49 and Regulatory Guide 1.33. The components for this program were selected as a result of detailed review of existing documentation, (FSAR, Tech Specs, System Descriptions, etc.), drawings (P&ID's; loops, one lines, etc.) and review of the Master Equipment List (MEL) and, as such, includes all safety related electrical and mechanical equipment lo-cated in both harsh and mild environments. The purpose of the program is to provide a documented method to verify that the required maintenance and surveillance are per-formed. This ensures proper equipment operation over the equipments' identified qualified life. Maintenance of the items ranges from periodic visual in-spection of the equipment to detect excess wear and/or verify proper working order to scheduled replacement of identified parts or even total equipment replacement when necessary. The maintenance and surveillance program is divided into the two following categories: (1) Components in a Harsh Environment The safety related electrical and mechanical com-ponents located in a harsh environment have been iden-tified in Section VII of this EQ Summary Report. These components are subdivided into the following cate-gories: (A) Components with a qualified forty year life which require no replacement parts or plan-ned maintenance for their stated life. These components are listed.in the maintenance and surveillance program.and the, operating pro-cedure or normal operating mode used to ver-I ify the devices operability is also' listed. This listing is " passive" in that normal operation provides for this operability verification.. However, the components in-clusion on the program's list provides a mechanism to identify unanticipated failures or abnormal operation should they occur. In this way, failure trending allows i d e n t i f i.- cation of any compromise in the components qualified life and will allow re-analysis on a real time, case by case basis. Y I X -1

C ~ i %L -d N ? i u.s r. x i . ' 'j. + w y (.. w a (B) Components with a qualified li f e of forty ~ years if identified parts are replaced or if the components are replaced in total. These components are listed in the " active" sec-J tion of the maintenance and surveillance program. This provides plant main-tenance/ performance department notifica-tion, via a computer based real time print-out,of both the maintenance required and the date by.,which the action must be completed to ensure the components. operability re-quirements over the plants forty year life. The notification provides for adequate lead time needed to procure replacement parts / components, if applicable. (2) Components in a Mild Environment Using the MEL for reference in compiling t,his list of safety related components located in a mild environ-ment, the identified components are subdivided into the following categories: (A) Components whose operability is proven via either Tech Spec requirements (Diesel Gen-erators, SW Pumps, ESFAS, etc.) or via nor-mal plant operation (breakers, r'e l a y s, valves, pumps, etc.). Maintenance and/or replacement of component parts or total component replacement is based on a combina-tion of manufacturers' recommendations, good w engineering judgement and/or actual plant experience with the components. (B) Components whose operability is verified via scheduled maintenance and surveillance procedures. Frequency of procedure perfor-mance and corresponding replacement nf iden-t i fied parts' or total component replacement 4 is based on a combination of manuf acturers' ? .. maintenance' recommendations, good; engineer-ing judgement and/or actual plant experience ) ~ .d. -on a componer.t by component basis. Engineering Inte'rface With Plant EQ Program u.; The foll'owing en'gineering l'nformation exchange is provided ^ to the< stat. ion for-the Maintenance and Surveillance Pro-(1) A single document summarizing the safety related . electrical and mechanical components located in a harsh environment with a forty year qualified life. ~ '.% .4 .? . -e I X -2

n + .n . p,- - ry 3 m m s

smi,

^ (2) Documents sumniarizing the safety related electri-cal and mechanical components located in a harsh environment which require maintenance, replace-ment of parts and/or total component replacement to meet the forty year qualified life commitment. The documents delineate maintenance requirements and maintenance / replacement intervals. (3) For sa'fety related electrical and mechanical com-ponents located,in a mild environment, engineer-ing provides both a listing of component parts and the required maintenance / replacement interval to ensure component operability. Additionally, as HCGS achieves commercial operation and as-sociated work history experience, these time intervals will be updated to reflect actual operating experience.

Also, feedback from the industry via vendor technical bulletins, USNRC IE Bulletins / Notices, NPRDS, INPO reports, etc., will be used to further te fine maintenance / replacement inter-vals.

' 'g. n l ).. '4 4 1 IX-3

m ~

e. X
s...

.s ~ t = ,.. _. - - ~~

. 7.-

~ m. ~, F S- ,,, rg.i;. .a. r-

scs, a

e X. EQUIPMENT ENVIRONMENTAL

SUMMARY

SHEETS The Equipment Environmental Summary. Sheets (EESS) provide a tabulated synopsis of the EQ related data on a component-by-component basis. This data is taken from the EQ ' file which includes the actual EQ test data for each component. A sample EESS and a listi an EESS is attached on P,ng identifying each item. included on ages X-2 thru X-6. G e e ^ '. +,. "? % - ,.r,8648*' /v w P b r.t I

  1. ~

M.a g w A 4 u e EM' ~ 6 ..s : g jz -' I l . X -1 l \\ -I

1 , + d EEUIPPENr EVAIJJATICN SJP9WW SIEI'r Str. NO: HOPE OtEEX GNERATING STATICN REV. NO IWrEs DNIIO9ENT 00QMNrKFICN EFERENCE EQUIPMENT QUALIF. OPDi [ESOLIPTICN PARN EFERS SPECIFI"2) QUAIEIIED SPECIFIED QUALIFIED PEDOD ITD6 MMCIN RENMUCS b OPERKPING }f-(1) SYSFDt TIPE

12 5' 28 13 29 44 60 52 7

(2) TM70. TEPP. (*F) 14 30 15 31 45 61 53 b PRESSURE (3) CopeGatwr (PSIA) 16 32 17 33 46 62 54 Rf2ATIVE (4) MMAJFACIURER HUMIDIW (t) 18 34 19 35 47 63 55 1. M FIIODIPC/ (5) MODEL NO. Flont 20 36 21 37 48 64 56 1 RADIATICN [1 (6) fueCTICH (RADS) 22 38 23 39 49 65 57 h (7) ACQJRACY MIPC 24 40 25 41 50 6 c) SPDCIFIm 66 58 b) ACIUAL I (8) IDCATICN SPRAY 26 42 27 43 51 67 59 (9) An0VE f1000 ILVEL DOQMNFATION

REFERENCE:

tOITS f YES N0 t (10) SEISMICAILY 1ESTED YES EP. f h. s ~ NO I (11) SURVEIIIANCE IE00. f

i;p YES EP.

u

4G iv Q7 W y s W -a -a lJ"[' y.n e + a.*- ~ y 1. . System (s) of' which the equipment is a part (i.e., RCIC, 'HPCS, etc.). 2. Bechtel tag number (s ). [ include system designation.] 3. Generic descriptions of equipment (i.e., pressure transmitter, temperature element, etc.). [Use same description that is in Table 3.11-5 data base. ] 4. Name of actual-vendor (not the sub-purchaser, i.e., g GE, Westinghouse, etc.)'. S-Vendor model number (preferred) or drawing number. 6. Brief description of what is measured or done by the equipment for each application listed in Item 2. 7a. Accuracy of the equipment as or if specified on the Bechtel Specification. (Not applicable if the ' equipme nt is passive). 7b. Accuracy of the equipment as demonstrated in the report. If 7b is not as accurate as 7a, then a note should be added directing the reader / reviewer to an explaination if this is acceptable. (Not applicable if equipment is passive.) 8. Location in the plant in.which the equipment can be found (insert building / room, elevation, etc.). 9. Does flooding occur in the room in which the equipment is found? (DITS 7.5) If yes, the highest flood level elevation specified must be considered; if the equipment / component is below that level, then submergence shall be addressed. 10. If seismically tested, identify reference document. (See SORT' File)' If maintenance [and surv'lllance'is required, state the . 11., e reference document. (Use vendor Report No. and list page no. of ' report or refer to document prepared biy PSE&G). ~ .v8 y

12.. The-length of time, starting with DBE initiation, during which the equipment is required to perform its og safety : function or not.f ail' detrimentally.

13. The auditable exhibit" that documents the specification ~ for Item 12. 14. The time-depende t temperature profile during the period of Item 12, for the time the equipment is required to perform its safety function or not f ail -m,. N detrimentally. X-3 4

- ~ _ 7: x _s~ ~ ~ ^ ^ ^ w;a i t .15. The auditable exhibit

  • that documents the specification for Item 14.

16. The time-dependent pressure profile during DBE under which the equipment is required to perform its safety function or not fail detrimentally. A 17. The auditable exhibit

  • that documents the specification for Item 16.

18. The time-dependent profile of relative humidity during DBE in which the equipment is required to perform its safety function or not fail detrimentally. 19. The auditable exhibit

  • that documents the specification for Item 18.

20. "None required" if above highest flood / froth level elevation. The entry here should be consistent with i Item 9 for flood. 21. the auditable exhibit

  • that documents the requirement for Item 20.

4 22. Radiation exposure expressed in three entries (identify type): a) integrated dose during normal service, b) i'ntegrated dose during DBE (Item 12), and c) total integrated dose (TID), sum of (a) and (b). 23. The auditable exhibit

  • that documents the specifice. tion for Item 22 (including beta, gamma, dose, dose rates as applicable).

" neutrons, total 24.- ~ Enter' environmental and operating stress-(t'^mperature,tr. e cycles, etc.) for 40-year period, excluding DBE; for pipe-mounted equipment, include.any specified long term vibration. In addition, hydrodynamic loads of a long duration shall be specified and applied therein. 25. The additable exhibit

  • that documents the specification for Item 24.

+ 26. If applicable, state containment spray rate and composition of the spray. 27. The auditable exhibit

  • that documents the requirement for Item 26.

c ,Q', =i 9, e i ~

  • e-r X-4 w

y. -,,,m,._ y. ,_m.,,,,_,,. ,~,-----_y-,,-

'~ a- ~ t 3, ,3 y ,y g l x 9 28.. The length of time, starting with DBE initiation, during which the equipment has been demonstrated to perform its safety function. 29. The auditable exhibit

  • that documents the demonstration for Item 28..

30. The-time-dependent tesperature profile to which the equipment has been exposed and demonstrated to function properly. - 31. the auditable exhibit

  • that documents the temperature profile and the function of the equipment for Item 30.

32. The time-dependent pressure profile to which the ~ equipment has been exposed and demonstrated to function properly. 33. The auditable exhibit

  • that documents the pressure profile and the function of the equipment for Item 32.

34. The time-dependent profile of relative humidity to which the equipment has been exposed and demonstrated to function properly. 35. The auditable exhibit" that documents the relative humidity profile and the function of the equipment for Item 34. 36. A statement of" capability during and af ter submersion and/or exposure to froth, if: required. 37. the auditable -exhibit *- that -documents the filoding/ froth exposure and the function of the product for. Items 36. 38. the total "integisted 'rsdiation does - to 'which tthe 3+- equipment'has~been' exposed and demonstrated to function L a properly _(identify ~ type). %"" W s- " " ,, 3 9. the < auditable texh'ibit* 'that-documents the radiation 0 exposure >and the -function of the equipment for Item *38. e-- we % cr - nv -n: a 40. Demonstrated qualified life for conditions in Item 24. 41. Reference' the Equipment Qualification Report and the auditable document

  • that exhibits the aging exposure and the function for Item 40.

42. A statement of capability during and af ter exposure to spray, if required., x X-5 ~ - - - - = w- -.y-- e=w-a --g'-~.----wm-.ia--we----.m --uw --e,-ei------,e-, -a-.+e-.ne-m- e -wr---ew- - - - - + - s

w .p, 6 ') y ai ? '.s - q i s. ) ) (. .g4 HCG *.i FSAR TABLE 3.11-5 = @ !PMENT SFLECTED FOR HARSH ENVIRONMENT OUALIFICATION P6ED Page 4 3 nl FS .d N-ST-1 SYSTEM: CONTAINMEPrF ATMOS. CONTRL. CS PAM TMI ACTION LOCATION EOH IP. PIAN TOH IP. P.O. ID NO. MPL NO. COMPONENT BLDG. E E.EV. NOTE II) NOTE 121 CYN9MENTS J3590 1-AC-200 H2/02 Analyser PNL A React or 162 No Yes J3590 1-CS-AE-5039Al Analysis Elemt. Reactor 162 No No .83590 1-CS-AE-50 39 A2 Analysis Elemt. Reactor 162 No No J 3590 1-CS-AE-5039st Analysis Elemt. Reactor 162 No No Analysta Elemt. React or 162 No No J3590 1-CS-AE-5039n2 r J3590 3-GS-Al-5040A Anal. Indicator peactor 162 No No J3590 1-CS-Al-50408 Anal. Indicator scact n r 162 No No J 3590 1-GS-ART-5039Al Anal. Indicating Trans peactor 162 No No J3590 1-CS-AIT-5039A2 Anal. Indicat t.sg Trans React or 162 No No J3590 1-GS-AIT-5039st Anal. Indicating Trans Reactor 162 No No q J3590 4-CS-AIT-503982 Anal. Indicat ing Trans peact or 162 No No J3590 1-CS-AIT-5043A Anal. Indicating Trans peactnr 162 No No J3590 3-CS-AIT-50418 Anal. Indicating Trans React or 162 No No J3590 1-AS-206 H /02 Anal. Pkg. Reactor 162 No No 2 J3590 1-CS-AS-5039Al Anal. Sw. Reactor 162 No No J3590 1-CS-AS-5039A2 Anal. Sw. Reactor 162 No No .f3590 1-CS-AS-503988 Anal. Sw. Reactor 162 No No J3590 3-CS-AS-503982 Anal. Sw. Reactor 162 No No J3590 1-CS-ASH-5037A Analysis Sw. High Reactor 162 No No J3590 l-CS-ASH-50378 Analysis Sw. Hlyh Reartor 162 No No J3590 I-CS-ASH-5041A Analysis Sw. High Reactor 162 No No J 3590 1-CS-ASH-504tB Analysis Sw. High Reactor 162 No No J3590 1-CS-AT-5039Al Anal. Trans. React or 162 Yes No .f3590 1-CS-AT-5039A2 Anal. Trans. Reactor 162 Yes No J1590 1-GS-AT-5039st Anal. Tsann. Reactor 162 Yes No r J3590 1-GS-AT-503982 Anal. Trans. Reactor 162 Yes No y J3590 1-RC-200 H2/02 Analyzer PNt, R React or 162 No Yeg J3590 l-HS-206 H /0 Anal. Pitg. Reactor 162 No No 2 3 J3590 1-LC-200 H2/02 Analyrer HT IHl. React or 162 No No J3590 1-DC-200 H2/02 Analyser HT PNL Reactor 162 No No JJ590 1-CS-HS-5085n Hand sw. React o r 16 2 No No J3590 1-CS-HS-5086A Hand Sw. Reactor 162 No No J3590 1-CS-HS-50869 Hamt Sw. Reactnr 162 No No J3590 1-CS-HS-5087A Hand Sw. Reactor 162 No No J3590 1-CS-HS-50878 Hand Sw. Reactor 162 No No A J3590 1-CS-HS-5092A Hand Sw. Reactor 162 No No J3590 1-CS-HS-50928 Hand Sw. Reactor 162 No No J3590 I-CS-HS-5094A Hand Sw. Reactor 162 No No J 3590 1-CS-HS-30948 Hand Sw. Reactor 162 No No f J3590 1-CS-HS-5095A '4 Hand Sw. Reactnr 162 No No a J3590 3-CS-HS-50958 t Hand Sw. Reactor 162 No No P303AO 1 -GS-HV-4 9 5 8 ' Control valve Reactor 145 No ' Mo 1 i c + D +

%. &,c.&.We_: 5:..n g. . u ;:. V ~

n. +

- ~ - - ,c Qu e h - F T 41 f'.& n - + r-w y jan dy[ ?** klSC ~ ~'*: ' Af N? A~ ~ .< q ee A. .H = Ew I 7 4 C. e &E I 4 =& C= i-o. m s.. C CCCCCCCCCCOCCCCCCOCCCOCCCCCCCCCCCCCCOCCCC 2W E E E 12 E E 2 2 2 2 z 2 2 Z E 2 2 2 2 2 2 E Z Z 2 2 2 2 Z Z Z Z 2 2 2 3 2 E E E m f. >O E. 2 k e. 3 0 .-4 W em i tu 2222222222:22222222222222222 2222222222:2 y

== 7 403 &w2 F.ZW E 8 .E. E _e C Z w N. #.e NNNN.. _ _. N _c, N N_m.. _ _ - - - - - - -.C. _. _. eo.re N. es .re ce ce N. _N N N. Pe N. N N N.Pe.F.W N N. _N P N a t! m.

O

_.._O.=.._.._.__. 5m .e- .e .e .e.e e = E k QE ( aC b

h. A. b a. l. b he b b a. 6. b a b a b b he h he h. b
t. b b h. ne t. b b t. h. b b b 6
6. E. k h.

C 0 C C C O C C.0 0 C 0 0 0 C C C O C C C C C O.C C C C C C C C C O C 0 C C C C D z at z U C

  • ** ** e er a***
    • e* *** *e**

u s e e m m e e

    • eene**************=**

d ** U U U.U U. UUUUU.e 8 5 s e e e e e e e.. U U.U U U U U 4,2 k u U U U U U u u U U U U U U U U U.U U. U U U ee. e...

e. e
e. s e a g e e s e = = e e s e s e c eseeeeeeeeeeeeee.e..

m b. a . e .. et E EEEEEE&EE&EEEEEEEEEEEEEEEEE&EEE&EEEEEEEEE 8 to OWJ e ens F. W E D= ae Cc e e. K K O 33

  • eb a

W tra m 3 3 6 M _3 3 3 3 3 3 333 3 eeeeeeeeeseeee..e9e. . Era "? . = = 4.Q..Q..C .C.q Q Q.* = Q .&.>.e>m>..>.>=>=.>..>..>..>a>==>=>ee>m>.>..>..>..> N = p J 2 ee e e e e e e e e e e e e e e e g e a e e _C u

e. u e.n.

en. cc = ..*ee b >>>>> >>>>>> >>>>>>>>> U _e te e e e.=333333333333bb _u t a w .e _.e ,e .e e, C O m=m.=O Qtrav. v.Esoac a e mEc e m e,e . Z n, og,, a a COOCC OOCC O C = * .a. 4. k 4. a. C. a. a. a. 4 C. C. as C. C. 4 C. C. C. C. H.* eaeeeeaeeeaeeaeeaeae n n a a.6 *

  • e.n. a -
                • .*e
  • a me e c c c c c c c c c c c c c c c c c c c c e e., a e e a e e e e e e e e e e e e a e ea. b a. e e e. e. ii. e. e. e. e. a. e. e e o
  • e eee e

e CC0CC000C0000CC00CCoea a bn n i ii i n i i b e t n e. 2 b u UUU UU U UUtuaLauU 00 U b UU =a.Ee.s.a.Ea.a a.a.a.e.&&a,n.a a.ac. T**5 'r _a ,~ ~ e u. yc .t + e g

  • *u -

s J l~ a.J E -e m 4 5 -~ N ~ s.g .y g 9 aus N.e fe 4 m C s'd a C 2 4 m, w w w w e== .E..(..F 4 4 4't

  • fe m w

, et 4 3 2 ( .m.N 81 4CSSE_ y en en e e a. e. en.d.a 4m4m (C 3 en to en e en ee en se ( c ... - e e e e.e..e ce es.e== OOOOOOOOOOOOOOOOOO.O eeeeNmeeeeeeeeeeeeo. eamee -+#*- (f en em en am = N ee w w e e e e es e en e5e e p eb e e O O O O - P* en en en en to en en en en en en en en em en en en op e e w w w w w w w w w w w.F w w en en en em en en m Ef) M M t. 5. = z.t.i t g 6 3 9 9 9 e J J.2.3 0 5.e.e.B2 J.2 e e e tww .3 3 3 3 e 0 t t t t t e e9 9 e 9 e 6 0 9 9 e e

a. G. C. O. C. D. a.1 V. W ffi M. V IA. W. 8.3 M. M. F. b. b.

QQ Ef i gag a a *% a a t# EEE2EE=22EE==3=322== GG G C & G. & G E O s t e t 6 e e e ee e e e a e e e e e e e e 6 e 9 e e e e e e e t e e 6 e t t t 2= 2 g En to m En W g EPA M W Wj WJ m 0* a EC 10 E/3 W M M Er1ta m EC tr) W r Ef)GC W F.M y 173 M M E E tt) mod dOOOOMUCUC0CU 3 4-vCOOCUwUUCUCOMCUCMUM .T.en T.O O V Qe. e. en so =e= se.a..e a a e a e e eTe e om== se.T. eTe e e e i eTe i e e i i e-et C .ee ame.ee se se s.e.ee ao.e.a, se==== ee we e.i o e .o e am se smo se ame ce ao ao se N YU-E OO00000000000O00O000 4 4 4 4 4 4 4 4 *C < < ac < < < c < < < < 0 0 0 0 0 OOOOOOO'OOOOO = M m m m m m m m a e m m m m e m m m a a e e e e e.0..O. e e e e e e e e e e e e.O..O u +' _ '=,%,. 6= a e.3. O. ' O O O O O O O O.g ms=>O O.,yC O O,e m p O O em en se en en O O en e en en *

  • en em e en en em O O.,

OO OOO 3 m m m ag,sg m m s me ese e m m m m m m m m m m m og m m m og m m m e m m.. . 7$ if[ E0.~ % &e ' 8. 8. d.& 8. & O. & E.& & C.8. 4.E. & & O & k o').g sig amj $ pug aug.sg em).ig g g oug og $ ag pug sig sg omg ug. b .e m Y '40, - > 8 I I J s..' x , M e g..

s is { I t A e r t HCGS FSAR TAat.E 3.1I-5 PEID Page 46 of f* E0tilPMENT SEl.F.CTFD FOR HApSH F.NVipONMENT OtlA1.IFICATION M-57-1 ' (STENs CONTAINMENT ATMOS. CONTal.. g-GS PAM TMI ACTION l.OCATION F0ti t P. PIAN FQ18 8P. F.O. ID NO. MPl. NO. COMPONENT Bl.UG. FLEV. NOTE (l) NOYE 121 Cf)nMENTS e303AO l-GS-zS-4963 Limit Switch peact or 77 Yes No P3050 l-CS-IS-4964 f.imit Switch peactor 77 Yes No "A P303AO l-CS-IS-4965A Limit switch peactor ?? Yes No P303AO l-GS-35-49658 f.imit Switch peact nr 77 Yes No P303AQ 1-GS-IS-4966A 1,imit Switch peactor 77 Yes No P303AO l-GS-2S-4966R Limit Switch peactor 102 Yes No P303AO l-GS-IS-4974 Limit Switch peact or 102 Yen No P3050 1-GS-zS-4978 IImit Switch peactor 102 Yes No P3050 4-GS-IS-4979 Limit Switch peactor 102 Yes No P3050 1-GS-2S-4980 Limit Switch peactor 77 Yes No P303AO l-CS-IS-4983A Limit Switch peactor 162 Yes No P303AO l-GS-IS-49838 f.! alt Switch peactor 162 Yes No e P303AO l-GS-IS-49944 l.imit Switch peactor 162 Yes No P303AO I-GS-IS-4904n t I.imit Switch peactor 162 Yes No P303AO l-GS-IS-5019A Limit Switch peactor 162 Yes No j P303AO l-GS-IS-5019H. Llmit Switeft perctor 162 Yes No P303AO l-CS-IS-5022A Limit Switch peactor 77 Yes No P30340 1-GS-IS-50225 Limit Switch peactor, 102 Yes No l- ,,. P3050 NI-GS-EE-5029 f.imi t Swi tch peactor 77 Yes No 2 'l-GS-Is-503l I.imit Switch peactor 77 Yes No 3 fP3050 + c p

h.

{4 t f n. -i ' 34 I"i y { t q 9 3, (- 4 1

l 2

b( ,, v, 4 r w .I, Y,' l' e. - 7 (/ ( G - s .q. 4 ,- <; a. I s

  • 7, tw

. k: .l, l.

fp j-

.. 4. 4

y pi rcq.

y n.- ,4,. ~. n y a y- ,t t-g jr.. .i r ? i t. 'y y 4: j , b, *. k 42 i ,gff p y. l' 1 J, s a t e ' Ef: l r y 5 '. .g.

. sk>,

4

  • f D

T '4 .t - - - - - ' ~ - - _, _}}

Retrieved from "https://kanterella.com/w/index.php?title=ML20095H335&oldid=4321329"