Rev 0 to Environ Qualification Summary Rept

ML20095H809
Person / Time
Site:	Hope Creek
Issue date:	08/02/1984
From:	Public Service Enterprise Group
To:
Shared Package
ML20095H798	List: ML20095H794 ML20095H809
References
NUDOCS 8408290102
Download: ML20095H809 (501)
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Text

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ENVIRONMENTAL QUALIFICATION

SUMMARY

REPORT FOR HOPE CREEK GENERATING STATION PUBLIC SERVICE ELECTRIC & GAS

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8408290102 840824 PDR ADOCK 05000354 PDR A

ENVIRONNENTAL QUALIFICATION SUNNARY REPORT FOR HOPE CREEK GENERATING _ STATION SECTION TITLE I

Purpose 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 4

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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 its anticipated forty year life.

In accordance with Item (b) o f 10CFR50.49, this 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 satisf actory 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" es applied to electrical components and when used in this report only, are synonymous with the three categories noted.

HCGS compliance with 10CFR30.49 is summarized in the attached FSAR Table 3.11-3 (pages I-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 establishment and periodic updating of the EQ file and EQ Summary Report (Section III).

(2)

The listing of applicable EQ Program related design criteria including Regulatory Guides, IEEE Standards, NUREG's, IE Bulletins, Notices, etc. (Section IV).

(3)

The Quality Assurance programs utilized to assure ad-herence of. the EQ program to the requirements of 10Cf50, Appendix B (Section V).

(4)

The analysis methods used to determine the environmen-tal design envelopes (radiation, pressure, temperature, humidity) for normal as well as abnormal and Design Basin Accident (DBA) operating conditions (Section VI).

(5)

The identification process used to determine (a) the systems required to mitigate and follow the course of any postulated DBA as well as achieve and maintain safe shut-down following a D8A and, (b) the selection process used to identify the individual electrical and mechanical compon-ents within each of these systems required to function to ensure required systerr. operation (Section VII).

I-1

i (6)

The review process methods used to ensure the enm-pleteness of EQ reports for each of the identified safety related system components to verify. compliance with appli-f cable EQ design criteria including HCGS Licensing commit-ments to IEEE Standards, Regulatory Guides, NUREGS, 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 replacement of EQ related electrical and mechanical components to ensure operability under any anticipated environmental 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 data 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 Conformance 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 General Design Cri-teria.

(6)

Section 3.2 Classification of Structures, Compon-ents, and Systems.

(7)

Section 3.9 Mechanical Systems and Components.

(8)

Section 3.10 Seismic Qualification of Seismic Cate-gory 1 Instrumentation and Electrical Equipment.

(9)

Section 3.11 Environmental Design of Mechanicci and Electrical Equipment.

(10) Chapter 6 Engineered Safety Features.

(11) Chapter 7 instrumentation and Centrols.

(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-Notices, etc.) to which the HCGS EQ Program is committed.

1-2

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.

HCGS FSAR TABLE 3.11-3 (Cont'd)

Page 2 of 4 6.

Paragraph (d)

- Requirement incorporated.

Table 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 report.

7.

Paragraph (d)(1) - Requirement incorporated.

The 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 inf o rmation.

9.

Paragraph (d)(3) - Requirement incorporated.

The EES sheets in the EQ 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 EQ 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.

Requirement incorporated.

Chemical

12. Paragraph (e)(3) effects are not applicable since demineralized water is used.

Effects of denineralized spray are encom-passed by testing at 100 percent relative humidity.

Equipment subjected to direct spray impingement will be evaluated to determine if l

testing under spray conditions in l

I addition to 100 percent relative humidity conditions is required.

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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.

J ' 4 '. Paragraph (e)(5) - Requirement incorporated.

Aging is 1

included as part of equipment quali-fication except where equipment is not. considered to be age sensitive.

Qualified life is included on the EES's.

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

Equipment 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 ef fects 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.

Anj 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 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.

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II.

PROGRAM SYNOPSIS The objective of the EQ program is to ensure that compon-ents required to safely shut down the station under any postulated DBA will successfully perform their safety re-lated function.

This DBA could occur at any time during the anticipated forty year plant life.

This objective is met by:

(1) Identifying the systems and the components within each system required to safely shut down the station.

(2)

Determining the no r m al' ' e n v i r o n m e n t a l operating conditions that the components will be function-ing under.

environmental condi-(3)

Determining the worst case tions the components will be subject to under r. 0 -

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 DBA environmen-tal conditions.

These items are performed by comparing the detailed manu-identi-facturer or component supplier EQ reports for each fled component to the environmental envelopes calculated i

for both normal, abnormal, and DBA operating states under which that component will be required to operate.

s (1) Identification of the Components Reouired to S a f e ly_

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 detec'. ion, monitoring and/or mitigating functions were identifie J on a sy stem-by-sy stem basis.

These systems and their related components were defined and separated into the following categories:

(a) -Protection Systems - those systems which ini-tiate safety actions to mitigate the conse-quences of a DBA.

those (b)

Engineered Safety Feature Systems systems which provide cooling, core protec-tion and isolation of the reactor plant dur-i ing a DBA.

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i (c)

Safe Shutdown Control Systems - those' control systems used to achieve and._ maintain the sta-tion in-a safe shutdown condition following.a DBA.

(d)

Safety Related Display Instrumentation - the display instrumentation avata. ale to the operator to indicate proper functioning of safety related systems.ir.cluding indication of required operator manual ir.; lation and control of safety systems /componelta.

(2) Determination of Normal Environmental Conditions j

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-tion, refueling and maintenance.

This data was used as the.

baseline data in dete rmining normal environmental ef fects on components required to safely operate and shut down the station.

(3) Determination of Worst Case Environmental Conditions The A/E then analyzed the effects that abnormaA 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 ventilatinn as well as Design-Basis Accidents (DBA) such as LOCA, feed--

water line break, etc.

The-resultant werst case environ-mental conditions postulated were chosen for each plant ares.

From this analysis, two categories of environmental states were defined:

(a)

Harsh Environment-Components located in i

these areas would be subjected to worst l

case DBA anticipated temperatures, pres-sure, humidity, and/or radiation extremes well above the normal operating environ-mental conditions.

(b)

Hild Environment-Components located in these areas would at no time (including under werst case DBA) be subjected to en-vironmental conditions significantly more severe than those experienced under nor-mal' plant operating conditions.

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Ill.

PROCEDURES The responsibility 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 Controls and Electrical Division of the PSE&G Engineer-ing and Construction Department.

As such, it is respon-sible for the coordination and monitoring o f.the e f forts of.

the various participants involv.ed 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 (80P) 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-angineer.

Participate as a member of Technical Review Com-

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mittee (TRC) in GE-EQRT program (NSSS EQ Program only.

Resolve comments generated on plans and reports and provide recommended resolutions of equipment l

qualification issues.

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Monitor open issues.

Establish a program to provide documentation for the development of a plant maintenance, survell-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.

In addition,.PSE&G's engineering personnel involved in EQ are responsible for preparation and updating of.this EQ Summary Report.

This includes review and resolution of USNRC licensing concerns as they pertain to the EQ pro-gram.

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IV.

REGULATORY COMPLIANCE The HCGS-EQ effort for safety related electrical equipment located in a harsh environment is required to comply with Category

.'I of NUREG-0588, " Interim Staff Position on En-vironmental Qualification.of Safety Related Electrical Cemponents" 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, wherever 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 performed by identifying significant aging mechan-isms within each mechanical component in accordance with IEEE-627-1980, " Design Qualification of Safety Systems Equipment Usea in Nuclear Power Generating Stations", Sec-tion 4.4.1.

Environmental zones and conditions for which this mechan-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-plicable criteria delineated in the Seismic Qualification Review Team (SQRT) and the Pump and Valve Operability Rc-view Team (PVORT) documentation.

This includes, but is not limited to, conformance with the following as deo-cribed in the FSAR.

(a) ASME Section III, Class 2 Criteria.

(b) IEEE Standard 344-1975 - " Recommended Practices

• for Seismic Qualification of I

Class 1E Equipment" (c) IEEE Standard 323-1971

" Qualifying Class 1E Equipment for Nuclear Power Gen-erating Stations".

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(g) Regulatory Guide 1.63 Electrical Penetration Assemblies in Containment Structures for-Light Water Cooled Nuclear Power-Plants (Sections 1.8, 8.1.4.12)

-(h)* Regulatory Guide 1,73 Qualification Tests of Electrical Valve Operators Installed Inside the Containment of Nuclear Power Plants (Sections 1.8, 3.11)

(i) Regulatory Guide 1,63 Qualification of Class 1E Equipment for Nuclear Power Plants (Sections 1.8, 3.11)

(j) Regulatory Guide 1.97 Instrumentation for Light Water Cooled Nuclear Power Plants to Assess Plant and Environs Condi-tions During and Following an Accident (Section 1.8).

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V.

QUALITY ASSURANCE PROVISIONS Per the licensing requirements of 10CFR50, Appendix B, the

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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 the EQ program.

PSE&G's QA commitments are described in-detail in both Chapter 16 of the HCGS PSAR and in PSE&G's QA Manual.

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-fled for correctness.

Review and approval of vendors to verify that they are qualified to supply the specified safety re-lated equipment.

This vendor approval may i..;1 ode vendor subcontractors and may involve vendor /sub-contractor site visits to review the in, house QA/QC program and evaluctc the cbjective evidence of the vendor's ability to meet his QA/QC commit-ments.

Review and approval of testing laboratories used to perform EQ analysis and/or testing. Site visits to review in-house QA/QC programs, test facili-ties, test instrumentation calibration documenta-tion, test setups, data collection, analysis and storage, etc., are also performed.

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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 s,torage in accordance with vendor and EQ require-ments is verified.

Audit of the EQ file to verify that the required support documentation 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.

These EQ 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.

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VI.

ENVIRONMENTAL CONDITIONS

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'The development of the abnormal / Design Bas'is Accident (DBA) environmental envelopes established for each harsh environ-mental area of the plant in which safety related electrical and me'chanical equipment is located was based on accident scenarios described and analyzed in FSAR Chapter 15. In selecting an environmental envelope for any particular com-ponent, the DBA which results in the worst case environ-mental extremes (temperature, pressure, humidity, 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 HCGS.

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 Outside Drywell.

(4)

Feedwater Line Break Outside Contain-ment.

(5)

Control Rod 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 are:

(1)

Reactor Building (2)

Turbine Building (3)

Auxiliary Building (4)

Intake structure (5)

Inside Drywell (6)

Inside Suppression Chamber Each table provides the following information:

1 (1)

Area description and elevation.

(2)

Normal operating environmental condi-tions (temperature, presssure, humidity, radiation).

(3)

Abnormal operating environmental condi-tions.

(4)

DBA environmental conditions (worst case).

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The. components are qualified

.t o 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-f -

_tions, margin was_added to both the qualification para-

. meters and the analyzed time duration, to increase con-fidence in the' components ability to. perform its defined safety function.

This margin, added.in accordance with 1

IEEE-323, I E EE -6 2 7, and NUREG-0588, includes conservatisms-for analyzed environmental conditions as well as for varia-tions (by. th'e vendor) in production processes, inaccuracies in. test equipment and.for errors, associated with the defin-ing of-satisf actory equipment performance.

The DBA radiation. total integrated doses (TID) and dose rates were established in accordance with NUREG 0588.

The TID inside containment was calculated for a' period of 180 days ~after which saturation 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 fission inventory. Enveloping TID conditions out-ide containment but.inside the reactor building,' based again on NUREG 0588, were assumed to be from two sources:

L (1)

After a DBA, 50% of core halogen inventory and.1%

of core solid fission product inventorf were in-traduced to the emergency core cooling system 7

water.

i (2)

After a DBA, the airborne cloud has been released to the reactor building from the primary contain-

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ment.

The TID inside the reactor building, like that inside con-tainment,-is assumed for a 180 day period with saturation assumed thereafter.

Dose rates were determined based on normally anticipated radiation levels preceding, during and following the DBA.

Environmental Maps 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-

-ing " Enveloping Plant Environmental Conditions - Reactor Building", T able 3.11 -1 a (9 pages).

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.m he r-1 NOTES

1. ENVIRONMENTAL CONDITIONS FOR PUBLIC SERVICE ELECTRIC & GAS COMPANY ROOMS 4102 THRU 4118 SHOWN HOPE CREEK GEiERATING STATICU ABOVE APPEAR ON FSAR TABLE 3.11-1a. (FIG. la)

EQUIPMENT QUALIFICATION

2. ROOM 4101 DOES NOT HAVE HARSH ENVIRONMENT ESTABLISHED FOR HARSH ENVIRONMENT ENVIRONMENTAL QUALIFICATION IN REACTOR BLDG. EL. 54' ACCORDANCE WITH FSAR TABLE JOB NO.

ORmHG NWBER REV

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LVESTIBULE 14212.1 l

PASSAGE [+2r3] j l

l l

NOTES 1.

ENVIRONMENTAL CONDITIONS FOR ROOMS PUBLIC SERVICE ELECTRIC & GAS COMPANY 4201-TERU 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

i acGS PpAs Tma42 3.11-te ENVEIDFING Ft. ANT surft adeERIrTEL CONDITIONS - DEACTOR SUIIAING Pete 2 et 0 4

tureen operetSne Coneitione hawwsmal condatione ces Camdat tone Press

Temp, t Det seen Doee lasett 4 Del

Prese, Step t het une 84CA RACA latega aree Desctlptlee &

sena/ttia.

• r maniatty

mate, Dose.

Prese Temp sumidity tote

• F Braidity Opee Rete.

Smee, has number tog TestAtas/ Ave / Min staa/ Min mad /h had (1) pelg of stas /ttia 123 (2) had/h (Soft het 14.7) heester De11 dine.

71 ??*

RAC3 p g 1/-0.25

-/93/02/40 N/20 0.0025 0.082

• Ata 124 194/20 3-30 mia 140 13) 100 1.381 252 soone 4209, mAC3 as 1/-0.25

-/93/02/40 90/24 0.0025 0.382 Ata 124 100/20 3-30 ala 140 (3) 100 1.231 2s2 some 4211 ama as 1/-0.25 111/79/49/40 90/20 10.0 3.584 sta 113 100/20 S-30 mie 340-30 min (3)

(4) 100 1.tsS 304 s m 4200, 4214 Gifegeerd last 1/-0.25

-/02/77/40 90/20 0.0025 0.082 Ata 115 100/24 3-30 min 140 87) 100 1.251 282 sease 4210, 4219 s:stos coatsol 1/-0.25

-/77/70/40 90/20 0.0025 0.082 Ata 109 100/20 3-30 min 140 '

(3) 100 1.231 232 tenter 4215 seotes control 1/-0.25

=/07/79/40 90/20 0.0025 0.032 Ata 110 194/20 3-30 ein 149 (3) 500 2.301 3s3 seater 4241 et 30 h soter contret 1/-0.25

-/76/67/40 90/20 0.0025 0.0s2 Ata 107 100/20 3-30 mia 140 83) 100 1.150 251 t

0 enter 4218 Cao pump t/-0.25

-/97/08/40 90/20 0.0025 0.052 Ata 130 100/20 3-30 min 140

$3) 100 2.3s1 3s2 reae 4242 et 34 h l

Cossloor 4203 1/-0.25

-/02/77/40 90/20 0.0025 0.0s2 hts 110

-100/20 3-30 ein tot 431 100 1.104 est 3-30 min 340-30 mia vettitmte 4204 1/-0.25

-/110/-/40 90/20 0.01S S.353 (3)

(4) 100 3.See DES Pseente 4207, 1/-0.21

-/194/-/40 90/20 0.002S 6.032 3-30 ots Set (33 100 3.080 381 4213

=

=

S-30 als 340-30 mia viettbute 4204, 1/-0.25

-/ttS/-/40 90/20 esell S.333 (3)

(43 100

3. Sue 381 i

4212 setos contret 1/-0.25

-/77/10/40 90/24 0.0025 0.052 Ata 100 100/20 3-30 mia 140 (3) 100 2.481 est center 4205 coastew 4214 1/-0.2%

-/02/77/40 90/20 0.0025 0.082 ata 110 100/20 3-30 min 140 131 100 2.180 MI l

l 3-30 min 340-30 min j

ve*tibute 4217 1/-0.25

-/194/-/40 90/20 0.015 S.383 (1) 543 ISO 2.130 231 I vm. n i

~

BCG8 FSAR TABLE 3.11-1h E8tVEIDPIN3 RADIATIoal CONDITIONS INSIDE PRIMARY CONTAINNENT Radiation Operating Dose Design Basis Event Integrated Doseta,a3 g

2rge pegg_33tsea,a3 Marmal ggg__

g Area ('S J ygg___

mateta3 Drywell, inside Gamma 2.3 x 10*

IACA 8.1 x 108 (s3 3.1 x 10'

(*8 l

biological shield Neutron 8.8 x 10s Beta

(*3 Outside biological shield na===

52.3 x 10*

IDCA 58.1 x 10' Eone 1 (s3 53.1 x 10'

(*3 i

Above core Neutron 58.8 x 10s Beta

(*3 Sone 2 Gamma 54.0 14CA 1.9 x 10' (s3 4.3 x 104 (48 Cora region peutron 12

(*3 Beta Ione 3 Gamma 52.3 x 10*

IDCA 58.1 x IOS (s3 53.1 x 10'

(**

I l

Under weasel Neutron 58.8 x los Beta (43 1.8 x 10F sone 4 Gm===

50.0 I4CA (s) 4.3 x 10*

(68 g

Hear recirculation Neutron 512

(*8 Beta sone 5 Gamma 50.0 IACA 1.4 x 106 (s3 4.3 x 10*

(*8 g

> 15 feet from recir-Neutron 512

(*3 culation Deta i

sone 6 Gamma 50 IACA 5.1 x 104 at 48 h 1.8 x 10' 6.3 x 10*

4.3 x 104 Suppression chamber Neutron

$12

(*8 1.5 x 10* at 48 h 3.5 x 10e Beta i

h (a3 The unit of dose rate is Rads /hr, i

The unit of dose is Rada (e n Normal integrated dose is calculated for 40 years Das dose rate is the dose rate immediately following the DBE, unless otherwise specified.

l tal The beta dose is not significant compared to others during normal operation.

g

(*3 is3 Gamma 1.9 x 10F (algbogagg 1.9 x 108 (plateout at 1 h) i Beta 3.1 x 108 (airborne) 1.1 x 107 (plateout at 1 bl I

3.4 x 10* (plateout) fgqugg

'), h a*8 Genoa

't.6 x 10r (airtorne) teta 9.5 s 108 (airtorne) 6.7 m 108 (plateout) a a n se.e Fagure 3.11-1 f or areas instae primary containmant.

g

10855-D7.5,.Rev. 0

/

Table 5

. v.'

Environmental, Conditions Inside Primary Containment for the Design Basis Event Drywell Temperature Pressure Humidity Time (Decrees F)

(psic)

(%)

0 - 20 sec 340 0 - 62 100

~

20 see - 5 min 340 62 100 5 min - 3 he 340 40 100 3 - 6 hr 320 40 100 6 - 24 hr 250' 25 100 1 - 4 days 200 25 1'00 4 - 180 days 200 10 100 FIG. 2c l

l l

1

. l l

l

(RPT BREAV-EP. RM1 N

F43El ELEv MACH RM Agg(otg CORRIDOR

[CRO MASTER CONTROL i

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ARE A[43 3 l CORRIDOR t l43ogl.

VE ST.

[431 l l

/,5.

' N Hac W N MoTog cont 4./

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^

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cEs ARE A 7'

obwM.'

f43T61

[

[.7 ARE%331 C88 Rf

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M WP' Q"

PIPE CHASEL f.

l43291 cRo

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't, HVr

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gigg,oc35 324 l EQUIP

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S AC S !4E AT ti SACS HEAT EXCHAMC,ER S (

l EXCH AN C,ER S k PUMPS R1%

PUMPS RM 1430al 143o71

'k 1

NOTE PUBLIC SERVICE ELECTRIC & GAS COMPANY HOPE CREEK GENERATING STATION 1.

ENVIRONMENTAL CONDITIONS FOR ROOMS 4301, 4303 THRU 4305, 4307, 4309 THRU 4311, 4313, 4315 THRU 4324 AND l

4326 THRU 4334 SHOWN ABOVE APPEAR EQUIPMENT QUALIFICATION ON FSAR TABLE 3.11-la (FIG 3a & 3b).

HARSH ENVIRONMENT

[

REACTOR BUILDING EL. 102' JO8 NO.

ORAWING NUM8ER REV FIG. 3

+

d ICCS peAm ThatJ 3.tt-te eBNEIDF8MG PLANT eNV1MBeesNTAL CONDIT10me - 5tsACTOR SUllatuG page 3 et 9 Morme1 Opereting Conditions Abnotms1 ConditLane 008 C mdittone presa

Temp, t Det seem cose Integr t nel pr ese, M

e Sei naa lACA toCA integt tese coscriptten a seas / Min.

• p nestetty

mate, Dose, presa step numidity pote

't seletty pose mate,

sknee, moon asumamer ear Test / tees / nee /nta seas /Mla ped /h Rae it) pelg

't seas /tain (2)

(23 Rad /h (S.7) had 46.7) seector est14tng, al t'2' Ctsam tunnel I/-8.25

-/97/86/40 90/20 10.0 3.3s4 Ata 129 100/20 10-30 min 340-30 min tee comme 3.9s?

3e7 (31 (4) bote 3.180 tal j

4316 north pipe chase 1/-e.25

-/193/94/4e 90/20 e.115 2.Ss3 Ata 129 100/20 3-30 min 340-30 min 100 t.lsS ase (31 143 4329 south pipe chose 1/-e.25

-/91/05/4e 9e/20 1.s 3.336 Ata 319 100/20 3-30 min 340-30 min see 1.tsS 486 (3) tel 432%

l prCI pipe chase 1/-e.25

-/78/62/40 90/20 2.5 9.ts3 Ata le6 194/20 5-30 min 340-30 min 10e 7.784 484 (31 (el 24 h 4321 acIC pipe chase I/-9.2_5

-/78/62/4e 90/2e 1.5 6.553 Ata 101 fee /20 3-30 min 340-3e ein fee 3.584 es4 (3) 143 24 h i

4389 personnel 6 ogetp-t/+0.25

-/92/02/48 90/20 0.0025 8.es2 Ata 115 100/20 3-se ein ses see t.2st est (31 ment accese seen 4322, 4333 esentron moeltories 1/-0.2S

-/99/90/40 90/20 250.0 1.156 Ata tie 198/20 3-30 ein see toe f.es2 3s2 (3) tyitem 4310 3

Can hydroelto 1/-c.25

-/92/02/48 90/20 0.0025 e.es2 Ata 115 100/20 F3e sin 14e lee e.4e2 484 (3) et 36 h elas Cao z ets.r control 1/+0.25

-/11/02/4e 94/20 0.0025 8.es2 Ate 155 100/20 3-30 min 140 100 9.600 483 arse & cor!!aos ell?, 4315 a

meehdown etee 1/-0.25

-/92/02/40 90/24 0.042S e.es2 Ata 115 100/24 3-30 min fee toe 9.238 4e3 (3) 4332 3-30 min ide fee f.3s.2 2ss agulpment att lack t/-e.25

-/304/-/40 90/2e 0.0425 e.est a

633 4304, 4305, 4313 i

snotor control 1/-e.25

-/91/77/4e 90/24 e.ects 3.0e2 Ata 122 100/28 3-3e sig toe toe t.Ss See (3) center 4310 stotor control 1/-e.25

-/05/74/40 98/20 0.0025 0.052 Ata 115 194/20 3-30 sta 140 104 4.5s2 3s2 (3) center 4303 OACs pump s es t/-e.25

-/94/01/40 90/20 0.0025 0.052 Ato 95 100/20 3-30 min see see 2.733 Ss2 f31 scom 4 307, 4309 l

FIG. 3a l

n0Gs Psaa Theta 3.15-1e ENvstertuG PLAuT Bevlan====rAL GasotTItaas - asACTom gettaguo rese 4 et 9 anorme1 ope etine conditione annoram1 conditione oss condIttone Press

Temp, 4 pel sens Does Integt 4 Del Pr ess.

Temp 4 Sol asas SACA AACA lategg Area poecstption 6 assa/sein,

• P sintetty

hate, Doce, Press Te%

Bumidit y pele

• F SumidLty Deee Sete,

ames, maae number see Test / team /nve/seta pass /teta mad /h med (1) pelg

• r seam /tain (29 til mad /h ($,73 and (Ge?)

3-30 sta les cad samovel 6 t/-0.25

-/104/-/48 9e/20 0.0025 e.es2 sepals 4324 (3)

IM 9.638 ans 3-30 aim see Can teorege 4333 1/-0.25

-/104/-/40 90/2e 0.14 3.554 (31 IM 9.$st 483 3-30 sie 14e VEttbule 6 elev 1/-0.25

~/104/-/40 90/2e 0.002S e.es2 machtse geom 4311, (3)

See 1.532 333 4334 3-30 mie 14e Drywell accese 1/-0.25

-/104/-/40 90/20 2.5 0.085 scom 4330 (31 See gemma 1.9s1 3s?

bets 3.lme 1st RPT breaker scan 1/ 4.25

-/95/77/40 De/20 e.ee25 e.es2 Ata 122 100/20 3-30 min 14e 4301 (31 100 t.Ss-2 3s1 squi ment als 1/-e.25

./04/74/40 90/2e e.es25 e.es2 Ata 107 IM/2e 3-30 min 14e l

lock, 4323 (3) 100 0.4ee es3 3-30 sta 140 squipment ett 1/-0.25

-/104/-/4e 90/20 0.0025 0.ts2 lock, 4324 (3).

100 0.6ae es)

Cao brdraults 1/-e.25

-/92/s2/4e to/2e e.e2 7.ess Ata its tee /2e l

esse t.tss est FIC. 3b 4

1 IN STR. G 'S N

Co t#f RE SS OF-K M 14 4 2.l CENTRAL ALARM g y sTR G AS STATlot4 [+41(ol Com f* R E SS o R.

l COMPUTER l4418 I RfAjp g3l 4,/

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UNtTS AREA (.,l.+

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R'08 TAMK t. S RECEtVIN l

[NSTR RACK I44o'll NOTES 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.ll-la. (FIG. 4a) 2.

ROUMS 4418 AND 4419 DO h7I HAVE EQUIPMENT QUALIFICATION HARSH ENVIRONMENTS ESTABLISHED FOR HARSH ENVIRONMPNT ENVIRONMENTAL QUALIFICATIONS IN

[

REACTOR BUILDING EL.132' ACCORDANC' WITH FSAR TABLE 3.11-la.

JOB NO.

DRAWING NUMBER REV (EIG. 4a)

FIG. 4

asCG* rena Thes2 3.19-te EsRFClaFING PLANT BNVInoseWNTAL CONDITIOue - REACTOR BultatuG Page S of 9 amormei Op retine coadieaone ahnerme1 condIaeone ces Mie tone Frees

Temp, 4 Det Mas Does Integg 4 pen pr ess, Temp t pel Ree laCA laCh IntegE Area Deecstption &

Bees /Mir,,

• r h uidity

Dete, Doce, Press Temp Reidity pelg

• r Beamidit y Doee Sete,

Smee, mese meher seg smet/ eses /aweAeta pene/uta med/h me.s (t) peig

• r seesmin II) gli med/h (5,73 and 14,79 Deector settelag, e1 132' 6-30 min 250-30 min DWCtf recise p e r 1/-8.25

-/964/-/40 90/2e 92.e 9.986 13)

(4) tot 1.58-2 aet scom 4483, 4485 InsCU hechwesh pump t/-0.25

-/104/-/40 94/20

$$.0 9.186

=

=

6-30 min 254-30 mia (3) 443 SM 1.S8-2 2al soom 4466 6-30 min 250-30 min pasCU backweeh 1/-9.25

-/304/-/48 90/28 1.1982 4.3E7 secire tant 44e1 (3)

(4) tM 1.Se-2 att south pipe chose t/-0.25

-/9t/79/40 90/20 89.0 2.026 Ate its 104/20 f e ein 340-3e min (3)

(4) 1D0 e.4t2 6E4 4402 at 36 h revs sectso 44 0, 1/-8.25

-/0e/69/40 te/20 0.0e25 s.es2 Ate 180 tee /2e e

see 104 2.133 255 -

4413 et le doye sqwi ment asee 1/-e,2$

=/76/4S/40 90/20 8.8825 0.052 Ata 105 104/20 3-30 min see 6

{3) 100 9.SS-2 2E1 4401 Corsidot 4444 t/-e.25

-/984/-/4e 90/28 0.8425 0.et2 Ata 105 184/24 3-3e min 148 l

(3) 100 1.58-2 258 lect 1/-0.25

=/184/-40 90/29 0.0025 0.922 Ata 14S 100/20 3-3e min les 1

Compressos 6 e.8

-1

4. -2..

.3, t

...:ee.4

.t 50 21stsemment gee' t/-9.25

-80/67/40 90/28 0.0425 S.053 4ta

$10 100/24 3-30 min les (3) 104 2.est 383 compreemos room et le 8ere 4412, 4413 Entrance to 1/-e.25

-/04/1S/40 90/20 0.0425 Soest Ata 100 tee /2e 3-30 min 340-30 min (3)

(4)

ISO 2.082 883 itsen vent 4499 Cent 41 eters

.25/-0.25

=/104/-/40 90/2e 0.0005 2s2

=

Etttien 4436 econttoring sad son-

.25/-a.25

-/944/-/48 9e/2e

e. tees 2n2 munitetton essa 44t$

FIC. 4a omwwwere? 1.18/01,

DucuMENT S T o R A Cv E N

RM 145tGI STEAM TUNh1E L Hy Ac EQUtP. RN\\

l45181 g A\\RLo cK [4510(

m

~~

-~

CoH FERENCE l:

- s q '.-

g j

l RM I4sisi

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Woor. AREA-SAMPLE

~

STATION RM 145i3 I I45141

./

p

.1

~

h.

j

. REACTOR WTR FRYS VENT..

C.U. F~lLTER

/

UNIT RM #-

DEMtH Hot DIMG PUMP-RM

.i 145ll l

f. -

f

.JL *i.

H5o31 FRVS VENT' /

pm.

V' 'i REACTOR WTR

[_]

h*

UNIT RM :

_L

). *,. _

PMP RM j4so7_l

\\,

l454 2.1 E."

PASSAGsEWAY e

t 1450+{

,f N

PPE CHASE j'

.I

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145o51 C o RRIDOR

.(

sg 145081

' REACTOR WTg l

j C.U. H E AT EXCH RK y.m j-gr PlPE CHASE 14 5o 61 145091

.... _ ppc, g _...._...

i

(

t NOTE PUBLIC SERVICE ELECTRIC & GAS COMPANY 1.

ENVIRONMENTAL CONDITIONS FOR ROOMS HOPE CREEK GENERATING STATION 4501 THRU 4506 AND 4508 THRU 4513, l

4515, 4516 AND 4518.SHOWN ABOVE APPEAR ON FSAR TABLE 3.ll-la.

(FIG. Sa)

EQUIPMENT QUALIFICATION m

l HARSH ENVIRONMENT im can REACTOR BUILDING EL. 145' l

JOB NO.

DRAWING NUMBER REV l

FIG. 5

sard reAs tanta 2.s t-te BNVEIDPING PIAsrf ENVIRusseNTAL CONDITIcsss - REACTOR SUItatuG Pese 4 et 9 moraal Operating conditione Abnorman condt, tons Den omndittene Press

Temp, t nel sean Dose Intege 4 se t

press, seep 4 Det nem RACA 80CA lategt

• F peldsty hete.

DDce.

Press Temp SmiditF pele

• F 9m14147 Does helse Dnese Area Desestption a sees / paine moom ember tes Test / team / Ave /stin seas /uta med/h and til pel2

• g essa /sain (2) 123 sad /h 15,73 est to,18 seactor mei14ing, at 14S' es a as 4S06 t/-e.25

-/tte/-/4e 90/20 S.1 284 Ata 14e 400/20 4.2S-30 min 300-30 min les e.452 6s4 (3) tel et 34 h l

p 1,-0.25

-,9tn9,44 9ene 55.0 2.88.

Ata t19 feene 4 34..

2S m e m..

f.

0. 52 (2) tel et 36 h 4 SIS C1seaup filter 6 t/-6<25

-/94/e3/40 94/20 0.0025 8.est Ata 124 100/20 5-30 min 250-30 min 100 l.Sa-2 2st (b)

(4) holtop pop soom 4Se2, 4503 Corridos (See 1/-0.25

=/94/03/4e 9e/28 e.e425 e.es2 Ata 126 400/2e C

140 See 4.73-2 750 et to deve e

mett pipe chase t/-4.25

-/94/83/4e 90/20 0.01S S.ls3 Ata 126 504/24 e

140 fee 4.432 Se4 et 36 h 45st Electsicet egalp-1/-e.25

-/94/03/4e 94/20 e.Se25 a.es2 Ata 126 fee /20 0

140 fee 3.23-2 759 et le dayo mest eroe 4 Set A4stect este 1/-o.2$

-/te4/98/4e 90/20 e.ee25 a.es2 Ata 122 100/2e e

140 toe t.Se-2 251 Feve went seem t/-0.25

-/400/90/4e 9e/20 0.002S a.es2 Ata las 100/20 e

les les 3.454 to) et le dare 4509, 4S92 sample station 1/-a.25

-/le4/91/de 9e/20 e.Se25 s.es2 Ate 122 804/2e e

140 tes room 4513 Generet esosk t/-e.25

-nt/13/60 90/26 e.ee25 e.082 Ata tee 100/20 e

14e 100 Essa 4594 Conferenes reem 4515 t/-e.25

-/78/73/6e 90/20 e.0025 0.032 Ata 95 199/20 9

140 tee Document storage 1/-o.25

-/7en 3/6e 90/20 e.0425 e.082 Ata 99 fee /2e e

see lee soom 4594 ettszwett 4512 t/-o.25

-nan 3/4e 90/20 0.e42S 8.est Ata 195 100/2e e

see see tree 4594 svac duct alte t/-e.25

-/te4/9e/so 9n/2e e.o025 a.esa Ata 109 toene e

14e see space consadoe stes t/-e.25

-/se/03/4e 90/2e e.e425 s.es2 Ata las toene e

14e too a.4e2

. 6ee et so b T10427297-8

~ ' ' ' ' ' "

FIG. Sa s

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FILTER &DEMtHERAl.12.ER,

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F0EL Poo L j AR E.A 1% o71 HE AT ExcH l

l4628l l

1 i

i 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 3.11-la. (FIG. 6a & 6b)

[

EQUIFMENT QUALIFICATION HARSH ENVIRONMENT

.m REACTOR BUILDING EL. 162' oua JOB NO.

DRAWING NUMBER REV FIG. 6

nCCS rsaa TasLa 3 tt-la ENVEIDFInG PtANT BWWImr==rkL CONDITIONS = REACIOR 30I121a00 yege } og g Nogese! Opetet &ng Chad 6t sone Atmotme& Conditione DRE Cond4tione press

Temp, e nel Maa Dose lategt t het Psees.

Temp t pel fees 44CA LaCA latega or numidity mate.

Dose, Press Temp Ihamle tty pstg

• F Sunl41ty Dose Rate,

Soes, Asee seemstytten 6 Ines/Inta, ben 7 - -

ins Teet/tema/ Ave /ttin seea/ Min Bad /h and til pelg

• f gene / Min tal 123 had/h 15,73 hea 64.73 peector satelag, 51 142' s 178*

Comme seen 1/-9.25

-/100/93/40 90/20 8.049 3.552 Ata 119 100/24 0

tot les t.St-2 2st detector stee 4613 0

14e see f.sg.2 att Czek loeding t/-0.25

-/104/-/46 90/2e 0.10 3.584 et le dare esos 4619 e

les see 4.sg3 733 Centalmeest pre-1/-0.25

=/104/91/48 90/28 0.14 3.584 purge steanup sm 46:3 seotor centro 1 t/-0.25

=/let/09/40 90/20 8.0025 0.022 Ata 124 100/24 8

148 100 2.350 234 et It days center 4661 l

secombsner troet t/-o.25

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see see s.es:

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-/83/73/40 to/2e s.0025 s.sta Ate 10e toe /2e e

fee toe 2.ss3 2ss et le deys 4417 Corridor 4600 1/-0.25

-/104/93/40 90/20 0.0025 0.8E2 Ata til 100/20 0

148 100 S.SB-t 488 et 36 h new fuel vault 1/-0.25

-/904/11/40 90/20 0.10 3.534 0

144 10e t.Ss-2 239 4410 0

tes 100 f.$s-2 231 Catt loading esee 1/-9.25

-/104/91/4e 90/20 0.18 3.5E4 4411 Gessne scan 1/-e.25

-/100/93/40 90/20 0.001 3.SE2 Ate

, 119 800/20 e

140 10e 1.5s-2 2sl electronico em 4609 4

tot 100 9.58-2 258 slwat feel pool 1/-e.25

-/804/91/4e 90/2e 0.0025 8.st2 742 tottom of eyest 9/-4.25

-/232/125/40 100 3.07E4 1.0510 0

14e toe t.Ss 2 288 fael pool 4412 spent feel pool 1/-0.25

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=

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8.

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.e.t.r. 46 5 ft. 2729v-a FIG. 6a Anru:eeur 2, to/es

e nCCS FSAR TASLE 3.I1-Ia SNVEIAPING PEA 3ff ENVISOBeW3ffAL CENEDITIONS - DEACTOR BUIIAING page e et 3 t>>rmal OperettrHp Condittone Atuw>rman Conditione Dee Condit tene Pr ese Te*P, e met nas Dose Integt t Sea

stese, Temp 4 Del Mme RACA IACA thlege Asse Deactlpties &

Itse/nta,

'F Ihanid it y

hete, Dose, Prese Temp Residity pelg

• F Bueldtty Doce Bate,

goes, huom Isumber seg Teet/Maa/ Ave /Mia Mas /Mia Rad /h Red ill pelg

• f Beam /htin (2)

(2) had/h 15,73 Da4 16,13 Elect accese 1/-8.25

-/184/98/48 94/28 0.002$

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148 104 9.5E-2 2s1 sese 4689 SIC scom 4606 t/-8.25

-/101/98/68 90/20 0.0025 8.0E2 Ata 124 500/20 0

148 100 6.95-2 Sat sescu F/D to 1/-8.25

./104/91/40 90/20 7.382 2.488 Ata

$22 100/20 6.7-30 min 22S-30 min tee 9.$3 2 231 4620, 4621 (3) 143 ruel pool cooling t/-3.25

./100/93/40 90/20 0.15 S.2B4 Ata 139 100/20 0

140 toe 3.53-2 3sg pg room 4625, 4626 Dryst sepos etos 4/-0.25

-/104/91/40 90/20 0.0u25 0.0E2 Ata 122 100/20 0

14e les 1.ss-2 281 pool 4623 Bottom of dryer I/-0.25

-/195/-/40 000 le 3.2tS Ata 122 100/20 e

les les 1.53-2 2st separator pool ruel pool RI 1/-a.25

-/100/93/4e 90/20 0.5 9.esS Ata 189 400/2e 2

258-30 min 100 1.Ss-2 231 room 4627, 4628 (43 Isoittien vetee l/-8.25

-/l10/90/4e 90/20 0.0025 8.632 Ata 123 100/24 0

140 100 4.23-3 731 room 4424 et le dayo Favs sectsc t/ 4.25

-/104/91/40 90/20 0.002S 0.8E2 Ata 500 800/20 0

144 100 2.182 2e6 l

taalt room 4614, 4416 at le daye l

l ruel pact water 1/-0.25

-/104/91/40 90/20 0.140 S.2634 Ata 122 100/28 0

148 100 9.58-2 2st emetton essa 4407 Voit t bele 46 8 0 0.0025 0.082 2.133 236 et is 4.re FIG. 6b amusessuurr 2,14/03 tit 027299-3

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'. _JN ELECTRIC AL ACCESS ARE A gggj j

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NOTE PUBLIC SERVICE ELECTRIC & GAS COMPANY HOPE CREEK GENERATING STATION 1.

ENVIRONMENTAL CONDITIONS FOR ROOMS 4616 THRU 4619, AND 4623 SHOWN ABOVE APPEAR ON FSAR TABLE 3.ll-la.

EQUIPMENT QUALIFICATION (FIG. 7a & 7b)

HARSH ENVIRONMENT REACTOR BUILDING EL. 178'-6" OAft JOB NO.

CRAWING NUMBER REV FIG. 7

--r------

---

,n-,--

Mcce reAn TAeLE 2.st-te ENVEIDelmC FRANT SWV2pOWLENTAL CONDITIONS - REACTOR eOllAING F6ge 7 et 9 perman operet ing cnndit to.e abnormal conditione pas comettiene Press

Temp, 6 pel Men Dose intogs 4 pel Pu ese.

Temp 6 pel mee 44Ch imCA Istege Arte Desertption 6 see=/nte.

• r swald it y

mate, Dose.

Pr e ss Temp Ihsele t ty pelg

• F holdity Dose Rate.

Dooe.

poem number one Teet/ hee / Ave /tsin Mas / Min med/h Red til pelg

• f sees /nta (23 (31 med/h 15,73 med (4,33 peector solding, at 142' s 170' Cessme seen t/-a.2S

-/ lee /?3/4e 9e/20 e.eet 3.5E2 Atm 119 100/20 e

14e 100 t.St-2 agt detector esee 44 3 e

140 gee t.Sm.2 2st Cast goeding 1/-o.2S

-/104/-/4e to/2e e.se 3.Sr4 et te days 4.sse delt e

14e.

See 4.eg3 733 contelament pre-t/-o.25

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=

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140 ges 2.2st 2ge et le doye estter 4600 g

seceablees treet 1/-e.2S

-/184/34/4e 90/20 0.0025 e.er2 Ata 109 100/2e e

let tee e.43 ote et 34 h IACAI 44e2,46e4 rays entta 4615, t/-e.23

-/03/72/4e 9e/20 0.002S e.or3 Ata les lee /2e e

140 tee 2.183 286 et to daye 4417 CMeldos 4660 t/-o.25

-/104/93/4e 90/20 0.0025 e.et2 Ata 119 tes/2e e

les see S.Sg.

est et 24 h e

840 10e t.Ss-2 1st me.s fuel voelt 1/-o.25

=/te4/98/48 Se/2e e.to 3.524 este e

see toe t.Ss.2 2ss cut leading esoe 1/-e.25

-/se4/95/es 90/2e e.10 3.See 4418 ca.no acen 1/-0.25

-/sec/92/#e 90/2e e.est 3.Ss2 Ate 119 100/2e e

see see t.Sa-2 2st electrealce se

.s09 e

14e see t.Sc.2 tot ryent s 1 pool 1/-e.25

-/te4/91/4e to/2t e.se25 e.es2 esta 2st e

14e les 9.Ss.2 sottom of opent t/-8.25

-/212/s2S/se toe 3.e7 4 t.este tuel pool esta e

see toe t.St-2 att spent rest poet t/-o.2S

-/2 2/t2S/6e Ice 3.e7:4 t.7s?

gate 46 2 seetos centsel 1/-o.2$

-/let/St/Se 90/20 0.0e2S 3.0E2 Ata 124 400/20 e

140 tee 0.4t2 884 l

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LAYDOWN AREA l47:o1 I

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[4107I 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 HAPJH ENVIRONMENT ESTABLISHED FOR

[

EQUIPMENT QUALIFICATION ENVIRONMENTAL QUALIFICATION IN HARSH ENVIRON}E.NT ACCORDANCE WITH FSAR TABLE 3.11-la.

REACTOR BUILDING EL. 201' o,a (FIG. 8a)

Joe NO.

ORAWING NUMBER

REV FIG. 8

MDGS FSAR TkB12 2.11-le ENvs1 APING PLANT ENVimusessarTAL ComeITIONS - IREACTOR SDitAING page 9 et 9 storme1 op.aetino Conditeone abnermet caawsitIone est condieiene Prese

Temp, 6 men sees Dose Integt t nel

Perse, teep 4 pel some RACA 14CA Integg Asse Description 6 sess/ lain,

• F Neldtty

Bate, Dose.

Pr ess Tamp Bustetty pelg F

Bete tty Does mate,

asse, maan number see Test / Man / ave /esin seas /nta med/h med (1) pets og seas /pela tal (2) mad /h (S.7) has 16.73 seactor tellding, at 201' tievator machine 1/*0.25

-/195/92/40 90/20 0.0425 0.852 Ata 122 100/20 0

148 1 88 1.58-2 ast 4784 polar crane entry 1/-0.25

=/805/92/40 90/20 0.0025 S.032 Ata 122 194/28 8

148 108 1.5s-2 239 platters 47e2 Brv head washdown 1/-8.25

-/195/92/44 90/29 8.425 1.6s2 Ata 122 100/2e 8

14e tee 1.58-2 251 sete 4105 Leydoene area 1/-a.25

-/195/92/4e 90/20 0.0025 8.es2 Ata 120 100/28 0

140 10e 1.5s-2 251 4704 Cask wan>h area l/-8.25

-/905/92/40 90/24 0.002S 3.es2 Ata 123 100/28 8

148 188 1.5s-2 2s1 4787 new feet storege 1/-8.25

-/195/92/44 90/29 0,0025 8.es2 Ata 120 100/20 e

140 100 1.5s-2 ast 4700 soork area 4109 1/-8.25

=/195/92/40 90/20 0.0435 0.0s2 Ate 122 194/20 8

148 100 1.50-2 251 1

Leydown area 1/-0.25

-/105/92/40 90/28 0.0025 8.032 Ata 120 160/20 0

140 its 4.7s-2 tut

.t 1 dare sii.

FIG. 8a assumeesrf 2,10/05

• t na mew _ e

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g f. '

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ELEv MACH RM 14w I ELEVA71W f18'<l

<t. a e a c7 o n -

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POLAR CRANE ENTRY PLATFORM 147o2.1 EL.E. VATQ_9. TDI@._

- 4 ge, g c.T.g l

u REAc. tor NOTE PUBLIC SERVICE ELECTRIC & CAS COMPANY 1.

ENVIRONMENTAL CONDITIONS FOR HOPE CREEK GENERATING STATION ROOMS 4701 AND 4702 SHOWN ABOVE APPEAR ON FSAR TABLE 3.ll-la.

EQUIPMENT QUALIFICATION C"*

HARSH ENVIR0hENT 1

^""

REACTOR BUILDING osta EL. 218'-6" & 228'-6" JOS NO.

DRAWlHG HUMBER REV FIG. 9

i

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A 2-A E R

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VII.*SYS' TEM / COMPONENT 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 systems

" defined in Section 7,

" Instrumentation and Controls", and Section 6, " Electric Power", of the HCGS FSAR.

Specifically, these systems were defined and separated into the following categories and are inclusive of the electrical power systems that supply them:

the protection systems Protection Systems initiate safety aqtions to mitigate the con-sequences of a DBA 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.

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 o f safety re-lated systems to enable the operator to ini-tinte manual action to mitigate operational transients and/or anomalies. This display in-cludes the status of bypassed or inoperable systems important to safety as well as Post Accident Monitoring Instrumentation as delin-eated in HCGS FSAR Section 1.8.1.97.

VII-1

.e

' As'is noted in FSAR Sections 7 and _8, these safety systems

.are designed to meet the criteria for design, fabrication, 1

construction, testing and performance as delineated in the HCGS applicable CFR's, Reg. Guides, NUREG, IEEE Standards, BTP's, SRP's, etc.

Included in these criteria are the EQ l

requirements'for these safety related systems.

The HCGS EQ 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 and maintain a safe shut-down.

Capability to prevent or mitigate the consequences of an accident which could result in potential off-site exposure comparable to the guidelines of 10CFR Part 100.

Retaining of fuel temperature within design limits by maintaining fuel coolant inventory and tempera-ture within design limits.

Control the concentratiun of combustible gases in the containment system within established limits.

All structures, systems and compcnents 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.

V I I -2

Ihe following is a listing of the safety related systems de-termined to be required to operate during and/or after a DBA as a result of the analyses. This listing includes the sy s -

tem designators (in parenthesis).

1.

PROTECTION SYSTEMS 1.1 Reactor Protection System (RPS).

1.2 Engineered Safety Feature System (ESF)-Initiation.

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 Containment 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 Habitability and Isolation System (MCRHIS).

2.8 Main Steam Isolation Valve Sealing System-(MSIVSS).

2.9 Filtration, Recirculation, and Ventilation System (FRVS).

2.10 Reactor Building Ventilation Isolation System (RBVIS).

V I I -3

2.11 Essential Auxiliary Supporting Systems (EASS).

2.11.1 Station Service Water System (SSWS).

2.11.2 Safety Auxiliaries Cooling System (SACS).

2.11.3 Class 1E Power Systems.

2.11.4 Primary Containment Instrument Gas System (PCIGS).

2.11.5 Engineered Safety Feature-Equip-ment Area _ Cooling System ( E S F '-

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-RSCM).

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 (SSYS).

4.

SAFETY-RELATED DISPLAY INSTRUMENTATION 4.1 Bypassed and Inoperable Status Indication Sys-tem (BISIS).

Post Accident Monitoring Instrumentation (PAMI).

l VII-4

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 (fjMS).

5.5 Recirculation Pump Trip (RPT) Controls and In-struments.

5.6-Main Steam Safety / Relief Valves (SRV)

-R e li e f Function.

5.7 Redundant Reactivity Control System (RRCS).

5.8 Safety. System /Non Safety System Isolation-(SSNSSI).

B.

Functional System Reviews HCGS has established a comprehensive, systematic program identifying electrical equipment required to be environmentally qualified.

S a f e ty -r elat e d equipment is identified according to the safety function objectives of 10CFR50.49(b)(1), and is placed on the HCGS project Q-list.

For non-saf ety-related electrical equipment whose failure could prevent achieving these safety 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:

1.

Separation Review Program (a)

High Energy Line Break Analysis

(

(sate shutdown matrix developed).

f 6

l l

VII-5 i

i

(b)

Moderate Energy Line Break and Flooding Study.

(c)

Fire Hazard Safe Shutdown Study (Appen-dix R)

(d)

Electrical Equipment Sep'aration per Reg. Guide 1.75.

2.

Common Sensor Failure Study.

3.

Control Systems Failure Study.

4.

Reactor Vessel Water Level Instrumentation

. Study.

5.

Nuclear Safety Operational Analysis 6.

Control Room Design Review 7.

Effect of High Energy Line Breaks in Control Systems.

Any components identified by tt.ese studies whose fall-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:

- FS AR

- P& ids, Elementaries

- Systems Descriptions and Operating Manuale

- Logic / Loop Diagrams

- Instrument, Equipment and Valve Indices

- Electrical Drawings 1

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-dication required and in some systems, a process flow I

diagrsm is developed.

From the P&ID, PSAR and later, FSAR, commitments are made, the Q-list 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-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.

V I I -6

i Ihe postulated' event analyses in Chapter 15 of the.FSAR a saf 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 requiring qualification were identified.

(1)

Bechtel f u r n i s h e d,: for PSE&G review and comment, a listing of both sa fety-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 c omp on e n t -by -c om-ponent basis which was determined from review of HCGS arrange.nent drawings, instrument location drawings and 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.

(4)

Comparison of the areas identified as being sub-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-tion for harsh environment. Safety related mech-anical components which could be shown to have 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 in-they were assumed to fail "as is" and cluded as were determined not to require actuation to per-focm either short or long term monitoring or control functions.

V I I -7 L

-(5)

During the course of identifying the equipment which requires quwlification, safety related equipment was ider tified 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 effects of any DBA in the harsh environment, and equip-mont failure in the harsh environment will not adversely impact safety functions or mislead the operator.

- Equipment is required to perform its safety function to mitigate the effects of a

specific DBA, but is not subjected to a harst environment as a result cf that DBA.

- Equipment performs its functivr oefore its exposure to the harsh environment, and the adequacy of the time margin provided is justified; subsequent failure of the re, ult of the harsh equipment as a

s environment will not degrade other safety functions or mislead the operator.

- The 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.

(6)

All safety related devices which were determined to be required to operate during and/or follcw-ing.a DBA but which were located in a mild en-vironmental area, were also identified.

(7)

The above activities resulted in FSAR T a b l e s' 3.11-4 (mechanical) and 3.11-5 (electrical) which include all NSSS and non-NSSS componen'ts requiring qualification for a harsh environment.

Table 3.11-5 is also inclusive of components

)

required for post accident monitoring per Reg.

Guide 1.97, Revision 2

(HCGS FSAR Section 1.8.1.97) and post THI-2 action items.

'VII-8

+

- (8)

Verificat' ion 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 relev' ant documenta-tion'such as the' instrument index, P&ID's, loop diagrams, electrical drawings, FSAR sections, Sy stems ' Descriptions, the electrical device list, and other design documents.

C.

System Component Listing o

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 T

i 1

V I I -9

-,-..-. ~ _ -

T A8LE 3.11 -4 MECHANICAL EQUIPMENT SELECTED FOR HARSH ENVIRONMENT QUALIFICATION PURCHASE ORDER COMPONENT I.D.

NUMBER M -001 Safety Relief Valves.

B 21 -F 013 H-001 Main Steam Isolation Valves 821 -F 022/F028 M-001 Recirculation Pumps B 31 -C 001 M-001 Recire. System Valves 831 -F023 /F031 (Suction and Discharge)

M -001 Hydraulic Control Units C 11 -D001 M-001 CRD Vent Valves C11 -F010/F180 M-001 CRD Drain Valves C11 -F011/F 181 M-001 SLC Pumps C41 -C 001 H-001 RHR Heat Exchanger Relief E 11 -8001 Valves M -001 RHR Pumps E11 -C002 M-001 RHR Check Valves E11 -F 041/F 0 50 M-001 LPCS Check Valves E 21 -F 006 M -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 H-001 RCIC Turbine Assembly E 51 -C002 P -301 ( 0 )

Valves P -302 (Q )

Valves P -303 A (Q )

Valves P -30 5 (Q )

Butterfly Valves P -366(Q )

Check Valves P -4 010 Snubbers M-070(Q)

SACS Pumps M-082(Q)

Fuel Pool Pumps M-141 Relief Valves M -150 ( Q )

Vacuum Reller Valves M-713(Q)

Centrifugal Fans 3-601(Q)

Control Valves J-605(Q)

Valves J-703(Q)

Excess Flow Check Valves J -705 ( Q )

Instrument Valves J -715 (Q )

Instrument Valves r

V I I -10

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toutresENT AELECTED fun se4REN ENVipOcesE887 OuhLIFICAtluel M* l S-G

NTSTENs COctPRS$$ED AIR llNSTS.i pu

. I nft 1988 ACTIO90 LOCATEOet EMilP.

PLAf8 SQUIP.

P.O.

ID 100 180'9. 10 0 Che8 pol 8FNT Bl.EMI.

ElEV.

Oft TE f El IIUTE (Il C(WWISOffS P30lO l-5A-NV-7626 Contr. Valve teactor 77 9%

leo P)elO l-sts-sev-7629 Contr. Valve peactor 77 es a soo

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i NCGS rSAn TABLE 3.88-5 EQUIPMENT SELECTIO FOlt HApSH ElfVilIONMENT QUALIFICATION P6fD M-25-8 Page les of'1*.

SYSTEM: PLANT LEAR DETECTION SE PAN TMS ACTION LOC ATI(20 E00l l P.

PIA 80 EntalP.

P.O.

I D 000 MPL NO.

CtmeMesENT GLDC.

ElEV.

NOTE 881 teOTE 325 COMetE80TS M004 3-SE-TE-N0324 528 Temp. Elemt.

peactor 802 No No J48DO l- >C-LSel-4 401N a level Sw. High Reector 54 No No 14810 l-DC-LSM-4 40 lN 2 Level sw. High teact or 54 No No J 48 lO I-DC-LSH-4401CI I.evel Sw. High peactor 54 No No J 4 G IO l-pC-LSH-4 40 lC2 Level Sw. High teactor 54 No No J4850 l-hC-LSN-4 40 l DI

+5.evel Sw. High peactor 54 No No J 48 50 l-RC-LSH-4 40 lD2 Level Sw. High peactor 54 No No n003 l-SE-TE-Nol04 Ell Temp. Elemt.

Deactor 54 No No J 4 S lO l-M D-l.SN-415 5 - 1 8.evel Sw. High Peact or 54 No No J4850 3 - BD-LEN-4151 - 2 I4 vel Sw. High Deactor 54 No No J48 BO l-at-LSu-45el Al level Sw. Nigh React or 54 No No J 48 BO l-DE-LSH-45SIA2 Level Sw. High peactor 54 No No J 4810 5-pt-ISH-4 50 l p t Level Sw. High Beact or 54 No No Jed lO 1 *DE* LSN-4 50 t h2 B. eve l Sw. High Deactor 54 No No J4SlQ 3 -ht-ISH-4 58 t Cl Level Sw. High peactor 54 No No J 4e lo 1-3E-LSN-45BIC2 level Sw. High peactor 54 No No J4810 1-RE-LSH-4 5e l DI level Sw. High peact or 54 No No 14850 l-hE-LSH-458102 14 vel Sw. High

.peactor 54 No No MOOR l-BG-TE-N016E Gil Temp. Elemt.

Reactor 332 No No M001 4*DG-TE-N086H Gil Temp. Elemt.

Reactor 132 No No nuGI l->G-TE-N0068 Gli Temp. Elemt.

peactor 145 No '

No MODI l-bG-TE-N086N Gll Temp. Elemt.

Reactor 845 No No MuGB l-hC-TE-Nol6T Gil Temp. Elent.

Reactor 145 No No J40lg 8-BJ-LSH-4007 level Sw. esigh Reactor 54 Nu No J4 S DQ l*El-BSH-4504 level Sw. H 6 esh peact or 54 No No J 45 DQ 3 -ED-8 SH-2 J45A Level Sw. et 69h peactor 77 ko No'

.14850 l-ED-LSH-2 36 %N Level Sw. High Neactor 27 No No J48 DO l-SE-LSH-2565C Bsvel Sw. Nigh Beactor 72 No No 14850 1-EG-BSH-23594 Isvel Sw. High peact or 102 No No J 48 DQ 4-EG-LSN-23595 level Sw. H igts Reactor 102 No No J4 0 B0 3 - EG-L$se-2 56 4 A Isve l Sw. High Beactor 802 No no 34u h2 4-EG-l.SH-2J64N level Sw. utgh peactor 102 na No 4g01 3-SE-TE-N045E E58 Temp. Elemt.

peartor 54 No No muul 1-SE-TE-N025P k%l Te st..

Elemt.

peactor 54 No No M000 1-SE-TE-N025S E51 Temp. Elemt.

React or 54 No No l

nuel 3-Ss-TE-N025M E5B Temp. Elemt.

peactor 54 No No M004 l-SE-TE-N025N Ett Temp. Elemt.

React or 54 No No muul I-SE-TE-M0284 F41 Temp. Elemt.

Reactor 54 No No MuGI l-SE-TE-N0200 L48

. Temp. Elemt.

React or 54 No No M005 3-SE-TE-N029A E4t Temp. Elems.

Reactor 54 No No nuGI l-SE-TE-N0294 I:l l Temp. Fleet.

peact or 54 No No muel l-SR-TE-N029N Fil Temp. Elemt.

Weactor 54 No No

NCCS PE AR TAuLE 3.18-5 EQURPMENT SELECTED FOR MASSN ENVlpONf0ENT CUALIFICATION P6l D N-25-8 Page Il a4 7%

sysTENs PLANT LEAR DETECTIUse SE PAN TMI ACTIOel 8.OC A

• l Oel ROUIP.

PLAN 90U IP.

P.O.

ID 180 Mel. 100 CEistPOteEnf7 St.81G.

ELEv.

seOTE (Il letFTE 12)

UmeEff75 peel 3-SE-TE-N029C Ett Temp. Elemt.

React or 54 No No N004 1-SE-TE-NO30A Ett Temp. Elemt.

Reactor 54 No No n001 l-FD*TE-NeloC E4l Temp. Elemt.

React or 77 No No P30 bn0 1-sE-av-4953 control valve peactor les No No P303AO l-SE-Nv-4957 Control valve peact or 145 No No P301AO I-SE-Nv-4988 Control valve peactor 845 No No P103AQ

&-5E-MW-50lt Control valvo peact or 145 No No J 48 !O l-BD-LE-4151-3 1.evel Element peactor - 54 No No J 40 )O l-DD-LE-415 8-2 Level Element peact or 54 No No J4SlQ 3-bC-l.E-4 40 BA R I.evel Element peactor 54 No No J4850 B-NC-LE-440BA2 Level Element peactor 54 No No J48)O l-DC-l.E-4 4 0 ln i Level Element peactor 54 No No J 48 )O l-DC-LE-440lR2 84wel E lement poactor 54 ko No J4830 l-DC-LE-440lCI Level Element peactor 54 No No J 48 30 1 - DC-l.E-4 401C2 Level E.lement peactor 54 No No J 40lO l-DC-LE-440lDI Level Element peactor 54 No No J4030 1-pC-LE-440lo2 level Element peact or 54 No No J 48 30 3-EJ-LE-4807 level Element peactor 54 No No J4830 l-EJ-LE-4000 level Element peactor 54 No No J 48 50 1-DC-LSN-4401Al 1.evel $e. High peactor 54 No No J40 30 1-DC-L$N-4 401 A2 1.evel Se, N6gh peactor 54 No No N005 l-SE-TE-N0094 til Temp. Elemt.

Reactor 77 No No m004 I-SE-TE-p0090 Ell Temp. Elemt.

Reactor 77 No No M003 l-SE-TE-N0104 p2B Temp. Elemt.

Reactor 102 No No n005 5-SE-TE-M0003 928 Temp. Elemt.

Reactor 102 No No muGI l-SE-TE-NOBBC h21 Temp. Elemt.

Reactor 802 No No n003 l-5E-TE-N010D D21 Temp. Elemt.

Reactor 802 No No M005 3-SE-TE-NOll E55 Temp. Elemt.

Reactor 54 No No M005 l-EE-TE-N0llA

1. 28 Temp. Elemt.

.meactor 132 No No n0nl 3-5E-TE-M0llR H24 Temp. E lemt.

Seector 892 No No MOOD l-5E-TE-N0llD M25 Temp. Elemt.

peact or 532 No No M008 l-SE-TE-Nol2h N28 Temp. t.lems.

peactor - 102 No No Maul 3-SE-TE-N0 0 2C N2B Temp. Etant.

peactor 102 No No M001 1-5E-TE-NOS2D m2B Temp. Elemt.

Reactor 802 No No Modt l-5E-TE-NollA kJB Temp. Elemt.

React or 192 No No M003 B *bE -TE-N0 l le M20 Temp. Elemt.

Reactor 332 No No ROGB l-5E-TE-NellC R28 Temp. Elemt.

eeactor 832 No No n005 5-55-TE-N0llo W21 Temp. Elemt.

Deactor 112 No No MODI 4-SE-TE-N034 RJI

'emp. Elemt.

Reactor 432 No No M004 3-55-TE-Nel6 M25 Temp. Elemt.

Reactor 102 No No nuel I-SB-fr-Nol64 Ull Temp. 6 lemt.

Reactor 132 No No moul 3-SE-lE-N006AA GBR Temp. filemt.

Reactor 145 No No a

u

" l' i

i b

O serGs rsAR TAhtE 3.88-5 EOulPMENT srtECTED FOIt NApSN ENVitteesesse? QUALIFICAT8000 P6fD N-25-8 Page 12 ed ? '.

5fSTEns PLAssi LEAR stTEt78(es SE PAm Tal ACTitN8 LOCATIOff EQUIP.

PIAf8 80u le.

P.O.

ID 000 fsPL esp.

CosePuestI87 til1G.

ELEV.

IIUTE fll 900TE 129 UMNeENTS moel 1-SE-TE-Nel60 Glg Temp. Elemt.

Reactor 832 Ka No -

n004 3-SE-TE-N086DD Gli Temp. Elemt.

Desctor 14%

No No n0Cl I-SE-TE-Nel6m Gli Temp. Fleet.

React or 54%

No No N001 l*$E-TE*Netts GB)

Temp. Elemt.

peactor 845 No No n004 l-SE-TE-Nel6N GB)

Temp. Elemt.

React or 84%

No No meel 3-sE-TE-Nolf

1. 28 Temp. Elemt.

Beactor 132 No No M005 5-SE-TE-NO288 L58 Temp. Elemt.

Reactor S4 No No meel 1-5E-TE-N02tD E%l Temp. Elept.

Reactor 54 No No NOGI l-55-TE-NOJ24 Gli Temp. Elemt.

React or 132 No eks l

N005 3-55-TE-#022AA Gil Teal. E lemt.

Reactor 512 No No meel 3-SE-TE-N022N ESS Temp. Elemt.

React or

$4 No No n004 I-SE-TE-N0220 L58 Temp. Elemt.

Deactor

%4 No No MUO4 4-55-TE-N0220 Gl]

Temp. Elemt.

Fuac t or 132 No No 1

N001 l -$5 -TE-NO 22 tan GBR Temp. Elemt.

Deactor B4%

No No M048 1-55-TE-NO22E Gil Temp. Elemt.

peact or B32 No No muel 3-sE-TE-N022N GBR Temp. Elemt.

peactor 132 No No moel I-SE-TE-p022J Gil Temp. Elemt.

Deact or 145 No No pool I-5K-TE-N022m CBS Temp. Elemt.

Reactor 845 No No m001 8-SE-TE-N022M Gil Temp. Elemt.

peact or 14%

No No moel 4-SE-TE-N022S Gil Temp. Elemt.

React or 845 PhD No 1

moel I-ss-TE-N022T Gli Temp. Elemt.

React or 14%

No No n005 l-SE-TE-N022N Gli Temp. Elemt.

Reactor 545 No No most 4-58-TE-N0214 Gli Temp. Elemt.

React or 112 No No muel 3-SE-TE-NO28AA Gil Temp. Etent.

Reactor 845 No No muel I-55-TE-NO23#

E%8 Temp. Elemt.

peactor 54 No No moel 3-SE-TE-N0210 6%I Temp. Elemt.

Reactor 54 No No me08 l-SE-TE-Ne25p Gil Temp. Elemt.

React or 132 No No adOR l-SE-TE-N02 BIND Gli Temp. Elemt.

Reactor 845 No No muel I-SE-TE-NellE Gli Temp. Fleet.

React or 532 ths No pool 5 TE-N0 2 5N Gl]

Temp. E lemt.

Reactor

$12 No No me01 1-EE-TE-Nu2tJ Gil Temp. Elemt.

React or 14%

No No NOOR l-EE-TE-NO2 tm Gil Temp. Etent.

Re act aw I4%

No No MUSI I-SE-TE-NO2BN Gil Temp. Elemt.

Peactor 145 pka No muel 3-hs-TE-Ne25$

t.l l Temp. Elemt.

Re ac t ue 145 No the me0I l-55-TE-NO2tf GBR Temp. Elemt.

React or 145 No No meal 1-EE-TE-N02BN 039 Temp. Elemt.

Reactor 845 No No muel B-55-TE-NG24 E44 Temp. Eleet.

Re act or S4 No No mocl 3-bE-TE-N02%A E48 Temp. Elemt.

Re ac t or 102 No No ment 8-hE-TE-N02%N ESI Temp. Fleet, peactor 892 No nu, muul 3*KE-TL-N02%C Ett Temp. E lemt.

Reactor 102 No No muel B -S E -T E-N# 24 th D:50 Temp. Elemt.

Meae t or 102 ph.

No MGet 8-hs-Tk-NU2%k 6.41 Temp. Elemt.

React or 54 p.s No

seCCS FSAR Tant 2 3.88 5 EQulPseEarf SELECTED Fust HAssee EesylposeseENT OuALIFICATIces P6tD n-25-8 Page 13 of 7%-

e SYSTEn Pl. Asst LEAE DETECTIose SE PAf8 TMt ACliose LorATlose E0utr.

PtAss 80utr.

P.O.

10 eso, sees. sers.

CoseroseENT mLiiG.

ELEV.

ass 37E II) esOTE 32)

(tegetasTS se003 3-SE-TE-te02SF ESS Temp. Elset.

Deact or 802 88 o fee satel l-SE-TE-te02SG E45 Temp. Eleet.

Reactor 54 sto 30 0 steel 3 -SE -TE-te82S ee 3:58 Temp. Elemt.

Desctor Se eso Iso se005 3 TE-884 25.8 E45 Temp. Eleet, teactor

$4 30 0 seo

(

seeel l-SE -TE-tee 2S L F48 Temp. Elset.

Demot or 54 80 0 eso l

see03 3-SE-TE-we2See 3.48 Temp. E lemt.

peactor 54 eso seo see88 l-55-1E-88030s Ell Temp. Elemt.

Desctor 77 soo sto j

[

0e088 l-SE-TE-esollC h28 Temp. Elset Reactor

$12 Iso 80 0 P)clho I-S5-35-4955 L6elt Swe le h peector 145 Yee N3 l

l P90lho I-SE-35-4TS1 Limit Su t' ch seector 34S fee wa Plel40 3-55-3S-4988 8.le64 Switch peact or let Vee seen I

P RO BAQ 3-65-35-5038 f.4 mit Swelch teactor 845 fee seen r

t NCCS PSAD TAsel.E 3. l l-S FUHIPseENT Srl.FCTED los seADSM ENVlptNeerteT OHALirICATlose P6tp N-26-8 Page le of 7%

ETSTENs BASIOLtr.lCAL 8eiselff*Isai ETM SP PAes 11el ACTIEWe IMAT10se 90888 P.

Pt. Ass poulP.

P.O.

ID 980 sePL ten.

CtJeseMastesT pl_fMi.

ELEV.

Seevf E l i t seDTE 3 2 9 CueeseResTS estel 8-SP-DE-eenG64 pil padsation Element peact or 152 eso too steel 8-EP-RE-teGG6es pil Radiat ton Element peactor 192 00 0 No seuel 1-EP-DE-eeee6C Dit pantietton Element peact or 102 soo eso essel 3-SP-pt-seee6D pil Radiatiuse Element peactor 192 eles No JSTIQ 3-SP-DE-442SA padiatlne Element peact or 14%

Vee Tee J 8780 5-sP-sE-402%D hadlet lose Element peactor 145 fee Yes Ji?IO I-SP*pt-edS6A madlat inst Element peactor 208 eso eso J8750 l-SP-PE-tes6es padiat is.n Element meactor 2el een eso J3710 l*5P-pt-Ge%6C Radlaston Elesent peactor 200 00 0 00 0 Jilly B-bP-RE-48574 maallat inst Element peactor 170 too No 83710 l-5P-DE-48%73 padiat leise Element peactor 170 sea esa J PIO l-bP-pt-4057C pa.llat toso Element peactor 170 00 0 No a

1 f

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m. W. m. W. A. W. A. n. n. e. m. a. W. W. a. m. W. A. W E E. E. E. E E. N. E. E.

.S.S.E.W.W.s.t.u.t.t..n.i.t.i.:. 45. :. 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 E

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&&&&&&&&&&&E

1 i

serCS rsAm TABLE 3.53-5 EQUIPMENT SELECTED Folt stA3541 ENVIROesfEENT OUALIFICATBoss P6fD M-41-8 Page 87 of 7%'

ETSTENs saucl. EAR solLEn AS PAsl TNI ACTIOsl 1.raCAT lust EQtilP.

PIA 80 fD48 8P.

P.O.

I D 000.

NPL 000 CostrogsENT DLitC.

ELEW.

GIOTE li t IsDTE (J) 00sutE80TS PlelAO l-Am-siv-F0670 m28 Cont rol Walve peact or 802 soo No P IO BAO I As-MW-F070A phl control valve peactor 802 No No P303AO l-An-MW-F070s p23 Cne. trol Valve peact or 802 No eso PROBAO l-AS-NV-F070C DJR Control Valve pe act or 802 eso eso PlelAO l - 8 0s-NV-F0 700 m2B Control Valve peactor 802 eso No i.

P RO BAO l-AS-NV-F078 528 Control Valve peactor 802 No No se004 I-A S-PDF-es0G &A le2 5 Press Diff. Trane, peactor

??

Oso No M008 3-AD-PDT-N0864 h28 Press Ditf. Trane.

Reactor 77 No too M008

! = A D-PDT-es00 6C n25 Press D6f f. Trans.

Reactor

??

Net No Moel I-AD-PUT-N0s40 8:25 Press Diff/ Trane.

Reactor i1 Oso geo MuGI 4-A S-PUF-NOS I A M25 Press Diff. Trans.

Reactor 77 No geo se004 1 - An-PtrT-N04 7s 828 Press Diff. Trans.

Reactor 77 No No MuGB l-AD-Ptfr-9s00 FC M24 Press Diff. Trane, leeact or 77 No No se004 5-AS-PDT-es0070 m28 Psees Diff. Trans.

Reactor 17 Iso No seuGI l-AD-PDF-teUsSA is2 8 Press Diff. Trane, peact or

??

No eso MUOl B-AS-PDT-NOS89 MJB Press Diff. 1rane.

peactor 77 Iso no ese08 l-A B-PUT *No# sC le2 5 Preen Ditf. Trans.

peactor

??

Iso 30 0 8e00 5 l*AS-PDT-NCESD 3:21 Press ptff. Trans.

Reactor

??

Ito eso ascol B-Ass-Pur-seos *A es2 4 Press I)stf. Trans.

heactor 77 No fee se001 3-F.h-PDT-Nossa h28 Press Intff. Trans.

peactor 77 s.o No MOSI l-As-PDr-Nee 90 a:2 8 Psees Diff. Trane, peactor 77 No No se005 4-Ais-PDT-N009D 9528 Press Diff. Trane, peactor 77 No No Muel I-AM-PT-%a le n Press. Trans.

Iteactor 102 Iso No seuel I-Aa-PT-Selse Press. Trans.

Reactor 802 No No Muel 1-An-SV-F022Al hJl molenosd Valve peactor 400 No No MUG8 4-AS-SV-F022A2 0821 Solenoid Walve peactor 500 No No Muut B-AS-SV-8022nl

>28 melenoid Valve peact or 400 goo No McGl 3-Aa-SV-F022n2 HJS molenoid valve peactor 100 No No

1. s001 l-AB-SV-F022Cl kJI milenoid Valve peact or 100 No Iso 90U0 5 3-AB-SV-F022C2 MJB Molenoid Valve peactor 500 00 0 gen Muel 1-AB-SV-F022HB M25 Silenssid Valve peact or 800 No eso seuel B - An-SV-P0 2 2 sst hJI Sciessoid Valve peactor 800 Iso eso M000 3 - Als-SV-r 0 2G A l 1s28 Seelennial valve peact eet 102 eso goo Muel 4-Am-hW-F020A2 0:28 solenoid Valve peactor 102 soo No M004 1-AS-SV-F028ml H28 Solene lel Valve peact or 102 No No se0G B l-48-SV-F0Jen2 Os24 Solenoid Valve practor 102 No No stuol 3-Ah-SV-F02ert m21 Solenoid Valve peact or 802 00 0 No M001 l-AB-hW-F020CJ I.21 Solenoid Walve peactor 102 No No Mool 8 - A S-S V-9 0 28 tal 528 Solenoid Walve peactor 102 No No Muut 9 - Aas-5V-6 0 2e DJ 928 Solenoid Valve peactor tel eso Nu 3 % 60 3-51s-T E-56 4 3 4 Temp. Eteet, peact or S4 Tee No IM60 3-SB-TE-164th Temp. Eleer.

Reactor 54 Tee sees fM60 5 -50s-T E-96 4 7t?

Teog. E lemt.

peact or 54 Ten No

r NCGS FSAp TABLE 3.51-5 EOulPseEsif SELEs?tD Fop NApsel ENVIDONNENT OuaLIFICAftces P6tD N-43-1 Page le of TS' STETE8e: eeK1EAlt polLZa Au PAse TNI ACTIENI LOCAfin#

90087.

PBAN ROU IP.

l P.O.

ID 100.

NPt. IND.

CultPOIAENT SLDG.

ELEW.

IIDTE llt IBOTE (2)

CONIGENTS JSS60 5-5#-TE-3647D Temp. Elemt.

Deactor 54 fee no J5560 3-se-TE-1647E Temp. Elemt.

Desctor 54 Tes No

.8%%60 3-St-TE-1647F Temp. Elemt.

Deact or 54 Tes no J5560 3-St-TE-254>G Temp. Elemt.

peactor 54 Tes No JS560 l-55-TE-6647N Temp. Elset, peactor S4 Yes No J%%60 3-se-TE-3647J Temp. E le mt.

Reactor 54 Tes No

.45560 3-sp-TE-3647E Temp. Elemt.

Deact or

$4 Yes No J%560 3-58-TE-3641L Temp. Elemt.

Deactor S4 Tes No 4

IgS60 1-se-TE-3647m Temp. Elemt.

peect or S4 Tes No JS560 3-sn-TE-5647N Temp. Elemt.

Reactor S4 Tes No 4

JS%60 3-se-TE-3447P Temp. Elemt.

peactor 54 Tes No J%%60 3-sD-TE-36470 Temp. Elemt.

peactor 54 Yes No J%%60 1-sm-TE-36473 Temp. Fleet.

peact or 54 Tes No JSS60 3-se-TE-364#4 Temp. Elemt.

Deac t or S4 Tes No -

JSS60 3-Su-TE-364en Temp. E lemt.

peact or S4 Tes No 4

JSS60 3 -$8-TE-36 4 SC Temp. Elemt.

Reactor 54 Tes No JSS60 3-St-TE-3648D Temp. Elemt.

Peact or 54 Yes no m005 1-AS-TE-NS$4A M20 Temp. F leet.

peactor 121 No Yes muel 3-Ah-TE-NG049 M24 Temp. Elemt.

Reactor 128 No Yes N005 4-AS-TE-N004C H2B 1emp. Elemt.

Reactor 525 Ho Yes meet 8-An-TE-me6448 M25 Temp. Elemt.

peactor 128 No Yes m001 3-AS-TE-ND04E h25 Temp. Elemt.

Reactor 121 No Yes n001 4-AB-TE-N004F M25 Temp. Elemt.

Deact or 12I No Yes 1

N005 l - Ah-T E-N004G 828 Temp. Elemt.

Deactor 128 No Tee muel B-An-TE-N004N h28 Temp. Elemt.

Reactor 125 Nss Yes 1

m005 l-A#-TE-N0048 m21 Temp. Elemt.

Reactor 821 No Yes N005 l-AD-TE-N00 4E h25 Temp. Elemt.

- peactor 328 No Yes 4

n003 1-AS-TE-N004L M24 Temp. Elemt.

Deactor 828 No Tes N003 3 - A R-T E-N00 4m M24 Temp. Fleet.

React or 328 No Tes N004 l As-TE-N004P

1. 28 Temp. Elemt.

Deactor

$25 No Tes muel l-A D-TE-m004 m N23 Temp. E lena.

peact or B28 No Yes n001 3-As-TE-N0%7A h25 Temp. Elemt.

Reactor 102 No No 4085 l-AD-TE-N0%75 H2O Temp. Elemt.

peact or 102 No No N608 1-AS-TE-NOS7C h25 Temp. Elemt.

peac t or 802 No No n001 l-Ah-TE-NOS70 M25 Temp. Elemt.

pe act or 102 No No M001 3-Au-TE-We%7E kJI Temp. E lemt.

Deac t or 802 No No MODI l-AR-TE-NO%9 M25 Temp, Elemt.

pe net sar 802 No No JO900 l-An-EE-45074 Aroustic Fleet.

Reactor 821 N<a Tee J0000 4-Am-ut-4507a

. Acoustic Elemt.

p eact or 328 No Tes B5000 1-AB-EE-4%07C AumsstlC Elemt.

Peactor 829 No Tes

.ts0D0 3-AR-EE-45070 Atnuette Elemt.

Reac t or 128 No Tee fuGDO I-An-3E-4507E Acoust ic E leet,

peactor 102 Ns.

Ten IeunO l-Ah-ar-4%#7F Anweent $c Elent, peer t or

$20 mho Tea a

1

secr.s rsAs TAptE 3.88-5 6@sISPfeENT SEB ECTP:D F00t passet Elevlarisesesser OuALIFICATIOst PalD N-41-1 Page 19 of 1%

".TSTEN s gesCLFAR DOILES Am FAft Teel ACTIOst LOCAftosi puts IP.

PtAse IOellP.

P.O.

ID 910 sePL 800 COpePneet:NT Bt.lsG.

EIEV.

Bents li t asuft 82)

CTuggetisTS 18080 3-AS-EE-4Se7G Acountic Elaet.

Reactor III 10 0 Tee se000 3-Aa-at-4Sofie Acoustic tient, peactor 128 aso vem seceo I-An-at-4Se7J Acouette riest.

peactor 128 soo Tee sueco I-An-a t-4507s A<muotic tient.

peactor 125 too Tee teoso I-Aa-as-4%e7L Ace =stic Elemt.

peactor

$25 sto Tee se000 l-As-3 E-ese7se Acouette sleet, peactor 325 son vos teseo I-As-at-4%e7P Acouet te Elemt.

React or t2l sto Tee soevo 4-As-zF-4Se7m Acouette Elemt.

peactor

$25 sto Tee seseo B-An-sT-4507A Acciantic Trans.

peactor 128 too Tee seeoo I-As-z?-4Se7n Acoustic Trane.

peactor 128 soo Ten teoog B-he-sT-4507C Acoust ic Trane, peact or 128 No Tee see00 4-A8e-ET* 4 %e 7D Acountic Trane.

Deactor 128 00 0 fee steen I-Ale-ET-4507 E Acensat ic Trane.

pe act or 824 No Tee emeeg 3 - Ale-IT* 4 %e7 F Acoustic Treas, peactor 129 No Tee neoco I-An-ET-4507G Acumst ic Teans.

Deactor 328 No veo seeep 1-Aa-ET-45e7H Acomaat IC T rane, seactor 821 see Tee 88000 l-Am-E T-4 5e 7J Arnesse &c Trana.

Dea < tor 825 see fee seceo I-An-xT-4Seis Actnestic Trans.

peactor 128 eso Tee sesso 3-An-xT-4507L Accunt oc Trane, peact or

$25 No Tee secoO l-Aae-xT-4 Se 7N Aceneet ic Trans.

peactor 125 eso Tee Isso@

l-AM-IT-4%e7F Acesesst oc Trans.

. Deartor 129 No Yes seeeQ I-As-ET-4%e79 Anoesnt ic Trans.

peactor 821 feo Tee Flo2O l-Alt-TS-Fo l 6 86 met Switch peactor See fee no ele 20 l-As-35-Fel9 8.amet $w6lch peactor 802 Tee No 9005 3-An-ES-Fe22A h20 B.in t t Switch peact or 800 Yes leo seuel 3-Au-ts-Fe22te p21 I.lm e t Switch peactor 500 Tee No mee05 3-AD-IS-Fe22C 321 Limit Swltch peact or les Tee No segel 4-AS-35-Fe22D R2B 86 met Swelch peactor 800 fee sen nuel I-A>-IS-Fe28A 902 8 8.imi t Sw6tch peact or 102 Tee sto senel 8-As-35-F02We M2B limit Switch peactor 102 Tee No steel B - AR-IN-Fe 2ec se2 B 5.4mit swit c h peactor 102 Tee Iso geel 8-An-IS-Fe200 m24 Limit Swelch peactor 507 fee No ris2O l-Ace-IS-Fe l2 A 5.6m6 4 Ew6 te te peact or 102 Tem een PleJU 3 - AN-25-Fe l2se 8.im e t Sw i t ete peactor 102 fee No e'leSAO I-Ato-35-t#67A 6.4 m e t Swi9ch he act or le2 Tee see P le lAQ B-Ah-35-Fe67s 16 met Sw6tth peact or 802 Yes sto e te l AO l-Age-IS-F06 7e*

8.4 mit Nwelch peact or 802 fee No PlotAQ 3 - Ate-35-D e6 71s B. i m i t Ew e t tis keactor le2 fee me ele 2O l-Alt-25-t'0 7 4 m limit Sw i t t h steact or 802 Tee Neo le JV l-Age-3 5-D e P 4Ie 5.4 mit Nwelch pr ac t or lo2 Ten me m80 8 le-C el5 9020-84 5%

Pasee t pe*act or 77 No my

,4-4 4

. IsCCS FSAR TA#tE 3.88-5 ECHIPserstr Erl.ECTI!D post esAssM terylpommENT cesAI.lFICAT1086 P63E n-45-1 Page 29 of 7%

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PEAst spulp.

P.t8 ID HO.

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seo eso somet 88 4 843 MJI-Peel Panel peactor 77 soo '

80 0 nel le-c e42 mal-Pe42 Pan t

.meactor 77 wa no a

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FoselPNFNT NFLECTfD POR MANSN E8eVlhoseseENT OuAI.IPICATIOct P6lp Page 25 of 7%

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sept. eso.

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(YisNeENTS se00 8 3-See-PT-N094A A21 Pressure Transaltter peact or 16 2 10 0 Sen steel 3-Ise-PT-es094m es24 Pressure Transatteer peactor 162 eso 10 0 seuel 1-se-PT-esG140

. ss2 5 Pressure Transmitter peactor 162 No Iso 8e908 1-De-PT-Ge0940

1. 28 Pressure Transmitter peactor

$62 No too 9003 lo se-PT-see94 E R28 Pressure Transmitter peactor 16 2 90 0 No see08 l-es-PT-setter M24 Pressure Transmitter peactor 162 '

seo No aeGe t I-ges-PT-90094C ge2 5 Pressure Transmitter peact or 162 eso No

'e00 5 3-se-PT-N094N 825 Pressure Transmitter peactor 162 too No reo04 4 - me-LT-Is09 70 es2 B l.evel Tranam6 tter peact or

??

No Iso seuel 4-DD-LT-es#97P h25 Level Transmitter peactor

??

No No 1008 I-pe-LT-N097N pe2 5 8.evel Transmitter Reactor 77 90 0 No SEGUI l-pes-LT-see97R 1s28 t.awel Transmitter peactor 17 No No stolo I-Cs-PT-496042 Pressure Transeltter Demet er 162 Ves Tee 96040 3-CS-PT-496052 Pressure Transmitter peactor 162 Tes Ves sepel 1-me-LT-NO90A le2 5 l*wel Transatteer peact or 71 00 0 80 0

• euel B-St-LT-N000m as2 4 8.ewel Transmitter peactor

??

soo No

• • ue l 1-BD-LT-N#9tA M20 Level Transmit ter Reactor 77 fee

' seo seuel 4-Dee-LT-es09 t se M25

1. eve 5 Transet4eer peactor 17 Tee No

• eg e l 8-DM-LT-te018C M24 Level Transmit ter Re act or 77 No No aquel 4 -Dee-LT-leo 9 8 D 4:28 Level Transmitter peactor

??

No No seuel 4 -De-l.T-Ne91 E k28 1.evel Transmit ter Beastor 77 No No see08 l-les-LT-es09 t P seJl f.evel Transe6 t ter peactor 77 No No

• enel I-hp-LT-N098G se21 Iowel Tranametter pract or 77 Iso No 4

seuel I-tes-LT-se09 8 N m21 Level Teansmitter peactor 77 No No aepel 5-DM-PtFT-se004n

(* 12 Press pilf. Trang.

Reactor 77 No

-No sen05 l-INe-PT-se000 t' 3 2 Pressure Transmitter peactor 71 No No

• ene l I-SS-P1 -800 70 A M25 Presseere Transmit ter heact or

??

No No seuel 1-age-PT-N#7sn MJI Pressure Transattter peactor 77 No No seuel I-me-PT-se0904 d20 Pressure Transmitter peact or 17 peo no seuel B-ges-PT-N090se h28 Psessure Transm6t ter peactor

??

No No

• eseO I l-pe-PT-N090E m28 Pressuse Transmit ter peact or 77 No No aseel I-We-PT-es090P se25 Pressure Tsansm6tter peactor 77 No No asuu t 8-get-PT-sousuJ se2 5 Psessure Transmitter peact or

??

No No

• uees t l-Ist-PT-see90s es28 Pressure Transmitter practor 77 No No ae0G B l-mE-PT-ce090se h28 Pressure Transmitter peactor 77 No goo seu01 l-DE-PT-sou90P le2t Pressure Transmitter beactor

??

No No

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OtsIIEENTS t

estel I-SA-LT-4e2A 8029 feeel Transmitter peact or 77 00 0 00 0 teel B-EA-LT-#4e2s 1928 Leeel Transmitter peactor 17 peo eso luel 3 -SA-LT-esde 2E en21 f.e m l Transmitter peact or 77 00 0 00 0 uset 8-SA-LT-N442F 8829 8.eeel Transeltter peactor 17 00 0 geo snel 3-5A-PT-eeee lA M25 Presa Traneetteer peactor

??

See leo

'seel 3-SA-PT-N4elt e621 Press Transelster peactor 17 Iso eso suel 3 -IBR-Ptst-eBSO4 A C 82 Preen Diff. Trans.

React or 77 eso too snel 3-me-Pest-esee4C C l2 Press Delf. Trans.

eleact or 17 eso eso wel I-en-Per-esel ?

4'52 t rees pill. Trane, peactor 77 eso eso teel I-hn-Pest-see l2 MJi Press O6ti. Trase.

peactor 77 00 0 gen e6010 l-en-PT-)6e4A Presseere Transe6 t ter peactor

.??

. ves aso fielg B-me-PT-lesem Frensure Transmitter

. Reactor 77 Tee Osa elet0 3-GS-PT-4eeeAl Presseere Transmitter peact or 162 eso leo ele 10 1-me-PT-7eSl4 Pressure Transmitter

.peactor 77 Boo Boo.

08080 l-pe-PT-7eSlp Pressure Transe6tter peactor 17 00 0 eso 1 eel I-35-PT-seeel Cl2 Psessuse Transmitter eseact or 17 00 0 eso wel I-ten-PT-80e%eA 4 il Poesoure Transettler peact or 162 Iso geo

• teel 1-ess-PT-tee %ese C75 Pressure Transmitter peactor 162 eso geo vuel 3-ene-PT-seegec 071 Pressute Transeit ter peact or 16 2 Se slo

• teel 1-esse-FT-We%80 C78 Pressesse Transmitter peactor 162 eso eso 18ee 3 l-pe-PT-ese7ec se2 5 Pressure Transmitter peact or 17 eso eso aquel 1-ph-PT-see7eu tell Pressure Traneeltter peactor 17 eso ido

• • ese l I-en-PT-meetE 325 Pseen Transe6tter peact or 77 eso eso veel 3 -sA-PT-sege lP sell Poesa Transmitter peactor 17 Oso No peel 1-SA-DE-82089) nli peI6atson Eleet, pe ert or B24 sen eso

• sel 4-pe-IsE-IlDit t sell paettet sam Eleet.

Reac tor 320 too see wel 3-De-pt-849891 pli paal6atson Eteet, peact or

$2e eso sea wel 8-ess-SE-8 %Dl9 )

til pm.46attoen Eleet.

Reactor 12e eso No wel 3-sace-pr-86 DB 91 ses I pait t at ism E leet.

React or 32e een eso.

Datel 8-pe-et-20Dl93 pll stealiat icwn etleet.

peaceor 12e eso eso meel 3-tet-DE-2 2Di e l tell petiatinn Eleet.

Reactor

$20 eso eso aseel 3 -ense-pt-21 salt i plI pa.16 at inse E leet.

. Reactor 328 Beo een veel I-B#-pt-24Dl92 pll paal 6 at lose S leet,

peact or

$2e esse eso 4388 4 9E-25D19 4 tell padlatton Eleet.

Reactor

$20 00 0 00 0

• tese l 1 -ence-DE-26 Dl 9 )

pil pellet tose Eleet,

peactor 12e 90 0 00 0 asuel B -ess-pt-27Ba19 5 mil paestat 4em Elwet,

peactor

$20 Iso geo

'ese l 4 - pm-p E-l i en t t i all paaltet tuse Eleet,

peactor 12e tio eso

• que l B -pes-pe'- 12D B 9 I tel l pa.liet eense E leet.

Near8or 120 30 3 eso

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9 leCCS PSAD TAmLE 3.88-5 E0ulpenENT SELECTED rop 3Assee Esev81Kapetes? QUALIFICATItal P68D Page 24 of I%

fe-4 2-3 h7ETue s nuCLEAp solLEp WEbsti, leeSTsu est Paft 1988 ACTIOle EnCATIces boost P.

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Ca_sueEIITS seeel 4-se-et-3)DI93 sell Radiatton Elset.

Reactor B2e eso eso esset 5-ess-et-34 Dl93 mil medietton Elmet.

leoact or 824 tem sea sees t 8-ese-et-3S Dis 3 mil padiation Eleet, peacter l2s eso ano seuel 3 -IMe-NE-36 D t 91 til pediat6pn Eleet, peactor 520 pes gern nGet B -EMS-pE-STDl 9 3 Sil mediation Elemt.

DesCtor 829 Oso feo SEGUI l-pe-DE-4tDl9) tell padletton Eteet, peactor 824 sto 30 0 steel 4-see-pt-4 2fe19 3 mil padsation Eteet, peactor

$20 00 0 too steel 5-900- pt-4 308 9 5 sell padsation Elemt.

Reactor 120 fore see peue t 3 -bee-pE-4 4 DB 9 3 mil palistton Elemt.

peactor 124 00 0 Iso soeul 3->t-pt-450893 hit mad 6atson Eleet, peactor 520 soo seo sepel I-me-et-460893 188 6 padInt son Eleet.

Reactor 828 eso seu seud t I -Iste-D E-4 7 D t 9 3 etI meda et lose Eteet.

Reactor 12e eso son seoul B-ess-pt-5 t pI 9 3 asil padiation Etent.

React or 126 seu sea seuG B l-005-9E-5J0893 sell padtation Eleet.

peastor 12e sea eso seuel l-e5-38-5 3D19 3 tel t Radiattun Eleet, peactor 320 eso seo r.uo t 8 -te->E-5 4 DI 9 3 elI mad 6ation Eleet.

peactor 120 sea geo nuel I-me-pE-55Dl93 DIl padiat60n Fleet.

Reactor 120 00 0 eso nwSI l-to-pE-S6Dl95 all padiation Eteet, peactor 3 20 sea peo M005 E-te-DE-57DI93 mat pad 6 attest Et eet.

peact or 120 peo see MOO!

l-tee-SE-6 t Dl 9 3 BIS Radiation Eleet.

Deactor 126 80 0 00 0 seuel I-pe->E-62Dt93 set i pa4tation Eteet.

Deactor 120 peo geo neul 3 -Se-DE-6 30193 Ist i padiation Eleet.

Peactor 120 peo geo sovel B-te-pE-64Dl93 hil Radiat ion E teet.

smactor 125 00 0 geo secul 1-see-et-6 SDt 9 3 est l Radiation Elvet.

peactor 120 een peo n008 l-see-pt-66Dl9 3 sel I pa llat ton E teet.

Reactor 320 ske Iso seue t 1-mes-et-72pI93 mil Radiat lose Eleet, pea ct or 120 sea peo Muel l-top-pE-7 3Dl9 8 atI madiat lose E lcet.

Deactor 320 ses peo peou l B -1000-9E-7 4 04 9 3 seII mediet lose Elvet.

peact or 1 20 seo sono nuel B een-pt-7Spig3 sel l padiation Eteet.

Reactor 120 sers eso scou t le-C eG4 H28* PUG 4 Panet peactor 77 Iso sto meet le-C 005 st25-P00%

Panel peact or 77 eso seo meet to-C 000 es28-pug 8 Panel peactor

??

00 0 sea sesma l le-C 009 teJ t -Pots 9 sanel peactor 77 sere eso nuut lu-C ele pAI-Pete Panel peactor TP teu seo meel Re-C 426 es2 8 -PU26 Panel peacteer 17 et.

seo nuel 80-0 ed) get t -Pu J 7 Panel anact or

??

eso seu seeu t le-C e le s*JR-Pete Panet peactor 102 sem eso neet l u-C se $ 3 se 21-PU ll Panel Rese:t or lu2 see sen sM89 8 lo-L U32 8021 -PO $2 Pae.e I peactor 802 eso eso soou e eo-C uI3 ssJ l - Pu 3 I reneI Iseat t ut t02 seis geo

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COsesets075 y

e* $U I AQ I-pr-sev-DeceA Cnntrol valve ponct or 77 eso eso e'l# BAO l-mF-eev-Decom i'ontrol valve peactor 17 seo No etelo B-ses-FT-seO B 4 A Flow Trans.

peart or 77 No No 08000 3-908-FT-seel es Flane Trans.

Deactor 77 soo No 85080 1-SS-FT-se014C Flow Trans, peactor 77 No eso slul0 3-Dee-FT-Nel40 F lene Tr ans.

Reactor 77 sto No e4080 l-De-TT-NO24A Flene Te ases.

Iseact or 17 eso eso e 6080 l FT-stG 2 45 F lene T r ane, steact or 77 No No elGIO l-##-FT-see24C Flens Tsana, peact or 17 eso No JtelQ 3 -let-TT-M0 240 Fleue Trang.

Reactor 77.

No No e60 90 3-ech-sv-4110 solenoist Walve peact or 828 fee eso e60 30 1-Dee-tev-e ll t Esslesweial valve peactor

$45 Tee een 84890 3-met-ts-e lle I. tote switree peact or

??

Tes No stu bQ l-98-15-4518 Limet Sw6tch Reacsor 77 fes No Plel AQ 1-DF-IS-)S004 4.imit Swetch peart er 77 Tes No FIGIAQ 1-bF-35-leuuN Limit Switch peactor

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Tes No

I 1

seCGs FSAR TAteLE 3.88-5 FusalPeerNT SFt.ECTED Foe seassas tesV3posseF.Ist OeinLIF8Cartres P6tO Page 24 M 75 ft-44-5

• iTSTest s DEACTOR tenTim CLFms-tar eG PAft TNI ACT1000 LOCAfttus EQUIP.

PLAfs Boutr.

P.O.

ID 0I0 seFL 880 Cnser000EIIT SDLOG.

ELEY.

utrrt til es0TE 42)

Ctestelffs PBSJO l-At-esv-Fe39 Gli Contr. Valve peact or le2 soo soo P se2O 3-eG-ts-ree4 GBR L6m44 Switch peactor 845 Tee Iso 9488 8 8-eG-FT-esel2A G33 Flow Trane.

t eact or 17 Iso 38 o 9eet 8-eG-FT-esel2D G33 Flow Trare.

Reactor 882 no eso secel I-eG-FT-Ise 364 G13 Flow Trane.

Deact or 77 No too 9 eel 1-eG-FT-tee)60 Cl3 Flow Trane.

Seactor 77 seo Iso MGel 1-feG-FT-ele 414 GB)

Flow Trans.

React or 802 Ito Ito

=esel 3-eG-FT-eetlp GIS F is== Tsang.

Deactor le2 see No ele 2O 8-eG-eev-Feel G33 Camer. Valve De sct or 145 no no Fle30 3-eG-uw-ree4 CDB Coner valve peactor les eso no Ple2O l-eG-esv-Fe 34 Gli Constr. valve teact or 77 eso esa Fle2O l-eG-tsw-rel5 GB) rnett. Valee peactor 77 gen eso 9005 I-eG-TIE 85-seece GIB Teenp. Indicatter) Sw, High Deact or 77 Iso gen F8820 l-enG-t h-reel Gal 4.ames hwitch peactor 14%

Tee eso Fle2O l-stG-as-Fe39 L6mit settch peact or le2 Tee eso

• 80 8 le-C se2 H28-Fee 2 Paseel peactor le2 Iso eso r

. ~. - _ - -.

entus Psaa TAmtE B. l l-S l

F08sIPse' set seLtCTesa see temasias essvtainsiems? Deeht.IFICATItse P6t e Paige 27 est ?%

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seen. ein.

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n-4 2-4 *

>T ETsese (UsefspL WDO esplWE uvD-FART B DF PAst Tett A(TIUsl LDCATlcse eyeeIF.

Ptast SQUSP.

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seFL 8eED.

Cen88meste87 DEDG.

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GesFFE l ll IsoTE f 29 CtsuetuTS meel 3-sF-LT-seel2A C'l l e.evel Trane peact or le2 sen eso see88 8 l-#F-LT-IDel2#

Cl4 Level Treme peactor 802 eso No neel 5-DF-LT-seel2C Cil 8.evel Trane peact or 802 seu sea steel 3 - DF-LT-tee l 2 ta Cl3 Level Trane peactor 192 een eso

• eeel 1-mF-LS-seel la Cl4 la m l Switch peactor le2 see Iso squel I-DF-L5-seella CBI Level Sw6tch peactor le2 00 0 Iso neel 1-DF-LS-see l lC CBI Level Switch peact or 182 sea eso setel 3-sF-LS-teelle Cll Level $witete peactor le2 see ha see81 3 - DF-LS-see l lt Cll towel Switces peact or 182 see eso steel 1-tF-LS-teellr ClO B4wel Switch peactor lei eso een steel 8-DF-LS-mellr.

a88 Level suitete peact or 882 see soo semel 8 -GF-LS-80e l let C88 towel $wlech peactor 882 e60 peo semel 8-DF-5W-Bl?

Cll Salesen64 Walve peact or le2 Geo too steel 3-DF-$W-Fee 9A e'l l solestatd valve peactor 382 seo eso seetl 1-DF-$W-Feete Cil solene&d valve peactor 802 eso eso steel 1-er-SV-FileA Cl3 Solenoid valve peactor 802 eso eso setal 8-DF-SV-Flles Cll Solenoid Walve peact or le2 geo too steel 3-DF-5W-Fl6eA Cl3 Saleswa64 Valve peactor le2 soo eso secel 1-mF-SV-Fl60m Cl3 salesenad valve peactor

.582 eso eso seeee t 5-DF-5V-Fl62A CII Solenoid Walve peactor 802 eso 30 0 aseel 3-DF-$W-Fl625 Cl3 Solenold Valve peactor 182 tso eso se#88 l-at-sW-Fl62C Cl3 Soleseoid Walve peactor le2 eso eso setel 8-et-5W-Fl62n Cl3 Solensild valve peactor 88 2 tso tso setel I-et-SV-Fl684 CIS solenold valve peactor 182 too eso steel 5-SF-5W-Fl688 Cil solenold Walve peact or 802 eso soo 84005 1-et-5W-FIS2A Cal Soleno64 Valve peactor le2 eso No seeel 3-aF-SV-FIS2m Cll Solemn 680 Valve peact or 182 eso eso steel 5-mF-Tes-94Be Cll Temp. peceerder peact or le2 eso see seesel 3-pr-IS-Fele Cll-Fete 8.isse t hwatch peact or 102 see eso segel B-mF-IS-Fell Cll-rell L6m6e Switch peactor 802 sees eso recel le-C OST N21-FOSF Fanel peactor tel Oso eso

.t es s Psae 74me.E 3.8I-%

russIrsesef SFL&CTED st>e senesse gunw3presarm? MLtr trAfl0II P6fD Page le ce a,

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, hay senter teacter 862 po ano snee t 3-er-Joe t48 CetB P g sentor Deseeor B62 see see esset 3-essges-344 (484 seemd Sw.

Deact er 46 2 see sere esse 8 8-800-55-54e r4Ia mand Sw.

Deactor 862 00 0 see Fle 140 0 = = - s: 1i C48 Cmetre8 WaIse Deacter 845 See eso P SeiaO 8-en-aew-reena r43 enearoa waIwe Deacter I4%

sto sea eseet 5-ess-PT-eee44 (48 Psess Trame.

Deactor 162 ese eso seest 5-Sue-BW-resea (40 enclassat 6ed Control Valve Deacter 862 no see seest 8-ess-aw-reces tel nometassif te.t Centrol valve teact or 842 ano see P eenao 3-ese-35-reena Egg Lee 6a Settete peacter les Tee me Ple 340 8-ten-35-Fe465 643 Limit %s t t ete Beacter 14S Tee IIe sees 8 4-ese-PT-estees C4I Feese Tsano.

Deactor 862 Iso see smeet 8-see-LT-ses t en tel Level Trane.

Deart er 162 see eso sese!

B-ee-LTMlese 448 Level Trane.

meacter 862 ano see some3 4-ens-LT-see 4 et (48 Lees Yeama.

Deacter 362 Iso see stee8 8-tee-LT-meIer C4I

$4e.e Tramo.

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EQUIPMENT SELECTt:0 FUp nap 9N ENVIpON8eENT QUALIFICATION P64D.

Page Il est l's N-58-8

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(

seact or 54 No No M001 f I-SP-202 E!I C002 - pMM-Pump Motor,

peactor 54 No No muel 1-DC-CP-N0084 t:ll Conductivity Elewt.

Reactor

%4 No No

j..

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M001 3 - DC-CE-MOS I B Ell-CorductivityElemt,{

peactor

$4 No No N001 l-CP-202 Ell C002 pHp-not ur peact or 54 No No peactor 54 No

'No M00 20 4 -CP-228 Jockey Pump Motor g

M004 l-19*-20 2 Ell C002 RM S-Mot o r peact or

$4 No No

.M0020 1-DP-228 Jockey Pump Notor peactor 54 No No

.813f0 4 - nc-FT-4 4 35, Flow Trane.

N peactor 77 No '

No

' J3010 3-DC-FT-446]A Finw Trane.

Reactor.

17 Yes No isoto I-bC-FT-4 46 t n Flow Trane, peactor 77 Yes No J30lg I-pC-FT-4462A Flow Trane.

Reactor 102 Vee No J3010 l-NC-FT-4 4 6 2M Flow Trane.

peactor 17 Yee No Flow Transmitter peactor 102 No

.No M003 l-MC-FT-N013 Fil e

Muul I-pC-FT-Ne t S A Fil Flow Trannaltter peactor 17 Tee No M005 1-hC-FT-N052A Ell Flow Transmitter peactor 77 No No M005 l-DC-FT-N0 8 5 R Fil Flow Transmitter peact or 77 Tee No M005 l-DC-FT-Nel5C Ell Flow Transaltter peactor

$4 Yes No MuGI l- >C-rr- >0 8 5 0 Ell Flow Transmatter peactor 54 Yes No M005 l-hC-FT-N0%2R til Flow Transmitter peactor 77 No No M001 3 - DC-FT-N 9 5 2C Lil Flow Transmit ter peactor 54 No No 4

M004 4-hC-FT-N0%2D Ell Fluw Transmitter peactor 54 No No PIGIO l-DC-HV-4420A Conteol Valve peactor 77 No

' No P30lO I-hC-NV-442un Control Valve peactor 77 No No P30lO l-DC-NY-4 4 21 Control valve peactor 77 No No P103AO l-hC-NV-442e Control Valve peactor 77 No No Ptolo 3-pC-NV-4419 Cnnt rol Val ve peactor 77 No No P3010 1-bC-NV-F00BA Ela e?pntrol Valve peactor

$4 No No P30lO l-DC-NV-F00 3N Ell Cnnt rol Valve peact or 54 No No P30lO l-hC-HV-F004A Ell Control Valve peactor S4 No No

• 1010 l-hC-HV-F004N Ell Control Valve peact or 54 No No PtolO l-RC-HV-F004C Eli Control Valve peactor 54 No No P30lO l-DC-HV-F004D 1 Ell Cont rol Valve peactor

%4 No -

No l' 30lO l-pC-HV-F006A Ell Control valve peactor

.54 No No P3010 l-BL-NV-F006n 9:l l Cont rol Val ve peactor 54 No Neo P1030 l-DC-HV-F007A Ell Control valve Bear: tor

$4 No No P30lO l-sc-NV-F007e Ell Control Valve peact or 54 No No P30lO l-bC-NV-F007C Ell Control Valve peactor S4 No No P90lO l-bC-NV-5007D fil Control Valve peact or. 54 No No P3020 1 - hC-HV-F 004 Ell Cont rol Valve peactor 102 No No

=

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7..

e NCCR FSAp TAhLE l.ll-5 EQUIPMENT SELECTED Foet itApSan EssvilujNeeENT OUALIFICATION P6tD Paale 8% of l '.

M-51-3 SYSTEN: RESIDUAL NEAT plMOVAL SYSTEM pc PAft TMl ACTIDs0 LOCATION EQURP.

PLAN IQta lP.

P.O.

I D 000.

NPl. No.

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OK3TE Ill IsoTE 129 OJeutittf78 se005 1-AC-PtFF-N060A Eli Press. Dif f. Trane, poact or 77 No No M001 l-pC-PDT-N0608 Ell Press. Diff. Trans.

Besctor

??

No No McGl I-pC-PT-N026A Eli Press. Traneanttter peactor

??

No leo M001 l-DC-PT-M026n Ell Freen. Transmitter peactor 77 No No Muel l-fic - PT-MO S I A Ell Press. Trans peactor

$4 No No M001 1-BC-PT-N0%)u Eli Press. Trans peactor 54 soo No M001 l*DC-PT-N058C Ell Press. Trans peactor 94 No No MOOR l-RC-PT-N0%3D Fll Press. Trans peactor

%4 No No M005 l-hC-PT-N055a Ell Press. Trans peactor S4 No No Muul 3-IsC-PT-N05SD Ell Press. Trans peactor 54 No No MOGI l-DC-PT-NOSSF Eli Press. Trans peactor 54 No No Mool 1-hC-PT-N05%ti Ell Press. Trans Meactor

%4 No No MuGB l-nc-PT-N056h Eli Press. Trans Iteact nr

$4-No No Muel I-bC-PT-NUS6D Ell Press. Trans peactor 54 No No Mu05 3-DC-PT-N056F Ell Press. Trans peact or S4 No No M001 3-DC-PT*N056N Ell Press. Trans peactor 54 No No MGol I-SC-PT-N057 til Press. Trans.

peactor 77 No No M001 4 -seC-PY-500 3 A Eli Press I/P Converter peactor

??

No No M001 l-mC-Pt-500lH Eli Press I/P Converter Iteact or 77 No No M001 1-uC-LT-M000A Ell 1.evel Transmitter Iteactor 54 No No v4001 1-pC-SV-F041A Fil Solenoid Valve peact or 100 No No MOOR l-Isc-SV-F04 t h Eli Solenoid Valve Iteactor 100 Iso No MuG4 l-stC-SV-F04tC Eli Solenoid Valve peactnr 800 No No Muel 1-tec-SV-F04 t il Ell Holenoid Valve Meactor 500 No No Muel 5-hC-SV-F050A Fil Solenoid Valve peact or 100 00 0 No M003 l-IsC-SV-F050m Ell Notenoid Valve peactor 100 No No 56010 1-DC-SV-F0%I4 Solenold Valve peact or 77 No No J6Dl0 1-IsC-SV-FO%In Solenoid Valve steact or 77 No No

.16U10 l-nc-SV-FOSIA Solenold Valve peact or 54 No No J6080 1 -Isc-S V-FOS IB Solanoid Valve peactor 54 No No 86030 3-DC-SV-F079A Solenoid Valve peactor

??

No No 8603Q l-teC-SV-F07 9 th Solenoid Valve peact or 77 No ago 16019 l-sic-SV-F0004 Solenoid Valww peact or 54 No Nts 16080 1 - etC-SV-FO sOM Solenold Valve peactor 77 Nas Neo PlulAQ 1-HC-SV-F l J A A

5. l l Solenold Valve steact or 100 No No Plu l AQ 8 -leC-SV-F 12 2tt t:ll Solenold Valve peactor 800 No No PfulAQ B-HC-SV F146A Ell sologueld Valve peact or 100 Nrs No P SD IAU l-HC-SV-Fl46tB Solenseld Valve Peactor 100 No No PtolAQ B-HC-SV-pl46C Solesudal Valve leemc t or 100 No No P las tag 8 -geC-SV-F I 4 6tB Solenseles Valve peact r 100 Ne t No l's % 69 l - sec-T F.- 4 401 1 renp. Fleet.

pract or 77 Ne s Neo nOUl 1 -ltC-19.-NU d7 A Ell

teep,

t. l ven. nl Neactor 77 yes N.,

Mun!

3 -ftt'-TE*NG J 7 tl til Tesale. E teens'nt p ract or

??

Ve9' No q

9

MCGS FSAR TABl.E 3.88-5 roulPNt'NT $$LECTED rint HApSM ENVIROBINENT OUALIFICATIOst P610 Page 36 of 7%

N-SI-I NYSTENs BLSlHUAl. HE AT DE8tOVAL HTSTrN teC PAN TNI ACTInes LsirAf f tJet routp.

PtAss rotelr.

P.O.

ID eso.

NPL too.

Ct wert1N G'NT St.DG.

FLEV.

ISOTE lit isOTE $25 CtseptENTS P303AO l-sc-3E-F103A Ell Position Elemt.

React or 77 80 0 No P303AO I-loc-8E-Fluln t:ll Position Elemt.

Reactor 77 No No.

P 30 lp0 l-pc-tE-rl04A Eli Positiews Elemt.

React or

??

No Ito P903AO l-SC-3E-Fl04m FBI Position Elemt.

Reactcir 17 No No P30l0 l-hC-IS-4420A Limit Switch peact or 77 Tes No P3030 1-NC-IS-4420ts B.imit switch peactor 77 fes Iso P30lO l-mC-IS-4421 Limit switch peactor 77 res No P3GIO l-pC-IS-r0044 Ell Limit switch peactor 54 Ves No P30lO l-sc-3S-r004s Eli Limit Switch peact or 54 ves No P30lO l-InC-3S-r004C Ell I.im i t Switch peactor 54 Yes No P3010 l-aC-tS-r004n til B.imit Swalch peact or 54 res No P3010 1-HC-38-r007A D:ll Limit Switch peactor 54 Yes No P1010 l-MC-SS-r007h Ell Limit Switch peact or 54 Tes No Plul0 1-DC-15-r007C Eli Limit Switch peactor 54 Ves No P3010 3-hC-25-F007p Ell 8.init switch peactor 54 vos No P3020 1-hC-IS-r008 Eli Limit Switch Ideactor 802 Ves No P3020 1-Isc-3S-r009 Eli Limit Switch peector 102 Ves 10 0 Plul0 1-itC-3S-roluA ril Limit sw i t e-h peactor 54 Yes No P3080 l-BC-IS-r0len Ell Limit switch peact or 54 vos No P3030 1-bC-IS-rullA Ell I.6 mit S=ttch peactor 54 res No Ptulo 3-9C-25-601B86 Eli Limit Switch Ileact or 54 Yes No P4020 1 -InC-25-ru l 5A Ell 8.imit Switrh peactor 102 Yes No P3020 l*lsC-tS-Fol5H Ell f.6mit Switch peact or 102 Ves No P30lO l-hC-IS-r016A

r. I l I.init Switch peactor 102 Yes No PsulO l-DC-25-r016n LII limit Switch peact ne 102 Yes No P3020 1-leC-IS-relI A Ell 1.imie switch peactor 102 Tes No l'3020 4-DC-IS-rOl?H lil l Limit Muitch peact or 102 Yes No P3020 1-ItC-IS-rol?C Ell 1.imit Hwltch peactor 802 Yes No P3020 1-HC-IS-rel?D r.I l limit Nwitrh peact os 8882 Yes No Pl010 1-NC-SS-r021A Ell Limlt Switch peactor 102 Tes No P3090 1-#C-25-r0 2 8 tt Ell B.imet Switch peact or 132 va o leo P3020 I-HC-IS-rG22 Ell f.6 m i t Switch steact or 145 Yes eso P3020 l-pC-2S-r02)

Eli Limit Nwisch iteact or 145 Yes No P)0BO l -leC-2 S-r 0 244 6:18 8.i m i t sw it ch peactor

%4 Tes No Pl010 1 -IsC-IS-r0 24 R Lil 1.imit Hwitch peact or 54 Yes No P3010 1 - stC-I S-r02 7 A Ell f.6mit bu i t e:h peactor 77 Vos No P lu to I-DC-IS-9027R Fll Limit Nwitch peactor 77 Yes No P3020 4-hC-IS-r0604 t.18 Ponition Sw.

Reactor 100 No No Plo2C 1-hC-25-t060s Lil Posit iews Sw.

Reactor 100 No feo P1020 I* tlc-35-r065A Ell Posittswa $w.

Peactor 512 No No P9020 1-DC-IS-9065M Lil Position sw.

Reac t or 100 No leo Plo20 3-HC-IS-rn65C Ell Positiews Sw.

Neartor 100 No No PB020 l-hC-IS-t06%D Ell swe e t news Hw.

koact or ISO No No

~

w e

itefis FsAlt TABLE 3.ll-S f:OulPfeENT set.ECTED Fillt MARSM ENVip0NNf.NT OelAl.IFICAtl0N P650 Page 37 of 7% ~

M-S t-l NYSTENs DESi!IUAL NEAT REteUVAL SYSTEN DC PAsl TNI ACTinst 111CATInel FOIfIP.

PtAes touIP, P.O.

ID seO.

sePL eso.

CosePriseENT RLIMI.

ELEY.

seuTE fil esOTE 125 CtssNoENTS Plu30 I-mC-IS-P077 Ell Position sw.

Reactor 102 No No P303AO l-DC-35-Fl01A l.init Switch peactor

??

Yes No P)D IAO l-BC-38-F1018 I.imit Switch peactor 77 Yes No se001 30-C 018 N21-Pol 5 Panel peactor 54 No No N001 IO-C 021 N 21-P0 2 5 Panel peactor 54 No No N001 IO-C 069 N25-PG49 Panel peactor 54 No No o

f a

a i

l l

l NCCS FSAp TAhLE 3.11-5 Page IS of 7%

PelD EOulPNENT SELECTED FOR NApSH DIVlpoletENT OllALIFIC ATI(WI N-53-1 SYSTENs CDRE SPDAT IAN 1918 AC? TON LOCATION EQUIP.

PLAN EQUIP.'

BE C(NestENTS DLDG.

ElEV.

P'ITE (l1 000TE 4 il P.O.

ID NO.

fePl. No.

CtNtPONENT peactor 54 No No N005 1-AP-206 E23 C001 Pump Notor peector 54 No No peactor 54 No No N001 1-BP-206 E23 000)

Pump Notor N001 1-CP-206 E24 0004 Pump Mot or peector 54 No No Moul I-DP-206 E2B C001 Pump Notor Reactor 54 Tes No peactor 54 Tes No N001 3-DE-FT-N003A E24 Plow Trans.

N001 3-RE-FT-N005h E23 Flow Trans, peact or 54 No No Nuol l-DE*FT-N051A E23 Flow Trans, Reactor 54 No No peactor 54 No No N001 1-hE-FT*N05th E21 Plnw Trans.

peactor 54 No No P)olQ B-pt-HV-F0084 E29 Contr. Valve peact or 54 No No P30lO l-DE-NV-F00th E23 Contr. Valve P30lO l-pC-NV-F00lc E2B Contr. Valve peactor

%4 No No peactor 102 No No P10lO l-BE-HV-F00lp E2B Contr. Valve peactor 102 No No P1020 3-RE-HV-F0044 Fil Cemt r. Valve P3020 3-8E-HV-F004m E23 Contr. Valve peactor 102 No No peactor 102 No No P3020 l-DE-HV-F005A E2B Contr. Valve P9020 3-DE-NV-F005R E2R Cont r. Valve peact or 77 No No N003 1-DE-PUT-N056 E2B l*s ess. Stif f. Trans.

Reactor 54 No No Reactor 54 No No N001 1-8E-PT-N0544 E20 Press Trans.

Deactor 54 No No M003 3 -RE* PT-N05 4 8 E2l Press Trang.

Reactor

• 54 No No MOOR l-RE-PT-N0558 E28 Psens. Trans.

kesctor 54 No No N001 3-pE-FT-N0550 E23 Press. Trans.

Reactor 54 No No 7004 3-HE-PT-N055F E23 Press. Trans.

peactor 100 No No N001 1-sE-PT-W055H F23 Press. Trans.

m001 l-DE-SV-F006A KJB Solenold Valve peactor 100 No No Nuol I-HE-SV-F006n E21 Solenoid Valve peactor 54 Yes No P90lO l-hE-ES-F003A 9:21 Limit Sultch peactor 54 Yes No peactor 54 Yes No l

P10lO I-nt-IS-toolp F2l Limit Swltch P)olO l-BE-IS-F00lc F2B

'.5mle Swltch peact or 54 Yes No peactor 102 Fes No l

P90lO l-RE-tS-F00lO l' 2 R Llmle switch P1020 1-DE-35-F005A E24 f.8mit Switch peactor 102 yes No P)D20 1-DE-IS*F005H E24 Limit Ewitch peact or 100 No No F101AQ 1-hE-IS-F007A E20 Postason SN peactor 100 No No P301AQ 3-bE-IS=F007H Eli Posit ion SN peactor 77 No-No P10lg 8 - DE-ffV-F0 8 5 A E23 Cont r. Valve peactor 77 Yes No P10lO l-HE-IS-Fol5A til Llmlt Switch peactor 77 No No P10lO l-HE-NV-Ful5H e,2 8 Conte. Valve peactor 77 Tes No I

PROBO l-ME-35-F015e EJI Lisle Sultth peact or 54 No No I

P)DIO l-DE-ItV-Fell A t:21 Cont r. Valve peactor 54 was.

No P30lO I-ut-35-ru ll A F2B f.i m i t Switch peact o r 54 No No 8*)ClO l-hE-HV-F0llR F21 Contr. talve peactor 54 Yes No F)plO l-DE-IS-F0lld E24 I,imit Swit ch peact or 100 No No Pje)AQ 3-pE-SV-F039A E2B Hntenotat Valve peactor 100 No No P10)AQ I-DE-SV-t0398 E20 Molenoiel Valve No kcact or 100 Ten PJulAQ 3-hE-IS-tOl9M EJS

1. i m i t Sw a tc h

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0-McCS FSAR TABLE 3.18-5 F&lD Page 40 of 75 E0ulPetsstF SELECTF.D FOR MARSM ENVlpONNENT OGALIFICATIO81 N-5 5-l

%TSTENs NIGBI PRESS COOL. 5 0Ll t'CTION BJ PAN TNI ACTiool LOCATIOes E0ulP.

PlAss e0tstr.

P.O.

ID NO.

NPl. 800 COpePO98ENT pt tM).

Ef.EV.

900TE lll 900TE 12)

COftstENTS P3020 1-AP-NV-Fell Eel tortrol valve peactor 77 No No se001 1-FD-FT-N000 E4l Flow Trana, peactor 54 Yes No P1020 3-FD-HV-F001 Eel Control Valve peactor 54 aso No PlG20 4-FD-10V-F002 E45 Control valve peactor 100 No No P3020 1-FD-HV-F005 E41 Control Valve peactor 102 No No P3010 1-FD-NV-F075 E41 Control valve peactor 77 sso No P30lO l-FD-HV-F0 7 9 E45 Control valve peact or

??

Iso too P30%AO l-FD-NV-F400 Eel Control Valve peactor 100 eso No 4003 l-FD-ESN-N014 Ett f.evel Switch Nigh peact or 54 No No N001 l-Fl> PDT-MG5 FA E41 Press. Diff. Trans.

Reactor 77 No 80 0 Noel l-FD-PDT-N057C E45 Press. Diff. Trans.

Reactor 77 No No M001 l-F D-PT-N 0 l l F.41 Press. Trana, peactor 54 No No Mosel I-FD-PT-NOSSA F48 Press. Transmitter peactor 77 No No i

sedel 3-FD-PT-MOSSC E4l Press. Traneel t t er peactor 77 No No l

l M001 l-F D-PT-NO S S E Ett Press. Transmitter peactor 77 No No i

M001 3 -F D-PT-N 050G E41 Press. Transultter peactor 77 No No j

r103AO l-FD-SV-F02e E4t solenold Valve peactor 54 No No l

P 30 3AO l-FD-sV-F029 Let solenoid valve peactor s4 No sea

.36000 1-FD-SV-F054 Solenold Valve peact or 54 No No l

P1010 1-FD-HV-F071 E45 Control valve peactor 77 No No M001 l-RJ-FT-MOSI E4I Flme Trans, peactor 54 No No l

P303AO l-BJ-NV-4003 Control Valve peactor 54 No No i

I P301A0 1-5J-MV-4004 Cemtrol Valve peactor 54 No No P303AO l -sL2-NV-4 065 Control Valve peactor 54 14 0 No PROSAO l-RJ-NV-4066 Control valve peactnr 54 No No PIG 29 l-BJ-HV-2278 Control Valve peactor 102 90 0 No Pl010 l-M-NV-F004 Ett Cemtrol valve peact or 54 No 90 0 Plu20 3 - M -HV-F 006 E45 Control valve peactor 102 No -

No P1020 l-aJ-NV-F007 Eel Control valve peact or 54 No No P3020 1 -IL)-IIV-F000 E41 Control valve peactor 77 No No P3020 5-BJ-MW-F012 Eel Control valve peactor 54 No No P1010 3-bJ-teW-F042 L48 Control Valve peactor 54 No No 01010 3 -8J -l.T-4 8 01 4.evel Trann, peactor 54 Yes Yes 81080 l-M -LT-4805-8 8.evel Trans.

peactor 54 vem sso 53010 3-RJ-LT-4005-2 1.evel Trans.

Snactor 54 No No M001 5-BJ-LT-N062A E45 5.evel Transmitter peactor 54 No No M001 1-RJ-LT-N062E E45 5.evel Trans.

peactor 54 peo No fluto I-BJ-PT-477I Press Trane, peactor 54 No No 1

4001 1-8J-PT-M050 E45 Press. Trans.

React e r 54 No No J

P 90 3AQ l *ILI-tS

• 4 90 )

I.4 mi t Switch peactor 54 Yes No P lu l AO l-es t-ts-4 so 4 8.lett switch peact or 54 Tem No tal01A0 1 -esJ -as-4a65 1.5mtt siv i t ch peactor 54 Tes No t

1

teCCS FS AR TABl.E 3.18-5 EQUIPMENT SELECTED FOIt MARSN ENVIIIOfeNENT OtfALlrtCATIO90 P68D Page el of 7%

N-5 5-1 SYSTENs HICet PRESS COUL. INJECTRUN isJ PAN TNI ACTION 1/4ATION '

E0 HIP.

PLAN FOtf lP.

P.O.

30 000 NPt. 800 CostpostENT SLDG.

EE.EV.

100TE (ll NOTE (2l C004f188875 -

P303AO l-aJ-ts-4e66 8.imit switch peact or S4 Tes No P3020 1-mJ-2s-8278 1.imit switch peactor 102 Tee No P3030 5-aJ-25-r002' Eel 3.imit switch peact or 100 fee No P3020 1-sJ-ts-f003 Ett I.imit switch peactor 102 fe e No P3020 l-sJ-ts-r006 Ett I.imit switch peact or 102 ven No P3020 1-mJ-25-res2 E48 Limit Switch Neactor 54 Ves No P3010 I-RJ-Is-r042 E45 Limit Switch Peact or 54 Yes No P30l0 l-RJ-IS-r078 E41 8.init Switch peactor 77 Yes No P3010 3-sJ-IS-r07S Eel Limit switch Beact or

??

Yes No P30lO l-sJ-stt-r079 L41 1.init Swit rti peactor 77 Yes No Pl03AO l-BJ-Is-Fl00 E45 1.imi t Switch peactor 100 Tem No N005 10-C 014 H21-P084 Panel peactor 54 No No N005 10-C 016 et 21-F0 0 4 Panel peactor

??

No No 4

4 l

I.

NCGS FSAR TAplE 3.11-5 F.OlllPfef:NT SEl.ECTFJ) FOR NASSN ENVipONMENT OtIAl.lFICAf t04 P6ED Pap. 4 2 of iS N-56-3 HVSTFM NPCI PU9er TUpplNE

~

FD PAN TNI ACTION LOCAtlael E0 ell P.

PlJwe E0ulP.

P.O.

ID 000 MPL NO.

COIIPONENT S t.DC.

El.EY.

Of0TE {l) 980TE ( 2) 00geNENTS P308AO l-aJ-eeV-F059 E4B Control valve peactor 54 No eso M005 1*SJ-PT-N0%2 E4t Press. Trane, peactor 54 No No M001 1-FD-PT-N0564 F.4 8

' Press. Trans.

Reactor 54 No No JI0lO l-tJ-PT-4898 Press Trans.

Reactor 77 No No M0020 l=AP-224 Jockey Puep sentor peactor 54 No No M001 4-FIPFV-4879 F48 Flow Control Valve Actuator peactor 54 No No Mn01 1-FD-FV-48D0 F48 Flow Cont rol valve Actuator peact or 54 No No P328 l-FD-HV-4922 Control Valve peacto?'

54 No No M005 l-OP-283 A*in. Oil Puep Motor peactor 54 No No M001 l-esJ-PT-N051 Press. Trans.

peactor 54 No No M005 1-FD-PT-N056E Eel Press. Trans.

Reactor 54 No 30 0 MOOl l - F D-PT-N 05 % A E45 Press. Trans, peactor

??

No No.

M005 l-FIMPT-N05%C Eel Press. Trane.

Reactor 77' No too MOOI I-FD-PT-NU%%E L41 Press. Trann.

Reactor 77 No No M005 l-FD-PT-N055G F.4 8 Preeg. Trann.

Reactor 77 No 98 0 J6080 1-FD-SV-F025 Solenoid valve peactor 54

1. so No t'301AQ I-FD-SV-F026 9.48 Notenoid Valve peart or 54 No No 4

ItCall f15Ap TABLE 3.11-5 EQtflPMENT SELECTED FOft HARSH ENVlpONMD87 OtIALirtCATION.

P61 D Page 4J of is M-5 7-8 NYSTENs CONTAIMMEIFT ATptOS. CONTpL.

GM PAN TMI ACTI<Me LOCATION FOH IP.

PI Ass Guts tP.

Pa.

I D 000.

MPL NO.

CostPtM4LNT SLDG.

FIEV.

080TE lil IMITE 12)

C(WIf8848T5 o

JB590 1-AC-200 H2/02 Analyser PNL A peactor 162 No Yes J3590 I-GS-AE-5039Al Analyste Elemt.

Ite act or 162 No No J3590 1-GS-AE-50 39 A2 Analysis Elemt.

Reactor 162 No No J1590 1-GS-AE-5039HB Analysis Elemt.

Reactor 162 No No J3590 1-GS-AR-5039p2 Analysis Elemt.

Reactor 162 No No J3590 3-GS-AI-50404 Anal. Indicator peactor 162 No No J3590 l-GS-Al-5040a Anal. Indicator peactor 162 No No J3590 1-GS-AIT-503948 Anal. Indicating Trans peactor 162 No No J3590 1-GS-AIT-5039A2 Anal. Indicattnq Trane peactor 162 No No 18590 I-GS-AIT-5039pl Anal. Inslicating Trane peactor 162 M9 No J3590 1-GS-AIT-5039H2 Anal. Indicat ing Trans peact or 162 No No J3590 3-GS-Alf-5043A Anal. Indicatlag Trans Iteac t or 162 No No 83590 l-GS-AIT-504ta Anal. Indicat ing Trane peact or 162 No No J3590 1-AS-206 sty /02 Anal. Pkg.

Reactor 162 No No J)590 1-GS-AS-5039Al Anal Mw.

React or 162 Be s ss.:

J1590 l-GS-AS-5039A2 Anal. Sw.

Reactor 162 No No J3590 1-GS-AS-5039pl Anal. sw.

peactor 16 2 No No J5590 1-GS-AS-5039H2 Anal. Sw.

Reactor 162 No No J1590 l-GS-ASH-5037A Analysis Sw. tilgh peact or 162 No No J1590 l-GS-ASH-Sol?n Analysis Sw. High peactor 162 No No J3590 1-GS-ASH-5041A Analys4s Sw. High peactor 162 No No J3590 l-GS-ASH-504tB Analysis Sw. High peactor 162 No No J1590 3 -GS-AT-50 3941 Anal. Trans.

Peactor 162 Yes No J3590 1-GS-AT-5039A2 Anal. Trans.

Reactor 162 Yes No

.43590 1-GS-AT-501981 An.nl. Trans.

' peactor 162 Yes No J3590 1-GS-AT-5039h2 Anal. Trans, peactor 162 Yes No J1590 l-esc-200 H2/02 Analyser PNL 5 Reactor 162 No Yes J3590 3-15S-206 H /0 Anal. Pkg.

Neactor 162 No No y 2

.33590 1-CC-200 H2/02 Analyser ett igeL seactor 162 No Oso J3590 1-DC'200 H2/02 Analyser Itf lieL peactor 162 No No J3590 1-GS-MS-5045a scand Sw.

peact or 162 No No 33590 l-GS-HS-5086A Hand sw.

Reactor 162 No No J1590 1-GS-NS-50060s Haemt Sw.

React or 162 No No J5590 1-GS-HS-5087A Hand Sw.

Reactor 862 No Mrs 4

J4590 1-GS-HS-504 71s Hand Sw.

Reactor 162 No No J3590 1-GS-MS-5092A lland Sw.

Reactor 162 No No 83590 3-GS-HR-5092n Hand Sw.

peactor 162 No No

.33590 1-GS-MS-50944 Hand Sw.

Reactor 162 No No 81590 4 -GS-NS-509 410 Hand Sw.

React or 162 No No J3590 l-GS-HS-5095A Hand Sw.

peactor 162 No leo J3590 l-GS-HS-50958 Hand Hw.

Reactor 162 No No P90BAO l-GS-HV-4951 Control Valve peactor 145 No No a

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P303AO 1-CS-36-4964 LOCATION PAN Et.EV.

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TNI ACTIOst P303AQ l-CS-IS-4965A 8.imit Switch BLisG.

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'Page 48 of.

M4740 M47AO 3-CS-TE-5074HI Of ftPO90FNT_

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CoseptueratT (JDCATifMG PAM M4SO TMI ACTION l-EL-PSL-58 4 SS 30tx;.

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EUfflPMf PRIMART CONTAIMMt;ter INSTptlMENT t:

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SYSTEM LIOutD RApesasit ont.t#Citoes FWIPNFNT SELECTED fot NADSM TARI.E 3.13-5 I

Na P 0, f38VIposesE18? OlsALIFICATION ID No, P6lD P30lO l-No-Hv-5262

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N m m m m. m........ e.....2 2 2 2 2 kf I

mm mmmm m

t Ii9k&bbb&bkk&D799D

-egweme mmmmmmmm-m..

D Abb&kkk&&&&

m

, +

_.w.,

.~_,-..r

.c-

ItCGS FSAW TABLE 3.33-5 SYSTEMt SEACTOlt pl.DG, SUFa*LY CONTROL DIAG FOulFMENT SELECTED FOR NApSN ENVipOfHtE GR NT QUALIFICATION

>&lD LO.

ID No.

M-53-1 Page %5 of MPL NO.

M100A0 COptFoterNT M700A0 5-GU-FSL-9377AA LOCATION FAM ElEV.

EQUIF.

TMt ACTtoes SLDG.

M700A0 3-Gu-rsL-9377AH Flow Sw. law NOTE Ill FIAN FOt8tF.

M780A0 l-Gu-FSL-93 7 7HA Flow Sw. t.nw peact.o r 145 CUfMIENTS NOTE 123 M780A0 l-GB-FSL-9 3 77Als Flow Sw. Iow peactor 145 No M780A0 1-Cl-FSL-9377cA Flow Mw. B.ow teactor 178 No 30 0 M780A0 1-cas-FsL-9377Ch Flow Sw. law Deactor 878 No No No M700A0 1-GU-FSL-9377t*

Flow Sw. tow peact or 145 No M700A0 4-cu-Fst-9)?? pes Flow Sw Inw peactor 145 No No M180A0 1-Gu-FT-9377A Flow sv Iow peact or 16 2 No No M780A0 l-GU-FT-93779 Flow Trane, peactor 862 No No 5-GU-FT-9377C Flow Trans.

peactor 145 sto M7e0A0 3 -GF FT-9 377D Flow Trane, Reactor tit No No

- No M700A0 1-Gu-FT-9)??E Fitne Trann, peart or 145 90 0 seo stT80A0 J10iG 3-GU-FT-9177F Flow Trane, peactor 162 No No J3CIO l-Gu-FT-9394A Flw Trans.

peactor 162 eso No

'No J30lO l*GO-FT-93948 Flw Trann.

peactor 162 No No J)0lO l-GU-FT-9194c Flw Trane.

Reactor 132 No l-GU-FT-9194D Flow Trans.

Reactor 178 No No J30lO l-Gu-FT-9394E Flow Trans.

Reactor 132 No soo J30lO l-Cu-FT-9394F Flow Trans, Reactor 162 No Mil ?O No M7570 l-GU-MD-9377A-l Flow Trans.

peactor 16 2 00 0 No se78 70 1 -cu-HD-9 3 7 7A-2 Hand Damgwr Actuator Reactor 178 No No Mil 70 1-Cu-seru9 37 7n-1 Hand Damper Actuator peact or 132 No 80 0 fail 10 3-GtkHD-9 3778B-2 stand Damger Actuator peactor 14%

No No Mit?O 3-G hefD-9377 Cal fland Damper Actuator peactor STS No No M1870 l-CU-etD-9 3 710-2 Hanet Danger Actuator peacte.r 178 No No M7370 l-Qf-HD-9377tul Hand Damper Actuator peact or 432 No 36 o M7370 1-CU-ND-9377D-2 Hand Damger Actuator steactor 145 No 300 M7170 5-GU-Mik9377E-l Hand DemIw'r Actuator steactor 862 No ten M 73 70 1-GU-Nt>9177E-2 Hand 18amger Actuator peactor 562

f. o ten M140A0 3-Qf-MD-9377F-2 Nand Damger Actuator peact or 162 No No 1-GU-MT-91794 M140A0 3 -Gtf-stT-9 3 7 9M Hanet Daeger Actesator peactor 162 No No M7a0A0 l-GENT-9 3 79C Motsture Trans.

peact or ITS No M780A0 No Mulature Trans.

Reactor 812 No No 3 -G8-MT-9 3 7 90 sto6sture Trans.

Reactor 178 No No M700A0 1-GU-NT-9179E Molature Trans.

Reactor 112 No M100A0 No No M7860 I-GhMT-9379F Moisture Trane, React or 162 No M1860 l-GF#tv-9 3 79A Moisture Trans.

peactor 162 No teo l-GU-M T

• 9 ]I 989 Mitt 0 I-cu-My-9379C Moteture Converter Reactor 878 No No M7e60 M7h60 I-Gif-MY-9519D Moleture Converter peactor 512 No No Moleture Converter peaClor 478 No No 3-Gil-NY 9879E Moteture Osmverter peactor 112 No No No Molature Converter peact or 16 2 No No peactor 162 No 30 0 No No

S7 STEM:

HCGS FSAR ItEACToft etLtirl. EUPPLY OntTp EQUIPNFMT SELECTED POR MANset E TABLE 3.8 8-5 CR ot. Ol AG.

P. 0, NVlpoNetENT OtlALIFICATION ID 800, Mie6o Met. too.

P6ID M70A0 B-CU-NT-9279r ONePONt:NT N-91-1 Page % -

M7e0A0 1-CU-FDsN-9 377Al LOCATitled PAM M700A0 1-Ces-Poset-9 3 7 7tti anisture Coneerter

BLEM3, Press

ElEV, FG'!f P.

7898 ACTIO80 M700A0 1-GU-PDSN-9377Cl Press. Dif f. Sw. filoh neactor 800TE 11)

PtAN f3DUlp.

M 700AQ 1-CU-FDSM-9377DI Press Diff. Sw. High peactor 17e fof4E (2)

M740A0 3 -CU-FDSH-9 3 7 7r.l Diff. Sw. High Deactor 132 No ONNDEBITS M780A0 l-Gu-Posh-9377Fl Press. Diff. Sw High Beactor Press 878 leo No M 780A0 l-CU-PDT-9 37 7 A Press. Diff, sw Migh teactor 832 00 0 No -

M780AQ 3 -GU-PDF-9 37 7C Press. Diff. Sw. Nigh Reactor 56 2,

No No M 780AQ 1-CU-POT-93770 Press. Dif f. Trans Deactor IIS No No 162 No No M780AQ l-CU-PDT-9377E Press Dif f. Trans meactor l-CU-PD M7280 1-cu-s vT-9 377F Press Diff. Trena.

Reactor lit No seo 937dn 132 No No N780A0 M 7660 1-CU-sv-9 3 7JC Press Diff. Trans.

Reactor 162 No No M706Q 1-Cu-TE-9377A solenoid ValeeDiff. Trans. React or 16 2 No No M7460 1-GU-TE-93775 solenoid Valee Reactor 37E No No M7860 1-CU-TE-9377C Temp. Elemt.

React or 474 No No M7s60 l-GU-TE-9377D Temp. Elemt.

peactor 162 No pen M7460 1-GU-TE-9377E Temp. Elemt.

Desctor 132 No No N780A0 1-CU-TE-9J77F Temp. Elemt.

Seactor

$78 No No M780AQ 1-Ces-TE 937aA Temp. Elemt.

Seact or 132 No No M780AQ 1-CU-TE-9 3 78tl Temp. Elemt.

Reactor 162 No peo M 780AQ 1-Cu-TE-9375C Temp peact or 162 No No M 780AQ 1-CU-TE-93780 Temp Elemt.

Deactor D:lemt.

1 74 No No M780A0 1-GU-TE-9378E Temp peartur 112 No soo M7l?Q 3-GU-TE-9378F Temp Elemt.

Deactor Elemt.

!?$

No No M 780A0 1-07-28-93724 Temp. Elemt.

React or 132 No No Mil lo 1-AC-284 Temp. Elemt.

Reactor 162 No No M7860 3-AV-2tl Llult Switch Weact or 162 No No M744Q 1-AVE-233 Unit Cooler Ctrl Pnt Reactor 178 No No M1510 3-AVH-20e Beact or Fan & st-le Actuator peactor 14%

No No MillO 1-AVN-209 Heater 102 Yes No M7380 1-AVN-280 u it Confer peactor n

112 No No M7140 1-AVN-214 Unit Cooler

. Reactor

$12 No No te te Confer teactor N780A0 1-AVN-234 n

54 No No M 7130 1-9C-284 tinte confer Reactor.

%4 No No M7860 1-hV-233 Unit Cooler peactor

%4 No No teactor M7130 1+DVE-283 Unit Fan & E-N ActuatorCooler Ctrl Pnl.

peactor 54 No No M718Q l-DVH-208 102*

No No MillO 1-9VN-209 Desctor Heater 802 too No M7480 l-nvN-240 Unit Confer peactor 178' No No 1-hvH-213

' Unit Cooler peactor 174 Mn 90 0 Unit cooler peactor 54 No No Unit Cooler peactor 54 No No peact or 54 No No peactor 54 No No No No No

...y 81CG5 F3 AR TAllLE 3.33 SYSTENs CR SteFFLT CoseTROL DI AG.

E0tllPMENT SELECTED FOtt NARSil ENVIRO 8MeENT QUALIF REACTOR St.DC.

ICATION F61D N-8 3-1 Page %7 of Fl F _. O.

lp 000 MPL_ NO.

CopertiesFNT IJsCATIUf8 FAtt TNT ACTfof0 M7810 lasVM-214 DLDC.

t.l.EV.

PLAN 90*llP.

EQUEF.

M780A0 3-CC-288 es it Confer Of0TE ft) n 8473 30 3-CV-233 SIO'IE 125 807860 1-CVE-233 Unit Cooler Ctrl Pnt.

React or 102 CT, enu l

too Fan & E-N Actuator Reactor 102 No M7810 5-CVee-210 Wester Reactor 132 No soo M7 BIO l-CVN-283 unit Cnoler Reactor 8)2 No No MillO l-CVN-214 palt Cooler Reactor 54 too No M140A0 1-DC-24) linit Cooler Reactnr 54 No No Mil 30 1-DV-2 5 3 No M7460 l-DVE-283 Unit Cooler Ctrl Pal.

React or 802 No No Fan & E-N Actuator Reactor

??

geo MillO l-Dvig-2 80 Neater React or 862 tsc-No MillO l-tN.-2tl unit Cooler peactor 162 No.

Millo I-DVet-2 8 4 tsatt Cooler Reactor 54 No Nw No Mil 30 1-EV283 lant e Crwaler Reactor 54 no No M7860 l-EVE-213 Fan & E-H Actuator Reactor 102 No No MillO l*EVN-210 Neater Reactor 162 No No MillO l-EWit-218 IInit Cooler Reactor 162 No No M780AO l-GR-FSL-9388AI fini t conjar Reactor 77 No i

No M 780A0 l-GR-FSL-930143 Flow Sw. Im React or 54 No No pt780A0 1-GR-FSL-9381R4 Finw Sw. Iow Reactor 54 No No MF80A0 4-CR-FSL-9381R3 Fltw Sw. Im React or 54 No No M780A0 1-GR-SSL-9382Al Flow Sw. law Reactor 54 No No M740A0 1-CR-FSI.-9 302A 3 Finw Sw. Isw React or 54 No No M740A0 1-CR-FSL-9302RI Flow $w. law Reactor

$4 No No M7404Q 1-GR-FSt.-9 382M B Flew sw. few Reactor

$4 eso No M780A0 l-CR-FSt.-9 38 34 8 Finw Sw. Im Reactor 54 No No M780A0 4-C#aFSL-9383A)

Fine Sw. Imw Reactor 54 eso No st?80AO l-CR*FSL-9301al Flew Sw. lew Reactor 54 No No M780A0 1-UR-FSL-9343R3 Flew Sw. Im React or

$4 No No M780A0 l-CD-FSL-9383Cl Flow Sw. law Reactor 54 Oto No M780A0 1-GR-FSL-9383C3 Fluw Sw. Iew Reactor 54 No No M780A0 l-GR*FSL-938)D)

Fism Sw, IAw teactor 54 No No M780A0 1-CR-FSL-9301DI Flew $w. 84=

React or 54 No M740A0 1-CR-FSL-938JEl Finw Sw. fe*w Reactor 54 pto No No ss780A0 1-CR-FSL-9383E3 Fltw Sw. Im React or 54 No st?80A0 1-GparsL-9383FI Flow Sw law Reactor 77 No No.

st?80A0 3-09-FSL-9383F3 Flew sw.

No 80 0 Im React or 77 No 84788A0 l-CR-FSL-9303Cl Flow sw fe>w Reactor 77 No M7aGAO l-CR-FSL-938343 Flow Nw. law Deact or 77 No No No MF#0A0 1-GR-FSt.-9 )S 3ff l Finw Mw. 14=

Reactor

$4 No No M780A0 l-GR-FSL-9 38 3til Firw Sw. lesw Reactor 54 No sto Flow sw. sesw Reactor 54 90 0 No No React or 54 No No No

.m, u

strGA FSAR TABLE 3.8 l-5 SYSTEsts SuPFLF CTJesfunL DIAG.

E0ulPreENT SELECTro rue MApSat ENWip0NFEss?

DEACTOR St.ful.

Ca W ALIFICATICIf F6fD N-9 3-1

' Peep Su e:S

.6 F. O.

80 900 MPL 800 Cassengersef LtX*ATIdel PAst M70040 5-Gm-FsL-9)e4Al E0:f 8P.

Test ACTinst SLIJG.

ELEV.

Ft. Ass MDUIP.

M700A0 M7s0A0 l-Ca-rsL-9344A1 Flow sw. Low OsOTE (Il M700A0 3-CD-FSL-9384RI Flow sw. Im mesctor 54 Cr ~

1807E (2) l-CR-FSL-9 38 493 Flew Sw. Iow Deactor 54 too

_me eso M788AO M100A0 I-CS-F5L-9 )o 4 Cl Flow Sw. Iow heact or 54 esa No M750AQ 1-GW-rsL-95e4C3 Flow sw. tow Reactor 54 ten No M 700A0 t-CR-FSL-9)S4Da Finw Sw. Low peactor 54 No M700A0 1-CD-Pst-97848s3 Finw $w. law teactor 54 No Ito M780A0 1 -CR-PSL-9 38 4 EI Plow Sw. law Reactor 54 aso 96 0 se780A0 l-CR-FSL-9)t4E3 Flow Sw. Imv teactor 54 no eso No N780AQ l-Cm-F$L-9134F8 k

Flnw Sw. Low peactor 54 No M700AQ t -CR-F5L-930 4F3 Firm Sw. law peactor 54 -

No 98 0 1-ca-FSL-9304G8 P low Sw. 'f.ow peactor 54 feo too M740AQ 1-CR-FSL-9)S4GB Plow Sw. te,w peact ar 54 18 0 no M700AQ M780A0 1-GR-FSL-9384NS

}

Farm Sw. f.esw meactor 54 too eso 1-CG-FSS-9)f4N)

Flow Sw. Inw peactor 54 No eso seo M780A0 se780A0 1-CR-F$L-9195Al Flow Sw. Iow peactor 54 No se 780A0 3-Ca-FSL-9)$54)

Flow $w. Inw teactor 54 No see as7sOAO E-CR-FSL-9385Al Flnw $w. f.tne peact or 102 too ato No l-Ca-FsL-93e5nt Flow $w. tesw Beactor 802 ato No M780A0 5-CR-FSL-9345CI Flem sw. Low peactor 102 un 00 0 M7sOAO l-CD-FEL-9385C3 Finw sw. smw menctor 802 sea M780A0 No M78aAO l-CR-FSL-9385DI Finw sw. Im peactor 102 no No l-GR-F5L-9305D)

Finv Rw. Iow peactor le2 no M 78 )O l-FW-253 Flow Sw. tow peactor 802 no eso No M 7860 E-FVE-233 Fan & E-N Acteator Reactor 102 Iso No M78to 4-Fves-250 sleater peactor 170 No No MillO l-Fvet-28 8 unit Conner peactor 178 No too s47480 l-twet-280 tealt t* noter peact or 77 Iso M7 ISO

$~Cvet-2nl Unit enoler peact or 54 aso no M7870 3-CU-IGO-9 3 7 7F-8 tsa t t t'<wa ter peactne 54 no leo M78040 3 -GB-Its-9 34 3 A stanr1 Damger Actuator peactor 54 esa No M780A0 5-ca-tes-9861n Masul Switch peactor 16 2 too No M700A0 5 -GR*3tS* 9 382A tsand Ewitch peactor 102 No aso M 780A0 5-CR-MS-9362h Oland Sulich peactor - 102 soo No M780AQ

$~GR-MS-938)A Hand Switch peactor 802 No peo i

as7e0A0 l-ca-as-9 5e la Hand Switch peactor 802 88 0 Iso se 780A0 feo 1

M780A0 3-ca-tes-91e le stand switch peactor 802 peo 5-ca-Hs-95elp sianes switch peact or 102 No No M 780A0 3-ca Ns-95 ele sensul switch peactor 192 soo peo M7eoAO l-Ga-Ms-sielF stand switch peactor

??

No sea M780AQ I-GR-NS-934 F Nan.s hwltch menctor 102 soo son No Nand Ewit ete peact or 802 eso No peactor 802 no sees No No e

. w

4

\\

SYSTEfes

1. EAC7tm alts;. suppty ca u.= >FSA.R HCc3 my, wig, g,gac, EVilPMENT 5FLECtem togs H Anse, gwyg,g),,,,:,9 g,,gg g,g O W pgygg,,

e flisoAO MPt sen M780AQ 1-ca-ns.93elas cg mepn.,ge,y pgvp n?SoAO 4.c3.NS

,,g 3, g M780AQ 3.ca. ors 9384A WAffm Pata* K 9)S4a ad Swiuh 80A0 3.ca.ffs 9384C M1 8"

gp, 8.ca-s "O

8'780A0 React o, I-cs es.

4-ca.Ms.,9 )a go 17 y

M740A0 3ste Reactor

'f

$witets

Reacto, 802 g,

M780AQ 3.co ns.,JeaF Hand 302 M180AQ l.cp.,,g.9) esc s

stand S= itch 3 2

[m M780AQ 3.ca.u,,s g3gg,g Mand switeti

,"y M780AQ

• 45a Hand switres h

34780A0 3.ca.gs.,,,g ga Mand sw$tch "O

no st 3DeAQ

$.ca.NS.,J45C 8tand switch No 88 o 3.ca.W5 9 I

W No M1880 887380 3-pyg.yg g )a %D gand Swi4ch 8t?80AQ l-uvu 288 8tand Switch hW ho seo W

g g"

go g gg I

3. cap.

y.

IO M780

1. AQ 3.cas,w,y. gegga C*"I

peacto,

,No 77 I

I* F

Deart.,

,so

.c,

,.,94,)gg I

77

,,o 8

Deactor

.c,.

., s es7soAQ 3.cu-s,y,.,.., s,A

~'

,'* II8*8*

Peact o,

$4 y,

s72A

. -.e x a.

Deacto,

$4 Mfe,780AQ

).ct..g y.

,..-,0,

,34$

h soAQ

1. ,te, ss7soAO 3.ca,.gy.,g gg gg g

,8,to, y,

1.ca-jgge g

M7eoAQ 3.cy. Tr.9 3s t a

• {ly 8 *ct o,

=

e a

145 i..A.

i.c.. yg.

Beacto, 3.ch-tg.,.93sta 2 *P*

Ii'**

peAct a, 362 w,,

..,A

(

M743AQ 378

,,o M780A0

8eecto, Je2s MI$0AQ 3.GR-ft 9)stA

• P.

lest.

37s no 8 *ct o, 8

7.ono 3.c3.yg.gjg3n

• • 8' I'*'

e-t,,,

s.e s

2 P.' II'*' **

8+act or es7soAO

.c..

,,,c I#*

t-ca.Tt 91s30

1. '*+. n -i.

Seactor

$4 m750AQ 1.A.

,3.ca.yg.93ggg I'* 8** E8***

.Reactog Se 4.

gg

>. A.

..m.,,,,,

• 18 E I'*. **

..m o, 4..

. n -..

• • • ct or

,s.

"O

>..A.

l.c..

1-4

~. "..

.Deactor

,S e 9,..

A w"

.t.

ae o,,

.. n.,,. A s--

,,,.e.

.. u.,,,,,,,c

< +e.n--..

.-t. s 1.A.

i.

,s 1-*.-

n,-

~~. n e t.

c....,,,

n s

i s...,,,,

1-~.

,,.t o, s

~~

.c.m.,,..c

..A.

r *. n--..

~

+; ;";;;;...

,s, s

s s

.~t.,

NCGM Psaa Teatz 3.38-5 egulemmerf SELECTED Poa matSe tow 3pommeer? OW4LIFICATION SYSTEssa asACTom DLaG. Seert.T Restant plac.

P63D Paga 50 of 7%

GA so-83-1 P,0.

ID ssp.

Pass sePL sun.

CriseMassaf 3,ncaT tras Tal ACTliass coulP.

PIAss RDestP.

SLOG.

EttW.

sessTE lit esoft $ 2 0 a700a0 1-Ca-TS-91eSA es100a0 8-C#-TE-93 ESC Temp. Eleet, CTuesENTS teactor le2 es7etaO 3-ca-TE-9)ese Temp. Eleet.

ano eso meactor le2 suo sso esiteae 3-Ca-TS-9 MIA Temp. Eteet.

8870ea0 3-Ca-TS-9) elm Temp. Sw.

eeact or le2 no

. *eenO I-CD-TS-95e24 Temp. Sw.

Deactor S4 eso eso Deactor 54 No es700a0 I-CS-TS-9342e Temp. Sw.

no eso es70enO 3 -Ca-TS-9 M 3A Temp. Sw.

peactor 54 ano N78ea0 3-Ca-TS-95ela Temp. Sw.

Deact or 54 no eso saactor 54 eso se70Ga0 4 -Ca-TS-9 M DC Temp. Sw.

eso eso es70ea0 3-ca-TS-9Sela Temp. Sw.

eeact or S4 soo se78aa0 3-Ca-TS-9 Mit Temp. sw.

Deactor 54 eso me Seactor S4 eso m70emo I-Ca-TS-9 test

Temp, S,

sto eso Deactor 77 es70em0 3-CS-TS-9 M 3G Temp. Sw, no no se19eaO B -CA-TS-9 BS )se Temp. Sw.

peact er

??

eso sea afteaO I-CD-TS-9 Men Temp. Sw.

• Deactor 54 a788a0 3-Ca-TS-9 M44 Temp. Sw.

eso eso Deact or S4 ano ese Deactor S4 85786a0 8-CR-TS-95e4C Temp. sw.

soo no Deact or S4 es78eaO l-Ca-TS-93ete Temp. Sw.

eso eso React or 54 esimeaO 3-Ca-TS-99eet Teep, sw.

no meact ee Se eso sq70ea0 3-Ca-TS-930er Temp. Sw.

eso Deactor S4 eso se700a0 3-Ca-TS-95e4G Temp. yew, ano no se70840 1-Ga-TS-9304m Temp. Sw.

peact or 54 sen se70040 8-C#-TS-9 3e SA Temp. Sw.

Deactor 54 eso eso eso Deat sr 54 suo sna M780m0 1-Ca-TS-95eSa Temp. Sw.

9eactar 102 seu M70eaO l-ca TS-95 ESC Temp. Sw.

soo miseao 8-Ca-TS-9 Bd So Temp. Sw.

Peact or le2 eso eso peactor le2 e57200 3-Ca-35-93780 Temp. Sw.

sao see peact or le2 se7170 3-CT-tS-9372C 5.s et t Switch suo llait Switres 8+actar 870 eso Tes sea seartar 16 2 Tes eso

7 7y, I

[.

'a

)'

' 5

.i i

b l'

g p ji

• Op,.

{

J -j _

Q v

}

1-

'i i&

a 6j;

)

b [ f),, itf f 9 >

r'

(

l c

,9-4 s'

/

HCCS FRAR Y

p

' %YSTEN DEAC BLOG ERH CoseTRI.

TAkt.E 1.13-5 FOUIPNENT SELECTFD FOD CU MADA80 ENWlp00004FNT QUALIFICATIO y

N f*go Mt b P65D M71 ?O M-teal Page di of k Mil?O l-CT-PD-9418C2

. LOCATIOff PAN 8478 70 l-CT-PD-9438H1 DLDG.

M780AO, 1-CT-PD-9438H2 Press. Damewe Actuator ELEV.

FOtllP.

TNT ACTIOss

.c PIAN

%' ~

feOTE I POulP.

• • 74 50 3 -AC+ 281 Prema. Damper Actuator neactor 162 NOTE 2 M7860 2-AV-206 Prega. Damper Actuator Reactor 462 No CONfEENTS M7860 1-AVE-206 truit Cooler Ctrl Pal Fan teactar 162 No No M780A0 1-AVE-268 47850 1-NC-283 Heater peactor 102 No No M7460 laaV-206 Heater

,peactor 845 sea No Beactor 345 No eso M 7860 1-pVE-206 halt Cooler Ctrl Pat 9eact or 362 No seo i>

ran 1-NFE-266 l

at?80A0 3-rc-284 Heater Reactor 102 No No M7870 3-DC-28I Meater peactor 145 No No M180A0 peactor 145 peo No

'1 l

as 7170 3-CU-FD-9425Al u 6e Cooler Ctrl Pol peact or 162 No No n

s

)

es it M7870 1-os-FD-9425 A4 can>Ier Ca rl Pnt peactor 102 No No n

M7870 l-ru-Ft>-94 25 A5 Flow Hamper Actuator peactor 802 No peo 1

M7470 1-GU-FD-9425nt Flow Damper Actuator Beactor 445 No No M7870 3-Cu-FD-94 35m4 Flow lamper Actuator peactor 245 No No N7110 3-CU-FD-9425R5 Flow Damper Actuator peactor 445 No No

(

. at 71 10 3-CO-FD-9426A Flw Damper Actuator meactor No M 780A0 l-Gi-FD-94 26 M Flow Damper Actuator Reactor

$45 No No 145 peo i

. M750A0 3-GU-FSL-9426Al Flow Damper Actuator teactor 145 No No M780AO l-Gu-FSL-94 26 A2 Flow Damgwr Actuator kcactor 145 No No Flow Sw. Im peact or 145 No No M780A0 l-Ctf-FSL-94 26hl 81010 1-GU-FSL-94 26M2 Flow Sw. Im meactor 145 No No 85010 l-Cri-FT-9425A Flow Sw. Iow Beactor les sea No M740A0 l-G8-FT-94 25R Firew Sw. l.ow 4780A0 l-CU-FT-9426A Flens Trans.

peactor 245 No geo M7870 4-CD-FT-9426H Flow Trang.

Beactor 245 No No koactor 145 No ago M 74 70 l-GU-ND-9425Al Ftrw Trans.

Reactor 145 No No l-CH-ftp-9425A2 Flw Tran1

• f 7170 Reactor 145 No No M74 70 l*G8-8tD-9425RB nanti saamper. Act uat or koact or 145 No No 1780A0 1-os-HD-94 25 n2 Hand pamper Aa:tuatur peactor 142 No No 4780A0 1-GU-tes-9 4 28* )

Hand Damper Actuator Rea tor 245 No No M700A 3-Cff-HS-9424-2 Hasal isdeper Actuat or c

Bea tor

,862 No No c

Hand Switch M7uCA l-CU-NS-9429-1 1780A 1-Cu-NS-9429-2 Hanet switch peact or

$45 No No 1780A l-CU-NS-9412-1 Hand Switch Seactor 402 No No M7 BOA l-Qs-fis-94 32-2 Hand Switch peactor 102 No 96 0 M780A l-CU-HS-94 3 9-l Hand Switch peactor 102 No feo M 78feA 3 -C88-4fs-9411-2 Mand Switch peactor 77

~ No No 3 -Gu-#es-9 4 54-8 Hand switch Mesotor 802 No No Hand Switch peact or 102 No No Hanal Switch menetor 102 No pso Reactor 77 No eso peactor 102 No No No No pen

HCCS PSAR NYSTEM REAC BLOG EKN CONTRf.

EQUIPMrNT SPLECTED POA NARSH TARLE 3.11-5 CU P. 0, ENVIRONMENT OUALIFICATION ID NO, P6tD st780A0 MPt. NO.

M700AO 1-CD-NS-9414-2 COMPONFNT N-84-1 Pac 3e 62 of 1780A0 l-GU-NS-9435-1 LOCAfin88 PAM M700AO 1-GU-NS-9435-2 Mand Sultch

BLDG, ELEV EQt#IP.

TNI ACTICI6 M780A0 1 *CU-IIS-94 36-1 Hand Switch M 780A0 1-CD-Ns-9436-2 9tand Switch Seact or NOTE ($)

PLAN EQUIP.

9 102 NOTE (2)

M 780A0 4 -GU-NS-94 3 7-1 Hand Switch peactor 102 No COMMENTS M780A0 1-GU-NS-9437-2 Hand Switch Beact or 802 No No M780A0 1-GU-NS-9438-1 teamt Switch peactor 102 No No M780AO l-CU-NS-9438-2 Hand Sultch Reactor 77 No No aq780A0 l-GU-NS*9439-1 Hand Switc6 Seactor 102 No No it?80A0 1-CU-NS-9419-2 Hand Switch Beactor 102 No No M780A0 1-GU-NS-9450 Hand Switch Reactor 102 No No M 780AO 1-os-NS-94 5 8 Hand Switch Reactor 102 No No M740A0 l-CU-NS-9457-1 Han<l switch teactor 102 No No P30lO l-CD-NS-9457-2 stan<t Switch Reactor 102 No No M780A0 l-CU-HV-9451 Stand Switch Deactor 102 No No M 7860 l-OC-286 Hand Switch peact or 178 No No M7860 1-DVE-259 Contrnt Valve peactor 102 No No M7170 3-OVE-260 Cnneral Panel peact or

??

No No M 78 70 1-00-PD-9428Al Heater peactor 1 78 No No 1-GH-PD-9428A2 Heater peact or 102 No No M 7170 Press Reactor Mit?O 1-GU-PD-942ERI Press. Damper Actuator React or 54 No No l-GU-Pfe9424h2 54 No '

No at?!7O Press.,fumper ActuatorFMaper Actuator peactor M 78 70 l-GU-PD-9429Al 802 No No Reactor Mil 10 3-CH-PD-9429A2 Press 102 No No Mil 10 1-CU-FD-9429BI Press. Damper Actuator Reactor 145 No No M7370 1-CU-PD-9429u2 Press Damler Actuator Beactor 145 No No asil 70 3-GU-PD-9412At Prest. Damger Actuator Reactor 145 No No M7470 1-CH-PD-9412A2 Press Damger Actuator peact or 145 No No 47170 1-CU-PD-9412#1 Press Damper Actuator Reactor 145 No No M7l?O 1-CJ-PD-9432k2 Press Damper Actuator teactor 145 No No Press., Damper Actuatorfumler Actuator peactor Mil ?O l-CH-Pfe9413Al 77 No No React or Press. Damger Actuator

• t il 70 l-GH-PD-9415A2 77 No No Deartor 17870 1-CU-PD-9411nt Press.

54 No No Press Damper Actuator Beactor MFl70 3-CU-PD-94 31st2 Press Immper Actuator peactor 54 No No 5 -CU-PD-9 414 Al 54 No No 17870 3-0U-Pfe9434A2 Press Damper Actuator teart or 54 No No 47370 3 -Gts-Pt> 9 414 h l Press namler Actuator Reactor 1-60-PD-9414M2 Press. Damper Actuator peact or 77 No No 17870 Press. Damper ActuatorDamgwr Actuator Beactor

• t 7 8 70 77 No No 1-00-Pib9415Al 54

.No No peactor P ess Press Damper Actuator peactor 54 No No 77 No No Damper Actuator teactor 77 No No peactor 54 No No No No No

teruS PMAR T Arts 3.8 8-5 FUulPMENT SELECTED FOR HANSH ENVlpONNENT OuALIPRCATION P&lD Page 63 of 7%

M-84-1

%YSTENs REAC RLDG EXH CONTML 00 PAN TNI ACTIOst LOCATION EOutp.

PLAN eOulP.

P,gO.

ID NO.

NPL 900 C000PONENT RLOG.

El.EV.

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CtMINENTS M7170 1-Go-PD-94 35 A2 Press. Damper Actuator peactor 54 No No M7870 1-Gu-PD-9435ml Psess. Damper Actuator peactor

??

No Mo M7870 1-Gu-PD-943532 Press. Damper Actuator peactor 77 No No M7870 1-Go-PD-9 4 36Al Press. Damper Actuator peactor 77 No No M7170 1-GU-PD-94 36 A2 Press. Damper Actuator peact or

??

No No Mit?O l-Gu-PD-9436pl Press. Damper Actuator peactor 77 No No M7870 1-Gu-PD-94 36R2 Press. Damper Actuator peactor 77 No No

'17870 l-Gu-PD-94 37 Al Press. Damper Actuator peactor 102 No No 17870 l-Gil-PD-94 37 A2 Press. Damper Actuator peactor 102 No No M7870 3-Go-PD-9437HI Press. Damper Actuator peactor 102 No No Mil?O l-Gil-PD-94 37s2 Press. rumpe r Actuator peact or 102 No No

• til?Q 1-Cit-PD-94 3048 Press. Damper Actuator peactor 145 No No

'97570 l-Gu-PD-943eA2 Prens. Damper Actuator peactor 14%

No No 17170 l-Gtt-PD-9 4 3BRI Prens. Damper Act uator peact or 102 No No 18170 1-Go-PD-943en2 Press. Damler Actuator peact or 102 No No M7170 1-Gu-eD-943scl Press. Damper Actuator peact or 802 No No 17170 l-Gas-PD-94 3802 Pr es s. Des pe r Act ua t or peact or 802 No No Mil?O l-Gu-PD-9 4 3eDI Presa. Damper Actuator peactor 132 No No M7170 1-Gu-PD-9430D2 Press. Damper Actuator peact or 832 No No M7170 1-Gu-PD-9 4 30E l Press. Damper Actuator Scactor 132 No No 17870 1 -Go-PD-94 38 E2 Press. Damper Actuator peact or 132 No No

'97370 1-Go-PD-943ert Press. Damper Actuator peactor-132 No No 17870 1-GskPD-9438F2 Press. Damper Actuator peactor 132 No No M7870 1-GT-PD-9410GB Press. Damper Actuator peactor 162 No No 17870 l-Gu-PD-94 39 Al Press. Damper Actuator peact or 102 No No Mil 70 l-Go-PD-94 3942 Press. Damper Actuator peactor 102 No No 17170 1-Gil-PD-94 39R1 Press. Damper Actuator peact or 102 No No M7870 1-Go-PD-9439p2 Press. Damper Actuator peactor 102 No No MPl?O I -Gu-PD-9 4 57 A l Press. Damler Actuator peact or 545 No No 17370 1-Go-P D-9457 A 2 Press. Damper Actuator peactor 145 No No 1780A0 l-Gu-Pilsu-9428-l Press. Diff. Sw. High peact or 102 No No 4780A0 1-Gu-PDSet-9428-2 Press. Diff. Sw. High peactor 102 No No

't?80A0 1-Gu-PDSM-9429-8 Press. Dilf. Sw. High peact or 14%

No No tie 0A0 3-Go-PDSH-9429-2 Press. Diff. Ew. High peactor 14%

No No sFeuAU 3 -Gu-PDSH-9412-5 Press. Dif f. Sw. Nigh peact or 54 No No 3740A0 l-Gu-PDSit-9 4 32-2 Press. Dif f. Sw. High peactor 54 No No IF40A0 I-Gil-PD$18-94 3 3-8 Press. Dif f. Sw. High peact or 54 No No 17seAO l-cu-PDsat-9 4 3 3-2 rress. Dif f. Sw. High peact or 54 Ne s No 97NUAU I-Gil-PpNit-94 3 4-1 Press. Di f f. Sw. High peact rir 54 No No IFWOAO l-tJf-PDSH-9414*2 Press. Del f. Sw. High peactor 54 No No Sf80A0 l-Gil-PDSH-9435-l Press. snif f. hw. High peactor 54 No No 17nuAQ 3 -GI-PitsH-9 4 3 %- 2 Press. Ist f f. Sw. High peact or 54 No Non tfNUAU B-Gu-PinNH-9496-3 Press. lii f f., Nw. High peact or

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No No

T I.

sYSTENs REAC RLfC HCGS FSAR Ctl EXtt CONTRL EQUIPNFNT SELECTED FORTABLE 3.11-5 HARSH ENVIRONMEft?

PO ID NO QUALIFICATION M780A0 MPt. No.

M 7m0A0 l-GU-PIEN-9436-2 CopefW FMT P6tD atiS0AQ 1-GU-FDSil-9437-1 M-8 4-5 M 780A0 1-CU-PIEN-9497-2 Pres LOCATION PAM Page 64 (

1-GU-PDSN-9419-1 Presas DIf f. Sw. High BLUG.

s M780A0 FI.CV EQUIP.

TMI 1-co-PtsH-94 38-2 Press Ditt. Sw.

ACTIOes M780A0 PtAN EQff(P.

Presa Ditt. Sw. High Reactor NUTE I 1-cu-PDsN-9419-4 M780A0 17 NOTE 1-CU-PDSH-9499-2 Ptoso Diff. Sw. High Reactor 2D M780A0 Press, Dif f, Sw High React or 102 No l CU-PD$H-9457-1 M 780A0 High Reactor 102 No No COMMENTS M780AQ l-cu-Posh-9457-2 Prena. Daft, sw 1-GU-FDT-9425A Press. Diff. Sw. High Reactor 802 No No st?80A0 High Reactor 802 No No stISOAQ 1-Cas-Pot-94 25M Press Dif f. Sw.

Pres. Dif t. Sw. Nigh Reactor 102 No No M 78t0 A0 I-Cif-PDT-9426Al M7m0AQ 1-GU-Ptrt-94 26A2 Press. Dif f. Trans.igh Reactor 102 No No s

H Rea t or 145 No No M780A0 1-00-PUT-9426RI Preng. Flift. Trane c

847280 1-CU-PDT-94 26R2 Presg. Diff. Trans Reactor 14%

No No Reactor 845 No No 3 -CU-S V-9 414 A Press. Dif f. Tran9 MI280 M 7280 3-CU-SV-9450A Press. Ditt. Trans Reactor 145 No No Reactor 802 No No M7860 3 GU-SV-9450n Soleno. Dif f. Tr Ans.

Reactor 102 No No id Valve M7860 n CU-TE-9425 Solenoid Valve Peact or 102 No No M780AQ 1-G)-TE-94258 Solenoid Valve Reactor 102 No No A

M780A0 1-CU-TE-9428-l Temp.

178 No No Elemt.

Reactor M780A0 1-CIPTE-9428-2 1emp. Elomt.

Reactor 102 No No M7s040 1-CO-TE-9429-1 Temp

• tF80A0 l-Gi-TE-9429-2 Temp Flemt.

Reactor 102 No No Elemt.

Reactor 14%

No No

'4780AQ 1 -cu-TE-9412-1 Trop. Elemt.

React or 145 No No

• t7n0AQ l-GU-TE-9412-2 Temp. Elmet.

Reactor 102 No No

'4780AQ 1-Ga-TE-94tl-l Temp. Elemt.

React or 102 No No 4 7#0AQ l -GU-TE-9 415-2 Temp. Etent.

Reactor 14%

No No 1-Gil-TE-9434-I Temp 145 No No

'9780A0 tF80A0 1 -G8-TE-9 414 - 2 Temp Elemt.

. Reactor 77 No No Plemt.

Seactor

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Raact or 77 No No 1740A0 3-CU-TE-9455-2 Temp. Elemt.

Reactor 77 No No aq 780A0 1-Cll-TE-94 %-1 Ti.mp Elemt.

Reactor No No 77 at F80AQ 4-GJ-TE-9416-2 Temp., Elemt.

Ranctor 54 No No Mfuomo l-GU-TE-9417-4 Temp. Elemt.

Reac t or 54 No No M780A0 I -GU-TE-9 417-2 Temp. Elemt.

Reactor 54 No No M740AQ 1-Utf-TE-94) Sal Temp, Elem t.

Reactor ^ 77 No No 54 No No M740A0 l-00-T0-9438-2 Temp.

M780AQ l-GU-TE-9459-1 Temp Elemt.

Reactor 77 Rea t or No No M780A0 1-GU-TE-9499-2 Temp Eleet.

c Elemt.

Reactor 102 No No M 780AQ 3 -cu-TE-94 5 7-8 Temp Elemt.

Reactnr 102 No No at #869 1 -cu-TE-9 4 5 7-2 Temp Elemt,

Reactor 145 No No l-G8-TIC-9414 Temp. Elemt.

Reactor 14%

No No Temp 9emp Elemt.

Reactor 102 No No React or 102 No No Ir ttrator Cont railer Reactor 145 No No u

React or 14%

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462 P90lO l-CR-IS-9534A4 8.imit switch peactor 102 pso eso P10lO l-CS-25-953tal 5.imit Switch peactor No No 802 clolo 5 43-25-95 32 n2 9.imit Switch Reactor Yes No 802 PJOIO B-Ch-IS-9534ml Limit Switch Reactor 802 Tes No l-Gn-IS-95)lh4 5.6mtt Switch peactor yes No 500 5.im6L Switch peactor Yes too 100 l.imit Switch Reactor 400 Yes No Reactor Ves No 71 Ten No Yes pso Nd'

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El!50 1448208 nses t inghnesse El 35g Iner208 Westing 8wnese t e te Penet rat ion Assy.

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N/A E1350 Ides 20 8 esestinghoane Electric Penetratiose Assy.

Note (3)

N/A Electrle Penetratinn Assy.

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Elect ric Pese* t rat inst Note (3)

N/A N/A EI 350 IEts2.34 tdeg t inghrmane Assy.

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N/A as/A l'9350 B Pet 204 ee t inghnesse Elect ric Penet rat inse Assy.

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N/A N/A El350 IJed204 Westingh wse N/A Electric Penette:

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N/A N/A N/A N/A

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N/A N/A INtf203 Westenghsmese Electric Penetrat ion Assy.

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N/A N/A Electric Penetration Ass EI35 law 200 West inghmano teote (3)

N/A N/A Electric Penetration AsmElectric Penetration Assy 1Aw20%

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N/A N/A 007 C09 Desonite 600v Control Cable teote (3)

N/A N/A e'8570 600V Col 2 ohnnite Note (33 N/A N/A Control Cable r1570 Cul9 okonite 600v Cnnt ent Cable sent e t))

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N/A N/A e.4540 175 Otonite 600v Control Cable teote (3)

N/A N/A E1580 102 fnonise 600V Power Cable Note (3)

N/A N/A riseo 106 Ok emi t e 60uv Power Cable Not e ( 3)

N/A N/A E45e9 110 okonite 600V Power Cable stote (1)

N/A N/A

1. 4580 112 Oh rmit e 600v Pv teote (1)

N/A N/A E8540 320 otemste 600v Power Cable Note (3)

N/A N/A mor Cable F85eg 1 15 Okonite 60cv Power cable Not e ( 3)

N/A N/A E1540 140 EISSO Otem t ee 600V Power Cable Note 83)

N/A N/A 150 Okossi te 600v Power Cable Not e ( 3)

N/A N/A E15eo 202 omonite 600v Power Cable Note (#8 N/A st/A eskonite 600v Power Cable tent e 4 Il M/A N/A 60cv Fower Cable Note (35 N/A N/A Not e ( 31 N/A N/A teote (3)

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N/A N/A 6.85e0 309 emnnite 640V Power Cable Note (3)

N/A N/A 95%80 352 em oeit t e 600V Pmeer Cable Not e ( 3)

N/A N/A Fl500 320 ok on 6 t e 600V Pmeer Cable Note (3)

N/A N/A Fl%90 340 ohe wi e e n 600V Power Cable Not e (31 N/A N/A El%80 402 okonite 600v Power Cable Note (33 N/A N/A p'l580 404 okontee 600W Power Cable Note (3)

N/A N/A Li%eQ 409 Ot on 6 te 600V Pswer Cable Not e ( 3 5 N/A N/A El%80 412 okset e e 60nv Pnwer Cable peut e ( II 8e/A N/A El%80 420 f *emi t e 660V Power Cable Note (3)

N/A N/A El%BO 580 (Masani t e 60pv Power Cable esot e ( 3)

N/A N/A 8.1580 712 smanite 600V Power Cable Not e ( 31 N/A N/A EI700 SG2 Mrasut-Des Co, Trl, and Twinasial Cable Not e ( 3 )

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N/A N/A El700 3G50 nrand-pen Co, Trl, aswl Twinas tal Cable esot a (3)

N/A N/A El?00 NG59 hrand-pes Co. Trl, and Twinesial cable Note (3)

N/A N/A EI7uO pC62 nrand-pes Co, Trl, and Twinasial Cable Not e 4 3)

N/A N/A 4

D:57040

1. 06 purkhegton Co, Trl, and Twinasial Cable Note (Il te/A N/A El10AQ 322 porkle s t os Co, Tr t, and Twinaulal Catile teote ill N/A N/A El?IO 104 Eatam 600V shiel lied Inst ru Cable esot a (30 se/A N/A EI:lO fol Eason 600V sh6eldent laae ru Cable Nos e (ll N/A N/A Elfl0 10 2 Eat ews 600V Shielded Instru t'ahle Note (Il M/A N/A EIFIO rn)

Icat on 600V Shielded Instru Cable Not e ( 3 5 to/A N/A t.lfl0 in4 Eaton 600V Shleided Inst ne Cable Note (31 N/A N/A scl720 fiOS Eaton 600V shiel<ted Instru Cable esot e ( 3)

N/A se/A El?IQ IN36 Eat use 600V Shielded Instrie Cable Isote (3)

N/A N/A

r teCGS FSAR MYSTEM: GEntalc TAlet.E 3.3 3-5 EgulPsette? SFLECTED 70R PEARS 81 03svlp oseeENT UseALIFICAtlUf8 no.

A No.

P6 t D El780 vEwamm _

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9901 ACT8tNe El110 909 Eatem 600V Shielded Instru Cable 600v Shielded Instru Cable hoTE tI)

PtJoe EQUIP.

E4710 D30 Eaton ffote 13) soort i7)

El780 600v shielded Instru Cable 031 Eat na Isote 1))

98/A CeNNEerts E1730 0 12 Eaton 60cv shielded Instru Cable 600v Shielded Instru Cable teote ill h/A N/A EI?t0 D3)

Eaton Is te 133 N/A 40/A El fl0 o

600v Shielded laettu Cable 103 Eat on soot e 5 3)

N/A N/A ESTRO 600V Shielded lastru Cable Note (35 N/A N/A 803 Eatem EI7tg ecov shielded Instru Cable 104 Fatne teote (3)

N/A N/A act?IO 600W Sh6elded Instru Cable 106 Est ren Note (3)

N/A N/A E4 730 lie Eatem 600W shielded Instru Cable 600W Shtolded Instru Cable teote (3)

N/A N/A E1780 ll2 Ratse Note (3) st/A 90/A EB180 320 Fatam 600V Sh6elded lastru CableIsot e ( 3) 90/A N/A ES7IO 124 Eat os 600v Shielded Instru CableNote (3)

Is/A N/A EI?tO 400V shielded Instru Cable 128 Eaton Note (3)

N/A N/A EI730 ST3 Eat on 600v Sh6elded Instru Cabl soote (3)

N/A N/A Elfl0 6pov sh6eldo<6 Instru Cohle600W Shtelded lastru Cable Note (4)

N/A se/A ITS Fason e

i' t:3730 e8730 374 Eaere ge te (3)

N/A N/A o

60nv shtolded Instru Cabl 176 Eatna Isote 138 N/A N/A El73g 6cov sh6elded Instru Cable Wate til N/A N/A sene Eaton e

e.lFIO 60cv Shielded Instru Cable Sol Eat oes peot e 838 se/A N/A

1. 1730 S49 kat em 600v Sh6elded lastru Cable Note (3) es/A N/A 9:5750

$24 Eaton 600v Shielded Instru Cable 600# Shielded enstru Cable tsote (3)

N/A N/A El780

$20 Ea t.we esote til N/A N/A 1

FlflQ TAR Eaton 6eow shielded snetru CableNot e 5 3) es/A N/A e1780 6uuv Shicided lastre Cable esote 6 3)

N/A N/A TA2 Eateus E4730 600V Te*

• Eme a 600v shielded Instru CableShielded instru Cable Not e ( 3)

N/A

. Is/A t.8780 flok 9.at nn Note (3)

.N/A te/A l'l?IO 600W bhleided Instru Cabl teote (1)

N/A N/A TNI Easem LITIO 600v sihlalded lastru Cable 6004 shielded lastru Catile foote ill N/A N/A TM)

Eaton e

Eatem Note (3)

N/A N/A 600W Shielded lastru Cable. Note (33 N/A N/A Not e (3)

N/A N/A N/A N/A N/A f

l

leCGS PSAR TAeLE 3.84-5 BDUIPMENT SELECTED FOR MARSN ElevlposseENT Ouhl.IrlCATIces P68 D Page 73 of 7 *.

M/A

'sTSTtet e GEsettlC PAN 1985 ACTIO88 IDCATIose Egulp.

PLaes E0ulP.

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ID 000 WEsel109 CONPflesENT 95.DG.

ELEV.

seUTE {II 80075 ( 29 CtNNSEseTO rt?IO TPI Eaton 600V Shiel:ted Instru Cable teot e ( 3 3 N/A N/A e:5710 TP)

Eaton 600w Shielded Instru Cable soote ( 3 )

N/A N/A Fl?!O TP3 Eaton 600V Shielded Instru Cable esot e ( 3)

N/A N/A Fl?!O TP4 Eaton 600W Shielsted lastru Cattle teote (31 N/A N/A FIELD PUSCNASE DAT-OS)

Thoman 6 nette Pressure Terminal Connectore geot e 4 3)

N/A N/A FIELD PURCHASE RAT-063 Tisomas 6 Betto Pressure Terminal Connectore Note (35 N/A N/A

• B ELD PUSCleASE DAT-07)

Thrmas 6 Bet te Pressure Termlnal Connectore esote 431 II/A 9s/A FIELD PUDCNASE. DAT-78)

Thomme & Dette Pressure Terminal Connectore Note (35 N/A N/A' FIFLD PueCHASE gest-053 Thomas 6 pet ts Pressure Terminal Connectors peot e ( 3)

N/A N/A FIELD PUSCHASE 337-063 Tienmas 6 Dette Pressure Terminal Connectors Note (3)

N/A N/A FIELD PURCseASE 997-073 Thomas 6 Ret te Pressure Terminal Connectare esote (I)

N/A N/A FIELD PUSCNASE RWT-743 Thomae 6 Sette Pressure Terminal Connectore Note (33 N/A N/A FIELD PUSC3tASE DCT-333 Thomae 6 seette Pressure Terminal Connectore sk>to 63)

N/A se/A FIELD PURCHASE PCT-e63 Thnmas & Bette Pressure Terminal Connectare esote ( 3 )

N/A N/A DIELD PueCleASE. PCT-36 3 Tsumma 6 feet to Pressure Terminal Connectore esot e ( 3)

N/A N/A FIEED PuseCHASE RCT-713 7tumas 6 Net t e Pressure Terminal Connectore Mote ( 3)

N/A N/A FIELD PURC3sASE SCT-703 Thnmas 6 set ts Freenure Temminal Cswinectors sent e (18 N/A N/A FIELD PURCHASE BCT-733 Themas & Betts Pressure Terminal Connectore Note (3)

N/A N/A D IELD PUseCHASE ppt-10 36 5 Tlvman 6 eset ta Psessure Terminal Connectors tente (3)

N/A N/A FRELD PuhCHASE It07-197 8 5 Thneen 6 hetts Pressure Terminal Connectore Note (jl N/A N/A FIEI.D PORCNASE 307-30724 Thnmas 6 teette Pressure Terminal Connectors peute til N/A N/A tBELD PURCNASE 907-80734 Thomas 6 Sett e Pressure Terminal Connectore Not e ( 3 )

N/A N/A flELD PUSCNASE RET-19268 Thnmas 6 eset ta Pressure Terminal Connectore ekst e ( 3)

N/A N/A FIELD PURCteASE DET-80114 Thomas 6 hette Pressuge Terminal Connectors esot e ( 3 )

N/A N/A G IELD PURCHASE DET-80728 Thnmas & net t s Pressure Terminal Connectors teert e ( 31 N/A N/A tlEID PUNCHASE DET-80738 79mmas & Iset t s Pressure Terminal Connectors Not e ( 3)

N/A N/A D I ELD PueCteASE pFT-1926 5 Thnmas 6 het ts Pressure Terminal rnnnectore sente ( 3)

N/A N/A FIELD PUSCMASE DFT-leill Tsumas 6 elett e Pressure Terminal Connecture Note t il N/A N/A t El D PeteC3s AME pFT-10728 Tamanas 6 elet ts Pressure Tesminal Onnnectore ekste (3)

N/A 98/A

'It.lD PURCHASE prT-80731 Ttwimae 6 seett e Pressure Terminal Connectors Note (Il N/A N/A

,l teCGS FSAR TAat.E 3.ll-5

1. UUIPNe:NT 591.ECTED FOR teADSet 93evlpusseENT OneALIFlCAT160s

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WeseDDR CeaserosesseT BLDC.

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IssyTE (ll se0TE t29 C0550810TS eBELD PueCESAEE WCT-9268 Thoman & metts preneure Tertainst Connectors Isot e ( 3 8 se/A N/A

• IEIA PuttesASE SCT-9718 Thness & Betts Pressure Terminal Connectors Boote 838 to/A N/A 9 IELD PUDOeASE BGT-9723 79 peas & feet te Pressure Terminal Cnnnectors sente (Il N/A N/A FIELD PueCNAst DGT-9735 Thomae 6 Dette Pressure Terminal Connectors Note ill N/A N/A eIELD PURCleASE seGT-9 75 8 Thomas 6 set te Pressure Terminal Connectors pent e ( 3 3 N/A N/A 6 3 ELD PUDCIIASE TTI-2 300 Thoeae 6 teette TT-RAP Cahle Tie foote (3)

N/A N/A FIELD PURCHASE TV3-2 Set 79wimae & Met te TV-DAP Cable Tie teot e ( 3 )

N/A N/A D IERD PURCM ASE TT3-2788 Thnmas 6 setts TT*DAP Cable Tie 9004e (35 N/A N/A FRELD PuerOaA5E TTI-2000 Thnmas & Pet ta TT-BAP Cable Tie Not e (33 N/A N/A

-_,7 c1 41[

Z w

leCGs FSAS TAnLE 3.ll-S leUTES Page 75 of 7%-

• ll Thle colems identif tee the seculpment Incated in a harsh environment required for poet accident smaltoring as slef ined in S.G.I.97 and Fsaa section 1.e.8.97.3.

829 This column identifies the eqelpment located in a harsh environment identified as TIII Action plan Equlpment as defined in summeG 8787.

• ll Itene that are generic are purchened and emed throughout the plant and may he used in tJte Duh Nerch Eswirossent.

I i

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1 t

d I

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1

~

VIII. QUALIFICATION TESTING / ANALYSIS

- 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 EEE -3 2 3 -

1974 and to-Category I as defined'in NUREG 0588 is being attempted wherever scheduling _ constraints and technical

- fessibility allow.-The safety related components located in a harsh environment are being qualified by test, analysis, or a combination thereof for the worst case' anticipated on-vironmental transients'under which they are required to function.

i For-safety related _ mechanical equipment located in a harsh

- environment,-tho'EQ program establishes,-via analysis, the j

qualified life of the. component.

This analysis is per-as de-formed by identifying significant-aging mechanisms fined in !EEE-627-1980, Section 4.4.1'.

i:

j The EQ program conforms with 10CFR50.49 in that testing or a combination of testing and analysis was the preferred b-method of proving component operability under the worst i

case environmental scenarios. IEEE-323 methods were used for the analysis. These analyses, when performed for EQ to supplement-testing, were justified and documented in the 4

j appropriate EQ packages. Additionally, enslysee were used l

j only when their results could be shown to be conservative.

Analytical. techniques included similarity, extrapolation and mathematical modeling.

2 The actual implementation of the HCGS EQ program is sub-f divided into the following two sections:

2 (1) NSSS Safety Related Coesionents

]

(a) Electrical Components The HCGS EQ program efforts for NSSS safety re-lated electrical components are based upon the-4 i

guidelines and methodologies outlined in General Electric's Licensing Topical Report # NEDE -2 4 3 2 6 -

1 -P.

This generic approach, when coupled with i

HCGS plant specific environmental parameters has l

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 3

seismic and dynamic input into GE's EQ program.

t i

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a 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 o f natural frequencies to assure that none are below 4 Hertz.

i Appropriately justified analysis and testing will be done to verify this depending on the equipment type 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 manner:

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 1

1 survivability limits of the equipment beyond the tested time to the one hour margin limit.

USNRC OPEN ITEN #2 i

i "2.

The required operability time will be 1

justified with consideration for a spec-trum of breaks and the potential need for the equipment later in an evsnt or 1

during recovery operations."

GE/HCGS RESPONSE TO ITEM #2 l-The Functional Performance Requirements shall document the function times for c11 Class 1E equipment and the supporting Design Record i

Files shall contain.the justification for the margin for each function time less than ten i

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.

V I I I -2 i

i 4

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USNRC OPEN ITEM #3 e

"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 failure in systems necessary for mitigs-tion of the event."

GE/ HCG 5 RESPONSE TO ITEM #3 The functional Performance Requirements shall contain f ailure analyses which address fail-ure affects 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 techniques, and the number of units tested."

GE/HCGS 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 (Lize, 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 2 6 P.

This HCGS EQ Summary Report will be updated to reflect final re-solution of these open items.

I (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 defined by safety function / time.

(2)

Located in a harsh environ-ment.

V I I I -3 f

l

4 4

(3)

Used to mitigate an accident including ~ post accident opera-tion.

(4)~ Contained non-metallic parts which were known to be age sensitive.

- This list'ing, included _in this EQ Summary Report

. and in FSAR Section 3-11 as Table 3.11-4, is in-dependent of other ongoing EQ efforts such as

+

ATWS/SDS Phase 2 efforts, Class 1E efforts in-cluded in this report, HPCI EQ and mechanical com-ponents located in the main control room.

. (2) Non-NSSS (80P) Safety Related Components (a)

Electrical Components The_Balancs of Plant (BOP) EQ program is limited to the safety related electrical com-ponents 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 i

the components were to be qualified.

Prior l

to the actual performance of the EQ test, the l

vendors were required to submit the test plan to PSE&G/Bechtel for review and approval.

Testing approaches were justified and docu-1 mented for inclusion in the EQ central file.

i (b)

Mechanical Components l

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 l

same material as that identified in the NSSS/GE qualification program, the results of the NSSS/GE program were used and no further i

qualification was performed.

For other iden-tified age sensitive non-metallic parts, a failure modes and effects analysis (FMEA) was performed by Bechtel to determine if the i

parts failure would jeopardize the compon-ents' ability to perform its required safety l

function.

If so, analysis was performed by either the vendor or an independent testing 7

laboratory to determine the parts replacement interval.

1

{

i V I I I -4 l

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_m.,..--m,-.--_-~~--_-----.,,---~-,-~

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The listing of these BOP safety related,-

mechanical parts-located in a harsh environ-ment and requiring EQ are listed in the at-tached Table 3.11 -4.

' Review of Vendor Reports The purpose of the review of vendor environmental quali-fication reports is to 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 manne r desc ribed 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-j sure that the component being tested is indicative of the actual component being procured for system installation.

i c)

Verification that EQ documentation is traceable to the component being~ tested.

d)

Correct categorization of the component testing to applicable standards (NUREG 0588 Cat. I or Cat.

II, IE E E -323 -1971 or 1974, etc.).

e)

Verification of the adequacy of the test proced-4 ures to address the following areas of concerns t

(1)

Performance of testing sequence per l

I E E E -323 -1974 or justification of method used to ensure most severe sequencing.

This includes pretest preparation, com-ponent mounting configurations, inspec-VIII-5

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tion and proper function measurements as 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 -1974 and IEEE-627-1980.

(3)

Verification that the aging (thermal, radiation, mechanical cycling, electri-cal cycling, synergistic effecta) tech-niques are properly analyzed, applied and justified to provide the most con-servative end-of-life component test condition.

Acceptable thermal aging techniques for electrical and mechanical components in-cluded the Arrhenius method or other justified methodology in accordance with IEEE-323 or IEEE-627. Thermal and radia-tion aging w'es considered on an indivi-dual component basis in that the compon-ent must contain an age sensitive (organic) part to be applicable.

Each aging method (thermal, radiation, 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-ute and cyclical mechanical operation and electrical (feeder voltage varia-tions, etc.) stresses which are antici-pated to occur during the normal (pre-DBA) qualified life operation of the equipment.

(4)

Verification that synergistic 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-seismic vibration, dust, humidity, l

aubmergence, etc., have been considered, i

evaluated and addressed.

i V II I -6 J

l

L (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 normal / abnormal /DBA operating conditions during all phases c f 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-brated and documented.

(8)

Verification that the determination of equipment failure has been defined and that resolution of any failure 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)

Synopsis of test plan including test objectives equipment tested:

test facility descriptions listing of calibrated instrumentation used test procedures test data and ac-curacy: summary, conclusions and recommendations support datas and proper signof f and dating of EQ re-port.

V i l l -7

.g)

I_f 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.

are used, justification for h)

If analy, sis methods analysis and the analysis methodology must be verified.

All assumptions, empirical values, mathematical,models, failure analysis, computer programs, extrapolations, etc.,

must be docu-mented, justified, and properly signed off/ dated.

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 /resubmittal" process is repeated until the EQ report satisfies the concerns of PSE&G/Bechtel o f 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 environmental 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 notification 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.

l The activities, stages, and events that have been witnessed include, but are not limited to, the followings a)

Component physical mounting / set up for DBA test-ing.

b)

Start-up of DBA chamber testing.

c)

Configuration of test monitoring / data collection instrumentation.

d)

Set up and performance of seismic testing.

e)

Verification of proper test sequencing.

f)

Thermal aging facilities and test setups.

V111-8

g)- Mechanical (repeated operation) and electrical-(voltage / current / frequency-variations) cycling methodologies and test setups, h)

Radiation exposure rates, durations and source strengths.

1)

Component failure recognition and determination of problom resolutions.

i The above noted tasks are separate from, and in addition to, those functions performed by the Quality Assurance organization noted in Section V of this EQ Summary Report.

.i VIII-9

_ -. - -. -.. ~ _ _. -.. - _ _ _.

+

IX FOLLOW-ON PROGRAM HCGS is developing a computer based maintenance and sur-veillance -program -to ensure compliance with 10CFR 50.49 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.) erid 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 survelliance 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.

i 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, i

These components are subdivided into the following cate-gories:

(A)

Components with a qualified forty year life which require no repiscement 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-ify the devices operability is also listed.

t 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 j

this way, failure trending allows identifi-cation of any compromise in the components qualified life and will allow re-analysis on a real time, case by case basis.

I X -1

a qualified life of forty (B)

Components with years if identified parts are replaced or if the components are replaced in total. These components are listed in the " active" sec-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 this list of safety related components located in a slid 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,

relays, valves, pumps, etc.).

Maintenance and/or replacement of component parts or total component replacement is based on a combina-tion of manuf acturers' recommendations, good 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 of iden-tified parts or total component replacement is based on a combination of manufacturers' maintenance recommendations, good engineer-ing judgement and/or actual plant experience on a component by component basis.

Engineerinq Interface With Plant EQ Program The following engineering information exchange is provided to the station for the Maintenance and Surveillance Pro-grams (1)

A single document summarizing the safety related electrical and mechanical components located in a harsh environment with a forty year qualified life.

I X -2

e s

f y

p,,

3:#

(2)

Documents summacizing the safety related electri.

7

. cal and mechanical components located in a harsh environment which require maintenance, replace-

/ ment.- o f par tt-and/or total component replacement M',

to meet the forty year qualified life commitment.

~

The documents delineate maintenance requirements and maintenance / replacement intervals.

e

'. ~.

(3)

For safety related'eleItrical and mechanical com-ponenta' located in a. mild environment, engineer-ing prnvides both a listing of component parts and the required maintenance / replacement interval to ensure emnponent ' operability.

, Additionally,'as HCGS achieves commercial operation and as-

,s / sociated work history experience, these time intervals will be updated to reflect <setual operating experience.

Also, feedback from the industry via vendor technical bulletins, p

,. /.

USNRC IE Bulletins / Notices, NPRDS, INPO reports, etc., will be used,,to further re fine maintenance / replacement inter-P vals.

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EQUIP 88ENT ENVIRONMENTAL

SUMMARY

SHEETS The Equipment Environmental Summary Sheets (EESS) provide a tabulated synopein of the EQ related data on a component-by-component bania.

This data la taken from the EQ file which includes the actual EQ test data for each component.

A sample CESS and a listing identifying each item included on an EESS is attached on Pagen X-2 thru X-6.

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4 EQUIMENr BfAIJWtrIOl SDHWEf SIRT Str. bog IE5f.10s IKPE DIEIK GBIEMPIDC SrltrIGI gygrEs IBWIIO9ENr D0QMDmtrIO4 IEFEllDICE EQUIMENr QunLIF.

OPO4 m'PTIOt PAlWNNTM SPECIFIED QUALFIIED GPCCIFI S QUALIFIED IGNH30 11138 IWWCIN IEDIAIBt3 OPEMritG (1) SY9tDI TIIE 12 28 13 29 44 60 52 (2) TIG 10.

TDe. (*F) 14 30 15 31 45 61 53 i

PpulE (3) GMOEDff (PSIA) 16 32 17 33 46 62 54 IIEIJtrIVE (4) IU MJFAcfUIIER HUMIDITY (%)

IS 34 19 35 47 63 55 x

FIIG)IMI/

(5) MX)EL NO.

Flont 20 36 21 37 48 64 56 ItADIATIOf (6) RMCFIOf (ItADS) 22 38 23 39 49 65 57 i

(7) ACQJnACY AGItc 24 40 25 41 50 l

a) SPECIFIED 66 58 l

b) AcIUAL l

4 (B) IDCNrIOt SPMr 26 42 27 43 51 67 59 4

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(9) ABOWFICOD IMEL 000MDfrATION IIEFDIENCE:

NOITS i

YES 90 (10) SEISMICAILY 1ESrED 1

j YES IEF.

l NO Y (11) SURVEIILANCE IEQO.

YES - IEF.

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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.]

k.

Name-of actual vendor, (not the sub-purchaser, i.e.,

GE, Westinghouse, etc.).

5.

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 equipment 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

've l, then submergence shall be addressed.

10.

If seismically tested, identify reference document.

(See SORT File) 11.

If maintenance and surveillance is required, state the reference document.

(Use vend'or Report No. and list page no. of report or refer to document prepared by PSE&G).

12.

The length of time, starting with DBE initiation, during which the equipment is required to perform its safety function or not fail detrimentally.

13.

The auditable exhibit" that documents the specification for Item 12.

14.

The time-dependent temperature profile during the period of Item 12, for the time the equipment is required to perform its safety function or not f ail detrimentally.

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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.

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 Item 9 for flood.

21.

the auditable' exhibit

• that documents the requirement for Item 20.

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), zum of (a) and (b).

23.

The auditable exhibit

• that documents the specification for Item 22 (including beta, gamma, neutrons, total dose, dose rates as applicable).

24.

Enter environmental and operating stress (temperature, 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 auditable 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.

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28.

The length of time, starting with DBE initiation,

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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 temperature profile to which the

-equipment has been exposed and demonstrated to function properly.

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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.

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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 Item 36.

38.

the' total integrated radiation does to which the equipment has been exposed and demonstrated to function properly (identify type).

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39.

the auditable exhibit

• that documents the radiation exposure and the function of the equipment for Item 38.

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 after exposure to spray, if required.

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43.

The auditable exhibit

• that documents the spray expsoure and the function of the equipment for. Item 42.

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Entries will consist of " TEST," " ANALYSIS" " TEST &

ANALYSIS," or "NONE REQUIRED."

52.

Excess of demonstrated time of operability over that specified.

53.

Temperature differential between peak exposure and maximum specified.

54.

Pressure differential between peak exposure and maximum specified.

55.

State "Not Required."

56.

State " Note Required."

57.

Difference.between the TID of the radiation exposure

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and the TID specified; 58.

Difference between qualified life and installed-life.

59.

State "Not Required."

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KEYS 60-67 Entries shall state "YES" or "NO," and, if "YES" provide reference to that part of the report containing discussion of action plan.

An.open item is any item that is not resolved and has the potential of negatively affecting the qualification of the component.

• Auditable exhibit shall be the actual vendor or test lab report and numbe r. - The Bechtel " Vendor Report No."

by which PSE&G identifies documents shall be put in parenthesis after the actual vendor or test lab report.. Example:

Franklin Test Lab. Report C-19720

( E-1700-4 9 ( 1 )-5 ).

This report identification may be coded to the " Document

Reference:

" lower left section of the form.

A.

Multiple components may be placed on the same EESS sheet if all conditions are exactly the same except-for Items 2 and 8.

An additional worksheet may be added.

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