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Text

Amend 5 to PGE-1025, Environ Qualification Program Manual
	ML20153D667
Person / Time
Site:	Trojan File:Portland General Electric icon.png
Issue date:	08/31/1988
From:	; PORTLAND GENERAL ELECTRIC CO.
To:	;
References
	PGE-1025-A-05, PGE-1025-A-5, NUDOCS 8809060003
	Download: ML20153D667 (172)
	v • d • e

ENVIRONMENTAL QUALIFICATION PROGRAM MANUAL s,,)

FOR THE TROJAN NUCLEAR PLANT PGE-1025 i

The following information and checklist are furnished as a guide for the insertion of new sheets for Amendment 5 into the Environmental Qualification Program Manual for the Trojan Nuclear Plant. This material is denoted by use of the amendment number and date in the I

lower outside corner of the page.

New sheets should be insert.ed as listed below.

O Discard Old Sheet Insert New Sheet r

(Front /Back)

(Front /Back) 1/11 1/11 thru thru vii/ blank xi/ blank 2-1/2-2 2-1/2-2 thru thru 2-7/ blank 2-7/ blank 3-7/3-8 3-7/3-8 Tab 3-2 (Sh 1)/ Tab 3-2 (Sh 2)

Tab 3-2 (Sh 1)/ Tab 3-2 (Sh 2) j thru thru 4-11/4-12 4-11/4-12 D

D N

4-19/4-20 4-19/4-20 lSA*A8883 8!88ljp 7;"d;;"!,l,3

Discard Old Sheet Insert New Sheet (Front /Back)

(Front /Back)

Tab 4-1 (Sh 1)/ Tab 4-1 (Sh 2)

Tab 4-1 (Sh 1)/ Tab 4-1 (Sh 2) thru thru Tab 4-1 (Sh 13)/ Tab 4-1 (Sh 14)

Tab 4-1 (Sh 13)/ Tab 4-1 (Sh 14) 5-7/5-8 5-7/5-8 Appendix 8A Appendix 8_A 8A-9/ blank 8A-9/ blank Tab 8A-1/ blank Tab 8A-1/ blank Tab 8A-2 (Sh 1)/ Tab 8A-2 (Sh 2)

Tab 8A-2 (Sh 3)/ Tab 8A-2 (Sh 4)

Figure 8A-1/ blank Figure 8A-1/ blank (nru thru Figure 8A-5/ blank Figure 8A-5/ blank Figure 8A-7/ blank Figure 8A-7/ blank thru thru Figure 8A-10/ blank Figure 8A-10/ blank Appendix 8C Appendix 8C Appendix 8C Title Fage/ blank Appendix 8C Title Fage/ blank 80-1/8C-2 8C-1/8C-2 thru thru 8C-16/ blank 8C-19/ blank Tab 8C-3/ Tab 8C-4 Tab 8C-3/ Tab 8C-4 thru thru Tab 8C-7/ blank Tab 8C-11/ blank Tab 8C-8 (Sh 1)/ Tab 8C-8 (Sh 2)

Tab 8C-12 (Sh 1)/ Tab 8C-12 (Sh 2) thru thru

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Tab 8C-8 (Sh 7)/ blank Tab 8C-12 (Sh 7)/ blank Amendment 5 (August 1988)

i, ENVIRONMENTAL QUALIFICATION PROGRAM MANUAL'

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FOR THE TROJAN NUCLEAR PLANT CONTENTS Section Title Page l{h i LIST OF EFFECTIVE PAGES.

x 1-1 3

1.0 INTRODUCTION

2.0 REGULATORY CRITERIA FOR ENVIRONMENTAL 2-1 QUALIFICATION.

2.1 RIGULATORY CRITERIA DEVELOPMENT.

2-1 l

2.2 REGULATORY BASIS FOR ENVIRONMENTAL QUALIFICATION REVIEW.

2-4 3.0 EQUIPMENT REVIEWED FOR ENVIRONMENTAL 3-1 9

QUALIFICATION.

i 3.1 Sco?E OF EQUIPMENT.

3-1 i

3.2 PROCEDURE FOR IDENTIFYING EQUIPMENT IMPORTANT i

TO SAFETY IN HARSH ENVIRONMENTS.

3-2 3.2.1 IE Bulletin 79-01B Master List Development.

3-3 3.2.2 10 CFR 50.49 Master List Development.

3-5 3.3 PROCEDURE FOR IDENTIFYING EQUIPMENT IMPORTANT TO SAFETY IN HILD ENVIRONMENTS.

3-7 3.4 PROCEDURE FOR IDENTIFYING OTHER EQUIPMENT SUBJECT TO ENVIRONMENTAL QUALIFICATION REVIEW.

3-8 3.5 POST-ACCIDENT SYSTEM OPERATING TIMES.

3-9 i

4.0 SPECIFIED ENVIRONMENTAL CONDITIONS AND f

j EVALUATION CRITERIA.

4-1 l

i 4.1 TEMPERATURE AND PRESSURE.

4-1 4.1.1 Pipe Breaks Inside Containment.

4-2 i

4.1.1.1 Loss-of-Coolant Accident.

4-2 1

4.1.1.2 Main Steam Line Break.

4-2 4.1.2 Pipe Breaks outside Containment.

4-4 4.1.3 Normai Environment Temperatures.

4-5 4.1.4 Evaluation Criteria.

4-5 1

4.1.4.1 Temperature.

4-5 4.1.4.2 Pressure...

4-6 1

O i V i

j Amendment 5 (August 1988) 4 4

4

ENVIRONMENTAL QUALIFICATION PROGRAM MANUAL FOR THE TROJAN NUCLEAR PLAN'"

CONTENTS Section Title Pago 4.2 HUMIDITY.

4-6 4.2.1 Pipo Breaks Insido and Outsido Containment.

4-6 4.2.2 Normal Environment Humidities.

4-7 4.2.3 Evaluation Critoria.

4-7 4.3 CHEMICAL EFFECTS 4-8 4.3.1 Pipe Breaks Inside Containment.

4-8 4.3.2 Pipe Breaks Outside Containment.

4-9 4.3.3 Evaluation Critoria.

4-10 4.4 RADIATION.

4-10 4.4.1 Radiation Dosos.

4-10 4.4.1.1 Accident and Normal Radiation Doso Estimatos.

4-10 4.4.1.2 Radiation Damage Threshold Levels.

4-11 4.4.1.3 Radiation Doso Rato Effects.

4-13 4.4.1.4 Beta Doso Effects.

4-13 4.4.2 Evaluation Critoria.

4-13 4.5 AGING.

4-15 4.5.1 Basis and yproach.

4-15 4.5.2 Application of Arrhenius Methodology.

4-17 4.5.2.1 Selection of Activation F.norgy for Use in Arrhonius Methodology.

4-20 4.5.3 Maintenanco and Surveillanco Program Considorations.

4-21 4.5.4 Evaluation Critoria.

4-21 4.6 SUBHERGENCE.

4-22 4.6.1 Pipe Breaks Inside Containment.

4-22 4.6.2 Pipe Breaks outside Containment.

4-23 4.6.3 Evaluation Celtoria.

4-23 4.7 NORMAL ENVIRONMENT ELECTRICAL VARIATIONS 4-24 4.7.1 Evaluation Criteria.

4-24 4.8 SYNERGISTIC EFFECTS.

4-25 4.9 MARGINS.

4-25 4.10 T*AT SEQUENCE.

4-27 4.10.1 Equipment Qualified to DOR Guidelines.

4-27 4.10.2 Equipment Qualified to NUREG-0588 Roquirements.

4-28 5.0 ENV1HONMENTAL QUALIFICATION REVIEW.

5-1 Amendment 5 11 -

(August 1988) i

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ENVIRONMENTAL QUALIFICATION PROGRAM MANUAL FOR THE TROJAN NUCLEAR PLANT CONTENTS Section Title Pago 5.1 REVIEW OF ELECTRICAL EQUIPMENT IN HARSH' ENVIRONMENTS 5-1 5.1.1 Review Process.

5-1 L

5.1.1.1 Documents Used in the Review Process.

5-2 5.1.1.1.1 Component Summary Sheet.

5-3 5.1.1.1.2 Equipment Qualification Summary Sheet.

5-4 l

l 5.1.2 Review Procedure.

5-5 5.1.2.1 Installed Equipment.

5-5

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5.1.2.2 New and Replacement Equipment.

5-6 5.1.2.3 Nonconforming Equipment.

5-7 l

5.2 REVIEW OF ELECTRICAL EQUIPMENT IN MILD

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ENV1HONMENTS.

5-7 5.3 REVIEW OF OTHER EQUIPMNNT SUBJECT TO ENVIRONMENTAL QUALIFICATION.

5-8 5.4 MAINTENANCE AND SURVEILLANCE PROGRAM.

5-9 t

6.0 ENVIRONMENTAL QUALIFICATION DOCUMENTATION.

6-1 6.1 CENTRAL FILE.

6-1 I

6.2 EQUIPMENT QUALIFICATION

SUMMARY

FORMS.

6-1 I

i 6.3 COHPONENT

SUMMARY

SHEETS.

6-2

7.0 REFERENCES

7-1 8.0 APPENDICES.

8-1 8.A Radiation Dose Assessment.

8A-1 8.B Thermal and Hydraulic Analysis of High-Energy Line Breaks in the Main Stcam Support Structuro.

8B-1

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8.C Thermal-Hydraulle Analysis of 2 High-Energy Lino r

Break in the Turbine Building.

8C-1 l

8.D Deleted.

SD-1 8.E Deleted.

8E-1 l

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Amendment 5 (August 1988)

ENVIRONMENTAL QUALIFICATION PROGRAM MANUAL FOR THE TROJAN NUCLEAR PLANT TABLES Number Tit,lo 3-1 Safety-Rolated Functions / Systems Needed to Mitigato a LOCA or HELB Accident 3-2 10 CFR 50.49 Master List 3-3 Deleted 3-4 Summary of NRC Environmental Qualification Requirements for NUREC-0737 Items II.B.3. II.F.1.1, and II.F.1.2 3-5 Functional Basis For Post-Acciduc.t System Operating Times 3-6 Post-Accident Swstem Operating Times 4-1 Trojan Nuclear Plant 2nvironmental Conditions Appendix 8A 8A-1 Calculated Trojan Total Integrated Dosos 8 A-2 Review of Total Integrated Doso Calculations Appendix 8B 8B-1 Major Milestones in the Evaluation of Main Steam Support Structuro Environmental Conditions Resulting from High-Energy Line Breaks 8B-2 RELAP4/ MOD 5 Main Steam Support Structure Model ParamcLers for a Main Feedwster Line Break and Original Main Steam Line Break Analysis BB-3 Pressuro Responso of the Main Steam Support Structuro Break Compartment (Volume 3) to a Main Feedwater Lino Break 88-4 Temperaturo Rosponse of the Main Steam Support Structure Non-Break Compartracnts to a Main Feodwater Line Break 8B-5 RELAP4/ MOD 6 Main Steam Support Sttmeture Model Parameters for a Main Steam Line Break i

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Amendment 5

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(August 1988)

4 ENVIRONMENTAL QUALIFICATION PROGRAM MANUAL' i

FOR THE TROJAN NUCLEAR PLANT 4

TABLES l

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P Number Title 88-6 Main Steam Line Blowdown Resulting in Worst-Case Temperature Profile for the MSSS (RELAP4/ MOD 6 Analysis) i 8B-7 Pressure Response of the Main Steam Support Structure Break

(

,f Compartment (Volume 3) to a Main Steam Line Break (RELAP4/

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MOD 5 Analysis) 8B-8 Temperature Response of the Main Steam Support Structure Non-Break Compartments to a Main Steam Line Break (RELAP4/M006 Analysis)

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t 85-9 Characterization of MSSS Compartments i

i 8B-10 EQ Components in Main Steam Support Structure f

t Appendix 8C i

8C-1 Mass and Energy Release for a Main Feedwater Line Break i

in the Turbine Building 8C-2 Mass and Energy Release for a Main Steam Line Break in the

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~

Turbine Building I

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8C-3 Mass and Energy Release for a Main Steam Lino Break in the l

Turbine Building l

i 8C-4 Mass and Energy Release for a 0.8-Foot 2 Main Steam Line l

Break in the Turbine Building

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l 8C-5 Mass and Energy Release for a 1.0-Foot 2 Main Steam Line i

Break in the Turbine Building j

8C-6 Mass and Energy Release for a 1.2-Foot 2 Main Steam Line Break in thJ Turbine Building

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8C-7 Pressure Response of Turbine Building Compartments for a Main Feedwater Line Break at 100-Percent Power j

8C-8 Temperature Response of Turbine Building Compartments to a

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Main Feedwater Line Break at 100-Percent Power

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8C-9 Pressure Response of Turbine Building Compartments for a Main Steam Line Break at 100-Percent Power

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.v-Amendment 5 l

4 (August 1988) l I

ENVIRONMENTAL QUALIFICATION PROCRAM MANUAL FOR THE TROJAN NUCLEAR PLANT TABLES Number Title 2

8C-10 Temperature Responso of Turbino Building Compartments to a Main Steam Line Break at 100-Porcent Power 8C-11 Worst-Case Temperaturo Rosponso of Turbino Building Compart-ments to Partial Arca Main Steam Lino Break at 100-Porcent Power 8C-12 EQ Components in Turbino Building 9

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Amendrent 5

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' August 1988) j i

ENV1HONMENTAL QUALIFICATION PROGRAM MANUAL f 's FOR THE TROJAN NUCLEAR PLANT

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l FIGURES Number Title 4-1 Containment Pressuro vs. Time for the Design Basis Accident 4-2 Containment Temperature RosPonso for the Design Basis Accident 4-3 Qualification Requirement Profilo for Containment Pressurc 4-4 Qualification Requirement Profile for Containment Temperaturo 4-5 Qualification Requirement Profile for MSSS Pressure 4-6 Qualification Requirement Profile for MSSS Temperature 4-7 Qualification Requirement Profile for Turbino Building Pressure 4-8 Qualification Requirement Profile for Turbine Building Temperature 5-1 Environmental Qualification Review Proccas O)

\\s-5-2 Environmental Qualification Review Procedure for New and Replacement Equipment Appendix 8A 8A-1 Post-Accident Radiation Zones, Post-LOCA Mode, Elevations 5 Feet and 25 Feet 8A-2 Post-Accident Radiation Zones, Post-LOCA Mode, Elevation 45 Feet 8A-3 Post-Accident Radiation Zones, Post-LOCA Mode. Elevation 0;

61 Feet o

8A-4 Post-Accident Radiation Zones, Post-LOCA Modo, Elevation 17 Feet 8A-5 Post-Accident Radiation Zones, Post-LOCA Mode, Elevation 93 Feet 8A-6 Post-Accident Radiation Zones, Intact RCS Mode, Elevations 5 Feet and 25 Feet lV

- vii -

Ameadnent 5 (August 1988) i

u ENVIRONMENTAL QUALIFICATION PR00 RAM MANUAL FOR "JHE TROJ AN NUCLEAR PLANT FIGURES Number Title 8A-7 Post-Accident Radiation Zones, Intact RCS Mode, Elevation 45 Fcot 8A-8 Post-Accident Radistion Zones, Intact RCS Mode. Elevation 61 Feet 8A-9 Post-Accident Radiation Zones Intact RCS Modo Elevation 77 Feet CA-10 Post-Accident Rad.8 ation Zones, Intact RCS Modo. Elevation 93 Feet 8 A..' 1 Volume Correction Factor (Full-Range) 8A-1.

Volume Correction Factor (Small Volumes) 8A-13 Outside containment Doso Assessment Flowchart 8A-14 Inside Containment Dose Assessment Flowchart Appendix 8B 7

w 8B-1 Isometric View of the Main Steam Piping in the Main Steam Support Structure and Turbine Building 8B-2 Isometric View of the Feedwater Piping in the Main Steam Support Structure and Turbine Building 8B-3A Schematic of RELAP4/M005 Model BB-3B Schematic of RELAP4/ MOD 6 Mod.il 8B-4 Model of the MSSS. Elevation 45 Feet 0 Inches 8B-5 Nodalization of the MSSS. Elevation 54 Feet 6 Jnches 8B-6 Nodalization of the MSSS. Elevation 69 Feet 0 Inckes 8B-7 Nodalization of the MSSS, Elevation 100 Feet 6 Inches 8B-8 Long-Term MFLB Blowdown Curve l

8B-9 Long-Term MSLB Blowdown Curve for 0-Percent of Rated Power 1

O Amendment 5

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(August 19S8) i

ENV1HONMENTAL QUALIFICATION PROCHAM MANUAL FOR THE TROJAh NUCLEAR PLANT

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FIGURES

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Number Title 8B-10A Break Volumo Responsc to MFLM h

8B-10B Short-Term Pressuro Responso of Break Volumo to MFLB 8B-11

h. ~'onso of Non-Break MSSS Compartments to MFLB 8B-12A Break Volume Responso to MSLB for 0-Percent of Rated Power 88-12B Short-Term Pressure Response of Break Volume to MSLB for 0-Percent of Rated Power 4

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Amendment 5 l

(August 1988)

LIST OF EFFECTIVE PAGES PC E-1025 Environmental Qualification Program Manual for the Trojan Nuclear Plant AMENDHENT 5 Amendment Amendment Page No.

No.

Date Title Pags Original July 1982 i thru vii 4

Aug. 1987 1-1 1

March 1984 2-1 5

Aug. 1988 2-2 4

Aug. 1987 e

2-3 and 2-4 5

Aug. 1988 2-5 and 2-6 4

Aug. 1987 2-7 5

Aug. 1988 3-1 2

June 1985 3-2 thru 3-4 1

March 1984 3-5 and 3-6 4

Aug. 1987 3-7 5

Aug. 1988 0

3-8 2

June 1985 3-9 4

Aug. 1987 Table 3-1, Sheets 1 thru 3 4

Aug. 1987

.m i Table 3-2, Sheets 1 thru 65 5

Aug. 1988 Table 3-3 2

June 1985 Table 3-4 4

Aug. 1987 Table 3-5 1

March 1984 Table 3-6 4

Aug. 19P1 4-1 thru 4-11 4

Aug. 1987 4-12 5

Aug. 1988 0

4-13 thru 4-18 4

Aug. 1987 4-19 5

Aug. 1988 4-20 thru 4-29 4

Aug. 1987 Tabic 4-1, Sheets 1 thru 14 5

Aug. 1988 Figures 4.-1 thru 4-4 1

March 1984 Figure 4-5 2

June 1985 Figures 4-6 thru 4-8 4

Aug. 1987 5-1 and 5-2 3

Dec. 1985 5-3 and 5-4 2

June 1985 5-5 and 5-6 4

Aug. 1987

,,g 5-7 5

Aug. 1988 5-8 thru 5-10 4

Aug. 1987 Figure 5-1 2

June 1985 Figure 5-2 4

Aug. 1987 6-1 thru 6-3 2

June 1985 7-1 and 1-2 4

Aug. 1987 8-1 Original July 1982 O

Amendment 5

-x l August 1988)

i a

LIST OF EFFECTIVE PAGES PGE-1025 Environmental Qualificat. ion Program Manual for the Trojan Nuclear Plant i

a i

j AMENDMENT 5

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)i Amendment Amendment f

i Page No.

No.

Data Appendix 8A 8A-1 thru 8A-6 1

March 1984 8A-7 thru 8A-8 Aug. 1987 8A-9 5

Aug. 1988

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i Table 8A-1 5

Aug. 1988 Table PA-2 5

Aug. 1988 3

4 1

Figure 8A-1 5

Aug. 1988 Figure 8A-2 thru 8A-4 5

Aug. 1938 i

Figure 8A-5 5

Aug. 1988 Figure 8A-6 4

Aug. 1981 i

Figure 8A-7 thtm 8A-10 5

Aug. 1988 G,'

i Figure 8A-11 thru 8A-13 1

March 1984 j

Figure 8A-14 Original July 1982 j

Appendix 88 1

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88-1 thru 8B-25 4

Aug. 1981 l

Tables 88-1 thru 8B-10 4

Aug. 1987 i

)igures 88-1 thtm 8B-12b 4

Aug. 1987 Appendix 8C 8C-1 thtv 8C-19 5

Aug. 1988 Tables 8C-1 thtm 8C-3 4

Aug. 1987 0 !

Table 8C-4 thtm 8C-12 5

Aug. 1988

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Figures 8C-1 thtm BC-5 4

Aug. 19b; I

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Appendix 8D j

8D-1 2

June 1985 l

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Appendix BE l

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j' 8E-1 2

June 1985 I

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Amendment 5

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(August 1988)

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2.0 REGULATORY CRITERIA FOR ENVIRONMENT.;L QUALIFICATION t

This Chapter summarizes the regulatory criteria, guidelines and standards used in the environmental qualification review of electric equipment important to safety in the Trojan Nuclear Plant.

i 4

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2.1 REGULATORY CRITERIA DgVELOPMENT l

l The Nuclear Regulatory Commission (NRC) has established crittria for l

I environmental qualification of safety-related electrical equipment in nuclear power plants. General Design Criterion 4 of Appendix A to 10 CFR 50 establishes the general requirement for environmental quell-J j

fication of safety-related equipment.

It states in part that "struc-l tures, systems, and components important to safety shall be designed to accommodate the effects of and to be compatible with the environmental I

conditions associated with normal operation, maintenance, testing, and postulated accidents, including loss-of-coolant accidents".

The Trojan f

j Nuclear Plant was originally designed to meet General Design Criterion 4;

,j however, the NRC later developed specific guidelines and requirements 8

i j

to implement this general requirement for operating reactors.

i 3

i Institute of Electrical and Electronic Engineers (IEEE) 323-1974, "IEEE Standards for Qualifying Class 1E Equipment for Nuclear Power Generating l

)

Stations", is the current industry standard for environmental qualif t-1 cation of safety-related electrical equipment. This standard was first 4

issued as a trial-use standard, IEEE 323-1971. After substantial revi-j sien, the current version was issued in 1974. Both versions of this j

)

standard set forth generic requirements for equipment qualification, i

but the 1974 standard includes specific requirements for aging, marstes, and maintaining documentation records that were not included I

in the 1971 trial-use standard.

The 1974 standard was endorsed by the NRC in Regulatory Culde 1.89. "Environmental Qualification of Certain j

Electric Equipment Important to Safety for Nuclear Power Plants", for newer plants, ie, existing construction permit appilcants.

However, no

)

Regulatory Guide was ever issued adopting the 1971 IEEE 323 standard.

lO i

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3 2-1 Amendment 5 j

(August 1988)

Design of the Trojan Nuclear Plant was initiated well beforo the issuance of IEEE 323-1971. Nevertholoss, PGE mado a commitment to the Westinghouso qualification prugram, which used IEEE 323-1971 as a design standard for many important Nuclear Steam Supply System compo-nonts, especially those inside the Containment Building whero the most sovere post-accident environmental conditions woro postulated.

Applicable provisions of IEEE 323-1971 woro also factored into the design of balance-of-Plant equipment outside Containment where appro-priato.

In 1978, the NRC iscued IE Circular 18-08 requesting licenscos to examine installed safety-related electrical equipment and ensure appropriate documentation of its qualification to function under accident conditions.

The following year, IE Bulletin 19-01 was issued requiring licensecs to provide written evidenne of electri-cal equipment qualification.

Although these documa c. requested qualificatien reviews and information, neither provided specific guidelines for conducting detailed qualification reviews.

Subsequently, in late 1979 the NRC staff developed definitivo critoria for reviewing the environmental qualification of safety-related elec-trical equipment.

The Division of Operating Reactors 'Ouidelines for Evaluating Environmental Quall scation of Class IE Electrical Equipment in Operating Reactors" (DOR Cuidelines) were developed specifically for operating reactors-In addition, for reactors under licensing review, the NRC issued NUREG-0588, "Interim Staff Position on Environmental Qualification of Safety-Related Electrical Equipment".

The intent of the DOR Culdelinos is not to provide guidelines for implementing either version of IEEE 323 for operating reactors. T1.s intent as rather to provide a basis for judgments required to con-firm that operating reactors are in compliance with General Design i

Criterion 4.

The intent of SUREC-0588 is to implement IEEE 323 for plants under licensing revivw.

It provides a number of NRC staff positions on selected areas of the qualification larue.

These positions are dividoJ into two categories:

Amendment 4 (August 1987) 2-2

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(1) Category I positions apply to equipment qualifled in accordance with IEEE 323-1974.

(2) Category II positions apply to equitment qualifled in accordance with IEEE 323-1971.

f After the NRC staff completed their inillal review of licensecs' responses to IE Bulletin 79-01, IE Bulletin 79-01B was issued in l

January 1980 requiring additional qus11fication information in a specified format for electrical equipment evaluated against the DOR l

Culdelines. NUREG-0588 was also referenced as a source of supple.

mental infornation to be used with the DOR Culdelines, j

I On May 23, 1980 the NRC Commissionera issued a Memorandum and Order I

(CLI-80-21).

In this order, the Commission endorsed the NRC staff's f

use of the DOR Cuidelines to review operating plants and NUREG-0588 to review plants under licensing review as well as those pieces of

{

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equipment in cperating plants which do not meet the DOR Guidelines, j

The Commission directed the staff to complete its review of environ-mental qualification, including publication of Safety Evaluation Reports (SER), by February 1,1981, and ordered that all safety-

[

related elect:ical equipment in all operating plants be qualified

[

j to the DOR Culdelines or NUREG-0588 by no later than June 30, 1982, f

2 j

In order to implement the provisions of the Commission's Memorandum l

J and Order, the NRC issued 'two separate Orders to licensees. An Order l

1 I

4 in August 1980, subsequently as. ended in September, required submittal j

e t' a complete response to It Bulletin 19-018 by November 1, 1980.

)

An Order in October 1980 amended the operating license of Trojan and j

)

other operating plants to require:

(a) qualifical;1on of all safety-j related equipment by June 30, 1982 in accordance with the DOR Cuide-

.)

lines or NUREG-0588, and (b) establishment of a central documentation j

l file for environmental qualification by November 1,1980.

These f

requirements are documented in Trojan Technical Specification 6.13, l

"Environmental Qualification,*,

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2-3 Amendment 5 (August 1988) i

_ ~ _ _ _ _ _ _ _

i On June 25, 1982 the Commission promulgated an interim rulo as i

10 CFR 50.49, "Environmental Qualification of Electrical Equipment Important to Safety for Nuclear Power Plants".

This rule suspended the June 30, 1982 deadline for completion of environmental qualification of safety-related electrical equipment pending publication of a final rule on qualification of such equipment.

On January 21, 1983 the Commission promulgated a final rule on environmental qualification of electric equipment important to safety.

This rule superseded the June 25, 1982 interim rule and was intended to codify the methods and criteria that meet NRC requirements in the area of environmental qualification.

hi In June 1984, the NRC issued Revision 1 to Regulatory Guide 1.89.

Revision 1 to Regulatory Guide 1.89 describes a method acceptable to the 1?C staff for complying with 10 CFR 50.49.

The Regulatory Guide generally endorses IEEE 323-1974, subject to certain clarifications and conditiora.

2.2 REGULATORY BASIS FOR ENVIRONMENTAL QUAT,IFICATION RCVIEW The review described in this report was originally conducted in accor-dance with the DOR Culdelines.

NUREC 0588 was used as suppicmental guidance. This approach was consistent with the Commission's Memorandum and Order (CLI-80-21) as implemented by Trojan Technical Specification 6.13.

This report has since been amended to address the requirements of 10 CFR 50.49, the guidelines of Regulatory Guide 1.89 (Revision 1), and Generic Letter 88-07, "Modified Enforcement Policy Relating to 10 CFR 50.49 Environraental Qualification of Electrical Equipment Important to Safety for Nuclear Powoc Plants".

The DOR Cuidelines, NUREC 0588, 10 CFR 50.49, and Regulatory Guide 1.89 (Revision 1) have been implemented in accordance with the following:

Amendment 5 2-4 (August 1988)

(1) Equipment ordered prior to February 22, 1983 (the offectivo date of 10 CFR 50.49) is qualified in V

accordance with the DOR Guidelines or NUREG- 0588 (Category I).

(2) Equipment ordered af ter February 22, 1983, but before m

U June 1, 1984 (the effective issue dato of Revision 1 to Regulatory Guido 1.89), is qualified in accordance with NUREG-0583 (Category I), unless the provisions of Item 4 below are applicable.

Qualification in accordance with NUREG 0588 (Category I) is construed to i

be equivalent to meeting the provisions of 10 CFn 50.49, (3) Equipment ordered after Juno 1, 3984 will be qualified

]

in accordance with 10 CFR 50.49, unless the provisions of Item 4 below are applicable.

The provisions of Revision 1 to Regulatory Guido 1.89 will be complied with in the qualification review of this equipment, 3

except as noted in this topical report.

(4) Replacement equipment ordered af ter February 22, 1983 must be qualified in accordance with the provisions of Items 2 and 3 above, unless there are sound reasons to the contrary.

The following are considered to be sound reasons for the use of replacement equipment previously qualified in accordance with the DOR Guidelines or N

NUREG-0588 in lieu of upgrading:

(a) The item of equipment to be replaced is a component of equipment that is routinely replaced as part of normal equipment maintenance, es, gaskets 0-rings, and coilst i

these may be replaced with identical componeni.e.

(b) The item to be replaced is a component that is part of an item of equipment qualified as an assembly; these (9

may be replaced with identical components.

G 2-5 Amend =ent 5 (August 1988)

(c) Replacement equipment qualified in accordance with the provisions of 10 CFR 50.49 does not exist.

(d) Replacement equipment qualified in accordance witn the provisions of 10 CFR 50.49 is not availabic to meet installation and operation schedules.

However, in such case, the replacement equipment may be used only until upgraded equipment can be obtained and an outage of sufficient duration is availabic for ecplacement.

(e) Replacement equipment qualified in accordance with 10 CFR 50.49 would require significant plant modifications to accommodate its use.

(f) The use of replacement equipment qualified in accordance with 10 CFR 50.49 has a significant probability of creating human factor problems that U

would negatively affect plant safety and performance, for example:

1) Knowledge, skills, and ability of existing plant staf f would require significant upgrading to operate or maintain the specific replacement equipment;

2) The use of the replacement equipment would create a one-of-a-kind application; or

3) Maintenance, surveillance, or calibration activities would be unnecessarily complex.

For replacement equipment qualified in accordance with Paragraphs (c) through (f) of this item, a nonconformance report shall be processed as described in Section 5.1.2.3.

AmendLent 5 2-6 (August 1988)

.-_ =----

=.

i i

l The provisions of Generic Letter 88-07 are also followed in the 4

environmental qualification program.

If a potential deficiency is g

identified in the environmental qualification of a component, Generic Letter 88-07 provides the following guidelines on appropriate actions to be taken:

i (1) A prompt determination of operability shall be made for the affected equipment.

4 t

t (2) Imediate steps shall be taken to establish a plan, with a l

reasonable schedule, to correct th'e deficiency.

t i

(3) A justification for continued operation (JCO) shall be 1

written and kept on flie. This justification does not

{

require NRC review and approval.

I A finding of operability ray be made using analysis and partial I

test data to provide reasonable assurance that the equipment will perform its intended safety function, or that failure of the 3

equipment will not result in significant degradation of any j

t safety function or provide misleading information to the operator.

{

i i

I 4

If operability cannot be demonstrated, and the equipment is covered by

[

plant Technical Specifications, the appropriate action statements will f

f be followed.

If the aquipment is not covered by the Technical Speci-l I

fications, the reactor can continue to operate if the safety function I

l can be accomplished by other designated equipment that is qualified,

{

)

or limited administrative controls can be used to ensure the safety l

l 1

function is performed.

l t

If a deficiency in the environmental quali.! cation of equipment is l

discovered, reportability under 10 CFR 50.72, 10 CFR 50.73, 10 CFR 21 Technical Specifleations, or any other pertinent requirement must be determined. This is especially true if the equipment

.s determined to be inoperable.

O 2-7 Amendment 5 (August 1988) l

. ~. -

~

_. _ = _

i i

program to the extent described in Topical Report PGE-1043 Ih IG i O

i

l The approach used to review the environmental qualification of equip--

i ment important to safety in harsh environments is described in Sec-

[

tion 5.1.

i I

3.3 PROCEDURE FOR IlWMTIFYING EQUIPMENT l

TMPORTANT TO SAFETY IN MILD ENVIRONMENTS j

1 I

Environmental. qualification of electric equipment important to safety f

j located in a mild environment is not included within the scope of 10 CFR 50.49.

According to 10 CFR 50.49, a mild environment is an i

environment that would at no time be signifleantly more severe than the

[

environment that would occur during normal plant cperation, including j

anticipated operational occurrences. The criteria used to distinguish f

i mild from harsh environment areas is delineated in Chapter 4.

The identification of equipment important to safety in slid environ-

~

ments was conducted in conjunction with the identification of equipment in harsh environments. This process is described in the preceding j

section. The CSS docu.ments all equipment important to safety in mild l

d i

environments by component identification number Plant location, func-j tional and environmental requirements, and equipment data.

j I

t The approach used to review the environmental qualification of j

j equipment important to safety in mild environments is described in i

i Section 5.2.

{

l j

I j

s I

}

3-7 Amendment 5 (August 1988) i m

_~.

3.4 PROCEDURE FOR IDENTIFYING OTHER EQUIPMENT SUBJECT TO ENVIRONMRNTAI, QUALIFICATION REVIEW O

Regulatory Guide 1.97 specifies that Category 3 instrumentation "should be of high-quality commercial grade and should be selected to withstand the specified service environment". Generally, the specified service environment is the normal environment; however, for several Category 3 post-accident instruments at Trojan, it is appropriate to specify the service environment as the post-accident environment.

It was also considered appropriate to recategorize several post-accident instruments from Category 2 to Category 3 on the basis of previous requirements specified by NUREG-0737.

The instrumentation in question concerns the post-accident sampling system (NUREG-0737. Item II.B.3), the noble gas affluent monitors (II.F.1.1), and the iodine and particulate sampling capability (II.F.1.2).

NUREG-0737 specifies environmental qualification require-ments for the noble gas offluent monitors.

This requirement appears in Table II.F.1-1 and states that "the instruments shall provide suf fi-ciently accurate responses to perform the intended function in the environment to which they will be exposed during accidents". NUREG- 0 73 7 does not specify any environmental qualification requirements for the post-accident sampling system or Lodine / particulate sampling capability.

Subsequent to YUREG-0737, 10 CFR 50.49 was promulgated and requires environmental qualification of "certain post-accident monitoring equip-ment" specified as Category 1 and 2 in Regulatory Guide 1.97.

The noble gas effluent monitors are listed in Regulatory Guide 1.97 as Cate-gory 2.

The post-accident sampling system and iodine / particulate sampl-ing capability are listed in Regulatory Guide 1.97 as Category 3.

The various environmental qualification requirements for the aforemen-tiened equipment are sutmarized in Table 3-4.

With respect to the noble gas effluent monitors, PGE has adopted the position that Regulatory O

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+ RVICE NUPeER 4

AT3 205 SPLICE POINT RAYCaeEM NCSF-N C IS*4 45 TE4104-NOT LEG RCS 9.4.2 ATS 206 SPLICE POINT RAVCIGEM NCSF-N C ISSF 45 TE4108 COLS LEG RCS 9.4.2 CTS 207 SPLICE POINT RAYC8EEM NCSF-N C

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'A 1189 C TO G75 9.4.2 LTS 222 SPLICE POINT RAYC8EEM 8dCSF-98 C PR2R 119 "A 1189 A TO G75 9.4.2 AIS 224 TERPOINAL SOARS SUCMANAN 855 106 C EMSS 59 8W 19019 17.4.2 CTS 228 SPLICE POINT RAYCleEM 8eCSF-80 C OSOF 54 PT-968 9.4.12 ATS 230 SPLICE POINT RAYC8eEM DeCSF-N C ISSA 64 TE 910 9.4.2 CTS 231 SPLICE POINT RAVC8eEM leCSF-N C ISSA 64 TE 909 9.4.2 LT3 232 SPLICE POINT RAVC8EEM BeCSF-N C ISSA 77 TE 908 9.4.2 CTS 234 SPLICE POINT RAYCIEM teCSF-N C OBSA 93 TE 907. TE 906 9.4.2 CT3 235 SPLICE POINT RAVCIEEM IdCSF-N C ISSA 60 TE 912 9.4.2 ATS 236 SPLICE POINT RAYCBEEN BECSF-Of C ISSA 55 TE 911 9.4.2

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22 feetest Caperstel CEsotER ITE C 38 61 4eeV ESF 9er CENST CTR MILD D

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25 IWFOR CW8teOL G88tER T 107 69 4eeV E.SF OST CENK CTR 8tILS O

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BLDG./RM/ELV OERVICE HLRSER CTS 045 TERMINAL SOARD BUCHANAN NQB104 M 447 104 SIM LIFE D ISL SYP VLV CV2280 17.4.2 CT3 047 TERMINAL BOARD SUCHANAN 9538104 M 449 104 STM LIFE S ISL SYP VLV CVZ278 17.4.2 CT3 075 TERMINAL aOARD SUCHAfe4AN NQB112 E 358 ACCLRt SAMPLE ISOL VLY.CV5652 17.4.2 CT3 076 TERMINAL 90ARD BUCHAfe4AN HQB112 E 358 54 RCS HOT LEG 21P I*,OL VLV.CV5655 17.4.2 CTS 077 TEletINAL 80 ARC SUCMAfetAN 98J8112 E 358 54 PZR LIQ SPCE 31P ISOL VLV.CV565 17.4.2 CT3 0 78 YERMINAL BOARD BUCHA794AN NQB110 E 158 PZR VAP SPACE ISOL VLV.CV5659 17.4.2 CTS 079 TERMINAL 90ARD BUCMAD94AN HQB112 E 358 54 RCDT Q1P TO AUTO GAS ANAL.CY566 17.4.2 CT3 104 TERMINAL 80ARD GE NO NAMEPLATE C 77 105 IIS S CONT FOR PfVC 1428 MILO CTS 110 TERPflNAL BOARD SUCHANAN C 45 77 QRM TO C20 MILD CTS 203 OPLICE POINT RAYCHEM HCOF-N C ISOA 60 TE421A-HOT LEC RCS 9.4.2 CT3 204 OPLICE POINT RAYCHEM MCOF-N C 1804 62 TE4218-COLD LEG RCS 9.4.2 CTS 205 LPLICE POINT RAYCH[M HCSF-N C IBSA 62 TE4204-MOT LEC RCS 9.4.2 CTB 206 SPLICE POINT RAYCHEM HCSF-N C 180A 62 TE4208-COLD LEC RCS 9.4.2 CT3 207 SPLICE POINT RAYCH[M MCST-N C ISOA 62 TE413A-HOT LEG RCS 9.4.2 CTS 208 OPLICE POINT RAYCHEM MCSF-N C 180A 62 TE425A-MOT LEG RCS 9.4.2 CTS 209 OPLICE POINT RAYCHEM MCOF-N C IBOF 45 TE4338-COLD LEG RCS 9.4.2 CIS 210 SPLICE POINT RAYCHEM MCSF-N C 180A 60 TE4438-COLD LEC RCS 9.4.2 CTB 218 OPLICE POINT RAYCMEM HCSF-N C 0808 84 TE415A-HOT LEG RCS 9.4.2 CTB 219 LPLICE POINT RAYCHEM MCSF-N C 0B08 77 TE421A SCS HOT LEG 9.4.2 e BUILDING CODES A= AUXILIARY CaCONTAlfGENT E= ELECTRICAL FsFUEL M4tAIN STEAM PrPIPE TsTUpBItE CWtERIC COMPONENTS UMD SUILDING PE9ETRATION SUILDING SUPPORT PL*ETRATION SUILDING IN MAft( LOCATIONS STRUCTURE Sh C ed 93 :3 C CL f4 f1

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C7/26/83

$HEET 9 OF 65 l

TABLE 3-2 l

ELECTRICAL EQUIPMENT EPUIROP9 ENTAL QUALIFICATION 10 CFR 50.49 MASTER LIST l

l LOCATION EQG i

PLANT ID 8 COP 90pKNT MApeXACTURER MODEL

BLDG./Rrt/E LV

4RVICE tarSER l

l CTS 4 76 TERPtINAL BOARD BUCHANAN HQB112 P 219 77 CV-10014 CHLD NTR RTN 17.4.2 CT3 477 TERPtINAL 80ARD BUCHANAN HQB112 P 219 77 CV-10015 CHLD NTR OPLY 17.4.2 CT3 493 TERftINAL 80ARD BUCHANAN NQB106 M 446 104 SV-22778/5V-4471 17.4.2 CT8 701 TERetI:4AL 80ARD NO NAMEPLATE T 90 45 AFN Ptr DSL CONT ttILD CTS 705 SIGNAL CONVERTER MOODNARD 8271-179 T 90 45 AFN PPP DSL $ PEED CONTROLLER MILD CTS 704 TERP11NAL BOARD /IOL DIODE TS FIELD FABRICATED DIODE IRC 40HF100 T 90 45 AFN FMP DSL 24 VDC PNR SUSES MILD CTS 706 TERMINAL 80AFD CE ES-5 Y 90 45 AFN Ptf DOL ST CONT 13.4.2 CTS 731 TERPtINAL BOARD CE ES-5 T 113 93 FDM A FDM SYP CONT YLYS 15.4.2 BZ 01 PENETRATION ArrMENOL 50001326-05 C

08".8 66 CHAN 8 PNR & CONT 8.4.2 82 05 PEfETRATION AMPHF.MOL 50003526-05 C 08'8 66 CMAN 8 PNR & CONT 8.4.2 BZ 05 PEDETRATION AMPHENOL 50005326-01 C 0808 66 CHAN 8 PNR 8.4.2 BZ 06 PEN [TRATION APPHENOL 50003526-06 C 0808 61 CHAN 8 I ETRM 8.4.2 BZ 07 PENETRATION AfrHENOL 50003326-04 C 0808 61 CMAN 8 IfGTRet 8.4.2/3.4.2 82 08 PENETRATION CONAX 7N95-10000-02 C 0808 54 CHAN 8 IETSPt 77.4.2 C

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5 A CONTROL PANEL C 51 93 CONT RM CEL.TURS-GEN ttILD e BUILDING CODE: AsatfKILI ANT CsCONTAIpeENT E=E1ECTRICAL F =FtE L M4tAIN STEAM PzPIPE T=TURBIPE C=CENERIC COMPOFENTS TEED BUILDItG PEDE T RATION BUILDING

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BLDG./RtVE LY SERVICE taESER C

5 8 CD4 TROL PAPEL C 53 95 CD4T RM CPGL TURS-CEN HILD C

6 CONTROL PArKL C 51 91 PAM sPRM 16I MILD C

7 A CD4 TROL PAPEL C 53 77 POST LOCA H2 REC 0tBIPKR CHM 4 A MILD C

7 8 CpiTEOL PAtKL C 55 61 POST LOCA h2 REC 0tBIPER CHAN 8 MILO C

9 A CONTROL PAPEL C 53 95 PAM EARM 1548 MILD C

9 8 CONTROL PANEL C 53 93 PAM #ARtt 1589 MILD C

11 A CO(TROL PAtKL C 53 93 vtRT BD.FR.ELEC MILD C

11 8 CONTROL PArKL C 51 95 VERT SD. TR.[LEC HILD C

32 A CONTROL PAtKL C 53 93 REAC CD4T A ItGTR CVCS HILD C

12 8 CaiTROL PMEL C 53 95 REAC CONT 4 ItGTR CVCS MILD C

13 A CG4 TROL PAPKL C 55 95 WRT StCHED.RCS S PRSRZ MILD C

II 8 CONTROL PAPKL C 53 93 YERT BFCISD.RCS S PRSRZ MILD C

35 8 CO4 TROL PAPEL C 51 93 VERT 8tCH. T-C ALDC MILD C

16 CONTROL PAtKL C 51 95 VERT 88CISO CRCLT NTR CLC THR HILD C

36 A CONTROL PAPEL C 53 95 VERT BPCHBD.CRCLT HTR CLC THR HILD C

17 A CofffROL PAtKL C 53 93 PLANT AUX. HVAC. RAD M MILD C

17 8 CONTROL PAtKL C 51 91 PLAT 4T AUX HVAC. RAD H ttILD C

18 A CONTROL PMKL C 53 93

$N SYS VERT CONT BD MILD C

18 8 CONTROL PAPEL C 53 93 LM SYS VERT CONT BD MILD e BUILDIIG CODES A s ALFKILI ARY C=CO(TAlt9ENT ErfLECTRICAL F=REL M= MAIN STEAM P= PIPE T=TURBIFK C=CErKRIC COMP 0tKNTS LEED BUILDItG PEtKTRATION BUILDING SUPPORT PEPETRATIO4 BUILDItG IN Mat # LOCATIOtG STRUCTURE S

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19 A CONipOL FAIEL C 53 95 ESF MILO C

19 8 CONTROL PApKL C 53 95 ESF MILS C

29 CONTROL PAfEL C 51 95 PArt i AfWt 11.12.133 MILD C

21 A CONTROL PANEL C 53 93 880 88. REAR MILD C

21 S CONTROL PApEL C I-3 93 SNCMBS. MAR MILS j

C 22 A CONTROL PAsEL C 53 93 BNC8sSO. REAR MILD C

22 S Carmol PasEL C 53 95 SNDet. REAR MILD j

C 23 CONTROL PAsEL C 51 95 feeCONT 30. SEAft MILS C

23 A CONTROL PAsEL C 53 95 BNDeS. REAR flILD C

24 CONTm0L PAsEL C 53 95 podCONT to. REAR MILS C

25 CONTROL Paes[L C 53 95 pos CONT 90. SEAR MILD C

26 CONTROL PASSEL C 51 95 P96 CONT 90. REAR MILD C

27 A C(pfTROL PAfEL C 53 93 aseDee REAR MILS C

27 C CruffROL PANEL C 53 95 3880e8. REAR MILD C

28 A CONTROL PafdLL C 55 95 sesasse. REAft etILS C

28 S CONTuot PapeEL C 53 95 escues. SEAR MILS C

29 CONTROL PA8EL C 55 95 assues. REAR MILD C

29 A CONTROL PA8EL C 53 93 nam. MAR MILS C

29 S CONTROL PANEL C 53 93 080080. REAR MILS e SUILDIssG CODES A=AUKILI AdPT C=CONTAISSE9ff E* ELECTRICAL F=FtE L M=#taits STEAft P PIPE T=TURBIteE G=CEpfRIC Cof90NENTS LEES DUILDIedG PE9ETRATICBE SUILSIteG 21PPORT PL9ETRATICBf SUILSING IN ft4NY LOCATIGG SiaWCTURE

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% B CONTROL PMEL C 55 95 PROT MT II MILD C

% C CONTROL PAtKL C 53 93 PROT MT III MILD C

% 0 C0390L PAtKL C 53 95 PROT ' T IV MILD l

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% AS CorHROL PAPEL C 53 95 IND & CONT RACK. PROT MILD C

h A6 CON!ROL PAPEL C 55 13 PRCS IND 8 CD4T RACK. CONT GRP1 MILD C

% B1 CORROL PMKL C 53 95 PEDT LET II. RACK 6 MILD C

% B2 CDRROL PAPEL C 53 91 INSTM A CEHT R&CK PROT MILD C

% B5 CDdTROL PAtEL C 51 93 PECS DO 8 con PROT " T MILD l

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% B5 CornROL PAtKL C 55 95 PROT "l T II. RACK 10 MILD C

% SF CONTROL PMEL C 53 93 PSCS CD4T GROUP II. BACK 22 MILD C

% C1 COPITROL PAtKL C 53 91 PRC5 IRC PROT *l T III. RJfK 11 MILD C

h C2 CornROL PAtKL C 53 95 PRCS ISC PROT ' T III. RACK 12 MILD l

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% DI CONTROL PAsEL C 53 91 PRCS IEC PROT SET IV RACK 14 MILD C

56 D2 CONTROL PAREL C 55 93 PRCS IND S CONT PROT "JT 4 MILD C

54 05 CONTROL PANEL C 53 95 PRCS ISC PROT "A T III RACK 16 MILD C

56 D4 CONTROL PAPEL C 53 91 PRCS Isc CONT CRP IV RACK 28 MILD C

% 05 CtMTROL PANEL C 53 91 PRCS Ipe & CONT GRP IV P'ILD C

h D6 CONTROL PANEL C 53 95 PRCS ISC CRP IV VCT LYL IND MILD C

M A CONTROL PAtEL C 55 95 PROT STS TEST CA8 MILD C

40 S CONTROL PAPEL C 55 95 PROT SYS TEST CAB MILD C

42 CONTROL PMEL C 53 95 "AI:;MIC PRC MILD C

44 8 CONTROL PANEL C 53 93 ALM SAFECUARDS CAB MILD C

45 A CONTROL PANEL C 51 91 ALM SATECUARDS MILD C

44 A CtMTROL PANEL C %

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44 S CONTROL PANE L C %

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48 8 COtHROL PAsEL C %

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49 A CONTROL PAtKL C 53 93 SOPS

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49 8 CONTROL PAtKL C 53 93 SOPS MILD C

60 A CONTROL PMKL C 53 93 RYLIS MILD C

60 $ CORROL PAtKL C 53

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% A CONTROL PAPEL C 53 95 ISLN I/O TO TSC CPU MILD C

M S CONTROL PAtKL C 53 93 ISLN I/O TO TOC CPU MILD C

101 CONTROL PAtKL T 85 45 00L CEN 81 EXCITER MILD C

102 CONTROL PAPEL T $6 45 DSL GEN 8 2 EXCITER MILD C

121 COPHROL PAfEL C 38 65 REAC TRIP "jct.tte BRKR MILD C

122 CONTROL PAtKL C 38 65 REAC TRIP $NGR. SACK-UP BRKR MILD C

160 A CO** TROL PA>KL T C160 45 Af N Cart & Aux "JfTore Ptt MILD C

160 $ CONTROL PANEL T C160 45 AfN CONT & AUX $HTDN PNL MILD C

219 COUROL PAtKL DK Q1Apos N/A F 234 45 "Je SYS STR s 1 CONT "JE E-2 C

220 COPHROL PAtKL F 2%

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LOCATION EQS PLANT ID 8 COff0fENT mat 3JFACTURER NODEL

BLOG./RM/ELY SERVICE NUMBER

-CTS 204 SPLICE POINT RAYCHEM HCSF-N C IBSA 60 TE43IB COLD tEG 9.4.2 CTS 205 SPLICE POINT RAYCHEM HCSF-M C IBSA 60 TE430A HOT LEG 9.4.2 CTS 206 SPLICE POINT RAYCHEM HCSF-N C IBSA 60 TE4300 CCLD LCG 9.4.2 CTB 210 SPLICE POINT RAYCHEM HC!i-N C 0B08 60 LT 461 PT 457 9.4.2 CTB 228 SPLICE POINT RAYCH99 HCSF-N C OBSi 50 PT964 9.4.12 CT3 401 TERftINAL BOARD N/A A 137 5

FT971A A S EXEMPT CV 3004 Al NOTOR OPERATED VALVE LIMITORQUE SMS-000 M 438 59 STM GEN E201A FROH TD AFH PHP 64.4.2 CV 3004 A2 NOTOR OPERATID VALVE LIMITORQUE stb-000 M 438 59 STM CEN 2201A FROM DD AFH PMP 64.4.2 CV L004 B1 ti1 TOR OPERATED VALVE LIMITORQUE SMB-000 N 441 59 STM GEN E2018 7 ROM TD AFM PHP

" 4.2 CV 3004 B2 HOTOR OPERATED VALVE LIMITORQUE St1B-000 M 441 59 STM GEN E2018 FROM DD AFH PHP 64.4.2 CV 3004 C1 MOTOR OPERATED YALYZ LIMITJRQUE Ste-000 M 440 59 STM GEN E201C FROM TD AFH PMP 64.4.2 CV 3004 C2 NOTOR OPERATED VALVE LIMITORQUE SMB-000 M 440 59 STM GEN E201C FRON 00 AFH Pt1P 64.4.2 CV 3004 D1 t10TOtt OPERATED VALVE LIMITORQUE Ste-000 M 439 59 STM GEM E201D FROM TD AFH Pt1P 64.4.2 CV 3004 02 NOTOR OPERATED VALVE LIMITORQUE StO-000 M 439 59 STM GEN E2010 FROM 00 AFH PHP 64.4.2 CZ 06 PEFETRATION AMPitENOL 50003326-07 C 0808 54 CHAN C ItGTRM 8.4.2 CZ 07 PEPETRATION AMPHENOL 50003326-08 C OBSB 54 CHAN C ItGTRM 8.4.2/3.4.2 0

9 DISTRIBUTION PAPEL C 38 61 125 V EMER LIGHTItG HILD 0

10 DISTRIBUTION BUS EDC)

GENERAL ELECTRIC C 38 65 125V DC CONT CTR BUS MILD D

10 X 125 VDC PArEL C 38 65 DC PNL FOR DIO FOR B2KR MILD o BUILDItG CODE:

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11 125 VOC BATTERY C & 8 SATTERIES C 39 65 SUS DIO, D30 STRY MILD 8

12 125 VOC SATTERY C & D SATTERIES C 40 65 9US D20, D40 STRY MILD 0

20 sISTRIeUTION BUS IBC)

GE9ERAL ELECTRIC C 38 65 125V CONT CTR SUS MILD D

29 X 125 VOC ftNEL C 38 65 PC HL FOR DIO FDR BAKR MILD 0

2eSees DC AfGETER C 38 61 STRY SZ CUR LOAD MILD D

21 SATTERY CNARGER Post CONVERSION PROD.

C 38 65 125V STRY CMGst MILD D

22 SATTERy r-R Pee CindVERSION PROD.

C 38 65 125V STRY CMGR MILD D

23 SATTElty rmR pee CONVERSION PROD.

C 38 65 125V STRY CHGR HILD 0

24 SATTERy r m a Post CONVERSION PROD.

C 38 65 125V STRY CMGR MILD D

30 SISTRISUTION SUS (DCl GENERAL ELECTRIC C 38 65 125V LONT CTR SUS MILD D

30 X 125 VOC PA0EL C 38 65 DC Pla. FOR D30 FOR S E R MILD 0

4e sISTRIaUTION SUS ISC)

GENERAL ELECTRIC C 38 65 125V CONT CTR SUS MILD D

MB X 125 VOC PAsEL C 38.

65 DC PteL FOR D 40 Fest BAKR MILD 0

62 LIGI8 TING PAIEL C 38 61 CONTROL SLDC MILD D

63 LIGetTING PatCL F 281 43 FUEL SLDG SEE E DM lotsarat SafrER MOTOR C 53 93 OUTSIDE AIR OpWR,CS-2 MILD SPE 10250C33 BAfrER MOTolt C 53 93 Ft2E 88000 E)st FAN CONT CS-3 MILD Brg 19254C96 SafrER MOTOR C 53 93 TOILET Del FAN CONT CS-4 MILD

SUILSIse3 CODE A=AUKILIARY C=CaedTAlseEsfT E= ELECTRICAL F= FUEL M: MAIN STEAft P= PIPE

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BLDG./RM/ELY SERVICE BAR1BER DM 10251 A DAPPER P10 TOR C 53 95 OUTSIDE AIR DNPR. CB-1 MILD DM 10251 8 DAMPER tt0 TOR C 53 93 OUTSIDE AIR DNPR, CS-1 MILD DM 10501 DAMPER MOTOR C 53 93 RECIRC AIR DNPR CS-2 ftILD DM 10502 DAMPER MOTOR C 53 95 RECIRC AIR DNPR CB-2 MILD DH 30501 DAffER POTOR C 53 93 D01 AIR DNPR C8-12 MILO Ot 10504 DArfER tt0' w C 53 93 SPLY AIR OtPR CB-2 ftILD CT3 203 SPLICE POIN.

RAYCHEtt HCSF-N C IBSA 60 TE441A HOT LEG 9.4.2 CT3 204 SPLICE POINT RAYCHEM HCSF-N C IBSA 60 TE4418 COLD LEG 9.4.2 CTS 205 SPLICE PO NT RAYCHEM HCSF-H C IBSA 60 TE440A HOT LEG 9.4.2 CT3 206 SPLICE POINT RAYCHEM HCSF-H C IBSA 60 TE4408 COLD LEG 9.4.2 CTS 210 SPLICE POINT RAYCHEM HCSF-6 C 0008 72 PT 458 9.4.2 CT3 228 SPLICE POINT RAYCHEM HCSF-N C OBSF 50 PT967 9.4.12 CTS 401 TERttINAL BOARD N/A A 137 5

FT970 A A 8 EXEMPT DZ 06 PEPETRATIG4 AMPHENOL 50003326-07 C 0B08 54 CHAN O IfGTRM 8.4.2 DZ 07 PEtETRATION AMPHENOL 50003326-09 C 0B08 54 CHAN D ItGTkd 8.4.2/3.4.2 FIS 610 FLOH IPOICATION SMITCH BARTON 288A A 137 5

P202A EXEt9T FIS 611 FLOH IrmICATIG4 SMITCH CART 0t4 288A A 237 5

P2028 EXEMPT FIS 3004 Al FLOM INDICATION SMITCH 8ARTG4 580A-0 ft 438 59 AFM TO STM CEN A FROM P102A 60.4.2 FIS 3004 A2 FLOH INDICATIG4 $ HITCH BARTON 580A-0 ft 438 59 AFH TO STM CEN A FR0tt P1028 60.4.2 o BUILDING CODE A=ALIKILIARY CzCORAltt1ENT E* ELECTRICAL Fs FL:EL H=ttAIN STEAtt P PIPE T=TUR8ItE C=CEFERIC COttP0 TENTS LEED BUILDItG PERETRATION BUILDIPC SUPPORT PEtETRATION BUILDItG IN mat # LOCATI0tG STRUCTURE o

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FLOM TRAN2 TITTER FoxBORO E13DN C OBSF 45 RCS L3 COLD LEG EXEMPT FT 415 FLOM TRAM 2 TITTER F00SORO E13DH C OBSF 45 RCS L3 COLD LEG EXEteT FT 436 FLOM TRAN2 TITTER FOXBORO E13DH C OBSF 45 RCS L3 COLD LEG EXEteT FT 444 FLOM TRAN2 TITTER FOMBORO E13DH C OBSF 45 RCS L4 COLD LEC EX*T T FT 445 FLOM TRAfCtITTER FoxBORO 2130H C OBSF 45 RCS L4 COLD LEG EXEMPT FT 446 FLOM TRAN9 TITTER FOMBORO E13DH C OBSF 45 RCS L4 COLD LEG EXEMPT

SUILDING CODES A=AUKILIARY C=CONTAIIeENT E= ELECTRICAL F= FUEL MzMAIN STEAh P= PIPE T=TURBIPE G:CEPERIC COPPONENTS USED BUILDING PENETRATION BUILDING SUPPORT PE9ETRATION BUILDING IN MANY LOCATIONS STRUCTURE E it C G CL S

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FT 512 FLON TRAtCMITTER BARTON 7M C OBSF 45 STM GEN LP 1 38.4.2 f

FT 513 FLON TRArcitITTER BARTON 7M C OBSF 45 STM CEN LP 1 38.4.2 l

FT 520 FLON TRAlcitITTER BARTON M4 T 103 68 STM GEN :* 2 FDH/FS ttISttATCH HILD FT 521 FLOH TRAFEMITTER SARTON 384 T 103 68 Sm CEN Le 2 FDH/FS HISitATCH PtILD FT 522 FLON TRAPCMITTER SARTON 7M C OB"F 45 STM CEN LP 2 38.4.2 l

FT 523 FLCH TRAPCMITTER BARTON 7M C OBSF STM GEN LP 2 38.4.2 FT 530 FLOM TRAPCMITTER BARTON 384 T 103 63 STM GEN LP 3 FDH/FS HISMATCH MILD FT 531 FLOH TRAftetITTER BARTON 384 T 103 63 STM GEN LP 3 FDH/PS HISMATCH NILD FT 532 FLON TRAPCitITTER BARTON 7M C OBSF 45 STM GEN LP 3 38.4.2 FT 513 FLOM TRAPCMITTER BARTON 7M C OBSF 45 STM GEN LP 3 38.4.2 FT 540 FLOH TRAtCHITTER BARTON 384 T 103 63 STM CEN LP 4 FDH/FS MISitATCH NILD FT 541 FLON TRArcitITTER BART0t4 384 T 103 63 STM CEN LP 4 FDH/TS MISitATCH HILD FT 542 FLCH TRAPCitITTER BARTON 7M C OBSF 45 STM CEN LP 4 38.4.2 FT 543 FLOH TRAtCMITTER SARTON 7M C OBSF 45 STM GEN LP 4 38.4.2 FT 600 F10H TRAtCMITTER BARTON 384 F 234 45 RHR HOT LEG Itt24 EXEMPT FT 918 FLG4 TRAlcitITTER BARTON 384 A 137 5

SI PHP A DISCH EXEMPT FT 922 FLOH TRArcitITTER BARTON 384 A 137 5

SI PHP S DISCH EXEttPT O SUILDItG CODE: A*ALMILIARY C=CG4 TAIT #1NT ErELECTRICAL F= FUEL HzHAIN STEAft P= PIPE T=TURBItE CzGEtERIC COMPONENTS USED BUILDING PEtETRATION BUILDING SUPPORT PEtETRATIG4 BUILDIfC IN MANY LOCATI0tG STRUCTURE o

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LOCATION EQS l

PLANT ID 8 COW OMENT MANUFACTURER MODEL

BLDG./RM/ELY SERVICE NUteER i

FT 970 A FLOM TRANSMITFER SARTON 384 A 137 5

RHR TRAIN 8 CUT EXEMPT FT 970 8 FLOM TRANSMITTER BARTON 384 A 137 5

RHR TRAIN 8 OUT EXEMPT FT 9 71 A FLOM TRAfrAITTER BARTON 384 A 158 5

RHR TRAIN A OUT EXEW T FT 971 S FLOM TPANSMITTER SARTON 384 A 158 5

RHR TRAIN A OUT EXEMPT FT 2079 A FLOM

IRAN 2 TITTER ROSEM0m T 1153HA6 A 141 30 SPRAY ADDITIVE PLM A DISCHARGE 39.4.2 FT 2079 8 FLIF TRANSMITTER ROSEMotMT 1153HA6 A 143 30 SPRAY ADDITIVE Ptw B DISCHARGE 39.4.2 FT 3043 A FL' A TRANSMITTER FOXBORO N-E13DM M 442 70 AFM FL TO STM GEN E201A 14.4.2 FT 1943 a ft0M TRANSMITTER FG>3ORO N-E130M M 445 70 AFM FL TO STM GEN E2018 14.4.2 1

FT 3043 C FLOM TRANSMITTER FOXBORO N-E13DM M 444 70 AFM FL TO STM GEN E201C 14.4.2 FT 3043 9 FLOM TRAfCHITTER FOXBORO N-E13Det M 443 70 AG4 FL TO STM GEN E2010 14.4.2 a

l FT 3043 E FLOM TRAN2 TITTER ROSEMOUNT 1153HA6 M 4M 59 AFM FL TO STM GEN E201A 39.4.2 FT 3043 F FLON TRANSMITTER ROSEMOLNT 1153HA=

M 441 59 AFM FL TO STM GEN E2015 39.4.2 t

FT 3043 G FLOM TRANSMITTER ROSEMOLMT 1153HA6 M 440 59 ATM FL TO STM GEN E201C 39.4.2 FT 54M3 N FLOM TRANSMITTER ROSEMANT 1153HA6 M 439 59 AFM FL TO STM GEN E2010 39.4.2 FY M36 I/P CONVERTER FISHER TYPE 146 A 137 5

RHR HT EXCHR A OUT EXEtPT-FY 607 I/P CONVERTER FISIP7 TYPE 546 A 137 5

RHR HT EXCHR S OUT EXEMPT

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G 101 DIESEL GEMRATOR St NO NAM PLATE T 85 45 EMER Pest TO SUS Al MILD G

102 EXCITER T 85 45 DSL GEN 8 1 MILD 6

103 GROUpeING RESISTOR GE 275X630C177 Y 85 45 DSL GEN 8 1 NEUTRAL HILD a SUILDING CODE A=AUKILIARY C=CONTAIEENT E= ELECTRICAL F. FUEL MzMAIN STEAL.

P= PIPE TaTURSINE G= GENERIC COFPONENTS USED

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'eon u OD LOCATIOtt EQS PLAT 4T 10 8 CG1PONENT MAPAAFACTURER MODEL

BLDC./ Ret /E LV SERVICE PAA1BER G

201 DIESEL GENERATOR 82 NO NAr*EPLATE 7 86 45 EMER POHER TO BUS A2 MILD G

202 EXCITER T 86 45 DSL CEN 8 2 MILD 0

203 CROtrCIPC RESISTOR GE 275X630C377 T 86 45 DSL GEta 82 NEUTRAL Mith LIS 896 LEVEL IPOICATING $ HITCH BARTON 581-4 E 358 56 RVLIS HYD ISLN OVERTRAVEL 57.4.2 LIS 897 LEVEL INDICATIPC SHITCH BARTON 581-4 E 358 56 RVILS HYO ISLN OVERTRAVEL 57.4.2 LIS 898 LEVEL INDICATING SHITCH BARTON 581-4 E 358 56 RVILS HYD ISLf4 OVERTRAVEL 57.4.2 LIS 916 LEVEL INDICATIPC SMITCH BARTON 581-4 E 358 45 RVILS HYD ISLf4 OVERTRAVEL 57.4.2 LIS 920 LEVEL INDICATItC SHITCH BARTON 581-4 E 358 45 RVLIS HYO ISLN OVERTRAVEL 57.4.2 LIS 921 LEVEL INDICATING SCTCH BARTON 581-4 E 358 45 RVLIS HYD ISLf4 OVERTRAVEL 57.4.2 LIS 3216 LEVEL INDICATIPC SHITCH BARTON 288A P 219 77 CCH SURGE TK T204A 33.4.2 LIS 3217 LEVEL INDICATItC SHITCH BARTON 288A P 219 77 CCH SURGE TK 2048 33.4.2 LS 3752 A LEVEL SHITCH BARTON 28CA F 234 45 ALDC BLDG HI LYL 33.4.2 LS 3752 8 LEVEL SMITCH BARTON 288A F 234 45 AUX BLDG HI LYL 33.4.2 LS 4905 A LEVEL SHITCH BARTQ4 288A T 85 45 EDG TK LVL T-111A 33.4.2 LS 4905 8 LEVEL SHITCH BARTON 288A T 86 45 EDC TK LYL T-1118 33.4.2 LS 4909 A LEVEL SMITCH BARTON 288A T 90 45 DSL DAY TK T-152 LYL 33.4.2 LS 4909 8 LEVEL SHITCH BARTON 288A T 90 45 DSL DAY TK T-152 LVL 33.4.2 LS 4911 A LEVEL $ HITCH SARTON 288A T 85 45 DAY TK T-111A BACK UP 33.4.2 LS 4911 8 LEVEL SMITCH AARTON 288A T 86 45 DAY TK T-1118 BACK UP 33.4.2 o SUILDItC CODE: A=AtNILIARY C=CD4TAltefNT E= ELECTRICAL F= FUEL M: MAIN STEAM PzPIPE T= TURBINE G= GENERIC COMPO4ENTS USED BUILDItG PENETRATION BUILDING SUPPORT PEFETRATIOtt SUILDItG IN MANY LOCATIOtG STRUCTURE o

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C7/26/88 SHEET 23 OF 65 TABLE 3-2 ELECTRICAL EQUIPNENT EtWIRota1 ENTAL QUALIFICATION 10 CFR 50.49 MASTER LIST LOCATION EQS PLANT ID 5 COMP 0 TENT MAtAJFACTURER t10DE L

BLDG./Rtt/ELY SERVICE PAJt1BER LS 5201 C LEVEL SHITCH ROCHESTER ET-1214 T 90 45 Ct4DS STOR TK LVL MILD LS 5265 LEVEL SNITCH ROCHESTER ET-1214 T 90 45 CNOS STOR TK LVL MILD LT 185 LEVEL TRAPCMITTER BARTON 345 F 254 41 VCT LVL EXEMPT LT 459 LEVEL TRAPGttITTER BARTON 7M C 0808 PZR LVL 38.4.2 LT 460 LEVEL TRAPCitITTER SARTON 7M C 0B08 60 PZR LVL 38.4.2 LT 461 LEVEL TotANSMITTER BARTON 7M C OBS8 PZR LYL 38.4.2 LT 501 LEVEL TRANSitITTER BARTON 7M C OBSF 48 STM CEN LP 1 LEVEL 38.4.2 LT 502 LEVEL TRArcitITTER BARTON 7M C OBSF 48 STM CEN LP 2 LEVEL 38.4.2 LT 503 LEVEL TRAtcttITTER BARTON 7M C OBSF 48 STM GEN LP 3 LEVEL 38.4.2 LT 504 LEVEL TRAFCMITTER BARTON 7M C OBSF 48 STM CEN LP 4 LEVEL 36.4.2 LT 517 LEVEL TRAPCitITTER BARTON 7M C OBSF 45 STM CEN LP 1 CHAN D 38.4.2 LT 518 LEVEL TRAPCMITTER BARTON 7M C OBSF 45 STM CEN LP 1 CHAf4 C 38.4.2 LT 519 LEVEL TRAPCitITTER BARTON 7M C OBSF 45 STM GEid LP 1 CHAF4 8 38.4.2 LT 527 LEVEL TRAFCitITTER BARTON 7M C OBSF 45 STM CEN LP 2 CHAN O 38.4.2 LT 528 LEVEL TRAttttITTER BARTON 7M C OBSF 45 STM GEN LP 2 CHAN C 38.4.2 LT 529 LEVEL TRAPCitITTER BARTON 7M C OBSF 45 STM CEN LP 2 CHAN A 38.4.2 LT 537 LEVEL TRAPCMITTER BARTON 7%

C OBSF 45 STM CEN LP 3 CHAN D 38.4.2 LT 538 LEVEL TRAPCitITTER BARTON 7M C OBSF 45 STM CEN LP 3 CHAF4 C 38.4.2 LT 539 LEVEL TRAtcetITTER BARTON 7M C OBSF 45 STM GEN LP 3 CHAN A 38.4.2 l

e BUILDIPC CODE:

A= AUXILIARY C=CQ4TAItafNT E= ELECTRICAL F= FUEL MzMAIN STE?.ft PzPIPE TzTUR8INE G=CENERIC COMPONENTS USED BUILDItC PENETRATION BUILDIPC TAJPPORT PENETRATION BUILDIFC IN MANY LOCATIONS STRUCTURE a ;i.

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BLDG./Rtt/E LY SERVICE Nut:BER LT 547 LEVEL TRAtCMITTER BARTON 7M C OBSF 45 STM GEN LP 4 CHAN D 38.4.2 LT 548 LEVEL TRAtcitITTER BARTQ4 7M C OBSF 45 STM CEN LP 4 CHAti C 38.4.2 LT 549 LEVEL TRAtCitITTER BARTON 764 C OBSF 45 STN GEN LP 4 CHAN 8 38.4.2 LT 893 LEVEL TRAlcitITTER BARTQ4/HESTINCHOUSE 752 A 209 77 RVLIS LYL MtTR HILD LT 894 LEVEL TRAPCatITTER BARTON 752 A 209 77 RYILS LYL XHTR HILD LT 895 LEVEL TRAtCitITTER BARTON 752 A 209 77 RVILS LYL X'tTR HILD LT 913 LEVEL TRArct1ITTER BARTON 752 A 203 61 RVLIS LVL M1TR MILD LT 914 LEVEL TRAFCi1ITTER BARTON 752 A 203 61 RVLIS LVL Xt1TR ttILD LT 915 LEVEL TRArcitITTER BARTON 752 A 203 61 RYLIS LYL MtTR MILD LT 1898 LEVEL TRAtcrtITTER C LRTrX4 386 O OUT 45 RHST LYL MILD LT 18'9 LEVEL TRAPCttITTER BARTON 386 O CUT 45 REFUEL HTR STOR TK LVL MILD LT 1900 LEVEL TRA!CttITTER BARTON 386 0 OUT 45 REFUEL HTR STOR TK LYL MILD LT 1901 LEVEL TRAtCttITTER t5ARTON 386 0 OUT 45 REFUEL HTR STOR TK LYL HILD LT 2069 A LEVEL TRAttitITTER FISHER / PORTER 13D2493 A 143 25 SODIt21 HYDROXIDE TK LVL EXEMPT LT 2069 8 LEVEL TRAttt1ITTER FISHER / PORTER 13D2493 A 143 25 SODIutt HYDROXIDE TK LVL EXEttPT LT 4208 Al LEVEL TRAPCitITTER BARTO8 7M C 0858 58 HTR LVL NARROH RFC 38.4.2 LT 4208 A2 LEVEL TRAPCMITTER BARTON/HESTI!CHOUSE 764tLOT4)

C OBSB 58 HTR LYL HIDE RFC 53.4.2 LT 4208 81 LEVEL TRAtCHITTER BARTON/HESTIPCHOUSE 764tLOT4B C 0B08 58 HTR LYL 74ARROH Ric 53.4.2 LT 4208 82 LEVEL TRAPCt1I1TER BARTON 7M C 0B08 58 HTR LYL HIDE RPG 38.4.2 o BUILDItG CODE:

A= AUXILIARY C=CONTAIt#1ENT E= ELECTRICAL F= FUEL H:NAIN STEAtt P= PIPE T= TURBINE G= GENERIC COMPONENTS USED BUILDItG PENETRATION BUILDItc SUPPORT PENETRATION BUILDItG IN 81ANY LOCATIONS STRUCTURE W

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C7/26/84 SHEET 25 0F 65 TABLE 3-2 1

I, ELECTRICAL EQUIPMENT ENVIRefetENTAL QUALIFICATION 10 CFR 50.49 MASTER LIST LOCATION EOS PLAffT ID 8 CWW4 PENT mar 4JFACTURER MODEL

BLDG./RM/ELY SERVICE NUtBER l

LT 4900 A LEVEL TRANSMITTER FISHER / GOVERNOR CO.

2340-5498P O OUT 45 DSL OIL STOR T-119A MILD LT 4900 8 LEVEL TRANSMITTER FISHER / GOVERNOR CO.

2340-34%P O CUT 45 DSL OIL STOR T-1198 MILD l

LT 5201 LEVEL TRANSMITTER ITT BAATON 7M 0 OUT 45 CteS STOR TK LYL/AFw TRIP 38.4.2 LT 5265 LEVEL TRANSMITTER ITT SAETON 7M 0 OUT 45 CteS STOR TK LVL/AFM TRIP 38.4.2 MF 101 A MOTOR E STINGHOUSE

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MF 101 5 MOTOR NESTINGHOUSE 580P O OUT 45 SH SYS STR MILD MFCY 610 MOTOR OPERATED VALVE LIMITORQUE 578-00 A 127 5

RHR RECIRC EXEMPT MFCV 611 MOTOR OPERATED VALVE LIMITORQUE Ste-00 A 122 5

RHR RECIRC.

EXEMPT MO 112 S MOTOR OPERATED VALVE LIMITORQUE StS-00 P 167 45 VCT DISCH EXEMPT MD 112 C MOTOR OPERATED VALVE LIMITORQUE Ste-00 P 167 45 VCT DISCH EXEMPT MD 112 9 MOTOR OPERATED VALVE LIMITORQUE Ste-O A 153 25 CCP SPLY FROM RMST EXEMPT MD 112 E MOTOR OPERATED VALVE LIMITORQUE Ste-O A 153 25 CCP SPLY FROM RNST EXEMPT MD 2050 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 A

3?*

5 REFUELING HTR TO CNT SPRY SY EXEMPT I

MD 2050 3 MOTOR OPERATED VALVE LIMITORQUE Ste-00 A 130 5

REFUELING MTR TO CNT SPRY SY EXEMPT MD 2052 A MOTOR OPERATED VALVE LIMITORQUE Ste-2 P 170 45 CNT SPRAY PtW8 A SUCT EXEt1PT MD 2052 8 MOTOR OPERATED YALVE LIMITONQUE Ste-2 P 169 45 CNT SPRAY Pts' B SUCT EXEMPT MD 2053 A MOTOR OPERATED VALVE LIMITORQUE SPS-1 P 170 45 CNT SPRAY RING HDR 1 INLET EXEMPT MD 2053 S MOTOR OPERATED VALVE LIMITORQUE Ste-1 P 219 77 CNT SF11tAY RING HDR 2 INLET EXEFFT MD 2056 A MOTOR OPERATED VALVE LIttITORQUE Ste-000 A 143 25

-SPRAY ADOITIVE EDUC SUCT EXEMPT l

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C7/26/88 SNEET 27 OF 65 TA8LE 3-2 ELECTRICAL EQUIPtENT ENVIROt4 ENTAL QUALIFICATION 10 CFR 50.49 MASTER LIST LOCATION EQS PLANT ID 8 COMOENT MAtAJFACTUREE MODEL e8LDG./RM/ELY SERVICE PAJtBE R MD 3293 MOTOR OPERATED VALVE LIMITORQUE Ste-000 C 08S8 81 TRAIN A CNT AIR CLR CLG MTR 45.4.2 NO 1294 HOTOR OPERATED VALVE LIMITORQUE Ste-00 C IBS 77 CCM TO RCP LO COOLER. LET ON HX 1.4.2 MD 3296 MOTOR OPERATED VALVE LIMITORQUE Ste-000 C IBS 77 CCM TO RCP LO COOLER. LET DN HX 3.4.2 MD 3500 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C IBS 77 CCM FM RCP LO COOLER. LET DN HX 1.4.2 MO 3301 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 C OBS8 81 CCM TO CNT AIR CLR 201A 1.4.2 MD 3101 8 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 0808 70 CCM TO CNT AIR CLR 2018 1.4.2 MO 3302 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 C IBSA 81 CCM TO CNT AIR CLR 201A 1.4.2 MO 3302 8 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 0808 69 CCM TO CNT AIR CLR 2018 1.4.2 MD 3305 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 0858 81 CCM TO CNT AIR CLR 202A 1.4.2 MD 3305 8 HOTOR OPERATED VALVE LIMITORQUE Ste-00 C OBS8 70 CCM TO CNT AIR CLR 2028 1.4.2 MO 3306 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 C OBS8 77 CCM FROM CNT AIR CLR 202A 1.4.2 MD 1306 8 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 0B08 69 CCM FROM CNT AIR CLR 2028 1.4.2 MD 3309 A MOTOR OPEdATED VALVE LIMITORQUE Ste-00 C OBS8 81 CCM TO CNT AIR CLR 203A 1.4.2 MD 3309 8 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C OBS8 70 CCM TO CNT AIR CLR 2038 1.4.2 HD 3310 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 C IBSA 81 CCM FROM CNT AIR CLR 203A 1.4.2 MD 3313 8 HOTOR OPERATED VALX LIMITORQUE Ste-00 C OBSS 69 CCM FROM CNT AIR CLR 2048 1.4.2 MD 3313 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 0858 81 CCM TO CNT AIR CLR 204A 1.4.2 MD 3313 8 MOTOR OPERATTO VALVE LIMITORQUE Ste-00 C 08S8 73 CCM TO CNT AIR CLR 2048 1.4.2 HQ 3314 A MOTOR OPERATED VALVE LIMITOrQUE Ste-00 C OBS8 81 CCM FROM CNT AIR CLR 204A 1.4.2 8 BUILDING CODE A= AUXILIARY C=CONTAlteENT E= ELECTRICAL F= FUEL MzMAIN STEAM P= PIPE T=TURSINE C=CENERIC COMPONENTS USED BUILDING PE E TRATION BUILDING SUPPORT PENETRATION BUILDING IN ttANY LOCATIONS STRUCTURE

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ELECTRICAL EQUIPMENT [t&IROt#1 ENTAL QUALIFICATION

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10 CFR 50.49 MASTER LIST on ui LOCATION EQS PLANT ID 8 COMPOPENT MANUFACTURER NODEL

BLOG./RP1/E LV SERVICE NUMBER 70 3314 8 HOTOR OPERATED VALVE LIMITORQUE stb-00 C 0858 69 CCH FROM CNT AIR CLR 2038 1.4.2

10 3120 MOTOR OPERATED VALVE LIMITORQUE 2B-000 C IBS 77 CCM FM RCP LO COOLER, LET DN HX 1.4.2 HQ 3346 MOTOR OPERATED VALVE LIMITORQUE Ste-00 P 168 45 CCH ISL-CLASS ItCNTI 46.4.2 FC 3347 HOTOR OPERATED VALVE LIMITORQUE Ste-000-5/408C C OBS8 62 TRAIN 8 CAC CLG HTR 45.4.2 to 4005 MOTOR OPERATED VALVE ROTORK 11 NAT 1 C OBSF 42 REAC COOL DR TK OUT 16.4.2 to 4180 MOTOR OPERATED VALVE LIMITORQUE stb-000 C OBSF 50 CNT SLR1P Pt1P DISCH 45.4.2 NO 4300 POTOR OPERATED VALVE LIMITORQUE SMB-000 C 0808 63 RAACT CAS CLTG HDR 45.4.2 to 4903 A HOTOR OPERATED VALVE LIMITORQUE SIB-000 T 85 45 INL TO T-111A MILD HQ 4903 8 910 TOR OPERATED VALVE LIMITORQUE SMB-000 T 86 45 IPA TO T-1118 MILD MD 4907 A MOTOR OPERATED VALVE LIMITORQUE Ste-OOO T 90 45 FR T-119A TO T-152 t1ILD to 4907 8 HOTOR OPERATED VALVE LIMITORQUE "MB-000 T 90 45 FR T-1198 TO T-152 MILD EO 5651 A POTOR OPERATED VALVE LIMITORQUE SMS-0C0 C OBSB 55 ACCUM T205A SMPL ISLN VLV 45.4.2 70 5651 8 HOTOR OPERATED YALVE LIMITORQUE Ste-000 C OBS8 55 ACCUM T2058 St1PL ISLN VLV 45.4.2 to 5651 C 710 TOR OPERATED VALVE LIMITORQUE SPB-000 C 0B08 55 ACCOM T205C SNPL ISLN VLV 45.4.2 MO 5651 0 POTOR On, RATED VALVE LIMITORQUE Ste-000 C 0B08 55 ACCUtt T205D St1PL ISLN VLv 45.4.2 PO 5653 HOTOR OPERATED VALVE LIMITORQUE "tB-000 C IBSA 54 RCS HOT LEG TO SMPL SYS 45.4.2 PO 5654 UTOR OPERATED VALVE LIMITORQUE SMB-OOO C IBSA 54 RCS HOT LEG TO St1PL SYS 45.4.2 to 5456 MOTOR OPERATED VALVE LIMITORQUE Ste-000 C IBSA 54 PRSRZ TO SMPL SYS 45.4.2 HG 5458 POTOR OPERATED VALVE LIMITORQUE Ste-000 C ISSA 54 PRSRZ TO SP1PL SYS 45.4.2 o BUILDItG COOE AzAUXILIARY CzCONTAIt#ENT E= ELECTRICAL F= FUEL M: MAIN STEAtt PzPIPE T=TURBIPE GrGEPERIC COMPOPENTS USED BUILDItG PENETRATION BUILDING SUPPORT PENETRATION

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LOCATION EOS' 1

PLANT IS S CGWGBENT MAIRIFACTURER MODEL eSLDG./RM/ELY SERVICE NUMBER M0 Mee MOTOR OPERATES VALVE LIMITon9UE

$86-000 C ISSA 59 ACST Sort TO AUTO GAS ANAL 45.4.2 MG M45 MOTOR OPERATED VALVE LIMIT 0ReuE See-000 A 226 95 CNT VENT RAS MON SPLY M.4.2 Se 5471 MOTOR OPERATES VALVE LIMITDAquE

$88-000 A 226 95 CNT VENT RAS MON RTN 46.4.2 MD 5d72 MOTOR OPERATES VALVE LIMITORGUE

$88-000 C OSSA 96 CleT VENT RA0 MON A NZ ANAL RTN 45.4.2 MO f475 M0(OR OPERATES VALVE LIMITORQUE See-000 C 09SA 95 CNT VENT RA0 MON SPLY 45.4.2 M0 M74 seTOR OPERATES VALVE LIMITORQUE Ste-000 C OSSB 62 H2 ANAL SPLY 45.4.2 se % 75 ISTOR OPERATES VALVE LIMIT 0AquE See-000 P 168 45 N2 ANAL SPLY 46.4.2-MO 5676 MOTOR OPERATES VALVE LIMITORGUE Ste-000 P 168 45 H2 ANAL RTM 44.4.2 MS M77 OWTOR OPERATES VALVE LIf8ITORGUE

$88-000 A 226 95 382 ANAL SPLY 4.4.2 MG M78 MOTOR OPERATES VALVE LIMIT 0AeUE 586-000 A 226 95 M2 ANAL RTM 46.4.2 peo 6716 MOTOR OPERATES VALVE LIMIYDAGUE Sae-000 M 454 62 STM GEN A SLOtel 46.4.2 00 0 6717 fGTOR OPERATES VALVE LIMIT 0 AGUE

$D9-000 M 457 59 STM GEN S SLBped

%.4.2 se 6714 se0 TOR OPERATES VALVE LIMITam4 F Se85-000 M 4%

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$88-00 C PRZR 77 PRSRZ TO PRSRZ RELIEF TK 45.4.2 MD asse S teTOR OPERATES VALVE LIMITORQUE

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,S 10 CFR 50.4? HASTER LIST LOCATION EQS PLAMT ID 8 COPPOtENT HAFAJFACTURER HODEL eBLDG./RtVE LY SERVILE NUtCER t10 8110 HOTOR OPERATED VALVE LIMITORQUE 2 6-00 A 151 25 CHG Pt1P HIN FL LN ISLN EXEHPT P10 8111 MOTOR OPERATED VALVE LIMITORQUE 2B-00 A 151 25 CHG PHP MIN FL LN ISLN EXEMPT HD 8112 NOTOR OPERATED VALVE LIMITORQUE 2 8-00 C OBS8 67 RCP SEAL HTR RETURN ISLN 45.4.2 MD 8700 A MOTOR OPERATED VALVE LIMITORQUE stb-3 A 125 5

RHR PHP A SUCT EXEMPT P10 8700 B MOTOR OPERATED VALVE LIMITORQUE 2B-3 A 123 5

RHR PtP B SUCT EXEMPT P10 8703 HOTOR OPERATED YALVE LIMITORQUE 2 0-2 P 168 45 RNR HOT LEG INJN 1.4.2 HQ 8716 A HOTOR OPERATED VALVE LIMITORQUE DB-2 A 127 5

MOT LEG IPLJN FROM TRAIN A PCR-86-132 PO 8716 S MOTOR OPERATED VALVE LIMITORQUE 2B-2 A 122 5

HOT LEG ItLJN FROM TRAIN B PCR-86-132 21 0 6801 A MDTOR OPERATED VALVE LIMITORQUE stb-0 P 168 45 BIT DISCH 46.4.2 HD 8801 8 HOTOR OPERATfD VALVE LIMITORQUE 26-0 P 168 45 BIT DISCH 46.4.2 PO 8802 A ROTOR OPERATED VALVE LIMITORQUE 26-0 P 185 63 SI TO HOT LEG 2 & 4 46.4.2 to 8802 8 HOTOR OPERATED VALVE LIMITORQUE 2B-0 P 185 63 SI TO HOT LEG 1 & 3 46.4.2 to 8803 A 710 TOR OPERATED VALVE LIMITORQUE 2 B-0 A 141 25 BIT INL 46.4.2 PO 8803 8 HOTOR OPERATED VALVE LIMITORQUE 2B-0 A 141 25 BIT INL 46.4.2 PO 8806 A POTOR OPERATED VALVE LIMITORQUE 26-2 A 127 5

RHR HX A Out' TO CHARG PPS PCR-86-132 t10 8804 8 POTOR OPERATED VALVE LIMITORQUE Ste-2 A 122 5

RMR HX B OUT TO $1 PPS PER-86-132 71 0 8806 POTOR OPERATED VALVE LIMITORQUE stb-0 A 121 5

SI PHP SUCT EXEMPT to 8807 A HOTOR OPERATED YALVE LIMITORQUE stb-00 A 121 5

SIP /CCP SUCT NCR-86-132 71 0 8807 8 710 TOR OPERATED VALVE LIMITORQUE 28-00 A 121 5

SIP /CCP SUCT PCR-86-132 o BUILDING CODE: A=AUKILIARY C=CONTAltafMT E= ELECTRICAL F= FUEL MzitAIN STEAM P PIPE T= TURBINE CzCEtERIC COMPOtENTS USED BUILDItG PEFETRATION BUILDING SUPPORT PEtETRATION BUILDItG IN P1ANY LOCATIOtG SIRUCTURE m

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8LDd. 4tM/ELV SERVICE NUtBER MD 8809 A MOTOR OPERATED VALVE LIMITORQUE SMB-3 P 170 45 RHR COLD LEG INJN NCR-86-132 MD 8809 8 M0!JR OPERATED VALVE LIMITORQLE

JS-3 P 169 45 RHR COLO LEG INJN NCR-86-132 MD 8811 A M TOR OPERATED VALVE LIMITORQUE Ste-1 P 170 45 RHR TRAIN A CNT SIA9 ISLN EXEMPT MG 8811 B PWTOR OPERATED VALVE LIMITORQUE Ste-3 P 169 45 RHR TRAIN 8 CNT St.RF ISLN EXEtFT MG 8812 MOTOR OPERATED VALVE LIMITORQUE Ste-3 A 14.s 25 RHR Pff SUCT EXEMPT MD 8813 MOTOR OPERATED VALVE LIMITORQUE "JS-00 A 148 25 SI Per HIN FL LN ISLN EXEMPT MD 8814 MOTOR OPERATED VALVE LIMITORQUE

JS-00 A 148 25 SI Ptr MIN FL LN ISLN EXEMPT PW 8821 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 P 185 63 SI PHP A DISCH TO RCS CLD LG 46.4.2 MD 8821 S MOTOR OPERATED VALVE LIMITORQUE Ste-00 P 185 63 SI PMe B DISCH TO RCS CLO LG 46.4.2 MD 8835 MOTOR OPERATED VALVE LIMITORQUE Ste-o P 185 63 COLD LEG SI 46.4.2 MD 8923 A MOTOR OPERATED VALVE LIMITORQUE Ste-00 A 121 5

SI PMP A SUCT SLK VLV NCR-86-132 MD 8923 3 MOTOR OPERATED VALVE LIMITORQUE

JS-00 A 121 5

SI Pfr 8 SUCT BLK VLV HCR-86-132 MO 0924 MOTOR OPERATED VALVE LIMITORQUE SPS-00 A 127 5

CHARGING PHP TO SI Pfr SUCT NCR-86-132 MD 10005 MOTOR OPERATED VALVE LIMITORQUE Ste-00 E 358 82 H2 VENT SPLY 45.4.2 MD 10006 MOTOR OPERATED VALVE LIMITORQUE

JS-00 E 358 82 H2 VENT SPLY 45.4.2 MD 10007 MOTOR OPERATED VALVE LIMITOidQUE Ste-00 C 0858 78 H2 VENT SPLY 45.4.2 MD 10008 MOTOR OPERATED VALVE LIMITORQUE

".JS-00 C 08SB 78 H2 VENT SPLY 45.4.2 MO 10009 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 08S8 77 H2 VENT EXM 45.4.2 MD 10010 MOTOR OPERATED VALVE LIMITORQUE Ste-00 C 0558 59 H2 VENT EXH 45.4.2 e DUILDING CODES A*AUKILIARY CzCONTAIIGENT E= ELECTRICAL F= FUEL M* MAIN STEAM PzPIPE TuTURBINE CzGENERIC COMPONENTS USED OUILDING PENETRATION DUILDING SUPPORT PENETRATION SUILDING IN MANY LOCATIONS STRUCTURE S.h c

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O OUT 45 DSL OIL PMP FOR T-11'4 NILD PP 148 A t10 TOR ALLIS-CHALHERS 142 A IM 45

$4 BSTR PMP A EXEMPT P1P 148 8 t10 TOR ALLIS-CHALMERS 142 A 164 45 SH BSTR PHP 8 EXEt1PT 99 148 C POTOR ALLIS-CHALHERS 142 A 164 45 SH BSTR PMP C EXEMPT F1P 148 D PCTOR ALLIS-CHALMERS 142 A 164 45 SH BSTR PHP D EXEMPT P1P 168 POTOR SALDOR 27384-11925 T 90 45 DSL AFH L 0 PMP SPD INCRS8t MILD 79 202 A POTOR KSTIPCHOLCE VLHI A 127 5

RHR PHP P202A 23.4.2/9.4.10 f1P 202 8 P10 TOR HESTINGHOUSE VSHI A 122 5

RHR PHP P2023 23.4.2/9.4.10 PP 203 A MOTCR HESTINCilOUSE HSDP A 121 5

SI PNP 203A 23.4.2/9.4.10 MP 203 8 HOTOR HESTINC?n FJ HSDP A 120 5

SI Pt1P 2038 23.4.2/9.4.10 71P 2C4 A HOTOR ALLIS CHALMERS TYPE GV A 129 10 CNT SPRAY Pt1P P204A 22.4.2/9.4.10 0 BUILDING CODE:

A= AUXILIARY C=CONTAIttiNT E= ELECTRICAL F= FUEL H: MAIN STEAM P= PIPE T= TURBINE C=CEtERIC COMPONENTS USED BUILDItG PEtETRATION BUILDItG SUPPORT PENETRATION BUILDItG IN HAf# LOCATIOtG STR'JCTURE D

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C7/26/88 SHEET 33 OF 65 TASLE 3-2 ELECTRICAL EQUIPMENT ENVIRODGENTAL QUALIFICATION 10 CFR 50.49 MASTER LIST LOCATION EQS PLANT ID 8 Cop 90ENT MApaXACTURER MODEL

BLOG./RM/ELV SERVICE PA#eER MP 204 86 MOTOR ALLIS CHALMERS TYPE GV A 130 5

CNT SPRAY PMP P2048 22.4.2/9.4.10 N

205 A MOTOR NESTINGHOUSE HSDP A 153 25 CNTFGL CHG PHP P205A 23.4.2/9.4.10 ff 205 S MOTOR ESTINGHOUSE HSDP A 156 25 CNTFGL CMG Pf@ P2058 23.4.2/9.4.10 MP 210 A MOTOR ALLIS-CHALMERS 142 F 228 45 CCM Ptp TRAIN A EXEMPT w

210 S MOTOR ALLIS-CHALIERS 142 F 228 45 CCM PrP TRAIN 8 EXEHPT MP 210 C MOTOR ALLIS-CHALMERS 142 A 164 45 CCM Pf9 TRAIN A/B EXEMPT

9 218 A MOTOR ALLIS-CHALMERS RCV F 228 45 CCM 99 TUP Ptr TRAIN A EXEMPT 89 218 8 MOTOR ALLIS-CHALMERS RCV F 228 45 CCN REUP Ptr TRAIN 8 EXEMPT MP 221 A MOTOR HESTINGNOUSE

$80P A 153 25 CCPA AUX LUS OIL 43.4.2 39 221 S MOTOR HESTINGHru PS

$80P A 156 25 CCPS AUX LtB OIL 43.4.2 W

143 A MOTOR ESTINGHrm

$80P C 45 77 CA8LE SPREADING RM 43.4.2 PfV 143 8 3R M STINGHOUSE

$80P C 45 77 CABLE SPREADING RM 43.4.2 ffV 143 C fuTOR ESTINGHru r#

$80P C 45 77 CABLE SPREADIts RM 43.4.2 W

143 9 MOTOR HESTINGHOUSE

$80P C 45 77 CABLE SPREADING RM 43.4.2 fW 143 E MOTOR 9ESTINGHCUSE 580P C 45 77 CASLE SPREADING RM 43.4.2 MV 143 F MOTOR NESTINGHOUSE SBOP C 45 77 CA8tE SPREADING RM 43.4.2 MW 145 A MOTOR NESTINGHOUSE TBOP C 38 65 EONT BLOG ELEC AUX RM MILO PfV 145 3 MOTC4 NESTINGHOUSE TBOP C 34 61 CONT SLOG ELEC AUX RM MILO l

fW 145 C MOTOR HESTINGHOUSE TSOP C 34 61 CONT SLOG ELEC AUX RM MILO O BUILDIaG CODE: AzAUKILIARY C=CONTADGENT EzfLECTRICAL F* FUEL M MAIN STEAM PzPIPE TzTURBINE C= GENERIC COP 90ENTS USED f

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C7/26/88 SHEET 34 OF CS my TABLE 3-2 Nb om :s ELECTRICAL EQUIPMENT EINIROr&1 ENTAL QUALIFICATION 10 CFR 50.49 ttASTER LIST

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LOCATION EOS PLANT ID 8 COff0 TENT MAtaJFACTURER HODEL

BLDG./Rtt/ELV SERVICE PAJtOER PW 145 O HOTOR M STINGHOUSE TBDP C 38 61 CONT BLDG ELEC AUX RH HILD tw 145 E NOTOR BESTINGHOUSE TBDP C 38 61 cot 4T BLDG ELEC AUX RM MILD IN 163 A FAN POTOR HESTINGHOUSE TBOP T 107 69 SHrdt RM CLG 124IT HILD tN 163 8 FAN POTOR HESTItsGHOUSE TBDP T 107 69 SHGR RM CLG UNIT HILD PW 163 C FAN HOTOR HESTINGHOUSE TBDP T 107 69 SHGR Rt* CLG tRIIT HILD PN IM FAN HOTOR HESTINGHOUSE TBOP T 107 69 SHGR RM CLG L.*41T HILD IN 251 A FAN HOTOR HESTINGHOUSE SBDP A 153 25 CENT CHARGIFC PHP A RM CLR 63.4.2/9.4.8 FW 251 B FAN HOTGR HESTINClint FS SBDP A 156 25 CENT CHARCIts PHP 5 RM CLR 63.4.2/9.4.8 PN 252 A FAN HOTOR HESTItaGHOUSE SBDP A 129 5

CNT SPRAY Pt1P A RM CLR 63.4.2/9.4.8 PW 252 8 FAN FOTOR HESTINGHOUSE SBDP A IIC 5

Ct4T SPRAY PMP S RM CLR 63.4.2/9.4.8 PN 253 A FAN HOTOR HESTINGHOUSE SBDP A 123 5

RHR PHP A Rtt CLR 63.4.2/9.4.8 PN 253 8 FAN P10 TOR HESTINGHOUSE SBDP A 125 5

RHR Pt1P B RM CLR 63.4.2/9.4.8 PN 254 A FAN HOTOR HESTINGHOUSE SBDP A 121 5

SIS PHP A RM CLR 63.4.2/9.4.8 PN 254 8 FAN P10 TOR HESTINGHOUSE SBDP A 120 5

SIS Pf1P B Rtt CLR 63.4.2/9.4.8 tw 256 A FAN HOTOR HESTItJGHOUSE SBDP F 228 45 CCM PHP A CLR 43.4.2 tN 2CS S FA*a 210 TOR HESTINGHOUSE SBDP F 228 43 CCM PitP S CLR 43.4.2 PN 256 C FAN HOTOR HESTINGHOUSE SBDP A 164 45 CCM PMP C CLR 43.4.2 PN 304 A FAN HOTOR M STINGHOUSE SBDP A 164 45 SH BSTR PHPS A 8 C CLR MILD PN 304 8 FAN HOTOR M STINGHOUSE SBDP A IM 45 SH BSTR Pt1PS B & D CLR ttILD u BUILDItC CODE. A=AtJKILIARY C=CONTAIt&ENT E= ELECTRICAL F= FUEL tt=HAIN STEAN PaPIPE T= TURBINE G=CEtERIC COMPONENTS USED BUILDIts PENETRATION BUILDIPC SUPPORT PENETRATIOrt BUILDIts IN ttAtw LOCATIONS STRUCTURE W

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C7/26/as SHEET 35 0F 65 TASLE 3-2 ELECTRICAL EQUIPfENT ENVIR0pe1 ENTAL QUALIFICATION 10 CFR 50.49 MASTER LIss' LOCATION EQS PLANT ID 8 Cof90E NT MADEXACTURER MODEL

BLDG./RM/ELV SERVICE NUMBER l

MVC 131 A MOTOR RELIANCE TYPE P T 85 45 DIESEL GEN EXH FAN HILD MVC 131 S MOTOR RELIANCE TYPE P T 85 45 D*A GEN EXM FAN MILD-MVC 132 A MOTOR RELIANCE TYPE P T 86 45 DSL CEN EXN FAN MILD MVC 132 S MOTOR RELIANCE TYPE P T %

45 D*A GEN EXH FAN MILP fWC 14Z A MOTOR DESTINGHOUSE

$8DP C U 105 CTRL RM RECIRC FAN, CS-1 HILD MVC 142 S NOTOR E STINGHOUSE SBDP C 77 105 CNTR RM RECIRC FAN. CS-1 MILD MVC 146 A MOTOR GE 61109-11722 C 38 65 STRY RM EXH FAN, CS-7 HILD MVC 146 3 MOTOR GE 61109-11722 C 38 65 STRY RM EXH FAN, C5-7 MILD MVC 163 MOTOR RELIANCE TYPE P T 85 45 OSL CEN CLC FAN HILD MVC 162 MOTOR RELIANCE TYPE P T 86 45 DSL GEN CLC FAN MILD MVC 165 MOTOR RELIANCE 4YZ65908Al-LY M ROOF 93 AFN PPP CLG FAN MILD -

MVC 166 MOTOR RELIANCE TYPE P T 91 45 AFN PPP CLG FAN MILD MVC 167 MOTOR RELIANCE TYPE P T 87 45 DIESEL AFN PHP RM CLG FAN 88.4.2 MVC 16e MOTOR RELIANCE TYPE P T 89 45 AFN PMP CLC FAN MILD ffVC 181 A MOTOR RELIANCE 600288 I ROOF 45 SN PHP RM FAN HILD IWC 181 S MOTOR RELIANCE 600288 I ROOF 45 SN PHP RM FAN HILD MVC 201 A MOTOR RELIANCE 600287-2 C OBSA 205 CNT AIR CLR VC201A 10.4.2 MVC 201 B MOTOR RELIANCE 600287-2 C OBSA 205 CNT AIR CLR VC2018 10.4.2 fWC 202 A MOTOR RELIANCE 600287-2 C 0854 205 CNT AIR CLR VC202A 10.4.2 e BUILDING CODE A=AUKILIARY C=CONTAIletENT E* ELECTRICAL F= FUEL H= MAIN STEAM P= PIPE TsTURSINE CzGEIERIC COP 90NENTS USED SUILDING PENETRATION BUILDING SUPPORT PENETRATION BUILDING IN MANY LOCATIONS STRUCTURE C.ir c

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l ff%C 2C2 8 HOTOR RELIANCE 600287-2 C OBSA 205 CNT AIR CLR VC2028 10.4.2 l

l PNC 203 A r10 TOR RELIANCE 600287-2 C OBSA 205 CNT AIR CLR VC203A 10.4.2 l

NYC 203 8 HOTOR RELIANCE 600287-2 C OBSA 205 CNT AIR CLR VC2038 10.4.2 PfVC 204 A HOTOR RELIANCE 600287-2 C CBSA 205 CNT AIR CLR VC204A 10.4.2 tr/C 204 8 HOTOR RELIANCE 600287-2 C OBSA 205 CNT AIR CLR VC2048 10.4.2 tWC 220 A P10 TOR RELIANCE w00287-3 C OBSA 205 H2 POCG FAN CHAN A 10.4.2 i

l PWC 220 8 710 TOR RELIANCE 600287-3 C OBSA 205 H2 HXG FAN CHAN B 10.4.2 C) 6991 CONTROL STATION CE EB25A08B A 225 93 PERSOt#EL AIR LOCK LEAK DET 13.4.4 N

6992 CONTROL STATION GE EB25A08B A 225 93 PERSOt#EL AIR LOCK LEAK DET 13.4.4 PE 48 IEUTRON FLLDC DETECTOR CAtt1A HETRICS 200574113 C IBSF 51 PEUTRON FLtDC HONITOR 72.4.2 341 48 AFFLIFIER GAtt1A HETRICS 900113101 C 36 61 NEUTRON FLUX t10NITOR 72.4.2 NTS 301 SPLICE POINT RAYCHEM NCSF-N C OBSA 93 SV10158 & SV10168 9.4.2 NT3 302 SPLICE POI:4T RAYCHEM NCSF-N C OBSA 93 SV1015A & SV1016A 9.4.2 NT3 534 TERMINAL BOARD BUCitANAN NQB108 H 442 77 ZS-2216 17.4.2 NTS 535 TERttINAL BOARD BUCHANAN NQB108 M 442 82 ZS-2216 17.4.2 NT3 536 TERT 1INAL BOARD BLCHANAN NQB108 M 443 77 ZS-2276 17.4.2 NTS 537 TERitINAL BOARD BUCHANAN t2 108 M 444 82 25-2256 17.4.2 NTS 538 TERitINAL BOARD BUCHANAN NQB108 M 444 82 25-2256 17.4.2 NTS 539 TERitINAL BOARD BUCHANAN NQB108 M 443 82 25-2276 17.4.2

DUILDING CODE A*AUXIL U RY C=CONTAIt#ENT E= ELECTRICAL F= FUEL tt: MAIN STEAtt P= PIPE T*TURBIPE C=CEFERIC COMPONENTS USED BUILDING PENETRATION BUILDING SUPPORT PLNETRATION BUILDItC IN ttANY LOCATIONS STRUCTURE

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AptENDIS VRW ASCO MPe516fW P 145 65 SCS LTSBS8 LN EXEf9T SV 8825

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SLDG./RPVE LV "J RVICE taABE R OV 10501 SOLENDID VALVE C 53 93 RECIRC AIR OtPR CD4T C8-2 MILD LV 10502 00tttOID VALVE C 53 91 RECIRC AIR OfR CONT CS-2 MILO OV 10503 00LEtOID VALVE C 53 93 EXH AIR DNPR CONT C8-12 MILD OV 10504 00LEto!D WALVE C 53 95 LPLY AIR DNPR CQif CB-2 MILD "Y

1189 A CHARGE COff4RTER TEC 5041.

C (BOA 129

'J 1189A CHARCE CO NERTER 26.4.3 SV 1189 8 CHARGE CO NERTER TEC 504A C OBOA 129

" 11895 CHARGE COP"4 RTE 2 26.4.3 J

OY 1189 C CHARst Car 4RTER TEC 504A C OBSA 129 LE1189C CHARGE CONERIER 26.4.1 TE 410 A RfD ROSEMOUNT 17 KF C ISSA 62 RCS LP 1 HOT LEG AT/TAVG 15.4.2 TE 410 8 RTD ROLE 70UNT 176KF C ISOA 62 RCS LP 1 COLD LEG AT/TAVG 15.4.2 TE 411 A RTD ROSEtOLNT 176KF C 180A 62 RCS LP 1 HOT LEG AT/TAVG 15.4.2 TE 411 8 st f D ROSEMOL24T 176KF C ISSA 62 RCS LP 1 COLD LEG AT/TAVG 15.4.2 TE 413 A RTD ROLEMOLDIT 176KS C ISSA 62 RCS LP 1 HOT LEG 15.4.2 TE 413 8 RfD ROSEMOUNT 176KS C IBSA 62 RCS LP 1 COLD LEG 15.4.2 TE 420 A RTD ROSEPOUNT 17MF C IF3A 62 RCS LP 2 HOT LEG AT/TAVG 15.4.2 TE 420 8 RTD ROSEMOLR4T 176KF C 180A 62 RCS LP 2 COLD LEG AT/TAVG 15.4.2 TE 421 A RTD ROSEMOLHT 176KF C ISSA 62 RCS LP 2 HOT LEG AT/TAVG 15.4.2 TE 421 8 RTD ROSEMOUNT 176KF C IBSA 62 RCS LP 2 C9tD LEG AT/TAVG 15.4.2 T5 421 A RTO ROSEMOUNT 176%S C ISSA 62 RCS LP 2 HOT LEC 15.4.2 TE 421 8 RTD ROSEMOL24T 176KS C ISOA 62 RCS LP 2 COLD LEG 15.4.2 O BUILDIts CODES As ALIXILI ARY C =CadTAIref MT E= ELECTRICAL F= FUEL M41Af te STEtM PsPIPE T=TURBIta C=CEtE TIC COMPO4ENTS L20E0 DUILDIPG PLPETRATIO4 BUILDIPC SUPPORT PEfETRATION BUILE?tC IN 99Ar# LOCATIO C STRUCTURE S

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=8 LOG./RM/ELV SERVICE

AA18tR TE 450 A RfD ROSEMOLMT 176* F C ISSA 62 RCS LP 3 HOT LEC AT/TAVG 15.4.2 TE 450 8 RTD RO*,E MDLNT 176KF C 2854 62 RCS LP 3 COLD LEC AT/TAVG 15.4.2 TE 451 A RfD ROSEMOLNT 176KF C ISSA 62 RCS LP 3 HOT LEG AT/TAVG 15.4.2 TE 451 8 RfD ROSEMOUNT 176KF C IB5A 62 RCS LP 3 COLD LEG AT/TAVG 15.4.2 TE 453 A RTD ROGE!93 TNT 176KS C IBSA 62 RCS LP 3 HOT LEC 15.4.2 TE 455 8 RTD EeOSEMOUNT 176K3 C 180A 62 RCS LP 3 COLD LEC 15.4.2 TE 440 A RTO ROLEMDLNT 176KF C IBSA 62 RCS LP 4 HOT LEG AT/TAVG 15.4.2 TE 440 8 RTO ROSEMOLNT 176KF C LRSA 62 SCS LP 4 COLD LEC AT/TAVG 15.4.2 YE 441 A RTD ROLEMOLNT 176KF C 180%

62 2CS LP 4 HOT LEG AT/TAVG 15.4.2 YE 441 8 RTD ROLEMOLNT 176KF C ISOA

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RHR NT EXCHR A OUT 48.4.2 1L 605 RfD PYCO 122-6012-06-17.8 A 122 5

RHR NT EXCHR S OUT 48.4.2 TE 899 RTD MINCO

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$8809 C IBOA 84 RVLIS DEPCITY CPRfJt 56.4.2 TE 909 RTD MIPCO 58809 C IBSA 61 RVLIS DEFCITY CPROR 54.4.2 YE 910 RTD MItCO 08809 C IBOA 65 RVLIG DEICITY CPROR 54.4.2 TE 911 RTD HIPCO

$8809 C IBOF 43 RVLIO DEtGITY CPRSR 54.4.2 TE 912 RfD MIPEO 58809 C IBOF 26 RVLIS DEIGITY CPROR 54.4.2 TE 3273 A2 TEt1PERATURE ELEtENT CAPCO 1/2F 304 F 234 45 EXIT TEt1P FROrt CCH HX-2040 LXEt1PT TE 3283 A2 TErrERATURC ELEPENT CAF1CO 1/2F 304 F 234 45 EXIT TEMP FRCH CCM HX-204A EXEMPT TE 10134 RTD MEED N9017D-1A C 0808 65 Ct4T ATM TEMP 76.4.2 UCDA 1

St10KE DETECTOR PYROTRONICS N/A T 86 45 DOL CEN RM Ot10KE DET MILD LNH 187 HEATER CHRONALOX LUH1CMAROLO-00-38-08 C 39 65 STRY RM HTR HILD UVH 188 HEATER CHRONALOX LUH1036AROLO-00-38-08 C 40 65 STRY RM HTR HILD UX 318 A RECoreltER H[STINGHOUSE IVA C OBOA 93 H2 RECOPSIPER A 7.4.2 UX 318 8 RECOtBIFER K OTINGHQ CE N/A C OBOA 93 H2 RECQtIFER S 7.4.2 VE 159 A DUCT HEAT [R MIEGAte DV OF EPERSON DHI18H024L-022KH %0V3 C 77 105 CNTL RM EFER IMIT REHT COIL MILD VE 159 8 D E T HEATER MIEGAte DV OF EtER00N DHI18H024L-022KH%0V3 C 77 105 CNTL Rtt EF1ER UNIT RENT COIL MILD o BUILDIts CODES A s ALDCILI ARY C=CONTAlteENT FrELECTRICAL F= FUEL t1: MAIN STEAM PzPIPE T=TUR8IPE G=CEtKRIC COMP 0 TENTS LEED BUILD 1tG FEtETRATION SUILDIts SUPPORT PEtKTRATIQ4 BUILDIIC IN mat # LOCATIOrG STRUCTURE O

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$8eEET $3 OF 65 TABLE 3-2 ELECTRICAL EQL*IPPENT ENVIR000 ENTAL QUALIFICATION la CFR 50.49 MASTER LIST LOCATION EGS PLANT 10 S COWOWNT MAftfFACTURER MODEL

SLOG./RM/ELY SERVICE PERSER VE 161 A DUCT 8eEATER WIEGANB DV OF EDERSON DeeFI2N024L-010K8e%0V3 C 77 305 CNTL 1W8 EMER UNIT RENT COIL MILD VE 161 S DUCT HEATER MIEGANS DV OF EMER'A N DMF12M024L-010KN%0V3 C 77 105 CNTL RM EMER LDdIT RENT COIL MILD NR 424 THREE PHASE RECEPTACLE CROUSE-MIpes AR342-M72 A 164 45 PMR RCPT FOR HV 256C MILD tet 425 TesREC PleASE RECEPTACLE ratu u.NI m AR342-M72 A 164 45 Pte RCPT FOR MV-256C MILD X

11 TRANSFORMER T 107 69 750 KVA LC XFMR S 1 MILD X

12 TitACFORMER ITE C 38 65 750 KVA LC XFMR S 2 MILD X

13 TRANSFORMER T 107 69 750 KVA LC XFPet S 3 MILD X

14 TRANSFOspKR ITE C 38 65 750 KVA LC XFMR S 4 MILD l

X 40 TRANSF009ER 88EVI-0UTY 8tSIF7.5A il PMASE 9 T 107 69 7.5KVA 480/240 TO 240/120 VAC 47.4.2 l

X 41 TRA CF00gER HEVI-SUTY 0001FF.5A i1 PMASED C 41 65 7.5KVA,480/240 TO 240/120 VAC 47.4.2 X

61 TRANSFORPER HEVI-SUTY ELECTRIC CO BtSIF7.5A A 226 93 CMAS EA-TRAINI PNR 47.4.1 i

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62 TRAEFORfER 90EVI-SUTY ELECTitIC CO NS1F7.5A A 216 77 CMAS IS-TRAINI Plet 47.4.1 i

Y 11 INSTRUDENT SUS N[3TINGMOUSE C 38 65 120 VAC PFD I ETR SUS CHAN A MILD Y

13 INSTRUPENT SUS NESTINGemm u C 38 65 128 VAC PFD IETR SUS CHAN C FILD Y

15 IssVCRTER ELGAst CORP.

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Y 24 ICTIRDENT SUS 9dESTIIsize000E C 38 65 120 VAC PFD It20TR SUS CHAN D MILD t

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$N ELECTRICAL EQUIPtENT ENVIRO # ENTAL QUALIFICATI0P4

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1. 405-N00523 PCHER Arm COUROL CA8tf APERICAN 19641. MIRE 3/C.514 ANG.

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H05-9400277 POM[R AND COiTROL CASLE GLFERAL CABLE 5/C.314 AMG.

G CSL1 WA VARIOUS 4.4.2 et95-H00523 POM[R AND COUROL CABLE APERICAN IPCUL. NIRE 5/C.514 AMG.

G CSL1 WA VARIOUS 3.4.2

tA 7-N00277 POMER AFS COdTROL CA8tf GEH[RAL CA8tf 7/C,814 AMG.

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HO'-NOO325 P0HER Are CursTROL CA8tf APERICAF4 IPCUL. MIRE 7/C.514 AMG.

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P40-N29253 PO(R CABLE 80STW4 DEULATED MIRE BOSTRAD 7E G C8L1 WA VARImC 41.4.2

P41-N29253 POMER CABLE 800TW4 DCULATED MIRE 80STRAD 7E G CBL1 WA VARIOUS 41.4.2

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205-9800525 1885 TEE 9ENT CASLE AfERICApe IOC. NISE 3/C,088.816 A00G.

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second condition assumed the RCS remained intact, with the same sourco term as above contained within the RCS.

The TIDs were dotormined for soveral doso point locations, both inside and outside of the Containment.

In addition, doses woro calculated for equipment operation times ranging from I hour to 1 year, in order to determino qualification icvols for the maximum time equipment is required to function following an accident.

Maximum T TID istues for general areas at Trojan are summarized in Table 8A-1 and Figurco 8A-1 through 8A-10.

These values are conservative estimates based on contact dose rates from the largest sourecs in each area.

Beta TIDs for materials in contact with reactor coolant and materials exposed to the Containment atmosphere are also provided in Table 8A-1.

Figures 8A-11 and 8A-12 provide volume correction factors used to deter-mine 8 integrated doses for finite volumes in the Containment atmosphere.

The 40 year background radiation TIDs are presented in Tablo 8A-1 for areas inside and outside Containment. These values are conservativo estimates based on the highest expected sources in each area.

The overall TID to a component was determined by summing the normal back-ground dose for 40 years and 110 percent of the y and 8 accident doses

@l at that location for the assumed time the component is required to operate post accident, i

Appendix 8.A outlines the method for specific component calculations i

and contrins example dose calculations for typical locations insido and I

outside the Containment.

]

4.4,1,2 Radiation Damate Threshold Levels i

Because different materials exhibit a wide range of tolerance to radiation damage, radiation threshold levels have been established to exempt enLiln O

i 4

i 4-11 Amendment 4 (August 1987) 1

i i

equipment f rom demonstration of its radiation qualification by testing or analysis. The bases for establishing threshold levels are discussed below; selected threshold values are given in Section 4.4.2.

References 6 through 8 provide surveys of radiation threshold ef fects on organic materials and electronic devices.

Because inorganic and metallia materials are much less susceptible to radiation damage they are not separately considered as part of the qualification review.

Information presented in Reference 6 concerning organic materials used in Plant equipment suggests an exclusion from test or further analysis should be allowed for nonelectronic equipment subjected to 10 rads or less.

Nonelectronic equipment which contains no Teflon and is subjected to <10 rads should likewise be excluded.

At these levels, there is no significant degradation of mechanical or permanent electrical properties of the listed materials.

Also at this level, no indications were found in the literature search of significant synergistic effects of radiation combined with other environmental stresses or sensitization to subse-quently imposed stresses.

In general, equipment failures occur at some higher level involving considerably more than threshold degradation of coeponent materials.

Reference 7 essentially confirms the results of Reference 6.

Although Ci four materials in addition to fluorocarbons (Teflon) were identifled as having a change threshold between 10 and 10 rada, the 25 percent 5

damage dose level for these materials ranged above 10 rads.

For Teflon, the 25 percent damage level is quoted in the range of 3 to 5 x n

4 O

10 rads. For use as an evaluation criterion, the 25 percent damage level is considered more indicative of radiation damage than the lowest rwported change lhreshold because the changes are real at this level and are not an artif act of the experiment or due to sample variation.

Chapter 5 of Reference 8 summarizes the radiation tolerances of various electronic components. Guidelines are also presented for component selection. Radiation damage thresholds are quoted as low as 10 rads O

Vendment 5 4-12 (August 1988)

t i

(2) DBE test profile to ensure equivalent thermal degradation of test prof 11e is equal to or exceeds the qualification s' 8 3ure 4-4).

[

]

requirement temperature profile (see (3) Qualification requirement temperature profile (see Fis-ure 4-4) for comparison in (2) above, f

1 6

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I (4) Post-accident operating time.

I 1

t l

)

To illustrate use of the Arrhenius method, consider the following example t

I where post-accident operating time is detemined.

Assume the required j

post-sceident operating time is 1 year at 120'F (322*K). A conservative t

representation of the example specimen DBg test. profile is given by:

1 j

f l

Interval, t, Temperature. T, e

j 0.5 hours5.787037e-5 days 0.00139 hours 8.267196e-6 weeks 1.9025e-6 months 250'r (394*K) f f

1.4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months 120*F (322*K) l 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months 250*F (294'K)

[

1000 hours0.0116 days 0.278 hours 0.00165 weeks 3.805e-4 months 220'F (377'K) r j

Using a conservative activation energy $ = 0.5, and applying the cri-l I

teria of Section 4.5.2.1(3) below, post-accident operating time is 4

i detemined from plateau portion of above curve (220'F):

i I

.5eV 1

1

- t equivalent *

.8617 x 10'4eV/*K '

i j

= 13,859 hours0.00994 days 0.239 hours 0.00142 weeks 3.268495e-4 months at 120'r This far exceeds the required post-accident operating time of 1 year (8760 hours0.101 days 2.433 hours 0.0145 weeks 0.00333 months ),

f I

}

similar calculations are used to determine equipment qualified life and equivalent themal degradation of the Dat test profile.

1 1!O 4-19 Ar.endment 5 j

(August 1988) 4 l

i

4,5,2.1 Selection of Activation Enerr.y for Use In Arrhenius Methodoloir Limiting activation energies provided by the equipment vendor or test latoratory are used in extrapolation for pro-aging tests or post-accident operating times. When activation energies are not provided by equipment vendor, the solection of activation energies should be based upon a detailed review of oven-aging data for the materials involved in the component being tested. These activation energies should be used in all aging tests subject to the following criteria (1) Thermal pre-accident aging is to be dono at a temperature equal to or less than the maximm temperature the activation energy was determined at.

(2) Extrapolation of LOCA test data to detemine post-accident operating time may be perfomed using the activation energy determined in a dry even, as atmospheric conditions in the LOCA test chamber closely approximate those found in an actual post-LOCA Containment atmosphere.

O Using the above dry oven activation energy will result in a more conservative approach, since the high humidity environ--

ment of the LOCA test will exclude oxygen from the test chamber resulting in less thermal degradation.

(3) The above extrapolation of LOCA test data to determine post-accident operating time should only be perfomed on the plateau portion of the temperature test curve that is equal to or less than the maximum temperature the activation energy was detemined at.

The above criteria should be applied in all cases unless another approach can be justified.

If the activation energy of an organic material used in the conTonent cannot be determined, a value of 0.5 eV can be assured.

O Amend.ent 4 4-20 (August 1987)

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$7/26/88 SHEET 3 OF 14 TROJAN NUCLEAR PLANT ENVIROt#1 ENTAL COpeITIONS HORMAL ACCIDENT LOCATION TENERATLRE PRESS 4 ate IRMIDITY RADTN e PEAK RADIATION e EFI (PSIG8 8%8 I RA:IS D tRADSD BUILDING ELEV ROOM EDWIR MAX NORM MIN MAX N9tM MIN MAX NONM MIN Eli,GRie TEN PRESS HLMID GAfttA BETA TABLE 8A-1 REF EFTl DesR (F3 PSIG 5%)

N 25 158 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3, WA HIGHER OF M OR J AUMILIARY 45 161 MARSH 104 30 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILIARY 45 162 HAPSH 104 80 50 ATM ATM ATM 95 WA 2C 6.613 WA l#A WA 5.5E3 WA HIGMER OF M OR J AUKILIARY 45 163 HARSH 104 80 50 ATM ATH ATM 95 WA 20 6.6E3 WA WA WA 5.5E3 WA HIGHER OF M OR J ALIXILIARY 45 164 MARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILIARY 45 171 HARSH 104 60 50 ATM ATM ATM 95 WA 20 6.6E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILIARY 45 172 HARSH 104 80 50 ATM ATH ATT1 95 WA 20 6.6E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILI AstY 4,

178 HAR$H 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILIARY 45 179 MARSH 104 80 50 ATM ATM ATM 95 WA 20 6.6E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILIARY 45 180 MAASH 104 80 50 ATM ATM ATM 95 WA 20 6.6E3 WA WA WA 5,5E3 WA HIGHEN OF M OR J AuKILIARY 61 186 flaRSH 104 80 50 f.TM ATM ATM 95 WA 20 4.5EL WA WA g idA 5.5E3 WA HIGHER OF h OR J AUKILIARY 61 187 HARSH 104 80 50 ATM ATM ATM 95 WA 20 0.5ES j WA WA WA 5.5E3 WA HIGHER OF M OR J AUKILI ARY 61 188 HARSH 104 80 50 ATH AsM ATM 95 WA 20 4.5ES WA WA WA 4.4E7 WA K

AUKILIARY 61 191 HARSH 104 80 50 ATM ATH ATM 95 WA 20 4.5ES WA WA WA 4.4E7 WA K

AUKILIARY 61 192 HARSil 104 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 4.4E7 WA K

AUFILIARY 61 193 HARSH 104 80 50 ATM AIM ATM 95 WA 20 4.5ES WA WA WA 4.4E7 WA K

AUKILIARY 61 194 HARSH 104 80 50 ATM ATM ATM 95 WA to 4.5ES WA WA WA 4.4E7 WA K

AUKILIARY 61 197 HARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 4.4E7 WA K

I e RADIATION DOSES CIVEN ARE 40 YEAR SACKGROtJe TIDS.

3 RADIATION DOSES GIVEN ARE 1 YEAR POST-ACCIDENT TIDS. FOR DOSES LESS THAN ODE YEAR. SEE TABLE SA-1.

NOTE: SPECIFIED TID FOR ENVIROt#1 ENTAL QUALIFICATION SHALL BE 1.1 X ACCIDENT PEAK (GAtt1A PLUS BETAl PLUS 40 YEAR BACKGROL.De TIDS.

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YDD1IYNA 91 Z01 HYNOH I09 90 SO Y1N Y1N Y1H 65 N/Y 20 9*53S N/Y 4MY N/V 9 93L N/Y M

YlMIIIYNA 91 ZOZ HYHSH 109 90 50 Y1N Y1H Y1N 65 N/Y 20 4*535 4MY 4MY N/Y 9 V34 4MY M

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YnXI11YNA 91 20S HYHSH 106 90 50 Y1H Y1M Y1H 65 N/V 20 9*53S N/Y N/V N/Y S*531 N/Y HIDH3H OJ N 0U r YDD1IY5A 91 209 HYBSH 109 90 50 Y1H Y1H Y1H 65 4MY 20 9*53S N/V N/Y N/V 9V3Z N/V M

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TABLE 4-1 C7/26/88 SHEET 5 OF 14 TROJAN 84JCLEAR PLANT ENVIROPMENTAL CODOITIONS NORMAL ACCIDENT LOCATICH TEMERATIRE PRES'AJRE edMIDITY RADIN

PEAA RADIATION 3 EF8 IPSIG3 8%8 E RAlY

IRADSB BUILDIE ELEV

'tOOM ENVIR MAX M)RM MIN ftAX NORM MIN MAX NORM MIN BKG * '(TEW PRESS HLMID GAP 9tA BETA TADLE 8A-1 REF SFil leer IFB PSIG 8%)

TLEL 77 217 HARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5E5-N/A WA N/A 5.5E; WA HIGHER OF M OR J AIDCILIARY 77 218 HARSH 104 to 50 ATM ATM ATil 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 77 270 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA N/A WA 5.5E3 WA HIGHER (J M OR J AUXILIARY 93 221 MARSH 104 80 50 ATM ATM ATM 95 N/A 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J AUXILIACf 93 222 HARSH 104 80 50 ATM ATM ATM 95 N/A 20 1.1E3 N/A N/A N/A 5.5E3 WA HIGHER OF M OR J AuKILI ARY 93 223 MARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 5.5E3 N/A HIGHER OF M OR J AuKILIARY 93 224 MARSH 104 80 50 ATM ATM ATM 95 N/A 20 4.5ES N/A WA N/A 5.5E3 N/A HIGHER OF M OR J AuKILIARY 93 225 MARSH 104 80 50 ATM ATM ATM 95 WA 20 6.6E3 WA N/A WA 1.1E7 WA G

AuKILIARY 93 226 HARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5ES N/A N/A N/A 1.1E7 WA C

CHLORIIE 45 397 MILD 104 WA 50 ATM ATM AIM 95 N/A 20 5.0E2 WA WA WA 4.0E2 WA FOOTNOTE D ATMlATM CHLORINE 45 398 MILD 104 WA 50 ATM 95 WA 20 5.0E2 N/A WA WA 4.0E2 N/A FOOTNOTE D CHLORINE 45 400 ftILD 104 N/A 50 ATM ATM ATM 95 N/A 20 5.0EZ WA N/A N/A 4.0E2 N/A FOOTNOTE O CONTAIfetENT 33

<53 ISSF HARSH 120 110 50 60 ATM

-1.1 100 N/A 20 2.2E 7 303 66 100 6.5E7 2.1E7 D' AND D CONTAlfGEENT

>=53 ISSA HARSH 120 110 50 60 ATM

-1.1 100 WA 20 2.2E7 303 66 100 3.3E7 1.4E8 A AND C CONTAIt#ENT 33

<53 08SF HARSH 120 110 50 60 ATM

-1.1 100 N/A 20 1.0E7 303 66 100 6.5E7 2.1E7 D' AND D CONTAIIetENT 53-93 0835 HARSH 120 110 50 60 ATH

-1.1 100 WA 20 1.0E7 303 66 100 3.3E7 1.4E8 A AND C CONTAlfGENT

>93 OrSA MARSH 120 110 50 60 ATM

-1.1 100 N/A 20 1.0E7 303 66 100 1.3E 7 1.4E8 8 AND C CONTAIpetENT

<130 PRZR HARSH-145 130 50 60 ATM

-1.1 100 N/ta 20 2.2E7 303 66 100 3.3E7 1.4E8 EHIGH A, 8) &C i

e RADIATION DOSES CIVEN ARE 40 YEAR SACKGROUW TIDS.

3 R4 IATION DOSES GIVEN ARE 1 YEAR POST-ACCIDENT TIDS. FOR DOSES LESS THAN ONE YEAR,'IE TABLE 84-1.

NOTE: SPECIFIED TID FOR ENVIROPMENTAL QUALIFICATION SHALL BE 1.1 X ACCIDENT PEAK (GAtttA PLUS BETAl PLUS 40 YEAR BACKGROUND TIDS.

33 EQUIPPENT LOCATED BELON POST-LOCA FLOOO LEVEL.

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TROJAN PUCLEAR PLANT EfWIROt#1 ENTAL COtJDITIONS co u m

30RitAL ACCIDENT LOCATIO4 TEMPERATURE TRESSURE M tIDITY RADTN e PEAK RADIATION a IF) 4PSIG5 8%I IRADSB IRADSB EiUILDIIG ELEV ROOH

[tWIR HAX 30Rit MIN ttAX NORit HIN ttAX ICRM MIN BEGRND TEMP PRESS HlatID GAtt1A BETA TABLE 8A-1 REF IFT8 t#ER IFI PSIG E%B T DF4 TROL 45 01 HILD 104 75 50 ATM ATH ATM 95

<50 20 5.0E2 tVA PVA WA 4.0E2 IVA FOOT:JOTE D cot 4 TROL 45 02 ttILD 104 75 50 ATM ATM ATM 95

<50 20 5.0E2 IVA PUA tVA 4.0E2 PUA FOOTra0TE O CO4 TROL 45 03 HILD 104 75 50 ATH ATH ATH 95

<50 20 5.0E2 tVA PUA WA 4.OE2 WA FOODJOTE D CO4 TROL 45 04 ttILD 104 75 50 ATM ATH ATM 95

<50 20 5.0E2 WA WA WA 4.0E2 PUA FOOTIJOTE D CO4 TROL 45 05 HILD 104 75 50 ATH ATH ATH 95

<50 20 5.0E2 WA WA WA 4.0E2 WA FOOTNOTE D 004 TROL 45 06 HILD 104 75 50 ATM ATH ATH 95

<50 20 5.0E2 WA PUA tVA 4.0E2 tuA FOOTt0TE D COtiTROL 45 07 f1ILD 104 75 50 ATM ATH ATtt 95

<50 20 5.0E2 WA tVA PUA 4.0L2 tuA FOOTIOTE D CalTROL 45 08 HILD 104 75 50 ATM ATM ATH 95

<50 20 5.0E2 tUA PUA WA 4.0E2 tuA FOOTIJOTE D C04 TROL 45 09 ttILD 104 75 50 ATH ATH ATM 95

<50 20 5.0EZ IVA WA PUA 4.0E2 PUA FOOTIOTE D CONTROL 45 10 HILD 104 75 50 ATH ATM ATH 95

<50 20 5.0E2 PUA WA WA 4.0E2 PUA FOOTNOTE D cot 4 TROL 45 11 ttILD 104 75 50 ATH ATM ATM 95

<50 20 5.0E2 WA WA WA 4.0E2 WA FOODJOTE D CG4 TROL 45 12 ftILD 104 75 50 ATM ATH ATM 95

<50 20 5.0E2 PUA PUA WA 4.0E2 PUA FOODJOTE D cot 4 TROL 45 13 ftILD 104 75 50 ATH ATH ATH 95

<50 20 5.0E2 WA WA WA 4.0E2 WA FOODOTE D cot 4 TROL 45 14 ftILD 104 75 50 ATH ATH ATM 95

<50 20 5.0E2 PUA WA PUA 4.0E2 WA FOODOTE D CONTROL 45 15 HARSH 104 75 50 ATM ATH ATH 95

<50 20 1.1E3 tUA tVA tVA 4.0E2 WA FOOTtJOTE D CalTROL 45 16 HARSH 104 75 50 ATH ADt ATM 95

<50 20 1.1E3 WA WA PUA 4.0E2 WA FOOTFOTE D cot 4 TROL 45 17 HARSH 104 75 50 ATH ATH ATM 95

<50 20 1.1E3 WA WA WA

9E2 PVA FOOTtJOTE D CONTROL 45 IS HARSH 104 75 50 ATM ATH ATM 95

<50 20 1.1El WA FUA tVA 4.0E2 WA FOODOTE D e RADIATIOtt DOSES GIVEN ARE 40 YEAR BACKGROLND TIDS.

3 RADIATION DOSES GIVEN ARE 1 YE AR POST-ACCIDENT TIDS.

FOR DOSES LESS THAN ONE YEAR. SEE TABLE 8A-1.

NOTE: SPECIFIED TID FOR EtWIROt:1Et4TAL (JUALIFICATION SitALL BE 1.1 X ACCIDENT PEAK (GAtt1A PLUS BETAl PLUS 40 YEAR BACKGROL20 TIDS.

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U TABLE 4-1 C7/26/88 SHEET 7 OF 14 TROJAN t0 CLEAR PLANT EtWIROt&1 ENTAL C0t4DITIONS IJORMAL ACCIDENT LOCATIO4 TEMPERATURE PHL"'ZURE BRktIDITY RADIN

PEAK RADIATIOti 3 8F3 (PSIG) 8%8 IRADSB (RADS)

EUILDING ELEV ROOM EtNIR MAX NORM l MIN MAX ICRit MIN MAX NORM MIN BKGRt4D TEMP PRESS tRhiID GAtttA BETA TABLE 8A-1 REF IFTI t#BR IF5 PSIG 8%8 004 TROL 45 19 IEfl 104 75 50 ATM ATM ATM 95 (50 20 1.1E3 WA WA WA 4.0EZ IVA FOOTt0TE D CO4 TROL 45 20 HARSH 104 75 50 ATH ATH ATM 95

<50 20 4.5ES WA WA WA 4.0E2 PVA FOOTNOTE D C0tiTROL 45 21 HARSH 104 75 50 ATM ATM ATM 95

<50 20 1.1E3 tvA WA PVA 4.0E2 WA FOOTtJOTE D Cot 4 TROL 45 22 HARSH 104 75 50 ATM ATM ATM 95

<50 20 1.1E3 WA tvA WA 4.0E2 tvA FOOTNOTE D cot 4 TROL 45 23 HARSH 104 75 50 ATM ATM ATM 95

<50 20 1.1E3 PVA WA WA 4.0E2 PVA FOOTIOTE D COITROL 45 24 HARSH 104 75 50 ATM ATil ATM 95

<50 20 1.1E3 PVA WA WA 4.0E2 WA FOODOTE D C0t4 TROL 45 25 HARSH 104 75 50 ATM ATM ATM 95

<50 20 4.5ES WA WA WA 4.0E2 WA FOOTNOTE D C04 TROL 45 27 HARSH 104 75 50 ATH ATM ATM 95

<50 20 4.5ES WA PVA PVA 4.OE2 PVA FOOTIOTE D Cot 4 TROL 61 33 MILD 104 75 50 ATM ATH ATM 95

<50 20 5.0E2 WA WA tVA 4.0E2 PVA FOOTIOTE D CD4 TROL 61 34 MILD 104 75 50 ATM ATM ATM 95

<50 20 5.0E2 tVA WA WA 4.0E2 PVA FOOTIOTE D COtsTROL 61 35 MILD 104 75 50 ATM ATM ATM 95

<50 20 5.0E2 WA WA PVA 4.0E2 WA FOOTicTE D Cot # TROL 61 36 MILD 104 75 50 ATM ATM ATM 95

<50 8

5.0E2 PVA WA WA 4.0E2 FVA FOOTIOTE D COITROL 61 37 HILD 104 75 50 ATH ATH ATM 95

<50 20 5.0E2 WA PVA WA 4.0E2 WA FOOTFOTE D CG4 TROL 61 38 HILO 104

<95 50 ATH ATM ATM 95

<50 20 5.0E2 tvA PVA WA 4.0EZ tvA FOOTtJOTE D C04 TROL 65 39 MILD 104

<95 70 ATM ATM ATM 95

<50 20 5.0E2 PVA tvA tvA 4.0E2 PVA FOOTNOTE D COITROL 65 40 MILD 104

<95 70 ATH ATM ATM 95

<50 20 5.0E2 fvA tVA PVA 4.0E2 PVA FOOTNOTE D CG4 TROL 65 del MILD IM

<95 50 ATH ATM ATM 95

<50 20 5.0E2 PVA PVA PVA 4.0E2 PVA FOOTNCTE D C04 TROL 77 45 MILD 104

<95 50 ATM ATM ATM 95

<50 20 5.0E2 WA tVA WA 4.0E2 WA FOOTFOTE D

RADIATION DOSES GIVEN ARE 40 YEAR BACKGRGAD TIDS.

3 RADIATION DOSES GIVEN ARE 1 YEAR *OST-ACCIDEt4T TIDS. FOR DOSES LESS Titud ONE YEAR. SEE TABLE 8A-1.

20TE 2 SPECIFIED TID FOR (NVIROt#1 ENTAL QUALIFICATION SHALL BE 1.1 X ACCIDENT PEAK IGAtt1A PLUS BETAl PLUS 40 YEAR BACKGROlkJD TIDS.

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$ $ C7/26/88 SHEET C OF 1*3 g ".s TROJAN PAJCLEAR PLANT EtWIROa1 ENTAL CQ4DITIONS CD 4 NORMAL ACCIDENT LOCATIO4 TEMPERATURE PRE"E.URE HUiTDITY RADIN

PEAK RADIATION 3 8FI EPSIGI 8%)

(RADS)

(RADSB E4JILLIIE ELEV ROCH EtWIR MAX NORit MIN MAX NORH MIN MAX IORM MIN BKGkra TEMP PRESS HUMID GAtttA BETA TABLE 8A-1 REF EFT 8 tacR (FI PSIG 4%8 T O4 TROL 77 47 HILD 104 75 50 ATM ATM ATM 95 (50 20 5.0E2 IVA IVA WA 4.0E2 tVA FOOTNOTE D CO4TRCL 93 53 MILD 110 75 50 ATM ATM ATM 95

<50 20 5.0E2 PVA WA tVA 4.0E2 PVA FOOTNOTE D CD4 TROL 93 54 MILD 110 75 50 ATM ATit ATM 95 (50 20 5.0E2 IVA tVA WA 4.0E2 WA FOOTtOTE D CD4 TROL 105 77 MILD 104 WA 50 ATM ATM ATM 95 PVA 20 5.0E2 WA WA WA 4.0E2 PVA FOOTFOTE D ELEC PENETRATION 45-93 358 HARSH 105 80

-5 ATM ATM ATM 100 WA 20 4.5ES PVA PVA WA 4.4E7 tVA K

IUEL 45 228 HARSH 1%

80 50 ATH ATM ATM 95 WA 20 1.1E3 WA PVA IVA 5.5E3 tVA HIGHER OF M OR J FUEL 45 229 H UC,H 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 PVA PVA FUA 5.5E3 PVA HIGHER OF M OR J FUEL 45 250 HARSH 104 80 50 ATM ATil ATM 95 WA 20 4.5ES tVA WA WA 5.5E3 tVA HIGHER OF M OR J FUEL 45-77 231 KARSH 10, 80 50 ATM ATM ATM 95 WA 7*.

4.5ES WA WA PVA 4.4E7 PVA K

FUEt 45-77 232 HAR",H 104 80 50 ATM ATH ATM 95 WA 20 4.5 5 WA tVA WA 4.4E7 WA K

FUEL 45-77 233 HARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5ES PVA WA PVA 4.4E7 IVA K

FML 45 234 HARSH 104 80 50 Am ATM ATM 95 tVA 20 1.1E3 WA WA PVA 5.5E3 WA HIGHER OF M OR J FUEL 45 235 HARSH 104 80 50 A.M ATH ATM 95 PVA 20 4.4E4 WA PVA WA 5.5E3 WA HIGHER OF M OR J IUE L 45 236 HARSH 104 80 50 ATH ATM ATM 95 PVA 20 4.4E4 WA PVA PVA 5.5E3 PVA HIGHER OF M OR J FU[L 45 237 HARSH 104 80 50 ATM ATM ATM 95 PVA 20 1.1E3 PVA tVA fvA 5.5E3 PVA HIGHER OF M OR J FUEL 61 190 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 tVA PVA PVA 5.5E3 PVA HIGHER OF M OR J fu[L 61 250 HARSH 104 80 50 ATM ATM ATM 95 PVA 20 6.6E3 WA tVA tVA 5.5E3 WA HIGHER OF M OR J FUEL 61 253 HARSH 104 80 SJ ATM ATH ATM 95 PVA 20 6.6E3 WA WA PVA 5.5E3 PVA HIGHER OF M OR J o RADIATION DOSES CIVEN ARE 40 YE AR BACKGROJO TIDS.

O RADIATION DOSES CIVEN ARE 1 YE AR POST-ACCIDENT TIDS. FOR DOSES LESS THAN 04E YEAR. SEE TABLE SA-1.

TOTE: SPECI*IED TID FOR EtNIRO31 ENTAL QUALIFICATION SHALL BE 1.1 X ACCIDENT PEAK IGAlttA PLUS BETA) PLUS 40 YEAR BACKGROLkJD TIDS.

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TABLE 4-1 C7/2uS8 SHEET 9 OF 14 TROJAN IAJCLEAR PLANT ENVIROPMENTAL COHOITIONS MOL'.tAL ACCIDENT LOCATI(N6 TEIMRATWE PRES 2JRE IRklIDITY RADIN

PEAK RADIATION a EF8 IPSIG9 8%I IRAOS)

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[NVIR MAX NORM MIN MAX telel MIN MAX DORM MIN BKGRps TEN PRESS HLMID G4f994 BETA TABLE 8A-1 REF IFT)

Deer (F3 PSIG 1%)

FUEL 61 254 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 61 255 NARSH 204 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 61 256 HAltSH 104 80 50 ATH ATM ATM 95 WA 70 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 61 257 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FML 61 259 HARSH 104 80 50 ATM AT7 ATM 95 WA 20 4.5E5 WA WA WA 5.5E3 WA HIGHER OF M OR J FML 61 260 HARSH 104 80 50 ATM

'.fM ATM 95 WA 20 6.6E3 WA WA WA 5.5E3 WA HIGe;ER OF M OR J FUEL 61 261 HARSH 204 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 5.5E3 WA HIGHER OF M OR J FIFL 77 265 MARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 4.4E7 WA K.

FUEL 77 266 HARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5ES WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 77 267 HARSH 104 80 50 ATM ATM ATM 95 WA 20 4.5E5 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 77 268 HARSH 104 80 50 ATM ATH ATM 95 WA 20 4.5E5 WA WA WA 5.5E3 WA HIGHER OF M OR J 7

269 HARSH IC'e 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL

/

FUEL 77 271 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1El WA WA WA 5.5E3 WA HIGHER OF M OR J l

FUEL M

272 HAltSH 104 80 50 ATH ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 77 273 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J FUEL 77 274 HARSH 104 80 50 ATH ATM ATM 95 WA 20 4.5E5 WA WA WA 5.5E3 WA HIGHER OF M OR J

]

FUEL 77 275 HARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 WA HIGHER OF M OR J l{

FUEL 93 276 MARSH 104 80 50 ATM ATM ATM 95 WA 20 1.1E3 WA WA WA S.5E3 WA HIGHER OF M OR J

RAOIATION DOSES GIVEN ARE 40 YEAR BACKGROtAe TIDS.

3 RADIATION DOSES CIVEN ARE 1 YEAR POST-ACCIDENT TIDS.

FOR DOSCS LESS THAN OBE YEAR. SEE TA8LE 8A-1.

l NOTE: SPECIFIED TIO FOR ENVIROpeENTAL QUALIFICATION SHALL BE 1.1 X ACCIDENT PEAK IGAtttA PLUS SETA) PLUS 40 YEAR SACKGROLAe TIDS.

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Om

3 C CL n

0) Us

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~

G j

M t

,5, uIC7/26/88

s

["

TABLE 6-1 co vi

- TROJAN PJJCLEAR PLANT EtNIRot41 ENTAL CONDITIO SHEET 10 OF 14 NS LOCATION NORMAL

~~

~TEPTPlTURr---~ r~FRI55[]RE M itA&

(F#

IPSIG)

PUNIM iy ArcIDENT s

1 EL F W TINTlf b 1 #DRM FTtINetur~

I RADS t PEAK 4%8 RA N IFTl

1. BR RAUfAII0t3 a

~

~iUEL max W N NTEM EPRESS (MTM IRADS) 9F~ 277 RIR53T W 80 50 ~ATIFWW75 N/A 20 6.6L5 1WAW tVA ' $.ht5 fVA FUEL

{ IF8 PSIG EXB BETA I IAECE8A-1 REa 93 2 78 HARSH 104 80 50 ATM ATM ATM 95 WA 20 6.6E3 WA IVA WA 5.5E3 PVA FUEL 93 280 HAR$H 80 WA 65 ATM ATM ATM 95 tVA 50 4.5ES PVA tVA WA 5.5E3 WA HIClifrDTTI N FUEL 93 281 HARSH 104 80 50 ATit ATM ATM 95 WA 20 1.1E3 WA WA WA 5.5E3 tVA HIGHER OF M OR FUCL 93 282 HARSH 104 80 50 ATM ATM ATit 95 WA 20 4.5ES WA tVA IVA 5.5E3 IVA HIGHER OF tt OR FUEL 93 234 HARSit 104 80 50 J ATM ATM ATM 95 tVA 20 4.5ES tVA tVA PVA 5.5E3 PVA HIGHER OF M OR If4TAKE STRUCTURE 10 395 ftILD 104 WA 50 ATM ATM ATM 95 tVA 20 5.0E2 WA, PVA tVA 4.0E2 PL*A HIGHER OF M R INTAKE STRUCTURE 23 392 ftILD 104 tuA 70 HIGttER OF tt OR INTAKE STRUCTURE ATit ATM ATM 95 WA 20 5.0E2 PVA PVA tVA 4.0E2 WA 23 393 MILD 104 WA 50 ATN ATM ATM 95 WA 20 5.0E2 PVA WA fVA 4.OE2 PVA FOOTroTE D INTAKE STRUCTURE 23 394 MILD 104 WA 50 ATM ATM ATM 95 tVA 20 5.0E2 WA WA WA 4.0E2 PVA FOOTra0TE D INTAKE STRUCTURE 45 ROOF HILD 105 80

-5 ATM ATM,

ATM 100 tVA 20 5.0E2 PVA WA WA 4.0E2 WA FOOTFOTE D ttS$$

45 149 HARSH 104 80

-5 ATM ATM I ATM 100

, WA 20 4.5ES 227 5

100 5.5E3 WA I

FOOTHOTE D MSSS 45 350 HARSH 104 80

-5 ATM ATM ATM 100 PVA 20 4.5ES 227 5

100 5.5El tVA FOOTIOTE D MSSS 44 1"1 HARSH 104 80

-5 Artt ATM ATM 100 FVA 20 4.5ES 227 5

100 5.5E3 PVA HIG.tER OF tt OR J PtGSS 45 352 HARSH 104 80

-5 ATM ATM ATM 100 tVA 20 6.6E3 227 5

100 5 5E3 PVA ttSSS HIGHER OF M OR J 45 435 HARSH 104 80

-5 ATM

! ATM ttSSS HIGHER OF tt OR J 45 436 ItARSH 104 80

-5 A Pt ATM Artt 100 WA 20 4.5ES 227 5

100 5.5E3 WA ATM 100 WA 20 5.0E2 227 5

100 5.5E3 WA HIGHER OF M OR Ji qftS$$

45 437 HARSH 104 80

-5 I

l_

HIGHER OF M OR JI ATM l ATM ATM 100 WA 20 1.1E3 227 5

100 5.5E3 WA i

i i

HIC..ER OF tt OR J i

RADIATION DUt.,tS GIVEN ARE 40 YEAR BACKGR

=

3 RADIATION DOSES GIVEN ARE 1 YEAR POST ACCIDE

- OUND TIDS.

HIGHER OF M OR J i

POTE:

SPECIFIED TID FOR EtNIROR1 ENTAL trJALIFICATIONFCR DOSES LESS THAN OPE YEAR, SEE T 1

NT TIDS.

J SHALL BE 1.1 X ACCIDENT PEAK (GAtt1A PLUS BET A-1.

A ? PLUS 40 YEAR BACKGROUND TIO W

O 9

9

V' TABLE 4-1 C7/26/88 SHEET 11 OF 14 TROJAN 84JCLEAR PLWT EtNIROpeENTAL CONDITIONS NORHAL ACCIDENT LOCSTION TENERATURE PRESSURE HUNialTV RADTN

PEAK RADIATION 3 SF8 E PSIG 8 (Z3 (RADSB (RADS)

MNG

' ELE {8TX)H ENVIR MAX NORM MIN MAX I.ORM MIN MAX NORM MIN BKGRie TEN PRESS IAktID GAtttA BETA TABLE 8A-1 REF (71 -

4eSR IF)

PSIG 8%I MU 59 435 MAEH 104 80

-5 ATM ATH ATM 100 WA 20 5.0E2 227 5

100 5.5E3 WA HIGHER OF M OR J MSSS M j 439 MARSH 1%

80

-5 ATM ATH ATM 100 WA 20 5.0E2 227 5

100 5.5E3 WA HIGHER OF M OR J PCSS 59 4%0 HAEH 104 80

-5 ATM ATM ATM 100 WA 20 5.0E2 227 5

100 5.5E3 WA HIGHER OF M OR J l

CSS 59 M1 HARSH 104 80

-5 ATH ATM ATM 100 WA 20 5.0E2 227 5

100 5.5E3 WA HIGHER OF M CR J

CSS 69 442 t%RSH 104 80