Text

Rev 1 to Preservice Insp Program (002)
	ML20107H298
Person / Time
Site:	Vogtle
Issue date:	01/31/1985
From:	; GEORGIA POWER CO.
To:	;
Shared Package
ML20107H296	List: ML20107H293; ML20107H298; ML20260G144; ML20260G148; ML20260G152; ML20260G156; ML20260G160; ML20260G165; ML20260G168; ML20260G172; ML20260G176; ML20260G181; ML20260G183; ML20260G188; ML20260G192; ML20260G197; ML20260G200; ML20260G205; ML20260G209; ML20260G213; ML20260G217; ML20260G221; ML20260G226; ML20260G228; ML20260G233; ML20260G237; ML20260G241; ML20260G243; ML20260G248; ML20260G250; ML20260G259; ML20260G262; ML20260G266; ML20260G275; ML20260G279; ML20260G282; ML20260G286; ML20260G298; ML20260G301; ML20260G306; ML20260G309; ML20260G314; ML20260G319; ML20260G321; ML20260G326; ML20260G330; ML20260G335; ML20260G338; ML20260G341; ML20260G344; ... further results
References
	PROC-850131, NUDOCS 8502270110
	Download: ML20107H298 (122)
	v • d • e

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L REVISION INSERTION INSTRUCTIONS

/~N VEGP-1 PRESERVICE INSPECTION PROGRAM (002)

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Revision 1; January 31, 1985 Replace the entire contents of this manual:

Section Action Title Page Replace Distribution List Replace Table of Contents (tab)

Replace Table of Contents Replace Introduction (tab)

Replace Introduction Replace Class 1 (tab)

Replace-

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Replace Class 1 Class 2 (tab)

Replace' l

Class 2 Replace Class 3 (tab)

Replace Class 3 Replace Component Supports (tab)

Replace Component Supports Replace ISI Piping Classification Drawings (tab)

Discard ISI Piping Classification Drawings Discard Line Designation List (tab)

Add Line Designation List Add Acknowledgement Receipt Letter

. Read, sign, return Revision Insertion Instructions Read and discard 8502270110 850215 PDR ADOCK 05000424 G

PDR

l SOUTHERN COMPANY SERVICES INSPECTION, TESTING, AND ENGINEERING SECTION FOR GEORGIA POWER COMPANY ISI-P-OO2 PRESERVICE INSPECTION PROGRAM VOGTLE ELECTRIC GENERATING PLANT UNIT 1 SCS GPC SUPT REV DATE DESCRIPTION PREP'E REV'D DEPT REV'D PLANT PLANT BY BY MGR BY ENG MGR 0

4/19/84 Issued for PSI

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1 1/31/85 General Update 9g ((

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l DISTRIBUTION LIST O

MANUAL HOLDER NUMBER C.

W. Dean 1

J. M. Agold 2

3 J.

J. Churchwell 4

5 J. A. Caudill 6

G.

Bockhold, Jr.

7 W.

F.

Kitchens 8

9 N.

J.

Dennen 10 R. T. Oedamer 11 J. A.

Bailey 12 J. A.

Edwards 13 14 W.

F.

Sanders 15 C.

E.

Bellflower 16 17 B. R. Quick / Document Control 18 19 O

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002 REV 1

PRESERVICE INSPECTION PROGRAM 1

VOGTLE ELECTRIC GENERATING PLANT I

UNIT 1 4

1 4

Table of Contents j

Section Page Introduction..............................

........... 1-1 4

Class 1 System and Coraponents......................... 2-1 4

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Class 2 System and Components.........................

3-1

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Class 3 System and Components.........................

4-1 Component Supports....................................

5-1

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Line Designation List.................................

6-1 l

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i-002 REV 1 1

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1.0 INTRODUCTION

V,-S 1.1 General This document details the scope of preservice inspections for the Vogtle Electric Generating Plant (VEGP) - Unit 1 and includes the following points of interest:

Schedule of inspections.

Line designation list.

l Identification of all areas to be examined.

Preservice inspection scope of work.

The American Society of Mechanical Engineers (ASME) Boiler and Pressure Vessel Code,'Section XI, Division 1, 1980 Edition through Winter 1980 Addenda is used voluntarily for preservice inspection (PSI).

The actual edition applicable to preservice inspection is the 1971 Edition through the Winter 1972 Addenda.

It is intended that the same code edition and addenda be applicable both to the preservice and the first interval of inservice inspections.

Therefore, the contents of this document are subject to change (with approval) during preservice r~

inspection.

Additionally, inspection program B will be used as

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defined by IWA-2400, ASME Code,Section XI.

1.2 Scope This document is a description of the preservice inspection program for Class 1, 2,

and 3 components.

1.3 Component Upgrading I

Plant components have been reviewed to determine the appropriate classification for examination.

It must be noted, however, that l

the classification of components as ISI Class 1, 2,

or 3 for inservice inspection does not imply that the components were designed or constructed in accordance with the same classification requirements.

The component design codes remain as stated in the VEGP Final Safety Analysis Report (FSAR).

1.4 Responsibility Georgia Power Company (GPC) bears the overall responsibility for the performance of the preservice inspections.

Certain 7-nondestructive examinations may be performed by a qualified

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1-1 002 REV 1

inspection agency.

The results of such examinations will be reported to GPC for final evaluation and disposition.1.5 Records Records and documentation of all information and inspection results, which provide the basis for evaluation and which facilitate comparison with results from subsequent inspections, will.be available for the active life of the plant.

1.6 Methods of Examination The method of examination planned for each area is delineated in subsequent sections.

Personnel performing nondestructive examinations will be qualified in accordance with the ASME Code.

1.6.1 Eddy Current Eddy current (ET) examinations shall be performed on the steam g

generator tubing as applicable.

1.6.2 Liquid Penetrant

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Dye penetrant (PT) examinations shall be performed whenever a g

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surface examination is required on nonmagnetic components.

1.6.3 Magnetic Particle Magnetic particle (MT) examinations will normally be used when l

surface examination of carbon steel components is required.

1.6.4 Radiographic Radiographic (RT) techniques may be used as an alternative method to ultrasonic examinations.

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1.6.5 Ultrasonic Ultrasonic (UT) examinations shall be conducted in accordance with the provisiors of Appendix III of Section XI, ASME Code, for carbon steel and stainless steel piping and Section V, ASME Code, for other UT examinations to the extent practical.

The reactor vessel will be examined to the requirements of Regulatory Guide 1.150, Rev. 1 to the extent practical.

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1-2 002 REV 1 l

1.6.6 Visual Tests A visual (VT) examination will be employed to provide evidence of leakage or to provide a report of the general condition of the component.

A.

The VT-1 examination shall be performed to determine corrosion, erosion, wear, cracks, or physical damage of the part, component, or surface being inspected.

B.

The VT-2 examination shall be performed to determine and locate leakages from pressure retaining components or excessive leakage from components without leakage collection systems.

C.

The VT-3 examination shall be performed to determine the structural, general, and physical conditions of components or their supports.

D.

The VT-4 examination shall be performed to determine the operability of support components and their mechanical or hydraulic devices.

1.7 Evaluation of Examination Results

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Examination results are evaluated per IWA-3000, IWB-3000, and IWF-3000 of the ASME Code,Section XI.

Articles IWC-3OOO and IWD-3000 entitled " Evaluation of Examination Results" are in the course of preparation and, as yet, are not available for use.

Therefore, the rules of IWB-3000 may be utilized for ISI Class 2 and 3 components.

1.3 Repair Procedures Repair procedures will be developed as required.

1.9 Augmented Inspections The Nuclear Regulatory Commission (NRC) has required certain augmented inspections as added assurance of structural reliability.

The areas of interest and the examinations to be performed are as follows:

1.9.1 The reactor coolant pump flywheel shall be examined in accordance with Regulatory Guide 1.14, Rev.

1.

(See item 45 g

ur.. der Class 1 components.)

1.9.2 The steam generator tubing shall be examined in accordance with Standard Technical Specifications NUREG-0452, O

Rev. 4 and Regulatory Guide 1.83, Rev.

1.

This examination will 1-3 002 REV 1

l consist of the full length of all tubes to the extent n

(^3 practical.

(See item 61 under Class 1 components.)

l V

1.9.3 Certain portions of the ISI Class 2 piping, which penetrate containment, are designated as high energy lines.

These examinations consist of the large diameter main steam and feedwater welds extending from the containment penetration to the first rigid restraint.

(See item 12 under Class 2 components.)

Areas designated for augmented examinations are noted on the ISI classification drawings which are submitted with this manual.

1.10 Reactor Coolant Loop Piping Examination The reactor coolant loop piping will be examinec by both surface and volumetric methods.

The calibration block '. or the ultrasonic (UT) examination will be fabricated using the guidance of ASME Section XI and Section V and sill contain appropriate side-drilled holes and notches.

Presently the primary method of UT examination will be a state-of-the-art technique utilizing a pitch-catch refracted longitudinal wave method with low frequency transducers focused at the ID of the pipe.

The Electric Power Research Institute is currently performing research to improve the UT examination

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techniques for the centrifugally cast stainless steel piping.

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Techniques which are developed prior to the start of examinations will be evaluated for their use at Plant Vogtle.

1.11 Limitations of Examinations The preservice inspection program outlined in the following tabulations has been developed as a result of a design review.

Any limitations to examinations found during the conduct of the preservice inspection will be documented in the final report.

The tabulations address ASME Code,Section XI requirements, some of which are not applicable to VEGP.

Those code items which address welds or components which do not exist at VEGP are not given a program item number and under the comments column the following designation appears:

N/A to VEGP.

v 1-4 002 REV 1

2.0 CLASS 1 SYSTEMS AND COMPONENTS

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2.1 Purpose The purpose of this section is to define a baseline inspection-program for Class 1 systems and components to meet the intent of Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through Winter 1980 Addenda.

i 2.2 Inspection Schedule As much as practicable, Class 1 systems and components, other than the steam generator tubes, shall be examined prior to the cold hydro.

All items still outstanding, including the steam generator tubes, shall be examined following the cold hydro but prior to commercial operation.

2.3 Inspection Scope Areas subject to preservice inspection are shown in the following tables by examination category.

The preservice inspection scope of work tables list the anticipated percentage of Class 1 welds and components that are to be examined, to the

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extent practicable, per IWB-2000.

In addition, these tables (j

describe the exemptions applicable to each program item number.

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PRESERVICE INSPECTION SCOPE OF WORK Sheet 1 of 5 Class 1 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI Comments 1

B-A Bl.ll UT None 100 2

B-A Bl.12 UT None 100 3

B-A Bl.21 UT None 100 4

B-A Bl.22 UT None 100 5

B-A Bl.30 UT None 100 6

B-A Bl.40 UT, None 100 m

4 PT/MT 7

B-B B2.11 UT None 100 8

B-B B2.12 UT None 100 9

B-B B2.40 UT None 100 10 B-D B3.90 UT None 100 11 B-D B3.100 UT None 100 12 B-D B3.110 UT None 100 13 B-D B3.120 UT None 100 14 B-D B3.140 UT None 100 l

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 2 of 5 Class 1 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI Comments 15 B-E B4.ll N/A None N/A N/A to PSI 3, 16 B-E B4.12 N/A None N/A N/A to PSI 3, 17 B-E B4.13 N/A None N/A N/A to PSI 3, 18 B-E B4.20 N/A None N/A N/A to PSI 3 19 B-F B5.10 UT, None 100 PT/MT T

20 B-F B5.20 UT, None 100 PT/MT 21 B-F B5.30 UT, None 100 PT/MT 22 B-G-1 B6.10 PT/MT None 100 23 B-G-1 B6.20 N/A None N/A Closure studs will be removed for PSI.

24 B-G-1 B6.30 UT, None 100 PT/MT 25 B-G-1 B6.40 UT None 100 26 B-G-1 B6.50 VT-1 None 100

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 3 of 5 Class 1 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI Comments 27 B-G-1 B6.180 UT None 100 28 B-G-1 B6.190 VT-1 None 100 29 B-G-1 B6.200 VT-1 None 100 30 B-G-2 B7.20 VT-1 None 100 31 B-G-2 B7.30 VT-1 None 100 32 B-G-2 B7.50 VT-1 None 100 33 B-G-2 B7.60 VT-1 None 100 34 B-G-2 B7.70 VT-1 None 100 35 B-G-2 B7.80 VT-1 None 100 36 B-H B8.20 PT/MT None 100 37 B-J B9.11 UT, None 100 PT/MT i

38 B-J B9.21 PT/MT IWB-1220(b) 100 39 B-J B9.31 UT, None 100 PT/MT

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 4 of 5 Class 1 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI Comments 40 B-J B9.32 PT/MT IWB-1220(b) 100 41 B-J B9.40 PT/MT IWB-1220(b) 100 42 B-K-1 B10.10 PT/MT None 100 43 B-L-2 B12.20 VT-3 None 100 44 B-M-2 B12.40 VT-3 None 100 45 AUT None 100 For the reactor coolant pump N

APT flywheels, the base material 5

will be examined with UT and the keyways will be examined with PT.

46 B-N-1 B13.10 VT-3 None 100 Includes all accessible areas.

47 B-N-3 B13.30 VT-3 None 100 Includes all accessible welds and surfaces.

48 B-O B14.10 UT or None 100 This applies only to the PT peripheral control rod drives.

49 B-P B15.10 N/A None N/A N/A to PSI 6, 50 B-P B15.11 N/A None N/A N/A to PSI 6,

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PRESERVICE INSPECTION SCOPE OF WORK Sheet 5 of 5 Class 1 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI Comments 51 B-P B15.20 N/A None N/A N/A to PSI 6, 52 B-P B15.21 N/A None N/A N/A to PSI 6, 53 B-P B15.30 N/A None N/A N/A to PSI 6, 54 B-P B15.31 N/A None N/A N/A to PSI 6, 55 B-P B15.50 N/A None N/A N/A to PSI 6, 56 B-P B15.51 N/A None N/A N/A to PSI 6, b

57 B-P B15.60 N/A None N/A N/A to PSI 6, 58 B-P B15.61 N/A None N/A N/A to PSI 6, 59 B-P B15.70 N/A None N/A N/A to PSI 6, 60 B-P B15.71 N/A None N/A N/A to PSI 6, 61 B-O B16.20 ET None 100

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PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 1 of 20 B-A, PRESSURE RETAINING WELDS IN REACTOR VESSEL 1 Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments N/A Bl.10 Shell Welds 1

Bl.11 Circumferential IWB-2500-1 UT 2

Bl.12 Longitudinal IWB-2500-2 UT N/A Bl.20 Head Welds 3

Bl.21 Circumferential IWB-2500-3 UT 4

Bl.22 Meridional

.IWB-2500-3 UT 5

Bl.30 Shell-to-Flange IWB-2500-4 UT 7

Weld 4

6 Bl.40 Head-to-Flange IWB-2500-5 UT PT/MT Weld N/A Bl.50 Repair Welds N/A N/A N/A N/A to VEGP.

N/A Bl.51 Beltline Region IWB-2500-1,2 N/A N/A N/A N/A to VEGP.

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV. 1 PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 2 of 20 B-B, PRESSURE RETAINING WELDS IN VESSELS OTHER'THAN REACTOR VESSELS Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Pressurizer N/A B2.10 Shell-to-Head l

Welds 7

B2.11 Circumferential IWB-2500-1 UT 8

B2.12 Longitudinal IWB-2500-2 UT N/A B2.20 Head Welds l

N/A B2.21 Circumferential IWB-2500-3 N/A N/A N/A N/A to VEGP.

N/A B2.22 Meridional IWB-2500-3 N/A N/A N/A N/A to VEGP.

Steam Generators (Primary Side)

N/A B2.30 Head Welds l

N/A B2.31 Circumferential IWB-2500-3 N/A N/A N/A N/A to VEGP.

N/A B2.32 Meridional IWB-2500-3 N/A N/A N/A N/A to.VEGP.

9 B2.40 Tubesheet-to-IWB-2500-6 UT Head Weld Heat'Exchangers (Primary Side)

N/A B2.50 Shell (or Head) l Welds N/A B2.51 circumferential IWB-2500-1,3 N/A N/A N/A N/A to VEGP.

N/A B2.52 Longitudinal IWB-2500-2,3 N/A N/A N/A N/A to VEGP.

(or Meridional)

N/A B2.60 Tubesheet-to-IWB-2500-6 N/A N/A N/A N/A to VEGP.

Shell (or Head)

Welds

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PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 3 of 20 B-D, FULL PENETRATION WELDS OF NOZZLES IN VESSELS - INSPECTION PROGRAM B Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Reactor Vessel

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10 B3.90 Nozzle-to-Vessel IWB-2500-72 UT Welds 11 B3.100 Nozzle Inside IWB-2500-72 UT Radius Section Pressurizer 12 B3.llo Nozzle-to-Vessel IWB-2500-72 UT 3

Welds y

i 13 B3.120 Nozzle Inside IWB-2500-7,'

UT Radius Section 1

Steam Generators (Primary Side)

N/A B3.130 Nozzle-to-Vessel IWB-2500-7 N/A N/A N/A N/A to VEGP.

Welds 14 B3.140 Nozzle Inside IWB-2500-7 UT Radius Section Heat Exchangers

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(Primary Side N/A B3.150 Nozzle-to-Vessel IWB-2500-7 N/A N/A

'N/A N/A to VEGP.

We-1ds N/A B3.160 Nozzle Inside IWB-2500-7 N/A N/A N/A N/A to VEGP.

Radius Section i

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O VOGTLE ELECTRIC GENERATING-PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 4 of 20 1

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B-E, PRESSURE RETAINING PARTIAL PENETRATION WELDS IN VESSELS Examination Examination Method j

Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments

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N/A B4.10 Partial Penetra-tion Welds j

15 B4.ll Vessel Nozzles External N/A N/A to PSI 3, 1

16 B4.12 Control Rod Surfaces N/A N/A to PSI 3, Drive Nozzles 17 B4.13 Instrumentation External N/A N/A to PS13, i

w Nozzles Surfaces e

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Pressurizer l

18 B4.20 Heater Penetra-External N/A N/A to PSI 3, j

tion Welds Surfaces l

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION. CATEGORIES Sheet 5 of 20 B-F, PRESSURE RETAINING DISSIMILAR METAL WELDS

' Examination Examination' Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Reactor Vessel 3"

B5.10 Nominal Pipe Sizel4 in.

Nozzle-to-Safe End IWB-2500-8 UT PT/MT Butt Welds N/A B5.11 Nominal Pipe Size < 4. in.

w Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

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Butt Welds v

N/A B5.12 Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Socket Welds Pressurizer 20 B5.20 Nominal Pipe Sizel4 in.

Nozzle-to-Safe End IWB-2500-8 UT PT/MT Butt Welds N/A B5.21 Nominal Pipe Size < 4 in.

Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Butt-Welds N/A B5.22 Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Socket Welds

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PRESERVICE INSPECTION.

'ABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 6 of 20 B-F, CONTINUED Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Steam Generator 21 B5.30 Nominal Pipe Size > 4 in.

Nozzle-to-Safe End IWB-2500-8 UT PT/MT Butt Welds N/A B5.31 Nominal Pipe Size < 4 in.

Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

T Butt Welds N/A B5.32 Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Socket Welds Heat Exchangers N/A B5.40 Nominal Pipe i

Size > 4 in.

j Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Butt Welds N/A B5.41 Nominal Pipe Size < 4 in.

Nozzle-to-Safe-End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Butt Welds N/A B5.42 Nozzle-to-Safe End IWB-2500-8 N/A N/A N/A N/A to VEGP.

Socket Welds

_ _ _ _ _. ~ _... _ _. _.. _. _..

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l VOGTLE ELECTRIC GENERATING PLANT _ UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION j

TABLE IWB-2500-1 EXAMINATION CATEGORIES

. Sheet 7 of 20 I

I B-F, CONTINUED l

4 -

i Examination Examination Method l

Pro-IWB-Requirements /

Section XI

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. gram 2500-1 Component _

Figure Volu-Sur-Vis-Code Relief F

Parts i

Item Item Examined Number-metric face ual Requests Comments

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j Piping

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N/A B5.50 Nominal Pipe f

Sizel 4 in.

j Dissimilar Metal IWB-2SOO-8 N/A N/A N/A N/A to VEGP.

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Butt Welds i

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N/A B5.51 Nominal Pipe l

l Size < 4 in.

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w Dissimilar Metal IWB-2500-8 N/A N/A N/A N/A to VEGP.

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Socket Welds W

j N/A B5.52 Dissimilar Metal IWB-2500-8 N/A N/A N/A N/A to VEGP.

j Socket Welds 1

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 -REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 8 of 20 B-G-1, PRESSURE-RETAINING BOLTING, GREATER THAN 2 INCHES IN DIAMETER Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requestc Comments Reactor Vessel 22 B6.10 Closure Head Nuts Later PT/MT l

23 B6.20 Closure Studs IWB-2500-12 UT Perform 23 (in place) or 24.

24 B6.30 Closure Studs IWB-2500-12 UT PT/MT Perform 23 l

(removed) or 24.

25 B6.40 Threads in Flange IWB-2500-12 UT w

26 B6.50 Closure Washers, Surfaces VT-1 1

Bushings u

Pressurizer N/A B6.60 Bolts and Studs IWB-2500-12 N/A N/A N/A N/A to VEGP.

N/A B6.70 Flange Surface Surfaces N/A N/A N/A N/A to VEGP.

(when connection disassembled)

N/A B6.80 Nuts, Bushings, Surfaces N/A N/A N/A N/A to VEGP.

and Washers Steam Generators N/A B6.90 Bolts and Studs IWB-2500-12 N/A N/A N/A N/A to VEGP.

N/A B6.100 Flange Surface Surfaces N/A N/A N/A N/A to VEGP.

(when connection disassembled)

N/A B6.110 Nuts, Bushings,.

Surfaces N/A N/A N/A N/A to VEGP.

and Washers

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 9 of 20 B-G-1, CONTINUED Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined

- Number metric face ual Requests Comments Heat Exchangers N/A B6.120 Bolts and Studs IWB-2500-12 N/A N/A N/A N/A to VEGP.

N/A B6.130 Flange Surface Surfaces N/A N/A N/A N/A to VEGP.

(when connection disassembled)

N/A B6.140 Nuts, Bushings, Surfaces N/A N/A N/A N/A to VEGP.

and Washers w

b Piping N/A B6.150 Bolts and Studs IWB-2500-12 N/A N/A N/A N/A to VEGP.

N/A B6.160 Flange Surface Surfaces N/A N/A N/A N/A to VEGP.

(when connection disassembled)

N/A B6.170 Nuts, Bushings, Surfaces N/A N/A N/A N/A to VEGP.

and Washers Pumps 27 B6.180 Bolts and Studs IWB-2500-12 UT 28 B6.190 Flange Surface Surfaces VT-1 (when connection disassembled) 29 B6.200 Nuts, Bushings, Surfaces VT-1 and Washers

~ _. _ _ - _ - _, _.. -

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

d PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 10 of 20 B-G-1, CONTINUED s

Examination Examination Method i

Pro-IWB-Requirements /

Section XI i

gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief j

Item Item Examined Number metric face ual Requests Comments i

Valves i

N/A B6.210 Bolts and Studs IWB-2500-12 N/A N/A N/A N/A to VEGP.

N/A B6.220 Flange Surface Surfaces N/A N/A N/A N/A to VEGP.

(when connection disassembled)

N/A B6.230 Nuts, Bushings, Surfaces N/A N/A N/A N/A to VEGP.

j and Washers H

i

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l 3

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 11 of 20 B-G-2, PRESSURE RETAINING BOLTING, 2 INCHES AND LESS IN DIAMETER Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Reactor Vessel N/A B7.10 Bolts, Studs, Surface N/A N/A N/A N/A to VEGP.

and Nuts Pressurizer 30 B7.20 Bolts, Studs, Surface VT-1 and Nuts y

Steam Generators H

31 B7.30 Bolts, Studs, Surface VT-1 and Nuts Heat Exchangers N/A B7.40 Bclls, Studs, Surface N/A N/A N/A N/A to VEGP.

and Nuts Piping 32 B7.50 Bolts, Studs, Surface VT-1 and Nuts Pumps 33 B7.60 Bolts, Studs, Surface VT-1 and Nuts Valves 34 B7.70 Bolts, Studs, Surface VT-1 and Nuts CRD llousings 35 B7.80 Bolts, Studs, Surface VT-1 and Nuts

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 12 of 20 B-H, INTEGRAL ATTACHMENTS FOR VESSELS Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Reactor Vessel N/A B8.10 Integrally Welded IWB-2500-13, N/A N/A N/A N/A to VEGP.

Attachments 14, and 15 Pressurizer 36 B8.20 Integrally Welded IWB-2500-13 PT/MT Attachments and 15 Steam Generator N/A to VEGP.

wj, N/A B8.30 Integrally Welded IWB-2500-13, N/A

'N/A N/A m

Attachments 14, and 15 Heat Exchangers N/A B8.40 Integrally Welded IWB-2500-13, N/A N/A N/A N/A to VEGP.

Attachments 14, and 15

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 13 of 20 l

B-J, PRESSURE RETAINING WELDS IN PIPING Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments N/A B9.10 Nominal Pipe Sizel 4 in.

s l

37 B9.ll Circumferential IWB-2500-8 UT PT/MT

]

Welds l

N/A B9.12 Longitudinal IWB-2500-8 N/A N/A N/A N/A to VEGP.

l Welds I

N/A B9.20 Nominal Pipe q

Size < 4 in.

38 B9.21 Circumferential IWB-2500-8 PT/MT y

i Welds 5

N/A B9.22 Longitudinal IWB-2500-8 N/A N/A N/A N/A to VEGP.

Welds l

N/A B9.30 Branch Pipe i

Connection Welds 1

39 B9.31 Nominal Pipe IWB-2500-9, UT PT/MT i

Sizel 4 in.

10 and 11 40 B9.32 Nominal Pipe IWB-2500-9, PT/MT Size < 4 in.

10, and 11 j

41 B9.40 Socket Welds IWB-2500-8 PT/MT 1

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 14 of 20 B-K-1, INTEGRAL ATTACHMENTS FOR PIPING, PUMPS, AND VALVES 4 Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Piping 42 B10.10 Integrally Welded IWB-2500-15 PT/MT Attachments Pumps N/A BlO.20 Integrally Welded IWB-2500-13, N/A N/A N/A N/AtoVEGP.l Attachments 14, and 15 g

Y w

Valves N/A B10.30 Integrally Welded IWB-2500-13, N/A N/A N/A N/A to VEGP.

Attachments 14, and 15 e

9

F VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 15 of 20 B-L-1, B-M-1, PRESSURE RETAINING WELDS IN PUMP CASINGS AND VALVE BODIES B-L-2, B-M-2, PUMP CASINGS AND VALVE BODIES Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Pumps N/A B12.10 Pump Casing Welds IWB-2500-16 N/A N/A N/A N/A to VEGP.

43 B12.20 Pump Casing Internal VT-3 Surfaces N/A B12.30 Valves, Nominal Pipe Size < 4 in.

Valve Body Welds IWB-2500-17 N/A N/A N/A N/A to VEGP.

g N/A B12.31 Valves, Nominal S$

Pipe Size l4 in.

Valve Body Welds IWB-2500-17 N/A N/A N/A N/A to VEGP.

44 B12.40 Valve Body Internal VT-3 4 in.

Surfaces

>Nominal Pipe Size 45 N/A Reactor Coolant Volume AUT N/A N/A See subsection Pump Flywheel 1.9.1 in Keyways N/A APT N/A introduction 5,

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 16 of 20 B-N-1, INTERIOR OF REACTOR VESSEL B-N-2, INTEGRALLY WELDED CORE SUPPORT STRUCTURES AND INTERIOR ATTACHMENTS TO REACTOR VESSELS B-N-3, REMOVEABLE CORE SUPPORT STRUCTURES

)

Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Reactor Vessel i

46 B13.10 Vessel Interior Accessible VT-3 j

Areas j

Reactor Vessel (BWR) y N/A B13.20 Interior Attach-Accessible N/A N/A N/A N/A to VEGP.

w ments Welds j

N/A B13.21 Core Support Accessible N/A N/A N/A N/A to VEGP.

Structure Surfaces 7

i Reactor Vessel 4

(PWR) 47 B13.30 Core Support Accessible VT-3 J

Structure Welds

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Accessible VT-3 1

Surfaces I

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 17 of 20 B-O, PRESSURE RETAINING WELDS IN CONTROL ROD HOUSING I

Examination Examination Method i

Pro-IWB-Requirements /

Section X1 i

gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Reactor Vessel I

48 B14.10 Welds in CRD IWB-2500-18 UT or PT/MT See figure-l Housing IWB-2500-18 l

j for appropriate j

examination methods.

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2SOO-1 EXAMINATION CATEGORIES Sheet 18 of 20 B-P, ALL PRESSURE RETAINING COMPONENTS Examination

' Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests

Comments, j

l Reactor Vessel 49 B15.lO Pressure Retain-System Leak-N/A N/A to PSI 6, ing Boundary age Test IWB-5221 50 B15.11 Pressure Retain-System Hydro-N/A N/A to PSI 6, ing Boundary test IWB-5222 Pressurizer M

51 B15.20 Pressure Retain-System Leak-N/A-N/A to PS16, w

ing Boundary age. Test IWB-5221 N/A to PS16, 52 B15.21 Pressure Retain-System Hydro-N/A ing Boundary test IWB-5222 Steam Generators l

~ Pressure Retain-System Leak-N/A N/A to PSI 6, l

53 B15.30 l

ing Boundary age Test IWB-5221 54 B15.31 Pressure Retain-System Hydro-N/A N/A to PS1 6, ing Boundary test IWB-5222 lieat Exchangers l

N/A B15.40 Pressure ReLain-Gystem Leak-N/A N/A N/A N/A to VEGP.

I ing Boundary age Test i

1WB-5221 N/A B15.41 Pressure Retain-System liydro-N/A N/A N/A N/A to VEGP.

i Boundary test IWB-5222 i

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 19 of 20 B-P, CONTINUED Examination Examination Method Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Piping 55 B15.50 Pressure Retain-System Leak-N/A N/A to PSI 6, ing Boundary age Test IWB-5221 56 B15.51 Pressure Retain-System Hydro-N/A N/A to PS16, ing Boundary test IWB-5222 Pumps 57 B15.60 Pressure Retain-Systeg Leak-N/A N/A to PSI 6, g

i ing Boundary age Test M

IWB-5221 58 B15.61 Pressure Retain-System Hydro-N/A N/A to PSI 6, ing Boundary test IWB-5222 Valves 59 B15.70 Pressure Retain-System Leak-N/A N/A to PS16, ing Boundary age Test IWB-5221 60 B15.71 Pressure Retain-System Hydro-N/A N/A to PSI 6, ing Boundary test IWB-5222

_ _ = _ _

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWB-2500-1 EXAMINATION CATEGORIES Sheet 20 of 20 l

B-0, STEAM GENERATOR TUBING Examination Examination Method l

Pro-IWB-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Via-Code Relief Item Item Examined Number

_ metric face ual Requests Comments N/A B16.10 Steam Generator Entire length N/A N/A N/A N/A to VEGP.

Tubing in of tubing Straight Tube Design 61 B16.20 Steam Generator Entire length ET See subsectiong Tubing in U-Tube of each tube 1.9.2 in g

l Design Introduction.

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NOTES - IWB TABLES

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1.

To the extent practical, examinations will be performed in accordance with Regulatory Guide 1.150, Revision 1.

2.

The examination volumes shall apply to the applicable 4

figure shown in figures IWB-2500-7(a) through (d).

3.

See IWA-5215: A preservice system hydrostatic test is not required for ASME Code,Section XI.

4.

Includes those attachments whose base material design thickness is 5/8 inches and greater.

I 5.

The augmented ultrasonic examination and the augmented dye penetrant examination are abbreviated AUT and APT, respectively.

6.

ASME Code,Section III hydro is performed in lieu of Section XI system leakage test IWB-5221 and system hydrostatic test IWB-5222.

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lO 002 REV 1 2-27

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3.0 CLASS 2 SYSTEMS AND COMPONENTS s

I 3.1 Purpose The purpose of this section is to define a baseline inspection program for Class 2 systems and components to meet the intent of Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through the Winter 1980 Addenda.

Welds in the residual heat removal and the emergency core cooling systems will be selected according to the 1974 Edition through Summer 1975 Addenda of the Code as required by 10CFR 50.55a.

3.2 Inspection Schedule As much as practicable, Class 2 systems and components shall be examined prior to the cold hydro.

All items still outstanding shall be examined following the cold hydro but prior to 4

commercial operation.

3.3 Inspection Scope Areas subject to preservice inspection are shown in the following tables by examination category.

The preservice s

inspection scope of work tables list the anticipated percentage

(,)

of Class 2 welds and components that are to be examined, to the extent practical, per IWC-2OOO.

In addition, these tables describe the exemptions applicable to each program item number.

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3-1 002 REV 1

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,b VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 1 of 3 Class 2 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section X1 Exam Exemptions Examined item Category ___

Item Method Used During PSI Comments 1

C-A C1.10 UT IWC-1220(c) 100 See notes 6 and 7.

2 C-A C1.30 UT IWC-1220(c) 100 See notes 6 and 7.

j 3

C-B C2.10 PT/MT IWC-1220(c) 100 See notes 6 and 7.

1 i

4 C-B C2.21 UT, IWC-1220(c) 100 See notes 6 and 7.

PT/MT 5

C-B C2.22 UT IWC-1220(c) 100 See note 6.

6 C-C C3.10 PT/MT IWC-1220(c) 100 See note 6.

l 7

C-C C3.40 PT/MT IWC-1220(c) 100 8

C-C C3.70 PT/MT IWC-1220(c) 100 9

C-F C5.ll PT/MT IWC-1220(c) 25 For all piping except for RilR and ECCS, the preservice requirements of the 1980 Edition with Addenda through Winter 1980 for Category C-F will be met.

For RiiR and ECCS piping, the preservice requirements of the 1974 Edition with Addenda through Summer 1975 for Categories C-F and C-G will be met.

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V VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 2 of 3 Class 2 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI Comments 10 C-F C5.21 UT, IWC-1220(c) 25 For all piping except PT/MT RHR and ECCS, the preservice requirements of the 1980 Edition with Addenda through Winter 1980 for Category C-F will be met.

For RHR and ECCS piping, the preservice requirements of the 1974 Edition with Addenda through Summer 1975 for categories C-F and C-G will be met.

u 1

11 C-F C5.31 PT/MT lWC-1220(c) 25 For all piping except RHR and ECCS, the preservice requirements of the 1980 Edition with Addenda through Winter 1980 for Category C-F will be met.

For RHR and ECCS piping, the preservice requirements of the 1974 Edition with Addenda through Summer 1975 for Categories C-F and C-G will be met.

12 AUT N/A 100 See subsection 1.9.3 in the Introduction 3, 13 C-G C6.10 N/A None 100 14 C-H C7.10 N/A None N/A N/A to PSI S, 15 C-H C7.ll N/A Mone N/A N/A to PSj4,5, T

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 3 of 3 Class 2 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined l

Item Category item Method Used During PSI Comments l

l 16 C-H C7.20 N/A None N/A N/A to PSIS, 17 C-II C7.21 N/A None N/A N/A to PS14,5, 18 C-Il C7.30 N/A None N/A N/A to PSIS, l

19 C-II C7.31 N/A None N/A N/A to PS14,5, 20 C-II C7.40 N/A None N/A N/A to PSIS, 21 C-H C7.41 N/A None N/A N/A to PS14,5, Y.

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PRESERVICE INSPECTION TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 1 of 7 l.,

PRESSURE RETAINING WELDS IN PRESSURE VESSELS C-A, l

Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief l

Item Item Examined Number metric face ual.

Requests Comments a

1 C1.10 Shell Circumfer-IWC-2500-1 UT ential Welds i

N/A Cl.20 Head Circumfer-IWC-2500-1 N/A N/A N/A N/A to VEGP.

ential Welds

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2 C1.30 Tubesheet-to-IWC-2500-2 UT j

Shell Weld i

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION j

TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 2 of 7 C-B, PRESSURE RETAINING NOZZLE WELDS IN VESSELS Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item item Examined Number metric face ual Requests Comments 1

3 C2.10 Nozzles in Vessels IWC-2500-3 PT/MT i 1/2 in, nominal thickness N/A C2.20 Nozz.es in Vessels

> 1/2 in. nominal l

i thickness g

T 4

C2.21 Nozzle-to-Shell IWC-2500-4 UT PT/MT m

(or Head) Weld 1

5 C2.22 Nozzle Inside IWC-2500-4 UT Radius Section 4

1 l

l 0

4 4

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 3 of 7 C-C, INTEGRAL ATTACilMENTS FOR VESSELS, PIPING, AND VALVES Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item item Examined Number metric face ual Requests Comments Pressure Vessels 6

C3.10 Integrally Welded IWC-2500-5 PT/MT Attachmental Piping 7

C3.40 Integrally Welded IWC-2500-5 PT/MT

Attachment:

1 w

4 Pumps 8

C3.70 Integrally Welded IWC-2500-5 PT/MT Attachmentsl Valves N/A C3.100 Integrally Welded IWC-2500-5 N/A N/A N/A N/A to VEGP.

Attachmentsl i

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 4 of 7 C-D, PRESSURE RETAINING BOLTING, GREATER THAN 2 INCHES IN DIAMETER Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Pressure Vessels N/A C4.10 Bolts and Studs IWC-2500-6 N/A N/A N/A N/A to VEGP.

Piping N/A C4.20 Bolts and Studs IWC-2500-6 N/A N/A N/A N/A to VEGP.

Pumps N/A C4.30 Bolts and Studs IWC-2500-6 N/A N/A N/A N/A to VEGP.

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Valves N/A C4.40 Bolts and Studs.

IWC-2500-6 N/A N/A N/A N/A to VEGP.

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV. 1 PRESERVICE-INSPECTION TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 5 of 7 C-F, PRESSURE RETAINING WELDS IN PIPING Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments N/A C5.10 Piping Welds -

1 1/2 in.

nominal wall thickness 9

C5.11 Circumferen-IWC-2500-7 PT/MT tial Weld 2 N/A C5.12 Longitudinal IWC-2500-7 N/A N/A N/A N/A to VEGP.

Weld w

4 N/A C5.20 Piping Welds -

> 1/2 in, nominal wall thickness 10 C5.21 Circumferen-IWC-2500-7 UT PT/MT tial Weld 2 N/A C5.22 Longitudinal IWC-2500-7 N/A N/A N/A N/A to VEGP.

Weld N/A C5.30 Pipe Branch Con-nections 11 C5.31 Circumferen-IWC-2500-9 PT/MT tial Weld 2 N/A C5.32 Longitudinal IWC-2500-7 N/A N/A N/A N/A to VEGP.

Weld 12 N/A Augmented AUT N/A N/A See subsection 1.9.3 in Introduction 3,

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 6 of 7 C-G, PRESSURE RETAINING WELDS IN PUMPS AND VALVES Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments Pumps 13 C6.10 Pump Casing Welds IWC-2500-8 PT/MT Valves N/A C6.20 Valve Body Welds IWC-2500-8 N/A N/A N/A N/A te VEGP.

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Y VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWC-2500-1 EXAMINATION CATEGORIES Sheet 7 of 7 C-H, ALL PRESSURE RETAINING COMPONENTS Examination Examination Method Pro-IWC-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief item Item Examined Number metric face ual Requests Comments Pressure Vessels 14 C7.10 Pressure Retain-IWC-5221 N/A N/A to PS15, ing Components Test 15 C7.ll Pressure Retain-IWC-5222 N/A N/A to PS14,5, ing Components Test Piping 16 C7.20 Pressure Retain-IWC-5221 N/A N/A to PSIS, ing Components Test w

17 C7.21 Pressure Retain-IWC-5222 N/A N/A to PS14,5, H

ing Components Test Pumps 18 C7.30 Pressure Retain-IWC-5221 N/A N/A to PSIS, ing Components Test 19 C7.31 Pressure Retain-IWC-5222 N/A N/A to PS14,5, ing Components Test Valves 20 C7.40 Pressure Retain-IWC-5221 N/A N/A to PSI S, ing Components Test 21 C7.41 Pressure Retain-IWC-5222 N/A N/A to PS14,5, ing Components Test

NOTES - IWC TABLES 1.

Limited to integrally welded attachments whose base material design thickness is 3/4 in. or greater.

2.

The welds selected for examination shall include:

a.

All welds at locations where the stresses under the loadings resulting from normal and upset plant conditions as calculated by the sum of equations 9 and 10 in NC-3652 exceed 0.8 (1.2 S3+Sg).

b.

All. welds at terminal ends (see e below) of piping or branch runs.

c.

All dissimilar metal welds.

d.

Additional welds, at structural discontinuities (see f below), such that the total number of welds selected for examination includes the following percentages of circumferential piping welds:

For pressurized water reactors:

1.

none of the welds exempted by IWC-1220;

. O 2.

none of the welds in residual heat removal and emergency core cooling systems (see g below);

3.

10 percent of the main steam system welds 8 in.

nominal pipe size and smaller; 4.

25 percent of the welds in all other systems.

e.

Terminal ends are the extremities of piping-runs that connect to structures, components (such as vessels, pumps, valves), or pipe anchors, each of which act as rigid restraints or provide at least 2 of restraint to piping thermal expansion.

f.

Structural discontinuities include pipe weld joints to vessel nozzles, valve bodies, pump casings, pipe fittings (such~as elbows, tees, reducers, flanges, etc.

conforming to ANSI B16.9), and pipe branch connections i

and fittings.

~

g.

Examination requirements are under development by the ASME' code.

The extent of examination for these systems shall be determined by-the requirements of paragraph IWC-1220, Table IWC-2520 categories C-F and C-G, and j

paragraph IWC-2411 in the ASME Code,Section XI, 1974 j

Edition through Summer 1975 Addenda.

Alternatively,

!(2) 002 REV 1 3-12 E

when the examination requirements are developed by the s

4 ASME Code and approved to be used by the NRC, the extent of examination may be determined from such newly developed requirements.

t 8

3.

The augmented ultrasonic examination is abbreviated AUT.

4.

See IWA-5215:

A preservice system hydrostatic test is not required for ASME Code,Section XI.

5.

ASME Code,Section III hydro is performed ta lieu of Section XI system leakage test IWC-5221 and system i

hyorostatic test IWC-5222.

6.

In the case of multiple vessels of similar design, size, and service (such as steam generators, heat exchangers, or etc.) the required examinations will be limited to either one vessel or distributed among the vessels.

7.

This applies only to those welds at gross structural discontinuities.

O 002 REV 1

)

4.0 CLASS 3 SYSTEMS AND COMPONENTS LJ 4.1 Purpose i

The purpose of this section is to define a baseline inspection program for Class 3 systems and components to meet the intent of Section XI of the ASME Boiler and Pressure Vessel Code, 1930 Edition throu gh Winter 1980 Addenda.

4.2 Inspection Schedule As much as practicable, Class 3 systems and components shall be examined prior to the cold hydro; items still outstanding shall be examined following the cold hydro but prior to commercial operation.

4.3 Inspection Scope Areas subject to preservice inspection are shown in the following tables by examination category.

The preservice inspection scope of work tables list the anticipated percentage of Class 3 systems and components that are to be examined,. to the extent practical, per IWD-2000.

In addition, these tables describe the exemptions applicable to each program item nu'mber.

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 1 of 2 Class 3 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PS14 Comments 1

D-A DI.10 N/A None N/A N/A to PS1 2,3, 2

D-A Dl.20 VT-3 None 100 3

D-A D1.30 VT-3 None 100 4

D-A D1.40 VT-3 None 100 5

D-A Dl.50 VT-3

'None 100 a

6 D-A Dl.60 VT-3 None 100 N

7 D-D D2.10 N/A None N/A N/A to PSI 2,3, 8

D-D D2.20 VT-3 None 100 9

D-D D2.30 VT-3 None 100 10 D-D D2.40 VT-3 None 100 11 D-D D2.50 VT-3 None 100 12 D-D D2.60 VT-3 None 100 13 D-C D3.10 N/A None N/A N/A to PS12,3, 14 D-C D3.20 VT-3 None 100 15 D-C D3.30 VT-3 None 100 16 D-C D3.40 VT-3 None 100

.. _ _ _. _.. ~ _

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK r

Sheet 2 of 2 Class 3 Anticipated l

Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item Method Used During PSI 4 Comments 17 D-C D3.50 VT-3 None 100 18 D-C D3.60 VT-3 None 100 i

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l VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWD-2500-1 EXAMINATION CATEGORIES Sheet 1 of 6 D-A, SYSTEMS IN SUPPORT OF REACTOR SHUTDOWN FUNCTION Examination Examination Method Pro-IWD-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Via-Code Relief Item Item Examined Number metric face ual Requests Comments 1

Dl.10 Pressure IWA-5000/

Retaining IWD-5221 N/A N/A to PSI 2, l

IWA-5000/

Components IWD-5223 N/A N/A to PSI 2,3, 2

Dl.20 Integral A

Attachment 1

Component Supports and Restraints 4 IWD-2500-1 VT-3 3

Dl.30 Integral Attachment Mechanical and Hydraulic Snubbers 4 IWD-2500-1 VT-3 4

Dl.40 Integral Attachment SpringTgpe Supports IWD-2500-1 VT-3 5

Dl.50 Integral Attachment Constant Load Type 4

Supports IWD-2500-1 VT-3

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWD-2500-1 EXAMINATION CATEGORIES Sheet 2 of 6 D-A, CONTINUED Examination Examination Method Pro-IWD-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments 6

D1.60 Integral Attachment Shock Absorbers 4 IWD-2500-1 VT-3 1

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWD-2500-1 EXAMINATION CATEGOFIES Sheet 3 of 6 D-B, SYSTEM IN SUPPORT OF EMERGENCY CORE COOLING, CONTAINMENT HEAT REMOVAL, ATMOSPIIERE CLEANUP, AND REACTOR RilR Examination Examination Method Pro-IWD -

Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments 7

D2.10 Pressure IWA-5000/

Retaining IWD-5221 N/A N/A to PSI 2, l

IWA-5000/

N/A Componenta IWD-5223 N/A N/A to PSI 2,3, 8

D2.20 Integral u

Attachment Component Supports and Restraints 4 IWD-2500-1 VT-3 9

D2.30 Integral Attachment Mechanical and Ilydraulic Snubbers 4 IWD-2500-1 VT-3 10 D2.40 Integral Attachment SpringTgpe Supports IWD-2500-1 VT-3 1

11 D2.50 Integral Attachment 3

Constant

]

Load Type 4

Supports IWD-2500-1 VT-3 l

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWD-2500-1 EXAMINATION CATEGORIES Sheet 4 of 6 D-B, CONTINUED l

Examination Examination Method Pro-IWD-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments 12 D2.60 Integral Attachment Shock Absorbers 4 IWD-2500-1 VT-3 a

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.,m VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWD-2500-1 EXAMINATION CATEGORIES Sheet 5 of 6 D-C, SYSTEM IN SUPPORT OF RHR FROM SPENT FUEL STORAGE POOL Examination Examination Method Pro-IWD-Requirements /

Section XI gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments 13 D3.10 Pressure IWA-5000/

Retaining IWD-5221 N/A N/A to PSI 2, Componentsl IWA-5000/

IWD-5223 N/A N/A to PSI 2,3, 14 D3.20 Integral a

Attachment i

Component Supports and Restraints 4 IWD-2500-1 VT-3 15 D3.30 Integral Attachment Mechanical and Hydraulic Snubbers 4 IWD-2500-1 VT-3 16 D3.40 Integral Attachment Spring T pe Supports IWD-2500-1 VT-3 17 D3.50 Integral Attachment Constant Load Type 4

Supports IWD-2500-1 VT-3

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i VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

i PRESERVICE INSPECTION j

TABLE IWD-2500-1 EXAMINATION CATEGORIES Sheet 6 of 6

?

l D-C, CONTINUED 6

l Examination Examination Method f

i Pro-IWD-Requirements /

Section XI i

gram 2500-1 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments 18 D3.60 Integral j

Attachment Shock j

Absorbers 4 IWD-2500-1 VT-3 l

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NOTES - IWD TABLES

%.)

1.

The system boundary extends up to and includes the first normally closed valve or valve capable of automatic closure as required to perform the safety-related system function.

2.

ASME Code,Section III hydro is performed in lieu of Section XI system leakage test IWD-5221 and system hydrostatic test IWD-5223.

3.

See IWA-5215:

A preservice system hydrostatic test is not required for ASME Code,Section XI.

4.

In the case of multiple components within a system of similar design, function, and service, the integral attachment of only one of the multiple components shall be examined.

The integral attachments selected for examination shall correspond to those component supports selected by IWF-2510(b).

O 002 REV 1 4-10

5.0 CLASS 1, 2,

AND 3 COMPONENT SUPPORTS 5.1 Purpose The purpose of this section is to define a baseline inspection program for Class 1, 2, and 3 component supports to meet the intent of Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through Winter 1980 Addenda.

5.2 Inspection Schedule As much as practicable, Class 1, 2,

and 3 component supports shall be examined following the initiation of the hot functional tests.

The examination of snubbers may require earlier schedule as specified by the NRC or the plant Technical Specifications.

5.3 Inspection Scope Areas subject to preservice inspection are shown in the following tables by examination category.

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5-1 002 REV 1

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INFPECTION SCOPE OF WORK Sheet 1 of 4 Class 1, 2,

and 3 Anticipated Pro-ComponentsSection XI E To Be i

gram Section XI Section XI Exam Exemptions Examined j

Item Category Item Method Used During PSI Comments l

1 F-A F1.10 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are required to be examined under IWB, IWC, and IWD.

2 F-A F1.20 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are required to be examined i"

under IWB, IWC, and IWD.

3 F-A F1.30 VT-3 N/A 100 Component supports selected for examination shall be the supports of those cc=ponents that are required to be examined under IWB, IWC, and IWD.

4 F-A F1.40 VT-3 N/A 100 Component supports selected for examination shall be tne supports of those components that are required to be examined under IWB, IWC, and IWD.

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 2 of 4 Class 1, 2,

and 3 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item Category Item _

Method Used During PSI Comments 5

F-B F2.10 VT-3 M/A 100 Component supports selected for examination shall be the supports of those companents that are requ2 red to be examined under IWB, IWC, and IWD.

6 F-B F2.20 VT-3 N/A 100 Component supports selected for examination shall be the supports of those m

1 components that are required to be examined under IWB, IWC, and IWD.

7 F-B F2.30 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are required to be examined under IWB, IWC, and IWD.

8 F-B F2.40 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are required to be examined under IWB, ]WC, and IWD.

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 3 of 4 Class 1, 2,

and 3 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section X1 Exam Exemptions Examined Item Category item Method Used During PSI Comments 9

F-C F3.10 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are requireed to be examined under IWB, IWC, and IWD.

10 F-C F3.20 VT-3 N/A 100 Component supports selected for examination shall be the supports of those y

components that are requireed to be examined A

under IWB, IWC, and IWD.

11 F-C F3.30 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are requireed to be examined under IWB, IWC, and IWD.

12 F-C F3.40 VT-3 N/A 100 Component supports selected for examination shall be the supports of those components that are requireed to be examined under IWB, IWC, and IWD.

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION SCOPE OF WORK Sheet 4 of 4 Class 1, 2,

and 3 Anticipated Pro-ComponentsSection XI

% To Be gram Section XI Section XI Exam Exemptions Examined Item

, Category Item Method Used During PS1 Comments 13 F-C F3.50 VT-4 N/A 100 Component supports selected for examination shall be the supports of those components that are requireed to be examined under IWB, IWC, and IWD.

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i VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

l PRESERVICE INSPECTION TABLE IWF-2500-1 EXAMINATION CATEGORIES Sheet 1 of 5 F-A, PLATE AND SHELL TYPE SUPPORTS Examination Examination Method l

Pro-IWF-Requirements /

Section XI gram 2500 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments i

1 1

Fl.10 Mechanical IWF-1300-1 VT-3 i

Connections to Pressure Retain-i ing Components j

and. Building l

Structure Y

2 Fl.20 Weld Connections IWF-1300-1 VT-3 to Building i

Structure i

i 3

F1.30 Weld and IWF-1300-1 VT-3 Mechanical 3

Connections at j

Intermediate i

Joints in Multi-l connected Integral and i

Nonintegral l

Supports I

4 F1.40 Component Dis-IWF-1300-1 VT-3 1

. placement Set-l tings and Stops, j

Misalignment of l

Supports, j

Assembly of Support Items l

1

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VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV l-PRESERVICE INSPECTION TABLE IWF-2500-1 EXAMINATION CATEGORIES Sheet 2 of 5 F-B, LINEAR TYPE SUPPORTS Examination Examination Method Pro-IWF-Requirements /

Section XI gram 2500 Component Parts Figure Volu-Sur-Vis-Code Relief Item Item Examined Number metric face ual Requests Comments 1

5 F2.10 Hechanical IWF-1300-1 VT-3 l

l Connections to Pressure Re-taining Com-ponents and Building i

T Structure w

l 6

F2.20 Weld Connections IWF-1300-1 VT-3 to Building Structure 7

F2.30 Weld and IWF-1300-1 VT-3 Mechanical Connections at Intermediate Joints in Multiconnected Integral and Nonintegral Supports

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O VOGTLE ELECTRIC GENERATING PLANT-UNIT NO. 1 002 REV 1

i PRESERVICE INSPECTION TABLE IWF-2500-1 EXAMINATION CATEGORIES.

Sheet 3 of 5 i

F-B, CONTINUED r

Examination Examination Method Pro-IWF-Requirements /

Section XI j

gram 2500 Component Parts Figure Volu-Sur-Vis-Code Relief 1

{

Item Item Examined Number metric face ual Requests Comments 8

F2.40 Component Dis-IWF-1300-1 VT-3 placement l

Settings of l

Guides and Stops, Mis-l alignment y

of Supports, I

Assembly of m

l Support Items t

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O VOGTLE ELECTRIC GENERATING PLANT UNIT NO. 1 002-REV 1

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PRESERVICE INSPECTION Sheet 4 of 5 TABLE IWF-2500-1 EXAMINATION CATEGORIES F-C, COMPONENT STANDARD SUPPORTS Examination Examination Method Pro-IWF-Requirements /

Section XI gram 2500 Component Parts

. Figure Volu-Sur-Vis-Code Relief Item ' Item Examined Number metric face ual Requests Comments 9

F3.10 Mechanical IWF-1300-1 VT-3 Connections to Pressure Re-l taining Com-ponents and i

Building y

Structure i

o l

10 F3.20 Weld Connections IWF-1300-1 VT-3 to Building Structure 11 F3.30 Weld and IWF-1300-1 VT-3 Mechanical Connections at Intermediate Joints in Multiconnected Integral and Nonintegral Supports

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VOGTLE-ELECTRIC GENERATING PLANT UNIT NO. 1 002 REV 1

PRESERVICE INSPECTION TABLE IWF-2500-1 EXAMINATION CATEGORIES Sheet 5 of 5 F-C, CONTINUED Examination Examination Method l

Pro-IWF-Requirements /

Section XI gram 2500 Component Parts Figure Volu-Sur-Vis-Code Relief j

Item Item Examined Number metric face ual Requests

' Comments I

t 12 F3.40 Component Dis-IWF-1300-1 VT-3 j

placement j

Settings of Guides and i

Stops, Mis-l alignment of Supports, ui j

Assembly of o

Support Items j

j 13 F3.50 Spring Type IWF-1300-1 VT-4 1

Supports, Con-stant Load Type 1

Supports, Shock Absorbers, i

Ilydraulic and j

Mechanical i

Type Snubbers i

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6.0 LINE DESIGNATION LIST

/

6.1 Scope 7te lines listed in the Line Designation List are within the scope of the ASME Code,Section XI.

The examination method for each individual line also is designated.

6.2 Systems The Line Designation List includes the following systems:

System System No.

Reactor Coolant 1201 Nuclear Service Cooling Water 1202 Component Cooling Water 1203 Safety Injection 1204 Residual Heat Removal 1205

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Containment Spray 1206 V

Chemical and Volume Control 1208 Nuclear Sampling-Liquid 1212 Spent Fuel Cooling and Purification 1213 Main Steam 1301 Auxiliary Feedwater 1302 Condensate and Feedwater 1305 Safety-Related (ESF) Chillers 1592 (O

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Reactor Coolant - System No. 1201 g

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1 1201 001 29.000 1

111 FC0 2.330 617 2235 UT PT VT-2 26 D6 001 111 2

D6 1

1201 002 29.000 1

til FC0 2.330 617 2235 UT PT VT-2 26 E6 002 til E6 1

1201 003 29.000 1

111 FGO 2.330 617 2235 UT PT VT-2 26 E3 003 111 E3 1

1201 004 29.000 1

111 FC0 2.330 617 2235 UT PT VT-2 26 D4 00t4 111 D3 1

1201 005 31.000 1

111 FC0 2.480 556 2201 UT PT VT-2 26 07 005 111 D8 1

1201 006 31.000 1

111 FC0 2.480 556 2201 UT PT VT-2 26 E7 006 111 E8 1

1201 007 31.000 1

111 FGO 2.180 556 2201 UT PT VT-2 26 F3 007 111 F1 4

1 1201 008 31.000 1

111 FC0 2.480 556 2201 UT PT VT-2 26 D2 008 111 D1 b

1 1201 009 27.500 1

111 FC0 2.210 556 2301 UT PT VT-2 26 C6 009 111 86 1

1201 010 27.500 1

111 FC0 2.210 556 2301 UT PT VT-2 26 F6 010 til C6 1

1201 011 27.500 1

111 FGO 2.210 556 2301 UT PI VT-2 26 F4 011 111 F4 1

1201 012 27.500 1

111 FC0 2.210 556 2301 UT PT VT-2 26 C4 012 111 D3 1

1201 021 2.000 1

111 FC0

0. 34 t4 617 2233 PT VT-2 26 D6 021 til D6 1

1201 022 2.000 1

111 FC0 0.344 617 2233 PT VT-2 26 E6 022 111 F6 1

1201 023 2.000 1

111 FC0 0.344 617 2233 PT VT-2 26 E3 023 111 E3 1

1201 024 2.000 1

111 FC0 0.344 617 2233 PI VT-2 26 C4 024 111 D3 1

1201 025 2.000 1

116 FC0 0.344 556 2301 PI VT-2 26 C6 025 111 B7 1

1201 026 2.000 1

111 FGO

0. 3484 556 2301 PT V1-2 26 F6 026 111 G7 1

1201 027 2.000 1

111 FGO 0. 33 24 556 2301 PT VT-2 26 F3 027 til H3 1

1201 028 2.000 1

111 FC0 O. 34 ts 556 2301 PT VI-2 26 G3 028 111 G3 1

1201 029 4.000 1

111 FGO 0.531 556 2299 U1 P1 VI-2 26 C6 029 111 B6 s, ',, a

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Reactor Coolant - System No. 1201 o

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1 1201 030 4.000 1

111 FGO 0.531 556 2299 UT PT VT-2 26 B4 030 111 C4 1

1201 030 6.000 1

111 FC0 0.719 556 2235 UT PT VT-2 27 DS 030 112 G4 1

1201 031 2.000 1

til FGO 0.344 556 2201 PT VT-2 26 87 031 111 88 1

1201 036 12.000 1

111 FGO 1.125 617 2235 UT PT VT-2 26 D6 036 111 DS 1

1201 042 2.000 1

111 FC0 0.344 556 2201 PT VT-2 26 F7 042 111 G8 1

1201 046 P.000 1

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1 1201 048 3.000 1

111 FC0 0.438 556 2299 PT VT-2 26 G4 048 111 H4 1

1201 049 12.000 1

111 FC0 1.125 617 2235 UT P's VT-2 26 D4 049 111 D4 cn i

1 1201 050 2.000 1

111 FGO 0.344 617 2235 PT VT-2 47 G3 050 122 G2 LO 1

1201 051 2.000 1

111 FGO 0.344 556 2201 PT VT-2 26 C3 051 111 B2 1

1201 053 14.000 1

111 FC0 1.406 653 2235 UT PT VT-2 27 B5 053 111 D4 1

1201 053 16.000 1

111 FGo 1.590 653 2235 UT PT VT-2 26 CA 053 11 Dts 1

1201 056 6.000 1

111 FC0 0.719 653 2235 UT PT VT-2 27 D5 056 112 E6 1

1201 057 6.000 1

111 FC0 0.719 653 2235 UT PT VT-2 27 D6 051 112 E6 1

1201 058 6.000 1

til fGO 0.719 653 2235 UT PT VT-2 27 06 058 112 E7 1

1201 059 3.000 1

111 FC0 0.438 653 2235 PT VT-2 27 G7 059 112 E8 1

1201 059 6.000 1

111 FC0 0.719 653 2235 UT PT VT-2 27 C6 059 112 E7 1

1201 060 3.000 1

111 FGO 0.438 653 2235 PT VT-2 26 Ds 060 112 D7 1

1201 000 6.000 1

111 FGO 0.719 653 2235 UT PT VT-2 27 D/

060 112 D7 1

1201 116 3.000 1

111 FGo 0.438 617 2233 P1 V1-2 26 G7 116 113 G4 1

1201 117 3.000 1

111 FC0 0.438 617 2233 PT VI-2 26 F7 117 113 G4 s, w ' a

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Sheet 0112 System:

Nuclear service cooling Water - System No. 1202 o

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1202 001 6.000 2

212 LL8 0.280 105 145 VT-2 E

37 C3 135 1

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1202 001 8.000 2

212 LL8 0.322 105 145 VT-2 E

37 G3

.35 1

G2 1

1202 002 2.000 3

313 LLS 0.154 105 145 VT-2 37 B2 135 1

B1 1

1202 002 8.000 3

313 LL8 0.322 105 145 VT-2 37 C2 135 1

G1 1

1202 002 10.000 3

313 LL8 0.365 105 145 VT-2 37 D2 135 1

C1 1

1202 002 14.000 3

313 LL8 0.250 105 145 VT-2 37 A3 135 1

81 1

1202 003 2.000 3

313 LL8 0.154 105 145 VT-2 36 G5 134 F5 1

1202 003 3.000 3

313 LL8 0 216 105 145 VT-2 36 H6 134 H5 m

i 1

1202 003 4.000 3

313 LLS 0.237 105 145 V T-2 36 H7 134 H6 m

i 1202 003 16.000 3

313 LL8 0.250 105 145 VT-2 36 H7 134 H6 1

1202 004 3.000 3

313 LL8 0.216 95 145 VT-2 36 E5 134 E5 1

1202 004 4.000 3

313 LL8 0.237 95 145 VT-2 36 E7 1 38 E7 1

1202-004 6.000 3

313 LL8 0 290 95 145 VT-2 34 B8 133 1

88 1

1202 004 16.000 3

313 LL8 0.250 95 145 VT-2 3ft B3 133 1

C2 1

1202 00f4 24.000 3

313 Ltd 0.250 95 1845 VT-2 34 C7 133 1

88 1

1202 005 8.000 3

313 LL8 0.322 105 145 VI-2 38 86 135 2 B6 1

1202 006 2.000 3

313 LL8 0.154 95 145 VT-2 36 B3 134 C3 1

1202 006 3.000 3

313 Lt 8 0.216 95 145 VT-2 36 BS 134 84 1

1202 006 4.000 3

313 LL8 0.237 95 145 VI-2 36 B7 134 B6 1

1202 006 6.000 3

313 Ll3 0.280 95 145 v f-2 35 B8 133 2

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1202 006 16.000 3

313 LL8 0.250 9 ')

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VEGP Unit No.1 002 REv i Line Designation List System:

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nuciea r service cooi ine wate r - svswm nn one g

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313 LL8 0,250 95 145 VT-2 35 87 133 2

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1202 007 12.000 3

313 LL8 0.406 95 145 VT-2 34 F6 133 1

C6 1

1202 008 12.000 3

313 LL8 0.406 95 145 VT-2 34 F6 133 1

G6 1

1202 009 12.000 3

313 LL8 0.406 95 145 VT-2 34 F6 133 1

G7 1

1202 010 12.000 3

313 LL8 0.406 105 145 VT-2 34 F8 133 1

G7 1

1202 011 12.000 3

313 LL8 0.406 105 145 VT-2 35 G6 133 2

C6 1

1202 012 12.000 3

313 LL8 0.406 105 145 VT-2 35 G7 133 2 G6 1

1202 013 12.000 3

313 LL8 0.406 105 145 VT-2 35 G7 133 2 G7 cn

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1 1202 014 12.000 3

313 LL8 0.406 105 20 VT-2 35 G8 133 2 G8 1

1202 017 3.000 3

313 LL8 0.216 100 100 VT-2 37 D6 135 1

D6 1

1202 018 3.000 3

313 LLS 0.216 100 145 VT-2 35 G2 133 2 G1 1

1202 019 2.000 3

313 LL8 0.154 AMB 145 VT-2 34 C4 133 1

C4 1

1202 020 2.000 3

313 LL8 0.154 AMs 145 VT-2 35 C5 133 2 C4 1

1202 021 4.000 3

313 LL8 0.237 95 145 VT-2 38 B8 135 2

B8 1

1202 023 18.000 3

313 LL8 0.250 95 145 VT-2 34 C8 133 1

D8 1

1202 024 18.000 3

313 LL8 0.250 95 145 VT-2 35 C8 133 2 C8 1

1202 028 2.000 3

313 LL8 0.154 100 1%

VT-2 37 C7 135 1

C7 1

1202 029 6.000 3

313 Ll8 0.280 95 50 VI-2 34 05 133 1

F5 1

1202 029 8.000 3

313 LL8 0.322 95 50 VI-2 34 D6 133 1

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1202 030 6.000 3

313 LL8 0.280 95 50 VI-2 35 E6 133 2 L5 1

1202 030 8.000 3

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VEGP Unit No.1 002 REV 1 Line Designation List eet 3 #

System:

Nuclea r service Cooling Water - System No. 1202 n

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1202 032 18.000 3

313 LL8 0.250 95 145 VT-2 35 C5 133 2 C5 1

1202 033 18.000 3

313 LL8 0.250 95 145 VT-2 34 C5 133 1

C5 1

1202 034 18.000 3

313 LL8 0.250 95 145 VT-2 35 C5 133 2 C5 1

1202 035 10.000 3

313 LL8 0.365 105 145 VT-2 37 C7 135 1

E8 1

1202 036 10.000 3

313 LL8 0.365 105 145 VT-2 35 H2 133 2 H2 1

1202 037 10.000 3

313 LL8 0.365 100 145 VT-2 37 F6 135 1

E6 1

1202 038 10.000 3

313 LL8 0.365 100 145 VT-2 35 F2 133 2 F1 i

1 1202 045 2.000 3

313 LL8 0.154 95 145 VT-2 34 84 133 1

B5 4

1 1202 045 3.000 3

313 Lee 0.216 95 145 VT-2 34 04 133 1

B4 1

1202 046 2.000 3

313 LL8 0.154 95 145 VT-2 35 A6 133 2 B5 1

1202 046 3.000 3

313 LL8 0.216 95 145 VT-2 35 BS 133 2 84 1

1202 049 2.000' 3

313 LL8 0.154 95 18 5 VT-2 34 E4 133 1

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1 1202 049 3.000 3

313 LL8 0.216 95 145 VT-2 34 C3 133 1

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1202 050 2.000 3

313 LL8 0.154 95 145 VT-2 35 ES 133 2 E4 1

1202 053 2.000 3

313 LL8 0.1584 95 18 5 VT-2 34 F4 133 1

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1202 053 3.000 3

313 LL8 0.216 105 145 VI-2 34 G3 133 1

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1202 054 2.000 3

313 LL8 0.154 105 18 5 VT-2 35 F5 133 2 F4 4

1 1202 062 2.000 3

313 Lt 8 0.154 100 145 VI-2 37 CT 135 1

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1202 063 2.000 3

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VEGP Unit No.1 002 REV 1 Line Designation List System!

Sheet._.8L 0111_

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1202 068 2.000 3

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1202 072 8.000 3

313 LL8 0.322 95 145 VT-2 38 B5 135 2 B5 1

1202 073 2.000 3

313 LL8 0.154 105 145 VT-2 37 F7 135 1

F7 1

1202 074 2.000 3

313 LL8 0.154 105 145 VT-2 37 F8 135 1

F8 1

1202 076 2.000 3

313 LLS 0.154 105 145 VT-2 37 F8 135 1

F8 1

1202 077 2.000 3

313 LL8 0.154 95 145 VT-2 34 E3 133 1

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1202 079 2.000 3

313 LL8 0.154 105 145 VT-2 34 F2 133 1

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1 1202 082 2.000

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F7 co 1

1202 084 18.000 3

313 LL8 0.250 95 145 VT-2 35 C2 133 2 C2 1

1202 084 22.000 3

313 LL8 0.250 95 145 VT-2 35 C2 133 2 C2 1

1202 084 24.000 3

313 LL8 0.250 95 145 VT-2 35 C4 133 2 C3 1

1202 085 18.000 3

313 LL8 0.250 95 145 VT-2 35 C2 133 2 C1 1

1202 086 14.000 3

313 LL8 0.250 100 145 VT-2 35 E3 133 2 D2 i

A202 666 16.000 3

313 LL8 0.250 100 145 VT-2 35 D2 133 2 D2 1

1202 086 18.000 3

313 LL8 0.250 100 145 VT-2 35 D3 133 2

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1202 086 22.000 3

313 LLS 9.250 100 145 VT-2 35 D3 133 2 D2 1

1202 087 14.000 3

313 LL8 0.250 100 145 VT-2 35 E2 133 2 El 1

1202 088 14.000 3

313 LL8 0.250 105 145 VT-2 35 F2 133 2

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1202 088 16.000 3

313 LL8 0.250 105 145 VT-2 35 F3 133 2

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1202 038 24.000 3

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1202 098 8.000 3

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1202 104 6.000 3

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313 LL8 0.322 95 145 VT-2 34 C3 133 1

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1202 105 2.000 3

313 LL8 0.154 95 145 VT-2 36 F5 134 F4 1

1202 110 2.000 3

313 LL8 0.154 95 145 VT-2 36 F4 134 E4 1

1202 111 2.000 3

313 LL8 0.154 105 145 VI-2 36 G4 134 E4 1

1202 115 3.000 3

313 LL8 0.216 95 145 VT-2 36 E6 134 E6 1

1202 116 2.000 3

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System:

noc iea r service cool inq Wa te r - Sys te n No _ DM Q

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313 LL8 0.250 105 145 VT-2 34 G3 133 1

G3 1

1202 181 24.000 3

313 LL8 0.250 105 145 VT-2 34 G4 133 1

G4 1

1202 182 2.000 3

313 LL8 0.154 105 145 VT-2 37 E7 135 1

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1202 183 2.000 3

313 LL8 0.1584 105 18 5 VT-2 37 E8 135 1

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1 1202 184 8.000 3

313 LLe 0.322 105 145 VT-2 384 F5 133 1

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1202 1 814 18.000 3

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313 LL8 0.365 95 145 VT-2 37 E6 135 1

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1202 187 14.000 3

313 LL8 0.250 95 18 5

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1 1202 188 6.000 3

212 LL8 0.280 95 145 VT-2 37 E4 135 1

E4 1

1202 188 8,000 3

212 LL8 0.322 95 145 VI-2 37 F5 135 1

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1202 189 6.000 3

212 LL8 0.280 95 18 5 VT-2 37 D4 135 1

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1 1202 192 6.000 3

212 LL8 0.280 105 18 5 VT-2 37 E3 135 1

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1 1202 192 S.000 3

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1 1202 194 8.000 2

212 Lt 8 0.322 105 1%

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313 Ll 3 0.322 105 1%

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212 Ll8 0.280 95 1%

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212 Lt3 0.322 95 1%

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1202 197 6.000 3

212 lt8 0.280 95 1%

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212 Ltd 0.280 105 1%

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Nuclea r Service Cooling Water - System No. 1202 UI g

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1202 209 6.000 3

212 LL8 0.280 95 145 VT-2 38 G4 135 2 G3 1

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212 LL8 0.280 95 145 VT-2 38 H2 135 2

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1202 218 6.000 3

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212 LL8 0.322 105 149 VT-2 38 02 135 2 01 1

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1202 223 8.000 3

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VEGP Unit No.1 002 REV 1 Line Designation List System:

Sheet __m of _12_

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1202 231 8.000 3

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1202 232 8.000 3

313 LL8 0.322 105 145 VT-2 38 C5 135 2 C4 1

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component cool ina wa te r - System No. 1?O3 a

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1203 003 4.000 3

313 LL1 0.237 AMB 15 VT-2 42 F7 136 F7 1

1203 005 3.000 3

313 LL2 0.216 105 100 VT-2 42 F7 136 f7 1

1203 009 3.000 3

313 LL2 0.216 105 15 VT-2 42 E7 136 F7 1

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1203 011 4.000 3

313 LL1 0.237 AMB 15 VT-2 42 C7 136 C7 1

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1 1203 021 18.000 3

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VEGP Unit No.1 002 REV 1 Line Designation List System:

Sheet 9 of.A_

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1203 028 16.000 3

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1203 030 8.000 3

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g sarety in_lection - System No. 1204 a

nes...en. e o.aw ny i nie nninie,

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46 F4 121 F3 1

1204 003 3.000 2

212 GGG 0.300 206 1670 VT-2 1

45 F4 121 F3 1

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46 C4 121 F5 1

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212 CGO 0.300 206 1670 VT-2 1

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1204 008 6.000 2

212 LL1 0.280 120 65 PT VT-2 46 E3 008 121 El 1

1204 008 8.000 2

212 LLI 0.322 120 65 PT VT-2 46 C2 008 121 F1 1

1204 010 6.000 2

212 LL1 0.280 120 65 PT VT-2 46 D3 010 121 D1 1

1204 011 6.000 2

212 LLI 0.280 120 65 PT VT-2 46 D3 011 121 E2 1

1204 012 8.000 2

212 LLI 0.322 206 200 PT VT-2 46 D3 012 121 D2 1

1204 014 3.000 2

212 CGO 0.300 206 1670 VT-2 8

46 E3 121 E3 1

1204 014 4.000 2

212 CGO 0.337 206 1670 VT-2 3

46 E5 121 E4 1

1204 015 3.000 2

212 CCO 0.300 206 1670 VT-2 1

46 D4 121 D3 1

1204 015 4.000 2

212 GGO n.337 206 1670 VI-2 3

46 D4 121 D3 1

1204 016 2.000 2

212 FC0 0.344 AM8 2485 VT-2 8

46 F6 121 E6 See note 4.

1 1204 016 2.000 1

212 FC0 0.344 AMD 2485 PI VT-2 46 F6 121 E6 See note 4.

I 1204 017 2.000 2

212 FGO U.344 AM8 2485 VI-2 1

46 f7 121 F7 See note 5.

9

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Sarety injection - System No. 1204 Slieel

[

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=

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1 1204 017 2.000 1

212 FCo

0. 3t 4 AM3 2:485 pT yy.2 46 F7 121 F7 See note 3.

4 1

12084 018 2.000 1

111 FGO 0.344 AMB 2485 PT VT-2 46 F6 018 121 F6 1

1204 020 8,000 1

212 FGe 0.906 AMB 2885 UT PT VT-2 46 E6 020 121 F6 4

1 1204 021 6.000 1

111 FGO 0.719 AMB 2485 UI PT VT-2 46 G7 021 121 G7 1

1201.

021 8.000 1

111 FC0

0. ' J6 AMB 2485 UT PT VT-2 46 G8 021 121 G7 4

1 1204 021 12.000 1

111 FC0 1.125 617 2235 UT PT VT-2 26 Dr4 021 111 D3 1

1204 022 2.000 1

til FC0 0.344 AMD 2485 PT VT-2 46 FS 022 121 F6 l

1 1204 023 6.000 1

til FC0 0.719 AMG 2485 UT PT VT-2 46 G7 023 121 G7 0%

i 1

1204 023 8.000 1

til FC0 0.906 AMB 2485 UT PT VT-2 46 G8 023 121 GT N

N 1

1204 024 2.000 1

111 FGO 0. 38 4 AMB 2485 PT VT-2 46 F8 024 121 G7 4

1 1204 024 6.000 1

111 FGO 0.719 AMB 2485 UT PT VI-2 46 F7 024 121 G7 1

1204 025 2.000 1

111 FC0 0. 31 4 AMB 2885 PT VT-2 4

86 F8 025 121 G7 4

4 1

12014 025 6.000 1

111 FC0 0.719 AMB 2485 UT PT VT-2 46 F7 025 121 G7 1

1204 028 4.000 2

212 CGO 0.337 206 1670 VJ-2 1

46 E5 121 E5 f

1 1204 029 2.000 2

212 FC0 0.34!4 AMD 2185 VT-2 3

46 C7 121 88 See note 6.

4 1

1204 029 2.000 1

212 FGO

0. 31 4 AMB 21.6 5 PT VT-2 46 C7 121 B8 See note 6.

4 I

120f4 029 4.000 2

212 FC0 0.531 AMB 21485 VT-2 3

46 C7 121 C6 1

1204 030 2.000 2

212 FC0 0.344 AMB 2185 VT-2 1

4 16 C7 121 C7 See note 7.

4 I

1204 030 2.000 1

212 IGO

0. 31 ts AMH 2'465 PI VI-2 46 GT 121 87 See note 7.

4 I

1204 031 2.000 2

212 tGO O. 3 t le AMll 2f 85 VI-2 1

i 16 GT 121 BT See note 8.

4 4

I 1234 031 2.000 1

212 IGO O. 34f4 AMil 2485 PI vl.2 46 Cl 121 G7 See note 8.

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Systeci:

sarety injection - System No. 1204 a

l{efeecru e ()rawnig M

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12014 032 2.000 2

212 FGO

0. 34f4 AMB 2185 VT-2 I

r.6 C6 121 B6 See note 9.

4 1

1204 032 2.000 1

212 FGO 0.344. AMB 2485 PT VT-2 46 C6 121 86 See note 9.

lAMB 1

1204 033 2.000 1

111 FC0 0.344 2185 PT VT-E 46

, 87 033 121 A8 4

1 1204 034 2.000 1

111 FGO 0.344 AMB 2485 PT VT-2 46 B7 034 121 A7 1

1204 035 2.000 1

111 FGO 0.344 AMB' 2485 PT VT-2 46 87 035 121 B7 1

1204 036 2.000 1

til FGO 0.344 AMD 2485 PT VT-2 46 C6 C36 121 B7 1

1204 037 4.000 2

212 GGO 0.337 206 1670 VT-2 1

46 DS 121 05 1

1204 038 10.000 2

212 LL1 0.365 120 65 VT-2 G

46 F3 121 F2 cr*

1 1204 038 14.000 2

212 LLI 0.375 120 65 VT-2 C

46 C3 121 F2 i

M 1

1204 039 6.000 1

212 FGO 0.719 AMG 2485 UT PT VT-2 84 6 B6 039 121 B6 w

1 1204 039 8.000 1

212 FGO 0.906 AMO 2485 UT PT VT-2 46 B6 039 121 B6 1

1204 041 6.000 1

212 FGO 0.719 AMB 2485 UT PT VT-2 46 B6 041 121 A6 1

1204 041 8.000 1

212 FC0 0.906 AMD 2f85 UT PT VT-2 46 B6 01 1 121 A6 4

4 1

1204 01 2 6.000 1

til FGO 0.719 AMB 2485 UT PT VT-2 46 C7 4

01 2 121 B7 4

1 1204 043 6.000 1

111 FC0 0.719 AMD 2485 UT PT VT-2 f.6 G6 043 121 B7 1

1204 01 4 6.000 1

111 FC0 0.719 AMB 2485 UT P1 VT-2 46 87 0 414 121 A7 4

1 1204 045 6.000 1

111 FC0 0.719 AMB 2185 UT PT VI-2 86 B7 4

01 5 121 Al 4

4 1

1204 057 3.000 2

212 FGO 0.438 130 2350 VT-2 1

31 BS 116 G8 1

1204 057 4.000 2

212 FGO 0.531 130 2350 VI-2 l

44 B3 116 2

07 1

1204 057 6.000 2

212 FG0 0.719 130 2350 UT PT VI-2 4f4 G5 i)S 7 119 G4 1

1204 063 3.000 2

212 fGO 0.438 165 115 VI-2 8

44 E6 119 ES swa

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1 1204 063 4.000 2

212 FC0 0.531 165 115 VT-2 1

44 ES 119 E4 1

1204 063 6.000 2

212 FGO 0.719 165 2735 UT PT VT-2 44 D5 063 119 E4 1

1204 076 1.500 1

111 FC0 0.281 165 2735 PT VT-2 44 F7 076 119 C6 1

1204 076 3.000 1

111 FC0 0.438 165 2735 PT VT-2 44 E7 076 119 E6 1

1204 077 1.500 1

111 FC0 0.281 165 2735 PT VT-2 44 C7 077 119 D6 1

120's 078 1.500 1

111 FC0 0.281 165 2735 PT VT-2 44 E7 078 119 F7 1

1204 079 1.500 1

111 FC0 0.281 165 2735 PT VT-2 44 D7 079 119 E7 1

1204 120 2.000 2

212 11C0 0.154 120 700 VT-2 1

15 G5 120 C5 4

1 1

1204 120 10.000 2

212 180 0 0.365 120 700 PT VT-2 85 C5 120 120 C5 4

1 1204 121 2.000 2

212 110 0 0.154 120 700 VT-2 1

15 E5 120 E5 4

1 1204 121 10.000 2

212 11C0 0.365 120 700 PT VT-2 45 E5 121 120 E5 1

120f; 122 2.000 2

212 ilGO 0.154 120 700 VT-2 1

45 D5 120 C5 1

1204 122 10.000 2

212 110 0 0.365 120 700 Pi VT-2 45 C5 122 120 C5 1

1204 123 2.000 2

212 18C0 0.154 120 700 VT-2 1

45 BS 120 A5 1

120t4 123 10.000 2

212 11C0 0.365 120 700 PT VT-2 45 B5 123 120 AS 1

1204 124 10.000 1

111 FC0 1.000 AMB 2f85 UT PT VT-2 45 C6 124 120 C6 4

1 1264 125 10.000 1

111 FC0 1.000 AMB 2485 UT PT VT-2 45 E6 125 120 E6 1

1204 126 10.000 1

111 FC0 1.000 AMB 2485 UT PT VT-2 45 C6 126 120 C6 1

1204 127 10.000 1

111 iGO 1.000 AMU 2485 UT PT VI-2 85 86 127 120 A6 4

1 1204 152 2.000 2

212 LL1 0.154 100 33 VI-2 i

48 D3 131 D3 1

1204 169 2.000 2

212 LL1 0. 1 524 120 65 VI-2 i

f.9 Cl4 130 A3 e,w e

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Sare;y iniection - System No. 120l6 8

g liefeieru e t)eavveng g

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1204 169 3.000 2

212 LLI 0.216 120 65 VT-2 1

46 G2 121 F1 1

1204 177 8.000 2

212 LL1 0.322 120 65 VT-2 G

46 C2 121 F2 1

1204 192 8.000 2

212 LL1 0.322 115 100 VT-2 G

la6 F3 122 E6 1

1204 197 2.000 2

212 FGO 0.344 AMB 2485 VT-2 1

46 F5 121 ES See note 10.

1 1204 197 2.000 1

212 FCO 0.344 AMB 2485 PT VT-2 46 F5 121 E5 See note 10.

1 120r4 197 4.000 2

212 FGO 0.531 AMB 2485 VT-2 1

46 E5 121 E5 1

1204 199 2.000 2

212 FC0 0.344 AMB 2485 VT-2 8

46 F7 121 E7 See note 11 1

120t4 199 2.000 1

212 FGO

0. 3414 AMB 2485 PT VT-2 46 F7 121 E7 See note 11 m

b 1

1204 199 4.000 2

212 FGO 0.531 AMB 2485 VT-2 1

46 D6 121 D6 tn 1

1204 201 8.000 1

212 FC0 0.906 AMB 2485 UT PT VT-2 46 F6 201 121 F6 1

120f4 201 12.000 1

212 FC0 1.125 AMB 2485 UT PT VT-2 46 C4 201 121 B4 1

120f4 213 3.000 2

212 LL1 0.216 AMB 20 VT-2 1

46 C2 121 F1 1

1204 228 2.000 3

313 LLI 0.154 100 38 VT-2 49 C4 130 B3 1

1204 239 3.000 2

212 LL1 0.216 AMB 20 VT-2 1

46 H3 121 G3

?

120l4 241 3.000 2

212 LL1 0.216 150 65 VI-2 1

46 G3 121 G3 1

1204 243 1.500 1

111 FC0 0.281 165 2735 PT VI-2 26 F7 076 111 C4 1

12014 243 3.000 1

til FGO 0.438 165 2735 PT VT-2 26 E7 076 111 D4 1

1204 21 4 1.500 1

111 FC0 0.281 165 2135 PT VI-2 26 E7 078 111 HS 4

1 1204 244 3.000 1

til FGO 0.438 165 2735 P1 VI-2 26 F5 078 111 G5 1

120!4 21 5 1.500 1

111 ICO 0.281 165 2 / 3'=

P1 VI-2 26 F4 079 111 H4 4

1 1204 245 3.000 1

111 iGO 0.8 38 165 2/3'>

Pi VI-2 26 I4 0/9 111 C4 4

1 120l4 246 1.500 1

111 iW 0.231 165 P/W PI VI-2 26 OS 0//

111 C4 1

1204 246 3.000 1

til FGu O.438 165 273's Pi VI-2 26 D9 all 111 Dl4 e,w ' i e

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VEGP Unit No.1 002 REV 1 Line Designation List Sheet 1 o f 1_._

System:

Residuai Heat Remova1 - System No. 12 o

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1205 001 3.000 2

212 FGO 0.438 350 450 VT-2 1

47 F3 122 G3 6

1 1205 001 12.000 2

212 FGO 1.125 350 450 UT PT VT-2 47 F3 001 122 G3 1

1205 002 3.000 2

212 FGO 0.438 350 450 VT-2 3

47 C3 122 D3 1

1205 002 12.000 2

212 FC0 1.125 350 450 UT PT VT-2 47 C3 002 122 D3 1

1205 003 12.000 2

212 liGO 0.406 350 450 PT VT-2 47 F3 122 G3 1

1205 003 14.000 2

212 liGO 0.438 350 450 PT VT-2 47 F4 004 122 F3 1

1205 004 12.000 2

212 iiGO 0.406 350 450 PT VT-2 47 C3 004 122 03 m

1 1205 0 014 14.000 2

212 liGO 0.438 350 450 PT VT-2 47 C4 004 122 D3 i

N 1

1205 005 2.000 2

212 IIGO 0. 1514 350 600 VT-2 5

87 F5 122 F5 4

m 1

1205 005 8.000 2

212 ilGO 0.322 350 600 PT VT-2 47 F5 005 122 F5 87 F6 005 122 F6 11.000 2

212 ilGO 0.438 350 600 PT VT-2 1

1205 005 4

4 1

1205 006 2.000 2

212 ftGO 0.154 390 600 VT-2 1

47 C5 122 DS 17 C5 006 122 05 1

1205 006 8.000 2

212 11G0 0.322 350 600 PT NT-2 4

1 1205 006 184.000 2

212 liGO 0.438 350 600 PT VT-2 47 C6 006 122 C6 1

1205 001 8.000 2

212 liGO 0.322 350 600 PT VT-2 47 F7 007 122 F8 1

1205 007 14.000 2

212 IIGO 0.438 350 600 PT VT-2 47 F6 007 122 F6 17 D6 122 C7 1

1205 008 2.000 2

212 liGO 0.154 350 600 VI-2 1

4 1

1205 008 8.000 2

212 IIGO o.322 350 600 PT VI-2 17 D7 C08 122

8 4

1 1205 008 14.000 2

212 liGG 0.8 38 350 600 PI VI-2 4?

C6 008 122 C6 4

17 E7 009 122 E7 1

1205 009 8.000 2

212 ilGO 0.322 250 6t:0 PI VI-2 4

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System:

Residuai Heat Remova1 - Svstem No. 12 M

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L ene Nupit)ct u

=

c I xamination Mettux1 g

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1205 009 12.000 2

212 HGO 0.406 250 600 PT VT-2 47 E7 009 122 E7 1

1205 010 12.000 2

212 ItGO 0.406 250 600 PT VT-2 47 D7 010 122 E6 1

1205 012 2.000 2

212 HGO 0.154 250 600 VT-2 1

47 E6 122 F7 1

1205 013 3.000 2

212 HGO 0.216 350 600

-VT-2 1

47 G6 122 G3 1

1205 014 3.000 2

212 itGO 0.216 350 600 VT-2 1

47 D6 122 D3 1

1205 019 2.000 2

212 ffGO 0.154 350 450 V T-2 3

47 F4 122 G4 1

1205 020 2.000 2

212 ItGO 0.154 350 450 VT-2 3

47 C4 122 D4 1

1205 023 2.000 2

212 itGO 0.154 350 450 VT-2 1

47 F4 122 G4 cT I

1 1205 024 2.000 2

212 IIGO 0.154 350 450 VT-2 1

47 C4 122 D4 N

4 1

1205 027 14.000 2

212 HGO 0.438 350 450 PT VT-2 47 C4 027 122 C3 1

1205 028 14.000 2

212 11G0 0.438 350 450 PT VT-2 47 C4 028 122 C3 1

1205 030 2.000 2

212 HGO 0.154 250 600 VT-2 1

47 E6 122 D6 1

1205 039 2.000 3

212 HGO 0.154 350 600 VT-2 47 F4 122 G3 See note 12.

I 1205 039 12.000 2

212 HGO 0.406 350 450 PT VT-2 47 F3 039 122 F3 1

1205 040 2.000 2

212 HC0 0.154 350 600 VT-2 1

47 04 122 D3 1

1205 040 12.000 2

212 IfGO 0.406 350 450 PT VI-2 47 D4 040 122 D3 swis

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VEGP Unit No.1 002 REV 1 Line Designation List System:

Containment S > ra y - System No. 1206 g

Hefeiceu e i pe awuq

=

e, I m.ieninatuni Mettuni g

t une Nuinbee

,y y

D-su s e.m l'& ll )

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1206 001 12.000 2

212 LL1 0.406 AMD 65 VT-2 H

48 B5 131 A5 1

1206 002 12.000 2

212 LLI 0.406 AMB 65 VT-2 H

48 B5 131 C5 1

1206 003 10.000 2

212 LL1 0.365 AM8 100 VT-2 H

48 F3 131 C3 1

1206 004 10.000 2

212 LL1 0.365 AMD 100 VT-2 H

48 D3 131 D3 1

1206 004 12.000 2

212 LL1 0.406 AMB 100 VT-2 H

18 C4 131 D4 4

1 1206 005 2.000 2

212 KC0 0.154 AM8 270 VT-2 l

48 G5 131 C5 1

1206 005 8.000 2

212 kCO 0.322 AMS 270 VT-2 H

I8 C5 131 C5 4

m 1

1206 006 2.000 2

212 ACO 0.154 AMB 270 VT-2 1

48 C5 131 C5 I

N 1

1206 006 8.000 2

212 ACO 0.322 AMB 270 VT-2 H

48 C4 131 C4 co 1

1206 007 2.000 2

212 LL1 0.154 120 150 VT-2 1

48 C6 131 G7 1

1206 007 4.000 2

212 LL1 0.237 120 150 VT-2 1

48 F8 131 F8 1

1206 007 6.000 2

212 LL1 0.280 120 150 VT'2 H

48 F7 131 F7 1

1206 007 8.000 2

212 LL1 0.322 120 150 VT-2 H

48 F7 131 C7 1

1206 007 10.000 2

212 LL1 0.365 120 150 VT-2 H

48 G7 131 C7 1

1206 008 2.000 2

212 LLI 0.154 120 150 VT-2 1

48 C6 131 D7 1

1206 008 4.000 2

212 LL1 0.237 120 150 VT-2 3

48 E8 131 E8 1

1206 008 6.000 2

212 LLI O.280 120 150 VT-2 H

48 E7 131 E7 1

1206 008 8.000 2

212 LL1 0.322 120 150 VT-2 H

48 07 131 D7 1

1206 008 10.000 2

212 LLI

0. 3 6'>

120 150 VI-2 H

48 D7 131 D7 1

1206 009 6.000 2

212 LLI 0.280 120 150 VI-2 H

48 F8 131 F8 1

1206 010 2.000 3

313 LLI O.154 AMU 2*>

VI-2 48 D3 131 D3 I

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Containment s, ra v - svstem No.

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g Heleecen c t hawmg 0

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1206 013 6.000 2

212 LLI 0.280 120 150 VT-2 H

48 G8 131 G8 1

1206 014 3.000 3

313 LL1 0.216 AMB 25 VT-2 48 F3 131 F3 1

1206 018 2,000 3

313 LLI 0.154 AMB 15 VT-2 48 E3 131 E3 1

1206 019 3.000 3

313 LLI 0.216 AMB 25 VT-2 48 E3 131 E3 1

1206 020 3.000 2

212 LL1 0.216 AMS 25 VT-2 1

48 F5 131 F5 1

1206 021 3.000 2

212 LLI 0.216 AM8 25 VT-2 1

48 DS 131 DS 1

1206 036 3.000 2

212 LL1 0.216 100 120 VT-2 1

48 F4 131 G4 1

1206 037 3.000 2

212 LL1 0.216 100 120 VT-2 1

48 D3 131 D4 0

1 1206 040 6.000 2

262 LLi G.260 120 150 VT-2 H

48 08 131 08 e

1 1206 046 3.000 3

313 LL1 0.216 AMB 25 VT-2 48 E5 131 E5 1

1206 047 3.000 2

212 KGO 0.216 AMB 120 VT-2 1

48 G5 131 G5 1

1206 048 3.000 2

212 KGO 0.216 AMS 120 VT-2 1

48 D5 131 DS 1

1206 054 6.000

,2 212 Li1 0.280 100 150 VT-2 H

48 D8 131 D8 e,w r i

p n

wi VEGP Unit No.1 002 REv i Line Designation List S. stem:

Sheet 1 of 7 y

Chemicat and wa t umo con :ro i - system m_

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1208 001 3.000 1

111 FC0 0.438 557 2205 PT VT-2 28 H7 001 114 C7 1

1208 002 3.000 2

212 FC0 0.438 557 2205 VT-2 1

28 G7 114 G7 1

1208 003 2.000 2

212 FC0 0.344 130 2350 VT-2 1

30 E6 116 1

DS 1

1208 003 3.000 2

212 FC0 0.438 130 2350 VT-2 1

30 C6 116 1

C5 1

1208 003 3.000 2

212 FGO 0.438 130 2350 VT-2 1

30 05 116 C5 1

1208 004 3.000 3

313 LL1 0.216 75 ATM VT-2 32 F7 118 F6 1

1208 005 3.000 2

212 FC0 0.438 290 2185 VT-2 1

28 C5 114 C5 1

1208 006 3.000 2

212 FC0 0.438 516 2290 VT-2 1

28 C7 114 E7 cn

[

1 1208 007 3.000 1

111 FC0 0.438 556 2299 PT VT-2 26 D4 007 111 D3 C

1 1208 008 3.000 2

212 FC0 0.438 516 2290 PI VT-2 28 G7 008 l ife F8 1

1208 009 3.000 1

111 FC0 0.438 556 2299 PT VT-2 26 B5 009 111 B6 1

1208 011 2.000 2

212 FGO 0. 38 4 516 2290 VT-2 1

28 F7 114 E8 4

1 1208 012 2.000 1

111 FC0 0.344 556 2235 PT VT-2 27 C5 012 112 DS 1

1208 019 1.250 2

212 FC0 0.250 150 40 VT-2 1

28 C7 114 C7 1

1208 020 2.000 2

212 LL1 0.1514 150 35 VT-2 1

28 E6 114 D7 1

1208 020 3.000 2

212 LL1 0.216 150 35 VT-2 1

33 G4 148 C8 1

1208 022 2.000 2

212 FGO

0. 3 fs ta 130 2350 VT-2 1

30 C7 116 1

B6 1

1208 023 1.500 2

212 IGO 0.281 130 2340 VT-2 1

28 07 114 A5 1

1208 023 1.500 2

212 FGO 0.281 130 2340 VI-2 1

28 Al 114 A7 1

1208 023 2.000 2

212 ICO O.344 130 2340 VT-2 1

28 B3 116 1

A7 1

1208 024 1.500 1

111 iGO 0.281 130 2340 PI VI-2 28 07 024 114 B7 suri

v v

v VEGP Unit No.1 002 REV 1 Line Designation List System:

het 2 M 7 chemicar and ' ro i n w con-roi - svu nm un 3 2 u, y

14efeiem e 1)rawmg i sne Numbes u

=

1 xanunaleon Metluxi e

',['

8%lt) y b

eSs ca.iss y

a

_?

cC E

%3 25

>0 m

o

g E

E.

,o NOli 5 a

U j

EGO Surine V esum I

b j

g System No.

V C

h

~g Zac 9

a 2

zes OL OES Ew z2 u

33 z-5 u

1 1208 026 3.000 2

212 hCO 0.216 115 350 VI-2 1

33 D3 18 8 D6 4

1 1208 027 3.000 2

212 KGO 0.216 115 350 VT-2 1

33 84 18 8 67 4

1 1208 028 2.000 2

212 KGO 0. 1 514 115 350 VI-2 1

33 D3 148 D7 1

1208 030 3.000 2

212 KC0 0.216 150 350 VT-2 1

33 G3 148 D6 1

1208 031 3.000 2

212 KGO 0.216 150 350 VT-2 1

33 E4 18 8 B7 4

1 1208 032 2.000 2

il2 KGO 0.154 150 350 VI-2 1

33 C3 11 8 D7 4

A 1208 034 3.000 3

313 LLI 0.216 75 ATM VT-2 32 Die 118 83 cn 1

1208 036 1.250 2

212 FC0 0.250 150 10 VT-2 1

28 C7 114 C7 4

1 1

1208 037 2.000 2

212 LL1 0. 1 584 150 35 VT-2 1

28 E6 114 07 1

1208 038 1.250 2

212 FC0 0.250 150 10 VT-2 1

28 C7 114 C7 4

1 1208 039 2.000 2

212 LLI

0. 1584 150 35 VT-2 8

28 E7 114 D7 1

1208 01 0 1.250 2

212 FC0 0.250 150 iso VT-2 1

28 C7 l ife C7 4

1 1208 041 2.000 2

212 LL1 0.151a 150 35 VT-2 1

28 E'l 1 184 07 1

1208 042 1.500 2

212 FGO 0.281 130 23ts0 VT-2 1

28 BT 01 2 114 A7 4

1 1208 01 2 1.500 2

212 FGO 0.281 130 2340 VT-2 1

28 87 1 184 A6 4

1 1208 01 2 2.000 2

212 FC0 0. 31 244 130 2340 VT-2 1

28 B4 114 AS 4

1 1208 02:3 1.500 1

111 FGO O.281 130 2380 PT VT-2 28 87 4

08 3 114 B7 4

1 1208 08144 1.500 2

212 FGO 0.281 130 2340 VT-2 1

28 B7 1 114 A7 1

1208 01 4 1.500 2

212 fGO 0.281 130 2310 VI-2 1

28 B7 01844 11f4 A6 4

4 1

1208 0'44 2.000 2

212 IGO P

3f le 130 2380 VI-2 28 A3

.134 A5 i

4 1

1208 Ol 5 1.500 1

111 FGO O.281 130 23'40 PT VT-2 28 87 4

11 5 1114 B7 4

sss i

m m

m (d'

)

(v)

VEGP Unit No.1 002 REV 1 Line Designation List System:

Sheet i of 7 Cherrical and Volt'm Onrtrni - Mve. tom Nm 19'm Lme Numbe' W

h f{efetem e thawmg as E nemnatmn Melluni fj,.

5%II) 15' CuS5 y

is 3:

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$3 $2 3

0 1

1208 046 1.500 2

212 FCO 0.281 130 2340

'/ T -2 1

28 B7 114 A7 1

1208 046 1.500 2

212 fGO 0.281 130 2340 VT-2 1

28 B7 C46 1 184 A6 08 6 2.000 2

212 FGC 0.344 130 2 31:0 VT-2 1

23 A3 1114 AS 1

1208 4

1 1208 08 7 1.500 1

111 FC0 0.281 130 2340 PI VT-2 28 B7 047 1184 B7 4

1 1208 051 2.000 2

212 FGO 0.216 130 2340 VT-2 8

33 G6 18 8 D6 4

1 1208 052 3.000 2

212 FC0 0.216 130 2310 VT-2 1

33 E7 18 8 07 4

4 1

1208 053 2.000 2

212 FC0 0.154 130 23f0 VT-2 4

33 G6 148 D7 4

f 1

1208 055 3.000 2

212 liGO 0.216 293 390 VT-2 I

28 H3 114 H3 U

1 1208 055 3.000 2

212 HGO 0.216 293 390 VT-2 1

28 H3 055 1 184 H3 1

1208 0 614 3.000 2

212 HGO 0.216 200 350 VT-2 1

29 G1 117 ri 1

1208 066 2.000 2

212 ilGO 0.154 115 350 VI-2 8

29 Ele 115 F4 1

1208 066 3.000 2

212 HGO 0.216 115 350 VT-2 1

29 E5 115 F3 1

1208 068 3.000 2

212 LLI 0.216 130 15 VT-2 1

30 H7 115 H4 1

1208 089 3.000 2

212 KGO O.216 150 350 VT-2 1

33 G3 148 C6 1

1298 0')0 3.000 2

212 iGO 0.216 115 110 VT-2 1

29 E3 115 E3 1

1208 091 3.000 2

212 KGO 0.216 115 35 VT-2 1

29 E3 115 F3 1

1208 092 3.000 2

212 KGO 0.216 150 350 yy-a g

33 c,4 18 8 C7 4

1 1208 093 3.000 2

212 hCO 0.216 115 25 yi-2 l

19 F2 115 F2 1

1208 09S 2.000 2

212 LL1 0.1 %

150 2 *3 yy-2 1

30 F7 116 1

F7 1

1208 095 3.000 2

212 LLI 0.216 150 25 yl-2 1

33 F7 116 1

E6 1

1208 095 4.000 2

212 LLI O.23/

150 2 ')

VI-2 4

30 f6 116 1

f6 l

owa

f%

f3 f3 i%,)

\\

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\\,v) v VEGP Unit No.1 002 REV 1 Line Designation List Sheet 4 of 7 System.

chemical and voiume Control - System No. 1208 0

Helesem e thawmg

=

1 xammatica Methmt i me F4umtier g

,3, g

F ise csass 8%It) g a

g,,

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l' 2 a

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o 52 5"' 8 " '

V 'W 8' 5

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0 Od3 ab z*

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1 1208 097 3.000 2

212 LL1 0.216 115 15 VT-2 1

30 F5 116 1

E4 1

1208 097 4.000 2

212 LLI 0.237 115 15 VT-2 1

30 F6 116 1

E5 1

1208 099 2.000 2

212 FGO 0.344 130 2350 VT-2 1

31 D6 116 2 E6 1

1208 099 3.000 2

212 FGO 0.438 130 2350 VT-2 1

31 D6 116 2 D6 1

1208 100 2.000 2

212 LL1 0.154 130 25 VT-2 1

31 F8 116 2 E8 1

1208 101 2.000 2

212 FC0 0.344 130 2350 VT-2 1

31 E6 116 2 f6 1

1208 101 3,000 2

212 FGO 0.8 38 130 2350 VT-2 1

31 F6 116 2 F6 4

1 1208 103 3.000 2

212 LL1 0.216 130 15 VT-2 1

30 C6 116 1

C6 m

Iw 1

1208 108 3.000 2

212 LL1 0.216 115 20 VT-2 1

30 ft5 116 1

G4 w

1 1208 110 3.000 2

212 LLI 0.216 115 15 VT-2 1

33 11 4 116 1

if3 1

1208 112 2.000 2

212 FGO

0. 3f ls 165 2153 VT-2 l

28 E2 114 E2 i

I 1208 116 2.000 3

313 LL1 0.154 75 25 VT-2 30 G3 116 1

F2 1

1208 117 2.000 2

212 AGO 0.154 75 25 VT-2 1

30 G3 116 1

G2 1

1208 118 2.000 3

313 LL1 0.154 75 30 VT-2 30 C?

116 i

F1

?

1203 119 2.GGG 3

333 LLI 0. 1 584 75 30 VT-2 30 F2 116 1

F1 1

1208 123 2.000 2

212 LL1 0.1584 115 15 VT-2 1

30 E5 116 1

D4 1

1208 123 4.000 2

212 LLI 0.237 115 15 VT-2 1

30 E4 116 1

C3 1

1208 125 2.000 2

212 LLI 0.154 75 25 VT-2 i

30 F3 116 1

F3 1

1208 127 2.000 3

313 LL1 0.154 75 15 VT-2 30 F3 116 1

E3 1

1208 131 2.000 3

313 LL1 0.154 75 35 VI-2 30 E2 116 1

D2 1

1208 132 2.000 2

212 LLI 0. 1586 115 15 VI-2 1

30 C2 116 1

El 6ssri

p

('m m)

(,/

V VEGP Unit No.1 002 REV 1 Line Designation List System Sheet s of 7 Chem ica I and 'In t u nn ('n n rn 1 c,v o mr un 191n O

itefesegu e Drawing g

1 xd" idt'on Mettuut i ene F4urnber

,3, y$

F ese class P&lO

l; o

7 E

,8 r40115 G

5 55-EE ci

$j$5 US5 5

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z.%

5 l

5""***

V *'d 6

6 3

z cE c 9

a 2

zFc O cL, od 8 ab ze u

.a c,,

u 1

1208 133 2.000 2

212 LL1 0.154 115 15 VT-2 1

30 D2 116 1

D1 1

1208 134 2.000 3

313 LL1 0.154 75 45 VT-2 30 D3 116 1

D2 1

1208 136 2.000 3

313 LL1 0.1 E 't 75 45 VT-2 30 E3 116 1

D3 1

1208 137 8.000 2

212 LL1 0.322 115 15 PT VT-2 31 F3 137 116 2 E3 1

1208 139 6.000 2

212 LL1 0.280 115 15 PT VT-2 31 C4 139 116 2 C3 1

1208 139 8.000 2

212 LLI 0.322 115 15 PT VT-2 31 C4 139 116 2

C3 1

1208 141 4.000 2

212 LL1 0.237 115 15 VT-2 1

30 D4 116 1

C3 1

1208 141 6.000 2

212 LL1 0.280 115 15 PT VT-2 31 G4 141 116 2 D3 b

1 1208 141 8.000 2

212 LL1 v.322 115 15 PT VT-2 31 G3 116 2 03

.b.

1 1208 144 4.000 2

212 FC0 0.531 130 2350 VT-2 1

31 C6 116 2

C5 1

1208 145 4.000 2

212 FGO 0.531 130 2350 VT-2 1

31 C5 116 2 C5 1

1208 146 3.000 2

212 FCO 0.438 130 2350 VT-2 1

3s B7 116 2 08 1

1208 147 3.000 2

212 FC0 0.438 130 2350 VT-2 1

31 C6 116 2 D6 1

1208 149 3.000 2

212 FGO 0.438 130 2350 VT-2 1

33 F7 116 1

87 1

1208 150 2.000 2

212 FGO 0.344 130 2340 VT-2 1

30 C8 116 1

87 1

1208 213 2.000 3

313 LL1 0.154 75 45 VT-2 32 F5 118 F5 1

1208 213 4.000 3

313 LLI 0.237 75 AIM VT-2 32 GT 118 G7 1

1208 215 2.000 2

212 tlGO 0.154 293 390 VI-2 1

28 11 5 114 61 5 1

1208 215 3.000 2

21?

ItGO 0.216 293 390 VT-2 1

28 61 5 114 G5 1

1208 225 3.000 2

212 HC0 0.216 293 390 VI-2 1

29 GT 115 G8 swin

n r3 (Ow)'

\\J G) i i

/

VEGP Unit No.1 002 REV 1 Line Designation List Sheet 6 of 7 System:

chemicas and Volume control - system 10.

iP m g

ficiercru e tirawing W

=

I "d'"' nation Met hmt i ene Nuenbei e

n, C

f y$_

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ne aan i % 11 )

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g gg g

g g

3 26c 9

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0 1

1208 238 2.000 3

313 LLI 0.154 75 ATH VT-2 32 C6 118 G6 1

1208 239 3.000 3

313 LL1 0.216 75 AIH VT-2 32 G6 118 G6 1

1208 240 2.000 3

313 LL1 0.154 75 ATH VT-2 32 D4 118 D4 1

1208 240 3.000 3

313 LL1 0.216 75 ATH VT-2 32 D4 118 D3 1

1208 240 6.000 3

313 LL1 0.280 75 ATH VT-2 32 G7 118 C6 1

1208 241 2.000 3

313 LLI 0.154 75 ATH VT-2 32 G4 118 B4 1

1208 241 3.000 3

313 LLI 0.216 75 ATH VT-2 32 C4 118 B3 1

1208 242 2.000 3

313 LLI 0.154 75 45 VT-2 32 DS 118 04 cn

[

1 1208 243 2.000 3

313 Li 1 0.154 75 45 VT-2 32 G5 118 B4 1

1208 248 2.000 2

212 LL1 0.154 175 15 VT-2 e

30 G5 129 G7 1

1208 251 2.000 2

212 FGO 0.34's 130 2340 VT-2 1

33 D6 148 D6 1

1208 252 3.000 2

212 FGO 0.438 130 2340 VT-2 8

33 B7 148 B7 1

1208 253 2.000 2

212 FGO 0.344 130 2340 VT-2 1

33 D6 148 G7 1

1206 255 3.000 2

212 FC0 0.438 290 2185 VT-2 1

28 G5 114 G6 1

1208 262 2.000 3

313 LL1 0.154 75 ATH VT-2 32 G7 118 G7 1

1208 410 3.000 2

212 LL1 0.216 115 140 VT-2 1

31 87 123 1

D7 1

1208 411 6.000 2

212 LL1 0.280 115 15 PT VT-2 31 86 116 2 A6 1

1208 411 6.000 2

212 LLI 0.280 115 15 PT VT-2 31 A6 411 116 2 A6 1

1208 411 8.000 2

212 LL1 0.322 115 15 PT VI-2 31 A6 411 116 2 B6 1

1208

%0 2.000 3

313 LL1 0.154 75 35 VT-2 32 D7 118 D1 1

1208 488 3.000 1

21?

FGO O.250

> 16 2290 PI VI-2 28 GT 114 G8 buti

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J VEGP Unit No. l 002 REV 1 Line Designation List System:

Sheet 1 of 1 spent ruel Coolina and Pta r i f1 c a t i on-Svstem Nn_

1 ? 1 't n

itetescru e l>eawing E

M I anunation Methmt t one Numties e

,5, g$

6-ess reass 8%ID g

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3 zd-9 2

ze-0 OdS mw z*

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1 1213 001 10.000 3

313 LL1 0.365 120 25 VT-2 49 DS 130 C4 1

1213 002 10.000 3

313 LLI 0.365 120 25 VT-2 49 C5 130 C4 1'

1213 003 3.000 3

313 LL1 0.216 120 80 VT-2 49 E7 130 E6 1

1213 003 8.000 3

313 LLI d.322 120 80 VT-2 49 D6 130 C5 1

1213 003 10.000 3

313 LL1 0.365 120 80 VT-2 49 E6 130 E5 1

1213 003 12.000 3

313 LL1 0.406 120 80 VT-2 49 E6 130 E5 1

1213 004 3.000 3

313 LLI 0.216 120 80 VT-2 49 E7 130 E6 1

1213 0 01 8.000 3

313 LL1 0.322 120 80 VT-2 49 C6 130 C5 m

i 1

1213 004 10.000 3

313 LL1 0.365 120 80 VT-2 49 F7 130 F6 w

4 1

1213 004 12.000 3

313 LL1 0.406 120 80 VT-2 49 G7 130 G5 1

1213 00 10.000 3

313 LL1 0.365 120 70 VI-2 49 G5 130 F4 1

1213 005 12.000 3

313 LL1 0.406 120 70 VT-2 49 F6 130 F5 1

1213 006 10.000 3

313 LL1 0.365 110 70 VI-2 49 H6 130 H4 1

1213 006 12.000 3

313 LL1 0.406 110 70 VT-2 49 H6 130 H5 1

1213 049 3.000 3

313 LL1 0.216 120 80 VT-2 49 DS 130 E6 1

1013 050 3.000 3

313 LL1 0.216 120 80 VI-2 49 E5 130 E4 1

1213 055 2.000 3

313 LLI 0.154 120 100 VT-2 49 E4 130 D4 1

1013 CSS 2.000 3

313 ill 0.1 %

GG 90 VT-2 49 ub esu un i

e (v) v, i

4

-v VEGP Unit No.1 002 REv 1 Line Designation List Sheet 1 of 5 System:

Main steam - System No. 1301 j

Referens e thawing l

g a==wMN l

g g

j g

, m,,,

i,. e Numi>e, g

jE E

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1 1301 001 6.000 2

212 FKO 0.719 545 985 UT MT VT-2 54 H4 001 159 2 H4 1

1301 001 28.000 2

212 GK3 2.063 545 985 AUT AMT VT-2 54 G3 001 159 2 H7 AUG 1S1 1

1301 001 29.500 2

212 GK3 2.813 545 985 AUT AMT VT-2 54 G3 001 159 2 G2 AUG ISI 51 5 985 UT MT VT-2 54 F4 002 159 2 F4 l

t 1301

0 9 6.000 2

212 FKO 0.719 4

1 1301 002 28.000 2

212 GK3 2.063 545 985 Aul AMT VT-2 584 F3 002

'159 2 F7 AUG ISI 51 5 985 AUT AMT VT-2 54 F3 002 159 2 F3 AUG ISI 1

1301 002 29.500 2

212 GK3 2.813 4

1 1301 003 6.000 2

212 FKO 0.719 545 985 UT MT VT-2 54 04 003 159 2 D4 1

1301 003 28.000 2

212 GK3 2.063 545 985 AUT AMT VT-2 54 D3 003 159 2 D8 AUG ISI m

b 1

1301 003 29.500 2

212 GK3 2.613 58 5 985 AUT AMI VT-2 54 D3 003 159 2 D3 AUG ISI l

1 oo 1

1 1301 004 6.000 2

212 FKO 0.719 545 985 UT MT VT-2 54 Bis 004 159 2 G4 1

1301 004 28.000

- 2 212 GK3 2.063 545 985 AUT AMT VT-2 54 B3 004 159 2 B7 AUG ISI 1

1301 0 014 29.500 2

212 GK3 2.813 545 985 AUT AMT VI-2 54 B3 004 159 2 B3 AUG ISI 1

1301 009 4.000 2

212 CK3 0.337 545 985 VT-2 F

54 G6 004 159 2 G2 1.000 3

313 GK3 0.337 58 5 985 VT-2 F

514 G5 159 2 G3 1

1301 010 4

6 1

1301 Oli 4.000 2

212 GK3 0.337 58 ')

'Ja5 VT-2 F

584 E6 011 159 2 E2 4

1 1301 012 4.000 3

313 GK3 0.337 545 985 VI-2 F

$4 ES 159 2 E3 51 5 985 MT VT-2 51:

H2 013 159 2 G2 1

1301 013 8.000 2

212 Gk3 0.500 4

51 5 985 UT MT VT-2 54 C2 013 159 2

G2 1

1301 013 10.000 2

212 GK3

0. 5 91:

4 1

1301 014 8.000 2

212 GK3 0.500 51 5 985 MT VI-2 584 F2 014 159 2 F2 6

51 5 985 UT MT VI-2 5 84 F2 0 114 159 2 F2 1

1301 0 114 10.000 2

212 GK3 0. 5 974 4

1 1301 015 8.000 2

212 GK3 0.500 Sis 5 98's MI VI-2 51s 02 015 159 2 D2 1

1301 015 10.000 2

212 GK3 0.59's Sl *2 965 UT MT VI-2 S!4 D2 015 159 2 D2 6

t> %.' 1

p 75 p

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O VEGP Unit No.1 002 REV 1 Line Designation List Sheet __P of 5 System:

Main steam - system No. 1301 O

itefesceu e Drawing ld

=

t xanunation Mettuni i sne Numtier r

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tse re.m 8 % 11 )

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1592 003 6.000 3

313 LL2 0.280 55 65 VT-2 41 F4 221 f4 1

1592 604 2.000 3

313 LL2 0.218 55 65 VT-2 41 C4 221 C4 1

1592 004 3.000 3

313 LL2 0.216 55 65 VT-2 41 C5 221 C5 1

1592 004 6.000 3

313 LL2 0.280 55 65 VT-2 41 C4 221 C4 1

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1 1592 007 6.000 3

313 LL2 0.280 55 65 VT-2 41 G2 233 C6 b

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1592 008 4.000 3

313 LL2 0.237 55 65 VT-2 40 G7 234 G7 1

1592 008 6.000 3

313 LL2 0.280 65 VT-2 40 F6 234 F6 1

1592 011 2.000 3

313 LL2 0.218 55 65 VI-2 41 F7 221 C6 1

1592 012 2.000 3

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1592 019 4.000 3

313 LL2 0.237 5';

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1592 020 2.000 3

313 LL2 0.218 55 50 VT-2 39 D2 233 C2 1

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1592 024 1.500 3

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1592 025 1.500 3

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1*92 026 2.000 3

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1592 031 2.000 3

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1592 031 3.000 3

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1592 035 1.500 3

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1592 036 1.500 3

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1592 039 1.500 3

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1 1992 OSS 6.000

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1592 107 4.000 3

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1592 209 1.500 3

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1592 210 1.500 3

313 LL2 0.200 55 50 VT-2 39 H7 233 H7 01t 11 l

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(~N LINE DE5IGNATION LIST BASIS FOR EXEMPTION i

t

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BASIS FOR EXEMPTION IWB-1220 COMPONENTS EXEMPT FROM EXAMINATION The following components (or parts of components) are exempted from the volumetric and surface examination requirements of IWB-2500:

A.

(a)

Components that are connected to the reactor coolant system and part of the reactor coolant pressure boundary and that are of such a size and shape so that upon postulated rupture the resulting flow of coolant from the reactor coolant system under normal plant operating conditions is within the capacity of makeup systems which are operable from onsite emergency power.

B.

(b)

(1)

Piping of 1 in, nominal pipe size and smaller, except for steam generator tubing; (2)

Components and their connections in piping of 1 in. nominal pipe size and smaller.

C.

(c)

Reactor vessel head connections and associated piping,

('N 2 in. nominal pipe size and smaller, made inaccessible s_j by control rod drive penetrations.

i IWC-1220 COMPONENTS EXEMPT FROM EXAMINATION The following components shall be exempted from the inservice examination requirements of IWC-2500:

D.

(a)

Components of systems or portions of systems that during normal plant operating conditions are not required to operate or perform a system function but remain flooded under static conditions at a pressure of at least 80 percent of the pressure that the component or system will be subjected to when required to operate.

E.

(b)

Components of systems or portions of systems, other than residual heat removal systems and emergency core cooling systems, that are not required to operate above a pressure of 275 psig (1900 kPa) or above a temperature of 200 F (93 C).

F.

(c)

Component connections (including nozzles in vessels and pumps), piping and associated valves, and vessels and their attachments that are 4 in. nominal pipe size and smaller.

7s i

\\

L) 002 REV 1 6-52

(~';

Per 10 CFR 50.55.a(b) the 1974 through summer 1975 code is

\\_j used to determine the extent of pipe examinations of the emergency core cooling systems, residual heat removal system, and the containment heat removal system on Class 2 piping as follows:

IWC-1220 EXEMPTED COMPONENTS The following components may be exempted from the examination requirements of IWC-2520:

G.

(a)

Components in systems where both the design pressure and temperature are equal to or less than 275 psig and 200 F, respectively.

H.

(b)

Components in systems or portions of systems, ether than emergency core cooling systems, which do not function during normal reactor operation.

(c)

Components which perform an energency core cooling function, provided the control of the chemistry of the contained fluid is verified by periodic sampling and test.

I.

(d)

Component connections, piping, and associated valves, and vessels (and their supports), that are 4 in.

(~'N nominal pipe size and smaller.

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002 REV 1 6-53

NOTES

{~~Nj xs 1.

Line extends to valve 1668B.

2.

Line extends to valve 1669B.

3.

This line has two segments.

4.

Upgraded line position between valves 116 and 120 to Class 1.

5.

Upgraded line position between valves 118 and 123 to Class 1.

6.

Upgraded line position between valves 142 and 146 to Class 1.

7.

Upgraded line position between valves 141 and 145 to Class 1.

8.

Upgraded line position between valves 140 and 144 to Class 1.

9.

Upgraded line position between valves 139 and 143 to Class 1.

s 1

(g 10.

Upgraded line position between valves 117 and 121 to

\\,_,/

Class 1.

11.

Upgraded line position between valves 119 and 122 to Class 1.

12.

Line extends to valve 011.

e

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002 REV 1 6-54 l

ML20107H298

Text

1.0 INTRODUCTION

Attachment:

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