Text

Change 8 to Inservice Insp Program Re Description,Program & Exam Schedule
	ML20100E799
Person / Time
Site:	Vermont Yankee File:NorthStar Vermont Yankee icon.png
Issue date:	11/16/1984
From:	; VERMONT YANKEE NUCLEAR POWER CORP.
To:	;
Shared Package
ML20100E784	List: FVY-84-139, Forwards Info Supporting 790130 Application to Amend License DPR-28,consisting of Proposed Change 77 to Tech Specs to Allow Exemption from Inservice Insp Program Code (ASME Section Xi).Revised Inservice Insp Program Encl.Fee Paid; ML20100E799;
References
	PROC-841116, NUDOCS 8412060375
	Download: ML20100E799 (432)
	v • d • e

INSERVICE INSPECTION PROGRAM *

for *

VERMONT YA* EE NUCLEAR POWER CORPORATION

I Description, Program and Examination Schedule Applicable to.

Class 1 Examinations Class 2 Examinations Class 3 Examinations System Pressure Tests Pump and Valve Tests Approval.

l PORC h so/z.c./e4 8 <t 4 Plant Manager Np /o/2?[8 Y Hanager of Operations Al/Ob-19 H/lf./W '

/ (/

i 8412060375 841127 PDR ADOCK 05000271 p PDR

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G-INSERVICE INSPECTION PROGRAM Table of Contents l

, Beginning Pace No.

A. . General

1. Code Basis'and Acceptance Criteria . . . . . . . . . . . . . . 1

2. Technical Specifications . . . . . . . . . . . . . . . . . . . 11

3. ^Classification of Nuclear Systems and Components . . . . . . . . iii Safety Class 1 . . . . . . . . . . . . . . . . . . . . . . iv Safety Class 2 ......................v Safety Class 3 . . . . . . . . . . . . . . . . . . . . . . vi

4. System Flow Diagrams for Safety-Related Systems . . . . . . . . vil B .'Section I

1. Safety Class 1 Components . . . . . . . . . . . . . . . . . . . I-1

2. Inspection Summary . . . . . . . . . . . . . . . . . . . . . . . I-2 3 .' Application of Code Exemptions . . . . . . . . . . . . . . . . . I-6

4. -Examination Schedule, Item No. Category Bl.10 - B1.50 . . . . . B-A . . . . . . . . . . . . . . . . . . I-7 83.90, B3.100 . . . . . B-D . . . . . .,. . . . . . . . . . . . I-9 B4.10 - B4.13 . . . . . B-E . . . . . . . . . . . . . . . . . . I-11 85.10 - B5.12 . . . . . B-F . . . . . . . . . . . . . . . . . . I-16 B6.10 - B6.30 . . . . . B-G-1 . . . . . . . . . . . . . . . . . I-18 B6.40 . . . . . . . . . B-G-1 . . . ... . . . . . . . . . . . . I-22 B6.50 . . . . . . . . . B-G -1 . . . . . . . . . . . . . . . . . I -26 B7.10, B7.80 ..... B-3-2 . . . . . . . . . . . . . . . . . I-30 88.10 . . . . . . . . . B-H . . . . . . . . . . . . . . . . . . I-35 B13.10 ........ B-N-1 . . . . . . . . . . . . . . . . . I-36 B13.20, B13.21 .... B-N-2 . . . . . . . . . . . . . . . . . I-39 B14.10 ........ B-0 . . . . . . . . . . . . . . . . . . I-42 B5.50 . . . . . . . . . B-F . . . . . . . . . . . . . . . . . .=I-45 B.4.5 . . . . . . . . . B-J . . . . . . . . . . . . . . . . . . I-46 B4.6 ......... B-J . . . . . . . . . . . . . . . . . . I-75 B4.7 ......... B-J . . . . . . . . . . . . . . . . . . I-76 B10.10 . . . . . . .-. B-K-1 . . . . . . . . . . . . . . . . . I-77 F-1,F-2,F-3,F-4 . . . . F-A , F-8,F-C . . . . . . . . . . . . . . I-79 B7.50 . . . . . . . . . B-G-2 . . . . . . . . . . . . . . . . . I-88 B6.180,B6.190,86.200 . B-G-1 . . . . . . . . . . . . . . . . . I-89 B10.20 ........ B-K-1 . . . . . . . . . . . . . . . . . I-91 F-1,F-2,F-3,F-4 . . . . F-A , F-8, F-C . . . . . . . . . . . . . . I-9 2 B12.20 . . . . . . . . B-L-2 . . . . . . . . . . . . . . . . . I-94 B12.40 ........ B-M-2 . . . . . . . . . . . . . . . . . I-95 B7.70 . . . . . . . . . B-G-2 . . . . . . . . . . . . . . . . . I-98

_.__m _

1 Beginning Pace No.

5. Drawings,_

Legend. . . . . . . . . . . . . . . . . . . . . . . . . . I-101 Drawings H-1 thru H-27. . . . . . . . . . . . . . . . . . 1-102

6. Relief Request Bases.

RR8 No. B-1 thru B-6. . . . . . . . . . . . . . . . . . . I-127 C.Section II

1. Safety Class 2 Components

2. Inspection Summary. _ . . . . . . . . . . . . . . . . . . . . . . II-1

3. Application of Code Exemptions. . . . . . . . . . . . . . . . . II-3

4. Examination Schedule.

Item No. Cateoory C1.10, C1.20. . . . . C-A. . . . . . . . . . . . . . . . . 11-5 C2.20,C2.21,C2.22 . . C-8. . . . . . . . . . . . . . . . . . II-6 C3.10 . . . . . . . . C-C. . . . . . . . . . . . . . . . . . II-7 C2.1. . . . . . . . . C-F. . . . . . . . . . . . . . . . . . II-8 C2.1. . . . . . . . . C-G. . . . . . . . . . . . . . . . . . II-20 C3.40 . . . . . . . . C-C. . . . . . . . . . . . . . . . . . II-50 F-1,F-2,F-3,F-A . . . F-A,F-8,F-C. . . . . . . . . . . . . . II-55 C3.70 . . . . . . . . C-C. . . . . . . . . . . . . . . . . 11-71 F-1,F-2,F-3 . . . . . F-A,F-8,F-C. . . . . . . . . . . . . 11-72

5. Drawings, L eg end . . . . . . . . . . . . . . . . . . . . . . . . . . I I-73 Orawings I-1 thru I-26 . . . . . . . . . . . . . . . . . . II-74

6. Relief Request Bases, RRB No . C-I . . . . . . . . . . . . . . . . . . . . . . . . II-102 RR8 No. C-2. . . . . . . . . . . . . . . . . . . . . . . . II-103 RR8 No . C-3. . . . . . . . . . . . . . . . . . . . . . .11-104 D.Section III i

1. bafety Class 3 Components . . . . . . . . . . . . . . . . . . . III-1

2. Application of Code Exemptions. . . . . . . . . . . . . . . . . III-2

3. Examination Schedule Supports / Hangers . . . . . . . . . . . . . . . . . . . . . III-3

4. Drawings, Legend . . . . . . . . . . . . . . . . . . . . . . . . . . III-13 l

i Drawings D01 thru D-9. . . . . . . . . . . . . . . . . . . III-14 L E. Hydro Section l

1. dystem Pressure Tests . . . . . . . . . . . . . . . . . . . . . H-1

2. Test bummary ( Table H-1) . . . . . . . . . . . . . . . . . . . . H-2

3. Pressure Soundary Drawings:

Orawinge P-1 thru P-31 . . . . . . . . . . . . . . . . . . H-17 1

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Beginning Pace No.

4. Relief Request Bases RR8 No. H-1 thru H-21 . . . . . . . . . . . . . . . . . . H-51 F. Pump Section

1. _ Inservice Uperability Testing Program for Pumps. . . . . . . . P-1

2. Examination Schedule and Test Auantities . . . . . . . . . . . P-2

3. Relief Request Bases:

RR8 No. P-1 thru P-14 and GP-1. . . . . . . . . . . . . . P-3

4. Notes. . . . . . . . . . . . . . . . . . . . . . . . . . .-. . P-18 G. Valve Section

1. Inservice operability Testing Program for Valves . . . . . . . V-1

.2. Testing Schedule.

Service water System. . . . . . . . . . . . . . . . . . . V-4 Reactor Building Closed Cooling water . . . . . . . . . . V-5 Recirc Pump Cooling . . . . . . . . . . . . . . . . . . . V-6 Service and Instrument Air. . . . . . . . . . . . . . . . V-7 Diesel Fuel Oil . . . . . . . . . . . . . . . . . . . . . V-8 Nuclear Boiler. . . . . . . . . . . . . . . . . . . . . . V-9 Core Spray System . . . . . . . . . . . . . . . . . . . . V-11 HPCI. . . . . . . . . . . . . . . . . . . . . . . . . . . V-12 Control Rod Drive Hydraulic . . . . . . . . . . . . . . . V-15 Standby Liquid Control. . . . . . . . . . . . . . . . . . V-16 RHR........................... V-17 RCIC. . . . . . . ._. . . . . . . . . . . . . . . . . . . V-19 Containment and Atmospheric Control . . . . . . . . . . . V-22

Radwaste. . . . . . . . . . . . . . . . . . . . . . . . . V-23

Reactor water Cleanup . . . . . . . . . . . . . . . . . . V-24 HVAC. . . . . . . . . . . . . . . . . . . . . . . . . . . V-25 Reactor Vessel Instrumentation. . . . . . . . . . . . . . V-26 CAD . . . . . . . . . . . . . . . . . . . . . . . . . . . V-27 TIP . . . . . . . . . . . . . . . . . . . . . . . . . . . V-29 f

l 3. Relief Hequest Bases.

I RR8 No. V-1 thru V-44 and GV-1 thru GV-4. . . . . . . . . V-30 1'

-4. Notes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . V-78 a - , . . . . - - - . . . - . - . - , . - - ~ .. - . . , . , - - . , ~ . - - - , . . , - - . . - - . . _ , - - , - . - - , - - . , . -

ABSTRACT The program presented within this document was written to comply with the requirements of revisions to-10 CFR 50.55 a(g) published in the Code of Federal Reaulations, January 1, 1982, concerning inservice examinations, tests, evalu-ations,'and repairs.of safety-related components.

ISI80.108

CODE BASIS APO ACCEPTANCE CRITERIA A. TM non-destructive examinations listed under Sections I and II shall be r=: formed per the requirements of the 1980 edition of ASE,Section XI, up to and including the 1980 Winter Addenda, except the extent of piping exami-nations under Categories B-J, C-F and C-G shall be determined per the requirements of ASME Section XI,1974 Edition,1975 Summer Addenda, as per-mitted by 10 CFR 50.55(a).

B. The acceptance criteria for the non-destructive examinations shall be per the same Code required for the performar.ce of the examinations as named in part A above.

C. Code Cases may be applied as allowed by Reg. Guide 1.146.

NOTE: When required by IWB-2430, IWC-2430 or IWF 2430, additional examina-tions in the affected category will be performed on components of a similar size, type and functions.

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TECHNICAL SPECIFICATIONS In compliance with 10 CFR 50.55a(g)(5), Vermont Yankee submitted a proposed change to its Technical Specifications on January 30, 1979. Presently, Vermont Yankee bases the Inservice Inspection Program on its current technical specifi--

cations and the 1974 edition of ASE Section XI, through and including the Summer 1975 Addenda.

Upon NRC approval of the proposed change, the updated Technical Specifica-tions are'to be implemented. The effective edition of the code will be the edi-

- -tion and addenda published in 10 CFR 50.55a(b), 12 months prior to the start up of the second inspection interval. The code applicable to the updated Technical Specifications will be ASME Section XI, 1980, Winter 1980 addenda.

In accordance with 10 CFR 50.55a(g), the three 3-1/3 year-inspection periods

}

of the remaining Inservice Inspection intervals commence as follows, 1

Interval 2 Interval 3 Interval 4 Period 1 June 16, 1983* June 16, 1993 June 16, 2003 Period 2 October 16, 1986 October 16, 1996 October 16, 2006 Period 3 February 16, 1990 February 16, 2000 . **

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Original end date of first interval (November 30,1982) was extended as per-mitted by IWA-2400(a) to permit the final inspection to be concurrent with a plant refueling outage.

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- The Vermont Yankee operating license expires November 30, 2007.

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i CLASSIFICATION OF f4JCLEAR SYSTEMS' Af0 COWONENTS The guidelines for Safety Classification at Vermont Yankee are defined in Yankee Atomic Electric Company document, Operational Quality Assurance Manual (YOQAP-1-A), Appendix C, issued August 15, 1977.

This classification is summarized in the accompanying tables. Flow diagrams of Safety-Related Systems are provided following the Safety Class tables.

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TABLE 1 SAFETY CLASS 1 CO WONENTS

Reactor Pressure Vessel

Reactor Vessel Support Skirt

Recirculation System Piping

Recirculation System Pumps and Valves

Main Steam Piping (to and including outermost containment isolation valve)

Main Steam Safety Relief Valves

Feedwater Piping (to and including outermost containment isolation valve)

Standby Liquid Control Piping Inside Containment (to and including outermost isolation valve) -

RHR Piping and Valves Inside Containment (to and including outermost isolation valve)

Core Spray Piping and Valves Inside Containment (to and including outermost isolation valve)

Control Rod Drive Return Nozzle Cap

IPCI Steam Piping and Valves Inside Containment (to and including outermost isolation valve)

RCIC Steam Piping and Valves Inside Containment (to and

-including outermost isolation valve)

Reactor Water Cleanup Piping and Valves Inside Containment (to and including outermost isolation valve)

Reactor Vessel Internals

Reactor Vessel Stabilizers i

f NOTE: Vessel Internals and Stabilizers are addressed as S.C. - 2 in l YOQAP-1-A. However, for ISI purposes, VY classifies them as S.C. - 1 in accordance with ASME Section XI.

l f

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TABLE 2 SAFETY CLASS 2 COWONENTS

- CRD Scram Discharge Volume

- Scram Piping

- Standby Liquid Control Tank, Pumps and Explosives Valves

- Standby Liquid Control Piping (outside containment)

- Primary Containment Piping and Valves (to and including outermost isolation valve)

- Reactor Building Ventilation Isolation Valves

- Standby Gas Treatment Filters and Fans

- Containment Air Dilution Pressurization System Compressors, Piping and Valves

- CAD Vent System Piping and Valves

- CAD Sampling System Piping and Valves

- RHR Piping, Pumps and Valves (outside containment)

- RHR Heat Exchangers (shell side)

- Core Spray Piping, Pumps and Valves (outside containment)

- PCI Steam Supply and Exhaust Piping and Valves (outside containment)

- HPCI Pump-Turbine

- HPCI Injection Piping and Valves

- RCIC Steam Supply and Exhaust Piping and Valves (outside

(. containment)

- RCIC Pump-Turbine

- RCIC Injection Piping and Valves

- Condensate Storage Tank and Transfer Piping to ECCS Systems

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TABLE 3 SAFETY CLASS 3 COWONENTS

- - Se'rvice Water Pumps.

Service Water Piping and Valves to Supply Water to RHR Service Water Pumps and Diesel Coolers

-*** RHR Service Water Pumps

- - RHR Heat Exchanger (tube side)

- - Fuel Pool Cooling Pumps, Valves, Heat Exchangers and Piping

- - Advanced Off-Gas Charcoal Absorber Tanks and Associated Piping and Valves

- - Diesel Generator Air Start System

- - Diesel Generator Fuel Oil System

- - Diesel Coolers and Associated Piping and Valves (service water side)

- - Reactor Building Closed Cooling Water Piping and Valves-l h

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SYSTEM FLOW OIAGRAMS FOR SAFETY-RELATED SYSTEMS The following drawings are provided with the ISI program submittal for NRC review only: (NOT included in In-house copies)

G-191159 Sht. 1 Service Water System G-191159 Sht. 3 Service Water System -

G-191159 Sht. 5 Service Water System G-191160 Sht. 1 Service and Instrument Air G-191160 Sht. 2 Service and Instrument Air G-191162 Miscellaneous Systems G-191167 Nuclear Boiler G-191168 Core Spray System G-191169 Sht. 1 HPCI System G-191169 Sht. 2 HPCI System G-191170 Control Rod Drive Hydraulic System G-191171 Standby Liquid Control G-191172 Residual heat Removal System G-191173 Fuel Pool Cooling end Cleanup System G-191174 Sht. 1 RCIC System G-191174 Sht. 2 RCIC System G-191175 Primary Containment - Atmospheric Control G-191176 Condensate and Demin. Water Transfer G-191177 Sht. 1 Radwaste System G-191178 Sht. 1 Reactor Water Cleanup System G-191238 HVAC - Reactor Building G-191267 Nuclear Boiler Vessel Instrumentation VY-E-75-002 Containment Air Oilution System I

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SAFETY CLASS 1 COENENTS In compliance with Section XI, Subsection IWB, Safety Class I components are to be inspected as addressed in IWB-2500, with the exception of Category B-J piping welds which shall be inspected in accordance with IWB-2500 and IWB-2600 i.

of the 1974 Edition, Sumer 1975 Addenda. Those components meeting the exemp-tion criteria of IWB-1220 are to be examined under the requirements of Category B-P in Table IWB-2500-1. These components are addressed in the ' Hydro' Section of this program.'

Relief Request Bases to IWB are found in the back portion of this section.

NOTE: Drawings identified as '5920' drawings are not included in this book. They are maintained on site in the Main Print File.

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INSPECTION SUDNARY Item Category No. In Mininum Norrber or % Required No. Category :md Interval 3rd Interval 4th Interval . Comments Reactor Vessel 12 Accessible length Accessible length Accessible length See Relief Request Bl.10 B1.11 B-A Shell welds of 2 welds of 2 welds of 2 welds Bl.12 Basis 8 B1.20 Bl.21 Top Head. 100% of 1 weld of Bl.22 100% of I weld of 100% of 1 weld of 1 Circ. each type each type each type 6 Merid.

Bottom head. Accessible length Accessible length Accessible length 1 Cire. of I weld of each of 1 weld of each of 1 weld of each 10 Merid. type type type Bl.30 100% of weld 81.40 1 100% of weld 100% of weld 1 100% of weld 100% of weld 100% of weld B1.50 Bl.51 1 Repair Weld 1 Repair Weld 1 Repair Weld See Relief Request .

1 DJ W D> la B-0 Basis B-2 30 29 29 29 Nozzle N-15 exempt from examination per us.lu us.11 B-E per IWB-1220(c) 2 1 1 84.12 89 1

23 23 23 B4.13 4 1 1 1 up.Au B-F 21 21 21 85.11 4 21 Nozzle N-15 safe-end 4 4 4 exempt per IWB-1220(c) pe.lu B-G-1 64 studs 64 64 64 B6.20 64 nuts Examination performed 64 64 64 on studs only if re-B6.30 no.4U moved

B-G-1 64 Any disassembled Any disassembled Any disassembled

! u6.'XJ B-G-1 64 washers 64 washers 64 washers 64 washers

Inspect bushings only l 64 bushings * *

ts /. lu B-G-2 32 If disassembled 32 l B7.80 32 32 712 Any disassembled Any disassembled Any disassembled i

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v INSPECTION SUPNARY, Item Category No. In Minimum Number Required No. Category 2nd Interval 3rd Interval Ath Interval Comments-Reactor Vessel -

88.10 B-H 5 5 5 5 See Relief Request

-No.-B-3 B13.10 B-N-1 N/A As accessible each As accessible eact As accessible eact 3-1/3 years 3-1/3 years 3-1/3 years B13.2'3 B-N-2 N/A As accessible As accessible As accessible- ,

B13.21 each 10 years each 10 years each 10 years I B14.10 B-0 28 upper 3 3 3 20 lower 2 2 2-B15.10 B-P Vessel and Once each outage Once each outage Once each outage See hydrostatic B15.ll Nozzles Once each interval Once each interval Once each interval pressure test section B5.50 B-F 7 7 7 7 B6.150 B-G-1 86.160 0 -- -- --

B6.170

B4.5 B-J 419 105 105 105 See Relief Request

B4. 6 - 8 2 2 2 No. B-4 and B-5.

B4.7 18 4 5 5 Instrument lines pre-viously-excluded by ISI-121 are currently under Item B15.50.

B10.10 B-K-1 33 33* None Required None Required

Attachments determined during inspections to have a base material thickness < 5/8 in.

shall be exempted from examination

Item Nos. are per ASPE Ssction XI,1974, Summer 1975 Addenda

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INSPECTION SLDNARY-4 Item Category No. In No. Ninimum Number Required

! Category 2nd Interval 3rd Interval 4th Interval ' Comments I

j F-1 F-A 148 See Relief Request B-6.- !l 148 148 148 a F-2 F-8 Snubber settings indi- i F-3 F-C cate remaining piston

{

, F-4 thermal travel required j to prevent full exten- ,

i sion or compression

{ un.xs B-P when hot B15.51 All syst = One each outage- One each outage One each outage j

a All systems One each interval One each interval One each interval

=+N 5-G-Z 164 bolts 164 bolts 164 bolts 164 bolts 180 nuts 180 nuts 180 nuts 180 nuts Pumps an.1 u B-G-1 32 32 32 32 B6.190 32 Any disassembled Any disassembled Any disassembled

Bushings examined in B6.200 32 i

, 32* 32* 32* place only when disas-i

.sembled-atu.eu B-K-1 12 12 None required None Required r-1 F-A 20 20 20 20 F-2 F-8 See comment regarding

} F-3 F-C snubbers in piping

! F-4 section.

uiz.lu B-L-1 See Relief Request B-6.

{ 0 -- -- --

Pump casings are cast, i

1 there are no casing seam welds i

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INSPECTION SM44RY Item Category No in No. Ninimum Nunber Required '

Category 2nd Interval 3rd Interval 4th Interval ' Comments-812.20 B-L-2 2 1 if disassembled 1 if disassembled 1 if disassembled 2 pumps performing ' !

ala.eu B-P 2 2 each outage similar functions B15.61 2 each outage 2 each outage.

2 2 each interval 2 each interval !

af.ou B-G-2 0 --

2 each Interval Valves ,

an.2iu B-G-1 0 -

B6.220 -- --

86.230 s azu.x B-K-1 0 -- -- --

r -1 r-> F-A 0 - .;

F-2 F-4 F-B

-. ^

F-C ,

utz..MJ 8-M-1 0 -

812.31 -- --

alz.eu B-M-2 44 17 17 (17 groups) (One per group 17 Grouped by similar (One per group (One per group function i

i ala.iu if disassembled) if disassembled) if disassembled) ;

B-P 44 44 each outage 44 each outage B15.71 44 each outage us.ru 44 each interval 44 each interval 44 each interval B-G-2 672 672 672 672 1

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APPLICATION OF CODE EXEW TIONS Safety Class 1 Components exempted from volumetric and surface examination according to Section XI, Subsection Article IWB-1220 are as follows, System or Component Exemption Criteria

1. Reactor Vessel Instrument Lines Outboard of IWB-1220(a) 2' x lj" Reducers (Ref. Nozzles N-11/ti-12A + B)

2. Closure Head Vent and Instrument Lines Outboard IWB-1220(a) 4' x 2" Reducers (Ref. Nozzle N-7)

3. Standby Liquid Control Line SLC-11 Outboard of IWB-1220(a) 2" x lj" Reducers (Ref. Nozzle N-10)

4. Reactor Drain Line CUW-19 Outboard of CR0 Periphery IWB-1220(a)

5. Steam Drain Lines IWB-1220(a)

NOTE: Liquid-filled components smaller than 2' schedule 80 and steam-filled components smaller than 4' schedule 80 meet the exemption criteria of IWB-1220(a).

6. Jet Pump Instrument Lines (Ref. Nozzle N-8A + B) IWB-1220(b)(1)+(2)

7. Core Differential Pressure Lines (Ref. Nozzle N-10) IW8-1220(b)(1)+(2)

8. Closure Head High Pressure Seal IWB-1220(b)(1)+(2)

9. Vessel Drain Nozzle N-15 and Drain Line CUW-19 IW8-1220(c)

Inboard of CR0 Periphery NOTE: " Lines" exempted under IWB-1220(b)(1)+(2) include piping and components 1" nominal pipe size and smaller.

All components exempted under IWB-1220 are examined in accordance with Table IW8-2500-1, Category B-P.

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ITEM NO. 81.10 CATEGORY B-A Int:rv:1 Intervrl Interval Int;ry 1 through 81.50 1 2 3 4 Size Cal. Drawing Required

_ Components Ft.l- In. Material Standard No. Methods 2 rTc K LUI VCbbC1 ,3t1U11 WU1U5 1 3 1 2 3 1 2 3 1 2 3 Longitudinal Welds A-533-65 D-1 16 1-3/4 Length

GRB RV-3 H-22 Vol. x x x

x x x x x x x x x A-533-65

] D-2 16 1-3/4 Length

GR8 RV-3 H-22 Vol. x x x x x x x x x x x x Closure Head Welds i

Circumferential Welds A-533-65 AB 24 2-5/8 Circum. GR8 RV-2 H-22 Vol. x x x x x x x x x x x x Meridional Welds A-533-65 81 7 1_9/16 ArcLenott GRB RV-2 H-2 Vol. x x x x x x A-533-65 B2 7 1_9/16 ArcLengtt GR8 RV-2 H-2 Vol. x x x A-533-65 83 7 1-9/16 ArcLengtt GR8 RV-2 H-2 Vol. x x x x x x A-533-65 i 84 7 1-9/16 ArcLengtt GRB RV-2 H-2 Vol. x x x A-533-65 BS 1-9/16 ArcLenatt 7 GR8 RV-2 H-2 Vol. x x x A-533-65 B6 7 1_9/16 ArcLenatt GRB RV-2 H-2 Vol. x x x x x x Head to Flange Weld

. 1-533-65 BC 10-1/7 Circum.

51 GRB RV-2 H-22 Vol. x x x x x x x x x x x x

! Bottom Head Welds Circumferential Welds A-533-65 H-J 3_5/8 44_ Circum.

ate nno nc. o-1 GR8 RV-3 H-22 _ Vol. _ .

- ** . x

_ .x. x_ x x x x x x x

- txempt per nno nu. o-z urtil aptanc tyca tutcse I-7

ITEM.to. B1 10 CATEGORY B-A Int;rval Int rval Int rv21 Interval through Bl.50 1 2 3 4 Size Cal. Drawing Required

, Component Ft. Material Standard No.

l In. Methods 1 2 3 1 2 3 1 2 3 1 2 3

, t30Ltom Head WeTds (cont'dj '

iMerldlonal Welds A-533-65 H-1 6 2-23 /32 ArcLenott GR8 RV-3 H-22 Vol. ** ** x x x x A-533-65 H-2 6 2-23/32 ArcLengtt GRB RV-3 H-22 Vol. ** ** x A-533-65 H-3 6 2-23 /32 ArcLenott GR8 RV-3 H-22 Vol. ** ** x .

A-533-65 H-4 6 2-23/32 ArcLenott C,:8 RV-3 'H-22 Vol. ** ** x i x x

~

j A-533-65 j H-5 6 2-23/32 ArcLent)tt GRB RV-3 H-22 Vol. ** ** x _.

A-533-65 i j H-6 6' 2-23/32 ArcLent)tt _GR8 R 3 H-22 Vol. ** ** x r /

i <-A-533-65 ~1' *

] H-7 6 2-23 /3) ArcLenatt GR8 RV-3 H-22 Vol. x l . 4 A-533-65 +

j H-8 6 2_-2?/Y ArcLenatt GRB RV-3 H-22 Vol. ** ** x x x x 1

A-533-65 l

) J1 13 8-1/4 ArcLenott 'GRB RV-3' H-22 Vol. ** ** x x x x x x x

A-533-65 f

{

J2 14 5-5/8 ArcLengtt GR8 RV-3 H-22< Vol. ** ** x x x x j Reactor Vessel '

i Shell to Flange Weld '

, A-533-65

]

CD $1 10-1/2 Circum. GRB RV-3 H-22 Vol. x x x x x x x' x x x x x jR;actcr Vessel i

lWeldRepairArea* _

-s

t . A-533-65 '

i Plc.to No. la , .--

Plate GR8 RV-3 - N/A - ' Vol x x x

dee Heller Hequest t asis u-z ** Exempt per Hits oo. 2 until spring 1963 Outage i

~

)I-8

1 3 x x x x x x x v x x x r4 2 x x t

e n 1 x x x x x x x x I

l 3 x x x x x x x a

v r3 2 x x x x x t

e n 1 x x x x x x x x I

l 3 x x x x x x x a

v x r2 2 x x x x e

t I

n 1 x x x x x x x x l 3 x x x x x x x e

v x r1 2 x x x x e

t n 1 x x x x x x x x I

dl es rd . . . . . . . .

io . . . . . . .

l l l l

l l l l l l uh l l l l l l l l l l qt o o o o o o o o o o o o o o o o o o o o ee V V V V V V V V V V V V V V V V V V V V RM w

a r .

Do N

D 0 8 8 6 6 6 6 6 6 6 6 6 6 9 9 9 9 1 1 1 1

- 2g 3 3 5 5 5 5 5 5 5 5 5 5 3 3 3 3 4 4 4 4 B 9n 2 2 6 6 6 6 6 6 6 6 6 6 2 2 2 2 2 2 2 2 5i d

Y r R .a 3 3 3 3 3 3 3 3 3 3 O ld 3 3 3 3 3 3 3 3 3 3 G an - - - -

V V

E Ca V V V V V V T t R R R R R R R R R R R R R R R R R R R R A S C

l a

ei 8 8 8 l r 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 ze 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I 0I zt 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I 5I oa L L L L - L L - L L L - L L L - L - L - L L L L L L NM AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC l 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 a 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 0 li - - - - - - - - - - - - - - - - - - - -

0 0 er 3B 3B 3B 3B 3B 3B 3B 3B 3B 3B 3B 3B 3 3 3 3 3 3 3 3 9 1 se 3R 3R 3R 3R 3R 3R 3R 3R 3R 3R 3R 3R 3 3 3 3 3 3 3 3 st 5G 5G 5G 5G 5G 5G 5G 5G 5G 5G 5G 5G 5 5 5 5 5 5 5 5 3 3 ea - - - - - - - - - - - - - - - - - - - -

8 B VM A A A A A A A A A A A A A A A A A A A A

. n n .

O e i i . . . . .

n n

N l e n n n n n n i i zz 8 8 i i i i i i i i i i i i i i i i M zi 2 2 8 8 8 8 0 0 0 0 E oS 2 2 2 2 2 2 2 2 2 2 1 1 T N x x 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I

6 6 3 3

_ s c

_l e A B A B C D E F G H J K A 8 C D A 8 C D w l 1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 4 4 4 4 N N N N N N N N N N N N N N N N N N N N

_l e

s s

e v

s t o

. n t e

n e o l p z m z 9 o o I C m

' j! il i1)I'

' ITEM.NO. 83.90 ' CATEGORY '- B-0 Intcrval Inti,rval Interval Int:rval.

B3.100 1 2 3 4-Nozzle Vessel Nozzle Cal. 5920 Oraw- Requitec Components Size Materict Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 mczzie to vessel welc s A-508 NSA' 10 in. A-533-65 CLII

RV-3 624 Vol. x x x x A-508 NSB 10 in. A-533-65 CLII RV-3 624 Vol. x x x x A-508 N6A 6 in. A-533-65 CLII- RV-2 243 Vol. x x x x A-508 N6B A-533-65 CLII 6 in. RV-2 243 Vol. x x x x A-533-65 A-508 N7 CLII 4 in. GRB RV-2 244 Vol. x x x >:

A-533-65 A-508.

NBA CLII 4 in. GRB RV-3 245- Vol. x x x x A-533-65 A-508 N88 4 in. GRB CLII RV-3 245 Vol. x x x x A-533-65 A-508

- N9 CLII 3 in. GRB RV-3' 246 Vol. x x x x A-533-65 A-508 NIO CLII 2 in. GR8 RV-3 358 Vol. x x x x I

i I-10

1 3 x y

r4 2 x x t

n 1 x x I

l 3 x a

v r3 2 x x t

e I

n 1 x x l 3 x a

v r2 2 x x t

e ,

I n 1 x x l 3 a

v r1 2 x x t

e I

n 1 x x x ds ed 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 ro - - - - - - - - - - - - - - - - - - -

ih T T T T T T T T T T T T T T T T T T T ut qe V V V V V V V V V V V V V -

V V V V V V eM R

g n

i . 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 wo 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 E aN - - - - - - - - - - - - - - - - - - -

- r H H H H H H H H H H H H H H H H H H H B O Y

R O

G E

T A

C

_ 3 _a

_ 1 ll a

e 4 _n B

0 m 1 h o g t 4 u _t 8 o o r _o h

n

.t _i O

N s n

M o E _i T t I a r

_t e

n e 9 3 7 1 5 9 3 7 1 5 7 1 5 9 3 7 1 5 9 r 1 2 2 1 1 1 2 2 3 3 0 1 1 1 2 2 3 3 3 e 2 2 2 6 6 6 6 6 6 6 0 0 0 0 0 0 0 0 0 v 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 i

r

_u

_a s o t n n

e l n o o

p t r

l m

o o n l C c I

1 3 x x

y r4 2 x x t

n I

1 x l 3 x x a

v r3 2 x s

t n 1 x x I

l 3 x x o

v r2 2 x t

e n 1 x x I

l 3 x x x a

v r1 2 x x t

e I

n 1 x ds ed 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 ro - - - - - - -

T T

ih T T T T T T T T T T T T T T T T T T ut qe V V V V V V V V V V V V V V V V V V V V eM R

g n 5 5 5 i . 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 E wo 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

- aN - - - - - - - - - - - - - - - - - - - -

B r H H H H H H H H H H H H H H H H H H H H D

Y R

O G

E

_ T A

C 3

1 4

- B h

g

- 0 u

. 1 o r

4 h B t O

N

_ M E

- T I

7 1 5 9 3 7 1 5 9 3 7 1 5 9 3 7 1 5 9 3 0 1 1 1 2 2 3 3 3 0 0 1 1 1 2 2 3 3 3 4

_ 4 4 4 4 4 4 4 4 4 8 8 8 8 8

8 8 8 8 8 8 5 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

- 0 0

_1 L

d

, i t L n e e l f

n e

_ o p r 2

_ mU 1

_ o M -

C L I

) j I

1 3 x x v

r4 2 x x c

t n 1 x I

1 3 x x v

r3 2 x x t

e I

n 1 x l 3 x x a

v r2 2 x x t

e I

n 1 x l 3 x a

v r1 2 x x t

e I

n 1 x ds ed 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 ro - - - - - - - - - - - - - - - - - -

ih T T T T T T T T T T T T T T T T T T ut qe V V V V V V V V V V V V V V V V V V eM R

g n

i , 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 E wo 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

- aN - - - - - - - - - - - - - - - - - -

B r H H H H H H H H H H H H H H H H H H D

Y R

O G

E T

A C

3 1

4 B

hg 0 u 1 o r

4 h

_ B t

- O N

M E

T I

3 7 1 5 9 3 7 1 5 9 3 3 7 1 5 9 3 7 0 0 1 1 1 2 2 3 3 3 4 0 0 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 2 6 6 6 6 6 6 6 ld 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 l

u i

b d

l

_ th

_ n c e i l

n c oE p 3 mU 1 oN -

Cb 1

,{ i ;; ji e , i i!: 4 s 1!

l 3 x a

v r4 2 x x t

s n 1 x x I

l 3 x a

v r3 2 x x e

t n 1 x x I

l 3 x x a

v r2 2 x e

t n 1 x x I

l 3 x x x a

v r1 2 x t

e I

n 1 x x x ds ed 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 ro - - - - - - - - - - - - - - - - - - - -

ih T T T T T T T T T T T T T T T T T T T T ut qe V V V V V V V V V V V V V V V V V V V V eM R

g n 5 5 i . 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 E wo 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

- aN - - - - - - - - - - - - - - - - - - - -

B r H H H H H H H H H H H H H H H H H H H H O

Y R

O G

E T

A C

3 1

4 8

hg 0 u 1 o r

4 h 8 t O

N M

E T

I 1 5 9 3 7 1 5 9 3 7 1 5 9 7 1 5 9 3 7 1 3 3 3 4 0 1 1 1 2 2 3 3 3 0 1 1 1 2 2 3 6 6 6 6 0 0 0 0 0 0 0 0 0 4 4 4 4 4 4 4 s 2 2 2 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 n

o i

t a

r t t n e e n n e oP p 4 mu 1 on CC I

,i 1 ;

i : , '

1 3 x x x v x r4 2 e

t n

I 1 x x l 3 x x a _i v -

r3 2 x _c t

e y n 1 x x r I u ta e

l 3 x x .t a a.

v _L r2 2 x e -

t t t n 1 x x .u i

I t r

t l 3 x * * * * *

u a t v t r1 2 x x * * * * *

y t

e _n n 1 x * * * * *

l I e s

s ds e ed 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 v ro - -

T T

ih T T T T T T T T T T T T 0 ut V V V V V V V V V V V V V V V V V Y1 qe eM .u R e

.u t

g .i n c i . 5 5 5 5 5 5 5 5 5 5 5 5 2 2 2 2 2 2 o E wo 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 7l

- aN - - - - - - - - - - - - - - - - - -

B r H H H H H H H H H H H H H H H H H H D .

.l a

v r

Y e R .t O o G _l E

T _t A s C r

_1

_1 0

_1

.u e

3 d 1 d e

4 t B .u

.u h o g

0 u y 1 o _l r _l 4 h a 8 t c

_t

. _i O _l N u e

M p E s T

I .t u

N

+

5 9 1 5 9 3 7 1 5 9 3 7 3 3 1 1 1 2 2 3 3 1 2 2 A B A B

- - - - - - - - - - - - l l 2 2 3 4 4 4 8 8 8 8 8 8 8 2 2 2 i i 1 1 s 1 1 s 3 3 3 3 3 3 3 3 3 4 4 4 N N N N e N N n n l u o z z

i i.

i lt o a ea N

. r vt t i en kn n e Le ao e u ms ei n e l ue Lt o

p F erl c 5 st z l e m w ssz at 1 o eno ee -

C u VIN SD 1

)

ITEM NO. B5.10, B5.11 CATEGORY B-F Intervel Interval Interv:1 Int;rvel B5-12 1 2 3 4 Nozzle Nozzle Safe-end Nozzle Safe-End Drawing Required Components _ Size _

nozz2e to w e-ena weias

' Material Material Cal.Stdrc Cal.Stdrc No. Methods 1 2 3luI 1 2 3 1 2 3 1 2 3 A-508 SA-240 VY- Vol. +

N1A-SE 28 in. CLII TP 304 NZL-1 VY-35 H-2 Sur. x x x x A-508 ST-240 VY- Vol. +

N18-SE CLII 28 in. TP 304 NZL-1 VY-35 H-3 Sur. x x x x A-508 A-336 VY- Vol. +

N2A-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N28-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x N2C-SE A-508 A-336 VY- Vol. +

12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N20-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N2E-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N2F-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N2G-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N2H-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N2J-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 A-336 VY- Vol. +

N2K-SE 12 in. CLII F8 NZL-2 VY-30 H-1 Sur. x x x x A-508 VY- Vol. +

NSA-SE 10 in. CLII B-168 NZL-5 VY-14 H-ll Sur. x x x A-508 VY- Vol. +

N58-SE 10 in. CLII B-168 NZL-5 VY-14 H-12 Sur. x x x A-336 Vol +

N6A-SE 6 in. F8 Radiograph H-10 Sur. x x x x A-508 A-336 Vol. +

N68-SE 6 in. CLII F8 Radilograph None Sur. x x x x A-508 A-336 Vol. +

N7-SE J 4 in. CLII F8 Radiograph None Sur. x x x x A-508 A-336 VY- VY-NZL- Vol. +

N8A-SE 4 in. CLII F8 CRD-1 8- SE None Sur. x x x x A-508 A-336 VY- VY-NZL- Vol. +

N8B-SE 4 in. CLII F8 CRD-1 8- SE None Sur. X x x x A-508 A-336 Vol. +

N9-SE 4 in. CLII F8 --- ---

None Sur. x Nozzle capped, see next page I-16

ITEM NO. 85.10, B5.11 _ CATEGORY B-F Intcrvel Intervil Int;ry;l Intcry:2 B5-12 1 2 3 4 Nozzle Nozzle Safe-end Nozzle Safe-End Drawing Required Component. Size Material Material Cal .Stdrc Cal.Stdrc No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 mzzle to wre-ena wetos A-508 A-336 N10-SE 2 in. CLII F8 N/A N/A None Sur. x x x x A-508 A-336 N9-SE-A CLII F8 3 in. N/A N/A H-9 Sur. x x x x b-166 A-336 NilA-SE 2 in. Mod. CLF8 N/A N/A None Sur. x x x B-166 A-336 N11B-SE 2 in. Mod. CLF8 N/A N/A None Sur.

x x x B-166 A-336 N12A-SE 2 in. Mod. CLF8 N/A None Sur.

N/A x x x 8-166 A-336 N128-SE Mod.

2 in. CLF8 N/A N/A None Sur. x x x a

i l

i i

l i

ITEM NO.B6.10, B6.20 CATEGORY B-G-1 Intcrval Interval Intcry:1 Intcrv21 B6.30 1 2 3 4 Stud Cal. Nut 5920 Stud 5920 Required Component: Stud Size Nut Size Material Standard Drawina# Drawina# Methods 1 2 3 1 2 3 1 2 3 1 2 3 Bolting > 2 in. Diam.

V;,ssel Closure, Studs and Nuts 5-1/16,in. 8 in. A-540 RPB-3 1 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 2 diameter diameter GR8 RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 3 diameter diameter GR8 RPB-2 485 484

x x x- x 5-1/16 in. 8 in. A-540 RPB-3

4 diameter diameter GR8 RP8-2 485 484

x x x

5-1/16 in. 8 in. A-540 RP8-3 5 diameter diameter GR8 RP8-2 485 484

x x x 5-1/16 in. 8 in. A-540 RP8-3 6 diameter diameter GR8 RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 7 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 8 diameter diameter GR8 RPB-2 485 484

x x x x

5-1/16 in. 8 in. A-540 RPB-3 9 diameter diameter GR8 RPB-2 485 484

x x x x l

5-1/16 in. 8 in. A-540 RPB-3 10 diameter diameter GR8 RPB-2 485 484

x x x x i 5-1/16 in. 8 in. A-540 RPB-3 l 11 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 l 12 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3

! 13 diameter diameter GRB RPB-2 485 484

x x x x i

5-1/16 in. 8 in. A-540 RPB-3 14 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 i 15 diameter diameter GR8 RPB-2 485 484

x x x x l 5-1/16 in. 8 in. A-540 RPB-3 16 diameter diameter GRB RP8-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 l 17 aismeter diameter GR8 RPB-2 485 484

x x x x l 5-1/16 in. 8 in. A-540 RP8-3

! 18 diameter diameter GR8 RPB-2 485 484

x x x x l 5-1/16 in. 8 in. A-540 RP8-3

19 diameter diameter GR8 RPB-2 485 484

x x x x j 5-1/16 in. 8 in. A-540 RPB-3 20 diameter diameter GR8 RP8-2 485 484

x x x x I-18

See page 21

ITEM NO. B6.10, 86.20 CATEGORY 8-G-1 Int rval IntOrv:1 Intcry:1 Intcrval

!' B6.30 1 2 3 4 Stud Cul. Nut 5920 Stud 5920 Required Stud Size Nut Size Material Standard Drawina# Drawina# Methods 1 2 3 1 2 3 1 2 3 1 2 3 Bolting > 1 in. diameter

+ Vessel Closure - Studs and Nuts 5-1/16 in. 8 in. A-540 RP8-3 21 diameter diameter 28 RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 22 diameter diameter m8 RPB-2 485 484

x x x x

! 5-1/16 in. 8 in. A-540 RPB-3

23 diameter diameter 28 RPB-2 485 484

x x x

! 5-1/16 in. 8 in. A-540 RP8-3 I 24 diameter diameter mB RPB-2 485 484

x x x i 5-1/16 in. 8 in. A-540 RP8-3 25 diameter diameter mB RPB-2 485 484

x x x 5-1/16 in. 8 in. A-540 RP8-3

, 26 diameter diameter mB RPB-2 485 484

x x x 5-1/16 in. 8 in. A-540 RPB-3 27 diameter diameter GB RP8-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 l

28 diameter diameter mB RP8-2 485 484

x x x x i

5-1/16 in. 8 in. A-540 RPB-3 29 diameter diameter 28 RP8-2 485 484

x x x x j 5-1/16 in. 8 in. A-540 RPB-3 j 30 diameter diameter 28 RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 31 diameter diameter mB RPB-2 485 484

x x x x

5-1/16 in. 8 in. A-540 RPB-3 i 32 diameter diameter m8 RPB-2 485 484

x x x x j 5-1/16 in. 8 in. A-540 RPB-3 i 33 diameter diameter CRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 34 diameter diameter mB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 35 diameter diameter @B RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 36 diameter diameter @B RPB-2 485 484

x x x x 1

5-1/16 in. 8 in. A-540 RPB-3 37 diameter diameter mB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 FPB-3

, 38 diameter diameter mB RPB-2 485 484

x x x x i

5-1/16 in. 8 in. A-540 RPB-3 1 39 diameter diameter mB RPB-2 485 484

x x x x I 5-1/16 in. 8 in. A-540 RP8-3

) 40 diameter diameter mB RPB-2 485 484

x x x x

]I-19

See page 21 i

ITEM NO. B6.10, B6.20 86.30 CATEGORY B-G-1 Interv:1 Intervnl Int:rv 1 Intervrl 1 2 3 4 Stud Cal. Nut 5920 Stud 5920 Required l Stud Size Nut Size Material Standard Drawing # Drawinq# Methods } 2 3 1 2 3 1 2 3 1 2 3 Bolting > 2 in. diameter vessel Closure - Studs and Nuts 5-1/16 in. 8 in. A-540 RPB-3 41 diameter diameter GR8 RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 42 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 43 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 44 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 45 diameter diameter GRB RPB-2 485 484

x x x x

5-1/16 in. 8 in. A-540 RPB-3 46 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 47 diameter diameter GRB RPB-2 485 484

x x x 5-1/16 in. 8 in. A-540 RP8-3 48 diameter diameter GR8 RPB-2 485 484

x x x 5-1/16 in. 8 in. A-540 RPB-3 49 diameter diameter GRB RPB-2 485 484

x x x 5-1/16 in. 8 in. A-540 RP8-3 50 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 51 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 52 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 53 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 54 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 la. 8 in. A-540 RPB-3 55 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 56 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 57 diameter diameter GR8 RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 58 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 59 diameter diameter GRB RPB-2 485 484

x x x x i 5-1/16 in. 8 in. A-540 RPB-3 60 diameter diameter GRB RPB-2 485 484

x x x x 1

I-20 3 Tee page 21

ITEM to. 86.10, 86.20 CATEGORY B-G-1 Interval Intcry::1 Int;ry:1 Int ry21 86.30 1 2 3 4 Stud Cal. Nut 5920 Stud 5920 Required Component, Nut Size Material Stud Size. Standard Drawinq+ Drawina+ Methods 1 2 3 1 2 3 1 2 3 1 2 3 DUAL 1Hg ? 4 1H. OldmcLCI Vessel Closure - Studs and Nuts '

5-1/16 in. 8 in. A-540 RPB-3 61 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RPB-3 62 diameter diameter GRB RPB-2 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 63 diameter diameter RF8-2 GRB 485 484

x x x x 5-1/16 in. 8 in. A-540 RP8-3 64 diameter diameter RPB-2 GRB 485 484

x x x x

+ Requitcu ExamiHatiorn mUiuos. dtuds. Vol. In place, Vol. and Sur. It removed Nuts. Sur. when removed I-21 1

ITEM NO. B6.40 CATEGORY B-G-1 Int;rval Int"rval Interval Int;rval 1 2 3 4 Cal. Drawing Requircd Component Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3

, Threads in Flange 1 A533-65 RV-1 H-21 Vol.* x x x x 2 A533-65 RV-1 H-21 Vol.* x x x x j 3 A533-65 RV-1 H-21 Vol.* x x x x 4 A533-65 RV-1 H-21 Vol.* x x x 4

5 A533-65 RV-1 H-21 Vol.* x x x 6 A533-65 RV-1 H-21 Vol.* x x x x i

7 A533-65 RV-1 H-21 Vol.* x x x x

. 8 A533-65 RV-1 H-21 Vol.* x x x x i

9 A533-65 RV-1 H-21 Vol.* x x x x j 10 A533-65 RV-1 H-21 Vol.* x x x x 1

! 11 A533-65 RV-1 H-21 Vol.* .- x x x 1

j 12 A533-65 RV-1 H-21 Vol.* x x x x j 13 A533-65 RV-1 H-21 Vol.* x x x x 14 A533-65 RV-1 H-21 Vol.* x x x x i

! 15 A533-65 RV-1 H-21 Vol.* x x x x

)

16 A533-65 RV-1 H-21 Vol.* x x x x

]

17 A533-65 RV-1 H-21 Vol.* x x x x 1

l 18 A533-65 RV-1 H-21 Vol.* x x x x i

l 10 A533-65 RV-1 H-21 Vol.* x x x x

} 20 A533-65 RV-1 H-21 Vol.* x x x x l I-22

See page 25 i

1

ITEM NO. B6.40 CATEGORY B-G-1 Int;rval Int;rval Interval Interval 1 2 3 4 Cal. Drawing Required Component: Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3

' Threads in Flange 21 A533-65 RV-1 H-21 Vol.* x x x x 22 A533-65 RV-1 H-21 Vol.* x x x x 23 A533-65 RV-1 H-21 Vol.* x x x 24 A533-65 RV-1 H-21 Vol.* x x x 25 A533-65 RV-1 H-21 Vol.* x x x

]

26 A533-65 RV-1 H-21 Vol.* x x x 27 A533-65 RV-1 H-21 Vol.* x x x x 28 A533-65 RV-1 H-21 Vol.* x x x x 29 A533-65 RV-1 H-21 Vol.* x x x x i

) 30 A533-65 RV-1 H-21 Vol.* x x x x 31 A533-65 RV-1 H-21 Vol.* x x x x 32 A533-65 RV-1 H-21 Vol.* x x x x 1

] 33 A533-65 RV-1 H-21 Vol.* x x x x l

34 A533-65 RV-1 H-21 Vol.* x x x x 1 35 A533-65 RV-1 H-21 Vol.* x x x x 36 A533-65 RV-1 H-21 Vol.* x x x x 37 A533-65 RV-1 H-21 Vol.* x x x x 38 A533-65 RV-1 H-21 Vol.* x x x x 39 A533-65 RV-1 H-21 Vol.* x x 40 A533-65 RV-1 H-21 Vol.* x x x x I-23

See page 25

ITEM NO. B6 40 CATEG(RY B-G-1 Int:rval Int;rval Int rval Interval 1 2 3 4 Cal. Drawing Required Component: Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Thr; ads in Flange 41 A533-65 RV-1 H-21 Vol.* x x x x 42 A533-65 RV-1 H-21 Vol.* x x x x 43 A533-65 RV-1 H-21 Vol.* x x x x i 44 A533-65 RV-1 H-21 Vol.* x x x x i 45 A533-65 RV-1 H-21 Vol.* x x x x i

46 A533-65 RV-1 H-21 Vol.* x x x x 47 A533-65 RV-1 H-21 Vol.* x x x 48 A533-65 RV-1 H-21 Vol.* x x x I

49 A533-65 RV-1 H-21 Vol.* x x x 50 A533-65 RV-1 H-21 Vol.* x x x x 51 A533-65 RV-1 H-21 Vol.* x x x x i

52 A533-65 RV-1 H-21 Vol.* x x x x i 53 A533-65 RV-1 H-21 Vol.* x x x x i

54 A533-65 RV-1 H-21 Vol.* x x x x 55 A533-65 RV-1 H-21 Vol.* x x x x l

56 A533-65 RV-1 H-21 Vol.* x x x x 57 A533-65 RV-1 H-21 Vol.* x x x x 58 A533-65 RV-1 H-21 Vol.* x x x x

59 A533-65 RV-1 H-21 Vol.* x x x x i

j 60 A533-65 RV-1 H-21 Vol.* x x x x l I-24

See page 25 i

I

ITEM NO. B6.40 CATEGORY B-G-1 Int:rval Intcrv2.1 Interval Interval 1 2 3 4 i Col. Drecing Required Component: Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Thrzads in Flange 61 A533-65 RV-1 H-21 Vol.* x x x x

, 62 A533-65 RV-1 H-21 Vol.* x x x x

! 63 A533-65 RV-1 H-21 Vol.* x x x x l 64 A533-65 RV-1 H-21 Vol.* x x x x l

l t

4 i

i i

l I

i i

i j

I j

Threads require examination only when the flange connection is disassemblec.

l I-25 i

i

ITEM to. 86.50 CATEGORY _ B-G-1 Interval Intervol Intcrv 1 Intsrvil 1 2 3 4 Component Drawing Required S_tijd Size Material No. Methods 2 3 2 blUbu&C NddlICL 5 di R.A E USD11RJd 1 1 3 1 2 3 1 2 3 1

5-1/16 in. A540 VT-1* x x x x 2 5-1/16 In. AS40 VT-l* x x x x 3 5-1/16 in. AS40 VT-l* x x x- x 4 5-1/16 in. A540 VT-l* x x x 5 5-1/16 in. A540 VT-1* x x x 6 5-1/16 in. AS40 VT-1* x x x x 7 5-1/16 in. AS40 VT-l* x x x x 8 5-1/16 in. AS40 VT-1* x x x x 9 5-1/16 in. AS40 VT-l* x x x x 10 5-1/16 In. A540 i

VT-l* x x x x l 11 5-1/16 in. A540 VT-1* x x x x 12 5-1/16 in. A540 VT-l* x x x x 13 5-1/16 in. AS40 VT-l* x x x x i 14 5-1/16 in. AS40 VT-l* x _x x 15 5-1/16 in. AS40 VT-1* x x x x 16 5-1/16 in. AS40 VT-1* x x x x 17 5-1/16 in. AS40 VT-l* x x x x 18 5-1/16 In. AS40 VT-1* x x x x 19 5-1/16 in. AS40 VT-1* x x x x 20 5-1/16 in. A540 VT-l* x x x x

l-26 -

5ee page b

ITEM NO. 86.50 CATEGORY B-G-1 Interval Interval Int;rval Int;ry21 1 2 3 4 Components Drawing Required Stud Size Material No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 uosure wasners ano cusnings 21 5-1/16 in. AS40 VT-1* x x x x 22 5-1/16 in. AS40 VT-1* x x x x 23 5-1/16 in. AS40 VT-1* x x x 24 5-1/16 in. AS40 VT-1* , x x 25 5-1/16 in. AS40 VT-1* x x x 26 5-1/16 in. AS40 VT-1* x x x 27 5-1/16 in. A540 VT-1* x x x x 1

j 28 5-1/16 in. A540 VT-1* x x x x i

29 5-1/16 in. AS40 VT-1* x x x x 30 5-1/16 in. AS40 VT-1* x x x x 4

j 31 5-1/16 in. AS40 VT-1* x x x x 32 5-1/16 in. AS40 VT-1* x x x x 33 5-1/16 in. AS40 VT-l* x x x x 34 5-1/16 in. A540 VT-l* x x x x 35 5-1/16 in. AS40 VT-1* x x x x i

36 5-1/16 in. A540 VT-1* x x x x 37 5-1/16 in. A540 VT-l* x x x x 38 5-1/16 in. A540 x VT-l* x x x 39 5-1/16 in. AS40 VT-1* x x x x 40 5-1/16 in. AS40 VT-1* x x x x

I-27 - xe page o

ITEM PC. B6.50 CATEGORY B-G-1 Inttry:1 Int:rvel Intervel Int';rv21 1 2 3 4 Component Drawing Required Stud Size Material No. Methods 1 2 3 1 2 3 2 3 2 uosure wasners au cusnum 1 1 3 41 5-1/16 in. AS40 VT-1* x x x x 42 5-1/16 in. AS40 VT-1* x x x x 43 5-1/16 in. AS40 VT-1* x x x x 44 5-1/16 in. AS40 VT-l* x x x x 45 5-1/16 in. A540 VT-l* x x x x 46 5-1/16 in. A540 VT-1* x x x x 47 5-1/16 in. A540 VT-1* x x x 48 5-1/16 in. AS40 VT-1* x x x 49 5-1/16 in. A540 VT-1* x x x 50 5-1/16 in. AS40 VT-1* x x x x 51 5-1/16 in. AS40 VT-1* x x x x 52 5-1/16 in. AS40 VT-1* x x x x 53 5-1/16 in. AS40 VT-1* x x x x 54 5-1/16 in. A540 VT-1* x x x x 55 5-1/16 In. AS40 VT-1* x x x x 56 5-1/16 in. AS40 VT-1* x x x x 57 5-1/16 in. AS40 VT-1* x x x x 58 5-1/16 in. AS40 VT-1* x x x x 59 5-1/16 in. AS40 VT-1* x x x x 60 5-1/16 in. A540 i 1-28 e 5ee page 25 VT-1* x x x x

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e-ITEM PC. 87.80 CATEGORY B-G-2 Int rv31 Intcry:1 Int ry:1 Intcry;l 1 2 3 4 Nunber 5920 Required l Conoment. Size . Location Orawing*

L.nu riousing t langes tconunuea>

of bolts Methods 1 !2 3 1 2 3 1 2 3 1 2 3 10-31 1 in. 8 under Vessel 2410 VT-1 1

10-35 1 in. 8 under Vessel 2410 VT-1 10-39 1 In. 8 Under Vessel 2410 VT-1 l

14-07 1 in. 8 Under Vessel 2410 VT-1 14-11 1 in. 8 under Vessel 2410 VT-1 14-15 1 in. 8 under Vessel 2410 VT-1 -

14-19 1 in. 8 Under Vessel 2410 VT-1 14-23 1 in. 8 under vessel 2410 VT-1 CRC Housing boltinc is to be 14-27 inspected only if the flange 1 In. 8 Under vessel 2410 VT-1 connection id disassembled.

14-31 11disassembledmorethanonce 1 in. 8 under Vessel 2410 VT-1 ped interval,l only one inspec-14-35 1 in. 8 Under Vessel 2410 VT-1 14-39 1 in. 8 Under Vessel 2410 VT-1 18-03 1 in. 8 under Vessel 2410 VT-1 18-07 1 in. 8 Under Vessel 2410 VT-1 18-11 1 in. 8 Under Vessel 2410 VT-1 18-15 1 in. 8 Under Vessel 2410 VT-1 18-19 1 in. 8 Under Vessel 2410 VT-1 18-23 1 in. 8 Under Vessel 2410 VT-1 18-27 1 in. 8 Under Vessel 2410 VT-1 i I-31

ITEM Po. B7.80 CATEGORY B-G-2 Int;rval Int:ry21 Int rval Interval 1 2 3 4 Nunber 5920 Required Component. __ ,

. Size , of bolts Location Orawing* Methods 1 2 3 1 2 3 1 2 3 1 2 3 uw rouw y r w w t uniunueu s 18-31 1 In. 8 Under vessel 2410 VT-1 18-35 1 in. 8 under vessel 2410 VT-1 l 18-39 1 in. 8 under Vessel 2410 VT-1 18-43 1 in. 8 under Vessel 2410 VT-1 22-03 1 In. 8 Under Vessel 2410 VT-1 CR0 housino boltinc is to be 22-07 inspectecj only if the flange 1 in. 8 under vessel 2410 VT-1 connection 14 disassembled.

22-11 Ifl disassembled more than once 1 in. 8 under vessel 2410 VT-1 ped interval,l only one inspec-22-15 1 in. 8 under vessel 2410 VT-1

~

22-19 1 in. 8 Under Vessel 2410 VT-1 22-23 1 in. 8 under Vessel 2410 VT-1 22-27 1 in. 8 under Vessel 2410 VT-1 22-31 1 in. 8 tyder Vessel 2410 VT-1 22-35 1 in. 8 under vessel 2410 VT-1 22-39 1 in. 8 under vessel 2410 VT-1 22-43 1 in. 8 Under Vessel 2410 VT-1 26-03 1 in. 8 under vessel 2410 VT-1 26-07 1 in. 8 under vessel 2410 VT-1 26-11 1 in. 8 under vessel 2410 VT-1 26-15 1 in. 8 under vessel 2410 VT-1 26-19 1 in. 8 Under Vessel 2410 VT-1 1-32

ITEM M). 07.80 CATEGORY B-G-2 Interval Interv01 Intervol Interval 1 2 3 4 Nuscer 5920 Required Component e __ _ _ Size of Eolts Location Drawinq' Methods 1 2 3 1 2 3 1 2 3 1 2 3 uu; remog r ays twco) 26-23 1 in. 8 tmder Vessel 2410 VT-1 26-27 1 In. 8 under Vessel 2410 VT-1 26-31 1 in. 8 under vessel 2410 VT-1 26-35 1 In. 8 under vessel 2410 VT-1 26-39 1 in. 8 under vessel 2410 VT-1 26-43 CRC Housing bolting is to be 1 in. 8 under vessel 2410 VT-1 inspected only if the flance 30-07 connection 14 disassembled.

1 in. 8 under Vessel 2410 VT-1 1fl disassembled more than once peqinterval, only one inspec-30-11 1 in. 8 tmder vessel 2410 VT-1 is rec uired.

30-15 1 in. 8 under vessel 2410 VT-1 30-19 1 in. 8 under vessel 2410 VT-1 30-23 1 in. 8 under vessel 2410 VT-1 30-27 1 in. 8 under vessel 2410 VT-1 30-31 1 in. 8 under Vessel 2410 VT-1 30-35 1 in. 8 tmder vessel 2410 VT-1 30-39 1 In. 8 tmder vessel 2410 VT-1 34-07 1 In. 8 under vessel 2410 VT-1 34-11 1 in. 8 under vessel 2410 VT-1 34-15 1 in. 8 under Vessel 2410 VT-1 34-19 1 In. 8 under vessel 2410 VT-1 34-23 1 in. 8 under vessel 2410 VT-1 1-35 l

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ITEM Pe. 88.10 B-H CATECORY Interval Interval Interval Interval 1 2 3 A Cogonent e 5920 Required tocation_ Material Thickness Drawinq+ Methods 1 2 3 1 2 3 1 2 3 1 2 3 4m.y 11y weiucu resser y---u os Full Sur. or Vessel Support Skirt Perimeter l l l ll l lj 548 Vol.* ** ** x x x x No insoectiors rea C Vessel Stabilizer Brackets A- Sur. or A 0- l 533-CL.1 CRB 3} in. 257 Vol.* x No insoections rea'C B

A-533-CL. ) Sur. or 90 I GRB 3} in_ 257 Vol.* x l l l x No ins loecltforls rlea,lC A-533-CL.1 Sur. or C l 1g0 l CRB 3} in. 257 Vol.* x Nol insoecltiors l l rea,lC A-533-CL.1 Sur. or D 270- CAB 31 in. 257 Vol.* x x l l l NoinsoecltionsreaC lJ l

l

\

l l

l

W HeneT HeQRST, No. ti-J

- Excluded by RRB No. B-6 until Spring 1983 outage.

I-35 l

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Nm N M M M M M X X k M M M M M M M M M M U C

M x M M M M M 'X X X X M M M M M M M m M M M M M .M M M M M M M M M M M M M NN N x M M M M M M M M M M M M M M M M M Nc w M M M M M M M M M M M M M M M M M M n M M M M M M M M M M M M M M M M M M d~ "

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ITEM 70. F13-10 CATEGORY B-N-1 Int;rvCl Int:ry21 IntCry:1 Interval 1 2 3 4 Drawing Required Componente __ _ No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 at rump anc== Ales t w C d J 19 VT-3 x x x x x x x x x x 20 VT-3 x x x x x x x x x x Shroud Annulus

0. - 360- VT-3 x x x x x x x x x x Feedwater Spargers

0. - 360- VT-3 x x x x x x x x x x Cora Spray Sparger Lower Arms

0. - 360- VT-3 x x x x x x x x x x Cero Spray Sparger Downconers 13 VT-3 x x x x x x x x x x 166-VT-3 x x x x x x x x x x 193 VT-3 x x x x x x x x x x 346 VT-3 x x x x x x x x x x Core Spray Sparger Headers CW from Nozzle NSA 90 - 270- VT-3 x x x x x x x x x x CW from Nozzle NSB 270. - 90 VT-3 x x x x x x x x x x I-37

ITEM M). B13.10 CATEGORY B-N-1 Interval Int;rval IntCry1 Int':ry;l 1 2 3 4 4

Components Drawing Required i -rurtlund us_ ..Lue

_ _ .. . . .. . . . _ _ . . .. No. Methods. 1 t ulivwing neue ut.ceddaule L y r enovul us suel utnules, support cadLisyd, 2 3 1 2 3 1 2 3 1 2 3 control rods, control rod drives, thermal sleeves and control rod guide tubes.

Standby Liquid i

Control Line VT-3 x x x x Differential Pressure Line VT-3 x x x x CRD Housings VT-.3 x x x x CRD Housing to Stub Tube Welds VT-3 x x x x Incore Housing to Incore Guide Tube Welds VT-3 x x x x Incore Guide Tube Stabilizers VT-3 x x x x Bottom Head General Area

+ Eecause Uitse cumpuntnis are ut i ruutinely temuved auring sutu oi reiueling autagt.3, these examinations will be performed once per interval as a good practice rather than being exempted from examination on that basis.

I-38

' ITEM l0. B13.20 CATEGORY B-N-2 Interval Interval Interycl Int:rval B13.21 1 2 3 4 Drawing Required Component: No. Methods 2 3 2 1 1 3 1 2 3 1 2 3 Vessel Interior Attachments and Core Support Structure Stram Dryer Support Brtckets and Welds VT-1 x x x x

! Guide Rod Brackets cnd Welds VT-1 x x x x Dryer Hold-down Brackets and Welds VT-1 x x x x Surveillance Specimer

! Support Brackets and VT-1 x x x x Welds Core Spray Sparger Brackets and Welds VT-1 x x x x Header Brackets and Welds i

30- VT-1 x x x x 150- VT-1 x x x x

! 210* VT-1 x x x x i

330- VT-1 x x x x

, Lower Arm Brackets 4

and Welds 15- VT-1 x x x x 55* VT-1 x x x x 88* VT-1 x x x x I-39

ITEM 70. B13.20 CATEGORY B-N-2 Interval Interval Interval Intcrvil B13.21 1 2 3 4 Drawing Required Component:

No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Core Spray Sparger Brackets (cont'd)

Lower Arm Brackets and Welds 93- VT-1 x x x x 125- VT-1 x x x x 165- VT-1 x x x x 195- VT-1 x x x x 235- VT-1 x x x x 267- VT-1 x x x x 272- VT-1 x x x x 310- VT-1 x x x x 345- VT-1 x x x x Feedrater Sparger Brackets and Welds Sparger A 0- VT-1 x x x x 80- VT-1 x x x x Sparger B 90- VT-1 x x x x 170- VT-1 x x x x._.

Sparger C 180- VT-1 x x x x

260- VT-1 x x x x Sparger D 270- VT-1 x x x x

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I-40

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. as o

t ev e

.ui M

E er nd

- T I gd no ir w

ol

_l o

_l r ot

_r n t ec o n o e t

.n

.u, m h e s c b

_r d a u

_ e o o t T t r t s

_ ns A bd eu l ul no or d t e

- u SW guur on t od rl he DV RP 1

4

_ gr c SW CR I

; , l

,. 4 1 l 4 k

ITEM NO. B14.10 CATEGORY B-0 Interval Intsrval Interval Int;rval 1 2 3 4 Flange Housing Cal. Drawing Requircd Component: Thickness Material Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 i CRD Housing to Flange Welds 4

A-376 VY- H-25 Vol.

02-19 .564 SSTP304 T304 CRD-H H-26 or Sur x A-376 VY- H-25 Vol.

, 02-23 .564 SSTP334 T304 CRD-H H-26 or Sur A-376 VY- H-25 Vol.

02-27 .564 SSTP304 T304 CRD-H H-26 or Sur x ~~

, A-376 VY- H-25 Vol.

l 06-11 .564 SSTP304 T304 CRD-H H-26 or Sur l A-376 VY- H-25 Vol.

] 06-35 .564 SSTP304 T304 ORD-H H-26 or Sur

A-376 VY- H-25 Vol.

f 10-07 .564 SSTP304 T304 ORD-H H-26 or Sur x A-376 VY- H-25 Vol.

10-39 .564 SSTP304 T304 DRD-H H-26 or Sur l A-376 VY- H-25 Vol.

18-03 .564 SSTP304 T304 CRD-H H-26 or Sur x l A-376 VY- H-25 Vol.

18-43 .564 SSTP304 T304 CRD-H H-26 or Sur A-376 VY- H-25 Vol.

} 22-03 .564 SSTP304 T304 CRD-H H-26 or Sur x

, A-376 VY- H-25 Vol.

l 22-43 .564 SSTP304 T304 CRD-H H-26 or Sur A-376 VY- H-25 Vol.

26-03 .564 SSTP304 T304 CRD-H H-26 or Sur A-376 VY- H-25 Vol.

! 26-43 .564 SSTP304 T304 CRD-H H-26 or Sur x I A-376 VY- H-25 Vol.

I 34-07 .564 SSTP304 T304 CRD-H H-26 or Sur

. A-376 VY- H-25 Vol.

, 34-39 .564 SSTP304 T304 CRD-H H-26 or Sur x l A-376 VY- H-25 Vol.

l 38-11 .564 SSTP304 T304 CRD-H H-26 or Sur

! A-376 VY- H-25 Vol.

.564 38-35 SSTP304 T304 CRD-H H-26 or Sur

A-376 VY- H-25 Vol.

42-19 .564 SSTP304 T304 CRD-H H-26 or Sur i A-376 VY- H-25 Vol.

! 42-23 .564 SSTP304 T304 CRD-H H-26 or Sur i A-376 VY- H-25 Vol.

, 42-27 .564 SSTP304 T304 CRD-H H-26 or Sur i I-42 o

i

ITEM NO. B1'4.10 CATEGORY B-0 Int:rval Intcrv31 Intcrval Intcrv21 1 2 3 4 Stub Housing Cal. DrcTing Required Component: Thickness Material Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 G D Housing to Stub lobe welds A-376 VY- H-25 Vol.

02-19 .594 SSTP304 T304 CRD-H H-26 or Sur. x A-376 VY- H-25 Vol.

02-23 .594 SSTP304 T304 CRD-H H-26 or Sur. '

A-376 VY- H-25 Vol.

, 02-27 .594 SSTP304 T304 CRD-H H-26 or Sur. x A-376 VY- H-25 Vol.

06-11 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

06-15 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

l 06-31 .594 SSTP304 T304 ORD-H H-26 or Sur.

A-376 VY- H-25 Vol.

, 06-35 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

10-07 .594 SSTP304 T304 CRD-H H-26 or Sur. x I

A-376 VY- H-25 Vol.

j 10-39 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

14-07 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

l 14-39 .594 SSTP304 T304 CRD-H H-26 or Sur.

l A-376 VY- H-25 Vol.

i 18-03 .594 SSTP304 T304 CRD-H H-26 or Sur. x

! A-376 VY- H-25 Vol.

I 18-43 .594 SSTP304 T304 CRO-H H-26 or Sur.

l A-376 VY- H-25 Vol.

! 22-03 .594 SSTP304 T304 CRD-H H-26 or Sur. x l A-376 VY- H-25 Vol.

j 22-43 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

26-03 .594 SSTP304 T304 CRD-H H-26 or Sur.

1 A-376 VY- H-25 Vol.

26-43 .594 SSTP304 T304 ORD-H H-26 or Sur. x A-376 VY- H-25 Vol.

30-07 .594 SSTP304 T304 CRD-H H-26 or Sur.

A-376 VY- H-25 Vol.

30-39 .594 SSTP304 T304 CRD-H H-26 or Sur. x l A-376 VY- H-25 Vol.

34-07 .594 SSTP304 T304 ORD-H H-26 or Sur.

j I-43

4

ITEM NO.' B14.10 CATEGORY B-0 Intsrv21 Intsryml Intsry: 1' IntGrval 1 2 3 4

Stub Housing Col. Drcring Required i Component: Thickness Material Material Standard No. Methods 2 3 2 1 1 3 1 2 3 1 2 3 i

A-376 VY- H-25 Vol.

, 34-39 .594 SSTP304 T304 CRD-H H-26 or Sur. x A-376 VY- H-25 Vol.

, 38-11 .594 SSTP304 T304 ORD-H H-26 or Sur.

j A-376 VY- H-25 Vol.

38-15 .594 SSTP304 T304 CRD-H H-26 or Sur. x i A-376 VY- H-25 Vol. .

l 38-31 .594 SSTP304 T304 ORD-H H-26 or Sur.

{ A-376 VY- H-25 Vol.

1 38-35 .594 SSTP304 T304 CRD-H H-26 or Sur. 'f

) A-376 VY- H-25 Vol.

I 42-19 .594 SSTP304 T304 CRD-H H-26 or Sur.

i A-376 VY- H-25 Vol.

42-23 .594 SSTP304 T304 CRO-H H-26 or Sur.

A-376 VY- H-25 Vol.

! 42-27 .594 SSTP304 T304 CRD-H H-26 or Sur. x i

l l

1 i

i 1

j I-44 l

s

ITEM NO. B5.50 CA1EGORY B-F Interval Interval Interval Interv21 1 2 3 4 Schedulef Cal. Drawing Required Components __ __ _ _ Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 vigsimliar metal cutt welos Line Weld +

A351 CF8N Vol. +

RHR-33 8 20 in. 80 A106 GRB VY-27 H-4 Sur. x x x x A351 CF8F Vol. +

RHR-29 10 24 in. 80 A106 GRB VY-28 H-5 Sur. x x x x A358 304 VY-34 Vol. +

RHR-28 13 24 in. H-6 80 A106 GRB VY-28 Sur. x x x x 100 A376TP304 VY-7 Vol. +

CS-38 F3A 8 in. 120 A106GRB VY-40 H-11 Sur. x x x x 0.495 in. A403TP316L VY-CS-1 Vol. +

CS-4B MF6A 10 in. 0.500 in. A168 INC0 VY-14 Sur. x H-ll x x x

, 100 A376TP304 VY-7 Vol. +

CS-3A F3A 8 in. 120 A106 GRB VY-40 H-12 Sur. x x x x 0.495 in. A403TP316L VY-CS-1 Vol. +

CS-4A MF6A 10 in. 0.500 in. A168 INC0 VY-14 H-12 Sur. x x x i

l i

4 I-45

ITEM to. 84.5 CATEGORY B-J Interval Interval Inttrval Inti;rv:1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Components .. _ _ _ Size Thickness Material Standard No. Methods 2 3 2 t,1rcumerenu al weio soints 1 1 3 1 2 3 1 2 3 Main Steam Nozzles N3A-SW 18 in. 80 A106GR8 VY-26 H-14 Vol. x N38-SW 18 in. 80 A106GRB VY-26 H-15 Vol. x N3C-SW 18 In. 80 A106GR8 VY-26 H-16 Vol. x N3D-SW 18 in.

Feed Water Nozzles 80 A106GRB VY-26 H-17 Vol. x VY-NZL-4 N4A-SW 10 in. 80 A106GRB VY-29 H-7 Vol. x VY-NZL-4 N48-SW 10 in. 80 A106GRB VY-29 H-8 Vol. x 2

VY-NZL-4 i N4C-SW 10 in. 80 A106CRB VY-29 H-8 Vol. x VY-NZL-4 N4D-SW 10 in. 80 Circumferential Weld: A106GRB VY-29 H-8 Vol. x C7 4 in. 80 A451CPF& Radiograph H-2 Vol. x C78 I 4 in. 80 A451CPF& Radiograph H-2 Vol. x C7C l 4 in. 80 A451CPF& Radiograph H-2 Vol. x C7D I 4 in. 80 A451CPF& Radiograph H-2 Vol. x C7E 80 4 in. A451CPF& Radiograph H-2 Vol. x ~-

A451CPF& l C10 4 in. 80 to valve Radiograph H-2 Vol. x Valve to l C10A 4 in. 8 A451CPF& Radiograph H-2 Vol. x C108 I 4 in. 80 A451CPF& Radiograph H-2 Vol. x C10C I 4 in. 80 A451CPF& Radiograph H-2 Vol. x A451CPF& l C11 4 in. 80 to valve Radiograph H-2 Vol. x C60 I 4 in. 80 A451CPF& Radiograph H-2 Vol. x C60A I 4 in. 80 A451CPF& Radiograph H-2 Vol. x I-46

ITEM PO. B4.5 CATEGORY B-J Interval Interval intervn1 Int rv 1 (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required

@ nente .. , Sire ., Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 L11 UUllli UL Ul lL1d1. . . . .WUlub ( CUl l L il luCO )

Loop D Bypass C608 l 4 in. 80 A451CPF& Radiograph H-3 Vol. x A451CPF&

C60C 4 in. 80 to valve Radiograplh H-3 Vol. x Valve to C600 4 in. 80 A451CPF& Radiograplh H-3 Vol. x A451CPF& l C60E 4 in. 80 to valve Radiograph H-3 Vol. x C62 I 4 in. 80 A451CPF& Radiograph H-3 Vol. x C62A I 4 in. 80 A451CPF& Radiograph H-3 Vol. x 4

C62B l 4 in. 80 A451CPF& Radiograph H-3 Vol. x C62C I 4 in. 80 A451CPF& Radiograph H-3 Vol. x Recirc. Ring Header and Inlets 14

1. 8-2. 51r 358TP304 28 in. VY-36 H-1 Vol. x 16 12 in. 80 358TP304 VY-9 H-1 Vol. x 16A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x 16B

, 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x 16C 1.8-2. Sir 358TP304

{ 28 in. VY-36 H-1 Vol. x 18 12 in. 80 358TP304 VY-9 H-1 Vol. x 18A 12 in. 80 i

358TP304 VY-9 H-1 Vol. x 19 12 in. 80 358TP304 VY-9 H-1 Vol. x 20 12 in. 80 358TP304 VY-9 H-1 Vol. x 21 80 12 in. 358TP304 VY-9 H-1 Vol. x 21A 12 in. 80 358TP304 VY-9 H-1 Vol. x x i 22 12 in. 80 I-47 358TP304 VY-9 H-1 Vol. x

ITEM NO. 84.5 CATEGORY B-J Intervel Interval Interv:1 Int:rv:1 (IWB-2600) 1 2 3 4 Schedul?/ Cal. Drawing Required C y nents Site Thickness Material Standard No. Methods 2 3 2 L,1f CUmi c a ci lblal. _WU1U5

( UtJ :LinUUU) 1 1 3 1 2 3 1 2 3 Recire. Ring Header and Inlets 23 12 in. 80 358TP304 VY-9 H-1 Vol. x 238 22 in. 1.1 358TP304 VY-33 H-1 Vol. x 24 12 in. 80 358TP304 VY-9 H-1 Vol. x -

24A 12 in. 80 358TP304 VY-9 H-1 Vol. x 25 12'in. 80 358TP304 VY-9 H-1 Vol. x 28 12 in. 80 358TP304 VY-9 H-1 Vol. x 28A 12 in. 80 358TP304 VY-9 H-1 Vol. x 29 12 in. 80 358TP304 VY-9 H-1 Vol. x 30 12 in. 80 358TP304 VY-9 H-1 Vol. x 30B 22 in. 1.1 358TP304 VY-33 H-1 Vol. x 31 12 in. 80 358TP304 VY-9 H-1 Vol. x 31A 12 in. 80 358TP304 VY-9 H-1 Vol. x 32 12 in. 80 358TP304 VY-9 H-1 Vol. x 33 12 in. 80 358TP304 VY-9 H-1 Vol. x 34 12 in. 80 358TP304 VY-9 H-1 Vol. x 34A 12 in. 80 358TP304 VY-9 H-1 Vol. x x 35 12 in. 80 358TP304 VY-9 H-1 Vol. x x 36 12 in. 80 358TP304 VY-9 H-1 Vol. x l 36A 22 in. 1.1 358TP304 VY-33 H-1 Vol. x 368 22 in. 1.1 I-48 358TP304 VY-33 H-1 Vol. x l

i I

ITEM NO. 84.5 CATEGORY B-J Interv:1 Interval Interval Intsry;;l (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required j W nent, , , _ _ _ . , sige , Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 L11 Cuffli c a ct ILlal NB1Ub ( UUl l L 1HUUU )

Recire. Ring Header and Inlets 36C 28 in. 1. 8-2. 51r 358TP304 VY-36 H-1 Vol. x 38 28 in. 1.8-2. 51r 358TP304 VY-36 H-1 Vol. x 40 12 in. 80 358TP304 VY-9 H-1 Vol. x 40A 12 in. 80 358TP304 VY-9 H-1 Vol. x 41 12 in. 80 358TP304 VY-9 H-1 Vol. x 4

42 12 in. 80 358TP304 VY-9 H-1 Vol. x 43 12 in. 80 358TP304 VY-9 H-1 Vol. x 43A 12 in. 80 358TP304 VY-9 H-1 Vol. x 44 12 in. 80 358TP304 VY-9 H-1 Vol. x 45 12-in.

, 80 358TP304 VY-9 H-1 Vol. x 358TP304 46 1.1 22 in. to valve VY-33 H-1 Vol. x i

47 Valve to 22 in. 1.1 358TP304 VY-33 H-1 Vol. x i

358TP304

! 48 22 in. 1.1 to valve VY-33 H-1 Vol. x Valve to 49 1.1 f

22 in. 358TP304 VY-33 H-1 Vol. x 50 12 in. 80 358TP304 VY-9 H-1 Vol. x i

51 12 in. 80 358TP304 VY-9 H-1 Vol. x l 51A 12 in. 80 358TP304 VY-9 H-1 Vol. x i

52 12 in. 80 358TP304 VY-9 H-1 Vol. x 53 12 in. 80 358TP304 VY-9 H-1 Vol. x l I-49

ITEM NO. 84.5 CATEGORY B-J Interval Interval Interval Intcry:1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Component. . . . , Size Thickness Material Standard No. Methods 2 cucumi emiu al weius wununueu; m 1 3 1 2 3 1 2 3 1 2 3 Circ. Ring Headers to Inlets 54 12 in. 80 358TP304 VY-9 H-1 Vol. x 54A 12 in. 80 358TP304 VY-9 H-1 Vol. x 55 12 in. 80 358TP304 VY-9 H-1 Longitudinal Seam Vol. x telds l Recirc Header and Inlets 14 28 in. 1.138 A358TP304 VY-35 H-1 Vol. x j 16 12 in. 80 358TP304 VY-9 H-1 Vol. x 16A 22 in. 1.1 A358TP304 VY-33 H-1 Vol. x j 16B 22 in. 1.1 A358TP304 VY-33 H-1 Vol. x 18 12 in. 80 358TP304 VY-9 H-1 Vol. x 18A 12 in. 80 358TP304 VY-9 H-1 Vol. x 19 12 in. 80 358TP304 VY-9 H-1 Vol. x 20 12 in. 80 358TP304 VY-9 H-1 Vol. x 21 80 12 in. 358TP304 VY-9 H-1 Vol. x

21A 12 in. 80 358TP304 VY-9 H-1 Vol. x 22 12 in. 80 358TP304 VY-9 H-1 Vol. x 23 12 in. 80 358TP304 VY-9 H-1 Vol. x i 23B 12 in. 80 358TP304 VY-9 H-1 Vol. x

, I-50

ITEM NO. B4.5 CATEGORY B-J Interval Interval Interv:1 Intcrv:1 (IWB-2600) 1 2- 3 4 Schedule / Cal. Drawing Required Components _ _ , Size _ . Thickness Material Standard No. Methods 2 3 2 tongnuainal cam weios (conunuec 1 1 3 1 2 3 1 2 3

. Ring Header and Inlets 24 12 in. 80 358TP304 VY-9 H-1 Vol. x 24A 12 in. 80 358TP304 VY-9 H-1 Vol. x 25 12 in. 80 358TP304 VY-9 H-1 Vol. x 28 12 in. 80 358TP304 VY-9 H-1 Vol. x 28A 12 in. 80 358TP304 VY-9 H-1 Vol. x 79 12 in. 80 358TP304 VY-9 H-1 Vol.

l x 30 12 in. 80 358TP304 VY-9 H-1 Vol. x 308 1.1 i

22 in. 358TP304 VY-33 H-1 Vol. x i

31 12 in. 80 358TP304 VY-9 H-1 Vol. x 31A 12 in. 80 358TP304 VY-9 H-1 Vol. x I 32 12 in. 80 358TP304 VY-9 H-1 Vol. x 33 12 in. 80 358TP304 VY-9 H-1 Vol. x j 34 12 in. 80 358TP304 VY-9 H-1 Vol. x

! 34A 12 in. 80 358TP304 VY-9 H-1 Vol. x x 35 12 in. 80 358TP304 VY-9 H-1 Vol. x x 36 12 in. 80 358TP304 VY-9 H-1 Vol. x 3M 22 in. 1.1 358TP304 VY-33 H-1 Vol. x 36B 1.1 22 in. 358TP304 VY-33 H-1 Vol. x 38 28 in. 1.38 358TP304 VY-35 H-1 Vol. x l I-51

ITEM to. B4.5 CATEGORY B-J Interval Interval Interyc1 ' Int:;rv 1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Componente _ _ _

. , Size. . Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 tuuyuuuinai xem welus (conuouet >

RingHeaderandInletls 4 40 12 in. 80 A358TP304 VY-9 H-1 Vol. x 40A 12 in. 80 A358TP304 VY-9 H-1 Vol. x 41 12 li1. 80 A358TP304 VY-9 H-1

Vol. x 42 12 in. 80 A358TP304 VY-9 H-1 Vol. x i

43 12 in. 80 A358TP304 VY-9 H-1 Vol. x 43A 12 in. 80 VY-9 A358TP304 H-1 Vol. x 44 12 in. 80 A358TP304 VY-9 H-1 Vol. x 45 12 in. 80 A358TP304 VY-9 H-1 Vol. x 46 22 in. 1.1 A358TP304 VY-33 H-1 Vol. x 47 22 in. 1.1 A358TP304 VY-33 H-1 Vol. x 48 22 in. 1.1 A358TP304 VY-33 H-1

, Vol. x 49 1.1 22 in. A358TP304 VY-33 H-1 Vol. x l 50 12 in. 80 A358TP304 VY-9 H-1 Vol. x 51 12 in.

80 A358TP304 VY-9 H-1 Vol. x 51A 12 in. 80 A358TP304 VY-9 H-1 Vol. x l 52 12 in. 80 A358TP304 VY-9 H-1 Vol. x

) 53 12 in. 80 A358TP304 VY-9 H-1 Vol. x i

j 54 12 in. 80 A358TP304 VY-9 H-1 Vol. x i

54A 12 in. 80 VY-9 A358TP304 H-1 Vol. x I-52 i

i i

ITEM NO. 84.5 CATEGORY B -J Interval Interval Interv:1 Interv:1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required

, Component. ._ . , Size. . Thickness Material Standard No. Methods LUIIg1 LUUllidl Edif3 NUJUb ( L'U3 I L.13 3UCL J 1 2 3 1 2 3 1 2 3 1 2 3 Ring Header and Inlets ~

55 12 in. 80 A358TP304 VY-9 H-1 Vol. x Circ. Welds Recirc. Loop A 1 28 in. 1.138 A358TP304 VY-35 H-2 Vol.

IA 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 2 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x A358TP304 3 28 in. 1.138 to valve VY-35 H-2 Vol. x 4

Valve to 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x 5 1.138 28 in. A358TP304 VY-35 H-2 Vol. x SA 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x x 6 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x x A358TP304 i

8 28 in. 1.138 to valve VY-35 H-2 Vol. x x Valve to 9 28-in. 1.138 A358TP304 VY-35 H-2 Vol. x

% 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x 98 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 4

15 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 15A 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 15B 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 15C 28 in. 1.138 A358TP304 VY-35 , H-2 Vol. x

ITEM NO. 84.5 CATEGORY B-J Interval Interval Interval Interv:1 (IWB-2600) 1 2 3 4 Component, Schedule / Cal. Drawing Required

, Size- Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 b1fC. NB1U5 (LunL10UEO)

Recirc Loop B 17 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 17A 28 in. 1.138 358TP304 VY-35 H-3 Vol. x -

178 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 26 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 26A 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 27 28 l'n. 1.138 358TP304 VY-35 H-3 Vol. x 358TP304 56 28 in'. 1.138 to valve VY-35 H-3 Vol. x 57 Valve to 28 in. 1.138 358TP304 VY-35 H-3 Vol. x x

578 28 in. 358TP304 i-

_II5 VY-35 H-3 Vol. x x 58 28 in. 1.138 358TP304 VY-35 H-3 Vol. x x 59 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 358TP304 61 28 in. 1.138 to valve VY-35 H-3 Vol. x 64 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 358TP304 65A 28 in. 1.138 to valve VY-35 H-3 Vol. x

' Valve to 66 28 in. 1.138 358TP304 VY-35 H-3 Vol. x 4

Longitudinal Seam Welds ;

Recirc Loop A 6 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x x I-54

ITEM NO. 84.5 CATEGORY B-J Interval Interval Interv;;l Int;ry;l (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Componente _ _ . , Size. . Thickness Material Standard No. Methods tuuyituuinal acan weius wuntinuet ;

1 2 3 1 2 3 1 2 3 1 2 3 Recirc Loop A

~

8 28 1n. 1.138 A358TP304 VY-35 H-2 Vol. x x 9 1.138 28 in. A358TP304 VY-35 H-2 Vol. x .

9A 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 98 28 in. 1.138 A358TP304 VY-35 H-2 Vol. x 15A 1.138 28 in. A358TP304 VY-35 H-2 Vol. x 158 1.138 28 in. A358TP304 VY-35 H-2 Vol. x Recirc Loop B '

17 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 17A 1.138 28 in. A358TP304 VY-35 H-3 Vol. x 178 1.138 28 in. A358TP304 VY-35 H-3 Vol. x 26 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 26A 1.138 28 in. A358TP304 VY-35 H-3 Vol. x 27 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 56 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 57 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x x 578 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 58 1.138 28 in. A358TP304 VY-35 H-3 Vol. x x I-55

ITEM NO. 84.5 CATEGORY B-J Interyc1 Interval Intervtl Int rv21 (1WB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Component: Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Longitudinal Seam Welds (continuec j Recirc Loop B 59 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 61 28 in. 1.138 A358TP304 VY-35 H-3 Vol.

x 64 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 65A 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x 66 28 in. 1.138 A358TP304 VY-35 H-3 Vol. x i

Circ Welds (cont'd)

Main Steam MS-7A A3 18 in. 80 A106CRB VY-26 H-14 Vol. x A4 18 in. 80 A106GRB VY-26 H-14 Vol. * * * * * * * * *

AAA 18 in. 80 A106GRB VY-26 H-14 Vol. x A5 18 in. 80 A106GRB VY-26 H-14 Vol. x ASA 18 in. 80 A106CRB VY-26 H-14 Vol. x ASC 6 in. 160 A106GRB VY-38 H-14 Vol. x A5D 6 in. 160 A106GRB VY-38 H-14 Vol. x ASF 6 in. 160 A106GRB VY-38 H-14 Vol. x ASG 6 in. 160 A106GRB VY-38 H-14 Vol. x A5I 6 in. 160 A106GRB VY-38 H-14 Vol. x l

, A5] 6 in. 160 A106GRB VY-38 H-14 Vol. x ASK 18 in. 80 A106GRB VY-26 H-14 Vol. x l A6 18 in. 80 A106GRB VY-26 H-14 Vol. x A6A 18 in. 80 A106GRB VY-26 H-14 Vol. x I-56

See Relief Request Basis B-5 -

ITEM NO. 84.5 CATEGORY B-J Interval Intervc1 Interval Interv:1-(IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Component: Size Thickness Material Standard No. Methods 2 3 2 3 2 1 1 1 3 1 2 3 Circ. Welds (continued)

MS-7A (cont'd)

A6B 18 in. 80 A106CRB VY-26 H-14 Vol. x A7 18 in. 80 A106GRB VY-26 H-14 Vol. x A7A 18 in. 80 A106GRB VY-26 H-14 Vol. x A78 18 in. 80 A106GRB VY-26 H-14 Vol. x A7C 18 in. 80 A106GRB VY-26 H-14 Vol. x A7D 18 in. 80 A106CRB VY-26 H-14 Vol. x A8 18 in. 80 A106GRB VY-26 H-14 Vol. x A9 18 in. 80 A106GRB VY-26 H-14 Vol. x A9A* 18 in. 80 A106CRB VY-26 H-14 Vol. x x x A10 18 in. 80 A106GRB VY-26 H-14 Vol. x All 18 in. 80 A106GRB VY-26 H-14 Vol. x MS-78 B3 18 in. 80 A106GRB VY-26 H-15 Vol. x B4 18 in. 80 A-106-B VY-26 H-15 Vol. x B4A 18 in. 80 A-106-B VY-26 H-15 Vol. x B4B 18 in. 80 A-106-8 VY-26 H-15 Vol. x B4C 18 in. 80 A-106-8 VY-26 H-15 Vol. x B5 18 in. 80 A-106-B VY-26 H-15 Vol. x B5A 18 in. 80 A-106-8 VY-26 H-15 Vol. x B5C 6 in. 160 A-106-8 VY-38 H-15 Vol. x I-57

See Hellet Hequest Bcsis B-4

ITEM NO. B4.5 CATEGORY B-J Interval Interval Interval Intervtl (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Component: Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Circ. Welds (continued)

MS - 78 (cont'd)

B5D 6 in. 160 A-106-B VY-38 H-15 Vol. x B5F 6 in. 16'O A-106-8 VY-38 H-15 Vol. x BSG 6 in. 160 A-106-B VY-38 H-15 Vol. x B5H 18 in. 80 A106CRB VY-26 H-15 Vol. x B6 18 in. 80 A106CRB VY-26 H-15 Vol. x 86A 18 in. 80 A106GRB VY-26 H-15 Vol. x B6B 18 in. 80 A106GRB VY-26 H-15 Vol. x B6C 18 in. 80 A106GRB VY-26 H-15 Vol. x B6D 18 in. 80 A106GRB VY-26 H-15 Vol. x B7 18 in. 80 A106CRB VY-26 H-15 Vol. x 87A 18 in. 80 A106CRB VY-26 H-15 Vol. x B78 18 in. 80 A106CRB VY-26 H-15 Vol. x B7C 18 in. 80 A106CRB VY-26 H-15 Vol. x B7D 18 in. 80 A106GRB VY-26 H-15 Vol. x B8 18 in. 80 A106GRB VY-26 H-15 Vol. x B9 18 in. 80 A106CRB VY-26 H-15 Vol. x B9A* 18 in. 80 A106CRB VY-26 H-15 Vol. x x x B10 18 in. 80 A106GRB VY-26 H-15 Vol. x Bil 18 in. 80 A106GRB VY-26 H-15 Vol. x

, I-58

See Relief Request Basis B-4 1

ITEM NO. 84.5 CATEGORY B-J Interval Interval Intervel Intcrv:1 (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Componente. Size Thickness Material Standard No. Methods uu u.

weius tvun w utu; 1 2 3 1 2 3 1 2 3 1 2 3 MS - 7C C3 18 in. 80 A106GRB VY-26 H-16 Vol. x C4 18 in. 80 A106CRB VY-26 H-16 Vol. x C4A 18 in. 80 VY-26 A106GRB H-16 Vol. x C4C 80 18 in. A106GRB VY-26 H-16 Vol. x C5 18 in. 80 A106CRB VY-26 H-16 Vol. x CSA 18 in. 80 A106GRB VY-26 H-16 Vol. x CSC 6 in. 160 A106GRB VY-38 H-16 Vol. x C50 6 in. 160 A106GRB VY-38 H-16 Vol. x CSF 6 in. 160 A106GRB VY-38 H-16 Vol. x CSG 6 in. 160 A106CRB VY-38 H-16 Vol. x CSI 6 in. 160 VY-38 A106GR8 H-16 Vol. x C5J 160 VY-38 6 In. A106CRB H-16 Vol. x C5K 18 in. 80 A106GRB VY-26 H-16 Vol. x C6 18 in. 80 VY-26 A106GRB H-16 Vol. x C6A 18 in. 80 A106CRB VY-26 H-16 Vol. x C6B 18 in. 80 A106GR8 VY-26 H-16 Vol. x C6C 18 in. 80 A106CRB VY-26 H-16 Vol. x C60 18 in. 80 A106GRB VY-26 H-16 Vol. x C7 18 in. 80 A106GRB VY-26 H-16 Vol. x C7A 18 in.

1-S9 80 A106GR8 VY-26 H-16 Vol. x

ITEM NO. B4.5 CATEGORY B-J Interval Interval Interval Interv:1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Component: Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Cire. Welds (continued) i MS - 7C (cont'd)

C7B 18 in. 80 A106CRB VY-26 H-16 Vol. x C7C 18 in. 80 A106CRB VY-26 H-16 Vol. x C7D 18 in. 80 A106GRB VY-26 H-16 Vol. x x C8 18 in. 80 A106CRB VY-26 H-16 Vol. x x C9 18 in. 80 A106GRB VY-26 H-16 Vol. x C9A** 18 in. 80 A106GRB VY-26 H-16 Vol. x x x C10 18 in. 80 A106CRB VY-26 H-16 Vol. x Cll 18 in. 80 A106GRB VY-26 H-16 Vol. x MS - 7D D3 18 in. 80 A106CRB VY-26 H-17 Vol. x D4 18 in. 80 A106GRB VY-26 H-17 Vol. * * * * * * * * * * *

D5 18 in. 80 A106GRB VY-26 H-17 Vol. x DSA 18 in. 80 A106GRB VY-26 H-17 Vol. x DSC 6 in. 160 A106CRB VY-38 H-17 Vol. x 05D 6 in. 160 A106CRB VY-38 H-17 Vol. x DSF 6 in. 160 A106GRB VY-38 H-17 Vol. x DSG 6 in. 160 A106CRB VY-38 H-17 Vol. x D5I 6 in. 160 A106CRB VY-38 H-17 Vol. x D5J 6 in. 160 A106GRB VY-38 H-17 Vol. x D5K 18 in. 80 A106CRB VY-26 H-17 Vol. x I-60

See Relief Request Basis B-5 ** See Rellet Recuest Easis B-4

ITEM ND. 84.5 04TEGORY B-J Interval Interval Interval Intervel (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Component.. , Size Thickness Material Standard No. Methods 2 uuu. wtaus tuvuunueu; 1 3 1 2 3 1 2 3 1 2 3 MS - 70 (cont'd)

D6 18 in. 80 A106GRB VY-26 H-17 Vol. x D6A 18 in. 80 A106GRB VY-26 H-17 Vol. x D6B 18 in. 80 A106GRB VY-26 H-17 Vol. x D7 18 in. 80 A106GRB VY-26 H-17 Vol. x D7A 18 in. 80 A106CRB VY-26 H-17 Vol. x D78 18 In. 80 VY-26 A106CRB H-17 Vol. x j D7C 18 in. 80 A106CRB VY-26 H-17 Vol. x l

D7D 18 in. 80 A106GRB VY-26 H-17 Vol. x x D8 18 in. 80 A106GRB VY-26 H-17 Vol. x x D9 18 in. 80 A106CRB VY-26 H-17 Vol. x D9A** 18 in. 80 VY-26 A106GRB H-17 Vol. x x x DIO 18 in. 60 A106GRB VY-26 H-17 Vol. x i D11 18 in. 80 A106GRB VY-26 H-17 Vol. x FDU-16 NF7 16 in. 120 A106GRB VY-25 H-7 Vol.

x MF7A 16 in. 120 A106GRB VY-25 H-7 Vol.

x F8** 16 in. 120 A106GRB VY-25 H-7 Vol. x x x i F8A 16 in. 120 A106GRB VY-25 H-7 Vol. x F9 16 in. 120 A106GRB VY-25 H-7 Vol. x F10 16 in. 120 A106GRB VY-25 H-7 Vol. x F2 16 in. 120 A106GRB VY-25 H-7 Vol. x

- New welos installea tall lycl.

baseline exams perrormeo outsloe tne sccpe of Ents scnecule.

I-61 ** See Relief Request Basis B-4

~

l 3 x i

v r4 2 x x x t

n 1 x x x I

1 3 x x x v

r3 2 x x x t

e I

n 1 x x l 3 a

v r2 2 t

e I

n 1 l 3 a

v r1 2 x x x x x x x x t

e I

n 1 ds ed ro . . . . . . . . . . . . . . . . . . .

ih l l l l l l l l l l l l l l l l l l l ut qe o o o o o o o o o o o o o o o o o o o V V V V V V V V V V V V V V V V V V V eM R

g n

i .

J wo 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7

- aN - - - - - - - - - - - - - - - - - - -

B r H H H H H H H H H H H H H H H H H H H D

d Y r 4 4 4 4 45 45 45 5 3 3 3 3 3 3 3 3 3 3 3 R .a 2 2 2 2 22 22 22 2 2 2 2 2 2 2 2 2 2 2 2 O ld - - - - - - - - - - - - - - - - - - - - - -

G an Y Y Y Y YY YY YY Y Y Y Y Y Y Y Y Y Y Y Y E Ca V V V V VV VV VV V V V V V V V V V V V V T t A S C

l a B B 8 B B B B B B B B B B 8 8 B B B B i R R R R R R R R R R R R R R R R R R R r G G G G C G C G G G C G C G G G C C C e 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 t 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 M A A A A A A A A A A A A A A A A A A A ds

) es 0 l e 0 un 0 0 0 0 0 0 0 0 0 0 0 0 6 dk 0 0 0 0 2 2 2 2 2 2 2 2 2 2 2 2 2 ec 8 8 8 8 1 1 1 1 1 1 1 1 1 1 1 1

- hi 5 B ch W ST 4 I B (

O N . . . . . . . . . . . . . . . . . . .

e z

n n n n n n n n n n n n n n n n n n n M i i i i i i i i i i i i i i i i i i i E i T S 6 6 6 6 6 6 6 6 0 0 0 0 0 0 0 0 0 0 0 I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 a

e u

n A B C D A B C A A A B A

.i 2 2 2 2 3 3 3 3 4 A 5 5 6 A S S 6 7 1 t ) F F F F F F F F F F F F F S - - F F F n d - A A o ' 6 6 6 c t F F F

,( n o

s c eo t t

(

n e 9 e w 1 n

o p

c 2 m r W 6 o i 0 -

C c F I

ITEM NO. 84.5 CATEGORY B-J Intervel Int:ry:1 Intcry:1 Interv 1 (lWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Component: , __ . Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 unc. welos (continueo; FDW - 21 F2-SA 10 in. 120 A106GRB VY-23 H-7 Vol. x F2 10 in. 120 A106CRB VY-23 H-7 Vol. x F2A-5B 10 in. 120 A106GRB VY-23 H-7 Vol. x F2A-SA 10 in. 120 A106GRB VY-23 H-7 Vol. x F2A 10 in. 120 A106GRB VY-23 H-7 Vol. x F3 10 in. 120 A106GRB VY-23 H-7 Vol. x FDJ - 17 W4 16 in. 120 A106GRB VY-25 H-8 Vol.

x FAA** 16 in. 120 A106GRB VY-25 H-8 Vol. x x x W4B 16 in. 120 A106GRB VY-25 H-8 Vol.

x F5A 16 in. 120 A106GRB VY-25 H-8 Vol. x F6 16 in. 120 A106CRB VY-25 H-8 Vol. x F7 16 in. 120 A106GRB VY-25 H-8 Vol. x FDJ - 18 F2 16 in. 120 A106GRB VY-25 H-8 Vol. x F2A 16 in. 80 A106GRB VY-24 H-8 Vol. x F2B 16 in. 80 A106GRB VY-24 H-8 Vol. x F2C 16 in. 80 A106GRB VY-24 H-8 Vol. x F2D 16 in. 80 A106CRB VY-24 H-8 Vol. x F2E 16 in. 80 A106GRB VY-24 H-8 Vol. x F3 16 in. 120 A106GRB VY-25 H-8 Vol. x FM _ _16 in. _ _ _ 120_ A106CRB _ VY- 75 H-8 .

Vol. . _ _x _ _

x _

' NUW WUlub IHSLd11CO F all l'/ 01. DaSellne CXdmb pt 1 I 01 mCU OULb10C LDE bLL pt UI Lnib bEDUC U AE .

I-63 **See Relief Request Basis B-4.

ITEM to. 84.5 CATEGORY B-J Interv 1 Interv:1 Int;ry:1 Int';rval (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Componente _. Size Thickness Material Standard No.

Methods 1 2 3 1 2 3 1 2 3 1 2 3

~

c.uc. welus warunueu; FDW - 18 (cont'd)

F3B 16 in. 120 A106GRB VY-25 H-8 Vol. x x F4 10 in. 120 A106GRB VY-23 H-8 Vol. x

F5 10 in. 120 A106CRB VY-23 H-8 Vol. x i F5-SA 10 in. 120 A106CRB VY-23 H-8 Vol. x 1

F5A 10 in. 120 A106GRB VY-23 H-8 Vol. x FSA-SA 10 in. 120 A106CRS VY-23 H-8 Vol.

s x

F5A-T - 10 in. 120 A106GRB VY-23 H-8' Vol. x F6 10 in. 80 A106GRB VY-29 H-8 Vol. x <

FDW - 20 F1 10 in. 120 A106GRB VY-23 H-8 Vol. x l FIA 10 in. 120 A106GRB VY-23 H-8 Vol.

x FIB 10 in. I?O A106CRB VY-23 H-8 Vol. i x

j F2 10 in. 120 A106GRB VY-23 H-8 Vol. x F2A 10 in. 120 A106CRB VY-23 H-8 Vol. x F3 10 in. 120 A106GRB VY-23 H-8 Vol. x f3 10 in. 120 A106GRB VY-23 H-8 Vol. x

! F3A 10 in. 120 A106GRB VY-23 H-8 Vol. x

F3A-SA 10 in. 120 A106GRB VY-23 H-8 Vol. x i

F3A-SB 10 in. 120 A106GRB VY-23 H-8 Vol. x l F4 10 in. 80 A106GRB VY-29 H-8 Vol. x 4

I-64 4

ITEM NO. 84.5 CATEGORY B-J Intervel Intervel Interval Int;ry:1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required

Cogonents Size Thickness Material Standard No.

s

, .. .. Methods 1 2 3 1 2 3 1 2 3 1 2 3 L i l l' . NUlub ( UUllL AIRJtu )

RHR Piping A RHR - 32 1 20 in. 1.095 A358TP304 VY-32 H-4 Vol. x 2 20 in. 1.095 A358TP304 VY-32 H-4 Vol. x 4 20 in. 1.095 A358TP304 VY-32 H-4 Vol. x A358TP304 5 1.095 20 in. to valve VY-32 H-4 Vol. x Valve to 6 20 in. 1.095 A358TP304 VY-32 H-4 Vol. x A358TP304 7 1.095

) 20 in. to valve VY-32 H-4 Vol. x 9 20 in. 80 A106GRB VY-27 H-4 Vol. x 10 20 in. 80 A106GRB VY-27 H-4 Vol. x

11 20 in. 80 A106GRB VY-27 H-4 Vol. x 12 20 in. 80 A106GRB VY-27 H-4 Vol. x 13 20 in. 80 A106GRB VY-27 H-4 Vol. x 14 20 in. 80 A106GRB VY-27 H-4 Vol. x 15* 20 in. 80 A106GRB VY-27 H-4 x Vol. x x 16 20 in. 80 A106GR6 VY-27 H-4 Vol. x l

17 20 in. 80 A106GRB VY-27 H-4 Vol. x 18 20 in. 80 A106GRB VY-27 H-4 Vol. x 19 20 in. 80 A106GRB VY-27 H-4 Vol. x RHR Piping B Line RHR - 31 1 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 2 24 in. 1.312 358TP304 VY-34 H-5 Vol. x l-65 - 5ee Rellei Request 6csis o-o

ITEM NO. B4.5 CATEGORY B-J Interv:1 Interval Interval Int;ry 1 (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Component, , . Size Thickness Material Standard

. , ., No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 GilG. NUlub , CUl t LIIRJP.,U )

RHR - 31 (cont'd) 3 24 in~ 1.312 358TP304 VY-34 H-5 Vol. x 4 24 in. 1.312 358TP304 VY-34 H-5 Vol. x

358TP304 5 24 in. 1.312 to valve VY-34 H-5 Vol. x Valve to 6 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 7 24 in. 1.312 358TP304 VY-34 H-5

Vol. x x 8 24 in. 1.312 358TP304 VY-34 H-5 x Vol. x 358TP304 9 24 in. 1.312 to valve VY-34 H-5 Vol. x 1

x RHR - 29 11 80 VY-28 H-5 24 in. A106GRB Vol x 12 24 in. 80 A106GRB VY-28 H-5 Vol. x 13 24 in. 80 A106GRB VY-28 H-5 Vol. x

= 14 24 in. 80 A106GRB VY-28 H-5 Vol. x x x _.

15

24 in. 80 A106CRB VY-28 H-5. Vol. x

v RHR Piping Line C 24 in. 80 A106GRB VY-28 H-5 Vol. x j

i RHR - 30 1 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x J

2 24 in. 1.312 A358TP304 VY-34 H-6 "ol. x 1

3 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x 4 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x

. 5 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x 6 _24 in._ _ l.312 _ A358TP304 VY-34 H-6

_ Vol. x

- aee neller nequest oa sis u-o I-66 1

1

\

ITEM NO. B4.5 CATEGORY B-J Interval Interval Interval Interv 1 (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Component: Size Thickness Material Standard No. Methods 2 3 2 3

, 1 1 1 2 3 1 2 3 Circ. Welds (continued)

RHR - 30 (cont'd) Valve to 7 24 in. 1.312 358TP304 VY-34 H-6 Vol. x ..

8 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x 9 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x i 10 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x A358TP304 11 24 in. 1.312 to valve VY-34 H-6 Vol. x Valve to RHR - 28 12 24 in. 1.312 A358TP304 VY-34 H-6 Vol. x 14 24 in. 80 A106GRB VY-28 H-6 Vol. x 15 24 in. 80 A106CRB VY-28 H-6 Vol. x 16 24 in. 80 A106CRB VY-28 H-6 Vol. x i 17 24 in. 80 A106GRB VY-28 H-6 Vol. x l

18 24 in. 80 A106GRB VY-28 H-6 Vol. x l 19 24 in. 80 A106GRB VY-28 H-6 Vol. x

20 24 in. 80 A106GRB VY-28 H-6 Vol. x x x

! 21 _

24 in. 80 A106GRB VY-28 H-6 Vol. x 1

22 24 in. 80 A106CRB VY-28 H-6 Vol. x Longitudinal Seam Welds RHR Piping Line A 1 20 in. 1.095 358TP304 VY-32 H-4 Vol. x 2 20 in. 1.095 358TP304 VY-32 H-4 Vol. x i

~

4 20 in. 1.095 358TP304 VY-32 H-4 Vol. x RHR - 32 5 20 in. 1.095 358TP304 VY-32 H-4 Vol. x

See Rellet~ Request Basis B-4 i

I-67

ITEM NO. B4.5 CATEGORY B-J Interval Interval Interval Int rvd (IWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Components . _ _

. , Size. . Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 tungi wainal mam weios wunt.inuec ;

, RHR Piping Line A (cont'd) j RHR - 32 6 20 in. 1.095 358TP304 VY-32 H-4 Vol. x 7 20 in. 1.095 358TP304 VY-32 H-4 Vol. x RHR - 33 10 20 in. 80 A106CR8 VY-27 H-4 Vol. x 11 20 in. 80 A106GRB VY-27 H-4 Vol. x RHR Piping Line B RHR - 31 1 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 2 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 1 3 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 4 1.312 24 in. 358TP304 VY-34 H-5 Vol. x 5 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 6 24 in. 1.312 VY-34 H-5 Vol. x 358TP30_4 7 24 in. 1.312 358TP304 VY-34 H-5 Vol. x 8 24 in. 1.312 358TP304 VY-34 H-5 Vol. x i 9 24 in. 1.312 358TP304 VY-34 H-5 Vol. x

! RHR Piping Line C

, RHR - 30 1 24 in. 1.312 358TP304 VY-34 H-6 Vol. x 2 24 in. 1.312 358TP304 VY-34 H-6 Vol. x 3 24 In. 1.312 358TP304 VY-34 H-6 Vol. x 4 24 in. 1.312 358TP304 VY-34 H-6 Vol. x 5 24 in. 1.312 358TP304 VY-34 H-6 Vol. x 6 24 in. 1.312 358TP304 VY-34 H-6 Vol. x 7 24 in. 1.312 358TP304 VY-34 H-6 Vol. x I-68 i

l 3 a

v r4 2 t

n 1 x I

l 3 x .

a e v x l

r3 2 x x u e a t e n 1 n I c s

l 3 x x s e i v r r2 2 x x x t e f.

t n 1 x x x x o I

l 3 o a c v s r1 2 x x e e t r n 1 x x x x x x x * * *

t I

e c

ds i ed s ro . . . . . . . . . . . . . . . . . . . t ih l l l l l l l l l l l l l l l l l l l u ut o o o o o o o o o o o o o o o o o o oo qe V V V V V V V V V V V V V V V V V V V eM o R e m

r g o n

i . 1 1 1 1 1 1 1 1 1 1 1 1 f

r J wo 6 6 6 6 6 6 6 1 1 1 1 1 1 1 1 1 1 1 1

- p e

- aN - - - - - - - - - - - - - - - - - -

8 r H H H H H H H H H H H H H H H H H H H D s m

a x

d e Y r 4 4 4 4 4 8 8 9 0 0 0 0 R .a 3 3 3 3 3 2 2 1 7 7 7 7 7 7 7 2 2 2 2 e O ld - - - - - - - - - - - - - - - - - - - n G an Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Yi E Ca V V V V V V V V V V V V V V V V V V Vl T t e A S s C a

_ 4 4 4 4 4 4 4 L L L Li t

_ l 4 4 4 4 4 0 0 0 0 0 0 0 6 6 6 6

- a 0 0 0 0 0 B B B 3 3 3 3 3 3 3 1 1 1 1 i 3 3 3 3 3 R R R P P P P P P P 3 3 3 3 .

- r P P P P P C G G T T T T T T T - - - - /

e T T T T T 6 6 6 6 6 7

6 7

2 2 2 7 /

y t 8 8 8 8 8 0 0 0 7 1 1 1 1 a 5 5 5 5 5 1 1 1 3 3 3 3 3 3 3 3 3 3 3 t M 3 3 3 3 3 A A A A A A A A A A A A A A n

_ ds i

) es 2 2 2 2 2 2 2 4 4 4 4 o

_ 0 l e 1 1 1 1 1 1 1 e

0 un 3 3 3 3 3 3 3 0 0 0 0 0 0 0 9 9 9 5

9 5l 6 dk 0 0 0 0 0 0 0 0 5 5 2 ec 1 1 1 1 1 1 1 8 1 1 1 1 1 1 1 l

- hi a

_ 5 B ch t W s 4 I S T. ; n i

B ( 1a e s

. u o o n

.i . . . . . . . . . . . . . . . . . . .l t

e t n n n n n n n n n n n n n n n n n i n ne i w M i n i i i i i i i i i i i i i i i i i o

E l 8 8 8 8 w T S,c( 4 4 4 4 4 4 4 8 8 8 8 8 8 8 8 I 2 2 2 2 2 2 2 e 4

r s -

_o

_i e A 8 C S

w A A B 5 5 5 0 1 2 5 6 3 1 I 2 3 3 3 4 m 8 9 1 1 1 1 1 g F F F F F F F F W W W W a i n

x i p

_l P a y

_ e n t i a n

e a0 r p 8 u3 n

o p

n-g Se3 d

ei- 9 m nR rS 6 o H o S -

C to. R CAC 1

i l

,. ! ; ; I! ;

ITEM NO. B4.5 CATEGORY B-J Interval Interval Int rvel' Int;rval (IWB-2600) 1 '2 3 -4 Schedule / Cal. Drawing Required Component. , . Size Thickness Material Standard No.

Methods 1 2 3 1 2 3 1 2 3 1 2 3 t.uc. welus wununuto; Core Spray Piping A Side CS - 38 NF50 8 in. .594 A312-316L VY-20 H-11 Vol.

x x MF6 8 in. .594 A312-316L VY-20 H-11 Vol.

x x Core Spray Piping B dice Valve to CS - 3A F3 8 in. 80 A-106-8 VY-19 H-12 Vol. x CS - 4A F1 8 in. 100 A376-304 VY-7 H-12 Vol.

x

FIA 8 in. 100 A376-304 VY-7 H-12 Vol. x 1

' A376-304 F2 8 in. 100 to valve VY-7 H-12 Vol. x Valve to F3 8 in. 100 A376-304 VY-7 H-12 Vol. x F3A 8 in. - 100 A376-304 VY-7 H-12 Vol.

x

, F3B 100 A376-304 VY-7 8 in. H-12 Vol. x x A376-304 F4 to valve

8 in. 100 VY-7 H-12 Vol. x x Valve to MFS .594 3

8 in. A376-304 VY-20 H-12 Vol.

x MFSA 8 in. .594 A376-304 VY-20 H-12

Vol. x MFSB 8 in. .594 A376-304

VY-20 H-12 Vol.

x x MFSC 8 in. .594 A376-304 VY-20 H-12 Vol.

x x MF50 8 in. .594 A376-304 VY-20 H-12 Vol.

i x x

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MF6 .594 A376-304 8 in. VY-20 H-12 Vol.

x x reew weios installeo in lyfi. c aseline exams perioimuu outsice u e scope of tr is scoccule.

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ITEM'ND. 84.5 CATEGORY B-J Interv 1 Interval Interval Interv:1 LIWB-2600) 1 2 3 4 Schedulef Cal. Drawing Required Component. Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 tire, welos (continueo)

Rx Cleanup Demin. A312-316L Piping 2 4 in. 120 to vesse] VY-CUW-1 H-13 Vol.

x A312-316L

,CUW-18 3 4 in. 120 to vessel VY-CUW-1 H-13 Vol.

x A312-316L 4 4 in. 120 to valve VY-CUW-1 H-13 Vol.

x A312-316L F5 4 in. 120 to tee VY-CUW-1 H-13 Vol.

A312-316L 6 4 in. 120 to tee VY-CUW-1 H-13 Vol.

x A312-316L 8 to valve 4 in. 120 VY-CUW-1 H-13 Vol.

x i

A312-304L 9 4 in. 80 to valve VY-5 H-13 .Vol.

x F10 4 in. 80 A312-304L VY-5 H-13 Vol.

11 4 in. 80 A312-304L VY-5 H-13

Vol. x 12 4 in. 80 A312-304L VY-5 H-13

Vol. x F13 4 in. 80 A312-304L VY-5 H-13 Vol.

x 14 4 in. 80 A312-304L VY-5 H-13 Vol.

l l FIS 4 in. 80 A312-304L VY-5 H-13 Vol.

x 4

1 F16 4 in. 80 A312-304L VY-5 H-13 Vol.

x 17 4 in. 80 A312-304L VY-5 H-13

Vol. x

! F18 4 in. 80 A312-304L VY-5 H-13 Vol.

l 25 4 in. 80 A312-304L VY-5 H-13 Vol.

x i

New welos Insta11eo tall 1YOU. baseline exams perf ormeo outsloe Lne scope or this schecule.

75% of new welds will be re-examined during remaining 3 inservice inspection intervals.

i 1-72

ITEM NO. B4,5 CATEGORY B-J Interval ' Interval Inttrv21' IntIrv31" j (IM3-2600) 1 2 3 4-Schedulef Cal.- Drawing Required

_ Component: Size Thickness Material Standard i

No . ' ' Methods 1 2 3 1 2 3 1 2 3 1 2 3 I

Main steam Attachment .

j MS-5A F1 3 in. 160 A106GRB VY-4 H-19 Vol. x l

FIA 3 in. 160' A106GRB VY-4 H Vol. x i

a F18 3 in. 160 A106GRB VY-4 H-19 Vol. x

! FIC 3 in. 160 A106GRB VY-4 H-19 Vol. x i

j FID 3 in. 160 A106CRB VY-4 H-19 Vol. x

)

FIE- 3 in. 160 A106GRB VY-4 H-19 Vol. x F2 3 in. 160 AlO6GRB VY-4 H-19 Vol. x i

! F3 3 in. 160 'A106GRB VY-4 H-19 Vol. x j F3A 3 in. 160 A106GRB VY-4 H-19 Vol. x i

F3B 3 In. 160 A106GRB VY-4 H-19 Vol. x

l F4 3 in. 160 A106GRB VY-4 H-19 Vol. x FAA* 3 in. 160 A106GRB VY-4 H-19 Vol. x x x

^

! F5 3 in. 160 A106GRB VY-4 H-19 Vol. x i .

I i

FSA 3 in. 160 A106CRB VY-4 H-19 Vol. x F5B 3 in. 160 A106GRB VY-4 H-19 Vol. x

?

F5C 3 in. 160 A106GRB VY-4 H-19 Vol. x F6 3 in. 160 A106GRB VY-4 H-19 Vol. x !

F7 3 in. 160 A106GRB VY-4 H-19 Vol. x

See Relief Request Basis B-4 I-73

) - - - .

ITEM NO. 84.5 CATEGORY B-J Interval Interval Interv:1 Intc.rv:1 (IWB-2600) 1 2 3 4 Schedule / Cal. Drawing Required Component: Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 circ. welas (continuea)

RHR-19 F9A 4 in. 80 A182TP304 RadiograplhN/A Vol. x F98 6 in. 80 A182TP304 RadiograplhN/A Vol. x ,

i a

i i

i 4

l 1 1-74

ITEM NO. 84.6 CATEGORY B-J Interval Interval Interval Int;rval 1 2 3 4 Schedulef Cal. Drawing Required

Component. Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 uranen Pipe connections exceeaino 6-in. alameter Recirc. Ring Headers and Inlets Sweepolets 20A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x x ,

I 23A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x x 30A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x x 33A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x 42A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x x 45A 22 in. 358TP304 VY-33 H-1 Vol. x 1.1 in. x 50A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x 53A 22 in. 1.1 in. 358TP304 VY-33 H-1 Vol. x e

i d

i I-75 l

ITEM NO. B4.7 CATECORY B-J Interv 1 Interval Interval Intcry 1 1 2 3 4 Schedulef Cal. Drawing Required !

Component. Size Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 eranen Pipe connections, 6 inen olameter anc smaller MS-78 Sweepolets B5B 18 x 6 in. 80 x 160 A106GRB H-15 Sur. x BSE 18 x 6 in. 80 x 160 A106CRB H-15 Sur. x MS-7C Sweepolets C58 18 x 6 in. 80 x 160 A106CRB H-16 Sur. x CSE 18 x 6 in. 80 x 160 A106GRB H-16 Sur. x C5H 18 x 6 in. 80 x 160 A106GRB H-16 Sur. x MS-70 Sweepolets 058 18 x 6 in. 80 x 160 A106CRB H-17 Sur. x l D5E 80 x 160 H-17 18 x 6 in. A106CRB Sur. x

OSH 18 x 6 in. 80 x 160 A106GRB H-17 Sur. x 1 RHR Piping Line A A182-316L 1

RHR-32 F1 1.095 20 x 4 in. A358TP304 H-4 Sur.

x

! Reactor Recir. Bypass Loop A teldolets 58 4 in. 80 A182F304 H-2 Sur. x C7A 80 4 in. A451CP8M H-2 Sur. x C12 4 in. 80 A451CP8M H-2 Sur. x Reactor Recirc Bypass Loop B teldolets 57A 4 in. 80 A182F304 H-3 Sur. x C60A1 4 in. 80 A451CP8M H-3 Sur. x C65 4 in. 80 A451CP8M H-3 Sur. x l MS-7A Sweepolets A5B 18 x 6 in. 80 x 160 A106GRB H-14 Sur. x ASE 18 x 6 in. 80 x 160 A106CRB H-14 Sur. x A5H 18 x 6 in. 80 x 160 A106CRB H-14 Sur. x l I-76

New welo 10Stalleo t all lydU. Base 11ne exam perTormeo outs 1Ce Ene Scope of En1S SCneoule.

ITEM to. B10.10 CATEGORY B-K-1 Interval Int ry21 Inttrv 1 Int';rv21 1 2 3 4 Hanger Dra:ing Required Components Type No.

_ _ _ . Methods 1 2 3 1 2 3 1 2 3 1 2 3 integrally welceo suppurt attau mmut wetos (dee rages 1-yz,y> rc r iwr txan inauon; Recirc. Ring Header and Inlets RR-37 Spring H-1 Sur.* x RR-44 Spring H-1 Sur.* x RR-48 Rigid H-1 Sur.* x x RR-49 Spring H-1 Sur.*

x RR-52 Spring H-1 Sur.* x x RR-59 Spring H-1 Sur.* x RR-10 Spring H-2 Sur.* x RR-ll Spring H-2 Sur.* x RR-24 Snubber H-2 Sur.* x x RR-27 No examinations

Rigid H-2 Sur.* x x l l ll l RR-34 recuired in Snubber H-2 Sur.* x l ll l these intervals RR-35 Snubber Recirc. Loop B H-2 Sur.* x RR-62 Snubber H-3 Sur.* x RR-63 Snubber H-3 Sur.* x RR-70 Rigid H-3 Sur.* x x j RR-73 Snubber H-3 Sur.* x x RR-86 Spring H-3 Sur.* x RR-87 _ Spring . H-3

. . . . .. _ _ . . Sur.* . . . . _

yc ,, .. . . . . .

t.unyuiien t s uu t ei min iet ou ume t i examis ia tiori tu siav e ut tuuisiiit. c t adt. nit. t al s f o lii. triitn si nali i

be considered exempt from examination.

l I-77

ITEM NO. B10,10 CATEGORY B-K-1 Int;rvel Intcry:1 Inttryll Int:ry:1 1 2 3 4 Hanger Drc:ing Required Component Type No.

_ Methoc!s 1 2 3 1 2 3 1 2 3 1 2 3 integrally weiueu Mpux c nuaummut weios uee rages 1-yz,y> tc r lur txan inauon; Feedwater Piping Line A FW-4 Spring H-7 Sur.* x x FW-10 Rigid H-7 Sur.* x FW-11 Rigid H-7 Sur.* x x Feedwater Piping Line B FW-14 Spring H-8 Sur.* x FW-21 Rigid H-8 Sur.* x FW-22 Rigid H-8 Su r.* x i x

Core Spray A I

CS-1 Spring Sur.*

H-ll x x No examinations i Core Spray B j j lg CS-2 Spring RHR A H-12 Sur.* x x _recuired lln _

g gj g RHR-1 Spring H-4

Sur.* x x these Intervals RHR-2 Spring H-4 Sur.* x RHR B RHR-5 Spring H-5

{ Su r .

x

, RHR-6 Spring H-5 Sur.* x x RHR C

]

RHR-7 Spring H-6 Sur.* x RHR-8 Spring H-6 Sur.* x Reactor Clean-up 1

' CU-3 Rigid H-13 Sur.* x

Cunyunents uetetminet at time c i examination to nave attauma t tase me.tal s 5/6 in. inicx snali te considered exempt from examination.

I-78

{

i

ITEM NO. F-1, F-2 CATEGORY F-A, F-8, F-C Intery:1 Interv:1 Intcrvrl Int;ry:;l F-3, F-4 1 2 3 4 Hanger Hot (lbs] Cold Drawing Required Component. Type Setting Setting No. Methods 2 3 2 1 1 3 1 2 3 1 2 3 non-integrally welaec wpport components 'Nu i t; . Supports to be examinec are those attached to components requiring examinations under categories B-F and B-J and associated punos and valves.

Recire. Ring Header and Inlets RR-36 Rigid N/A N/A H-1 VT-3 x x x x RR-38 Rigid N/A N/A H-1 VT-3 x x x x i RR-39 Rigid N/A N/A H-1 VT-3 x x x x RR-40 Rigid N/A N/A H-1 VT-3 x x x l

j RR-41 Rigid N/A N/A H-1 VT-3 x x x x

! RR-42 Rigid N/A N/A H-1 VT-3 x x x x j RR-43 Rigid N/A H-1 VT-3 N/A x x x RR-45 Rigid N/A N/A H-1 VT-3 x x x x

RR-46 Rigid N/A N/A H-1 VT-3 x x x i

RR-47 Rigid N/A _ N/A H-1 VT-3 x x x x i

RR-50 Rigid N/A N/A H-1 VT-3 x x x x j RR-51 Rigid N/A N/A H-1 VT-3 x x x x 1

RR-53 Riqid' N/A N/A H-1 VT-3 x x x RR-54 Rigid N/A N/A H-1 VT-3 x x x x

RR-55 Rigid N/A N/A H-1 VT-3 x x x x RR-56 Rigid N/A N/A H-1 VT-3 x x x x RR-57 Rigid N/A N/A H-1 VT-3 x x x x

RR-58 Rigid N/A N/A H-1 VT-3 x x x x i xe Heller Hequest u-6.

i j I-79

ITEM 70. F-1, F-2 CATEGORY F-A, F-8, F-C Interval Interv 1 Interv 1 Int;ry:3 F-3, F-4 1 2 3 6 Hanger Hot Cold Drawing Required Component. Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 non-integrally welaec dopport components Recire. Ring Header and Inlets RR-60 Rigid N/A N/A H-1 VT-3 x x x

RR-61 Rigid N/A N/A H-1 VT-3 x x x x Recire. Loop A RR-1 Rigid N/A N/A H-2 VT-3 x x x x Required Piston RR-2 Snubber Travel. + l-1/8 in. H-2 VT-3 x x x x Required Piston RR-3 Snubber Travel. + l-1/8 in. H-2 VT-3 x x x RR-4 Rigid N/A N/A H-2 VT-3 x x x x Sway RR-5 Brace N/A N/A H-2 VT-3 x x x x Sway RR-6 Brace N/A N/A H-2 VT-3 x t

x x x RR-7 Spring 12,400 10,450 H-2 VT-3+4 x x x x RR-8 Spring 12,400 10,450 H-2 VT-3+4 x x x x RR-9 Rigid N/A N/A H-2 VT-3+4 x x x RR-22 Spring 7.5 2.5 H-2 VT-3+4 x x x x j RR-23 Spring 7.5 2.5 H-2 VT-3+4 x x x x j RR-25 Spring 7.5 2.5 H-2 VT-3+4 x x x RR-26 Spring 8 3 H-2 VT-3+4 x x x x j RR-28 Rigid N/A N/A H-2 VT-3 x x x x l RR-29 Spring 13,300 11,305 H-2 VT-3+4 x x x x i

RR-30 Spring 13,300 11,305 H-2 VT-3+4 x x x x l Sway RR-31 Brace N/A N/A H-2 VT-3 x x x x i

! I-80 i

ITEM to.F-1, F-2, CATEGORY F-A, F-8, F-C Interv 1 Interval Interval IntOrv:1 F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Component. __ _

_ Type _ Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 m i-inteytally weluet auppurt um ui mos Recirc Loop A (cont'c ) Sway RR-32 Brace N/A N/A H-2 VT-3 x x x x RR-33 Rigid N/A N/A H-2 VT-3 x x x x ,

RR-64 Rigid N/A N/A H-3 VT-3 x x x RR-65 Spring 13,300 11,305 H-3 VT-3+4 x x x x i

RR-66 Spring 13,300 11,305 H-3 VT-3+4 x x x x Sway RR-67 Brace N/A N/A H-3 VT-3 x x x x Sway RR-68 Brace N/A N/A H-3 VT-3 x x x RR-69 Rigid N/A N/A H-3 VT-3 x x x

]

t 1 RR-71 Spring 7.5 2.5 H-3 VT-3+4 x x x x j RR-72 Spring 7.5 2.5 H-3 VT-3+4 x x x x i

i RR-74 Spring 7.5 2.5 H-3 VT-3+4 x x x x j RR-75 Spring 7.5 2.5 H-3 VT-3+4 x x x x 1

RR-88 Rigid N/A N/A H-3 VT-3 x x x x j RR-89 Spring 12,400 10,450 H-3 VT-3+4 x x x x i

, RR-90 Spring 12,400 10,450 H-3 VT-3+4 x x x

! Sway RR-91 Brace N/A N/A H-3 VT-3 x x x x Sway j RR-92 Brace N/A N/A H-3 VT-3 x x x j RR-93 Rigid N/A N/A H-3 VT-3 x x x x 1 RR-94 Rigid N/A N/A H-3 VT-3 x x x

! I-81

ITEM to.F-1, F-2, CATEGORY F-A, F-8, F-C Intervel Int:ry:1 Interv 1 Intcry:1 F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Component. Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 NOn-Integrally WeloeC bupport Components

, Main Steam Line A I MS-1 Spring 3.5 6.5 H-14 VT-3+4 x x x x MS-2 Sprir'g 3.5 6.5 H-14 VT-3+4 x x x x Required Piston '

4 MS-3 Snubber Travel. + 1-1/8 in. H-14 VT-3+4 x x x x MS-4 Spring 9,140 9,640 H-14 VT-3+4 x x x x MS-5 Spring 4.0 6.0 H-14 VT-3+4 x x x x Required Piston i

MS-6 Snubber Travel. + l-1/16 in. H-14 VT-3+4 x x x MS-7 Rigid N/A N/A H-14 VT-3 x x x x Main Steam Line B MS-12 Spring 3.5 6.0 H-15 VT-3+4 x x x x MS-13 Spring 3.5 6.0 H-15 VT-3+4 x x x x MS-14 Spring 4.0 6.0 H-15 VT-3+4 x x x x Required Piston MS-15 Snubber Travel. + 1 in. H-15 VT-3+4 x x x x MS-16 Rigid N/A N/A H-15 VT-3 x x x x Main Steam Line C Spring w/

l MS-21 Shr Blks 3.5 6.5 H-16 VT-3+4 x x x Spring w/

MS-22 Shr Blks 3.5 6.5 H-16 VT-3+4 x x x x

MS-23 Spring ** ** H-16 VT-3+4 x x x x Required Piston MS-24 Snubber Travel. + 1 in. H-16 VT-3+4 x x x i MS-25 Rigid N/A N/A H-16 VT-3 x x x x Main Steam Line D 5pring w/

MS-30 Shr Blks 3.5 6.5 H-17 VT-3+4 x x x x Spring w/

MS-31 Shr Blks 3.5 6.5 H-17 VT-3+4 x x x x

] Required Piston 1 MS-32 Snubber Travel + 1-1/8 In. H-17 VT-3+4 x x x x

! I-82 -' unscurea reaaing i

ITEM PC. F-1, F-2, CATEGORY F-A, F-8, F-C Interval Int;rval Interv 1 Int':ry 1 F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Component Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 ru .- A nt ey t a tiy weim w rt % onents Main Steam Line D (cont'd)

MS-33 Spring 9,140 9,640 H-17 VT-3+4 x x x x MS-34 Spring 3.5 6.5 H-17 VT-3+4 x x x x Required Piston MS-35 Snubber Travel. + l-1/16 in. H-17 VT-3+4 x x x Shear MS-36 Blocks N/A N/A H-17 VT-3+4 x x x x Feedwater A Spring w/

FW-1 Shr Blks 2,485 2,876 H-7 VT-3+4 x x x x Spring w/

FW-2 Shr Blks 2,485 2,876 H-7 VT-3+4 x x x x Required Piston FW-3 Snubber Travel. + 1-5/8 in. H-7 VT-3+4 x x x Rigid w/

FW-5 Shr 81ks 2,485 2,876 H-7 VT-3+4 x x x x FW-6 Spring 2,902 3,577 H-7 VT-3+4 x x x x x Spring w/

FW-7 Shr B1ks 2,457 2,832 H-7 VT-3+4 x x x x Spring w/

FW-8 Shr Blks 2,457 2,832 H-7 VT-3+4 x x x x FW-9 Spring 4,877 5,957 H-7 VT-3+4 x x x x Feedwater B Spring w/

FW-12 Shr B1ks 2,457 2,851 H-8 VT-3+4 x x x x Spring w/

FN-13 Shr B1ks 2,457 2,851 H-8 VT-3+4 x x x x Required Piston FW-15 Snubber Travel. + l-5/8 in. H-8 VT-3+4 x x x Spring w/

FW-16 Shr Blks N/A N/A H-8 VT-3+4 x x x x FW-17 Spring 2,902 3,577 H-8 VT-3+4 x x x x Spring w/

FW-18 Shr Blks 2,457 2,832 H-8 VT-3+4 x x x x I-83

ITEM 10. F-1, F-2, CATEGORY F-A, F-8, F-C Int;rval Intcrvcl IntCrvC1 Int;ry:1 F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Component. Type Settino Settino No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 rean-integrally welaec doppcrt Lomponents Feedwater 8 (cont'd) Spring w/

FW-19 Shr Blks 2,457 2,832 H-8 VT-3+4 x x x x FW-20 Spring 4,877 5,957 H-8 VT-3+4 x x INR A x x Required Piston Rift-3 Snubber Travel. + 1/8 In. H-4 VT-3+4 x x x Required Piston RHR-4 Snubber Travel: + 1/8 in. H-4 VT-3+4 x x x RHR B H-103 Rigid N/A N/A H-5 VT-3 x INR C 60 x x 1898 Rigid N/A N/A H-6 VT-3+4 x x x Reactor Clean- @ Requitec Piston CU-l Snubber Travels - 1 in. H-13 VT-3+4 x x x Required Piston CU-2 Snubber Travel. - 1 in. H-13 VT-3+4 x x x x CU-4 Spring 535 612 H-13 VT-3+4 x x x x CU-5 Spring 360 420 H-13 VT-3+4 x x x x CU-6 Ricid N/A N/A H-13 VT-3 x x x x CU-7 Rigid N/A N/A H-13 VT-3 x x x x CU-8 Rigid N/A N/A H-13 VT-3 x x x x CU-9 Rigid N/A N/A H-13 VT-3 x if'CI ff'CI-l Spring 3,347 2.972 H-20 VT-3+4 x x x x if'CI-2 Rigid N/A N/A H-20 VT-3 x x x x if'CI-3 Spring 3,027 2,877 H-20 VT-3+4 x x x x if)CI-4 Rigid N/A N/A H-20 VT-3 x x x x I-84

ITEM .T . F-1, F-2, CATEGORY F-A, F-8, F-C Int:rvel Int 0rvr1 Intcry:1 Int ry:1 F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Component. __ _

Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 rou -Antegaa12y wer m wx L L.m u rm u.s RCIC RCIC-1 Spring 230 259 H-19 VT-3+4 x x x x RCIC-2 Spring 312 336 H-19 VT-3+4 x x x x RCIC-H60 Rigid N/A N/A H-19 VT-3 x x x x IWF Portion of Integrally weloea wrts RR-37 Spring 7,100 7,000 H-1 VT-3+4 x x x RR-44 Spring 8,500 7,400 H-1 VT-3+4 x x x RR-48 Rigid N/A N/A H-1 VT-3 x x x x RR-49 Spring 11,500 11,250 H-1 VT-3+4 x x x RR-52 Spring 8,500 7,406 H-1 VT-3+4 x x x x RR-59 Spring 8,100 7,006 H-1 VT-3+4 x x x Recirc Loop A RR-10 Spring 8 2 H-2 VT-3+4 x x x RR-Il Spring 8 2 H-2 VT-3+4 x x x Required Piston RR-24 Snubber Setting. - 1/4 in. H-2 VT-3+4 x x x x RR-27 Rigid N/A N/A H-2 VT-3 x x x x Required Piston RR-34 Snubber Setting. + 11/16 in. H-2 VT-3+4 x x x Required Piston l RR-35 Snubber Setting + 11/16 In. H-2 VT-3+4 x x x I-85

ITEM M). F-1,-F-2, . CATEGORY F-A, F-8, F-C Interv:1' Interval-'Interv:1- Intgrv01~

. F-3, F-4 i 1 2 -3~ 4' l Hanger Hot Cold Drawing Required .

i ' Component. Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 aw ruruun or toteva 11y wezucu supports l Recirc. Loop B Required Piston j RR-62 Snubber Settinge - 11/16 inl. H-3 VT-3+4 x x x 1

Required Piston

{ RR-63 Snubber Setting + 11/16 inl. H-3 VT-3+4 x x x :

I i RR-70 Rigid N/A N/A H-3 VT-3 x x x

.x !

! Required Piston RR-73 Snubber Setting. - 1/4 in. H-3 VT-3+4 x x x x RR-86 Spring 8 2 H-3 VT-3+4 x x x l RR-87 Spring 8 2 H-3 VT-3+4 x x x l Feedweter Piping ,

Line A FW-4 Spring 2,831 3,206 H-7 VT-3+4 x x x x FW-10 Rigid' N/A N/A H-7 VT-3 x x x ,

1 j FW-11 Rigid N/A N/A H-7 VT-3 x x x x

Feedwater Piping t Line B FW-14 Spring 2,836 3,211 H-8 VT-3+4 x x x .

FW-21 Rigid N/A N/A H-8 VT-3 x x x FW-22 Rigid N/A N/A H-8 VT-3 x x x x i Core Spray A

} CS-1 Spring 2,208 2,575 VT-3+4 I

' H-ll x x x x Core Spray B CS-2 Spring-' 2,208 2,575 H-12 VT-3+4 x x x x RHR-1 Spring 16,121 17,006 H-4 VT-3+4 x x x x RHR-2 Spring 15.021 14,356 H-4 VT-3+4 x x x RHR-5 Spring 22,721 22,900 H-5 VT-3+4 x x x RHR-6 Sprina 16,021 16,200 H-5 VT-3+4 x 'x x x 1 I-86 I

l 3

a v

r4 2 t

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l 3 a

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r2 2 x c

t n 1 x x I

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ut T T T qe V V V C eM

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g n 0 9 di 0 4 A lt 8, 3, /

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F F Ht e p o N 6 6

, , S p 2 1 1 3

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ITEM NO B7.50 CATEGORY B-C-2 IntCrvel Int:rval' Int rval Int rvC1 1 2 3 4 Nunt)er of Number of Drawing Required Component.

Size Bolts Nuts No. Methods 1 2 3 1 2 3 1 2 3 1 2 3

' Pressure-HeLalning tSO1 Ling $ 2 in diameter Recirc System Flange A 1-1/8 in. 8 16 H-1 VT-1 x x x x B 1-1/8 in. 8 16 H-2 VT-1 x x x x Head Spray Flange j A 1-1/4 in. 8 8 H-10 VT-1 x x x x

, B l-1/4 in. 8 8 H-lO VT-1 x x x Main Steam Inlet Flange RV-A 1-3/8 in. 12 12 H-14 VT-1 x x x x SV-A 1-3/8 in. 12 12 H-14 VT-1 x x x x Blank A 1-3/B in. 12 12 H-14 VT-1 x x x x RV-B l-3/B in. 12 12 H-15 VT-1 x x x x Blank B 1-3/8 in. 12 12 H-15 VT-1 x x x j RV-C 1-3/8 in. 12 12 H-16 VT-1 x x x x j Blank C-1 1-3/B in. 12 12 H-16 VT-1 x x x Blank C-2 1-3/B in. 12 12 H-16 VT-1 x x x

, x RV-D 12 l-3/8 in. 12 H-17 VT-1 x x x x j SV-D 1-3/8 in. 12 12 H-17 VT-1 x x x x i

) Blank D 1-3/B in. 12 12 H-17 VT-1 x x x i

1 i

1-88 i

ITEM NO. 86.180, B6.190 CATEGORY B-G-1 Interv21 Intcry:1 Intcry:1 Intcry:1 86.200 1 2 3 4 Component.

Schedulef Drawing Required

. Size Thickness _ Material No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 rressure-neraining stuas, nuts anc wasners, in place Bushing and Flange Surface, if disassembled PI-18-1A RPB-1 VT-1 and 1

2-1/2 in. A-193GR7 RP8-4 H-27 Vol. x x x x RPB-1 VT-1 and 2 2-1/2 in. A-193GR7 RP8-4 H-27 Vol. x x x x 3

RPB-1 VT-1 and 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x RPB-1 VT-1 and 4 2-1/2 In. A-193GR7 RPB-4 H-27 Vol. x x x x 5

RPB-1 VT-1 and 2-1/2 in. A-193GR7 RP8-4 H-27 Vol. x x x x 6

RPB-1 VT-1 and 2-1/2 in. A-193GR7 RP8-4 H-27 Vol. x x x x RP8-1 VT-1 and 7 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x RPB-1 VT-1 and B 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RP8-1 VT-1 and 9 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RP8-1 VT-1 and 10 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 11 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x RPB-1 VT-1 and 12 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 13 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 14 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RP8-1 VT-1 and 15 2-1/2 in. A-193GR7 RP8-4 H-27 Vol. x x x RPB-1 VT-1 and 16 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x i

l 1

I I-89 i

ITEM NO. 86.180, B6.190 CATEGORY B-G-1 Interval Int;rval Intcrval Int;rv 1 B6.200 1 2 3 4 Schedulef Drawing Required Components Size Thickness _ Material No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 rie>>ure-netaining mtm, riuts a s wasners, in place Bushing and Flange Surface, if disassembled P-18-1B Recire. Loop B RPB-1 VT-1 and 1 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x HPu-1 VI-I and 2 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x i

3 RPB-1 VT-1 and 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x 4

RPB-1 VT-1 and 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 5 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RP8-1 VT-1 and 6 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x 7

RPB-1 VT-1 and 2-1/2 in. A-193CR7 RPB-4 H-27 Vol. x x x x 8

RPB-1 VT-1 and j 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x 9

RP8-1 VT-1 and 2-1/2 in. A-193CR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and l '10 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 11 2-1/7 in. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 12 2-1/2 in. A-193CR7 RPB-4 H-27 Vol. x x x x RP8-1 VT-1 and i 13 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x i

RPB-1 VT-1 and 14 2-1/2 in. A-193GR7 RPB-4 H-27 Vol. x x x x

' RPB-1 VT-1 and 15 2-1/2 In. A-193GR7 RPB-4 H-27 Vol. x x x x RPB-1 VT-1 and 16 2-1/2 in. A-193CR7 RPB-4 H-27 Vol. x x x x l

I-90 i

ITEM PO. B10.20 CATEGORY B-K-1 Intcrval Intcry;l Int ry21 Interval 1 2 3 4 Hanger Drawing Required Componente Type

. _ _. , _ _ _ _ _ _ _ _ No. . Methods 1 2 3 1 2 3 1 2 3 1 2 3 AnteytaAAy werueu m uutt attauentot weius pee payr:> i-yz,72 u t- tur exarrination; Recirc Loop A RR-12 Snubber H-2 Sur.* x x RR-13 Snubber H-2 Sur.* x x RR-14 Snubber H-2 Sur.* x RR-15 Spring H-2 Sur.* x x RR-16 Spring H-2 Sur.* x RR-17 Spring H-2 Sur.* x No inspectior Recirc Loop B I I ll l recuired in P-18-1B RR-80 Snubber H-3 Sur.* x l ll l these intervals RR-81 Snubber H-3 Sur.* x RR-82 Snubber H-3 Su r.* x RR-83 Spring H-3 Su r.

x RR-84 Spring H-3 Sur.* x RR-85 Spring H-3 Sur.* x

- Cumpuist,u.s ueterminet ouring lispection to nave attaesimeint uz: se siute.4-ic i tr ienness ( 5/c ir . = all oe.

considered exempt from examination.

I-91 i

ITEM 10. F-1, F-2, CATEGORY F-A, F-8, F-C Intcrvr1 Interval Int:rv21 Interval F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Component, Type Settino Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3

.iu.-Antegra11y wei m w rt t.m u ets Recirc. Loop A r P-18-1A RR-18 Rigid N/A N/A H-2 VT-3 x x x x Required Piston M -19 Snubber Travel. - 11/16 in. H-2 VT-3+4 x x x x Required Piston E-20 Snubber Travel. - 1/16 in. H-2 VT-3+4 x x x x Required Piston Recire. Loop B RR-21 Wr -

Travel. - 11/16 in. H-2 VT-3+4 x x x x P-18-1B Required Piston E-76 Snubber Travel. - 11/16 in. H-3 VT-3+4 x x x x Required Piston E-77 Snubber Travel. + 1 in. H-3 VT-3+4 x x x x Required Piston RR-78 Snubber Travel. - 11/16 in. H-3 VT-3+4 x x x RR-79 Rigid N/A N/A H-3 VT-3 x x x x t

I-92

ITEM to.F-1, F-2, CATEGORY F-A, F-8, F-C Int:rv 1 IntOrv21 Intcry21 Int:rval F-3, F-4 1 2 3 4 Hanger Hot Cold Drawing Required Componente Type Setting Setti.tg No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 in rortion or integrally welaea w rts Recire. Loop A Required Piston P-18-1A RR-12 Snubber Travel + 9/16 in. H-2 VT-3+4 x x x x Required Piston RR-13 Srobber Travel. + 3/4 in. H-2 VT-3+4 x x x x Required Piston RR-14 Snuober Travel. + 9/16 in. H-2 VT-3+4 x x x RR-15 Spring 7.7 2.4 H-2 VT-3+4 x x x x RR-16 Spring 7.7 2.4 H-2 VT-3+4 x x x RR-17 Spring 7.7 2.4 H-2 VT-3+4 x Recire. Loop B x x P-18-1B Required Piston RR-80 Snubber Travel. + 9/16 in. H-3 VT-3+4 x x x Required Piston RR-81 Snubber Travel. + 1/8 in. H-3 VT-3+4 x x x Required Piston RR-82 Snubber Travel + 3/4 in. H-3 VT-3+4 x x x RR-83 Spring 7.5 2.5 H-3 VT-3+4 x x x RR-84 Spring 7.5 2.5 H-3 VT-3+4 x x x RR-85 Spring 7.5 2.5 H-3 VT-3+4 x x x l

4 I-93 4

ITEM NO. B12.20 CATEGORY _ B-L-2 Intery:1 Intgry:1 Intcry:1 Intcry:1 1 3 4 wall Drawing Required Components Thickness Material No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 r unp tasings Recirc. Loop A A-351 P-18-1A 2-3/8 in. GR.CF8M H-2 VT-3 Internal pressure boundary surfaces i I I I I I I I I of one pump will be examinec if puno is l ll l l l l 1 I I I disassembled. If disassembly does not i I I I I I l Recirc. Loop B occur by the end of each ins lplection1 P-18-1B Perform l l l l l ll l sicilar functions interval, a rel_lef recues_t will be per Table IWB-2500-1 H-3 l l l l l l l submittec tc obtair exemptior for I I I that interval.

1 1

1 i

I-94

ITEM PO. B12.40 CATEGORY B-M-2 Interval Interval Interval Int;rvIl 1 2 3 4 l Drawing Required Component. No.

l Methods 1 2 3 1 2 3 1 2 3 1 2 3 valve tsoales > a in, re'd Group 1 V2-43A H-2 VT-3

V2-43B H-3 VT-3 V2-53A H-2 VT-3 V2-538 H-3 VT-3 Group 2 V2-65A H-1 VT-3 V2-658 H-1 VT-3 Internal pressure boundar) surfaces Group 3 V2-27A H-7 I I I I I I I I I I VT-3 of one valve in eact grouc will be V2-28A l I I I I I I H-7 VT-3 inspected if the valve is V2-288 i I II I I I H-8 VT-3 disassembled. If disassembly of at V2-96A H-8 l l ll l l I I I I VT-3 least one valve in e grour does not

Group 4 V2-29A H-7 i I ll l l l I I I I VT-3 occur by the enc of each inspection I

V2-29B H-8 I I ll l l l l 1 I I I VT-3 interval, a relief request will be j Group 5 V23-15 1 I ll l l 11 I I I I H-20 VT-3 submitted to exempt that crout from V23-16 I I l I 11 I I I H-20 VT-3 inspecltior for the interval.

Group 6 V14-12A H-11 VT-3 V14-128 H-12 VT-3 Group 7 V14-13A H-11 VT-3 i V14-13B H-12 VT-3 i

Group 8 V14-14A H-11 VT-3 4

! I-95

ITEM NO, B12.40 CATEGORY B-M-2 Interval Intervel Intervel Inttry 1 1 2 3 4 Drawing Required Component. _ ___ , .. .. No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Valve DOU185 > 4 10. NV3 (CUrLIDUE0J Group 9 V2-80A H-14 VT-3 V2-808 H-15 VT-3 i

V2-80C H-16 VT-3 l V2-800 H-17 VT-3 V2-86A H-14 VT-3 V2-86B H-15

, VT-3 V2-86C H-16 VT-3 V2-86D H-17 VT-3 Group 10 SV2-70A H-14 VT-3 See Note on Page I-95 i SV2-708 H-15 VT-3 l Group 11 RV2-71A H-14 VT-3 2

RV2-718 H-15 VT-3 RV2-71C H-16 VT-3

RV2-71D H-17 i VT-3 i Group 12 V10-17 H-4 VT-3 j Group 13 V10-18 H-4 VT-3 I Group 14 V10-25A H-6 VT-3 l

V10-25B H-5 VT-3 1

Group 15 V10-46A H-6 VT-3 V10-46B H-6 VT-3 j I-96

(

d

lll 1 3 .

2 v _

r4 2 t

e n' 1 I

1 3 v

r3 2 t

e 5 5

I n 1 -

I e

l a

3 c v a F

r2 2 e n t o n 1 I

t e

o l 3 N a

v e r1 e

2 S

e t

I n 1 ds ed ro 3 3 3 3 3 ih - - - - -

ut T T T T T qe V V V V V eM R

g n '

i .

2 wo 6 5 4 6 5

- aN - - - - -

M r H H H H H

- O B

Y R

O G

E T

A C ll 0

4 2

1 8

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M.

E T

I

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e u

n i A B A 8 t 1 1 8 7 7 n 8 8 8 2 2 o - - - - -

c 0 0 0 0 0

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o ve p p p u u 7 m l o a o

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, !1! ,;:! i > 1, i! ! ' 1l

ITEM PC. 87.70 CATEGORY B-G-2 Interval Int:rval Intsrvel Intstv21 1 2 3 4 No./ Bolt Body Size Drawing Required Componente

._ _ _ _' Size Type Material Rating / No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 newure neta2ning oc ning Lbs.

V2-43A 24/< 2 in. Cast Recirc Loop A SS 281n/ H-2 VT-1 x x x x V2-53A 24/< 2 in. Cast SS 281n/ H-2 VT-1 x x x x V2-54A 10/< 2 in. Cast SS 41n/ H-2 VT-1 x x x x V2-433 24/< 2 in. Cast SS 281n/ H-3 VT-1 x x x x V2-53B 24/< 2 in. Cast SS 281n/ H-3 VT-1 x x x x V2-54B 10/< 2 in. Cast Recirc. Ring Header SS 41n/ H-3 VT-1 x x x x V2-65A 24/< 2 in. Cast SS 22in/ H-1 VT-1 x x x x V2-658 24/< 2 in. Cast SS 22in/ H-1 VT-1 x x x x Feedrater Line A V2-27A 8/< 2 in. Cast H-7 SS 161nM00 VT-1 x

x x x V2-28A 8/< 2 in. Cast H-7 SS 161n/900 VT-1 x x x x V2-29A 6/< 2 in. Cast H-7 SS 161n/900 VT-1 x x x x Feedrater Line B V2-288 8/< 2 in. Cast SS 161n/900 H-8 VT-1 x x x x

{ V2-29B 6/< 2 in. Cast H-8 CS 161nM00 VT-1 x x x x V2-96A 8/< 2 in. Cast H-8 CS 161nM00 VT-1

x x x 1

2 l

1 new ool1.irg installeo Fall tyci. easeline exams performeo ct tsiae tne scope of tnis seneEli,

} 1-98 4

ITEM.NO. 87.70 CATEGORY B-G-2 Intsrval Interval Intcrv:1 Int rv01 1 2 3 4 No./ Bolt Body Size Drawing Required Component. Size Type Material Rating / No.

Methods 1 2 3 1 2 3 1 2 3 1 2 3 rressure Metaining uc ating Lbs.

RCIC V13-15 2/< 2 in. Cast CS 31n/900 M-19 VT-1 x x x x V13-16 ?/k 2 in. Cast CS 31n/900 H-19 VT-1 x x x

! Rx Cleanup Demineralizer 4

V12-15 4/< 2 in. Cast SS Ain/1500 H-13 VT-1 x x x x

, V12-18 4/< 2 in. Cast SS 41n/1500 H-13 VT-1 x x x x V12-46 4/< 2 in. Cast SS 41n/1500 H-13 VT-1 x x x x HPCI V23-15 2/< 2 in. Cast CS 10in/900 H-20 VT-1 x x* x V23-16 2/< 2 in. Cast CS 10in/900 H-20 VT-1 x x x Core Spray A V14-12B 2/< 2 in. Cast CS 81n/900 H-11 VT-1 x x x V14-138 16/< 2 in. Cast SS 81n/600 H-11 VT-1 x x x x

V14-14B 4/< 2 in. Cast SS 81n/900 H-11 VT-1 x x x x 4

Core Spray B V14-12A 2/< 2 in. Cast CS 81n/900 H-12 VT-1 x x x x V14-13A 16/< 2 in. Cast SS 81n/600 H-12 VT-1 x x x x j V14-14A 4/< 2 in. Cast SS 81n/900 H-13 VT-1 x x x x RHR A V10-17 4/< 2-in. Cast CS 20in/900 H-4 VT-1 x x x V10-18 24/< 2 in. Cast SS 20in/ H-4 VT-1 x x x x V10-88 24/< 2 in. Cast SS 20in/ H-4 VT-1 x x x x

RHR B ~

V10-25B 2/< 2 in. Cast CS 241n/ H-5 VT-1 x x x V10-468 24/< 2 in. Cast SS 241n/700 H-5 VT-1 x x x x V10-818 24/k 2 in. Cast SS 241n/ H-5 VT-1 x x x x I-99 i

ITEM NO. 87.70 ' CATEGORY B-G-2 Interval Interval Interval Int:rv21 1 2 3 4 No./ Bolt Body . Size Drawing Required Components Size Type Material Rating /

No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 rressure Metaining esc iting Lbs.

RHR-B V10-27B 16/< 2 in. Cast CS 241n/ H-5 VT-1 x x x x RHR-C V10-27A 16/< 2'in. Cast CS 241n/ H-6 VT-1 x x x x V10-25A 2/< 2 in. Cast CS 241n/ H-6 VT-1 x x x V10-46A 24/< 2 in. Cast H-6 SS 241n/700 VT-1 x x x x V10-81A 24/< 2 in. Cast SS 241n/ H-6 VT-1 x x x x MS - A V2-80A 18/< 2 in. Cast H-14 CS 181n/ VT-1 x x x x V2-86A 18/< 2 in. Cast CS 181n/ H-14 VT-1 MS - B x x x x V2-80B 18/< 2.in. Cast CS 181n/ H-15 VT-1 x x x x V2-868 18/< 2 in. Cast CS 181n/ H-15 VT-1 x MS - C x x x V2-80C 18/< 2 in. Cast CS 181n/ H-16 VT-1 x x x x V2-86C 18/< 2 in. Cast SS 181n/ H-16 VT-1 x x x x MS - D V2-800 18/< 2 in. Cast SS 181n/ H-17 VT-1 x x x x V2-860 IS/< 2 in. Cast SS 181n/ H-17 VT-1 x Safety and Relief Valves x x x 6 in MS - A SV2-70A 12/< 2 in. Cast H-14 CS /1500 VT-1 x x x x i' 6 x loin RV2-71A 12/< 2 in. Cast CS /1500 H-14 VT-1 MS - B x x x x

' 6 x 10in RV2 71B 12/< 2 in. Cast CS /1500 H-15 VT-1 x x x

.: MS - C 6 x loin

] RV2-71C 12/< 2 in. Cast /1500 H-16 CS VT-1 x x x x

MS - D 6 x 10in

{ RV2-71D 12/< 2 in. Cast CS /1500 H-17 VT-1 x x x 6 x 10in SV2-708 12/< 2 in. Cast H-17 CS /1500 VT-1 x x x j I-100

s LEGEND The symbols below are used on the following piping drawings:

< b. Spring hanger or support h Integrally welded Spring hanger or support A Rigid hanger, support or restraint A . Integrally welded Rigid hanger, support or restraint

+ANv- Sway Brace eANc Integrally welded Sway Brace 4E!I 3 Shock Suppressor og!!c 3 Integrally welded Shock Suppressor 1 Integrally welded Shear Blocks f

r

+

t I.

l' .

i

' I-101..

LESE se0 1

6 $PR1880 HANGAR OR SUPPORT I & INTEGRALLY WELDEO SPRefe4 MANGAR OR SUPPORT 5

a RIGIO MaI8488.,$4ss90ft7 Oft RESina RT

INTEGRALLY wtLDED R4fD MAN 644 SUPP0ft? Oft stESTRARIT

.= SeAY eRACE

" 188tEGRALLY WELDEO Sw&Y ORACE

}

.ao SHOCK SUPPRESSOR i

.au INTEgit ALLY wtLDEO SHOCK SUPPRESSOR ,

4 I 188TEGRALLY WELDE0 SMEAR BLOCKS StA 28A RR-5B o A R R-61 3,

SE N2ESE

~

~,

2 R R-56 4 30-' N2CSE j

h NtBSE g4g i SOA RR-55t -

Narst ** a RR-36

.o 30s 24

... 33, , RR-591 3RR-60 30, ,

s see e

nA m

! 3oa

- 434 RR-57 R R . ,,

N2ASE-

-g _3. A

-Se .3 :

- - te j A 4- -

i ses 42 . RR-54 23e 88

) II i N2 HSE gg.43 23A

'j 42A - N2MSE N2JSC sea g RR-37 SS RR-52h S2 sea ,,' aRR-38 RR-53t' 8' RR-436 RR-466 l .,e S Si ~'S4 20, 4

- 4SA r20A q2-sSe RR-40 47 es j RR-50

RR-49 tsC

["48 ISA RR-40 \ '*

. RR-47 0 ' "

RR.44 - -" RR-42 i v a-sS A w E 334

- ARR-45 3o, i DRWG.H-l i

1-102 RECIRC RING HEADER 8 INLETS 5 REF EDASCO D*G. SS20-FS-133

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R u a Y GA L L N Y C L a Y

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M O O O G SOLT LOCATION O' O' O, .O O. ,O O> O
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l i RELIEF REGLKST 8 ASIS 14 seer e 31 Component Circumferential and longitudinal shell welds in reactor vessel Category. B.A Itense 81.11 and 81.12 Class e 1 Test ReeJiramont yolumetric Basis for Reliefe With the exception of portions of the two lon01tudinal seem welds adjoining the vessel shell to flange weld, vessel shell welds are inaccessible dJe to mirror insulatiorvtlo-shield configuration. Insulation is rut designed to be easily re. movable and only 8-1/2 inches of clearance exists between the outside of the insulation and the inside of the shield wall. Nozzle inspection ports do not provide sufficient access to reach shell welds. Alternate Testing Accessible length of 81.12 lonoitudinal welds will be exa-mined 1005 durIng each inspection interval. In addition, the reactor vessel is subjected to a system leakage test before startup after each refueling outa0e, ano to a hydrostatic pressure test at least once each inspection interval. , t
-
I-127
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I IELIEF IEQEST SASIS M r. 32 Componente Repair welds in reactor vessel beltline region Categorye 8-A Item e 81.51 Class e 1 Test Reg 21remente Volumetric Basis for Reliefe Beltline region repair welds are inaccessible for the reasons stated in Relief RegJest Basis No.' 8-1. Alternate Testing Orw weld repair area (if any such areas exist) in the region between the top of the bio-shield well and the vessel flange. will be examined charing each inspection interval. In addi-tione the reactor vessel is sub,jected to a system leakage test before startup after each refueling outages and to a hydrostatic pressure test at least once each inspection interval. l l i i i I -- I.128 i i l 1 I t
4 IELIEr REQLEST SASIS Weer. B.3 Componente Integral attachments for vessels Categorye B-H Item e 88.10 Class. 1 Test Requiramante volumetric or Surface, as applicable Basis for Reliefs 1. The reactor vessel support skirt to vessel weld is only partially accessible from outside the skirt enclosure at tuo locations, approximately four feet long and 180. apart. The balance of the weld is covered by non-removable mirror insu-lation.
2. The reactor vessel stabilizer brackets are attached to the vessel with vee-prep fillet-type welds. A volumetric inspection of these melds would not be meaningful. The bot-tom side of the stabilizer meld is inaccessible che to its location behind the top of the bio-shield wall.
Alternate Testing 1. The accessible portions of the vessel support skirt veld will be inspected by volumetric and surface methods from out-side the skirt enclosure & ring the second inspection inter-val, and the total weld length required for the second interval will be examined by surface methods from inside the enclosure.
2. The upper portion of each stabilizer bracket attachment veld will be examined by surface methods & ring the second inspection interval.
pp I-129
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IELIEF REQlEST BASIS Mmeer. B.4 Components Primary containment penetration process pipe to flued head welds Category, B.J Class. 1 Test ReSJiremente volumetric Basis for Reliefe Each of the following lines enters the primary containment via a penetration asseely sieller in design to those shown in Figure 1. In each case, the Class 1 process pipe has one circumferential pressure retaining veld which is inaccessible for ultrasonic examination. In addition, the complex design of the penetration makes double-wall radiography extremely difficult and unreliable. Meaningful volumetric examination of these welds is not possible.
1. Main Steam A, B, C and D - 18 in.

2. Feedwater A and B - 16 in.

3. fMR A Supply - 20 in.

4. lHR S and C Return - 24 in.

5. E I Steam Supply - 10 in.

6. RCIC Steam Supply - 3 in.

7. Core Spray A ed B - 8 in.
Alternate Testings The first accessible process pipe weld outside of each listed penetration will be volumetrically examined once each inspec-tion interval. In addition, charing the primary coolant bound-ary hydrostatic pressure test at or near the end of each interval, visual inspection from within the primary contain-ment will be performed to detect leakage from internal welds. During operation, routine surveillance of process monitoring instrumentation will detect significant leakage.
- ' I-130
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ELIEF REQtEST BASIS Number e 8-5 Componente Main steen line circumferential weld ,)oints A4 and D4 Category. 3-J Class. 1 Test Regjiremente Volumetric Basis for Roller Welds s A4 e d De are pipe to valve welds which are inspectable from the pipe side only, as discussed in Relief Re@est Basis B-4. However, most of the weld crown and several inches of base metal on the pipe side are covered by a support ring (see attachment). These rigid supports cannot be removed because the only other restraints on each line are the penetration at one end, several spring hangers and a stubber along the run, and the vessel nozzle at the other end. Removal would introdJce unnecessary stress into the piping and remaining support components. Consewently, volumetric examination of these welds is not practical. Alternate Testings These selds will be visually examined for leakage during the primary coolant system hydrostatic pressure test. In addi-tion, they will be volumetrically examined, to the extend practical, if the support conoonents are removed for any reason. D& I-132 i
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I I- 133 l l l
. l l . 1 IELIEF fE@fST 8 ASIS hauber, y Componente Welded and non-welded component supports and restraints on 11 tid-filled piping and components smaller than 2* sche &le 80 and on steam-filled piping and components smaller than 4* sche &le 60.
Category. F.A, r-8 and F-C Test Rowirement, VT-3, VT-4 visual Basis for Re11er s In the interest of keeping personnel radiation exposure ALARA, and to maintain consistency with the allowance of $d - sub Article 12-1220, paragraph 121220(a), VT-3 and VT-4 visual examination of non-selded support congonents and restraints under Section IF should te limited to those sup-ports and restraints on piping at components which are 2* sche &le 80 (liwid service) and larger, and 4* sche &le 80 (steen service) and larger. Alternete Testing, 51gnificant degradation of these support components would be readily observable Wring visual examinations performed while pressure testing those systems in accordance with 1 6 5220. I DD I-134
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SFETY CLASS 2 CO*0NENTS In cogliance with Section XI, Sub-section IK, safety class 2 components are to be examined as addressed in IC-2500, except Category C-F and C-C piping welds which should be examined to the extent detailed in paragraphs IWC-1220, IC-2411, and Table IC-2520 of the 1974 Edition, Sumer 1975 Addenda. System Pressure Tests are conducted as per IC-5000. These tests are addressed in the
Hydro" Section of this program.
- Relief Re@est 8 eses to IC are found in the back portion of this section.
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INSPECTION SMdWW
, MInteJe W@er ReGJired Item Category No. In '
le. Category 2nd Intervel 3rd Interval 4th Interval Comeents Vessels N 3 3 3 3 Exams distributed C1.20 C4 1 1 1 , I emor.g tuo identical Cl.30 - 0 0 0 0 vessels C2.10 0 0 0 0 Surfece eneminations C2.20 C-3 2 2 2 2 shall be performed. See Relief Reg est No.
' C-1. Exons distributed among tuo identical vessels.
C3.10 C-C 4 4 4 4 Exams distributed esong two identical vessels C4.10 C-0 0 0 0 0 i'Iptna Number enemined in each Interval represents t
*C2.1 C-F 211 28 28 28 1/4 of all melds sub-
[111 steject ject to eneminetton In s to enemine- single stroom and in ene tion per stream of sult3ple ItC 2411(b)) streene,(everaged per ItC-2411 c)(1). Emens
' distributed among mul-tiole streams. If any. *C2.1 C-G 543 52 52 52 Number enemined in each .
[415stbject interval represents 2 to enemine- 1/4 of half the welds tion per subject to enemination ItC 2411(h)] in single stream and in one stream of m;1tiple streams, everaged per IsC-2411(c)(1). Exams distributed among mul-tiple streams, if any. II-l
Item Nos. are per ASDE Section XI,1974, Summer 1975 Addenda e
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e APPLICATION OF CODE DDPTIONS Safety Class 2 components exempted from examination according to Section XI, Sub-a@ Article IC -1220 are as follows: System or consonant Enemotion criterle
1. CIC System Suction Piping IC-1220(a)

2. RCIC System Discharge Pip 1ng IWC-1220(c)

3. RCIC System Steam Supply Piping and Condensate Handling E @lpment and Piping IWC-1220(c)

4. RCIC System Lube 011 Cooler and Piping IWC-1220(c)

5. S.C System Tank and Suction Piping IWC-1220(a)

6. SLC System 01scharge Piping IC-1220(c)

7. Serv 1ce and Instrument Air Systems IC-1220(b) + (c)

8. Sangling System IC-1220(c)

9. CADAltrogen Inerting System IC-1220(c)

10. Core Spray System Suction Piping IC-1220(a)
!!.IPCI System Suctio- Piping IC-1220(a)
12. E I System Lube 011 Cooler and Piping IWC-1220(c)

13. IfCI System Condensate Handling Equipment and Piping IWC-1220(c)

14. PPCI Test Loop to Torus IWC-1220(c)

15. Reactor Water Cloenup System IWC-1220(c)

16. CR0 Piping (except Scram 01scharge Instrument volumes and Headers) IWC-1220(c)

17. Reduaste System IWC-1220(c)

18. Atmospheric Control System IC-1220(b)

19. Standby Gas Treatment System IC-1220(b)

20. Condensate Storage Tank and Drain Piping IC-1220(a)+(b)
II-3 l
- -- . _ . - _ _ _ , _ _ . . . _ . ._. -. -. . , _ . . . . . _ _ , , . . _ . _ _ . . . _ _ _ _ _ . _ _ _ . . _ _ _ _ . . _ . . . . ~ , , _
f APPLICATION Or CDDE EseTIONS (continued) System or comonent Enemotion criterie
21. M Lines as follows:
M -4A IC-1220(c) RHR-11 IuC-1220(c) RHR-13A through D IuC-1220(c) M -16 lut-1220(c) M -21 IWC-1220(c) RHR-22 RHR-24A + 8 Int-1220(c) IWC-1220(c) l M -25 IC-1220(c) H -34A IuC-1220(c) M -35A IC-1220(c) RHR-36A IWC-1220(c) RHR-36A + 8 IWC-1220(c) fMR-44A through D IC-1220(c) RHR-454 tarough 0 IWC-1220(c)
22. Non-selded support components in multigte .
piping runs, provided the supports exempted are siellar in design, function and service to those in the run subject to examinetton. Iur-2510(b) t e 9
. !!-4
4 g - = =
. t<
W
% =
T 7 = g n = = gm - n = T
~ =% = N f -
gn n = T 7 = M = g- n Eh - E o o o g > > > > 1 9 9 9 9 o !o 5 - - - - N
@ O s s s s 6
n . . .
E 5 5 5. 5 w w w w f
- R R R R 4 = = = o=
M = M R i i i w f'd o
~ g G . o3 o3 o3 $$. .
l cc ,,
. 5 R= R= Rr R l 9
8 Af .I ' ! J e l E- x220 m

5 -I C 44 44 44 4 i
l
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i I
$ 3 B' S 3 ;
q'
=l=tzt ~ , t ac ae ac a=!
i ; i
.- r- , -, e a-- . ** W b W - ,- , _f -- , ,
C
,c II ,. 551. 5 4 =
t l l
l 3 e v r4 2 x t e ll
. I n 1 x ll ll l 3 a
v ll r3 2 x t e I n 1 x ll l 3 a v x r2 2 t e l1 I n 1 x ll l 3 a v r1 2 t e I n 1 ds d d ed n n ro 1h a1 a1 t .T .T e rV rV u u
%M ll S S g
n . 1 1 8- i o 2 2 wN - - ) C a r I I 1 D s C t
- i o, Y n bi. N R o O chm e t G oa c rx a s
E e pe f m T A t s nc u r e e C e oi s ll R dir . r tt md e ae ra e l rm z plu ft oe l l z rs e N o! o en rv PI n 1 e 2 e S 2 8- 8- ( C 6 6
. O 0 0 1 l 1 2 7 A A
e 2 2 v C C o b
. M- E- a 0 5 5 s 1
1 1 a M 5 5 E - - e T A A m I a ll S
=
v
_ a
. w . . =
I n I n a n a. 6 6 m . 1 1 e e ll e mil v- t S r w t u
' , n s 4 e C.
e l x n w E pE o a p s i tt 3 4 6 m su t t a 0 8 4 M la N- N - a He - - ue - I I C ,
. I H A A MH 8 8
! ' ',l:iiji!i' 1l, ili!j ii i4 1 I:1 i ; ii tI!* 4- 4
l
< e. =
m . . M M i .
='
a = = N N x C M m m u E.-T T -
=. '
1* q j; a a a a P o 15 4 9 9 9 -9 y - - - I5 _.
i. . . "
s l 9 8 6 -! I i 2 e i 1 1 .1 1
- f a
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1 77 T 77 1
! i 4444 1* 14444 g
! 3. 1 I *E 3w !!!I l 9 9 dd >
l 3 Il 11 s r l l
_ . _-- _ - - - - _ ~ . i l 4 I ITEM 80. C2.1 CATECORY C-F Interval Interval Interval Interval (IWC-2dDD) 1 2 3 A SchedJ1e/ Cel. Drawing Respaired Cnemonant: 51ae Thicknest Material Stenderd No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 Piping Cire. Insids
! tiple Streams ( - 1A 4. IC @ . 348. GC 4. 3A+8. 3C @. 5A . 6+7. 9+1A. 10+15, 1 28 1.3 2' IHt 1A (not part of Iticle stresa) 1 F1 2D in. .375 A-106-8 W-61 I-7A Vol. x i
FIA 20 in. .375 A-10 M W-61 I-74 vol. m
$2 20 in. .375 A-106-8 W-61 I-7A Vol. x i ! F2 2D in. .375 A-106-8 W-61 I-7A Vol. m
! IHt-1A (part of maltiple stroom) ,_ j S3 2D in. .375 A-106-8 W-61 I-7A Vol. x
$5 'E in. .375 A-106-8 W-61 I-74 Vol.
56 2D in. .375 A-106-8 W-61 I-74 Vol. x I j 57 20 in. .375 A-1064 W-61 I-7A Vol. 1 1 58 *E in. .375 A-106-8 W-61 I-7A Vol. x l } F3 20 in. .375 A-106-8 W-61 1 74 Vol. l S1 20 in. .375 A-106-8 W-61 I-7A Vol. x f FA 20 in. .375 A-106-8 W-61 I-7A Vol. Sp 2D in. .375 A-106-8 W-61 1-74 Vol. m i. ! S10 20 in. .375 A-106-8 W-61 I-7A Vol. I ] S11 20 in. .375 A-106-8 W-61 ' I-74 Vol. x F5 20 in. .375 A-106-8 W-61 1-7A Vol. II-8
~
i l l
t
=-
m M
= -:
M
- M - - M v- -
t M M. _ N N N v E.- X _- i s1 - - - -
= -
a a a a a a a a a a a a; 5 5 a a 5 5 p 5 a 5 a a a 5 5 a
}j R R R R R R R R R R R R R R R R R R 9 4 2 a 2 4 4 a a 2 2 4 4 4 'A 4 4 4 d '
v g N s _a . 1 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 g
= =
3.r
= = =
r -
= = =
r r
= = = =
r =
=
r -
= = = = ... Pp , o e e n . n n n n , , , n n . -: w ~
e D - E j e e e e e e e e e e e e e e e e j e re R R R R R R R R R R R R
"_ R R R R R R N - =m . - . t = -aeaaaaaa m teegcmaaae-1 = - 1 - g ,
s a n . E
. -, --m.--e,-, -.-.,-,---..a--- ,------.-----..-,---,,--,---n,.,-,,_ --m,---e, ,s.- .~-,~.-,,--.,.,---e----,n.--,-
A n A j
'ITDI 10. C2.1 CATECORY C-F Interval Interval Interval Interval
( IWC-260D) 2 3
1 A Schethles Cal. Creeing RegJired -
Camponent Stae Thickness Meterial Standard No. Methods 2 3 2 1 1 3 1 2 3 1 2 3 sem-ns scxmarassej 55 20 in. .375 A-106-8 I-78 S tr. x j 56 20 in. .375 A-106-8 I-78 tur.
~
4 F3 20 in. .375 A-106-8 -79 Sur. x . 57 - 20 in. .375 A-106-8 I-79 Sur. j FA 20 in. .375 A-106-8 I-78 Sur. x , 58 20 in. .375 A-106-8 I-79 Sur. l 59 20 in. .375 A-106-8 I-79 Sur. x 510 20 in. .375 A-106-8 I-78 Sur. } S11 20 in. .375 A-106-8 I-78 Sur. m 1 . j S12 20 in. .375 A-106-8 I-79 Sur. ! F4A 20 in. .375 A-106-8 I-78 Sur. x i 513 20 in. .375 A-106-8 I-78 Sur. x i { F5 20 in. .375 A-106-8 I-79 Sur. i j F6 20 in. .375 A-106-8 I-78 Sur. x F7 20 in. .375 A-106-8 I-78 Sur. t IHt-1C F1 20 in. .375 A-106-8 I-7A Sur. I F2 20 in. .375 A-106-8 I-7A Sur, u ( 4 I II-10 I I 1 i
l l I n f,=T
~ . .
g m x gm T X 7 - , N m g N N x =- - g n u E. - T Y E)' u . . . . . . . . . . . . . . . . . . . F 5 u li T T T T i i i i i i i i i i
-i i
i i i a I 5 d8 h h h h h h h h
) , , = = = 2 =
h.
= = = =
4
= = = = = 4 = = - 7 $. , , $. $. $. R. R. R. $. $. $. $. R. R. R. $. $. $. $. $. $.
c.g fO g . . . . . . . . . . . . . . . . . . c
.g e e e e e e e e e e e e e e e e e e 8 R R M M M M M M M M M M M M M M M M M fCUCbE ClG$$b3EObbbbZ$
x b k. II E s l I I (
. - . . . , . _ . . ,,.-._,m.~,,. , _ _ , , . , , , , , _ . . . . , .-,.~.-.,,,..y _ _ , _ . _ , . ~ _ _ , , . ,-,_-m , . , _ - _ _ . . . , . , . . - , _ _ ~ , , , - _
l I 1
=-
M N
= 7 N 7 N =:
m M N M t 7 N
.* m N N ~""~
T
~ -
n e g-_~. - v
=
b . . . . . . . . . . . . . . . . . . . . gy 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 : s s F S li i i i i i i i i i i i i 9 i i i i i i i o g - - - - - - - - - - - - - - - - - - - - l! i l g d)e 6 1 3 I 3 3 3 3 3 3 3 3 I7 I7 3 3 3 I7 I7 I7 I7 I7 I7 I7
) 4 4 4 = 4 = = = = = = = = = = = = = = =
g I. ! . . .
, e n n n n n n n n n n n n -: w s DC -
8 N N N R R R R R R R !!
A A A 2 M M M M
[ n R. ss R. - 3 ; l l i 1 k
d - a P l e J4
q. %
% 4 .- AP vr+g * 'se' -Q i
5 y O mi m Y 4
* = N N T
7 ,
-r M grg y b h N mew, N JY >~
ee s ,,
. 's x ,e , <
9 6p 6* N
,N N , , ,,e-.. - l N s 1 ~ ~ -am -:: __ .=
m. es. ,. @ % U ens. mms. l 1 . . . . . gi. b b Se b Se b le o a a a a
p. a a
==e a a ..3 F
9 9 9 9 9 9 9 i i 9 9 9 9 9
. S li i t i - - - i - .i . - - - - - - -
u y - . - - . 9, 4 PM
's . S In, U 's =- =- =, , , , - v, - = = = = w= 3 =- =- =- =- =- = = = ~ - ) d D
cn $. c, p G. $. c nc cn cn cn cn cn cn n cn cn c lw ei E c n . n c n g- _. s er
! M M M M M M R-M M 'M M M R R R R R R 2 gs e I s med e
I 4
' Det ,3 O
J
.e' b
L_ # ' _ __ .1 m.
ITEM W. C2.1 CATEDnRY C-#" Intervel Interval Intervel Interval
* (IE-260D) 1 2 3 4 Smedales Col. Drawing Regaired Caganents Slae Thickness noterial Standard No. Methods 2 1 3 1 2 3 1 2 3 1 2 3 sem-a.
F1 20 in. .375 A-106-8 I-8 Sur. x S1 20 in. ,, .375 A-1064 I-8 Sur.
S2 20 in. .375 A-1064 I-8 Sur. x S3 20 in. .375 A-1064 I-8 Sur.
F2 18 in. .375 A-106-8 I-8 Sur. x Sletter t.ine IHt-2D F1 20 in. .375 A-106-8 I-9 Sur. S1 20 in. .375 A-106-8 I-9 Sur. x _. S2 20 in. .375 A-1C4-8 I-9 Sur. 53 20 in. .375 A-106-8 I-9 Sur. x F2 18 in. .375 A-106-8 I-9 Sur. lHt-D F1 16 in. .375 A-106-8 I-104 Sur. x SI 16 in. .375 A-106-8 I-lon Sur. F2 16 in. .375 A-106-8 I-10A Sur. x F4 16 in. .375 A-106-8 I-104 Sur. S2 16 in. .375 A-106-8 I-11N Sur. m > FS 16 in. .375 A-106-8 T-10A Sur. F6 16 in. .375 A-106-8 I-104 Sur. x S3 16 in. .375 A-106-8 I-104 Sur. EA 16 in. .375 A-106-8 I-104 Sur. x II-1A
ll ll l } m a v l1 r4 2 t e ll I n 1 *
. ll ll l 3 x e
v l1 r3 2 t e ll I n 1 x x ll ll l 3 m e v ll r2 2 t e ll I n 1 x [l [l lI l 3 a v r1 2 e ll t I n 1 ll ds ed ro . r r r r r r r r r lh r r r r r r r r r r t u u u u u u u u u u u u u u u u S u S u S u e S S S S S S S S S S S S S S S S R
@M e
ll g A A A 4 8 8 B 8 0 B 8 0 l B 8 B B A 4 i n. 0 0 0 0 0 0 0 0 0 0 0 0 m ( 0 0 0 0 0 F- wo 1 1 1 1 1 1 1 1 1 1 1 1 t 1 1 1 1 1 1 aN r I C I I I I I I I I I I I I I I I I I I D d Y R .r e O ld G on E Cet T L S D ll l 8- 8 8- 8 8 8 8- 8- 8 8 8- 8- 8 8 8- 8 8- 8 8 i e 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 r 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 t e 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 a A A A A A A A A A A A A A A A A A A A M 4i s
) es 01 e 5 5 5 5 0 ;n 5 5 5 5 5 5 7
5 5 5 7 5 7 5 7 5 7 5 7 5 7 5 7 7 7 7 7 6 dk 7 7 7 7 7 7 7 3 3 3 3 3 2 ec 3 3 3 3 3 3 3 3 3 3 3 3 3 3
- hi 1 C ch W ST 2 I C ( l1 )
M n n
'in. n n
n n n n n n n n n n n n n n I
. ze i i I i i i i i i i i i i i i I i i D
T i S 6 6 6 0 6 6 6 6 6 6 6 6 6 6 6 6 0 1 6 1 6 I 1 1 1 2 1 1 1 1 1 1 1 1 1 1 1 1 2 lI J 0 e A A B dC u n F 6 e7 F F 5 F S F 5 1 I 2 4 2 5 6 F S F F 3 4 S S F F F 6 6 6 S 1 F 2 F i t e n o n t C i. 1 n L r
' e C . no R a8 3 5 J l3 - 1 p - i- t -
m I T mt a CF W iH SI IH I I 1' , I Ij)!j ; i4!
.m .. --. __-. . . .- - - . . _. . ._ . . .g 5
l' ( ID MI. C2.1 CATEGORY C-F Interval Intervel Interval I i (14C 'alOD) 1 2 3 4 i *
Schedule / Cal. Drawing %1 red Camponents Size Thickness Material Standard No. Methods 1 2 3 1l2 3 1 2 3 1 2 3 s tcenunueos j --K j F4 16 in. .?75 A-!O64 I-1(M Sur. I f F4A 16 in. .375' A-1064 I-104 -Sur.
~
4 ] F5 16 in, .375 - A-1064 'I-10R Sur. j F6 - 16 in. .375 A-1064 I-10A Sur. x FS 16 in. .375 A-lO64 I-104 Sur. l FdC 16 in. .375 A-106-8 I-10A Sur. FED 16 In. .375 A-1064 1-104 Sur. u i j S1 16 in. .375 A-106-8 I-10m Sur. j S2 16 in. .375 A-!O6-8 I-1(M Sur. x t 4 F7 16 in. .375 A-106-8 I-10A Sur. 6 S3 16 in. .375 A-106-8 I-104 Sur. m 54 16 in. .375 A-106-8 I-104 Sur. S5 16 in. .375 A-1064 I-10m ' Sur. t l F8 16 in. .375 A-106-8 I-104 Sur. N S6 16 in. .375 A-106-8 I-104 Sur. F9 16 in. .375 A-106-8 I-104 Sur. m I S7 20 in. .375 A-106-8 I-10A Sur. 'l S8 20 in. .375 A-1064 I-10A Sur. *
F9A 16 in. .375 A-106-8 I-104 Sur. m d
II-16 1 3 1 - 4
ll ll l 3 x a v l1 rA 2 x t e ll n 1 x I ll l 3 a v r3 ll 2 x t e ll I n 1 x ll _ ll _ l 3 x _ e ll v m r2 2 - t e _ u n 1 I l 3 a v r1 7 t e ll I n 1 j ll ds ed ro . . . . . . . . . . . . r r r r
._ r ; r ih r r r r r r r r r r r r u u u u a
u u u u u u u u u u u u u u u gte S S S S S S S S S S S S S S S S S S S eM R g n i . 4 0 4 0 4 0 m B 0 8 0 B 0 B 0 0 0 e t B 0 u s t B 0 B 0 m 8 0 1 B 0 1 B 0 1 8 0 1 F- wo 1 1 1 t 1 1 1 1 1 I 1 l 1 1 t aN I I I I I I I I I I I C r L I I I I I I D d Y R .r e O ld G on E Ce T t A S C l 8- 8- 8- 8- 8- 8- 8- 8- 8- 8 8- 8 8- 8- 8- 8- 8- 8-a - B. - i 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 r 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 1 1 1 e 1 1 1 1 1 1 1 1 1 1 1 1 1 1 t A A A A A A A e A A A A A A A A A A A A M Ad
) es 0 l e 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 0 un 5 7
5 7 5 7 7 5 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 6 dk 3 3 3 3 3 3 3 3 3 3 3 3 3 3 2 ec 3 3 3 3 3
- hi 1 C ch u ST 2 l C( ) . . . . .
M e n n n n n n n n n n n n n n n n n i n i n i i i i i i i i i i I z i i i i i i i D T i S 6 6 6 6 6 6 6 6 6 6 1 6 1 6 6 1 6 1 1 6 6 1 6 1 6 1 6 1 1 1 1 1 1 1 1 1 1 1 I ll J a 8 C A es 8 0 1 1 1 1 2 A 1 5 6 6 6 7 2 3 7 A 5 6 8 t 9 S F F F F S S F S 5 S F f F F F F F F F u e n n e o i c L ( r
,,W x-m e
r e) lR l - e tm Se f 7 1 I I
, !ji i:1I .ij;' : l :! l' i1 ii i , I ! !i! i ; il - :f
ll. . ll. l 3 a l1. v x rA 2 t e n 1 x
. I ll.
ll. l 3 x a v x r3 2 t e ll. n 1 x I ll. ll-l 3 x a ll-v r2 2 t e ll. I n 1 l 3 x a v r1 2 t e I n 1 ds ed ro . . . . r r r r r r r r r r r r r lh r r r r
u u u u u u u u u u u u u u u u u
* @t eM e S S S S S S S ' S S S S S S S S S S R
g n B 8 B B B 8 B i . wo 0 0 0 0 m 0 1 0 1 0 1 1 1 1 1 l I 1 1 l I 1 1 l I l I 1 1 1 1 F- 1 1 1 1 t aN - - - - - I C r I I I I I I I I I I I I I I I I I D [l d Y r R .a O ld C en E Cat T A S C l 8- 8- 8- 8- 8 8- 8- b- 8- 8- 8- 8- 8- 8- 8- 8- 8- 8-a 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 i 6 6 6 r 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 t e 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 e A A A A A A A A A A A A A A A A A A M dl.i
) es 0 l e 0 un 5 5 7
5 7 5 7 5 7 5 7 5 7 5 7 6 dk 7 2 ec 3 3 3 3 3 3 3 3 0 0 0 0 0 0 0 0 0 0
- hi 3 3 3 3 3 3 3 3 3 3 1 C ch u ST . 2 l C (
D . . . . . . . . . . . . . . . . . . F e n n n n n n n n n n n i n i n n n n n i n M r I i i I i i i i i i I i i i i E i 6 6 6 6 6 6 6 6 6 6 6 6 0
. T S 6 6 0 0 6 1 1 1 1 1 1 1 1 2 I 1 1 2 2 1 1 1 1 1 A 8 0 l 3 A 5 2 3 6 7 7 9 S P 9 9 1 i 1 1 2 S F S S F F F F F 5 S 5 S 5 F F S 5 t ', e n
n , A 8 a 5 1 p _ - - t m r, a H I 1 1
, ;j ,i]I
I i ITEM M). C2.1 CATEEDRY C-F Interval Interval Interval Interval (luc-2600) I 2 3 4
'. I Schedulef Col. Drawing RecpJired Components l Stre Thickness Meterial Stenderd No.
Methods 1 2 3 1 2 3 1 2 3 1 2 3 1 21=uur une ! HHR-58 F1 16 In. 30 A-106-8 I-11 Sur.
S1 16 in. 30 A-106-8 I-11 Sur.
F2 16 In. 30 A-106-8 I-!! Sur. m F3 . 16 In. 30 A-106-8 I-Il Sur. f S2 16 in. 30 A-lO6-8 I-11 Sur. I S3 16 in. 30 A-106-8 I-Il Sur. S4 16 in. 30 A-106-8 I-il Sur. x S5 16 in. 30 A-106-8 I-11 Sur. 4 i i 4 i i t 11-19 'T i 1 1
i
l 3 4 ;,
!3 , 1; 1
W - e ee - l E x o - e u9 e E . w t I t - C x e uC e E e w t i x y t C a uE E x s t-g u I a a v t g ,- e uI a z w w I y
- ps op . + + + + + + * + + + + + + + + + +
so * * ** ** ** * * * * * * ** ** * * **
=
ty I o uT
2I nO no no no 2I JT 2I o
uI no aI 2I JI Jt no gA 2I no gA uI no gA JT 2l nO no no no J'I 2t 2I eaa =A r o nD nD no _ w n t en gA gA gA gA MA gA sA gA gA gA gA gA gA gA i B u t - 3- ao Z E Z Z g Z Z g E Z Z E Z *Z Z Z E E 3 sn 2 I I I I I I I I I I I I I I I I I 0 I' e r p A E A i g *e e 2 u E- E- E- E- g E E g E E E E E E E E E E 4 Tp - - - - - - - - - - - - - - re-
+
g eu 2 A A A A A A A A A A A A A A A A A A a ao 1 A A A A A A A A A A A A A A A A A A g y 3 ss
u T e 9 9- 9- 9 9 9- 9- 9- 9- 9- 9 9- i 9- 9- 9 9 G eea 9 9 9 9
9 9 1 M - - - 1 9 9 9 9 1 9 I 9 9 9 9 9 2 t 0 0 0 0 0 0 0 0 0 0 0 0 D 0 0 0 0 0 g as 1 T 1 1 1 ' 1 1 1 1 1 1 1 I 1 1 1 1 1 e e a V V y V y y v v v W V v v V v W W V m w n r c ftt ( as a & Oia r r D p r u 9 e@ i e o i E
- yT O
g m a O g a a O s O g g O g O g g o o g m og O g O g o g e I g
3 g1a4 so 1
a
3) 2 c
a s
g -- B e ut _- I * * * * * * * - * * * * * * * * *
r
.u u u u u u u u u u u u u u u u u u
- I i i t i i t i i t i i i i i i i i i
- LG i s o o .o
_ I - f f f o f o f o f o f 0 1 o f 0 1 o f o f o f o f o f o g o f 0 1 m e * + n e o g
- t W 9 3 10 y i s
a m 1 g 3 g g J s 3 g T S T 1 g 9 t g g v3 y 3 s 3 g t 5 g 3 3 3 5 s 3
d s i s a d l m
*, y n t i ng m B mn1e, u m9 O E
m d3e_ - m u tsI e t s, I I =
. i ,
y _ a - a - - _,- 9O G M
~ _ & N i
g - gn n y, = tu a u 2c = , ee t* -. e a M
y. + + . + + + . + + + + . . . . . . . .
2E :: :: :: :: gy se se sesa s::e s::es::e s::a s::e s::e s::e s::s s::e a::s s::e s::es::a s::es::s F 4 u li 2 a a a a a a a a a a a a J a a a a 4 g
*U $. $. $. $. $. $. $. $. $. $. $. $. $. $. $. $. $. $. $.
g . 6 m m m m 9 9 9 9 m 9 9 9 9 9 9 9 9 9 8 a $ $ -$ 8 8 ,8 - 8 -8
$ 8 8
a 8 s - a e
= = = = = =
g M F l 5 1 s a a a e a a a a a a a a a a a a a e
w
~
e l U ~ t
't
2 E E E E E E E E E E E E E E E E E E l
i 5.0
$ . 2 E S 2 - . ". 2- B~u N.A u-MR
M -
i B 6
i s
4 i ITEM W . C2.1 CATECORY C-C Irvterval Interval Interval Interval 4
* (lut-2600) 1 2 3 4 Schedules Cal. Drawing Required 4
rnepnnent Size Thickness Mate.lel Standard No. Methods 2 3 2 3 2 1 1 1 3 1 2 3 l reu - Ms-an tcenttruuecJ Sur. + F14 10 in. 80 A-106-8 W-29 I-2 Vol. m Sur. + FIS 10 in. 80 A-106-8 W-29 I-2 Vol. ' Sur. + S28 10 in. 80 A-106-8 W-29 I-2 Vol. x Sur. + S29 10 in. 80 A-106-8 W-29 I-2 Vol. Sur. + F16 10 in. E A-106-8 W-29 I-2 Vol. x WCI-2 Sur. + FIA 10 in. 100 A-106-8 W-53 I-5 vol. Sur. + SI 14 in. to A-106-8 W-58 I-5 Vol. x Sur. + j S2 14 in. 80 A-106-8 W-58 I-5 Vol. sur. + S3 14 in. 80 A-106-8 W-58 I-5 vol. Sur. + 1 54 14 in. 80 A-106-8 W-58 I-5 vol. j Sur. + S5 14 in. 80 A-106-8 W-58 I-5 Vol. x
' Sur. +
56 14 in. 80 A-106-8 W-58 I-5 Vol. ' Sur. + 57 14 In. 80 A-106-8 W-58 I-5 Vol. Sur. + , 58 14 in. 80 A-106-8 W-58 I-5 vol. x ,' Sur. + S9 14 in. 80 A-106-8 W-58 I-5 vol. I Sur. + l S10 14 in. 80 A-106-8 W-58 I-5 Vol. x 4 Sur. + l S11 14 in. 80 A-106-8 W-58 I-5 vol. i Sur. + l S12 14 in.' 80 A-106-8 W-58 I-5 Vol. x i Sur. + S13 14 in. 80 A-106-8 W-58 I-5 vol. I1-22 9 a
l 4 ITDI M). C2.1 CATEGORY C-C Interval Interval Interval Interval
; ( 100 -2450 0 ). 1 2 3 4
SchedJ1e/ Col. Drawing RegJ1 red j Caumonent: Size Thickness Meterial Stenderd No. Methods 1 2 3 1 2 3 1 2 3 1 2 3
., PFCI-2 (continued) Sur. + l F2 14 in. W A-106-8 VY-58 I-5 vol. x i IfCI-3 i 51 18 in. .375 A-106-8 I-3 Sur. i S2 18 in. .375 A-106-8 I-3 Sur. x S3
18 in. .375 A-106-8 I-3 Sur.
l SA 18 in. .375 A-106-8 I-3 Sur. x
F1 18 in. .375 A-106-8 I-3 Sur.
S5 18 in. .375 A-106-8 I-3 Sur. S6 18 in. .375 A-106-8 I-3 Sur. ? l F2 18 in. .375 A-1064 I-3 Sur. x ! S7 18 in. .375 A-106-8 I-3 Sur. 58 18 in. .375 A-106-8 I-3 Sur. x l F2A 18 in. .375 A-106-8 I-3 Sur. J i S9 18 in. .375 A-106-8 I-3 Sur. x F3 18 in. .375 A-106-8 I-3 Sur. { S10 M in. .375 A-106-8 I-3 Sur. x S38 18 in. .375 A-106-8 I-3 Sur. j S11 18 in. .375 A-106-8 I-3 Sur. x I F4 18 in. .375 A-lO6-8 I-3 Sur.,_ FE 20 in. .375 A-106 8 I-3 Sur. x i II-23 +1 i
I S 1 s ITEM 10. C2.1 CATECORY C-G Interval Interval Interval Interval (Iut-2600) 1 2 3 4 SchedJ1e/ Cal. Drawing Re@lred Component: Size Thickness Meterial Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 PFUI-3 tcontinued) _ _ _ FAC 20 in. .375 A-106-8 I-3 Sur. F58 20 in. .375 A-106-8 I-3 Sur. FAA 20 in. .375 A-106-8 I-3 Sur. x F5
20 in. .375 A-106-8 I-3 Sur.
F6 20 In. .375 A-106-8 I-3 Sur. F7 20 in. .375 A-106-8 I-3 Sur. m F7A 20 in. .375 A-106-8 I-3 Sur. S12 20 in. .375 A-106-8 I-3 Sur. , F8 20 in. .375 A-106-8 I-3 Sur. S13 24 in. .375 A-106-8 I-3 Sur. x S14 24 in. .375 A-106-8 I-3 Sur. S15 24 in. .375 A-106-8 I-3 Sur. i F9 24 in. .375 A-106-8 I-3 Sur. x E I-5 Sur. + 4 S1 10 in. 120 A-106-8 VY-23 I-5 Vol. Sur. + j S2 10 in. 120 A-106-8 VY-23 I-5 Vol. 4 Sur. +
! S3 10 in. 120 A-106-8 VY-23 I-5 Vol. x
! %r.+ F1 10 in. 120 A-106-8 VY-23 I-5 Vol. ~li Sur. + t' ] F2 10 in. 120 A-106-8 VY-23 I-5 Vol. Sur. + e
] F3 10 in. 120 A-106-B VY-23 1-5 Vol. I II-24 -
I i, 4
; v .. _.y. --
M M x
- . T 7 =
M M M M N N b
~
n M M M i m b b N f T M M R 0
- N r ~ _- + + + + + + + + + + +
y. + + + + + +
sE :: :: :: : : :: :: :: :: :: :: :: :: :: :: :: :: :: :: gy se ss se a a se se sa se sa se se sa se sa se se n se l a: F g
'to II T 9 9 ? ? i i i i - .?
i i i 1 1 i i i i g - - - - - - - - - - - - - N T g aIE e s e c e c c c r c c c c c c c c 5 z - - - - - - - - - - - - - g = = = < = = = = = = = = = < < < = = a
- TN l 8 2 M M N t R R R R. R. S -
S S
- _R. -R .R -R R. R.
R R R R R
, y .
d - : 3 s ~i ^s i i i i i i i i i i i i i i s i , ! - e e e s s s s s s s s a s s a s s s : b M l s a m 7 7 7 ei?.
14
. ~
i (
g M i =
'g. T, v
M
M M G" n u v- m- _
M M En a 3e _. a 1, _. g- u 5 -
g. . . . . . . . .- . . . . . . . . . . .
2:} J: J: J: 4.: J: J.: J.: J.: J: J.: J.: J: J: J .: J: J: 4: J .: 4: j 38 58 3932323&323332323233 33333232 33 3333
= f.
F 4 o 59 i i i i i i i i i i i 1 1 i i i i i i g - - - - - - - - - - - - - - - - - - - 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 S.:h C C C C C C C C C C C C C C C C C C C 5
- e m 9 m 9 e w 9 9 9 9 9 9 9 9 9 9 9 9 E $ $ 3 $ 3 $ $ 3 8 E E E E E 8 E B B 8 3 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 g . . . . . . . . . - T" g~'3 f s wt R R R
R R R R R R R R R R R R R R R R _ y - - - - - - - - Q w e m , , , , , , =- , , , , , , , = , , , , am Ph m mb m m $ m m m $ $ - m m m m e m e m e m me me 84 M 8 < R. t i
1 1 i l ITDI fe. C2.1 . CATEGORY C-C Interval Interval Interval Interval j ', (IWC-2600) 1 2 3 4
Schedulef Cal. Drawing Regjired

Wt Sire Thickness Meter!al Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 4
MPUI-150 (contInvad) l %r. + j F12 14 in. 120 A-106-8 W-10 I-4 Vol. l Sur. + , F13 14 in. 120 A-106-8 W-10 I-4 Vol. x Sur. + F134 14 In. 120 A-106-8 W-10 I-4 Vol. Sur. + F138
14 in. 120 A-106-8 W-10 I-4 Vol. x Sur. +
F13C 14 in. !?O A-106-8 W-10 I-4 Vol. Sur. + F14 14 in. 120 A-106-8 W-10 I-4 Vol. x ifCI (booster pump to mein pumpJ 51 12 In. 40 A-106-8 I-4 Sur. x j S2 12 1.1. 40 A-106-8 I-4 Sur.
$3 12 in. 40 A-106-8 I-4 Sur.
.l S5 12 in. 40 A-106-8 I-4 Sur. i 56 12 in. 40 A-106-8 t-4 Sur. x j S7 12 in. 40 A-106-8 I-4 Sur. Foodneter Sur. + , FDW-16 F5 16 in. 120 A-105-8 W-25 I-4 Vol. Sur + . F5A 16 in. 120 A-106-8 W-25 I-4 Vol. x ! Sur. +
F58 16 in. 120 A-106-8 W-25 I-4 Vol.
3 Sur. + F6 16 in. 120 A-106-8 W-25 I-4 Vol. i Similar Line Sur. + FDW-17 F2 16 in. 120 A-106-8 W-25 I-22 Vol. x Sur. + F2A 16 in. 120 A-106-8 W-25 I-22 Vol. l Sur. + F3 16 in. 120 A-106-8 W-25 I-?? Vol.
II-27 -
1
1 ITEM 90. C2.1 CATEGORY C-C Interval Interval Interval Interves (tuC-76m) 1 2 3 A Sr:hedulef Col. Drawing RegJ! red raganent $1re - Thickness Meterial Stenderd No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 core spray - 31m11er Lines (cd-waltcd-3m+t Jtc5-6A% CS-2A Sur. + F1 12 in. El A-106-8 W-56 I-6A Vol. Sur. + 51 10 In. 80 A-106-8 W-29 I-6A Vol. Sur. + F2 10 In. 80 A-106-8 W-29 I-6A Vol.
Sur. +
F3 . 10 In. 80 A-106-8 W-29 I-6A Vol. Sur. + 3 S2 10 in. 80 A-106-8 W-29 I-6A vol. Sur. + S3 10 in. 80 A-106-8 W-29 I-6A vol. x Sur. + SA 10 in. 80 A-106-8 W-29 I-6A vol. l Sur. + S5 10 in. tTJ A-106-8 W-29 I-6A vol. I Sur. S6 10 in. N A-106-8 W-29 I-64 Vol. l Sur. + FA 10 in. 80 A-106-8 W-29 I-6A Vol. Sur. + S7 10 in. 80 A-106-8 W-29 I-6A Vol. Sur. + j F5 10 in. 80 A-106-8 W-29 I-6A Vol. Sur. + 1 58 to in. 80 A-106-8 W-29 I-6A Vol. ' ] - Sur. + ! S9 10 in. 80 A-106-8 W-29 I-6A Vol, w
. Sur. +
.l S10 10 in. 80 A-106-8 W-29 I-6A Vol. Sur. + Sil 10 in. 80 A-106-8 W-29 I-6A Vol. Sur. + 4 F54 10 in. 80 A-106-8 W-29 I-6A Vol.
, Sur. +
j F58 10 in. 80 A-106-8 W-29 I-64 vol. i 11-28 1
I-x I C _ e Il. A x sW E
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@l w ll.
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*e J
E- 6 E 6 E E- 6 E 6 E 6 E E- 6 E E- E- E E- E- 1 G E- E- - M Ip - - - - - - - - - . ) A A A A A A A A A A A A A A A - D eu A A -A A A A A A A A A A A A A A A A A A A - 3 1 3e) W $ 3 l 8 8- 8- 8- 8 8 B 8 8 8 8 B 8- 8 B 8 8- 8-e 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 { 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -- a 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
) - - - - - - - - - - - - - - - - -
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+ , e 1 d ig E-ag t - I
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w 03* s s s s s s s s s s. s s C C C C C E C
6
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h h h h h h h h h h 3 7
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7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 g = = = = = = = = = = . . . = = , - R 8
g. ~$ 8 8 8 8 E S S S S S S S S S S S S S
~ S i W 5 D=-
2 2 2 S S S l _ S S S S S S S S S S S S S 1
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- _9 _9 _9 _9 _9 _9 _9 _9 4 _4 _9 9_ _9 _9 _9 _9 _9 3 _ - m. a. m. a. m.
a s s s ss 5 E i s I I I I I I I I I I I I I I I Ir I I
, .r - - - . . . - - - - - - - - - - - - - nr 5 ! s a a a a a a e a a s s a a a a s -a w s cc -
' n . . . . . g
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i i i s i i i i i i i s i en 4 h D C b b 6 b E5b Nb b U N N$$ 1 2 R E "R $
6 6 [d a =
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I I 2 s-v M N se 3 - 3- - 3 - z* g"E; j a a a a a a a a a a a a a a a a j a a a a a a a a a a a a a a a a a a a a F 9 jj 5 $ g 5 g 2 u u c 2 2 2 2 2 2 2 2 2
$ -$ a o g - - - J - 4 a a a a a 2 a a a a a a E
I5 if. m i i, I I I i i i i i I i I i i i i i 2 i i n, . - - - - - - - - - - .- .- .- .- .- .- .- .- .-
- T' B S S S S S S R R R R R R R R R R R R R w ie 00 --
i
l. 3 i i i i i i i i i i i i i i i i i i i
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m
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)
ITEM 90. C2.1 CATEGORY C-C Interval Intervel ~Intervel Interval
. (IE-2dIB) 1 2 3 4 Schedule / Col. Orewing RegJired '
Camponents $1ae - Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 .- r m-e F6 20 in, 30 A-106-8 I-12 Sur. I F6A 2U in.~ 30 A-106-8 I-12 Sur. x 58 20 in. 30 A-106-8 I-12 Sur. Sur. + 59 M in. 30 A-106-8 W-64 I-12 vol. Sur. + !
$10 24 in. 30 A-106-8 W-64 I-12 Vol.
Sur. +
$12 24 in. 30 A-106-8 VY-64 I-12 vol.
Sur. + F8 24 in. 30 A-106-8 - W-64 I-12 Vol. Sur. + i 513 24 in. 30 A-106-8 W-64 I-12 Vol. x sur. + F9 24 in. 30 A-106-8 W-64 I-12 Vol. Sur. + F10 24 in. 30 A-106-8 W-64 I-12 Vol. x Sieller Line fHt-7 $1 20 in. 30 A-106-8 I-13 Sur. x ! FIA 20 in. 30 A.106-8 I-13 Sur. F1 20 in. 30 A-106-8 I-13 Sur. P S2 20 in. 30 A-106-8 I-13 Sur. F2 20 in. 30 A-106-8 I-13 Sur. x F3 20 in. 30 A-106-8 I-13 Sur. 53 20 in. 30 A-106-8 I-13 Sur. F4 20 in.' 30 A-106-8 I-13 Sur. 54 20 in. 30 A-106-8 I Sur. II-33 i
l l l ge _-. .
= .
2 - 2-7 s - E-T . s a - g- - r - 3 . . . . . . . . .
=1 -
a c a c as ca c p c - -
a a a a a a a a aasa::as c a::asseass::s c e a a a a e
9 tj c c c c c c c c c c c c c c 2 2 2 2 2 o j 4 4 4 a a a a a a a a a a a a a a a a v
.- a a. a. a. a. a. a. a. a.
5 E
!z h h - - - - - - ,h h h h h g = e = = = = = a e e e e e e e e e e e - R R R R R R R R R R R R R R R R R R R R g
wn
- R R R R R R A A a M A A M M M R R R R S M03E SS0$ESS00 MMC G 0 l 5 $
l 3 x _ e v
. r4 2 t
e l1
. I n 1 x l 3 a
v r3 2 e t n 1 x x I l 3 a v r2 2 t e n 1 x I l 3 a v r1 2 e t n I 1 ds ed . . . . . . . . , ro r r r r r r r r r r r r r r r r r r lh u u u u u u u u u u u u u u u S u u S S u
@t eM e S S S S S S S S S S S S S S S R
g n i . 4 4 4 4 4 4 4 5 5 5 5 5 5 5 5 5 5 5 1 1 1 1 1 1 1 C- wo 1 1 1 1 1 1 1 1 1 1 1 aN I I I I I I I I I I I I I C r I I I I I D d Y r R .a O ld G an E Cat T A S C 8- 8- 8- 8- 8 8- 8- 8- 8- 8- 8- 8 8- 8- 8- 8 l 8- 8 - - - a 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 i r 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 e 1 1 1 1 1 1 t - - A A A A A A A A e A A A A A A A A A A M fd
) es 0 l e 5 5 5 5 5 5 5 5 5 5 5 0 un 7 7 7 7 7 7 7 7 7 7 7 6 dk 0 0 0 3 3 3 3 3 3 3 3 3 3 3 2 ec 0 0 0 0 - hi 3 3 3 3 3 3 3 1 C ch u ST 2 l C (
0 . . . . n n n n n n n n n n n n n n 1 e n n n t r i i i i i i i i i i i i i i M z i i I i E i 2 2 2 2 2 2 2 2 2 2 2 T S 0 0 0 2 0 20 02 0 2 2 1 1 1 1 1 1 1 1 1 1 1 . I 2 2 ll R A u A 5 6 7 8 1 1 2 2 3 4 3 4 4 5 5 e 4 5 4 5 F S F F S 5 F F F 5 F u F F S $ S S n u _ s n
' , t o n c e t n 0 1
5 o c- 3 p - - t m m I a C er H I I 4 ' ! i; ;ji I tijJl 31l1 I ij ji
ITEM 90. C2.1 CATEGORY C-G Interval Interval Interval Interval (lut-2600) 1 2 3 4 Schedules Cal. Drawing Required Cogonent: Size Thickness Material Standard No. Methods 2 3 2 1 1 3 1 2 3 1 2 3 31m11er Line RHR-15 S1 14 in. .375 A-106-B 1-16 Sur. 52 12 in. .375 A-106-8 I-16 Sur. x F1 12 in. .375 A-106-8 I-16 Sur. S3 12 in. .375 A-106-8 I-16 Sur. x S4 12 in. .375 A-106-8 I-16 Sur. 55 12 in. .375 A-106-8 I-16 Sur. 56 12 in. .375 A-106-8 I-16 Sur. x F2 12 in. .375 A-106-8 I-16 Sur. f3 12 in. .375 A-106-8 I-16 Sur. 57 12 in. .375 A-106-8 I-16 Sur. F4 10 in. .375 A-106W8 I-16 Sur. RHR-9 F1 16 in. .375 A-106-8 I-15 Sur. St 16 in. .375 A-106-8 I-15 Sur. x S2 16 in. .375 A-106-8 I-15 Sur. .____ S3 16 in. .375 A-106-8 I-15 Sur. F2 16 in. .375 A-106-8 I-15 Sur. 54 16 in. .375 A-106-8 I-15 Sur. l S5 16 in. .375 A-106-8 I-15 Sur. ! 56 16 in. .375 A-106-8 I-15 Sur. II-36 .
{ i ll_ . ll x l 3 av
. r4 2 t
e l1
. I n 1 l 3 a
v r3 2 x t e x n 1 x I ll l 3 a v r2 2 t e x n 1 I l 3 x a v r1 2 t e I n 1 ds . . . . . ed . . . . . . . r r r ro . . . . . . r r r r r r r r r r u ih r r r r r u r u u u u u u u u u u u u u ut u u ; u S S S S S S S S S S S S S S qe S S 9 S S eM R
< g -
n 5 5 5 5 5 5 5 5 5 5 6 6 i . 5 5 5 5 5 5 5 1 1 1 1 1 1 1 1 1 1 wo 1 1 1 1 1 1 1 1 C- aN 1 I I I I I I I I I I I I I I I I C r I I I D d Y R .ra O ld G an E T Cat A S _ C B 8 B B B 8- B 8 8 8 8 8 B 8 8 - l 8 8 8- B- - - - - - - a - - - 6 6 6 6 a - - 6 6 6 6 6 6 6 6 6 6 i 6 6 6 6 6 0 0 0 0 0 0 0 0 0 0 0 0 0 r 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 e 1 1 1 1 1 1 1 1 1 1
- - - - - - - - - A A A A A t
A A A A A A A A A A A e A A A M fs _ ) es 5 5 5 5 5 5 5 _ 0 l e 5 5 5 5 5 5 5 5 5 7 7 _ 0 un 5 7 5 7 5 7 7 7 7 7 7 7 7 7 7 7 3 7 3 7 3 7 3 7 3 3 3 6 dk 3 3 3 3 3 3 3 3 3 3 3 3 2 ec
- hi
_ 1 2 I E t ST ch _. C( ll 3
'n n n n n n n n n n in in in in in inini ni n4i 2i 2i i M . .
4 r e i2 i2 2i i2 i2 i 4 4 D T
*15 4 4 4 4 1
4 1 2 1 2 1 2 1 1 1 1 2 1 1 1 1 1 1 1 1 1 1 1 I 4 8 C 0D 0 0 1 2 A 0 2 0 0 6 7 1 1 7 8 9 1 1 3 7 8 9 1 1 1 1 1 5 F F F F S S F 5 5 S S S 5 S 5 F F S e n i - e L t r n a4 e l1 7 n o y i - 3 mR - p - i H I mn SR I o n C n 1 4 ii'\iIj ji 1!i 1l! f ,! 1! , !!l }lI 1I llJ 4 1l lli' l
Die' ITEM M). C2.1 C-C (luc-2600) CATEGORY Interval Interval Interval Interval
1 2 3 4 Component Sctedules Cal. Drawing % 1 red '
Size' Thickness Meterial Standard No, Methods 1 2 3 2 3 2 3 2 nnn-14 (conunusaJ 1 1 1 3 F1 14 in. .375 A-106-8 I-16 Sur. S3 14 in. .375 A-106-8 I-16 Sur. F3 14 in. .375 A-106-8 I-16 Sur. S4 14 in. .375 A-106-8 I-16 Sur. 55 14 in. .373 A-106-8 I-16 Sur. 56 14 in. .375 A-106-8 I-16 Sur.
57 14 in. .375 A-106-8 I-16 Sur. x F5 12 In. .375 A-106-8 I-16 Sur.
F6 12 in. .375 A-106-8 I-16 Sur. 58 12 in. .375 A-106-8 I-16 Sur. F7 12 in. .375 A-ID6-8 I-16 Sur. F7A 12 in. .375 A-106-8 I-16 Sur, a F8 !? In. .375 A-106-8 I-16 Sur. F9 17 in. .375 A-106-8 I-16 Sur. IMI-12 ' SIA 8 in. STD A-106-8 I-16 Sur. S1 12 in. .375 A-106-8 I-16 Sur. m ! S2 12 in. .375 A-106-8 I-16 Sur. i i i 53 12 in. .375 A-106-8 I-16 Sur. i l F1 12 In, .375 A-106-8 I-16 Sur, i 11-38 l l i
1 1 = ( I ITDs W. C2.1 CATECORY C-C Interval Interval Interval Interval i , (Int-2600) 1 2 3 4 Component SG a lef Cal. Drawing % ired Size Ihickness Material Standard No. Methods 1 2 3 1 2 3 2 3 2 rowi- u 1 1 3 S4 12 in. .375 A-106-8 I-16 Sur. 55 12 in. .375 A-106-8 I-16 Sur. x S6 12 in. .375 A-106-8 I-16 Sur. S7 12 in. .375 A-106-8 I-16 Sur.
~
l M 12 in. .375 A-106-8 I-16 Sur. F2 16 in. STD A-106-8 I-16 Sur. Similar Line R4R-17 SI 12 in. .375 A-106-8 I-15 Sur. 52 12 in. .375 A-106-8 I-15 Sur. { $3 12 in. .375 A-106-8 I-15 Sur. F1 12 in. .375 A-106-8 I-15 Sur. x S5 12 in. .375 A-106-8 I-15 { Sur. 56 12 in. .375 A-106-8 I-15 Sur. l 57 12 in. .375 A-106-8 I-15 Sur. x l S8 12 in. .375 A-106-8 I-15 Sur. x i IHt-20 F2 16 In. STD A-106-8 I55 Sur. I
- F1 10 in. .375 A-106-8 I-16 Sur.
51 12 in. .375 A-106-8 I-16 Sur. 1 S2 12 in. .375 A-106-8 I-16 Sur. x i F2 12 in. .375 A-106-8 I-16 Sur. II-39 1 1 i
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- - - - 6 a 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 0 0 6
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)
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, IfD4 m. C2.1 CATEGORY C-C r s '7. Interial Interval Interval Intervel l (lut-2600) ' < 1 2 ~f 4 Components ' Schedulef Cel. Drawing Re wirea ) ~t I i ' '
i $12e Thickness Meterial Standdd No. Methods l1l2[Jh 1 2 3 ll21 7 3 1 2 3 ITM-4U LConunueUJ l F4 8 Tn. 40 A-106-8 I-17 # 4Jr. SP 8 in. 40 A-106-8 . I-17 Sur. < ' S10 8 in. 40 A-106-8 I Sur.* h/ ! 5
, 4 i i s-i j F5 8 in. 40 A-lO6-3 I/ I-17 Sur. x 4
I-i
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8 in. Sur. x i 4 f.. y 512 8 in. 40 A-106-8 I-17 _ Sur. ' ' N i S13 8 in. 40 A-lO6-8 - I-17 Sur.
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1 517 8 in. 40 A-106-8 I-17 Sur. x j F8 I 8 in. 40 A-106-8 I-17 Sur. j S18 8 in. 40 A-106-8 I-17 Sur. x (, , f S19 8 in. 40 A-106-8 I-17 Sur. -' j $20 8 in. 40 A-106-8 I-17 Sur. x 4 F9 8 in. 40 A-106-8 I-17 Sur.
. F10 8 in. 40 A-106-8 I-17 Sur.
i 11-41 4 I
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/
4 i i i ITEM W . C2.1 CATECORY C-C Interval Intervel Interval Interval (Int-2600) ' 1 2 3 4 Sched>Ie/ Cal. Drawing RegJired j Componente Size Thickness Material Standard No. Methods 2 3 2 3 _ 1 1 1 2 3 1 2 3
una tw.62nusuJ A-106-8 f Sur. +
W6 10 in. 80 A-2M-tFE W-29 I-19 vol.
A-106-8 Sur. +
, W20 10 in. 80 A-234-tFF W-29 I-19 Vol.
4 South Instrument Volt =
(Similart.ine)
A-IU6-5 Sur. + W-4 . 10 in. E A-2M-IFE W-29 I-19 Vol.
A-106-8 Sur. +
W-5 10 in. 80 A-2M-tFE W-29 I-19 Vnl.
1 A-106-8 Sur. +
W-6 10 In. W A-234-tFE W-29 I-19 Vol.
A-106-8 Sur. +
W20 10 in. W A-234-tFE W-29 I-19 Vol.
x
; Discharge Volume Pipang ; 00-5 l
(South) 5-1 6 in.' 80 A-106-8 I-23 Sur. x 5-4A 6 in. 80 A-106-8 I-23 Sur.
Similar Line
. CRO-6 - (North) ] 6-1 6 in. 80 4-106-8 I-23 Sur. 6-4A 6 in. 80 A-106-8 I-23 Sur. x ! 05-5A (South) } 5A-8A 6 in. 80 A-106-8 I-23 Sur. x l 5A-7 6 in. 80 A-106-8 I-23 Sur. l i SA-6 6 in. 80 A-106-8 I-23 Sur. , 5A-5 6 in. 80 A-106-8 I-23 Sur. i j 5A-4 6 In. 80 A-106-8 I-23 Sur. x 4
- reew wetos insta11eo wring sym , unselar e exams pe trotseo at tsac e tne scog e c r tris ser eat le.
II-45 i
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9 a a a a a a a a a a a a g u g U ,.
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r. -: w 5 1 e
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t. .
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i i i - i . 4 ITEM IG. C2.1 CATECGtY C-C Interval Interval Intervel Interval
,' (tut-260D) 1 2 3 4 i Schedules Cel. Drawing Required Component Stae Thidness Meterial Standard No.
! Methods 1 2 3 1 2 3 1 2 3 1 2 3 l uw tw o.-s i M6A-1A 4 in'. W A-106-8 I-24 Sur.
l j M6A-2A 6 in. 8D A-106-8 I-24 Sur.

4 M6A-3A 6 in. W A-106-8 I-24 Sur.

x
, M64-5A' 6.in. 8D A-106-8 I-24 Sur.
M6A-6A- 6 in. W A-106-8 I-24 Sur. *
.M6A-7A 6 in. 80 A-106-8 I-24 Sur.
M6A-84 6 in. W A-106-8 I-24 Sur.

i.
J M6A-94 6 in. W A-106-8 ' I-24 Sur.
f M6A-104 6 in. 80 A-106-8 I-24 Sur.

w l
l M6A-114 6 in. E A-106-8 I-24 Sur.
l
! M6A-12A 6 in. SD A-106-8 I-24 Sur.
1 M6A-134 6 in. 80 A-106-8 I-24 Sur.

M6A-14A 6 in. 80 A-106-8 I-24 Sur. *
05-7 .
i (South) } i 7-3A 6 in. 80 A-106-8 I-23 Sur. x - ( . 6 in. 80 A-106-8 I-23 Sur. Similar Line I N
(North) .
1 8-3A 6 in? 80 A-106-8 I-23 Sur. 8-1 6 in. 80 A-106-8 I-23 Sur.
l II-47

rueu wetos Instellec :gring syn; . unsezir e exams pe trorneo at tsic e tne s cog e c r tr is scr eat ie.
I I i _. _ _ _ _ _ __ __ _
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-- E A
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ITEM K). C2.1 (Int-2600) CATEGORY C-G IntIrval~ Interval Interv i Intervel' 1 2 3 4 Schechlef Cal. Drawing Required Components Sire Thickness Material Standard No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 esac-a (conunueaJ F9 8 in. 40 A-106-B I-26 Sur. x RCIC-6 ._ 6-51 3 40 A-106-8 I Sur.
6-SIA 3 40 A-106-8 I-26 Sur.
1 RCIC-5A 5-F1 8 in. 40 A-106-B I-26 Sur. J x i I 1 t i II-a9 I 1 ? .I. 1 i
g n x x x x x = E. n x x x x x = 2 - x x x 5 - - g n = x x = = x En n x x x x x x y - , = x x x g n x x x x x = to n x x x x u - 2 - x x x x 5 - g n x x x x x x t- n 2 5 - E . . . . . . . . . . . . . . . . . a}" 4 J J J J J J J J J J J J J J J J
&~ 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 8 .o f, , -8 F ::
Tj E n e n e e e e n e e . n 3 j d a 4 4 4 4 4 2 2 2 -3 7
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3
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g. m = x x = x x
; x x . -
g m x u u u gm u x x x = x x g - - - - - g m x x x x tu u u u a u = , x = = _$ x g m - - - - E- u 3 ~ 5 E
}* 4 4 4 4 4 4 J J J J J J c 4 an a a a s a a ok = g a a a a a a a a
0 F y ig ? m u u u u u R R R e a e e o j g a 2 2 2 2 2 4 2 4 -9 a a J 2 O w 5 2 2 5 e,
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9 9 . g. a x x x x x x x 3 - x x x x x x q n x x x x x x x tm a x x x x x x x 3 -
- x 3 - - - x x q n x x x x x x -
tw a x x x = = = x
? - = = =
5 - - x g n x x x x : x x t- n 2 - 5 E* . . . . . . . . . . . . . . . . . . . .
=$ a a a a a a a a a a a a a a a a a a a a $-1 ,
a a a a a a a a a a a a a a a a a a a a
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=
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9 O M 'M M M M M X g, u x x x x x - 3 - - - - - - . . g m - = = = x = gm u = = n u u u 3 - - - - - - - . g m u u u m x x tu u u u a a = ,
?c - - x x x x x x - m : : x x = = -
I
U~
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l .
T i ITEM W .F-1. F-2 CATECORY F-A. F-8. F-C Interval Interval Interval Interval F-3 F-4 1 2 3 4 i Hot Cold Drawing Required rnepnnente_ _ Setting Settino No. Methods 2 3 2 2
, un--nueu 7 , .- u 1 1 3 1 3 1 2 3
_ - = ia HPCI M-3 E 107A Spring 1323 1303 I-3 VT-3+4 x x x Rigid . H-39 Sway -- I-3 VT-3 x x x x FO-39 Spring 1054 1061 I-3 VT-3+4 x x x to-107C Spring 106 105 I-3 VT-3+4 x x x FO-100B ' Spring 1115 1068 VT-3+4 x I-3 x x x t0-1078 Spring 3173 3199 I-3 VT-3+4 x x x j H-107 Rigid VT-3 x
- - I-3 x x Rigid H-108 Sway -
I-3 VT-3 x x x x 4 . FFCI-150 H-30 Rigid VT-3 I-4 x x x H-31 Rigid - - I-4 VT-3 x x x ! H-35 Rigid - - I-4 VT-3 x x x x
;0-35A Rigid - - I-4 VT-3 x x x 6 22C Spring - --
I-4 VT-3+4 x x x A H-3 Rigid - - I-2 VT-3+4 x x x x FO-3 Spring 2161 2048 I-2 VT-3+4 x x x MS-48 H-6 Rigid - - I-2 VT-3 x x x H-8 Rigid - - I-2 VT-3 x x x x tO-8B Rigid - - I-2 VT-3 x x x FO-8A Rigid VT-3
- - I-2 x x x to-130 Rigid -- - I-2 VT-3 x x x x tO-13C Rigid - --
l I-2 VT-3 x x x II-55
..d l ITEM 90. F-1. F-2 CATEGORY F-A. F-B. F-C Interval Interval Interval Interval 1 F-3, F-4 1 2 3 4 Hot Cold Drawing RegJired l rnepnnents _ _ Type Settino Settina No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 1
ITLA O t t"WW (bur v6 Anutt J H-13 Rigid - - I-2 VT-3 x x x x j E 102D Sprino 1688 2028 I-2 VT-3+4 x x x " Required Piston { H-102A Smibber Travels + l-7/8 In. I-2 VT-3+4 x x x Required Piston
! H-102B Snuhber Travels + l-7/8 in. VT-3+4 x I-2 x x x l
H-102 RicId -- -- I-2 VT-3 x x x
H-102C Rigid - - I-2 VT-3 x x x i
W 102B Spring 1528 1783 I-2 VT-3+4 x x x x i
% 102A Sprino 1025 !!75 I-2 VT-3+4 x x x 6 103C Sprino 1528 1783 I-2 VT-3+4 x x x Regaired Piston H-103A Snubber Travels 1/8 in. I-2 VT-3+4 x x x x Required Piston i H-1038 Snubber Travels 1/32 in. I-2 vi-3+4 x x x
! Booster Pung to 1 Main Pump 1 j H-200 Rigid - - I-4 VT-3 x x x l H-201 Rigid - - I-4 VT-3 x x x x i CE Hydraulle j CRD-5 tO-16 Rigid -- - 'I-23 VT-3 x x x j @ l7 Riold - - I-23 VT-3 m x x a f 10-18 Rlaid - - I-23 VT-3 x x x x
10 -19 Riald - - I-23 VT-3 x x x i
j 60-20 Rigid - - I-23 VT-3 x x x FO-26 R!ald - -- I-23 VT-3 x x x x
II-56 i
i
i ITEM NO. F-1, F-2 CATECORY F-A, F-8 F-C Interval Interval Interval Interval F-3, F-4 1 2 3 4 Hot Cold Drawing Required Compone6t Type Setting Setting No. Methods 2 2 1 3 1 3 1 2 3 1 2 3 aamuur une CRD-6 10-112 I I l1.1 l ll Rigid - - I-23 VT-3 Exempt per IF 2510(b] 6 111 I I ll l l ll Rigid - - I-23 VT-3 x Exenot per I F 2510(b] 10 -110 I I ll l l ll Rigid - -- I-23 VT-3 Exenet per IF 2510(b]
@ -109 I I ll l l ll i
Rigid - -- I-23 VT-3 Emenet per IF 2510(b] 6 108 I I ll l l ll Rigid - - I-23 VT-3 x Exeatit ter I F 2510(b]
, Rigid j 00-5A W-2 Sway - -- I-23 VT-3 x x x i' Rigid E3 Sway - - I-23 VT-3 x x x x Rigid 2-4 Sway -- - I-23 VT-3 x x x i .
I
@-23 Rigid - - I-23 VT-3 x x x x
, Rigid i m-5 Sway - - I-23 VT-3 x x x
! S-H01 Rigid - -- I-25 VT-3
x x x l Similar Line gigid
CRD-6A @-118 Sway - - Exempt per I F 2510(b]
! Rlgid l l ll l l ll 6 117 Sway -- -
I-23_ VT-3 Exempt per IF 2510(b] W-ll6 Rigid - - I-23 VT-3 x x x x W-113 Rigid - - I-23 VT-3 x Exempt per I F 2510(b] i N-H01 Rigid -- - I-24 VT-3
x x x
; N-RIO Rigid - -- I-24 VT-3
x x x CRD-7 6 10 Rigid - - I-23 VT-3 x x x K)-ll Rigid -- -- I-23 VT-3 x x x W-12 Rigid _- __ _- . __ I-23 VT-3 _
x x. x _ x
- new wi t anstarteo apxang Ayo>. case line c === pe s < u a =cu c ut sior_ tr e xupr. on taas w m ust.
4 11-57
ITEM PC. F-1. F-2. CATEGORY F-A. F-B. F-C Interval Interval Interval Interval F-3 F-4 1 2 3 4 l Hot Cold Drawing Recpired Component, _ _ l _ Type l Setting
. Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 azuuar Lane twi6tnueus W-104 Rigid I-23 VT-3 Exenot r IF 2510(b]
m-103 l I ll l l ll Rigid - - I-23 VT-3 Exeact per I F 2510(b] W -102 I I Il i I II Riold - - _I-23 VT-3 x Ezest t Ier IF 251C(b2 Maltiple Streams (Re-anvo, suvu, envo, a.n , .mm. Am, anvo, ev i, vv1=, tuv42, was,avcJ . INR Dual M -1A* H-182 Rlgid Suey -- - I-7A VT-3 x x x W -185F Rlgid - I-8 VT-3
x x x H-181 Rigid - - I-78 VT-3 x x x x INR-18 10 -181 Rigid I-78 VT-3 x x x x 6 185D Spring 6197 6856 I-78 VT-3+4 x x x x W 127K Rigid - - I-7B VT-3 x x x H-127 Rigid - - I-78 VT-3 Exempt per IF 2510(b]
Requiret. Piston IO-127M Snubber Travel. 1/16 in. I-9 VT-3 H x x x 10 -1274 Rigid - - I-79. VT-3 Exempt per IF 2510(b] W-127C I I ll l l ll Rigid - - I-7B VT-3 Exeact per IF 2510(b] M-24 H-184 Spring 10,300 10,800 I-8 VT-344 x x x RetpJired Piston H-183 Snubber Travel: 0 I-8 VT-3+4 x x x x Required Piston H-185 Snubber Travele 7/16 in. I-8 VT-3+4 x x x
& l84A Rigid . _ - I-8 VT-3+4 x x x - not pai s c r nuaitzpte stic " New support Installed in Spring 1983. Baseline exam performed outside the scope of this exam.
11-58
ITEM PC. F-1, F-2, CATEGORY F-A, F-8, F-C Interval Interval Interval Interval F-3, F-4 1 2 3 4 Drawing RetpJired Enernnelnte No. Methods 2 3 2 3 2 1 1 1 3 1 2 3 ru;Atapac ata - w ur w asuv> Rigid / Required Piston 60-1848 Snubber Travels 5/8 in. I-8 VT-3+4
x x x Similar t.ine MR-2B t0-127I Spring 9536 9780 I-9 VT-3+4 x Exempt per IF 2510(b]
Requitec Piston to-127L Snubber Travel. 1/16 in. I-9 VT-3+4
x x x M -2D DO-127H Rigid - -
I-9 VT-3 x Exempt per I F 2510(b] to-127G Rigid 1 I ll l l ll I-9 VT-3 Emeng,t ge.r IF 2510(bj M -34 FO-1308 Riold - - I-104 VT-3 x x x H-130 Rigid - - I-104 VT-3 x x x M -3B FO-120C Rigid - - I-10B VT-3 x Emenet ger I F 2510(b] M -3C to-130C Spring 4566 4366 I-104 VT-3+4 x x x , 60-1974 Rigid - - I-104 VT-3 x x x FO-1978 Rigid - - I-104 VT-3 x x x x Required Piston H-197A Snubber Travel.+5/16 in. I-10A VT-3+4 x x x Required Piston H-1978 Snubber Travel.+1/32 in. I-10A VT-3+4 x x x M -3D H-129 Swey - - I-108 VT-3 x x x x FO-1884 Rigid - - I-108 VT-3 Exempt per IF 2510(b] Required Piston H-188 Snubber Travels - 1/32 in. l per bleset ll IFJ l2510l(b] l I-10B VT-3+4 M -5A PD-187B Spring 4068 4368 I-Il VT-3+4 x x x H -6 tD-200C Rigid - I-12 VT-3 x x x FD-187A Spring 8520 9020 I-12 VT-3+4 x x x
New support Installed in Spring 1983. Baseline era performed outside the scope of this schedule.
11-59
ITEM PC.F-1. F-2 CATEGORY F-A, F-B F-C Interval Interval Interval Interval ) F-3, F-4 1 2 3 4 Hot Cold Drawing Required , Component. . Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 at=24sr cane m arsso;
W-200D Rigid - - I-12 VT-3 x x x x W-200F Spring 7191 6816 I-12 VT-3+4 x
'x x .
H-1% Rigid - I-12 VT-3 x x x
61% Rigid - -
I-12 VT-3 x x Similar Line x INR-7 6 16C Rigid I-13 VT-3
- -
x x x
% 16B Spring 7200 7700 I-13 VT-3+4 x Exempt per IF 2510(ii]
6 16A Rigid I-13 VT-3 Exeset r IF 2510(b] -i W-186 i i ll l l ll 4 Rigid - - I-13 VT-3 x Exempt ter IF 2510(b: E 129A Rigid VT-3 x I-13 x x x Double I 2 -16F Spring 3630 3330 I-13 VT-3+4 x x x x 6 16G Rigid - - I-13 VT-3+4
x x x W -16H Rigid I-13 VT-3+4

x x x 6 16J Rigid - -
I-13' VT-3+4
x x x 6 186A Rigid - -
I-13 VT-3+4
x x x j 2-129E Riold - - I-13 VT-3+4

x x x i
W-16E fHt-8 Md - - I-14 vi-3 x x x W-16D Rigid - - I-14 VT-3 x x x 1' W -200J Sprina - - I-14 VT-3+4 x x x x 2 -2001 Riald Sway - - I-14 VT-3 x x x
,! - nea supporL Insta11ec in wrarm; l'/tu. tsa serine exa a perIormEc otIsloe tne sccpe c r tnis screat le.
I II-60
t ITEM 10. F-1. F-2 CATECORY F-A. F-B. F-C Interval Interval Interval Interval F-3 F-4 1 2 3 4 Hot Cold Drawing Required Component. Type Settina Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 le-200C Rigid - - I-14 VT-3 x x x x H -9 10-194A Sprino 2795 3193 I-15 VT-3+4 x x x W -1948 Rigid - - I-15 VT-3 x x x M -194C Sprino 2162 3112 I-15 VT-3+4 x x x x W-87 Sprire 2910 3286 I-15 VT-3+4 x x x Spring / H-191 Stanchion 3079 3304 I-15 VT-3+4 x x x x H-194 Riald Sway I-15 VT-3 x x x 10-192 Sprino I-15 VT-3+4 x x x x H-192 Rigid Suey I-15 M -10 VT-3 x x x x Requlrec Piston H-193 Snubber I-15 Travel. - 1/8 in. VT-3+4 x x x CS40-540 Sprino 2886 2857 I-15 VT-3+4 x x x CS-m -54E Rigid I-15 VT-3 x x x x M -12 CS40-860 Sprino 2438 2607 I-16 VT-3+4 x x x CS40-86A Sprino 2388 2275 I-16 VT-3+4 x x x M -14 CS-N-87 Rigid Swey I-16 (Similar to VT-3 x Exempt per I F 2510(b INR-9) W-87C Sprino 2879 3179 I-16 VT-3+4 l l ll l l ll Exenet per IF 2510(b] m-87B Rigid I I ll l l ll I-16 VT-3 x Exempt per IF 2510(b INR-15 (Similar to INR-10) Regulrec Piston CS-H-86A Snubber Travele + 9/32 in. rew _i-16 VT-3+4 x x .x anstatteu in :prans po>.
=---,a6 oesciane cac- perruima. cm. tstae toe u pc c r toi: m m 2e.
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ITEM M1. F-1. F-2, CATECORY F-A, F-8, F-C Interval Interval Interval Interval F-3, F-4 2 3 1 4 Hot Cold Drawing Re @lred rn panenti Type Setting Setting No. Methods 1 2 3 1 2 3 1 2 3 1 2 3 efCI Steen MS-4B 60-6 Spring 2811 2136 Vis I-2 x x x te-8C Sprino 1511 ' 1267 Vis I-2 x x x x , PO-13B Sprino 1671 1628 I-2 Vis x x x Dathle 6 134 Sprino 535 507 1-2 Vis x x x 6 1034 Sprino 3534 3734 I-2 Vis x x x x M410 Welded - I-2 Vis M x x x iii;Ttlple streens (Re -1A+B, 2A+B, 2C+0, 3A+t , 3C+0, 58 +a, 6+7, s +14,10+1: ,12+17, ac +22 ) H -1A H-128 melded I-7A Vis. x x x x R M-18 H-22 Welded - - I-78 Vis Exempt per I F 2510(b] 6 127B Welded Vis I I ll l l ll I-78 Emens,t per IF 2510(b M -2A 6 1838 melded - I-8 Vis x x x RWt-2B 6 127J uelded - - I-9 Vis u Exempt per I F 2510(b] 6 127E Sprino 2640 2698 I-9 Vis I I ll l l ll Excact per IF 2510(b]
& l27D uelded I I il l I ll - - I-9 Vis x Excact ter IF 2510(b)
Eft-2D 60-12F uelded - Vis I-9 x x x Rft-34 60-1304 melded - I-104 Vis x x x x RWt-3B 6 1290 Welded - - I-10B Vis Enestit ter IF 2510(b] Rft-3C t0197C Sprino 32X) 3000 I-104 Vis u u u RWt-X) PC-188C I-108 telded - - Vis u Emeset per IF 251C(b] II-67
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FLANGE flLLET.
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RELIEF REQLEST SASIS Nuabert C-1 Component: INR Heat Exchangers' lezzle welds Category: C-8 Class: 2 Test Reg.sirement Volumetric Basis for Relief: Nozzle cesign configuration prohibits meaningful volumetric exarnination of the nozzle welds since the weld Js 1005 covered by a reinforcement saddle. Refer to detail 'A of drawing I-20. Alternate Testing: Surface and VT-1 visual examinations shall be performed on the reinforcement saddle-to-nozzle' and reinforcement saddle-
- to-vessel welds.
L I e
II-102 i
o
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RELIEF REQlEST BASIS Nueers C-2 Components. Attachment welds for pipe covering protection saddles Category: C-E-1 Test Requirement: Surface Basis for Relief . Saddles are provided to prevent damage to piping caused by excessive lateral deflection. They mainly perform a posi-tional rather than a load-bearing function. The saddles are designed to transmit those loads that 00 exist in a predomi-nantly compressional mode. Therefore, the intermittent or continuous fillet welds (see attachment) used to join the saddles to the pipe serve to holti them in place but do not contribute significantly to their load-bearing capability. The saddle configuration is such that access to these welds is severely limited, and surface examination is, con-sequently, impractical or impossible. The 'best effort" examinations which result require considerable work and pro-
i. vide negligible benefit in terms of igroved plant safety, j reliability and quality.
Alternate Testing: Visual examination will be performed on all fillet-welded saddles.
- II-103 9
_ _ _ __ _- - -__ _- -- . _ _ - - - - l
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RELIEF REQLEST 9 ASIS Number C-3 Congxplent: Welded and non-welded component supports and restraints s 4 in, nominal pipe size Category: F-A, F-8 and F.C Class 2 Test Regjirement: VT-3, VT-4 Visual Basis for Relief: To maintain consistency with the allowance of Sub-sub Article IWC-1220,' paragraph IWC-1220(c), VT-3 and VT-4 visual exami-nation of welded and non-welded support components and restraints under Section IWF should be limited to those sup-4 ports exceeding 4 in, nominal pipe size. Alternate Testing: Significant degradation of support components s 4 in. WS would be readily observable during visual examinations per-formed while pressure testing these systems in accordance-with IWC-5220. 11-105 0
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_ SAFETY CLASS 3 COWONENTS In compliance with Section XI, 1 2 2600 and Table IWD-2500-1, Safety Class 3 Systems shall be subjected to the pressure tests regaired by IWR-5000 and IWD-5000 once each inspection interval, unless specifically exempted by the Relief Request Bases at the end of the Hydro Section of this program. The
. systems to be tested and the specific pressure tests to be performed are iden-tified in that section.
Component supports and restraints within the boundary of each system greater than e' nominal pipe size (see Relief Request Basis D-1) shall be examined in accordance with IM)-2620 and IWF-2500, unless specifically included in the Application of Code Exangtions in this section. Safety Class 3 Systems have been assigned to the various Examination Cate-gories of Table IWD-2500-1 as follows: Cateaory Description Systems D-A Systems in Support of Reactor ' Service Water Shutdown Reactor Water Cleanup (for vessel level control) Reactor Buildin Cooling Water in (gsupport Closed of RWCU) D-8 Systems in Support of ECCS, CHR, Service Water AC and RHR Reactor Building Closed Cooling Water Diesel Generator Air Start, Fuel Oil and Cooling Water A0G Charcoal Adsorbers and Piping HPCI Main Steam Drain Lines D.C Systems in Support of RHR from Fuel Paol Cooling Spend Fuel Storage Pool Reactor Building Closed Cooling Water M)TE: Welded support attachments to Class 3 components will require removal of insula. tion for examination. Non-welded support component attachments may be inspected without insulation removal per IWF-1300(e), provided the supports either carry the weight of the component or serve as a structural restraint in compression. 6 111-1 l
t 3 i APPLICATION OF CODE EXEWTIONS System Exemption Criteria Reactor Eter Cleanup IND-1220.1
@ CI Main Steam Orain Lines IND-1220.1 AOC Charcoal Adsorbers and Piping I W-1220.2 Portions of Service Water 5 4* WS I2-1220.1 Portions of Reactor Building Closed Cooling Water s 4* NPS IW-1220.1 Portions of Fuel Pool Cooling 5 4* @$ 1 2 -1220.1 Multiple Piping Runs in Service Water, IF-2510(b)
RSCCW and FPC provided the supports exempted are similar in design, function and service to those in the run s2 ject to examination, o III-2
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r 1 Interval Interve' Interval Interval 1 2 3 4 Hanger Drawing Required Componente' Type No. Methods 2 w r.s v unaa a .arrur sai ana 1 3 1 2 3 1 2 3 1 2 3 { RSW4080C Welded D-3 VT-3 x x x x RSW4088D Welded D-3 VT-3 x x x x Sin 11er Line SW-1B H-246 Rictd D-6 VT-3 x E,xempt ner IW-251.0(b) W-246C Rigid I l ll l. I ll l D-6 VT-3 x Exempt per I F-2510(b) W -246D Welded l I llperlIF-2510(b) Exenot l ll l D-6 VT-3 x RSW402XB Welded l I Exempt llperl IW-2510(bl) l ll D-5 VT-3 x RSW40230C Welded D-5 VT-3 x x t rI -2 10(b) RSW 4 230A Welded D-5 VT-3 x xempt rI -2 10(b) SW-lC % 2440 Welded D-6 VT-3 x x x x Similar Line SW-ID 6 244E Welded D-6 VT-3 x Exempt per IW -2510(b) SW-2A W-244E Rigid D-6 VT-3 x x x x l Siellar Line SW-2B W-246A Riold D-6 . VT-3 x Exempt per IW-2510(b) SW-3 W-246B Rigid D-6 VT-3 x x x x W-2448 Rigid 0-6 VT-3 x x x x SW-6A RSW40133 Rigid a D-3 vi-3 x x x x j RSW40221 Rigid D-3 VT-3 x F x x RSW40220 Riold D-3 VT-3 x x x x RSW40220B Welded D-3 VT-3 x x x x i RSW40221 ' Riald D-3 VT-3 x x x w RSW44133 Riold D-3 vi-3 x x x x III-4
Interval Interval Interval Interval 2 2 3 A Hanger Drawing Required Componenti Type No. Methods 2 3 2 3 2 OFW L 5 T LA R33 J JurT'Ur I 3ri edM3 1 1 1 3 1 2 3 (continued) SW-6A RSW4f220 Rigid D-3 VT-3 x x x x SW-6B RSW40126 Rigid D-5 VT-3 x Exempt per IF-2510(b] Similar Line RSW40233C Rigid D-5 l l l l ll l VT-3 x Exempt per I F -2510fb] i RSW40233B Rigid I i 1. I ll l 0-5 VT-3 x Exeaet per I F-2510(b) RSWl-2 2334 Welded D-5 i I I I ll 1 VT-3 x Exempt per I F-2510(b] RSW-H232 Welded 0-5 VT-3 x x x x RSW-H126 Rigid - D-5 VT-3 x Exeact per IWS-2510(b) RSW-H233 Welded l I I I Il I D-5 VT-3 x Exeset per IWS-2510(b] SW-6C RSW40220C Welded 0-3 VT-3 x x x x Similar Line SW-6D RSW40232A Welded D-5 VT-3 x Exeact per IWS-2510(b)
SW-8 RSW40230D Rigid D-5 VT-3 x x x x RSW40215A Rigid D-3 VT-3 x x x h l SW-18 H-7 Rigid D-2 A+B VT-3 x x x x H-187 Rigid D-1 VT-3 x x x x 1
l m-1978 Riold D-1 VT-3 x x x . x 10 -197* Rigid D-1 VT-3 x x x x m-2008 Rigid D-I VT-3 x x x x l0-2004 Rigid D-1 VT-3 x x x x 1 H-55 Rigid D-1 VT-3 x x x x H-56 Rigid D-1 VT-3 x x x x
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w -- : I s P LECEND e The symbols below are used on the following piping drawings: b Spring hanger or support, h Integrally welded Spring hanger or support di Rigid hanger, support or restraint dk Integrally welded Rigid hanger, support or restraint
*4Nr sway trace eAeer Integrally welded Sway Brace eEE:3 Shock Suppressor , og 3 Integrally welded Shock Suppressor 1 Integrally welded Shear Blocks I.
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Y 4 RELIEF REQUEST BASIS Nunter e D-1 Components welded and non-welded conponent supports and restraints s 4-in. nominal pipe size. Category's F-A, F-8 and F-C Class e 3 Test Requiremente VT-3, VT-4 Visual Basis for Reliefe To maintain consistency with the allowance of Sub-sub Article I @ -1220, paragraph TWD-1220.1, VT-3 and VT-4 visual examina-tion of welded and non-welded support conponents and restraints under Section IWF should be limited to those sup-ports exceeding 4-in. nominal pire size. Alternate Testinge Significant degradation of support conponents s 4.in. WS would be readily observable during visual examinations per-formed while pressure testing these systems in accordance with IWD-5220. III-23
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SYSTEM PfESSWE TEST The General RegJirements of baction AI, luA-5000 apply to the System Pressure Tests for Safety Class 1, 2, and 3 couponents. The specific require-monts are described in le3-5000, IWC-5000, and 1e0-5000 respectively. Teole H-1 sunumeriMS the system tests and their regJired pressures. where exceptions to code regJirements are necessary, a Relief RegJest desis is referred to in the back of this section. Portions of Safety-Related Systems qualifying under the exemption criteria of their respective sub-articles are not addressed. Prior to commencing any Wstem Pressure Test, the effect of isolating the system for testing shall be evaluated. If the loss of system function causes degr.ded plant operation or a potentially unsafe condition, the test shall be postponed until plant conditions allow for the system isolation without these effects. These conditions will tJe documented in the Inservice Inspection Records. 1 Vermont Yankee was not designed to A9E fracture toughness criteria, and the requirements of IWC-2530(a) cannot be met. Therefcre, as permitted by leC-5230(b) and IwD-5230, all systems will be hydrostatically tested at the anblent toeperature of the station water sources us6d to f Lil the lines. Individual system tests are represented in valve line-ro diagrams following Table H-1. system outline notes,
1. System valve line-ups represent regaired test boundaries. In the event of boundary valves not holding test pressure, the pressure boundary may be extended. However, the extended portion of the system is not sub-Jact to the examination.
Note s Care RJst be taken not to extend pressure boundaries into lower design pressure portions of systems. Pressure relief will be provided.
2. Any instrumentation along tested lines shall be valved out of service for each test. LThese may not be indicated in the valve line-up diagrams.)

3. Test pump connections can be moved to other locations for convenience.
JSHA.iO9.10.1/JSH
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System Pressure Tests
. Table H-1 Design Press or Test Press System Drawing No. Psv Setting Code Ref. Remarks (psig) (psig)
Class 1 Leekage Test I s - 5221 ~1000
------~ No pressure boundary drawing Reacter Coolant C191167 1250 Pd -Hytfro Test - - - following tables.
Pressure Snundary C191267 I W - 5222 1018 Class 2 fhR Discharge Piping P-1 450 Psv Functional Test Excludes open-ended lines to containment _I_WC_ _5221 _ _ _ _ _-212 _ _ _ _ _sgrey_h!!aders,.,_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Hydro Test Excludes open-ended containment spray lines. IWC - 5222 - 563 Excludes piping from pumps to valves
. V10-47A.0, and minimum flow bypass piping up to volves V10-@ A.D which is non-isolable from lower-pressure pump suction piping.
Included in suction test per IWA-5224(d). See Relief Re@est B3 sis H-19 for lines _________ _______ _R*-12A_end_12B _ _ _ _ _ _ _ _ _ _ _ _ __ _ Pneusatic Flow ~100 Applicable to containment sprey Test decreasing headers only. IWC - 5222 (d) teon release Suction Piping P-2 150 Psv functional Test I_WC_ _5221 . .' .as7 g___ - - . _ _ -. -_____.- --___ _ ---- IWC - 5222 188 Excludes open-ended 11aet from torus to velves V10-13A.D. Sac Relief Re @ est Basis H-1. Includes pump (fischarge piping to volves V10-47A-D and min, flow bypass piping to velves V10-16A and B. See Relief Re@est-Basis H-19. H-2
i System Pressure Tests l Table H-1 Design Press on Test Press System Drawing No. Psv Setting Code Ref. Remarks (psig) (psig) RCIC Functional Test Portions in steem tunnel are inaccesssible IWC - 5221 ~~~~~~~~ a1240 d; ring functionel test. - --- Pump Discharge to 1500 Pd - ~Hyd ~ ~o TisT ~ ~~ ~Niin!isc,TaEli Trim liwir pTe~sre p59 se
; O 13-20 P-3 IWC - 5222 165 tion piping. Included in suction test per i (RCIC-1) IWA-3224(d).
i i Pung discharge froll 1900 Pd Functional Test Located in steem tumel and inaccessible 4 W 13-21 to IWC - 5221 ~~~4~~~~ N% ~during functional test. - Reector P-15
~ - ~ " Hydro Tesi ~ ~ ~ Non!1 soTa617 poitToH TrEluinriW fir Test!--
(RCIC-8A) IWC - 5222 2375 See Relief Regiest Besis H-7 i rump ul w = w Functional Test Portion in Steen tunnel is inaccessible cbring
. from e 13-20 IWC 5221 ~1150 functional testing.
i to 6 13-21 and ---~ ---------------------~~- Y375--- j RCIC Test Connec- p-4 1900 Pd ~ ~HyUro Test
, tion to a 13 30 IWC 5222 l (RCIC-8B and 2) mion Tram Ri 150 Pd Functional Test Upstream of IWC - 5221 ~~~-~~~~ =17 ~~~~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~
6 13-18 (CST-3) P-9 ~ ~ Hydro Test ~ ~ ~ -$ IWC - 5222 6-25 Non-isolable from tank, test pressure per IWC-5222(b) + (c). 7 maan up oi . 150 Psy Functional Test Suction normally taken from CST tank daring Downstreen of 6 P-3 _ _I_WC_ _5_221 _ _ _, _ _ _m17_ _ _ . _srstem fugti_on_e1_te_sti g _ _ _ _ _ _ _ _ 13-18, from Torus Hydro TesE i Downstream of M IWC - 5222 165 Excludes non-isolable piping from Torus l 13-41, and from to @ 13-41.
, RCIC Condensate See Relief Recpjest Bases H-1 and H-17. ; Handling System l Downstream of V13-133 4 (RCIC-3, 7 and 14) i H-3
l l l System Pressure Tests Table H-1 Design Press on Test Press System Drawing No. Psv Setting Code Ref. Remarks (psig) (psig) RCIC (cont'd) 1250 Pd Functionel Test =990 Portion in steem tunnel is inaccessible .' xem '*Jpply. Upstream of M P-5 _ IE_ - 52_21_ _ _ ,, __iste_aml_, _d_urina functi_on_e1_,te_st._ _ _ _ _ _ _ _ _ _ _ l' 13-131 (MS-58) Hydro Test IE - 5222 1563 5 i Steen Supply 1250 Pd Functional Test (RCIC-4 MS-5B is included in steen supply fnJnctional ! Downstrees of (MS-58) IE - 5221
- - - " " - - ~ " " - ~ - ~ ~ -6 only1"5A,"-" " test " ~ -above. - - - " " - - * " - - - ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
O 13-131 and Tuttine Exhaust 150 Pd Hydro Test 186 MS-58 downstreen of G 13-131 is non-isolable { to V13-9 (RCIC-4,5A 1E - 5222 from lower pressure exhaust piping-and 6) See Reller Request Basis H-18.
. (MS-58,RCIC-4 Test excludes open-ended portion of RCIC-4 RCIC-5A,RCIC-6) P-6 from V13-9 to Torus, for dilcts the alternative IE-5222(d) open flow path test is accom-
olished durina functional testina.
Min. Flow Line 1500 Pd Functional Test (RCIC-9,RCIC-10) p.3 (RCIC-9) IE - 5221---~ ~1240
~"" - - - - - " -
i 150 Pd fiyHrE Test ElioTeEliTrisi lowir~p7esirsUre p59 sUcElin~ (RCIC-10) IE - 5222 165 plaing. Included in suction test per Im - l 5224(d). Excludes open-ended RCIC-10 piping { downstream of M 13-27, for which the alter-native IE-5222(d) open flow path test is acconclished dJring functional testino. l Piping to Lube Oil 1500 Pd Functional Test Cooler and Baromet- IE - 5221 =1240 - E isoTeEli Tr i lo dr p7eisuri p Jd sucT1 i
~ ~ - - - ~ ~ ~ " - -
ric Condensor, Up- p-3 fiV3ro Test , stream of PCV-13-22 Ir . 5222 165 piping. Included in suction test per (RCIC-11) Ig.5224(d), I 4 t
i System Pressure Tests Table H-1 Design Press or Test Press System Drawing No. Psv Setting Code Ref. Romerks (psig) (ps10) Functional test IWC 5221 ~50 RCIC (Cont'd) ---------- ------- ----------------------- Luce oil cooler n g191174 68 Psv RCIC-12 cannot be isolated from pump suction Related Piping Seet 2 (RCIC-12) Hydro test piping for 1.1 x Psv (75 psig) test due to Downstream of PCV 150 Pd IE 5222 165 check velve orientation. Piping is 150 pd. Ge9 13-23. _ ___ (RCIC-13) relief velves S-26 and S-27 and test et 165 tm.au-44 wm u J psIg suction test pressante. Test excludes open ended portion of RCIC-13 from V13-10 to torus, for which the alternative IWC-5222(d) open flow path test is accomplished daring functional testing. Core Soray Discharge Piping 375 Psv Functional Test ll".Tinau*dng CS Test Lines to
--@;-fia --- - = ' ' ' - - - - -----------------------
IWC - 5222 165 Non-isolable from lower-pressure pump suction G 26A + B and Mir piping. Included in suction test per Flow Bypass Lines Im-5224(d). Boundary of Min. Flow Bypass to R037-A+0. Line Test may be extended to M -5A+B to (CS-2A+B,CS-6A+B, P-7 facilitate isolation. Class 2 portion of CS-8A+B, CS-10A+B Test Line CS-6A+B downstream of normally CS-11A+B) closed M-26A+B is exempted from +est per Table IWC-2'40-1. Category C-H Note 7. Discharge Piping 1250 Pd Functional Test Included in CS dis @erge piping functional from 6 -11A+B to IWC - 5221 ~245
~ ~ ~ ~ - - - - ~ test above. --~~--~~~~~~~~~~~~~~~~~~~
W 12A+B. K6 Td --- (CS-3A+B) P-8 IWC - 5222 1563 H-5 1 i l
v. -- . _ _ . - _ . .
System Pressure Tests Table H-1 Design Press at Test Press System Dresing No. Psv Setting Code Ref. Remarks (psig) (psig) Core Sprey (cont'd] aucuon raping rron p.9 150 Pd Functional Test conducted dJring once-per-cycle CS sporger CST Upstream of Inc - 5221 --~ =5.5
~ ~ ~ ~ ~ ~ ~ ~
flush. Velves V14-8A+B
~~- -
Hydro Test ~i5n 1ToTaEliTronItinii, tist pressure pir-- P (CST-4, CST-27) IC - 5222 6-25 IWC-5222(b) + (c). Suction Piping from 150 Pd Functional Test Suction normally taken from Torus dJring CST, Dounstreen of IWC - 5221 ~5.5 system functional testing. Lined up to CST v14-84+B, and from P-7 ~~y~~ onl forgry~~~~~~~~~~~~~~~~ r flush.
~~~~~~~~
Torus, Dounstream ~ Yydro Test ~ ~ ~ of MOV 14-7A+B Inc - 5222 165 Excludes non-isolable piping from Torus to (CS-1A+0, CS-74+B) KN 14-7A+0. See Relief Request Basis H-1. Stand by Liquid control Suction Pipin9 150 Pd Ftmetional Test 10 Upstream of valve Ist---- -~~ 5221 ~ ~
~~~~~~~~
V11-11. p.11 ~~ Hydro Test ' EnTisoleEle t Trom tanii, tisT prissure per- ~ ~ IWC - 5222 3-5 IWC-5222(b)+(c). Tank included in visual examination. Suction Piping 150 Pd Functional Test 10 from V11-11 and p.12 ~~ IWC - 5221
- ~~~ ~~~~~~~~ ~~~~~~~~~~~~~~~~~~~~~~~~
V11-41 to Pump Hydro Test Iut - 5222 3-5 See Relief RegJest Basis H-2. u2 w = va rapa"9 1450 Psv Functional Test 0" m V
'* C.,_5_ ___ __"lM _ _ _ _S~
T ~R1 Te7 E E L TIT M .~ ~ ~ ~ ~ ~ ~ ~ ~ SLC-11 to valve p-13 Inc - 5222 1595 v11-36 H-6 l
System Pressure Tests Table H-1 Desi p Press on Test Press System Drawing No. Psv Setting Code Ref. Romerks (psig) (psig) See Relief Re@est Basis H-4. Piping to M Sys. c191177 150 Pd Fmetional Test Safety Nnction is as m extension of primary from Reactor Bldg
Floor Drains, wi IWC - 5221
- g yesi ~ ~ ~ ~ ~ ~44 f(R~g -~ containment. Process medium in this service is contalnment atmosphere, 21ch would m ly Dounstreen of Inc - 5222 ( be present in the event of a line break inside valves 3194+B (50.] c191172 containment. A functional test is not per-and 319C 9 (North) formed, and a pressure test is conducted at 440sio & rina the Troe C leek test.
See Reller Re@est Basis H-5. Drywell Sump % C191177 150 Pd Functional Test Safety function is as an extension of primary Discharge from Sheet 1 IWC - 5221 containment. Process medium in this service Ndk -~ . Penetrations X-18 -
- "" Fro ~TesI - - - ~ ~ _44 dig is containment atmosphere 21ch sculd only and 19 to valves Ist - 5222 (sir) be present in the event of a line break inside A0-83 and AD-95 containment. Therefore, a functional test is not performed, and a pressure test is con- &cted at 44 psig during the Type C leek test.
Feeduster P-14 + 15 1900 Pd F metional Test Not re @ ired System is re@ ired to operate & ting normal IWC - 5221 reactor operation and is therefore not within t_he_,scoge_of IE_ ; 52101el(1) _ _ _ _ _ _ _, _
- _ Hy
_ E Test- -. IC - 5222 2375 Reector Water Claenuo Discharge Piping p.15 1900 Pd Functional Test System is normally operating & ring reactor IWC - 5221 Not re@ ired operation and is therefore not within the _scoee_of 1E_ : 121oisl(1) _ _ _ _ _ _ _ _ _ _
- _Hyd c- ___ -______-
_ ~I"TesE IWC - 5222 2375 Non-isolable portion included in FDW test. See Relief Re@est Basis H-6. H-7
System Pressure Tests
Table H-1 Desi p Press on Test Press System Drawing h Psv Setting Code Ref. Romerks (psig) (psig) 9 teCI Puup DTs'5erge to P-17 1250 Pd Functional Test 6 23-20 gut - 5221 ~~~~~~~~
~1150 ~ ~ " - " ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
(tPCI-2) ~ ~~@-TesE ' - I C - 5222 110 Non-1531able from louer pressure suction piping. Included in suction test per IWL - 5224(d). Pump Discharge fm 1900 Pd Functional Test 623-20 to e 23- IC - 5221 -1150 Portion in steen tunnel is inaccessible 19, and IfCI Test ~~~g~~~~~~~~~~~~~~~~~~ dJrin fm ctional test.
~~~~~~
Line to 6 23-21 OfCI-158 and 5) P-16 ~~@-~T-~~ Tes It - 5222 2375 rw -n = = w F m ettonal test -1130 Portion in 5 teen tunnel is inaccessible dJring From 6 23-19 ggC-5221- fkJnctional test to Reector. P-14 19G) Pd ~"hido Test ~ ~ ~
~~--"~ ~6 1soTaEli poTtToK TrEluM17s FbW Te:irt!--
IC-5222 2375 See Relief Request Basis H-7. Liim hw wi Functional Test ' LDstreme of 6 150 Pd _ _I_E_ _5_221 _ _ _ _ _ 4_3_ _ _ _ __- 23-17 (CST-1) p-9 Hydro Test _ Non-Isolable _ _ _ _ _ _ Tr_om_terb tesE _pr_es_su_re_p_er_ _ _ Iuc - 5'22 6-25 I C-5222(b) + (c). Suction from CST 100 Psv F m ctional Test Suction normally taken from N tank dJring Downstreen of 6 P-17 Iuc - $221 =23
~ ~ ~ " ~ ~ system functional test 23-17, from Torus, -"" @ ~TesE " ~ _ExcTuBes non-Ts31& IpIno Te p &. _ Troe Torus t3 - -
Dounstrees of e IC - 5222 110 m 23-58. See Relief Re< pest Bases H-1 and 23-56, and from H-17. tPCI Cordensate Handling System. Downstream of v23-130 ard 131. tFCI-1,tFCI-4, tfCI-12 and 17) _
System Pressure Tests Table H-1 i Design Press on Test Press , System Drawing No. Psv Setting Code Ref. Romerks (psig) (psig) i , Steen Seply. W - 1250 Pd Functional Test =1000 Portion in steen tunnel is inaccessible I streen of Turbine Iuc - 5221 ~~_(--~~~ steen) --
&rin g--~-------~~~~~~~~~~-
functional test. I Stop valve (MS-48) P-18 --@-~E-~- Tes 1563 i Iut - 522 i Steen Se ply Doun- 1250 Pd Fmetional Test 4 MS-48 piping is included in steen supply stream of Turbine (q5-48) IWC - 5221 04PCI-3 only,)- ' functional test above. 1 stop velve. Turbins - r e To TisE --- m3 Is e=WsTrisi Ef sT 5 TeTv7 Ts E lioT dli Edmust Line to P-19 150 Pd Inc - 5222 188 from lower pressure exhaust piping. 4 V23-12 and Turbine (WCI-3, See Relief Re@est Basis H-18. i
. Drain Line to v23- pCI-16) Test excludes open-ended portions of
13. (45-48 W CI-3 from V23-12 and W CI-16 from V23-13 to W CI-3, W CI-16) Torus, for d ich the alternative open flow path test permitted by IWC-5222(c) is ac-complished Wring functional testing.
i i Min Flow Line 1250 Pd Functional Test (W CI-6, W CI-7) p.17 (WCI-6) a=1150
. - -Ist - 5,221g--- - ------
g y 3 g g 3 3 ,- 3- 979-(WCI-7) Iut - 5222 110 piping. Included in suction test per I n - 5224(d). Excludes open-ended W CI-7 piping downstreen of her 23-25, for thich the alter-native IuC-5222(c) open flow path test is accomplished &rina functional testina. Booster to Mo'd 500 Pd F m etional Test Pump Interconnect- Ist - 5221 -~~~---~
-500 ing Piping p.gy Hydro TisE - ~ - 61soTEli Trim' 17.er p7essuri pui5 TEtToK
. Ist - 5222 110 piping. Included in suction test per Im-5224(d). _ ? 1 H-9
System Pressure Tests Table H-1 Desip Press on Test Press System Drawing No. Psv Setting Code Ref. Romerks . (psig) (psig) Piping to Lahe Oil 500 Pd Cooler ord Cland p-18 Functional Test Seal Condenser e I C - 5221 -- ----~
-500 Upstrees of PCV23-50 DfCI-8) ~@-"Tisi - - -" esiin!1ToTeE1776m liGr FesGG piEi sitToK I E - 5222 110 piping. Included in Suction Test per Ium-5224(d).
Lune uil suoirs. 125 Psv F M ional Test ~40 Gland Seal Conden- P-17 Inc - 5221 -------- ser ns Related - Trido tist--- >TpTr fceiinot V Tsalated* 6c3 Tase sucTien-Piping. Dounstrees IC - 5222 110 piping for 1.1 x Psv (138 psig) test due to . of PCv25-50 check velve orientation. Included in Suction (ifCI-9.IfCI-10 Test per Iun-5224(d). IfCI-11.>FCI-12) Condensate Storage and Transfer Functional Test 500,000 gallon cepecity constantly under Condensate Storage p.9 Atmospheric I C - 5221 - - -Q-- - - - static 1-TW ggy h heedgg of 6-25pMm._ mod----
- -@- gy - - **
I E - 5222 '6-25 pressure per IC -5222(b). Transfer Piping p.9 150 Pd Included in system suction tests. See from CST to EECS Functional Test 4-25 specific sections for pressure developed - Systems I t - 5221 during test. Hydo Test
" T25 - - - 96n isoTe617 pdtTo n s ti717 stet f7 - - -
IC - 5222 valve, test pressure per IWC-5222(b) and (c). Service and Functional Test Safety function is as an extension of primary Instrument Air G191160 100 Pd Inc - 5221 N4L---- containment. Process medium in this service S eets 3 " PneusetTe T~esT - - - 44 is canteinment atmosphere, which would only 4 ed 6 Iuc - 5222 be present in the event of a line break inside IC - 5210(b) containment. Therefore, a functional test is not performed, and a pressure test is con-
&cted at 44 psig daring the Type A or C leek test.
See Relief Request Basis H-8.
t l l l l l i System Pressure Tests l Table H-1 l Desip Press on Test Press Syste* Drasing No. Psv Setting Code Ref. Reserks - l (psig) (psig) I Atmospheric Control Functional Test l
- See - - Relief - - -Re C191175 100 Pd --Iut - 5221, g - - Atmospherie - - --- gsest Basis H e.
IC - 5222 M See Reller Regsest Basis H-9. Ist - 5210(b) Contal e . t Functionel Test l Seelig Systes c191 W M Pd _ At_no g le .. _See_R_ellef Reggst _Ba_s1s H_-10 _ _ _ _ _ _ _ _ _I_uC_ _5221 - Pneumatic Test _ l IWC - 5222 44 See Relief Reesest Basis H-10. I C - 5210(b) Included in CAD test. Containment Functional Test Air Dilution W-E 150 Pd _ _ _-17_ _ _ -. _Se_e_R_e11ef Reggst _Se_ sis ti-11 , _ _ _ _ _ _ I C - 5221 - i ! Injection Piping G32 2 M tTc TesE _ f including Ms Inc - 5222 M See Relief Reesest Basis H-11. make up lines I C - 5210 (b) Se ele P101 N w-E 56 Pd Functional Test 832-2 - _I_ut_ _5221_ _ _ _ At3 gpheric _ _See_R_e11ef Reggst _Be_ sis g4-11 _ _ _ _ _ _ _ Pneumatic Test IC - 5222 44 See Relief Regsest Basis H-11.. Iuc - 5210 (b) vent Pipig W-E Functional Test G32-2 % Pd _ _I_uC_ _5221 - _ A_tmospherie _ _See_R_e11er Reguest _8e_s1s _H-11 2 ._ _ _ _ _ _ _ Pneumatic TesE _ IEC - 5222 44 See Relief RegJest Basis H-11. Inc - 5210(b) H-11
1
'Systee Pressure Tests Table H-1 Design Press on Test Press Systee Drawing No. Psv Setting Code Ref. Romerks *
(psig) (psig) _Cm Syste" Functional Test See Relief RegJest Basis H-20. Scram Discharge G191170 1250 psy IaC - 5221 -1000
- -----~' - ~ ~ ~ ~ - - - - - - - - - - - - - - ~ ~ ~ ~ - -
Voh Mrs and K@d - -- Instrument volumes IC - 5222 1563 See Relief Reesest Basis H-21. Drive meter, Cheng- G191170 1750 Pd System is regJired to operate at pressures ing meter and Cool- between 1040 and 1500 psig daring reactor ing unter Piping Finctionel Test operation, and is therefore not within the ed Hydraulic Inc - 5221 - ~ - 5m---- - sco ge or ric-5210 (a)L11 Control thits ~ % ro TesE - - - Test ptessure is Tor portTon f sysIem sisich-- IWC - 5222 1018 is non-isolable from reactor coolant system. For belance of system, see Relief RegJest Basis H-12. Staney Gas c191236 -20 inches ug, Finctional Test Treeteent +2 psig Pd _ _I_C_- 5721_ _ _ _Atmo_sgerip,, _See_Re_Ilef Reguest _Be_ sis _H-13. _ _ __ _ _ _ _ a Hydro TesE l Iut - 5222 Atmospheric See Relief Regest Basis H-13. 1 Iuc - 5210(b) Recire % Functional Test Portion in drywell is inaccessible during 9 Seal Purge c191159 IuC 5221 1050 functional test System 9: 5 1050 Pd __________ ,_______ _______., _______________ I Hydro Test 44 (air) See Relief RegJest Basis H-16 i Iut 5222 I I H-12
.. . . . . . _ . . , . - ~. . - - - . . - .. _ . . , .
a System Pressure Tests Table H-1 Design Press on Test Press Syste" Drawing No. Psv Setting Code Ref. Romerks (psig) (psig) Class 3 . Fuel Pool Cooling P 20 150 Psv Inservice Test 110 and Cleanup 221
- _ iud _5, g - - -------- - - -
G T A 6 T 61 d e E i d f 6s E A T1-le - 5222 165 be thitted to the flow test of Im-5244(c). Buried isolable piping shall be subject to the flow test of IM-5224(a). Reactor unter . Clearne Discharge Piping P-21 1450 Psv Inservice Test 1020 from V12-29A+9 to I W - 5221 - v12-62 - go7o Tisi - - - Tis!SEnieTy sKeT1biideHTo vT2-63-- Tinci IW - 5222 1813 V12-62 is a check velve. Discharge Piping 1250 Pd Inservice Test Included in discharge piping test shown above. from Pumps to P-22 I W - 5221 -------- - V12-294 and B - -@ isi T - - - NiinIlioTeEliTrieTo=TrTpieTiiFe pis5 sucEisn 1 2 - 5222 1563 oloina. Included in suction test. Suction Piping P-21 1250 Pd Inservice Test .~1000
- _Ie_ _5221 - - __ - - ___ ________ -----
I W - 5222 1563 H-13
-m 4
9
+
System Pressure Tests Tr%1e F-1 Design Press on Test Press System Drawing h Psv Setting Code Ref. Romerks . - (psig) (psig) Service unter Samply Subsystem 150 Psv Inservice Test .10C from 2 Pumps to P-24 1 2 - 5221~~~' ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ IW IUIU's 5,6,7,B,9 ~ ~ W Test 17A and B,IHt SW Im - 5223 137.5 See Relief Reesest Basis W14. Pumps Diesel Gen- P-25 erators, LPS and IWCCW Heat Ex-changers. Also in-cludes Alt. Coolirq . Steply upstream of W h le and e isolable piping from fHt SW pumps to valves V70-37A and B and V70-394 aruf B Return Subsystem 125 Pd Inservice Test
93 Eacludes 3El Psv iW - 5221~~~ ~~~~~~~ ~ " " ~ ~ ~ ~ ~ " ~ ~ ~ ~ " ' ~ ~
fHt SW discharge - ,'tyHra Test piping dounstream p.30 ge . 5223 137.5. See Relief RegJest Basis b le, of V70-37A and B and V70-394 and B. Includes Alt. Cooling Supply / Return from V70-le to v70-17 and 11. All other return piping not includ-able in supply side : hydro is non-isolable as shoun in Drawing P-30. H-14
System Pressure Tests Table H-1 ;.
Design Press or Test Press System Drawing No. Psv Setting Code Ref. Remarks (psig) (psig) Olesel Air Start c191160 255 Psv Inservice Test Performed with system in staruby at maximum Sheet 7 _ 1 __ _ _ 250 _ _ _ _ gw_ rating gr_es_sur_e_of,250 gsh _ _ _ _ _ _ _ IND - 5223 280.5 I W - 5210(b) HPCI Steam Drain Lines 1250 Psv Inservice Test -1000 to Edmust Steam p.19 IW - 5221 (steam) Drain Pot RyH 6 Teit---- Won-TsoliibTe rioE T Ge7 prisiu7e turE Ge e7 - IO - 5223 186 haust piping, will be tested iring exhaust pipino hydro. See Relief Request Basis H-18. Diesel Fuel 011 100 Psv Inservice Test ~6-10 Pung discharge P-27 ItO - 5221 - - - - - ' - - - to V14A and B
- -~ -PressureTesEToT11 To racTITtitiTeitTrqinH To avoTd cinfaEin -
IND - 5223 110 (air) ating hydro test rig with oil, a pneumatic I O - 5210(b) pressure source will be used. Inservice test ~6-10 Pump suction from P-28 150 Pd Ito - 5221 ~ pYeisUre Test (c1T F I f 15 -- - - 6n'1soTaE17 7 6m tinii,- tisT prissuTe 5r- - - F.O. Tank to Pump Its 5223 IWC-5223(b) and (c). Advanced Off Ces VY-E-75-001 c20 Pd Inservice Test See Relief Request Basis H-15.
--Ito - 5221 -. -- -
1 . - - - - - - - - - - - - - - - - - - - - - - - IND - 5223 See Relief ReqJest Basis H-15. Ito - 5210(b) Reactor Building 150 Psv Inservice Test 85 Closed Coo 11n9 Ito - 5221 ~~~~~~~~ ~~~~~~~~~~~~~~~~~~~~~~~~ Water p_29a-d ~ Rv3 6 Test"~ ~ ~ ~ Ito - 5223 165 H-15
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, a Number: H-l' 4 -
Systems: Residual Heat Removal Line Suction and discharge piping Core Spray . from Torus to first shut-off
-High Pr. essure Coolant Injection . valve.
Reactor Core Isolation Cooling
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Safety Classe . 2, Basis for' Relief' Piping-is non-isolable from primary containment, which has e design pressure of 56 psia.. Alternate Testing, Piping experiences a static head pressure of. 5-6 psig with the torus filled to its normal operating level. Visusl'exa-
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4
. RELIEF REQUEST BA5IS Number: H-2 System: ' Standby Liquid Control Line: . SLC - 2, 3, 4 and 5 Downstream of valves Vll-11 and V11-41 to SLC pumps.
Safety Classe . 2 Function:- M ium pentaborate suction from SLC tanks. basis for-Relief This piping has no test connection between the valves and the positive-displacement SLC pumps. The suction piping upstream of the valves is open to atmosphere through the SLC tanks, and provides no boundary.
. Alternate Testing: Piping experiences a static head of 3-5 psig from the SLC tank, since Vll-11 is normally open. Evidence of leakage would be detectable during surveillance testing and operator rounds.
H-51 - -
si - RELIEF RECUEST BASIS
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Number: H-3 Systems' Standby-Liquid Control Line(s): SLC-11 between valves s V11-15 and V11-16. Test connection downstream of V11-16 to V11-36. Safety Class: 2 Function: Sodium pentaborate injection to reactor vessel.- g Basis for Relief: Pressurization of this piping to 1.10 x Psv (1595 psig) would also pressurize the Class 1 portion of SLC-11 to valve ~ V11-18. The latter piping forms part of the reactor coolant pressure boundary, and as such is only required to be. tested at 1.02 x P0 (1018 psig). Alternate [ Testing: This piping will be hydrostatically tested during the Safety Class 1 primary coolant pressure boundary hydro. V 6 RELIEF REQUEST 8 ASIS Number: H-4 s System: Radwaste .Line(s): -Piping to RHR Sys. from RX Bldo floor' drains downstream of valves 319A-0. Safety Class: 2 ;
-Function: Forms part of Primary Containment Isolation System ~
Basis for Relief: Safety function of the piping is to contain primary contain-ment atmosphere. Piping integrity in this service is ade-quately demonstrated by periodic pneumatic leak rate testing. _ Alternate Testing: Containment Isolation portions of this-system are tested to 44 'psig during the Type **C' Leak Rate Test each refueling and are tested during the Type **A" Leak Rate Test every . 3-1/3 years. J f s H-52' L
w - - 7 a:~~
, 3:
n, ~; ,. 1 q X 1 0 4 .
, g A ,' RELIEF REQUEST' BASIS e ~
Number: H-5
~
System: Radwaste Lines Drywell Sump Pump Discharge from Penetrations X-18 and X-19 to Valves % A0-83 and A0-95. t Function: Forms part.of' Primary. Containment Isolation System. Basis-for Relief: Safety function of the piping is to contain primary contain-ment atmosphere. Piping integrity in this service is ade-quately demonstrated by periodic pneumatic leak. rate testing. ~ Alternate Testing: Containment Isolation portions of this system are tested to 44 psig during the Type **C'* Leak Rate Test each refueling and are tested during the Type A* Leak Rate Test every 3-1/3 years. RELIEF REQUEST BASIS Number: H-6 System:. Reactor Water Cleanup Line Discharge (CUW-55) Safety Class: 2 Function: Return demineralized water to reactor ccolant. Bases for Relief: The portion of CUW-55 between V12-63 and V12-62 cannot be isolated from the Safety Class 3 line CUW-54. Extending the 1.25 x Pd (2375 psig) test boundary beyond V12-63 would over pressurize CUW-54, which require testing at 1.25 x Psv (1813 psig).
' Alternate-Testing: The portion of CUW-55 between V12-63 and V12-62 will be included in the 1.25 Psv test of CUW-54.
H RELIEF REQUEST B'A SIS JNumber: H-7 Systems -HPCI, RCIC Line(s): HPCI 15A RCIC 8A Safety Class: 2 Functions : HPCI and RCIC Pump Discharge to Feedwater System Basis For Relief: - Portions downstream of HPCI MOV 23-19 and RCIC MOV 13-21 'are non-isolable from feedwater piping. Alternate Testing: These lines will be tested during the feedwater system test. RELIEF REQUEST BASIS
~
Number: H-8
-System: Service + Instrument Air Line(s): Full System Safety Class: 2 Function: Forms part of Primary Containment Isolation System.
Basis. for Relief: Safety function of the piping is to contain crimary containment atmosphere. Piping integrity in this service is adequately demonstrated by periodic pneumatic leak rate testing. Alternate Testing: Containment Isolation portions of this system are tested to 44 psig during the Type **A Leak Rate Test every 3-1/3 years. H-54
1
. RELIEF REQUEST BASIS Number H.9 ,
System s Atmospheric Control Line(s). Full System Safety Class e 2. Function: Forms part of Primary Containment Isolation System.
. Basis for Relief: Safety Function of the piping is to contain primary contain-ment atmosphere. Piping integrity in this service is ade-quately demonstrated by periodic pneumatic leak rate testing.
Alternate Testing. Containment Isolation Portions of this system are tested to 44 psig during the Type "A" Leak Rate Test every 3-1/3 years. RELIEF REQUEST BAdIS
- Number H-10 Systems Sampling Line(s): Containment Air . Safety Class 2+3 , -Function: Forms part of Primary Containment Isolation System.
Basis for Relief: Safety Function of the piping is to contain primary contain-ment atmosphere. Piping integrity in this service is ade-quately demonstrated by periodic pneumatic leak rate testing. Alternate Testing: Containment Isolation portions of this system are tested to
.44 psig during the Type "A" Leak Rate Test every 31/3 years.
9
H-55 i
I-4 RELIEF REQUEST BASIS Numbers- H-11 System: Containment Air Dilution Line(s): Portions of system from Primary Containment penetration to the second outboard isolation valve. Safety Class: 2 Function: Forms part of Primary Containment Isolation System. Basis for Relief: Safety function of the piping is to contain primary contain-ment atmosphere. Piping integrity in this service is ade-quately demonstrated by periodic pneumatic leak rate testing. Alternate Testing: Containment Isolation portions of this system are tested to. 44 psig during the Type "A" Leak Rate Test every 3-1/3 years. RELIEF REQUEST BASIS I Number: H-12 System s CRD Hydraulic Line(s): Orive Water, Charging Water and Cooling Water, Piping and Hydraulic Control Units Safety Class: 2 Basis for Relief: Isolation of this piping for hydrostatic testing would involve repositioning and independent verification of approximately 450 valves before and after the test. The slight increase in reliability assurance provided by a once-per-interval 1.1'x Pd hydro test vice that provided by the much more frequent on-line inspections and surveillance at , operating pressures in excess of 1000 psig does not justify the effort required to place the system in the test con-figuration. Alternate Testing: Primary coolant boundary portions of this piping will experience a hydrostatic test pressure of 1018 psig during the reactor vessel hydro. The balance of the system func-tions at a normal operating pressure of between 1040 and 1500 psig and any evidence of leakage would be detected by routine operator surveillance. H-56
RELIEF REQUEST BASIS Number: H-13
-System:- Standby Gas Treatment' Line(s): Containment purge lines.
to SBGT Units. Safety Class: 2 Function: ' Forms part of Primary Containment Isolation System. Basis for Relief: Safety function of the piping is to limit airborne fission product release to environment. Piping-integrity in this service is adequately demonstrated by periodic pneumatic leak rate testing. Alternate Testing: Containment isolation portions of this system are tested'to 44 psig during the Type "A Leak Rate Test every 3-1/3 years. Duct work portions of system are outside the scope of the code. RELIEF REQUEST BASIS Number: H-14 System: Service Water Line(s): Supply piping between valves V70-5A and 58. Common return piping for redundant trains of plant safety systems. Safety Class: 3 runction: Supply piping between valves v70-5A + 58 provides pressuri-zation for Fire Protection System. Return piping provides removal of plant waste heat. Basis for Relief: Isolation of this supply piping for testing would simulta-neously exclude the Fire Protection System from pressuriza-tion by the Service Water pumps and the station fire water pumps, effectively disabling the Fire Protection System for the duration of the test. Isolation of the common return piping would disable both trains of several plant safety systems for the duration of the test. At least one train of these systems must be operable, or available to operate, during all modes of plant operation, and Service Water is required to remove waste heat resulting from their opera-tion. AltOnate Testing: Since the Service Water System runs approximately 100% of (,. the time, routine operator surveillance would detect evi-dence of leakage from visible portions of the system. H-57
pr - . H RELIEF REQUEST BASIS Number: H-15
-Systems ' A0G Line(s): Guard Beds and Absorbers Safety Class: 3 . Basis for Relief: Gaseous Radwaste System must continuously' operate during all modes of station operation and cannot be isolated for testing.
Alternate Testing: System operates under vacuum. In-leakage would result in increased flow which would be detected by flow elements located downstream of vacuum pumps. . RELIEF REQUEST BASIS J Number: H-16 System: Recirc Pung Seal Purge System Line(s): All Safety Class: 2
-Function: Forms parts of Primary Containment Isolation System.
Basis for Relief: Safety function of the piping is to contain primary contain-ment atmosphere. Piping integrity in this service is ade-quately demonstrated by periodic pneumatic leak rate testing. Alternate Testing: Containment Isolation portions of this system are tested to 44 psig during the Type "A" Leak Rate Test every 3-1/3 years, and type "C" Leak Rate tested every year. H-58
RELIEF REQUEST BASIS Number, g_17 System. rPCI Line. Concensate suction, from MOV RCIC. WCI-17 anc RCIC-18 to check valves immediately downstream. Safety Class 2 and 3 Basis for Relief. Piping cannot be effectively pressurized from HPCIACIC side due to blockage by check valves, and cannot be pressurized from CST side due to check valves opening on flow from CST. Alternate Testing: Since MOV WCI-17 and RCIC-18 and associated CST manual shut
-off valves are normally open, this piping experiences a constant static head of 6-25 psig from the Condensate Storage Tank. Piping is not insulated and leakage would be visible during rout}}

ML20100E799

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