ML20040A894
| ML20040A894 | |
| Person / Time | |
|---|---|
| Site: | Peach Bottom  |
| Issue date: | 01/08/1982 |
| From: | Madara J PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC |
| To: | |
| Shared Package | |
| ML20040A890 | List: |
| References | |
| NUDOCS 8201220280 | |
| Download: ML20040A894 (89) | |
Text
{{#Wiki_filter:_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ 8 3,, .9 IJISERVICE INSPECTION REP 0lfP PHILADELPHIA ELECTRIC COMPANY 2301 Market Street Philadelphia, Pennsylvania 19101 Peach Bottom Station - Unit 3 Date: December 23, 1981 R. D. No. 1 Delta, Pennsylvania 1731h Inspection Date: March 6, 1981 to October 23, 1981 Commercial Service Date: December 23,1974 Gross Generating Capability: 1098 K4e Pennsylvania State Identification Number: ST h33411 National Board Number Assigned by Reactor Manufacturer: NB 390h Component Identification: See Attachment 1 - Summary of Examinations Abstract of Inspections Performed, Conditions Observed, Corrective Measures Recommended and Taken See: - Sur:mnry of Examinations, Tables One, Two, Three, Four and Five and Six - Summary of Indications dame of Inspector: Karl S. Russell, Jr. Name and Matling Address of the Inspector's Employer: The Hartford Steam Boiler Inspection & Insurance Company P. O. Box $0h Wayne, Pennsylvania 19087 I certify that the statements made in this report are correct and the examinations and corrective measures taken conform to the rules of the ASME Code, Section XI. Signed PECO Senior Engineer ISI Section N Mf /
- d88 Signature of PECO Plant Engineer-Maintenance \\
O._o M,"% -s z-Q V Date CERTIFICATE OF INSERVICE INSPECTION I, the undersigned, holding a valid commission issued by the National Board of Boiler and Pressure Vessel Inspectors and/or the State or Province of Pennsylvania and employed by Hartford Steam Boiler Inspection & Insurance Ccmpany of Hartford, Conn. have inspected the componente described in this Owners' Data Report during the period 3/6/81 to 10/23/81 and state that to the best of my knowledge and belief, the Owner has performed examinations and taken corrective measures de-scribed in this Owners' Data Report in accordance with the requirements of the ASME Code, Section XI. By signing this certificate neither the Inspector nor his employer makes any warranty, expressed or implied, concerning the examinations and corrective measures described in this Owners' Data Report. Furthermore, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or loss of any kind arising from or connected with this inspection. Date: [ b_ 9f / zwh0) Commissions $$ h/$f k MH \\ 'V National Board, ' State, Province and No. PORC_ Review & Approval '7 7WA- //f/P2-8201220280 820113 Date { {DR ADOCK 05000278 PDR r
e se e ATTACHMDfP 1
SUMMARY
OF EXAMINATIONS i
SUIO!ARY OF EXAMINATIONS During the period from March 6, 1981 to October 23, 1981, an Inservice Inspection was performed at the Peach Bottom Atomic Power Station Unit No. 3 Examinations were performed by qualified personnel of Southwest Research Institute, General Electric Company, Universal Technical Testing Laboratorica, East 9rn Testing and Inspection, and Philadelphia Electric Company. The following is a summa 7 of the examinations performed employing: PT - Dye Penetrant,10 - Magnetic Particle, RT - Radiographic, UT - Ultrasonic, and VT - Visual E nmination techniques. I. AREAS EXAMINED BY SOUTHWEST RESEARCH INSTITUTE: A. ClassIReactorPressureVesselWeldsandComponents(Quantity) 4 LongitudinalWeld(15)) CircumferentialWeld(6 MeridionalWeld(6)(1) Main Steam Nozzles MainRecirculationNozzles(6) FeedwaterNozzles(6)) CoreSprayNozzles(1 JetPumpInstrumentationNozzles(2) i Flange Ligaments (32) Stabilizer Bar Support (8) B. Class I Reactor Pressure Vessel Closure Head (CH) Welds and Components (Quantity) CircumferentialWelds(1) MeridionalWelds(2) HeadtoNozzleWelds(1) Nozzle to Flange Welds (1) CHNuts(31)) CHStuds(37 CHLargeWashers(31) CH Small Washers (31) Dryer Hold Down Brackets (1) C. Class I Pipe Wolds (Quantity) Main Steam Loop C (1) Main Recirculation Loop A (12) Main Recirculation Loop B (6) 1 Control Rod Drive H draulic Return (1) FeedwaterLoopA(7 Feedwater Loop B (h ResidualHeatRemoval-HeadSpray(9) ResidualHeatRemoval-InjectiontoReciro.LoopA(1) Residual Heat Removal - Injection to Reciro. Loop B ResidualHeatRemoval-ShutdownCoolingSupply(24)(16)
-. ~ i 2-C. ClassIPipeWelds(Quantity)-Continued l Reactor Water Cleanup (22 Baseline Evaminations) i CoreSprayLoopA(57BaselineExaminations)* [ j Core Spray Loop B ($h Baseline Examinations)* JetSprayInstrumentationLoopA(1) j r
- NOTE: First 12 inches of all longitudinal welds were inspected using ultrasonic techniques. Credit was taken for ASME Section III
) shop radiography of the remaining lon l accordance with Paragraph IWB-2100(b)gitudinal weld lengths in I D. ClassIIPipeWeldsandComponents(Quantity) i ResidualHeatRemovalHeadSpray(1) f l Residual Heat Removal Discharge - Pump D (1) i j II. AREAS EXAMINED BY G W N L ELECTRIC COMPANY: ) A. Reactor Pressure Vessel Internal Components (Quantity) Guide Rods (2) Feedwater Spargers (6 Baseline Examinations) i Core Spray Sparpra and Piping (2) Top Core Guide (All) SurveillanceSampleHolders(3) i i TopofShroudArea(All) CladdingPatches(3) l Jet Pumps (20) i ShroudAnnulusRegion(100%) j ManholeCo'ars(2) B. Reactor Pressure Vessel below Core Plate Components (Quantity) f CoreLocation26-03(Peripheral Core Location 30-31 (Mid-Plane)) J i III. AREAS EXAMINED BY UNIVERSAL TECHNICAL TESTING LABS, INC.: A. ClassIPipeVelds(Quantity) MainRecirculationLoopB(6) MainRecirculationLoopA(9 i ) i, i a l I I r i h ,__r,. _ _,.,,. - - - ~ - .-.-,-_-.--m-.,, - - -,,., _ _ -e.__.-_y
IV. AREAS EXAMINED BY PHILADELPHIA ELECTRIC COMPANY: A. ClasoISpringHangers(Quantity) MainSteam(3) MainRecirculation(12) Feedwater(9) ResidualHeatRemoval(1) Reactor Water Cleanup (3) ReactorCoreIsolationCooling(7) f Core Spray Cooling (h) High Pressure Coolant Injection (3) B. Class I Valve Bodies (Quantity) f ResidualHeatRemoval(1) Reactor Core Isolation Cooling (1)) l HighPressureCoolantInjection(1 O. ClassIPressureRetainingBolting(Quantity) a. Valves MainSteam(6) MainRecirculation(h) Feedwater(1) ResidualHeatRemoval(8) Reactor Water Cleanup (3) 1 Reactor Core Isolation Cooling (2) CoreSprayCooling(6) HighPressureCoolantInjection(3) b. Pumps MainRecirculation(2) c. Piping Main Recirculation (2) ReactorPressureVesselHead(2) d. RPV Closure Head Bushings (6) D. System Pressure Leakage Test (Quantity) I l ClasaIPressureRetainingComponenta(100%) i E. SystemHydrostaticPressureTest(Quantity) i Core Spray Loop A and B (Safe End to First Isolation Valve) Main Recirculation Loop A and B Pump Discharge Valve Bypass Cap and Flange Welds ReactorWaterCleanup(ShutdownCoolingSupplytoSecond l Isolation Valve) CRDScramDischargeVolumePiping(Modifications) ) I l
F. Class I Pipe Welds (Quantity) MainRecirculation(6) Feedwater(1) Residual Heat Removal (h) Core Spray (2) Jet Spray Instrumentation (1) V. AREAS EXAMINED BY EASTERN TESTING AND INSPECTION, INC.: (Base Line Examinations) A. ClassIPipeWelds(Quantity) a. Scram Discharge Volume Piping CircumferentialWelds(28) B. Pressure Vessel Wolds and Components a. Scram Discharge Volume Tank Nozzle to Vessel (2) VI. AREAS EXAMINED BY REACTOR CONTROLS, INC.:* A. ClassIPipeWelds(Quantity) a. Scram Discharge Volume Piping CircumferentialWolds(24)*
- NDPE: Credit was taken for ASME Section III construction radiography on welds 3-NSV-2h through 3-NSV-3$ and 3-SSV-8 through3-SSV-19inaccordancewithParagraphIWB-2100(b).
B. Pressure Vessel Welds az:d Camponents (Quantity) a. Scram Discharge Volume Tank CircumferentialWelds(2)*
- NOTE: Credit was taken for ASME Section III construction radiography on welds 3-TSV-1 and 3-TSV-2 in accordance with ParagraphIWB-2100(b).
..__ __,._.. - ___..... m..- - -.,._.. _....... _ _ _ [j I ? l i 4 I. I i, a e 1 4 9 i 1, I 't i -t i f 1 I l 3 s ATTACILMENT 2 ) Summary of Indications J + a .i I f 1 a t J l i 1 l 4 4 l 1 i k i 3
i ~
SUMMARY
OF INDICATIONS i As a result of the examinations performed by Southwest Research Institute, General Electric Company, Univoraal Technical Testing Laboratorica, Eastern Testing and Inspection, and Philadelphia Electric Company during the March 6, 1981 to October 23, 1981 Inservice Inspection of Peach Bottom Atomic Power l Station, Unit No. 3, the following indications were observed: i I. INDICATIONS OBSERVED BY SOUTHWEST RESEARCH INSTITUTE: The manual UT examination of Class I and Class II components revealed i numerous insignificant and geometric indications as well as reportable " lack of penetration" indications in five welds and one weld containing i " linear" indications. The " lack of penetration" indications were found in core spray hanger lug welds number ih-A-38HL-1,1h-A-38HL.-2,14-A-38HL-3, ( 1h-A-38HL-h, and 1h-B-36HL-2. As the result of a baselino examination performed during the modification of this system, subsequent to a welded repair, the five welds roccived a sa?1.sfactory baseline examination. The " linear" indications were found in reactor water cleanup pump suction line l weld number 12-0-12 and were confirmed using radiographic techniques, i Subsequently, the system was modified eliminating this wold and a satis-factory baseline examination was performed. II. INDICATIONS OBSERVED BY GSNERAL ELECTRIC COMPANY: No reportable indications were revealed. III. INDICATIONS OBSERVED BY UNIVERSAL TECHNICAL TESTING LABORATORIPS, INC.: No reportable indications were revealed. L i IV. INDICATIONS OBSERVED BY PHILADELPHIA ELECTRIC COMPANY: Reportable liquid penetrant indications were observed on three Class I examination areas. The three areas - main recirculation weld number 2-BHA-$, core apray weld number 1h-A-28, and jet pump instrumentation weld number J-PA-1 had indications that were linear in configuration. Subsequent to minor maintenance with a flapper wheel, all three areas were natisfactorily re-examined. The examination of Class I componenta revealed reportable " linear" indications in two areas. The first area, main recirculation pump discharge pipe hanger number H-9-1, 2, had a " linear" indication in one support to structural stogl attachment veld. Subsequent to a welded repair, a satisfactory re-examination was performed. This repair was performed per PECO Maintenance Procedure M2.16 and was not an ASME Section XI repair. The second area, residual heat re-moval valve number 10-81 A, had numerous " linear" indications in the stellite overlay of the valve gate. Following a machine lapping repair of the gate, the valve was reassembled and a new gate was ordered for installation during a future refueling outage.
m V. INDICATIONS OBSERVED BY EASTERN TESTING AND INSPECTIONS, INC.: (BASELINE EXAMINATION) No reportable indications were revealed. P
e e 4 TABLE ONE l DETAIL OF EXAMINATIONS PERFORMED BY SOUTHWEST RESEARCH INSTITUTE ?
TABLE ONE IFTAIL OF EXAMINATIONS PERFORMED BY SOUTHWEST RESEARCH INS'IfrUTE ASME ASMS SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD REACTOR PRESSURE VESSEL WELDS AND COMPONENTS (SeeAppendixA,FigureA-1) Circumferential Wolds i B1.2 B-B RPV-01 5% of Wold Length UT B1.1 B-A RPV-C2 % of Wold Length UT B1.2 B-B RPV-03 5% of Weld Length UT i B1.2 B-B RPV-Ch 5% of Weld Length UT B1.2 B-B RPV-05 5% of Wold Length) UT B1 3 B-C RPV-06 331/3%ofWeldLength) Longitudinal Wolds B1.1 B-A RPV-V1A 10% of Wold Length UT B1.1 3-A RPV-V1B 10% of Weld Iength UT B1.1 B-A RPV-V1C 10% of Wold Length UT B1.1 B-A RPV-V2A 10% of Weld Length UT B1.1 B-A RPV-V2B 10% of Weld Length UT B1.1 B-A RPV-V2C 10% of Weld Length UT B1.2 B-B RPV-V3A 10% of Wold Length UT B1.2 B-B RPV-V3B 10% of Wold Length UT B1.2 B-B RPV-V3C 10% of Weld Length UT B1.2 B-B RPV-VhA 10% of Weld Length UT B1.2 B-B RPV-VhB 10% of Wold Length UT B1.2 B-B RPV-Vh0 10% of Weld Length UT B1.2 B-B RPV-V$A 10% of Wold Length UT B1.2 B-B RPV-V$B 10% of Wold Length UT B1.2 B-B RPV-V$C 10% of Wold Length UT Meridional Welds B1.2 B-B RPV-MA 10% of Weld Length UT B1.2 3-B RPV-MB 10% of Wold Length UT B1.2 B-B RPV-MC 10% of Weld Length UT B1.2 B-B RPV-MD 10% of Weld Length UT B1.2 B-B RPV<ME 10% of Wold Length UT B1.2 B-B RTV-MF(10%ofWoldLength UT
TABLE ONE (Continued) ASME ASMS SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD REACTOR PRESSURE VESSEL (Continued) (See Appendix A, Figure A-1) j Nozzle to Shell Weldn B1.14 B-D N30 UT B1.h B-D NhA UT B1.14 B-D N14B UT B1.14 B-D Nhc UT B1.14 B-D NhD UT B1.14 B-D NhE UT B1.14 B-D NhF UT B1.14 B-D N5A UT B1.14 B-D N1B UT B1.14 3-D N2A UT B1.14 B-D N2C UT B1.14 B-D N2F UT B1.h B-D N2H UT B1.14 B-D N2J UT B1.14 B-D N8A UT B1.14 B-D N8B UT Nozzle Inside Radiused Section B1.14 B-D N30-IRS UT B1.14 B-D N14bIRS UT B1.h B-D N14bIRS UT B1.h B-D NhC-IRS UT B1.14 B-D N14D-IRS UT B1.14 B-D N14E-IRS UT B1.h B-D N14F-IRS UT B1.h B-D N$A-IRS UT B1.14 B-D N1B-IRS UT B1.14 B-D N2bIRS UT B1.14 B-D N20-IRS UT B1.14 B-D N2F-IRS UT B1.14 B-D N2H-IRS UT B1.14 B-D N2J-IRS UT B1.14 B-D N8bIRS UT B1.14 B-D N83-IRS UT Ligaments between Threaded Stud Holes B1 9 B-C-1 RPV Flange Ligamento (32 Ligamento UT Eramined) i e
TABLE ONE (Continued) ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATECORY EXAMINATION AREA IDENTIFICATION METHOD REACTORPRESSUREVESSEL(Continued) (See Appendix A, Figure A-1) Integrally Welded Vennel Supports B1.2 B-H Stabilizer Bar Support 1 UT B1.2 B-H Stabilizer Bar Support 2 UT B1.2 B-H Stabilizer Bar Support 3 UT B1.2 B-H Stabilizer Bar Support h UT B1.2 B-H Stabilizer Bar Support 5 UT B1.2 B-H Stabilizer Bar Support 6 UT B1.2 B-H Stabilizer Bar Support 7 UT B1.2 B-H Stabilizer Bar Support 8 UT REACTOR PRESSURE VESSEL CLOS'JRE HFAD (See Appendix A, Figure A-2) Circumferential Weldn B1 3 B-C CH-C-2(331/3%ofWoldLength) UT Meridional Wolds B1.2 B-B CH-MC(10%ofWeldLength UT B1.2 B-B CH-MD (10% of Weld Length UT Nozzle Inside Radiused Section B1.4 B-D CH-NA-IRS UT Nozzle to Flange Welds Bh.$ B-J N-B-1 UT Bolting B1.8 B-G-1 CHStuds(6ExaminedwhenRemoved) MP B1.7 B-G-1 CH Studs (31 Examined in Place) UT B1.8 B-G-1 CH Nuta (31 Examined) UT & NT B1.10 B-G-1 CHWashers,Large(31 Examined} VT B1.10 B-G-1 CH Washers, Small (31 Examined) 'VT Interior Attachments and Core Support Structuren B1.16 B-N-2 DHDD-2(DryerHoldDownBracket) VT
-h-TABLE ONE ASMS ASME (Continued) SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS I PIPE WELDS AND COMPONENTS Main Steam Loop C (See Appendix A, Figuren A-7 and A 8) Bh.5 B-J 1-C-15 Pipe to valve UT Main Recirculation Loop A 28" Suction (See Appendix A, Figure b11) Bh.5 B-J 2-AS-6 Teo to Pipe UT Bh.5 B-J 2-AS-6LD Longitudinal UT Bh.5 B-J 2-AS-8LUI Longitudinal UT Bh.5 B-J 2-AS-8LUO Longitudinal UT Bh.5 kJ 2-AS-8 Elbow to Valve UT h" Bypann (See Appendix A, Figure b12) Bh.5 B-J 2-BPb1A Weldolet to Cap UT Bh.5 B-J 2-BPb10A Cap to Weldolet UT ??" Manifold (See Appendix A, Figure b13) Bh.5 B-J 2-AM-5LU Longitudinal UT 12" Header (See Appendix A, Figure b1h) 31.6 B-F 2-AHF-5 Safe End to Nozzle UT B1.6 B-F 2-AIDI-5 Safe End to Nozzle UT Bh.5 B-J 2-AHJ-hLU Longitudinal UT B1.6 B-F 2-AHJ-5 Safe End to Nozzle UT Main Rocirculation B h" Bynann (Sco Appendix A, Figure b16) Bh.5 B-J 2-BPB-1A Weldolet to Cap UT Bh.$ B-J 2-BFB-10A Cap to Weldolet UT 12" Hondor (See Appendix A, Figure b18) Bh.$ B-J 2-BHA-hLU Longitudinal UT Bh,$ B-J 2-BHA-b Pipe to Safe End UT B1.6 B-F 2-BHA-5 Safe End to Nozzle UT B1.6 B-F 2-BHC-5 Safe End to Nozzle UT Control Rod Drivo Hydraulic Return (In) (See Appendix A, Figure b l9) D1.6 B-F 3-I-19R Nozzle to Cap UT -~. -
n -+ TABLE ONE ASME ASME (Continued) SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS I PIPE VELDS AND COMPONENTS (Continued) Feodwater Loop A 12" Riser (SeeAppendixA,FigureA-21) Bh.$ B-J 6-AA-10 Transition Piece to Nozzle UT Bh.5 B-J 6-AB-2 Pipe to Pipe UT Bh.$ B-J 6-AB-6 Transition Piece to Nozzle UT B1.5 B-J 6-AC-8 Pipe to Transition Piece UT 4 Bh.5 B-J 6-AC-9 Transition Piece to Nozzle UT 12" Start-UpRiser(SeeAppendixA, Figure A-22) B14. 5 B-J 6-ASU-1 Tee to Pipe UT Bh.9 B-K-1 6-ASU-1HL 1 through h Hanger Lugs UT Feedwater Loop B 12" Riser (See Appendix A, Figure A-24) B14. 5 B-J 6-BD-9 Transition Piece to Nozzle UT B14.5 B-J 6-BE-6 Transition Piece to Nozzle ~ UT s B14. 5 B-J 6-BF-8 Transition Piece to Nozzle UT 12" Start-Up Riser (See Appendix A, Figure A-23) Bh.9 B-K-1 6-BSU-1HL 1 through h Hanger Lugs UT Residual Heat Removal Head Spray (See Appendix A, Figure A-26) B14. 5 B-J 10-HS-19 Flange to Pipe UT Bh.5 B-J 10-HS-20 Pipe to Elbow UT. Bh.$ B-J 10-HS-21 Elbow to Pipo Uf Bh.$ B-J 10-HS-22 Pipe to Elbow UT' Bh.$ B-J 10-HS-23 Elbow to Pipe UT Bl4.5 B-J 10-HS-214 Pipe to Elbow UT I B14. 5 B-J 10-HS-25 Elbow to Pipe UT Bh 5 B-J 10-HS-26 Pipe to Elbow UT B4.5 B-J 10-HS-27 Elbow to Flange UT In.iection Loop A (See Appendix A, Figure A-27) Bl4.5 B-J 10-IA-8LUI Longitudinal UT J ^. + y-I
TABLE ONE (Continued) ASME ASME SECTION XI SECTION XI EXAKINATION ITEM NO. CATECORY p_lMINATION AREA IDEITPIFICATION METHOD CLASS I PIPE WELDS AND COMPONEffPS (Continued) Renidual Heat Removal (Continued) In,iection Loop B (See Appendix A, Figure A-20) B4.$ B-J 10-IB-8LUI Longitudinal UT Bh.$ h-J 10-IB-8LUO Longitudinal UT Bh.$ B-J 10-IB-8 Elbow to Pipe UT P!.5 b-J 10-IB-8LD Longitudinal UT 4 Bh.$ B-J 10-IB-9LU Longitudinal UT Bh.$ B-J 10-IB-9 Pipe to Elbow UT Bh.5 B-J 10-IB-9LDI Longitudinal UT Bl. $ GJ 10-IB-9LD0 Longitudinal Iff 4 B14. $. B-J 10-IB-10LUI Longitudinal UT B1. 5 AJ 10-IB-10LU0 Longitudinal UT 4 Bh.$ B-J 10-IB-10 Elbow to Elbow UT Bh. 9, B.-? 10-IB-10LDI Longitudinal UT Bh.$ B-J 10-IB-10LD0 Longitudinal UT Bh $ B-J 10-IB-11LUI Longitudinal UT Bh.5 B-J 10-IB-11LUO Longitudinal UT Bh.1 B-F 10-IB-11 Elbow to Pipe UT Bh.1 B-F 10-IB-1h Pipe to Tee UT HHR Shutdown Cooling Supply (See Appendix A, Figure A-29 Bl4. 5 B-J 10-0-1 Tee to Pipe UT Bh.5 3-J 10-0-1LD Longitudinal UT B 4.$ B-J 10-0-1ALU Longitudinal UT hh.$ B-J 10-0-1A Pipe to Pipo UT B'4. 5 B-J 10-0-1ALD Longitudinal UT B);.5 3-J 10-0-1BLU Longitudinal UT -Bh.$ B-J 10-0-1B Pipe to Pipe UT Dh.$ B-J 10-0-1BLD Longitudinal UT Bh.5 B-J 10-0-2LU Longitudinal UT Bh.$ B-J 10-0-2 Pipe to Elbow UT Bt4 3 B-J 10-0-2LDI Longitudinal UT Bh;$ B-J 10-0-2LDO Longitudinal UT Bh.5 B-J 10-0-3LUI Longitudinal UT Bh.5 B-J 10-0-3LUO Longitudinal UT Bh.$ B-J 10-0-3 Elbow to Pipe UT Bh.$ ~ B-J. 10-0-3LD Longitudinal UT
- t. 9 E-K-1 10-0-$PS 1 through 4 Pipe Supporto UT x
Bh.$ B-J 10-0-6LU Longitudinal UT Bh.$ B-J 10-0-6 Pipe to Elbow UT e-
-7_ TABLE ONE (Continued) ASMS ASMS SECTION XI SECTION XI EXAMINATICN ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS I PIPE WELDS AND COMPONEh"PS (Continued) RHR Shutdown Cooling Supply (Continued) (See Appendix A, Figure A-29) Bl4.5 B-J 10-0-6LDI Longitudinal UT Bh.$ B-J 10-0-6LDO Longitudinal UT Bh.5 B-J 10-0-7LUI Longitudinal UT Bl4. 5 B-J 10-0-7LUO Longitudinal UT RHR Out (See Appendix A, Figure A-29) Bl4.1 B-F 10-0-7 Elbow to Pipe UT Reactor Water Cleanup Out (SeeAppendixA,FigureA-31) B1.$ B-J 12-0-17R Penetration to Pipe UT 4 B14.5 B-J 12-0-18R Pipe to Valve UT Bl4.5 B-J 12-0-20 Branch Connection to Pipe UT Bh.9 B-K-1 12-0-20HL 1 through h Hanger Luga UT Bh.5 B-J 12-0-21 Pipe to Valve UT B14.5 B-J 12-0-22 Valve to Pipe UT Bh.$ B-J 12-0-23 Pipe to Valve UT Bl4.5 B-J 12-0-2h Valve to Pipe UT Bh.$ B-J 12-0-25 Pipe to Elbow UT Bh,$ B-J 12-0-26 Elbow to Pipe UT Bl4 5 B-J 12-0-27 Pipe to Elbow UT Bh.$ B-J 12-0-28 Elbow to Pipe UT Bh,$ B-J 12-0-29 Pipe to Elbow UT B14. $ B-J 12-0-30 Elbow to Elbow UT Bh.5 B-J 12-0-31 Elbow to Pipo UT B14.5 B-J 12-0-32 Pipe to Elbow UT Bl4.$ B-J 12-0-33 Elbow to Pipo UT Bh.5 B-J 12-0-3h Pipe to Elbow UT Bh.5 B-J 12-0-35 Elbow to Pipe UT Bl4 9 B-K-1 12-0-35HL 1 through h Hanger Luga UT Bh.$ B-J 12-0-36 Pipe to Elbow UT Bl4.$ B-J 12-0-37 Elbow to Pipe UT
TABLE ONE (Continued) ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS I PIPE VELDS AND COMPONENTS (Continued) Core Spray Loop A (See Appendix A, Figure A-33) Bh.$ B-J 1h-A-6 Valve to Pipe UT 11-A-28 Pipe to Pipe UT B1.1 B-F 4 4 B1.$ B-J 14-A-28LD Longitudinal UT 4 B1.5 B-J 1h-A-29LU Longitudinal UT 4 B14 5 B-J 1h-b29 Pipe to Pipe UT Bh.$ B-J 14-A-29LD Longitudinal UT Bh.$ B-J 1h-A-30LU Longitudinal UT Bh.$ B-J 1h-b30 Pipe to Elbow UT Bh.$ B-J 14-A-30LDI Longitudinal UT B14.5 B-J 1h-A-30LDO Longitudinal UT Bh.$ B-J 1h-A-31LUI Longitudinal UT Bh,$ B-J 1h-b31LUO Longitudinal UT B14. $ B-J 114-b31 Elbow to Pipe UT Bh.5 B-J 1h-A-31LD Longitudinal UT B14.5 B-J 1h-b32LU longitudinal UT B14.5 B-J 1h-b32 Pipe to Elbow UT B14.5 bJ 1h-A-32LDI Longitudinal UT B14.5 B-J 1h-b32LDO Longitudinal UT B14.5 B-J 14-A-33LUI Longitudinal UT Bh.$ B-J 1h.b33LUO Longitudinal UT Bl4.5 B-J 1h-A-33 Elbow to Pipo UT Bl4.5 B-J 1h-A-33LD Longitudinal UT Bh.$ B-J 1h-A-3hLU Longitudinal UT B14. 5 B-J 11-A-314 Pipe to Pipe UT 4 B14 $ B-J 1h-A-3hLD Longitudinal UT Bh.9 B-K-1 1h-b3hPS Pipe Support UT Bh.$ B-J 114-A-3$LU Longitudinal UT Bh,$ B-J 14-A-35 Pipe to Pipe UT B14. 5 B-J 1h-A-3$LD Longitudinal UT Bh,$ B-J 1h-A-36LU Longitudinal UT Bh.$ B-J 1h-A-36 Pipe to Elbow UT B14.5 B-J 114-A-36LDI Longitudinal UT Bh.$ B-J 14-A-36LDO Longitudinal UT Bh.$ B-J 1h-A-37LUI Longitudinal UT Bh.5 B-J 1h-b37LUO Longitudinal UT Bh.$ B-J 14-A-37 Elbow to Pipe UT Bh $ B-J 1h-A-37LD Longitudinal UT B1.5 B-J 1h-b38LU Longitudinal UT 4 Bl4.5 B-J 1h-A-38 Pipe to Pipe UT Bl. $ B-J 11-b38LD Longitudinal UT 4 4 Bh.9 B-K-1 1h-A-38HL 1 through 14 Hanger Luga UT
TABLE ONE (Continued) ASIE ASIG SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS I PIPE WELDS AND COMPONENTS (Continued) Core Spray Loop A (Continuedl WeeAppendixA,FigureA-33) B14.5 B-J 14-A-39LU Longitudinal UT Blt.5 B-J 1h-A-39 Pipo to Reducer UT Bh.$ B-J 1h-A-39LD Longitudinal UT Bl4.5 B-J 114-A-h0LU Longitudital UT B14. 5 B-J 14-A-1.0 Reducer to Pipe UT Bl4. 5 B-J 14-A-h0LD Longitudinal UT Bh.$ B-J 1h-A-h1LU Longitudinal UT Bl4.5 B-J 4.A-h1 Pipe to Elbow UT Bh.$ B-J 1h-A-14 LDI UT 1 Bh.$ B-J 1h-A-h1LDO Longitudinal UT B14.5 B-J 114-A-h2LUI Longitudinal UT B14.$ B-J 14-A-h2LUO Iongitudinal UT Bl4. 5 B-J 114-A-42 Elbow to Pipe UT Bh.$ B-J 1h-A-12LD Longitudinal UT 4 Bl4.5 B-J 114-A-h3LU Longitudinal UT B14.5 B-J 114-A-143 Pipe to Safe End UT Core Spray Loop B (See Appendix A, Figure A-34) B1. 5 B-J 1h-B-10 Elbow to Pipo UT 4 B1.5 B-J 1h-B-28 Pipe to Pipe UT 4 Bl.5 B-J 114-B-28LD Longitudinal UT 4 B1. 5 B-J 114-B-29LU Longitudinal UT 4 B1. 5 B-J 11-B-29 Pipe to Pipo UT 4 4 Bh.$ B-J 14-3-29LD Longitudinal UT B1.5 B-J 114-B-30LU Longitudinal UT 4 B1.5 B-J 14-B-30 Pipe to Elbow UT 4 B1.5 B-J 1h-B-30LDI Longitudinal UT 4 B14.5 B-J 1h-B-30LD0 Longitudinal UT Bh.$ B-J 1h-B-31LUI Lingitudinal UT Bl4.5 B-J 1h-B-31LUO Longitudinal UT B1.5 B-J 114-B-31 Elbow to Pipo UT 4 Bl4.$ B-J 114-B-31LD Longitudinal UT Bh.5 B-J 14-3-32LU Longitudinal UT B14. $ B-J 114-B-32 Pipe to Elbow UT Bl4.5 B-J 1h-B-32LDI Longitudinal UT B14.5 B-J 1h-B-32LDO Longitudinal UT Bh.$ B-J 1h-B-33LUI Longitudinal UT Bh $ B-J 1h-B-33LUO Longitudinal UT B14.$ B-J 1h-B-33 Elbow to Pipe UT B14.5 B-J 1h-B-33LD Longitudinal UT
w. TABLE ONE (Continued) ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDE!PPIFICATION METHOD CLASS I PIPE WELDS AND COMPONDPPS (Continued) I' CoroSprayLoopB(Continued) (See Appendix A, Figure A-314) B1.9 B-K-1 14-B-33PS Pipe Suppor1; UT 4 Bh.5 B-J 1h-B-34M Longitudinal UT B14.5 B-J 114-B-3h Pipe to Pipe UT Bh.$ B-J 114-b3hLD Longitudinal UT B14.5 B-J 11-B-35LU Longitudinal UT 4 B14.5 B-J 14-B-35 Pipe to Fibou UT B1.$ B-J 114-B-35LDI Longitudir s1 UT 4 Bh $ B-J 1h-B-35LDO Longitudinal UT B1.5 B-J 1h-B-36LUI Longitudinal UT 4 B14.5 B-J 14-B-36LUO Longitudinal UT Bh.$ B-J 14-B-36 Elbow to Pipe UT Bh $ B-J 1h-B-36LD Longitudinal UT B1. 5 B-J 14-B-36HL 1 through 4 Hanger Luga UT 4 B1.5 B-J 14-B-37LU Longitudinal UT 4 B1.$ B-J 1h-B-37 Pipe to Pipe UT 4 B1.$ B-J 1h-B-37LD Longitudinal UT 4 Bh.5 B-J 14-B-38LU Longitudinal UT Bl.$ B-J 114-B-38 Pipe to Reducer UT 4 Bh.$ B-J 1h-B-38LD Longitudinal UT B1.$ B-J 1h-B-39LU Longitudinal UT 4 B1.$ B-J 1h-B-39 Reducer to Pipe UT 4 Bh.$ B-J 1h-B-39LD Longitudinal UT Bh.$ B-J 14-B-40LU Longitudinal UT Bh.5 B-J 1h-B-h0 Pipe to Elbow UT B1. 5 B-J 14-B-h0LDI Longitudinal UT 4 B14 5 B-J 1h-B-140LDO Longitudinal UT Bh.5 B-J 1h-B-h1LUI Longitudinal UT Bh.$ B-J 1h-B-11LUO Longitudinal UT 4 Bh.5 B-J 14-B-11 Elbow to Pipo UT 4 B1.5 B-J 14-B-14 LD Longitudinal UT 1 4 Bh.$ B-J 14-B-h2M Longitudinal UT Bh.$ B-J 1h-B-142 Pipe to Safe End UT Jet Spray Inntrumentation - Loop A (See Appendix A, Figure A-37) Bh.1 B-F JP-A-1 Nozzle to Safe End UT I
TABLE ONE (Continued) ASIE ASIE SECTION=XI SECTION XI EXAMINATION ITEM UO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS II PIPE WELDS RHRHeadSpray(SeeAppendixB, Figure B-2) C2.1 C-F(A) 10-2HS6-1h Reducer to Pipe UT RHR Discharge - Pump D (See Appendix B, Figure B-19) C2.1 C-F(A) 10-2DD20-10 Pipe to Elbow UT .b
~ ~. -... TABIE TWO DETAIL OF EXAMINATIONS PERFORMED BY THE GENERAL ELECTRIC COMPANY
TABLE TWO DEPAIL OF EXAMINATIONS PERFORMED _3Y_ THE GENERAL ELECTRIC COMPANY ASME ASIG SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDEITPIFICATION MEPHOD _ REACTOR PRESSURE VESSEL (RPV) I:7PERNAL COMPONE!ffS (See Appendix C, Figures C-1 throughC-6) B1.1$ B-N-1 0 and 180 Guide Rods VT B1.15 B-N-1 120 and 2h0 Core Spray Spargers and VT Core Spray Piping B1.1$ B-N-1 TogCoreGuide VT 0 B1.15 B-N-1 30, 120 and 300 Surveillance Sanple VT Holders B1.15 B-N-1 Top of Shroud Area VT B1.15 B-N-1 Three Cladding Patches VT B1.15 B-N-1 Six Feedwater Spargers VT JHP PUMPS 1 through 20 (See Appendix 0, Figures C-7 through C-9) B1.1$ B-N-1 Hold Down Beam VT B1.1$ B-N-1 Riser Brace Arm Welds VT Bl.1$ B-N-1 Restrainer Stops VT B1.15 B-N-1 Restrainer Wedge Engagement VT B1.1$ B-N-1 Entire Jet Pump Assembly and VT Instrumentation Lines B1.15 B-N-1 Accessible Shroud Annulus Region and VT Two Manhole Covers SPACEBELOWTHECOREPLATE(SeeAppendixC, Figures C-10 through C-13) B1.15 B-N-1 Differential Pressure and Standby Liquid VT Control Line B1.15 B-N-1 Shroud Weld VT B1.1$ B-N-1 Control Rod Drive Housing and Stub Tube Vf B1.1$ B-N-1 In-Core Housing and Guido VT B1.1$ B-N-1 Bottom Head Drain VT i
%_.w., w,- TABLE THREE DF1 PAIL OF EXAMINATIONS PERFORMED BY UNIVERSAL TECIRJICAL TESTING LABS. INC.
TABLE THREE J DETAIL OF EXAMINATIONS PERFORMED BY UNIVERSAL TECHNICAL TESTING LABS. DIC. j j ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD i CLASS I PIPE WELDS Main Recirculation Loop A (See Appendix A, Figure A-14) Bh.$ B-J 2-AHH-1 Reducer to Pipe RT J Bh.$ B-J 2-AHH-1LD Longitudinal RT l Bh.$ B-J 2-AHH-3LU Longitudinal RT Bh.$ B-J 2-AHH-3 Elbow to Pipe RT Bh.5 B-J 2-AHJ-1 Branch Connection to Pipe RT Bh $ B-J 2-AHJ-1LD Longitudinal RT Bh.$ B-J 2-AHJ-2LU Longitudinal RT Bh.$ B-J 2-AHJ-2 Pipe to Elbow RT Bh.$ B-J 2-AHJ-2LD Longitudinal RT i Main Recirculation Loop B (See Appendix A, Figure A-18) Bh $ B-J 2-BHA-2LU Longitudinal RT Bh.$ B-J 2-BHA-2 Pipe to E3 bow RT Bh.5 B-J 2-BHA-3 Elbow tt Pipe RT Bh.$ B-J 2-BHA-3LD Longitudinal RT Bh.$ B-J 2-BIL3LU Longitudinal RT Bh.5 B-J 2-Bl& 3 Elbow to Pipe RT i i a t a
TABLE FOUR DETAIL OF EXM41 NATIONS PERFORNED BY PHILADELPHIA ELECTRIC COMPMIY s e
.m. .m TABLE FOUR DETAIL OF EXAMINATIONS PERFORMED BY PHILADEIJiilt ELECTRIC COMPANY ASME ASME SECTION XI SECTION XI EXAMINATION I*EM NO., CATEGORY EXAMINATION AREA IDENTIFICATION METHOD SUPPORT COMPONENTS Main Steam Loop A Bl4.10 B-K-2 HA-2-1, 2 VT Main Steam Loop C Bh.10 B-K-2 HC-1-1, 2 VT Main Steam Loop D Bh.10 B-K-2 HD-h-1, 2 VT Main Recirculation Loop A Bh.10 B-K-2 H-1-1, 2 VT Bh.10 B-K-2 H-5-1, 2 VT Bh.10 B-K-2 H-6-1, 2 VT Bh.10 B-K-2 H-9-1, 2 VT Bh.10 B-K-2 H-13-2 VT Main Recirculation Loop B Bh.10 B-K-2 H-1-1, 2 VT Bh.10 B-K-2 H-6-1, 2 VT Bh.10 B-K-2 H-9-1, 2 VT Bh.10 B-K-2 H-13-1 VT 3h.10 B-K-2 H-15 VT Bh.10 B-K-2 H-16-1, 2 VT Bh.10 B-K-2 B-17 VT Foerlwat.or Loop A Bh.10 B-K-2 H-2h-1, 2 VT Bh.10 3-K-2 H-25-1, 2 VT Bh.10 B-K-2 H-30 VT Bh.10 B-K-2 H-kh-1, 2 VT Bh.10 B-K-2 H-57-1, 2 VT Bh.10 B-K-2 H-61 VT
TABLE FOUR (Continued) ASIG ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA ITENTIFICATION METHOD SUPPORT COMPONENTS - Continued ) Feedwater Loop B Bh.10 B-K-2 H-h3-1, 2 VT Bh.10 B-K-2 H-58-1, 2 VT Bh.10 B-K-2 H-62 VT Residual Heat Bemoval Bl4.10 B-K-2 H-150 VT Reactor hter Cleanup B14.10 B-K-2 H-1h9-1, 2 VT Bh.10 B-K-2 H-150(167) VT B14.10 B-K-2 H-152 VT Reactor Coro Inolation Cooling Bh.10 B-K-2 H-193(H-79) VT Bh.10 B-K-2 H-6h-1, 2 VT Bh.10 B-K-2 H-65-1, 2 VT Bh.10 B-K-2 H-66-1, 2 VT Bh.10 B-K-2 H-67 VT Bh.10 B-K-2 H-68 VT Bh.10 B-K-2 H-74 VT Core Spray Loop A Bh.10 B-K-2 H-76 VT Bl4.10 B-K-2 H-78 VT Core Spray Loop B Bh.10 B-K-2 H-75 VT Bh.10 B-K-2 H-77 VT High Pronnuro Coolnnt Tn.ioction B14.10 B-K-2 H-51 VT Bh.10 B-K-2 H-52 VT Bh.10 B-K-2 H-53 VT l i
TABLE FOUR (Continued) ASPE ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD CLASS I VALVE BODIES Residual Heat Removal l B6.7 B-M-2 10-81A VT Reactor Core Inolation Cooling B6.7 B-M-2 A0-13-22 VT High Prensure Coolant In.iection B6.7 B-M-2 MO-23-19 VT CLASS I PRESSURE REPAINING BOLTING Valves Main Steam B6.3 B-G-1 71A, B, C, K VT B6.3 B-G-1 70A, B VT Main Recirculation B6.3 B-G-1 MO-2-h3A & B VT B6.3 B-G-1 M0-2-53A & B VT Feedwater 1 B6.3 B-G-1 MO-6-38B VT Residual Heat Removal B6.3 B-G-1 MO-10-17 VT B6.3 B-G-1 MO-10-18 VT B6.3 B-G-1 MO-10-25A & B VT B6.3 B-G-1 10-88 VT B6.3 B-G-1 10-81A & B VT B6.3 B-G-1 MO-10-33 VT Reactor Water Cleanup B6.3 B-G-1 MO-12-18 VT B6.3 B-G-1 MO-12-15 VT B6.3 B-G-1 MO-12-h6 VT
AL.' .6 ..-. I. a, .M TABLE FOUR (Continued) ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY ELU4INATION AREA IDENTIFICATION METHOD CLASS I PRESSURE RETAINING BOLTING (Continued) Valves - Continuon Reactor Core Isolation Cooling B6 3 B-G-1 M0-13-21 VT B6.3 B-G-1 A0-13-22 VT Core Spray Cooling B6.3 B-G-1 MO-1h-12A & B VT B6.3 B-G-1 A0-14-13A & B VT B6 3 B-G-1 1h-1hA & B VT High Pressure Coolant In.iection E6.3 B-G-1 M0-23-15 VT B6.3 B-G-1 M0-23-16 VT B6.3 B-G-1 MO-23-19 VT Pumps Main Recirculation Loops A and B BS.3 E-G-1 Pump Caue to Cover Bolta and Nuto VT Piping Main Recirculation Loops A and B Bh.12 B-G-2 2-BPA-1 FB VT Bh.12 B-G-2 2-BPB-1 VT Reactor Pressure Vessel Head B1.11 B-G-2 N-B-1/FB VT B1.11 B-G-2 N-A-1/FB VT RPV Bushings Closure llend B1.10 B-G-1 Serial Nos. 67 through 72 VT
,m' ...y TABLE FOUR (Continued) ASIE ASIG SECTION XI SECTION XI EXAMINATION ITF14 NO. CATEGORY EXAMINATION AREA IDENTIFICATION MEIHOD SYSTEM PRESSURE I2AKAGE TEST Claso I Pressure Retaining Components IVB-$z10 100% VT SYSTH4 HYDROSTATIC PRESSURE TEST Core Spray Loops A and B IWA-h2h0 Safe End Weld at RPV Nozzle to Dissimilar VT Metal Weld at First Isolation Valve Main Rocirculation Loops A and B Pump IWA-h2h0 Discharge h" Diameter Bypass Cap and VT Flange Welds IWA-h2h0 ReactorWaterCleanup(PumpSupplyLine) VT from 10DCN-20" (Shutdown Coolirg Supply) to Second Isolation Valve IWA-h2h0 CRD Scram Discharge Volume Piping Weld VT Nos. 3-SSV-1 to 3-SSV-7 and 3-NSV-1 to 3-NSV-23 CLASS I PIPE WELDS Main Recirculation Loopo A and B B1.6 B-F 2-AHF-5 PT B1.6 B-F 2-AInt-5 PT B1.6 B-F 2-AHJ-5 PT B1.6 LF 2-BHA-$ PT B1.6 NF 2-BHC-5 PT Bh.7 NJ 2-AD-1$/BPA PT Peedwater System Bh.7 NJ 6-B-3/13-1 PT
TABLE FOUR (Continued) ASME ASME SECTION XI SECTION XI EXAMINATICN ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION MEI' HOD CLASS I PIPE WELDS (Continued) , Residual Heat Removal System Bh.7 B-J 10-0-1/12-0 PT Bh.1 B-F 10-0-7 PT Bh.1 B-F 10-IB-11 PT Bh.1 B-F 10-IB-1h PT Core Spray Loops A and B Bh.1 B-F 1h-A-28 PT Bh.1 B-F 1h-B-28 PT Jet Sprr; Instrumentation Loop A Bh.1 B-F J-PA-1 PT
_m__ e S TABLE FIVE IETAIL OF EXAMINATIONS PERFORMED BY EASTERN TESTING AND INSPECTION, INC. i
s f. TABLE FIVE f DETAIL OF EXAMINATIONS PERFORMED BY j EASTERN TESTING AND INSPECTION. INC. i ASIG ASIE I SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORL EXAMINATION AREA IIENTIFICATION METHOD CLASS I PIPE WELDS AND COMPONEI7fS North Scram Discharge Volume Piping Circumferential Welds Bit.$ B-J 3-NSV-2 RT B14. 5 B-J 3-NSV-3 RT B14.5 B-J 3-NSV-h RT B14.5 B-J 3-NSV-5 RT Bl4 5 B-J 3-NSV-6 RT B14. 5 B-J 3-NSV-7 RT Bh.$ B-J 3-NSV-8 RT Bh,$ B-J 3-NSV-9 RT B14. $ B-J 3-NSV-10 RT Bh.$ B-J 3-NSV-11 RT Bh.$ B-J 3-NSV-12 RT Bit. $ B-J 3-NSV-13 RT B14. 5 B-J 3-NSV-1h RT B14.5 B-J 3-NSV-15 RT B14 $ B-J 3-NSV-16 RT B14.5 B-J 3-NSV-17 RT B1.5 B-J 3-NSV-18 RT 4 Bh.$ B-J 3-NSV-19 RT B14.$ B-J 3-NSV-20 RT i B14.5 B-J 3-NSV-21 RT B14.$ B-J 3-NSV-22 RT B14.$ B-J 3-NSV-23 RT South Scram Dincharge Volume Piping Cireumf'erential Weldn B14. $ B-J 3-SSV-2 RT B14.5 B-J 3-SSV-3 RT B14.5 B-J 3-SSV-h RT Bl4.$ B-J 3-SSV-$ RT Bl4. $ B-J 3-SSV-6 RT Bh.5 B-J 3-SSV-7 RT J
TABLE FIVE (Continued) ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD 4 PRESSURE VESSEL WELDS AND COMPONENTS Scram Discharge Volume Tank Nozzle to Vessel Welds B l.14 B-D 3-NSV-1 RT B1.4 B-D 3-SSV-1 RT I i 1 j h j m -..- - -
= .-c 'N.BIE SIX DETAIL OF EXAMINATIONS PERFORMED BY REACTOR CONTROLS, INC. (DURING PLANT CONSTRUCTION)
q ~ l TABLE SIX DETAIL OF EXAMINATIONS PERFORMED BY l REACTOR CONTROLS, INC. ASME ASME lq;) SECTION XI SECTION XI EXAMINATION ITEM NO. CATEGORY EXAMINATION AREA IDENTIFICATION METHOD 4 CLASS I PIPE WELDS AND COMPONENTS l 1 North Scram Discharge Volume Piping Circumferential Welde B1.$ B-J 3-NSV-2h RT 4 Bh.$ B-J 3-NSV-25 RT B14. 5 B-J 3-NSV-26 RT B1.5 B-J 3-NSV-27 RT 4 B14.5 B-J 3-NSV-28 RT B14. 5 B-J 3-NSV-29 RT Bh.$ B-J 3-NSV-30 RT B14.$ B-J 3-NSV-31 RT { B1. 5 B-J 3-NSV-32 RT h 4 B14.5 B-J 3-NSV-33 RT B14.5 B-J 3-NGV-314 RT B14 5 B-J 3-NSV-35 RT South Scram Discharge Volume Piping Circumferential Wolds Bl4.5 B-J 3-SSV-8 RT Bh.$ B-J 3-SSV-9 RT Bh.5 B-J 3-SSV-10 RT Bl4.5 B-J 3-SSV-11 RT Bl4. 5 B-J 3-SSV-12 RT B14.5 B-J 3-SSV-13 RT Bl4.5 B-J 3-SSV-14 RT Bl4. 5 B-J 3-SSV-15 RT Bh.$ B-J 3-SSV-16 RT Bh.5 B-J 3-SSV-17 RT l Bh.5 B-J 3-SSV-18 RT B14.5 B-J 3-SSV-19 RT
TABLE SIX (Continued) ASME ASME SECTION XI SECTION XI EXAMINATION ITEM NO. CATECORY EXAMINATION AREA IDENTIFICATION METHOD PRESSURE VESSEL WELDS AND COMPONENTS Scram Discharge Volume Tank Circumferential Welds Bh.$ B-J 3-TSV-1 RT B4.5 B-J 3-TSV-2 ET
y, F y -w ,e b l l l APPENDIX A CLASS 1 WELD IDENTIFICATION FIGURES
APPENDIX A CLASS I WELD IDENTIFICATION FIGURES Table of Contents Figure No. Title Page l A-1 Peach Bottom 3 Reactor Pressure Vessel A-1 A-2 Peach Bottom 3 Closure Head A-2 A-7 Main Steam Loop "C" A-3 A-8 Main Steam Loop "C" A-4 A-11 Main Recirculation-Loop "A" Suction A-$ A-12 Discharge and Bypass (AD) A-6 A-13 Manifold (AM) A-7 A-1h Headera (AH) A-8 A-16 Discharge and Bypass (BD) A-9 A-18 Headers (BH) A-10 A-19 Control Rod Drive Hydraulic Return A-11 A-21 Feedwater Loop "A" A-12 A-22 Feedwater Start-Up Loop "A" A-13 A-23 Feedwater Loop "B" A-1h A-24 Feedwater Loop "B" A-15 A-25 Feedwater Start-Up Loop "B" A-16 A-26 Residual Heat Removal Head Spray A-17 A-27 Residual Heat Removal In) Loop"A" A-18 A-28 Residual Heat Removal In) Loop "B" A-19 A-29 Residual Heat Removal Out) A-20 A-31 Reactor Water Clean-Up (Out) A-21 A-33 Core Spray Loop "A" A-22 A-3h Core Spray Loop "B" A-23 A-J7 Jet Pump Instrumentation Loop "A" & "B" A-24 A-38 North Scram Discharge Volume Header A-25, A-25A A-39 South Scram Discharge Volume Header A-26 Ai
i / k t Legend of Sy m bols PS Pipe Support b RL Restraint Lugs HL Hanger Lugs k Direction of Flow b 8C Bron,ch Connections E 4 or Smaller ( sl4 Bronen Connections Larger Than 4" General Information Weld Identification Containment Pen e t t st.on O welde Examined I Ali
i 360* 330* 300 270 240 210* 18 0* 150* 120' 90* 60* 30* O* i ^i 1 I, ,RPV-C6* Y 9;' e S i ? i N12A i i JI2BOE N O RPV-C5 '* .,tos-,
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- RPV-SK PEACH BOTTOM 3 REACTOR PRESSURE VESSEL FIGURE A-1
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o o go CH-NA* 07 NO.70 0 'O 4 , p NO. B 270*- SECTION A-A ? - 90 CH NB 3 NAMEfu E '3 s T 0 CH--NC o NO.24 N NO.69 ' o o 12 9 CH-LL-2 CH-LL-4 24Cf l-g 12 0* CH-MC* CH-ME o o 1 CH-LL-3 CH-C NO. 46
- CH-MD NO. 47 PEACH BOTTOM 3 CLOSURE HEAD
/- / ',' FIGUftE A-2 s >f / 'I ' t' _ e .J'-H .,-:qj;l. o y 7 4s\\ l r
K N - 3C MAIN STEAM LOOP 'C' \\ go ' wa7ERIAL - CAPSON 37DA ~ P. 'E DATA - MAIN LAWC ( t= 0 I NS;3 O. D. - 26
- d, wf.- 1.06*
MIN. 4 7. - 0.960
- h1*C-f NOM. CJRC.= O l. S "
C A L. 8 L K. 2 6 -CS - X
- l.06 *2 4 - PE3 l-C-2=
PtFE DATA - 5AEETY & 8-C - tu / RELfEr m'istS ( 6-C - 3LU f O.D.- 6.g25,Cs. / ,3 NOM. NOM. CHtc. - If 3*C-3-LDO . C AL. B X. 6 -C3 -16 0 *.718 -G A
- PES rh O. D. OF WELD Macuse.D -
.s W CANNOT 82 SEEN - SE M - e a w e12933t FQ4 CETAILS NOTE i 26" PIPE IS SEAM WELDED l-C-4LW 6-C-M -C l-C-S l-C-5LD U i-C-e ? l-C-eLu y 1-C -7/ CSD ,8-CSD-i 8-CSD-2 gj - e-C-5HLI 76 flu 4 1 - C -7RL 1 jg 9-C-7Pt. -l g ,4-C=7RL=4*2 x e-C-7*3-4 2-4-C-7/ CSC l-C-SRL-1,-2 " C-7PS Mig / 4-CSC-4 3. a.y es. ; -g g l-C3C - 2 1-C-/C,-3 I s I-C-7RL-t-i l-C-7RL*.3 2 4 l-C-78L-1-2 4-C-7RL-2 l 1-C-7RL 4 l-C-7/ CSS 8-CS8 *1 1-C38-2 C-7/C5A l-CsA - s 6-CSA-2 l-C-6LU 1-C-6 9 l-C -7PS 4 1-C-7bD l-C -FRS 2 s -C - 7PS 6 1 -C - 7PS 2 1-C-7 FIGURE A-7 l t i l A-3 l l t t l
d So g E 5!!!. l3 p
- s. i oo 1
y saa = = E,s =_n s =" =' y '.o. a o s 7c ,7 '_M La uaaa,. 'u ::V pe u ~s 2 :=.- 111111S ) i"~.8 E;.,g:;;::,::"== E =. o' s _o; is ai . gau eB =,= 8 s ' <o. 8
- dg' otto-asoha
= a eggg gyg. os.ug t rax aus a a O o i Us 771 W 3 7 ada < e i 114 ? " *? ? ? 4 me u u uu u u a 3 11111 1 N N 4:, % 'S ve-s es ses-e m. ?74 y ? a"Y'23:se m e e m 8 I cy?ca" ad Y
- 2"Astt:Ia5-uy ~ a:La-Sa a 1 o-itit; 1-Y__YYYY
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- a. M E
2 3 SS E 2 22 2.5 R AA A L { 22 A T ) 3 2 A 5uL " SS - 3 l { Ft l I AS( R L l A M " S a A H A2S PEN I 3 PM P 25S OL 0 s P 1 I OINf u U M 3 t D i s P U L u LAC U P t s P A l R Sl E - TU "8 *9 AAR CSS A S t "8088 I. 2-2 A P 22A R - - M UD C LA 2 1 CK 2 U0 L-AT ~ T RR A 0 RL E E I TI B C P-1 0 C - S 1B N O D 0 NE W O[ A - 9 N - A S-O N I TE M ML MMP NMNC s - 2 AS TI h AAPI OI OA 2- - A C U j 2-S C 2 A A C - L I- ~ 9 C A "A 2 1 8 S 1 C H R H H S 8 L L L 9 9 S 8 P S
- C O
P P P A A j S l 2 0 O M M M 2 l 9 L U U U 2-P P P A A A A j 2 'l 2 2 2 D A A 4 L f3 We N j 0 '4 C 4 E I S S9eB O L t R O 8 U A SS 8 T AA 8 M S L U 2 - S 22A A S G A I L 2 2 S F 2 AL U H A ( C I ^ 2 F f R ) 4 g / S I N f 1 \\ ~ = A C - f 2 E R DU 1 t N 1 233 AI S S S M' AA A 4 M U 2 22 U MS ) R T H U - T MSA ( 6 DL DD O l 22 OI 8C R LH L L CC }O S BB H A66 U 7 7 R SS L - SS 88 2 7 - O AA r 7 AA SS Te22 SS AA 22 D AA 22 e 22 SA t O UU L L 4 i Sl AA '.l w p0* \\l (jfi l
8 S E E D P P E P A AP 0A 9 1C DI 2 7 ( ) 3W A 2 E 8 P 0)
- 3. A 3, A
- D.
G - B R M I 8 0EI A - S h. 8VS OI S c M8 H 3 A S S C 3 E9 P ( S R9 S 3 "4
- 1 v
7 t 298 8"0 3 14. E D" 7 82.82 NE A40 IH A2 - CK - - CNLT l T RL T - RL T l A 0T IBSG A 0 D0 W C8. D 0WC.Ss Aw 4
- EM N MLEMMMLPn D POI OA POOOAYu E
U P N M N C P N N NC SD D I t R l L l E I W 1 M L A H E 5 S "A S 1 D I P A E O 2 PI O ) b' P L "2 Nl U 1 ( L R 86 A 0 "2 H g 1 P 7 R nD B 4 2 S M AA / 0 1 51 8 2 S D O 22 1 A A R - A 2 1 DP P 2 f AB E Y A 22 T B O D N E 2 N S R P S A b( r P U 4 3 g 1 I 1 G E G l ) D D F R A A l 2 lC D A S L 3 t 55 5 D 4 l SO OD P M AA 3 4 1 22 1 L -D D33
- A Oi 11 A
uu DD t L S O2 AA 55DD 1 L L 22 4 DD41 1 AA ,j DD ABC 22 AA -CCC 22 888 333 111 At DDD AAA J A g 2 P 1222 ,t S D A 2 2 e so
MC+65A 2 AM 28C C 2 AM 2SC 8 2 AM 2BC-A 2 AM* 3 2.AM*2 2.AM-2M 2*AM*2A " "% 2
- A M
- 2 5 2* AM *2C
- 2. A M* 2L f *gy",g t MANIFOLD 2*AM.20 A
2.AM-2K l 2* AM *2J
- 2. AM.2 G l
V A LV E BY* PASS 2 AM-2H 2-AM-4/ 2 - A M AG FI AMG-LU 2-AM 28CC 2-ANK 1 LD 2 AM 2BCS 2 AHK.1 24HJ-lW I' ANN *I LO g Agg.g"LD 2-AHF.1LO g 2'AM'IIANK 2'AHJ"1 2 gg,y 2 AM-1/AHJ 24018 / 2AHG1 2.AHF.1 g2 AM 2SCA / [2-A M*l/ [2Ag4 2,4M4/AHF uo.65 A 2 AM4/AH AHK -Lu ,,,,,L,, ?> / N ~ " 5,.A 4 NN L.M 2 AM-3 14M4LO 2AM 3LO 2 AM-IRL .,--2 AM 1 W AM-2 ~2AM*IHLI 2'AM* stE CETA4L AsoVE 2 - AM-4 /AHg - LD - PIPE DATA-MANIFOLO (AM) 2-AM-4 HL-f - NOM 00 AM -l/ AHJ - LD MIN WT-0.S80 2* AM*4 H L' 2-NCM ClRC-62.5-C A L. BLK. 22 - S S
- X *l.030*l4
- PC B 2-AM-4 AGF -L D i
l FIGURE A-13 A-7
e llEADERS 300* 2 TO. 2AH 5 l 2-AHH S 2 AHF4 h2 AHJ 5 I l 2AHG6 l 2AHH4 3 ^ 3 @ 2 AlaK 6 2 AHJ 4 /N 2J N 2H 'N 2G 'N 27 2AHK4 g2K ,i 2 Altil4LU ~ 2 AHG4LU 2 AHF-4LU-g 2AHKALU
- 2 AHJ 4tu 2 AHF-3tD 7
2 AHG 3LD 2 AHF.3 AHF.3LU 2 AHK 3LD y Apu 3tp 2 AHH 3tD e g 2 2-AHG 3 2 AHFJLD 2AHK4 2 ADU 3 2AHH3,ArtM-3 tut 2 AHG-3LU 2-AHF 2 ~ 2 M 3LU. 2 -AH J-3LU
- G 2 AHF 2LU
-la g 4' AlIK-2 L 0 2 AHJ 2LD 3 2AHH2LD 2 AHG 2LD g 2AHH2 2-AHG 2 AHK2 2 AHJ 2 # 2 AHF-ILD 2 AHH 2LU j l 2 AHG 2LU i i J k 2 AHK-2LU
- J k
/2 AHH H D e 2 AHG RD '^ 2 AHF-1 2AHHte 2 AHG-1 9:=- p=" f / P PE DATA-HEADE RS (AH) NOu 00-12 76 MIN WT-0 669 (VE Ril O.789 (HORII) NOM CIRC-40 6" C AL g L IC.12 - S S - X
- 4 2 5 il A
- PE S h NOTE e 2-htK-5,2-AHJ-S,2 *A HM-5, 2-AHG-5,AND 2 - AHF -S ARE DISSIWL AP IJETALS FIGURE A-14 i
$. g g $. 9 5 i f ~ a o a n-e v.$. ; ay =- 9 < h, E h. e = b A : t~<-ta'.v.[ s d
- 8E 8185aM =s i
as e 1 8 0. -mE s; w us; a E O Oe b .r C 4 CZ2Zum EZu au a m 1 5 E
- e
=. , a_ E sn w-' g-b b. e. en. N NN m
- a..
M Sk X
- Y
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== 8ss8 R-2 4 M
- s..,.,t t a. a.
-e 00000 / O
- d. o.
2n nn nannn .gC._ C. O. o. N3n n M (D e 49 5 5' er
- o. c.
RR N N l A-9 i
A e 2 u L N 3 A M e w B. e D 2e L U D - e De L L 3 A L li 3 22 2 I l BA AA A A A e 2 H HH H H H 54 - B DB e D B 2 22 2 2 2 S AA H L y% l l E i 0 N-l Hl P 1 BB 4 A 22 A @e0 4 J t S 2 B i B Jr u ( )23 2 2 - e t S T 1 6 D 3 R RR w I* B E E O X L 3 H D. " VH" S B ( l 5 S / s D U E 5*990* 2 t L L H7 6842 i B 22 2 1 - 2 57 - 1 2 D8 8 8 A1 00C K 1 1 0 L 8 8 8 A D H1 1 1 T H L l T 1CB 54 u8 U 22 2 2 D O W EM N ML, l sN I OI OA l i L iBB 4 P 22 D L PNM NC H d C D u @2 t 2 N 3 cu ,~ D B. w 8 L 2 1 O 3 0 D 1 C L L C 2 U l. i A t S H " L C B t R CH - 2 H 2 E 2 f 2 E GC C B ~ R 54 H it 2 D 2 B B U CC A i a t E l l U 2 2 GI l BD 4 F D L l 22 C @2 li W e J B u N 2 t 3 D D w 3 H
- ~
L 8 t D 2 3D U D H L L L Ba 22 2 I l H 2 B OD D 0 D S U 2 HH H 4 H C 1 t BB B B B L H1 l ~ 54 4 E 22 2 2 2 D W D01 i L B8 D 22h 2 L A @H ey 6 I T 2 E = M D L t 3, R 3 C A yr L w i e',,~ Hg 2 I E M I E Bg U l 2 i H L S B B 2 l f D 2 2 O L E E 2 i H s l E B B E i 2 2 T a O U B N t 2 5 4 4 E EE L h l H Hi 2 22 w B BB j ~
- PO
>I ,l lt lll
e ~.. _ ~ - - 14 9 ' CONTROL ROD CRivt 8 3.g-e g g e NT S R A WL IC RETWRN 5 PIPE D AT A-CR0 ( IN l ( 36j M ATERIAt. s 3 8 TO 3 9 - CARecM STEEL 3-4-9 TO 3 *s-et-Sf aseLESS sTitL NCM 00 - 4.S* NO M WT - 0.337 i SCM 80 ) NOW CIRC - 44
- CAL.
BL M. 53-40. 3 3 7 - 10 A-Pt s 4 - CS - 160.S 38 P t e 4.5-CS-40~ 3$ ~lT P(3 h MOTE i 3 =l = 9 AND 3 = l-l$ R ARC OLSSIMIL A R MCTALS + 3-4 -6 A R - ' #p 3-t-4 PE 3 4 3 4 3-t-l -3.g.3 3 I-2 F IG W R E A - 19 I A-ll
B E ) P C 8 A. E A P L M) 3-B A 1 A, 1 3 E 1 ( 01 S I 0 E D 2 A 0 3 "A 0 1 4 2 1 A S L 8 ( tc 0 N O h s. e. c 0 S P P O I S 0 R S( " 8 2 I F O D 0 ( ^ A A O R N ^ A A L A A "t 1 S"5*4 E 5- " S S I 784 - 8 3C R 4 0C M "0 6 6 C 26-R 2 L' C2 A1 0 - 2 -0 t E L A21 T - - C8 n 1 A T - R 3 A I A DT IM A 0T RK 8 h 6 5 A W R D O W CL D 0 W C B. l L A A A A A D E B T EMMM E MMML A A A A ^ E L g 6 6 6 6 E A POOO POOOA I A I F M PNNNC PNNNC 1 ~ S f% l 2 P E D E 1 1 A E 1 A R "2 6 1 2 1 X S X "0 P
- 0 2 1
2 X M 1
- A A
0 6 0 3 3 A 2 1 M 6 A 6 D 0t 9 E L AA W y AA O G6 N 4 1 2 A
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2 D R X U E "4 G 2 2 I F M l - A B 4 3 2 6 SB B A 1 G L 6 C AA A H 4 B " 66 6 A ^ f 8 N B E 6 4 A E N 9 1 6 "2 1 X "4 1 2 C ~ X A6 ^ "4 j 0 2
- g Al 4
6 2 1 3 9 8 7 8 4 -C C C 6 U U A A A C S R R 6 G 6 A C H H S A T T e 6 5 l L H tL t 4 4 C C A A 6 6 h, o
10 START 4P RECIRC LOOP / SASU 3 F -MO 38A Y - AASU-28C -4ASU 2 N -&ASU-1HL l THRU 4 e ,r 4.SU.,. 4*A 4 6*A-7 FEE 0 WATER START UP (LOCP Al PIPE DATA-STARTOP (SASU) NOM 00-12.75* NCM WT-0.844 isch. 200) NOM CIRC-40.5" C A L. 8 L K.12
- CS
- LOO *. 8 4 3 3
- PE8 FIGURE A-22
) A-13
N W e @Q b O Y" + a. d y [ a k e T <~ d5 e h3 I A > m M W W = o r Z O .o 6 03 5 I N o a2 9. E Q C ~ Q .3 0 ". N w W21 7 OA",d*~h" / n $ j!no5"*,4 i <a y 'i< ~ ,e v-ill$$ 7 e ,e 3 g .en o a R m a G = A m e Y a. r { 4 .at g 0 = en o E w me %M e a e 40 W g q l cs 1
- ,an CD e
b o g a h G O y 3 x k u g E b h g e o e e G
- d G
w l V A-14
l T 3 1e , n O O G, ( J m E a e 8 w 4 o ~ m o .a e. m oo e i 8 ac l w w 0 m z N % O k ,N i
== y , Il e pg b N i X t P a% h g oo ae 'O 3 10 W = T. 5 o e O E e ce 6 9evM 1 N w c a. n z Q w w 8 www a o w s. a e
- ma
= m M 4 w. m. z \\ w s ~ 1 m e,. 8 l m O e g b F e R \\ ds - n' e ~<a
- * * =
- v w
Z
- m e bwe
- W n
w e M O, m w e w I w a a a@ m e w w e i a m ev x
- 2. msay u
i - e t v - . = s - + rx a d- - e p s\\ -t e b x a 8 S w .:.e 8.- 3 m t t GO R to { l k o _y O e s - z o o a 4 o O ,e w ~,, - $w 7e d E NN m e a a s % E. m *U $,1,o, W W I n*
- *:n J
4 e E 8 i a 4 n o, ~* 4.,. x i. w Tu a a $ e(Eg8'5'0.g"OF6d w a E e a, e osum o E GE3930233e"s=M m s s s; w A-15
u) l TO $ TART.UP FROM FEEDWATER RECIRC LOOP LOOP A W CLASS 2 685U-3 \\[ CLA$$ 1 MO-388 685U 2 FEEDWATER START-UP (LOOP 8) ) PIPS DATA-START-UP (SSSU) e SBSU 1HL 1 THRU 4 NOM 00-12.7S
- NCM WT-0.844* (Sch.1001 II NOM CIRC-40 5" 685U 1
.82*M-LOO *,8 4 3 - 3
- P E S 48-4 6-8-7 FIGURE A-25 f
I A-16
e 14HS26 14HS 27 e RESIDUAL HEAT AEMOVAL 414HS25 HEAD SPRAY (14HS) HEAD SPRAY FLANGE MATERIAL: CARBON STEEL-14HS1 TO 14HS3 10 HS6 TO 14HS9 STAINLESS STE E L-14HS3 TO 14HS6 10 HS-9 TO 14HS27 14HS23 e h NOTE: 14HS 3.14HS6 ANO 14HSS (,, ARE DISSIMILAR METALS [\\, H S21 0 PtPE DATA-MEAD SPRAY (14HS3 A NOM 00-6.625 14HS 20 e NOM WT-0.432 iSen. 80s CS & SS NOM CIRC-U" g yg, C A L. 8LK. 6
- C3 8 0*.4 3 2 - 4
- PE S
,/ h ORYWELLFLANGE 4
- S S -80*.4 3 2
- S A PE S U
14HS 18 14HS 16 HL 1 THRU 4 )( h 14HS16 PSI TO 4 i 14HS16 14HS14 @44 14HS13 )( 14HS 12HL l THRU 4 [ 14HS 2 4 14HS 3 h 14HS 12 / q$ f_ 14HS1 IONY I W j 14HS10 ISHS9@ M41033-14HS5 14HS8 MO 21032 @14HS6 14HS7 FIGURE A-26 A-17
I / 5) 141A 14 141A 10 / 28" MAIN RECIRC 1SIA 10Lua POS81A] LOOP "A" 191A IOLUO DISCHAACE 141 A-9LDI 141 A 9LDO E 6 148A 12 14iA 9LU igir, gig ' 7 N .'i.utt? $l%' 4A-0
- 141 A-8Lui g
g g 141 A8LUO-igg 4,$ 141 A-7LOI ['**ID '/ 141 A-5LU 148A 7 LOO < 141A 4LO 141A 7 141A-4 EE 141A 4LuO 143A 7LU TI ic.4a.4Lui j 141A-JLDO 141A 4PS 144 A JLQl RESIDUAL HE AT REMOVAL llNi s g ggg,3 LOCP "A" RHR (141 A) gggA.3(y q M ATE RI AL IO *l A* 2 STAINLESS STEEL-141A 170141 A Il h CARBON STEEL-141 A 1 AND 14tA 11 TO / +f 141 A 14 / APE DATA-RNR (IN L COP "A"(141A) 144A.2 LD ~ ^ NCM 00-24" MIN WT-1.072 STAIP,LESS STE EL NOM WT-l.531 (Sa.100 CAR 80N STEEL NOH CIRC-78" ggg, ) L h NOTE: If i A 1.143 A 11. AND 141A-14 ARE DISSIMILAR METALS NOTE: STAIN LESS STEEL 15 SEAMED CAR 8ON STEEL 15 SEAMLESS C A L. SL =. 2 4
- C S *100* l.5 31
- 2 A* PE8 2 4 * $3 800*e J31-32 *PE S FIGUF.E A-27 f
A-18
e ma e w 53 E u *8 ET 9 U wt .5 c. e E*. @~ 5 ,l'. a e ** e o e i T 2 53.. ta d o i co-o ad - me e. t o ea u oo * ?* .se* / 00' 3 --e J 3 T*e lo o o -O -a $a e e e oe
==7
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5 a - e i o e i oo i O oJJ e SS g q s >M e e O e 2 J ao 7 o ma i t t 99 -W o - tv 8' 'A e 77~ ge e, 1 i i oo w 2 oi o-- e t o.a ei do g-2 -o e. a g u 9 e w e 33 A ~ s om go O 3 e, w w 2 so o i e s1 2 0,2*O \\ eg + s =- ~
- e e e "Ott
- 7 et 2 s o 5 ee -e i e = c e<~ o~2 Te (' e 2 z e o - s e. n. So 7,- o. a -o - o J e d oe a w8 i w~~~ e r v Tze-e -o w,, J, e
- e. d.i-E "z T e[77 J
u au M wi o, o f,, o :r =u o oo i.a ~e e os. e e7e m e - e-7720 o. g-wz s 9 *o m ee z so oe 9 5 u e. e. a-a ' g e "e ~ 35%% z a i
- d i
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w u 3 a.3 a 4 2 o 6 s% a 58 e o no o oo
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- o. q ooo ooo* e e a O
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a oo 1* e o a6a. 3 25
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d d iia h,',, x% F = ..~ o.o, = m ,o e o~o.e go o" l ao i2~~ 3 ' l I og - o.e.a o o
- a
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o n 33 ? =, o o S' o aa aa o. s 3 33 >>oo og-33
==6 a oSoo4 e Q o Q,8 , e * * - t bi 2 2 E Au e e o ooee b ? ooo = o 7 o' f,, 4 S. o 1 \\ - d $ a o o. o. o' e N, i oo e \\.,, --o 7. o o-GS * ~ o, w .a a a = E v o, 3 2, ra o u O o O, so a a2 y., g t -t ./ -a og < ? 6: e. M ~???Yi ~g"'35 p A s283"4 s 6?????. s ? E 4ee eee ?d ,a 4 o- -3a - a n y 4o; 2 - 2 2 2 .*E, " o o a $5? 8 -?? u? 3 E" s ???;4o og *: ~ + i e2
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oo. o o w J e o f.O g w w o 4 u w w o 5 a a, en, W so 4 W I 8 o o y 7 g .4 2 o g ,q-o. o, 3 3 a w z g w 4 4 g 2 4,, u A-20
I u0-18 1 12 - o -49 4 g't -n-o-sen e j-n_o_,,, f -iz-o-na e /g-e a-o-sr / 7, e a-o-ss v C '* ~ e 2-o-25 )( B 2-0-33HL-lW - s ea-o-3s e 12-o-25 8 12 - o - 3s 3 12-o-34* 12-o-33 e e s2-o-2s - i t u-o-sas y u-o-sa o w H s2-o-24e /
- 2-o-2s e
'2-o-2 2 e fg REACTOR WATER CLEAN UP (OUT) q P a-o-2i e L 1.' u-0-20*' twau e e p MATER!AL: STAINLESS STEEL ' N 82 - o - 2 0
- PsPE DATA: RwCU (OUT) 12-0 Nou. 00:
6.62S" s NOM. W.T. : 0.4 52" (SCH. 80) NOM. CIRC : 21" CAL BLk: 6-SS-80-A32-SA-PEB FIGudE A-31 w.. , -i
l V 12 0' g N-5A j i4-A-43LUe O! '** A* 27s 14-A-42 LO S CCRC SPR Ay-LOOP A" ( 14 A )
- 84 43 /
/, i4.A.42 LU0 0 ugyg, gag ; " '4
- A* 42 LWi e STAINLESS STEEL
- 34-A-42d
-- **- A - 4 loo O i :':i.'iO'*i;^I'243 A=0 i4-A-27 i4-A-4 toi. e i4-A-4 -- - i4 -A-4 LU. CA..O. sve L i_ 32* 2 l0* REDUCEA 14-A-12 70 14-A-i4 ) AND I4-A-2e 44-A-40LO e PIPC OATA: og4.g 4gj 34-A.4ggye NCM 00 - (2,75" hCW wf = 0.687*( 3CH 80 ) S I4*A-3 9 --- 14-A-39LD', NOW CIRO - 4 0,3-g4.g.39Ly NOTE: i4 - A-12. 14 = A-2 0 8 i4-A-27 q g4.g.3g gg q 4, ARE DIS $1MILAR WETAL PSPiho CHANGES WADE OURING iSet 151 14-A-34 LOG e 64-A- 3 8 = - g4.g.3g gy, CAL. BLOCMS : 14-4-37 LD e it SS-60 =. 4a7 Pts e 4-A -- i4*A-37LUOe 12-C3-ICO. e4 3 Pts 12 -CS -160 -1. 300-18 A-Pt B 14-4-37 Lui e 12-53 -160-8 37 3 *19A-Pt B IO-SS = 40 394-34-peg y i4-A-34 LOC e p 4-A-34LDI e 4-e 64-A-34LU S e14-A 14-A-33LD# 14-A-32LU e el4-A-34 P3-r 14-A-3f LO O 44-A-B , g 4. 34,,, e4-A-SituO o [ '****3'Lui e MO-14128 m --44-A-30 Loco e 14-A - f e l4-A-33 LUO _ g4.A*30LDie 14.A.2 " _ pagg ' '** A" 33 kU' 14-A-2SC s g ei4-A-32 LOO '**"*3 e l4-A-32 LD4 .i4-A-32 - i4-A-2,La e
- ',t>, g g-
- i4-A-2,LU. N-16 A
- i4-A-2s S,,
e,4_A-,, .- i -A-2. LOG p l4 =&-14 CS M O-14 8 14-A 14-A-4 i 4 7 -. %84-A-13 e #4-A- s -. A0-13 8 l <j -- A-12 h - A-is SS d - - A-60 14-A-s J CORE SPRAY-LOOP "A* FIGURE A-33 1 v A-22 l
240* l CORE SARAY-LOOP '8* (14-8 ) e l N-58 uArtai AL : 01 14-s-27 STA4NLE$$ STEEL 14-8-f 70 84-0-16 e64-8-42 m i4-8-20 TO 14-8-42 ANG 14 3-27 44-3-42LU
- CAA804 $71E6 e 14
- S-4. m -
64-5-41LD e AND 14-8-28 14 t i To 14-3-s3 64-8-%iLUO e PIPE DATA : 14 44LUl e NOM 0 0 - 12.7 S
- 44 40LDO S NOW wT - 0.687* (SCN 80) i 64 3-40LOI e NOM CIAC - 40.S*
- 14-9 -4 0 - --
14-8 -40LU e b h0TE: 34 16, 44 2 8 & 14-6 -27 '4 ~ 8 ~ 3O
- AAC OISSIMILAR WETAL e14-0 k
/ P4P1NG CHANGES WAQE OumiNG eg4-g=39(y ases 134. f p 44-8-34L0e 12* 210" #EQUCER '~ 64-3-3eLU e
- 14-8 38
- 14 37 p --
84-8-37LD e 14-8-37 6U e e 64-8-34HL l-4 a 14-8-34LDe CAL. SLOCKS : 12 - SS-80 .647 Pts i e g4 3 6 - -- 14-8-36LUOe s2 -C3-800 843 pea 8-36LUl e 12 -C3-140 *L308-14A-PES e 64-e-33 I2 - S S-160 -L3 7 3-4 sa - Pt s 64-B-3S LD0 0 42 40 - JS4-34 -PES \\ j l4 3S LDi e
- 14 34 A
.,4,,3 3 Ly, \\ el4-8-33m ,' 64-e-33P3 e.a4-s-34 Lo e ..-34 LU G
- 14-0-33LUQ g-3 64-8-33 LD e e 64-8-3 3Lui g4-g.32LDOe
/ i4-e-32 Los
- 7 14-8-32LUe 14-8-1 f
4,4-3 32 __/ i4-a-3iLo e MO-9412 A a4*S-31LUO 4 f i4-e-situs e ,,,,,,, y - i4-8-30LDOe " I4-8-2
d 3 0 LDI e 14-4-30 --
14-8-3 g4-g=3cLy, 64-8-29LD e ei4-e-2,
== ei4-e-2sbu } N-168 f 83 eio-e-t e to ei4-e-2e = i4-e -e 3 WQ-l4 A C3 g4.g.4 i4-e-o i 4 - e-,7d '*i-4 M- '*-8-7 m i4-s-it/- \\l/ { f w i4-e-S / Ao-i3 - A e 4- -iO i4-e-o 44-3-9 CORE SPRAY - LOOP "B" FIGURC A-34 A-23
JET PUMP IflSTRUMENTATION (BOTH A 8 D LOOP) l C. S. S. S. Eccturnic nrouctas WELD DESIGNATION EXAMPLES: s 2 3 4 6 A LOOP : JP-A-2 y d-d d- =l l B LOOP : JP-B-2 N [- N Tuer surET_._/ ~ FLOW WELD No. OlAM. THICKNESS STANDAR0 laches Inches 1 5.4 .8 Safety 8 Relief Riser (Upstream) RWCU (DowStroom) 2 4.3 33 RWCU 3 8.7 .55 R H R Hood Sproy 4 12.0 .7 M R Header 5 12.8 .7 M R Hooder FIGURE A-37
9 2 0 3 Y S v N s u 3 K 5 f g 7s g h 2 t v 5_ s 4 .x9 n. 3 6 g 7 e 2 w V D S N R 3 Z. E d, DA g efw 3 E _y H bv. c g z g 3 E s N M E 5 U S ,h L H6 A ~ TV c 2 R n 3 o O E s V N G i S R F N-3 5 A 2 B V c .S M s 3 i D L M. A 3 R 3 'C v S s d -3 -+ w 3 h &g vs T k= 4 n 'O 2 3 53 V v s s M /3 N -3 ~" ~*
NORTH ~ SC RAhA DI S C H ARGE. YOLUME ' H EA DE R F1GRc A - 3 8, (Cc.d% ae b 3-NSV R, 5_ g g y _ y_ 3-MSV T M N ' f. n g q., g. 4 s,_,e~= h ~ '3-NSq-s s ] _ x -ns lv. uz.~sa -,+ 7.naq.,g y s a 3-nsv-: 5 g57f- ~ ~ [ "~ s-Nst-9 og s-nsv w i ,3 li u sv - 7 q f h
- 3. N GV - 6 5-MS V --+-
LNSV-D 3-SSV-2 'E 99 s 3-9s y-2 3-Tsv-1 e hL TANK 't -. 3.N 3 y _ g
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m. _n ,se a _ mm-+ .+-o 9 APPENDIX B CLASS 2 WELD IDENTIFICATION FIGURES
APPENDIX B CLASS II WELD IDENTIFICATION FIGURES Table of Contents Fif,2re No. Pipe Size Title Page B-2 6" RHR-Head Spray B-1 B-19 20" RHR-Discharge-Pump D B-2 BL
J ( LECDeo CF SYM80L3 X [ PlPE RES TRAINT O SNUSSER u t-h PIPE HANGE9 gQ wEL DED PtPE SUPMMT CA WELCED PtPE LUG ( OIRECTION CF TLOW p MEDUCER F EL30W V Ne TEE m C WELDS EXAMINED l 4 I I I l Bli
S'" 'N i#,
- 8-I
(' g i & p '*, i ( l g L1 ,J l ( 'Q RHR-licad Spray , P p, Pipe Size 6" --, d_' Material CS hs V ' w ~ Schedule 40 ,6 N. Wall .280 d ,v
- e Ref. Line No.
20C3-6 2 Line No. 10-211S6 f Cal. Block 6-CS-40.280 - p-f ,1 - PEB 4 if/ 4F 'kb[ q. N. @*d d r '+ e a. o' E e m N p ** I pv gs s,4 x .y/ c 7)3, % @,y, x x D* 'o 20eA () x , Q. - '" h, /..,>s ,c, NO* T N .N s h ' 'h f. ISI-17400
- 4. [.#,,
Figure B-2 e e
t l i i uOf {tk + (& ph .c > t J;;e ~ ' /f g*J. R*
- h.,
g,' pA y?: I. 'C . /.; ,sL'/ o.go l K<o -g'/o Gih ('i'" 6 -,9 /~ s N /p/ g g T'x. -e O,,. 2 \\ .6 -1 // j i S' N7 p ( /, ,4 4' W 's::, %'s eLj>j. \\ ) ', i1 bo N3 *s FUTyRE MODtriC ATON 20A x, gu
- J,,s*
,,fi# k .f 4 o,,- p '- y e N %1o ,n' .y'ep n
- v. t
[) 'b.# 7) p/ g e' g d' ' N 'g. (a s f 5 / ~.~ b b RilR-Discharge-Pump D ,op# ~ s Pipe Size 20" 's / Material CS Schedule 20 N. Wall .375 g Ref. Line No. 1001s-20 ISI-15100 Line No. 10-2DD20 Cal. Block 20-CS-20.375-29-PEB Figure B-19
S 4 APPENDIX C REACTOR PRESSURE VESSEL INTERNAL COMPONENT DIAGRAMS
APPENDIX C REACTOR PRESSURE VESSEL 1NTERNAL COMPONENT FIGURES Table of Contents Figure Number Title C-1 Guide Rod and Upper Bracket C-2 Feedwater Sparger and End Bracket C-3 Core Spray Sparger and Header Bracket C-4 Top Core Guide C-5 Surveillance Sample Holder and RPV Mounting Brackets C-6 Top of Shroud C-7 Jet Pump Assembly and Instrumentation Diagram C-8 Jet Pump Hold Down Beam, Beam Bolt Keeper, and Restrainer Section Diagrams C-9 Jet Pump Brace Arm and Inlet Riser Diagrams C-10 Differential Pressure and Standby Liquid Control Diagrams C-ll Control Rod Drive and Stub Tuoe Diagrams C-12 Incore Guide Tube and Incore Housing Diagrame C-13 Incore Guide Tube Stabilizers l / 9_
GUIDE ROD & UPPER BRACKET N GUIDE RCD '=( [.5 ,\\ \\ N BRACKET N i { = . s 1 @ JhG / l'i g W ~ 'i /s // TOP VIEW o. BRACKET {E' .l.. j, 1: f GUIDE ROD 4 . /. .t: f .. :.[ ll' [ ',. ! l I' /, .i. .i N "'t I e
- D
._.h5__..r~;'i. i-.i...F8' i l h V U V I l l c l _ q__ I i / l 3 l 1 l {- l'==l: ~. $'.. l{.\\]f'.h /
- g a
- w t.,
'i: kb' ~.' I,* 1 a. c
- u.. 9 l
/ j. I 1 1 l-t 8 l t / s / } l {i 7 \\ { / 4 i .i c I / tc j c SIDE VIEW OF BRACKET / i L l j j', i V_E Wi,'8':,r_r..Y _h ...[ r- _.. _L -t,. -,~ t.._.. _.cr_ ~,
- i ; :
r- ': -h /12, ' !f, i'i !l .l ' v.w_ i i I i.n jl l. I i,g a, s '.. : 1 I i ;,; FIGURF C.- 1
FEEDWATER SPARGER E END BRACKETS h "5 e \\/ / ./ ) / s Dil.ARGED VIEW 0F EMD BRACXET g Vs' p '3 l 4. ~g T,'A \\ f I 0: b l l FEEDWATER SPARGER i i FIGURE C-2
O e CORE SPRAY SPARGER K. HEADER BRACKETS e Nq N\\ 1 \\' .O i \\ i i N N N v CORE SPR_AY.SPARGER HEADER i I
- k s..
p a f jb > 6 J WEADER BRACKETS f.L?R.8E_c -3._
i TOP CORE GUIDE l o i g g< i u ra m, g.- ? M -- O'.PO Nkh. L CL1 n d v. j ~~\\h p,{ } } } g j 's c ~* 48 r*e s
- 0,,,,f.,,TO, _ ryt _ ry 0, (?B r78_ 44 f:*8 _
1 k. VJ ' g 's, %) -) 1) - '. g).u. j ei. Q}8 ,., l 1 Ld
- s yf -l DN T>
r l4 j y 0 e s } j] .g j } 6 r:a I era r;8 } su jW ~ 'g,a. _ t ete it ra _,a fi '. 2 g su uT""q, i s i i ru i s ne I, ] y -- .g.g i e rh 1 1 I 3 s. i .,g i ,jj i ) 's T {'~~', n ) 3 D g. eta} f..d.Uha.n._ __a_ ..u)%l'.1 .i . Ae B <a ris <** .s t ~ !_~q&..,
- .y 1
3 y i. 4 - 1 _.p6 ~ 4 n i
- t it ti C.
i-i { ,i dete ei
- a 4
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- 9
,(.: syz. l : +L \\ Ti- .wis + h <?s ,' r is r'*, t-i '., n 1 a# n lgl1 ,...hs
- 4..f L
1 L _1/ o
- r a.
i ~1 v i i
- r. y i
i \\ ja ga C3 it ,rf.s 3 C . o 1.,r A fa /*ev..u rts r .? ns i '.N(<h;Nf/. 3{ ; h 1 "f. - ), E., 1 i ~ v4y~,}ja, ! u gs~0 ,i x..> m u de i <a i da J/ t er .r l_ wl, ._l, - ( [E 5 s s: 'N r 't.. e i u 1;}!
- l. I l i l,, /
i j i,. D s._e i n
==.=,2m.==::
- er. w; w 4.:;w:;;-- 12
- s '. -
e l ..7.---.. i p 5 l i FIGURE C-4 4 )
SURVEILLANCE SAMPLE WOLDER & RPV BRACXETS \\ [ ] c P ER MOUNTING g c. / ENLAR ED VIEW C-C \\ N N ? \\ / D-[ ENLARGEO VIEW 'D" Q ,e i ~ ^ \\ i \\N VESSEL WALL N F8 CORE MIDPLAME i k, e ENLARGED VIEW B-8 LOWER MOUNTING BRACKET s FIGURE C-5
TOP,OF 5HROUD e "g ' ' j ' - 7e v bh t\\ t L,. l7 'l l l ~ t .L. FIGURE C-6
JET PUMP l. JET PUMP INSTIEUMENTATION INSPEC7~lON DIAGRAM 3HEET BEAM BOLTS HOLD DONN. ,f f } f ItVLETELBOW \\ SUCTloN INLET, c RISEE BRACE ARM mix,ING SECTION 1 = r w C h3 C? 3-RESTRAINEK p: U 1 U SECTidN /// A f /,/ i g j U,e u . r- )_Q rj_H ,f s n [f / ( 7 v JET PUM2.!NSTRUMENTATIoN DlF FUSER SECTION l l s JET PUMP ASSEMBLY FIGURE C-7
JET FUMP INSTRUMENTATION DIAGRAM SHEET (-BEAM BOLT
- hY t
BEAM BCLT HOLD DOWN BEAMS '. 9t NEEPER N Y-6 ~ 4. d i m I 0 NS
- g-T6P VIEN OF HOLD DOWN BEAM GIDE VIEW OF HOLb DOWAl BEAM
& BEAtA BOLT KEEPE.2- -RESTEAINER WEDGE RESTRAINER \\ STOPS 1 'W f h (( N- _) ] EESTRAINEE STOPS TOP VIEW OF RESTRAlhiER. SECTION FIGUR E C-6
JtT PUMP RISER BRACE ACM DIAGRAM SHEhT BEACE Al?M i i P 4 set WALL -SR' ACE ARM TO MLET RISEE Wh.D 8eACE ARM To . VE3SEL_ WELD / ~ / /' N' / N/ // ~ EM.ARGED VIEW OF BRACE ARM j / ((. ^ y, -JET lyLETRISER _ FIGJ1R E C -8__
OlFFERENTIAL PRESSURE & STANDBY LIQUID'COM. TROL CORE SUPPORT N N ~ s3s: a / gPlPE SljPPORTS s ll ~ ~ PlPE SUPPORTS s s I- 'A \\ L.. N f "s SHROUD WELD = r DIFFERENTIAL PRESSURE V & STANDBY f L(0UlD CONTRO LIN$ IQ = i [
- --v]
1 f h, 1 FIGUAE c-lo
.I I i l
- 1. ! e n
1 1 i t.,L I]' g. 1 1.l-
- 5. Q 7
i --,q s s 4 L.i [ N s _L i %'4 \\ i i .l i l 1 b CONTROL E0D l / GUIDE TU5E l \\g . u.,l g 3,e 1. 7 t 11 i xY@k CONTROL ROD j = DRWE HOUSING I .g 1 STOB TOBE TO KPV WELD .'f f CRD HOUSING To STUB TUBE WELD FI' URE C-Il G
4 I j i Y"Q \\ \\ l \\ \\ i \\' \\ 4 x\\ \\ 4 s Y INCORE GUIDE TUBE COR$ PLATE TO INCoRE HOUSING WELD j / / l / / INCORE GBlDE f TUBE =- / j s / l / s / ' SEE FIG.4 - : >.- / / A J 3%4- ' N t g ~ i ,s - e i i 4 l A.*-
- rf y
i 's t 'l!! CORE i 1 P.0051NG l ~ p)) g i l i L ? LNCORE HOUSING To RPV WELD I i , 1: i I. 3 I? l FIC7URE C-l2. I i
j \\ ~ -INCORE GUIDETUSL 4 ~ t / ~. -INCORE GUIDE.50BE . STABILI2ER CLAMP.. INCO2E GUIDE Tl)SE STnSILl?.ERS l FIGURE C.-13 =}}