Forwards Addl Info Re Facility Preservice Insp Program in Response to NRC 800403 Request.Insp Plan for Class 1 & 2 Components Presented Which Identifies Items to Be Inspected

ML19344D650
Person / Time
Site:	Farley
Issue date:	04/21/1980
From:	Clayton F ALABAMA POWER CO.
To:	Office of Nuclear Reactor Regulation
References
NUDOCS 8004250401
Download: ML19344D650 (100)
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Text

{{#Wiki_filter:* Alabama Power Company o 600 North 18th Street Post Office Bon 2641 3irmingham. Alabama 35291 Telephone 205 323-5341 k h hko?'fe'?, @nt Alabama Power the soutten enxinc systern April 21, 1980 Docket No. 50-364 Director of Nuclear Reactor Regulation U. S. Nuclear Regulatory Commission Washington, D.C. 20555 Centlemen: J. M. Farley Nuclear Plant-Unit No. 2 Preservice Inspection Program Additional Information for NRC Review In response to your letter of February 4,1980, our letter of March 14, 1980 advised you that the preservice inspection program for Farley-Unit 2 is described in Section 5.2.8 of the FSAR. As a result of discussions held with your staff and consultant on April 3, 1980, we were advised that additional information was needed before a safety evaluation report on the Unit 2 pre-service inspection program could be finalized. Please find enclosed two copies of the additional information requested. An additional copy of this information is being sent to your consultant, Mr. Tom Taylor of Pacific Northwest Laboratories. Should you have any further questions concerning the subject program, please advise. Yours very truly, ? ] ..l- ^ _2

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,P. ~ F. L. Clayton, Jr. FLCJr/JGS:bhj lbC)() Enclosures (2) s cc: Mr. G. F. Trowbridge / Mr. R. A. Thomas // / Mr. T. Taylor ( - ()> 3 co42 50 ' il

JOSEPH M. FARLEY NUCLEAR PLANT-UNIT 2 PRESERVICE INSPECTION PROGRAM The information contained in this document consists of details concerning the preservice inspection plan. The inspection plan for Class 1 and 2 components is presented which identifies the items to be inspected. Also included are system isometrics which locate the welds to be examined. Inspection procedures are not provided but are available at the plant site for NRC review. In cases where circumferential and longitudinal pipe welds and branch pipe connection welds that require volumetric examination cannot be fully examined in accordance with the requirements of Section XI, these welds are identified. It shou? : be noted that in all cases 100 percent of the weld material will be examined. In addition, surface examination will be performed to supplement the limited volumetric exam-inations. The Section XI requirement for visual examination of Class 1, 2, and 3 components for evidence of leakage during the performance of system pressure tests are satisfied by the hydrostatic test requirements of Section III of the ASME Code. All repairs associated with the preservice inspection program will be made in accordance with the requirements of Section XI of the ASME Code. l 1

CLASS 1 SYSTEMS AND COMPONENTS SCHEDULED EXAMINATIONS JOSEPH M. FARLEY NUCLEAR PLANT UNIT 2 All items listed below shall be examined to the extent committed to the Nuclear Regulatory Commission in Section 5.2.8 of the Final Safety and Analysis Report. The intent of this program is to perform a baseline examination of Class 1 systems and conoonents to the intent of Section XI of the ASME Boiler and Pressure Vessel Code,1974 Edition throuah the Summer 1975 Addenda. All Class 1 examinations described in Section 5.2.8 of the Final Safety Analysis Report will be included in this program. Program IWB-2600 Examination APR Item Item Comoonent Procedures Sketch U/T P/T V/T Reactor Vessel 1 Bl.1 Middle Shell Course to Lower 52 1-1100 Shell Course Circumferential Weld. 2 Bl.1 Middle Shell Course Longitudina152 1-11 0 Welds (2). 3 Bl.1 Lower Shell Course Longitudinal 52 1-1100 Welds (2). 4 Bl.1 Upper Shell Course to Middle 52 1-1100 Shell Course Circumferential Weld. 5 Bl.1 Lower Head to Shell Weld 52 1-1100 6 Bl.2 Lower Head Ring to Disc Circum-47 1-1100 ferential Weld 7 Bl.3 Vessel to Flange Weld 52 1-1100 8 Bl.3 Closure Head to Flange Weld' 47 1-1300 9 Bl.4 Inlet Nozzle to Shell Welds (3) 52 1-1100 10 Bl.4 Outlet Nozzle to Shell Welds 52 1-1100 (3). 11 Bl.5 Vessel Penetrations, Including (1) 1-1300 Control Rod Drive Penetrations and Control Rod Housino Pressure Soundary Welds. s 12 Bl.6 Primary Nozzle to Safe End 205/52 11 8 Piping Welds Page 1 Rev. 3 10/30/78

Program IWB-2600 Examination APR Item Item Component Procedures Sketch U/T P/T V/T Reactor Vessel (cont'd.) 13 Bl.7 Closure Studs, in place N/A N/A N/A N/A 14 Bl.8 Closure Studs and Nuts, when 15 71 8 1-1400 removed (53). 15 Bl.9 Vessel Flange 1.igaments 52 1-1100 16 Bl.10 Closure Stud Nashers ~(58) 8 1-1400 17 Bl.11 Conoseal Bolting (12) 8 1-1300 18 Bl.12 Vessel Supports (Integrally 52 1-1100 Welded). 19 Bl.13 Closure Head Cladding 11 8 1-1300 20 Bl.14 Vessel Cladding 8 1-1100 21 Bl.15 Interior Surface of Vessel and 8 1-1200 Internals. 22 81.16 Interior Attachments and Core N/A N/A N/A N/A Support Structures. 23 Bl.17 Core Support Structures 8 1-1100 24 Bl.18 Control Rod Drive Housing 205 1-1300 25 Bl.19 Exempted Components (1) N/A Pressurizer 26 B2.1 Pressurizer Shell Welds 47 1-2100 27 B2.2 Nozzle to Vessel Welds (6) 47 1-2110 28 B2.3 Heater Penetrations (1) .N/A 29 82.4 Nozzle to Safe-End Welds 205 11 8 1-2100 30 82.5 Pressure Retaining Bolts and N/A N/A N/A N/A Studs, in place. 31 B2.6 Pressure Retaining Bolts and N/A N/A N/A N/A Studs, when removed 32 B2.7 Pressure Retaining Bolting N/A N/A N/A N/A 33 82.8 Support Skirt Extension Weld 205 1-2100 i' Page 2 Rev. 210/16/78 l

s Program IWB-2600 Examination APR item Item Comoonent Procedures Sketch U/T P/T V/T Pressurizer (cont'd.) 34 82.9 Vessel Cladding 8 1-2110 35 B2.10 Exempted Components (1) N/A 36 82.11 Manway Bolting 8 1-2110 Steam Generators (Primary Side) 37 B3.1 Channel Head to Tubesheet Weld 47 1-3100 38 B3.2 Nozzle-to-Vessel Head Welds and N/A N/A N/A N/A Nozzle-to-Head Inside Radiused Section 39 B3.3 Nozzle to Safe End Welds 205 11 ~ Piping 40 B3.4 Pressure Retaining Bolts and N/A fi/A N/A N/A Studs, in place. 41 B3.5 Pressure Retaining Bolts and N/A N/A N/A N/A l Studs, when removed. 42 83.6 Pressure Retaining Bolting N/A N/A N/A N/A 43 B3.7 Integrally Welded Vessel N/A N/A N/A N/A Supports. 44 B3.8 Vessel Cladding 8 1-3100 45 B3.9 Exempted Components (1) N/A 46 B3.10 Manway Bolting 8 1-3100 Piping Systems (APR Sketch Ref.14100 Thru l d801) 47 B4.1 Safe End to Pipe Weld N/A N/A N/A 48 84.2 Pressure Retaining Bolts and N/A N/A N/A Studs, in place. 49 B4.3 Pressure Astaining Bolts and N/A N/A N/A Studs, when removed. 50 B4.4 Pressure Retaining Bolting 8 l 51 B4.5 Circumferential and Longitudi-205 8 l nal Pipe Welds. l Rev. 3 10/23/78 Page 3

Program IWB-2600 Examination APR Item Item Comoonent Proudures Sketch U/T P/T V/T Pipina Systems (APR Sketch Ref.1-4100 thru l 4801) cont'd. 52 B4.6 Branch Pipe Connection Weld (6) 11 8 7 6". 11 8 53 B4.7 Branch Pipe Connection Weld 6 6". 11 8 54 B4.8 Socket Welds. 55 B4.9 Integrally Welded Supports. 205 8 8 i 56 S4.10 Supports Components l (1) 57 B4.ll Exempted Components 58 B4.12 Pres ure Retaining Bolting 8, Reactor Coolant Pumos 59 B5.1 Pressure Retaining Bolts and 15 1-5100 Studs, in place. 60 B5.2 Pressure Retaining Bolts and 15 (3) 1-5100 Studs, when removed. (3) N/A 61 B5.3 Pressure Retaining Bolts. 62 B5.4 Integrally Welded Supports N/A N/A N/A N/A 63 85.5 Support Components 8 1-5120 64 B5.6 Pump Casing Welds N/A N/A N/A N/A (2) N/A 65 B5.7 Pump Casing (1) N/A 66 B5.8 Exempted Components 67 B5.9 Pressure Retaining Bolting N/A N/A N/A N/A 68 N/A Flywheel Assembly 41 (5) 8 1-5130 Valves 69 B6.1 Pressure Retaining Bolts and~ N/A N/,, N/A N/A Studs, in place. 70 B6.2 Pressure Retaining Bolts and N/A N/4 N/A N/A Studs, when removed. Rev. 3 10/23/78 Page 4

s Program IWB-2600 Examination APR Item Item Comoonent Procedures Sketch U/T P/T V/T Valves (cont'd.) 71 B6.3 Pressure Retaining Bolts N/A N/A N/A N/A 72 86.4-Integrally Welded Supports .N/A N/A N/A N/A 73 B6.5 Support Components 8 Piping 74 B6.6 Valve Body Welds N/A N/A N/A N/A 75 86.7 Valve Bodies (2) N/A 76 B6.8 Exempted Ccmponent (1) N/A 77 B6.9 Pressure Retaining Bolting 8 1-6300 NOTES (1) Visual during hydrostatic testing. (2) Completed by others -- use shop examination data for baseline information. (3) Not accessible for examination unless disassembled. (4) Examination not feasible unless disassembled. (5) All surfaces of flywheel are painted and not accessible for PT examination. (6) Volumetric examination will be substituted by surface examination. N/A Indicates that there are no items in this category on the component or system. Rev. 310/23/78 Page 5

CbSS2SYSTEMSANDCOMPONENTS SCHEDULED EXAMINATIONS JOSEPH M. FARLEY NUCLEAR PLANT UNIT #2 All items listed below shall be examined to the extent committed to the Nuclear Regulatory Commission in Sections 5.2.8 and Appendix 3X of the Final Safety Analysis Report. The intent of this program is to perform a baseline examination of Class 2 systems and comoonents to the intent of Section XI of the ASME Boiler and Pressure Vessel Code,1974 Edition throuch the Summer 1975 Addenda, and to meet the requirements of the auamented inspection program for the main steam lines outside containment as described in Attachment A of Appendix 3K, Part II. Paraaraoh D of the Final Safety Analysis Recort. All Class 2 examinations described in Section 5.2 8 of the Final Safety Analysis Report will be included in this program. Program IWC-2600 Examination APR Item Item Comoonent Procedures Sketch U/T P/T V/T St'eam Generator (Secondary Side) 1 C1.1 Upper Head to Shell Weld 47 2-1100 2 C 1.1 Upper Shell to Transition Cone 47 2-1100 i Weld. 3 C1.1 Transition Cone to Lower Shell 47 2-1100 . Weld. 4 C1.1 Lower Shell to Stub Barrel 47 2-1100 Weld. 5 C1.1 Stub Barrel to Upper Tube-47 2-1100 sheet Weld. 6 C1.2 Steam Outlet Nozzle to Head 47 2-1100 Weld. 7 C1.2 Feedwater Nozzle to Shell Neld 47 2-1100 8 Cl.3 Integrally Welded Supports N/A N/A N/A N/A 9 C1.4 Manway Bolting (Secondary Side) 15 8 2-1100 Excess Letdown Heat Exchancer 10 C1.1 Head to Flange Weld 205 2-1110 l 11 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A t Page 1 Rev. 3 10/30/78

i O Program IWC-2600 Examination APR Item Item Component Procedures Sketch U/T P/T V/T Excess Letdown Heat Exchanaer (cont'd.) 12 C1.3 Integrally Welded Supports N/A N/A N/A N/A 13 C1.4 Tubesheet Flange Bolting 15 8 2-1110 Horizontal Residual Heat Exchancers 14 C1.1 Head to Shell Weld 205 2-1120 15 C1.1 Shell to Flange Weld 205 2-1120 16 C1.2 Nozzle to Vessel Weld (2) N/A 17 C1.3 Integrally Welded Supports N/A N/A N/A N/A 18 C1.4 Tubesheet Flange Bolting 15 8 2-1120 Seal Water Heat Exchanaer 19 C1.1 Head to Shell Weld (1) 11 8 2-1130 20 C1.1 Shell to Flange Weld (1) 11 8 2-1130 21 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A 22 C1.3 Integrally Welded Supports N/A N/A N/A N/A 23 C1.4 Tubesheet Flange Bolting N/A N/A N/A N/A Letdown Heat Exchancer 24 C1.1 Head to Shell Weld 205 2-1140 25 C1.1 Shell to Flange Weld 205 2-1140 26 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A 27 C1.3 Integra11y' Welded Supports N/A N/A N/A N/A 28 C1.4 Tubesheet Flange Bolting N/A N/A N/A N/A Letdown Reheat Heat Exchancer 29 C1.1 Head to Shell Weld (1) 11 8 2-1150 30 C1.1 Shell to Flange Weld (1) 11 8 2-1150 Page 2 Rev. 2 10/16/78

Progra'm IWC-2600 Examination APR Item Item Comoonent Procedures Sketch U/T P/T V/T Letdown Reheat Heat Exchancer (cont'd.) 31 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A 32 Cl.3 Integrally Welded Supports 2-1150 11 33 C1.4 Pressure Retaining Bo' ting N/A N/A N/A N/A 1 Regenerative Heat Exchancer 34 C1.1 Head to Shell Weld 205 2-1160 35 C1.1 Shell to Tubesheet Weld 205 2-1160 36 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A 37 C1.3 Integrally Welded Supports N/A N/A N/A N/A 38 C1.4 Pressure Retaining Bolting N/A N/A N/A N/A Volume Control Tank 39 Cl.1 Upper Head to Shell Weld 205 2-1200 40 Cl.1 Shell to Lower Head Weld 205 2-1200 41 C1.2 hazzle to Vessel Weld N/A N/A N/A N/A 42 Cl.3 Integrally Welded Support 11 2-1200 43 C1.4 Pressure Retaining Bolting 15 8 2-1200 Letdown Delay Tanks 44 C1.1 Circumferential Shell Welds 205 2-1210 45 C1.2 Nozzle to Vessel Welds N/A N/A N/A N/A 46 C1.3 Integrally Welded Supports 11 2-1210 47 C1.4 Pressure Retaining Bolting N/A N/A N/A N/A Excess Letdown Delay Tanks 48 C1.1 Circumferential Shell Welds 205 2-1220 49 C1.2 Nozzle to Vessel Welds N/A N/A N/A N/A Page 3 Rev. 210/16/78

Program IWC-2600 Examination APR Item Item Component Procedures Sketch WE U/T PA V/I Excess letdown Delay Tanks (cont'd.) 50 C1.3 Integrally Welded Supports 11 2-1220 51 C1.4 Pressure Retaining Bolting N/A N/A N/A N/A Seal Water Return Filter 52 C1.1 Cover Weldment to Shell Weld (1) 11 8 2-1300 53 C1.1 Shell to Lower Head Weld (1) 11 8 2-1300 54 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A 55 C1.3 Integrally Welded Supports 11 2-1300 56 C1.4 Pressure Retaining Bolting N/A N/A N/A N/A Reactor Coolant Filter 57 C1.1 Cover Weldment to Shell Weld (1) 11 8 2-1310 58 C1.1 Shell to Lower Head Weld (1) 11 8 2-1310 59 C1.2 Nozzle to Vessel Weld N/A N/A N/A N/A 60 C1.3 Integrally Welded Supports 11 2-1310 61 C1.4 Pressure Retaining Bolting N/A N/A N/A N/A Pipino (APR Sketch Ref. 2-2100 to 2-2700) 62 C2.1 Circumferential Butt Welds 205 63 C2.2 Longitudinal Welds in Fittings 205 64 C2.3 Pipe Branch Connections 205 65 C2.4 Bolting Exceeding 1" in Diameter 15 8 66 C2.5 Integrally Welded Supports 70/11 67 C2.6 Support Components 8 Residual Heat Removal Pumos 68 C3.1 Pump Casing Welds N/A N/A N/A N/A i l 69 C3.2 Pressure Retaining Bolting 15 8 2-3100 l 70 C3.3 Integrally Welded Supports-N/A N/A N/A N/A i Page 4 Rev.3 12/b/78 l

Program IWC-2600 Examination APR Item Item Comoonent' Procedures Sketch U/T P/T V/T l Residual Heat Removal Pumos (cont'd.) 8 2-3100 f 71 C3.4 Support Components Centrifucal Charaino Pumos 72 C3.1 Pump Casing Welds (2) 2-3110 73 C3.2 Pressure Retaining Bolting 15 8 2-311 0 74 C3.3 Integrally Welded S'upports 11 2-3110 75 C3.4 Support Components 8 2-3110 1 Valves 76 C4.1 Valve Body Welds N/A N/A N/A N/A 77 C4.2 Bolting Exceeding 1" in 15 8 2-4100 Diameter. 78 C4.3 Integrally Welded Supports N/A N/A N/A N/A 79 C4.4 Support Components 8 2-4100 b NOTES (1) Ultrasonic examination not feasible due to limited material thickness. Penetrant and visual examination to be substituted. (2) Not accessible for examination. N/A Indicates that there are no items in this category on the component. 9 4 Page 5 Rev. 2 10/16/78

Listed below is a tabulation of Class 2 Examination areas in the J. M. ~ Farley Unit 42 Nuclear power Plant. These areas will be examined during'the preservice inspection. The specific location of each. area can-be found on the attached sketches. I Sketch Area to be Exanined APR 2-2110 Examine Welds 4-1 thru 4-15 Support Components 2-2111 Welds 1-1 thru l 43 Welded supports WS-1 thru WS-4 Flange Boltino Fig. #1 thru Fig #5 Support Components 2-2112 Weld 1-51 Welded Supports WS-1 thru WS-6 l Support Components 2-2120 Welds 2-1 thru 2-43 Welded Supports WS-1 thru WS-3 Flange bolting Fig. #1 thru Fig. #5 i Support Comaonents 2-2121 Welds 2-49LS and 2-54 Welded Supports WS-1 thru WS-2 Support Components 2-2130 Welds 3-1 thru 3-43 Welded supports WS-1 thru WS-3 Flance Boltino Flo. #1 thru Fla. 55 Support Components 2-2131 Welds 3-d9LS, 3-53, 3-55LS and 3-58. Welded Supports WS-1 thru WS-3 ' Support Components i 2-2210 Welds 1-12,1-13,1-15 and 1-20 Welded Support US-1 Support Components 2-2220 Welds 2-7, 2-8, 2-9 and 2-16 Welded Support WS-1 Support Components 2-2230 Welds 3-1, 3-2, 3-16 and 3-20 Welded Support WS-1 thru WS-2 Support Components hG N Y Page 1 Rev. 3 11/02/78

r Sketch Area to be Examined APR 2-2310 Examine Welds: I 12"-ECB-14 1, 2, 4, 5, 6,12,13,14,15, 16, 17, 18, 19, 22, 23, 26, 27 14"-ECB-14 35, 36, 37, 38, 39, 44, 45, 46, -47, 48 ~ Weld'd Supports-WS-1 e Support Components-(Later) Flange Bolting-FLG#1 and 'FL-G72 APR 2-2311 Exa.mine Welds: tg 10"-ECB-16 4, 5, 6, 7, 8, 9, -10, 11, 12,13, 14, 15, 16, 17, 18 '^ 10"-ECB-18 22, 23, 27, 28, 30, 31, 32, 33, 34, 35, 36, 37, 38, 42, 48, 51, 52, 53, 54, 55, 56, 57 58, 59 8"-ECB-29 60, 61 8"-ECB-24 68, 69, 70, 71, 72 ~ Welded Supports-WS-2, WS-3, & WS-9 l Support Components (Later) Flange Bolting FLG#1 and FLG#2 - APR 2-2312 Examine Welds: 10"-ECB-2 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 10"-CCB-32 22, 23, 24, 25, 26 Welded Supports-WS-1 & WS-2 Support Components (Later) APR 2-2313 Examine Welds: 12"-ECB-13 1, 2, 3, 4,' 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31 14"-ECB-13 43, 44, a5, 46, 51, 52, 53, 54, 55, 56 Weld Supports-WS-3, WS-4, &~WS-5 Support Components (later) Flange Bolting-FLG#1 and FLG#2 i..v. 'M'.~....) Page 2 Rev. 3 5/24/79 l e. s \\ 1 l .u-m

t Sketch. Area to be Evamined - :F.. APR 2-2314 Examine Welds:

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10"-ECB-15, 4, 5, 6, 7, 8, 9, 18, 19, 20, 22 10"-ECB-17 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 46, 47, 48, 49, 50, 51 '~8"-ECB-31 52, 53 8"-ECB-25 61, 62, 63, 64, 65 Welded Supports-WS a, WS-5, & WS-7 Support Components (Later) Flange Bolting-FLG #1 .4 n.. APR 2-2315 Examine Welds: ,.10"-ECB-17 1, 2, 3, 4, 13, 14 T0"-ECB-2 22, 23, 24, 25, 26, 27, 28 10"-CCB -32 33, 34, 35, 36, 37 Welded Supports-WS-1, WS-2, & WS-3 S.,pport Components (Later) APR 2-2316 Ex$mine Welds: 6"-CCB-22 1, 2, 4, 9, 10, 11, 12, 16, 17, 18, 19, 20, 21, 22, 23. 10"-CCB-22 25, 26, 27, 28, 29, 30, 31, 32. Welded Supports-WS-1 & WS-2 SupportComponents-(Later) Flange Bolting-FLG #1, FLG!2 and FLG#3 APR 2-2317 Examine Welds: 10"-ECB-28 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12. 10"-CCB-20 13, 14, 15, 16, 17, 18 .TU"-tLS-29 25, 26, 27, 28 8"-ECB-29 29 6CCCS-22 19, 21, 22 Wclded Supports-US-1 WS-2 & WS-3 SupportCo'ponents-(Later) m Page 3 Rev. 5 6/13/79

Sketch Area to be Examined APR 2-2410 Examine Welds: 6"-HCB-19 9, 10, 11, 12, 13 Welded Supports-WS-1 SupportComponents-(Later) APR 2-2411 Examine Welds: 6"-HCB-19 3,4,7,8,9 Welded Supports-flone Support Components (Later) APR 2-2412 Examine Welds: 6"-HCB-19 1,2,3,4,5 Welded Supports-fione Support Components (Later) i APR ?-2413 Examine lleids: 8"-HCB-17 1, 2, 3, 4, 5, 6, 18, 19, 20, 21, 22, 23 Welded Supports-WS-1 & WS-2 Support Components (Later) APR 2-2414 Examine Welds: 4 8"-HCB-19 1 thru 32 i Welded Supports-MS-1, WS-2 & WS-3 Support Components (Later) APR 2-2415 Examine Welds: 8"-HCB-14 20 thru 34 Welded Supports-WS-1, WS-2, & WS-3 Support Components (Later) APR 2-2416 Examine Welds: 8"-HCB-15 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 15, 16 Welded Supports-WS-1, WS-2, & WS-3 Support Components (Later) Page 4 Rev. 3 1/22/79 W eD*

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SKETCH SHEET ..,x.amo WESTINGHOUSE ELECTRIC CORPORATION Rev ! 7/#4/ ?9 A PR-l-4 lO5 L eon # 1 3"RTD Re runn (c4 3 " CCA - 19 SCH - I GO FE 490 GVoo A s Rur ; 8 auJ 150 1 - 4lC L f-gg ( li /l m ( -2 3 3 ,e.g. i q 17 lb

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SKETCH SHEET WSWTIMSMOU3G FOftM 24443 WESTINGHOUSE ELECTRIC CORPORATION RF.V I '7[74 [7 ? A PR-I -4 l 07 li Lcom 1 4 pREssugg7,gg $NAY (C. t..) TA" CC.A - 15 _ -- sqq ~l G o ~T _ C.C NT 'o og G.' I -IS o I-42.C8 / ( RE F. 3 9 g o PREF 40

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SKETCH SHEET WrESTlh4HOU*,3 pored 24443 WESTINGHOUSE ELECTRIC CORPORATION Pssv i 7/et4lq APR-l-4 I J l Lee,9 3,,l$,su RHR TA k e - OFF (n, t ) ia. cc+ iu IG l'} \\ / p neue 80ccA ic, \\ o 0 v 14 ~ l8 ^ \\ Jo sq ~ F 13 M P l f jo i 3c".; & u r (1 a's ( w.n. 2 ) c Caer. lase, a / iso i - 4i oc 3 ) ( REF 2.) s I 9,c Go - s z" ew 4 [5

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g WESTINGHOUSE ELECTRIC CORPORATION REV 1 7 lJ4 h 9 l A PR-I-4 20I l_ l 00 m # 2. 2 " RT D ' - - O n C w. t.) h L' CCA-SCH tGO i l \\\\ L. g 4, > ~- lo [ y 14 s" l o 2 \\ N l IS I l* g ) 9 s gul kf-

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i SKETCH SHEET WEST!NGHOUSE ELECTRIC CORPORATION PA v. O 3 [12.['79 A P R-4206 L eep # 2 3 " N o a m At_ C sAnc.inc 6'd 3 " CCA. 7 SCH.IGO GENO ll 'to ,l0 '/4 4 \\, [ ko g BEMD 3 p.(REEII) BEH O S' (ass.12sc 150 2.42.CO q / Wr. A 3 CCA *f ggua SEMD 13 - 3" 8.u). g e ee-.

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$NETCH SHEET ... :,,om,m.... WESTINGHOUSE ELECTRIC CORPORATION pxsj, Q /g A P R l-42.09 k a ~ L F 2 G'2 H ec s H o. S l s (n.i..) l ') REF 3) REF LEBC. o 1001 4100 \\ 9 0 (Rep $1-) % Y 15 IA 33 Loo p" 1 (H.L) .150l-Aloo seen o N W E.- t EENO t- /D 33 $Ye p SEND 30 C CC A - 7,7 ) ,dCCA.2n 44 ar 42 - GS g, 2. " gs' / / s' Tac l 7+ of ao ec - <)4 s o ~ 10 e tr 3 x9 \\ 7g I/ I g I i / I 9 - G 'e, w, e/ I a - c " S, w, e 0 C - D y, c, 4 c, I-ws [ O eq.

SKETCH SHEET WEAT18eeHOUSE FORM 14MD WESTINGHCUSE ELECTRIC CCRPORATION R.Ev. o 3 / l*,./ *19 m A PR l-4 210 Leo, $2. G A52 SIS ( c. 'd N N N G"ccA-ga SCH. t so _ 2." r C3NYD GN I'***# A.'.. c C A - 2 0 .sc H - t G o gg "'I 2 ": ccA sc H.ico: ws- - --)(I ( 15 14 h IG' ? n 4 ccA-2.1 gg ji 10 N 87 9 0 REF 238C .$o*ST*O To\\ IO ~' oN 2.- 1 3 nc, l s 3 es.. i \\ l9

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,e SKETCH SHEET wasrimewou:a reins aus3 WESTINGHOUSE ELECTRIC CORPORATION A PR-l -4 30 8 l 18 i Loop # 3 G S lS (H L3 c," c c A - Q S S C. H I G,0 ~~G CCA-2.9 / o s C 4 4 \\3 er GX1 ~ r )c t I N / \\ --(acr. 2.) x i nsw i ssc. leoI4300 7sp3 yew t50 1-43O5* (asv. s) l I i G-4 BW V*

SKETCH SHEET WE. STIM 4 MOUSE FORM 24440 WESTINGHOUSE ELECTRIC CORPORATION I 1 i A DR-l -4309 i l* te ss Looe 3 8 -G + 2 SIS (C'-) 8 ** CC A - 2.7. Sc.H. IGO q C.", CC A - 2.2. S C.H. IGO m M p g x cca-u. s m.1c.94, ~~q <W j 3 L j$ k q g 'e o -9 g,e s 4 n; e ,C 3 I '4

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.k SKETCH SHEET wasw..wou3s roam aus WESTINGHOUSE ELECTRIC CORPORATION A P R- - 43 FO Leeg" 3 12." A c e m u i xton. D i v C.s c Ici--) 1 12." c c. - - 24 s ca. w o Ib 'l s ll T VogRq \\ 8~ l REF nt) gg j 14 RE F. 2.1 GA. 150 1-4300 ( 6 (m iQ g SEN D._ [ ws-S / u.)$-I 7 '2.,'. C CA - 2.4 i /* y o'S'l C ( 3 f "I .1 l w - 12." e ua a-us s i I I l H

SKETCH SHEET WESTINGHOUSE ELECTRIC CORPORATION ho sh1M9 A P R-l - 431 I I e Lcom 3 12. R H R TA k E - O v=F [H. L.) l'A " C C A - t (, S C.H. 14-C dO i N d tc 07 QW -~ s 3 x- 'c N - NO s- + I ~ ~ m d 4 L s i 3 h_ 'o _u '6 ^= a w, k ~ 's g g \\ m_ m e + OM mu. 0N o* C o l tt ; (,7 0h l / ,.a ? d ,/ U m =_ l

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1 t SKETCH SHEET i WESTINGHOUSE ELECTRIC CORPCRATION 9 jgj 7, 1 ^ A PR 4 501 11 It Y P ESSU R\\ TER E E LI E V:= b\\NE 4 c c c A-2.0 %CH.1 Go 3 C C A-2.o SCH IGC 3'.'C CA - 20. ^ IT 14 o #> l / O' i I l6 ,3 / I'l gg ( &*4 4 ll jg \\ N "o,@ /p 9(8 { \\ go { +n 19 ,.7 g-d'ccA-20 o po '. c, ",. g i I o al \\ q, e 1 Sl. 3 N loM Rew s' I%Q \\- 2.11 0 t I 14 - c, s u.i I ~ 9 - 2" ew t-G"om 4

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SKETCH SHEET WESTIMOHOUIS F3Khe 2444) WESTINGHOUSE ELECTRIC CORPORATION Rarv 1 8/15/19 A PR l-4 503 i l4 PR.E S S U R. I Z.E R. b U R.GE l ) 4. cc A - SCH-IGO R E F. G, ISO I -1g to F ~e e 1 (REI:. 3) 41 k! p nEn.i<,e.c. 15 0 i - 4 too I

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EWE" '"!fL - WESTINGHOUSE ELECTRIC CORPORATION Q pf, f /g3 A P R - I-4 700 31 PIN G PRESSURE RETAIN ING BO_TlhG ITEM NO. FLANGE NO. QUANTITY APR NO. REMARKS 1 FLG. dl 8S & 16N 1 4102 2 FLG. 41 AS & 8N 1 a103 3 FLG. 41 85 & 16N 1-4105 4 FLG. di 8S A 16N 1 4202 5 FLG. 41 4S & 8N 1-4204 G FLG. 81 85 & 16N 1 4207 7 FLG. dl 85 & 16tl 1-4302 8 FLG. di AS & 8N 1 a30a 9 FLG. #1 85 & 16N 1-4307 10 FLG. di 12S & 12N 1 4502 1l FLG. d2 12S & 12N 1-4502 12 FLG. d3 12S & 12N 1-4502 l l 8 STUDS / 16 MUTS -t 8sf16 M :: V/T 100% of Boltinri

$KETCll EliEET toru 20577 WESTlHGilOU S E El.ECTRIC CO RP OR ATION A PR-I-5InO l R.C. PUMP FLANGE ROLTING Seal Injection i Line used as Zero Ref. 2 3 4 5 1 6 / .s 24 7 23 B 2 9 4 21 10 2 11 i s li 12 18 i3 o\\ 14 16 15 NOTE: Loop " Number preceeds bolt number Example: Loop #1 - Bolt il = l.1 f Loop #2 - Bolt #1 = 2-1 l Loop #3 - Bolt il = 3-1 24 Rolts 4.5" Diameter (per purp) t t p i ~'

SKETCH 5HEET retu 28577 WESTlHGHOUSE ELECTRIC CORPOR ATION N A P P - l -- 3 l ! O l r t R.C. Pl JMP S FA L H OU<~ lN G P Ol TI M G' -l Zero Reference 11 t ) F 10 g r I v I I ) \\m V 7 V 8 7' 5 \\6 it0TE: Loop tiunber Preceeds Rolt flunber Example-f Loop #1 - Bolt 31 = 1-1 Loop #2 - Polt 31 = 2-1 Loop #3 - Bolt #1 = 3-1 12 Bolts 2.0" Dia (per purp) .hmP'

SKETC11 SHEET scou 2c577 WESTlHGil0US E EL ECTRIC CO RPOR ATION A P R -l-5120 t PlJMP SUPPORTS AND STRUCTURES r t e 9 RC.PUhtP STEAM N. ENERATCR i LOOPl 1 A } o 270 + 90 / T i LOOP 2\\ / ^ c ^ LOO P 3 C B z b ) l 180 Pump Support Ccmponents Pump (Loop) number preceeds support number: Example: 1 Pump Loop) !1 - Support A = l-A Pump Loop) #2 - Support B = 2-B o

ein. u. ova,on etco WESTINGHOUSE ELECTRIC CORPORATION R E V,f 8 / 21/ 77 A P P - I-5 I 3 n R. C. PUM P F LYWHE EL A-dageHole 1.03" Typ. D VEYWAY (TYP 3) o o A O \\C a/ \\ / @ g C O O o i oi ,1 ' !! i li Flywheel designation to preceed gage hole number Example: R.C. Pump Flywheel 1-1-Gage Hole A = l-1A R.C. Pu:rp Flywheel 1-2-Gage Hole B = 1-2B l W

W LICtf kliLLI WitETif6040uZ Fones 34443 7 WESTINGHOUSE ELECTRIC CORPORATION j VA VE-PR ES SURE -A 3R-l-6 3 00 SMEET ! OF 2 RETAINING BOLTI NG ITEM ISO VALVE SIZE VENDOR OUANT. BOLTING 1 1-4104 QV003 3" 12S & 12N 2 1 4104 QV367 3" 6S & 6N 3 1-4104 QV368 3" 65 & 6N 4 1-4105 QV005A 3" VELAN 125 & 12N 5 1-4207 QV005B 3" VELAN 12S & 12N 6 1-4307 Q.V005C 3" VELAN 12S & 12N 7 1-4105 QV044A 3" VELAN 12S & 12fl 8 1-4207 QV04aB 3" VELAN 12S & 12N l 9 1-4307 QV044C 3" VELAN 12S & 12N 10 1-4206 QV110 3" VELAtl 12S & 12N 11 1-4106 QV1-1 3" VELAN 125 & 12N 12 1-4206 QV112 3" VELAN 125 & 12N 13 1-4106 QV113 3" VELAN 12S & 12M 14 1-4501 V027A 3" VELAN 12S & 12N 15 1-4501 V027B 3" VELAN 12S & 12N 16 1-4501 V053 3" COPES 6S & EN 17 1-4501 V061 3" COPES 6S & 64 18 1-4208 V060 4" ' FISHER 8S & 8N 19 1-4107 V056 4" FISHER 8S & 8N 20 1-4309 V051A 6" VELAN 12S & 12N 21 1-4210 V0518 6" VELAN 12S & 12M 22 1-4108 V077A 6" VELAN 12S & 12N 23 1-4309 V021A 6" VELAN 12S & 12N 24 1-4210 V021B 6" VELAN 125 & 12N 25 1-4108 V076A 6'" VELAN 12S & 12N 26 1-4109 V0GIC 6" VELAN 12S & 12ft 27 1-4209 V0768 6" VELAN 12S & 12N 28 1-4109 V02tc 6" VELAN 12S & 12N 29 1-4209 V0773 6" VELAN 12S & 12N 30 1-4303 V077C 6" VELAN 12S & 12M e N I

$ KETCH SHEET WESTINGHOUSE ELECTRIC CORPORATION ,f 7 { VA1V E-PR E S SURE A 3R-1-6300 f s w., 2 og 2 RETAINING BOLTING f ITEM ISO VALVE SIZE VENDOR OUANT. BOLTINF, 31 1-4502' QV031A 6" CROSBY SS&8N 32 1-4502 QV031B 6" CROSBY 85 & 8N 33 1-4502 QV031C 6" CROSBY SS&SN 34 1-4110 V032A 12" COPES 16S & 16N 35 1-4211 V032B' 12'" COPES 16S & 16N 36 1-4310 V032C 12" COPES 16S & 16N 37 1-4110 V037A 12" C) PES 165 & 16N 38 1-4211 V037B 12" COPES 16S & 16N 39 l-4310 V037C 12" COPES ~ 16S & 16N 40 1-4311 QV016A 12" COPES 165 & 16N 41 1-4111 QV016B 12" COPES 16S & 16N 42 1-4311 QV001A 12" COPES 16S & 16N 43 1-4111 OV001 B 12" COPES 16S & 16N e 0 4 6 M

~l 5 7. 9 7 O/A. - Steam Outlet i / 63 ** cmc. !!ozzle to Head tlcid f 7 0 3 62"T A B A B \\ T4anway A V d( p.anway B g Upper Head _l Upper Shell St. Gen. #1 ffT c/[d St. Gen. f2 to Shell R E to Tranti-V t! eld #5 St. Gen. f3 i tion Cone 3.62"T ~ 33 l'e l d.= 5 g 3.62"T 3 3 3 3., xo s c feeduater 4 i w ?!az:le to \\ N } O ShcIl Weld [ jT] m 'S 3.62"T m c 1 c a c a n Q 2.'82"T [ E x. n EE'S) Transition Lower Shell to. Top g o_,,) g x Cone to Stub Barrel 20 1 n,, - -i y f~3 Lcwer Shell ifeld #3 2.82"T 9; 39 g is 3 2% O o y

c1d =4 vt n 9:

f n 3.68"I A4 -5 g ?' s 9 is3% gFc y,s.W U o ~ 84%jN,p. $^ofp y Stub Barrel to i O gg Z Upper Tubesheet c 5l 3 9 b !! eld #2 3.25"T N n 'o g .N s eco m p a n,y j, Marway (typ.) v. j ) 0 l i

m.v. 5 w:s res suso WESTINGHOUSE ELECTRIC CORPCRATION = A P R I-l O O A. t Ref. APR-2-1100 for specific j locations. 1 STEA?! GE!!ERATOR , or Steam Generator #1: Weld #4; 3.68"T, diameter 135.00", circumference 424.12". I Weld #5; 3.62"T, diameter 175.75", circumference 552.14". Weld #8; 3.62"T,- SfeamGenerator#2: Welds #2 and f3; 3.25"T, diameter 135.88",' cir-cumference 426.88". Steam Generator !3: Weld #6; 3.62"T, diameter 175.75", circumference 552.14". Weld #7; 3.62"T. Manuay Bolting: 20 Bolts 1.125" diameter per manway, two (2) (Secondary) manways per generator. U/T following bolts: Stoan Generator #1 Manway A - Bolts 1 and 2 I Steam Generator #2 Manuay S - Bolts 1 and 2 Steam Generator i3 Manway A - Bolts 1 and 2 Generator and Manway Designation procceds Bolt liumber. Example: Gen. #1 - Manuay A Bolt #1 = 1A-1 Gen. #2 - Manway A Bolt #1 = 2A-1 Gen. 13 - Manway B Bolt #2 = 38-2 Manway A: First manway clockwise from feeduater nozzles as viewed from the top. - e l - S

o I SKETCil Sl!EET f WCS11N3 HOUSE 80Rb8 2f 440 WESTINGHOUSE ELEC7tt!C CORrORATION '9!ER ATS R A P R-2-1 005 STE r,t 8 2'[' MC 's g[ I ', i i i \\ / N,_,/ NOTE: Circumferential dimensions measured /]h Feedwater 0}ockwisefrom c Nozzle datum. A o' (0 in.) TOP VIEU - REFERE!!CE COORDINATES (TYPICAL ALL GEliERATORS) CIRCIf!FERE!!TIAL MELDS , AliGULAR AREA 14EASURED AREA

• UELD(S)

AREA _REFEREf!CE FR0'i TO LENGTH

1. 2 (S.G. #2)

A 0 0 in. 3 din. 30 in. !3(S..G.!2) B 120 142 in. 172 in, 30 in. C 240 284 in.,314 in. 30 in. 0

1. 4(S.G.#1)

A 0 0 in. '30 in. 30 in. 0 ~ B 120 141 in. 171 in. 30 in. C 240 282 in. 312 in. 30 in. 0 !5 (S.G. #1) A 0 0 in. 40 in. 40 in. !6 (S.G. !3) B 120 185 in. 225 in. 40 in. j C 240 368 in. 4n8 in. 40 in. N0ZZLE HELDS HELD (S) AREA LE"Gi'il AREA !!IOTH .#7(S.G.#3) Entire Circumference 10 in, fro:a both ednes of weld. !8(S.G.#1) Entire Circumference 10 in. from both edqcs of weld. All area widths l'; extend 10 in, fron both ednes of weld. i

WESTINGHOUSE ELECTRIC CORPOR ATION Rc_v. I 6 /15/79 A P R-2-I I I O 3 EXCESS I FTDOWN HEAT EXCHANGER a 2 TOP Material: .750"T SA240 I TP 304SS Inlet Welds: Dia. 9.50" Circ. 29.845" Head to p Shell (#1) I l/ 2 I?_ Bolting: 12-1.625" Dia. g' ' 3 11 i 4 c + r 10 5 9 6 E .X X 8 i\\ 7 t 9 Outlet P / \\A I \\I i!. (

1. 1

'I \\ [ \\ Inlet Outlet y ? r n p 1 e

WESTINGHOUSE ELECTRIC CORPORATION REv. I 6 /l5/79 A PR 2-I l lO A g EXCESS LETDOWl1 HEAT EXCHANGER o Examination Reference Coordinates 4.Ok 0 NOTE: Circumferential dimensions f l'P a .1

279, measured clockwise from 0 SO 40 datum (view from top)

Outlet Nozzle i O' i CIRCUMFEREtlTIAL WELDS ANGULAR AREA MEASURED' AREA

• l WELD (S)

AREA REFERENCE FROM TO LENGTH

1. 1 A

90 2.0" On each side 4.0 in. of angular ref. B 27 0' 2.0" On each side 4.0 in. of angular ref. PRESSURE RETAIrlIrlG BOLTIfG Examine 12-1.625 Dia. Bolts l

• All examination area widths to extend 1.0" from both edges of weld.

1 I l a.

CL!ilfe9DtOuss poeied 244:0 WESTINGHOUSE ELECTRIC CORPORATION A P R l 120 RE S I D UAL ' E AT E X C H A N G_E R (2) e ~ Material: Shell;.875"T ASTM /f 240 TP 304 HRHR 001A-A i@ Nozzles: .875"T AST.'t 182TP 316 \\~' HRHR 0010-B Welds: Shell to Flance (#A) and Head to Shell (!B) I Dia, 39,75" Circ. 124.878" Nozzle to '/essel Uelds: #C & #D 10" Dia. 31.4" Circ. NOT AC

• T -5513 LE fla,nge Bolting: -l3.l.375" Dia.

..bol ts UT-bolts 1, 2, 3, 4 & 5 Flange 7 Bolting Heat exchancer desinnation creceeds weld number, AND Bot T

MuMPAR, F,

Exannle: s p l Heat X. A t' eld 5; = A-A i - !A . Heat X. B - Bolt #2 = B-2 m Outlet i p e 7 RB OOOOog O O 4 'a O o 0 O 4S f o + 8 + y=t-gN, O 2 O 3 O i O 0 S o 0 0000000 Flanne Bolting M "'

ar.t.il.Il 411tr.1 WESTINIHOUTI F91M 2K4.D I WESTINGHOUSC ELECTRIC CORPORATION RESIDUAL llEAT EXCHAT1GER A P R 2 - 1 I '/O" e* Examination Reference Coordinates 8 ..? o*/C NOTE: Circumferential Die ensicns [ j\\ mgasured clockwise fren 0 datum (view from top) / )*,N Outlet Nozzle A o CIRCUMFERENTIAL WELDS Af! GULAR AREA MEASURED AREA ** WELD (S) AREA

• REFEREl ICE FROM TO LENGTH A-A A

0 0" 8.5" 8.5" A-B B 120 42.0 50.5" - 8.5" B-A C 240 84.0 92.5" 8.5" B-B PRESSURE RETAINI"G BOLTIM Examine 48 - 1.375" Dia. Bolts Areas typical for each weld.

• • All examination area widths to extend 1.0" from both edges of weld.

l l t 4 4

SKETC11 tilEET yssu 20577 WESTlHGHOUSE ELECTRIC CORPOR ATION A P R 1 1 3_O S P A L Vt/ ATFR H E AT E X C !4 A N G F R 7 N g- \\. Material:.185"T SA240 TP 304SS Welds: 20" Dia. 62.83" Cire. Shell to Flange (n ) and Head to Shell (#2) P/T & V/T (ISI U/T not / feasible) I 4 6 3 Al / \\ l i \\ / /p. ~ N INLET OUTLET 3 N Nw g e l-

SKETCil SHEET wetnace*>vsa rsau auto WESTINGHOUSE ELECTRIC CORPORATION - SEAL WATER HEAT EXCHAf'GER A PR 2-I l 30 A Examination reference coordinates 8 0 ?' NOTE: Circumferential dimensionc C ,,y measured clockwise from 0 [ W datum (view from top) Outlet Nozzle ~ o' (0 in.) CIRCUMFERENTIAL WELDS ANGULAR AREA MEASURED AREA ** WELD (S) AREA

• REFERENCE FROM TO LENGTH

1. 1 A

0 0" '4. 5" 4.5"

1. 2 B

120 21.0" 25.5" 4.5" C 240 42.0" 46.5" 4.5" Areas typical for each weld.

• • All examination area widths to extend 1.0" from both edges of weld.

4

SKETCH SHEET tease 28577 WESTlHGHOUSE EL ECTRIC CORPOP. ATION A PR-2-1140 LETDOWN HEAT EXC H ANGF R ~ i i l Material: .391"T SA 240 TP 304 Welds: Dia. 21.782" circ. 68.4" Shell to Flance (#1) and llead to Shell (!2). [ l l 1 l s / \\F .i ~l e ill , / 9 7 -. N \\ I INLET OLTLET' ) ( ~- t J N N ez Y

SKETCil SliEET wrennsuouir. conu su.o WESTitlG!!OUSE ELECTRIC CORPORATION

• LETD0Uti IIEAT EXCli/JiriER A PR 2-1I4O A Examination reference coordinates B

h o '[ 33 C o ~/ NOTE 1: Circunferential dimension < \\ (- mgasuredclockwisefrom 0 datun (view from top) p Outlet Nozzle O (0 in.) CIRCU'iFERE.'ITIAL HELDS ANGULAR AREA MEASURED AREA ** WELD (S) AREA

• REFEREf!CE FROM TO LENGTil

1. 1 A

0 0" 5.0" 5.0"

1. 2 B

120 23.0"

23. 0'-

5.0" 0 C 240 46.0" 51.0" 5.0" Areas typical for each weld.

• • All exanination area widths to extend 1.0" from both edges of weld.

O e

SKETC:1 LliEET _roz :ns71 WESTlHGHOUSE ELECTRIC CORPOR ATION _A P R 1 I S C; _L E T DOVG1 P EH C AT HFAT E XC H A blG E R.. A N Material: .1875"T SA240 TP 3045S Welds: Dia. 8.625", Cire. 27.095" Shell to Flance (41) and Head to Shell (#2) P/T + v/r (ISI U/T not feasible ) Integrally Welded Suoports: P/T 2 supports t s 2 l / N. e i 8 ' Inlet e a l i n, a r)r 8 i

1. I

'I !IS1 \\ [lill HS2 N w. e:m- >" '- - -\\.-r l> --- Q + 1 ,_;._, g / r ~ \\ / v k'S2 NSI(I"# S'#U) !2 niitin( i l G es=,

WESTINGHOUSE ELECTRIC CORPORATION 0 V.1 6/!5/79 tETom., eEaExo SEAT ExCsancER A PR 2-1i 50 A Exanination Reference Coordinates l80 9.~ B I NOTE: Circumferential Dimensions measured clockwise from 0* t-datum (view from too) o y Outlet flozzle O (0in.) o ? CIRCUMFEREflTIAL WELOS ANGULAR AREA ** l' ELD (S) AREA

• REFERENCE AREA MEASilRED LErlGTH

1. 1 A

0' 2.5" on each side 5.0" of angular reference

1. 2 B

~180* 2.5" on each side 5.0" of angular reference Areas typical for each weld.

• • All examination area widths to extend 1.0" from both edges of weld.

I NOTE: Due to support interference, (2) two 5.0" long examination areas, instead of (3) three 2.0" long examination areas were designated to be examined. I l l

SM ETCil 011EET Peru 7A!77 WESTlHGil0USE EL ECTRIC CORPOR ATION .A P R l 16 0 REGENE RATIV E HE AT E XC H ANGER. Material: liead to Shell Held .938T SA351 - CF-8; Shell to Tubesheet Weld.900"T SA351 - CF-8. Welds: Dia. 9.626" Circ. 30.24" Il B A h EA ~ >k\\ 'l op T

1. 2 f3 Ref. ISI-101

^ CL I? ~ * ' !8 7d AN 5 !6 i7 f j, 1 ~' 9 .!12 _fl 0 fil 1 Head to Shell Welds: 1, 4, 5, 8, 9, 12 Shell to Tubesheet Ucids: 2, 3, 6, 7, 10, 11 I I l l

i $ ETCH SHEET EENT1980660U3S FOnes 34443 WESTINGHOUSE ELECTRIC CORPORATION REGENERATIVE HEAT EXCHANGER Examination Reference Coordinates 8 (0 in.) p T.D. Centerline

1. 70

~ NOTE: CircumferentialDimensiong measured clockwise from 0 datum (view in direction ofarrow). 325 geo d CIRCUMFERENTIAL WELDS A ANGULAR AREA MEASURED AREA ** WELD (S) AREA

• REFERENCE FROM 0

LENGTH 225 20.0" 26.0 6.0 " 0

1. 1 A

thru

1. 12 Area typical for each weld.

• • All examination area widths to extend 1.0" from both edges of weld.

e

SKETCil $!!EET wc:in.uwouse cozia seuo i WESTit!GHOUSE ELECTRIC CORPOffATION ituisTaArivE ora.y A PR-2-l 2OO VOLUME CONTROL TA N K n 1leld il i 73.50" Ref. f N. 7 L' eld f 2 I \\ ,I 1.50" 's l!S-1 Re f'. 9 jb 0 0 I\\ c-6 BI \\ / B2

• s

,- ? B3 7 [N-B4, Etc. { d p./ N 3 ~N / \\ 14aterial: .250 Thk. SA-240 TP 304 '$. "\\\\9-Dia.: 84.00" / \\ Circ.: 263.89" Bolting: 16 - 1.25" Dia. Support: 1 integrally welded m

$KETCllEHEET %L3f p41HOU;L FKf'M 8:M4D WC!TTINGHOUSC CLCCTRIC CORPORATION VOLUME CONTROL TAtlK APR 2-1 POO A Examination Reference Coordinates B. % \\a:*. f -y/( f;0TE: Circumferential I I Dimensionsmeasuged clockwise from 0 datum (view from top) s/%' A c e Manway o (0 in.) CIRCUFEREf T!/.L WELDS AfiGULAR AREA MEASURED AREA ** WELD (S) AREA

• REFEREf;CE FROM TO LENGTH 0

1. 1 A

0 0" 8.0" 18.0"

1. 2 B

120 88.0" 106.0" 18.0" C 240 176.0" 194.0" 18.0" Areas typical for each weld.

• • All examination area widths to extend 1.0" from both edges of weld.

~

M LIUll h!!LLI WLSTtNS HOUIC FOttt4 2444) WESTINGHOUSE ELECTRIC CORPORATION A PR 2-12 iO L ETDOW N DE_AY TANKS lia terial: 1.250"T 14" Sch 140 1.'el ds : 14" Dia. 43.96" Circ. (Typ'4 places) Welded Supports: 4 lugs per support area (Typ 4 places) el ? r, / JA 2B WS-1 WS-3 \\r_- - - ---, -,/, / WS-2 t a a i i c a 3__ _; p g WS-4 p-_. - - - ---q p_ C C J ! D J V

i. _C.____

__J

1. 2
2. 4

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• REFEREl'CE FROM TO LEl;GTH 0

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0 0" 3.0" 3.0" 0 thru B 120 15.0" 18.0" 3.0" N C 240 30. 0 33.0" 3.0" ? Areas typical for each weld.

• • All examination area widths to extend 1.5" from both edges of weld.

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&EE!,IN.dSMS.- u:.o WESTINGHOUSE ELECTRIC CORPORATION REV. 1 6/13/79 A P R 2600 3IPiN G PRESSURE RETAIN 1NG BOi-~ LNG 1 ITEM NO. FLANGE !!O. OUANTITY APR. NO. REMARKS 1 FLG. !l 205 & 40N 2-2310 Stud Dia. over 1" 2 FLG. !2 205 & 40N 2-2310 Stud Dia. over 1" 3 FLG. #1 16S & 32N 2-2311 Stud Dia. over 1" 4 FLG. #2 105 & 32N 2-2311 Stud Dia. over 1" 5 FLG. #1 205 & 40N 2-2313 Stud Dia. over 1" 6 FLG. #2 205 & 40N 2-2313 Stud Dia. over 1" 7 FLG. #1 165 & 32N 2-2314 Stud Dia. over 1" 8 FLG. #1 125 & 24N 2-2316 Stud Dia. over 1" 9 FLG. #2 125 & 24N 2.2316 Stud Dia. over 1" 10 FLG. #3 12S & 24N 2-2316 Stud Dia, over 1" 11 FLG. #1 125 & 24N 2-2111 Stud Dia. over 1" 12 FLG. #2 125 & 24N 2-2111 Stud Dia. over 1" 2-2111 Stud Dia. over 1" 13 FLG. #3 125 & 24N 14 FLG. #4 12S & 24N 2-2111 Stud Dia. over 1" 15 FLG. #5 12S & 24N 2-2111 Stud Dia, over 1" 16 FLG. #1 125 & 24H 2-2120 Stud Dia. over 1" ~ 17 FLG. #2 12S & 24N 2-2120 Stud Dia. over 1" 18 FLG. #3 12S & 24N 2-2120 Stud Dia, over 1" 19 FLG. #4 125 & 24N 2-2120 Stud Dia, over 1" 20 FLG. #5 12S & 24N 2-2120 Stud Dia. over 1" 21 FLG. #1 12S & 24N 2-2130 Stud Dia. over 1" 22 FLG. #2 125 & 241 2-2130 Stud Dia. over 1" 23 FLG. #3 125 & 24U 2-2130 Stud Dia. over 1" 24 FLG. #4 125 & 24N 2-2.130 Stud Dia. over 1" 25 FLG. #5 12S & 24N 2-2130 Stud Dia. over 1" e m h h s e a e

SKETCH SHEET form 28577 WESTlHGHOUSE ELECTRIC CORPOR ATION RevI c.120 / 77 i A P R-2-310 0 ~ RESI DU AL HEAT REMOVAL PU M P (2) Pressure Retaining Bolting; 24 - 1,125" Dia. (PcR Pu mM .v/T tec% (Peg Pump ).. i U/T 3 Bo L.TS, ( Pa n Pump ) Pump Designation preceeds support Example: number and bolt number. Pump P002 A-A - Support A = A-A Pump P0028-B - Support C = B-C Supports: V/T ico 7e (~5)/\\ ump P002A-A P - Bolt #1 = A-1 9j ( ) l POC2A-A POO28-8 Zero Ref. C O.0" casing drain) f U i k I 23 t gi 2 C O v/$<'7 U 3 A o 4 u e-1 i O p o. C 5 O G O \\ \\ ) .,0 l t-o"OA O' \\v 0 0 o ( 'cg;e \\ / e Pump Flange Bolting i h 4 e e e

-== ===s $ KETCH SHEET foru 23577 WESTlHGHOUSE EL ECTRIC CORPOR ATION A P R-2-31 I O C ENT R IFUG A.L C H ARG I Nr, PU LI PS131 Pump Casing Weld: Not Accessible Pressure Retaisiing Bolting: 16 - 1. 6260ia. (PER PUMP) V/T - 100% of Bolting (All pumps) U/T - The following bolts: Pump 2 -A-Bolts T and 2 Pump 2 -B-Bolts 1 and 2 Pump 2 -C-Bolts 1 and 2 Supports: 4 Welded Supports (per pump) V/T 100% of supports P/T The following supports: Pump 2 -A-WS-1 and WS-2 Pump 2 -B-WS-3 Pump 2 -C-WS-4 Pump designation preceeds welded support number and bolt number. Example: Pump 2 -A - Welded Support 1 = AWS-1 Pump 1-B - Welded Support 2 = P.WS-2 Pump 2 -A '- Bol t #1 = A-1 ,. Pump 2 -B - Bolt #2 = B-2 Top i 1G 0 7 g 4 3 -{- N Bolting C @ C g,s. CD a @u i w n" g Pump Casin g C Weld x% / O US-4* q. Jus _2

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WESTINGHOUSE ELECTRIC CORPORATION VA LVE 3ODIES A 3 7-2 -4100 VA _V E PRESSURE RETA I N I N G BO L-S QUANTITY APR i l TTFM ALA REF. W REF.I BOLTING NO. MANUFACTURER DIA. REMARKS. 1 V004A 2111 6" 2 V004B 2111 6" 3 3 V004C 2120 6" 4 V0040 212Q 6" 5 VO,04E 2130 6" 6 V004F 2130 6" 7 V043A 12S & 12N 2316 Velan 6" Note 1 8 V043B 12S & 12N 2316 Velan 6" Note 1 9 QV182A 12S & 24N 2410 Copes Vulcan 6" 10 QV1828 12S & 24N 2411 Copes Vulcan 6" 11 QV182C 12S & 24N 2412 Copes Vulcan 6" 12 605A 12S & 24N 2311 Rockwell 8" 13 V0338 125 & 24N 2314 Rockwell 8" 14 V041 16S & 32N 2317 Copes Vulcan 8" 15 QV324A 125 & 24N 2414 Copes Vulcan 8" 16 QV324B 12S & 24N 2414 Copes Vulcan 8" 17 QV325A 12S & 24N 2414 Copes Vulcan 8" 18 QV325B 12S & 24N 2414 Copes Vulcan 8" 19 QV336A 12S & 24N 2413 Copes Vulcan 8" 20 'QV336B 125 & 24N 2413 Copes Vulcan 8" 21 QV010A 12S & 12N 2111 Lonergan 9" 22 QV010B 12S,& 12N 2111 Lonergan 9" 23 QV010C 125 & 12N 2111 Lonergan 9" 24 QV0100 12S & 12N 2111 Lonergan " 9" 25 QV010E 12S & 12N 2111 Lonergan 9" 26 QV011A 12S & 12N 2120 Lonergan 9" 1 27 QV0118 12S & 12N 2120 Lonergan 9" 28 QV011C 12S & 12N 2120 Lonergan 9" 29 QV0110 12S & 12N 2120 Lonergan 9" 30 QV011E 125. 8 12N 2120 Longergan 9"

E llLH SNtti ,,,' waam ow:s aww awn WESTINGHOUSE ELECTRIC CORPORATION l VA LVE BODIES A 3 R 4 I 00 VA LVE RR ESSURE PETA I N I NG 30 _T S QUANTITY APR ALAREF.! WREF.! BOLTING ! NO. MAi'UFACTURER DIA. RE.A' ARKS Imt 31 QV012A 12S & 12N 2130 Lonergan 9" 32 QV012B 12S & 12N 2130 Lonergan 9" 33 QV012C 12S & 12N 2130 Lonergan 9" 34 QV0120 12S & 12N 2130 Longergan 9" 35 QV012E 12S & 12N 2130 Lonergan 9" 36 V002A 20S & 40N 2311 Copes Vulcan 10" 37 V002B 20S & 40N 2314 Copes Vulcan 10" 38 603A 12S & 24N 2311 Rockwell 10" 39 V038A 16S & 16N 2311 Copes Vulcan 10" 40 V0383 16S & 16N 2314 Copes Vulcan - 10" 41 V024A 205 & 20N 2312 Copes Vulcan 10" 42 V024B 20S & 20N 2315 Copes Vulcan 10" 43 V023A 16S & 16N 2315 Copes Vulcan 10" Note 1 44 V023B 16S & 16N 2312 Copes Vulcan 10" Note 1 45 V042A 12S & 12N 2315 Copes Vulcan 10" Note 1 46 V0428 12S & 12N 2312 Copes Vulcan 10" Note 1 47 V0323 16S & 32N 2314 Rockwell 10" 48 V044 16S & 16N 2317 Copes Vulcan 10" Note 1 49 V026A 24S & 48N 2310 Copes Vulcan 12" 50 V026B 24S & 48N 2313 Copes Vulcan 12" 51 V027A 245 & 48N 2310 Copes Vulcan 14" 52 V027B 24S & 48N 2313 Copes Vulcan 14" 53 21V001A 2210 Rockwell 14" ~ 54 21V0018 2220 Rockwell 14" 55 21V001C ?230 Rockwell 14" 56 11V001A 2111 Atwood Merrill 32" 57 llV001B ?l20 Atwood "errill 32" 58 11V001C 2130 Atwood Merrill: 32" 59 llV002A ?lli Atwood Merrill 32" 60 llV0028 ?l20 Atwood Merrill 32" /} )

- EEEEdvIEie'Eene two j WESTINGHOUSE ELECTRIC CORPORATION l VA LVE 3ODIES A P R 4 l OO VA LVE PRESSURE PETA I N I NG BO LT S ,QUAflTITY APR ALAREF.! W REF. ! E0LTIttG N0. mat 10FACTURER DIA. REMARKS E3L 61 llV002C 2130 Attood Merrill 32" 62 V009A 16S & 32N 2311 Copes Vulcan 8" 63 V009B 16S & 32N 2314 Copes Vulcan 8" f Note #1 - Stud Jiameter exceeds 1" t she 2/449 O

RELIEF REQUEST m COMPO!2?C: Piping Pressure Boundary CODE CIASS: 1 EXAMI MT!ON FIOUTFIME!T: Tables IWB-2500 Category S-J and IWB-2600 Item B4.5 requires volumetric exa=ination of circumferential~ butt welds plus the adjacent base caterial for a distance of one wall thickness on either side of the weld. BASIS FOR RELIEF: Instances occur where pipe welds are between fitting to fitting such as elbow to valve or flange to elbow. In such instances access may be severely limited and ultrasonic examination cannot be performed on 100 percent of the volume of the veld and the heat affected zone. ALTER'uTIVE EX.UTI1*ATION-Ultrasonic e::cninations will be performed to the extent practical and will' be supplenented by surface examination. WeldsintheFarleyUnit2systemwhichwillrequiresuppfementalsurface exa=ination are: Loop 1 RTD return veld #16 Loop 1 Cold Leg SIS weld 68 Pressurizer Spray velds #42 and 43 Loop 3 RTD Return veld 68 Pressuricer Relief weld #14 Pressurizer Safety welds #2,5,13,17,21,25 and 26 Pressurizer Safety velds #7,9,10, and 11 are inaccessible D*P o P D WyP W oA_3 j a + =*Om m eoge e,=w,.

RELIEF P2 QUEST COMPONEITI: Piping Pressure Boundary CODE CLASS: 1 EXAMINATION FIOUTREME!!r: Tables IWB-2500 Category B-J and IWB-2600 Item B4.6 require volumetric exa=ination of branch pipe conhection welds of branch connections exceeding 6 inch diameter. BASIS FOR RELIEF: The geometric configuration of the weld as shown in Figure B4.6 prevents ultrasonic exasinations from being performed from the weld surface. ALTERNATIVE EXAMINATION: Examinations will be performed to the extent practical from the pipe and nozzle surfaces adjacent to the weld. Surface examination of the weld will be performed to supplecent the volumetric examination. e G b 0 me e m-e en e es phw game e e og . e opus e em e emm> we*

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I l WESTINGHOUSE ELECTn!C CORPOR ATION t 1 i FIGURE 84.5 l i l BRAflCH fiOZZLE C0tiffECTIOfi WELD CEtiTERLI!iE N0ZZLE i i N0ZZLE FORGING Il 1 I i i i i i 5 L / / REACTOR C00LAfiT PIPE I 5 I i l l i j i l s i n 1

RELIEF REQUEST CO"PO E C: Piping Pressure Boundary CODE CIASS: 2 DUJHKATION REOUIPr!E'2: Tables IWC-2520 Category C-G and IWC-2600 Item 2.1 require volumetric examination of circumferential butt welds plus the adjacent base material. for a distance of one wall thickness on either side of the veld. BASIS FOR RELIEF: The arrangement and details of the Class 2 piping system and components were designed and fabricated before the examination requirements of Section XI of the Code were formalized and some examinations are limited or not practical due to geometric configuration or accessibility. Generally these limitations exist at all fitting to fitting welds such as elbow to tee, elbow to valve, r reducer to valve, etc., where geometry and sometimes surface conditions pre-clude ultrasonic coupling or access for rhe required scan length. ALTEREATIVE EX.02"ATION: Ultrasonic examinations will be performed to the extent practical from the

• pipe and weld surfaces and be supplemented by surface examinations on those velds where 100 percent of the weld and heat affected zone have not been volumetrically examined. Welds in the Farley Plant systems requiring supplemental examination are:

RHR Sketch 2314, Welds #31 & 32 2315, Weld #14 2316, Welds Oil & 20 2317, Weld #18 I l ...-....)}}