ML20091P401
| ML20091P401 | |
| Person / Time | |
|---|---|
| Site: | Fort Calhoun  |
| Issue date: | 09/01/1995 |
| From: | OMAHA PUBLIC POWER DISTRICT |
| To: | |
| Shared Package | |
| ML20091P392 | List: |
| References | |
| PROC-950901, NUDOCS 9509010191 | |
| Download: ML20091P401 (305) | |
Text
{{#Wiki_filter:. ._ LIC-95-0157 , Attachment 1 j i l ATTACHMENT 1 l Fort Calhoun Station Inservice Inspection Program Plan < Third Ten-Year Interval 1993 - 2003 Revision 3 9509010191 950828 PDR ADOCK 05000285
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I ; I l i LIC-95-0157 Attachment 1 I ATTACHMENT 1 Fort Calhoun Station Inservice Inspection Program Plan Third Ten-Year Interval 1993 - 2003 Revision 3
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OMAHA PUBLIC POWER DISTRICT FORT CALHOUN STATION, UNIT 1 INSERVICE INSPECTION PROGRAN PLAN FOR THE 1993-2003 INTERVAL d l R3 September 1, 1995- Page 1 of 280
r PROGRAM TABLE OF CONTENTS , Page INTRODUCTION ............................... 5 , PART 1: Class 1, Class 2, and Class 3 Pressure Retaining Components . . 6 , 1 Program 1.0 Program Summary . . . . . . . . . . . . . . . . ._. . . . 6 2.0 Scope and Responsibility . . . . . . . . . . . ..... 6 ! 3.0 Inspection Intervals . . . . . . . .. . . . . ..... 7 4.0 Examination Categories. . . . . . . . . . . . . . . . . . 7 7 5.0 Examination Methods . . . . . . . . . . . . . . . . . . . 8 6.0 Evaluation of Examination Results.. . . . . . . . . . . . 8 7.0 Repair Requirements , . . . . . . . . . . . . . . ._. . . 9 8.0 System Pre ssure Testing . . . . . . . . . . . . . . . . . 9 9.0 Examination Schedule. . . . . . . . . . . . . . . . . . 10 10.0 Records and Reports . . . . . . . . . . . . . . . . . . 10 Tables ! 1 Table 1.1 Components, Parts, and Methods of Examination , IWB-2500-1 . . . . . . . . . . . . . . . . . . . 12 : Table 1.2 Components, Parts, and Methods of Examination ; IWC-2500-1 . . . . . . . . . . . . . . . . . . . 16 Table 1.3 Components, Parts, and Methods of Examination IWD-2500-1 . . . . . . . . . . . . . . . . . . . 18 Table 1.4 Components, Parts, and Methods cf Examination IWF-2500-1 . . . . . . . . . . . . . . . . . . . 19 Appendices
- Appendix 1A Exceptions to Compliance with Subsection IWA . . 21 Appendix 1B Exceptions to Compliance with Table IWB-2500-1 22
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Appendix IC Exceptions to Compliance with Table IWC-2500-1 . 23 , Appendix 1D Exceptions to Compliance with Table IWD-2500-1 . 24 Summary Tables Table 1A . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Table IB . . . . . . . . . . . . . . . . . . . . . . . . . . 27 < Table 1C . . . . . . . . . . . . . . . . . . . . . . . . . . 37 Table 10 ..........................47 Detaiian Ten Year Exam Schedule Class 1 Exams . . . . . . . . . . . . . . . . . . . . . . . . 51 Class 2 Exams . . . . . . . . . . . . . . . . . . . . . . . . 82 Class 3 Exams . . . . . . . . . . . . . . . . . . . . . . . . 139 R3 September 1, 1995 Page 2 of 280-i 1
PROGRAM TABLE OF CONTENTS (Continued) Page PART 2: Class 1, Class 2, and Class 3 Valve Tests . . . . . . . . . . 151 Program 1.0 Program Summary . . . . . . . . . . . . . . . . . . . . 151 2.0 Scope and Responsibility ............... 151 3.0 Inservice Test Frequency ............... 152 4.0 Valve Categories ................... 152 5.0 Test Methods ..................... 152 i 6.0 Evaluation of Test Results .............. 153 7.0 Records and Reports . . . . . . . . . . . . . . . . . . 154 8.0 Repair Requirements . . . . . . . . . . . . . . . . . . 154 i 9.0 Valve Test Program Matrix . . . . . . . . . . . . . . . 154 10.0 Additions to Program - Valves . . . . . . . . . . . . . 154 i . Tables $ Table Format Fort Calhoun Statio' Valve Test Program Matrix . 155 a Table 2.1 Valve Test Program Matrix . . . . . . . . . . . . . 161 Appendices Appendix 2A Justification for Test Frequencies Other than Code Preferred . . . . . . . . . . . . . . . . . . . . 190 Appendix 28 Justification for Exception to ASME Section XI/0&M i Manual Parts 1 and 10, Codes for Valves . . . . . 243 l ! PART 3: Class 1, Class 2, and Class 3 Pump Tests .......... 262 1 4 Program i j 1.0 Program Summary . . . . . . . . . . . . . . . . . . . . 262 2.0 Scope and Responsibility ............... 262 3.0 Inservice Test Frequency ............... 262 4.0 Test Methods ..................... 262 5.0 Evaluation of Test Results .............. 262 6.0 Records and Reports . . . . . . . . . . . . . . . . . . 263 7.0 Repair Requirements . . . . . . . . . . . . . . . . . . 263 8.0 Function of Pumps in the Program ........... 263 9.0 Pump Test Program Table (Table 3.1) . . . . . . . . . . 264 10.0 Additions to Program - Pumps ............. 265 R3 September.1, 1995 Page 3 of 280 t
PROGRAMTABLEOFCONTENTS(Continued) Page Pump Tables Table Format Fort Calhoun Station Pump Test Program Matrix . 267 Pump Test Program Table 3.1 . . . . . . . . . . . . . . . . . 268
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Appendix Appendix 3A Justification for Exception to ASME 0&M Manual Part 6 for Pumps ................ 269 PART 4: References .......................... 279 Y i r R3 September 1, 1995 Page 4 of 280
i l INTRODUCTION This report defines the Fort Calhoun Station Inservice Inspection (ISI) Program Plan for Class 1, Class 2, and Class 3 pressure retaining components for the ten year (120 month) interval from September 26, 1993, to September 25, 2003. This report also covers Class 1, Class 2, and Class 3 pump and valveInserviceTesting(IST)forthetenyear(120 month)intervalfrom September 26, 1993, to September 25, 2003. This program has been developed as required by Section 50.55a of 10CFR Part 50 followingtheguidanceoftheAmericanSocietyofMechanicalEngineers(ASME) Boiler and Pressure Vessel Code Section XI (hereinafter called Section XI),
" Rules for Inservice Inspection of Nuclear Power Plant Components", and the ASME/ ANSI Operation and Maintenance of Nuclear Power Plants manual (hereinafter called 0&M Manual) Parts 1, 6, and 10, and the NRC Generic Letter 89-04, dated April 3, 1989. The ISI Program Plan is controlled by the Fort Calhoun Station Unit 1 Technical Specifications 3.3.(1)a.
This program is in compliance, where possible, with the applicable requirements of ASME Section XI, 1989 Edition (Program B) and the ASME/ ANSI 0&M Manual Parts 1, 6, and 10, 1987 Edition, 1988 Addenda, except as noted below: The 0&M Manual, Part 6, 1987 Edition and 1988 Addenda have omitted the Figure 1 referred to on Table 3, Note 2 for vibration ranges. OPPD will use the Table 3 as listed in the 1989 addenda of the 0&M Manual, Part 6 for vibration ranges for test parameters. This program incorporates the results of previous inservice and preservice inspections. It is the intent of the Licensee (Omaha Public Power District) to continue to review and ap)1y, as appropriate, changes in the ASME Section XI Code that would improve t1e total ISI Program Plan, pursuant to 10CFR50.55a. Revision 1 of this program plan incorporates changes to the ISI Program (Part
- 1) as requested by the NRC.
Revision 2 of this program plan incorporates resolutions to the NRC Safety Evaluation Report (SER) anomalies identified in Part 4, Reference 7 of this program plan as well as typographical errors and changes due to Engineering Change Notices (ECNs)/ Modifications (Mods) at FCS. R3 September 1, 1995 Page 5 of 280
PART 1: CLASS 1, CLASS 2, AND CLASS 3 PRESSURE RETAINING COMPONENTS 1.0 Program Summary 1.1 The Inservice Inspection (ISI) Program for Class 1, 2, and 3 pressure retaining components was developed in accordance with, and meets the requirements of, the ASME Boiler and Pressure Vessel Code, Section XI, 1989 Edition. The ISI Program for Class 1, 2, and 3 pressure retaining components will remain in effect for the remainder of the ten year (120 month) interval, which commences on September 26, 1993. The Program will be reviewed and updated as required by the edition of the Code and Addenda in effect not more than 12 months prior to the start of the next (i.e., fourth) 120 month interval (beginning September 26,2003). 2.0 Scope and Responsibility 2.1 The Piping and Instrumentation Drawings (P<s) for Fort Calhoun Station (FCS)identifytheclassboundaries. These P& ids are subject to review and are changed as required in accordance with FCS administrative procedures. 2.2 Class 1, Class 2, ant. Class 3 components and the methods of examination for each component are listed in Tables 1.1, 1.2, and 1.3, respectively. The total number of Class 1, 2, and 3 components and supports required by ASME Section XI 1989 Edition, no Addenda, are listed by category in Tables 18, 1C, and ID respectively. The required number of exams per category per forty (40) month period are also shown, as well as a proposed exam schedule per category per forty (40) month period. The specific components to be examined for each class shall be identified in i the Fort Calhoun Station Unit 1 Ten Year Inservice Examination l Plan by title and/or number. Exceptions to compliance with l Subseccion IWA, Tables IWB-2500-1, IWC-2500-1, and IWD-2500-1 of ) Section XI are listed in Appendices 1A, 18, 1C, and ID, l respectively. Class 3 portions of the Waste Disposal System have been classified as Class 3 in accordance with Subarticle IWA-1320, Paragraph (e) of Section XI. Examination in accordance with the rules of Subsection IWD will not be performed on the Class 3 portion of the Waste Disposal System. (Although the Waste Disposal System at FCS is classified Class 3, it is not considered safety related as required for inspectionperIWD-2500.) 2.3 Class 1, Class 2, and Class 3 component supports and the methods of examination for each support are listed in Table 1.4. 1 R3 September 1, 1995 Page 6 of 280 l
1 i i. 2.4 Steam' Generator, safety-related snubbers, metallic liners (of Class CC), containment spray nozzles and the concrete component examinations (Class CC) are not performed under this ISI Program Plan, but are performed as described below: 2.4.1 Steam Generator exams are performed under FCS Technical Specification 3.17. 2.4.2 Snubber exams are performed under FCS Technical Specification 3.14 and OM Code ISTD 1990, 1992 Addenda. ReferenceNRCletterdatedApril6,1995(NRC95-071). 2.4.3 Metallic liner exams (of Class CC) are not required at the time of this submittal per 10CFR50. 2.4.4 Concrete component exams are performed under FCS Technical Specification 3.5. 2.5 The containment spray nozzles are tested under FCS Technical Specification 3.6. 3.0 Inspection Intervals 3.1 The inspection intervals for Class 1, Class 2, and Class 3 components are ten year (120 month) intervals of service which commenced on September 26,' 1973. This program plan covers the third ten year interval, i.e. September 26, 1993 to September 25, 2003. The ten year Inservice Examination Plan describes the distribution of examinations within the inspection intervals in accordance with IWB-2400, IWC-2400, IWD-2400 and IWF-2400 of Section XI. 3.2 The inspection intervals and periods may be extended by as much as one year to permit inspections to be concurrent with plant outages as permitted by IWA-2430(d) of Section XI. 3.3 Selection of Class 1 pressure retaining piping welds for examination shall be in accordance with the requirements of the 1974 Edition of Section XI, Summer of 1975 Addenda. [As permitted by10CFR50.55a(b)(2)(ii)] 4.0 Examination Categories 4.1 Class 1 components, as described in the ten-year examination plan, will be examined IWB-2500-1 to the of Section XI extent (exceptand frequency as noted required in Appendix 1B .by) Table 4.2 Class 2 components as described in the ten-year examination plan will be examined IWC-2500-1 to the of Section XI extent (except and frequency as noted required in Appendix 1C . by) Table R3 September 1, 1995 Page 7 of 280
1 i
; 4.3 Class 3 components, as described in the ten year examination plan, , shall be examined to the extent and frequency as required by Table IWD-2500-1 of Section XI (except as noted in Appendix ID).
j~ 5.0 Examination Methods 4 j 5.1 Class 1 and Class 2 components shall be examined by the required f visual, surface, and volumetric examination methods. These > 4 examinations shall include one or a combination of the following
- methods: visual (VT),liquidpenetrant(PT),magneticparticle-(MT), radiographic (RT),andultrasonic(UT). Ultrasonic (UT) examinations shall be performed in accordance with the following:
^ 5.1.1 When listing calibration blocks on )iping reports, the block
- thickness shall be within 125% of t1e pipe wall thickness l examined per the rules of Code Case N-461.
5.1.2 The reactor coolant pumps (RCP) shall be examined per the , l rules of ASME Code Cases N-481 and N-498-1. ! 4 !' 5.1.2.1 Class 3 components shall be visually examined j for leakage in accordance with Article IWD-2500 m of Section XI. a j 6.0 Evaluation of Examination Results i [ 6.1 Class 1 Components s
- The evaluation of the nondestructive examination results i shall be in accordance with Article IWB-3000 of Section XI.
1 All indications shall be subject to comparison with previous j data to help in characterization and in determining origin. i 6.2 Class 2 Components The evaluation of nondestructive examination results shall be in accordance with Article IWC-3000 of Section XI. All ! indications shall be subject to comparison with previous l data to help in characterization and in determining origin. i 6.3 Class 3 Components . The evaluation of the nondestructive examination results shall be in accordance with Article IWD-3000 of Section XI.
- All indications shall be subject to comparison with previous '
j data to help in characterization and in determining origin. 6.4 Indications which have been recorded in the preservice inspection or in a previous inservice inspection which are not characterized as propagating flaws shall be considered acceptable for continued service. i e R3 September 1, 1995 Page 8 of 280 n ~ - e we--- . . , , ,
! 7.0 Repair Requirements l 7.1 Repair of Class 1, Class 2, and Class 3 components shall be ; l performed in accordance with Article IWA-4000 of Section XI. 7.2 Surface defects in Class 1 and Class 2 pressure retaining , - components may be removed by mechanical means when the removal of { a defect will not alter the basic configurations of the item.
- Pressure retaining components that have defects that cannot be removed by mechanical means will be replaced in accordance with !
Article IWA 7000 of Section XI, or monitored for further growth 4 per IWB-2420 or IWC-2420. 8.0 System Pressure Testing l l 8.1 General Requirements , 4
- 8.1.1 System pressure tests will be conducted in accordance with Article IWA-5000 of Section XI and ASME Code Case N-498. 3
! 8.1.2 Evaluation of any corroded area will be performed in > J accordance with Section XI. 8.1.3 Repairs of corroded areas shall be performed in accordance with Section 7 of this Program. ) 8.2 Class 1 Components , I 8.2.1 After each Refueling Outage, the system will be leak tested ) in accordance with Article IWB-5000 of Section XI and in ! accordancewithFCSTechnicalSpecification2.1(Figures ; l- 2-1Aand2-18). T l 8.2.2 The ten year hydrostatic tests for ASME Class 1 systems will j not be performed in the ISI Program. In lieu of the j hydrostatic tests required by ASME Section XI, alternative j testing consisting of system pressure and leakage tests as ; i described in ASME Code Case N-498-1 will be performed. , Refer to ASME Code Case N-498-1, dated May 11,-1994, and NRC
; letter dated January 30, 1995 (NRC-95-017).
] 8.2.3 Partial penetration welds on the reactor vessel and the
; pressurizer shall be examined in accordance with Table i IWB-2500 Examination Category B-E of Section XI.
8.3 Class 2 Components l ) l 8.3.1 Pressure tests and visual examination of Class 2 components I will be performed in accordance with the guidelines of Table i IWC-2500 of Section XI. i 8.3.2 The ten year hydrostatic tests for ASME Class 2 systems will i not be performed in the ISI Program. In lieu of the : i hydrostatic tests required by Section XI, alternative j testing consisting of system pressure and leakage tests as !
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described in ASME Code Case N-498-1, will be performed. Refer to ASME Code Case N-498-1, dated May 11, 1994, and NRC letter dated January 30, 1995 (NRC-95-017). 8.3.3 System leakage tests will be used in lieu of required hydrostatic tests for repairs / replacements of Class 2 components / piping at the discretion of the ISI Coordinator and ANII in accordance with ASME Code Case N-416. The required hydrostatic tests will be performed at the next regularly scheduled Refueling Outage. 8.4 Class 3 Components 8.4.1 Pressure tests and visual examination of Class 3 components will be performed in accordance with the guidelines of Table IWD-2500 of Section XI. 8.4.2 The ten year hydrostatic tests for ASME Class 3 systems will not be performed in the ISI Program. In lieu of the hydrostatic tests required by Section XI, alternative testing consisting of system pressure and leakage tests as described in ASME Code Case N-498-1, will be performed. Refer to ASME Code Case N-498-1, dated May 11, 1994, and NRC letter dated January 30,1995(NRC-95-017). 9.0 Examination Schedule Minor schedule changes such as interval substitutions or component switches in accordance with the ISI philosophy will be recorded and maintained in a log for review and consideration in establishing future inspection plans by the ISI Administrator. The third ten year interval (1993-2003) is divided into three 40-month periods. Each 40-month period encompasses two refueling outages as follows: 1st period 1995 and 1996 2nd period 1998 and 1999 - 3rd period 2001 and 2002 The detailed schedule designates which period an examination is to occur by listing the last two digits of the refueling outage year. 10.0 Records and Reports Records and reports made in accordance with this program shall be developed and maintained in accordance with Article IWA-6000 of Section XI. R3 September 1, 1995 Page 10 of 280
TABLES l l l 1 l l l l R3 September 1, 1995 Page 11 of 280 l 1
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TABLE 1.1 1 1 ' COMP 0NENTS, PARTS, AND METHODS OF EXAMINATION IWB-2500-1 ; e : 1 EXAMINATION ITEN CATEGORY TABLE COMPONENTS AND PARTS N0. IWB-2500-1 TO BE EXAMINED NETH00 REACTOR VESSEL B1.10 B-A Longitudinal and circumferential shell . Volumetric f welds s ! Bl.20 B-A Circumferential and meridional head Volumetric
- welds (accessible length) ,
t
- Bl.30 B-A Shell-to-flange welds Volumetric i
! Bl.40 B-A Head-to-flange weld Volumetric & {- Surface B3.90 B-D Nozzle-to-vessel welds Volumetric j B3.100- B-D Nozzle inside radius section Volumetric
- B4.10 B-E Partial penetration welds, including Visual, VT-2 1 vessel nozzles, control rod drive j nozzles & instrumentation nozzles i- 85.10 B-F Nozzle-to-safe end butt welds NPS 4 or Volumetric &
larger Surface B6.10 B-G-1 Closure head nats Surface i B6.30 B-G-1 Closure studs, when removed Volumetric & l Surface I B6.40 B-G-1 Threads in flange Volumetric I' B6.50 B-G-1 Closure washers Visual, VT-1 l B7.80 B-G-2 Bolts, studs & nut <2 in. diameter in Visual, VT-1 CRD housing i B13.10 B-N-1 Vessel interior Visual, VT-3 l B13.50 B-N-2 Interior attachments within beltline Visual, VT-1 l region l l B13.60 B-N-2 Interior attachments beyond beltline Visual, VT-3 region B13.70 B-N-3 Core support structure Visual, VT-3 i B14.10 B-0 Pressurs retaining welds in Control rod Surface'or j drive housings Volumetric f B15.10 B-P Pressure retaining boundary Visual, VT-2
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i B15.11 8-P Pressure retaining boundary Visual, VT-2 . I l i l - R3' September 1, 1995 Page 12 of 280 l 1
TABLE 1.1(Continued) COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWB-2500-1 EXAMINATION ITEM CATEGORY TABLE COMPONENTS AND PARTS NO. IWB-2500-1 TO BE EXAMINED METHOD " Pressurizer
)
B2.10 B-B Lon itudinal and circumferential Volumetric she 1-to-head welds 83.110 B-D Nozzle-to-vessel welds Volumetric B3.120 B-D Nozzle inside radius section Volumetric B4.20 B-E Heater penetration welds Visual, VT-2 B5.40 B-F Nozzle-to-safe end welds NPS 4 or larger Volumetric & Surface 85.50 B-F Nozzle-to-safe end NPS less than 4 Surface 87.20 B-G-2 Bolts, studs and nuts 52 in. diameter Visual, VT-1 810.10 B-K-1 Integrally welded attachments Surface or Volumetric B15.20 B-P Pressure retaining boundary Visual, VT-2 i B15.21 B-P Pressure retaining boundary Visual, VT-2 l Steam Generators (Primary Side) B2.30 B-B Head welds, circumferential and Volumetric meridional 82.40 B-B Tubesheet-to-head weld Volumetric B3.130 B-D Nozzle-to-vessel welds Volumetric B3.140 B-D Nozzle inside radius section Volumetric B5.70 B-F Nozzle-to-safe end welds NPS 4 or larger Volumetric & Surface B7.30 B-G-2 Bolts, studs, and nuts 52 in. diameter Visual, VT-1 B10.10 B-K-1 Integrally welded attachments Surface or Volumetric B15.30 B-P Pressure retaining boundary Visual, VT-2 B15.31 B-P Pressare retaining boundary Visual, VT-2 Heat Exchanaer 82.50 B-B Head welds, circumferential and Volumetric meridional R3 September 1, 1995 Page 13 of 280
! \ i TABLE 1.1(Continued) COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWB-2500-1 EXAMINATION 1 ITEM CATEGORY TABLE COMPONENTS AND PARTS 1 N0. IWB-2500-1 TO BE EXAMINED METN00 j j j!g_at Exchanaer (Continued) l ! B2.70 B-B Longitudinal welds Volumetric i I l B2.80 B-B Tubesheet-to-shell welds Volumetric B3.150 B-D Nozzle-to-vessel welds Volumetric ; B3.160* B-D Nozzle inside radius section Volumetric I B15.40 B-P Pressure retaining boundary Visual, VT-2 B15.41 B-P Pressure retaining boundary Visual, VT-2 ' Pinina Pressure Boundary I B5.130 B-F NPS 4 or larger dissimilar metal butt Surface & welds Volumetric ! B5.140 B-F Less than NPS 4 dissimilar metal butt Surface , welds I B7.50 B-G-2 Bolts, studs and nuts 12 in. diameter V'sual, VT-1 j B9.10 B-J Circumferential welds & longitudinal Surface & welds NPS 4 or larger Volumetric i j B9.20 B-J Circumferential & longitudinal welds Surface j less than NPS 4' 89.31 B-J Branch pipe connection welds nominal Surface & pipe size NPS 4 or larger Volumetric } 89.32 B-J Branch pipe connection welds nominal Surface pipe size less than NPS 4 B9.40 B-J Socket welds Surface 4
) B10.20 B-K-1 Integrally welded attachments Surface or i Volumetric B15.50 B-P Pressure retaining boundary Visual, VT-2
] B15.51 B-P Pressure retaining boundary Visual, VT-2 l Puse Pressure Boundary B6.180 B-G-1 Bolts and studs >2 in, diameter Volumetric
- See Appendix 1B ,
l R3 September 1, 1995 Page 14 of 280
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l I l TABLE 1.1 (Continued) COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWB-2500-1 4 EXAMINATION ITEM CATEGORY TABLE COMPONENTS AND PARTS NO. 1WB-2500-1 TO BE EXAMINED METHOD Pump Pressure Boundary (Continued) 86.190 B-G-1 Flange surface when disassembled (with Visual, VT-1
>2 in. bolting or studs)
B6.200 B-G-1 Nuts, bushings, and washers >2 in. Visual, VT-1
, B7.60 B-G-2 Bolts, studs, and nuts 52 in. Visual, VT-1 B10.30 B-K-1 Integrally welded attachments Surface or Volumetric B12.10 B-L-1 Pump casing welds
- Visual, VT-1
; B12.20 B-L-2 Pump casings Visual, VT-3 815.60. B-P Pressure retaining boundary Visual, VT-2 B15.61 B-P Pressure retaining boundary Visual, VT-2 Valve Pressure Boundary l
B7.70 B-G-2 Bolts, studs, and nuts 52 in, diameter Visual, VT-1 ; B12.30 B-M-1 Valve body welds less than NPS 4 Surface l B12.40 B-M-1 Valve body welds NPS 4 or larger Volumetric ) B12.50 B-M-2 Valve body exceeding NPS 4 Visual, VT-3 l B15.70 B-P Pressure retaining boundary Visual, VT-2 l B15.71 B-P Pressure retaining boundary Visual, VT-2
- Per Code Case N-481 l
R3 September 1, 1995 Page 15 of 280 l
] TABLE 1.2 COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWC-2500-1 ( ^ EXAMINATION ITEM CATEGORY TABLE COMPONENTS AND PARTS .
- .N0. IWC-2500-1 TO BE EXAMINED METHOD 1
1, Pressure Vessels C1.10 C-A Shell circumferential welds Volumetric ]
- C1.20 C-A Head circumferential welds Volumetric -
i C1.30 C-A Tubesheet-to-shell weld Volumetric
- C2.21 C-B Nozzle-to-shell (or head) weld in Surface &
l vessels > in. nominal thickness without Volumetric
; reinforcing plate C2.22 C-B Nozzle inside radius in vessels > in. Volumetric 1 nominal thickness without reinforcing plate
[ C7.10 C-H Pressure retaining boundary Visual, VT-2 C7.20 C-H Pressure retaining boundary Visual, VT-2 l i All Pinina , C3.10 C-C Integrall Surface i Vessels)yweldedattachments(Pressure C3.20 C-C Integrallyweldedattachments(Piping) Surface ! C7.30 C-H Pressure retaining boundary Visual, VT-2 n C7.40 C-H Pressure retaining boundary Visual, VT-2 l Austenitic Stainless Steel or Hiah Allow Pipina i C5.10 C-F-1 Circumferential a longitudinal welds >% Surface & in. nominal wall thickness for piping Volumetric j > NPS 4 l C5.20 C-F-1 Circumferential & longitudinal welds Surface & . ! >1/5 in, nominal wall thickness for Volumetric 4 piping > NPS 2 and < NPS 4 _ C5.30 C-F-1 Socket welds Surface i C5.40 C-F-1 Circumferential & longitudinal welds in Surface pipe branch connections of branch piping
> NPS 2
! C5.50 C-F-2 Circumferential & longitudinal welds 1% Surface & in. nominal wall thickness for piping > Volumetric
- NPS 4 i
. R3 September 1, 1995 Page 16 of 280
TABLE 1.2(Continued)
; COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWC-2500-1 EXAMINATION ITEM CATEGORY TABLE COMPONENTS AND PARTS NO. IWC-2500-1 TO BE EXAMINED METHOD Austenitic Stainless Steel or Hiah Alloy Pipina (Continued)
C5.60 C-F-2 Circumferential & longitudinal weld'. Surface &
>1/5 in, nominal wall thickness for Volumetric piping 2 NPS 2 and 5 NPS 4 C5.70 C-F-2 Socket welds Surface C5.80* C-F-2 Circumferential and longitudinal welds Surface in pipe branch connections of branch piping 1 NPS 2 Pumps C6.10 C-G Pump casing welds Surface C7.50 C-H Pressure retaining components Visual, VT-2
- C7.60 C-H Pressure retaining components Visual, VT-2
- Valves C6.20 C-G Valve body welds Surface l
C7.70 C-H Pressure retaining components Visual, VT-2 C7.80 C-H Pressure retaining components Visual, VT-2 See Appendix IC R3 September 1, 1995 Page 17 of 280
TABLE 1.3 COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWD-2500-1 EXAMINATION ITEM CATEGORY TABLE COMPONENTS AND PARTS NO. IWD-2500-1 TO BE EXAMINED METHOD D1.10 D-A Pressure retaining components Visual, VT-2 01.20 0-A Integral attachment, component supports Visual, VT-3 and restraints 01.30 D-A Integral attachment, mechanical and Visual, VT-3 hydraulic snubbers D1.40 0-A Integral attachment, spring type Visual, VT-3 supports 01.50 D-A Integral attachment, constant load type Visual, VT-3 supports D1.60 D-A Integral attachment, shock absorbers Visual, VT-3 4 0 2 4 l J R3 September 1, 1995 Page 18 of 280 I
TABLE 1.4 COMPONENTS, PARTS, AND METHODS OF EXAMINATION IWF-2500-1 l l CODE CASE N-491 ALTERNATIVE RULES FOR EXAMINATION OF CLASS 1, 2, 3 AND METAL CONTAINMENT COMPONENT SUPPORTS OF LIGHT-WATER COOLED POWER PLANTS EXAMINATION ITEM CATEGORY TABLE NO. IWF-2500 SUPPORT TYPE EXAMINED MF.THOD F1.10- F-A Class 1 piping supports Visual, VT-3 F1.20 F-A Class 2 piping supports Visual, VT-3
; F1.30 F-A Class 3 piping supports Visual, VT-3 ; F1.40 F-A Supports other than piping supports Visual, VT-3 1 (Class 1,2,3andMC) j i
a i l i R3 September 1, 1995 Page 19 of 280
s I i i a 4 i 1 4 PART 1 4 APPENDICES i s t 4 f 4 4 i i i J 4 i R3 September 1, 1995 Page 20 of 280
APPENDIX 1A EXCEPTIONS TO COMPLIANCE WITH SUBSECTION IWA Section Exception IWA-2600 Weld identifications will be marked at the time the weld is examined per Station Engineering Instruction SEI-27. I 4 I l R3 September 1, 1995 Page 21 of 280
APPENDIX 1B EXCEPTIONS TO COMPLIANCE WITH TABLE IWB-2500-1 (CLASS 1 COMPONENTS) IN ASME BOILER AND PRESSURE VESSEL CODE, SECTION XI, 1989 EDITION Item No. Exceotion 81.10 TheReactorPressureVessel(RPV)ShellWeldsarelimitedtoautomated examinations from the RPV interior due to dose and accessibility of the exterior surface. The beltline circumferential weld (RPV-SC-C-11) and the three lower shell longitudinal welds' (RPV-SL-A-3, RPV-SL-B-3, RPV-SL-C-3) interior scanning surfaces are limited by the proximity on the six RPV surveillance capsule holders located at 45*, 85', 95', 225', 265, and 275*. The Code required exam volume cannot be met on these welds and a relief request hes been submitted. 81.30 The RPV upper shell-to-flange weld (RPV-A-11) is limited to a manual examination from the flange surface and an automated examination from the RPV interior, due to dose and accessibility of the exterior surface and to the geometry of the RPV. The Code required exam volume cannot be met on i this weld and relief is included in the above mentioned relief request. i 4
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1 R3 September 1, 1995 Page 22 of 280 1 1
J 4 APPENDIX IC EXCEPTIONS TO CONPLIANCE WITH TABLE IWC-2500-1 Item No. Exception None Substitute Examinations for Table IWC-2500-1 C5.81 The following are inaccessible branch connection welds due to cable wrapping which holds a system of heavy metal slats in place over the main steam piping in Room 81. ISO ( Component B-04 28-MS-2001/12-BC-1 I 28-MS-2001/12-BC-2 1 28-MS-2001/15-BC-1 28-MS-2001/15-BC-2 B-06 28-MS-2002/12-BC-1 28-MS-2002/12-BC-2 28-MS-2002/15-BC-1
- 28-MS-2002/15-BC-3 The Fort Calhoun Updated Safety Analysis Report (USAR), Appendix M, Section 3.5.8 states:
"A protective enclosure (has been) provided around the main l steam and feedwater lines between the penetration sleeves and the first isolation valves, where a large rupture is 4
postulated. This enclosure, although designed primarily to limit the effects of jet impingement, alsd serves to minimize the reaction effects of a longitudinal rupture by containing the jet and preventing the formation of en unbalanced external force." In the past, the NRC has conducted a review of the )iping exam areas (Docket 50-285, November 10,1986) and determined t1at the required examinations were impractical to perform. l Since one of the eight branch connection welds listed above is ' required by ASME Section XI, OPPD will substitute a similar branch connection weld on the non-class portion of the main steam line i shown on isometric B-86. The Code required IWA-5000 system leakage test monitors all the 4 cable wrapped welds. i l R3 September 1, 1995 Page 23 of 280
- . . . . . ~ - . - - . . . . .- .. . . - .
I 1 4 APPENDIX 1D EXCEPTIONS TO COMPLIANCE WITH TABLE IWD-2500-1 . Item No. Exception None
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- R3 September 1, 1995 Page 24 of 280
l l l
SUMMARY
TABLES r l I I R3 September 1, 1995 Page 25 of 280
i 4 4 1 1 4 TABLE 1A 4 THIS PAGE INTENTIONALLY LEFT BLANK J J 1 h R3 September 1, 1995 Page 26 of 280 t 4
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGGtY ITEM EXMt DEFERRAL TOTAL Ml#$ER NLa6ER IST Nt#6ER 2ND Nul6ER 3RD NLAGER NLASER EXANINATI(pl AREA KTHW) REQUIRED EXAMS TO DO NL26ER REQUIRED PERIOD PERIOD PERIOD 8-A PRESSURE RETAIN 1E WELOS In RPV BA Bl 10 RPV SHELL ELOS f B-A Bl.11 CIRCLNERENTIAL VOL ALL ELDS VES 3 3 - 3 l B-A B1.12 LCElTUDlhAL WOL ALL WELOS YES 9 9 - - 9 8-A B1 20 RPV KAD WELDS B-A B1 21 CIRCLKERENTIAL VOL ACCES LEETH ALL WELDS VES 2 2 - - 2 B-A B1 22 KRIDIONAL VOL ACCES LEETH ALL i.ELOS 12 12 - 12 YES _ . _ B-A 61 30 RPV S4LL-FLANGE WELD VOL FLA EE FACE IST PERIOD PART 1 1 1 PARTIAL - 1 B-A B1 40 RPV KAD-FLANGE ELD SUR/VCL FLAEE FACE IST PERIOD PART 1 1 1 PARTIAL - 1 TOTAL NL36ER OF EXAMS PER COLisel 28 28 2 PARTIAL - 28 _- _ L_ L ._ _ _ - - - _ . - ._- _ _ -_ _. _ _ . _ _ ._ _ . _ _ _ TOTAL NUMMR W EXAMS ACCLM1ATED l I REQUIRED ACQ4RA.ATED MAeut Put PERIOD 2 PARTIAL - 28 I I S-B PRESSLRE RETAINIE WELDS IN VESSELS OTER RPV 8-8 B2.10 PZR SHELL-KAD WELDS 88 82.11 CIRCl#fERENTIAL VCL ALL WELDS ND 2 2 1 (L M R) - 1 (UPPER) ) l' G KLD INILNilE _ B-8 82 12 LOEITUDIhAL WOL 8211 ELD NO 4 2 1 (LMR) - 1 (UPPER) R3 September 1. 1995 Page 27 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGGtV ITEM EXAM DEFERRAL TOTAL lt#6ER Nul6ER IST NLAGER 2ND NLA6LR 3RD NLSEER NlseER EXAMINATION AREA ETIG) REQUIRED EXAMS TD EM) NtheER REQUIRED MRIG) MRIG) PERIOD 8-8 82.20 KAD WELDS N/A ONE PIECE HEADS - - - B-B B2.30 SG KAD WELDS B-8 82.31 CIRClMFERENTIAL VOL 1 WELD PER HEAD NO 4 1 1 - B8 B2.32 MERIDIONAL R 1 WELD PER HEAD Id) 8 1 - 1 - BB 82.40 TtBE5HEET-HEAD WELD VOL WELD NO 2 1 1 - - 8-8 82.50 HX SELL (OR HEAD) WELDS B-B B2 51 CIRCUMfERENTIAL (RGHE) VOL 1 M LD FER HEAL NO 2 1 - 8-8 B2 70 LOGITtD!hAL (RGHE) VOL ENTIRE WELD NO 2 1 - - 1 B-B B2 80 TUBESEET-SHELL WELD (RGHE) VOL WELD NO 2 1 - 1 TOTAL MaeER OF EXAMS PER Cottaes 26 10 3 2 5 I I TOTAL NUMBER OF EN ACCUMULATED _ _ , , _ . _ _ , _ _ , , _ _ _ _ _ _ . . , _ _ _ _ , . __ _ _ , _ _ . _ 3 5 ._ 13 __ l l REQUIRED ACOAGA.ATED NuleER PER MRIOD 2-3 5-6 10 I I 8-D FULL MNETRATION WELD DF N0ZZLES IN VESSELS 8-D 83 90 RPV N0ZILE VESSEL WELDS R ALL N0ZZLES PART 6 6 - - 6 8-D 83.100 RPV N0ZZLE Ile(R RADIUS R ALL N0ZZLES NO 6 6 - - 6 8-0 83 110 PR1 NDZZLE-VESSEL ELDS R ALL N022LES NO 5 5 2 (AUTC) 3 (AUTD) - l 8D 83 120 PRZ N0ZAE-INIER RADIUS VOL ALL N0ZZLE$ NO 5 5 2 (AUTD) 3 (AUT0) - l R3 September 1. 1995 Page 28 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS EATEGRY ITEM EXM DEFERRAL TOTAL NLAGER NUPSER ISI NLAGER 22 useER 3RQ NLDSER NLDSER EXAMINATION AREA IETHOD REQUIRED EXAMS TO END NUPSER REQUIRED PERIOD KRIOD KRIOD J (LUuF AJ J (LLAJP 15) 8-D B3130 SG N0ZZLE-VESSEL WELDS VOL ALL N0ZZLES NO 6 6 (AUT0) (AUT0) - 3 (LOOP A) 3 (LOOP 51 B-D 83 140 ' SG N0ZZLE-INNER RADIUS VOL ALL N0ZZLES h0 6 6 (AUT0) (AUT0) - B-D B3 150 HX N0ZZLE-VESSEL WELDS (RGHE) VOL ALL NO2ZLES N0 4 4 2 - 2 8-0 83.160 HX N0ZZLE-IN2R RADIUS (RGHE) VOL ALL N0ZZLES NO 4 4 2 - 2 TOTAL weeER OF EXAMS MR COLL 8el 42 42 14 12 *6
! ! L_
TUTAL N OF EXAMS ACT-' ,___ __, n _. _ ____ _ , _ _ 14 _' 42 REQUIRED ACCLMULATION PER MRIOD *11 21 21 - 28 42 ) l I W: SECTION XI CAT. B-D NOTE 2 REQUIRES 2St - 502 IN FIRST KRIG) l I 8-E PRESSURE RETAINING PARTIAL PENETRATION WELDS IN VESSELS ALL EXAMS PERFORMED tm0ER PROCEDLRE OP ST-RC-3007 I I 8-F PRESSURE RETAlhlNG DISSIMILAR METAL WELDS _
- . - - - - _ ~ . --
BF B5 10 Mi N0Z-SAFE DO F SUR/VOL ALL MELDS ho 6 6* - - 6 8-F B5.40 PRI N0Z-SAFE END e4" (StRGE. SPRAY) SLR/G ALL WELDS NO 2 2* 2 - - 8-F B5 50 PRI N0Z-SAFE EE 4* SUR (PRL") ALL WELDS NO 3 3 *1 (PRL) 2 (SAFETV) - 8-F 85.70 % N0Z-SAFE DO 24* SLR/R ALL WELDS NO 6 6* 3 (LOOP A) 3 (LOOP B) - B-F B5 130 BUTT WLD 24' (PRZ A-15/075) SUR/VOL ALL WELDS NO 1 1 - - I 8-F B5 140 BUTT WLD 4" (PR2 A-19/01) SLR ALL WLDS NO 1 1 - - 1 TOTAL ESSER OF EXAMS PER C1 Leet 19 19 6 5 8 R3 September 1, 1995 Page 29 of 280
- - - E-TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGERY ITEM EXAM DEFERRAL TOTAL NUPBER NUPSER IST NUP6ER 2 6 NUPEER 3RD
' MAeER NLDSER EXMINATION AREA ETl0D REQUIRED EXMS TO EM) MDSER REQUIRED MRIOD MRIOD MRIOD TOTAL EDGER OF EXAMS ACCIMILATED 6 11 19 I I REQUIRED ACCURA.ATED NUP6ER PER PERIOD 4-6 10 - 12 19 1 I
'HOTE: AUTOMATED EXAMS NOTE
- SPRAY N0ZZLE WILL RECElvE M ADDITIONAL UT EXM I I S-G-1 PRESSURE RETAINING BOLTIE >2* DI AMETER B-G-1 86.10 RPV CLOSURE MAD NUTS SUR ALL NUTS >2" NG 48 48 24 -
24 B-G-1 B6 30 RPV CLOSURE STII)5 REM SUR/VOL ALL STUDS >2* NO 48 48 - 24 24 B-G-1 B6 40 RPV ittREADS IN FLEE
- VOL ;41 sito eti ES 2* m 46 48 48 B-G-1 86 50 RPV CLOSLRE WASHERS VT1 [L WASHERS 22* NO 48 48 - -
48 B-G-1 86 180 R79 BOLIS/STLOS (RC-38) VOL ALL BOLTS / STUDS >2* NO 64 16 - 16 - B-G-1 86 190 PLMP FLANCE/ SURF _ VT1 WHEN DISASSEMELED N0 4 0 - - _ E _E'I _ E,6 200 . _ _ _ W QBUSHIEi/ WASHERS (EC 38) _ VT1 At 2* w 64 16 - 16 TOTAL MAGER OF EXAMS PER COLIDet 324 224 72 56 % l l TOTAL maeCR OF EXAMS ACCUMULATED 72 128 224 I I REQUIRED ACCLMA.ATED NL8eER PER PERIOD 36 - 76 112 - 150 224 I I
- NOTE: - (KE TO EXCESSIVE DOSE & STMIE. THREADS IN FLANGE WILL BE PERF0PMD AT TE SAME TIE AS SHELL-TO-FLANGE WELD (ITEM #6130) ,
I I _ S-E-2 PA JJRE RETAINIE BOLTIE 2* APO LESS IN DIAMETER
' B-G-2 B7 20 PR2 BOLTS /STLI)S/ NUTS VT1 ALL <2* NO 1 1 1 - -
R3 September 1. 1995 Page 30 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGORY ITEN EAM ~ OEfERRAL TOTAL NUPSER NUPeER IST NtASER 2ND NUPeER 3RD NUpeER NuleER EIMINATION AREA KT!G REQUIRED EXMS TODD MAGER REQUIRED PERIOD PERIOD PERIG) 8-G-2 B7.30 SG BCLTS/ STUDS / NUTS VT1 ALL <2- NO 4 4 2 (LOOP A) 2 (LOOP B) - B-G-2 87 50 PIPING BOLTS /STLDS/ NUTS VT1 ALL <2- NG 6 6 2 2 2 B-G-2 B7 60 PUMPS BOLTS /STLOS/ huts VT1 ALL <2* NO 4 4 2 (LOOP A) 2 (LOOP B) - B-G-2 B7 70 VALVES BOLTS /STLOS/ NUTS VT1 ALL <2- NO 15 15 1 5 9 41 l B-G-2 B7.80 CRD BOLTS /STLDS/ NUTS VT1 ALL <2* IF DISASSEMBLED NO - - - TOTAL MAGER OF EXMS PER Cultu 71 30 8 11 11 I I TOTAL NUPeER OF EXArts ACCUMLLATID a 19 33 I I REQLilRED ACCult.R.ATED hupeER PER PERIOD 5 - 10 15 - 20 30 I I 8-H INTEGRAL ATTAOftENTS FOR VESSELS B.H 88.20 PRES $tRIZER VG. OR SLR ALL NO 1 1 1 16; 8 4 - B-H B8 30 STEArt GENERAIJR VOL OR SUR
-. 1 LO
-_OP . _4 - -
TOTAL stASER OF EXAMS PER COLUMN 9 5 1 4 - 1 I TOTAL MAGER & EXMS ACCUKA.ATED 1 *5 5 l l REQUIRED ACOMLLATED NiseER PER PERIOD 1 3 5 I I
- NOTE: LGe IAAeER & EXM LOCATIONS (2) FREC110E TYPICAL SMPLIC PER PERIG) l I 6-J PRESSLRE RETAINIE WELDS IN PIP 14 B-J B910 PIPE a 4' R3 September 1. 1995 Page 31 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGORY ITEM EXM DEfEMAL TOTAL NUp6ER NL86ER IST NLDEER 2ND NUp6ER 3RD MiteER Nl#8ER EIMINATION AREA IETHOD REQUIRED EXMS TO ElO NupeER REQUIRED PERIOD PERIOD PERIOD 8-J 89 11 CIRCUMFERENTIAL SUR/VOL 251 ALL WELOS NO 185 *84 15 14 16 j B-J 89.12 LONGITUDINAL SUR/VOL INTERSECT CIRC NO SEAptESS - - - - B-J B9 20 PIPE <4* B-J 89 21 CIRCUfERENTIAL SLR 253 ALL WELDS NO 150
- 9 12 18 j 8-J 89.22 LOGITUDINAL SUR INTERSECT CIRC NO SEAMLESS - - - -
B-J 69 30 BRANCH CONNECTIONS 25% ALL WELDS __ BJ 69 31 P'PE Sl;f :4~ SUR/VOL . 6 *5 2 BJ 89 32 PIPE SIZE 54* SUR N0 13 1 1 1 B-J B9 40 SOCKET WELOS SLR 251 All WELDS NO 275 69 26 25 18 j TOTAL NLeeER OF EXMS PER COLUMM _ 629 158 53 52 53 j l I _ . __, TOTAL Nurser OF EXMS ACCUMULATED 53 105 158 l l 1 4EQUIRED ACCLMR.ATED Nup6ER PER PERIOD 26 - 53 79 - 105 158 ) l I
- CTE: REQUIRED NLDEER OF ExMS IS FOR T6f TOTALS OF BOTH CIRCLMFERENTIAL WELDS (334 a 251) AND BOTH BRMCH CONNECTIONS (19 a 251) l I S-K 1 INTEGRAL ATTACMfMTS FOR (IASS 1 VESSELS. P!Plm. PLMPS & VALVES B-K-1 B10.10 PIPIE ELDED ATTAOt. (A-42) SLR ALL NO 4 4 1 2 1 8 K-1 B10 20 Ptsf WLIED ATTACH (RC-38) SUR 1 LOOP NO - 12 3 1 -
2 TOTAL MubSER OF EXAf6 PER COLuci 16 7 2 2 3 R3 September 1. 1995 Page 32 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEG(RV ITEM E14t DifERRAL 10lAL NUPEER NtpeER IST NUP6ER 2ND NUPSER 3RD laseER NiseER EXAMINATION AREA IETHN) REQUIRED EXMts TO END NUpeER REQUIRED PERIOD PERIOD PERIOD l TOTAL NLaeER OF EXMts ACCultJLATED 2 4 7 I I RE0JIRED ACCIMA.ATED NUbeER PER PERIOD 1-2 4 7 I I S-t-1 PRESSURE RETAthlE WELDS IN P(MPS B-L-1 B12.10 PtNP CASIE WELOS VT1 ALL (CODE CASE 481) YES 4 1 1 - S-t-2 PLMP CASIES INTERNAL SURFCDN[Y IF B-L-2 812 20 P0MP INTERNALS (& BAFFLE WELOS) VT3 DISASSEMBLED) VES 4 - - 3-M-1 PiiES$tKI REIAIAIE MLDS IN VisWE ikf,lES _ _ _ _ _ ___. B-M-1 812.30 PIPE SIZE 54' SUR 1 0F EACH SIMILAR IN GROUP YES 24 7 2 3 2 B-M-1 B12.40 PIPE SIZE m 4' VOL 10F EACH SIMILAR IN GROUP VES 1 1 - - 1 TOTAL NupeER W EIAMS PER COLimN 25 8 2 3 3 I I TDTAL IAmeER W EXAMS ACCUMULATED 2 5 8 I I REQUIRED ACCLMAATED NUISER PER PERIOD 2 4-S 8 I I SO2 VALVE 800!ES 8-M-2 B12 50 VALVE BODIES >4' VT3 INTEkNAL SURFACES VES 14 3 3 TIESE EI4ts h!LL BE SOEDLLED AROUlO VALVE DISASSDeLY 9%INTENANCE (ONE OF EACH SIMILAR IN GROUP) R3. September 1. 1995 Page 33 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGORf ITEN EXM DEFERRAL TOTAL NLDBER Nul6ER 15I huPEER 2ND NLe6ER 3RD NUPSER NLDSER EXMINATION AREA ETHOD REQUIRED EXAMS TD END NupBER REQUIRED PERIOD PERIOD PERIOD B-N-1 RPV INTERIOR B-N-1 B13 10 VESSEL INTERIOR VT3 EACH INSPECTION PERIOD NO 1 3 1 1 1 l 6 6-N-2 d13 50 INTERIOR ATTACif1ENTS WITHIN BELTLINE (SURVEILLMCE CAPSLLES) VT1 ACCESSIBLE WELDS YES 6 6 - - INTERIOR ATTA041ENT5 MVOND MLTLINE (6 QRE SUFFDM LLL5, 9 B-N-2 B13.60 CORE STOP LUGS) VT3 ACCESSIBLE WELDS YES 15 15 - - 15 3-N-3 REMOVABLE CORE SUPPORT STRUCTURES _B-N-3 B13 70 . T(E SUPPORT STRUCTURE __ VT3 ACCESSIBLE WELDSf$URFACES VES __1 1 _ 1_ 3 -0 PREbuRE EETAINihG WELDS IN C0hiRUL Q tOUSl%S __ _ . _ 101 PERIPt(RAL IOUSING5 (20 B -0 B14 10 hGDS IN CRD IOfSING SUR WITH 4 WELDS EACH) VES 80 8 2 3 3 3-P ALL PRESSWE RETAINING COMPONENTS _
"- ~ ~-- ~ ~ - -
ALL CAIwaRf 8~P VT2 ILM PERFDIJiDMNIES B-P ALL SLFVEILLANCE TESTS __ ___ _ F-A SLPPmTS F-A F1.10A CLASS 1 PIPING SUPPORTS (ONE DIRECTIOt SUPPORT) VT3 *253 (OF F110A B&C) N0 30 7 3 - 4 F-A F1.10B (LASS 1 PIPING SLFRETS (MLTI DIRECTIONAL SWP@TS) VT3 *251 (W F1 10A B & C) NO S2 13 5 4 4 F-A F1.10C CLASS 1 PIPING SLFPORTS (SPRIE CMS) VT3 *251 (OF F1 10A. B & C) NO 14 4 - 1 3 FA F1.40B SLPP@TS OTHER THAN PIPING (mtfl DIRECT 10h4L. PRZ & SG) VT3 1003 ( @E OF MLTIPLE) 9 4 1 (PRZ) 4 (SG) - F-A F1 40C SUPPORTS OTHER ThAN PIPING (SPRING CANS. RCP) VT3 10C3 (ChE OF MLTIPLE) 12 3 - 3 - R3 September 1. 1995 Page 34 of 280
TABLE 1B INTERVAL 3 CLASS 1 EXAMS CATEGORY ITEM EMM DEFERRAL TOTAL NIAGER NLDSER IST NLASER 2ND NUPEER 3RD It480t NIASER EIANINATION AREA ET)CD REQUIRED EIAMS TO END MlDeER REQUIRED PERIOD KRIOD PERIOD TOTAL NIDGER OF EIAMS MR COLLBei **117 32 9 12 11 I I TOTAL MA6ER OF EIAM5 ACCittJLATED 9 21 32 I I __ REQUIRED ACCLMULATED 4ASER MR MRIOD (SEE DETAILED SYSTEM CHART AT 00 0F TABLE) _ _ 6 - 10 16 - 21 32 I I _ CTE:
- EIAMS SELECTED PER CODE CASE N-491
** THERE ARE ALSD 48 SNUBBER 5 WHICH ARE INSPECTED UNDER TECm ! CAL SPECIFICATIONS 3 14 R3' September 1. 1995 Page 35 of 280
TABLE 1B CLASS 1 SUPPORT EXAM DISTRIBUTION PER CODE CASE N-491 TYPE A SUPPORTS TYPE B SUPPORTS TYPE C SUPPORTS avin or svin zu avan or nyrn m avrn or SYSTEM TYPE * % REQ ** 8 REQ EEAMIME TYPE * % REQ ** 8 REQ EIANINE TYPE * % REQ ** 9 REQ TOTAL TO EIAMIME DL, LL, CL 0 - - - 16 30.8 4 4 0 - - - PSG, PSS, PRL 10 33.3 2.3 2 1 13.4 1.1 2 12 85.7 3.4 3 AS, SI, HPH, SDC 20 66.1 4.1 5 29 55.8 1.3 1 2 14.3 0.6 1 TOTAL OF TYPE A, B, OR C 30 52 14 TOTAL REQUIRED PER TYPE / INTERVAL 7 13 4
- TOTAL OF TYPE PER SYSTEM DIVIDED BY TOTAL OF TYPE (A, B, OR C) EQUALS PERCENT REQUIRED PER SYSTEM PER TYPE.
** PERCENT REQUIRED PER SYSTEM TIMES TOTAL REQUIRED OF TYPE PER INTERVAL EQUALS NUMBER REQUIRED PER SYSTEM PER TYPE. *** DUE TO THE LOW NUMBER OF SUPPORTS ON SDC AND AS (6 TOTAL) THEY WERE ADDED IN WITH HPSI (SI AND HPH) l R3 September 1, 1995 Page 36 of 280
TABLE 1C INTERVAL 3 CLASS 2 EXAMS CATEGIRY ITEM EXAM TOTAL NLB6ER NLA6ER IST Ml)6ER 22 NlMIER 3RD IR88ER Ma9ER EXAMINATI(N AREA ETMM) REQUIRED EXAMS laseER REQUIRED PERIOD PERIG) PERIOD j C-A PRESSURE RETAINING WELDS IN PRES 5URE VESSELS AT GHU55 STRUCTURAL 2 (TRAN5) 1 C-A C1.10 SHELL CIRC. WELDS (SG) VOL DISCONTINUITY 6 3 (EXT RING) - C-A C1.20 tEAD CIRC. WELDS (SG. 50HX. RGHE) VOL HEAD-TO-5 HELL WELD 8 3 1 RG 1 (SG) 1 50 C-A C1 30 TtEESHEET-TO-SHELL WELD (SG. 50HX. RGHE) VOL TUBE-TO-5 HELL WELD 6 3 1 RG 1 SG 1 SD TOTAL MlaeER DF EXAMS PER COLlam 20 9 2 5 2 I I _ TOTAL NLAGER OF EXAMS ACCIM1ATED 2 ?* 9 I I REQUIRED ACCIMULATED NUMER PER PERIOD 2-3 5-6 9 I I
- SEE NOTE tm0ER CATEGORY C-8 I I C-8 PRESSURE RETAINING IOZAE hELDS IN VESSELS C-8 C2 20 N0ZZLES WITM)UT REIhf0RCING PLATE IN VE5SELS >0.5* NOMINAL THICKNESS C-8 C2.21 MM2LE-TO-SHELL (CR HEAD) (MS. FW. SDHX. RGHE) SURiVOL AL i ES UNDER C-F 12 6 2 RGHE 1 MS/l FW 2 SDHX C-8 C2 22 N0Z2LE INNER RADIUS (MS. FW) VOL ALL NO22LES UNDER C-F 4 2 -
1 MS/2 FW - TOTAL NLaeER OF EXAMS PER COLtDe 16 8 2 4 2 I I TOTAL lateat OF EClaAA.ATED EXAMS 2 6* 8 I l REGJIRED ACCIAELATED NtaeER PER Putist 2 4-5 8 I l R3 September 1. 1995 Page 37 of 280
TABLE 1C INTERVAL 3 CLASS 2 EXAMS CATEGORY ITEM EXM TOTAL IU6ER NLMBER IST NUER 2tO NUER 3RD 1 NLDSER tueER EXMINATION AREA ETHDD REQUIRED EXMS Nul6ER REQtIIRED PERIOD PERIOD PERIOD l
- NOTE: DUL TO THE GLI 0F Mt11E UP AE VtkrwtIE AUT(MATED EXAM 5 DN INNER RADIUS MEA 5 (IRMS C2.21 & B3.140) & 5AFE END WELDS (ITEM C5 51) AS WELL AS RADI(LOGICAL CONCERNS & STAGIE FOR COMMON EXAM AREAS (SCAFFOLD & INSLLATION R/R). ALL WORK ON SG-8 WILL BE PERFORMED IN TE 2ND PERIOD I I C-C INTEGRAL ATTACENTS FOR VESSELS. PIPING. PLMPS AND VALVES C-C C3 10 PRESSURE VESSEL ATTACH (4 RGHE - l') (4 SG TRUNNIONS) SUR 9 75" 8 4 1 (RGHE) 2 (SG) 1 (RGHE) l C-C C3 20 PIPING ATTACit1ENTS SUR 20 75- 21 13 4 4 5 l C-C C3 30 PUMP ATTAOf1ENTS SUR 20 75* O - - -
C-C C3 40 VALVE ATTACHMENTS SUR 10 75" D - - - - TOTAL BUSER OF EIMS PER COLiset 29 17 5 6 6 ) l I TOTAL NLASER OF EXAMS ACCUNULATED 5 11 17 j l I REQUIRED ACCLMA.ATED IUSER PER PER!(X) 3-5 9 - 11 17 l DD FRESSUM EETAINilmi fRTIE -2 LIAMETER MJeE IN PROLAAM l l C-F-1 PRESSURE RETAINING WELDS IN AFDITIC STAINLESS STEEL OR HIGH ALLOT PIPING C-F-1 C5.10 PIPIE ELDS >3/8' HALL THICKNESS FOR PIPING > NPS 4 C-F-1 C5.11 CIRC 1mFERENTIAL SLR/VOL *SEE 10TE BELCW 365 47 16 11 20 ) C-F-1 C5.12 LDEITIEINAL (303 LONGSEMS) SLR/v(1 2 ST AT INTER. CIRC. - - - l C-F-1 C5.20 PlPIE ELDS >1/5* tot! MAL WALL THICENESS F(R PIPING 2erS 2 $NPS 4 R3 September 1, 1995 Page 38 of 280
i TABLE 1C INTERVAL 3 CLASS 2 EXAMS CATEGmY ITEM EKM TOTAL pueER Nup6ER IST NUl6ER 2ND IU 6ER 3RD IU6ER IU6ER EIAMINATION AREA MTMD REQUIRED EXAMS IU6ER REQUIRED MRIOD PERIOD MRIG) C-F-1 C5 21 "SEE NOTE BELN 158 4 8 CIRCUMFERENTIAL SUR/VOL 12 -
)
C-F 1 C5 22 LONGITUDINAL St; .1 2 ST AT INTER CIRC. 0 - - - C-F-1 C5 30 SCCKET WELDS SUR 480 36 13 15 8 C-F-1 C5 40 PIPE BRANCH CW N OF BRMCH PIPING INPS 2 C-F-1 C5 41 CIRCLMFERENTIAL SUR "SEE NOTE BELOW 9 2 - 2 C-F-1 C5 42 LONGITUDINAL SUR 2 Si AI lhTER CIRC 0 - - C-F-1 N/A PIPING WELDS > NPS 4 AND < 3/8 WALL THICKNESS (PLUS 252 LONGSEMS) 272 0 - - - M)TE: LOWSEMS ARE EXMINED WITH SELECTED INTERSECTIE CIRCUMFERENTIAL WELDS X)TE: 7.53 BUT NOT LESS THAN 28 WELDS l l l TOTAL fueER & ELAMS MR COLupet 1284 97 29 30 38 rm* 'a*
- a=5 == _ _ _ _ _ . _- _ _ . __ . _ _ _
2+ 59 97
--l l l REQUIRED ACCUMULATED IU6ER MR MRIOD (SEE DETAILED SYSTEM Ot4RT AT DO OF TABLE) 16 - 32 43 - 64 97 j i I C F-2 PRESSURE RETAINIE WELDS IN CAMON OR LN ALLOY STEEL PIPING C-F-2 C5 50 PIPING hELDS 33/8* WALL THICDESS FCR PIPIE > NPS 4 C-F-2 C5 51 CIRCLNERENTIAL SLR/VOL "lE NOTE BELOW 78 24 7 11 6 )
C-F-2 C5.52 LOGITLOIML SIR /VOL - 2 ST AT INTER 0 - - - - R3 Septerrber 1.1995 Page 39 of 280
TABLE 1C INTERVAL 3 CLASS 2 EXAMS CATEGORY ITEM EXM TOTAL NUNICR MUISER IST NUleER 2ND MlteER 3RD NLMIER NUleER EIMINATION AREA ETHG) REIRJIRED EXAMS NUleER REQUIRED PERIOD PERIOD PERICD C-F-2 C5 60 PIPING WELDS > 1/5" NOMINAL WALL THICKNESS FOR PIPING 3 2 NPS $4 NPS C-F-2 C5 61 CIRCLP!FERENTIAL SLR/VOL '5EE NOTE BELOW 0 - - - - C-F-2 C5 62 LONGITUDINAL SUR/v0L 2.5T AT INTER. 0 - - - - C-F 2 C5 70 SOCKET WELDS SIR 0 - - - - C-F-2 C5 80 PIPE BRANCH CONNECTIONS OF BRMCH PIPIE g NPS 2 C F-2 C5 81 CIRCIM ERENil AL SUR 8 1 1 j C-F-2 C5 82 LONGITLOINAL SUR 2 ST AT INTER. 0 - - - C-F-2 N/A PIPING WELOS > NPS 4 AND < 3/8 WALL THICKNESS 359 9 - 2 7 ) wiE. 7.5: euT NOT tESS na 28 WADS > l l l TOTAL NUPEER OF EIAMS PER COLUMN _ _ _ _ _ _ ._445_ . . _ _34_ __ _ 9 13 _ 13 TOTAL NUteER OF EXM5 ACCUMULATED 8 21 34 l l REQU! RED ACCUMULATED NupeER PER PERIOD (SEE [ETAILED SYSTEM CHART AT EE OF TABLE) 6 - 11 17 - 22 34 I I C-G PRESSURE RETAINING WELDS IN Pt#f5 AND VALVES C-G C6 13 PLPf CASING WELDS SUR ALL UNDER C F 0 - - C-G C6.20 WatvE BODY WELOS SUR ALL IN)ER C-F 1 1 - - 1 R3 September 1. 1995 Page 40 of 280
a TABLE 1C INTERVAL 3 CLASS 2 EXAMS CATEGORT ITEM EXAM TOTAL IMSER IU SER IST NUleER 290 NiseER 3RD NUleER NU EER EXAMIMTION AREA ETHOD REQUIRED EIAMS IRMIER REQUIRED PERIG) PERIOD PERIOD LI . IIJ THROUGH C-H C7 80 ALL OF TliSE EX4tS ARE PERITMED USER OPPD TECEICAL SPECIFICATION 3 3(1)a F-A F1.20A PIPING SUPPORT (ONE DIRECTION SUPPORTS) VT3 *151 (DF TYPE A. B. & C) 210 32 11 11 10 F-A F1.20B PIPING SLFPORTS (MLLil DIRECT 10kAL RESTRAINTS) VT3 *153 0F (TYPE A. B. & C) 215 32 12 8 12 ) FA Fl.20C PIPIE StPPORTS (SPRING CANS) VT3 *15% OF (TYPE A. B. & C) 58 9 1 5 3 FA F1 808 SUFFORTS OTHER THAN PIPING (3 CSS PtPIDS 2 LPSI Pi.PFS) 1002 (ONE OF MLLTIPLE) 10 4 - 4 ) VT3 _ , _ 493 77 24 24 29 l TOTAL IU6ER W EIAMS PER COLLast TOTAL NUMER OF EXAMS ACCUMA.ATED 24 48 77 l I I REQUIRED ACOMA.ATED IceER PER PERIOD 13 - 26 39 - 51 77 ) i I NOTE:
- EXAMS SELECTED PER CDDE CASE N-491
** TtfRE ARE At50162 SNLEBERS iMICH AFE INSPECTED L%nER TECHNICAL SPECIFICATIONS 314 R3 September 1. 1995- Page 41 of 280
TABLE 1C INTERVAL 3 CLASS 2 C-F-1 EXAMS SYSTEM SIZE ITEM # THICKNESS TOTAL WELDS TERMINAL ENDS STRUCTURAL DISCONTINUITIES % REQUIRED REQ. TOTAL PER SYSTEM /StZE LPSI 14 MA 0.250* 23 4 21 0 0 LPSI 12 C5.11 0.375* 67 2 65 73.63 14 (1 TERMINAL END) LPSI 10 N/A 0.365* 47 3 44 0 0 LPSI 8 N/A 0.322" 33 2 34 0 0 LPH 10 N/A 0.365* 13 0 13 0 0 LPH 6 N/A 0.280" 42 0 42 0 0 LPH 12 C5.11 0.375" 24 0 21 26.37 5 ) 1 240 19.39 LPSI SUB-TOTAL 249(91) 11 19 (1 TERMINAL END) CSS 12 MA 0.180* 19 3 14 0 0 CSS 12 C5.11 0.375* 91 4 88 96 81 12 (1 TERMINAL END) CSS 12 C5 41 0 375* 3 0 3 3.19 1 CSS 8 MA 0.322" 45 6 39 0 0 CSS 6 MA 0.280* 16 0 16 0 0 CSS SUB-TOTAL 174 (94) 13 160 13.55 13 (1 TERMINAL END) SDC 12 C5.11 0 375* 100 2 96 100.00 7 ) SDC SUB-TOTAL 100 (100) 2 96 7.79 7 Si 24 C5.11 0.375* 41 0 41 49.40 4 S1 20 C5.11 0.375* 13 0 13 15.66 1 SR 6 C5.11 0.719" 14 0 14 16.87 2 St 6 C5.11 0.432* 15 0 15 18.07 2 >FSI(ADO TO 6 SI) 8 N/A 0.322" 8 1 7 0 0 HPSI(ADO TO 6* SQ 6 MA 0 280" 26 4 22 0 0 HPSI SUB-TOTAL 117(83) 5 112 9.11 9 R3 September 1. 1995 Page 42 of 280
1 TABLE 1C INTERVAL 3 CLASS 2 C-F-1 EXAMS SYSTEM SIZE ITEM 8 THICKNESS TOTAL WELDS TERMINAL ENDS STRUCTURAL DISCONTINUITIES % REQUIRED REO. TOTAL PER SYSTEM /SlZE CH 4 C5.21 0.531* 152 7 148 23 60 11 CH 4 C5.41 0.531' 6 0 6 0.93 1 CH 2.5 C5 21 0.375* 6 1 5 0 93 1 CH 2 C5.30 0.344* 480 15 463 74.54 36 (2 TERMINAL ENDS) i CH SUS-TOTAL 644 (644) 23 622 50.16 49 (2 TERMINAL ENDS) 4.2f%TERMINAETNDs 95.79% STRUCTURAL COLUMN TOTALS 1284 54 1230 4 TERMINAL ENDS 93 STRUCTURAL DISC. DISC. STEP 1; TOTAL # OF WLDS (1284 TIES 7.53 (COM REQu1 RED) EQtA5 TOTAL ENER OF C41 ELDS RE0ulRED BY CODE (97) STEP 2.THE SLB TOTAL OF EADt SYSTEM (SOM tsOER
- TOTAL WLDS*) DIV1MD BY GRAPO TOTAL & MLDS (1284) EWAL5 REWIRED PERCEh14GE PER SY5 TEM (9We ON SYSTEM Sts-TOTAL LINE (MXR R REQUIRED ).
STEP 3. TOTAL i 0F WELDS (97) T145 REqulRED PER SYSTEM (9GM ON SYSTEM stb TOTAL LlhE LMIER ** REQ *) EQUALS REQ TOTAL PER SYSTEM ESHb!( ON SYSTlM 911 TOTAL LINE UNDER
- REQ TOTAL PER SYSTEM /512E).
STEP 4 WITHIN A SYSTEM. THE TOTAL ELDS PER SIZI Div10ED BY SYSTEM stb TOTAL OF WELDS REQUIRED (5HOWN blTH PARENTHE5IS LMfR TOTAL MLDS AT SYSTEM 9BT01AL) EQlM5 REQulRED PERCENTAE PER SYSTEM PER SIZE (90m (MER *t REQUIRED *), GTE: THESE EPSERS ADD UP TO 1003 PER SYSTEM l l l l l _ 5TEP 5 I REQ PER SIZE (SHMe LMER *t REQ > T145 TOTAL REQ PER SLB-5YSTEM (9G#e ON SYSTEM stb-TOTAL LINE l#CER *RLQ TOTAL PER SY5 TEM / SIZE *) EWALS THE umER OF ELD 5 REQ BY THE CG)E FOR EAOi LINE 90m ON Di 1ABLE WITH AN 11EM i R3 September 1. 1995 Page 43 of 280
TABLE 1C INTERVAL 3 CLASS 2 C-F-2 EXAMS WELD SELECTION PER ASME SECTION XI 1989 EDITION sTauu ucAL
' SYSTEM SIZE THICKNESS TOTAL WELDS NOT ACCESSIBLE ACCESSIBLE TERMINAL ENDS DISCONTINUITIES % REQUIRED TOTAL PER SYSTEM / SIZE MAID STEAM 6" 0.432* 16* 0 16 0 16 18.6 6-MAIN STEAM (INCLUDES 8 BRANCH) 28" 1.000" 42 18 24 2 40 48.8 17 (1 TERMINAL END)
FEED WATER 16" 0.844* 28 6 22 2 26 32.6 11 (1 TERMINAL END) COLUMN TOTALS - - 86 24 62 4 82 100 34 (2 TERMINAL ENDS) 4 R3 September 1. 1995 Page 44 of 280
TABLE 1C INTERVAL 3 CLASS 2 C-F-2. EXAMS 4 OPPD PROPOSED WELD SELECTION STRucTumAL SYSEM SIZE- THICKNESS TOTAL WELDS NOT ACCESSIBLE ACCESSIBLE TERMINAL ENDS DISCONTINUITIES % PROPOSED TOTAL PER SYSTEM / SIZE PROPOSED MAI3 STEAM 6" 0.432" 16 .0 16 0 16 11.1 4 MAIN STEAM (INCLUDES 8 BRANCH) 28" 1.000* 42 18 24 2 40 35.3 12 (1 TERMINAL END) FEEDWATER 16" 0.844" 28 6 22 2 26 26.5 9 (1 TERMINAL END) AUXILIARY COOLING - 10" 0.365" 118 - 118 12 106 26.5 9 COLUMN TOTALS - - 204 24 180 16 188 100 34 (2 TERMINAL ENDS) R3 September 1, 1995 Page 45 of 280'
TABLE 1C CLASS 2 SUPPORT EXAM DISTRIBUTION PER CODE CASE N-491 TYPE A SUPPORTS TYPE B SUPPORTS TYPE C SUPPORTS SYSTEM TOTAL OF TYPE * % REQ *
- 9 REQ TOTAL TO EXAMINE TOTAL OF TYPE * % REQ "9 REQ TOTAL TO EXAMINE TOTAL OF TYPE * % REQ " # REQ TOTAL TO EXAMINE MS 2 1 0.3 0 4 1.9 0.6 1 9 15.5 1.4 1 FW 2 1 0.3 0 1 0.5 0.2 0 1 12.1 1.1 1 LPH/LPSI 39 18.6 6 6 10 4.7 1.5 2 8 13.8 1.2 1 iDC 15 7.1 2.3 2 6 2.0 0.9 1 0 - - -
CSS 21 to 3.2 3 3 1.4 0.4 0 13 22.4 2 2 51/EPSI 17 8.1 2.6 3 2 0.9 0.3 0 6 10.3 0.9 1 AC 43 20.5 6.6 7 70 32.6 10.4 10 10 17.2 1.5 2 C5 71 33.8 10.8 11 119 55.3 17.7 18 5 8.6 0.8 1 TOTAL OF TYPE A. 8, C 210 215 58 TOTAL REQUIRED PER TYPE / INTERVAL 32 32 9
- TOTAL OF TYPE PER SYSTEM DIVIDED BY TOTAL OF TYPE (A, B. OR C1 EQUALS PERCENT REQUIRED PER SYSTEM PER TYPE.
** PERCENT REQUIDED PER SYSTEM TIMES TOTAL REQUIRED OF TYPE PER INTERVAL EQUALS NUMBER REQUIRED PER SYSTEM PER TYPE.
R3 September 1, 1995 Page 46 of 280
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TABLE 1D INTERVAL 3 CLASS 3 EXAMS CATEGIRY ITEM EXAM TOTAL NUSER NUleER Mul6ER EXAMINATION AREA IET100 REQUIRED EXAMS NLDBER REQUIRED NuleER IST KRIOD NUSER 2ND K RIOD NUleER 3RD MRIOD F A SUPPORTS F-A F1.30A CLASS 3 PIPIC SUPPORTS (ONE DIRECTION SUPPORTS) VT3 272 27 10 t 12 F-A F1.30B CLASS 3 PIPIE SUPPORTS (MLETI DIRECTIONAL RESTRAINTS) WT3 222 23 7 9 7 FA Fl.30C CLASS 3 PIPIE SUPPORTS (SPRIM CANS) VT3 21 2 - - 2 l F-A SUP, ORTS OTHER TMN PIP 14 F1.40 VT3 0_ 0 - TOTAL NUEER OF EXAMS MR COLLMe " 515 52 17 14 21 J l l TOTAL NUWER OF ACCtmulATED EXAMS 17 31 52 l l l REQUIRED ACCuleA.ATED NumER PER MRIOD (SEE DETAILED SYSTEM CHART AT 00 0F TABLE) 9 - 17 26 - 34 52 I I I OTE:* EuAMS SELECTED PER CODE CASE N 491 ** THERE ARE ALSO 42 SNLBBERS WHICH MtE INSPECTED th0ER TECHNICAL SPECIFICATIONS 314 R3 September 1. 1995 Page 48 of 280
TABLE 1D CLASS 3 SUPPORT EXAM DISTRIBUTION PER CODE CASE N-491 TYPE A SUPPORTS TYPE B SUPPORTS TYPE C SUPPORTS TOTAL OF TOTAL OF TOTAL OF SYSTEM TYPE
- 4 REQ i REQ TOTAL TO EXAMINE TYPE
- t REO "
# REQ TOTAL TO EXAMINE TYPE
- t REQ O REQ TOTAL TO EXAMINE aDi (MS 6 Ew) 70 25.7 6.9 7 81 36.5 8.4 8 10 47.6 0.95 1 AC 115 42.3 11.4 11 72 32.4 7.5 8 2 9.5 0.2 0 RW 87 32 8.6 9 69 31.1 7.2 7 9 42.9 0.86 1 TOTAL OF TYPE A, B OR C 272 222 21 TOTAL REQUIRED PER TYPE /INTE8 VAL 27 23 2
- TOTAL OF TYPE PER SYSTEM DIVIDED BY TOTAL OF TYPE (A, B, OR C) EQUALS PERCENT REQUIRED PER SYSTEM PER TYPE.
** PERCENT REQUIRED PER SYSTEM TIMES TOTAL REQUIRED OF TYPE PER INTERVAL EQUALS HUMBER REQUIRED PER SYSTEM PER TYPE.
R3 September 1.1995 Page 49 of 280
i i W ' DETAILED i i TEN YEAR t EXAM SCHEDULE l l i 4 l 2 R3 September 1, 1995 Page 50 of 280 l l
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 I CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-A 02 Bl.11 RPV-SC-16-410 LOWER SHELL TO BOTTOM HEAD A-01 < B-A 02 D1.11 RPV-SC-B-11 UPPER SHELL TO MIDDLE SHELL A-01 B-A 02 Bl.11 RPV-SC-C-11 MIDDLE SHELL TO LOWER SHELL A-01 B-A 02 Bl.12 RPV-SL-A-1 UPPER SHELL (60) A-01 B-A 02 Bl.12 RPV-SL-A-2 MIDDLE SHELL (0) A-01 B-A 02 Bl.12 RPV-SL-A-3 LOWER SHELL (60) A-01 i B-A 02 Bl.12 RPV-SL-B-1 UPPER SHELL (180) A-01 B-A 02 Bl.12 RPV-SL-B-2 MIDDLE SHELL (120) A-01 i B-A 02 Bl.12 RPV-SL-B-3 LOWER SHELL (180) A-01 B-A 02 Bl.12 RPV-SL-C-1 UPPER SHELL (300) A-01 t-A 02 Bl.12 RPV-SL-C-2 MIDDLE SHELL (240) A-01 B-A l 02 Bl.12 RPV-SL-C-3 LOWER SHELL (300) A-01 B-A I 01 B1.21 RPVCH-DW-1 DOME WELD A-02A B-A 02 Bl.21 RPVLH-2-411 DOLLAR WELD A-02 B-A 01 81.22 lPPVCH-HM-1 MERIDIONAL WELD AT 0 A-02A B-A 01 Bl.22 i IRPVCH-HM-2 MERIDIONAL WELD AT 60 A-02A B-A 01 Bl.22 l RPVCH-HM-3 MERIDIONAL WELD AT 120 A-02A B-A l 01 Bl.22 RPVCH-HM-4 MERIDIONAL WELD AT 180 A-027 B-A I 01 Bl.22 RPVCH-HM-5 MERIDIONAL WELD AT 240 A-02A B-A l 01 B1.22 l RPVCH-HM-6 MERIDIONAL WELD AT 300 A-02A B-A l 02 Bl.22 l RPVLH-1-411-A MERIDIONAL WELD AT 30 A-02 B-A 02 Bl.22 l RPVLH-1-411-B MERIDIONAL WELD AT 90 A-02 B-A 02 l Bl.22 lRPVLH-1-411-C MERIDIONAL WELD AT 150 A-02 B-A 02 B1.22 RPVLH-1-411-D MERIDIONAL WELD AT 210 A-02 0-A 02 Bl.22 RPVLH-1-411-E MERIDIONAL WELD AT 270 A-02 B-A 02 Bl.22 RPVLH-1-411-F MERIDIONAL WELD AT 330 A-02 B-A 95/02 Bl.30 RPV-A-11 SHELL TO FLANGE A-01 B-A 96/01 Bl.40 RPVCH-HF-1 HEAD TO FLANGE WELD A-02A B-B 96 B2.11 PRZ-SC-3-403 LOWER SHELL'TO BOTTOM HEAD A-03 B-B 01 B2.11 PBZ-SC-5-403 UPPER SHELL TO TOP HEAD A-03 B-B 01 B2.12 PRZ-SL-2-403A SHELL LONG. SEAM AT 270 A-03 B-B B2.12 PRZ-SL-2-4039 SHELL LONG. SEAM AT 90 A-03 B-B B2.12 PRZ-SL-2-403C SHELL LONG. SEAM AT 180 A-03 B-B 96 B2.12 PRZ-SL-2-403D SHELL LONG. SEAM AT 0 A-03 B-B B2.31 SG-1-C-1 DOLLAR WELD A-05 B-B B2.31 SG-1-C-2 LOWER HEAD TO LOWER EXT. RING A-05 B-B B2.31 SG-2-C-1 DOLLAR WELD A-06 B-B 99 B2.31 SG-2-C-2 LOWER HEAD TO LOWER EXT. RING A-06 B-B B2.32 SG-1-M-1 LOWER HEAD MERIDIONAL WELD A-05 B-B B2.32 SG-1-M-2 LOWER HEAD MERIDIONAL WELD A-05 B-B B2.32 SG-1-M-3 LOWER HEAD MERIDIONAL WELD A-05 B-B B2.32 SG-1-M-4 LOWER HEAD MERIDIONAL WELD A-05 B-B B2.32 SG-2-M-1 LOWER HEAD MERIDIONAL WELD A-06 B-B B2.32 SG-2-M-2 LOWER HEAD MERIDIONAL WELD A-06 B-B 99 B2.32 SG-2-M-3 LOWER HEAD MERIDIONAL WELD A-06 B-B B2.32 SG-2-M-4 LOWER HEAD MERIDIONAL WELD A-06 B-B 96 B2.40 SG-1-C-3 LOWER EXT. RING TO TUBESHEET A-05 D-B B2.40 SG-2-C-3 LOWER EXT. RING TO TUBESHEET A-06 B-B B2.51 kHE-CS-7 SHELL TO HEAD A-07 B-B 01 B2.51 RHE-CS-9 SHELL TO HEAD A-07 R3 September 1, 1995 Page 51 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # 1 B-B B2.70 RHE-LSD-18 LONGITUDINAL SHELL WELDS A-07 B-B 01 B2.70 RHE-LSD-20 LONGITUDINAL SHELL WELDS A-07 B-B 01 B2.80 RKE-TS-12 TUBE SHEET TO SHELL WELDS A-07 B-B B2.80 RHE-TS-5 TUBE SHEET TO SHELL WEL'JS A-07 B-D 02 B3.100 RPV-N-1-A-IR INSIDE RADIUS SECTION A-01 B-D 02 93.100 RPV-N-1-B-IR INSIDE RADIUS SECTION A-01 B-D 02 B3.100 RPV-N-2-A-IR INSIDE RADIUS SECTI'JN A-01 B-D 02 B3.100 RPV-N-2-B-IR INSIDE RADIUS SECTION A-01 B-D 02 B3.100 RPV-N-2-C-IR INSIDE RADIUS WELD A-01 B-D 0? B3.100 RPV-N-2-D-IR INSIDE RADIUS WELD A-01 0-D 96 B3.110 PRL-1 RELIEF NOZZLE A-04 B-D 99 B3.110 PSL-1 SAFETY NOZZLE A-04 B-D 96 B3.110 PSL-10 SURGE NOZZLE ,fHERMAL SLEEVE) A-04 B-D 99 B3.110 PSL-2 SAFETY NOZZLE A-04 B-D 99 B3.110 PSS-1 lSPRAYNOZZLE A-04 B-D 96 B3.120 PRL-1-IR lINSIDE RADIUS SECTION A-04 B-D 99 B3.120 PSL-1-IR INSIDE RADIUS SECTION A-04 D-D 96 B3.120 PSL-10-IR INSIDE RADIUS SECTION A-04 B-D 99 B3.]20 PSL-2-IR INSIDE RADIUS SECTION A-04 B-D 99 B3.120 PSS-1-IR INSIDE RADIUS SECTION A-04 B-D 96 B3.130 SG-1-N-1 HEAD TO OUTLET NOZZLE A-05 B-D 96 B3.130 SG-1-N-3 HEAD TO OUTLET NOZZLE A-05 B-D 96 B3.130 SG-1-N-5 INLET NOZZLE TO HEAD A-05 B-D 99 B3.130 SG-2-N-1 HEAD TO OUTLET NOZZLE A-06 . B-D 99 B3.130 SG-2-N-3 HEAD TO OUTLET NOZZLE A-06 B-D 99 B3.130 SG-2-N-5 INLET NOZZLE TO HEAD A-06 B-D 96 B3.140 SG-1-N-1-IR INSIDE RADIUS SECTION A-05 B-D 96 B3.140 SG-1-N-3-IR INSIDE RADIUS SECTION A-05 B-D 96 B3.140 SG-1-N-5-IR INSIDE RADIUS SECTION A-05 B-D 99 B3.140 SG-2-N-1-IR INSIDE RADIUS SECTION A-06 B-D 99 B3.140 SG-2-N-3-IR INSIDE RADIUS SECTION A-06 B-D 99 B3.140 SG-2-N-5-IR INSIDE RADIUS SECTION A-06 B-D 95 B3.150 RHE-BC-10 NOZZLE WELD A-07 i B-D 01 B3.150 RHE-BC-8 NOZZLE WELD A-07 B-D 95 B3.150 RHE-N-11 NOZZLE WELD A-07 B-D 01 B3.150 RHE-N-6 NOZZLE WELD A-07 B-D 95 B3.1__ RHE-BC-10-IR INSIDE RADIUS SECTION A-07 B-D 01 B3.160 RHE-BC-8-IR INSIDE RADIUS SECTION A-07 B-D 95 B3.160 RHE-N-11-IR INSIDE mDIUS SECTION A-07 B-D 01 B3.160 RHE-N-6-IR INSIDE RADIUS SECTION A-07 B-D 02 B3.90 RPV-N-1-A SG-RC-2A NOZZLE TO VESSEL WELD A-01 B-D 02 B3.90 RPV-N-1-B SG-RC-2B NOZZLE TO VESSEL WELD A-01 d B-D 02 B3.90 RPV-N-2-A RCP-RC-3A NOZZLE TO VESSEL WELD A-01 B-D 02 B3.90 RPV-N-2-B RCP-RC-3C NOZZLE TO VESSEL WELD A-01 B-D 02 B3.90 RPV-N-2-C RCP-RC-3D NOZZLE TO VESSEL WELD A-01 B-D 02 B3.90 RPV-N-2-D RCP-RC-3B NOZZLE TO VESSEL WELD A-01 B-F 02 B5.10 MRC-1/01 RPV NOZZLE TO SAFE END A-08 B-F 02 B5.10 MRC-1/18 SAFE END TO RPV NOZZLE A-08 B-F 02 B5.10 MRC-1/30 SAFE END TO RPV NOZZLE A-08 B-F 02 85.10 MRC-2/01 RPV NOZZLE TO SAFE END A-09 R3 September 1, 1995 Page 52 of 280
l CLASS 1 1 4 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RDINT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-F 02 B5.10 MRC-2/18 SAFE END TO RPV NOZZLE A-09 B-F 02 B5.10 MRC-2/30 SAFE END TO RPV NOZZLE A-09 B-F 01 B5.130 4-PSS-1/078 SAFL END (316) TO SAFE END (600) A-15 1 B-F 01 B5.140 3-PRL-1/01 RED (INCL 600) TO SAFE END(316) A-19 B-F 96 B5.40 TERM END 10-PSG-10/01 NOZZLE (PSG-10) TO SAFE END A-14 B-F 96 B5.40 TERM END 4-PSS-1/08 SAFE END (600) TO NOZZLE A-15 B-F 96 B5.50 TERM END 3-PRL-1/01A NOZZLE
- RED.(INCL 600) A-19 B-F 99 B5.50 3-PSL-1A NOZZLE [PSL-1) TO FLANGE A-16 B-F 99 B5.50 3-PSL-2A NOZZLE (PSL-2) TO FLANGE A-16 B-F 96 B5.70 MRC-1/06 SAFE END TO SG NOZZLE A-08 B-F 96 B5.70 MRC-1/07 SG NOZZLE TO SAFE END A-08 j
B-F l 96 B5.70 MRC-1/19 STEAM GEN. NOZZLE TO SAFE END A-08 B-F I 99 B5.70 l IMRC-2/03 SAFE END TO SG NOZZLE A-09 l 99 B5.70 l lMRC-2/07 SG NOZZLE TO SAFE END A-09 7 _ l-F B-F ! 99 B5.'O I lMRC-2/19 SG NOZZLE TO SAFE END l A-09 B-G-1 I 02 B6.10 l lRPV-G1-N-01 RPV CLOSURE HEAD NOT A-01A+ B-G-1 95 B6.10l lRPV-G1-N-02 RPV CLOSURE HEAD NUT A-01A ~ B-G-1 95 l B6.10 l lRPV-G1-N-03 RPV CLOSURE HEAD NUT A-01A B-G-1 95 l B6.10 l !RPV-Gi-N-04 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10l RPV-Gi-N-05 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10l RPV-G1-N-06 RPV CLOSURE HEAD NUT A-01A_ B-G-1 95 B6.10l RPV-G1-N-07 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-08 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-09 RPV CLOSURE HEAD NUT A-01A , B-G-1 95 B6.10 RPV-G1-N-10 RFV CLOSURE HEAD NUT A-01A i B-G-1 95 B6.10 RPV-GI-N-11 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-12 RPV CLOSURE HEAD NUT A-01A B-G-1 95 ' B6.10 RPV-G1-N-13 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-14 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-15 RPV CLOSURE HEAD NUT A-01A i B-G-1 95 B6.10 RPV-G1-N-16 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-17 RPV CLOSURE HEAD NUT A-01A i B-G-1 95 B6.10 RPV-G1-N-18 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-19 RPV CLOSURE HEAD NUT A-01A 4 B-G-1 95 B6.10 RPV-G1-N-20 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-21 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-22 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-23 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-G1-N-24 RPV CLOSURE HEAD NUT A-01A B-G-1 95 B6.10 RPV-Gi-N-25 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-Gi-N-26 RPV CLOSURE HEAD NUT A-01A B-G-1 02 l B6.10 RPV-G1-N-27 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-Gi-N-28 RPV CLOSU".E HEAD NUT ,A-01A B-G-1 02 B6.10 RPV-Gi-N-29 nPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-30 RPV CLOSUR" HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-31 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-Gi-N-32 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-33 RPV CLOSURE HEAD NUT A-01A B-G-1 02 P6.10 RPV-G1-N-34 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-15 RPV CLOSURE HEAD NUT A-01A R3 September 1, 1995 Page 53 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-G-1 02 B6.10 RPV-Gl-N-36 RPV CLOSURE HEAD NUT A-01A B-G-1 02 86.10 RPV-Gi-N-37 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-38 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-39 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-40 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-Gl-N-41 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-42 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-43 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-Gi-N-44 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-GI-N-45 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-G1-N-46 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 RPV-Gi-N-47 RPV CLOSURE HEAD NUT A-01A B-G-1 02 B6.10 I RPV-G1-N-48 RPV CLOSURE HEAD NUT A-01A B-G-1 I B6.1801 lRCP-MF-RC3A-1-01 RCP STUDS A-09B B-G-1 ! B6.180I lRCP-MF-RC3A-1-02 !RCP STUDS A-09B B-G-1 I B6.180 'RCP-MF-RC3A-1-03 RCP STUDS A-09B B-G-1 I B6.180 RCP-MF-RC3A-1-04 RCP STUDS A-09B B-G-1 l B6.180 RCP-MF-RC3A-1-05 RCP STUDS A-09B B-G-1 l B6.180 RCP-MF-RC3A-1-06 RCP STUDS A-09B B-G-1 I B6.180 RCP-MF-RC3A-1-07 RCP STUDS A-09B B-G-1 i B6.180 RCP-MF-RC3A-1-08 RCP STUDS A-09B B-G-1 I B6.180 RCP-MF-RC3A-1-09 RCP STUDS A-09B B-G-1 l B6.180 RCP-MF-RC3A-1-10 RCP STUDS A-09B B-G-1 I B6.180 RCP-MF-RC3A-1-11 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3A-1-12 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3A-1-13 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3A-1-14 RCP STUDS A-098 B-G-1 B6.180 RCP-MF-RC3A-1-15 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3A-1-16 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-01 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-02 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-03 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-04 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-05 RCP STUDS A-09B B-G-1 i B6.180 RCP-MF-RC3B-1-06 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-07 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-08 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-09 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-10 RCP STUDS A-09B B-G-1 B6.180 RC P-M F- RC 38 11 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-12 P.CP STUDS A-09B , B-G-1 B6.180 RCP-MF-RC3B-1-13 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3B-1-14 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC38-1-15 RCP STUDS A-09B I B-G-1 B6.180 RCP-MF-RC3B-1-16 RCP STUDS A-09B I B-G-1 94 B6.180 RCP-MF-RC3C-1-01 RCP STUDS A-09B B-G-1 99 B6.100 RCP-MF-RC3C-1-02 RCP STUDS A-09B B-G-1 99 B6.180 RC P-M F- RC 3C- 1-0 3 RCP STUDS A-09B B-G-1 99 B6.180 RC P-M F- RC 3C-1-0 4 RCP STUDS A-098 B-G-1 99 B6.180 RCP-MF-RC3C-1-05 RCP STUDS A-09B R3 September 1. 1995 Page 54 of 280
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CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT lYEM # TYPE COMPONENT DESCRIPTION ISO # B-G-1 99 B6.180 RCP-MF-RC3C-1-06 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-07 RCP STUDS A-098 B-G-1 99 B6.180 RCP-MF-RC3C-1-08 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-09 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-10 RCP STUDS A-09B B-G-1 99 B6.180 RC P-M F- RC 3C- 1-11 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-12 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-13 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-14 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-15 RCP STUDS A-09B B-G-1 99 B6.180 RCP-MF-RC3C-1-16 RCP STUDS A-09B B-G-1 1 B6.180 RCP-MF-RC3D-1-01 RCP STUDS A-098 B-G-1 B6.180 RCP-MF-RC3D-1-02 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-03 lRCPSTUDS A-09B B-G-1 B6.180 lRCP-MF-RC3D-1-04 'RCP STUDS ! A-09B B-G-1 B6.180 lRCP-MF-RC3D-1-05 RCP STUDS A-09B B-G-1 B6.180 RC P-M F- RC 3 D-1 -0 6 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-01 _ RC? STUDS A-098 B-G-1 B6.180 lRCP-MF-RC3D-1-08 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-09 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-10 RCP STUDS A-098 B-G-1 B6.180 RCP-MF-RC3D-1-11 RCP STUDS A-09B B-G-1 B6.180 iRCP-MF-RC3D-1-12 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-13 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-14 RCP STUDS A-098 B-G-1 B6.180 RCP-MF-RC3D-1-15 RCP STUDS A-09B B-G-1 B6.180 RCP-MF-RC3D-1-16 RCP STUDS A-09B B-G-1 B6.190 RC P-M F- P.C3A-2 FLANGE SURFACE A-09B B-G-1 B6.190 RCP-MF-RC3B-2 FLANGE SURFACE A-09B B-G-1 B6.190 RCP-MF-RC3C-2 FLANGE SURFACE A-09B B-G-1 B6.190 RCP-MF-RC3D-2 FLANGE SURFACE A-09B B-G-1 86.200 RCP-MF-RC3A-3-01 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-02 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-03 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-04 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-05 RCP NUTS AND WASHERS A-09B D-G-1 B6.200 RCP-MF-RC3A-3-06 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-07 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-08 RCP NUTS AND WASHERS A-098 B-G-1 B6.200 RCP-MF-RC3A-3-09 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-10 RCP NUTS AND WASHERS , A-09B B-G-1 B6.200 RCP-MF-RC3A-3-12 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-13 RCP NUTS AND WASHERS A-09B B-G-1 IB6.200 RCP-MF-RC3A-3-14 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-15 BCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3A-3-16 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC38-3-01 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-02 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-03 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-04 RCP NUTS AND WASHERS A-09B R3 September 1. 1995 Page 55 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-G-1 B6.200 RCP-MF-RC38-3-04 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-05 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC38-3-06 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-07 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-08 RCP NUTS AND WASHFRS A-098 B-G-1 B6.200 RCP-MF-RC3B '4-09 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-PCJB-3-10 RCP NUTS AND WASHERS A-09B B-G-1 b6.200 RCP-MF-RC3B-3-11 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RC P-M F-R C 38 12 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-13 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3B-3-14 RCP NUTS AND WASHERS A-09B B6.200 RCP-MF-RC3B-3-15 RCP NUTS AND WASHERS A-09B
._ B-G-1 B-G-1 B6.200 RCP-MF-RC3B-3-16 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-EC3C-3-01 RCP NUTS AND WASHERS A- 09B B-G-1 99 B6.200_ IRCP-MF-RC3C-3-02 RCP NUTS AND WASHERS A-098 B-G-1 99 B6.200' lRCP-MF-PC30-3-03 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 lRCP-MF-RC3C-3-04 RCP NUTS AND WASHERS A-09B B-G-1 99 86.2001 RCP-MF-RC3C-3-05 RCP NUTS AND WASHERS A-09B B-G-1 99 IB6.2001 RCP-MF-RC3C-3-06 RCP NUTS AND WASHERS A-09B B-G-1 99 IB6.200l RC P-M F- RC 3C- 3-0 7 RCP NUTS AND WASHERS A-098 B-G-1 99 B6.200 RCP-MF-RC30-3-08 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-09 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-10 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-11 RCP UUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-12 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-13 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-14 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-15 RCP NUTS AND WASHERS A-09B B-G-1 99 B6.200 RCP-MF-RC3C-3-16 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-01 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-02 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-03 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-04 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-05 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RC P-M F- RC 3 D-3-0 6 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RC P-M F-RC 3 D- 3-07 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-rd RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-09 RCP NUTS AND WASHERS A-09B B-G-1 D6.200 RCP-MF-RC3D-3-10 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-11 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-PC3D-3-12 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RC3D-3-13 RCP NUTS AND WASHERS A-09B B-G-1 B6.200i RCP-MF-RC3D-3-14 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RCP-MF-RU3D-3-15 RCP NUTS AND WASHERS A-09B B-G-1 B6.200 RC P-M F-RC 3 D 16 RCP NUTS AND WASHERS A-09B B-G-1 98 B6.30 RPV-G1-S-01 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-02 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-03 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-04 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-05 RPV CLOSURE HEAD STUD A-01A i
R3 September 1. 1995 Page 56 of 280 l l J
' CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) IREV.1 l ITEM # TYP2 COMPONENT DESCRIPTION ISO # CATEGORY 3RD INT B-G-1 98 B6.30 RPV-G1-S-06 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-07 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-5-08 RPV CLOSURE HEAD STUD A-01A B-G-1 01 'B6.30 RPV-G1-S-09 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-10 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-Gi-s-11 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-5-12 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-13 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-14 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-Gi-S-15 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-Gi-S-16 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-5-17 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-Gi-S-18 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-Gi-S-19 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30l RPV-G1-5-20 lRPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 lRPV-G1-S-21 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-22 RPV CLOSURE HEAD STtfD A-01A B-G-1 01 B6.30 RPV-G1-S-23 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-24 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 lRPV-G1-S-25 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 lRPV-Gi-S-26 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 lRPV-G1-S-27 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 lRPV-G1-S-28 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-29 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-30 RPV CLOSURE HEAD STUD A-01A B-G-1 01 B6.30 RPV-G1-S-31 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-32 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-33 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-34 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-35 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-36 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-37 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-38 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-Gi-S-39 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-40 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-41 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-42 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-43 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-44 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-Gi-S-45 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-Gi-S-46 lRPVCLOSUREHEADSTUD A-01A B-G-1 98 B6.30 RPV-Gi-5-47 RPV CLOSURE HEAD STUD A-01A B-G-1 98 B6.30 RPV-G1-S-48 RPV CLOSURE HEAD STUD A-01A B-G-1 95 B6.40 RPV-Gi-FL-01 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL 02 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-03 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-04 l THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-05 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-06 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-07 THREADS IN RPV FLANGE A-01A R3 September 1. 1995 Page 57 of 280 I
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-G-1 95 B6.40 RPV-G1-FL-08 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-09 Ti3EADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-10 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-11 THREADS IN RPV FLANGC A-01A B-G-1 95 B6.40 RPV-G1-FL-12 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-13 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-14 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-15 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-16 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-17 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-18 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-19 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-20 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-21 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-22 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-23 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-24 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-25 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 R PV-Gl- FL- 2 6 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 R PV-G 1 - F'.,- 2 7 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G: *L-28 THREADS IN RPV FLANGE A-01A l B-G-1 95 B6.40 RPV-G1-FL-29 THREAD.i IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-30 THREADS IN RPV FLANGE A-01A, B-G-1 95 B6.40 RPV-G1-FL-31 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-32 THREADS
- RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-33 THREADS n! RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-34 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-35 THREADS IN RPV FLANGE A-01A b-G-1 95 B6.40 RPV-Gi-FL-36 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-37 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-38 THREADS IN RPV FLANGE h-01A B-G-1 95 B6.40 RPV-G1-FL-39 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-40 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-41 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-42 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G'-FL-43 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-44 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-G1-FL-45 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-46 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-47 THREADS IN RPV FLANGE A-01A B-G-1 95 B6.40 RPV-Gi-FL-48 THREADS IN RPV FLANGE A-01A B -G .- 1 01 B6.50 RPV-G1-W-01 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-02 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-GI-W-03 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-04 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-05 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-06 RPV CLOSURE HEAD WASHERS A-01A i B-G-1 01 B6.50 RPV-G1-W-07 RPV CLOSURE HEAD WASHERS A-01A i B-G-1 01 B6.50 RPV-G1-W-08 RPV CLOSURE HEAD WASHERS A-01A l B-G-1 01 B6.50 RPV-Gi-W-09 RPV CLOSURE HEAD WASHERS A-01A ,
R3 September 1, 1995 Page 58 of 280 1
J CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-G-1 01 B6.50 RPV-G1-W-10 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-11 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-12 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-13 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-14 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-15 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-16 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 86.50 RPV-Gi-W-17 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-18 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-19 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-20 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 86.50 RPV-Gi-W-21 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-22 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 lRPV-Gi-W-23 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 l R PV-G i-W - 2 4 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50I RPV-G1-W-25 RPV CLOSURE HEAD WASHERS A-01A a B-G-1 01 B6.50 RPV-G1-W-26 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-27 RPV CLOSURE HEAD WASHERS A-01A 4 B-G-1 01 B6.50 RPV-G1-W-28 RPV CLOSURE HEAD WASHERS A-01A . B-G-1 01 B6.50 RPV-G1-W-29 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-30 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-31 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-32 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-33 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-34 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-35 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-36 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-37 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-38 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-39 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-40 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-41 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-42 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-43 RPV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-Gi-W-44 RPV CLOSURE HEAD WASHF'9 A-01A B-G-1 01 B6.50 RPV-Gi-W-45 RPV CLOSURE HEAD WASHE..S A-01A B-G-1 01 B6.50 RPV-Gi-W-46 APV CLOSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-47 RPV CLCSURE HEAD WASHERS A-01A B-G-1 01 B6.50 RPV-G1-W-40 RPV CLOSURE HEAD WASHERS A-01A ' B-G-2 95 B7.20 PH-1 PRZ MANWAY BOLTING A-04 B-G-2 96 B7.30 SG-1-1 'NLET SIDE MANWAY BOLTING A-05 B-G-2 96 B7.30 SG-1-2 OUTLET SIDE MANWAY BOLTING A-05 B-G-2 99 B7.30 SG-2-1 INLET SIDE MANWAY BOLTING A-06 B-G-2 99 B7.30 SG-2-2 OU'ILET SIDE MANWAY BOLTING A-06 B-G-2 95 B7.50 3-HPH-12/FE-316 FLANGE BOLTING A-30 E-G-2 02 B7.50 3-HPH-14/FE-313 FLANGE BOLTING A-31 B-G-2 02 B7.50 3-HPH-22/FE-319 FLANGE BOLTING A-32 B-G-2 95 B7.50 3-HPH-24/FE-322 FLANGE BOLTING A-33 B-G-2 99 B7.50 3-PSL-1B FLANGE BOLTING A-16 4 B-G-2 99 B7.50 3-PSL-2B FLANGE BOLTING A-16 R3 September 1. 1995 Page 59 of 280
CLASS 1 4 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-G-2 96 B7.60 RCP-MF-RC3A-4 PUMP SEA" ASSEMBLY A-09B j B-G-2 96 B7.60 RCP-MF-RC3B-4 PUMP SEAL ASSEMBLY A-09B B-G-2 99 B7.60 RC P-M F-P C 3 C- 4 PUMP SEAL ASSEMBLY A-09B B-G-2 99 B7.60 RCP-MF-RC3D-4 PUMP SEAL ASSEMBLY A-09B B-G-2 02 B7.70l 12-SDC-20/HCV-347 VALVE BOLTING (VELAN 10.0G) A-42 B-G-2 99 B7.70 12-SDC-20/HCV-348 VALVE BOLTING (VELAN 12.0G) A-42 B-G-2 01 B7.70 2-AS-1/CH-469 BOLTING, ANCHOR-DARLING 2.0C A-21 3 B-G-2 01 B7.70 2-AS-1/HCV-240 VALVE BOLTING, FISHER 2.0T A-21 B-G-2 96 B7.70 2-CL-12/HCV-230 VALVE BOLTING, FISHER 2.0T A-43 B-G-2 99 B7.70 2-CL-22/HCV-239 VALVE BOLTING, FISHER 2.0T A-44 B-G-2 99 B7.70 2-LL-2/LCV-101-1 VALVE BOLTING, YARWAY 2.0X A-46 B-G-2 99 B7.701 2-LL-2/LCV-101-2 VALVE BOLTING, YARWAY 2.0X A-46 B-G-2 99 B7.701 2-LL-2/TCV-202 VALVE BOLTING, FISHER 2.0T A-47 B-G-2 1 01 l B7.70 l 2.5-PRL-2/PCV-102-2 VALVE BOLTING, DRESSER 2.5S A-20 B-G-2 I 01 l B7.70l l2.5-PRL-3/PCV-102-1 VALVE BOLTING, DRESSER 2.5S A-20 B-G-2 01 B7.70 l 13-PSL-1/RC-141 VALVE BOLTING A-16 B-G-2 01 B7.70l j3-PSL-2/RC-142 VALVE BOLTING A-16
- B-G-2 l 01 B7.70I l3-PSS-14/PCV-103-2 VALVE BOLTING A-17 B-G-2 i 01 B7.70 l3-PSS-22/PCV-103-1 VALVE DOLTING A-18 B-G-2 i B7.80 RPVCH-CRD-G2-1-01 CRD BOLTING (IF DISASSEMBLED) A-02A I
B-G-2 B7.80 RPVCH-CRD-G2-1-02 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 I RPVCH-CRD-G2-1-03 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-04 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-05 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-06 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-07 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-08 CRD BOLTING (IF DISASSEMBLED) A-02A ! B-G-2 B7.80 RPVCH-CRD-G2-1-09 CRD BOLTING (IF DISASSEMBI ED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-10 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-11 CRD BOLTING (IF DISASSEMBLED) A-02A 4 B-G-2 B7.80 RPVCH-CRD-G2-1-12 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-13 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-14 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-15 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-16 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-17 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-18 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-19 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-20 CRD BOLTING (IF DISASSEMBLED) A-02A ) B-G-2 B7.80 l l R PVCH-C R D-G 2 21 CRD BOLTING (IF DISASSEMBLED) A-02A , B-G-2 B7.80 lRPVCH-CRD-G2-1-22 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 !RPVCH-CRD-G2-1-23 CRD BOLTING (IF DISASSEMBLED) A-02A l CRD BOLTING (IF DISASSEMBLED) A-02A j B-G-2 B7.80 l IRPVCH-CRD-G2-1-24 B-G-2 B7.80 RPVCH-CRD-G2-1-25 CRD BOLTING (IF DISASSEMBLED) A-02A ! B-G-2 B7.80 RPVCH-CRD-G2-1-26 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-27 CRD BOLTING (IF DISASSEMBLED) A-02A ) B-G-2 B7.80 RPVCH-CRD-G2-1-28 CRD BOLTING (IF DISASSEMBLED) A-02A I B-G-2 B7.80 RPVCH-CRD-G2-1-29 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-30 CRD BOLTING (IF DISASSEMBLED) A-02A l B-G-2 I B7.00 RPVCH-CRD-G2-1-31 CRD BOLTING (IF DISASSEMBLED) A-02A , l R3 September 1. 1995 Page 60 of 280 l
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 l CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISC# B-G-2 B7.80 RPVCH-CRD-G2-1-32 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-33 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-34 CRD BOLTING (If DISASSEMBLED) A-02A B-G-2 l B7.80 RPVCH-CRD-G2-1-35 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 87.80 RPVCH-CRD-G2-1-36 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-37 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-38 CRD BOLTING (If DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-39 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-40 CRD BOLTING (IF DISASSEMBLED) A-02A B-G-2 B7.80 RPVCH-CRD-G2-1-41 CRD BOLTING (IF DISASSEMBLED) A-02A B-H 96 B8.20 PRZ-3-405 SUPPORT SKIRT WELD A-03 B-H 88.30 SG-1-SL-1 , INTEGRAL ATTACHMENT A-05 B-H l B8.30 SG-1-SL-2 l INTEGRAL ATTACHMENT A-05 B-H I l 88.30 l SG-1-SL-3 IINTEGRAL ATTACHMENT A-05
.SG-1-SL-4 IINTEGRAL ATTACHMENT A-05 B-H I l BB.30 l B-H 99 i B8.30 ISG S L- 1 l1NTEGRAL ATTACHMENT A-06 B-H 99 B8.30 lSG-2-SL-2 INTEGRAL ATTACHMENT A-06 l'
B-H I 99 B8.30 l lSG-2-SL-3 INTEGRAL ATTACHMENT A-06 B-H 99 B8.30 lSG-2-SL-4 INTEGRAL ATTACHMENT A-06 B-J 96 B9.11 10-PSG-10/01A SAFE END TO PIPE A-14 B-J 96 B9.11 10-PSG-10/02 PIPE TO ELBOW A-14 B-J 96 B9.11 10-PSG-10/03 ELBOd TO PIPE A-14
- l B-J n9.11 10-PSG-10/04 PIPE TO ELBOW A-14 E-3 B9.11 10-PSG-10/05 ELBOW TO PIPE A-14 B-J 01 B9.11 10-PSG-10/06 PIPE TO ELBOW A-14 B-J 01 B9.11 10-PSG-10/07 ELBOW TO PIPE A-14 B-J 01 B9.11 10-PSG-10/08 PIPE TO ELBOW A-14
. B-J 01 B9.11 10-PSG-10/09 ELBOW TO PIPE A-14 B-J B9.11 10-PSG-10/10 PIPE TO ELBOW A-14 B9.11 10-PSG-10/11 ELBOW TO PIPE A-14 B-{_ [ 10-PSG-10/12 PIPE TO ELBOW A-14 S B9.11
, B9.11 10-PSG-10/13 ELBOW TO PIPE A-14 B-J B9.11 10-PSG-10/13A PIPE TO PIPE A-14 B-J B9.11 10-PSG-10/14 PIPE TO ELBOW A-14 B-J B9.11 10-PSG-10/15 ELBOW TO PIPE A-14 B-J 96 B9.11 TERM END 10-PSG-10/16 PIPE TO BRANCH ( 3 2- RC-10 )
- A-14 J B-J B9.11 TERM END 12-SDC-20/01 NOZZLE TO ELBOW A-42 B-J 99 B9.11 12-SDC-20/02 ELBOW TO PIPE A-42 B-J B9.11 12-SDC-20/03 PIPE TO VALVE (HCV-348) A-42 B-J B9.11 12-S DC-2 0 / 0 4 VALVE fHCV-348) TO PIPE l A-42 B-J 99 B9.11 12-SDC-20/05 PIPE TO ELBOW A-42 0-J B9.11 12-SDC-20/06 ELBOW TO PIPE A-42 l B-J B9.11 12-SDC-20/ObA PIPE TO PIPE A-42 B-J 89.11 12-SDC-20/07 PIPE TO ELBOW A-42 B-J B9.11 12-SDC-20/08 ELBOW TO PIPE A-42 B-J 01 B9.11 12-SDC-20/09 PIPE TO ELBOW A-42 ELBOW TO PIPE A-42 B-J 01 ~~~ B9.11 12-S DC-20 / I T B-J 01 89.11 12-SDC-20/11 PIPE TO ELBOW A-42 B-J 95 B9.11 12-S DC-20 /12 ELBOW TO PIPE A-42 B-J B9.11 l12-S DC-2 0 /13 PIPE TO PIPE A-42 R3 September 1, 1995 Page 61 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CATr, ITEM #, COMPONENT) REV.1 l CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J B9.11 12-SDC-20/14 PIPE TO PIPE A-42 B-J B9.11 12-S DC-2 0 /15 PIPE TO PIPE BEND RADIUS A-42 B-J 95 B9.11 IJ-SDC-20/16 PIPE BEND RADIUS TO ELBOW A-42 B-J B9.11 12-S DC-2 0 /17 ELBOW TO ELBOW A-42 B-J 89.11 12-SDC-20/18 ELBOW TO PIPE A-42 B-J 95 B9.11 12 -S DC-2 0 /18 A PIPE TO REDUCER A-42 B-J B9.11 12-S DC-20 /19 REDUCER TO VALVE (HCV-347) A-42 B-J B9.11 12-SI-12/10 VALVE (SI-215) TO PIPE A-22
~
B-J B9.11 12-SI-12/11 PIPE TO TEE A-22 B-J B9.11 12-SI-12/12 TEE TO PIPE A-22 B-J B9.11 12-51-12/13 PIPE TO VALVE (SI-216) A-22 B-J 89.11 12-SI-12/14 VALVE (SI-216) TO ELBOW A-22 B-J B9.11 12-51-12/15 ELBOW TO PIPE A-22 B-J I B9.11 l12-51-12/16 PIPE TO ELBOW A-22 B-J t 89.11 !12-SI-12/17 ' ELBOW TO PIPE A-22 B-J l 96 B9.11 l12-SI-12/18 PIPE TO ELBOW l A-22 B-J i 96 B9.11 TERM ENDil2-SI-12/19 ELBOW TO NOZZLE (24-RC-12) A-22 B-J 89.11 12-SI-14/13 VALVE (SI-219) TO PIPE A-23 B-J 89.11 12-SI-14/14 PIPE TO TEE A-23 B-J 89.11 12-SI-14/15 TEE TO PIPE A-23 B-J 01 B9.11 12-SI-14/16 PIPE TO ELBOW A-23 B-J 01 89.11 12-SI-14/17 ELBOW TO PIPE A-23 B-J 89.11 12-SI-14/18 IIPE TO VALVE (SI-220) A-23 B-J 89.11 12-SI-14/19 VALVE (SI-220) TO PIPE A-23 B-J B9.11 TERM END 12-S1-14/20 PIPE TO NOZZLE (24-RC-14) A-23 B-J B9.11 12-SI-22/13 VALVE (SI-207) TO PIPE A-24 B-J 99 89.11 12-SI-22/14 PIPE TO ELBOW A-24 B-J 99 B9.11 12-SI-22/15 ELBOW TO PIPE A-24 B-J B9.11 12-SI-22/16 PIPE TO TEE A-24 B-J B9.11 12-SI-22/17 TEE TO PIPE A-24 B-J 89.11 12-SI-22/18 PIPE TO VALVE (SI-208) A-24 B-J B9.11 12-SI-22/19 VALVE (SI-208) TO ELBOW A-24 B-J B9.11 12-SI-22/20 ELBOW TO PIPE A-24 B-J B9.11 12-SI-22/21 PIPE TO ELBOW A-24 B-J B9.11 TERM END 12-SI-22/22 ELBOW TO NOZZLE (24-RC-22) A-24 B-J B9.11 12-SI-24/09 VALVE (SI-211) TO PIPE A-25 4 B-J 95 B9.11 12-51-24/10 PIPE TO TEE A-25 B-J B9.11 12-SI-24,11 TEE TO PIPE A-25 B-J B9.11 12-SI-24/12 PIPE TO VALVE (SI-212) A-25 B-J 89.11 12-SI-24/13 VALVE (SI-212) TO PIPE A-25 B-J B9.11 12-SI-24/14 PIPE TO ELBOW A-25 B-J B9.11 12-SI-24/15 ELBOW TO PIPE A-25 B-J B9.11 12-SI-24/16 PIPE TO ELBOW A-25 B-J B9.11 12-SI-24/17 ELBOW TO PIPE A-25 B-J B9.11 12-SI-24/18 PIPE TO ELBOW A-25 B-J B9.11 TERM END 12-S!-24/19 ELBOW TO NOZZLE A-25 B-J B9.11 4-PSL-1/02 REDUCING ELBOW TO 45 ELBOW A-16 B-J 01 B9.11 4-PSL-1/03 45 ELBOW TO PIPE A-16 B-J , 01 B9.11 4-PSL-1/04 PIPE TO 45 ELBOW A-16 B-J l 89.11 4-FSL-1/05 45 ELBOW TO REDUCING ELBOW A-16 R3 September 1. 1995 Page 62 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORT 3 (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J B9.11 4-PSL-2/02 REDUCING ELBOW TO 45 ELBOW A-16 ] B-J 89.11 4-PSL-2/03 45 ELBOW TO PIPE A-16 B-J 89.11 4-PSL-2/04 PIPE TO 45 ELBOW A-16 B-J B9.11 4-PSL-2/05 45 ELBOW TO REDUCING ELBOW A-16 B-J B9.11 4-PSS-1/01 TEE TO ELBOW A-15 B-J B9.11 4-PSS-1/01B REDUCER TO TEE A-15 4 B-J 89.11 4-PSS-1/02A1 ELBOW TO PIPE A-15 B-J 89.11 4-PSS-1/02B1 PIPE TO VALVE (RC-374) A-15
! B-J B9.11 4-PSS-1/02C2 VALVE (RC-374) TO PIPE A-15 B-J B9.11 4-PSS-1/038 REDUCER TO TEE A-15 B-J l B9.11 4-PSS-1/03C PIPE TO TEE A-15 B-J 99 B9.11 4-PSS-1/04A TEE TO PIPE A-15 B-J 99 B9.11 4-PSS-1/05A1 PIPE TO ELBOW A-15 B-J 99 B9.11 I4-PSS-1/05B1 ELBOW TO ELBOW A-15 B-J B9.11 !4-ESS-1/05C ELBOW TO ELBOW A-15 B-J B9.11 I4-PSS-1/06A ELBOW TO PIPE A-15 B-J 99 B9.11 I4-PSS-1/07A PUP TO SAFE END (316) A-15 B-J 89.11 4-PSS-1/07Al PIPE (316) TO PUP (316) A-15 B-J B9.11 6-SI-12/04 VALVE (SI-200) TO ELBOW A-26 B-J B9.11 6-SI-12/05 ELBOW TO PIPE A-26 B-J 95 B9.11 6-51-12/06 PIPE TO ELBOW A-26 B-J B9.11l l6-SI-12/07 ELBOW TO PIPE A-26 B-J 89.11 I6-SI-12/08 PIPE TO ELBOW A-26 B-J 95 B9.11 6-SI-12/09 ELBOW TO PIPE A-26 B-J 95 B9.11 TERM END 6-SI-12/10 PIPE TO TEE A-26 B-J B9.11 6-SI-14/04 VALVE (SI-203) TO ELBOW A-27 B-J B9.11 6-SI-14/05 ELBOW TO PIPE h-27 B-J B9.11 6-51-14/06 PIPE TO ELBOW A-27 B-J B9.11 6-SI-14/07 ELBOW TO PIPE A-27 B-J B9.11 6-SI-14/08 PIPE TO ELBOW A-27 B-J B9.11 6-SI-14/09 ELBOW TO PIPE A-27 B-J B9.11 6-SI-14/10 PIPE TO ELBOW A-27 B-J B9.11 6-SI-14/11 ELBOW TO PIPE A-27 B-J 01 B9.11 6-SI-14/12 PIPE TO ELBOW A-27 ! B-J 01 B9.11 6-SI-14/13 ELBOW TO PIPE A-27 B-J 01 B9.11 TERM END 6-SI-14/14 PIPE TO TEE A-27 B-J 01 B9.11 6-SI-22/03 VALVE (SI-194) TO ELBOW A-28 B-J 01 B9.11 6-SI-22/04 ELBOW TO PIPE A-28 B-J B9.11 6-SI-22/05 PIPE TO ELBOW A-28 B-J B9.11 6-SI-22/06 ELBOW TO PIPE A-28 B-J 99 B9.11 6-SI-22/07 PIPE TO ELBOW A-28 B-J B9.11 6-SI-22/08 ELBOW TO PIPE A-28 B-J B9.11 6-SI-22/09 PIPE TO ELBOW A-28 B-J B9.11 6-SI-22/10 ELBOW TO PIPE A-28 !
B-J 99 B9.11 6-SI-22/11 PIPE TO ELBOW A-28 B-J B9.11 6-SI-22/12 ELBOW TO PIPE A-28 B-J B9.11 6-SI-22/13 PIPE TO ELBOW A-28 1 I B-J 99 B 9.11 , 6-SI-22/14 ELBOW TO PIPE A-28 B-J 99 B9.11 TERM END 6-SI-22/15 PIPE TO TEE A-28 B-J B9.11 6-SI-24/04 VALVE (SI-1971 TO ELBOW A-29 R3 September 1. 1995 Page 63 of 280 i
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) ' REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # l B-J B9.11 6-SI-24/05 ELBOW TO PIPE A-29
; B-J B9.11 6-SI-24/06 PIPE TO ELBOW A-29 R-J B9.11 6-SI-24/07 ELBOW TO PIPE A-29 B-J 95 B9.11 6-SI-24/08 PIPE TO ELBOW A-29 B-J 89.11 6-SI-24/09 ELBOW TO PIPE A-29 B-J 95 B9.11 TERM END 6-SI-24/10 PIPE TO TEE A-29 B-J 89.11 MRC-1/02 SAFE END TO PIPE A-08 3
B-J 89.11 MRC-1/03 PIPE TO PIPE A-08 B-J 89.11 MRC-1/04 PIPE TO ELBOW A-08
]
B-J B9.11 MRC-1/05 ELBOW TO SAFE END A-08 B-J B9.11 MRC-1/08 SAFE END TO ELBOW A-08 - B-J B9.11 lMRC-1/09 ELBOW TO PIPE A-08 B-J B9.11 lMRC-1/10 PIPE TO ELBOW A-08 B-J B9.11 lMRC-1/11 ELBOW TO PIPE A-08 B-J B9.11 1 iMRC-1/12 PIPE TO ELBOW A-08 B-J 89.11 !MRC-1/13 ELBOW TO PUMP (RC3B) i A-08 B-J B9.11 MRC-1/14 PUMP (RC38) TO PIPE A-08 B-J B9.11 MRC-1/15 PIPE TO ELBOW A-08 B-J B9.11 MRC-1/16 ELBOW TO PIPE A-08 I B-J B9.11 iMRC-1/17 PIPE TO SAFE END A-08 B-J 89.11 MRC-1/20 SAFE END TO ELBOW A-08 ) B-J 89.11 MRC-1/21 ELBOW TO PIPE A-08 B-J 89.11 MRC-1/22 PIPE TO ELBOW A-08 B-J 89.11 MRC-1/23 ELBOW TO PIPE A-08 B-J B9.11 MRC-1/24 PIPE TO ELBOW A-08 B-J B9.11 MRC-1/25 ELBOW TO PUM9 (RC3A) A-08 B-J 89.11 MRC-1/26 PUMP (RC3A) TO PIPE A-08 B-J B9.11 NRC-1/27 l PIPE TO ELBOW A-08 B-J 89.11 MRC-1/28 ELBOW TO PIPE A-08 B-J B9.11 MRC-1/29 PIPE TO SAFE END A-08 j B-J B9.11 MRC-2/02 SAFE END TO PIPE A-09 s B-J B9.11 MRC-2/03 PIPE TO PIPE A-09 i B-J B9.11 MRC-2/04 PIPE TO ELBOW A-09 B-J B9.11 MRC-2/05 ELBOW TO SAFE END A-09 B-J 99 B9.11 MRC-2/08 SAFE END TO ELBOW A-09 B-J B9.11 MRC-2/09 ELBOW TO PIPE A-09_ 1 B-J 89.11 MRC-2/10 PIPE TO ELBOW A-09 B-J B9.11 MRC-2/11 ELBOW TO PIPE A-09 B-J B9.11 MRC-2/12 PIPE TO ELBOW A-09 s B-J B9.11 MRC-2/13 ELBOW TO PUMP (RC3C) A-09 B-J B9.11 MRC-2/14 l PUMP (RC3C) TO PIPE A-09 B-J 89.11 MRC-2/15 PIPE TO ELBOW A-09 B-J 89.11 MRC-2/16 ELBOW TO PIPE A-09 B-J B9.11 MRC-2/17 PIPE TO SAFE END A-09 B-J 99 B9.11 MRC-2/20 SAFE END TO ELBOW A-09 B-J B9.11 MRC-2/21 ELBOW TO PIPE A-09 B-J B9.11 MRC-2/22 PIPE TO ELBOW A-09 B-J B9.11 MRC-2/23 ELBOW TO PIPE A-09 B-J B9.11 MRC-2/24 PIPE TO ELBOW A-09 B-J l B9.11 MRC-2/25 ELBOW TO PUMP (RC3D) A-09 R3 September 1. 1995 Page 64 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 i CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # 1 B-J 89.11 MRC-2/26 PUMP (RC3D) TO PIPE A-09 B-J B9.11 MRC-2/27 PIPE TO ELBOW A-09 B-J B9.11 MRC-2/28 ELBOW TO PIPE A-09 B-J B9.11 lMRC-2 / 2 9 PIPE TO SAFE END A-09 B-J B9.21 TERM ENDl2-LL-2/01 PIPE TO ELBOW (2 1/2") A-46 B-J B9.21 2-LL-2/02 ELBOW TO REDUCER (2 1/2") A-46 B-J 99 B9.21 2.5-PRL-2/01 REDUCER TO PIPE A-20 B-J B9.21 2.5-PRL-2/02 PIPE TO ELBOW A-20 B-J 89.21 2.5-PRL-2/03 ELBOW TO PIPE A-20 B-J B9.21 2.5-PRL-2/04 PIPE TO ELBOW A-20 B-J 99 B9.21 2.5-PRL-2/05 ELBOW TO PIPE A-20 B-J 99 B9.21 12.5-PRL-2/06 PIPE TO ELBOW A-20 B-J B9.21 ! I2.5-PRL-2/07 ELBOW TO PIPE A-20 B-J I B9.21 l l2.5-PRL-2/CB PIPE TO VALVE (HCV-150) A-20 B-J B9.21 !2.5-PRL-2/09 IVALVE (HCV-150) TO PIPE A-20 B-J 01 B9.21 l 2 . 5 - P RL- 2 /10 PIPE TO ELBOW A-20 B-J 01 B9.21 i2.5-PRL-2/11 ELBOW TO VALVE (PCV-102-2) A-20 B-J B9.21 l2.5-PRL-3/12 REDUCER TO PIPE A-20 B-J 89.21 12.5-PRL-3/13 PIPE TO ELBOW A-20 B-J 89.21 l2.5-PRL-3/14 ELBOW TO PIPE A-20 B-J B9.21 12.5-PRL-3/15 PIPE TO ELBOW A-20 B-J B9.21 l l2.5-PRL-3/16 ELBOW TO PIPE A-20 l2.5-PRL-3/17 PIPE TO ELBOW A-20 j B-J 99 B9.21 l B-J 99 B9.21 l2. 5- PRL- 3 /18 ELBOW TO PIPE A-20 B-J B9.21 l2 . 5- PRL- 3 /19 PIPE TO VALVE (HCV-151) A-20 B-J B9.21 2.5-PRL-3/20 VALVE (HCV-151) TO PIPE A-20 B-J 01 B9.21 2.5-PRL-3/21 PIPE TO ELBOW A-20 B-J 01 B9.21 2.5-PRL-3/22 ELBOW TO VALVE (PCV-102-1) A-20 B-J 01 B9.21 3-HPH-12/01 REDUCER TO TEE A-30 B-J B9.21 3-HPH-12/03 TEE TO PIPE A-30 B-J 96 B9.21 3-HPH-12/04 PIPE TO FLANGE (FE-316) A-30 B-J 96 B9.21 3-HPH-12/05 FLANGE TO PIPE (FE-316) A-30 B-J 89.21 3-HPH-12/06 PIPE TO ELBOW A-30 B-J B9.21 3-HPH-12/07 ELBOW TO PIPE A-30 B-J B9.21 3-HPH-12/08 PIPE TO ELBOW A-30 l B-J B9.21 3-HPH-12/09 ELBOW TO PIPE A-30 B-J B9.21 3-HPH-12/10 PIPE TO PIPE A-30 B-J 95 B9.21 TERM END 3-HPH-12/11 PIPE TO NOZZLE (12-SI-12) A-30 i B-J B9.21 3-HPH-14/01 REDUCER TO TEE A-31 B-J B9.21 I 3-HPH-14/02 REDUCER TO TEE A-31 B-J 95 B9.21 3-HPH-14/03 TEE TO PIPE A-31 i B-J B9.21 3-HPH-14/04 PIPE TO FLANGE A-31 l B-J B9.21 3-HPH-14/05 FLANGE TO PIPE A-31 B-J 01 B9.21 3-HPH-14/06 PIPE TO ELBOW A-31 I i B-J B9.21 3-HPH-14/07 ELBOW TO ELBOW A-31 B-J 01 B9.21 3-HPH-14/08 ELBOW TO PIPE A-31 B-J 01 B9.21 3-HPH-14/09 PIPE TO ELBOW A-31 B-J B9.21 3-HPH-14/10 ELBOW TO PIPE A-31 B-J 01 B9.21 3-HPH-14/11 PIPE TO ELBOW A-31 B-J 89.21 3-HPH-14/12 ELBOW TO PIPE A-31 R3 September 1, 1995 Page 65 of 280 1 I
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 l I CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J B9.21l 3-HPH-14/13 PIPE TO ELBOW A-31 B-J 89.21 l 3-HPH-14/14 ELBOW TO PIPE A-31
, B-J B9.21 3-HPH-14/15 PIPE TO ELBOW A-31 B-J 89.21 TERM END 3-HPH-14/16 ELBOW TO NOZZLE (12-SI-14) A-31 B-J B9.21 3-HPH-22/01 REDUCER TO TEE A-32 B-J B9.21 3-HPH-22/03 TEE TO PIPE A-32 B-J B9.21 3-HPH-22/04 PIPE TO FLANGE A-32 B-J 89.21 3-HPH-22/05 FLANGE TO PIPE A-32 < B-J B9.21 3-HPH-22/06 PIPE TO ELBOW A-32 B-J 89.21 3-HPH-22/07 ELBOW TO PIPE A-32 B-J 89.21 3-HPH-22/08 PIPE TO ELBOW A-32 B-J B9.21 3-HPH-22/09 ELBOW TO PIPE A-32 B-J B9.21 l TERM END 3-HPH-22/10 PIPE TO NOZZLE (12-SI-22) A-32 B-J 95 B9.21 l !3-HPH-24/01 REDUCER TO TEE A-33 B-J B9.21 l l3-HPH-24 /03 TEE TO PIPE A-33 B-J B9.21 l l3-HPH-24/04 PIPE TO FLANGE A-33 B-J B9.21 I i3-HPH-24/05 FLANGE TO PIPE A-33 l B-J 89.21 3-HPH-24/06 PIPE TO ELBOW A-33 B-J l 95 89.21 3-HPH-24/07 ELBOW TO PIPE A-33 B-J 95 B9.21 3-HPH-24/08 PIPE TO ELBOW A-33 B-J B9.21 3-HPH-24/09 ELBOW TO PIPE A-33 B-J 89.21 l 3-HPH-24/09A PIPE TO PIPE A-33 B-J 89.21 l TERM END 3-HPH-24/10 PIPE TO NOZZLE (12-SI-24) A-33 B-J 99 B9.21 l 13-PRL-1102 PIPE TO ELBOW A-19
- B-J 99 B9.21 l 3-PRL-1/02A SAFE END (316) TO PIPE A-19 B-J 99 B9.21 3-PRL-1/03 ELBOW TO PIPE A-19 1 B-J 89.21 3-PRL-1/04 PIPE TO ELBOW A-19 B-J B9.21 3-PRL-1/05 ELBOW TO PIPE A-19 B-J 99 89.21 3-PRL-1/06 PIPE TO ELBOW A-19 ;
B-J B9.21 3-PRL-1/07 ELBOW TO PIPE A-19 B-J B9.21 3-PRL-1/08 PIPE TO TEE A-19 B-J B9.21 3-PRL-1/09 TEE TO REDUCER A-19 i 1 . B-J B9.21 3-PRL-1/10 TEE TO REDUCER A-19 ' , B-J 99 B9.21 TERM END 3-PSL-1/01 FLANGE TO REDUCING ELBOW A-16 f B-J 99 B9.21 3-PSL-1/06 REDUCING ELBOW TO PIPE A-16 l B-J 99 B9.21 TERM END 3-PSL-1/07 REDUCING ELBOW TO VALVE RC-141 A-16 I D-J B9.21 TERM END 3-PSL-2/01 FLANGE TO REDUCING ELBOW A-16 B-J B9.21 3-PSL-ZiO6 REDUCING ELBOW TO PIPE A-16 B-J B9.21 TERM END 3-PSL-2/07 REDUCING ELBOW TO VALVE RC-142 A-16 B-J B9.21 TERM END 3-PSS-14/01 NOZZLE (24-RC-14) TO ELBOW A-17 B-J 96 B9.21 3-PSS-14/02 ELBOW TO PIPE A-17 B-J 96 B9.21 3-PSS-14/03 PIPE TO ELBOW A-17 B-J l B9.21 3-PSS-14/04 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/05 PIPE TO ELBOW A-17 B-J B9.21 3-PSS-14/06 ELBOW TO PIPE A-17 B-J 01 B9.21 3-PSS-14/07 PIPE TO ELBOW A-17 B-J 01 89.21 3-PSS-14/08 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/09 PIPE TO ELBOW A-17 B-J B9.21 3-PSS-14/10 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/11 PIPE TO ELBOW A-17 R3 September 1. 1995 Page 66 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #. COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J B9.21 3-PSS-14/12 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/13 PIPE TO ELBOW A-17 B-J $ 1 3-PSS-14/14 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/15 PIPE TO PIPE A-17 B-J B9.21 3-PSS-14/16 PIPE TO ELBOW A-17 B-J B9.21 3-PSS-14/17 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/18 PIPE TO ELBOW .-17 B-J B9.21 3-PSS-14/19 ELBOW TO PIPE A-17 B-J B9.21 3-PSS-14/20 PIPE TO TEE A-17 B-J B9.21 3-PSS-14/21 TEE TO PIPE A-17 B-J B9.21 3-PSS-14/21A PIPE TO PIPE A-17 B-J B9.21 3-PSS-14/21B PIPE TO ELBOW A-17 B-J B9.21 3-PSS-14/21C ELBOW TO PIPE A-17 B-J 01 89.21 3-PSS-14/22A PIPE TO VALVE (PCV-103-2) A-17 B-J B9.21 3-PSS-14/23A VALVE (PCV-103-2) TO PIPE A-17 B-J 01 89.21 3-PSS-14/24 PIPE TO ELBOW A-17 B-J 01 89.21 3-PSS-14/25 ELBOW TO PIPE A-17 B-J B9.21 1 3-PSS-14/26 PIPE TO ELBOW A-17 B-J B9.21 l 3-PSS-14/27 ELBOW TO REDUCER A-17 B-J B9.21 TERM END 3-PSS-22/01 NOZZLE (24-RC-22) TO ELBOW A-18 B-J B9.21 3-PSS-22/02 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/03 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/04 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/05 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/06 ELBOW TO ELBOW A-18 B-J B9.21 3-PSS-22/07 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/08 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/09 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/10 PIPE TO ELBOW A-18 B-J 89.21 3-PSS-22/11 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/12 PIPE TO ELBOW A-18 I B-J B9.21 3-PSS-22/12A PIPE TO PIPE A-18 B-J B9.21 3-PSS-22/13 PIPE TO ELBOW A-18 B-J 89.21 3-PSS-22/14 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/15 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/16 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/17 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/18 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/19 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/20 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/21 PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/22 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/23 PIPE TO TEE A-18 B-J B9.21 3-PSS-22/24 TEE TO PIPE A-18 B-J B9.71 3-PSS-22/24A PIPE TO PIPE A-18 B-J 89.21 3-PSS-22/24B PIPE TO ELBOW A-18 B-J B9.21 3-PSS-22/24C ELBOW TO PIPE A-18 B-J 01 B9.21 3-PSS-22/25A PIPE TO VALVE (PCV-103-1) A-18 B-J B9.21 3-PSS-22/26A VALVE (PCV-103-1) TO PIPE A-18 B-J B9.21 3-PSS-22/27 PIPE TO ELBOW A-18 R3 September 1. 1995 Page 67 of 280 i l
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J 01 B9.21 3-PSS-22/28 ELBOW TO PIPE A-18 B-J 01 B9.21 3-PSS-22/29 PIPE TO ELBOW A-18 B-J 01 89.21 3-PSS-22/30 ELBOW TO PIPE A-18 B-J B9.21 3-PSS-22/31 PIPE TO TEE A-18 B-J 96 B9.31 MRC-1/03B BRANCH CONNECTION (10-PSG-10) A-08 B-J 96 B9.31 MRC-1/14A BRANCH CONNECTION (12-SI-12) A-08 B-J B9.31 MRC-1/26B BRANCH CONNECTION (12-SI-14) A-08 B-J 89.31 MRC-2/03A BRANCH CONNECTION (12-SDC-20) A-09 B-J B9.31 MRC-2/14C BRANCH CONNECTION (12-SI-22) A-09 B-J B9.31 MRC-2/26A BRANCH CONNECTION (12-SI-24) A-09 B-J B9.32 12-SI-12/12-BC BRANCH CONNECTION (3-HPH-12) A-22 B-J 89.32 12-SI-14/17-BC BRANCH CONNECTION (3-HPH-14) A-23 B-J 99 B9.32 l 12-SI-22/15-BC BRANCH CONNECTION (3-HPH-22) A-24 B-J 01 89.32 I 12-SI-24/11-BC BRANCH CONNECTION (3-HPH-24) A-25 B-J B9.32l lMRC-1/03A _ BRANCH CCNNECTION (2-DL-10) l A-08 B-J '89.32 I IMRC-1/11A IBRANCH CONNECTION (2-DL-11) l A-08 B-J 96 BRANCH CONNECTION (2-CL-12) A-08 B9.32l fMRC-1/14B B-J B9.32 l lMRC- 1/ 2 3A BRANCH CONNECTION (2-DL-13) A-08 B-J 89.32 lMRC-1/26A BRANCH CONNECTION (3-PSS-14) A-08 B-J 89.32 BRANCH CONNECTION (2-LL-21) A-09 fMRC-2/11A B-J B9.32 lMRC-2/14A BRANCH CONNECTION (2-CL-22) A-09 B-J B9.32l lMRC-2/14B BRANCH CONNECTION (3-PSS-22) A-09 B-J B9.32l MRC-2/23A BRANCH CONNECTION (2-DL-23) A-09 B-J 01 B9.40 TERM END 2-AS-1/01 VALVE (HCV-240) TO PIPE A-21 B-J B9.40 TERM END 2-AS-1/01A VALVE (HCV-249) TO PIPE A-21 B-J 01 B9.40 2-AS-1/01B PIPE TO ELBOW A-21 B-J 01 B9.40 2-AS-1/0181 VALVE TO PIPE (CH-469) A-21 B-J 01 B9.40 2-AS-1/01B2 PIPE TO VALVE (CH-469) A-21 B-J B9.40 2-AS-1/01B3 TEE TO PIPE A-21 B-J B9.40 2-AS-1/01B4 TEE TO REDUCER A-21 B-J B9.40 2-AS-1/01B5 PIPE TO TEE A-21 B-J 01 B9.40 2-AS-1/01C ELBOW TO PIPE A-21 B-J 01 B9.40 2-AS-1/01D PIPE TO TEE A-21 B-J 01 B9.40 2-AS-1/01E PIPE TO TEE A-21 B-J 01 B9.40 2-AS-1/02 PIPE TO VALVE (CH-205) A-21 B-J 01 B9.40 2-AS-1/02A TEE TO PIPE A-21 B-J B9.40 2-AS-1/03 VALVE (CH-205) TO PIPE A-21 B-J B9.40 2-AS-1/04 PIPE TO ELBOW A-21 B-J B9.40 2-AS-1/05 ELBOW TO PIPE A-21 i B-J 99 B9.40 2-AS-1/06 PIPE TO ELBOW A-21 B-J 99 B9.40 2-AS-1/07 ELBOW TO PIPE A-21 B-J B9.40 2-AS-1/07A PIPE TO COUPLING A-21 B-J B9.40 2-AS-1/07B COUPLING TO PIPE A-21 B-J 99 B9.40 2-AS-1/08 PIPE TO ELBOW A-21 B-J 99 B9.40 2-AS-1/09 ELBOW TO PIPE A-21 B-J B9.40 2-AS-1/10A PIPE TO REDUCER A-21 B-J B9.40 2-AS-1/5A PIPE TO COUPLING A-21 B-J B9.40 2-AS-1/5B COUPLING TO PIPE A-21 B-J B9.40 2-CL-1/77 VALVE (CH-202) TC PIPE A-43 B-J B9.40 2-CL-1/78 PIPE TO ELBOW l A-43 R3 September 1. 1995 Page 68 of 280
( CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 I CATEGORY 3RD INT ITEM # ' TYPE COMPONENT DESCRIPTION ISO # B-J B9.40 2-CL-1/79 ELBOW TO PIPE A-43 , B-J 89.40 2-CL-1/80 PIPE TO VALVE CH-345) A-43 B-J B9.40 2-CL-12/01 VALVE (HCV-238) TO PIPE A-43 B-J B9.40 2-CL-12/02 PIPE TO TEE A-43 B-J B9.40 2-CL-12/02A PIPE TO TEE A-43 B9.40 2-CL-12/02B VALVE (CH-345) TO PIPE A-43
- - .B- J B-J B9.40 2-CL-12/03 TEE TO PIPE A-43 B-J B9.40 2-CL-12/04 PIPE TO VALVE (CH-203) A-43 B-J B9.40 2-CL-12/05 VALVE (CH-203) TO PIPE A-43 B-J B9.40 2-CL-12/06 PIPE TO ELBOW A-43 B-J 89.40 2-CL-12/07 ELBOW TO PIPE A-43 B-J B9.40 2-CL-12/08 PIPE TO ELBOW A-43 B-J B9.40 2-CL-12/09 ELBOW TO PIPE A-43 B-J B9.40 2-CL-12/10 PIPE TO ELDOW A-43 B-J 89.40 I 2-CL-12/11 ELBOW TO PIPE A-43 B-J B9.40 2-CL-12/12 l PIPE TO ELBOW A-43 B-J 89.40 2-CL-12/13 l ELBOW TO PIPE A-43 B-J 96 B9.40 2-CL-12/14 PIPE TO ELBOW A-43 B-J 96 B9.40 2-CL-12/15 ELBOW TO PIPE A-43 B-J 96 B9.40 2-CL-12/16 PIPE TO ELBOW A-43 B-J 96 B9.40 2-CL-12/17 ELBOW TO PIPE A-43 I
B-J 96 B9.40 TERM END 2-CL-12/18 PIPE TO NOZZLE (24-RC-12) A-43 B-J B9.40 2-CL-22/01 VALVE (HCV-239) TO PIPE A-44 B-J B9.40 2-CL-22/02 PIPE TO ELBOW A-44 B-J 89.40 2-CL-22/03 ELBOW TO PIPE A-44 B-J B9.40 2-CL-22/04 PIPE TO -VALVE (CH-204) A-44 B-J 99 B9.40 2-CL-22/05 VALVE (CH-204) TO PIPE A-d4 B-J 99 B9.40 2-CL-22/06 PIPE TO TEE A-44 B-J 99 B9.40 2-CL-22/06A TEE TO REDUCER A-44 B-J 99 B9.40 2-CL-22/07 TEE TO PIPE A-44 B-J B9.40 2-CL-22/08 PIPE TO ELBOW A-44 B-J 89.40 2-CL-22/09 ELBOW TO PIPE A-44 j B-J B9.40 2-CL-22/10 PIPE TO ELBOW A-44 B-J B9.40 2-CL-22/11 ELBOW TO PIPE A-44 B-J B9.40 TERM END 2-CL-22/12 PIPE TO NOZZLE (24-RC-22) A-44 B-J B9.40 TERM END 2-DL-10/01 NOZZLE TO PIPE (32-RC-10) A-10 B-J B9.40 2-DL-10/02 PIPE TO ELBOW A-10 B-J B9.40 2-DL-10/03 ELBOW TO PIPE A-10 B-J B9.40 2-DL-10/04 PIPE TO TEE A-10 B-J B9.40 2-DL-10/04A TEE TO REDUCER A-10 B-J 89.40 2-DL-10/05 TEE TO PIPE A-10 B-J B9.40 2-DL-10/06 PIPE TO VALVE (RC-128) A-10 B-J B9.40 2-DL-10/07 VALVE TO PIPE A-10 B-J B9.40 2-DL-10/08 PIPE TO TEE A-10 B-J B9.40 2-DL-10/09 TEE TO REDUCER A-10 B-J B9.40 2-DL-10/10 TEE TO PIPE A-10 B-J B9.40 2-DL-10/11 PIPE TO VALVE (RC-122) A-10 B-J B9.40 TERM END 2-DL-11/01 NOZZLE (32-RC-11) TO PIPE A-11 B-J B9.40 2-DL-11/02 PIPE TO ELBOW A-11 B-J B9.40 2-DL-11/03 ELBOW TO PIPE A-11 R3 September 1, 1995 Page 69 of 280
t CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #. COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J 89.40 2-DL-11/04 PIPE TO VALVE (RC-124) A-11 B-J 89.40 2-DL-11/05 VALVE (RC-124) TO PIPE A-11 B-J 89.40 2-DL-11/06 PIPE TO VALVE (RC-132) A-11 B-J B9.40 TERM END 2-DL-13/01 NOZZLE (24-RC-13) TO PIPE A-12 B-J B9.40 2-DL-13/02 PIPE TO ELBOW A-12 B-J B9.40 2-DL-13/03 ELBOW TO PIPE A-12 B-J B9.40 2-DL-13/04 PIPE TO VALVE (RC-123) A-12 B-J 89.40 2-DL-13/05 VALVE (RC-123) TO PIPE A-12 s B-J B9.40 2-DL-13/06 PIPE TO ELBOW A-12 B-J 89.40 2-DL-13/07 ELBOW TO PIPE A-12 B-J 89.40 2-DL-13/08 PIPE TO VALVE (RC-130) A-12 B-J B9.40 TERM END 2-DL-23/01 NOZZLE (24-RC-23) TO PIPE A-13 B-J B9.40 2-DL-23/02 PIPE TO ELBOW A-13 B-J 89.40 2-DL-23/03 ELBOW TO PIPE A-13 B-J B9.40 l2-DL-23/04 PIPE TO VALVE (RC-112) A-13 B-J 89.40 2-DL-23/05 VALVE (RC-112) TO PIPE A-13 B-J 89.40 2-DL-23/06 PIPE TO ELBOW A-13 B-J 89.40 2-DL-23/07 ELBOW TO PIPE A-13 B-J B9.40 2-DL-23/08 PIPE TO VALVE (RC-135) A-13 l B-J 01 B9.40 l 2-HPH-1.12/13 VALVE (SI-102) TO PIPE A-35 B-J 01 B9.40 2-HPH-1.12/14 PIPE TO ELBOW A-35 B-J 01 B9.40 2-HPH-1.12/15 ELBOW TO PIPE A-35 B-J 01 B9.40 2-HPH-1.12/16 PIPE TO ELBOW A-35 B-J 01 B9.40 2-HPH-1.12/17 ELBOW TO PIPE A-35
- B-J 01 B9.40 2-HPH-1.12/18 PIPE TO TEE A-35 B-J 95 B9.40 2-HPH-1.14/25 VALVE (SI-205) TO PIPE A-34 I B-J 95 B9.40 2-HPH-1.14/26 PIPE TO ELBOW A-34 )
B-J B9.40 2-HPH-1.14/27 ELBOW TO PIPE A-34 B-J 95 B9.40 2-HPH-1.14/28 PIPE TO ELBOW A-34 4 B-J 95 B9.40 2-HPH-1.14/29 ELBOW TO PIPE A-34 ) B-J B9.40 2-HPH-1.14/30 PIPE TO ELBOW A-34 i B-J B9.40 2-HPH-1.14/31 ELBOW TO PIPE A-34 B-J 01 B9.40 2-HPH-1.14/32 PIPE TO ELBOW A-34 B-J 01 B9.40 2-HPH-1.14/33 ELBOW TO PIPE A-34 B-J 01 B9.40 2-HPH-1.14/34 PIPE TO REDUCER A-34 B-J B9.40 2-HPH-1.22/12 VALVE (SI-196) TO PIPE A-36 B-J B9.40 2-HPH-1.22/13 PIPE TO ELBOW A-36 B-J B9.40 2-HPH-1.22/14 ELBOW TO PIPE A-36 B-J B9.40 2-HPH-1.22/15 PIPE TO ELBOW A-36 B-J B9.40 2-HPH-1.22/16 ELBOW TO PIPE A-36 B-J 95 89.40 2-HPH-1.22/17 PIPE TO ELBOW A-36 B-J 89.40 2-HPH-1.22/18 ELBOW TO PIPE A-36 B-J 95 B9.40 2-HPH-1.22/19 PIPE TO ELBOW A-36 B-J 95 89.40 2-HPH-1.22/20 ELBOW TO PIPE A-36 ! B-J B9.40 2-HPH-1.22/21 PIPE TO ELBOW A-36 B-J 89.40 2-HPH-1.22/22 ELBOW TO PIPE A-36 D-J B9.40 2-HPH-1.22/23 PIPE TO ELBOW A-36 B-J B9.40 2-HPH-1.22/24 ELBOW TO PIPE A-36 B-J B9.40 2-HPH-1.22/25 PIPE TO ELBOW A-36 - l B-J 89.40 2-HPH-1.22/26 ELBOW TO PIPE A-36 1 l R3 September 1. 1995 Page 70 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J 89.40 2-HPH-1.22/27 PIPE TO TEE A-36 j B-J B9.40 2-HPH-1.24/11 VALVE (SI-199) TO PIPE A-37 B-J 95 B9.40 2-HPH-1.24/12 PIPE TO ELBOW A-37 B-J 95 B9.40 2-HPH-1.24/13 ELBOW TO PIPE A-37 B-J 95 B9.40 2-HPH-1.24/14 PIPE TO ELBOW A-37 B-J 95 B9.40 2-HPH-1.24/15 ELBOW TO PIPE A-37 B-J 95 B9.40 2-HPH-1.24/16 PIPE TO TEE A-37 B-J B9.40 2-HPH-2.12/11 VALVE (SI-201) TO PIPE A-38 B-J B9.40 2-HPH-2.12/12 PIPE TO ELBOW A-38 B-J B9.40 2-HPH-2.12/13 ELBOW TO PIPE A-38 B-J B9.40 2-HPH-2.12/14 PIPE TO F1 BOW A-38 B-J 89.40 2-HPH-2.12/15 ELBOW TC :PE A-38 B-J 95 B9.40 PIPE TO ELBOW A-38 l2-HPH-2.12/16 B-J 95 89.40 l 2-HPH-2.12/17 ELBOW TO PIPE A-38 B-J 99 89.40 l 2-HPH-2.12/18 PIPE TO ELBOW A-38 B-J 99 B9.40l 2-HPH-2.12/19 ELBOW TO PIPE A-38 B-J 2-HPH-2.12/20 PIPE TO COUPLING A-38 B9.40l B-J B9.40l 2-HPH-2.12/21 COUPLING TO PIPE BEND RADIUS A-38 B-J 99 B9.40 1 2-HPH-2,12/22 PIPE BEND RADIUS TO ELBOW A-38 B-J 99 B9.40 2-HPH-2.12/23 ELBOW TO P.PE A-38 L-J 89.40 2-HPH-2.12/24 PIPE TO ELBOW A-38 B-J 95 89.40 2-HPH-2.12/25 ELBOW TO PIPE A-38 B-J B9.40 2-HPH-2.12/26 PIPE TO REDUCER A-38 B-J 99 89.40 2-HPH-2.14/23 VALVE (SI-204) TO PIPE A-39 B-J 99 B9.40 2-HPH-2.14/24 PIPE TO ELBOW A-39 B-J 99 B9.40 2-HPH-2.14/25 ELBOW TO PIPE A-39 B-J B9.40 2-HPH-2.14/26 PIPE TO ELBOW A-39 B-J 89.40 2-HPH-2.14/27 ELBOW TO PIPE A-39 B-J 99 89.40 2-HPH-2.14/28 PIPE TO ELBOW A-39 B-J 99 89.40 2-HPH-2.14/29 ELBOW TO PIPE A-39 B-J B9.40 2-HPH-2.14/30 PIPE TO REDUCER A-39 B-J B9.40 2-MPH-2.14/31 PIPE TO COUPLING A-39 B-J B9.40 2-HPH-2.14/32 COUPLING TO PIPE A-39 B-J B9.40 2-HPH-2.22/18 VALVES (SI-195) TO PIPE A-40 B-J B9.40 2-HPH-2.22/19 PIPE TO ELBOW A-40 B-J 95 B9.40 2-HPH-2.22/20 ELBOW TO PIPE A-40 B-J B9.40 2-HPH-2.22/21 PIPE TO ELBOW A-40 B-J B9.40 2-HPH-2.22/22 ELBOW TO PIPE A-40 B-J B9.40 2-HPH-2.22/23 PIPE TO ELBOW A-40 B-J B9.40 2-HPH-2.22/24 ELBOW TO PIPE A-40 B-J B9.40 2-HPH-2.22/25 PIPE TO ELBOW A-40 B-J B9.40 2-HPH-2.22/26 ELBOW TO PIPE A-40 B-J 95 89.40 2-HPH-2.22/27 PIPE TO ELBOW A-40 B-J 95 B9.40 2-HPH-2.22/28 ELBOW TO PIPE A-40 B-J B9.40 2-HPH-2.22/29 PIPE TO REDUCER A-40 B-J B9.40 2-HPH-2.24/11 VALVE (SI-1981 TO PIPE A-41 B-J B9.40 2-HPH-2.24/12 PIPE TO ELBOW A-41 B-J 95 B9.40 2-HPH-2.24/13 ELBOW TO PIPE A-41 B-J B9.40 2-HPH-2.24/14 PIPE TO ELBOW A-41 B-J B9.40 2-HPH-2.24/15 ELBOW TO PIPE A-41 R3 September 1. 1995 Page 71 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, lTEM#, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J B9.40 2-HPH-2.24/16 PIPE TO ELBOW A-41 B-J B9.40 2-HPH-2.24/17 ELBOW TO PIPE A-41 B-J B9.40 2-HPH-2.24/18 PIPE TO ELBOW A-41 B-J 95 89.40 2-HPH-2.24/19 ELBOW TO PIPE A-41 B-J B9.40 2-HPH-2.24/20 PIPE TO COUPLING A-41 B-J B9.40 2-HPH-2.24/21 COUPLING TO PIPE A-41 . B-J 95 B9.40 2-HPH-2.24/22 PIPE TO REDUCER A-41 B-J B9.40 TERM END 2-LL-1/01 VALVE (TCV-202) TO PIPE A-45 l B-J 89.40 2-LL-1/02 PIPE TO ELBOW A-45 B-J B9.40 2-LL-1/03 ELBOW TO PIPE A-45 B-J B9.40 2-LL-1/04 PIPE TO ELBOW A-45 B-J 89.40 2-LL-1/05 ELBOW TO PIPE A-45 B-J 89.40 2-LL-1/06 PIPE TO COUPLING A-45 , B-J l B9.40 l 2-LL-1/07 COUPLING TO PIPE A-45 B-J I B9.40l 2-LL-1/08 l PIPE TO ELBOW A-45 B-J ! B9.40 l 2-LL-1/09 ELBOW TO PIPE A-45 B-J ! B9.40 l 2-LL-1/10 PIPE TO ELBOW A-45 B-J I B9.40 l 2-LL-1/11 ELBOW TO PIPE A-45 B-J 89.40 l 2-LL-1/12 PIPE TO ELBOW A-45 B-J B9.40 2-LL-1/13 ELBOW TO PIPE A-45 B-J 89.40 2-LL-1/14 PIPE TO ELBOW A-45 B-J 89.40 2-LL-1/15 ELBOW TO PIPE A-45 4 B-J B9.40 2-LL-1/16 PIPE TO ELBOW A-45 B-J 99 B9.40 2-LL-1/17 ELBOW TO PIPE A-45 l ll B-J 99 89.40 2-LL-1/18 PIPE TO ELBOW A-45 B-J B9.40 2-LL-1/19 ELBOW TO PIPE A-45 B-J B9.40 2-LL-1/20 PIPE TO COUPLING A-45 B-J B9.40 2-LL-1/21 COUPLING TO PIPE A-45 B-J B9.40 2-LL-1/22 PIPE TO ELBOW A-45 B-J B9.40 2-LL-1/23 ELBOW TO PIPE A-45 B-J B9.40 2-LL-1/24 PIPE TO ELBOW A-45 B-J B9.40 2-LL-1/25 ELBOW TO PIPE A-45 B-J B9.40 2-LL-1/26 PIPE TO COUPLING A-45 B-J B9.40 2-LL-1/27 COUPLING TO PIPE A-45 B-J B9.40 2-LL-1/2B PIPE TO TEE A-45 B-J 89.40 2-LL-1/29 TEE TO PIPE A-45 B-J B9.40 2-LL-1/29A PIPE TO ELBOW A-45 l B-J B9.40 2-LL-1/31 TEE TO REDUCER A-45 l B-J B9.40 2-LL-1/39 ELBOW TO PIPE A-45 B-J 89.40 2-LL-1/40 PIPE TO ELBOW A-45 B-J B9.40 2-LL-1/41 ELBOW TO PIPE A-45 B-J 89.40 2-LL-1/42 PIPE TO COUPLING A-45 B-J B9.40 TERM END 2-LL-1/43 COUPLING TO PIPE A-45 B-J B9.40 2-LL-2/03 REDUCER TO PIPE (2") A-46 B-J 89.40 2-LL-2/04 PIPE TO TEE A-46 B-J B9.40 2-LL-2/04A TEE TO REDUCER A-46 B-J B9.40 2-LL-2/05 TEE TO PIPE A-46 B-J B9.40 2-LL-2/06 PIPE TO ELBOW A-46 B-J B9.40 2-LL-2/07 ELBOW TO PIPE A-46 B-J B9.40 2-LL-2/08 PIPE TO TEE A-46 R3 September 1, 1995 Page 72 of 280
d CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 l l CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-J B9.40 2-LL-2/09 TEE TO REDUCER A-46 B-J B9.40 2-LL-2/10 TEE TO PIPE A-46 B-J B9.40 2-LL-2/11 PIPE TO ELBOW A-46 B-J B9.40 2-LL-2/12 ELBOW TO PIPE A-46 B-J B9.40 2-LL-2/13 PIPE TO ELBOW (45 DEGREE) A-46 B-J B9.40 2-LL-2/14 l ELBOW TO PIPE (45 DEGREE) A-46 I B-J 89.40 2-LL-2/15 PIPE TO ELBOW (45 DEGREE) A-46 B-J B9.40 2-LL-2/16 ELBOW TO PIPE (45 DEGREE) A-46 B-J 89.40 2-LL-2/17 PIPE TO ELBOW A-46 j B-J B9.40 2-LL-2/18 ELBOW TO PIPE A-46 j D-J B9.40 2-LL-2/19 l PIPE TO TEE A-46 B-J B9.40l 2-LL-2/20 l TEE TO PIPE A-46 B-J l B9.40l 7-LL-2/21 l PIPE TO VALVE (CH-260) A-46 B-J ! B9.40 l 2-LL-2/22 ! VALVE (CH-260) TO PIPE A-46 , B-J l 89.40 i 2-LL-2/23 ! PIPE TO ELBOW A-46 B-J l 89.40 i 2-LL-2/24 l ELBOW TO PIPE A-46 B-J I B9.40l 2-LL-2/25 lPIPETOVALVE (LCV-101-1) A-46 I B-J B9.40 I l2-LL-2/26 TEE TO PIPE A-46 B-J B9.40 !2-LL-2/27 PIPL TO 'LPOW A-46 B-J 89.40 2-LL-2/28 ELBOW TO PIPE A-46 B-J 89.40 l 2-LL-2/29 l PIPE TO VALVE (CH-340) A-46 B-J B9.40 l 2-LL-2/30 IVALVE (CH-340) TO PIPE A-46 B-J B9.40 2-LL-2/31 IPIPE TO ELBOW A-46 B-J B9.40 2-LL-2/32 IELBOW TO PIPE A-46 4 B-J B9.40 2-LL-2/33 PIPE TO VALVE (LCV-101-2) A-46 B-J 89.40 TERM END 2-LL-21/01 NOZZLE (24-RC-21) TO ELBOW A-47 B-J B9.40 2-LL-21/02 ELBOW TO PIPE A-47 B-J 89.40 2-LL-21/03 PIPE TO TEE A-47 B-J 99 B9.40 2-LL-21/04 TEE TO PIPE A-47 B-J 99 B9.40 2-LL-21/04A TEE TO PIPE A-47 B-J B9.40 2-LL-21/05 PIPE TO VALVE (RC-113) A-47 B-J 99 B9.40 2-LL-21/06 VALVE tRC-113) TO PIPE A-47 B-J 99 B9.40 2-LL-21/07 PIPE TO VALVE (RC-134) A-47 B-J B9.40 2-LL-21/08 PIPE TO ELBOW A-47 ' A-47 B-J B9.40 2-LL-21/09 ELBOW TO PIPE B-J B9.40 2-LL-21/10 PIPE TO ELBOW A-47 B-J B9.40 2-LL-21/11 ELBOW TO PIPE A-47
. B-J B9.40 2-LL-21/12 l PIPE TO ELBOW A-47 B-J B9.40 2-LL-21/13 ! ELBOW TO PIPE A-47 . B-J B9.40 2-LL-21/13A IPIPE TO VALVE (RC-375) A-47 B-J 99 B9.40 l 2-LL-21/13B IVALVE TO PIPE A-47 B-J 99 B9.40 l TERM END l2-LL-21/14 l PIPE TO VALVE (TCV-202) A-47 B-J B9.40 I 2-PSS-15/51 ITEE TO PIPE A-17 B-J B9.40 2-PSS-15/52 PIPE TO ELBOW A-17 B-J B9.40 2-PSS-15/53 8._ GW TO REDUCER A-17 B-J B9.40 2-PSS-23/51 iTEc IO PIPE A-18 B-J 89.40 2,-PSS-23/52 l PIPE TO ELBOW A-18 d
B-J B9.40 2-Ps9-23/53 l ELBOW TO REDUCER A-18 B-K-1 99 B10.10 12-SDC 20/13-PL-1 l INTEGRAL ATTACHMENT A-42 i B-K-1 99 B10.10 12-SDC-20/13-PL-2 lINTECRAL ATTACHMENT A-42 1 R3 September 1, 1995 Page 73 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-K-1 01 810.10 12-SDC-20/13-PL-3 INTEGRAL ATTACHMENT A-42 B-K-1 96 B10.10 12-SDC-20/13-PL-4 INTEGRAL ATTACHMENT A-42 l B-K-1 B10.20 RCP-RC3A-SL-1 PUMP INTEGRAL ATTACHMENT A-09A I B-K-1 B10.20 RCP-RC3A-SL-2 PUMP INTEGRAL ATTACHMENT A-09A j B-K-1 B10.20 RCP-RC3A-SL-3 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 B10.20 RCP-RC38-SL-1 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 B10.20 RCP-RC38-SL-2 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 B10.20 RCP-RC3B-SL-3 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 01 B10.20 RCP-RC3C-SL-1 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 01 B10.20 RCP-RC3C-SL-2 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 95 B10.20 RCP-RC3C-SL-3 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 B10.20 RCP-RCJD-SL-1 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 810.20 RCP-RC3D-SL-2 PUMP INTEGRAL ATTACHMENT A-09A B-K-1 B10.20 RCP-PC3D-SL-3 PUMP INTEGRAL ATTACHMENT A-09A B-L-1 B12.10l RCP-PC-RC3A-1 PRESSURE RETAINING WELD A-09A B-L-1 B12.10l RCP-PC-RC3B-1 PRESSURE RETAINING WELD A-09A B-L-1 95 B12.10l RCP-PC-RC3C-1 PRESSURE RETAINING WELD A-09A 4 B-L-1 B12.10i RCP-PC-RC3D-1 PRESSURE RETAINING WELD A-09A B-L-2 B12.201 RCP-PC-RC3A-2 INTERNAL SURFACES A-09A B-L-2 B12.20l RCP-PC-RC3B-2 INTERNAL SURFACES A-09A B-L-2 B12.201 RCP-PC-RC3C-2 INTERNAL SURFACES A-09A B-L-2 B12.20 RCP-PC-RC3D-2 INTERNAL SURFACES A-09A B M-1 B12.30 2-AS-1/CH-205 VALVE BODY WELD, DRESSER 2.0C A-21 5-M-1 01 B12.30 2-CL-1/CH-202 VALVE BODY WELD, VELAN 2.0C A-43 B-M-1 s6 B12.30 2-CL-1/CH-345 VALVE BODY WELD, DRESSER 2.0G A-43 B-M-1 B12.30 2-CL-12/CH-203 VALVE BODY WELD, DRESSER 2.0C A-43 B-M-1 99 B12.30 2-CL-22/CH-204 VALVE BODY WELD, DRESLER 2.0C A-44 B-H-1 01 B12.30 2-DL-10/RC-122 VALVE BODY WELD, DRESSER 2.0T A-10 B-M-1 B12.30 2-DL-10/RC-128 VALVE BODY WELD, DRESSER 2.0T A-10 B-M-1 B12.30 2-DL-11/RC-124 VALVE BODY WELD, DRESSER 2.0T A-11 B-M-1 B12.30 2-DL-13/RC-123 VALVE BODY WELD, DRESSER 2.0T A-12 B-M-1 B12.30 2-DL-13/RC-130 VALVE BODY WELD, DRESSER 2.0T A-12 B-M-1 B12.30 2-DL-23/RC-112 VALVE BODY WELD, DRESSER 2.0T A-13 B-M-1 812.30 2-HPH-1.12/SI-202 VALVE BODY WELD, DRESSER 2.0C A-35 B-M-1 B12.30 2-HPH-1.14/SI-205 VALVE BODY WELD, DRESSER 2.0C A-34 B-M-1 B12.30 2-HPH-1.22/SI-196 VALVE BODY WELD, DRESSER 2.0C A-36 B-M-1 B12.30 2-HPH-1.24/SI-199 VALVE BODY WELD, DRESSER 2.0C A-37 B-M-1 B12.30 2-HPH-2.12/SI-201 VALVE BODY WELD, DRESSER 2.0C A-38 B-M-1 B12.30 2-HPH-2.14/SI-204 VALVE BODY WELD, DRESSER 2.0C A-39 B-M-1 B12.30 2-HPH-2.22/SI-195 VALVE BODY WELD, DRESSER 2.0C A-40 B-M-1 95 B12.30 2-HPH-2.24/SI-198 VALVE BODY WELD, DRESSER 2.0C A-41 B-M-1 B12.30 2-LL-2/CH-260 VALVE BODY WELD, DRESSER 2.0G A-46 B-M-1 99 B12.30 2-LL-2/CH-340 VALVE BODY WELD, DRESSER 2.0G A-46 B-M-1 99 B12.30 2-LL-21/RC-134 VALVE BODY WELD, DRESSER 2.0T A-47 B-M-1 B12.30 2.5-PRL-2/PCV-102-1-M1 VALVE BCDY WELD, DRESSER 2.5S A-20 B-M-1 B12.30 2.5-PRL-2/PCV-102-2-M1 VALVE BODY WELD, DRESSER 2.5S A-20 B-M-1 01 B12.40 12-SDC-20/HCV-347-M1 VALVE BODY WELD (INLET SIDE) A-42 B-M-2
- B12.50 12-SDC-20/HCV-347-d2 VALVE INTERNALS, VELAN 10.0G A-42 B-M-2
- B12.50 12-SDC-20/HCV-348-M2 VALVE INTERNALS, VELAN 12.0G A-42 B-M-2
- B12.50 12-SI-12/SI-215-M2 VALVE INTERNALS. MISSION 12.0C A-22 R3 September 1, 1995 Page 74 of 280
l CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEMS, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-M-2
- B12.50 12-SI-12/SI-216-M2 VALVE INTERNALS, MISSION 12.0C A-22 B-M-2
- B12.50 12-SI-14/SI-219-M2 VALVE INTERNALS, MISSION 12.0C A-23 B-M-2
- B12.50 12-SI-14/SI-220-M2 VALVE INTERNALS, MISSION 12.0C A-23 B-M-2
- B12.50 12-SI-22/SI-207-M2 VALVE INTERNALS, MISSION 12.0C A-24 B-M-2
- B12.50 12-SI-22/SI-208-M2 VALVE INTERNALS, MISSION 12.0C A-24 B-M-2
- B12.50 12-SI-24/SI-211-M2 VALVE INTERNALS, MISSION 12.0C A-25 B-M-2
- B12.50 12-SI-24/SI-212-M2 VALVE INTERNALS, MISSION 12.0C A-25 B-M-2
- B12.50 6-SI-12/SI-200-M2 VALVE INTERVALS, MISSION 6.0C A-26 B-M-2
- B12.50 6-SI-14/S-203-M2 VALVE INTERVALS, MISSION 6.0C A-27 B-M-2
- P12.50 6-SI-22/SI-194-M2 VALVE INTERVALS, MISSION 6.0C A-28 B-M-2
- B12.50 6-SI-24/SI-197-M2 VALVE INTERVALS, MISSION 6.0C A-29 B-N-1 96/99/02 B13.10 RPV-N1-1 VESSEL INTERIOR A-01 B-N-2 02 B13.50l R PV- SC- A SURVEILLANCE CAPSULE A-01B B+N-2 02 B13.50i RPV-SC-B SURVEILLANCE CAPSULE A-01B B-N-2 1 02 B13.50l RPV-SC-C SURVEILLANCE CAPSULE A-01B B-N-2 02 B13.50l lRPV-SC-D SURVEILLANCE CAPSULE A-01B B-N-2 02 B13.50l lRPV-SC-E SURVEILLANCE CAPSULE A-O1B B-N-2 02 B13.50I RPV-SC-F SURVEILLANCE CAPSULE A-01B B-N-2 02 B13.601 RPV-CS-A CORE SUPPORT LUGS A-01B B-N-2 02 B13.60l RPV-CS-B CORE SUPPORT LUGS A-01B B-N-2 02 B13.60 RPV-CS-C CORE SUPPORT LUGS A-01B B-N-2 02 B13.60 RPV-CS-D CORE SUPPORT LUGS A-01B B-N-2 02 B13.60 -
RPV-CS-E CORE SUPPORT LUGS A-Og B-N-2 02 B13.60 RPV-CS-F CORE SUPPORT LUGS A-018
)
B-N-2 02 B13.60 RPV-SL-A CORE STOP LUG A-01B ' B-N-2 02 B13.60 RPV-SL-B CORE STOP LUG A-01B B-N-2 02 B13.60 RPV-SL-C CORE STOP LUG A-018 B-N-2 02 B13.60 RPV-SL-D CORE STOP LUG A-O1B l 02 B13.60 RPV-SL-E CORE STOP LUG A-018 )
~
B-N-2 B-N-2 02 B13.60 RPV-SL-F CORE STOP LUG A-01B l B-N-2 02 B13.60 RPV-SL-C CORE STOP LUG A-01B B-N-2 02 B13.60 RPV-SL-H CORE STOP LUG A-01B B-N-2 02 B13.60 RPV-SL-J CORE STOP LUG A-01B B-N-3 02 B13.70 RPV-N3-CSS-1 CORE SUPPORT STRUCTURE A-01 B-O B14.10 RPVCH-CRD-BO-01 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-01-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-01-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-01-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-02 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-02-1 CEDM HOUSING WELD A-02A B-O B14.10 R PVCH- ;RD-BO-02-2 CEDM HOUSING WELD A-02A B-O B14.10 , RPVCH-CRD-BO-02-3 CEDM HOUSING WELD A-02A _ B-O B14.10 RPVCH-CRD-BO-03 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-03-1 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-03-2 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-03-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-04 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-04-1 CEDM HOUSING WELD A-02A I B-O B14.10 RPVCH-CRD-BO-04-2 CECi HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-04-3 ICEDM HOUSING WELD A-02A R3 September 1, 1995 Page 75 of 280 1 l
CLASS 1 4 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) IREV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-O B14.10 RPVCH-CRD-BO-05 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-05-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-05-2 CEDM HOUSING WELD A-02A B-O B14.10! RPVCH-CRD-BO-05-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-06 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-06-1 CEDM HOUSING WELD A-02A i B-O B14.10 RPVCH-CRD-BO-06-2 CEDM HOUSING WELD A-02A B-O B14.10 lRPVCH-CRD-BO-06-3 CEDM HOUSING WELD A-02A B-O B14.10 IRPVCH-CRD-BO-07 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-07-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-07-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-07-3 CEDM HOUSING WELD A-02A B-O ! B14.10 RPVCH-CRD-BO-08 CEDM HOUSING WELD A-02A B-O ! B14.101 RPVCH-CRD-BO-08-1 CEDM HOUSING WELD A-02A B-O i B14.10l RPVCH-CRD-BO-08-2 CEDM HOUSING WELD A-02A B-O B14.10! RPVCH-CRD-BO-08-3 CEDM HOUSING WELD A-02A j B-O B14.10 'RPVCH-CRD-BO-09 lCEDMHOUSINGWELD _ A-02A B-O B14.10 RPVCH-CRD-BO-09-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-09-2 CEDM HOUSING WELD A-02A B-O l B14.10 RPVCH-CRD-BO-09-3 CEDM HOUSING WELD A-02A
- B-O B14.10 RPVCH-CRD-BO-10 CEDM HOUSING WELD A-02A 1 B-O B14.10 RPVCH-CRD-BO-10-1 CEDM HOUSING WELD A-02A i B-O I B14.101 RPVCH-CRD-BO-10-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-10-3 CEDM HOUSING WELD A-02A i B-O B14.10 RPVCH-CRD-BO-11 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-11-1 CEDM HCUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-11-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-11-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-12 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CPD-BO-12-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-12-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-12-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-13 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-13-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-13-2 CEDM HOUSING. WELD A-02A B-O B14.10 RPVCH-CRD-BO-13-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CBD-BO-14 CEDM HOUSING WELD A-02A
- B-O B14.10 RPVCH-CRD-BO-14-1 CEDM HOUSING WELD A-02A _
B-O B14.10 RPVCH-CRD-BO-14-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-14-3 CEDM HOUSING WELD A-02A B-O B14.10l RPVCH-CRD-BO-15 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-15-1 CEDM HOUSING WELD A-02A B-O B14.10 HPVCH-CRD-BO-15-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-15-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-16 CEDM HOUSING WELD A-02A B-O IB14.10 RPVCH-CRD-BO-16-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-16-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-16-3 CEDM HOUSING WELD A-02A D-O B14.10 RPVCH-CRD-BO-17 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-17-1 CEDM HOUSING WELD A-02A R3 September 1, 1995 Page 76 of 280
_ __ _~ __ l l CLASS 1 I CLASS 1 COMPONENTS & SUPPORTS (SORTED BY C AT#, ITEM #. COMPONENT) lREV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-O B14.10 RPVCH-CBD-BO-17-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-17-3 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-18 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-18-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-18-2 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-18-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-19 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-19-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-19-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-19-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-20 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-20-1 CEDM HOUSIGG WELD A-02A B-O B14.10 RPVCH-CRD-BO-20-2 CEDM !!OUSING WELD A-02A B-O B14.10 l R PVCH-C R D-BO- 2 0 - 3 CECM HOUSING WELD A-02A B-O B14.10! lRPVCH-CRD-BO-21 CEDM HOUSING WELD A-02A B-O B14.10 lPPVCH-CRD-BU-21-1 CEDM HOUSING WELD A-02A B-O B14.10 lpFVCH-CRD-BO-21-2 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-21-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-22 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-22-1 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-22-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-22-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-23 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-23-1 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-23-2 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-23-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-24 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-24-1 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-24-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-24-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-25 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-25-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-25-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-25-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-26 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-26-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-26-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-26-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-27 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-27-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-27-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-27-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-28 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-28-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-28-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-28-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-29 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-29-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-29-2 CECM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-29-3 CEDM HOUSI!!G WELD A-02A R3 September 1. 1995 Page 77 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # B-O B14.10 RPVCH-CRD-BO-30 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-30-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-30-2 CEDM HDUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-30-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-31 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-31-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-31-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-31-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-32 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-32-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-32-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-32-3 CEDM HOUSING WELD A-02A B-O B14.10 PPVCH-CRD-BO-33 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-33-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-33-2 CEDM HOUSING WELD A-02A B-O B14.10 PPVCH-CRD-BO-33-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-34 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-34-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-34-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-34-3 CEDM HOUSING WELD A-02A B-O B14.10 R PVCH -CRD- BO- 3 5 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-35-1 CEDM HDUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-35-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-35-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-36 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-36-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-36-2 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-36-3 CEDM HOUSING WELD A-02A B-O 01 B14.10 RPVCH-CRD-BO-37 CEDM HOUSING WELD A-02A B-O 01 B14.10 RPVCH-CRD-BO-37-1 CEDM HOUSING WELD A-02A B-O 01 B14.10 RPVCH-CRD-BO-37-2 CEDM HOUSING WELD A-02A B-O 99 B14.10 RPVCH-CRD-BO-37-3 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-38 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-38-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-DO-38-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-38-3 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-39 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-39-1 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-39-2 CEDM HOUSING WELD A-02A B-O B14.10 RPVCH-CRD-BO-39-3 CEDM HOUSING WELD A-02A ) B-O B14.10 RPVCH-CRD-BO-40 CEDM HOUSING WELD A-02A I B-O B14.10 RPVCH-CRD-BO-40-1 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-40-2 CEDM HOUSING WELD A-02A l B-O B14.10 RPVCH-CRD-BO-40-3 CEDM HOUSING WELD A-02A B-O 95 B14.10 RPVCH-CRD-BO-41 CEDM HOUSING WELD A-02A B-O 95 B14.10 RPVCH-CRD-BO-41-1 CEDM HCUSING WELD A-02A B-O 99 B14.10 RPVCH-CRD-BO-41-2 CEDM HOUSING WELD A-02A B-O 99 B14.10 RPVCH-CRD-BO-41-3 CEDM HOUSING WELD A-02A F-A 01 F1.10 A 10-PSG-10/07-PR-1 STRUT, U-BOLT A-14 l F-A F1.10 A 10-PSG-10/09-PR-1 STRUT, 3-BOLT A-14 l 1 i R3 September 1. 1995 Page 78 of 280 l 1
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) lREV.1 CATEGORY 3RDINT ITEM # TYPE COMPONENT DESCRIPTI'ON ISO # F-A Pl.10 A 10-PSG-10/09-PR-2 STRUT, 3-BOLT A-14 F-A 95 F1.10 A 12-SDC-20/08-PR-3 STRUT, 3-BOLT A-42 F-A 01 F1.10 A 12-SI-12/14-PR TRAPEZE, SADDLE, U-BOLT A-22 F-A F1.10 A 12-SI-12/14-PS WHIP RESTRAINT A-22 F-A F1.10 A 12-SI-14/15-PR ROD, 3-BOLT A-23 F-A F1.10 A 12-SI-22/13-PR ROD, 3-BOLT A-24 F-A F1.10 A 12-SI-24/14-PS-1 WHIP RESTRAINT A-25 F-A F1.10 A 12-SI-24/15-PR-1 TRAPEZE, SADDLE, U-BOLT A-25 F-A F1.10 A 2-HPH-1.22/18-PR-1 ROD AND CLEVIS A-36 F-A 01 F1.10 A 2-HPH-2.12/19-PR-1 ROD AND CLEVIS A-38 F-A F1.10 A 2-HPH-2.12/19-PR-2 ROD AND CLEVIS A-38 F-A F1.10 A 2-HPH-2.12/21-PR ROD AND CLEVIS A-38 F-A F1.10 A 2-HPH-2.14/29-PR PIPE RESTRAINT A-39 F-A F1.10 A 2.5-PRL-2/159-DR PED, 1-BEAM A-20 F-A F1.10 A 2.5-PRL-3/18-PR STPUT, 3-BOLT ! A-20 F-A F1.10 A 3-HPH-12/03-PR-2 ROD, 3-BOLT, TURNBUCKLE A-30 F-A F1,10 A 3_- H_P H - 14 / 0 3- PR- 1 ROD, 3-BOLT A-31 F-A 01 F1.10 A 3-HPH-14/10-PR-1 STRUT, 3-BOLT A-31 F-A F1.10 A 3-HPH-22/07-PR STRUT, 3-BOLT A-32 F-A F1.10 A 3-HPH-24/03-PR-1 ROD, 3-BOLT, TURNBUCKLE A-33 P-A F1.10 A 3-HPH-24/09-PR ANGLE, 3-BOLT A-33_ F-A 96 F1.10 A 3-PSS-14/02-PR-2 STRUT, 3-BOLT A-17 F-A F1.10 A 3-PSS-22/02-PR-2 PLATE, 3-BOLT A-18 F-A F1.10 A 3-PSS-22/02-PR-4 ROD, 3-BOLT A-18 F-A F1.10 A 3-PSS-22/14-PR-1 PLATE, 3-BOLT A-18 F-A F1.10 A 3-PSS-22/16-PR-2 STRUT, 3-BOLT, T/B A-18 F-A F1.10 A 6-SI-14/11-PR-1 STRUT, 3-BOLT A-27 F-A 95 F1.10 A 6-SI-24/07-PR-2 ROD, 3-BOLT, TURNBUCKLE A-29 F-A 99 F1.10 B 12-SDC-20/04-PR-3 PEDESTAL, U-BOLT A-42 F-A F1.10 B 12-SDC-20/08-PR-1 PEDESTAL, U-BOLT A-42 F-A 99 F1.10 B 12-SI-22/17-PR PED, U-BOLT A-24 F-A F1.10 B 2-AS-1/240-PR-2 PED, DUAL U-BOLT A-21 F-A F1.10 B 2-AS-1/249-PR-2 PED, SADDLE, DUAL U-BOLT A-21 P-A F1.10 B 2-CL-12/07-PR ANGLE A-43 F-A F1.10 B 2-CL-12/11-PR ANGLE, U-BOLT A-43 F-A F1.10 B 2-CL-12/238-PR-2 DUAL PED, U-BOLTS A-43 F-A F1.10 8 2-CL-22/01-PR DUAL PED, U-BOLTS A-44 F-A 99 F1.10 B 2-CL-22/07-PR PIPE RESTRAINT A-44 F-A F1.10 B 2-DL-10/07-PR PED. SUPPORT, DUAL U-BOLT A-10 F-A F1.10 B 2-HPH-1.14/25-PR PEDESTAL, U-BOLT A-34 F-A F1.10 B 2-HPH-1.22/12-PR PEDESTAL, U-BOLT A-36 F-A F1.10 B 2-HPH-1.22/18-PR-2 ANGLE, U-BOLT A-36 F-A F1.10 B 2-HPH-1.22/22-PR-1 ANGLE, U-BOLT A-36 F-A F1.10 B 2-HPH-1.22/22-PR-2 ANGLE, U-BOLT , A-36 F-A 95 F1.10 B 2-HPH-1.24/11-PR PEDESTAL, U-BOLT A-37 F-A 95 F1.10 B 2-HPH-2.12/11-PR PEDESTAL, U-BOLT A-38 F-A F1.10 B 2-HPH-2.12/17-PR ANGLE, U-BOLT A-38 F-A F1.10 B 2-HPH-2.14/23-PR PEDESTAL, U-BOLT A-39 F-A F1.10 B 2-HPH-2.22/18-PR PEDESTAL, U-BOLT A-40 F-A F1.10 B 2-HPH-2.24/13-PR ANGLE, U-BOLT A-41 R3 September 1, 1995 Page 79 of 280
CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) IREV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # F-A 95 F1.10 B 2-HPH-2.24/15-PR UN: STRUT A-41 F-A 95 F1.10 B 2-HPH-2.24/19-PR-2 UNISTRUT A-41 F-A 95 F1.10 B 2-HPH-2.24/19-PR-3 UNISTRUT A-41 F-A F1.10 B 2-LL-1/03-PR BOX RESTRAINT A-45 F-A F1.10 8 2-LL-1/05-PR ANSLE, U-BOLT A-45 F-A 99 F1.10 B 2-LL-1/15-PR-1 ANGLE, U-BOLT A-45 F-A F1.10 B 2-LL-1/15-PR-2 ANGLE, U-BOLT A-45 F-A F1.10 B 2-LL-1/19-PR ANGLE, U-BOLT A-45 F-A F1.10 B 2-LL-1/26-PR-1 ANGLE, U-BOLT A-46 1 F-A 01 F1.10 B l2-LL-1/26-PR-2 ANGLE U-BOLT A-46 F-A 01 F1.10 B l 2 - L L- 1/ 2 '- PR ANGLE, U-BOLT A-45 F-A F1.10 B b-1L-1/29-PR AN1LE, U-BOLT A-45 F-A F1.10 i B l2-LL-21 .02-PR-2 PETESTAL. U-BOLT A-47 F-A I E'1.10 l B ;3-HPH-!-'33-PR-1 l3/i BOX A-30 F-A i ( F1.10 ! B '3 .i>H 09-PR l AN ;LE. *CLT A-30 F-A ? I F1.10 l B 13-HPH-14'05-PR-1 l FULL E S i A-31 F-A ! i F1.10 i B '3-HPH-14/10-FR-2 FULL BOX A-31 F-A ! l F1.10 I B 13-HPH-22/01-PR BO ' '. A-32 F-A ! l F1.10 ! B ! 3 - H PH - 2 2,' 0 5 - PR BC/. A-32 F-A l F1.10 i B 3-HPH-24/03-PR ANGLE, " BOLT A-33 F-A I F1.10 l B '3-PSS-14 10-PR FULL BOX A-17 F-A I F1.10 l B ?-FSS-1i.10-PR-1 3 i , BCc. A-17 F-A 01 l F1.10 t B 3-PSS-li.'22-PE DU AL -- A-17 F-A F1.10 B 3-iSS-14 23-PR-2 PEi, LUAL 3-BOLT A-17 F-A F1.10 B i3-PSS-22/09-PR-5 PELASTAL, SADDLE A-18 F-A F1.10 B 3-PSS-22/24-PR-1 FULL BOX, DUAL A-18 F-A 01 F1.10 B 3-PSS-22/26-PR-3 PED, I-BEAM, 3-BOLT A-18 F-A F1.10 B 6-SI-12/v,-PR-1 FULL BOX A-26 F-A F1.10 8 6-SI-22/06-PR-2 SADDLE, U-BOLT A-28 _ F-A F1.10 B 6-SI-22/06-PR-4 SADDLE, U-BOLT A-28 F-A 01 F1.10 C 10-PSG-10/05-PR-2 SPRING CAN A-14 1 F-A F1.10 C 10-PSG-10/13-PR-1 SFRING CAN A-14 E-A F1.10 C 12-SDC-20/19-PR DUAL SPRING CAN, COMPLEX A-42 F-A 01 F1.10 C 2.5-PRL-2/01-PR-1 SF1ING CAN, ROD, 3-BOLT A-20 F-A F1.10 C 2.S-PRL-3/12-PR SF9ING CAN, ROD, 3-BOLT A-20 F-A F1.10 C 3-PRL-1 07-PR SroING C/M, ROD, 3-BOLT A-19 F-A F1.10 C 3-PSS-14/12-PR SFRING CAN A-17 F-A F1.10 C l3-PSS-22/09-PR-1 DUAL S/C, TRAP, U/B A-18 F-A F1.10 C i 3--PSS-2 2 /12-PR-2 PEC, 7 RING CAN A-18 F-A lF1.10 C l3-PSS-22/12-PR-S lPF?, Oj 3 ADDLE U/B A-18 F-A . F1.10 C l3-PSS-22/13-PR-1 ' S F g - .N . ROD A-18 F-A l F1.10 l C l4-PSS-1'02A-PR SfeING iro A-15 F-A I 99 F1.10 l C !4-PSS-l'04-PR-1 SFRING CAN A-15 F-A l 01 F1.10 C 6-SI-14'09-PR-2 SFRING CAN, 3-BOLT, ROD A-27 F-A l 96 F1.40 B FR2-FA-1 SUPPORT BOLTING A-03 F-A F1.40 B SG-1-FB-1 VERTICAL LINEAR SUPPORT A-05A F-A F1.40 B SG-1-FB-2 VERTICAL LINEAR SUPPORT A-05A F-A F1.40 B SG-1-FB-3 VERTICAL LINEAR SUPPORT A-05A F-A F1.40 B SG-1-FB-4 VERTICAL LINEAR SUPPORT A-05A F-A 99 F1.40 B SG-2-FB-1 VERTICAL LINEAR SUPPORT A-05A 4 R3 September 1. 1995 Page 80 of 280
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CLASS 1 CLASS 1 COMPONENTS & SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 ITEM # TYPE COMPONENT DESCRIPTION ISO # CATEGORY 3RD INT F-A 99 F1.40 B SG-2-FB-2 VERTICAL LINEAR SUPPORT A-05A 4 F1.40 SG-2-FB-3 VERTICAL LINEAR SUPPORT A-05A F-A 99 B F1.40 SG-2-FB-4 VE?.TICAL LINEAR SUPPORT A-OSA F-A 99 B l A-09A t F-A F1.40 C RCP-RC3A-FC-1 PUMP SUPPORT F-A F1.40 C RCP-RC3A-FC-2 PUMP SUPPORT A-09A 4 F-A F1.40 C RCP-RC3A-FC-3 PUMP SUPPORT A-09A F-A F1.40 C RCF-RC3B-FC-1 PUMP SUPPORT A-09A F1.40 C RCP-RC3B-FC-2 PUMP SUPPORT A-09A F-A F-A F1.40 C RCP-RC39-FC-3 PUMP SUPPORT A-09A F-A 99 F1.40 C RCP-RC32-FC-1 PUMP SUPPORT A-09A F1.40 RCP-RC3C-FC-2 PUMP SUPPORT A-09A , F-A 99 C F1.40 C RCP-RC3C-FC-3 PUMP SUPPORT A-09A F-A 99 F1.40 C RCP-RC3D-FC-1 PU'tP SUPPORT A-09A F-A F-A F1.40 C RCP-RC3D-FC-2 PU'!P SUPPORT A-09A F1.40 C PCP-RC3D-FC-3 PU'tP '3UPPORT A-09A , F-A i THERE ARE 3 TYPES / SIZES OF VALVES UMDER ITEM NUMBER B12.50. THE REQUIRED INTERNAL INSPECTION OF L ONE OF EACh WILL BE SCHEDULED FOR WHEN THE VALVE IS OPEt.ED FOR MAINTENANCE OR IN 2002. :
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i 1 i i i 1 4 i J 4 !d I l R3 September 1, 1995 Page 81 of 280
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I CLASS 2 ! l CLASS 2 COMPONENTS AND SUPPORTS REV.1 l CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION SOU C-A C1.10 SG-1-3 CONE TO UPPER SHELL B-01 C-A C1.10 SG-1-4 LOWER SHELL TO CONE B-01 3 C-A C1.10 SG-1-4B EXT. RING TO LOWER SHELL B-01 1 C-A 99 C1.10 SG-2-3 CONE TO UPPER SHELL B-02 { C-A 99 C1.10 SG-2-4 LOWER SHELL TO CONE B-02 l C-A 99 C1.10 SG-2-4B EXT. RING TO LOWER LHELL B-02
) C-A C1.20 RHE-C-01 HEAD TO SHELL B-43 ;
C-A 95 C1.20 RHE-C-16 HEAD TO SHELL B-43 C-A 01 C1.20 SDHE-AC-4A-C-1 HEAD TO SHELL B-44 .j i C-A C1.20 SDHE-AC-4B-C-1 HEAD TO SHELL B-44 j C-A C1.20 SG-1-5 HEAD TO UPPER SHELL B-01 C-A C1.20 SL-1-5A DOME WELD B-01 C-A 99 C1.20 SG-2-5 HEAD TO UPPER SHELL B-02 C-A ! C1.20 SG-2-SA DOME WELD B-02 . C-A C1.30 l iRHE-C-04 TUBE SHEET TO SHELL B-43 i C-A 95 C1.30 l IRHE-C-13 TUBE SHEET TO SHELL B-43 , 2 C-A 01 C1.30 SDHE-AC-4A-C-2 TUBE SHEET TO SHELL B-44 C-A C1.30 SDHE-AC-4B-C-2 TUBE SHEET TO SHELL B-44 *
- C-A ! C1.30 bG-1-6 TUBE SHEET TO EXT. RING B-01
! C-A l 99 C1.30 l ISG-2-6 TUBE SHEET TO EXT. RING B-02 7 i C-B I 95 l C2.21 ! fRHE-N-14 NOZZLE TO SHELL B-43 l C-B I 95 I C2.21 I !RHE-N-15 SHELL TO NOZZLE B-43 C-8 C2.21 I l R H F,- N - 2 NOZZLE TO SHELL B-43 C-B C2.21 ! RHE-N-3 SHELL TO NOZZLE B-43 C-B 01 C2.21 SDHE-AC-4A-N-3 SHELL TO NOZZLE B-44 ! C-B 01 C2.21 SDHE-AC-4A-N-4 NOZZLE TO SHELL B-44 i C-B C2.21 SDHE-AC-4B-N-3 SHELL TO NOZZLE B-44 C-B C2.21 SDHE-AC-4B-N-4 NOZZLE TO SHELL B-44 , C-B C2.21 SG-1-7 NOZZLE TO SHELL (MS) B-01 C-B C2.21 SG-1-8 NOZZLE TO SHELL (FW) B-01 1 1
- C-B 99 C2.21 SG-2-7 NOZZLE TO SHELL (MS) B-02 4 i C-B 99 C2.21 SG-2-8 NOZZLE TO SHELL (FW) B-Oi L C-B C2.22 SG-1-7-IR INNER RADIUS (MS) B-01 C-B C2.22 SG-1-8-IR INNER RADIUS (FW) B-Ul !
C-B 99 C2.22 SG-2-7-IR INNER RADIUS (MS) B-02 . C-B 99 C2.22 SG-2-8-IR INNER RADIUS (FW) B-02 I C-C C3.10 RHE-1-PL-1 HEAT EXCH INTEGRAL ATTACH. B-43 . C-C C3.10 RHE-1-PL-2 HEAT EXCH INTEGRAL ATTACH. B-43 } C-C 01 C3.10 RHE-1-PL-3 HEAT EXCH INTEGRAL ATTACH. I B-43 C-C 95 C3.10 l RHE-1-PL-4 HEAT EXCH INTEGRAL ATTACH. l B-43 C-C C3.10 } SG-1-FB-5-1 MANWAY TRUNNION AT 0 A-OSA l C-C C3.10 l l SG FB- 5-2 MANWAY TRUNNION AT 180 A-05A C-C 99 C3.10 i SG-2-FB-5-1 MANWAY TRUNNION AT 0 A-05A C-C 99 C3.10 SG-2-FB-5-2 MANWAY TRUNNION AT 180 A-05A C-C 96 C3.20 12-LPH-2001/19-PL-1 INTEGRAL ATTACHMENT B-16 C-C 96 C3.20 12-LPH-2001/19-PL-2 INTEGRAL ATTACHMENT B-16 l C-C 96 C3.20 12-LPH-2001/19-PL-3 INTEGRAL ATTACHMENT B-16
- C-C 96 C3.20 12-LPH-2001/19-PL-4 INTEGRAL ATTACHMENT B-16 '
C-C 98 C3.20 16-FW-2001/02-PL-1 INTEGRAL ATTACHMENT B-07 C-C 98 C3.20 16-FW-2001/02-PL-2 INTEGRAL ATTACHMENT B-07 1 R3 September 1, 1995 Page 82 of.280 4
CLASS 2 CLASS 2 COMPONr.NTS AND SUPPORTS REV.1 l CATEGORY 3RD INT ITEM # I TYPE COMPONENT DESCRIPTION ISO # C-C 98 C3.20 16-FW-2001/02-PL-3 INTEGRAL ATTACHMENT B-07 C-C 98 C3.20 1 16-FW-2001/02-PL-4 INTEGRAL ATTACHMENT B-07 C-C C3.20 I 16-FW-2002/04-PL-1 INTEGRAL ATTACHMENT B-08 C-C C3.20 l 16-FW-2002/04-PL-2 INTEGRAL ATTACHMENT B-08 C-C C3.20 16-FW-2002/04-PL-3 INTEGRAL ATTACHMENT B-08 C-C C3.20 16-FW-2002/04-PL-4 INTEGRAL ATTACHMENT B-08 C-C 01 C3.20 28-MS-2001/11-PL-1 INTEGRAL ATTACHMENT B-03 C-C 01 C3.20 28-MS-2001/11-PL-2 INTEGRAL ATTACHMENT B-03 C-C 01 C3.20 28-MS-2001/11-PL-3 *NTEGRAL ATTACHMENT B-03 C-C 01 C3.20 l 28-MS-2001/11-PL-4 INTEGRAL ATTACHMENT B-03 C-C C3.20 l 28-MS-2002/11-PL-1 INTEGRAL ATTACHMENT B-05 C-C C3.20 ' 28-MS-2002/11-PL-2 INTEGRAL ATTACHMENT B-95 C-C C3.20 4 28-MS-2002/11-PL-3 l INTEGRAL ATTACHMENT B-05 C-C ! ! C3.20 f28-MS-2002/11-PL-4 l INTEGRAL ATTACHMENT B-05 C-C I 01 : C3.20 :8-LPSI-2002/10-PR-3A l INTEGRAL ATTACHMENT I B-30 C-F-1 I 01 f C5.11 l12-CSS-2001/01 {CAPTOPIPE _ i B-19 C-F-1 l l C5.11 I l12-CSS-2001/02 ! PIPE TO PIPE B-19 C-F-1 I l C5.11 l12-CSS-2001/03 l PIPE TO 45 ELEOW B-19 C-F-1 ! I C5.11 12-CSS-2001/04 l45 ELBOW TO TLBOW B-19 C-F-1 l I C5.11 2 12-CSS-2001/05 l ELBOW TO IIPE B-19 C-F-1 I l C5.11 l12-CSS-2001/06 IPIPE TO PIPE B-19 C-F-1 l i C5.11 !12-CSS-2001/07 IPIPE TO PIPE ! B-19 C-F-1 l I C5.11 I12-CSS-2001/08 l PIPE TO ELBOW l B-19 C-F-1 i l C5.11 il2-CSS-2001/09 ! ELBOW TO PIPE l B-19 C-F-1 l C5.11 l12-CSS-2001/10 PIPE TO ELBOW B-19 , C-F-1 C5.11 12-CSS-2001/11 ELBOW TO PIPE B-19 C-F-1 C5.11 ! 12-CSS-2001/12 PIPE TO PIPE B-19 C-F-1 C5.11 12-CSS-2001/13 PIPE TO PIPE B-19 C-F-1 C5.11 12-CSS-2001/13A PIPE TO PIPE B-19 C-F-1 C5.11 12-CSS-2001/14 PIPE TO PIPE B-19 C-r-1 95 C5.11 12-CSS-2001/15 PIPE TO ELBOW B-19 C-F-1 C5.11 12-CSS-2001/16 ELBOW TO ELBOW B-19 C-F-1 95 C5.11 12-CSS-2001/17 l ELBOW TO PIPE B-19 C-F-1 C5.11 12-CSS-2001/18 PIPE TO ELBOW B-19 C-F-1 C5.11 12-CSS-2001/19 ELBOW TO PIPE B-19 C-F-1 C5.11 12-CSS-2001/20 PIPE TO PIPE B-19 C-F-1 C5.11 12-CSS-2001/21 PIPE TO ELBOW l B-19 C-F-1 C5.11 l 12-CSS-2001/22 _ ELBOW TO PIPE l B-19 C-r-1 C5.11 i 12-CSS-2001/23 IPIPE TO TEE I B-19 C-r-1 C5.11 ! 12-CSS-2001/24 l TEE TO PIPE i B-19 C-F-1 C5.11 ! 12-CSS-2001/25 ' PIPE TO ELBOW B-19 C-F-1 C5.11 ! 12-CSS-2001/26 ! ELBOW TO PIPE B-19 C-F-1 i C5.11 l '12-CSS-2001/27 PIPE TO VALVE B-19 C-r-1 l C5.11 l 12-CSS-2001/28 VALVE TO ELBOW B-19 C-r-1 l C5.11 12-CSS-2001/29 ELBOW TO PIPE B-19 C-F-1 l C5.11 12-CSS-2001/30 PIPE TO ELBOW B-19 C-F-1 C5.11 12-CSS-2001/31 ELBOW TO ELBOW B-19 C-r-1 C5.11 TERM END 12-CSS-2001/32 ELBOW TO NOZZLE B-19 C-F-1 C5.11 12-CSS-2002/01 iTEE TO ELBOW B-20 C-F-1 C5.11 1 12-CSS-2002/02 IELBOW TO VALVE B-20 R3 September 1. 1995 Page 83 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEMS TYPE CCHPONENT DESCRIPTION ISO # C-F-1 l C5.11 12-CSS-2002/03 VALVE TO PIPE B-20 C-F-1 C5.31 12-CSS-2002/04 PIPE TO VALVE B-20 C-F-1 C5.11 12-CSS-2002/05 VALVE TO ELBOW B-20 C-F-1 C5.11 112-CSS-2002/06 ELBOW TO PIPE B-20 C-F-1 C5.11 12-CSS-2002/07 PIPE TO ELBOW B-20 - C-F-1 C5.11 12-CSS-2002/08 ELBOW TO PIPE B-20 C-F-1 C5.11 12-CSS-2002/03~ PIPE TO TEE B-20 C-F-1 C5.11 12-CSd-2004/01 ELBOW TO PIPE B-38 C-F-1 C5.11 12-CSS-2004/01B FLANGE TO ELBOW B-30 C-F-1 95 C5.11 12-CSS-2004/02 PIPE TO ELBOW B-38 C-F-1 S ', C5.11 12-CSS-2004/03 ELBOW TO PIPE B-38 C-F-1 1
! C5.11 12-CSS-2004/04 PIPE TO PIPE B-38 C-F-1 ! l C5.11 l12-CSS-2004/05 PIPE TO ELBOW B-38 C-F-1 IELBOW TO PIPE B-38 I
f C5.11 l f12-CSS-2004/06 _ C-E-1 ! ! C5.11 I il2-CSS-2004/06A ! PIPE TO ELBOW l B-38 C-F-1 I 96 l C5.11 i !12-CSS-2004/07 IELBOW TO ELBOW B-38 C-r-1 l l C5.11 l !12-CSS-2004/08 ELBOW TO PIPE B-38 $ C-F-1 l C5.11 l l12-CSS-2004/09 PIPE TO ELBOW B-38 ~ C-F-1 I C5.11 l {12-CSS-2004/10 ELBOW TO PIPE B-38 C-F-1 l C5.11 l l12-CSS-2004/11 PIPE TO ELBOW B-38 C-F-1 ' C5.11 l !12-CSS-2004/12 IELBOW TO PIPE B-38 C-F-1 l l C5.11 l l12-CSS-2004/13 l PIPE TO ELBOW B-38 C-F-1 I I C5.11 I il2-CSS-2004/14 IELBOW TO PIPE B-38 C-F-1 l C5.11 112-CSS-2 00 4 /15 lPIPETOPIPE B-38 C-F-1 C5.11 !12-CSS-2004/16 l PIPE TO ELBOW B-38 C-r-1 C5.11 12-CSS-2004/17 ELBOW TO PIPE B-38 C-F-1 C5.11 12-CSS-2004/18 PIPE TO ELBOW B-38 C-F-1 C5.11 12-CSS-2004/19 ELBOW TO FLANGE B-38 C-F-1 C5.11 12-CSS-2004/20 FLANGE TO PIPE B-38 C-F-1 C5.11 12-CSS-2004/22 PIPE TO PIPE B-38 C-r-1 C5.11 12-CSS-2004/23 PIPE TO VALVE B-38 C-F-1 C5.11 12-CSS-2005/01 ELBOW 70 PIPE B-3J C-F-1 C5.11 12-CSS-2005/01A FLANGE TO ELBOW B-38 C-F-1 C5.11 12-CSS-2005/02 PIPE TO ELBOW B-38 C-F-1 01 C5.11 12-CSS-2005/03 ELBOW TO PIPE B-38 C-F-1 01 C5.11 12-CSS-2005/04 PIPE TO ELBOW B-38 C-r-1 C5.11 12-CSS-2005/05 ELBOW TO PIPE B-38 C-F-1 C5.11 12-CSS-2005/06 PIPE TO PIPE B-38 C-F-1 C5.11 12-CSS-2005/07 l PIPE TO ELBOW B-38 C-F-1 C5.11 il2-CSS-2005/08 lELBOWTOFLANGE l B-38 C-F-1 C5.11 _ ll2-CSS-2005/09 IFLANGE TO PIPE B-38 C-F-1 l C5.11 l l12-CSS-2005/10 . PIPE TO PIPE B-38 C-F-1 i C5.11 l l 12 -CSS-2005 /11 PIFE TO VALVE B-38 C-F-1 C5.11 12-CSS-2011/07 VALVE Tv PIPE B-39 C-F-1 01 C5.11 12-CSS-2011/08 PIPE TL REDUCER B-39 C-F-1 01 C5.11 TERM END 12-CSS-2011/09 REDUCER TO FLANGE (10") B-39 C-F-1 C5.11 12-CSS-2012/05 _ VALVE TO PIPE B-39 C-F-1 01 C5.11 12-CSS-2012/06 PIPE TO ELBOW B-39 C-F-1 01 C5.11 12-CSS-2012/07 ELBOW TO PIPE B-39 C-F-1 C5.11 12-CSS-2012/08 PIPE TO REDUCER I B-39 R3 September 1. 1995 Page 84 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 i
! ! l J
CATEGORY 3RD INT l ITEM # I TYPE COMPONENT DESCRIPTION ISO # C-F-1 C5.11 TERM END 12-CSS-2012/09 REDUCER TO FLANGE (10") B-39 C-F-1 ! C5.11 12-CSS-2013/06 VALVE TO ELBOW B-39 C-F-1 l C5.11 12-CSS-2013/07 ELBOW TO ELBOW B-39 C-r-1 C5.11 12-CSS-2013/08 ELBOW TO PIPE B-39 C-F-1 C5.11 12-CSS-2013/09 PIPE TO REDUCER B-39 C-F-1 C5.11 TERM END 14-CSS-2013/10 REDUCER TO FLANGE (10") B-39 C-F-1 C5.11 REDUCER TO PIPE B-16
]12-LPH-2001/03 C-F-1 C5.11 12-LPH-2001/04 PIPE TO ELBOW B-16 C-F-1 C5.11 12-LPH-2001/05 ELBOW TO TEE B-16 C-F-1 l C5.11 12-LPH-2001/09A FLANGE TO TEE B-16 C-F-1 l C5.11 12-LPH-2001/10 TEE TO PIPE B-16 C-F-1 I 95 C5.11 l 112-LPH-2001/11 PIPE TO TEE B-16 C-F-1 I I C5.11 l l12-LPH-2001/13 PIPE TO VALVE (8") B-16 C-r-1 !
01 i C5.11 12-LPH-2001/14 TEE TO PIPE B-16 C-F-1 ' C5.11 '12-LPH-2001/15 ! PIPE TO ELBOW l B-16 C-F-1 i 01 l C5.11 1 112-LPH-2001/16 ! ELBOW TO PIPE l B-16 i C-r-1 i C5.11 il2-LPH-2001/17 l PIPE TO FLANGE B-16 i C-F-1 i C5.11 l il2-LPH-2001/18 FLANGE TO PIPE B-16 j C-F-1 i C5.ll ! il2-LPH-2001/19 PIPE TO PIPE B-16 C-F-1 l C5.11 i il2-LPH-2001/20 l PIPE TO PIPE B-16 C-F-1 I l C5.11 i il2-LPH-2001/21 lPIPETOELBOW B-16 C-F-1 I C5.11 !12-LPH-2001/02 l ELBOW TO PIPE B-16 C-F-1 ! C5.11 112-LPH-2001/23 l PIPE TO TEE B-16 C-F-1 ! C5.11 il2-LPH-2001/24 TEE TO REDUCER B-16 C-F-1 98 C5.11 il 2 -LPH-2001/ 25 TEE TO PIPE BEND B-16 C-F-1 C5.11 l12-LPH-2001/26 PIPE BEND TO PIPE B-16 C-F-1 C5.11 12-LPH-2001/27 PIPE TO TEE B-16 C-r-1 C5.11 12-LPH-2001/29 TEE TO PIPE B-16 C-F-1 C5.11 12-LPH-2001/29A PIPE TO 45 ELBOW B-16 C-F-1 98 C5.11 12-LPH-2001/30 45 ELBOW TO REDUCER B-16 C-F-1 C5.11 12-LPSI-2002/01 TEE TO PIPE B-17 C-F-1 95 C5.11 12-LPSI-2002/02 PIPE TO ELBOW B-17 C-F-1 01 C5.11 12-LPSI-2002/03 ELBOW TO PIPE B-17 C-F-1 C5.11 12-LPSI-2002/04 PIPE TO TEE B-17 C-F-1 95 C5.11 12-LPSI-2002/05 TEE TO REDUCER B-17 C-F-1 C5.11 12-LPSI-2002/06 TEE TO PIPE B-17 i C-F-1 C5.11 TERM END 12-LPSI-2002/06A ELBOW TO FLANGE B-17 C-F-1 01 C5.11 12-LPEI-2002/07 PIPE TO ELBOW B-17 C-F-1 l C5.11 12-LPSI-2002/08 ELBOW TO PIPE B-17 C-F-1 l C5.11 I il2-LPSI-2002/09 PIPE TO PIPE B-17 I C-r-1 l C5.11 l 112-LPSI-2002/10 l PIPE TO PIPE B-17 C-F-1 C5.11 i I12-LPSI-2002/10A PIPE TO PIPE B-17 C-F-1 ' C5.11 i ;12-LPSI-2002/11 PIPE TO PIPE B-17 _ C-F-1 l C5.11 l12-LPSI-2002/12 PIPE TO PIPE B-17 C-F-1 C5.11 12-LPSI-2002/13 PIPE TO PIPE B-17 _f-F-1 C5.11 12-LPSI-2002/14 PIPE TO ELBOW B-17 _pfL 98 C5.11 12-LPSI-2002/15 ELBOW TO PIPE B-17 C-F-1 C5.11 12-LPSI-2002/16 PIPE TO PIPE B-17 C-F-1 , C5.11 . 12-LPSI-2002/17 PIPE TO ELBOW B-17 C-F-1 l 95 C5.11 l I12-LPSI-2002/18 ELBOW TO PIPE B-17 R3 September 1. 1995 Page 85 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 l CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # C-F-1 95 C5.11 12-LPSI-2002/19 PIPE TO ELBOW B-17 i C-F-1 C5.11 12-LPSI-2002/20 ELBOW TO PIPE B-17 C-F-1 C5.11 12-LPSI-2002/21 PIPE TO PIPE B-17 C-F-1 C5.11 12-LPSI-2002/22 PIPE TO PIPE B-17 C-F-1 C5.11 12-LPSI-2002/23A FLANGE TO ELBOW B-17 C-F-1 C5.11 12-LPSI-2003/01 REDUCER TO TEE B-18 C-F-1 C5.11 12-LPSI-2003/02 TEE TO PIPE B 18 C-F-1 C5.11 12-LPSI-2003/03 PIPE TO ELBOW B-18 C-r-1 C5.11 12-LPSI-2003/04 ELBOW TO PIPE B-18 C-F-1 C5.11 12-LPSI-2003/05 PIPE TO ELBOW B-18 C-F-1 C5.11 1 12-LPSI-2003/06 ELBOW TO PIPE B-18 C-F-1 C5.11 l 112-LPSI-2003/07 PIPE TO PIPE B-18 C-F-1 i 98 C5.11 l l12-LPSI-2003/08 PIPE TO ELBOW B-18 C-r-1 l 98 l C5.11 i 112-LPSI-2003/09 ELBOW TO PIPE B-18 C-F-1 l l C5.11 , f12-LPSI-2003/10 ! PIPE TO PIPE ! B-18 C-F-1 l l C5.11 l !12-LPSI-2003/11 IPIPE TO ELBOW l B-18 C-F-1 ! I C5.11 I l12-LPSI-2003/12 ELBOW TO PIPE B-18 C-F-1 i l C5.11 I l12-LPSI-2003/13 PIPE TO ELBOW B-18 C-F-1 I l C5.11 l 112 -LPS I-2003 /14 ELBOW TO PIPE B-18 C-F-1 j l C5.11 l l 12 -LPS I-2 00 3 /15 l PIPE TO PIPE B-18 C-F-1 > l C5.11 ' l12-LPSI-2003/16 IPIPE TO PIPE B-18 . C-F-1 I i C5.11 g f12-LPSI-2003/17 PIPE TO PIPE B-10 C-F-1 1 I C5.11 I {12-LPSI-2003/18 PIPE TO PIPE B-18 , C-r-1 l 01 C5.11 ! 12-LPSI-2003/19 PIPE TO ELBOW B-18 i C-F-1 01 C5.11 I 12-LPSI-2003/20 ELBOW TO PIPE B-18 C-r-1 01 C5.11 12-LPSI-2003/20A PIPE TO ELBOW B-18 C-F-1 95 C5.11 12-LPSI-2003/21 ELBOW TO PIPE B-18 C-F-1 C5.11 12-LPSI-2003/21A PIPE TO FLANGE B-18 C-F-1 C5.11 12-LPSI-2003/21B FLANGE TO PIPE B-18 C-r-1 C5.11 12-LPSI-2003/21C PIPE TO FLANGE B-18 + C-F-1 C5.11 12-LPSI-2003/21D FLANGE TO PIPE B-18 C-F-1 C5.11 12-LPSI-2003/22 PIPE TO ELBOW B-18 C-F-1 C5.11 l 12-LPSI-2003/23 ELBOW TO PIPE B-18 C-F-1 C5.11 12-LPSI-2003/24 PIPE TO PIPE B-18 C-r-1 C5.11 12-LPSI-2003/25 PIPE TO ELBOW B-18 - C-F-1 C5.11 1 12-LPSI-2003/26 ELBOW TO PIPE B-18 C-r-1 C5.11 12-LPSI-2003/27 PIPE TO FLANGE B-18 C-r-1 C5.11 12-LPSI-2003/28A FLANGE TO PIPE B-18 C-F-1 C5.11 12-LPSI-2003/28B PIPE TO FLANGE l B-10 C-F-1 C5.11 i 12-LPSI-2003/28C l FLANGE TO PIPE B-18 C-F-1 C5.11 I 12-LPSI-2003/29 l PIPE TO ELBOW B-18 C-F-1 l C5.11 ! (12-LPSI-2003/30 l ELBOW TO TEE B-18 C-F-1 l C5.11 12-LPSI-2003/33 l TEE TO VALVE B-18 C-F-1 l C5.11 1 12-LPSI-2003/34 VALVE TO ELBOW B-10 j F-1 C5.11 12-LPSI-2003/35 ELBOW TO PIPE B-18 l' C-r-1 C5.11 12-LPSI-2003/36 PIPE TO ELBOW B-18 C-F-1 96 C5.11 TERM END 12-LPSI-2003/37 ELBOW TO NOZZLE B-18 j C-F-1 95 C5.11 TERM END 12-SDC-2001/01 NOZZLE TO ELBOW B-21 C-F-1 C5.11 12-S DC-2001/ 02 ELBOW TO PIPE B-21 C-F-1 C5.11 12-SDC-2001/03 PIDE TO VALVE B-21 l R3 September 1. 1995 Page 86 of 280 l
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION l ISOf C-F-1 C5.11 12-S DC-2 001/ 04 VALVE TO ELBOW B-21 C-r-1 C5.11 12-SDC-2001/05 ELBOW TO PIPE B-21 l C-F-1 C5.11 12-SDC-2001/06 PIPE TO ELBOW B-21 C-r-1 C5.11 l 12-SDC-2001/07 ELBOW TO TEE B-21 C-r-1 C5.11 l 12-SDC-2001/08 TEE TO PIPE B-21 C-F-1 C5.11 - l 12-SDC-2001/09 PIPE TO ELBOW B-21 C-F-1 C5.11 12-SDC-2001/10 ELBOW TO VALVE B-21 C-F-1 C5.11 12-SDC-2001/11 TEE TO PIPE B-21 l C-F-1 C5.11 12-SDC-2001/12 PIPE TO ELBOW l B-21 C-F-1 C5.11 12-SDC-2001/13 ELBOW TO PIPE B-21
]
C-F-1 C5.11 12-SDC-2001/14 PIPE TO ELBOW B-21 C-F-1 C5.11 12-SDC-2001/15 ELBOW TO PIPE B-21 C-F-1 C5.11 ! l12-SDC-2001/16 PIPE TO TEE B-21 C-F-1 1 C5.11 ! 112-SDC-2001/17 l TEE TO PIFE B-21 C-F-1 C5.11 112-SDC-2001/18 IPIPE TO FLANGE B-21 l C-F-1 l C5.11 l 112-SDC-2001/19 ! FLANGE TO PIPE B-21 C-F-1 l I C5.11 l l12.SDC-2001/20 l PIPE TO ELBOW B-21 C-r-) i C5.11 ! l12-SDC-2001/21 l ELBOW TO PIPE B-21 C-F-1 [ ! C5.11 ! I12-SDC-2001/22 IPIPE TO ELBOW B-21 C-F-1 l l C5.11 l il2-SDC-2001/23 { ELBOW TO PIPE B-21 C-F-1 l l C5.11 ' l12-SDC-2001/24 lPIPETOFIPE B-21 C-F-1 i ' C5.11 ! l12-SDC-2001/25 IPIPE TO PIPE B-21 C-F-1 l l C5.11 ' l12-SDC-2001/26 l PIPE TO REDUCER B-21 C-F-1 l C5.11 l 112-SDC-2001/27 IREnUCER TO VALVE (8") B-21 C F-1 C5.11 l TERM END 12-SDC-2002/01 NOZZLE TO ELBOW B-22 C-F-1 C5.11 12-S DC-2002 / 02 ELBOW TO PIPE B-22 C-F-1 C5.11 12-SDC-2002/03 PIPE TO ELBOW B-22 C-F-1 C5.11 12-SDC-2002/04 ELBOW TO PIPE B-22 C-F-1 C5.11 12-s DC-2 002 / 0 5 PIPE TO VALVE B-22 C-F-1 C5.11 12-SDC-2002/06 VALVE TO PIPE B-22 C-r-1 C5.11 12-SDC-2002/07 PIPE TO TEE B-22 C-F-1 C5.11 12-S DC-2002 / 08 TEE TO PIPE B-22 C-F-1 C5.11 12-S DC-2 002 / 0 9 PIPE TO ELBOW B-22 C-F-1 C5.11 12-S DC-2002 /10 ELBOW TO VALVE B-22 C-F-1 C5.11 12-S DC-2002 /11 TEE TO PIPE B-22 C-F-1 C5.11 12-SDC-2002/12 PIPE TO ELB0W B-22 C-r-1 C5.11 12-S DC-2002 /13 ELBOW TO ELBOW B-22 C-F-1 C5.11 12-S DC-2 002 /14 ELBOW TO PIPE B-22 C-F-1 C5.11 12-S DC-2002 /15 PIPE TO ELBOW B-22 C-r-1 ! C5.11 I 12-SDC-2002/16 lELBOWTOPIPE B-22 C-F-1 ' 01 C5.11 ! 12-SDC-2002/17 ! PIPE TO FLANGE B-22 C-F-1 l . C5.11 j 12-SDC-2002/1- IFLANGE TO PIPE B-22 C-F-1 l l C5.11 ! 12-SDC-2002/19 PIPE TO ELBOW B-22 C-r-1 l 01 l C5.11 12-SDC-2002/20 ELBOW TO PIPE B-22 C-F-1 l C5.11 12-SDC-2002/21 PIPE TO PIPE B-22 C-F-1 C5.11 12-S DC-2002 / 22 PIPE TO ELBOW B-22 C-r-1 C5.11 12 -S DC-2002 / 2 3 ELBOW TO PIPE B-22 C-F-1 C5.11 12-SDC-2002/24 PIPE TO ELBOW B-22 C- F- 1 C5.11 12-S DC-2002 /2 5 ELBOW TO PIPE B-22 C-r-1 C5.11 12-S DC-2 002 / 2 6 PIPE TO PIPE B-22 R3 September 1. 1995 Page 87 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # C-F-1 C5.11 12-SDC-2002/27 PIPE TO REDUCER B-22 C-F-1 C5.11 12-SDC-2002/28 REDUCER TO FLANGE (8") B-22 C-F-1 C5.11 12-S DC-2003 / 01 VALVE TO PIPE B-22A C-r-1 C5.11 I 12-SDC-2003/02 l PIPE TO TEE B-22A C-F-1 C5.11 l 12-SDC-2003/03 VALVE TO PIPE B-22A C-F-1 C5.11 l 12-SDC-2003/04 PIPE TO TEE B-22A C-r-1 C5.11 1 12-S DC-2 003 / 0 5 TEE TO PIPE B-22A C-r-1 C5.11 12-SDC-2003/06 PIPE TO ELBOW B-22A C-F-1 C5.11 12-SDC-2003/07 ELBOW TO PIPE B-22A C-r-1 C5.11 12-S DC-2003 / 08 PIPE TO 45 ELBOW B-22A C-F-1 C5.11 l 12-S DC-2 00 3 /0 9 45 ELBOW TO PIPE B-22A C-F-1 ! C5.11 ! {12-SDC-2003/09A PIPE TO PIPE B-22A C-F-1 i C5.11 112-SDC-2003/09B PIPE TO PIPE B-22A C-F-1 ! C5.11 '12-SDC-2003/10 IPIPE TO ELBOW B-2 Q C-F-1 I C5.11 ! 12-SDC-2003/11 ! ELBOW TO PIPE B-22A C-F-1 i i C5.11 ! t12-SDC-2003/12 ! PIPE TO ELBOW B-22A C-r-1 i 01 C5.11 i !12-SDC-2003/13 l ELBOW TO ELBOW B-22A C-F-1 l C5.11 l ll2-SDC-2003/14 l ELBOW TO PIPE B-22A C-F-1 + C5.11 I l12-SDC-2003/14A l PIPE TO PIPE B-22A C-F-1 l l C5.11 '
!12-SDC-2003/15 ! PIPE TO PIPE B-22A C-F-1 l l C5.11 >
I12-SDC-2003/16 IPIPE TO PIPE B-22A C-F-1 ! 95 ! C5.11 ; il2-SDC-2003/17 ! ELBOW TO PIPE B-22A C-F-1 ! l C5.11 i '12-S DC-200 3 /18 PIPE TO ELBOW IB-22A C-r-1 l C5.11 i ! 12-S DC-2003 /19 ELBOW TO VALVE (8") B-22A C-F-1 l C5.11 12-SDC-2020/01 VALVE TO REDUCER B-11 C-F-1 C5.11 12-S DC-2020 / 02 REDUCER TO PIPE B-11 C-F-1 C5.11 l 12-SDC-2020/03 PIPE TO TEE B-11 C-F-1 C5.11 l 12-SDC-2020/04 TEE TO FLANGE (8") B-11 C-F-1 C5.11 12-S DC-2020/05 TEE TO PIPE B-11 C-F-1 C5.11 12-SDC-2020/06 PIPE TO PIPE B-11 C-F-1 C5.11 12-S DC-2020 / 07 PIPE TO ELBOW B-11 C-F-1 C5.11 12-S DC-2 020 / 08 ELBOW TO PIPE B-11 C-F-1 C5.11 12-SDC-2020/09 PIPE TO ELBOW B-11 C-F-1 C5.11 12-S DC-2 020 /10 ELBOW TO PIPE B-11 C-F-1 C5.11 12-S DC-2 02 0/11 PIPE TO ELBOW B-11 C-r-1 98 C5.11 12-SDC-2020/12 ELBOW TO PIPE B-11 l C-F-1 C5.11 12-S DC-2020 /13 PIPE TO ELBOW B-11 C-F-1 C5.11 12-SDC-2020/14 ELBOW TO PIPE B-11 C-F-1 C5.11 I12-SDC-2020/15 PIPE TO PIPE B-11 i C-F 1 C5.11 } l12-SDC-2020/16 l PIPE TO PIPE i B-11 l C-r-1 C5.11 I {12-SDC-2020/17 IPIPE TO PIPE B-11 l C-r-1 I C5.11 ! f12-SDC-2020/18 ' PIPE TO PIPE B-11 l C-F-1 C5.11 112-SDC-2020/19 PIPE TO PIPE B-11 i 4 C-F-1 C5.11 l12-SDC-2020/19D LONG SEAM WELD B-11 ) C-F-1 C5.11 I12-SDC-2020/19U LONG SEAM WELD B-11 ) C-r-1 01 C5.11 12-SDC-2020/?O PIPE TO TEE B-11 l C-F-1 C5.11 12-S DC-202 0 / 21 TEE TO REDUCER B-11 C-F-1 C5.11 20-SI-2001/01 REDUCER TO PIPE B-36 C-F-1 C5.11 20-SI-2001/01A PIPE TO PIPE B-36 i C-F-1 C5.11 20-SI-2001 m1B PIPE TO PIPE B-36 R3 September 1. 1995 Page 88 of 280 i _J
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CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # TYPE CCMPONENT DESCRIPTION ISO # E C-F-1 C5.11 20-SI-2001/01D PIPE TO TEE B-36 I C-F-1 C5.11 20-SI-2001/01E TEE TO PIPE B-36 C-F-1 C5.11 20-SI-2001/02 PIPE TO TEE B-36 C-F-1 95 C5.11 20-SI-2001/03 TEE TO PIPE B-36 C-F-1 C5.11 20-SI-2001/04 PIPE TO ELBCW B-36 l C-F-1 C5.11 20-SI-2001/05 ELBOW TO PIPE B-36 C-F-1 C5.11 20-SI-2001/07 PIPE TO VALVE B-36 C-F-1 C5.11 20-SI-2002/01 PIPE TO TEE B-37 C-F-1 C5.11 20-SI-2002/02 ELBOW TO PIPE B-37 C-F-1 C5.11 20-SI-2002/03 VALVE TO ELBOW B-37 C-F-1 C5.11 24-SI-2001/01 FLANGE TO PIPE B-36 C-F-1 1 C5.11 24-SI-2001/02 PIPE TO ELBOW B-36 > C-F-1 C5.11 24-SI-2001/03 ELBOW TO PIPE B-36 , l C-F-1 I i C5.11 . I24-SI-2001/04 PIPE TO ELBOW B-36 C-F-1 ! ! C5.11 l l24-SI-2001/05 ELBOW TO FLANGE l B-36 C-F-1 ! C5.11 124-SI-2001/06 FLANGE TO PIPE ! B-36 , C-r-1 l C5.11 I24-SI-2001/07 PIPE TO ELBOW B-36 C-F-1 l C5.11 24-SI-2001/08 ELBOW TO PIPE B-36 ; C-F-1 i ! C5.11 24-SI-2001/09 PIPE TO PIPE B-36 C-F-1 l l C5.11 l 24-SI-2001/09A PIPE TO PIPE B-36 ; C-F-1 i C5.11 ! 24-SI-2001/10 PIPE TO PIPE B-36
- C-F-1 l C5.11 ! 24-SI-2001/11 PIPE TO TEE B-36 C-F-1 i i C5.11 ! 124-SI-2001/12 TEE TO PIPE ! B-36 C-F-1 1 95 C5.11 l 24-SI-2001/13 PIPE TO ELBOW l B-36 C-F-1 i C5.11 ,
24-SI-2001/14 ELBOW TO PIPE B-36 C-F-1 C5.11 24-SI-2001/15 PIPE TO TEE B-36 C-F-1 C5.11 24-SI-2001/16 TEE TO REDUCER B-36 C-F-1 C5.11 24-SI-2002/01 FLANGE TO PIPE B-37 ; C-F-1 C5.11 24-SI-2002/01A PIPE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/02 PIPE TO ELBOW B-37 C-r-1 C5.11 24-SI-2002/03 ELBOW TO VALVE B-37 C-F-1 C5.11 24-SI-2002/04 VALVE TO PIPE B-37 l C-F-1 C5.11 24-SI-2002/04A PIPE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/05 PIPE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/06 PIPE TO PIPE B-37 ; C-F-1 C5.11 24-SI-2002/07 PIPE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/10 PIPE TO PIPE B-37 ] C-F-1 C5.11 24-SI-2002/10A PIPE TO PIPE B-37 ] C-F-1 C5.11 24-SI-2002/11 PIPE TO TEE B-37 i C-F-1 C5.11 24-SI-2002/12 TEE TO PIPE B-37 C-F-1 98 C5.11 24-SI-2002/13 PIPE TO ELBOW B-37 C-F-1 l C5.11 24-SI-2002/14 ELBOW TO PIPE B-37 C-F-1 l C5.11 24-SI-2002/15 PIPE TO ELBOW B-37 C-r-1 i 98 I C5.11 l 24-SI-2002/16 ELBOW TO PIPE B-37 C-F-1 I C5.11 24-SI-2002/17 PIPE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/18 PIPE TO TEE B-37 C-F-1 C5.11 24-SI-2002/19 TEE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/19A PIPE TO TEE B-37 C-F-1 C5.11 24-SI-2002/20 TEE TO PIPE B-37 C-F-1 C5.11 24-SI-2002/21 PIPE TO TEE B-37 R3 September 1. 1995 Page 89 of 280
CLASS 2 CI. ASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # f TYPE COMPONENT DESCRIPTION ISO # C-F-1 98 C5.11 l 24-SI-2002/22 TEE TO CAP B-37 C-F-1 C5.11 l 6-SI-2002/01 REDUCER TO ELBOW B-42 C-r-1 C5.11 ! 6-SI-2002/02 ELBOW TO PIPE B-42 C-F-1 f 98 C5.11 l 16-SI-2002/03 PIPE TO ELBOW B-42 C-r-1 l C5.11 l I6-SI-2002/04 ELBOW TO PIPE B-42 C-F-1 l C5.11 l l6-SI-2002/05 PIPE TO ELBOW B-42 C-F-1 98 C5.11 l 6-SI-2002/06 ELBOW TO PIPE B-42 C-F-1 ~ C5.11 i 6-SI-2002/07 PIPE TO ELBOW B-42 C-F-1 C5.11 l 6-SI-2002/08 ELBOW TO PIPE B-42 C-F-1 l C5.11 ! l6-SI-2002/09 PIPE TO ELBOW B-42 C-F-1 l C5.11 16-SI-2002/10 ELBOW TO PIPE B-42 C-r-1 I ! C5.11 . !6-SI-2002/11 l PIPE TO ELBOW B-42 C-F-l ! C5.11 56-SI-2002/12 l ELBOW TO PIPE- B-42 C-F-1 l C5.11 6-SI-2002/13 ! PIPE '$ ELBOW B-42 C-F-1 i C5.11 6-51-2002/14 IELBOW TO ELBOW B-42 C-r-1 t l C5.11 '6-SI-2002/15 lELBOW TO FLANGE i B-42 C-F-1 i 01 C5.11 26-SI-2002/16 lELBOW TO FLANGE B-42 _ C-F-1 ! C5.11 :6-SI-2002/17 l ELBOW TO FLANGE B-42
-F-1 f C5.11 '6-SI-2002/18 IELBOW TO FLANGE B-42 C-F-1 d C5.11 6-SI-2002/19 : ELBOW TO FLANGE B-42 C-F-1 i C5.11 6-SI-2012/10 -REDUCER TO PIPE B-33 C-F-1 C5.11 (-SI-2012/11 PIFE TO VALVE ! B-33 C-F-1 01 C5.11 6-SI-2014/20 tREDUCEP TO FIPE i B-34 C-F-1 C5.11 6-SI-2014/21 IPIPE TO PIPE l B-34 )
C-F-1 l C5.11 l i6-SI-2014/22 PIPE TO VALVE B-34 C-F-1 C5.11 I i 6-SI-2022/10 REDUCER TO PIPE B-31 I C-F-1 C5.11 l 6-SI-2022/11 PIPE TO VALVE B-31 ! C-F-1 C5.11 l 6-SI-2024/10 REDUCER TO PIPE B-32 C-F-1 C5.11 6-SI-2024/11 PIPE TO PIPE B-32 C-r-1 C5.11 6-SI-2024/12 PIPE TO VALVE B-32 C-F-1 01 C5.12 12-CSS-2001/01D LONG SEAM WELD B-19 C-F-1 C5.12 l 112-CSS-2001/02D LONG SEAM WELD B-19 C-F-1 C5.12 l l12-CSS-2001/02U LONG SEAM WELD B-19 C-F-1 C5.12 l l12-CSS-2001/03D LONG SEAM WELD B-19 C-F-1 C5.12 12-CSS-2001/03U ILONG SEAM WELD B-19 C-F-1 C5.12 12-CSS-2001/04D LONG SEAM WELD B-19 { j C-F-1 C5.12 12-CSS-2001/04U LONG SEAM WELD B-19 i C-F-1 C5.12 12-CSS-2001/05D LONG SEAM WELD B-19 C-F-1 C5.12 12-CSS-2001/05U LONG SEAM WELD B-19 C-F-1 C5.12 CSS-2001/06D ILONG SEAM WELD B-19 4 C-r-1 l ! C5.12 l12-CSS-2001/06U 'LONG SEAM WELD 1 B-19 C-F-1 j l C5.12 il2-CSS-2001/07D LONG SEAM WELD B-19 C-F-1 3 C5.12 :12-CSS-2001/070 LONG SEAM WELD B-19 [ C-F-1 i C5.12 112-CSS-2001/08U LONG SEAM WELD B-19 j C-F-1 ! C5.12 i !12-CSS-2001/09D LONG SEAM WELD B-19 C-F-1 I C5.12 12-CSS-2001/100 LONG SEAM WELD B-19 C-F-1 C5.12 12-CSS-2001/11D LONG SEAM WELD B-19 C-F-1 C5.12 12-CSS-2001/12D LONG SEAM WELD B-19 C-r-1 C5.12 12-CSS-2001/12U LONG SEAM WELD B-19 C-F-1 C5.12 112-CSS-2001/13AD LONG SEAM WELD B-19 i R3 September 1. 1995 Page 90 of 280 i
-- . .- .- _ - . . - - _ _ . _ - - - - -. . ._- =. . .- . ..- . - . . . 1 CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY I 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # I C-F-1 l C5.12 12-CSS-2001/13U LONG SEAM WELD B-19 C-F-1 ! C5.12 12-CSS-2001/14D LONG SEAM WELD B-19 C-F-1 l l C5.12 12-CSS-2001/14U LONG SEAM WELD B-19 C-F-1 l 95 } C5.12 l12-CSS-2001/15U LONG SEAM WELD B-19 C-F-1 l C5.12 l12-CSS-2001/16D LONG SEAM WELD B-19 C-F-1 ! 95 C5.12 l 12-CSS-2001/17 D LONG SEAM WELD B-19 C-F-1 l 95 05.12 il2-CSS-2001/17U LONG SEAM WELD B-19 C-r-1 l C5.12 l12-CSS-2001/180 LONG SEAM WELD B-19 C-r-1 f C5.12 112-CSS-2001/19D LONG SEAM WELD B-19 C-F-1 I l C5.12 l l12-CSS-2001/20D LONG SEAM WELD B-19 C-r-1 l C5.12 i jl2-CSS-2001/20U LONG SEAM WELD B-19
'C-F-1 ! C5.12 l12-CSS-2001/21D lLONG SEAM WELD B-19 C-F-1 C5.12 12-CSS-2001/21U !LONGSEAMWELD B-19 C-F-1 C5.12 '12-CSS-2001/22D ILONG SEAM WELD i B-19 C-F-1 l C5.12 _12-CSS-2001/22U lLONG SEAM WELD B-19 C-F-1 C5.12 ;12 -CSS-2001/ 2 3 D !LONG SEAM WELD B-19 C-F-1 C5.12 !L2-CSS-2001/230 lLONG SEAM WELD j B-19 C-r-1 C5.12 , ;12-CSS-2001/24D lLONG SEAM WELD I B-19 C-F-1 ,
C5.12 l12-CSS-2001/24U ILONG SEAM WELD i B-19 C-F-1 C5.12 12-CSS-2001/25U -LONG SEAM WELD l B-19 C-F-1 C5.12 '12-CSS-2002/06D LONG SEAM WELD i B-20 C-F-1 C5.12 '12-CSS-2002/07U ;LONG SEAM WELD B-20 C-F-1 C5.12 '12-CSS-2002/08D tLONG SEAM WELD t B-20 C-F-1 i C5.12 :12-CSS-2002/090 lLONG SEAM WELD B-20 C-F-1 ' l C5.12 l 12-CSS-2004/01D lLONG SEAM WELD I B-38 C-F-1 l 95 i C5.12 l 12-CSS-2004/02U LONG SEAM WELD B-38 C-r-1 l 95 C5.12 I 12-CSS-2004/03D LONG SEAM WELD B-38 C-F-1 C5.12 l 12-CSS-2004/04D LONG SEAM WELD B-38 C-r-1 C5.12 12-CSS-2004/04U LONG SEAM WELD B-38 C-F-1 C5.12 12-CSS-2004/05U LONG SEAM WELD B-38 C-F-1 96 C5.12 12-CSS-2004/07D LONG SEAM WELD B-38 C-F-1 C5.12 12-CSS-2004/08D LONG SEAM WELD B-38 C-F-1 C5.12 12-CSS-2004/080 LONG SEAM WELD B-38 C-F-1 C5.12 12-CSS-2004/09U LONG SEAM WELD B-38 C-r-1 C5.12 12-CSS-2005/01D LONG SEAM WELD B-38 C-F-1 l C5.12 12-CSS-2005/02D LONG SEAM WELD B-38 C-F-1 C5.12 12-CSS-2005/02U LONG SEAM WELD B-38 . C-F-1 01 C5.12 12-CSS-2005/03D lLONG SEAM WELD B-38 C-F-1 01 l C5.12 l12-CSS-2005/03U lLONG SEAM WELD i B-38 C-F-1 01 ' C5.12 :12 -CSS-2005 /04 D iLONG SEAM WELD ! B-38 C-F-1 01 C5.12 112-CSS-2005/04U lLONG SEAM WELD B-38 C-F-1 ' C5.12 l12-CSS-2005/05D lLONG SEAM WELD B-38 C-F-1 C5.12 '12-CSS-2005/05U iLONG SEAM WELD B-38 c-F-1 C5.12 12-CSS-2005/060 lLONG SEAM WELD B-38 j C-F-1 i C5.12 12-CSS-2011/04U LONG SEAM WELD B-38
, C-F-1 C5.12 12-CSS-2011/07D LONG SEAM WELD B-39 i C-F-1 01 C5.12 12-CSS-2011/08U LONG SEAM WELD B-39 C-r-1 C5.12 12-CSS-2012/05D lLONG SEAM WELD B-39 C-r-1 01 C5.12 , 12-CSS-2012/06U !LONG SEAM WELD B-39 C-F-1 01 C5.12 l 12-CSS-2012/07D lLONG SEAM WELD B-39 R3 September 1. 1995 Page 91 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # TYPE . COMPONENT DESCRIPTION ISO # I i C-F-1 C5.12 l12-CSS-2012 / 080 LONG SEAM WELD , B-39 P C-r-1 C5.12 12-LPH-2001/10D LONG SEAM WELD B-16 C-F-1 95 C5.12 12-LPH-2001/110 LONG SEAM WELD B-16 C-r-1 01 C5.12 12-LPH-2001/14D LONG SEAM WELD B-16 C-F-1 C5.12 12-LPH-2001/15D LONG SEAM WELD B-16 C-F-1 C5.12 l12-LO'-2001/15U LONG SEAM WELD _ B-16 C-F-1 01 C5.12 12-LPH-2001/16D LONG SEAM WELD l B-16 C-F-1 01 C5.12 12-LPH-2001/16U LONG SEAM WELD B-16 C-F-1 C5.12 12-LPH-2001/17U LONG SEAM WELD B-16 C-F-1 I C5.12 12-LPH-2001/18D LONG SEAM WELD B-16 C-F-1 1 C5.12 !12-LPH-2001/19U LONG SEAM WELD B-16 N F- 1 I C5.12 t 12-LPSI-2002/01D .LONG SEAM WELD B-17 2-F-l 95 i C5.12 !12-LPSI-2002/020 lLONG SEAM WELD l B-17 C-F-1 01 i C5.12 ' 12-LPSI-2002/03D lLONG SEAM WELD 6 B-17 C-F-1
- C5.12 12-LFSI-2002/04U 'LONG SEAM WELD D-17 C-F-1 95 C5.12 t 412-LPSI-2002/0$D iLONG SEAM WELD i B-17 C - F- 1 ! l 05.12 l '12-LPSI-2002/06AE ILONG SEAM WELD l B-17 C-F-1 I C5.12 il2-LPSI-2002/06AI ILONG SEAM WELD B-17 C-F-1 ! C5.12 i ' 12-L PSI-2 002 / 06 AU lLONGSEAMWELD B-17 C-F-1 C5.12 :12-LPSI-2002/06U jLONG SEAM WELD l B-17 C-F-1 i C5.12 12-LPSI-2002/09D lLONG SEAM WELD ! B-17 C-F-1 , C5.12 12-LPSI-2002/09D !LONG CEAM WELD l B-17 C-F-1 C5.12 12-LPSI-2002/09U iLONG SEAM WELD ! B-17 C-F-1 ! I C5.12 :12-LPSI-2002/10AD iLONG SEAM WELD B-17 C-F-1 l l C5.12 l l12-LPSI-2002/10AU lLONGSEAMWELD B-17 C-F-1 l l C5.12 l il2-LPSI-2002/10D 'LONG SEAM WELD B-17 C-F-1 C5.12 I12-LPSI-2002/10U LONG SEAM WELD B-17 C-r-1 C5.12 12-LPSI-2002/11D LONG SEAM WELD B-17 C-F-1 C5.12 12-LPSI-2002/11U LONG SEAM WELD B-17 C-F-1 C5.12 12-LPSI-2002/12D LONG SEAM WELD l B-17 C-F-1 C5.12 12-LPSI-2002/12U LONG SEAM WELD B-17 C-F-1 C5.12 l12-LPSI-2002/13D LONG SEAM WELD B-17 C-F-1 C5.12 12-LPSI-2002/130 LONG SEAM WELD B-17 C-F-1 C5.12 12-LPSI-2002/14U LONG SEAM WELD B-17 C-F-1 98 C5.12 12-LPSI-2002/15D LONG SEAM WELD B-17 C-F-1 C5.12 12-LPSI-2002/16D LONG SEAM WELD B-17 C-r-1 I C5.12 12-LPSI-2002/160 LONG SEAM WELD B-17 C-F-1 C5.12 12-LPSI-2002/17U LONG SEAM WELD B-17 C-F-1 95 C5.12 ! 12-LPSI-2002/1BD LONG SEAM WELD 1 B-17 C-F-1 95 ! C5.12 il2-LPSI-2002/19U ;LONG SEAM WELD l B-17 C-F-1 ! C5.12 il2-LPSI-2002/23AE ILONG SEAM WELD i B-17 C-F-1 l C5.12 i !12-LPSI-2002/23AI :LONG SEAM WELD B-17 C-F-1 C5.12 4 12-LPSI-2003/01U iLONG SEAM WELD B-18 C-F-1 i C5.12 !12-LPSI-2003/02D LONG SEAM WELD B-18 C-F-1 C5.12 ! 12-LPSI-2003/12D LONG SEAM WELD B-18 C-F-1 '
C5.12 l 12-LPSI-2003/13U LONG SEAM WELD B-18 C-F-1 C5.12 12-LPSI-2003/14D LONG SEAM WELD B-18 C-F-1 C5.12 12-LPSI-2003/15D LONG SEAM WELD B-18 C-F-1 C5.12 12-LPSI-2003/150 LONG SEAM WELD B-18 C-F-1 C5.12 12-LPSI-2003/16U LONG SEAM WELD B-18 R3 September 1. 1995 Page 92 of 280
i 2 CLASS 2 i I CLASS 2 COMPONENTS AND SUPPORTS l REV.1
! l I CATEGORY l 3RD INT l ITEM # ! TYPE COMPONENT DESCRIPTION ISO #
1 C-F-1 C5.12 l 12-LPSI-2003/18D ILONG SEAM WELD B-18 l C-F-1 01 l C5.12 1 12-LPSI-2003/190 LONG SEAM WELD B-18 C-F-1 l C5.12 1 12-LFSI-2003/23D LONG SEAM WELD B-18 j C-F-1 C5.12 12-LPSI-2003/24D !LONGSEAMWELD B-18 j C-F-1 C5.12 l12-LPSI-2003/240 LONG SEAM WELD B-18 C-F-1 C5.12 i ! 12-LPS I-2003 /2 5 D LONG SEAM WELD B-18 j C-F-1 C5.12 12-LPSI-2003/25U LONG SEAM WELD B-18 { C-F-1 C5.12 i 12-LPSI-2003/260 LONG SEAM WELD B-18 C-r-1 C5.12 i 12-LPSI-2003/26U LONG SEAM WELD B-18 C-F-1 l C5.12 i l12-LPSI-2003/27U LONG SEAM WELD B-18 *
- C-F-1 l C5.12 ' l 12-LFS I-2003 / 28CD LONG SEAM WELD B-18 C-F-1 ! I C5.12 il2-LPSI-2003/29U fLONGSEA" WELD B-18 1
C-F-1 C5.12 !12-LFSI-2003/35D !LONG SEAM WELD B-18 d C-F-1 C5.12 12-LESI-2003/3ED lLONG SEAM WELD i B-18 I j C-F-1 C5.12 12-LFSI-2003/360 lLONG SEAM WELD ' B-18 > C-F-1 96 C5.12 ' 12-LESI-2003/37U iLONG SEAM WELD i B-1E l C-F-1 C5.12 !!2-SDC-2001/16D lLONG SEAM WELD B-21 C-F-1 ' C5.12 !12-SDC-2001/17U lLONG SEAM WELD B-21 ! C-F-1 I C5.12 12-SDC-2002/02D ILONG SEAM WELD B-22 C-r-1 ' C5.12 112-SDC-2002/03D !LONG SEAM WELD i B-22 ! C-F-1 C5.12 12-SDC-2002/03U lLONG SEAM WELD l B-22 l C-F-1 C5.12 12-SDC-2002/04D 'LONG SEAM WELD B-22 l j C-F-1 C5.12 12-SDC-2002/040 'LONG CEAM WELD i B-22 C-F-1 C5.12 412-SDC-2002/05U !LONG SEAM WELD B-22 1 i C-F-1 ! 6 C5.12 112-SDC-2002/06D ILONG SEAM WELD B-22 i : : i C-F-1 i C5.12 ! ! l12-SDC-2002/07U 'LONG SEAM WELD B-22 i l C-F-1 C5.12 l 12-SDC-2002/08U LONG SEAM WELD B-22 i C-F-1 C5.12 l 12-SDC-2002/11D LONG SEAM WELD B-22 I 12-SDC-2002/11U LONG SEAM WELD B-22 C-F-1 C5.12 i C-F-1 C5.12 i 12-SDC-2002/12D LONG SEAM WELD B-22 i C-F-1 C5.12 i 12-SDC-2002/12U LONG SEAM WELD B-22 C-F-1 C5.12 1 12-SDC-2002/13D LONG SEAM WELD B-22 C-r-1 ! C5.12 l 12-SDC-2002/130 LONG SEAM WELD B-22 C-F-1 l C5.12 l 12-SDC-2002/14D LONG SEAM WELD B-22 C-r-1 ! C5.12 12-SDC-2002/14U LONG SEAM WELD B-22 i C-F-1 l C5.12 + 12-SDC-2002/15U LONG SEAM WELD B-22 C-F-1 l C5.12 i 12-SDC-2002/16D LONG SEAM WELD B-22 I C-F-1 01 C5.12 ! 12-SDC-2002/17U LONG SEAM WELD B-22 C-F-1 C5.12 _12-SDC-2003/05D .LONG SEAM WELD B-22A l C-F-1 l 05.12 !12-SDC-2003/06U !LONG nEAM WELD i B-22A ) C-F-1 l i C5.12 !12-SDC-2003/070 lLONGSEAMWELD B-22A , { C-F-1 ! l C 5 .1 {12-SDC-2003/080 LONG SEAM WELD B-22A L C-F-1 C5.12 112-SDC-2003/09AD LONG SEAM WELD B-22A C-F-I C5.12 il2-SDC-2003/09AU LONG SEAM WELD B-22A C-F-1 C5.12 i !12-SDC-2003/09BD LONG SEAM WELD B-22A j l C-F-1 i C5.12 I 12-SDC-2003/09BU LONG SEAM WELD B-22A
- C-F-1 C5.12 12-SDC-2003/090 LONG SEAM WELD B-22A C-F-1 C5.12 12-SDC-2003/10U LONG SEAM WELD B-22A I 3
C-F-1 C5.12 12-SDC-2003/14AD LONG SEAM WELD I B-22A C-F-1 C5.12 112-SDC-2003/14AU ILONG SEAM WELD l B-22A . R3 September 1, 1995 Page 93 of 280 ; _ , v. - f
CLASS 2 i CLASS 2 COMPONENTS AND SUPPORTS REV.1 l l I CATEGORY l 3RD INT ITEM # TYPE j COMPONENT DESCRIPTION ISO # C-F-1 C5.12 l 12-SDC-2003/14D LONG SEAM WELD IB-22A C-F-1 C5.12 l 12-SDC-2003/15U LONG SEAM WELD B-22A C-F-1 C5.12 l 12-SDC-2020/05D LONG SEAM WELD B-11 C-F-1 C5.12 l 12-SDC-2020/060 LONG SEAM WELD B-11 C-F-1 C5.12 l 12 -S DC-2 02 0 / 08 D LONG SEAM WELD B-11 C-F-1 C5.12 12-SDC-2020/090 lLONGSEAMWELD B-11 C-r-1 98 C5.12 12-SDC-2020/12D lLONG SEAM WELD B-11 C-F-1 C5.12 12 -S DC-2020 /13 D LONG SEAM WELD B-11 C-F-1 1 C5.12 12-SDC-2020/13U LONG SEAM WELD B-11 C-F-1 ! l C5.12 l 12-SDC-2020/14D LONG SEAM WELD B-11 C-F-1 ! j C5.12 ! 12-SDC-2020/14U LONG SEAM WELD B-11 C-F-1 i ! C5.12 i 112-SDC-2020/15D ILONG SEAM WELD B-11 0-F-1 '
, C5.12 '
12-SDC-2020/15U iLONG SEAM WELD B-11 C-F-1 i C5.12 '12-SDC-2020/16U ILONG SEAM WELD i B-11 C-F-1 i C5.12 12-SDC-2020/18D ,LONG SEAM WELD i B-11 C-F-1 01 , C5.12 :12-SDC-2020/20D lLONG SEAM WELD , B-11 C-F-1 01 f C5.12 il 2 -S DC-202 0 / 2 00 lLONG SEAM WELD l B-11 C-E-1 , I C5.12 , l12-SDC-2020/21U LONG SEAM WELD B-11 C-F-1 C5.12 ;20-SI-2001/01AD LONG SEAM WELD B-36 C-F-1 C5.12 i20-SI-2001/01AU iLONG SEAM WELD B-36 C-F-1 C5.12 20-SI-2001/01BU !LONG SEAM WELD B-36 C5.12 C-F-1 ' 20-S I- 2 001/ 01 DD 'LONG SEAM WELD B-36 C-F-1 C5.12 j0-SI-2001/01DS (LONG SEAM WELD 7 B-36 C-F-1 ! C5.12 !20-SI-2001/01ED ILONG SEAM WELC l B-36 C-F-1 1 C5.12 l 20-SI-2001/01EU LONG SEAM WELD l B-36 l C-F-1 l C5.12 20-SI-2001/02D LONG SEAM WELD B-36 C-F-1 C5.12 20-SI-2001/02U LONG SEAM WELD B-36 ; C-r-1 95 C5.12 20-SI-2001/03D LONG SEAM WELD B-36 l C-r-1 95 C5.12 20-SI-2001/03U LONG SEAM WELD B-36 I C-F-1 C5.12 20-SI-2001/04E LONG SEAM WELD B-36 j C-E-1 C5.12 20-SI-2001/041 LONG SEAM WELD B-36 C-F-1 C5.12 20-SI-2001/04U LONG SEAM WELD B-36 l C-F-1 C5.12 20-SI-2001/05E LONG SEAM WELD B-36 i C-F-1 C5.12 20-SI-2001/05I LONG SEAM WELD B-36 I C-F-1 C5.12 20-SI-2002/01U LONG SEAM WELD B-37 l C-F-1 C5.12 20-SI-2007/02D LONG SEAM WELD B-37 C-F-1 C5.12 20-SI-2002/02E LONG SEAM WELD B-37 C-F-1 C5.12 20-SI-2002/02I LONG SEAM WELD B-37 C-F-1 l C5.12 !20-SI-2002/03E lLONG SEAM WELD ' B-37 C-F-1 ! l C5.12
- l20-SI-2002/03I ILONG SEAM WELD '
B-37 C-E-1 ! C5.12 > l24-SI-2001/01D I LONG SEAM WELD B-36 c-F-1 i i C5.12 ! l24-SI-2001/02E ILONG SEAM WELD B-36 C-r-1 ' C5.12 [24-SI-2001/02I 'LONG SEAM WELD B-36 C-F-1 C5.12 l24-SI-2001/02U LONG SEAM WELD B-36 C-F-1 l C5.12 i 24-SI-2001/03E LONG SEAM WELD B-36 c-r-1 i C5.12 i 24-SI-2001/03I LONG SEAM WELD B-36 C-F-1 C5.12 l 24-SI-2001/04E LONG SEAM WELD B-36 C-F-1 C5.12 24-SI-2001/04I LONG SEAM WELD B-36 C-r-1 C5.12 24-SI-2001/05E LONG SEAM WELD B-36 C-F-1 C5.12 24-SI-2001/05I LONG SEAM WELD B-36 R3 September 1, 1995 Page 94 of 280
CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1 1 I I i CATEGORY l 3RD INT ITEM # l TYPE l COMPONENT DESCRIPTION ISO # l C-F-1 C5.12 I24-SI-2001/06D LONG SEAM WELD B-36 C-F-1 C5.12 ! 24-SI-2001/07E LONG SEAM WELD B-36 C-E-1 C5.12 { 24-SI-2001/07I _LONG SEAM WELD B-36 C-F-1 C5.12 I l24-SI-2001/07U LONG SEAM WELD B-36 C-F-1 C5.12 l l 2 4 -SI-2001/ 08 D LONG SEAM WELD B-36 C-F-1 C5.12 i l24-SI-2001/08E LONG SEAM WELD B-36 C-F-1 C5.12 124-SI-2001/081 LONG SEAM WELD B-36 C-F-1 C5.12 l24-SI-2001/09AD LONG SEAM WELD B-36 C-E-1 C5.12 !24-SI-2001/09AU LONG SEAM WELD B-36 C-r-1 I l C5.12 l l24-SI-2001/09D LONG SEAM WELD B-36 C-r-1 C5.12 I (24-SI-2001/090 lLONG SE.AM WELD B-36 C-F-1 ' C5.12 124-SI-2001/100 lLONGSEAMWELD B-36
- - F- 1 i C5.12 124-51-2001/100 fLONG SEAM WELD B-36 7 -F-1 C5.12 24-SI-200 U11D lLONG SEAM WELD B-36 C-F-1 i C5.12 24-SI-2Cvu 11U lLONG SEAM WELD B-36 C-F-1 C5.12 24-SI-2001/12D lLONG SEAM WELD B-36 C-r-1 ' l C5.12 <24-SI-2001/120 ILONG SEAM WELD i B-36 C-F-1 95 i C5.12 24-SI-2001/13E iLONG SEAM WELD i B-36 C-F-1 95 C5.12 ' 24-SI-2001/131 lLONGSEAMWELD l B-36 C-F-1 95 C5.12 24-SI-2001/130 'LONG SEAM WELD ; B-36 C-F-1 C5.12 24-SI-2001/14D .LONG SEAM WELD i B-36 C-F-1 C5.12 24-SI-2001/14E LONG SEAM WELD B-36 C-F-1 C5.12 24-SI-2001/141 LCNG SEAM WELD B-36 C-F-1 ,
C5.12 24-SI-2001/15U lLONG SEAM WELD . B-36 C-F-1 C5.12 1 124-SI-2002/01AD !LONG SEAM WELD ! B-37 C-F-1 C5.12 I 24-SI-2002/02E LONG SEAM WELD B-37 C-F-1 C5.12 l 24-SI-2002/02I LONG SEAM WELD B-37 C-F-1 C5.12 24-SI-2002/02U LONG SEAM WSLD B-37 C-F-1 C5.12 24-SI-2002/03E LONG SEAM WELD B-37 C-F-1 C5.12 24-SI-2002/03I LONG SEAM WELD B-37 C-F-1 C5.12 24-SI-2002/04AD LONG SEAM WELD B-37 C-F-1 C5.12 24-SI-2002/04AU LONG SEAM WELD B-37 C-r-1 C5.12 ! l24-SI-2002/04D LONG SEAM WELD B-37 C-F-1 C5.12 l {24-SI-2002/05D LONG SEAM WELD B-37 C-F-1 C5.12 I l24-SI-2002/05U LONG SEAM WELD B-37 C-F-1 C5.12 l I24-SI-2002/06D LONG SEAM WELD B-37 C-F-1 C5,12 l 24-SI-2002/06U !LONG SEAM WELD B-37 C-F-1 C5.12 24-SI-2002/07D lLONGSEAMWELD l B-37 C-F-1 C5.12 24-SI-2002/07U ILONG SEAM WELD B-37 C-F-1 , C5.12 '24-SI-2002/10AD iLONG SEAM WELD B-37 C-F-1 i C5.12 .24-SI-2002/10AU LONG SEAM WELD i B-37 C-F-1 i i C5.12 l l24-SI-2002/10D 'LONG SEAM WELD
. B-37 C-F-1 C5.12 i24-SI-2002/10U lLONG SEAM WELD B-37 c-F-1 i C5.12 :24-SI-2002/11D LONG SEAM WELD B-37 C-F-1 .
C5.12 l 24-SI-2002/11U LONG SEAM WELD B-37 C-F-1 [ C5.12 l 24-SI-2002/120 LONG SEAM WELD B-37 C-F-1 ( 98 C5.12 24-SI-2002/13E LONG SEAM WELD B-37 C-F-1 98 C5.12 24-SI-2002/13I lLONG SEAM WELD B-37 C-F-1 C5.12 124-SI-2002/14E LONG SEAM WELD B-37 C-F-1 i C5.12 I24-SI-2002/14I LONG SEAM WELD B-37 R3 September 1, 1995 Page 95 of 280
CLASS 2 1 -CI?JS 2 COMPONENTS AND SUPPORTS REV.1 I ! ! I CATEGORY 3RD INT l ITEM # I TYPE l COMPONENT DESCRIPTION ISOf j i i C-F-1 l 98 I C5.12 l 24-SI-2002/16D lLONG SEAM WELD B-37 C-F-1 ! I C5.12 I 24-SI-2002/17D LONG SEAM WELD B-37 C-F-1 1 C5.12 ! 24-SI-2002/17U LONG SEAM WELD B-37 C-F-1 ! C5.12 l 24-SI-2002/18D LONG SEAM WELD B-37 C-F-1 _ l C5.12 { 24-SI-2002/18U lLONG SEAM WELD B-37 C-F-1 l l C5.12 l l24-SI-2002/19AD 'LONG SEAM WELD B-37 C-F-1 1 C5.12 l24-SI-2002/19AU LONG SEAM WELD B-37 C-E-1 C5.12 l 2 4 -SI-2002 /19D LONG SEAM WELD B-37 C-F-1 C5.12 f24-SI-2002/19U LONG SEAM WELD B-37 C-F-1 ! ! C5.12 24-SI-2002/1AD LONG SEAM WELD B-37 C-F-1 I 1 C5.12 t 24-SI-2002/20D LONG SEAM WELD B-37 C-F-1 l l C5.12 t I24-SI-2002/200 ILONG SEAM WELD B-37 C-F-1 C5.12 ' I:4-SI-2002/21D iLONG SEAM WELD l B-37 C-E-1 C5.12 !:4-SI-2002/21U iLONG SEAM WELD ! B-37 C-F-1 99 C5.12 :24-SI-2002/22U LONG SEAM WELD B 3~ _ C-F-1 C5.12 1 6-SI-2002/020 :LONG SEAM WELD B-42 C-F-1 98 C5.12 '6-SI-2002/03D ILONG SEAM WELD ! B-42 C-F-1 98 C5.12 !6-SI-2002/03U lLONG SEAM WELD l B-42 C-F-1 C5.12 ;6-SI-2002/04D lLONG SEAM WELD l B-42 C-E-1 C5.12 [6-SI-2002/04U !LONG SEAM WELD l B-42 C-F-1 C5.12 6-SI-2002/05D 'LONG SEAM WELD l B-42 j C-r-1 C5 12 6-SI-2002/05U lLONG SEAM WELD I B-42 C-F-1 98 C5.12 i6-SI-2002/06D 'LONG SEAM WELD B-42 C-F-1 98 C5.12 j6-SI-2002/06U lLONG SEAM WELD ' B-42 l C-F-1 , i C5.12 ' j6-SI-2002/07U !LONG SEAM WELD B-42 l C-F-1 I l C5.12 l !6-SI-2002/10D lLONG SEAM WELD B-42 C-r-1 l C5.12 l I6-SI-2002/11D lLONG SEAM WELD B-42 l C-F-1 C5.12 1 6-SI-2002/11U lLONGSEAMWELD B-42 i C-F-1 C5.12 l 6-SI-2002/12D LONG SEAM WELD B-42 C-F-1 C5.12 6-SI-2002/120 LONG SEAM WELD B-42 C-F-1 C5.12 6-SI-2002/13D LONG SEAM WELD B-42 C-F-1 C5.12 6-SI-2002/13U LONG SEAM WELD B-42 4 C-F-1 C5.12 6-S2-2002/14U LONG SEAM WELD B-42 C-F-1 C5.21 l 2.5-CH-10/01 EXPANDER TO ELBOW B-64 C-r-1 C5.21 l TERM ENDl2.5-CH-10/02 ELBOW TO NOZZLE B-64 C-F-1 l C5.21 l 2.5-CH-1E/01 l EXPANDER TO PIPE l B-66 l C-F-1 i C5.21 l 2.5-CH-16/02 PIPE TO FLANGE I B-66 C-F-1 l C5.21 1 j2.5-CH-16/03 FLANGE TO PIPE l B-66 C-F-1 01 I C5.21 1 '2.5-CH-16/04 IPIPE TO REDUCER i B-66 C-F-1 ! C5.21 '4-CH-10/01 l PIPE TO PIPE B 73 C-r-1 C5.21 '4-CH-10/01A iPIPE TO ELBOW ! B-73 _ C-F-1 ! C5.21 i :4-CH-10/02 IELBOW TO PIPE B-73 C-F-1 C5.21 !4-CH-10/03 PIPE TO ELBOW B-73 c-F-1 C5.21 l 4 -CH-10 / 0 4 ELBOW TO PIPE B-73 ) C-F-1 ! C5.21 4-CH-10/04A PIPE TO PIPE B-73 C-F-1 ! ! C5.21 4-CH-10/05 PIPE TO PIPE B-73 C-F-1 C5.21 4-CH-10/05A PIPE TO PIPE B-73 C-F-1 C5.21 4-CH-10/06 PIPE TO ELBOW B-73 C-F-1 C5.21 4-CH-10/07 ELBOW TO PIPE l B-73 l C-F-1 C5.21 4-CH-10/08 PIPE TO ELBOW l B-73 R3 September 1. 1995 Page 96 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 j CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISOS C-F-1 C5.21 4-CH-10/09 ELBOW TO PIPE B-73 C-F-1 C5.21 1 4-CH-10/10 PIPE TO ELBOW B-73 C-r-1 C5.21 l 4-CH-10/11 ELBOW TO PIPE B-73 C-r-1 01 C5.21 I 4-CH-10/12 PIPE TO ELBOW B-73 C-F-1 C5.21 4-CH-10/13 ELBOW TO PIPE B-73 C-F-1 C5.21 4-CH-10/14 PIPE TO ELBOW B-73 C-F-1 C5.21 4-CH-10/15 ELBOW TO VALVE B-73 C- F- 1 C5.21 4-CH-10/16 VALVE TO ELBOW B-73 C-F-1 C5.21 l1-CH-10/17 PIPE TO VALVE B-73 C-r-1 l C5.21 1 !4-CH-10/18 VALVE TO PIPE B-73 C-F-1 ! 01 l C5.21 i i4-CH-10/19 PIPE TO VALVE B-73
- C-F-1
! C5.21 l 14-CH-10/20 VALVE TO PIPE B-73 '
C-F-1 01 C5.21 l4-CH-10/21 l PIPE TO ELBOW B-73 { C-F-1 01 C5.21 ,4-CH-10/22 l ELBOW TO PIPE B-73 ; C5.21 'PIFE TO ELBOW ! B-73, C-F-1 4-CH-10/23 C-F-1
- I C5.21 I4-CH-10/24 IELBOW TO PIPE '
B-73 C-F-1 i C5.21 14-CH-10/25 lPIPETOELBOW !B-73 ! C-F-1 ! 01 C5.21 i
!4-CH-10/26 !ELBCW TO ELBOW l B-73 C-F-1 ,
01 C5.21 I4-CH-10/27 ! ELBOW TO PIPE l B-73 C-F-1 i C5.21 .4-CH-10/28 ! PIPE TO PIPE l B-73 , C-r-1 i C5.21 ' TERM E!!D !4-CH-10/29 ! PIPE TO PIFE ! B-73 C-F-1 C5.21 TERM EtIDe4-CH-11/01 . PIPE TO PEDUCER I B-74 C-F-1 -C5.21 CH-11/02 REDUCER TO ELBOW B-74 C-F-1 C5.21 4-CH-11/03 ! ELBOW TO PIPE i B-74 C-F-1 C5.21 l 14-CH-11/04 PIPE TO VALVE B-74 C-F-1 C5.21 l 4-CH-11/05 VALVE TO PIPE B-74 + C-F-1 C5.21 4-CH-11/06 PIPE TO VALVE B-74 C-r-1 C5.21 4-CH-11/07 VALVE TO ELBOW B-74 C-F-1 C5.21 4-CH-11/08 ELBOW TO PIPE B-74 ' C-F-1 C5.21 4-CH-11/09 PIPE TO TEE B-74 C-F-1 C5.21 4-CH-11/10 TEE TO VALVE B-74 C-F-1 C5.21 4-CH-11/11 VALVE TO PIPE B-74 C-F-1 C5.21 4-CH-11/12 TEE TO PIPE B-74 C-r-1 C5.21 4-CH-11/13 PIPE TO ELBOW B-74 C-F-1 C5.21 l 4-CH-11/14 ELBOW TO PIPE B-74 C-F-1 C5.21 4-CH-11/15 PIPE TO ELBOW B-74 C-F-1 C5.21 4-CH-11/16 ELBOW TO PIPE B-74 C-F-1 C5.21 I 4-CH-11/16A PIPE TO PIPE i B-74 C-F-1 C5.21 fTERM ENDl4-CH-11/17 PIPE TO REDUCER i B-74 ; C-F-1 98 C5.21 ! I4-CH-11/18 1 REDUCER TO ELBOW ' B-74 f C-F-1 i f C5.21 l4-CH-11/19 l ELBOW TO PIPE B-74 C-F-1 i l C5.21 !4-CH-11/20 PIPE TO VALVE B-74 , C-F-1 4 98 C5.21 i4-CH-11/21 VALVE TO PIPE B-74 f C-F-1 C5.21 4-CH-11/22 PIPE TO VALVE B-74 , i C-F-1 C5.21 4-CH-11/23 VALVE TO ELBOW B-74 [ C-F-1 ! C5.21 4-CH-11/24 ELBOW TO PIPE B-74 C-F-1 C5.21 4-CH-11/25 PIPE TO TEE B-74 C-F-1 C5.21 1 4-CH-11/26 TEE TO PIPE B-74 i C-F-1 C5.21 4-CH-11/27 TEE TO VALVE B-74 , C-F-1 C5.21 4-CH-11/28 VALVE TO PIPE B-74 R3 September 1, 1995 Page 97 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 4 I l l CATEGORY 3RD INT ITEM # I TYPE I COMPONENT DESCRIPTION 1509 i I C-F-1 C5.21 l l4-CH-11/29 PIPE TO ELBOW B-74 C-r-1 C5.21 l I4-CH-11/30 ELBOW TO PIPE B-74 C-r-1 C5.21 l !4-CH-11/31 PIPE TO ELBOW B-74 C-F-1 C5.21 l l4-CH-11/32 _ ELBOW TO PIPE B-74 C-F-1 C5.21 I4-CH-11/33 IPIPE TO ELBOW B-74 C-F-1 C5.21 l4-CH-11/34 ELBOW TO PIPE B-74 C-F-1 C5.21 4-CH-11/35 PIPE TO PIPE B-74 C-F-1 C5.21 4-CH-12/01 PIPE TO PIPE B-75 C-F-1 C5.21 4-CH-12/01A PIPE TO ELBOW B-75 C-F-1 C5.21 i 14-CH-12/02 ELBOW TO PIPE B-75 C-F-1 l C5.21 f f4-CH-12/03 l PIPE TO ELBOW B-75 C-F-1 ! C5.21 l4-CH-12/04 {ELBOWTOPIPE B-15 C-F-1 I C5.21 4-CH-12/05 ! PIPE TO TEE B-75 C-F-1 C5.21 t TERM END 4-CH-12/06 ! PIPE TO EXPANDER l B-75 C-F-1 C5.21 4-CH-12/07 ' EXPANDER TO ELBOW B-75 i C-F-1 01 ) C5.21 .4-CH-12/08 l ELBOW TO PIPE B-75 C-F-1 ! l C5.21 I4-CH-12/09 lPIPETOVALVE ! B-75 C-F-1 l C5.21 ;4-CH-12/10 VALVE TO PIPE I B-75 C-F-1 l C5.21 l4-CH-12/11 _ PIPE TO ELBOW l B-75 C-F-1 i C5.21 .4-CH-12/12 ' ELBOW TO VALVE I B-75 C-E-1 C5.21 4-CH-12/13 IVALVE TO PIPE i B-75 C-F-1 i C5.21 4-CH-12/14 PIPE TO ELBOW B-75 C-r-1 , C5.21 '4-CH-12/15 ! ELBOW TO TEE ! B-75 C-F-1 ) C5.21 4-CH-12/16 ! TEE TO PIPE B-75 C-F-1 l C5.21 l 4-CH-12/16A PIPE TO PIPE B-75 C-r-1 l C5.21 4-CH-12/17 PIPE TO PIPE B-75 C-F-1 C5.21 4-CH-12/17A PIPE TO PIPE B-75 I C-F-1 I C5.21 4-CH-12/18 PIPE TO ELBOW B-75 C-F-1 C5.21 4-CH-12/19 ELBOW TO PIPE B-75 C-F-1 C5.21 4-CH-12/20 PIPE TO ELBOW B-75 C-F-1 C5.21 4-CH-12/21 ELBOW TO PIPE B-75 C-F-1 C5.21 4-CH-12/22 PIPE TO ELBOW B-75 C-F-1 C5.21 4-CH-12/23 ELBOW TO PIPE B-75 C-F-1 C5 21 4-CH-12/24 PIPE TO ELBOW B-75 C-F-1 C5.21 I 14-CH-12/25 ELBOW TO VALVE i B-75 C-F-1 C5.21 4-CH-12/26 VALVE TO PIPE l B-75 C-F-1 C5.21 4-CH-12/27 PIPE TO ELBOW I B-75 C-F-1 C5.21 4-CH-12/28 ELBOW TO PIPE i B-75 C-F-1 C5.21 I l4-CH-12/29 PIPE TO ELBOW ' B-75 C-F-1 l C5.21 i
!4-CH-12/30 l ELBOW TO PIPE B-75 C-F-1 i ! C5.21 '
!4-CH-12/31 IPIPE TO ELBOW i B-75 C-F-1 l C5.21 l i 4 -CH- 12 / 3 2 ELBOW TO PIPE B-75 C-r-1 i i C5.21 i 14-CH-12/33 PIPE TO ELBOW B-75 C-F-1 i C5.21 !
l4-CH-12/34 ELBOW TO PIPE B-75 C-F-1 C5.21 4-CH-12/35 PIPE TO PIPE B-75 C-F-1 l C5.21 4-CH-12/36 PIPE TO PIPE B-75 C-r-1 C5.21 TERM END 4-CH-12/37 PIPE TC PIPE B-75 C-F-1 C5.21 TERM END 4-CH-13/01 PIPE TO ELBOW B-76 C-F-1 98 C5.21 4-CH-13/02 l ELBOW TO PIPE B-76 C-F-1 C5.21 4-CH-13/03 l PIPE TO ELBOW B-76 i R3 September 1. 1995 Page 98 of 280 ;
class 2 I CLASS 2 COMPONENTS AND SUPPORTS REV.1 I I l CATEGORY l 3RD INT ITEM # ! TYPE COMPONENT DESCRIPTION ISO # I l C-F-1 I 98 C5.21 l 4-CH-13/04 ELBOW TO PIPE B-76 C-r-1 l C5.21 l 4-CH-13/05 PIPE TO ELBOW B-76 C-F-1 l C5.21 l 4-CH-13/06 ELBOW TO PIPE B-76 C-F-1 I C5.21 l 4-CH-13/07 PIPE TO TEE I B-76 C-F-1 l C5.21 l 4-CH-13/08 TEE TO REDUCER l B-76 C-F-1 C5.21 l 4-CH-13/09 TEE TO PIPE B-76 C-F-1 C5.21 4-CH-13/09A l PIPE TO PIPE B-76 C-F-1 C5.21 4-CH-13/098 IPIPE TO PIPE B-76 C-F-1 C5.21 l 4-CH-13/10 PIPE TO PIPE l B-76 C-F-1 ' I C5.21 1 4-CH-13/11 TEE TO PIPE B-76 C-F-1 i l C5.21 I 4-CH-13/12 PIPE TO ELBOW B-76 C-F-1 I ! C5.21 4-CH-13'13 ELBOW TO PIPE B-76 i C-F-1 i C5.21 ' 4 -CH- 13 /14 PIPE TO ELBOW B-76 C-r-l C5.21 '4-CH-13/15 iELBOW TO PIPE i B-76 C5.21 4-CH-13/1C : PIPE TO ELBOW B-76
~~C-F-1 C-F-1 l C5.21 !4-CH-13/17 iELBOW TO PIPE B 76 C-F-1 I C5.21 '
l4-CH-13/18 l PIPE TO ELBOW j B-76 C-r-1 i C5.21 ! 4 -C H- 13 /19 iELBOW TO PIPE i B-76 C-F-1 C5.21 ;4-CH-13/20 iPIPE TO TEE I B-76 C-F-1 C5.21 ; 4 -CH-13 /21 1 PIPE TO REDUCER I B-76 , C-F-1 C5.21 TERM EMD 4-CH-14/01 . PIPE TO ELBOW i B-81 C-F-1 C5.21 4-CH-14/02 . ELBOW TO PIPE B-91 C-F-1 C5 21 ' 4 -CH- 14 / 0 3 IPIPE TO ELBOW B-91 C-F-1 C5.21 '4-CH-14/04 ! ELBOW TO PIPE B-81 C-F-1 i C5.21 1 4-CH-14/05 IPIPE TO ELBOW I B-81 C-F-1 1 C5.21 4-CH-14/06 ELBOW TO PIPE l B-81 C-F-1 i C5.21 4-CH-14/07 PIPE TO TEE B-81 C-F-1 l C5.21 4-CH-14/08 TEE TO REDUCER B-81 C-F-1 l C5.21 4-CH-14/09 TEE TO PIPE B-81 C-r-1 C5.21 4-CH-14/10 PIPE TO PIPE B-81 C-F-1 C5.21 4-CH-14/10A PIPE TO PIPE B-81 C-F-1 C5.21 1 4-CH-14/11 PIPE TO ELBOW B-81 C-F-1 C5.21 4-CH-14/12 ELBOW TO PIPE B-81 C-F-1 C5.21 4-CH-14/13 PIPE TO ELBOW B-81 C-F-1 ? C5.21 4-CH-14/14 ELBOW TO PIPE ! B-81 C-F-1 l C5.21 4-CH-14/15 ! PIPE TO ELBOW l B-81 C-r-1 l C5.21 4-CH-14/16 l ELBOW TO PIPE I B-81 C-F-1 ! l C5.21 4-CH-14/17 l PIPE TO ELBOW i B-81 C-F-1 l l C5.21 l l4-CH-14/18 ' ELBOW TO PIPE B-81 C-F-1 i l C5.21 l f4-CH-14/19 l PIPE TO PIPE i B-81 C-F-1 C5.21 i I4-CH-14/20 IPIFE TO REDUCER l B-81 C-F-1 i C5.30 t l2-CH-10/01 { ELBOW TO PIPE I B-60 i C-F-1 C5.30 l 2-CH-10/02 PIPE TO ELBOW B-60 C-F-1 C5.30 2-CH-10/03 ELBOW TO PIPE B-60 C-F-1 l C5.30 2-CH-10/04 PIPE TO TEE B-60 C-F-1 i ! C5.30 TERM END 2-CH-10/05 PIPE TO VALVE B-60 C-F-1 l C5.30 2-CH-10/06 TEE TO PIPE B-60 C-F-1 1 C5.30 2-CH-10/07 TEE TO PIPE B-60 C-F-1 l C5.30 2-CH-10/08 PIPE TO ELBOW B-60 C-F-1 l i C5.30 2-CH-10/09 lELBOW TO PIPE I B-60 R3 September 1. 1995 Page 99 of 280
_ . - ~ _ . . . _ . _ - . . . _ . . _ _ _ _ . _ _ . . . - __ . . _ . ... .mm ._m- _ _ - _ a CLASS 2 j i CLASS 2 COMPONENTS AND SUPPORTS REV.1 ; 4 1 [ CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO 6 i C-F-1 C5.30 2-CH-10/10 PIPE TO ELBOW B-60 C-F-1 C5.30 2-CH-10/11 ELBOW TO PIPE B-60 x C- F- 1 ! C5.30 l TERM END f 2-CH-10/12 PIPE TO VALVE B-60 j C-F-1 C5.30 12-CH-11/01 ELBOW TO PIPE B-61 C-F-1 C5.30 l2-CH-11/02 PIPE TO TEE B-61 e j C-F-1 C5.30 2-CH-11/03 TEE TO PIPE B-61 i C-F-1 C5.30 2-CH-11/04 PIPE TO COUPLING B-61 C-F-1 C5.30 2-CH-11/05 COUPLING TO PIPE B-61 C-F-1 l C5.30 2-CH-11/06 PIPE TO ELBOW B-61 j C-F-1 l C5.30 2-CH-11/07 ELBOW TO PIPE B-61 C-F-1 l l C5.30 1 2-CH-11/08 PIPE TO ELBOW B-61
- C-F-1 '
I C5.30 2-CH-11/09 ' ELBOW TO PIPE B-61 l' C-r-1 i C5.30 jPIPE TO ELBOW B-61 _2-CH-11/10 ) C-F-1 C5.30 {2-CH-11/11 ! ELBOW TO PIPE B-61 I C-F-1 ' C$.30 2-CH-11/12 IPIPE TO ELBOW i B-61 1 u-F-1 i C5.30 2-CH-11/13 lELBOW TO PIPE B-61 ! C-F-1 ! C5.30 l2-CH-11/14 l PIPE TO ELBOW B-61 ! C-F-1 '
! C5.30 I !2-CH-12/01 lELBOW TO PIPE B-62 l C-F-1 , C5.30 i !2-CH-12/02 lPIPETOCOUPLING B-62 [
q C-F-1 . C5.30 '2-CH-12/03 l COUPLING TO PIPE B-62 i 4 C-F-1 , 1 C5.30 2-CH-12/04 IPIPE TO COUPLING B-62 ! l C-F-1 C5.30 I2-CH-12/05 ! COUPLING TO PIPE , B-62 l C-F-1 C5.30 2-CH-12/06 i B-62 l PIPE TO ELBOW ; C-F-1 < C5.30 ,2-CH-12/07 ELBOW TO PIPE i B-62 ! l C-E-1 i l C5.30 i 12-CH-12/08 PIPE TO ELBOW B-62 ! l C-F-1 i C5.30 ! '2-CH-12/09 ELBOW TO PIPE B-62 C-r-1 C5.30 2-CH-12/10 PIPE TO ELBOW B-62 l C-F-1 C5.30 2-CH-12/11 ELBOW TO PIPE B-62 , C-F-1 C5.30 2-CH-12/12 PIPE TO COUPLING B-62 C-F-1 C5.30 2-CH-12/13 COUPLING TO PIPE B-62 C-r-1 C5.30 2-CH-12/14 PIPE TO VALVE B-62 ? C-r-1 C5.30 2-CH-12/15 VALVE TO PIPE B-62 i C-r-1 C5.30 2-CH-12/16 PIPE TO COUPLING B-62 l- C-F-1 _ C5.30 2-CH-12/17 COUPLING TO PIPE B-62 I C-F-1 I C5.30 2-CH-12/18 PIPE TO ELBOW B-62 C-F-1 l C5.30 2-CH-12/19 ELBOW TO PIPE . B-62 C-F-1 l C5.30 2-CH-12/20 PIPE TO TEE l B-62 j C-F-1 l C5.30 2-CH-12/21 _ TEE TO PIPE I B-62
- C-F-1 ! C5.30 2-CH-12/22 lPIPETOTEE i B-62 1 C-F-1 I C5.30 12-CH-12/23 {TEETOPIPE ! B-62 l 1 C-F-1 C5.30 ! TERM END 12-CH-12/2 4 IPIPE TO VALVE B-62 i C-F-1 C5.30 l l2-CH-12/25 TEE TO PIPE B-62 ,
i C-F-1 . C5.30 1 42-CH-12/26 PIPE TO ELBOW B-62 l C-F-1 ' C5.30 12-CH-12/27 ELBOW TO PIPE B-62 C-F-1 i C5.30 2-CH-12/28 PIPE TO VALVE B-62 C-F-1 i C5.30 TERM END 2-CH-13/01 PIPE TO TEE B-63
-C-F-1 C5.30 2-CH-13/02 ELBOW TO PIPE B-63 C-F C5.30 2-CH-13/03 -
PIPE TO ELBOW B-63 I C-F-1 C5.30 2-CH-13/04 _ ELBOW TO PIPE B-63 C-F-1 C5.30 2-CH-13/05 IPIPE TO ELBOW B-63 i R3 September 1. 1995 Page 100 of 280 1 I
i CLASS 2 CLASS 2 COMPONENT.9 AND SUPPORTS l REV.1 I l . CATEGORY 3RD INT h ITEM # l TYPE COMPONENT DESCRIPTION ISO # I ! ! C-F-1 l C5.30 ; 2-CH-13/06 ! COUPLING TO PIPE B-63 C-F-1 l C5.30 l 2-CH-13/07 l PIPE TO COUPLING B-63 C-r-1 l l C5.30 l 2-CH-13/08 IELBOW TO PIPE B-63 C-F-1 l C5.30 l l2-CH-13/09 l PIPE TO ELBOW B-63 C-F-1 C5.30 1 2-CH-13/10 lELBOW TO PIPE B-63 l C-F-1 C5.30 l 2-CH-13/11 l PIPE TO ELBOW B-63 C-F-1 C5.30 l 2-CH-13/12 IELBOW TO PIPE B-63 C-F-1 C5.30 2-CH-13/13 PIPE TO ELBOW B-63 C-F-1 l C5.30
- 2-CH-13/14 ELBOW TO PIPE B-63 C-F-1 I C5.30 l 2-CH -13 /15 PIPE TO ELBOW B-63 C-F-1 C5.30 i 2-CH-13/16 ELBOW TO PIPE B-63 C-F-1 ! C5.30 i !2-CH-13/17 IPIPE TO ELBOW B-63
- -F-l t C5.30 2-CH-13/18 ' ELBOW TO PIPE B-63
> F- 1 C5.30 2-CH-13/19 IPIPE TO ELBOW l B-63 C-F-1 C5.30 2-CH-13/20 ELBOW TO PIPE i B-63 C-F-1 i C5.30 '2-CH-13/21 PIFE TO ELBOW B-e3 C-E-1 C5.30 2-CH-13/22 ' TEE TO PIPE i B-63 C-F-1 ! C5.30 . .2-CH-13/22A ; PIPE TO TEE B-63 C-F-1 C5.30 .2-CH-13/22B ; ELBOW TO PIPE B-63 C-F-1 C5.30 l2-CH-13/2C ' PIPE TO ELBOW j B-63 C-F-1 C5.30 i2-CH-13/22D . TEE TC PIPE I B-63 C-F-1 C5.30 '2-CH-13/22E TEE TO FEDUCER _.
i B-63 C-F-1 C5.30 2-CH-13/22F COLPLING TO PIFE ! B-63 c -F-1 i C5.30 TEP14 END 12-CH-13 /22G NOZZLE TO COUPLING l B-63 C-F-1 i ! C5.30 ! ~l2-CH-13/23 l TEE TO PIPE B-63 C-F-1 l l C5.30 l 2-CH-13/24 l PIPE TO COUPLING B-63
- C-F-1 l C5.30 l 2-CH-13/25 lCOUPLINGTOPIPE B-63 C-F-1 C5.30 2-CH-13/26 lPIPETOELBOW B-63 C-F-1 C5.30 2-CH-13/27 l ELBOW TO PIPE B-63
! C-F-1 C5.30 2-CH-13/28 PIPE TO ELBOW B-63 C-F-1 C5.30 2-CH-13/29 EL50W TO PIPE B-63 C-F-1 C5.30 2-CH-13/30 PIPE TO ELBOW B-63 t C-F-1 C5.30 i 2-CH-13/31 ELBOW TO PIPE B-63 C-F-1 C5.30 l l2-CH-13/32 PIPE TO ELBOW B-63 C-F-1 C5.30 ! l2-CH-13/33 ELBOW TO PIPE B-63 C-F-1 ! C5.30 ! I2-CH-13/34 PIPE TO ELBOW B-63 C-r-1 C5.30 ! l2-CH-13/35 '
ELBOW TO PIPE B-63 C-r-1 C5.30 ! l2-CH-13/36 PIPE TO COUPLING B-63 C-F-1 ; C5.30 I l2-CH-13/37 iCOUPLING TO PIPE B-63 C-F-1 ! l C5.30 l2-CH-13/38 iPIPE TO VALVE B-63 C-F-1 i C5.30 ' I2-CH-13/39 l VALVE TO PIPE I B-63 C-F-1 l ! C5.30 t J-CH-13/40 iPIPE TO COUPLING B-63 C-F-1 ! C5.30 ! 2 -CH-13 / 41 COUPLING TO PIPE B-63 C-F-1 I { C5.30 l
'2-CH-13/42 PIPE TO ELBOW B-63 C-F-1 C5.30 ! 2-CH-13/43 ELBOW TO PIPE B-63 C-r-1 C5.30 l 2-CH-13/44 PIPE TO ELBOW B-63 C-F-1 C5.30 2-CH-13/45 ELBOW TO PIPE B-63 J C-r-1 C5.30 2-CH-13/46 PIPE TO VALVE B-63 C-F-1 98 C5.30 TERM END 2-CH-14/01 IPIPE TO COUPLING B-64 C-F-1 C5.30 2-CH-14/01A ! COUPLING TO PIPE B-64 R3 September 1. 1995 Page 101 of 280
r CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # l TYPE 1 COMPONENT l DESCRIPTION ISON I i C-F-1 C5.30 l 2-CH-14/02 l PIPE TO ELBOW B-64 C-F-1 98 C5.30 l ELBOW TO PIPE B-64 l2-CH-14/03 C-F-1 98 C5.30 l l2-CH-14/04 . PIPE TO ELBOW B-64 C-r-1 C5.30 l l2-CH-14 / 05 lELBOWTOPIPE B-64 C-r-1 C5.30 I2-CH-14/06 l PIPE TO ELBOW B-64 l C-r-1 C5.30 l 2-CH-14/07 l ELBOW TO PIPE B-64 C-F-1 C5.30 I 2-CH-14/08 iPIPE TO ELBOW B-64 C-E-1 C5.30 2-CH-14/09 ELBOW TO PIPE B-64 C-F-1 C5.30 2-CH-14/10 PIPE TO ELBOW B-64 C-r-1 l C5.30 l l2-CH-14/11 ELBOW TO PIP) B-64 C-r-1 i ! C5.30 i !2-CH-14/12 l PIPE TO COUPLING B-64 C-F-1 + l C5.30 ' 12-CH-14/13 ! COUPLING TO PlPE B-64 T-F-1 C5.30 '2-CH-14/14 fPIPE TO ELBOW B-64 s 0-F-1 C5.30 '2-CH-14/15 l ELBOW TO PIPE I B-64 7-F-1 - i C5.30 2-CH-14/16 FIPE TO CLBOW B-64 C-F-1 ! C5.30 '2-CH-14/17 l ELBOW TO PIPE ' B-64 2-r-) 98 i C5.30 :2-CH-14/18 l PIPE TO ELBOW B-64 C-E-1 90 ! C5.30 [ !2-CH-14/19 ! ELBOW TO PIPE I B-64 c-F-1 '
! C5.30 '2-CH-14/20 IPIPE TO ELBOW l B-64 C-F-1 l C5.30 (2-CH-14/21 IELBOW TO PIPE I B-64
'f-1 l C5.30 '2-CH-14/22 i PIPE TO ELBOW l B-64 C-F-1 C5.?O 2-CH-14/23 ELBOW TO PIPE B-64 4
C-F-1 i C5.30 2-CH-14/24 iPIPE TC ELBOW i B-64 C-F-1 1 C5.30 2-CH-14/25 -ELBOW TO PIPE B-64 C-F-1 l l C5.30 !2-CH-14/26 PIPE TO ELBOW B-64 C-F-1 l C5.30 l2-CH-14/27 ELBOW TO PIPE B-64 C-F-1 l C5.30 2-CH-14/28 PIPE TO ELBOW B-64 C-E-1 C5.30 2-CH-14/29 ELBOW TO PIPE B-64 C-F-1 C5.30 2-CH-14/30 PIPE TO EXPANDER B-64 l C-F-1 C5.30 2-CH-15/01 REDUCER TO ELBOW B-65
- C-F-1 C5.30 2-CH-15/02 ELBOW TO PIPE B-65 C-F-1 C5.30 2-CH-15/03 PIPE TO ELBOW l B-65 C-F-1 C5.30 2-CH-15/04 ELBOW TO PIPE B-65 C-F-1 C5.30 2-CH-15/05 lPIPETOELBOW B-65 C-F-1 C5.30 l 2-CH-15/06 ELBOW TO PIPE B-65 C-F-1 C5.30 l 12-CH-15/07 PIPE TO COUPLING B-65 C-F-1 C5.30 I l2-CH-15/08 COUPLING TO PIPE B-65 C-r-1 C5.30 i l2-CH-15/09 _ PIPE TO VALVE ! B-65 C-F-1 95 ! C5.30 I !2-CH-15/10 (VALVE TO PIPE t B-65 C-F-1 95 i C5.30 '2-CH-15/11 PIPE TO ELBOW B-65 C-r-1 95 i C5.30 :2-CH-15/1' -ELBOW TO PIPE I B-65
; : ; i C-F-1 I l C5.30 l. 0-CH-15/13 PIPE TO ELBOW l B-65 l C-r-1 I C5.30 ,
I2-CH-15/14 ELBOW TO PIPE B-65 C-F-1 l C5.30 ! 2-CH-15/15 PIPE TO VALVE B-65 i l C-F-1 ' 01 C5.30 2-CH-15/16 VALVE TO PIPE B-65 l C-F-1 i C5.30 2-CH-15/17 PIPE TO COUPLING B-65 C-E-1 01 C5.30 TERM END 2-CH-15/18 COUPLING TO PIPE B-65 ; C-F-1 C5.30 2-CH-16/01 ELBOW TO PIPE B-66 l C-F-1 C5.30 2-CH-16/02 PIPE TO ELBOW B-66 C-F-1 l C5.30 l2-CH-16/03 IELBOW TO PIPE E-66 i R3 September 1, 1995 Page 102 of 280
~ . .- .
CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS l REV.1
! ! ! ! I CATECORY l 3RD INT ITEM # I TYPE ! CCHPONENT DESCRIPTION l ISOf
! l C-F-1 I C5.30 I 2-CH-16/04 PIPE TO ELBOW B-66 C-F-1 i C5.30 l I2-CH-16/05 ELBOW TO PIPE ! B-66 C-F-1 l C5.30 l I2-CH-16/06 PIPE TO COUPLING l B-66 C-F-1 !
C5.30 l l2-CH-16/07 COUPLING TO PIPE I B-66 C-F-1 l C5.30 l l2-CH-16/08 PIPE TO COUPLING l B-66 C-F-1 l C5.30 l 2-CH-16/09 COUPLING TO PIPE l B-66 C-r-1 i C5.30 2-CH-16/10 PIPE TO COUPLING l B-66 C-F-1 C5.30 2-CH-16/11 COUPLING TO PIPE I B-66 C-F-1 C5.30 l 2-CH-16/12 PIPE TO ELBOW l B-66 C-F-1 ! C5.30 ! 2-CH-16/13 ELBOW TO EXPANDER B-66 C-F-1 C5.30 l I 2-CH -17 /02 PIPE TO ELBOW B-67 C-F-1 ! i C5.30 !2-CH-17/03 ELBOW TO PIPE B-67 _ C-F-1 C5.30 : 2 -CH- 17 / 04 IPIPE TO COUPLING ! B-67 C-F-1 C5.30 2-CH-17/05 .COUPLIt!G TO PIPE B-67 C-F-1 C5.30 2-CH-17/06 : PIPE TO ELBOW B-67 C-F-1 C5.30 2-CH-17/07 ! ELBOW TO PIPE B-67 C-F-1 C5.30 2-CH-17/08 iPIPE TO ELBOW B-67 C-F-1 C5.30 '2-CH-17/09 ! ELBOW TO PIPE I B-67 C-F-1 C5.30 '2-CH-17/10 l PIPE TO ELBOW i B-67 C-r-1 C5.30 '2-CH-17/11 iELBOW TO PIPE B-67 C-F-1 C5.30 2-CH-17/l2 l PIPE TO ELBOW ' B-67 C- F- 1 C5.30 2-CH-17/13 .EL30W TO PIPE -.-. B-67 C-F-1 C5.30 2-CH-17/14 iPIPE TO ELBOW B-67 C-F-1 . C5.30 2-CH-18/01 ITEE TO REDUCER B-68 C-r-1 i ! C5.30 l2-CH-18/02 PIPE TO TEE B-68 C-F-1 ; ! C5.30 i l 2-CH- 18 /02A FLANGE TO PIPE 3-68 C-F-1 , C5.30 l TERM END 2-CH-18/02B NOZZLE TO FLANGE B-68 C r- 1 i C5.30 2-CH-18/03 TEE TO PIPE B-68 C-F-1 { C5.30 2-CH-18/04 PIPE TO TEE B-68 C-F-1 C5.30 2-CH-18/04A TEE TO REDUCER B-68 C-F-1 C5.30 2-CH-18/05 TEE TO PIPE B-68 ) C-F-1 C5.30 2-CH-18/06 PIPE TO ELBOW l B-68 C-F-1 C5.30 2-CH-10/07 ELBOW TO PIPE B-68 C-F-1 C5.30 2-CH-18/08 PIPE TO ELBOW B-68 C-F-1 C5.30 l l2-CH-18/09 ELBOW TO PIPE l B-68 C-F-1 C5.30 I 2-CH-18/10 PIPE TO ELBOW l B-68 C-F-1 l C5.30 2-CH-18/11 ELBOW TO PIPE l B-68 , C-F-1 ! C5.30 2-CH-18/12 PIPE TO TEE B-68 ] C-F-1 ! C5.30 2-CH-18/12A l TEE TO PEDUCEP B-68 C-F-1 i C5.30 :2-CH-18/13 TEE TO PIPE B-68 l C-F-1 , C5.30 l2-CH-18/14 ' PIPE TO ELBOW i B-68 C-F-1 C5.30 '2-CH-10/15 ! ELBOW TO PIPE B-68 i C-F-1 i C5.30 52-CH-18/16 PIPE TO TEE B-68 C-F-1 I C5.30 l2-CH-18/16A TEE TO REDUCER B-68 C-r-1 i C5.30 l 2-CH-18/17 TEE TO PIPE B-68 C-F-1 C5.30 l 2-CH-18/18 _ PIPE TO ELBOW B-68 C-F-1 l C5.30 I 2-CH-18/19 l ELBOW TO PIPE B-68 C-F-1 l C5.30 l 2-CH-18/20 PIPE TO VALVE B-68 C-F-1 ! C5.30 2-CH-18/21 VALVE TO PIPE B-68 C-F-1 ! C5.30 2-CH-18/22 l PIPE TO TEE B-68 l R3 September 1. 1995 Page 103 of 280 i l l
CLASS 2 i CLASS 2 COMPONENTS AND SUPPORTS REV.1 I I CATEGORY l 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # 1 C-F-1 C5.30 ! 2-CH-18/22A TEE TO REDUCER B-68 C-F-1 C5.30 1 2-CH-18/23 ITEE TO PIPE B-68 C-r-1 l C5.30 i 2-CH-18/24 lPIFE TO VALVE B-68 C-F-1 i C5.30 l - 2-CH-18/25 IVALVE TO PIPE B-68 C-F-1 l C5.30 f 2-CH-18/26 lPIPETOTEE B-68 C-F-1 j C5.30 l2-CH-18/27 fTEETOPIPE B-68 3 C-F-1 C5.30 2-CH-10/28 PIPE TO ELBOW B-68 C-r-1 C5.30 2-CH-18/29 ELBOW TO PIPE B-68 C-F-1 C5.30 l 2-CH-18/30 PIPE TO TEE B-68 C-E-1 C5.30 ! 2-CH-18/30A l TEE TO REDUCER B-68 C-r-1 l C5.30 l 2-CH-18/31 l TEE TO PIPE B-68 C-F-1 ! C5.30 I 2-CH-18/32 l PIPE TO TEE B-68 C-r-1 C5.30 I2-CH-18/32A !TEETOREDUCER B-68 C-F-1 C5.30 ' 2-CH-18 / 3 3 tTEE TO PIPE I B-68 C-F-1 i C5.30 2-CH-18/34 ' PIPE TC ELBOW ! B-68 C-r-1 ' C5.30 2-CH-18/35 l ELBOW TO P1PE B-68 C-F-1 C5.30 i2-CH-19/01 ITEE TO PEDUCER I B-69 C-F-1 i < C5.30 j2-CH-19/02 IFIPE TO TEE B-69 C-F-1 C5.30 ! 2 -CH- 19.'01 A l FLANGE TO PIPE B-69 C-F-1 C5.30 : TERM END12-CH-19/02B ,HOZZLE TO FLANGE B-69 C-F-1 i C5.30 2-CH-19/03 . TEE TO PIPE B-69 C-F-1 C5.30 '2-CH-19/04 FIPE TO TEE I B-69 C-F-1 l C5.30 2-CH-19/04A , TEE TO REDUCER l B-69 C-F-1 ' i C5.30 i2-CH-19/05 . TEE TO PIPE B-69 C-F-1 l2-CH-19/06 B-69 l l C5.30 l lPIPETOELBOW C-F-1 l C5.30 l 2-CH-19/07 l ELBOW TO PIPE B-69 C-r-1 l C5.30 l 2-CH-19/08 l PIPE TO ELBOW B-69 4 C-F-1 C5.30 2-CH-19/09 ELBOW TO PIPE B-69 C-F-1 C5.30 2-CH-19/10 PIPE TO TEE B-69 C-F-1 C5.30 2-CH-19/10A TEE TO REDUCER B-69 1 C-F-1 C5.30 2-CH-19/11 l TEE TO PIPE B-69 C-r-1 C5.30 2-CH-19/12 l PIPE TO ELBOW B-69 C-F-1 C5.30 2-CH-19/13 ELBOW TO PIPE B-69 C-F-1 C5.30 l 2-CH-19/14 PIPE TO ELBOW B-69 C-r-1 C5.30 l 2-CH-19/15 _ ELBOW TO PIPE B-69 C-F-1 C5.30 l 2-CH-19/16 l PIPE TO VALVE . B-69 C-r-1 C5.30 l 2-CH-19/17 ! VALVE TO PIPE l B-69 C- r- 1 C5.30 l 2-CH-19/18 !PIPETOTEE l B-69 C-F-1 C5.30 2-CH-19/18A iTEE TO PEDUCER B-69 C-F-1 i C5.30 ! l2-CH-19/19 TEE TO PIPE B-69 C-F-1 l C5.30 -l2-CH-19/20 ' PIPE TO VALVE B-69 C-F-1 ! l C5.30 f 2-CH-19/21 ' VALVE TO PIPE B-69 C-F-1 i C5.30 2-CH-19/22 PIPE TO ELBOW B-69 C-F-1 l C5.30 2-CH-19/23 ELBOW TO PIPE B-69 C-F-1 ' C5.30 2-CH-19/24 PIPE TO TEE B-69 C- F- 1 C5.30 2-CH-20/01 TEE TO PIPE B-70 _ C-F-1 C5.30 2-CH-20/02 PIPE TO ELBOW B-70 C-F-1 C5.30 2-CH-20/03 ELBOW TO PIPE B-70 C-r-1 C5.30 2-CH-20/04 PIPE TO COUPLING B-70 C-F-1 l C5.30 2-CH-20/05 COUPLING TO PIPE B-70 R3 September 1. 1995 Page 104 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM 8 TYPE COMPONENT DESCRIPTION ISOf I C-F-1 ts.30 2-CH-20/06 PIPE TO TEE B-70 C-F-1 C5.30 l2-CH-20/07 TEE TO PIPE B-70 C-F-1 C5.30 i2-CH-20/08 PIPE TO VALVE B-70_ C-F-1 C5.30 2-CH-20/09 VALVE TO PIPE B-70 C-F-1 C5.30 2-CH-20/10 PIPE TO ELBOW B-70 C-F-1 C5.30 2-CH-20/11 ELBOW TO PIPE B-70 C-F-1 C5.30 2-CH-20/12 PIPE TO TEE B-70 C-F-1 C5.30 2-CH-20/13 TEE TO PIPE B-70 C-F-1 C5.30 2-CH-20/14 PIPE TO ELBOW B-70 C-F-1 l C5.30 2-CH-20/15 ELBOW TO PIPE B-70 C-F-1 C5.30 i 12-CH-20/16 PIPE TO COUPLING B-70 C-F-1 C5.30 i l2-CH-20/17 COUPLING TO PIPE B-70 C-F-1 C5.30 l2-CH-20/18 ' PIPE TO ELBOW B-70 C-F-1 i i C5.30 2-CH-20/19 ! ELBOW TO PIFE i B-70 C-F-1 l C5.30 :2-CH-20/20 ! PIPE TO ELBOW ! B-70 C-F-1 j C5.30 '2-CH-20/21 l ELBOW TO PIPE i B-70 C-F-1 I I C5.30 12-CH-20/22 IPIPE TO ELBOW B-70 C-r-1 ! C5.30 i C-CH-21/01 jTEE TO REDUCER B-71 C-r-1 C5.30 I2-CH-21/02 IPIPE TO TEE l B-71 C-F-1 l C5.30 2-CH-21/02A !FLA!JGE TO PIFE B-71 C-F-1 , I C5.30 TERM END!2-CH-21/028 : NOZZLE TO FLANGE B-71 C-F-1 I i C5.30 2-CH-21/03 l TEE TO PIPE I B-71 C-F-1 ! C5.30 2-CH-21/04 . PIPE TO TEE ! B-71 C-F-1 ! C5.30 2-CH-21/04A : TEE TO REDUCER l B-71 C-F-1 l C5.30 '
'2-CH-21/05 l TEE TO PIPE B-71 C-F-1 C5.30 l 2-CH-21/06 PIPE TO ELBOW B-71 C-F-1 C5.30 2-CH-21/07 ELBOW TO PIPE B-71 C-F-1 C5.30 2-CH-21/08 PIPE TO ELBOW B-71 C-F-1 C5.30 2-CH-21/09 ELBOW TO PIPE B-71 C-F-1 C5.30 2-CH-21/10 PIPE TO TEE B-71 C-F-1 C5.30 2-CH-21/10A TEE TO REDUCER B-71 C-F-1 C5.30 2-CH-21/11 TEE TO PIPE B-71 C-E-1 C5.30 2-CH-21/12 PIPE TO ELBOW B-71 C-F-1 C5.30 2-CH-21/13 ELBOW TO PIPE B-71 C-r-1 C5.30 l 2-CH-21/14 PIPE TO ELBOW B-71 C-r-1 C5.30 2-CH-21/15 ELBOW TO PIPE B-71 ,
C-F-1 C5.30 2-CH-21/16 PIPE TO VALVE B-71 l C-F-1 _ ! C5.30 2-CH-21/17 VALVE TO PIPE ! B-71 C-F-1 l l C5.30 2-CH-21/lb PIPE TO TEE ! B-71 l C-r-1 l l C5.30 5 l2-CH-21/18A l TEE TO REDUCER B-71 l C-F-1 l C5.30 , l2-CH-21/19 ! TEE TO PIPE i B-71 C-F-1 I C5.30 l2-CH-21/20 PIPE TO VALVE B-71 C-F-1 C5.30 CH-21/21 VALVE TO PIPE B-71 C-F-1 l C5.30 2-CH-21/22 PIPE TO ELBOW B-71 C-F-1 C5.30 2-CH-21/23 ELBOW TO PIPE B-71 C-r-1 C5.30 2-CH-21/24 PIPE TO ELBOW B-71 C-r-1 C5.30 2-CH-21/25 ELBOW TO PIPE B-71 C-F-1 C5.30 2-CH-22/01 ELBOW TO PIPE B-72 C-F-1 C5.30 2-CH-22/02 PIPE TO ELBOW B-72 C-r-1 C5.30 2-CH-22/03 ELBOW TO PIPE B-72 R3 September 1. 1995 Page 105 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION 150# C-F-1 C5.30 l 2-CH-22/04 PIPE TO ELBOW B-72 C-F-1 C5.30 l 2-CH-22/05 ELBOW TO PIPE B-72 C-F-1 C5.30 I 2-CH-22/06 PIPE TO ELBOW B-72 I C-F-1 C5.30 1 2-CH-22/07 ELBOW TO PIPE l B-72 C-r-1 C5.30 l 2-CH-22/08 PIPE TO COUPLING l B-72 C-F-1 C5.30 l 2-CH-22/09 COUPLING TO PIPE B-72 C-F-1 C5.30 2-CH-22/10 PIPE TO COUPLING B-72 C-F-1 C5.30 2-CH-22/11 COUPLING TO PIPE B-72 C-F-1 C5.30 2-CH-22/12 PIFE TO COUPLING B-72 C-F-1 C5.30 l 2-CH-22/13 COUPLING TO F. ' B-72 C-F-1 C5.30 l 12-CH-22/14 PIPE TO ELBN B-72 C-F-1 C5.30 I I2-CH-22/15 ELBOW TO PIPE B-72 v F-l i C5.30 12-CH-22/16 PIPE TO ELBOW B-72 C-F-1 ! C5.30 !2-CH-22/17 lELBOW TO PIPE B-72 C-F-1 l C5.30 42-CH-22/18 ! PIPE TO COUPLING B-72 C-F-1 l C5.30 l2-CH-22/19 iCOUPLING TO PIPE ! B-72 C-F-1 i ! C5.30 i 2-CH-22/20 l PIPE TO ELBOW B-72 C-F-1 i i C5.30 i '2-CH-22/21 l ELBOW TO PIPE B-72 C-F-1 I C5.30 i 2-CH-22/22 lPIPETOELBOW B-72 C-F-1 ! l C5 30 12-CH-22/23 (ELBOWTOPIPE B-72 C-E-1 i C5.30 12-CH-22/24 ' PIPE TO TEE B-72 C-F-1 ' C5.30 42-CH-22/25 iTEE TO PIPE i B-72 C-F-1 C5.30 i2-CH-22/26 ! PIPE TC ELBOW i B-72 C-F-1 95 C5.30 12-CH-22/27 IELBOW TO PIPE B-72 C-F-1 i l C5.30 f !2-CH-22/28 PIPE TO VALVE B-72 C-F-1 I C5.30 l 2-CH-22/29 VALVE TO PIPE B-72 C-F-1 C5.30 2-CH-22/30 PIPE TO TEE B-72 C-F-1 C5.30 2-CH-22/31 TEE TO PIPE B-72 C-F-1 C5.30 2-CH-22/32 PIPE TO VALVE B-72 C-F-1 C5.30 2-CH-22/33 VALVE TO PIPE B-72 C-F-1 C5.30 2-CH-22/34 PIPE TO TEE B-72 C-F-1 01 C5.30 2-CH-22/35 TEE TO REDUCER B-72 C-F-1 01 C5.30 2-CH-22/36 TEE TO PIPE B-72 C-F-1 C5.30 2-CH-22/37 PIPE TO VALVE B-72 h C-F-1 01 C5.30 2-CH-22/38 VALVE TO PIPE B-72 C-F-1 01 C5.30 2-CH-22/39 PIPE TO ELBOW B-72 C-F-1 C5.30 2-CH-22/40 ELBOW TO PIPE B-72 C-F-1 C5.30 2-CH-22/41 PIPE TO TEE B-72 C-r-1 C5.30 2-CH-22/42 TEE TO PIPE l B-72 C-F-1 C5.30 4 l2-CH-22/43 lPIPETOELBOW B-72 C-F-1 1 C5.30 i !2-CH-22/44 IELBOW TO PIPE B-72 C-F-1 l l C5.30 lTERMENDl2-CH-22/45 PIPE TO TEE B-72 C-F-1 95 i C5.30 ' 2-CH-23/01A BRANCH TO PIPE B-74 j -F-1 I C5.30 2-CH-23/01B BRANCH TO PIPE B-75 j C-r-1 98 C5.30 2-CH-23/01C BRANCH TO PIPE B-74 C-F-1 C5.30 2-CH-23/02A PIPE TO VALVE B-74 C-r-1 C5.30 2-CH-23/028 PIPE TO VALVE B-75 C-r-1 98 C5.30 2-CH-23/02C PIPE TO VALVE B-74 C-r-1 C5.30 TERN END 2-CH-24/01 TEE TO PIPE B-77 C-F-1 C5.30 2-CH-24/02 PIPE TO ELBOW B-77 R3 September 1. 1995 Fage 106 of 280
CLASS 2 l class 2 COMPONENTS AND SUPPORTS REV.1 I I CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO 9 C-r-1 C5.30 2-CH-24/03 ELBOW TO PIPE B-77 C-F-1 C5.30 2-CH-24/04 PIPE TO ELBOW B-77 C-F-1 C5.30 2-CH-24/05 ELBOW TO PIPE B-17 C-F-1 l C5.30 2-CH-24/06 PIPE TO ELBOW B-77 C-F-1 C5.30 12-CH-24/07 ELBOW TO PIPE B-17 C-F-1 C5.30 I2-CH-24/08 PIPE TO VALVE B-77 C-r-1 C5.30 2-CH-24/09 VALVE TO PIPE B-77 C-F-1 C5.30 2-CH-24/10 PIPE TO VALVE B-77 I C-F-1 C5.30 2-CH-25/01 REDUCER TO PIPE B-78 C-F-1 } C5.30 l 2-CH-25/02 PIPE TO COUPLING B-78 C-F-1 i C5.30 l 2-C;l-25/03 COUPLING TO PIPE B-78 C-r-1 i C5.30 i 2-CH-25/04 PIPE TO COUPLING B-78 C-F-1 i C5.30 ;2-CH-25/05 ICOUPLING TO PIPE B-78 C-F-l ' C5.30 2-CH-25/06 lFIPETOCOUPLING B-78 C-r-1 i C5.30 2-CH-25/07 ' COUPLING TO PIPE f B-78 C-F-1 . C5.30 <2-CH-25/08 tPIPE TO ELBOW B-78 C-F-1 i ! C5.30 ' 2-CH-25/09 (ELBOW TO PIPE B-78 C-F-1 95 C5.30 ! !2-CH-25/10 ! PIPE TO ELBOW B-78 C-F-1 95
- C5.30 2-CH-25/11 IELBOW TO PIPE B-78 C-F-1 '
C5.30 :2-CH-25/12 iPIPE TO VALVE l B-78 C-F-1 # 95 C5.30 I 2-CH-25/1? l VALVE TO PIPE fB-78 I C-F-1 95 C5.30 '2-CH-25/14 PIPE TO VALVE B-78 C-F-1 C5.30 i2-CH-26/01 < REDUCER TO PIPE l B-79 C-F-1 ! C5.30 2-CH-26/02 IPIPE TO COUPLING B-79 C-r-1 ! C5.30 i !2-CH-26/03 COUPLING TO PIPE B-79 C-F-1 C5.30 2-CH-26/03A PIPE TO COUPLING B-79 C-F-1 C5.30 2-CH-26/03B COUPLING TO PIPE B-79 C-F-1 C5.30 2-CH-26/04 PIPE TO ELBOW B-79 C-r-1 C5.30 2-CH-26/05 ELBOW TO PIPE B-79 l C-F-1 C5.30 2-CH-26/06 PIPE TO ELBOW B-79 C-F-1 C5.30 l2-CH-26/07 ELBOW TO PIPE B-79 C-F-1 01 C5.30 2-CH-26/08 PIPE TO ELBOW B-79 C-r-1 01 C5.30 2-CH-26/09 ELBOW TO PIPE B-79 C-F-1 C5.30 2-CU-26/10 PIPE TO COUPLING B-79 j C-F-1 C5.30 : 2-CH-26/11 COUPLING TO PIPE B-79 ! C-F-1 C5.30 2-CH-26/12 PIPE TO ELBOW B-79 l f C-F-1 C5.30 2-CH-26/13 ELBOW TO PIPE B-79 4 C-r-1 98 C5.30 2-CH-26/14 ! PIPE TO ELBOW l B-79 i C-F-1 98 C5.30 2-CH-26/15 l ELBOW TO PIPE I B-74 C-F-1 l C5.30 '2-CH-26/16 iPIPE TO ELBCW B-79 C-F-1 l ! C5.30 {2-CH-26/17 [ ELBOW TO PIPE ! B-79
!2-CH-26/18 C-r-1 l ! C5.30 i : PIPE TO ELBOW B-79 C-r-1 l C5.30 i !2-CH-26/19 ELBOW TO PIPE B-79 C-F-1 CS.30 i2-CH-26/20 PIPE TO VALVE B-79 C-F-1 l C5.30 l' 2-CH-26/21 VALVE TO PIPE B-79 C-F-1 C5.30 2-CH-26/22 PIPE TO VALVE B-79 C-F-1 C5.30 TERM END 2-CH-27/01 TEE TO PIPE B-80 j C-F-1 C5.30 2-CH-27/02 PIPE TO ELBOW B-80 C-F-1 C5.30 2-CH-27/03 ELBOW TO PIPE B-80 C-F-1 C5.30 2-CH-27/04 PIPE TO ELBOW B-80 e
R3 September 1. 1995 Page 107 of 280
i CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEN# TYPE COMPONENT DESCRIPTION ISO # C-F-1 l C5.30 2-CH-27/05 ELBOW TO PIPE B-80 C-F-1 C5.30 2-CH-27/06 PIPE TO ELBOW B-80 C-F C5.30 l 2-CH-27/07 ELBOW TO PIPE B-80 i C-F-1 C5.30 i 2-CH-27/08 PIPE TO ELBOW B-80 I C-r-1 C5.30 2-CH-27/09 ELBOW TO PIPE B-80 C-F-1 C5.30 2-CH-27/10 PIPE TO VALVE B-80 C-F-1 C5.30 1 2-CH-27/11 VALVE TO PIPE I B-80 C-F-1 C5.30 2-CH-27/12 PIPE TO VALVE B-80 C-F-1 C5.30 TERM END 2-CH-28/01 TEE TO PIPE B-82 C-r-1 C5.30 2-CH-28/02 PIPE TO ELBOW B-82 C-F-1 C5.30 2-CH-28/03 ELBOW TO PIPE B-82 C-r-1 ! C5.30 i _2-CH-28/04 PIPE TO ELBOW B-82 > C-F-1 i { C5.30 !2 -CH- 2 8 /0 5 ELBO; .O PIPE I B-82 C-F-1 i C5.30 !2-CH-28/06 PIPE TO ELBOW ! B-82 C-F-1 95 C5.30 *2-CH-28/07 iELBOW TO 'IPE i B-92 C-F-1 l C5.30 l2-CH-28/08 ! PIPE TO VALVE t B-82 C-F-1 ! ! C5.30 i l2-CH-28/09 IVALVE TO PIPE B-82 C-F-1 i
, I C5.30 2-CH-28/10 l PIPE TO VALVE B-82 C-F-1 C5.30 ,2-CM-29/C1 l REDUCER TO PIPE B-83 ,
C-F-1 I i C5.3C ' l2-CH-29/02 l PIPE TO COUPLING B-83 C-F-1 ' l C5.30 ' 2-CH- 2 9 / 0 3 ! COUPLING TO PIPE B-83 C-F-1 35 l C5.30 '2-CH-29/04 iPIPE TO ELBOW B-83 C-F-1 95 ' C5.30 [2-CH-29/05 l ELBOW TO PIPE I B-83 C-r-1 i C5.30 12-CH-29/C5 ! PIPE TO ELBOW B-83 C-F-1 i C5.30 l 2-CH-29/07 ELBOW TO PIPE B-83 C-F-1 C5.30 l 2-CH-29/08 PIPE TO ELBOW B-83 C-r-1 C5.30 2-CH-29/09 ELBOW TO PIPE B-83 C-F-1 C5.30 2-CH-29/10 PIPE TO ELBOW B-83 C-F-1 C5.30 2-CH-29/11 ELBOW TO PIPE B-83 C-r-1 C5.30 2-CH-29/12 PIPE TO ELBOW B - 8 1_ C-r-1 C5.30 2-CH-29/13 ELBOW TO PIPE B-83 C-F-1 C5.30 2-CH-29/14 PIPE TO ELBOW B-83 C-F-1 C5.30 2-CH-29/15 ELBOW TO PIPE B-83 C-F-1 C5.30 2-CH-29/16 PIPE TO VALVE B-83 C-F-1 C5.30 2-CH-29/17 VALVE TO PIPE B-83 C-r-1 C5.30 2-CH-29/18 PIPE TO VALVE B-83 C-F-1 98 C5.30 2-CH-30/01 REDUCER TO PIPE B-84 C-F-1 C5.30 l 2-CH-30/02 PIPE TO ELBOW B-84 C-F-1 C5.30 l _2-CH-30/03 ELBOW TO PIPE l B-84 C-F-1 98 C5.30 ' I2-CH-30/04 l PIPE TO ELBOW B-84 C-r-1 98 C5.30
- 2-CH-30/05 ELBOW TO PIPE B-84 C-F-1 l C5.30 ; 2-CH-30/06 PIPE TO ELBOW B-84 l C-F-1 C5.30 2-CH-30/07 ELBOW TO PIPE B-84 C-F-1 C5.30 2-CH-30/08 PIPE TO ELBOW B-84 C-r-1 ! C5.30 2-CH-30/09 ELBOW TO PIPE B-84 C-r-1 C5.30 2-CH-30/10 PIPE TO COUPLING B-84 C-F-1 C5.30 2-CH-30/11 COUPLING TO PIPE B-84 C-F-1 C5.30 2-CH-30/12 PIPE TO ELBOW B-84 C-F-1 C5.30 2-CH-30/13 ELBOW TO PIPE B-84 C-F-1 98 C5.30 12-CH-30/14 PIPE TO ELBOW B-84 R3 September 1. 1995 Page 108 of 280
i CLASS 2 REV.1 CLASS 2 COMPONEN*18 AND SUP{/')RTS l l CATEGORY 3RD INT ITEM # TYPE COMPONENT l DESCRIPTION ISO # C-r-1 98 C5.30 2-CH-30/15 IELBOW TO PIPE B-84 C-F-1 _5.30 2-CH-30/16 PIPE TO ELBOW B *4 f C-r-1 C5.30 2-CH-30/17 ELBOW TO PIPE B-84 ! I C-r-1 C5.30 2-CH-30/18 PIPE TO ELBOW B-84 C-r-1 95 C5.30 2-CH-30/19 ELBOW TO PIPE B-84 ; C-F-1 C5.30 2-CH-30/20 PIPE TO ELBOW B-84 j C-r-1 C5.30 2-CH-30/21 ELBOW TO PIPE B-84 C-r-1 C5.30 2-CH-30/22 PIPE TO VALVE B-84 C-r-1 C5.30 2-CH-30/23 VALVE TO PIPE B-84 , C-F-1 C5.30 2-CH-30/24 PIPE TO VALNE B-84 ! C-F-1 98 C5.30 l TERM END 2-CH-31/01 TEE TO PIPE B-85 i C-F-1 l C5.30 i 2-CH-31/02 PIPE TO PIPE B-85 2-F-1 i j C5.30 i !2-CH-31/03 IPIPE TO ELBOW B-85 C-r-1 1 C5.30 '2-CH-31/04 ! ELBOW TO PIPE B-85 C-F-1 i C5.30 2-CH-21/05 ' PIPE TO ELBOW i B-85 C-r-1 i C5.30 ;2-CH-31/06 tELBOW TO PIPE l B-85 - C-F-1 l PIPE TO ELBOW B-85 f C5.30 f f2-CH-31/07 , C-r-1 l C5.30 12-CH-31/08 l ELBOW TO PIPE B-85
-F-1 [ C5.30 I I2-CH-31/09 ! PIPE TO VALVE B-85 '
C-F-1 l C5.30 ! 12-CH-31/10 : VALVE TO PIPE B-85 , 7-r-1 ! C5.30 i 2-CH-31/11 FIPE TO VALVE B-85
- -r-1 C5.41 '12-CSS-2001/01-BC-1 BRANCH '8-CSS-2001) ! B-19 c-r-1 01 C5.41 !12-CSS-2001/01-BC-2 ' BRANCH (8-CSS-2002) l B-19 C-F-1 C5.41 il2-CSS-2001/01-BC-3 l BRANCH (8-CSS-2003) ! B-19 j C-F-1 i i C5.41 l !4-CH-10/19-BC l BRANCH CONNECTION l B-73 C-F-1 C5.41 l 4-CH-11/ 0 5-BC IBRANCH CONNECTION B-74 C-F-1 C5.41 l4-CH-11/21-BC BRANCH CONNECTION B-74 C-F-1 01 C5.41 l I4-CH-12/10-BC BRANCH CONNECTION B-75 C-F-1 C5.41 l 4-CH-14/09-BC BRANCH CONNECTION B-81 C-F-1 C5.41 4-CH-14/19-BC BRANCH CONNECTION B-81 C-F-1 TOO THIN 10-LPH-2001/31 REDUCER TO PIPE B-23 C-F-1 TOO THIN 10-LPH-2001/32 PIPE TO ELBOW B-23 C-F-1 TOO THIN 10-LPH-2001/33 ELBOW TO PIPE B-23 C-F-1 iTOO THIN 10-LPH-2001/34 PIPE TO ELBOW B-23 C-r-1 TOO THIN 10-LPH-2001/35 ELBOW TO PIPE B-23 C-F-1 TOO THIN 10-LPH-2001/36 PIPE TO ELBOW B-23 C-F-1 TOO THIN 10-LPH-2001/37 ELBOW TO PIPE l B-23 i C-F-1 iTOO THIN 10-LPH-2001/38 PIPE TO ELBOW B-23 C-F-1 TOO THIN 10-LPH-2001/39 ELBOW TO PIPE B-23 C-F-1 .TOO THINI l10-LPH-2001/40 ! PIPE TO ELBOW l B-23 C-F-1 iTOO THIN l 1 f)-LPH- 2001/ 41 IELBOW TO PIPE B-23 C-F-1 I TOO THIN h10-LPH-2001/42 IPIPETOTEE B-23 C-F-1 : TOO THIN j10-LPH-2001/43 l TEE TO PEDUCER B-23 C-F-1 TOO THIN TERM END '10-LPSI-2001/01 B-24 TEE TO PIPE C-F-1 .
TOO THIN 10-LPSI-2001/01D LONG SEAM WELD B-24 C-r-1 ! TOO THIN 10-LPSI-2001/02 PIPE TO ELBOW B-24 C-F-1 TOO THIN 10-LPSI-2001/02U LONG SEAM WELD B-24 C-F-1 TOO THIN 10-LPSI-2001/03 ELBOW TO PIPE B-24 C-r-1 TOO THIN 10-LPSI-2001/03D lLONGSEAMWELD B-24 C-F-1 TOO THIN 10-LPSI-2001/04 IPIPE TO ELBOW B-24 R3 September 1. 1995 Page 109 of 280
i > CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS l REV.1 i a i i ! i ) : - , CATEGORY 3RD INT l ITEHW TYPE COMPONENT l DESCRIPTION l ISO # }' l l
- C-F-1 TOO THIN l 10-LPSI-2001/04U LONG SEAM WELD l B-24 C-F-1 TOO THINI l10-LPSI-2001/05 ELBOW TO PIPE B-24 ;
C-F-1 TOO THINI 10-LPSI-2001/05D LONG SEAM WELD B-24 , C-F-1 l TOO THIN 10-LPSI-2001/06 PIPE TO ELBOW B-24 I C-F-1 TOO THIN 10-LPSI-2001/06U LONG SEAM WELD B-24 C-F-1 TOO THIN [10-LPSI-2001/07 ELBOW TO ELBOW B-24 r i C-F-1 TOO THIll 10-LPSI-2001/08 ELBOW TO VALVE l B-24 J l C-F-1 TOO THIN! 10-LPSI-2001/09 l VALVE TO PIPE l B-24 C-r-1 TOO THINI 10-LPSI-2001/09D LONG SEAM WELD f B-24 i ] C-F-1 l TOO THIN l 10-LPSI-2001/10 PIPE TO ELBOW B-24 l C-F-1 i TOO THINI 10-LPSI-2001/100 LONG SEAM WELD B-24 B-24 I l F-F-1 ! ITOO THINi 10-LPSI-2001/11 ELBOW TO PIPE S F- 1 1 TOO THIN i '10-LPSI-2001/11D LONG SEAM WELD I B-24 C-F-1 - TOO THIN' TERM END i10-LPSI-2001/1' iPIFE TO TEE I B-24 C-F-1 .TOO THIN: 10-LPSI-2001/129 'LONG SEAM WELD B-24 C-F-1 'TOO THINi ;10-LPSI-2002/01 ! REDUCER TO FLANGE B-25
- C-F-1 i TOO THIN ! '10-LPSI-2002/01D [LONG SEAM WELD l B-25 C-F-1 'TOO THIN! i10-LPSI-2002/02 (PIPE TO ELBOW ! B-25 j C-F-1 . '100 THIN
- ;10-LPSI-2002/02U lLONG SEAM WELD l B-25 0-F-1 TOO THIN- 10-LPSI-2002/03 : ELBOW TO PIPE l B-25 i
C-F-1 .TOO THIN' 10-LFSI-2002/04 iPIPE TO ELBOW l B-25 , i C-F-1 -TOO THIN .10-LPSI-2002/05 ; ELBOW TO PIPE ! B-25 I C-F-1 ~ TOO THIN : 1 10-LFSI-2002/05D lLONG SEAM WELL B-25 C-F-1 i 6 TOO THINI 10-LPSI-2002/06 iPIPE TO ELBOW i B-25 C-F-1 TOO THINi l 10-L PCI-2 002 / 06U 'LONG SEAM WELD i B-25 C-F-1 TOO THINI 10-LPSI-2002/07 ELBOW TO PIPE B-25 C-F-1 TOO THINI 10-LPSI-2002/08 PIPE TO ELBOW B-25 C-F 1 TOO THIN 10-LPSI-2002/09 ELBOW TO PIPE B-25 C-F-1 l TOO THIN 10-LPSI-2002/09D LONG SEAM WELD B-25 C-F-1 TOO THIN 10-LPSI-2002/10 PIPE TO PIPE B-25 C-r-1 TOO THIN l 10-LPSI-2002/10D LONG SEAM WELD B-25 C-F-1 TOO THIN l 10-LPSI-2002/10U LONG SEAM WELD B-25 C-F-1 TOOTHINl 10-LPSI-2002/11 PIPE TO PIPE B-25 l l C-F-1 TOO THINI 10-LPSI-2002/11D LONG SEAM WELD B-25 l C-F-1 TOO THINi 10 LPSI-2002/11U LONG SEAM WELD B-25 l C-F-1 I TOO THIN 10-LPSI-2002/12 PIPE TO PIPE B-25 C-F-1 TOO THIN 10-LPSI-2002/12U lLONG SEAM WELD B-25 C-F-1 TOO THIN 10-LPSI-2002/13 l PIPE TO PIPE B-25 C-F-1 l TOO THIN 10-LPSI-2002/13D ,LONG SEAM WELD l B-25 C-F-1 l lTOO THIN 1 10-LPSI-2002/14 : PIPE TO PIPE ' B-25 C-F-1 !TOO THINI !10-LPSI-2002/14D fLONGSEAMWELD i B-25 C-F-1 l ! TOO THIN I i10-LPSI-2002/14U LONG SEAM WELD B-25 l C-F-1 . !TOO THIN} r10-LPSI-2002/15 ! PIPE TO PIPE
~
B-25 _-.C-F-1 'TOO THINi i10-LPSI-2002/15D LONG SEAM WELD B-25 C-F-1 iTOO THINI 10-LPSI-2002/15U LONG SEAM WELD B-25 C-F-1 I TOO THIN 10-LPSI-2002/16 ! ELBOW TO PIPE B-25 C-F-1 TOO THIN 10-LPSI-2002/16D lLONG SEAM WELD B-25 C-F-1 TOO THIN 10-LPSI-2002/16U ILONG SEAM WELD B-25 C-F-1 TOO THIN 10-LPSI-2002/17 PIPE TO ELBOW B-25 C-F-1 TOO THIN 10-LPSI-2002/17D LONG SEAM WELD B-25 R3 September 1. 1995 Page 110 of 280 i 1
CLASS 2 l i I CLASS 2 COMPONENTS AND SUPPORTS REV.1 ,
, l i i CATEGORY 3RD INT ITEMS TYPE COMPONENT DESCRIPTION ISO #
i I a C-F-1 TOO THIN 10-LPSI-2002/17U LONG SEAM WELD B-25 i C-F-1 TOO THIN 10-LPSI-2002/18 ELBOW TO PIPE B-25 C-F-1 TOO THIN 10-LPSI-2002/18D LONG SEAM WELD B-25 ! C-F-1 TOO THIN 10-LPSI-2002/18U LONG SEAM WELD B-25 C-F-1 TOO THIN. 10-LPSI-2002/19 PIPE TO ELBOW B-25 ; C-F-1 TOO THINI 10-LPSI-2002/190 LONG SEAM WELD B-25 l
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4 C-F-1 TOO THIN 10-LPSI-2002/20 ELBOW TO PIPE B-25 [ l C-F-1 TOO THIN 10-LPSI-2002/20D LONG SEAM WELD B-25 i C-F-1 TOO THIN 10-LPSI-2002/21 PIPE TO ELBOW B-25 ;
! C-F-1 TOO THIN 10-LPSI-2002/21U LONG SEAM WELD B-25 ,
C-F-1 TOO THIN 10-LPSI-2002/22 ELBOW TO PIPE B-25 I Il0-LPSI-2002/22A PIPE TO PIPE B-25 C-r-1 lTOO THINI C-F-1 {TOO THINi {10-LPSI-2002/22AD !LONG SEAM WELD B-25 C-F-1 ' f TOO THIN i '10-LPSI-2002/22AU !LONG SEAM WELD B-25 , i C-F-1 !LONG SEAM WELD ' B-25
. !TOOTHINI :10-LPSI-2002/22D C-F-1 !TOO THIMi f10-LFSI-2002/23 l PIPE TO ELBOW < B-25 i C-F-1 I ITOO THINI Il0-LPSI-2002/24 lELBOW TO PIPE I B-25 C-F-1 i !TOOTHINI 10-LPSI-2002/24D lLONG SEAM WELD B-25 r C-F-1 !TOOTHINi }10-LPSI-2002/25 !PIPETOELDOW B-25 C- F- 1 iTOO THINi 10-LPSI-2002/25U ILONG SEAM WELD B-25 ,
C-F-1 f TOO THIN : )10-LPSI-2002/26 ELBOW TO PIPE ' B-25 C-F-1 !TOO THIMi 110-LPSI-2002/27 iPIPE TO ELBOW ! B-25 I C-F-1 ! TOO THIN : LPSI-2002/28 ELBOW TO PIFE B-25 i C-F-1 1TOO THINf !10-LPSI-2002/29 ' PIPE TO ELBOW
. B-25 C-F-1 '
TOO THIN l 10-LPSI-2002/30 IELBOW TO VALVE B-25 , , C-F-1 TOO THIN 10-LPSI-2002/31 VALVE TO ELBOW B-25 , l C-F-1 TOO THIN 10-LPSI-2002/32 ELBOW TO PIPE B-25 l C-F-1 TOO THIM 10-LPSI-2002/33 PIPE TO PIPE B-25 ; j C-F-1 TOO THIN TERM END 10-LPSI-2002/34 PIPE TO TEE B-25 ) C-F-1 TOO THIN TERM END 12-CSS-2011/01 TEE TO PIPE B-39 j C-F-1 TOO THIN 12-CSS-2011/01A PIPE TO ELBOW B-39 i C-F-1 TOO THIN 12-CSS-2011/01AE LONG SEAM WELD B-39 " ! C-F-1 TOO THIN 12-CSS-2011/01AI LONG SEAM WELD B-39 i C-F-1 TOO THIN 12-CSS-2011/01AU LONG SEAM WELD B-39 l C-F-1 TOO THIN 12-CSS-2011/01D LONG SEAM WELD B-39 C-F-1 TOO THIN 12-CSS-2011/02 IELBOW TO PIPE B-39
- C-r-1 TOO THIN 12-CSS-2011/02E LONG SEAM WELD B-39 <
C-F-1 TOO THIN 12-CSS-iO11/02I LONG SEAM WELD B-39 C-F-1 TOO THIH 12-CSS-2011/03 PIPE TO ELBOW ! B-39 C-r-1 TOO THIN! !12-CSS-2011/03E iLCNG SEAM WELD i B-39 C-F-1 .TOO THINi 112-CSS-2011/ 0 31 lLONG SEAM WELD l B-39_ , C-F-1 t lTOO THINi !12-CSS-2011/04 ! ELBOW TO PIPE B-39 4 C-F-1 ! TOO THINi il2-CSS-2011/04D LONG SEAM WELD B-39 C-F-1 ! TOO THIN! 12-CSS-2011/04E LONG SEAM WELD B-39 C-F-1 TOO THIN' 12-CSS-2011/04I LONG SEAM WELD B-39 C-F-1 TOO THIN - 12-CSS-2011/05 PIPE TO ELBOW B-39 C-F-1 TOO THIN 12-CSS-2011/05E LONG SEAM WELD B-39 ! C-F-1 TOO THIN 12-CSS-2011/05I LONG SEAM WELD B-39 [ I C-F-1 TOO THIN 12-CSS-2011/05U LONG SEAM WELD B-39 i C-F-1 TOO THIN 12-CSS-2011/06 PIPE TO VALVE I B-39 i , R3 September 1. 1995 Page 111 of 280 l
_. _. __ .__,_.m _ _ _ . . _ _ _ ____ _ _ _ , _,_- _ . _ _ . _ _ _ _ _ _ _ _ _ . _. ___ _ _ _ _ _ . 1 i {' CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS l REV.1 I ! I l , CATEGORY 3RD INT ITEMS I TYPE CCHPONENT I DESCRIPTION ISO # 4 C-r-1 TOO THINI 12-CSS-2011/06E iLONG SEAM WELD B-39 l C-F-1 TOO THINi 12-CSS-2011/06I LONG SEAM WELD B-39 C-r-1 TOO THINI 12-CSS-2012/01 PIPE TO ELBOW B-39 C-r-1 TOO THIN ITERM END 112-CSS-2012/01 A TEE TO PIPE B-39 , C-F-1 TOO THIN! 112-CSS-2012/01AD lLONG SEAM WELD B-39 l C-F-1 TOO THIN! I12-CSS-2012/01E lLONG SEAM WELD B-39 C-F-1 TOO THINl l12-CSS-2012/011 LONG SEAM HELD B-39 C-F-1 TOO THIN 112-CSS-2012/010 LONG SEAM WELD B-39 C-F-1 lTOOTHIN l12-CSS-2012/02 ELBOW TO PIPE B-39 C-F-1 1
'TOO THIN l 112-CS: 2012/02D LONG SEAM WELD B-39 C-F-1 l TOO THINi l12-CSS-2012/02E LONG SEAM WELD B-39 C-F-1 i lTOO THINi !12-CSS-2012/02I LONG SEAM WELD B-39 C-F-1 I ITOO THINi 112-CSS-2012/03 PIPE TO ELBOW B-39
_C-F-1 lTOO THINI I12-CSS-2012/03E iLONG SEAM WELD B-39 , C-F-1 lTCO THIMi 12-CSS-2012/03! iLONG SEAM WELD i B-39 C-F-1 !TOO THIN' 10-CSS-2012/03U !LONG SEAM WELD B-39 C-F-1 !TOO THINI ;12-CSS-2012/04 IELBOW TO VALVE I B-39 c C-F-1 !TOO THIN il2-CSS-2012/04E ILONG SEAM WELD B-39 C-F-1 ITOO THIN; i l2-CSS-2012/04I lLONGSEAMWELD B-39 C-F-1 1 TOO THIN : TERM END +12-CSS-2013/01 ! PIPE TO ELBOW ! B-39 C-F-1 iTOO THIN! '12-CSS-2013/01E I LONG SEAM WELD I B-39 ! C-F-1 1 TOO THIN : il:-CSS-2013/01I ;LONG SEAM WELD l B-39 ; C-F-1 !TOO THIN. 12-CSS-2013/02 ELBOW TO PIPE ! B-39 l C-F-1 lTOO THIN i 12-CSS-2013/02D LONG SEAM WELD i B-39 i C-F-1 i TOO THIN! {12-CSS-2013/02E LONG SEAM WELD B-39 C-F-1 i TOO THINi 112-CSS-2013/02I LONG SEAM WELD B-39 ; C-F-1 TOO THINi !12-CSS-2013/03 ELBOW TO PIPE B-39 j C-F-1 TOO THINi I12-CSS-2013/03E LONG SEAM WELD B-39 I C-F-1 l TOO THIN l 12-CSS-2013/03I LONG SEAM WELD I B-39 C-F-1 TOO THINI 12-CSS-2013]30 LONG SEAM WELD ! B-39 I C-r-1 TOO THIN 12-CSS-2013/04 ELBOW TO PIPE I B-39 C-r-1 , TOO THIN 12-CSS-2013/04D LONG SEAM WELD B-39 C-F-1 TOO THINI l12-CSS-2013 / 04 E ,LONG SEAM WELD B-39 C-F-1 TOO THIN l 12-CSS-2013/04I !LONGSEAMWELD l B-39 C-F-1 l TOOTHINl 12-CSS-2013/05 lPIPETOVALVE l B-39 C-F-1 TOO THIN! 12-CSS-2013/050 lLONG SEAM WELD i B-39 1 C-F-1 TOO THIN l l12-LPH-2001/02 FLANGE TO REDUCER 18") i B-16 C-F-1 TOO THINI {12-LPH-2001/12 TEE TO PIPE (B") i B-16 C-F-1 TOO THINI l14-LFSI-2001/01 VALVE TO ELBOW B-09 C-F-1 TOO THINI '14-LPSI-2001/01E !LONG SEAM WELD B-04 C-F-1 ! ! TOO THIN ' 14-LFSI-2001/01I 'LONG SEAM WELD B-09 C-F-1 ! ! TOO THIN ! [14-LPSI-2001/02 l ELBOW TO PIPE i B-09 C-F-1 ! ! TOO THIN I 114-LPSI-2001/02E LONG SEAM WELD B-09 C-F-1 l TOO THIN ! i14-LPSI-2001/02I LONG SEAM WELD B-09 C-F-1 ' TOO THIN 14-LPSI-2001/03 PIPE TO ELBOW B-09 C-F-1 TOO THIN 14-LPSI-2001/03E LONG SEAM WELD B-09 C-F-1 TOO THIN 14-LPSI-2001/03I LONG SEAM WELD B-09 C-F-1 TOO THIN 14-LPSI-2001/04 ELBOW TO PIPE B-09 C-F-1 700 THIN 14-LPSI-2001/04E LONG SEAM WELD B-09 C-F-1 TOO THIN 14-LPSI-2001/04I LOUC SEAM WELD B-09 R3 September 1, 1995 Page 112 of 280 , 1 l 1
m _ . . = _ . __ _. m. , ,. _.__.m m_ . . , _ _ . . __ i CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS I REV.1 Il ! I j CATEGORY 3RD INT ITEM # l TYPE l COMPONENT DESCRIPTION l ISO # : l l l C-F-1 I TOO THIN l 14-LPSI-2001/05 PIPE TO TEE 1 B-09 C-F-1 l TOO THINI 14-LPSI-2001/06 '.EE TO PIPE I B-09 C-F-1 l TOO THINI 14-LPSI-2001/07 PIPE TO REDUCER l B-09 l C-F-1 I TOOTHINlTERMEND 14-LPSI-2001/08 REDUCER TO FLANGE I B-09 j d C-F-1 TOO THINITERM END ~14-LPSI-2001/A1 TEE TO PIPE I B-09 I C-F-1 TOO THIN 14-LPSI-2001/A2 PIPE TO ELBOW j B-09 , C-F-1 TOO THIN 14-LPSI-2001/A2E LONG SEAM WELD l B-09 C-F-1 l TOO THIN 14-LPSI-2001/A21 LONG SEAM WELD l B-09 4 C-F-1 I lTOO THIN 14-LPSI-2001/A3 ELBOW TO PIPE B-09 C-r-1 l l TOO THIN 114-LPSI-2001/A3D LONG SEAM WELD B-09 C-F-1 i iTOO THIN' 114-LPSI-2001/A3E LONG SEAM WELD B-09 J _ C-r-1 ITOO THINI l14-LPSI-2001/A3I LONG SEAM WELD l B-09 C-F-1 ~ TOO THINI l14-LPSI-2001/A4 lPIEE TO PIPE ! B-09 C*F-1 !TOO THIN! '14-LPSI-2001/A4D !LONG SEAM WELD 4 B-09 C-F-1 'TOO THIN; 14-LPSI-2001/A4U ;LONG SEAM WELD B-U9 C-F-1 i lTOO THINI f14-LPSI-2001/A5 iPIPETOVALVE . B-09 i 14-LPSI-2001/ASU iLONG SEAM WELD C-F-1 iTOO THINI ! B-09 4 C-F-1 :TOO THINI 114-LPSI-2002/01 JVALVE TO ELBOW j B-10 I C-r-1 TOO THINi 114-LPSI-2002/02 ' ELBOW TO ELBOW ! B-10 f C-F-1 ,TOO THINf '14-LPSI-2002/02E ;LONG SEAM WELD i B-10 C-F-1 :TOO THIN! 514-LPSI-2002/02I iLONG SEAM WELD i B-10 , C-F-1 ' TOO THIN ! 14-LPSI-2002/03 ELBOW TO PIPE B-10 r l C-F-1 'TOO THINi 14-LPSI-2002/03D LONG SEAM WELD B-10 C-F-1 -TOO THIN! 14-LPSI-2002/03E !LCNGSEAMWELD ' B-10 j C-F-1 i lTOOTHINI 114-LPSI-2002/03I iLONG SEAM WELD ! B-10 i C-F-1 l ~ TOOTHINj 14-LPSI-2002/04 PIPE TO TEE B-10 C-F-1 i TOO THIN l 14-LPSI-2002/04D LONG SEAM WELD B-10 l C-F-1 TOO THIN 14-LPSI-2002/04U LONG SEAM WELD B-10
- C-F-1 TOO THIN 14-LPSI-2002/05 TEE TO REDUCER B-10
! C-F-1 TOO THIN 14-LPSI-2002/05U LONG SEAM WELD l B-10 C-F-1 TOO THIN TERM END 14-LPSI-2002/07 REDUCER FLANGE l B-10 ] C-F-1 TOO THIN TERM END 14-LPSI-2002/A1 LONG SEAM WELD l B-10 ) C-F-1 TOO THIN 14-LPSI-2002/A1E LONG SEAM WELD I B-10 C-F-1 l TOO THIN 14-LPSI-2002/A1I LONG SEAM WELD l B-10 C-F-1 i !TOO THIN 14-LPSI-2002/A2 ELBOW TO PIPE l B-10 C-F-1 l TOO THIN 14-LPSI-2002/A2D LONG SEAM WELD lB-10 C-F-1 l TOO THIN 14-LPSI-2002/A2E LONG SEaN WELD l B-10 C-F-1 l TOO THIN l14-LPSI-2002/A2I LONG SEAM WELD i B-10 C-F-1 I TOO THIN 14-LPSI-2002/A3 PIPE TO ELBOW B-10 i C-F-1 l 1TOO THINI 14-LPSI-2002/A3E lLONGSEAMWELD B-10 ! C-r-1 ! TOO THIN .I jl4-LPSI-2002/A31 lLONGSEAMWELD B-10 l C-r-1 I TOO THINI f14-LPSI-2002/?aU fLONGSEAMWELD B-10, C-F-1 J TOO THIN l !!4-LPSI-2002/A4 l ELBOW TO PIPE B-10 a C-F-1 TOO THIN' '14-LPSI-2002/A4D lLONG SEAM WELD B-10 . C-F-1 1 iTOOTHIN 14-LPSI-2002/A4E !LONG SEAM WELD B-10 1 C-F-1 s !TOO THIN 14-LPSI-2002/A41 lLONG SEAM WELD B-10 C-F-1 I TOO THIN 14-LPSI-2002/A5 l PIPE TO VALVE B-10 C-r-1 TOO THIN 14-LPSI-2002/ASU lLONG SEAM WELD B-10 C-F-1 TOO THIN 6-CSS-2001/01 ' TEE TO PIPE B-35 C-F-1 TOO THIN 6-CSS-2001/02 PIPE TO ELBOW B-35 1 R3 September 1, 1995 Page 113 of 280
CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO # C-F-1 TOO THIN 6-CSS-2001/03 ELBOW TO PIPE B-35 C-F-1 TOO THIN 6-CSS-2001/04 iPIPE TO ELBOW B-35 C-r-1 TOO THIN 6-CSS-2001/05 ELBOW TO PIPE B-35 C-F-1 TOO THIN 6-CSS-2001/06 PIPE TO ELBOW B-35 C-F-1 TOO THIN 6-CSS-2001/07 ELBOW TO PIPE B-35 C-F-1 TOO THIN 6-CSS-2001/08 PIPE TO ELBOW B-35' C-r-1 TOO THIN 6-CSS-2001/09 ELBOW TO PIPE B-35 C-F-1 TOO THIN 6-CSS-2001/10 PIPE TO TEE B-35 C-F-1 I TOO THIN 6-CSS-2001/11 TEE TO PIPE B-35 C-F-1 l _TOOTHIN! 6-CSS-2001/11A PIPE TO VALVE B-35 C-F-1 I ITOOTHINl 6-CSS-2001/12 TEE TO REDUCER B-35 C-F-1 l lTOO THIN l !6-CSS-2001/13 VALVE TO PIPE B-35 C-F-1 l l TOO THIN I l6-CSS-2001/14 IPIPE TO ELBOW B-35 C-F-1 e i TOO THIN i :6-CSS-2001/15 IELBOW TO VALVE l B-35 C-F-1 ! { TOO THIN ITERM END 16-HPSI-2001/01 TEE TO PIPE B-41 C-F-1 ! lTOO THIN l ;6-HPSI-2001/010 lLONG SEAM WELD B-41 C-r-1 iTOO THINI 16-HPSI-2001/02 l PIPE TO ELBOW l B-41 C-F-1 ' lTOO THIN l l6-HPSI-2001/02D LONG SEAM WELD l B-41 C-F-1 fTOOTHINI i6-HPSI-2001/020 LONG SEAM WELD l B-41 C-F-1 :TOO THIN! W-HPSI-2001/03 l ELBOW TO PIPE B-41 C-F-1 j6-HPSI-2001/03D ILONG SEAM WELD B-41 lTOOTHINl C-F-1 ! TOO THIN ! '6-HPSI-:001/03U :LONG SEAM WELD B-41 C-F-1 ! TOO THIN i i6-HPSI-2001/04 ; PIPE TO VALVE B-41 C-F-1 ! l TOO THIN { i6-HPSI-2001/04U ILONG SEAM WELD B-41 C-F-1 I TOO THIN 6-HPSI-2001/05 VALVE TO TEE B-41 C-F-1 TOO THIN l6-HPSI-2001/06 REDUCER TO TEE B-41 C-F-1 TOO THIN 6-HPSI-2001/07 TEE TO PIPE B-41 C-F-1 TOO THIN 6-HPSI-2001/07D LONG SEAM WELD B-41 C-F-1 TOO THIN 6-HPSI-2001/08 PIPE TO VALVE B-41 C-F-1 TOO THIN 6-HPSI-2001/08U LONG SEAM WELD B-41 C-F-1 TOO THIN 6-HPSI-2001/09 VALVE TO PIPE B-41 C-F-1 TOO THIN 6-HPSI-2001/09D LONG SEAM WELD B-41 C-F-1 I TOO THIN 6-HPSI-2001/10 PIPE TO ELBOW B-41 C-F-1 TOO THIN 6-HPSI-2001/10U LONG SEAM WELD B-41 C-F-1 TOO THIN TERM END 6-HPSI-2001/11 ELBOW TO REDUCER l B-41 C-r-1 TOO THIN 6-HPSI-2002/15 REDUCER TO PIPE B-40 C-F-1 TOO THIN 6-HPSI-2002/15D LONG SEAM WELD B-40 C-F-1 TOO THIN 6-HPSI-2002/16 PIPE TO ELBOW ! B-40 C-F-1 TOO THIN 6-HPSI-2002/16U LONG SEAM WELD I B-40 C-F-1 I TOO THIN !6-HPSI-2002/17 l ELBOW TO VALVE B-40 C-F-1 TOO THINl i6-HPSI-2002/18 jVALVE TO PIPE B-40 r F-1 i TOO THINl l6-HPSI-2002/19 PIPE TO ELBOW B-40 ELBOW TO REDUCER B-40 C-F-1 l TOO THIN ITERM END j 6-HPSI-2002/20 ) C-E-1 !TOO THIN l 6-HPSI-2003/07 TEE TO PIPE B-40 l C-F-1 lTOO THINI 6-HPSI-2003/07A PIPE TO PIPE B-40 l C-r-1 lTOOTHIN 6-HPSI-2003/07AD LONG SEAM WELD B-40 l C-r-1 TOO THIN 6-HPSI-2003/07AU LONG SEAM WELD B-40 l C-F-1 TOO THIN 6-HPSI-2003/07D LONG SEAM WELD B-40 C-r-1 TOO THIN 6-HPSI-2003/08 PIPE TO ELBOW B-40 C-F-1 TOO THIN- 6-HPSI-2003/08D LONG SEAM WELD B-40 R3 September 1. 1995 Page 114 of 280
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CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1 i ! CATEGORY 3RD INT ITEM # l TYPE ! COMPONENT DESCRIPTION ISO # , i j C-F-1 TOO THIN l !6-HPSI-2003/08U LONG SEAM WELD B-40 , C-F-1 TOO THIN! l6-HPSI-2003/09 ELBOW TO PIPE B-40 C-F-1 TOO THINi !6-HPSI-2003/09D LONG SEAM WELD B-40 C-F-1 TOO THINI l6-HPSI-2003/09U LONG SEAM WELD B-40 C-F-1 TOO THIN l l6-HPSI-2003/10 PIPE TO ELBOW B-40 C-F-1 TOO THINl f6-HPSI-2003/10U lLONG SEAM WELD I B-40 C-F-1 TOO THINI l6-HPSI-2003/11 l ELBOW TO VALVE i B-40 C-F-1 TOO THINI 6-HPSI-2003/12 VALVE TO PIPE B-40 C-r-1 TOO THIlll 6-HPSI-2003/12D LONG SEAM WELD B-40 l C-F-1 i TOO THINI 6-HPSI-2003/13 lPIPETOELBOW B-40 C-F-1 l TOOTHIHl l6-HPSI-2003/130 ILONG SEAM WELD B-40 TOO THIN ITERM END 16-HPSI-2003/14 lELBOWTOREDUCER B-40 __C-F-1 C-F-1 l TOOT!!IN i !6-LFH-2012/01 iTEE TO PIPE ! B-33 C-F-1 iTOO THIt! 4-LFH-2012/02 PIPE TO FLANGE B-33 C-F-1 : TOO THINi 6-LFH-2012/03 FLANGE TO PIFE D-33 C-F-1 !TOO THIH, >t-LFH-2012/04 ;PIFE TO ELBOW B-33 C-F-1 ' TOO THIN I 6-LEH-2012/05 ! ELBOW TO PIPE I B-33 C-F-1 lTOOTHIN1 !6-LFH-2012/06 lPIFE TO ELBOW i B-33 C-F-1 '
' TOO THIN i i6-LFH-2012/07 ! ELBOW TO REDUCER i B-33 i C-F-1 : TOO THIN. 6-LFH-2014/01 > REDUCER TO PIPE l B-34 C-F-1 TOO THIN. '6-LEH-2014/02 : PIPE TO ELBOW l B-34 C-F-1 i
- TOO THIN. 6-LFH-2314/03 ELBOW TO PIPE B-34 C-F-1 : TOO THIN ! '6-LFH-2014/04 iPIPE TO ELBOW B-34 C-F-1 : TOO THIN , 6-LFH-2014/05 ELBOW TO FIFE i B-34 C-F-1 lTOOTHINt }6-LPH-2014/06 IPIPE TO ELBOW l B-34 5
C-F-1 TOOTHINl I6-LPH-2014/07 l ELBOW TO PIPE _. B-34 C-F-1 TOO THIN l l6-LPH-2014/08 l PIPE TO ELBOW B-34 C-F-1 TOO THIN 6-LPH-2014/09 IELBOW TO PIPE l B-34 C-F-1 TOO THIN 6-LPH-2014/10 PIPE TO ELBOW l B-34 C-F-1 TOO THINl 6-LPH-2014/11 ELBOW TO PIPE l B-34 C-F-1 TOO THINI l6-LPH-2014/12 fPIPETOELBOW lB-34 j C-F-1 TOO THINl 6-LPH-2014/13 l ELBOW TO PIPE l B-34 C-F-1 TOO THIN l 6-LPH-2014/14 PIPE TO FLANGE ! B-34 C-F-1 TOOTHINl 6-LPH-2014/15 FLANGE TO PIPE l B-34 C-F-1 TOO THIN l 6-LPH-2014/16 ! PIPE TO ELBOW ! B-34 C-F-1 TOO THINi 6-LPH-2014/17 lELBOWTOREDUCER f B-34 C-F-1 TOO THINI 6-LPH-2022/01 l REDUCER TO PIPE BEND l B-31_ C-r-1 TOO THIN l6-LPH-2022/02 l PIPE BEND TO FLANGE i B-31 C-F-1 TOO THIN I6-LPH-2022/03 ! FLANGE TO PIPE B-31 C-F-1 iTOO THINI '(.- LP H- 2 02 2 / 0 3 A . FLANGE TO PIPE B-31 C-F-1 1 TOO THINi j6-LPH-2022/03B ELBOW TO PIPE l B-31 C- r- 1 i fTOOTHIN! l6-LFH-2022/03C lPIFE TO ELBOW B-31 C-F-1 i TOO THIN 1 6-LPH-2022/03D iELBOW TO PIPE B-31 _ C-F-1 ! ;TOO THIN! i6-LPH-2022/04 IPIPE TO ELBOW B-31 C-r-1 l tTOO THIN 6-LPH-2022/05 ELBOW TO PIPE B-31 C-F-1 ITOO THIN 6-LPH-2022/06 PIPE TO ELBOW B-31 C-r-1 ITOO THIN 6-LPH-2022/07 l ELBOW TO REDUCER B-31 C-F-1 TOO THIN 6-LPH-2024/01 TEE TO PIPE l B-32 i C-r-1 _TOO THIN 6-LPH-2024/02 PIPE TO FLANGE l B-32 < C-F-1 ITOO THIN 16-LPH-2024/03 FLANGE TO PIPE l B-32 i R3 September 1. 1995 Page 115 of 280 ' i
CLASS 2 l CLAJS 2 COMPONENTS AND SUPPORTS l REV.1 l l l l l CATEGORY j 3RD INT ITEM # l TYPE COMPONENT DESCRIPTION I ISO # l B-32 C-r-1 l TOO THIN 6-LPH-2024/04 PIPE TO ELBOW C-F-1 } TOO THIN 6-LPH-2024/05 ELBOW TO ELBOW l B-32 C-r-1 TOO THIN' 6-LPH-2024/06 ELBOW TO PIPE i B-32 C-F-1 TOO THIN 6-LPH-2024/07 PIPE TO REDUCER I B-32 C-F-1 TOO THIN 0-CSS-2001/01 FLANGE TO ELBOW l B-26 C-F-1 TOO THIN 8-CSS-2001/01D LONG SEAM WELD B-26 C-F-1 TOO THIN 0-CSS-2001/02 ELBOW TO PIPE B-26 C-F-1 TOO THIN 8-CSS-2001/02D LONG SEAM WELD B-26 C-F-1 TOO THIN 0-CSS-2001/02I LONG SEAM WELD B-26 C-F-1 I lTOO THIN 8-CSS-2001/03 PIPE TO ELBOW B-26 C-F-1 i iTOO THIN , l8-CSS-2001/031 LONG SEAM WELD l B-26 C-r-1 i iTOO THINI !8-CSS-2001/030 LONG SEAM WELD I B-26 2-F-1 !TOO THINl lG-CSS-2001/04 ! ELBOW TO PIPE I B-26 C-F-1 iTOO THINi 9-CSS-2001/04D !LONG SEAM WELD ' B-26 C-F-1 TOO THIN i 8-CSS-2001/04I lLONG SEAM WELD B-26 C-F-1 #TOO THINi 8-CSS-2001/05 : PIPE TO PIPE B-26 C-r-1 i TOO THIN l 8-CSS-2001/05D iLONG SEAM WELD i B-26 C-F-1 ITOO THINI 8-CSS-2001/05U ILONG SEAM WELD l B-26 C-F-1 ; TOO THIN i 8-CSS-2001/06 l PIPE TO VALVE I B-26 C-F-1 TOO THINI 8-CSS-2001/06U lLONG SEAM WELD l B-26 C-F-1 - TOO THIN ! i-CSS-2001/07 IVALVE TO ELBCW B-26 C-F-1 'TOO THINI 8-CSS-2001/07D 'LONG SEAM WELD B-26 C-r-1 TOO THINt 8-CSS-2001/08 ! ELBOW TO PIPE i B-26 C-E-A I TOO THINI 8-CSS-2001/08D ILONG SEAM WELD B-26 C-F-1 !TOO THIN f8-CSS-2001/08U lLONG SEAM WELD l B-26 C-F-1 TOO THIN 8-CSS-2001/09 l PIPE TO PIPE I B-26 C-F-1 TOO THIN 8-CSS-2001/090 LONG 9EAM WELD B-26 C-F-1 TOO THIN TEPN END 8-CSS-2001/10 PIPE TO WELDOLET B-26 C-r-1 I TOO THIN TERM END .8-CSS-2001/A1 FLANGE TO REDUCER (6") B-26 C-F-1 l TOO THIN !8-CSS-2001/A2 REDUCER TO PIPE B-26 C-F-1 I TOO THIN l8-CSS-2001/A2D LONG SEAM WELD B-26 C-F-1 TOO THIN l8-CSS-2001/A3 PIPE TO FLANGE B-26 C-F-1 TOO THIN !8-CSS-2001/A30 LONG SEAM WELD l B-26 C-r-1 TOO THIN l8-CSS-2002/01 FLANGE TO ELBOW I B-27 C-r-1 TOO THINI l8-CSS-2002/01D LONG SEAM WELD l B-27 C-F-1 l TOOTHINl l8-CSS-2002/02 ELBOW TO ELBOW l B-27 C-F-1 i TOOTHINl l8-CSS-2002/02D .LONG SEAM WELD ! B-27 C-F-1 TOO THIN l8-CSS-2002/02U lLONG SEAM WELD B-27 C-F-1 TOO THIN 8-CSS-2002/03 l ELBOW TO PIPE B-27 C-F-1 lTOO THIN! '8-CSS-2002/03A iPIPE *O PIPE B-27 C-F-1 iTOO THIN l IB-CSS-2002/03AD lLONGSEAMWELD B-27 C-F-1 iTOO THINi i9-CSS-2002/03AU ILONG SEAM WELD B-27 C-r-1 !TOOTHINj 8-CSS-2002/03D LONG SEAM WELD B-27 C-F-1 {TOOTHIN- i8-CSS-2002/03U LONG SEAM WELD B-27 C-r-1 i
!TOO THIN 8-CSS-2002/04 PIPE TO ELBOW B-27 C-F-1 i TOO THIN 0-CSS .l002/04I LONG SEAM WELD B-27 C-F-1 TOO THIN 8-CSS-2002/04U LONG SEAM WELD B-27 C-F-1 TOO THIN 0-CSS-2002/05 PIPE TO VALVE B-27 C-r-1 TOO THIN 0-CSS-2002/05I LONG SEAM WELD B-27 C-r-1 TOO THIN 8-CSS-2002/06 VALVE TO PIPE I B-27 R3 September 1, 1995 Page 116 of 280
i CLASS 2 CIASS 2 COMPONENTS AND SUPPORTS t REV.1 l l I CATEGORY 3RD INT ITEM # l TYPE l COMPONENT DESCRIPTION l ISO # i l I C-F-1 TOO THIrli l8-CSS-2002/06D ILONG SEAM WELD l B-27 C- F- 1 ITOOTHINf 8-CSS-2002/07 IPIPE TO PIPE
~
l B-27 C-F-1 !TOOTHINl 8-CSS-2002/07D LONG SEAM WELD I B-27 C-F-1 l TOO THIN l 8-CSS-2002/070 .LONG SEAM WELD B-27 C-F-1 TOO THI!J ! TERM END !8-CSS-2002/08 IPIPE TO WELDOLET . B-27 C-F-1 TOOTHINl l8-CSS-2002/00U lLONG SEAM WELD l B-27 C-F-1 1 TOO THIN ITERM END i8-CSS-2002/A1 l FLANGE TO REDUCER (6") I B-27 C-F-1 TOO THIN l8-CSS-2002/ AID LONG SEAM WELD B-27 C-F-1 TOO THIN {0-CSS-2002/A2 REDUCER TO PIPE B-27 C- F- I lTOO THINI !8-CSS-2002/A2D fLONG SE W WELD B-27 C-F-1 f iTOO THIN l I8-CSS-2002/A20 lLONG SEAM WELD B-27 C-F-1 ! TOO THIN i 18-CSS-2002/A3 iPIPE TO FLANGE B-27 7-F-1 TOO THIt!i iB-CSS-2002/A3U 'LONG SEAM WELD l B-27 C-F-1 . 'TOO THINt 8-CSS-2003/01 FLANGE TO ELBOW l B-28 C-F-1 .TOO THI!!; H-CSS-2003/01S 'LONG SEAM WELD B-28 C- F- l 4 TOO THIN: 9-CSS-2003/02 ; ELBOW TO PIPE B-28 C-F-1 !TOO THINi !8-CSS-2003/02D lLONGSEAMWELD i B-28 C-F-1 ! TOO THIN i W-CSS-2003/02U 'LONG SEAM WELD l B-28
'-F-1 TOO THINI 8-CSS-2003/03 ' PIPE TO VALVE I B-28 C-F-1 TOO THIrli 's-CSS-2003/03U iLONG SEAM WELD l B-28
$ C-F-1 TOO THIN. A-CSS-2003/04 VALVE TO ELBOW I B-28 C-F-1 TOO THIt! ' 8-CSS-2CO3/04D .LONG SEAM WELD B-28 C-F-1 .TOO THIN 9-CSS-2003/05 ELBOW TO PIPE B-28 C-F-1 TOO THIN 0-CSS-2CO3/05D LONG SEAM WELD B-28 C-F-1 l TOO THIN 1 :8-CSS-2003/05U [LONG SEAM WELD l B-28 C-F-1 f TOO THINi l8-CSS-2003/06 lPIPETOELBOW l B-28 C-F-1 TOO THINI 8-CSS-2003/06D !LONG SEAM WELD B-28 C-F-1 TOO THIN l 8-CSS-2003/06U ILONG SEAM WELD B-28 C-F-1 TOOTHINl 8-CSS-2003/07 ELBOW TO PIPE B-28 C-F-1 TOO THIN l 8-CSS-2003/07D LONG SEAM WELD B-28 1 C-F-1 TOO THIN i 8-CSS-2003/07U LONG SEAM WELD B-28 C-F-1 TOOTHINl l8-CSS-2003/08 PIPE TO ELBOW B-28 C-F-1 TOO THIN l l8-CSS-2003/08D LONG SEAM WELD B-28 C-F-1 TOO THINI I8-CSS-2003/08U LONG SEAM WELD B-28 C-F-1 l .TOO THINI IB-CSS-2003/09 l ELBOW TO PIPE I B-28 C-F-1 ITOO THINI f8-CSS-2003/09D lLONG SEAM WELD l B-28 C-F-1 TOO THIN l i8-CSS-2003/09U ILONG SEAM WELD I B-28 C-F-1 TOO THINi l8-CSS-2003/10 l PIPE TO ELBOW I B-28 C-F-1 .TOO THIN! i8-CSS-2003/10D iLONG SEAM WELD B-28 C-F-1 l l TOOTHING IB-CSS-2003/100 iLONG SEAM WELD B-28 C-r-1 , !TOO THINI iR-CSS-2003/11 ELBOW TO PIPE B-28 C-F-1 ! kTOOTHIN1 8-CSS-2003/11D !LONG SEAM WELD B-28 C-F-1 ! TOO THIN r .e. CSS-2003/11U LONG SEAM WELD B-28 C-F-1 t
- TOO THIN: 8-CSS-2003/12 PIPE TO PIPE B-28 C-F-1 1TOO THINi 8-CSS-2003/12D LONG SEAM WELD B-2B C-F-1 TOO THINl 8-CSS-2003/120 LONG SEAM WELD B-28 C-F-1 I TOO THINI 8-CSS-2003/14 PIPE TO PIPE B-28 C-F-1 l TOO THIN 0-CSS-2003/14U LONG SEAM WELD B-28 C-F-1 1 TOO THIN 0-CSS-2003/15 PIPE TO ELBOW B-28 C-F-1 l TOO THIN 0-CSS-2003/15D lLONG SEAM WELD B-28 R3 September 1. 1995 Page 117 of 280
i l i CLASS 2 I 1 CLASS 2 COMPONENTS AND SUPPORTS i REV.1 I i i
, t j CATEGORY 3RD INT ' ITEM # TYPE COMPONENT DESCRIPTION ISO # !
1 l C-r-1 TOO THIN l 8-CSS-2003/16 ELBOW TO PIPE B-28 1 C-r-1 TOO THIN 0-CSS-2003/160 LONG SEAM WELD B-28 i C-F-1 TOO THIN B-CSS-2003/16U LONG SEAM WELD B-28 C-F-1 TOO THIN l 8-CSS-2003/17 PIPE TO PIPE B-28 i
) C-F-1 TOOTHINf 8-CSS-2003/17D LONG SEAM WELD B-28 C-F-1 TOO THIN 8-CSS-2003/17U LONG SEAM WELD l B-28 C-F-1 TOO THIN TERM END 8-CSS-2003/18 PIPE TO WELDOLET B-28 C-F-1 TOO THIN 8-CSS-2003/18U LONG SEAM WELD B-28
! C-F-1 TOO THIN TERM END 8-CSS-2003/A1 FLANGE TO REDUCER B-28 C-F-1 TOO THINi 8-CSS-2003/A2 REDUCER TO PIPE B-28 C-F-1 i
'TOO THIN l 18-CSS-2003/A2D LCNG SEAM WELD B-28 l C-F-1 ! TOO THINI IB-CSS-2003/A3 l PIPE TO FLANCE B-28 C-F-1 I TOOTHIN! l8-CSS-2003/A3U !LONG SEAM WELD l B-28 ' iB-HPSI-2001/01 C-F-1 iTOO THINi lPIPETOFLANGE i B-40 C-F-1 l TOO THIN ITERM END :8-HPSI-2001/01A ' TEE TO PIPE ! B-40
] C-F-1 i ITOO THIN! 8-HPSI-2001/02 l FLANGE TO TEE i B-40 ; C-F-1 i ITOO THINl !8-HPSI-2001/02A l PIPE TO PIPE l B-40 { C-F-1 1TOO THIN) 18-HPSI-2001/02AD LONG SEAM WELD l B-40 C-F-1 I ITOO THINI 18-HPSI-2001/03 PIPE TO ELBOW ! B-40 l C-F-1 iTOO THIN 1 ;8-HPSI-2001/03D iLONG SEAM WELD l B-40 l C-F-1 ,
!TOO THINi !8-HPSI-2001/03U lLONGSEAMWEI.D l B-40 l l C-F-1 i l700 THINI !8-HPSI-2001/04 IELBOW TO PIPE I B-40 l l C-F-1 i TOO THIN ! .8-HPSI-2001/04D ILONG CEAM WELD I B-40 j C-F-1 i ! TOO THIN t 18 -H PSI-2 001/ 0 4 U LONG SEAM WELD i B-40 C-r-1 l 'TOO THIN l l8-HPSI-2001/05 PIPE TO TEE B-40 l l* B-40 C-F-1 TOO THIN l 8-HPSI-2001/05D LONG SEAM WELD C-F-1 TOO THIN' 8-HPSI-2001/05U LONG SEAM WELD B-40 i C-F-1 TOO THIN 0-HPSI-2001/06 TEE TO REDUCER B-40 j C-F-1 TOO THIN 0-HPSI-2001/06U LONG SEAM WELD B-40 I C-F-1 TOO THIN TERM END 8-LPSI-2001/01 FLANGE TO REDUCER (6") B-29 C-r-1 TOO THIN 8-LPSI-2001/02 REDUCER TO PIPE B-29
{ C-F-1 TOO THIN 8-LPSI-2001/03 PIPE TO FLANGE B-29 l C-F-1 TOO THIN 0-LPSI-2001/04 FLANGE TO ELBOW B-29 C-F-1 TOO THIN 8-LPSI-2001/05 ELBOW TO PIPE B-29 j C-F-1 TOO THIN. 18-LPSI-2001/06 PIPE TO VALVE B-29 C-F-1 TOOTHINl 8-LPSI-2001/07 VALVE TO ELBOW B-29 C-F-1 TOO THIN! 8-LPSI-2001/07D LONG SEAM WELD B-29 I C-F-1 TOOTHINl 8-LPSI-2001/08 ELBOW TO PIPE B-29 1 , C-F-1 TOO THINI 8-LPSI-2001/08D .LONG SEAM WELD i B-29 C-r-1 TOO THINI !8-LPSI-2001/08U B-29 lLONGSEAMWELD C-F-1 TOO THIN 18-LPSI-2001/09 (PIPE TO ELBOW B-29 C-F-1 i TOO THIN. 8-LPSI-2001/09D lLONG SEAM WELD B-29 C-F-1 ' l TOO THIN I l8-LPSI-2001/09U LONG SEAM WELD B-29 C-F-1 ! lTOOTHINf 8-LPSI-2001/10 ELBOW TO PIPE B-29 C-F-1 1TOO THIN 8-LPSI-2001/10D LONG SEAM WELD B-29 C-r-1 TOO THIN B-LPSI-2001/10U LONG SEAM WELD B-29 C-r-1 TOO THIN 0-LPSI-2001/11 PIPE TO ELBOW B-29 C-F-1 TOO THIN B-LPSI-2001/11D LONG SEAM WELD B-29 i C-F-1 TOO THIN 8-LPSI-2001/310 lLONG SEAM WELD l B-29 C-F-1 TOO THIN 0-LPSI-2001/12 l ELBOW TO PIPE I B-29 R3 September 1. 1995 Page 118 of 280 i
CLASS 2 CLASS 2 COMPONENTS AND 8 JPPORTS REV.1 CATEGORY l 3BD INT ITEM # TYPE I COMPONENT DESCRIPTION ISO # 1 I C-F-1 ! TOO THIN ! 8-LPSI-2001/12D LONG SEAM WELD B-29 C-F-1 l TOO THIN l 8-LPSI-2001/12U LONG SEAM WELD B-29 C-F-1 l TOO THINI 8-LPSI-2001/13 PIPE TO ELBOW B-29 C-F-1 I TOO THIN l (A-LPSI-2001/13U LONG SEAM WELD B-29 C-F-1 I TOO THIN 18-LPSI-2001/14 ELDOW TO PIPE B-29 C-F-1 TOO THIN 0-LPSI-2001/14D LONG SEAM WELD B-29 l C-r-1 l TOO THIN. i8-LPSI-2001/15 PIPE TO PIPE B-29 C-F-1 1 TOOTHIN! 8-LPSI-2001/15D LONG SEAM WELD B-29 C-r-1 ! TOO THINI 8-LPSI-2001/15U LONG SEAM WELD B-29 C-F-1 ! TOO THIN l 8-LPSI-2001/17 PIPE TO PIPE B-29 C-E-1 TOO THINI 8-LPSI-2001/17D LONG SEAM WELD B-29 C-F-1 lTOO THINI !8-LPSI-2001/17U LONG SEAM WELD B-29 C-F-1 lTOO THINi :8-LPSI-2001/18 ! PIPE TO ELBOW B-29 C-F-1 iTOO THINi ;8-LPSI-2001/18D !LONG SEAM WELD B-29 C-F-1 : TOO THIN ! A-LFSI-2001/160 LONG SEAM WELD B-29 C-F-1 i TOO THIN i 8-LPSI-2001/19 . ELBOW TO PIPE B-29 C-F-1 TOO THINi 8-LPSI-2001/19D lLONG SEAM WELD ! B-29 C-F-1 tTOO THINI i8-LPSI-2001/190 LONG SEAM WELD B-29 c-F-1 'TOO THIN! 8-LPSI-2001/20 PIPE TO ELBOW B-29 C-F-1 TOO THIN 3 H-LFSI-2001/20D !LONG SEAM WELD l B-29
" F-1
- TOO THIN; 8-LFSI-2001/20U :LONG SEAM WELD l B-29 C-F-1 ! TOO THIN ! B-LPS!-2001/21 ]ELBOWTCPIPE i
B-29 C-F-1 iTOO THIN. 8-LPSI-2001/21D (LONG SEAM WELD j B-29 C-F-1 !TOO THIN! ;8-LFSI-2001/21U iLONG SEAM WELD i B-29 C-F-1 . TOOTHItU l8-LPSI-2001/22 PIPE TO ELDOW B-29 C-F-1 l TOO THIN !8-LPSI-2001/22D LONG SEAM WELD B-29 C-F-1 I TOO THIN !8-LPSI-2001/22U LONG SEAM WELD B-29 C-F-1 i TOO THIN 0-LPSI-2001/23 ELBOW TO REDUCER B-29 C-F-1 TOO THIN 8-LPSI-2001/23U LONG SEAM WELD B-29 C-F-1 TOO THIN TERM END 8-LPSI-2002/01 FLANGE TO REDUCER (6") B-30 C-F-1 TOO THIN 0-LPSI-2002/02 REDUCER TO PIPE B-30 C-F-1 TOO THIN 0-LPSI-2002/02D LONG SEAM WELD B-30 C-F-1 TOO THIN 8-LPSI-2002/03 PIPE TO FLANGE B-30 C-F-1 TOO THIN. B-LPSI-2002/03U LONG SEAM WELD B-30 C-F- 1 TOO THIN 18-LPSI-2002/04 FLANGE TO ELBOW B-30 C-F-1 l TOO THINI 8-LPSI-2002/04D LONG SEAM WELD B-30 C-F-1 { TOO THINI 8-LPSI-2002/05 ELBOW TO VALVE B-30 C-F-1 TOO THIN 0-LPSI-2002/05U LONG SEAM WELD ! B-30 C-F-1 TOO THIN 0-LPSI-2002/06 VALVE TO PIPE , B-30 C-F-1 TOO THINI iB-LPSI-2002/06D !LONG SEAM WELD B-30 C-F-1 i lTOO THINt I8-LPSI-2002/07 lPIPETOELBOW B-30 C-F-1 !TOO THINl IR-LPSI-2002/07D LONG SEAM WELD B-30 C-F-1 ! TOO THINj 18-LPSI-2002/07U LONG SEAM WELD B-30 C-F-1 fTOOTHINI !8-LPSI-2002/08 ELBOW TO PIPE B-30 C-F-1 ! TOO THIN 8-LPSI-2002/000 LONG SEAM WELD B-30 C-F-1 TOO THIN 8-LPSI-2002/08U LONG SEAM WELD B-30 C-F-1 TOO THIN 8-LPSI-2002/09 PIPE TO ELBOW B-30 C-F-1 TOO THIN 8-LPSI-2002/09D LONG SEAM WELD B-30 C-r-1 TOO THIN 0-LPSI-2002/09U LONG SEAM WELD B-30 C-F-1 l l TOO THIN 8-LPSI-2002/10 ELBOW TO PIPE B-30 R3 September 1. 1995 Page 119 of 280
_ - . ~_ _ _ _ _ . . . _ _ . . _ . . . . - _ _ _ _ _ _ _ _ . . . a CLASS 2 - CLASS 2 COMPONENTS AND SUPPORTS l REV.1 , 4 i ! . CATEGORY 3RD INT ITEMf TYPE COMPONENT DESCRIPTION I SO".__. 3 C-F-1 TOO THIN 0-LPSI-2002/10D LONG SEAM WELD B-30 C-F-1 TOO THINI 8-LPSI-2002/10U LONG SEAM WELD B-30 C-F-1 TOO THINi 8-LPSI-2002/11 PIPE TO REDUCER B-30 j C-F-1 TOO THINi 8-LPSI-2002/11U LONG SEAM WELD B-30 C-r-2 C5.51 16-FW-2001/01 VALVE TO PIPE B-07 j C-F-2 C5.51 16-FW-2001/02 IPIPE TO PIPE B-07
-C-F-2 C5.51 16-FW-2001/03 PIPE TO PIPE B-07 ,
j C-F-2 C5.51 16-FW-2001/04 PIPE TO ELBOW B-07 C-F-2 C5.51 16-FW-2001/05 ELBOW TO VALVE B-07 C5.51 l 16-FW-2001/06 VALVE TO PIPE B-07 C-F-2 C-r-2 l l C5.51 l16- FW-2001/ 07 PIPE TO PIPE B-07 C-F-2 i 96 i C5.51 ' il6-FW-2001/08 ! PIPE TO ELBOW B-07 C-F-2 46 C5.51 16-FW-2001/09 l ELBOW TO PIPE B-07 j 5F-2 % ' C5.51 16-FW-2001/10 i PIPE TO ELBOW B-07 C-F-2 ' 96 C5.51 16-FW-2001/11 ELBOW TO SAFE END ' B-07 C-F-2 ! 46 C5.51 TERM END e 16-FW-2001/12 SAFE END TO NOZZLE 1 B-07 l C-F-2 i C5.51 : 16- FW-2 002 / 01 l VALVE TO ELBOW i B-08 I C-F-2 I C5.51 ;16-FW-2002/02 ! ELBOW TO PIPE I B-08 i ' C-F-2 , C5.51 I 16-FW-2002/03 ! PIPE TO PIPE I B-08 2- F- 2 i C5.51 16-FW-2002/04 PIPE TO PIPE lB-08 5 C- F- 2 C5.51 il6-FW-2002/05 IPIPE TO PIFE l B-08 C-F-2 C5.51 '16-FW-2002/06 PIPE TO FIPE t B-08 i C-F-2 C5.51 16-FW-2002/07 ! PIPE TO PIPE B-08 J C-F-2 C5.51 16-FW-2002/09 iPIPE TO ELBOW ! B-08 j C-F-2 , C5.51 1
!16-FW-2002/09 l ELBOW TO VALVE B-08 i
C-F-2 l C5.51 i l16-FW-2002/10 VALVE TO PIPE B-08 f C-F-2 l C5.51 i i16-FW-2002/11 PIPE TO PIPE B-08 C-F-2 C5.51 I16-FW-2002/12 PIPE TO ELBOW B-08 ! C-F-2 99 C5.51 16-FW-2002/13 ELBOW TO PIPE B-08 I C-F-2 99 C5.51 16-FW-2002/14 PIPE TO ELBOW B-08 C-r-2 99 C5.51 16-FW-2002/15 ELBOW TO SAFE END B 08 l C-F-2 99 C5.51 TERM END 16-FW-2002/16 SAFE END TO NOZZLE B-08 l
- C-F-2 01 C5.51 28-MS-2001/01 SAFE END TO ELBOW B-03 )
C- F- 2 C5.51 ITERM END 28-MS-2001/01A NOZZLE TO SAFE END B-03 i j C-F-2 01 C5.51 l28-MS-2001/02 l ELBOW TO PIPE B-03 1 i C-F-2 01 C5.51 . I28-MS-2001/03 IPIPE TO ELBOW i B-03 l C-F-2 01 C5.51 l l28-MS-2001/04 l ELBOW TO PIPE l B-03 f C-F-2 C5.51 ! l28-MS-2001/05 IPIPE TO ELBOW l B-03 C-F-2 C5.51 ! 128-MS-2001/06 IELBOW TO PIPE i B-03 C-F-2 i C5.51 !28-MS-2001/07 ! PIPE TO ELBOW i B-03 C-F-2 - I i C5.51 l28-MS-2001/0B { ELBOW TO PIPE i B-03 4
- C-F-2 ! ! C5.51 i l28-MS-2001/09 iPIPE TO ELBOW B-03 C-F-2 , C5.51 i28-MS-2001/10 ELBOW TO PIPE B-03 C-F-2 i C5.51 j28-MS-2001/11 PIPE TO ELBOW B-03 C-F-2 i C5.51 ! 28-MS-2001/12 PIPE TO PIPE B-04 C-F-2 l C5.51 i 28-MS-2001/13 PIPE TO PIPE BEND B-04
- C-F-2 C5.51 l 28-MS-2001/14 EIPE BEND TO ELBOW B-04 C-F-2 C5.51 I 28-MS-2001/15 ELBOW TO PIPE B-04 C-F-2 C5.51 l 28-MS-2001/16 PIPE TO VALVE B-04 C-F-2 99 C5.51 I 28-MS-2002/01 ! SAFE END TO ELBOW I B-05 R3 September 1, 1995 Page 120 of 280 4
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. . - - . . . - - = .. . . . ,- . .
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s CLASS 2 I i CLASS 2 COMPONENTS AND SUPPORTS } REV.1 > I I l l l l CATEGORY l 3RD INT l ITEM # TYPE i COMPONENT l DESCRIPTION I ISO # ! . i I ! ! s C-r-2 99 I C5.51 ! TERM END 28-MS-2002/01A l NOZZLE TO SAFE END l B-05 C-F-2 99 ! C5.51 l 28-MS-2002/02 ELBOW TO PIPE l B-05 j C-F-2 1 99 ! C5.51 ! 28-MS-2002/03 PIPE TO ELBOW l B-05 l C-F-2 99 I C5.51 1 28-MS-2002/04 ELBOW TO PIPE ! B-05 C-F-2 99 l C5.51 l 128-MS-2002/05 PIPE TO ELBOW l B-05 , C-F-2 99 I C5.51 ! l28-MS-2002/06 ELBOW TO PIPE ! B-05 C-F-2 . C5.51 l !28-MS-2002/07 PIPE TO ELBOW I B-05 C-F-2 l C5.51 l l28-MS-2002/08 ELBOW TO PIPE I B-05 ~ C-F-2 I C5.51 ! l 2 8-MS-2002 / 0 9 PIPE TO ELBOW l B-05 j C-F-2 I I C5.51 ! l28-MS-2002/10 ELBOW TO PIPE B-05 j C-F-2 i C5.51 I J28-MS-2002/11 PIPE TO PIPE B-05 C-F-2 C5.51 l28-MS-2002/12 l PIPE TO PIPE B-06 I ?-F-2 C5.51 <28-MS-2002/13 ; PIPE TO 45 ELBOW ! B-06 C-r-2 - C5.51 29-MS-2002/14 !45 ELBOW TO PIPE DEND B-06 C-E-2 C5.51 23-MS-2002/15 : PIPE BEND TO PIPE B-06 , } C-F-2 C5.51 :28-MS-2002/16 !FIPE TO VALVE B-06 l C-r-2 i C5.51 '6-MS-2001/01 ISWEEPOLET TO PIPE l B-04 C-F-2 i C5.51 !6-MS-2001/02 IPIPE TO FLANGE I B-04 e C-F-2 C5.51 6-MS-2002/01 lSWEEPOLET TO PIPE j B-04 j
- C-F-2 C5.51 16-MS-2002/02 PIPE TO FLANGE l B-04 i l C-F-2 i C5.51 6-MS-2003/01 'SWEEPOLET TO PIPE I B-04 C-F-2 96 C5.51 '6-MS-2003/02 PIPE TC FLANGE B-04
- C-r-2 C5.51 '6-MS-2004/01 iSWEEPOLET TO PIPE B-04
~ C-F-2 96 C5.51 6-MS-2004/02 l PIPE TO FLANGE B-04 ! C-F-2 ! C5.51 . i6-MS-2005/01 lSWEEPOLET TO PIPE I B-06 C-F-2 l 01 i C5.51 I I6-MS-2005/02 PIPE TO FLANGE B-06 C-F-2 l C5.51 l 6-MS-2006/01 SWEEPOLET TO PIPE B-06 ) C-F-2 01 C5.51 6-MS-2006/02 PIPE TO FLANGE B-06 C-F-2 C5.51 6-MS-2007/01 SWEEPOLET TO PIPE B-06 j C-F-2 C5.51 6-MS-2007/02 PIPE TO FLANGE B-06 i C-r-2 C5.51 6-MS-2008/01 SWEEPOLET TO PIPE B-06 l C-F-2 C5.51 l l6-MS-2008/02 PIPE TO FLANGE B-06 C-F-2 l C5.81 l l 2 8-MS-2 001/12-BC-1 BRANCH (6-MS-2001) B-04 ! C-F-2 l C5.81 I l28-MS-2001/12-BC-2 _ BRANCH (6-MS-2002) l B-04 l C-F-2 i l C5.81 I28-MS-2001/15-BC-1 IBRANCH (6-MS-2003) l B-04 f C-F-2 l l C5.81 8 28-MS-2001/15-BC-2 BRANCH (6-MS-2004) l B-04 i C-F-2 I l C5.81 i 28-MS-2002/12-BC-1 BRANCH (6-MS-2005) l B-06 C-F-2 I l C5.81 i 28-MS-2002/12-BC-2 BRANCH i6-MS-2006) i B-06 C-F-2 i I C5.81 !28-MS-2002/15-BC-2 iBRANCH (6-MS-2001) B- g
- C-F-2 I C5.81
- 2 8-MS-2 002 /15 -BC- 3 . BRANCH in-MS-2006) B-%
l C-F-2 96 SUBST 36-MS-1-BC-A lBPANCH MUBST. C5.81) B-86 l C-r-2 i TOO THIN; '10-AC-2001/01 : FLANGE TO REDUCER B-50 i C-F-2 :TOO THIN 6 !10-AC-2001/02 IREDUCER TO PIPE B-50 C-F-2 TOO THIN! l10-AC-2001/03 IPIPE TO TEE B-50 I C-F-2 iTOO THINI '10-AC-2001/04 FLANGE TO PIPE (8") B-50 c-F-2 1 iTOO THINl 10-AC-2001/05 PIPE TO ELBOW (8") B-50 I C-F-2 l 1TOO THINi 10-AC-2001/06 . ELBOW TO PIPE B-50 I C-F-2 ITOO THIN 10-AC-2001/07 ! PIPE TO TEE B-50 C-F-2 98 TOO THIN 10-AC-2001/08 l TEE TO REDUCER B-50 C-F-2 l TOO THINi 110-AC-2001/09 1 REDUCER TO FLANGE (8") i B-50 . R3 September 1, 1995 Page 121 of 280
CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1
! ! l !
CATEGORY l 3RD INT ITEM # l TYPE l COMPONENT DESCRIPTION ISO # I i C-F-2 l TOO THIrl l 10- AC-2001/10 l FLANGE TO ELBOW (8") B-50 C-F-2 ! TOO THINi l10-AC-2001/11 !ELBOWTOELBOW B-50 C-F-2 ! TOO THINf l10-AC-2001/12 l ELBOW TO PIPE B-50 C-F-2 ! TOO THIN i Il0-AC-2001/13 lPIPETOELBOW ! B-50 i C-r-2 i TOO THIN l 10-AC-2001/14 ELBOW TO PIPE l B-50 C-r-2 98 TOO THINI 10-AC-2001/15 PIPE TO PIPE B-50 C-r-2 YOO THINI 110-AC-2001/16 PIPE TO PIPE BEND B-50 C-F-2 TOO THINI 10-AC-2001/17 PIPE BEND TO ELBOW B-50 C-F-2 TOO THINI 10-AC-2001/18 ELBOW TO PIPE BEND B-50 C-F-2 i TOO THINI '10-AC-2001/19 PIPE BEND TO ELBOW B-50 P-F-2 ! TOO THIN! 10-AC-2001/20 ELBOW TO PIPE B-50 C-r-2 TOO THIN! 10-AC-2001/21 PIPE TO PIPE B-50 C-F-2 lTOOTHIN f10-AC-2001/22 !PIPETOELBOW l B-50 N F-2 TOO T H I N ' 10+AC-2001/23 ELBOW TO PIPE l B-50
'F-2 1 TOO THIN 10-AC-2001/24 PIFE TO ELBOW B-$0 C-F-2 l TOO THIN i 10-AC-2001/25 . ELBOW TO PIPE B-50 C-F-2 fTOOTHINI l10-AC-2001/32 ! ELBOW TO PIPE l B-50 0-F-2 tTOO THIN: !10-AC-2001/33 jPIPE TO ELBOW B-50 C-F-2 ! TOO THIll i :10-AC-2001/34 iELBOW TO PIPE B-50 C-F-2 iTOO THIN. 10-AC-2001/35 PIPE TO PIPE l B-50 C-F-2 .TOO THINI :10-AC-2001/36 ' PIPE TO TEE i B-50 C-F-2 TOO THINt 10-AC-2001/37 TEE TO FEDUCEP i B-50 C-F-2 , TOO THIN ; 10-AC-2002/01 FLANGE TC FEDUCER e") l B-51 C-F-2 i TOO THIN , !10-AC-2002/02 REDUCER TO PIPE B-51 C-F-2 i
!TOOTHIN! l10-AC-2002/03 PIPE TO TEE B-51 C-F-2 I TOO THIN l l10-AC-2002/04 FLANGE TO PIPE (8") B-51 l C-F-2 l TOO THIN l 10- AC-2002 / 05 PIPE TO ELBOW (8") B-51 C-F-2 TOO THIN 10-AC-2002/06 ELBOW TO PIPE B-51 l
C-F-2 TOO THIN l 10-AC-2002/07 PIPE TO TEE B-51 C-F-2 TOO THIN l 10-AC-2002/08 TEE TO REDUCER B-51 C-F-2 TOO THIN l 10-AC-2002/09 REDUCER TO FLANGE (8") B-51 C-F-2 TOO THIN l 10-AC-2002/10 FLANGE TO RED. FLANGE (8") B-51 C-F-2 01 TOO THIN l 10-AC-2002/11 ELBOW TO PIPE B-51 C-F-2 TOO THIN l l10-AC-2002/11A PIPE TO PIPE B-51 C-F-2 l TOO THINI l10-AC-2002/12 l PIPE TO PIPE B-51 C-F-2 I TOOTHINl l10-AC-2002/13 lPIPETOELBOW B-51 C-F-2 l TOOTHINj l10- AC-2 002 /14 l ELBOW TO PIPE B-51 C-F-2 I 01 TOOTHIU! l10-AC-2002/15 l PIPE TO ELBOW ! B-51 C-F-2 i .TOOTHINj Il0-AC-2002/16 ! ELBOW TO PIPE B-51 C-E-2 i lTOO THINi i10-AC-2002/17 ' PIPE TO PIPE B-51 C-F-2 ;TOO THINI 10-AC-2002/18 ! PIP TO PIPE i B-51 C-F-2 01 lTOO THIN! #10-AC-2002/19 !PIFE TO ELBOW B-51 C-F-2 01 .TOO THINt .10-AC-2002/20 ELBOW TO PIPE B-51 C-E-2 !TOO THINI ;10-AC-2002/21 PIPE TO ELBOW B-51 C-r-2 !TOO THIN l10-AC-2002/22 ELBOW TO PIPE B-51 C-F-2 l TOO THIN 10-AC-2002/23 PIPE TO ELBOW B-51 C-F-2 TOO THIN 10-AC-2002/24 ELBOW TO PIPE BEND B-51 C-F-2 TOO THIN 10-AC-2002/25 PIPE BEND TO ELBOW B-51 C-r-2 TOO THIN 10-AC-2002/26 ELBOW TO PIPE B-51 C-F-2 01 TOO THINI 10-AC-2002/27 PIPE TO ELBOW B-51 R3 September 1. 1995 Page 122 of 280
< CLASS 2 i CLASS 2 COMPONENTS AN9 SUPPORTS REV.1 l l CATEGORY 3RD INT ITEM # TYPE I COMPONENT DESCRIPTION ISO #
1 C-F-2 TOO THINi 10-AC-2002/28 ELBOW TO PIPE B-51 C-F-2 TOO THIN l 10- AC- 2002 / 29 l PIPE TO ELBOW B-51 ) C-F-2 TOO THIN l10-AC-2002/30 l ELBOW TO PIPE B-51 C-F-2 TOO THINI l10-AC-2002/31 l PIPE TO ELBOW l B-51 l C-r-2 TOOTHIt!! '10-AC-2002/32 IELBOW TO PIPE B-51 i C-F-2 TOO THINI 10-AC-2002/33 PIPE TO TEE B-51 C-F-2 TOO THIN 10-AC-2002/34 TEE TO REDUCER B-51 C-F-2 TOO THIN 10-AC-2003/01 REDUCER TO TEE B-56 l C-F-2 TOO THIN 10-AC-2003/02 ITEE TO PIPE B-56 } C-F-2 l TOO THIN} 10-AC-2003/03 PIPE TO ELBOW B-56 j C-F-2 ! l TOO THIN i 10-AC-2003/04 ELBOW TO PIPE B-56 C-F-2 ' iTOO THINI !10-AC-2003/05 ! PIPE TO ELBOW B-56 C- F- 2 TOO THINI 110-AC-2003/06 IELBOW TO PIPE l B-56 C-F-2 iTOO THIN: 10-AC-2003/07 : PIPE TO ELBOW 8-56 C-F-2 : TOO THIN- 10-AC-2003/08 : ELBOW TO PIPE B-56 , C-F-2 i l TOO THIN l l10-AC-2003/09 ' PIPE TO ELBOW B-56 C-F-2 l TOO THIll ! '10-AC-2003/10 ; ELBOW TO PIPE ! B-56 ' l PIPE TO PIPE B-56 C-F-2 i !TOO THINi 10-AC-2003/11 , C-F-2 i iTOO THINf !10-AC-2003/12 ! PIPE TO ELBOW I B-56 C-r-2 !TOO THINI ,10-AC-2003/13 : ELBOW TO PIPE BEND l B-56 l C-F-2 i fTOOTHIN8 10-AC-2003/14 ! PIPE BEND TO ELBOW I B+56 C-F-2 +
! TOO THIN : 10-AC-2003/15 ' ELBOW TO PIPE B-56 C-F-2 . TOO THIN 4 10-AC-2003/16 IPIPE TO ELBOW B-56 j C-F-2 t !TOO THIN; 10-AC-2003/17 ' ELBOW TO PIPE B-56 l C-F-2 i iTOOTHINl 110-AC-2003/18 PIPE TO PIPE BEND l B-56 l
- C-F-2 lTOOTHINI l10-AC-2003/19 PIPE BEND TO PIPE B-56 ! C-F-2 lTOO THINI Il0-AC-2003/20 PIPE TO PIPE B-56 j C-F-2 'TOO THIN l10-AC-2003/22 PIPE TO ELBOW B-56 , C-r-2 01 TOO THIH l10-AC-2003/23 ELBOW TO PIPE B-56 f C-F-2 TOO THIN 10-AC-2003/24 PIPE TO ELBOW l B-56 ) C-r-2 TOO THIN 10-AC-2003/25 ELBOW TO PIPE B-56 C-F-2 TOO THIN 10-AC-2003/26 PIPE TO ELBOW B-56
- C-F-2 TOO THIN 10-AC-2003/27 ELBOW TO FLANGE (8") B-56
{ C-F-2 TOO THIN 10-AC-2003/28 FLANGE TO PIPE (8") B-56 , I C-r-2 TOO THIN 10-AC-2003/29 PIPE TO REDUCER (8") l B-56 !
- C-F-2 TOO THIN 10-AC-2003/30 l REDUCER TO TEE j B-56 l l C-F-2 TOO THIN. 10-AC-2003/31 ITEE TO PIFE I B-56 i C-F-2 TOO THINI 10-AC-2003/32 l PIPE TO ELBOW l B-56 C-F-2 TOO THINl 110-AC-2003/33 IELBOW TO FLANGE 8"i B- %
C-F-2 I lTOO THINI 10-AC-2003/34 ' TEE TO PIPE B-56 C-F-2 I iTOO THINI !10-AC-2003/35 PIPE TO PEDUCER t B-56 C-F-2 l iTOO THINl !10-AC-2003/36 ! REDUCER TO FLANGE (8") B-56 C-F-2 i iTOO THINI i10-AC-2004/01 REDUCER TO TEE B-57 C-F-2 l
'TOO THIN! Il0-AC-2004/02 TEE TO PIPE B-57 C-F-2 l l TOO THIN l 10-AC-2004/03 PIPE TO PIPE B-57
, C-F-2 TOO THIN 10-AC-2004/04 PIPE TO ELBOW B-57 C-F-2 TOO THIN 10-AC-2004/05 ELBOW TO PIPE lB-57 C-F-2 TOO THIN 10-AC-2004/06 l PIPE TO ELBOW B-57 i C-F-2 TOO THIN 10-AC-2004/07 IELBOW TO PIPE B-57 C-F-2 TOO THIN 10-AC-2004/08 IPIPE TO ELBOW B-57 R3 September 1, 1995 Page 123 of 280
i e . CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1 l CATEGORY l 3RD INT ITEM # TYPE l COMPONENT DESCRIPTION I ISO # l ! ! C-F-2 TOO THIN l 10-AC-2004/09 ELBOW TO PIPE I B-57 C-F-2 TOO THIN l 10-AC-2004/10 PIPE TO ELBOW l B-57 C-F-2 TOO THINI 10-AC-2004/11 ELBOW TO PIPE B-57 C-F-2 TOO THIN l10-AC-2004/12 PIPE TO ELBOW B-57 ] C-F-2 TOO THIN. 110-AC-2004/13 ELBOW TO PIFE B-57 i C-r-2 TOO THIN' l10-AC-2004/14 ELBOW TO PIPE B-57 y C-r-2 TOO THIN 10-AC-2004/15 ELBOW TO PIPE B-57 C-F-2 TOO THIN 10-AC-2004/16 PIPE TO ELBOW B-57
, C-F-2 TOO THIN 10-AC-2004/17 ELBOW TO PIPE B-57 C-F-2 .TOO THIN l 10-PC-2004/18 PIPE TO ELBOW B-57 C-F-2 ! TOO THIN i 10-AC-2004/19 PIPE TO ELBOW B-57 C-F-2 ! !TOO THINI !10-AC-2004/20 PIPE TO ELBOW ! B-57 l
C-F-2 iTOO THIN '0-AC-2004/21 {ELBOWTOPIPE l B-57 C-r-2 . TOO THIN : J0-AC-2004/22 iPIPE TO ELBOW I B-57 7 C-F-2 ;TOO THIN. 10-AC-2004/23 ELBOW TO P!FE B-5'
-F-2 i TOO THIN : 10-AC-2004/24 iPIPE TO PIPE B-57 i
C-F-2 ITOO THINi 10-AC-2004/25 IPIPE TO PIPE B-57
- C-F-2 01 iTOO THINl !10-AC-2004/26 l PIPE TO ELBOW l B-57 4
C-F-2 ; ! TOO THINt 10-AC-2004/27 IELBOW TO ELBOW -l B-57 , C-F-2 :TOO THINI !10-AC-2004/28 l ELBOW TO PIPE (8") I B-57 C-F-2 TOO THIN! 10-AC-2004/29 ! PIPE TO FLANGE (8") l B-57 C- F- 2 TOO THINI 10-AC-2004/30 : FLANGE TC PIFE <8") B-57 C-F-2 iTOO THINi '10-AC-2004/31 iPIPE TO PEDUCER (8"i B-57 4 C-F-2 iTOO THINI :10-AC-2004/32 iREDUCER TO TEE B-57 i C-F-2 lTOO THINi !10-AC-2004/33 TEE TO PIPE l B-57 !. C-F-2 I ITOOTHIN} l10-AC-2004/34 PIPE TO ELBOW l B-57 1 C-F-2 ; TOO THIN 10-AC-2004/35 ELBOW TO FLANGE (B") B-57 l C-F-2 TOO THIN 10-AC-2004/36 TEE TO PIPE B-57 l C-F-2 TOO THIN 10-AC-2004/37 PIPE TO REDUCER B-57 C-F-2 TOO THIN 10-AC-2004/38 REDUCER TO FLANGE (8") B-57 C-F-2 TOO THIN 6-AC-2001/01 FLANGE TO PIPE B-48 C-F-2 TOO THIN 6-AC-2001/03 PIPE TO ELBOW B-48 j C-r-2 TOO THIN 6-AC-2001/04 ELBOW TO PIPE _ B-48 l C-F-2 TOO THIN 6-AC-2001/05 PIPE TO ELBOW l B-48 i C-r-2 ' TOO THIN 6-AC-2001/06 ELBOW TO ELBOW I B-48 C-F-2 ! TOO THIN '6-AC-2001/07 ELBOW TO PIPE l B-48
, C-F-2 I TOO THIN 6-AC-2001/08 PIPE TO PIPE ! B-48 C-F-2 TOO THIN l 6-AC-2001/09 PIPE TO PIPE BEND i B-48
- C-F-2 TOO THINi I6-AC-2001/10 iPIPE BEND TO ELBOW B-48 C-F-2 '
{TOOTHIN. l6-AC-2001/11 ; ELBOW TO PIPE BEND B-48 C-F-2 i TOO THIN ! !6-AC-2001/12 ! PIPE BEND TO ELBOW B-48 C-F-2 iTOO THINI 6-AC-2001/13 ! ELBOW TO PIPE B-48
; C-F-2 >
lTOO THIN! 4-AC-2001/14 IPIPE TO ELBOW B-48 C-F-2 iTOO THIN 6-AC-2001/15 ELBOW TO FLANGE B-48 1 C-F-2 TOO THIN 6-AC-2001/16 FLANGE TO PIPE B-48 C-F-2 1 TOO THIN 6-AC-2001/17 PIPE TO TEE B-48 $ C-F-2 TOO THIN 6-AC-2001/18 TEE TO PIPE B-48 I C-F-2 TOO THIN 6-AC-2001/19 PIPE TO REDUCING ELBOW B-48 C-F-2 TOO THIN 6-AC-2002/01 REDUCER TO TEE B-49 C-F-2 TOO THIN 6-AC-2002/02 TEE TO PIPE i B-49 R3 September 1, 1995 Page 124 of 280
CLASS 2 IREV.1
] CLASS 2 COMPONENTS AND SUPPORTS I i 4
CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ! ISO # i i C-F-2 I TOO THIN 16-AC-2002/03 PIPE TO TEE B-49 C-F-2 TOO THIN; l6-AC-2002/04 REDUCER TO TEE l B-49 C-F-2 TOO THIN l 6-AC-2002/05 TEE TO PIPE lB-49 C-F-2 TOO THIN 6-AC-2002/07 PIPE TO FLANGE i B-49 C-F-2 TOO THIN 6-AC-2002/09 FLANGE TO ELBOW l B-49 C-F-2 TOO THIN 6-AC-2002/10 ELBOW TO PIPE l B-49 C-F-2 TOO THIN 6-AC-2002/11 PIPE TO ELBOW l B-49 1 C-F-2 TOO THIN 6-AC-2002/12 ELBOW TO PIPE BEND B-49 C-r-2 TOO THIN 6-AC-2002/13 PIPE BEND TO PIPE B-49
- C-F-2 l TOO THIN 1 6-AC-2002/14 PIPE TO ELBOW B-49 C-F-2 ! _TOO THINj l6-AC-2002/15 ELBOW TO ELBOW B-49 C-F-2 ! !TOO THINI !6-AC-2002/16 ELBOW TO PIPE B-49
?-F-2 TOO THINi ,6-AC-2002/17 l PIPE TO ELBOW i B-49
"-F-2 TOO THIN: :0-AC-2002/19 IELBOW TO FLANGE e B-49 C-F-2 '
' TOO THIN : 6-AC-2003/01 TEE TO ELBOW B-SOA
, C-F-2 ' iTOO THINI b-AC-2003/02 iELBOW TO P!PE B-50A _ C-F-2 lTOO THIN! t6-AC-2003/03 fPIPE TO ELBOW i B-50A T-F-2 I : TOO THIN i !6-AC-2003/04 IELBOW TO PIPE i B-50A C-F-2 ' TOO THIN I TERM END l6-AC-2003/05 iPIPE TO PIPE !B-50A C-F-2 TOO THINI :6-AC-2004/01 REDUCER TO PIPE B-50A C-F-2 TOO THINi 6-AC-2004/02 iPIPE TO ELBOW ' B-50A C-F-2 1 TOO THIN! hAC-2004/03 ELBOW TO PIFE B-50A C-F-2 , TOO THINi 6-AC-2004/04 iPIFE TO ELBOW B-50A C-F-2 i TOO THIN; 6-AC-2004/05 iELBOW TO TIPE B-50A C-F-2 I ITOO THINi 6-AC-2004/06 iPIPE TO ELBOW 'B-50A C-F-2 l TOO THIN l TERM END 6-AC-2004/07 l ELBOW TO VA-1A B-50A C-F-2 l TOO THINI 6-AC-2005/01 TEE TO PIPE B-51A C-F-2 TOO THIN 6-AC-2005/02 ELBOW TO PIPE B-51A ; C-F-2 TOO THIN 6-AC-2005/03 PIPE TO ELBOW B-51A l C-F-2 TOO THIN 6-AC-2005/04 ELBOW TO PIPE B-51A C-F-2 TOO THIN 6-AC-2005/05 PIPE TO ELBOW B-51A l C-F-2 TOO THIN TERM END 6-AC-2005/06 ELBOW TO PIPE B-51A C-F-2 TOO THIN l 6-AC-2006/01 REDUCER TO PIPE B-51A C-F-2 TOO THIN l 6-AC-2006/02 . PIPE TO ELBOW I B-51A C-r-2 l TOO THINi 6-AC-2006/03 IELBOW TO eIPE !B-51A ' l C-F-2 TOO THIN TERM END 6-AC-2006/04 PIPE TO PIPE !B-51A l C-F-2 .TOO THIN TERM END 6-AC-2007/01 REDUCER TO PIPE l B-52 C-F-2 lTOO THIN TERM ENDIf,-AC-2008/38 l REDUCER TO PIPE i B-53 C-F-2 l TOO THIN l TERM END 16-AC-2009/37 iELBCW TO PIPE B-54 C-F-2 i TOO THIN I TERM END f 6-AC-2010/32 PED ELBOW TO PIPE B-55 C-F-2 lTOO THIN l 56-AC-2011/45 : TEE TO ELBOW B-56 C-F-2 ! lTOO THINI I6-AC-2011/46 iELBOW TO PIPE I B-56 C-F-2 TOO THIN! l6-AC-2011/47 l PIPE TO ELBOW B-56 l C-F-2 fTOOTHIN 6-AC-2011/48 ELBOW TO PIPE B-56 C-F-2 iTOO THIN 6-AC-2011/49 PIPE TO PIPE B-56 C-F-2 lTOO THIN TERM END 6-AC-2011/50 PIPE TO PIPE B-56 C-F-2 TOO THIN TERM END 6-AC-2012/41 PIPE TO PIPE B-56 C-F-2 TOO THIN 6-AC-2012/42 PIPE TO ELBOW B-56 C-F-2 TOO THIN 6-AC-2012/43 ELBOW TO PIPE B-56 ! C-F-2 TOO THIN 6-AC-2012/44 PIPE TO REDUCER l B-56 R3 September 1. 1995 Page 125 of 280 l
b CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 CATEGORY 3RD INT ITEN# l TYPE ! COMPONENT DESCRIPTION ISO # 1 1 l l C-F-2 l TOO THINI l6-AC-2013/48 TEE TO ELBOW B-57 1 C-F-2 l TOO THIN l l6-AC-2013/49 ELBOW TO PIPE B-57 C-F-2 l TOO THIHI i6-AC-2013/50 PIPE TO ELBOW B-57 C-r-2 TOO THINI !6-AC-2013/51 ELBOW TO PIPE ( B-57
; C-F-2 TOO THIH l TERM END i6-AC-2013/52 PIPE TO PIPE l B-57 C-F-2 l TOO THIN I TERM END l6-AC-2014 /42 PIPE TO PIPE B-57 , C-F-2 TOO THINI 6-AC-2014/43 PIPE TO ELBOW B-57 C-F-2 TOO THINI 6-AC-2014/44 ELBOW TO PIPE B-57
{' C-F-2 i TOO THIN l 6-AC-2014/45 PIPE TO ELBOW B-57
, C-F-2 l .TOO THINI l6-AC-2014/46 ELBOW TO PIPE B-57 C-F-2 '
ITOO THINI l6-AC-2014/47 PIPE TO REDUCER B-57 4 C-F-2 ITOO THIN l !8-AC-2001/01 FLANGE TO REDUCER (6") B-52 2-F-2 iTOO THIH ! :8-AC-2001/02 IREDUCER TO PIPE B-52 C-F-2 < TOO T H I N > s-AC-2001/03 ' PIPE TO TEE i B-52 C-F-2 .TOO THINi s -isc-2 001/ 0 4 ' FLANGE TO ELBOW (6") B-52 2-F-2 ' TOO THI!! ! '8-AC-2001/05 , ELBOW TO PIPE B-52 C-r-2 1 ' TOO THItl ! l8-AC-2001/06 IPIPE TO TEE i B-52 C-F-2 ,TOO THItlI +-AC-2001/07 l TEE TO PIPE l B-52 I, C-F-2 jTOOTHIrll IB-AC-2001/08 l PIPE TO REDUCER l B-52
- C-F-2 _TOO THIrl. 6-AC-2001/09 iREDUCER TO FLANGE (6") B-52
- C-F-2 1 TOO THIN; P-AC-2001/10 (FLANGETOPIPE (6") B-52 C-F-2
- TOO THIN' .9-AC-2001/10A ' PIPE TO ELBOW 16"i B-52
) C-F-2 !TOO THIN; 9-AC-2001/11 ! ELBOW TO ELBOW I B-52 j C-F-2 i I TOO THIN : 'B-AC-2001/12 iELBOW TO PIPE i B-52 I C-r-2 i TOO THINI 18-AC-2001/13 PIPE TO PIPE B-52 e C-F-2 TOO THINI l8-AC-2001/14 PIPE TO PIPE BEND B-52 l C-F-2 TOO THINI 8-AC-2001/15 PIPE BEND TO ELBOW B-52 C-F-2 TOO THIN 8-AC-2001/16 ELBOW TO PIPE BEND B-52 i C-r-2 TOO THIN 0-AC-2001/17 PIPE BEND TO ELBOW B-52 C-F-2 TOO THIN 0-AC-2001/18 ELBOW TO PIPE B-52 C-F-2 TOO THIN 0-AC-2001/19 PIPE TO ELBOW B-52 C-r-2 TOO THIN 8-AC-2001/20 ELBOW TO PIPE B-52 C-F-2 TOO THIN I8-AC-2001/21 PIPE TO ELBOW B-52 C-F-2 TOO THIN l l8-AC-2001/22 ELBOW TO PIPE B-52 C-F-2 TOO THINI 8-AC-2001/23 PIPE TO ELBOW B-52 C-F-2 TOOTHINl 8-AC-2001/24 ELBOW TO PIPE B-52 4 C-r-2 TOO THIN l 8-AC-2001/25 PIPE TO ELBOW l B-52 j C-F-2 TOO THINI 8-AC-2001/26 ELBOW TO PIPE ; B-52 C-F-2 l TOO THIN i '8-AC-2001/27 _ PIPE TO PIFE B-52 C-F-2 TOO THINi r8-AC-2001/28 PIPE TO PIFE B-52 C-F-2 ; I TOO THIN ) !A-AC-2001/29 ' PIPE TO ELBOW B-52 C-F-2 lTOOTHIN! !8-AC-2001/30 ! ELBOW TO FIPE B-52 C-F-2 i TOO THIN i f8-AC-2001/31 PIPE TO ELBOW B-52 C-F-2 l TOO THIN i i8-AC-2001/32 ELBOW TO PIPE B-52 C-F-2 l TOO THIH l 8-AC-2001/33 PIPE TO ELBOW B-52 C-F-2 TOOTPIN! 8-AC-2001/34 ELBOW TO REDUCER B-52 C-F-2 TOOTHINl 8-AC-2002/01 FLANGE TO REDUCER (6") B-53 C-r-2 TOOTHIN! 8-AC-2002/02 REDUCER TO PIPE B-53 C-F-2 TOOTHINl 8-AC-2002/03 PIPE TO TEE B-53 C-F-2 l lTOO THINi 8-AC-2002/04 FLANG TO ELBOW (6") B-53 R3 September 1, 1995 Page 126 of 280
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS l REV.1 , I I I I CATEGORI i 3RD INT ITEM # l TYPE COMPONENT DESCRIPTION !' 150# .! I i i C-r-2 ' TOO THIN l 8-AC-2002/05 ELBOW TO PIPE B-53 C-F-2 . TOO THIN l 8-AC-2002/06 PIPE TO TEE- B-53 C-F-2 lTOO THIN l _8-AC-2002/07 TEE TO PIPE B-53 j C-F-2 I lTOO THINI l8-AC-2002/09 PIPE TO REDUCER B-53 f C-r-2 TOO THIN! 8-AC-2002/09 REDUCER TO FLANGE (6") i B-53 C-r-2 TOO THIN 0-AC-2002/10 FLANGE TO ELBOW (6") l B-53 C-r-2 TOO THIN 0-AC-2002/11 ELBOW TO PIPE l B-53 , C-F-2 TOO THIN' 8-AC-2002/12 PIPE TO ELBOW B-53 [ C-F-2 TOO THIN: 8-AC-2002/13 ELBOW TO PIPE B-53 '! C-r-2 I l TOO THIN l 8-AC-2002/14 PIPE TO ELBOW B-53 , C-F-2 l 1TOO THINi 8-AC-2002/15 ELBOW TO PIPE B-53 ; C-F-2 iTOO THINi l8-AC-2002/16 , PIPE TO PIPE B-53 i C-F-2 iTOO THIN! l8-AC-2002/17 ' PIPE TO PIPE i B-53 C-F-2 I TOO THIN: a-AC-2002/18 : PIPE TO ELBOW B-53 f C-F-2 TOO THIN 6-AC-2002/19 lELDOW TO FIPE B-53 C-F-2 TOO THINj b-AC-2002/20 ! PIPE TO ELBOW B-53 C-F-2 TOO THINi 8-AC-2002/21 ! ELBOW TO PIPE B-53 C-F-2 ! TOO THINt ;8-AC-2002/22 !PIPETOELBOW B-53 l C-F-2 i TOO THINi '8-AC-2002/23 lELBOW TO PIPE B-53 { C-F-2 ;TOO THIN! ;B-AC-2002/24 iPIPE TO ELBOW i B-53 I C-F-2 TOO THIN! ,8-AC-2002/25 rELBOW TO PITE i B-53 ! C-F-2 ' i TOO THINi i9-AC-2002/26 ! PIPE TO ELBOW B-53 l C-F-2 'TOO THIN' !8-AC-2002/27 ! ELBOW TO PIPE B-53 C-F-2 i iTOO THINi IB-AC-2002/28 IPIPE TO ELBOW B-53 C-F-2 1TOO THINI 8-AC-2002/29 ELBOW TO PIPE i B-53 C-F-2 lTOO THINI 8-AC-2002/30 PIPE TO ELBOW ! B-53 C-F-2 : TOO THIN l 8-AC-2002/31 ELBOW TO PIPE l B-53 C-F-2 TOOTHINl 8-AC-2002/32 PIPE'TO ELBOW l B-53 C-r-2 TOOTHINl 8-AC-2002/33 ELBOW TO PIPE B-53 C- F- 2 TOO THIN 8-AC-2002/34 PIPE TO ELBOW B-53 C-F-2 TOO THIN 0-AC-2002/35 ELBOW TO PIPE B-53 C-r-2 TOO THIN 0-AC-2002/36 PIPE TO ELBOW B-53 C-F-2 TOO THIN 8-AC-2002/37 ELBOW TO REDUCER B-53 C-F-2 TOO THIN 0-AC-2003/01 ELBOW TO PIPE B-54 C-F-2 TOO THIN 8-AC-2003/02 PIPE TO ELBOW B-54 C-F-2 TOO THIN l 8-AC-2003/03 ELBOW TO PIPE B-54 C-F-2 TOO THIN ' 8-AC-2003/04 PIPE TO ELBOW l B-54 C-F-2 TOO THIN l 8- AC-2003 / 05 lELBOWTOPIPE t B-54 C-F-2 TOO THIN I8-AC-2003/06 IPIPE TO ELBOW B-54 C-F-2 ! TOOTHINl !9-AC-2003/07 : ELBOW TO PIPE B-54 C-F-2 TOO THINI 18-AC-2003/08 [ PIPE TO ELBOW B-54 C-F-2 lTOOTHINI p-AC-2003/09 ! ELBOW TO PIPE B-54 C-F-2 ! TOO THIN ! f8-AC-2003/10 PIPE TO PIPE B-54 C-r-2 'TOO THINI 8-AC-2003/11 PIPE TO ELBOW B-54 C-F-2 TOO THIN 8-AC-2003/12 ELBOW TO PIPE B-54 C-r-2 TOO THIN 0-AC-2003/13 PIPE TO PIPE B-54 C-r-2 TOO THIW 8-AC-2003/14 PIPE TO ELBOW B-54 C-r-2 TOO THIN 0-AC-2003/15 ELBOW TO PIPE B-54 C-F-2 TOO THIN 0-AC-2003/16 PIPE TO ELBOW B-54 C-r-2 TOO THIN .8-AC-2003/17 ELBOW TO PIPE B-54 R3 September 1, 1995 Page 127 of 280
t ( ? 3 CLASS 2 ! I CLASS 2 COMPONENTS AND SUPPORTS AEV.1 I i ! CATEGORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISOf { C-F-2 TOO THIN 8-AC-2003/10 - PIPE TO ELBOW B-54 C-F-2 TOO THIN 8-AC-2003/19 l ELBOW TO PIPE B-54 C-r-2 TOO THIN 8-AC-2003/20 lPIPETOPIPE B-54 C-r-2 TOO THIN ;8-AC-2003/22 lPIPETOELBOW B-54 [ C-r-2 TOO THIN 8-AC-2003/23 jELBOW TO PIPE B-54 C-F-2 TOO THIN 0-AC-2003/24 PIPE TO ELBOW l B-54 C-F-2 TOO THIN 0-AC-2003/25 ELBOW TO PIPE ! B-54 C-F-2 TOO THIN ,8-AC-2003/26 PIPE TO ELBOW B-54 C-F-2 I TOO THIN l8-AC-2003/27 ELBOW TO FLANGE (6") B-54 , C-F-2 ! TOO THIN l8-AC-2003/28 FLANGE TO PIPE (6") B-54 C-r-2 i TOO THIN iB-AC-2003/29 PIPE TO REDUCER (6") B-54 l C-F-2 l lTOOTHINI lREDUCEP TO TEE B-54 f l8-AC-2003/30 C-F ' f TOO THINI '8-AC-2003/31 ITEE TO FIPE B-54 7 C-F-2 TOO THIN i A-AC-2003/32 ' PIPE TO ELBOW i B-54 ; C-F-2 -
'TOO THIN 1 8-AC-2003/33 ' ELBOW TO FLANGE ib") B-54 C-F-2 ' TOO THIN : 28-AC-2003/34 TEE TO PIPE B-54 t
C-F-2 f ;TOO THINI ! 8 -x0,-2 00 3 / 3 5 iPIPE TO REDUCER ! B-54 t C- F- 2 !TOO THIN! !8-AC-2003/36 IREDUCER TO FLANGE 16") l B-54 C-T-2 ;
!TOO THINI !8-AC-2004/01 l ELBOW TO PIPE l B-55 ;
C-F-2 TOO THIN : :8-AC-2004/02 { PIPE TO ELBOW I B-55 l C-F-2 :TOO THINI 8-AC-2004/03 ELBOW TO PIPE I B-55 C- F-2 TOO THINI l8- AC-2004 /04 iPIPE TO PIPE B-55 , C-F-2 . TOO THIN !. '8-AC-2004/05
' PIPE TO ELBOW i B-55 !
C-r-2 'TOO THINI '8-AC-2004/06 ' ELBOW TO ELBOW I B-55 C-F-2 I i TOO THIN l !8-AC-2004/07 IELBOW TO PIPE B-55 f C-F-2 I TOO THIN !8-AC-2004/08 l PIPE TO ELBOW B-55 C-r-2 TOO THIN 8-AC-2004/09 ELBOW TO PIPE B-55 - C-F-2 TOO THIN 0-AC-2004/10 PIPE TO ELBOW B-55 i C-F-2 TOO THIN 0-AC-2004/11 ELBOW TO PIPE B-55 C-r-2 TOO THIN 8-AC-2004/12 PIPE TO ELBOW B-55 C-F-2 TOO THIN 0-AC-2004/13 ELBOW TO PIPE B-55 C-F-2 TOO THIN 0-AC-2004/14 PIPE TO ELBOW B-55 C-F-2 TOO THIN 8-AC-2004/15 ELBOW TO PIPE B-55 ; C-F-2 TOO THIN 0-AC-2004/16 PIPE TO ELBOW B-55
- C-F-2 TOO THIN 0-AC-2004/17 ELBOW TO PIPE B-55 C-F-2 i TOO THIN 8-AC-2004/17A PIPE TO PIPE B-55 C-F-2 TOO THIN 8-AC-2004/18 IPIPE TO PIPE B-55 2'- F- 2 TOO THIN 0-AC-2004/19 l PIPE TO PIPE i B-55 C-F-2 TOO THIN R-AC-2004/20 IPIPE TO ELBOW B-55 C-F-2 !TOO THIN .8-AC-2004/21 : ELBOW TO ELBOW B-55 C-F-2 l lTOOTHINI !8-AC-2004/22 ' ELBOW TO FLANGE (6") l B-55 i C-F-2 f lTOOTHINI l8-AC-2004/23 IFLANGE TO PIPE (6") B-55 C-F-2 i i TOO THINI !8-AC-2004/24 PIPE TO REDUCER (6") B-55 I C-F-2 i TOO THIN I 8-AC-2004/25 REDUCER TO TEE B-55 C-F-2 TOO THIN 8-AC-2004/26 TEE TO PIPE B-55 C-F-2 i TOO THIN 8-AC-2004/27 PIPE TO ELBOW B-55 )
C-F-2 TOO THIN 0-AC-2004/28 ELBOW TO FLANGE (6') B-55 ) C-F-2 TOO THIN 0-AC-2004/29 TEE TO PIPE B-55 ; C-F-2 TOO THIN B-AC-2004/30 PIPE TO REDUCER B-55 C-F-2 lTOO THIN l8-AC-2004/31 l REDUCER TO FLANGE 16") I B-55 1
]
R3 September 1. 1995 Page 128 of 280 l l l
_m . . . _ .. . . _ _ . - _ ___ - . CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS i REV.1 i i ! ! ! l CATEGORY l 3RD INT I ITEM 8 i l ISOf TYPE COMPONENT DESCRIPTION
! I i ! j C-G l 01 I C6.20 i l12-SDC-2020/HCV-347 VALVE BODY WELD (OUTLET) l B-11 F-A I I F1.20 i A i10-AC-2001/16-PR-1 STRUT, 3-BOLT B-50 l F-A I i F1.20 i A !10-AC-2001/18-PR-2 STRUT, 3-BOLT B-50 F-A 98 i F1.20 A i10-AC-2001/18-PR-6 . STRUT, 3-BOLT ! B-50 F-A l 95 F1.20 A 110-AC-2001/32-PR l STRUT, 3-BOLT I B-50 2 F-A l F1.20 i A 10-AC-2002/21-PR STRUT, 3-BOLT l B-51 T-A l l F1.20 f A 10-AC-2002/24-PR-3 I-BEAM, 3-BOLT lB-51 F-A l l F1.20 l A l10- AC-2002 / 2 4 - PR-6 STRUT, 3-BOLT B-51 F-A ! I F1.20 i A i10-AC-2003/13-PR-3 TRAPEZE RODS B-56 F-A ! I F1.20 i A i10-AC-2003/17-PR ROD & CLEVIS B-56 F-A I I F1.20 A Il0-AC-2003/34-PR-1 PLATE, 3-BOLT B-56 F-A F1.20 A '10-AC-2004/17-PR-1 ROD & CLEVIS B-57 F-A F1.20 A 10-AC-2004/19-PR ISTRUT, 3-BOLT ! B-57 F-A 01 F1.20 A 10-AC-2004/36-PR-1 ' STRUT, U-DOLT B-57 F-A F1.22 A 10-LPH-2001/31-FR-1 : STRUT,3-BOLT B-23 T-A F1.20 A 10-LPH-2001/35-FR ROD, 3-BOLT, TUPNBUCFLE B-23 F-A F1.20 A 10-LPH-2001/39-PS iSTRUT 3-BOLT t B-23 F-A .
F1.20 A 10-LPSI-2001/09-PR ISTRUT, 3-BOLT i B-24 I F-A F1.20 A
+
10-LPSI-2002/01-PR lROD & CLEVIS I B-25 F-A F1.20 A 10-LPSI-2002/18-PR-2 _ POD & CLEVIS ! B-25 F-A F1.20 A 10-LPSI-2002/22-PR 'STPUT,3-bCLT B-25 ] F-A F1.20 A '10-LFSI-2002/28-PP-B . PEDESTAL, PLATE B-25 i F-A F1.20 A 12-CSS-2001/11-PP-1 TRAPEZE U-B2LT, STRUT B-19 F-A F1.20 A 12-CSS-2001/12-PR . TRAPEZE ! B-19 F-A i F1.20 A l12-CSS-2001/13-PR iROD, TRAPEZE i B-19 F-A l ! F1.20 i A l12-CSS-2001/14-PR-3 TRAPEZE GANG B-19 t F-A l I F1.20 i A l12-CSS-2001/14-FR-4 _ PED, I-BEAM B-19 F-A I l F1.20 l A il2-CSS-2001/17-PR-2 iTPAPAZE/ ROD & CLEVIS B-19 F-A l F1.20 i A l12-CSS-2001/19-PR-2 IROD & CLEVIS l B-19 1 F-A F1.20 i A il2-CSS-2004/06-PR-1 STRUT, 3-BOLT l B-38 F-A F1.20 i A !12-CSS-2004/06-PR-2 RIGID SUPPORT l B-38 F-A F1.20 I A l12-CSS-2004/12-PR-3 l STRUT, 3-BOLT i B-38 F-A 0] F1.20 i A l12-CSS-2005/03-PR-2 ISTRUT, 3-BOLT I B-38 F-A l F1.20 l A l12-CSS-2011/02-PR-1A l STRUT, 3-BOLT l B-39 F-A 01 ! F1.20 I A l 12 -CS S-2 012 / 0 3- PR l STRUT, 3-BOLT ! B-39 F-A l F1.20 l A !12-LPH-2001/03-PR-1 ! STRUT,3-BOLT I B-16 F-A l 01 l F1.20 l A f12-LPH-2001/16-PR i STRUT, 3-BOLT T/B l B-16 l' F-A l 98 f F1.20 l A !12-LPH-2 001/ 2 5- PR l STRUT, 3-BOLT, U-BOLT I B-16 F-A ! i F1.20 i A il2-LPH-2001/26-PR-1 ROD 3-BOLT T/B B-if F-A 95 F1.20 A 12-LPSI-2002/08-FF : POD & ; LEVIS B-L F-A F1.20 A 12-LPSI-2002/11-PR ROD 6 CLEVIS i B-17 F-A F1.20 A ,12-LPSI-2002/13-PR TRAPEZE B-17 F-A 49 F1. 2 0 _ , A 12-LPSI-2002/13-PR-2 IROD & CLEVIS B-17 F-A F1.20 A 112-LPSI-2002/16-PR ROD & CLEVIS B-17 F-A > F1.20 A 12-LPSI-2002/16-PR-1 ROD & CLEVIS B-17 i F-A 6 I F1.20 A 12-LPSI-2003/02-PR-1 ROD & CLEVIS B-18 F-A F1.20 i A 12-LPSI-2003/02-PR-2 ROD & CLEVIS I B-18 F-A _ F1.20 l A 12-LPSI-2003/14-PR-1 ! STRUT,3-BOLT T/B B-18 F-A l F1.20 l A 12-LPSI-2003/14-PR-2 l ROD & CLEVIS B-18 F-A I F1.20 l A 112-LPSI-2003/15-PR-1 l TRAPEZE I B-18 R3 Septenber 1. 1995 Page 129 of 280
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l l CLASS 2 i l CLASS 2 COMPONENTS AND SUPPORTS REV.1 l l l CATEGORY 3RD INT i ITEM # TYPE COMPONENT l DESCRIPTION ISO # i ! F-A I F1.20 A 12-LPSI-2003/17-PR-1A l STRUT, 3-BOLT B-18 F-A ! F1.- 2 0 A 12-LPSI-2003/17-PR-3 l TRAPEZE 3/4 BOX, GANG B-18 $ F-A 95 ! F1.20 A l 12-LPS I-200 3 /17- PR-4 l PED, I-BEAM ! B-18
! F-A 01 l F1.20 1 A !12-LPSI-2003/21-PR-1 l ROD & CLEVIS l B-18 ,
F-A l l F1.20 A il2-LPSI-2003/23-PR-2 l TRAPEZE B-18 F-A l l F1.20 A !12-LPSI-2003/23-PR-Al l1/2 BOX B-10 t J F-A i F1.20 A l 12-S DC-2001/13- PR ! ROD, 3-BOLT, TURNBUCKLE i B-21 F-A l F1.20 A l12-SDC-2001/17-PR-1 l ROD & CLEVIS B-21 l F-A ! F1.20 A 112-SDC-2001/19-PR-2 TRAPEZE B-21 ; j F-A } F1.20 l A {12-SDC-2001/24-PR-3 PLATE, 3-BOLT, LUGS B-21 [ F-A I ! F1.20 i A l12-SDC-2002/14-PR-1 STRUT, 3-BOLT B-22 , F-A F1.20 ! A l12-SDC-2002/18-PR-1 STRUT, 3-BOLT B-22 F-A 95 F1.20 I A M2-SDC-2002/21-PR-1 iPOD & CLEVIS 1 B-22 i F-A F1.20 A ' 12 - S DC- 200 3 / 09 A- PP - 1 U-BOLT, 90D & CLEVIS iB-22A F-A F1.20 A 12-SDC-2003/09B-PR STPUT, 3-BOLT B-22A F-A ! F1.20 A 12-SDC-2003/11-FR-2 ROD & CLEVIS B-2^A i. F-A F1.20 A 112-SDC-2003/14-FR-3 l STRUT. U-BOLT iB-22A j
- F-A F1.20 A l12-SDC-2003/15-PR-1 TRAPEZE, U-BOLT jB-22A I F-A M F1.20 A 12-SDC-2020/12-PR l ROD & CLEVIS i B-11 ,
F-A F1.20 A 12-SDC-2020/16-PR-1 ROD & CLEVIS j B-11 [ F-A < F1.20 A 12 -S DC- 2 02 0 /16- PP.- S l ROD & CLEVIS i B-11 7 i F-A F1.20 A 14-LPSI-2001/A4-PR STRUT,3-BCLT ' B-09 F-A F1.20 A 14-LPSI-2001/A4-FP-1 ' STRUT,3-BOLT I B-10 F-A F1.20 A 16-FW-2001/01-PR-1 . WHIP PESTPAINT, CONCRETE ' B-08 j F-A i F1.20 i A l16-FW-2002/01-PS CONCRETE, TRUNNION B-08 F-A l l F1.20 A l2-CH-11/09-PR _ ROD & CLEVIS B-61 l l F-A F1.20 A l2-CH-11/09-PR-1 ' ROD & CLEVIS B-61 l F-A F1.00 l A 2-CH-13/05-PR 1/2 BOX B-63 l
- F-A F1.20 A 2-CH-17/01-PR ROD & CLEVIS B-67 )
F-A F1.20 A 2-CH-17/03-PR ROD & CLEVIS B-67 F-A F1.20 A 2-CH-17/05-PR ROD & CLEVIS B-67 F-A F1.20 A 2-CH-17/05-PR-2 ROD & CLEVIS B-67 i F-A F1.20 A 2-CH-17/09-PR ROD & CLEVIS B-67 4 F-A F1.20 A 2-CH-17/13-PR-2 ROD, 3-BOLT B-67 ) F-A F1.20 A 2-CH-18/09-PR ROD & CLEVIS B-68 j F-A l F1.20 A 2-CH-10/11-PR-1 ROD & CLEVIS B-68 F-A F1.20 A 2-CH-19/09-PR-1 ROD & CLEVIS l B-69 i F-A F1.20 A 2-CH-19/09-PR-2 ROD & CLEVIS I B-69 F-A F1.20 l A l2-CH-21/09-PR-1 l ROD & CLEVIS B 7; l
- F-A i F1.20 l A j:-CH-21/09-PR-3 l ROD & CLEVIS B '1 l F-A , F1.20 ; A 42-CH-21/11-PP ' ROD & CLEVI2 ' B-71 F-A i '
F1.20 ! A 2-CH-22/01-FR-2 ! POD, U-BOLT B-72 F-A F1.20 ' A '2-CH-22/17-PR ROD & CLEVIS B-72 I F-A 01 F1.20 ! A l2-CH-22/21-PR ROD & CLEVIS B-72 l j F-A j F1.20 A 2-CH-26/03-PR ROD & CLEVIS B-79 I ! F-A F1.20 A 2-CH-26/03-PR-1 ROD & CLEVIS B-79 F- A 95 F1.20 A 2-CH-26/07-PR-1 ROD & CLEVIS B-79 i a F-A F1.20 A 2-CH-26/09-PR ROD & CLEVIS B-79 l F-A F1.20 A 2-CH-26/09-PR-1 ROD & CLEVIS B-79 ' l F-A 98 F1.20 A 2-CH-26/11-PR-1 l ROD & CLEVIS B-79 R3 September 1, 1995 Page 130 of 280 a
1 1 l CLASS 2 i l CLASS 2 COMPONENTS AND SUPPORTS REV.1 CAT 2CORY 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISON F-A F1.20 A 2-CH-30/09-PR ROD & CLEVIS B-84 F-A F1.20 A 2-CH-30/09-PR-1 ROD & CLEVIS B-84 F-A F1.20 A 2-CH-30/11-PR-1 IROD & CLEVIS { B-84 F-A F1.20 l A I2-CH-30/11-PR-2 l ROD & CLEVIS l B-84 F-A F1.20 l A l 2 . 5 -CH- 11/ 01 - PR- 1 11/2 BOX B-66 F-A F1.20 A l20-SI-2001/05-PR ROD & CLEVIS B-36 F-A F1.20 A !20-SI-2001/06-PR STRUT, 3-BOLT B-36 F-A 95 F1.?O A 24-SI-2001/06-PR-1 ISTRUT, 3-BOLT B-36 F-A F1.20 A 24-SI-2001/06-PR-3 STRUT, 3-BOLT B-36 ; F-A F1.20 I A l24-SI-2001/13-PR STRUT, 3-BOLT B-36 F-A l F1.20 I A I24-SI-2001/15-PR STRUT, 3-BOLT B-36 F-A I F1.20 I A i24-SI-2002/01A-PR STRUT, 3-BOLT B-37 F-A ' l F1.20 A !24-SI-2002/04A-FR ! STRUT, 3-BOLT l B-37 F-A i '1.20 A 24-S!-2002/07-FP TRAPE2E,U-BOLT lB-37 F-A I F1.20 A 24-SI-2002/08-FP-1 TRAFEZE. U-BOLT B-U F-A i 98 F1.20 A 24-SI-2002/12-PR STRUT, 3-BOLT , B-37 F-A i F1.20 A 24-SI-2002/16-PR-A STRUT, 3-BOLT I B-37 f F-A 98 F1.20 A ! STRUT, 3-BOLT B-37
]4-SI-2002/17-FR-1 F-A F1.20 A . 8-MS-2001/12-PR-4 ' WHIP RESTPAINT,I-BEAM B-04 F-A I i F1.20 A 28-MS-2002/12-FP-2 WHIP RESTFAINT, I-BEN 4 l B-06 l F-A ! I F1.20 A 4-CH-10/02-PR ' ROD, 3-BOLT I B-73 F-A 95 F1.20 A 4-CH-10/02-FR-1 1-BEN 4 i B-73 F-A j F1.20 A 4-CH-10/04-PR-1 -BOX ' E 73 ,
F-A F1.20 A 4-CH-10/04-PR-2 ROD, 3-BOLT l B-73 I F-A F1.20 A 4-CH-10/04-PR-3 ISTRUT, 3-BOLT B-73 F-A F1.20 l A '4-CH-10/05-PR-1 II-BEAM B-73 P-A F1.20 l A 4-CH-10/05-PR-4 ROD, ANGLE B-73 F-A F1.20 A 4-CH-10/07-PR ROD & CLEVIS B-73 F-A F1.20 A 4-CH-10/07-PR-1 ROD & CLEVIS B-73 F-A 01 F1.20 I A 4-CH-10/15-PR DUAL PEDESTAL, 3/4 BOX B-73 F-A 95 F1.20 A 4-CH-11/11-PR STRUT, 3-BOLT B-74 F-A F1.20 A 4-CH-11/14-PR STRUT, 3-BOLT B-74 F-A F1.20 A 4-CH-11/16-PR STRUT, 3-BOLT B-74 F-A F1.20 A 4-CH-11/28-PR STRUT, 3-BOLT B-74 F-A 98 F1.20 A 4-CH-11/28-PR-2 STRUT, 3-BOLT B-74 F-A F1.20 A 4-CH-11/32-PR ROD & CLEVIS B-74 F-A j l F1.20 A (4-CH-12/02-PR !I-BEAM, GANG B-75 F-A l 95 F1.20 A l4-CH-12/16-PR II-BEAM I B-75 7' F-A l 98 F1.20 A !4-CH-12/17-PP-1 :I-BEAM, GANG B F-A l F1.20 A 4-CH-1*'/17-FR-3 'I-BEAM, GANG B- M F-A i F1.20 A 4-CH-12/17-PR-4 >I-BEAM, ROD. GANG B-75 ; F-A I i F1.20 I A 4-CH-12/19-PR ; ROD & CLEVIS B-75 F-A 1 F1.20 A ;4-CH-12/19-FR-3 ! ROD & CLEVIS B-75 F-A I I F1.20 i A 4-CH-13/09-PR-1 ROD, 3-BOLT, TURNBUCKLE B-76 F- A ' F1.20 l A 4-CH-13/09-PR-3 ROD, 3-BOLT B-76 F-A F1.20 A 4-CH-13/09-PR-5 ROD, 3-BOLT, TRAPEZE B-76 F- A - 01 F1.20 A 4-CH-13/11-PR ROD, 3-BOLT B-76 F-A 01 F1.20 A 4-CH-13/13-PR STRUT, 3-BOLT B-76 F-A F1.20 A l 4 -CH-13 /15-PR IROD, 3-BOLT, TURNBUCKLE B-76 F-A F1.20 A i4-CH-13/17-PR ! ROD, 3-BOLT, TURNBUCKLE B-76 R3 September 1. 1995 Page 131 of 280
I i CLASS 2 1 CLASS 2 COMPONENTS AND SUPPORTS REV.1 . l l l CATEGORY 3RD INT ITEM # l TYPE l COMPONENT DESCRIPTION ISO # i i ! F-A F1.20 l A !4-CH-13/19-PR-1 ROD, 3-BOLT B-76 F-A F1.20 l A I4-CH-14/09-PR PLATE, 3-BOLT B-81 l F-A F1.00 I A 4-CH-14/09-PR-2 ROD, 3-BOLT B-81 F-A F1.20 l A 4-CH-14/10-PR-1 ROD, 3-BOLT B-81 F-A F1.20 l A I4-CH-14/10-PR-2 ROD, 3-BOLT B-81 f F-A F1.20 A l4-CH-14/12-PR ROD, 3-BOLT, TURNBUCKLE B-81 , F-A F1.20 A i4-CH-14/14-PR ROD, 3-BOLT B-81 F-A F1.20 A l 4 -CH-14 /16- PR ROD, 3-BOLT 'B-81 l F-A F1.20 A l4-CH-14/18-PR-1 ANGLE, 3-BOLT B-81 F-A F1.20 l A I4-CH-14/18-PR-3 ROD, 3-BOLT, TURNBUCKLE B-81 F-A l F1.20 l A !4-CH-14/19-PR ROD, 3-BOLT B-81 F-A l 98 i F1.00 ! A !6-AC-2002/04-PR PLATE, 3-BOLT B-49 F-A 95 4 F1.20 A '6-CSS-2001/05-FR-1 3 TRAPEZE, ROD & CLEVIS B-35 ' F-A F1.20 A r-LPH-2014/01-PH l STRUT, 3-BOLT I B-34 ' F-A I F1.20 A n-LPH-2014/09-PP-2 TRAPEZE, U-BOLT B-34 , F-A F1.20 A LFH-2014/09-FR-4 ISTRUT, 3-BOLT ' B-34 F-A ' ' F1.20 A 6-SI-2002/06-FR l STRUT, 3-BOLT l B-42 F-A i ' F1.20 ! A f6-SI-2002/08-PR-1 ! STRUT, 3-BOLT l B-42 F-A i F1.20 A 6-SI-2002/10-PR-2 fROD& CLEVIS lB-42 F-A I F1.20 A '6-SI-2022/01A-PR hSTRUT, 3-BOLT B-31 h F-A I 98 ' F1.23 A i-AC-2001/20-PR lI-BEAM, 3-BOLT B-52 F-A F1.20 A a-AC-2001/21-PP 1 ROC & CLEVIS I B-52 F-A I F1.20 A '8-AC-2001/27-PR-2 TPA PEZ E , U-BOLT, OANG B-52 F-A 4 F1.20 A 9-AC-2001/28-PR-2 :TRA PE ZE , U-BOLT l B-52 F-A I l F1.20 A '8-AC-2001/28-PR-3 iSTRUT, U-BOLT, T-BKLE B-52 F-A l F1.20 { A l8-AC-2001/30-PR TRAPEZE B-52 F-A F1.20 i A IB-AC-2001/31-PR STRUT, 3-BOLT, T/B B-52 F-A F1.20 A IB-AC-2002/19-PR STRUT, WELDED PLATE B-53 P-A F1.20 A 8-AC-2002/23-PR-3 STRUT, 3-BOLT B-53 F-A F1.20 A 8-AC-2002/29-PR STRUT, 3-BOLT B-53 i F-A F1.20 A 18-AC-2002/29-PR-1 STRUT, 3-BOLT B-53 > l F-A F1.20 I A 8-AC-2002/29-PR-2 ROD & CLEVIS B-53 F-A F1.20 A 8-AC-2002/29-PR-3 STRUT, 3-BOLT B-53 !
- F-A F1.20 A 8-AC-2002/33-PR TRAPEZE, U-BOLT, GANG B-53 .
l F-A F1.20 A 18-AC-2002/33-PR-1 STRUT, 3-BOLT B-53 [ F-A 95 F1.20 A I8-AC-2003/01-PR TRAPEZE, U-BOLT, GANG B-54 F-A F1.20 l A !8-AC-2003/05-PR STRUT, 3-BOLT B-54
- F-A _ l F1.20 l A {3-AC-2003/05-PR-1 STRUT, 3-BOLT B-54 4
F-A ! I F1.20 I A i8-AC-2003/05-PR-3 TRAPEZE, U-BOLT ' B-54 F-A I I F1.20 A 8-AC-2003/07-PP-1 ISTRUT, 3-BOLT B-54 ) F-A i I F1.20 . A R-AC-2003/12-PR-3 l TRAPEZE, STPUT, U-BOLT t B-54 l F-A I F1.20 A [8-AC-2003/13-PR-1 ROD & CLEVIS B-54 l 1 F-A F1.20 A R-AC-2003/13-PR-2 ROD & CLEVIS B-54 l l F-A l F1.20 A ! 8- AC-200 3 / 2 3- PR STRUT, 3-BOLT B-54 ) F-A 1 01 F1.20 A 8-AC-2004/01-PR TRAPEZE, STRUT B-55 F-A i F1.20 A 8-AC-2004/03-PR TRAPEZE, U-BOLT, GANG B-55 F-A F1.20 A 8-AC-2004/04-PR-3 STRUT, 3-BOLT B-55 F-A F1.20 A 8-AC-2004/04-PR-B TRAPEZE, U-BOLT, GANG B-55 , I F-A F1.20 A 8-AC-2004/11-PR-4 STRUT, 3-BOLT, T/B B-55 F-A F1.20 A 8-CSS-2001/08-PR STRUT,3-BOLT B-26 { j R3 September 1. 1995 Page 132 of 280
__ _ .. __ . .__ . . _ _ _ . _ _ - . . . m . _ _ _ _ . _ _ _ _ m _ - ._ l CLASS 2 l CLASS 2 COMPONENTS AND SUPPORTS REV.1 I ! I CATEGORY l 3RD INT ITEM # l-TYPE i ; COMPONENT DESCRIPTION ISOf I l F-A F1.20 I A l8-CSS-2003/07-PR-1 ROD & CLEVIS B-28 F-A F1.20 l A !8-CSS-2003/09-PR-A TRAPEZE / DUAL TURNBUCKLE B-28 a
. F-A l F1.20 l '
A l8-CSS-2003/09-PR-B STRUT, 3-BOLT, T/B B-28 j F-A F1.20 l A !8-CSS-2003/11-PR STRUT, 3-BOLT B-28 F-A F1.20 I A l8-CSS-2003/14-PR-3 STRUT, 3-BOLT, T/B B-28 E F-A F1.20 l A i8-CSS-2003/14-PR-4 ROD & CLEVIS B-28 F-A F1.20 A i8-LPSI-2001/10-PR-2 STRUT,3-BOLT B-29 . F-A F1.20 A l8-LPSI-2001/12-PR-1 ' ROD & CLEVIS B-29 F-A F1.20 l A l8-LPSI-2001/12-PR-3 STRUT, 3-BOLT, T/B B-29 i F-A l F1.20 ! A j8-LPSI-2001/15-PR-2 STRUT, 3-BOLT, T/B B-29 F-A ! F1.20 A 18-LPSI-2001/19-PR-1 STRUT, 3-BOLT B-29 E-A ' 95 I F1.20 B Il0-AC-2001/02-PR 3/4 BOX B-50 F-A 01 F1.20 B 10-AC-2001/14-PR { PEDESTAL, U-BOLT B-50 l F-A F1.20 8 _10-AC-2001/18-PR-1 IFULL DOX B-50 I F-A F1.20 B 10-AC-2001/18-PP-3 ' DUAL STRUT, LUG B-50 i F-A F1.20 B .10-AC-2001/23-PR iGANG SUPP, U-BOLT i B-50
- F-A 5 F1.20 '
B 10-AC-2001/34-PR [ GANG SUPPORT, BOX l B-50
- F-A I t F1.20 B AC-2001/34-PR-1 ! GANG SUPPORT, BOX B-50
+ , F-A F1.20 B 10-AC-2001/35-PR lGMiG SUPPORT, U-BOLT B-50 F-A F1.20 i B 10-AC-2002/02-PP : PEDESTAL, U-BOLT B-51 F-A 95 F1.20 B AC-2002/14-PR iPEDESTAL, U-BOLT _ l B-51
} F-A F1.20 B 10-AC-2002/16-PR l BOX I B-51 F-A F1.20 B 10-AC-2002/24-PP-1 iANGLE. U-BOLT I B-51 l F-A F1.20 i B 10-AC-2002/24-FR-2 iTRAPEZE, STRUT, U-BOLT B-51 ] F-A l F1.20 i B {10-AC-2002/24-PR-4 BOX B-51
- F-A j F1.20 l B 110-AC-2002/24-PR-5 I-BEAM, DUAL U-BOLT B-51 ;
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) , F-A F1.20 8 10-AC-2002/30-PR BOX B-51 j
, F-A F1.20 B 10-AC-2002/32-PR GANG SUPPORT, BOX B-51 l F-A 01 F1.20 I B 10-AC-2002/32-PR-1 GANG SUPPORT, BOX B-51 F-A i F1.20 l B 10-AC-2003/02-PR GANG, BOX 4 PIPE B-56 I F-A F1.20 B 10-AC-2003/03-PR GANG, FULL BOX B-56 ) F-A F1.20 B 10-AC-2003/08-PR PEDESTAL 3/4 BOX B-56 F-A F1.20 B 10-AC-2003/28-PR PEDESTAL, 3/4 BOX B-56 F-A F1.20 B 10-AC-2003/34-PR PEDESTAL, U-BOLT B-56 F-A F1.20 B 10-AC-2004/02-PR GANG, U-BOLT, 2-PIPES B-57 F-A F1.20 B 10-AC-2004/03-PR-1 GANG FULL BOX, 4-PIPES B-57 ! F-A F1.20 B 10-AC-2004/04-PR GANG, FULL BOX, 2-PIPES l B-57 ) F-A ! F1.20 ! B 110-AC-2004/05-PP _ FULL BOX B-57 F-A l F1.20 B !10-AC-2004/09-FP IFULL BOX B-57
, F-A I F1.20 '
B '10-AC-2004/09-PR-1 ' FULL BOX i B-57 j F-A l F1.20 B !10-AC-2004/18-FR lFULLBOX B-57 F-A F1.20 B 10-AC-2004/18-PR-1 ANGLE, 1/2 BOX B-57 F-A ' F1.20 r B {10-AC-2004/30-PR PEDESTAL, 3/4 BOX B-57 F-A 01 i F1.20 B 10-AC-2004/36-PR PEDESTAL, U-BOLT B-57 i F-A l F1.20 B 10-LPH-2001/31-PR LUGS / STRUT,3-BOLT / GANG B-23 F-A 95 F1.20 B 10-LPH-2001/39-PR GANG BOX B-23 I F-A 95 F1.20 B 10-LPSI-2002/03-PR-1 DUAL STRUT, 3-BOLT B-25 a F-A F1.20 B 12-CSS-2001/12-PR-1 FULL BOX B-19 F-A F1.20 B 12-CSS-2001/24-PR RISER, LUGS I B-19 I l R3 September 1. 1995 Page 133 of 280 l i
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS } RIV. I I l TYPE i COMPONENT DESCRIPTION 150# CATEGORY l 3RD INT {_ ITEM # .! ; F-A F1.20 8 {l2-CSS-2002/06-FR RISER, LUGS j B-20 F-A F1.20 .e B (12-LPH-2001/25-PP-1 GANG WELLED l B-16 F-A F1.20 i . B
+l12-LPSI-2002/12-FR SIDE PED, U-BOLT I B-17 F-A [ B -l12-LPSI-2003/28-PR l RISER, LUGS ; B-18
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F-A l F1.20 l B !12-SDC-2001/08-PR l RISER, LUGS l B-21 F-A I 95 F1.20 ! B Il2-SDC-2001/17-PR-2 ISTRUT, 3-BOLT, T/B l B-21 _.- F.. A F1.20 B SDC-2002/08-PR l RISER, LUGS lB-22 F-A F1.20 l b - il2-SDC-2002/23-PR-2 , l.DUAL STRUT, 3-BOLT B-22 F-; j F1.20 l B il2-SDC-2002/26-PR-2 PED, U-BOLT B-22 F-A I ,1 F1.20 , B l12-SDC-2003/15-PR-2 EULL BOX B-22A F-A i l F1.20 B il6-FW-2002/ll-PR PEDESTAL,U-BOLT B-08 t
~. . F,- A- .__.t I Fl.20 i B 12-CH-il/01-PR .e ANGLE, U-BOLT B-61 F-/s '
F1.20 B J -CH-il / 0 3-I P ' A!!GLE, U-BOLT ' B-el F-A F1.20 B 'H- ' /05-fP ANGLE, ' - f4G LT 1 B-61 I Fl.20 ANGLE, .-BOLT B
.-.F - A-- . - . -.J-C.H. -.. _13-FP B
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F-A I F1.20 8 -CH-12/01-PP ANGLE, U-BOLT B-t2 F - /s F1.20 B -CH-12/01-EP-1 ANGLE, U-BOLT i B-62 F-A Fl. U J-CH-12/03-PR ' ANGLE, U-BOLT i B-t2 e .._B__ ; F-A
- F1.20 B ..<H-12/03-IR-1 . ANGLE, .-HOLT !
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---.- F-A l l Fl.20 .+
B .--.2 -CH- ; 2 /14 - F R J-BEAM, LUAL U-BOLT B-62 F-A 4 t F1.20 ! B 2-CH-lJ/15-PR .l ANGLE, U-BOLT - B-63 l F-A l F1.20 i B !2-CH-13/19-PR ANGLE, U-ROLT B-63 F-A m f F1.20 f B I 2-CH-13/23-PR ANGLE, U-BOLT B-63 F-A I F1.20 3 B 12-CH-13/33-PR ANGLE, U-BOLT B-63 F-A F1.20 l B 2-CH-13/33-PR-1 ANGLE, U-BOLT B-63 F-A F1.20 l B I2-CH-13/38-PR I-BEAM, DUAL U-BOLT I B-63 F-A F1.20 B ]2-CH-14/05-PP ANGLE, U-BOLT l B-64 F-A F1.20 B i2-CH-14/07-FR , ANGLE, U-BOLT l B-64 F-A F1.20 B f2-CH-14/07-PR-1 ! ANGLE, U-BOLT I B-64 F-A F1.20 l B !2-CH-14/ll-PR ANGLE, U-BOLT l B-64 F-A F1.20 l: B
---4 f2-CH-14/13-PR :
ANGLE, U-BOLT I B-64 F-A - 98 F1.20 I+ B l2-CH-14/19-PP lANGLE, U-BOLT I B-64 F-A 98 F1.20 l . B t 12-CH-14/19-PR-1 ; ANGLE, U-BOLT
+
B-64 F-A F1.20 l B l2-CH-14/25-PR l ANGLE, U-BOLT ' B-64 F-A 95 F1.20 I B I2-CH-15/14-PP ' PEDESTAL, 1/2 BOX B-65 F-A i 1_B_O_LT_ _ _ _ . B-on _.I . - F1.20 .. . ._.B__ _ 2 ._C H - 1._6 /_01 _P P -__-
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F-A _, _- F1.20 4 __ _B - ..-CH-17/01-PR-1 _ - _ . ..._ ,_AN G L_E . ' ! - HO LT
, B-67 F-A l l F1.20 B -CH-17/03-FR-1 : ANGLE, U-B9LT B-67 F-A ! F1.2C 9 .-CH-l?/05-PP-1 l ANGLE, U-DOLT B-67 F-A r F1.20 B 2-CH-17/07-PR ANGLE, U-BOLT l B-67 F-A F1.20 i B l2-CH-17/13-PR ANGLE, U-BOLT l B-67
- - . -. y F-A i F1.20 l B !2-CH-17/13-PR-1 ANGLE, U-BOLT l B-67 F-A F1.20 B l 2-CH -18 / 02 - PR ANGLE, U-BOLT l B-68 F-A F1.20 B l 2 -CH- 18 /11- PR ANGLE, U-BOLT B-68 F-A F1.20 B l 2 -CH-18 / l l - P R-2 ANGLE, U-BOLT B-68 F-A F1.20 B l2-CH-18/15-PR ANGLE, U-BOLT B-68 R3 September 1, 1995 Page 134 of 280 i
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1 ~ l CLASS 2 4 CLASS 2 COMPONENTS AND SUPPORTS _ REV.1 1 I i CATEGORY 3RD INT l ITEM # TYPE CCHPONENT DESCRIPTION ISO # l l F-A l F1.20 8 2-CH-18/17-PR ANGLE, U-BOLT B-68 F-A F1.20 B 2-CH-18/19-PR ANGLE, U-BOLT l B-68 F-A F1.20 i B 2-CH-18/27-PR ANGLE, U-BOLT I B-68 F-A F1.20 l B 2-CH-18/31-PR ANGLE, U-BOLT l B-68 l F-A F1.20 ! B 2-CH-18/33-PR ANGLE, U-BOLT i B-6R, j F-A F1.20 i B 2-CH-19/02-PR ANGLE, U-BOLT B-69 i F-A F1.20 l B 2-CH-19/09-PR ANGLE, U-BOLT B-69 l F-A F1.20 l B 2-CH-19/13-PR ANGLE, U-BOLT B-69 F-A F1.20 l B 2-CH-19/13-PR-1 ANGLE, U-BOLT B-69 { 7 F-A ! F1.20 i B 2-CH-19/15-PR ANGLE, U-BOLT B-69
! F-A ! I F1.20 ! B 2-CH-19/21-PR ANGLE, U-BOLT B-69 F-A l F1.20 B :2-CH-20/03-PR ANGLE, U-BOLT B-70
] l F-A l F1.20 8 d-CH-20/03-PR-1 ANGLE, U-BOLT I B-70
! F-A F1.20 0 2-CH-20/07-PR 1 ANGLE, U-BOLT ,
B-70 ] F-A F1.20 9 .2-CH-20/09-PR ANGLE, U-BOLT 5 70 I F-A F1.20 B :2-CH-20/11-PR lANGLE, U-BOLT B 70 F-A F1.20 B !2-CH-20/13-PR JANGLE, U-BOLT ; E-70 }
, F-A 1 F1.20 B l2-CH-21/02-PR JANGLE, U-BOLT l B-71 F-A F1.20 B l2-CH-21/07-PR lANGLE, U-BOLT i B-71 F-A F1.20 B 2-CH-21/09-PR ~ ANGLE, U-BOLT B-71 F-A F1.20 B .2-CH-21/09-PR ' ; ANGLE, U-BOLT i B-71 F-A i F1.20 B :2-CH-21/13-PR ANGLE, U-BOLT <
B-71 , { F-A F1.20 B ;2-CH-21/15-PR l ANGLE, '/- BOLT B-71 F-A 4 F1.20 B .2-CH-21/21-PR IANGLE, U-BOLT B-71 l ( F-A I ! F1.20 B 12-CH-21/23-PR ANGLE, U-BOLT l B-71 I l F-A ! F1.20 l B 2-CH-22/01-PR ANGLE, U-BOLT l B-72 ! I F-A F1.20 I B 2-CH-22/01-PR-1 ANGLE, U-BOLT B-72 F-A F1.20 l B 2-CH-22/17-PR-1 ANGLE, U-BOLT B-72 k F-A F1.20 B 2-CH-22/19-PR ANGLE, U-BOLT B-72 1
- F-A 01 F1.20 B 2-CH-22/23-PR ANGLE, U-BOLT B-72 j F-A 95 F1.20 B 2-CH-22/28-PR ANGLE, DUAL U-BOLT B-72
{ F-A 01 F1.20 B 2-CH-22/32-PR I-BEAM, DUAL U-BOLT B-72 1 F-A F1.20 B 2-CH-24/09-ER DUAL FULL BOX B-77 ! F-A 95 F1.20 8 2-CH-25/01-PR ANGLE, U-BOLT B-78 l F-A 1 95 F1.20 i B 2-CH-25/01-PR-1 ANGLE, U-BOLT l B-78 F-A I 95 F1.20 i B 2-CH-25/07-PR ANGLE, U-BOLT l B-78 j F-A F1.20 B 2-CH-25/11-PR PEDESTAL, DUAL U-BOLT l B-78 F-A 01 F1.20 B 2-CH-26/07-PR-3 ANGLE, U-BOLT i B-79 f F-A F1.20 B l2-CH-26/11-PR (ANGLE, U-BOLT B 24 F-A F1.20 B ,2-CH-26/11-PR-2 fANGLE, U-BOLT B5 F-A ! 98 F1.20 B i2-CH-26/15-PR ! ANGLE, U-BOLT B-79 F-A 90 F1.20 B I2-CH-26/15-PR-1 PEDESTAL, U-BOLT B-79 E-A- F1.20 .B !2-CH-26/19-PR ' DUAL BOX B-79 F-A F1.20 ' B 2-CH-27/07-PR DUAL BOX B-80 F-A , F1.20 B 2-CH-27/11-PR PEDESTAL, U-BOLT B-80 2 F-A I F1.20 B 2-CH-28/07-PR I-BEAM, DUAL U-BOLT B-82 { F-A F1. 20 - B 2-CH-28/09-PR PEDESTAL, U-BOLT B-82 F-A F1.20 B 2-CH-29/01-PR BOX B-83 F-A F1.20 B 2-CH-29/03-PR ANGLE, U-BOLT B-83 r-A F1.20 B 2-CH-29/15-PR PEDESTAL, DUAL U-BOLT B-03 R3 September'1, 1995 Page 135 of 280 m + -- w - .- g. -- i 4 wv. -,
~ _ _ - _ _ _ __ _ . - _ . . _ . . . . _ __ _ . _ _ . _ _ _ _
d CLASS 2 i CLASS 2 COMPONENTS AND SUPPORTS REV.1 , 4 i i i
] CATECORY' 3RD INT ITEM # TYPE COMPONENT DESCRIPTION ISO #
I i F-A F1.20 l B 2-CH-30/11-PR ANGLE, U-BOLT B-94 ] F-A l F1.20 i B 2-CH-30/15-PR ANGLE, U-BOLT B-84 ; j F-A I F1.20 l B 2-CH-30/19-PR ANGLE, U-BOLT B-84 j F-A F1.20 B 2-CH-30/21-PR PEDESTAL, DUAL U-BOLT B-84 ' ] F-A F1.20 8 2-CH-31/08-PR I-BEAM, DUAL U-BOLT B-85 j F-A F1.20 B 2.5-CH-11/01-PR FULL BOX B-66 I F-A F1.20 B 2.5-CH-11/03-PR FULL BOX B-66 l F-A 01 F1.20 B 28-MS-2001/15-PR-1 WHIP RESTRAINT,U-BOLT B-04 F-A F1.20 f 8 28-MS-2002/15-PR-1 PIPE RESTRAINT,U-BOLT B-06 F-A F1.20 I B 128-MS-2002/15-PR-3C PEDESTAL, U-BOLT B-06
^
F-A l F1.20 i B l28-MS-2002/15-PR-4 WHIP RESTRAINT, U-BOLT B-06 F-A l 99 F1.20 ! B !4-CH-10/05-PR-2 l FULL BOX B-73 e F-A F1.20 B l 4 -CH-11/02- FR [ TRUNNION 0-74 F-A + F1.20 B 4-CH-11/18-PR ; TRUNNION l B-74 F-A I F1.20 B 4-CH-11/30-PR <!-BEAM, 3/4 BOX B 74 F-A 98 F1.20 B i4-CH-11/30-PR-1 IFULL BOX B-74 F-A 01 i F1.20 , B I 4-CH-12/04-PR !FULLBOX ! B-75 , F-A 95 i F1.20 B 4-CH-12/07-PR l TRUNNION i B-75 F-A l F1.20 B '4-CH-12/16-PR-1 I3/4 BOX l B-75 _ F-A i F1.20 B 4-CH-12/19-PR-1 l FULL DOX I B-75
- F-A '
F1.20 B 4-CH-12/28-PR-1 RISER, LUCS i B-75 F-A 01 F1.20 B 4-CH-13/09-PP l FULL DOX B-76
]
. F-A Fl.20 B 4-CH-13/09-PR-2 'I-BEAM, WELLED SADDLE I B-76 ' F-A , F1.20 B '4-CH-13/09-PP-4 iI-BEAM, U-SQLT j B-76 F-A 01 F1.20 i B i4-CH-13/11-PR-2 lFULLBOX, LUGS B-76 j F-A F1.20 B 4-CH-13/19-PR lFULLBOX B-76 I F-A F1.20 B 4-CH-14/09-PR-1 3/4 BOX B-81 F-A F1.20 B !4-CH-14/09-PR-3 1-BEAM, WELDED SADDLE B-81 { F-A F1.20 B l4-CH-14/10-PR I-BEAM, U-BOLT B-81 i F-A F1.20 B 4-CH-14/14-PR-1 BOX B-81 F-A F1.20 B 4-CH-14/18-PR FULL BOX l B-81 F-A F1.20 B 4-CH-14/18-PR-2 FULL BOX B-81
- F-A F1.20 B 4-CH-14/19-PR-1 STPUT, TRUNNION B-81
{ F-A F1.20 B 4-CH-14/19-PR-2 3/4 BOX B-81 j F-A F1.20 B 6-AC-2001/10-PR PEDESTAL, DUAL U-BOLT B-48 6-AC-2001/14-PS ~ F-A F1.20 B TRUNNION B-48 j F-A 98 F1.20 B 6-AC-2002/02-PR 3/4 BOX RESTRAINT B-49 F-A 98 F1.20 l B 6-AC-2002/04-PS TRUNNION, SLIDER I B-49 F-A F1.20 I B I6-AC-2002/09-PR TRUNNION 0-44
- F-A F1.20 t B AC-2004/01-PP ! GANG SUPPORT, U-BOLT B-50A F-A -
F1.20 i B 46-AC-2004/03-PR DUAL STRUT, 1-BOLT B-50A ] F-A I F1.20 F @-AC-2005/02-PR l GANG SUPPORT, BOX IB-51A F-A ! F1.20 B !6-AC-2011/46-PR l GANG, I-BEAM, U-BOLT B-56 F-A ! F1.20 8 l6-AC-2014/44-PR DUAL STRUT, U-BOLT B-57
- F-A '
F1.20 i B 6-AC-2014/46-PR U-BOLT, GANG 2-PIPES B-57 F-A l F1.20 I B 6-HPSI-2001/10-PS TRUNNION 0-41 F-A F1.20 B ' 6-HPSI-2002/19-PS TRUNNION B-40 F-A F1.20 0 6-LPH-2014/05-PR FULL BOX B-34 F-A F1.20 . B 6-LPH-2022/01-PR-2 FULL BOX l B-31 F-A F1.20 l B B-AC-2001/02-PR PEDESTAL, U-BOLT I B-52 R3 September 1. 1995 Page 136 of 280 [
CLASS 2 CLASS 2 COMPONENTS AND SUPPORTS REV.1 1 CATECORY 3*'4 D INT ITEMS TYPE l COMPONENT DESCRIPTION ISO # , l
- F- A 95 F1.20 B 8-AC-2001/12-PR PEDESTAL, U-BOLT B-52 F-A F1.20 B B-AC-2001/16-PR-1 SADDLE, U-BOLT B-52 ;
F-A F1.20 B 8-AC-2001/16-PR-2 GANG SUPPORT, BOX B-52 F-A F1.20 B 8-AC-2001/16-PR-3 l GANG SUPPORT, BOX B-52 l F-A F1.20 l 8 l8-AC-2001/26-PR-1 IBOX B-52 l I F-A F1.20 l B '8-AC-2001/26-PR-2 FULL BOX B-52 F-A 01 F1.20 B 8-AC-2001/26-PR-3 GANG SUPPORT, BOX B-52
'3/4 BOX B-52 F-A F1.20 B 8-AC-2001/27-PR-1 F-A F1.20 B 8-AC-2002/02-PR PEDESTkt, U-BOLT B-53 I F-A ! F1.20 j B 8-AC-2002/13-PR PED, U-BOLT, PLATE, 3-3 B-53 j F-- A I F1.20 1 B !8-AC-2002/23-PR 3/4 BOX B-53 F-A I F1.20 I B !8-AC-2002/23-PR-1 IBOX, 3-GANG B-53 F-A F1.20 B 9-AC-2002/23-PR 7 IBOX, 3-GANG B-53 F-A i F1.20 8 d-AC 2002/23-PR-4 ! STRUT, 3-BOLT l B-53
' iSTRUT, 3-BOLT, LUGS F-A l F1.20 B >3-AC-2003/05-PR-2 i B-54 l F-A i F1.20 B 8- AC .'00 3 /12 - F P -2 T-BEAM, U-BOLT B-54 I F-A ! F1.20 B 18-AC-2003/34-PR l PEDESTAL, 3/4 BOX B-54 F-A 01 I F1.20 B 8-AC-2004/04-PR-1 iBOX, GANG-2 B-55 i
l: F-A ' F1.20 B 8-AC-2004/11-PR-1 3
! GANG BOX l B-55 '
F-A F1.20 B 8-AC-2004/11-PR-5 ! GANG BOX l B-55
- F-A F1.20 B 9-AC-2004/11-PR-6 IFULL DOX l B-55 i F-A i F1.20 B 9-AC-2004/15-ER FULL BOX ! B-55
! F-A . F1.20 B 8-AC-2004/19-PR IDUAL STRUT, 3-BOLT I B-55 F-A F1.20 B 8-AC-2004/34-PR IPEDESTAL, 3/4 BOX l B-55 $ F-A I F1.20 B 8-LPSI-2001/19-PR-2 l ANGLE, I-BEAM l B-29 F-A l F1.20 B l8-LPSI-2002/05-PR COMPLEX o-30 t - i F-A F1.20 C 110-AC-2001/18-PR-4 TRAPEZE, DUAL SPRING CAN B-50 , F-A 98 F1.20 C 10-AC-2001/18-PR-7 SPRING CAN, TRAPEZE, T/B B-50 . F-A F1.20 C 10-AC-2003/13-PR U-BOLT, 2-SPRING CAN B-56 F-A F1.20 C 10-AC-2003/13-PR-2 DUAL SPRING CAN, U-BOLT B-56 i F-A F1.20 C 10-AC-2003/15-PR SPRING CAN, ROD & CLEVIS B-56
- F-A F1.20 C 10-AC-2004/16-PR SPRIT <G CAN, ROD & CLEVIS B-57 ,
i P-A , F1.20 C l12-CSS-2004/12-PR-1 SPRING CAN, TRAPEZE B-38 ! f F-A 01 F1.20 C l12-CSS-2005/03-PR-1 SPRING CAN, 3-BOLT B-38 i F-A F1.20 C {12-CSS-2011/02-PR-2 SPRING CAN, ROD & CLEVIS B-39 l i F-A F1.20 ! C 112-CSS-2011/06-PR SPRING CAN COMPLEX B-39 { l F-A F1.20 C l12-CSS-2012/04-PR SPRING CAN COMPLEX B-39
- F-A F1.20 C 112-CSS-2013/02-PR SPRING CAN, RCD & CLEVIS B-39
] F-A i F1.20 C !12-CSS-2013/05-PR : SPRING CAN COMPLEX f B-34 ! 1 F-A ' F1.20 i C I 12-LPSI-2002/01-PP-3 lSFRIFG CAN I B-17 t
- F-A I F1.20 C
- 14-LPSI-2001/AS-PP ! SPRING CAN, COMPLEX B-09 i F-A l F1.20 i C '14-LFSI-2002/AS-PP SPPING CAN, COMPLEX B-10 !
F-A , F1.20 C 16-fW-2001/01-PR-2 SPRING CAN B-07 ! i 3 F-A. F1.20 C l16-FW-2001/03-PR-1 SPRING CAN B-07 j F-A F1.20 I C l16*FW-2001/06-PR-Al CONSTANT LOAD B-07 i F-A 96 F1.20 C 16-FW-2001/07-PR SPRING CAN B-07 l l F-A F1.20 C 16-FW-2002/02-PR-2 SPRING CAN B-08 l { F-A F1.20 C 16-FW-2002/07-PR-1 SPRING CAN B-08 F-A F1.20 C 16-FW-2002/10-PR CONSTANT LOAD B-08 i F-A F1.20 C 28-MS-2001/06-PR-1 CONSTANT LOAD B-03 f i
- ^
i R3 September 1, 1995 Page 137 of 280 !
_ . __m. _ - .. - _ _ _ - . . _ . . _ _ _ _ _ _ _ . _ _ ~ . . _ .m. __ _ _ _ _ _ = , i 1 i
- CLASS 2 >
1 CLASS 2 COMPONENTS AND SUPPORTS l REV.1 ! l l e CATEGORY 3RD INT ITEMS TYPE COMPONENT DESCRIPTION l ISO # i I 2 F-A l F1.20 l C 28-MS-2001/08-FR-2 CONSTANT LOAD B-03 ] F-A l F1.20 i C- 28-MS-2001/10-PR-1 SPRING CAN B-03 l F-A F1.20 i C 128-MS-2001/12-PR-1 SPRING CAN B-04 l F-A l F1.20 I C l28-MS-2001/15-PR-3A SPRING CAN l B-04 F-A , 99 F1.20 l C '28-MS-2002/06-PR-1 CONSTANT LOAD B-05 , F-A l F1.20 i C 28-MS-2002/08-PR-2 CONSTANT LOAD B-05 i F-A F1.20 i C 28-MS-2002/10-PR-1 SPRING CAN B-05 ' l B-06 F-A F1.20 i C 28-MS-2002/12-PR-1 SPRING CAN T-A F1.20 i C 4-CH-11/06-PR SPRING CAN, COMPLEX B-74 5 F-A F1.20 ! C 4-CH-11/10-PR SPRING CAN, SNUBBER B-74 F-A 98 l F1.20 ' C 14-CH-11/22-PR SPRING CAN, COMPLEX B-74 F-A I
! F1.20 i C I4-CH-11/27-PR SPRING CAN, 3NUBBER B-74 .,
- F-A F1.20 C ! 4 -CH- 12 /12 - PR SPRING CAN, CO L.EX l B-75 l F-A 01 F1.20 C .6-AC-2001/02-PR ITRUNNION, SPRING CAN l B-48 ,
F-A ' F1.20 C ti-H PS I-2 001/ 08 - PR ' SPRIT!G CAN COMPLEX B-41 (' f < F-A > F1.20 C 6-HPSI-2002/17-PR :SPRI!!G CAN COMPLEX B-40 , _ F- A F1.20 C 6-HPSI-2003/11-PR iSPRING CAN COMPLEX l B-40 ( F-A i F1.20 C !6-LPH-2014/11-PR-2 !SPRINGCAN l B-34 !
^
F-A > F1.20 C 3 6-LPH-2022/3C-PR !3-BOLT, SPRING CAN i B-31 ; F-A f F1.20 C 6-SI-2012/02-PP-2 SPRING CAN, U-BOLT i B-33 F-A F1.20 C '6-SI-2004/11-FR iSPRING CAN, U-BOLT I B-32 F-A F1.20 C 'e-AC-2002/24-FR : SPRING CAN, ROD & CLEVIS ' B-53 F-A F1.20 C 8-AC-2003/12-PR iSPRING CAN, RCD & CLEVIS B-54 F-A i F1 ;0 C '8-AC-2004/11-FR ; SPRING CAN, RCD & CLEVIS i B-55 F-A ! I F1.20 . C !8-CSS-2001/03-PR-3 SPRING CAN/ ROD & CLEV B-27 ! F-A F1.20 l C i 8-CSS-2001/ 0 5-P R- 3 SPRING CAN/ ROD & CLEV B-26 5 F-A F1.20 l C 8-CSS-2001/06-PR SPRING CAN COMPLEX B-26 f F-A F1.20 l C 8-CSS-2002/05-PR SPRING CAN COMPLEX B-27 j F-A 98 F1.20 C 8-CSS-2003/02-PR-2 SPRING CAN, 3-BOLT B-28 [ F-A F1.20 C 8-CSS-2003/03-PR SPRING C5N CF.4PLh,X B-28 F-A 90 F1.20 C 8-HPSI-2001/02-PR-3 H R1.1 9AN, ROD & CLEVIS B-40 I F-A F1.20 ! C 8-LPSI-2001/06-PR SPRING CAN COMPLEX B-29 F-A F1.20 l C 8-LPSI-2001/08-PR-2 SPRING CAN, ROD & CLEVIS B-29 F-A 01 F1.20 h C 8-LPSI-2002/10-PR-4 TRAPEZC, DUAL SPRING l B-30 F-A P1.40 l B CSS-SI-3A-1 PUMP SUPPORT ASSEMBLY B-47 F-A F1.40 I B CSS-SI-3A-2 PUMP SUPPORT ASSEMBLY B-47 F-A F1.49 l B CSS-SI-3B-1 PUMP SUPPORT ASSEMBLY l B-47 F-A F1.40 i B CSS-SI-3B-2 . PUMP SUPPORT ASSEMBLY I B-47 F-A 01 F1.40 I B l CSS-SI-3C-1 IPUMP SUPPORT ASSEMBLY B-47 F-A l 01 1 F1.40 B ! CSS-SI-3C-2 lPUMPSUPPORTASSEMBLY , B-47 F-A i F1.40 ' B {LPSI-SI-1A-1 l PUMP SUPPORT ASSEMBLY B-47 F-A t
! F1.40 , B ILPSI-SI-1A-2 IPUMF SUPPORT ASSEMBLY B-47 F-A 01 Flc40 B LPSI-SI-18-1 lPUMPSUPPORTASSEMBLY B-47 F-A 01 F1.40 B iLPSI-SI-1B-2 IPUMP SUPPORT ASSEMBLY B-47 R3 September.1. 1995 Page 138 of 280
CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) I REV.1 l
~
l l l ! CATEGORY 3RD INT l ITEM # TYPE' COMPONENT I DESCRIPTION IISO# l l l D-A ! 98 D1.20 A 4-FW-4/PS-FWH-209-1 WELDED SADDLE I C-10 D-A } 98 D1.20 A 4 - FW- 4 / PS- FWH -210- 1 WELDED SADDLE l C-10 D-A l 95 D1.20 A 4-FW-6/PS-FWH-223-1 l LUG WELDS l C-12 D-A i 96 D1.20 l B 4-FW-9B/PS-FWH-221-1 l TRUNNION WELD i C-17 D-A 01 D1.20 B 8-FW-1/PR-FWS-54-1 ILUG WELDS C-18 D-A 01 D1.30 S 4-FW-6/PR-FWS-65-1 ! WELDED SADDLE (SNUBBERI C-12 D-A l 01 DI.40 C 4-FW-4/PS-FWH-205-1 LUG WELDS lC-09 D-A I 01 D1.40 C 4-FW-4/PS-FWH-213-1 WELDED SPRING CAN l C-10 D-B ! 99 ! D2.20 l A 10-AC-1B/PS-ACH-4-1 S"' RUT WELD _C-38 D-B ! 99 I D2.20 l A 10-AC-4B/PR-ACS-81A-1 LUG WELDS C-50 D-B ! 99 { D2.20 i A l12-RW-1/PS-RWH-3-1 . WELDED PLATE C-24 D-B i 01 l D2.20 i A I14-RW-10/RWS-22A-1 l LUG WELDS l C-56 D-B 99 D2.20 I A !14-RW-1/PR-RWS-50A-1 ! LUG WELDS C-19 D-B ! 01 D2.20 i A 16-AC-1/PP-ACS-161-1 WELDED SADDLE C-36 D-B 99 D2.20 ! A !16-RW-11/17-FR-VT1 !WELDEC FLATE :-58 D-B 01 D2.20 ! A 116-RW-12/RWH-4-1 : WELDED FLATE C-57 D-B 99 D2.20 i A i16-RW-1/PS-RWH-9-1 l TRUNNION WELD > C-19 J-B 49 D2.20 i A !16-RW-1/PS-RWS-109A-1 l LUG WELDS C-19 D-h 99 D2.20 A H-AC-:B-/PR-ACS-29A-1 ILUG WELDS C-44 D-B 01 D2.20 A 18-AC- B-/PR-ACS-31-1 LUG WELCS C-45 D-B 99 D2.20 i B 10-AC-1A/PS-ACH-2-1 -LUG WELDS C-38 D-B 99 D2.20 B .10-AC-AA/PS-ACH-3-1 TRUt1NION WELD C-38 D-B 9) D2.20 B '10-AC-3B/PS-ACH-10-1 TRUNNION WELD C-49 D-B i 99 D2.20 i B !12-AC-1/PS-ACH-1-1 iTRUNNION WELD C-37 D-B l 99 i D2.20 l B l 12 - AC-2 / PR- ACS - 32 6- 1 ! LUG WELDS IC-39 D-B l 99 D2.20 l B l12 - AC- 2 / PR- ACS-7 6-1 lWELDEDSADDLE C-39 ' D-B I 99 D2.20 l B 12-AC-4/PS-ACS-335-1 fWELDEDSADDLE C-44 D-B I 99 D2.20 B 12-RW-10/05-PR-1-VT1 TRUNNION WELD C-62 D-B 99 D2.20 B 12-RW-10/05-PR-VT1 TRUNNION WELD C-62 D-B 99 D2.20 B 12-RW-1/PS-RWH-1-1 LUG WELDS l C-24 D-B 99 D2.20 B 12-RW-1/PS-RWH-2-1 ' LUG WELDS I C-24 D-B 99 D2.20 B l12-RW-2A/PR-RWS-106-1 lLUGWELDS i C-28 D-B 99 . D2.20 l B '12-RW-2B/PS-RWH-16-1 lTRUNNIONWELD i C-28 D-B 01 I D2.20 B 12-RW-3/PR-RWH-39/RWS-31-1 IFEDESTAL WELD l C-25 D-B 96 ! D2.20 B 14-AC-2/PR-ACS-67A-1 l LUG WELDS I C-40 D-L 96 D2.20 B 14-AC-3A/PS-ACH-16-1 iTRUNNION WELD lC-40 D-B 96 D2.20 B 14-AC-3B/PS-ACH-17-1 l TRUNNION WELD i C-40 D-B ! 99 D2.20 B 14-RW-2/PR-RWH-32-1 ! PEDESTAL WELD ' C-26 D-B l 99 D2.20 B l 14 - R W- 2 / PR- RWH- 3 4 - 1 . LUG WELCS C-26 D-B i 99 l D2.20 B I14-RW-2/PR-RWS-132-1 LUG WELDS C-26 D-B 99 ! D2.20 l B 114-FW-2/PR-RWS-38-1 TRUNNION WELD lC-26 D-B 01 ! D2.20 i B '16-AC-1/FR-ACS-163-1 ' WELDED SADDLE lC-36 D-B 99 D2.20 B i16-AC-2/PR-ACS-56A-1 ! LUG WELDS IC-37 D-B 96 D2.20 B 16-AC-3/PS-ACH-464-1 l LUG WELDS lC-40 D-B 01 i D2.20 8 16-AC-4/PR-ACS-156A-1 lLUGWELDS C-43 D-B I 01 D2.20 B 16-RW-10/19-PR-VT1 } TRUNNION WELD C-61 D-B 01 D2.20 B 16-RW-11/04-PR-VT1 !TRUNNIONWELD lC-58 D-B 99 D2.20 B 16-RW-14/FS-RWS-25/H-31-1 lLUGWELDS C-25 D-B 01 D2.20 B 16-RW-2/PS-RWH-47-1 lLUGWELDS C-22 D-R 01 D2.20 B 20-RW-1/PS-RWS-118-1 IBOX WELDED I C-23 R3 September 1, 1995 Page 139 of 280
CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) ! REV.1 i i i i I CATEGORYf 3RD INT I ITEM # l TYPE l COMPONENT DESCRIPTION ! ISO #
! l !
D-B l 01 D2.20 B 20-RW-1/PS-RWS-119-1 LUG WELDS l C-23 D-B l 01 D2.20 B 20-RW-3/PA-RWH-41-1 PEDESTAL WELD I C-25 D-B l 01 l D2.20 1 B l20-RW-3/PR-RWH-42-1 l PEDESTAL WELD i C-25 D-B l 01 l D2.20 ! B i20-RW-3/PS-RWH-36-1 l PEDESTAL WELD l C-25 D-B 01 l D2.20 l B 20-RW-3/PS-PWH-37-1 lPEDESTALWELD !C-25 D-B 01 l D2.20 i B 20-PW-3/PS-RWH-38-1 PEDESTAL WELD l C-25 D-B ,l 01 !, D2.20 i. B 20-RW-3/PS-FWH-40-1 PEDESTAL WELD i C-25 D-B ! 01 l D2.20 l B 20-RW-3/PS-RWH-43-3 PEDESTAL WELD I C-25 D-B i 01 l D2.20 l B l 2 0- RW- 3 / PS-RWS - 13 0- 1 LUG WELDS C-25 D-B i 01 i D2.20 1 B l20-RW-4/PR-RWS-36-1 LUG WELD C-26 D-B i 01 I D2.20 l B [20-RU-5/PS-RWH-26-1 PEDESTAL, WELD C-27 D-B i 96 i D2.20 l B j6-AC-2/PS-ACS-59-1 TRUNNION WELD C-37 ' D-B 01 D2.20 j B i8-AC-1A/PR-ACS-19A-1 ! LUG WELDS C3 D-B 01 D2.20 B 9-AC-28-/PR-ACS-30-1 WELDED SADDLE C-45 D-B 96 i D2.20 ! B l8-AC-2/PS-ACH-26-1 lTRONNICN MELD C-39 D-B 96 D2.30 i S i16-AC-10/PR-ACS-386-1 ! LUG WELDS (SNUBBER) C-36 0-B 46 D2.30 ' S !8-AC-1/PR-ACS-18-1 ! WELDED SADDLE (SNUBBER) i C-39 D-B 01 D2.40 d j l6-PW-10/01-PR-VT1 ; WELDED PLATE I C-61 t' - B 46 D2.40 " r-AC-5/PS-ACH-34-1 l TRUNNION WELD C-32 D-B 96 D2.40 C '6-AC-6/PS-ACH-37-1 TRUNNION WELD C-33 __,F-A 45 F1.30 A i10-AC-1A/PS-ACS-356 ' STRUT,3-BOLT C-38 F-A F1.30 A 10-AC-1B/PS-ACH-4 ; STRUT, WELLED C-38 F-A I 98 F1.30 A *10-AC-4A/PR-ACS-83 ' STRUT,3-BOLT C-50 F-A l ! F1.30 ! A i10-AC-4B/PR-ACS-81A ! STRUT, 3-BOLT, T/B, LUGS ( C-50 F-A l F1.30 i A i10-AC-4B/PS-ACH-42 1/2 BOX l C-50 F-A l F1.30 l A Il0-AC-4B/PS-ACH-43 ANGLE C-50 F-A F1.30 l A 12-AC-1/PR-ACS-63 STRUTS,3-BOLT C-37 F-A F1.30 A 12-AC-4/PR-ACH-32 I-BEAM,2 GANG,C-39 H-31 C-44 F-A I F1.30 A 12-AC-4/PR-ACS-335A PLATE,3-BOLT C-44 F-A I F1.30 A 12-AC-4/PS-ACH-467 I-BEAM C-44 F-A !95RI98 F1.30 A '12-RW-1/PR-RWS-124 { STRUT,3-BOLT C-24 F-A l F1.30 A 12-RW-1/PS-RWH-3 WELDED PLATE, STRUT C-24 F-A ! F1.30 l A 12-RW-2A/PR-RWS-105 STRUT,3-BOLT, TURNBUCKLE C-28 F-A j F1.30 l A l12 -RW-2 A/ PS-PWH-17 ROD & CLEVIS C-28 l F-A l F1.30 A 12-PW-2B/PR-RWS-107 STRUT,3-BOLT, TURNBUCKLE C-28 l ISTRUT,3-BOLT, TURNBUCKLE l F-A i F1.30 A 12-RW-2B/PR-RWS-108 C-28 i F-A F1.30 A 12-RW-2B/PS-RWS-107A l PLATE,3-BOLT I C-28 F-A F1.30 l A 14-AC-1A/PR-ACH-23 ! ROD & CLEVIS i C-19 F-A l F1.30 l A 14-AC-1A/PR-ACS-77 ! STRUT,3-BOLT,TUPUBUCFLE C-19 F-A ' ' F1.30 A ;14-AC-1B/PR-ACS-78A ! STRUT,3-BOLT,TURNBUCVLE j C-19 F-A . TRAPEZE, STRUT C-19 F1.30 i A l14-AC-1B/PS-ACH-21 F-A F1.30 ! A jl4-AC-2/PS-RWH-5 STRUT,3-BOLT C-40 F-A F1.30 l A 14-AC-3A/PR-ACS-69 ! STRUT,3-BOLT C-40 l F-A F1.30 I A '14-AC-3A/PR-ACS-73 l STRUT,3-BOLT, TURNBUCKLE C-40 F-A *
! F1.30 i A 14-AC-3A/PS-ACH-19 l ROD & CLEVIS C-40 F-A i F1.30 A 14-AC-3A/PS-ACH-461 l PLATE,3-BOLT C-40 F-A F1.30 A 14-AC-4/PR-ACS-389 l TRAPEZE, U-BOLT, DUAL STRUT C-43 F-A F1.30 A 14-RW-10/09-PR lDUALSTRUT,TURNBJCKLE C-56 i F-A F1.30 A 14-RW-10/09-PR-1 lR00 & CLEVIS lC-56 !
F-A F1.30 A 14-RW-10/13-PR l STRUT , 3 - BOLT , '/URNBKLE , LUGS lC-56 I R3 September 1, 1995 Page 140 of 280
CLASS 3 CLASS 3 INTEGRAL ATTAC9MENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 i l CATEGORY 3RDINT l ITEM # 1 TYPE COMPONENT DESCRIPTION ISO # I F-A l F1.30 A 14-PW-10/13-PR-1 ROD & CLEVIS C-56 F-A ! F1.30 A 14-FW-10/13-PR-2 STRUT,3-BOLT, TURNBUCKLE C-56 F-A j l F1.30 A 14-PW-10/13-PR-3 STRUT,3-BOLT C-56 F-A ! l F1.30 A 14-RW-1/PR-RWS-50A STRUT, 3-BOLT, T/B, LUGS C-19 F-A I I F1.30 A 14-RW-1/PS-RWH-10 ROD & CLEVIS C-19 F-A l 95ADDL F1.30 A 14-RW-2/PS-RWS-120 STRUT,3-BOLT, TURNBUCKLE C-26 F-A l 98 F1.30 A 14-RW-2/PS-RWS-26 PLATE,3-BOLT l C-26 F-A l 95 l F1.30 A 16-AC-10/PS-ACH-384 ROD & CLEVIS C-34 P-A ! l F1.30 A 16-AC-1/PR-ACH-7 1/2 BOX C-37 F-A ! l F1.30 A l16-AC-1/PR-ACS-161 STRUT, WELDED SADDLE C-36 ' F-A I i F1.30 l A l16-AC-1/PR-ACS-162 STRUT,3-BOLT C-36 F-A ' F1.30 l A l16-AC-1/PR-ACS-164 _ GANG, STRUT,3-BOLT (2-PIPES) C-36 P-A F1.30 i A l16-AC-1/PR-ACS-60 ISTRUT,3-BOLT,TURNBUCMLE ! C-37 F-A F1.30 I A 16-AC-1/PR-ACS-61 l STRUT,3-BOLT, TURNBUCKLE C-36 F-A F1.30 1 A r16-AC-1/PS-ACH-236 : STRUT,3-BOLT. GANG (2-PIPES) C-36 F-A F1.30 l A !16-AC-1/PS-ACH-237 jROD & CLEVIS C-36 F-A F1.30 i A l16-AC-1/PS-ACH-238 IROD & CLEVIS C-36 F-A F1.30 l A !16-AC-1/PS-ACH-239 l STRUT,3-BOLT l C-36 F-A F1.30 i A 116-AC-1/PS-ACH-240 ' ROD,3-BOLT I C-36 F _...-A F1.30 ! A 16-AC-2/PR-ACS-56 ' STRUT, 3 -BOLT, TURNBUCELE l C-37 F-A F1.30 A !16-AC-2/PS-ACH-5 ! ROD & CLEVIS l C-37 F-A F1.30 A AC-3/PR-ACS-357 . PLATE,3-BOLT
- C-40 F-A F1.30 A l16-AC-3/PS-ACH-6 'STPUT,3-BOLT lC-40 F-A F1.30 A 16-AC-4/PR-ACS-155 l STRUT,3-BOLT,2 GANG (C-36) i C-43 F-A i 96 i F1.30 A 16-AC-4/PR-ACS-158 TRAPEZE,U-BOLT, DUAL STRUT i C-41
_ F-A F1.30 A 16-AC-4/PR-ACS-159 STRUT,3-BOLT,TURNEUCKLE C-41 E-A F1.30 A 16-AC-4/PR-ACS-79 TRAPEZE,U-BOLT, DUAL STRUT & T/B C-41 F-A F1.30 A 16-AC-4/PS-ACH-229 STRUT,3-BOLT C-36 #236 C-43 ] F-A F1.30 A 16-AC-4/PS-ACH-230 ROD & CLEVIS C-43 F-A F1.30 A 16-AC-4/PS-ACH-231 ROD & CLEVIS C-43 I F-A F1.30 A 16-AC-4/PS-ACH-232 ROD & CLEVIS C-43 F-A _ F1.30 A 16-AC-4/PS-ACH-233 ROD & CLEVIS C-41 3 F-A 1 F1.30 A 16-AC-4/PS-ACH-234 STRUT,3-BOLT C-41 1 F-A 96 l F1.30 A 16-AC-4/PS-ACH-235 STRUT,3-BOLT C-41 F-A I F1.30 A 16-AC-4/PS-ACH-24 PLATE,3-BOLT C-41 F-A F1.30 l A 16-AC-6/PR-ACH-246 TRAPEZE, DUAL STRUT,U-BOLT C-47 F-A F1.30 l A 16-AC-6/PR-ACS-378 STRUT,3-BOLT C-48 I F-A F1.30 l A 16-AC-6/PR-ACS-84 STRUT,3-BOLT,TURNBUCVLE C-4R F-A i F1.30 l A 116-AC-6/PR-ACS-84A ' STRUT,3-BOLT,TURNBUCFLE C-48 F-A I i F1.30 i A !16-AC-6/PS-ACH-244 l STRUT,3-BOLT C-47 F-A , F1.30 l A l16-AC-6/PS-ACH-245 (TRAPEZE,U-BOLT, DUAL ROD C-47 F-A F1.30 i A !16-AC-6/PS-ACH-451 iROD,3-BOLT, TURNBUCKLE C-47 j F-A F1.30 A 116-AC-6/PS-ACH-452 TRAPEZE, SADDLE C-48 F-A F1.30 i A l16-AC-6/PS-ACH-8 STRUT,3-BOLT C-48 F-A F1.30 A l16-AC-6/PS-ACH-9 STRUT,3-BOLT C-48 F-A i F1.30 A I 16-AC-6/PS-ACS-168 l STRUT,3-BOLT,2 GANG _ C-47 F-A I l F1.30 A 16-RW-10/05-PR l THREADED ROD W/3-BOLT C-61 F-A F1.30 A 16-RW-10/05-PR-1 TRAPEZE C-61 F-A F1.30 A 16-RW-10/16-PR , ROD, 3-BOLT C-61 F-A 01 F1.30 A 16-RW-10/22-PR-1 ITHREADED ROD, 3-BOLT C-61 , R3 September 1, 1995 Page 141 of 280
4 CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 I I l CATEGORY l 3RD INT ITEM # l TYPE i COMPONENT DESCRIPTION ISO # I F-A F1.30 A 16-RW-11/06-PR ROD & CLEVIS C-58 F-A F1.30 A 16-RW-11/06-PR-1 STRUT,3-BOLT C-58 F-A F1.30 A 16-RW-11/08-FR RIGID STRUT W/U-BOLT C-58 F-A F1.30 A 16-RW-11/08-FR-1 ROD & CLEVIS C-58 4 F-A F1.30 A 16-RW-11/10-PR ROD & CLEVIS C-58 F-A F1.30 A 6-RW-11/10-PR-2 l ROD & CLEVIS C-58 F-A F1.30 A 16-RW-11/14-PR STRUT W/ TURNBUCKLE,3-BOLT C-58 f F-A F1.30 A 16-RW-11/14-PR-1 TRAPEZE W/U-BOLT C-58 F-A i F1.30 l A 16-RW-11/14-PR-2 STRUT W/ TURNBUCKLE,3-BOLT C-58
! F-A ( F1.30 l A l 16-B W- 11/17- PR ROD W/ WELDED LUG C-58 F-A l F1.30 l A l16-RW-12/06-FR l PLATE,3-BOLT C-57 F-A I F1.30 ! A I16-RW-12/06 s s-1 l TRAPEZE,U-BOLT, DUAL STRUT C-57 F-A 1 F1.30 t A ,16-RW-12/08-PR STRUT,3-BOLT, TURNBUCKLE ! C-57 F-A ! F1.30 l A I16-RW-12/09-FP WELDED PLATE, ROD i C-57 F-A ! F1.30 ! A i16-PW-12/12-FP ' POD & CLEVIS C-57 F-A 01 F1.30 t A 16-RW-12/12-PR-1 1 STRUT, 3-BOLT C-57 F-A F1.30 I A l16-RW-12/14-PR l STRUT,3-BOLT, TURNBUCKLE !C-57 F-A I F1.30 I A I16-RW-1/PR-PWS-109 lSTRUT,3-BOLT, TURNBUCKLE lC-19 F-A '
F1.30 > A ,16-PW-1/PS-PWH G : RIGID SUPPORT, WELD !C-19 F-A F1.30 ' A 16-RW-1/PS-PWS-109A STRUT, 3-BOLT, T/B, LUGS I C-19 F-A F1.30 A : 16-RW -2 / PR-F WS- 12 3 A STRUT,3-BOLT lC-22 F-A F1.30 A 16-FW-2/PP-PWS-31 PLATE,3-BOLT !C-22 F-A F1.30 A 16-FW-2/PP-PWS-52 STRUT,3-BGLT, TURNBUCKLE i C-22 ' : STRUT, 3-BOLT, TURNBUCKLE F-A l F1.30 A l16-RW-2 / PR-RWS-7 5A C-21 F-A l l F1.30 l A 16-RW-2/PR-PWS-76A jSTRUT,3-BOLT, TURNBUCKLE C-21 F-A l F1.30 l A 16-RW-2/PR-RWS-79A l STRUT,3-BOLT, TURNBUCKLE C-21 F-A F1.30 A 16-RW-2/PS-RWH-107 STRUT,3-BOLT C-21 F-A F1.30 A 16-RW-2/PS-RWH-109 ROD & CLEVIS C-21 F-A F1.30 l A 16-RW-2/PS-RWH-110 STRUT, 3-BOLT C-21 F-A F1.30 A 16-RW-2/PS-RWS-52A PLATE,3-BOLT C-22 F-A 95 F1.30 A 1.5-FW-1/PR-FWSP-20 STRUT, 3-BOLT C-01 F-A F1.30 A 1.5-FW-2/PS-FWSP-31 STRUT,3-BOLT C-16 F-A F1.30 A 1.5-FW-2/PS-MSSP-3A l ROD &CLEVIS C-15 F-A F1.30 A 20-RW-1/PR-RWH-140 ISTRUT,3-BOLT C-23 F-A l 01 F1.30 } A 20-RW-1/PR-RWH-69B l PLATE,3-BOLT C-23 F-A F1.30 l A 20-RW-1/PR-RWS-46 l STRUTS , 3-BOLT, TURNBUCKLE C-23 F-A 01 F1.30 l A 20-RW-1/PS-RWH-139 l STRUTS,FBOLT l C-23 F-A F1.30 I A 20-RW-1/PS-RWH-44 iROD,3-BOLT i C-23 F-A 01 F1.30 l A I20-RW-1/PS-RWH-64 : PEDESTAL,I-BEAM i C-23 F-A I F1.30 A I20-RW-1/PS-RWH-65 ! PEDESTAL,0-BEAM C-23 F-A I F1.30 A !20-PW-1/PS-RWH-70 PEDESTAL, DUAL STRUT C-23 F-A I I F1.30 I A do-PW-1/PS-PWS-44A iSTRUT,U-BOLT, TURNBUCKLE C-23 F-A i F1.30 A ; 2 0- PW- 1/ PS - RWS-4 7 STRUT,3-BOLT, TURNBUCKLE C-23 F-A i F1.30 I A 20-RW-3/PR-RWS-28 STRUT,3-BOLT C-25 F-A f F1.30 A l20-RW-3/PR-RWS-29 STRUT,3-BOLT C-25 F-A F1.30 A I20-RW-3/PR-RWS-30 l STRUT , 3-BOLT C-25 F-A F1.30 A l20-RW-3/PR-RWS-32 ' STRUT,3-BOLT C-25 F-A F1.30 A j20-RW-3/PR-RWS-33 STRUT,3-BOLT C-25 F-A F1.30 A l20-RW-3/PR-RWS-35 STRUT,3-BOLT C-25 F-A F1.30 A l20-RW-3/PS-RWH-141 PEDESTAL C-25 R3 September 1. 1995 Page 142 of 280
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CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #. COMPONENT) i REV.1 ; I I I , CATEGORY 3RD INT I ITEM # ITYPEj COMPONENT DESCRIPTION ' ISO # l i i - i F-A l l F1.30 l A l20-RW-3/PS-RWH-142 l PEDESTAL i C-25 F-A l F1.30 l A l20-PW-3/PS-RWH-35 l STRUT,3-BOLT lC-25 F-A F1.30 l A !20-RW-3/PS-RWS-27 STRUT,3-BOLT, TURNBUCKLE C-25 F-A F1.30 f A !20-RW-3/PS-RWS-34 STRUT,3-BOLT
- C-25 F-A F1.30 l A l20-RW-4/PR-RWS-41 TRAPEZE, U-BOLT, STRUTS ! C-27 F-A F1.30 l A 120-RW-4/PR-RWS-42 _ TRAPEZE, U-BOLT, STRUTS i C-27 F-A ,
01 F1.30 i A i20-RW-5/PR-RWS-39 ITRAPEZE, U-BOLT. STRUTS C-27 F-A l95ADDL F1.30 l A l20-RW-f / PS-RWH-14 3 l STRUT, 3-BOLT l C-27 F-A l95ADDLI F1.30 . A !20-RW-5/PS-RWH-23 ISTRUT,3-BOLT , C-27 F-A 01 i F1.30 i A I20-RW-5/PS-RWH-24 TRAPEZE, ROD & CLEVIS l C-27 F-A i i F1.30 i A +20-RW-5/PS-RWH-25 TRAPEZE, ROD & CLEVIS l C-27 F-A I F1.30 A 20-RW-5/PS-RWH-27 IROD,3-BOLT lC-27 F-A F1.30 A :-FW-3/PS-FWSP-03 ; ROD & CLEVIS C-06 F-A F1.. A 2-FW-3/PS-FWSP-03A . ROD & CLEVIS C-06 F-A , F1.30 A 2-FW-3/PS-FWSP;34 + ROD s CLEVIS -06 F-A F1.30 A :2-FW-3/PS-FWSP-05 ' ROD & CLEVIS C-06 F-A F1.30 A 2-FW-3/PS-FWSP-06 jROD & CLEVIS l C-06 F-A i F1.30 A 2 - FW- 3 / PS - FWS P- 07 ' ROD & CLEVIS I C-06 F-A F1.30 A 2-MS-4/13-PR iSTRUT, 3-BOLT C-55 0 F-Is F1.30 A 2-MS-4/17-FR STRUT, 3-BOLT C-55 F-A F1.30 A 2-MS-4/21-PR-1 ' STRUT, 3-BOLT C-55 l F-A F1.30 A 2-MS-4/23-FR STRUT, 3-BOLT C-55 F-A F1.30 A 2-MS-4/23-PR-1 ' STRUT, 3-BOLT C-55 F-A ! F1.30 A 2-MS-4/25-PR ! PLATE. 3-BOLT i C-b5 F-A l F1.30 l A 12-MS-4/25-PR-1 ISTRUT, 3-BOLT C-55 F-A l F1.30 l A l2-MS-4/27-PR l STRUT, 3-BOLT C-55 F-A l F1.30 l A !2-MS-4/31-PR STRUT, 3-BOLT C-55 F-A l F1.30 l A l2-MS-4 /4 3-PR-1 STRUT, 3-BOLT C-53 F-A F1.30 A !2-MS-4/47-PR ROD & CLEVIS C-53 F-A F1.30 A 2-MS-4/47-PR-3 ROD & CLEVIS C-53 F-A F1.30 l A 2-MS-4/49-PR-2 ROD, 3-BOLT l C-53 F-A F1.30 l A 2-MS-5/15-PR STRUT, 3-BOLT lC-54 F-A I F1.30 l A l2-MS-5/15-PR-1 STRUT, 3-BOLT C-54 i F-A F1.30 l A l2-MS-5/17-PR l STRUT, 3-BOLT C-54 F-A , F1.30 i A .l 2 -MS- 5 / 2 7 - PR- 2 l ANGLE, U-BOLT l C-54
- F-A l l F1.30 A l2-MS-5/27-PR-3 l ROD & CLEVIS I C-54 F-A I l F1.30 A l 2 -MS - 5 /2 9- PR- 1 ! ROD & CLEVIS I C-54 F-A l l F1.30 A l 2-MS - 5 / 2 9- PR- 2 ! ROD & CLEVIS C-54 F-A f 01 !F1.30 i A l2-MS-5/33-PR-1 STRUT, 3-BOLT C-54 F-A ! l F1.30 ! A ;2-MS-5/55-PR iSTRUT, 3-BOLT C-53 F-A F1.30 i A 2-MS-5/55-PR-1 + STRUT, 3-BOLT C-53 F-A '
F1.30 j A ;3-FW-1/PS-FWH-147 iROD,3-BOLT C-14 F-A F1.30 A 3-FW-1/PS-FWH-148 { ROD,3-BOLT, TURNBUCKLE C-14 F-A F1.30 I A j3-FM-1/PS-FWH-226 TRAPEZE, ROD C-14 i F-A 6 F1.30 A i3-FW-2/PS-FWH-149 ROD,3-BOLT C-14 F-A l 01 F1.30 A 3-FW-2/PS-FWS-116 ! STRUT, SADDLE CLAMP C-14 F-A F1.30 A 3-FW-3/PR-FWH-145 l ROD,3-BOLT, TURNBUCKLE C-13 F-A F1.30 A 3-FW-3/PS-FWH-143 IROD, 3-BOLT C-13 F-A F1.30 A 3-FW-3/PS-FWH-144 ! ROD, 3-BOLT C-13 F-A F1.30 A 3-FW-3/PS-FWS-117 ISTRUT, SADDLE CLAMP C-13 R3 September 1. 1995 Page 143 of 280
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CLASS 3 4 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) j REV.1 l l I l l CATEGORYI 3RD INT l ITEM # l TYPE i COMPONENT DESCRIPTION I ISO # i I I i ! F-A i fF1.30 l A i4-FW-2B/PS-FWS-30A STRUT,3-BOLT l C-08 F-A F1.30 l A I4-FW-3B/PR-FWS-86 STRUT,3-BOLT,TRNBUCKLE C-09 E-A [ F1.30 l A I 4 - FW- 4 / PS- FWH-2 07 STRUT,3-BOLT C-10 F-A l F1.30 I A i4-FW-4/PS-FWH-208 ROD,3-BOLT l C-10 F-A ! F1.30 I A I4-FW-4/PS-FWH-209 TRAPEZE. SADDLE WELD, ROD l C-10 F-A l F1.30 l A I4-FW-4/PS-FWH-210 TRAPEZE, SADDLE WELD, ROD l C-10 F-A F1.30 A I4-FW-4/PS-FWH-211 ROD,3-BOLT l C-10 l F-A ! F1.30 A !4-FW-4/PS-FWH-212 ROD,3-BOLT I C-10 F-A F1.30 l A l4-FW-5/PR-FWH-135 ANGLE,3-BOLT l C-11 F-A i i F1.30 i A !4-FW-5/PR-FWS-120 STRUT,3-BOLT C-11 F-A I F1.30 { A !4-FW-5/PS-FWH-133 ANGLE,3-BOLT C-11 F-A i F1.30 ' A I4-FW-5/PS-FWH-134 l ANGLE,3-BOLT C-11 F-A F1.30 A '4-FW-5/PS-FWH-137 ! PEDESTAL,3-BOLT ' C-11 F-A 01 F1.30 A 4-FW-e/FS-FWH-130 ' ROD,3-BOLT. TURNBUCKLE C-12 F-A F1.30 ' A 4-FW-f/PS-FWH-131 ROD,3-BOLT C-12 F-A ' F1.30 i A 14-FW-6/PS-FWH-132 ! ROD,3-BOLT . C-12 F-A F1.30 A 4-FW-6/PS-FWH-14 ! TRAPEZE.3-BOLT, ROD 1 C-08 F-A 95 F1.30 A 4 - FW- 6 / PS- FWH- 2 2 3 iROD, BOX, LUCS I C-12 F-A F1.30 A 4-FW-6/FS-FWS-29 ISTRUT,3-BOLT,TRNBUCKLE IC-08 F-A F1.30 A 4 - FW-7 / FR- FWS 7 5 STRUT,3-BOLT,TURNEUCFLE IC-13 j F-A F1.30 A 4 - FW 7 / FS- FWH- 141 : ROD,3-BOLT i C-13
- F-A F1.30 A 4 - FW- U PS - FWH- 14 2 ROD,3-BOLT,T/B C-13 l F- A 96 F1.30 A 6-AC-1/PR-ACS-144 STRUT,3-BOLT t C-35 l F-A f F1.30 i A 6-AC-1/FR-ACS-144A iSTRUT,3-BOLT, TURNBUCKLE I C-35 F-A j F1.30 A !6-AC-1/PR-ACS-146 ! STRUT,3-BOLT, TURNBUCKLE C-35 F-A F1.30 A l6-AC-1/PR-ACS-148 ISTRUT,3-BOLT, TURNBUCKLE C-35 F-A ! F1.30 A 16-AC-1/PR-ACS-148A STRUT,3-BOLT, TURNBUCKLE C-35 F-A f F1.30 A I6-AC-1/PR-ACS-150 STRUT,3-BOLT TURNBUCKLE C-35 F-A l F1.30 A 6-AC-1/PR-ACS-178 STRUT,3-BOLT C-35 F-A [ F1.30 l A 6-AC-1/PS-ACH-228 ROD & CLEVIS C-35 a'
F-A F1.30 l A 6-AC-1/PS-ACH-255 ROD & CLEVIS C-35 F-A F1.30 l A 6-AC-1/PS-ACH-256 ROD & CLEVIS C-35 F-A F1.30 A 6-AC-1/PS-ACH-257 ROD & CLEVIS lC-35 F-A F1.30 A 6-AC-1/PS-ACH-458 ROD & CLEVIS I C-35 F-A i !F1.30 A !6-AC-1/PS-ACH-459 I-BEAM lC-35 F-A i i F1.30 A l6-AC-3/PR-ACS-143 _ STRUT,3-BOLA ;C-51 F-A I 96 F1.30 A I6-AC-3/PR-ACS-143A l STRUT,3-BOLT l C-51 F-A l F1.30 A I6-AC-3/PR-ACS-145 iSTRUT,3-BOLT, TURNBUCKLE i C-52 F-A l F1.30 l A i6-AC-3/PR-ACS-147 { STRUT,3-BOLT,TURNBUCFLE C-51 A : 6 - AC- 3 / P R - ACS - 14 9 l STRUT,3-BOLT,TURNBUCFLE C-51 F-A { l F1.30 ! F-A F1.30 A !6-AC-3/PR-ACS-180 ! STRUT,3-BOLT,TRNBUCKLE C-52 F-A 46 F1.30 i A 16-AC-3/PS-ACH-226 iTRAPEZE,U-BOLT,2-PIPES, DUAL RODS C-51 F-A F1.30 A .6-AC-3/PS-ACH-227 STRUT,3-BOLT C-52 F-A F1.30 , A 6-AC-3/PS-ACH-258 ROD & CLEVIS C-52 F-A 4 F1.30 i A 6-AC-3/PS-ACH-259 ROD & CLEVIS C-52 F-A ! F1.30 A 6-AC-3/PS-ACH-260 ROD & CLEVIS C-52 F-A F1.30 A 6-AC-3/PS-ACH-267 l ROD,3-BOLT C-51 l F-A F1.30 A 6-AC-5/PR-ACS-317 l STRUT.3-BOLT, TURNBUCKLE C-32 F-A F1.30 A 6-AC-5/PR-ACS-318 l STRUT,3-BOLT, TURNBUCKLE C-32 F-A F1.30 A 6-AC-5/PR-ACS-319 l STRUT,3-BOLT C-32 R3 September 1. 1995 Page 144 of 280 i
CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 I l i CATEGORY 3RD INT I ITEM # TYPE l COMPONENT DESCRIPTION ISO #
! i l F-A l F1.30 A l6-AC-5/PR-ACS-320 STRUT,3-BOLT C-32 F-A A l6-AC-5/PS-ACH-33 ROD & CLEVIS C-32 lF1.30 F-A l l F1.30 A {6-AC-6/PR-ACS-315 STRUT,3-BOLT, TURNBUCKLE C-33 F-A l F1.30 A 16-AC-6/PR-ACS-321 STRUT,3-BOLT C-33 F-A I F1.30 A 6-AC-6/PR-ACS-322 STRUT,3-BOLT C-33 F-A F1.30 A 6-AC-6/PS-ACH-36 ROD & CLEVIS C-33 F-A 01 F1.30 A 6-FW-1A/FR-FWS-27 STRUT,3-BOLT C-17 F-A F1.30 A !6-FW-1A/PS-FWH-12 ROD & CLEVIS,TRNBUCKLE C-17
- F-A I I F1.30 A l6-FW-1A/PS-FWH-222 STRUT,3-BOLT C-17 F-A I i F1.30 l A I6-PW-11/10-PR THREADED ROD & CLEVIS C-62 F- A ! } F1.30 l A !6-PW-11/12-PR STRUT, 3-BOLT, TURNBUCKLE C-62 _ F- A F1.30 i A 16-RW-11/12-PR-1 IROD & CLEVIS C-62 F-A F1.30 i A '6-FW-11/14-PR l STRUT, TUPNBUCKLE, 3-BOLT C-62 P-A F1.30 ' A 6-PW-11/14-PR-1 ' POD & CLEVIS C-62 F-A ' F1.30 A !6-RW-11/16-PP STRUT,3-BOLT,TURNBUCELE C-62 F-A F1.30 ! A 16-PW-11/16-PP-1 IROD & CLEVIS ! C-62 F-A F1.30 i A 8-AC-1A/PR-ACS-19 l STRUT,3-BOLT, TURNBUCKLE I C-39 i F-A F1.30 l A i8-AC-1A/FR-ACS-20 fSTRUT,3-BOLT, TURNBUCKLE !C-39 F-A F1.30 I A 8-AC-1A/PS-ACH-199 ' PLATE,3-BOLT ! C-39
- F-A F1.30 A B-AC-1A/PS-ACH-201 ROD & CLEVIS l C-39 i F-A '
F1.30 ' A 8-AC-1A/PS-ACH-463 STRUT,3-BOLT !C-39 F-A F1.30 A :8-AC-1/ES-ACH-195 STRUT,U-BOLT t C-39 F-A 98 F1.30 A 9-AC-1/PS-ACH-197 ROD & CLEVIS C-39 F-A F1.30 i A 8-AC-2A/PR-ACS-333 iSTRUT,3-BOLT, TURNBUCKLE C-44 F-A '
! F1.30 l A 18-AC-2A/PS-ACH-28 ' ROD & CLEVIS C-44 F-A F1.30 l A 8-AC-2B-/PR-ACS-29A STRUT, 3-BOLT, LUCS C-44 F-A F1.30 l A 8-AC-2B-/PR-ACS-31 STRUT, 3-BOLT, LUGS C-45 F-A 98 F1.30 A 8-AC-2B/PR-ACH-194 STRUT,U-BOLT C-44 F-A 98 F1.30 A 8-AC-2B/PR-ACS-28 STRUT,U-BOLT, TURNBUCKLE C-44 F-A E1.30 A 8-AC-28/PR-ACS-30A l PLATE,3-BOLT C-45 F-A F1.30 l A 8-AC-2B/PR-ACS-388 l STRUT, 3-BOLT C-45 F-A F1.30 A 8-AC-2B/PS-ACH-196 l TRAPEZE, U-BOLT, DUAL ROD C-44 F-A I F1.30 _ A 8-AC-2B/PS-ACH-198 l STRUT, 3-BOLT C-44 F-A I F1.30 l A l8-AC-2B/PS-ACH-200 l TRAPEZE,U-BOLT,DUALROD C-45
, F-A F1.30 i A l8-AC-2B/PS-ACH-203 l ROD & CLEVIS C-45 I F-A F1.30 l A l8-AC-28/PS-ACH-468 l STRUT,3-BOLT C-44 F-A F1.30 ! A l8-AC-2/PR-ACS-323 ISTRUT,3-BOLT,TURNBUCVLE C-39 F-A F1.30 l A 18-AC-2/PR-ACS-75 l STRUT,3-BOLT 1 C-39 F-A I ! F1.30 l A :8-FW-1/PR-FWS-108 STRUT,3-BOLT C-17 F-A ! F1.30 i A 58 -FW-1/PP-FWS-25 ' STRUT,3-BOLT.TURNBUCFLE I C-17 F-A 01 i F1.30 i A !8-FW-1/PR-FWS-59 1 STRUT,3-BOLT, TURNBUCKLE C-18 F-A i I I F1.30 } A !8-FW-1/PS-FWH-9 ! STRUT,3-BOLT C-17 F-A 98 F1.30 l 8 10-AC-1A/PS-ACH-2 RISER, LUGS C-38 F-A 98 F1.30 B i10-AC-1A/PS-ACH-3 TRUNNION C-38 F-A i
! F1.30 B 10-AC-2A/PS-ACH-46 PEDESTAL, 3/4 BOX C-38 F-A F1.30 B 10-AC-2B/PS-ACH-45 PEDESTAL, 3/4 BOX C-38 F-A F1.30 B 10-AC-3B/PS-ACH-10 TRUNNION C-49 F-A F1.30 B 10-AC-4A/PS-ACH-44 PEDESTAL,U-BOLT C-50 F- A F1.30 B Il0-AC-4B/PR-ACS-379 3/4 BOX C-50 F-A F1.30 B 110-AC-4B/PR-ACS-82 !3/4 BOX, U-BOLT C-50 R3 September 1, 1995 Page 145 of 280
CLASS 3 i CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) ! REV.1 l I i _ l ! CATEGORYI 3RD INT ITEM # TYPE l COMPONENT DESCRIPTION I ISO # I i I
~
, F-A I 98 F1.30 B 10-AC-4B/PS-ACH-41 FULL BOX !C-50 F-A ' F1.30 B 12-AC-1/PS-ACH-1 TRUNNION l C-37 F-A I F1.30 8 12-AC-2/PR-ACS-325 PLATE, U-BOLT l C-39 F-A I F1.30 B l12-AC-2/PR-ACS-326 STRUT, 3-BOLT, T/B, LUCS lC-39 F-A l F1.30 B 112-AC-2/PR-ACS-76 GANG,U-BOLT, WELDED SADDLE i C-39 F-A F1.30 B l12-AC-2/PS-ACH-31 GANG,U-BOLT, ANGLE lC-39 F-A F1.30 B 112-AC-3A/PS-ACH-370/ACS-187 PEDESTAL,U-BOLT l C-42 F-A F1.30 B l12-AC-3B/PS-ACH-369/ACS-186 PEDESTAL,U-BOLT lC-42 F-A i 96 I F1.30 B {12-AC-3C/PS-ACH-367/ACS-184 PEDESTAL,U-BOLT I C-42 F-A ! l F1.30 l B l12-AC-3C/PS-ACH-368/ACS-185 PEDESTAL,U-BOLT C-42 STRUT, SADDLE WELD C-44 F-A ! ' F1.30 l B 112-AC-4/PS-ACS-335 F-A F1.30 1 B f12-AC-5A/PS-ACH-366 { PEDESTAL,U-BOLT I C-46 F-A F1.30 B 12-AC-5B/PS-ACH-365 ! PEDESTAL,U-BOLT C-46 F- A F1.30 ' B 1 -AC-5C/PS-ACH-364 PEDESTAL,U-BOLT, SLICER 2-46 F-A F1.30 1 8 12-AC-6A/PR-ACH-11/S-81 : DUAL STRUT,3-BOLT C-49 F-A , 01 ' F1.30 ! B -L2-PW-10/05-EP l STRUT,3-BOLT, TRUNNION, TURNBUCKLE C-62 T-A ' F1.30 l D .12-PW-10/05-FP-1 l STRUT, 3-BOLT, TURNBUCKLE, TRUNNION i C-62 F-A 95ADDL6 F1.33 I B il2-PW-1/PS-RWH-1 IRISER, LUGS l C-24 F-A 95ADDL- F1.30 ' B 12-RW-1/PS-PWH-2 : RISER, LUGS C-24 F-A F1.30 B 12-RW-2A/PR-PWS-106 ! STRUT, 3-BOLT, T/B, LUGS ! C-28 F-A 98 F1.30 B 12-FW-2B/PS-FWH-16 . TRUNNION i C-28 F-A F1.30 B 14-AC-1B/PR-ACH-22 TRAPEZE,SACDLE, STRUT C-19 F-A F1.30 B 14-AC-1B/FR-ACS-76 3/4 BOX 2-19 F-A F1.30 i B :14-AC-2/PR-ACS-67A : STRUT, 3-BOLT, LUGS l C-40 F-A i l F1.30 l B 14-AC-2/PS-ACH-14 IPEDESTAL, DUAL U-BOLT C-40 F-A F1.30 l B 14-AC-2/PS-ACH-15 l PEDESTAL, DUAL U-BOLT C-40 F-A F1.30 l B 14-AC-2/PS-RWH-8 PEDESTAL, U-BOLT C-40 F-A F1.30 B 14-AC-3A/PS-ACH-16 TRUNNION C-40 F-A F1.30 B 14-AC-3B/PR-ACS-381 DUAL STRUT,3-BOLT C-40 F-A F1.30 B 14-AC-3B/PS-ACH-17 TRUNNION C-40 F-A F1.30 B 14-RW-1/PR-RWS-50 TRAPEZE,U-BOLT, STRUTS lC-19 F-A F1.30 B 14-PW-2/PR-RWH-32 PEDESTAL, WELD l C-26 F-A l 98 F1.30 B 14-RW-2/PR-RWH-34 RISER, LUGS lC-26 F-A ! F1.30 i B 114-RW-2/PR-RWS-132 LUGS, 3-BOLT C-26 F-A I 98 4 F1.30 l B 14-RW-2/PR-RWS-38 TRUNNION, CLAMP C-26 F-A i ! F1.30 l B 14-RW-2/PS-RWH-33 iPEDESTAL/ SADDLE I C-26 F-A l F1.30 I B 16-AC-10/PR-ACS-387 l STRUTS,3-BOLTS l C-36 F-A F1.30 l B 16-AC-10/PS-ACH-383 l GANG (2-PIPES),PEDSTL,U-BOLT ' C-3 4 F-A F1.30 l B I16-AC-1/PR-ACS-160 : FULL BOX C-36 ! F-A I F1.30 l B l16-AC-1/PR-ACS-163 !U-BOLT, WELDED SADDLE ! C-36 ! F-A ' t F1.30 l B ll6-AC-1/PR-ACS-383 IFULL BOX C-36 I F-A i F1.30 i B 16-AC-1/PS-ACH-241 TRAPEZE. SADDLE C-36 F-A F1.30 l B i16-AC-2/PR-ACS-56A STRUT,3-80LT, T/B, LUGS C-37 F-A l F1.30 l B 16-AC-3/PR-ACH-12/ACS-57 STRUT,3 BOLT,I-BEAM C-40 F-A I F1.30 l B 16-AC-3/PS-ACH-464 RISER, LUGS C-40 F-A I F1.30 8 16-AC-4/PR-ACS-156/156A FULL BOX, 3-BOLT, T/B, LUGS C-43 F-A F1.30 B 16-AC-4/PR-ACS-380 STRUT,U-BOLT C-41 F-A 96 F1.30 B 16-AC-5/PS-ACH-371/ACS-188 PEDESTAL,U-BOLT C-42 F-A F1.30 B 16-AC-5/PS-ACH-372 PEDESTAL,U-BOLT C-34,383 C-42 F-A F1.30 B 16-AC-6/PR-ACS-166/H-243 STRUT,3-BOLT, CONNECT TO 243 C-47 R3 September 1. 1995 Page 146 of 280
l CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) l REV.1 l I l l ! CATEGORYI 3RD INT ITEM # l TYPE COMPONENT I DESCRIPTION i ISO #
! j i l C-47 F-A I F1.30 l B 16-AC-6/PR-ACS-167 I-BEAM,U-BOLT F-A l F1.30 I B 16-AC-6/PR-ACS-377 FULL BOX hC-47 P-A I F1.30 l B 116-AC-7/PS-ACH-374/ACS-191 PEDESTAL,U-BOLT l C-31 F-A l F1.30 B !16-AC-8/PS-ACH-373/ACS-190 PEDESTAL, U-BOLT ! C-31 F-A J F1.30 B l16-AC-9A/PS-ACH-386 PEDESTAL,U-BOLT l C-34 F-A l 95 F1.30 B l16-AC-9B/PS-ACH-385 PEDESTAL,U-BOLT l C-34 F-A ! F1.30 B 16-RW-10/13-PR BOX RESTRAINT ! C-61 F-A I F1.30 B 16-RW-10/19-PR TRUNNION, SLIDER I C-61 F-A F1.30 B 16-RW-10/22-PR PEDESTAL, U-BOLT l C-61 F-A I F1.30 I B 16-RW-11/01-PR l DUAL STRUT W/3-BOLTS l C-58 F-A l F1.30 i B f16-PW-11/04-PR TRUNNION C-58 F-A 01 F1.30 ; 8 l16-RW-11/10-PR-1 ! ANGLE IRON W/U-BOLT C-58 E-A F1.30 B 16-RW-11/10-PR-3 ' ANGLE IRON W/U-BOLT t C-58 F-A i F1.30 B 16-FW-11/18-PR ' FULL BOX C-58 F-A F1.30 B RW-13/02-PR , DUAL STRUT & 3-BOLT C-60 i
l F-A f F1.30 i B '16-BW-13/06-PR l FULL BOX, PED C-60 F-A I F1.30 B 16-FW-13/06-PR-1 IPED W/U-BOLT l C-60 l F1.30 l 8 Y16-FW-13/12-PR ! TRAPEZE,U-BOLT / STRUT,3-BOLT l C-60 l
~F-A F-A F1.30 B ilt-FW-13/12-PR-1 : SLIDE PLATE /U-BOLT C-60 F-A 98 F1.30 ! B ;16-PW-14/PS-PWS-25/H-31 RISER, LUGS i C-25 F-A F1.30
- B 16-RW-2/PR-FWH 113 FULL BOX, GANG il P1FES) i C-22 E-A F1.3C B .16-FW-2/PR-PWS-51A PLATE,3-BOLT C-22 F-A F1.30 B 16-pW-2/PR-PWS-7" FULL BOX C-21 F-A ,
F1.30 ' B 16-RW-2/PR-FWS-79 ! FULL BOX f C-21 l F-A I F1.30 i B l16-PW-2/PS-RWH-106/RWS-75 ' DUAL STRUT,3-BOLT C-21 F-A F1.30 B l16-RW-2 / PS-RWH-108 I-BEAM,U-BOLT C-21 F-A F1.30 B 16-RW-2/PS-RWH-124/RWS-90 PEDESTAL, U-BOLT C-20 F-A F1.30 B 16-RW-2/PS-RWH-125/RWS-91 PEDESTAL, STRUT,U-BOLT l C-21 1 F-A F1.30 B 16-RW-2/PS-RWH-127/RWS-93 DUAL STRUT,3-BOLT C-21 F-A F1.30 B 16-RW-2/PS-RWH-47 RISER, LUGS C-22 l i F-A F1.30 B 16-RW-2/PS-RWH-48 TRAPEZE,U-BOLT, STRUT C-22 F-A F1.30 B 16-RW-2/PS-RWS-127 3/4 BOX, PEDASTAL C-21 F-A F1.30 B 16-RW-2/PS-RWS-92 DUAL STRUT, 3-BOLT l C-21 F-A i F1.30 B 16-RW-4/PS-RWS-35A PEDESTAL, U-BOLT I C-26 F-A ! F1.30 l B 1.5-FW-2/FWSP-23 (C-7 GANG SUPPORT,3/4 BOX RESTRNT IC-16 F-A I F1.30 I B 1.5-FW-2/PR-FWSP-18 lANGLE,U-BOLT ! C-15 F-A l F1.30 l B II.5-FW-2/PS-FWSP-13 fSEEC-7, GANG ANGLE U-BOLT i C-16 F-A ' F1.30 I B II.5-FW-2/PS-FWSP-14 !SEE C-7, 3-GANG, ANGLE U-BOLT C-16 F-A i F1.30 I B l 1. 5- FW-2 / PS - FWS P- 15 SEE C-7, 3-GANG, ANGLE U-BOLT C-16 F-A 1 F1.30 l B il.5-FW-2/PS-FWSP-16 iSEE C-7, 1-GANG, ANGLE,U-BOLT C-16
- SEE C-7, l C-16 F-A !
{F1.30 l B ll.5-FW-2/PS-FWSP-17 3-GANG, ANGLE,U-BOLT lS EE C-7, 2 GANG, ANGLE,U-BOLT F-A l 1 F1.30 t B 11.5-FW-2/PS-FWSP-18 C-16 F-A , F1.30 8 '1.5-FW-2/PS-FWSP-22 I-BEAM, U-BOLT C-15 F-A F1.30 , B 1.5-FW-2/PS-FWSP-25 ANGLE,U-BOLT C-16 F-A ' F1.30 l B 1.5-FW-2/PS-FWSP-26 ANGLE,U-BOLT C-16 F-A 01 F1.30 B 1.5-FW-2/PS-FWSP-27 l ANGLE,U-BOLT C-16
! 4 T-A F1.30 B 1.5-FW-2/PS-FWSP-28 ! ANGLE,U-BOLT l C-16 i, F-A F1.30 B 1.5-FW-2/PS-FWSP-29 IANGLE,0-BOLT C-16 F-A F1.30 B 1.5-FW-2/PS-FWSP-30 l ANGLE,U-BOLT C-16 F-A F1.30 B II.5-FW-2/PS-FWSP-41 lC-7 GANG, ANGLE.U-BOLT C-16 R3 September 1. 1995 Page 147 of 280
CLASS 3 CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) REV.1 l I I CATEGORYI 3RD INT j ITEM # TYPEj COMPONENT DESCRIPTION ISO # 1 F-A i F1.30 B !1.5-FW-2/FS-MSSP-3 ANGLE U-BOLT, GANG-2 C-15 F-A l F1.30 B l1.5-FW-2/PS-MSSP-61 ANGLE,U-BOLT, GANG l C-15 F-A l l F1.30 B 120-RW-1/PR-RWH-121A TRAPEZE, U-BOLT, STRUTS l C-23 F-A F1.30 B l20-RW-1/PR-RWH-45 TRAPEZE, U-BOLT, STRUTS l C-23 F-A F1.30 B l20-PW-1/PR-RWH-6EA PEDESTAL, U-BOLT C-23 F-A F1.30 B l20-PW-1/PR-RWH-69A PEDESTAL, U-BOLT C-23 F-A I F1.30 B I20-RW-1/PR-PWS-119 PEDESTAL, FULL BOX, LUGS lC-23 F-A I I F1.30 B 120-RW-1/PS-RWH-66B PEDESTAL, U-BOLT C-23 F-A l
,l F1.30 B l 2 0-RW- 1/ PS- RWH- 67 PEDESTAL, SADDLE C-23 F-A I l F1.30 l B 120-BW-1/PS-RWH-68 BOX, FULL C-23 P-A i I F1.30 i B i20-RW-1/PS-RWS-118 FULL BOX, PEDESTAL, LUGS C-23 F-A I F1.30 I B 20-PW-3/PA-RWH-41 PEDESTAL, WELD C-25 F-A F1.30 1 B 20-RW-3/PR-PWH-39/RWS-31 l PEDESTAL, WELD l C-25 F-A F1.30 B 20-RW-3/PR-PWH-42 PEDESTAL, WELD C-25 F-A F1.30 f B 20-RW-3/PS-RWH-36 1 PEDESTAL, WELD C-25 F-A i F1.30 I B 20-PW-3/PS-RWH-37 l PEDESTAL, WELD i C-25 F-A F1.30 ) B L20-PW-3/PS-BWH-38 i PEDESTAL, WELD l C-25 F-A i F1.30 l B 00-PW-3/PS-PWH-40 l PEDESTAL, WELD lC-25 F-A F1.30 B +20-RW-3/PS-BWH-43 IPEDESTAL, WELD i C-25 F-A i F1.30 3 20-RW-3/PS-PWS-130 ' LUGS, 3-BOLT I C-25 F-A F1.30 '
B 20-PW-4/PR-PWH-28 : PEDESTAL, SADDLE l C-27 F-A F1.30 B 20-PW-4/PP-RWS-36 -LUG,3/4 BOX C-26 F-A F1.30 B 20-BW-4/PS-PWH-29 ' PEDESTAL, SADDLE C-27 F-A 1 95 i F1.30 i B (20-RW-4/PS-RWH-30 ; PEDESTAL, SADDLE I C-26 F-A ! F1.30 l B l20-RW-5/PR-RWS-125 FULL BOX C-27 F-A I F1.30 B 120-RW-5/PR-RWS-126 DUAL STRUT,3-BOLT C-27 F-A l l F1.30 B l20-RW-5/PS-RWH-26 PEDESTAL, WELD C-27 F-A i F1.30 B 120-RW-5/PS-RWS-133 3/4 BOX C-27 i F-A F1.30 B 120-RW-7/PS-RWS-104 ANGLE, STRUT,3-BOLT C-30 F-A F1.30 B '20-RW-7/PS-PWS-129 DUAL STRUT,3-BOLT lC-30 F-A F1.30 l B 2-FW-1/PS-FWSP-32 ANGLE,U-BOLT C-04 F-A F1.30 l B 2-FW-1/PS-FWSP-32A ANGLE,U-BOLT C-04 F-A ! 01 F1.30 ! B 2-FW-1/PS-FWSP-33 ANGLE,U-BOLT C-04 F-A ! F1.30 B 12-FW-2A/PS-FWSP-01 ANGLE,U-BOLT C-05 F-A l F1.30 B l 2 - FW- 3 / PS - FWS P-0 8 ANGLE.U-BOLT C-06 F-A l F1.30 B l2-FW-3/PS-EWSP-09 GANG ANGLE,U-BOLT C-06 F-A I F1.30 B 2-FW-3/PS-FWSP-10 ANGLE,U-BOLT C-07 F-A I F1.30 B 2-FW-3/PS-FWSP-11 ANGLE,U-BOLT C-07 F-A ! I F1.30 i B ! 2 - FW- 3 / PS - FWS P- 12 IANGLE,U-BOLT C-07 F-A - F1.30 !B 2-FW-3/PS-FWSP-13 j u- BOLT , 2 CANG PIPE C-07 F-A ! F1.30 i B l2-FW-3/PS-FWSP-14 : GANG SUPPORT U-BOLT 3-PIPE C-07 F-A 95 F1.30 ! B ! 2 - FW- 3 / PS - FWS P- 15 tSEE C-16, GANG U-BOLT 3 PIPE C-07 F-A i F1.30 + B !2-FW-3/PS-FWSP-16 lSEE C-16, GANG U-BOLT 3 PIPE C-07 F-A t F1.30 i B i 2 - FW- 3 / PS- FWS P- 17 lSEE C-16, GANG U-BOLT 3 PIPE C-07 F-A ! F1.30 B 2-FW-3/PS-FWSP-18 lSEE C-16, GANG U-BOLT 2 PIPE C-07 F-A F1.30 B 2-FW~3/PS-FWSP-19 lU-BOLT, ANGLE C-07 F-A F1.30 B 2-FW-3/PS-FWSP-40 !GANGSUPPORT, 3/4 BOX C-07 F-A F1.30 B 2-FW-3/PS-FWSP-41 lU-BOLT, GANG C-07 F-A F1.30 . B 2-MS-4/21-PR lDUALSTRUT, 3-BOLT C-55 F-A 01 F1.30 I B 2-MS-4/33-PR lANGLE, U-BOLT C-55 R3 September 1. 1995 Page 148 of 280
i CLASS 3 ~ CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) 1 REV.1 I ! I CATEGORYI 3RD INT l ITEM # TYPE COMPONENT DESCRIPTION ! ISO # F-A l F1.30 B 2-MS-4/33-PR-1 ANGLE, U-BOLT C-55 F-A l F1.30 B 2-MS-4/33-PR-2 ANGLE, U-BOLT C-55 F-A F1.30 B 2-MS-4/39-PR ANGLE, U-BOLT C-55 F-A F1.30 B 12-MS-4/47-PR-1 ANGLE, U-BOLT C-53 F-A F1.30 B 2-MS-4/47-PR-2 ANGLE, U-BOLT C-53 F-A F1.30 B 2-MS-4/49-PR-1 ANGLE, U-BOLT C-53 F-A F1.30 B 2-MS-4/49-PR-3 ANGLE, U-BOLT C-53 F-A F1.30 B 2-MS-4/53-PR ANGLE, U-BOLT l C-53 F-A 1 F1.30 B 2-MS-5/21-PR ANGLE, U-BOLT l C-54 T-A ! F1.30 B 2-MS-5/23-PR , ANGLE, U-BOLT lC-54 F-A l F1.30 B l2-MS-5/25-PR lI-BEAM, U-BOLT l C-54 F-A i i F1.30 B l2-MS-5/27-PR IANGLE, U-BOLT lC-54 F-A , F1.30 ! B 2-MS-5/27-PR-1 I ST RL'T, 1-BOLT ' C-5 4 F-A 21 F1.30 ! B '2-MS-5/24-PR lI-BEAM. U-BOLT C-54 F-A ' F1.30 B ~2-MS-5/31-PR l ANGLE, U-BOLT C-54 F-A i ; F1.30 l B !2-MS-5/33-PR ! ANGLE, U-BOLT l C-54 F-A F1.30 i B d-MS-5/35-PR ' ANGLE, U-BOLT lC-54 F-A ' F1.30 l B !2-MS-5/53-PR { BOX lC-53 F-A F1.30 1 B :2-MS-5/55-PP-2 l ANGLE, U-BOLT lC-53 F-A 1 F1.30 B !3-FW-1/PS-FWS-109A iU-BOLT, ANGLE I C-02 F-A i F1.30 i B I3-FW-1/PS-FWS-109B IU-BOLT ANGLE I C-02 F-A F1.30 B 3-FW-1/PS-FWS-109C U-BOLT, ANGLE C-02 F-A l F1.30 i B f3-FW-1/PS-FWS-109D U-BOLT. ANGLE i C-02 j F-A l 95 F1.30 l B 13-IW-1/PS-FWS-109E lU-BOLT, ANGLE C-02 F-A ! . F1.30 I B '3-FW-2/PS-FWH-151 PEDESTAL,U-BOLT C-14 $ F-A I i F1.30 i B 3-FW-2/PS-FWH-224 DUAL PEDESTAL, DUAL U-BOLT C-14 F-A l F1. 30 8 3-FW-3/PR-FWS-122 3/4 BOX C-13 F-A l F1.30 B 3-FW-3/PS-FWH-225 DUAL PEDESTAL,U-BOLT C-13 $ F-A l F1.30 B 4-FW-10/PS-FWH-127 PEDESTAL,U-BOLT C-03 F-A l F1.30 B 4-FW-1/PS-FWH-114 PEDESTAL,U-BOLT C-01 F-A 01 F1.30 B 4-FW-1/PS-FWH-115/FWS-52 PEDESTAL,U-BOLT C-01 F-A F1.30 B 4-FW-3A/PS-FWS-114 ANGLE,U-BOLT C-09 i a F-A F1.30 B 4-FW-4/PS-FWS-113 3/4 BOX lC-09 F-A 98 F1.30 B 4-FW-6/PR-FWH-129 . PEDESTAL,U-BOLT l C-12 F-A F1.30 B ! 4 - FW- 6 / PS - FWS- 118 ! ANGLE, U-BOLT l C-12 F-A F1.30 B '4-FW-6/PS-FWS-119 l ANGLE,U-BOLT l C-12 ' F-A F1.30 B 4-FW-9B/PS-FWH-221 l TRUNNION lC-17 F-A 96 F1.30 8 6-AC-1/PR-ACS-375 40-BOLT, 2 GANG C-35 F-A F1.30 i B 16-AC-1/PR-ACS-376 !3/4 BOX, 2 GANG C-35 l F-A ! F1.30 B 16-AC-1/PS-ACH-226 ! TRAPEZE.4-BOLT, GANG (2-PIPES) I C-35 I F-A i j F1.30 B j6-AC-1/PS-ACH-266 ! GANG SUPPORT, BOX (2-PIPES) C-35 F-A ! 98 i F1.30 i B !6-AC-2/PR-ACS-382 3/4 BOX C-37 F-A 4 F1.30 l B 16-AC-2/PR-ACS-59 TRUNNION C-37 P-A i i F1.30 B 16-AC-3/PR-ACS-375 3/4 BOX SUPPORT,2 GANG C-35 C-51 F-A l F1.30 B 6-AC-3/PR-ACS-376 GANG SUPP,U-BOLT,2-PIPES C-35 C-51 F-A i F1.30 B 6-AC-3/PS-ACH-266 3/4 BOX C-51 F-A F1.30 B 6-AC-6/PR-ACS-316 l3/4 BOX C-33 F-A F1.30 B 6-FW-1A/PS-FWH-11 PEDESTAL,U-BOLT C-17 F-A F1.30 B 6-FW-1B/PS-FWH-10/FWS-26 TRUNNION, STRUT,3/B,U/B, PED,T/B C-17 F-A F1.30 B 6-RW-10/05-PR IPEDESTAL W/U-BOLT C-59 R3 September 1, 1995 Page 149 of 280
CLASS 3 ) i CLASS 3 INTEGRAL ATTACHMENTS AND SUPPORTS (SORTED BY CAT #, ITEM #, COMPONENT) l REV.1 j l l l CATEGORY 3RD INT ITEM # TYPEI COMPONENT DESCRIPTION ISO # l j l F-A I F1.30 l B l8-AC-1A/PR-ACS-19A STRUT, 3-BOLT, LUGS C-39 I F-A l F1.30 ! B !8-AC-1A/PR-ACS-21 l FULL BOX, GANG C-44,S-29 C-39 l F-A ! F1.30 l B 18 - AC- 1/ P R- ACS- 17 GANG SUPPORT,3/4 BOX C-44,S-27 C-39 F-A F1.30 B 8-AC-1/PS-ACH-30 GANG (2-PIPES),I-BEAM,U-BOLT C-39 ) F-A Ft.30 B 8-AC-28-/PR-ACS-30 WELDED SADDLE C-45 l F-A l F1.30 8 8-AC-2B/PR-ACS-29 FULL BOX SUPPORT,2 GANG C-39,S-21 l C-44 F-A I F1.30 B 8-AC-2B/PS-ACH-30 1-BEAM,U-BOLT,2 GANG C-44 F-A l F1.30 B 8-AC-2B/PS-ACS-27 3/4 BOX SUPPORT,2 CANG C-39,S-17 C-44 , I F-A F1.30 B 8-AC-2/PS-ACH-26 TRUNNION C-39 F-A F1.30 B 8-AC-2/PS-ACH-27 I-BEAM,U-BOLT C-39 F-A I F1.30 B !8-FW-1/PR-FWS-54 l FULL BOX, LUGS C-18 i8-FW-1/PS-fHH-119 ! PEDESTAL,U-BOLT C-18 _ F-A i F1.30 i B F-A F1.30 B M-FW-1/PS-FWH-120/FWS-57 iPEDESTAL,U-BOLT, RIGID,T/B l C-18 F-A F1.30 , B 8-FW-1/PS-FWH-121 . PEDESTAL, U-BOLT C-19 F-A i F1.30 C l16-RW-10/01-PR WELDED LUG W/ SPRING CAN 0-61 4~ F-A i F1.30 i C !16-RW-10/24-PP ! TRAPEZE, DUAL SPRING CANS C-61 ! j F-A 01 1 F1.30 l C CAN, ROD,3-BOLT C-21 l16-RW-2/PR-PWH-112 fSPF , F-A i F1.30 i C !20-RW-6/PS-RWH-144 l PED, at' RING CAN, STRUT,3-BOLT C-29 ! F-A ' F1 30 r C t20-RW-6/PS-FWH-145 (PED, SFRING CAN, STRUT,3-BOLT l C-29 j F-A ' F1.30 i C 20-PW-6/PS-FWH-146 PED, SPRING CAN, STRUT,3-BOLT l C-29 F-A ' F1.30 , C 20-RW-6/PS-PWH-19/RWS-102 STRUT,3-BOLT,SPRG CAN,PEDSTL i C-29 j F-A F1.30 c 20-FW-6/PS-FWH-62/FWS-100 STRUT,3-BOLT,SPRG CAN, PED I C-29 1 F-A F1.30 C 20-RW-6/PS-RWH-e3/PWS-101 STRUT,3-BOLT,SPRG CAN, PED C-29 j F-A , 1 F1.30 C l2-MS-4/43-PR-2 l SPRING CAN ! C-53 ! F-A I l F1.30 C 4-FW-2B/PS-FWH-17 SPRING CAN, TRAPEZE,3-BOLT C-08 F-A I F1.30 C 4-FW-3A/PS-FWH-204 SPRING CAN,3-BOLT , C-09 F-A l F1.30 C 4-FW-3B/PS-FWH-202 SPRING CAN,3-BOLT C-09 j F-A l F1.30 C 4-FW-4/PR-FWH-206 SPRING CAN,3-BOLT C-09
- F-A F1.30 C 4-FW-4/PS-FWH-205 DUAL SPRINGS, RISER, LUGS C-09 F-
- 4 01 F1.30 C 4-FW-4/PS-FWH-213 SPRING CAN, WELDED C-10 P-A F1.30 C 4-FW-5/PS-FWH-136 SPRING CAN,3-BOLT C-11 F-A F1.30 C 4-FW-6/PS-FWH-13 SPRING CAN,3-BOLT C-08 F-A F1.30 C 4-FW-6/PS-FWH-15 SPRING CAN, TRAPEZE,3-BOLT C-08 F-A F1.30 C '
6-AC-5/PS-ACH-34 ISPRING CAN, TRUNNION C-32 F-A I l F1.30 C 16-AC-6/PS-ACH-37 ISPRING CAN, TRUNNION C-33 i R3 September 1, 1995 Page 150 of 280 :
I l 4 PART 2: CLASS 1, CLASS 2, AND CLASS 3 VALVE TESTS
, 1.0 Program Summary The Valve Test Program identifies test requirements for safety related i valves and ensures that the valves are tested in accordance with the i requirements of Subsection IWV of the ASME Section XI Boiler and Pressure Vessel Code, 1989 Edition, as delineated in 0&M Part 1 and Part 10, 1987 Edition up to and including the 1988 Addenda.
4 The Valve Test Program will be applicable. ']r the 120-month interval, which begins on September 26, 1993. The Valve Test Program will be reviewed and updated as required with that edition of the Code and Addenda in effect not more than 12 months prior to the start of the next 120-month interval (beginning September 26,2003). . Individual valve test requirements are presented by coded Valve Test Program Matrix, Table 2.1. The codes used for these tables are defined ' in the " Table Format Fort Calhoun Station Valve Test Program Matrix Table 2.1." The Valve Test Program Matrix (Table 2.1) is arranged in numerical sequence by valve number. Appendix 2A provides justifications for valve test frequencies other than Quarterly. A basis for the test 4 frequency is given as well as the frequency at which the valve will be tested. Appendix 2B provides justifications for exceptions taken to the , ASME Section XI/0&M Code test requirements as provided for in 10CFR50.55a(g)(5)(iii). Two types of justifications are provided. The first is general in nature, and pertains to requirements found to be impractical for many valves. The second type is used to justify Code exceptions for specific valves. Code exceptions are numbered and referenced by number on the Valve Test Program Matrix Table 2.1. 2.0 Scope and Responsibility 2.1 The P& ids listed in Part 4 of the Plan identify the location of ! each Class 1, Class 2, and Class 3 and other classes of valves "important to safety" as determined by the Fort Calhoun Station (FCS) IST philosophy. j c 2.2 The Class 1, Class 2, and Class 3 and other classes of valves "important to safety" to be tested under 0&M Part 1 and Part 10, the methods of testing for each valve, and exceptions to the tests of 0&M Part 1 and Part 10, are found in the Valve Test Program Matrix Table 2.1 and Appendices 2A and 28. 2.3 Many safety related systems, particularly those with heat exchangers, have been provided with relief valves. These relief valves are thermal relief valves of small capacity intended to relieve pressure due to a thermal expansion of fluid in a
" bottled-up" condition (generally occurring only during maintenance), which is considered a self-limiting transient.
- Experience has shown that failures of these valves will not result in failure of a system to fulfill its safety related function. Thus, most thermal relief valves are not considered to perform a safety function as defined by O&M Part 1 and Part 10, and such R3 September 1, 1995 Page 151 of 280
valves have not been included in the ISI Program Plan at the Fort Calhoun Station. 2.4 As a result of regulatory concerns regarding Containment Integrity issues (Reference CID Nos. 883627 and 882025) the following actions are taken and will be required of all future changes / upgrades to applicable surveillance tests required by the FCS ISI Program Plan. 2.4.1 Surveillance Tests for Containment Isolation Valves Leakage (Type C) tests have been upgraded to include detailed drawings of all designated test tees and require procedural signoffs for removal and reinstallation of test tee caps. 2.4.2 A separate documented and double verified checklist of designated swagelock caps has been developed and this check list will be performed by the Operations Department prior to power operation following a Refueling Outage to ensure ContainmentIntegrity(0I-CO-5). 3.0 Inservice Test Frequency 3.1 The inservice test frerpency for Class 1, Class 2 and Class 3 valves and other valves "important to safety" is in accordance with 0&M Part 1 and Part 10 with exceptions as found in Appendices 2A and 2B. , l 3.2 Valves identified herein as being tested at Cold Shutdown i frequency shall be tested each Cold Shutdown (as defined by FCS ! Technical Specifications) where the duration of the shutdown is sufficient to accomplish the tests. Valve testing should commence ' not later than 48 hours after Cold Shutdown and continue until l complete or, the plant is ready to return to power. Completion of ! all valve testing is not a prerequisite to return to power. Any testing not completed at one Cold Shutdown should be performed during subsequent Cold Shutdowns to meet the Code required testing frequency. Where more than one Cold Shutdown occurs within three months, the test frequency need not exceed once per three-month period (92 days). 4.0 Valve Categories The valve categories for each Class 1, Class 2, Class 3 and other "important to safety" valves have been determined from O&M Part 1 and Part 10 witn exceptions as found in Appendices 2A and 2B. 5.0 Test Methods 5.1 The methods to be used to test Class 1, Class 2, Class 3 and "important to safety" valves have been determined from the appropriate sections of 0&M Parts 1 and 10. These methods, along with exceptions, are listed in the Valve Test Program Matrix Table 2.1 and Appendices 2A and 2B (of this Program Plan). R3 September 1, 1995 Page 152 of 280
I t 5.2 Valves with remote position indicators shall be observed _ locally, or verified by other positive methods (such as changes in flow or 4 pressure directly attributed to valve movement) at least once every two years in order to verify that valve operation is accurately indicated. 5.3 Valves with safety related failure positions indicated in the . valve tables will be tested by observing valve operation upon loss ] of actuator power at the frequency specified in the valve table. 5.4 Valve stroke times are measured from actuation of valve operating device to end of valve travel as indicated by remote valve position indication lights. The valves will be timed using the lights in the Control Room as applicable. 5.5 Valve stroke times which exceed the acceptance criteria as stated j in Paragraph 4.2.1.8 of 0&M Part 10 will be immediately retested and corrective action taken as delineated in Paragraph 4.2.1.9 of 0&M, Part 10. l 5.6 Valve stroke times which exceed the acceptance criteria as determined by guidance using Paragraph 4.2.1.4 of O&M Part 10 and listed in the Surveillance Test or the Acceptance Criteria Basis Document shall be immediately declared inoperable, and not returned to service until corrective action is taken.
- 6.0 Evaluation of Test Results 6.1 The evaluation of test results shall be in accordance with the l appropriate paragraphs in 0&M Part 10. '
. l 6.2 If test data show that a valve is operating in the " Alert Range", I remedies shall be taken as required in accordance with 0&M Parts 1 l . and 10 until corrective action is taken. If the test data shows j that the valve is operating in the " Required Action Range", the .
- valve shall be immediately declared inoperable and not returned to service until corrective action is taken. Corrective action is
] defined as one or more of the following steps: f 6.2.1 Recalibrate the applicable instruments and reperform test, or 6.2.2 Repair or replace the component as required, or 6.2.3 Perform an Engineering Analysis to demonstrate that the valve is still able to perform its required safety design function. R3 September 1, 1995 Page 153 of 280 l
7.0 Records and Reports 7.1 Records and reports for the testing of Class 1, Class 2 and Class 3 and other "important to safety" valves shall be made in accordance with Paragraphs 6.2 and 6.3 of 0&M Part 10. 4 7.2 Records of corrective action for Class 1, Class 2, and Class 3 and . other "important to safety" valves shall be made and maintained in accordance with Paragraph 6.4 of 0&M Part 10. 8.0 Repair Requirements Tests or examinations required to be performed after completion of valve replacement, repair or maintenance shall be completed as required per ASME, 0&M Parts 1 and 10, and Section XI. 9.0 Valve Test Program Matrix This section provides a tabulation of safety related valves, both those valves that are tested in accordance with the requirements of Part 1 and Part 10 of the O&M, and those valves for which the Code requirements have been found to be impractical. The Valve Test Program Matrix (Table 2.1) is arranged sequentially in numerical order by valve number. 10.0 Additions to Program - Valves Valves added to the ISI Program Plan as a result of plant / system modifications, engineering changes or re-evaluation of a component , eligibility requirement, per the 0&M manual, are considered operable based on interim acceptance criteria (established by construction, preservice, post maintenance, or preoperational tests) until a trend is ! established. l l R3 September 1, 1995 Page 154 of 280
TABLE FORMAT FORT CALHOUN STATION VALVE TEST PROGRAM MATRIX TABLE 2.1 ,
- 1. Valve Number Unique number assigned to each valve.
- 2. System (SYS) Plant system where valve is located. Designated
! by two (2) or three (3) letters. AFW - Auxiliary Feedwater System CA - Compressed Air System CCW - Component Cooling Water System CH - Charging System , CS - Containment Spray DW - Demineralized Water System F0 - (Diesel Generator) Fuel Oil System , FW - Feedwater System HG - Hydrogen Gas IA - Instrument Air System
. MS - Main Steam System NG - Nitrogen Gas System RC - Reactor Coolant System
] RW - Raw Water System
. SA - (Diesel Generator) Starting Air System SI - Safety Injection System
- SL - Primary Sample System j SW - Service Water System
. VA - Ventilating Air System WD - Waste Disposal System
- 3. Category (CAT) Valve category as defined in 0&M Part 10.
- a. Category A Valves for which seat leakage is limited to a !
specific maximum amount in the closed position to fulfill their required functions, i
- b. Category B Valves for which seat leakage in the closed position is inconsequential for fulfillment of their required functions.
- c. Category C Valves which are self-actuating in response to some system characteristic, such as pressure (relief valves) or flow direction (check valves) for fulfillrr.ent of their required function (s).
- d. Category D Valves which are actuated by an energy source capable of only one operation, such as rupture disks or explosive-actuated valves.
- 4. Class (CL) ASMEClass(1,2,3,4,orN)
- 5. P&ID Plant drawing number where valve is found.
- 6. Ccordinates Location of valve on plant drawing.
R3 September 1, 1995 Page 155 of 280
TABLE FORMAT FORT CALHOUN STATION VALVE TEST PROGRAM MATRIX TABLE 2.1 (Continued)
- 7. Valve Type The following is a list of the type of valves with the code used in the Valve Test Program Tables.
BU - Butterfly GA - Gate BL - Ball . - GL - Globe CK - Check DI - Diaphragm , i
- PG - Plug RL - Relief
- 8. OperatorType(OPERTYPE)
- ! The following is a list of the types of operators used to change the position of the valve, with the code used in the Valve Test Program Table to reflect the operator type.
A - Air Operator C - Self Actuated M - Motor Operator S - Solenoid Operator z R - Relief H - Manual (Hand) , P - Piston Operator J ) 9. Valve Size Nominal diameter of valve in inches.
- 10. Normal Position (NOR POS) ,
- The following is a list of valve positions during normal operation and i the code used in the Valve Test Program Table to reflect that position. '
1 1 A - Automatic NO - Normally Open LO - Locked Open NC - Normally Closed LC - Locked Closed
- Valve position determined by other system parameters as in the case of check valves
- 11. Fail Position (FAIL POS) i The following is a list of valve failure positions and the code used in the Valve Test Program Table to reflect that position.
4 FC - Fails Closed FAI - Fails As Is F0 - Fails Open - - Valve failure position ' determined by other system parameters as in the case of ! check valves. i R3 September 1, 1995 Page 156 of 280 ,
l l i TABLE FORMAT FORT CALHOUN STATION VALVE TEST PROGRAM MATRIX TABLE 2.1 (Continued)
- 12. Testing Requirements (TEST REQ)
, This column indicates the position to which the valve is to be tested in order to satisfy the Code test requirements which apply to the valve. The following is a list of the codes used in the Valve Test Program Table. 0 - Valve shall be exercised to the Open position C - Valve shall be exercised to the Closed position
- T - Valve shall be tested to ensure meeting a specific Trip i
position L - Valve shall be tested for seat tightness and Leak criteria
- 13. Type Test The following is a list of tests required to be performed per ASME O&M Part 1 and Part 10 Code and the code used in the Valve Test Program Table to reflect.that test.
FS - Full-Stroke Test PS - Partial-Stroke Test LT - Leak Test ST - Stroke-Time Test SP - Setpoint Trip Test SD - Sample Disassembly ME - Manual Exercise
- 14. Testing Frequency (TEST FREQ)
The codes used in this column indicate the plant operational status that must be achieved before a particular valve can be safely and practically tested.
-Q -
Quarterly Valves in this category shall be tested Quarterly during normal plant operation. (Technical Specification Modes 1 through 3) CS - Cold Shutdown Cold shutdown conditions are defined in the FCS , Technical Specifications. (See Part 2 Section 3.2 of this Program Plan for further explanation). R3 September 1, 1995 Page 157 of 280
TABLE FORMAT FORT CALHOUN STATION VALVE TEST PROGRAM MATRIX TABLE 2.1 (Continued) CS* - Pressure Isolation Valves SurveillanceoftheReactorCoolantSystem(RCS) Pressure Isolation Valves (PIV) -Plant Technical
, Specification 3.3(2) states that periodic leakage testing on each valve listed in Table 2-9 (as a PIV) shall be accomplished:
- (1) prior to entering the power operation mode every time the plant is placed in the Cold Shutdown condition for refueling; (2) each time the plant is placed in e. Cold Shutdown condition for 72 hours if testing has not been accomplished in the preceding nine months; and (3) prior to returning the valve to service after maintenance, repair or replacement work is performed.
. R0 -
Refueling Outage l Refueling conditions are defined in the FCS Technical l Specifications.
. RO* -
Refueling Outage i The valves in this category will be sample l disassembled and inspected at an interval not to l exceed once every six (6) years. , 2YR - Periodic valve leakage rate determination for Category A valves shall be performed at a minimum of two year l intervals in accordance with O&M Part 10.' 1 0M - The relief valves will be tested in accordance with ! the frequency established by 0&M Part 1. )
. OM* - The relief valve will be tested once every third refueling outage.
i
- 15. Valve Position Indication Test (VPI TEST) ,
This column indicates if a remote Valve Position Indication verification test is required. Valves with remote position indicators, which are i used to verify valve exercising or timing, will have their remote , position indicators verified in accordance with 0&M Paragraph 4.1 of ' Part 10. j R3 September 1, 1995 Page 158 of 280 1 l
i i TABLE FORMAT FORT CALHOUN STATION VALVE TEST PROGRAM MATRIX TABLE 2.1 (Continued) j
- 16. Code Exception (CODE EXPT) !
If the valve is being tested at the Code required frequency (e.g., l Quarterly) in accordance with 0&M Part 1 or Part 10 requirements, this ' column will have a " " However, for valves with impractical 0&M Part 1 and Part 10 frequency requirements, this column will have a reference , frequency justification number (JXX). This number is addressed in l Appendix 2A. ' If the valve is being tested in accordance with 0&M Part 1 or Part 10 requirements, this column will have a " ." However, for valves which the 0&M Part 10 requirements have been found to be impractical, this 1 column will have a reference code exception number (EXX). This , reference number is addressed in Appendix 2B with a complete explanation ' of the specific exception and the justification for that exception.
- 17. Remarks This column is provided for pertinent information as appropriate. Notes ;
, in Column 17 of the Instrument Air (IA) Check Valves refer to Notes 1 1 through 5 listed below. j i NOTE #1 These valves are check valves on Instrument Air accumulators i attached to process valves that are specified for testing < elsewhere in the ISI Program Plan. The IA check valves will be tested on the same schedule as the process valve to which it is attached. NOTE #2 These valves are check valves on IA accumulators on bubblers
- that are part of the level indication / control system for the Safety Injection Refueling Water Tank (SIRWT). The ISI Program Plan speaks only to the testing of the check valve in this system.
NOTE #3 These valves are check valves on IA accumulators attached to , HCV-238 and HCV-239 (which are located inside the containment). The process valves are remotely stroke tested Quarterly, but due to inaccessibility accumulator check valves IA-HCV-238-C and IA-HCV-239-C will be tested at Cold
, Shutdown.
NOTE #4 These valves are check valves on IA accumulators attached to PCV-6680A-1, PCV-6680A-2, PCV-66808-1, PCV-66808-2 and PCV-6682. The valves are located in Room 81. The dampers are not required to be tested; however, the IA accumulator check i valves are required to be tested at Cold Shutdown. I NOTE #5 These valves are check valves on IA accumulators attached to HCV-480, HCV-484, and HCV-485. The check valves are tested opened and closed quarterly. Reference MR-FC-89-032. ! l R3 September 1, 1995 Page 159 of 280
TABLE FORMAT FORT CALHOUN STATION VALVE TEST PROGRAM MATRIX TABLE 2.1 (Continued) NOTE #6 The valves are check valves on IA accumulators to HCV-2898A/B and HCV-2899A/B. The check valves are tested open and closed Quarterly. Reference MR-FC-94-020. NOTE #7 These check valves are required to ensure the requirements for closure during Station Blackout (SB0) are ensured and aeriodically tested / verified. These check valves shall not . 3e removed from the ISI Program Plan without review and evaluation of impact on SB0. (Reference CID 931236/01) 4 I 4 i i 4 4 5 i R3 September 1, 1995 Page 160 of 280 I
j " I j TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FE TEST TYPE TEST ' VPI CODE j IU SER SYS CAT CLASS P&lD INATES TYPE TYPE SIZ P TEST TEST EXPT
. __E *._ _POS - _OS_ _. REQ _ _ . _ . _ .
FREQ REMARKS
~ ' ~ ~ ~
51 100 SI C 2 210 130 3 C1 CK C 6 - - 5'75~ Q - J1 OP ST-SI-3008
~
SI 100 51 C 2 210-130 3 C1 CK C 7 - T FS 'R0 - J1 OP ST SI-3007
- AC 101 CCW C 3 M 10 2 E6 CK C 12 0 FS Q - -
OP ST-CCW-3002 AC-101 CCW C 3 M 10 2 E6 CK C 12 I C FS Q - - OP-ST-CCW-3012/3022 PCV-102-1 RC B 1 210-110-1A E7 GL S 25 NC FC C ST J2 CS Y OP-ST-RC-3004 PCV 102 1 RC B 1 210 110-1A E7 GL S 2.5 NC FC 0 ST CS Y J2 OP-ST RC 3004 = PCV 102-2 8 1 210 110-1A EB GL 5 15 F TC~~ ' ~i TT ~ CS Y J2 OP-ST RC 3004 PCV-102-2 RC B 1 210-110-1A EB GL S 2.5 NC FC C ST CS Y J2 OP-ST-RC-3004 i ' 51-102 SI C 2 210 130 3 C4 CK C 4 - - 0 FS RO - J3 OP-ST SI 3007 SI 102 SI C 2 210 130-3 C4 CK 4 C
,C _ FS RO J3 OP-ST-SI-3007
- j. AC 104 CCW
_C__ _3 M 10-2 - D6 CK C _ 12 _ __ 0 , FS Q - - OP-ST-CCW-3012 AC-104 CCW C 3 M 10-2 D6 CK C 12 C FS Q - OP-ST-CCW 3002/3022 FO-104- F0 C 3 M-262-1 F6 CK C 5 - C FS h - OP-ST-FO-3002 FO-104 F0 ' [( ] M-262-1 F6 CK C 1 - 0 FS U,_- - OP ST-FO-3002 ' - i 51 104 SI C 2 210-130 3 C4 CK C 1 - - 0 FS Q - -- OP-ST-SI-3008 i FO-105 F0 C 3 M-262-1 E6 i FO-105 F0 C 3 M-262-1 E6 CK C 1 C fS [Q - - OP-ST FO-3002 CK C 1 - - 0 FS Q - - OP-ST-FO-3002
'i
~ ~~ ~
FO 106 FO 3 M-262-1 D6 CK C 0 is 7 - - OP-ST-FO 3001 [
' ~
FO-106 AC-107 F0 CCW C [_5 'M7 262-1 3 M-10 2 06 C6 CK CK C C 12 l , _[ C 0 [$ FS [ Q - OP-ST-FO-3001 OP ST CCW-3022 I AC-107 CCW T ~ 3 M-10-2 06 CK C 12
~
~
F5 Q - - OP-ST CCW-3002/3012 l FO 107 F0 C 3 M 262-1 C6 CK C 1 - - 0 75 '-[ - - OP-ST-FO-3001 FO-107 F0 C 3 M 262 1 C6 CK C 1 - C FS Q - - OP-ST-FO-3001
^
j SI-108 SI C' ~ ~ 5 210-130-3 04 CK C 4 7 0 ~5 F ~iiO~ - J3 OP ST SI-3007
'i5
' ' ~ '
'SI-108 SI C
]2 210-130 3 D4 CK C 7 '
T C R0 - J3 OP-ST-SI-3007 SI 110 SI C 2 210-130 3 E4 CK C l - -
~T 75]' QQ -
OP ST-SI 3008 II
~ '
NG-113 CCW A/C 3 M42 SH. 1 07 CK C - O F5 - - SE-ST CCW-3003 4 E 113 CCW A/C _3 M42 SH.1 D7 CK C 1 C _S F Q - SE-ST-CCW 3003 4 E 113 CCW A/C 3 M42 SH. 1 D7 CK C 1 - L LT 2YR - - SE-ST-CCW 3003 SI-113 SI C ~3 210 130-3 . El CK C B - - 075 0 - J1 OP-ST 51 3008 ? SI 113 SI C 2 210-130-3 El CK C 8 - - 0 FS RO - J1 OP-ST-SI 3007 3
~ ~
RW-115 RW C M-100 B4 CK C 20 - 0 FS Q + - OP-ST-RW 3031 RW-115 RW C ~3 M 100-1 B4 CK C 20 I - C FS Q - - OP-ST-RW-3004 SI 115 SI C 2 210 130-3 .. E4 CK C 4 - - 0 FS RO - J3 OP-ST-SI-3007 SI-115 SI C 5A210-130-3 E4 CK C 4bI C 75 RO - J3 OP-ST-51-3007 R3 September 1, 1995 Page 161 of 280
._ . - , _ . . _ , _ _ , . . - . _ . , _ _ ._, ,-,,m- . _ - _ . . , - - , - , . _ _ .
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST [ TYPE TEST VPI CODE NU2ER SYS CAT CIASS P&ID INATES TYPE TYPE SIZE - POS POS REQ TEST TEST EXPT FREQ REMARKS RW-ll7 RW C 3 M-100 1 BS CK C 20' 0 f5 Q - OP ST-RW-3021 RW-117 RW C 3 M-100-1 B5 CK C 20 C FS Q - OP-ST RW-3004 51-117 SI C 2 210-130 3 F4 CK C 1 0 FS Q OP-ST-SI 3008 RW-121 RW C 3 M 100-1 B6 RW-121 CK C 20
. 'd . ' - - -
F5 Q- .--. OP-ST-RW-3011 RW C 3 M 100-1 B6 CK C 20 C FS Q - OP-ST-RW-3004 S1-121 5 C 2 210-130 1 A4 CK C '8 '
~ '
0 FS CS - J4 OP-ST SI 3003 SI-121 SI C 2 210 130 1 A4 CK C 8 T F5 25 J4 OP-ST SI 3003 0-125 RW C 3 M 100-1 B7 CK C 20 C FS Q - OP-ST-RW-3004
~~ -
RW-125 RW C 3 M-100 1 B7 CK C EU' - 0 FS Q OP-ST-RW 3001 SA-127 SA C 3 B120F07001-1 E7 RL R 0.75 T SP OM PE ST-VX-3004 SA-12B SA C 3 8120F07001-1 E7 RL R 0.75 T SP OM - PE-ST-VX-3004 CH-129 CH C 3 210 121-1 A6 CK C 3 0 FS CH-4A DISCHARE OP-ST CH 3002 Q - CH-129 CH C 3 210-121 1 A6 CK C 3 - C FS ) 0 ~ - - CH 4A DISCHARE OP-ST-CH-3002 SA-129 SA , C_ B120F07001-1 C7 RL R 0.75 T SP OM PE-ST-VX-3004 _3 - SI 129 SI C 2 210 130 1 B4 CK C 8 0 FS CS J4 OP-ST-SI 3003 SI 129 SI C 2 210 130-1 B4 CK C 8 - C FS CS - J4 OP-ST SI-3003 CH-130 CH C 3 210-121-1 P7 CK C 3 0 FS Q . - CH 48 DISCH E E OP-ST-CH-3002 CH-130 CH 3 210-121-1 B7 CK C 3 _C. , C FS Q CH 48 DISCHARE OP ST-CH-3002 SA 130 SA C 3 B120F07001-1 B7 RL R 0.75 l' SP iN - - PE-ST-VX 3004 SI 135 SI C 2 210-130-1 C4 CK C 0 FS CS J36 OP-ST-51-3003 B{ _ _ _ . __ _ _ SI-135 51 C 2 210-130-1 C4 CK C 8 C 336 FS CS - OP-ST-SI-3003 51 139 SI A/C 2 210 130 1 D2 CK C 20 0 El SD
~
RO* - SS-ST-SI-3018 SI-139 SI A/C 2 210-130 1 D2 CK C 20 U PS Q El 0P-ST-SI-3008 S1 139 SI A/C 2 210-130 1 02 CK C ' ~50', T' i.E f 2TR - - SE ST-SI-3005 SI-139 SI A/C 2' 210-130 1 D2 CK C 50 - C FS RO - - SE-ST SI-3005
~
51-140 SI A/C 2 210-130-1 C2 CK C 20f 0 PS Q - El OP-ST-SI 3008 51-140 SI A/C _ 2 210-130-1 C2 CK C 20 0 SD RO* - El SS-ST SI-3018 51 140 SI A/C 2 210 130 1 C2 CK C 20 L LT 2VR - - SE ST-Si 3005 SI-140 $1 A/C 2 210 130-1 C2 CK C Ed' C FS R0 - - SE-ST-SI-3005 RC-141 RC C 1 210 110-1A F6 RL R 3 T SP RO SENT OFFSITE SS-ST-RC-3002 E-142 NG A/C 'i M42 SH. 1 E5 CK C i - 0 S Q - -
~~
~T
~
NG-142 NG A/C 2 M42 SH. 1 E5 CK C l' -
~
0 FS C - J43 SE ST-NG 3002 %-142 M42 SH.1 NG-142 NG NG A/C f _U A/C 2 M42 SH. 1 ES E5 CK CK C C 1
- 7[ FS ~C5~ -
J43 SE-ST-NG-3002 1 - L LT 2YR - - SE-ST-NG 3002 RC-142 RC C ~ il 210110-1A F6 RL R '3 - - T l SP R0 - - SENT OFFSITE SS-ST-RC-3002 R3 September 1. 1995 Page 162 of 280
i 1 i TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIIL ' TEST TYPE iST VPI CODE NUMBER SYS CAT _ CLASS P&ID INATES TYPE TYPE SIZE * , POS POS REQ TEST FREQ TEST EXPT REMARKS SI-143 SI C 2 210 130-1 D4 CK C 8 0 FS CS - J36 OP ST-SI-3003 51-143 SI C 2 210 130-1 D4 CK C B C FS CS J36 OP ST-SI-3003 E-144 NG A/C 2 M42 SH. 1 E6 CK C 1 0 PS Q - E-144 NG
~
A/C 2 M42 SH. 1 E6 CK C 1 0 FS CS - J43 SE ST-NG-3002
~
3 -144 NG A/C 2 M42 SH 1 E6 CK C 1 I - C FS C5 - J43 SE-ST E-3002 E-144 NG A/C 2 M42 SH. 1 E6 CK C 1 L LT 2YR - SE ST NG-3002 3 -146 NG A/C 2 M42 SH 1 E7 CK C 1 0 PS Q - - E-146 NG A/C 2 M42 SH. 1 E7 CK C 1 O FS CS - J43 SE-ST E-3002 E-146 NG A/C 2 M42 SH. 1 E7 CK C 1 C FS CS - J43 SE ST-NG-3002 E-146 NG A/C 2 M42 SH. 1 E7 CK C 1 L LT 2YR - - SE-ST-NG-3002 SA-147 SA B 3 B120F07001 1 D3 DI A 1.5 NC FO O ST Q f - DG START ACCEPT OP-ST DG-0001 B' 'i~ ^T SA-147 SA 7 B120F07001 1 D3 D1 A 1.5 F 0 VPI Q Y - DG START ACCEPT OP-ST DG-0001 , E-148 NG A/C 2 M42 SH 1 E7 CK C 1 - 0 PS Q - - NG-148 E A/C 2 M42 SH. 1 E7 CK C 1 0 FS CS - J43 SE-ST E-3002 3 148 E . A/C _2 M42 SH 1 E7 CK C _1 C FS CS - J43 SE-ST-E-3002 E-148 E A/C _2,.M42 SH 1 E7 CK C 1 - L LT 2VR - - SE-ST NG-3002 l SA-148 SA B 3 B120F07001-1 C3 DI A 1.5 NC FD 0 ST Q Y - DG START ACCEPT OP-ST-DG-0002 SA 148 SA B 3 B120F07001-1 C3 DI A 1.5 NC F0 0 VPI 2YR Y - DG START ACCEPT OP-ST-DG-0002 SI-149 SI C 2 210-130 1 E4 CK C 8 0 FS CS - J36 OP-ST-SI-3003 ? SI-149 SI C 2' 210 130-1 E4 CK C 8 C FS CS - J36 OP-ST-SI-3003 HCV-150 RC B 1 210 110-1A DB GA M 2.5 NO FAI C ST Q Y - OP ST RC-3002 HCV 150 CH-151 RC CH B C
] 210 110 1A 2 210-121-2 DB GA M 25 56 ] ,FA!_ I 2YR Y -
OP-ST-VX-3015 l C7 CK C 3 C FS 1 - - OP ST-CH-3002 HCV-151 RC B 1 210-110-1A D7 GA M 2.5 NO FAI C ST Q Y - OP ST-RC-3002 HCV 151 RC 8' 1 210-110-1A D7 GA M 25 NO FAI VPI 2YR Y - OP ST-VX-3015 l SI-153 SI C 2 210-130-1 ES CK C 6 - 0 FS Q - - OP-ST-SI-3008
~ ~
CH-155 CH C I 210 121 2 AS CK C i 0 F F5^ CS - J5 CP ST-CH 3006 CH-156 CH C 2 210-120-1 E3 CK C 3 - 0 FS CS - JS OP ST-CH 3006
~
SI-159 SI C T 210-130 3 B6 CK C Zi' - 0
~
W" RO* - E2 SS-ST-SI-3016 SI-16C SI C I'210-130-3 B6 CK C 24'
~'
0 SD RO* - E2 SS ST-SI-3016
~
ft3-161 FW C 2 M-253 1 D4 CK C I6 - C
~
FS CS - J6 SE-ST FW-3002 Ft$-162 FW C '2 M1 253-1 D6 CK C 16 - C F5 CS - J6 SE-ST-FW-3002 FW 163 AFW C
~
2 M-253-4 F7 CK C 3 - 0 FS CS - J7 OP ST-AFW-3007 AC 164 CCW C 3 M 10 D6 RL R 0.75 7 - T 55 ~ OM - - PE-ST-VX-3007 R3 September 1. 1995 Page 163 of 280
.1
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM Fall TEST TYPE TEST VPI CODE NLMER SYS CAT CLASS . P&ID INATES TYPE TYPE SIZE " POS POS REQ TEST FREQ TEST EXPT REMARKS
^ ~
FW 164 AFW C 2 M-253 4 F8 CK C 3 -
~ 'O' ' ' ' ~FS~'~ CS J7 OP-ST-AFW-3007 AC 165 CCW C 3 M 10 C6 RL R 0.75 -
T ON - - PE-ST-VX-3007 CH-166 CH C 2 210-120-1 C2 CK C 4 - C FS CS J35 SE-ST-AFW-3006 FO 173 AFW C 3 M-253-4 C6 CK C 4 - 0 FS Q - - SE-ST-AFW-3006 FD 173 AFW C 3 M-253 4 C6 CK C 4 C FS Q - SE-ST-AFW-3005/30%
~ ' ~
FU-174 AFW C 3 M 253 4 CS CK C 4 -
~I) ' l5' ' Q ~
SE-ST AFW-3005/3006 FU-174 AFW C 3 M 253 4 C5 CK C 7 C 'FS ' Q - - SE-ST AFW 3005 51 175 SI .. C_ _2 210-130-2 81 CK C 12 0 SD RO*
; E3 SS-ST-SI 3017 SEE NOTE #7 {
HCV 176 RC 2 D-4078 E5 GL 5 NC FC 0 ST CS Y J8 OP-ST-RC 3005 _B_ ._ _1 . HCV-176 RC B _ _ _2 D-4078 E5 GL 5 1 NC FC C ST CS Y J8 OP-ST-RC-3005 HCV-176 RC B 2 D-4078 E5 GL 5 1 NC FC - VPI 2YR Y - OP-ST-RC-3006 51-176 SI C 2 210-130-2 DI CK C 0 SD R0* - E3 SS-ST-SI-3017 SEE NOTE F _12 _ HCV-177 RC B 2 D 4078 D5 GL 5 1 NC FC 0 ST CS Y J8 OP-ST-RC-3005 HCV-177 RC B 2 D 4078 D5 GL 5 1 NC FC C ST CS Y J8 OP ST-RC-3005 HCV-177 RC E ~ l 'D-4078 D5 GL S i E E 'T VPI 25 Y - OP-ST-RC-3006 SA-177 SA i 3 B120F07001-2 E7 RL R 0.T5
~
T ~[ S ON - - PE-ST-VX-3004 i HCV 178 RC B D-4078 C5 GL 5 l NC FC 0 5T' C5 ' Y J8 OP-ST-RC-3005
'~
i
~ ~
HCV-178 RC B' 2 D 4078 C5 GL 5 NC ~IC C ST CS Y J8 OP-ST RC-3005 HCV-178 RC 8 2 D-4078 C5 GL S 1 NC FC - VPI 2YR -Y - OP-ST-RC-3006
~~
SA-178 SA C 3 B120F07001 2 E7 RL R 0 75 - T SP E - - PE-ST-VX-3004 HCV-179 RC B ~~ IUO78 C5 GL 5 1" ~ NC' FC 0 '5T CS Y J8 OP-ST *C-3005 HCV-179- RC B 2 D 4078 C5 GL 5 1 NC FC C ST CS Y J6 OP-ST RC-3005 KV-179 RC B 2 D-4078 C5 GL 5 5~ ~C N FC - iPT 2YR Y - OP-ST-RC-3006 SA 179 SA C 3 B120F07001 2 C7 RL R 0.75 T SP OM - -- PE-ST-VX-3004 HCV 180 RC B ~i' D-4078 E3 GL S 'i NC FC 0 ST CS Y J8 OP-ST RC-3005
'3 E HCV-180 RC 8 D 4078 E3 GL S l ~
3C~ C ~5f ' CS Y J8 OP ST RC 3005 HCV 180 RC B l D-4078' E3 GL S ii FC -
~ VP
~ 'I ' 2YR Y -
OP-ST-RC-3006 SA 180 SA C 3 B120F07001 2 B7 RL R 0.75 - T SP OM - - PE-ST VT-3004 CH-181 HCV-181 CH RC C B [2 D-4078 210-120 1 F7 C3 RL GL R S
- 1. 5 '
1 NC FC T 0 (( ST
~5i CS Y
J8 PE-ST-VX-3002 OP-ST-RC-3005 HCV-181 RC B 2 C3 GL S NC C J8 OP ST-RC 3005 _;D-4078 1 FC ST CS Y 2 D-4078 - HCV-181 RC B J C3 GL 5 1 NC FC - VPI 2YR Y -
'0P ST-RC-3006 CH-182 CH C 2 210 120-1 D7 RL R 15 -
T SP OM - - PE-ST-VX 3002 . CH 183 CH C 2 210-120-1 B7 RL R 1.5 - T E OM - - PE-ST-VX-3002 51 183 SI A 2 210-130-1 E6 GL H 23 NC - L LT 2YR - - SE-ST-SI 3005-R3' September 1. 1995 Page 164 of 280
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE NLSeER
]_
SYS CAT CLASS P&ID COORD-INATES VALVE I OPER TYPE TYPE VALVE ' SIZE
- 5 POS
[ AIL POS IE'ST R iYEE ~IEST' M TEST TEST CODE EXPT
~
,EQ_ FREQ ._ ..
REMARKS 151-184 ~ SI A 2 210 130 1 D6 GA H 6 NC L LT 2YR SE-ST-SI-3005 I T I
~
51 185 SI 2 210-130-1 E8 GL IIC L LT 2YR - - APPEICIX J CH 187 CH C 2 210-120 1 E7 CK C 2 0 FS Q - - OP ST CH-3003 CH 187 CH C 2 210-120-1 E7 CK C 2 C FS Q - OP-ST-CH-3003 SI-187 SI C 2 210-130 2 HS RL R 1.5 - T SP OM
~ '
PE-ST-VX-300C CH-188 CH C 2 210 120 1 C7 CK C ~I - 0' f5 T - - OP ST CH 3003 CH-188 CH C 2 210 120-1 C7 CK C 2 - C FS Q - - OP-ST-CH 3003 51 188 SI Tl 210 130-2 H5 RL R 1 75' l~ 5E '0N - PE ST-VX 3009 CH 189 CH C 2 210 120-1 A7 CK C 2 0 FS Q - - OP-ST CH-3003 CH-189 CH C 2 210-120 1 A7 CK C 2 C FS Q - - OP-ST CH 3003 i
~
51-189 SI C 2 210-130-2 ~ H6 RL R 15' ~~~ - SP 0M - - PE-ST VX 3009 51-190 SI C 2 210-130-2 H7 RL R 1.5 T SP OH - - PE-ST-VX-3009 S!-194 SI 1 210-130-2A D7 CK C 6 0 FS CS J9 UC_ _ OP-ST SI-3003 SEE NGTE #1 SI-194 SI UC 1 210 130 2A D7 CK C 6 L LT CS* J9 PIV SE-ST-SI 3015 SEE NOTE #7 51 195 SI UC _1 ,210-130 2A DE CK C 2 L LT CS* - J9 PIV SE-ST SI-3015 SEE NOTE #7 51-195 51 A/C 1 210-130 2A DB CK C 2 O FS R0 J10 OP-ST-SI-3007 SEE NOTE #7 C _ SI-1% SI C 1 210-130-2A DB CK 2 - 0 PS CS J11 OP-ST SI-3014 SEE NOTE #7 S! 1% SI C ,1 213-130 2A 08 CK C 0 FS , R0] - J11 _.. 2, _ __ _ _ __ OP-ST-SI-3007 SEE NOTE #7 , SA 197 SA B 3, B120F07001-2 D3 DI A 1.5 NC F0 0 ST Q Y DG START ACCEPT OP ST DG-0001 SA 197 SA 8 3 B120F07001-2 D3 DI - A 1.5 . _ NC_ FO O WP1 2YR Y - DG START ACCEPT OP-ST DG 0001 SI-197 SI A/C 1 210 130-2A D6 CK C 6 - L LT CS* PIV SE ST-SI-3015 SEE NOTE #7 51-197 S1 A/C 1 210-130 2A D6 CK C 6 0 FS CS - J9 OP ST-SI-3003 SEE NOTE #7 CH-198 CH C 2, 210-120 1A B2 CK C 2 ._ .
-_0_. PS Q -
J12 OP ST Oi 3003 CH-198 CH C 2 210-120-1A B2 CK C 2 0 FS RO - J12 SE-ST-CH 3003 CH-198 CH C 2 210-120-1A B2 CH C 2 C FS RO - J12 SE-ST-CH-3004 SA-198 SA B, 3 B120F070012 C3 DI A l.5 FF
^
NC 0 ' ST 'Q Y - DG START ACCEPT OP-ST-DG-0001 SA-198 SA B 3 8120F07001 2 03 DI A 1.5 NC FO O VPi 2YR Y
~ ~~ ~'
DG STA9T ACCEPT OP ST DG 0001 SI-198 SI A/C 1 210-130 2A D6 CK C ? l~ FS ~i R - J10 OP ST 51-3007 SEE NOTE #7 SI-198 51 199 SI SI A/C _, E10130-2A D6 CK C
' h. L ' LT W -
J10 PIV SE-ST-SI-3015 SEE NOTE #7 C 1 210-130-2A C7 CK C 2 0 PS CS - J11 OP-ST-SI-3014 SEE NOTE #1 SI-199 51 C 1 210-130 2A C7 'CK C 2 0 FS RO J11 OP-ST SI-3007 SEE NOTE #7 SI-200 $1 A/C 1 E10-1302A D5 CK ' C i T LT CS* - - PIV SE-ST-SI-3015 SEE NOTE #1 SI-200 $1 A/C 1 210-130 2A 05 CK C 6 0 FS CS J9 OP-ST SI-3003 SEE NOTE #7 S1-201 SI A/C i 210-133-2A D5 CK C i T ' LT C5* - , - P1V SE-ST-SI-3045 SEE NOTE #7
~~~
51-201 SI A/C II 210-130-2A D5 CK C 3 . - 0 FS' RO - l J10 OP-ST-SI 3007 SEE NOTE #7 R3 September l.' 1995 'Page 165 of 280 _ _ .~ _ ,_ - _ _ ..._._ -. _ _ _ _ . . . _ __. _ . . . ._ .
_ _ _ _ _ _ _ _ _ _ _ ._ __ ~ _ _ _ _ . . _ __ _ . . _ . _ _ . _ . _ _ _ - _ . __ . _ _ . TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE -TES 'T VPI CODE NumER SYS CAT CIASS P&lD INATES TYPE TYPE SIZE ' _POS POS REQ TEST FREQ TEST EXPT REl%RKS
~ ~
~
SA 202 SA C 3 B120F07001 1 C3 CK C 0.25 - C ' FS Q' DG START ACCEPT OP-ST-DG-0001 SI-202 SI C 1 210-130-2A CS CK C 2 - - O PS J11 CS - OP ST-SI 3014 SEE NOTE #7 SI 202 SI T 1 210-130 2A CS CK C i _ _ . _ . __. __'~I ~_T _ '_RU~~' Jll OP ST-SI-3007 SEE NOTE #7 TCV-202 CH A 1 210-120 1A E5 GL A 2 A FC C ST
~~
CS Y J13 OP-ST CH-3005 ICV 202 CH A 1 210-120-1A ES GL A 3 i 3~ [ ~IT ^ 2YR - - APPENDIX J TCV-202 CH A 1 210-120-1A ES GL A 2 NO FC VPI
~
2YR Y - OP ST-VX 3009 TS '
~
CH 203 CH C 1 210 120-1A CS CK C 2 ~~ I ~7 ~b- ~ Q~ - J12 OP ST-CH-3003 CH 203 CH C 1 210 120-1A CS CK C 2 0 FS R0 - J12 SE-ST-CH 3003 SA 203 SA C 3 B120F07001-1 CS CK C 0.25' -
~T E5 T - -
DG START *CCEPT OP ST DG-0001 S1 203 51 A/ 1 210-130-2A D3 CK C 6
~ ~
~
T 'W 'CS* - PIV SE-ST SI 3015 SEE NOTE #7 S1 203 SI A/C 1 210-130 2A D3 CK C 6 - 0 FS 39 CS - OP-ST-SI-3003 SEE NOTE #7 U 75~
~ ~'
CH 204 CH C 1 210-120 1A AS CK C 1 ~
~~
0 - J12 OP-ST513003 ~ CH 204 CH , C _ 1 210 120 1A A5 CK C '2 U is ~ ~R0-~ - J12 SE ST-CH 3003 HCV-204 CH A 2 210-120 2 A2 GL A 2 NO FC L LT 2VR E5 APPENDIX J HCV-204 CH [ 2 210-120 2 A2 GL A
~
2 5 FC 'C ST 'Ci Y J13 OP-ST-CH 3005
'i
'~ ~-
HCV 204 CH '2 210-120 2 A7 GL A 2 NU ~ FC'
. - -- . V'P I.
- . 2.YR Y - OP-ST-VX 3009 SI 204 SI 210-130 2A A/C _1. D3 CK C -
0 FS RO_. J10 OP ST SI-3007 SEE NOTE #1 S1 204 SI A/C 1 210 130 2A D3 CK C 2 L LT CS* - + P!V SE-ST-SI 3015 SEE NOTE #7 CH 205 CH C 1 210-120 1A B6 CK C 2 0 J14 PS Q - OP-ST-CH-3006 CH 205 CH ~i. ~'[ kl0-1201A B6 CK C 2 U' FS ~R'O J14 SE ST CH 1003 SI-205 SI C 210 130 2A C4 51 205 51 C 1 210-130-2A C4 CK C U PS
]5~ -
J11 OP ST-SI-3014 SEE NOTE #7 1 CK C 2 . 0 FS RO - J11 OP-ST SI 3007 SEE NOTE #1 HCV-206 CH A 210-120-1A El 0.75 _ _2 GL A NO FC C ST , CS Y J15 OP ST-CH 3005 HCV 2% CH A 2 210-120-1A El GL A 0.75 NO FC L LT 2YR - APPDdDIX J HCV 206 CH A 2 210-120 1A El GL A 03 NO
~
FC - WI~ ~2YR Y - OP-ST-VX-3009 51 207 SI A/C 1 210-130 2A F7 CK C [ LT CS* {2 OP ST-SI-3008 SI-207 SI A/C 1 210-130-2A F7 CK C C CS*
.. ,12 _ _- FS -
E4 OP ST SI-3008 51-207 SI A/C 1 210-130-2A F7 CK C 12 0 FS
~
RO - E4 SIT DUMP SS ST SI-3015 51-208 SI A/C 1 50-130-2A C7 CK C 12 - L LT 'CS* - - PIV DP-ST-SI-3013 SEE NOTE #7-SI-208 51-208 SI SI A/C A/C 1 1 210-130 2A 210-130-2A C7 C7 CK CK C C 12 12 (( - 0 C FS FS R0 - E4 E4 SIT Die SS-ST-SI-3015 SEE NOTE #7
,CS* -
OP-ST-SI-3013 SEE NOTE #7 SI-208 SI A/C 1 210-130 2A C7 CK C 12 - 0 PS CS - E4 OP-ST-SI 3003 SEE NOTE #7 SI-209 SI C ~2 210-130 2B E3 RL R I - T SP OM - - PE-ST-VX-3005 51 211 SI A/C I 310-1302A F6 - CK C 13' 2 . L LECS* - - PI'8 OP ST-SI-3008 51 211 St A/C T 310-130-2A F6 CK C 12' ~- -3C FS" CS* - ) E4 OP-ST-SI 3008 R3 September 1. 1995 Page 166 of 280
f TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM ~'F AIL iEST TYPE' TEST VPI CODE NUMBER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE " _ POS POS REQ TEST FREQ TEST EXPT REMARKS A/[ ~ ' SI-211 SI 1 210-130 2A F6 CK C 12 - -
O~ ~FS ' ' itd ~ E4 SIT DlMP SS-ST-SI-3015 51-212 SI A/C 1 210-130 2A C6 CK C 12 - -
C F5 CS* - E4 OP ST-SI-3013 SEE NOTE #1 SI 212 SI A/C 1 210-130 2A C6 CK C 12 L LT CS* - - PIV OP-ST-SI 1013 SEE NOTE #7 51 212 SI A/C 1 210-130 2A C6 CK C 12 - 0 FS R0 - E4 SIT DUMP SS ST SI-3015 SEE NOTE #7 i S1-212 SI A/C 210-130 2A C6 1 CK C 12 - 0 PS CS - E4 OP ST SI-3003 SEE NOTE #7 I 5I ' Oi
~ ~
SI-213 51 C 2 210-130 28 E6 RL R -
~T - -
PE-ST-VX-3005 1 51-215 SI A/C 1 210-130-2A F4 CK C 12 C FS CS* - E4 OP ST-SI-3008 Li
' ~
S1-215 SI A/C 1 210-130 2A F4 CK C 12 - T 55 I - OP ST-SI-3008 SI 215 SI A/C 1 210-130-2A F4 CK C 12 - 0 F5 'R0 E4 SIT DUMP SS-ST SI 3015 SI-216 SI A/C 1 210-130 2A C4 CK C 12 - - C FS CS* - E4 OP-ST-SI-3013 SEE NOTE #7 SI-216 SI A/C 1 210 130-2A C4 CK C 12 L LT CS* - PIV OP-ST-SI 3013 SEE NOTE #7 SI-216 SI A/C 1 210-130-2A C4 CK C 12 - 0 FS RO - E4 SIT DUMP SS ST-SI-3015 SEE NOTE #7 4 SI-216 SI [C_ 1 210-130-2A C4 CK C 12 - 0 PS CS - E4 OP ST-SI-3003 SEE NOTE #7
' ~
51-217 SI C 2 210-130 2 E6 RL R I - l '5 0M - - PE-ST-VX-300ii
- FO-218 F0 C 3 M-262-1 B3 CK C 2 - -
0 FS Q - 0P-ST-FO-3001 LCV-218-2 CH B 2 210-120-1 C2 GA M 4 NO FAI C ST CS Y J16 OP ST-CH 3005 LCV-218 2 CH B 2 210 120-1 C2 GA M 4 NO FAI - VPI 2YR Y - OP-ST-VX-3009 LCV-218 3 CH B 2 210-120 1 E3 GA M 3 NC FAI O ST CS Y J16 OP-ST-CH-3005 i LCV 218-3 CH B 2 210-120-1 E3 GA M 3 NC FAI - VPI 2YR Y - OP-ST-VX-3009
- FO-219 F0 C 3 M-262-1 B3 CK C 2 0 FS Q - -
OP-ST-FO-3002 l '~ 51-219 SI A/C ]1 210 130-2A F3 CK C 1 - T' ' F5~ 'C5*~ - E4 OP-ST SI-3008 SI-219 SI A/C 1 210 130 2A F3 CK C 12 L LT CS* - - PIV OP-ST-SI-3008
~ ~
51-219 SI A/C 1 210 130-2A F3 CK C E2' 0 35~ RO - E4 - SIT DUMP SS-ST SI-3015 RW 220 RW C 3 M-100-1 F3 RL R 0 75 T SP OM - - PE ST-VX 3008 SI-220 SI A/C 1 210-130-2A C3 CK C 12 - - 0 FS RO - E4 SIT DUMP SS ST-SI-3015 SEE NOTE #7 51 220 SI A/C 1 210 130-2A C3 CK C 52 - C " FS CS* - E4 PIV OP ST-SI-3013 SEE NOTE #7 I S1 220 51 A/C 210-130-2A C3 CK C i2 L LT CS* - - OP-ST SI-3013 SEE NOTE #7 SI-220 SI A/C 1 210-130-2A C3 CK C 12 - - 0 PS CS - E4 OP ST SI-3003 SEE NOTE #7 RW 221 SI-221 RW C 3 M-100-1 E3 RL R 0.75 - - T j OM - - PE ST-VX 3008 SI C 2 210-130 2 E3 RL R 1 - - T SP OM - - PE-ST-VX 3005 RW-222 RW C 3 M 100 1 D3 RL R 0 75 - T SP OM - - PE ST-VX-3008
~~~ ~
RW-223 RW C 3 M 100-1 C3 RL R 0.75 7 - T SP OM - - PE-ST-VX 3008 HCV-238 CH B l' 210 120 li DS GL A 1 NO F0 C ST Q Y - OP-ST-CH-3001 , HCV-238 CH B i 210-120 1A D5 GL A 2' ' NO FO O S 7 Y - OP-ST-CH 3001 , HCV-238 CH B 1 210 120-1A CS GL A 2 NO FD - VPI 2YR Y - OP-ST VX 3008
.R3 September 1, 1995 Page 167 of 280
__ _ _ _ _ . , - ~ . - - _ . _ - . _ . - _ . _ _ .. . . _ - . _ _ _ _ _ _ . . ~_ _ _ . . - - _ .. _
i i
~~
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX ~ - VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPd TEST iPI CODE I, - 7 IRaeER S
. ._YS -_ CAT _. CLASS P&lD INATES TYPE TYPE SIZE _* ' ._POS .. -
P0f
. . _ _ _ _ M. . ___._ ._T3EliEU_ . _ _ _ _____
TEST EXPT REMARKS
] HCV-239 CH 8 1 210-120-1A A5 GL A 2 NO FO O ST Q Y -
OP-ST-CH-3001
} HCV-239 CH B 1 210-120 1A A5 GL A 2 NO F0 C ST Q Y -
OP-ST-CH-3001 l HCV-239 CH T 1 210-120 1A A5 GL A 2 E~ T - VPI 2YR Y - OP-ST-VX-3008 j HCV 240 CH B 1 210-120 1A B5 GL A. 2 NC FC C ST CS Y J17 OP-ST-CH 3005 4 HCV-240 CH B 1 210-120 1A B5 GL A 2 NC FC 0 ST J17 CS Y OP-ST-CH 3005 HCV 240 CH B 1 210 120-1A B5 GL A 2 NC WI
~ ~
FC 2YR Y - OP ST-VX-3009 SW 240 SW A/C 3 ". 2 2 B4 CK C 0.5 C FS
~'
Q - - IC-ST RW-3001 h- SW 240 SW A/C 3 M-259-2 B4 CK C 0.5 - T ii ~ 2iR - - IC-ST-RW-3001 i HCV 241- .CH A 2 210 120-1A ES GL A 0.75 NO FC L LT 2YR - - APPEICII J j HCV-241 CH A 2 210-120-1A E5 GL A 0.75 ' N0 FC C ST CS Y JIS OP-ST-CH-3005 j HCV 241 CH A 2 210-120-1A E5 GL A 0 75 NO FC - VPI 2YR Y - OP ST-VX-3009 SW-241 - SW A/C 3 M-259-2 BS CK C 0. 5' T - C FS Q - - IC ST RW-3001 U
' ~~
j SW-241 SW A/C 3 M 259-2 B5 CK C 0.5 - -
'li~ ~2iR - -
IC-ST-RW-3001
! SW 242 SW A/C 3 M-259-2 B6 CK C 05 ~T I C FS ' Q - -
IC-ST-RW-3001 SW 242 SW A/C 3 M 259-2 86 CK C 0.5 I I L 3~ '25R - - IC-ST-RW 3001
~~
- SW 243 SW A/C 3 M-259-2 B7 CK C 0.5 -
C FS Q - - IC-ST-RW 3001 > SW-243 SW A/C 3 M-259 2 B7 CK C 0.5 - - L LT 2YR - - IC-ST-RW-3001
'. HCV-247 CH B 2 210 120 1A C5 GL S- 2 E ' F0 T lI ~~ Q Y -
OP ST-CH 3001 E~ ' 55 0 Si
'~
f HCV-247 CH B T 210-120-1A C5 GL S 2 Q Y - OP-ST-CH-3001 HCV-247 CH B 2 210-120-1A C5 5 i f . GL NO F0 - VPI 2YR Y - OP ST-VX-3008 4 HCV-248 CH B _2 210-120-1A A5 GL S 2 NO F0 C ST Q Y - OP-ST-CH-3001 . HCV-248 CH B 2 210 120 1A A5 GL S 2 NO FO O ST
~
~
Q Y - OP ST CH-3001 HCV-248 CH B 2 210 120-1A - A5 . GL S 2 U" F0 -
~ [PI~~1 2VR Y -
OP ST-VX-3008 } HCV-249 CH B 1 210-120-1A - 85 GL S '2 'T FC 0 ST CS Y J17 OP-ST CH 3005 3 HCV 249 CH B 1 210-120-1A B5 GL 5 k NC FC C ST CS Y J17 OP-ST-CH-3005 HCV-249 - CH B 1 210 120-1A B5 GL S 7 IIC FC - VPI 2YR Y - OP-ST-VX 3009
]
~
[ SA 252 B120F07001-2 SA 253 SA SA C C 3 B120F07001-2 DS 05 CK CK C C 0.25 0.25 - C C F{ FS Q - - DG START ACCEPT OP ST-DG 0002 - Q - - DG START ACCEPT OP-ST-DG-0002
- RW-254 W A/C 3 M-100 1 C4 - CK C 0.75 - -
0 FS Q - - IC ST-RW-3001 .i { RW-255 W A/C 3 M-100-1 E4 CK C 0.75 - 0 i5~ Q - - IC-ST RW-3001 RW-256 W A/C i 3 M 100-1 D4 Ot C 0.75 - O FS Q - - IC-ST-W-3001 j- HCV-257 CH B 2 210-121-1 D7 GL A 2 N0 tC C ST Q Y - OP-ST-CH-3001 } EV 257 CH B 2 210-121-1 D7 GL A 2 NO FC - VPI 2YR Y - OP ST-VX-3008
- W-257 . RW A/C 3 M 100-1 ES- CK 'C 0 75 - -
0 FS~ Q - - IC ST RW-3001 j HCV-258 CH B 2 210-121-1 ' B5 GA M 3 NC FAI O ST Q Y - OP ST CH-3001 3 R3 Septecher 1.-1995- Page 168-of 280-
, . , - _ . u ._ _ _ . , _ _ . _ _ . _ _ . . _ _ _ . _ . _ _ _ _ . _ . __ .. - . . _ - _ . . -_. - _ - ~ . -
1 i TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE N0bi [ AIL ' TEST TYE ~ TEST' VPI CODE NLM ER SYS _ CAT CLASS P&lD INATES TYPE TYPE POS POS REQ TEST FREQ TEST EXPT REMARKS SIZE _- ___ __ ._ __ __ HCV 258 CH B 2 210-121-1 B5 GA M 3 NC FA! VPI 2VR f - OP-ST-VX 3008
- HCV 264 CH B 2 210 121-1 D4 GL A 2 NO FC C ST Q Y -
OP-ST CH-3001 ] HCV-264 CH B 2 210-121-1 D4 GL A ' 2 NO FC - VPI 2YR Y - OP ST VX-3008 l HCV-265 CH B 2 210-121-1 B3 GA M 3 ~F W 0 T Q Y - OP ST CH-3001 HCV 265 CH B 2 210 121-1 B3 GA M 3 NC FAI - VPI 2YR Y - OP-ST VX 3008 HCV-268 CH B 2 210 121-2 B4 GA M 3 NC FAI O ST CS Y J18 OP-ST-CH-3005 HCV 268 CH B 2 210 121-2 B4 GA M 3 NC FAI - VP! 2YR Y - OP-ST VX 3009
~
T FCV-269 CH B 2 210 121 1 C7 GL A 3' FC E 'ST~~ [ Y - OP-ST-CH 3001 FCV-269 CH B 2 210-121-1 C7 GL A 3 A FC - VPI 2YR Y - OP-ST-VX-3008 MS 275 MS C 2 M 252-1 F8 RL R 6 - T SP RO - - SS-ST-MS-3003 MS 276 MS C 2 M-252-1 F8 RL R 6 T SP R0 SS ST-MS 3003
~ ~
MS 277 MS C 'E M-252-1 F7 RL R ' 5' - T ~ 5P 'R'd ' - - SS ST-MS-3003 T "l i' MS-278 MS' ' M-252-1 F7 RL R 6 -
~5ia Itd - -
SS-ST-MS-3003 MS-279 MS C 2 M 252-1 E8 RL R 6 T SP R0 SS ST MS 3003 Ms.2go MS T~] M.252-1 E7 RL R ~'6 - - T SP ito - SS-ST-MS-3003 T l
~
VA-280 VA 'M 1-2 AB BU H 4 LC L LT 2VR - - APPENDIX J T ~ ' '~ ' ~
^
MS-281 MS 2 M-252-1 E7 RL R 5 T Pi ~ ' ito - SS-ST-MS-3003 MS 282 MS ' T I M 252 1 E6 RL R 6 -
~'~
E SP' RO - - SS ST t*S-3003 SA-282 SA C 3 B120F07001-1 B7 CK C 0.5 C FS Q - - IC-ST-SA-3001 AC-283 CCW C[ ] M-40-1 G7 RL R DI75 T SI' OH - - PE-ST 71-3007 AC-284 CCW C . _2 M 40-1 G7 RL R 0.75 - - T SP OH - - PE-ST-VX 3007 AC 285 CCW C 2 M-40 1 F6 RL R 0 75 - - T SP OH - - PE-ST-VX-3007 SA-285 SA C 3 B120F07001-1 F7 CK C 0. 5'" - C FS Q - - IC-ST SA 3031
- ~
~~
AC-286 CCW C 2 M-40-1 r'5 RL R 0.75 T -5F ' OM - - PE-ST VX-3007 VA 287 VA C 3 M-1 2 B6 RL R 2 - T SP ON - - PE-ST-VX-3010 SA-288 SA C 3 B120F07001 T B7 CK C 05 - C FS Q - - IC ST SA-3001
~
VA-288 VA C ~T M-1 2 B5 RL R 2 - T SP OM - - PE ST-VX-3010 VA 289 VA A "2 M-1 2 AB BU H 1 LC L U 2YR - - APPENDIX J MS 291 MS C 2 M 252-1 F7 RL R 25 - - T SP RO - - SS-ST-MS-3004
~l
- ~ '
SA-291 SA C B120F07001-2 F7 CK C 0[5 - - C FS Q - - IC-ST-SA-3001 MS-292 MS C 2 M 252 1 E7 RL R 2.5 !~~ - T ~$P R0 - - SS-ST-MS-3004 SI 298 SI C 2 210-130-1 D3 RL R 1 - - T SP OM - - PE ST VX 3009 SI-299 St C E' 210 130-1 D4 RL R ~1
^
T 3 ~ OM - - PE-ST-VX-3009 51 300 SI C 2 210 130-1 B4 CK C 2 - - 0 F5 ~ Q - - OP-ST-SI-3008 51-301 SI C 2 210-130 1 D4 CK C 2 - - 0 FS Q - - OP-ST-SI-3008 R3 September 1. 1995 Page 169 of 280
.. ~ ~ .. -- _ . .~ . . - . -- .- .- - . - - - . - . - -. - --- -- -- - --- ---- - - - - - - - - - - - - - - - - - - - , - - - - - - -
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX
' ~
VALVE COORD- VALVE OPER VALVE NORM FAIL ~ TEST TYPE TEST VPI CODE
~~
NLM ER SYU CAT CLASS P&ID INATES TYPE TYPE SIZE * . , __S. PO POS REQ TEST 'FREQ TEST EXPT REMARKS 51-302 51 C 2 210-130 1 F4 CK C 2 0 FS Q - - OP ST SI-3008 51 303 SI C 2 210-130-1 E4 CK C 2 - - 0 FS Q - OP-ST-SI-3008 51 304 SI C 2 210 130 1 A4 CK C 2 - i IS "Q - - OP ST-SI-3008 SI-306 SI A 2 210-130 1 D7 GA H 6 LC L LT 2YR - - SE ST-SI-3005 HCV-308 SI B 2 210-130-1 D6 GA M 2 NC FAI O ST Q Y - OP-ST SI-3001 HCV 308 SI B 2 210 130-3 D6 GA M 2 NC FAI VPI 2YR Y - OP-ST-VX-3019 51-309 51 C 2 210-130-1 D5 RL R 1 T SP OM - - PE ST VX-3009 SI 310 SI C 2 210-130-1 l D3 RL R 1 T SP OMj - - PE-ST-VX-3009 HCV 311 51 B 2 210-130-2A C3 GL M 2 NC FAI O ST Q Y - OP-ST-SI 3001 SI HCV 311 B _2 210 130 2A C3 GL M 2 . NC FAI VPI 2YR Y OP ST-VX-3018 HCV-312 SI B 2 210 130-2A C4 GL M 2 NC FAI O ST Q Y - OP-ST-SI-3001
~ '
HCV 312 SI B 2 210-130-2A C4 GL M 2 T ~FII ~51 T iR' 2 Y - OP ST VX 3018 e 1 HCV-314 SI B 2 210-130 2A C5 GL M 2 NC FAI O ST Q Y - OP-ST-SI-3001 HCV 314 SI B 2 210 130-2A CS GL M 2 E FAI ~51 '2iR Y - OP-ST-VX-3018 HCV-315 SI B 2 210-130-2A CS Gt- M f' 2 NC FAI O ST Q Y - OP-ST-SI-3001 HCV-315 SI B 2 210 130-2A C5 GL M 2 NC FAl - VPI 2YR Y - OP ST-VX 3018 HCV-317 SI B 2 210-130 2A C8 GL M 2 ~E FAI O ST Q Y - OP-ST-SI-3001 HCV 317 SI B 2 210-130-2A Co GL M 2 NC FAI - VPI 2YR Y - OP ST-VX 3018 HCV-318 SI B 2 210-130 2A C8 GL M i U ~iII O S'1 Q Y - OP-ST-SI-3001 HCV-318 SI B 2 210-130-2A CB GL M 2 NC FAI - VP! '2ilt Y - OP ST-VX-3018 i HCV 320 SI B 2' 210 130 2A C6 GL M 2' W FAI O ST
~
Q Y OP ST-SI-3001 j HCV 320 SI B 2 210-130-2A C6 GL M 2 NC FAI - VPI 2YR Y - OP-ST VX-3018 HCV-321 SI B 2 210-130-2A C7 GL M 2 NC FAI O ST Q Y - OP-ST-SI-3001 HCV 321 SI B E210-130-2A C7 GL M i F FAI -
'd!' ' 27R Y -
OP-ST-VX-3018 SI 323 SI C 2 210 130-3 E6 CK C 4 - - 0 FS RO - J20 OP-ST-SI-3007 51 323 SI C 2 210 130 3 E6 CK C 4 - C FS RO - J20 SE ST SI 3010 , HCV 327 SI B 2 210-130-2A C3 GL M i ~ NC FAI O ST Q Y - OP-ST-SI-3001 HCV 327 SI B 2 210 130-2A C3 GL M 4 NC FAI - VP1 2VR Y - OP-ST-VX 3018 HCV 329 SI B 2 210-130-2A C4 GL M 4 NC FAI O ST - Q Y - OP-ST-SI 3001 HCV-329 51 B 2 210-130-2A C4 GL M 4 T' FAI - 81 ' 2YR Y - OP ST-VX-3018 HCV-331 SI B 2 210-130 2A C7 GL M 4 NC FAI O ST Q Y - OP ST-SI 3001 HCV-331. SI B 2 210-130 2A C7 GL M 4 NC FAI - VPI 2YR Y - OP-ST VX-3018 HCV 333 SI B 2 210 130-2A C6 GL M i U FAI O iT Q Y - OP ST-SI 3001 HCV-333 SI B 2 210-130 2A C6 GL M 4 NC FAI VPI 2YR Y - OP-ST VX-3018
~
AC-341 CCW s C 3 M-10-2 C3 RL R 1 - T Wl OM - - PE ST VX-3001 R3 September 1, 1995 Page 170 of 280 _. ,. - -__ _ _, ._. ~ ____ _ _ _ _ _ _ _ - . ~ . . . - .
I 4 TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX ~ VALVE COORD- VALVE OPER VALVE NORM FAIL ~ TEST TYPE TE'S'I di' CODE NiteER SYS CAT CLASS P&lD INATES TYPE TYPE SIZE " POS POS REQ TEST FREQ TEST EXPT REMARKS
~~
SI 342- il 2 210-130-1 E7 GL H 1 LC j - 7 Li ~ 2YR - - SE-ST-SI 3005 51-343 SI C 2 210 130-3 D6 CK C 2 - - 0 FS RO - J11 OP-ST-CH 3006 HCV-344 SI B 2 210-130-1 08 BL A 8 NC F0 O ST CS Y J21 OP-ST SI-3002 HCV 344 SI B 2 210 130 1 DB BL A 8 NC F0 C ST CS Y J21 OP ST-SI-3002
- HCV-344 8 2 210 4 30-1 DB BL A 8 NC ~}0 YI 2YR Y OP-ST-VX-3019 i
V NG-HCV 344 52 NG C 2 C-4175-5 E2 RL R 0.75 T ' OM - - PE-ST-VX-3006 Y
~~
j HCV 345 SI B 2 210 130-1 88 ' BL A 8 F0 T ST 5~ Y J21 OP ST SI-3002 j- HCV-345 SI B 2 210-130 1 D8 BL A 8 F0 VPI NC 2YR Y - OP-ST-VX 3019 HCV-347 SI A 1 210-130 3 F7 GA M 10 LC FAI L LT 2YR - - APPENDIX J l HCV 347 SI A 1 210 130 3 F7 GA M 10 LC FAI C ST CS Y J22 GP ST-SI-3002
- HCV-347 SI A 1 210 130 3 F7 GA M 10 LC FAI -
VPI 2YR Y - OP-ST-VX 3019-l HCV 348 - SI A 1 210-130-2A C2 GA M 12 LC FAI L LT 2VR - - APPE E IX J 1 HCV-348 SI A 1 210-130 2A C2 GA M 12 LC FAI C ST CS Y J22 OP ST-SI-3002 HCV-348 St A 1 210-130 2A C2 GA M 12 LC FAI - VPI 2VR Y - OP-ST-VX-3019
~ ~~
$ MS-351 MS C 3 M-252-1 E5 CK C 2 T 0 FS Q - SE-ST-AFW 3006 j MS 352 MS C 3 M-252-1 E5 CK C 2 - 0 FS Q - - SE-ST AFW-3006
~~ ~ '
AC-364 CCW C 3 M 10 2 - 04 RL R 2' T T OM - - PE-ST-VX-3001 i 2-374 RC A/C 1 210-110-1A E4 CK C 4 - C FS R0 - J44 OP-ST SI-3007 RC 374 A/C 210-110 1A
, HCV-383 3 RC SI A 1
2 210-130-3 E4 B7 CK BU C M 4 24
][ - NC FAI L
O L{' ST 2VR CS Y J40 OP-ST SI-3007 OP ST-SI 3002 HCV-383-3 SI A 2 210 130 3 B7 BU M 24 NC FAI L LT 2YR - - APPEh0IX J i HCV-383-3 SI A 2 210-130-3 B7 BU M 24 NO F0 VPI 2YR Y - OP-ST-vX-3018 j HCV-383-4 SI A 2 210-130-3 B7 BU M 24 NC FAI O ST CS Y J40 OP ST-SI-3002 HCV 383 4 SI A 2 210-130-3 B7 BU M 24 NC FAI L LT 2YR - - APPE W IX J HCV 383 4 SI A 2 210-130-3 87 BU M 24 F0 ~TP V 2YR Y OP ST-VX-3018
)
LCV 383-1 .51 A 2 210 130-1 D1 BU A 20 NO F0 C ST CS Y J40 OP-ST-SI-3002 ^ LCV-383-1 SI A I 210-130-1 02 BU A 20 E F0 - 51 2VR Y - OP-ST-VX 3018 LCV-383 1 SI A 2 210-130-1 D1 BU A 20 NO FO O Si CS Y J40 OP-ST-SI-3002 LCV-383 1 51 A 7 210-130 1 D1 BU A 20 ' NO F0 L Li' ' 2YR - - SE-ST-SI 3005' LCV-383 2 51 A 3 210-130-1 02 BU A 20 5~ FO O li~ CS Y J40 OP-ST-SI-3002 LCV 383 2 St A 2 210-130-1. D2 BU A 20 NO F0 C- ST CS Y J40 OP-ST-SI 3002-
~
, LCV 383-2 SI A 2 210-130-1 02 BU A 20 NO F0 L LT 2YR - - SE-ST-SI 3005 LCV-383-2 SI A 2 210-130-1 D2 BU A 20 NO - FO - VPI 2YR Y - OP-ST-VX-3018 NG LCV-383-1 52- MG C 3 C-4175-5 E2 - RL R 0.75 - - T 'SP OM - - PE-ST-VX-3006 'I NG-LCV 383-2 52 NG C 3 C 4175-5 E2 RL R 0.75 - - T ' SP OM - - PE ST-VX 3006-I R3 September 1, 1995- Page .171. of. 280 l
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE' NORM FA5'l TEST ' TYPE TEST VPI CODE NlH3ER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE
- POS POS REQ TEST FREQ TEST EXPT REMARKS
~ ~
HCV-385 S1 A 2 210-130-1 F4 GL A 4 N0' ' f0 0 ST CS T J3I OP ST-SI-3006 tCV-385 $1 A 2 210-130-1 F4 GL A i 5 ~fi~ C 'Y CS 'T J34 OP-ST-SI-3002 HCV-385 SI 5 2 210-130-1 F4 GL A I ~5 ' FU' ' ~ ~I U~ 2iR - SE-ST SI-3005 HCV 385 SI A 2 210 130-1 F4 GL A T U~' lU" ~I ' VI' '5YR Y OP-ST-VX-3018 tEV 386 _ SI ._ _ A _2 210-130-1 F4 GL A 4 NO FO C ST CS Y J34 OP-ST-SI-3002 HCV-386 St A 2 210-130-1 F4 GL A 4 NO F0 0 ST CS Y J34 OP ST-SI-3002 HCV-386 SI A 2 210-130-1 F4 GL A 4 NO F0 L LT 2VR - SE-ST-SI-3005 HCV-386 SI A I 210-130-1 F4 GL A 4 5' F0 -
~
VEI ' 2VR Y - OP ST VX 3018 AC 391 CCW A/C 3 M10 SH 2 B4 CK C ~5 1 0 IS~ U~ SE-5)-CCW-3003 AC 391 CCW A/C 3 M10 SH 2 B4 CK C 15 '~ U ' ' F5 Q' - - SE-ST-CCW-3003 AC-391 CCW A/C 3 M10 SH 2 B4 CK C 15 - 1 LI Q SE-ST CCW 3003 HCV 400A CCW B 2 M-40-1 C7 BU A 8 NO F0 0 ST Q Y OP-ST CCW 3005 HCV 400A CCW B 2 M-40-1 C7 BU A 8 NO F0 C ST Q Y - OP-ST-CCW-3005
^
_]
~
HCV 400A CCW H-40-1 C7 BU A 8 ii0 ~U F VPl 2YR Y - OP ST-VX-3007 NG-HCV 400A-52 NG C 3 C-4175-6 F2 RL R 0 25 T SP OM - PE-ST VX 3006 HCV 4008 CCW 8 2 M-40-1 B7 BU A 8 NO F0 0 ST Q Y 0P ST-CCW-3005
- 1 HCV 4008 CCW B 2 M-40-1 B7 BU A 8 NO F0 -
VPI 2YR Y - OP ST VX 3007
~' ~
G-HCV-400E 52 NG 3 C-4175-6 F2 RL R 0 25 T 5 OM - - PE ST-VX-3006 HCV-400C CCW B 2 M 40-1 02 BL A 8 NO F0 0 ST Y - IOP-ST-CCW-3005 Q HCV 400C CCW B 2 M-40-1 D2 BL A 8 NO F0 C ST Q Y - OP-ST CCW 3005 HCV-400C CCW B 2 M-40-1 D2 BL A 8 NO F0 VPI 2YR Y OP-ST-VX-3007 HCV 4000 CCW B 2 M-40 1 B2 BU A 8 NO F0 0 ST Q Y - OP-ST-CCW-3005 HCV 4000 CCW B 2 N 40 1 B2 BU A 8 NO F0 VPl 2YR Y - OP ST-VX-3007 HCV-401A CCW B 2 M 40-1 C7 BU A 8 NO F0 O ST Q Y - OP ST-CCW 3005
~
HCV 401A CCW B M-40-1 C7 BU A I 5 'FO C 5T l Y - OP-ST-CCW 3005 HCV-401A CCW B 2 M-40-1 C7 BU A 8 N0 F0 - VPI 2YR Y - CP-ST-VX-3007
~ ~ ~ ~
NG HCV-401A 52 NG C 3 C-4175-6 F2 RL R 0.25 I T ~ SP 0M - - PE ST-VX-3006 HCV-4018 CCW B 2 M-40-1 B7 BU A 8 h0 F'U~ 0 5i ~Q Y - OP-ST CCW 3005 HCV-4018 CCW B 2 M-40-1 B7 BU A 8 NO F0 VPI 2VR Y OP-ST-VX-3007 NG-HCV-4018-52 NG C ,3 C-4175-6 F2 RL R 0.25 - T
~
SP OM - - PE-ST-VX 3006 HCV-401C CCW B 2 M 40-1 D3 BL A 8' NO FO O ST Q Y OP-ST-CCW 3005 FEV-401C CCW B [ M-40-1 D3 BL A i W'W blI Q Y - OP ST-CCW 3005 HCV-401C CCW B i M-40 1 D3 BL A B ' ' U~ F0 - 51~ 2YR Y - OP-ST VX-3007 HCV 401D CCW B 2I M-40 1 B3 BU A 8 NO FO O ST Q Y - OP-ST CCW-3005 f VPI
~
ICV 401D CCW B M-40-1 B3 BU A 8 'C FO 2YR Y - OP-ST VX 3007 R3 September 1. 1995 Page 172 of 280
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX yg ~~1 ~
~
COORD- VALVE OPER VALVE fiORM FIIL IEST TYPE ES'Ti'PI COUE NUPEER SYS CAT CLASS P&lD INATES TYPE TYPE SIZE - POS POS REQ TEST FREQ TEST EXPT REMARKS HCV-402A h B 2 M-40-1 C6 BU A 6 NO
~
F0
~'
O
~
ST Q [ OP-ST-CCW-3005 HCV-402A CCW B 2 M-40 1 C6 BU A 6 NO F0 C ST Q Y - OP-ST-CCW 3005 HCV-402A CCW B 2 M-40-1 C6 BU A 6 NO F0 VPI 2YR Y - OP-ST-VX-3007 ,. E HCV-402A-52 E . C 3 C 4175-6 E2 RL R 0.25 T SP OM - - PE-ST-VX-3006 HCV 4028 CCW 8 2 M-40 1 B6 BU A F0 0 ST Q Y - OP-ST-CCW 3005 HCV 402B CCW B 2 M 40-1 6l NO B6 BU A 6 NO FO VPI 2YR Y - OP ST-VX-3007 E-HCV 4028 52 NG C 3 C-4175 6 E2 RL R 0.25 - T SP OM - - PE-ST VX 3006 U HCV-402C CCW' B 2 H 40 1 D4 BL A 6 FU ~ T ST ' T Y - OP-ST-CCW-3005 HCV 402C CCW B 2 M-40 1 04 BL A 6 NO F0 C ST Q Y - OP-ST-CCW-3005 HCV-402C CCW B 2 M 40-1 D4 BL A 6 NO F0 - VPI 2YR Y - OP-ST VX-3007 HCV-402D CCW B 2 M-40-1 D4 BU A 6 NO FO O ST OP-ST-CCW-3005 Q Y - HCV-402D CCW B 2 M-40-1 D4 BU A 6 NO F0 - VPI 2YR Y - OP ST-VX 3007
~
HCV-403A CCW B 2 M-40 1 CS BU A 6 NO lU' U' ~S'T' ~ Q Y - OP-ST CCW 3005 HCV 403A CCW B 2 M-40 1 C5 BU A 6 ~d id 7 ST 5 Y - OP-ST-CCW 3005 HCV-403A CCW B i M 40 1 C5 BU A E 5 lb V'P I '2'YR Y - OP-ST VX-3007 NG-HCV 403A-52 NG C 3 C-4175 6 E2 RL R 0.25 - - T SP OM - PE ST-VX 3006 HCV-4038 CCW B 2 M 40-1 B5 BU A 6 NU F0 U Q Y - OP-ST-CCW 3005 HCV-4038 CCW B 2 M-40 1 BS BU A 6 N0 F0 y 2YR Y - OP-ST-VX-3007 3 HCV-4038 52 NG C _3 C-4175-6 E2 RL R 0.25 T SP
. ___ J - -
PE-ST-VX-3006 HCV-403C CCW 8 2 M-40-1 D4 BL A 6 NO F0 0 ST Q Y - OP ST-CCW-3005 HCV-403C CCW B 2 M 40-1 D4 BL A 6 NO F0 C ST Q Y - OP-ST CCW-3005 HCV-403C CCW B 2 M 40-1 D4 BL A 6 NO FO VPI 2YR Y - OP-ST VX-3007 HCV-4030 CCW B 2 M-40-1 84 BU A 6 NO F0 0 ST Q Y - OP-ST-CCW-3005 HCV-403D CCW B 2 M-40 1 B4 BU A 6 NO F0 - VPI 2YR Y - OP-ST VX-3007 HCV 425A CCW A 2 M-40-3 C6 GL A 3 NO FC C ST CS Y J23 OP-ST-CCW-3004 HCV-425A CCW A[ 2 M-40 3 C6 GL A 5 ' U~ ~ FC L TT 2YR - - APPENDIX J HCV-425A CCW A 2 M-40 3 C6 GL A 3 5 ' FC - VPI 2YR Y - OP-ST-VX-3006 HCV-4258 CCW A 2 M-40-1 D1 GL A 3 NO FC L LT 2YR - - APPE WIX J HCV-4258 CCW A
~
I M 401 D1 GL A '3' IU FC C SI CS Y J23 OP-ST-CCW 3004 HCV 4258 CCW A 2 M-40 1 01 GL A I ~E FC -
~V i)I 2YR Y -
OP-ST-VX-3006 HCV-425C CCW A 2 M-40-3 85 GL A 3 NO FC C ST CS Y J23 OP-ST CCW 300' HCV-425C CCW A i M 40 3 85 GL A 3 NO FC L LT 2YR - - APPE W IX J HCV-425C CCW A 2 M-40-3 B5 GL A 3 NO FC - VPI 2YR Y - OP-ST VX-3006 HCV 4250 CCW A 2 M 40-3 B5 GL A 5~d FC L LT
~
2YR - - APPE21X J HCV 425D CCW A 2 M-40-3 B5 GL A 3 NO FC - VPl 2YR Y - OP ST-VX 3006 R3 September 1. 1995 Page 173 of 280
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE Y S'T VPI CODE IOBER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE
- POS POS REQ TEST FREQ TE'T EXPT REMARKS HCV-425D CCW A 2 H-40 3 B5 GL A 3 NO FC C ST CS Y J23 OP-ST-CCW-3004 HCV-438A CCW A 2 M-40-2 FB GL A 6 NO F0
~
C ST CS Y J24 OP-ST CCW-3004 HCV-438A CCW A 2 M-40-2 FB GL A 6 NO F0 L LI ' 2YR - - APPENDIX J HCV-438A CCW A 2 M 40-2 F8 GL A 6 F0 0 NO
~
ST CS Y J24 OP ST-CCW-3004 HCV-438A CCW A 2 M-40-2 FB GL A 5 5 IO ' 'WI '2YR Y - OP-ST-VX-3006 HCV 4388 CCW A 2 M 401 A6 GL A 6 ~5 Fi 0 iT ' 'CU V J24 OP-ST-CCW 3004 HCV 438B CCW A 2 M-40 1 A6 GL A 6 NO F0 L LT 2VR - - APPENDIX J HCV-438B CCW A 2 M-40-1 A6 GL A 6 F0 NO C ST CS Y J24 OP-ST-CCW-3004 CCW T
~
HCV-4388 2 M-40-1 A6 GL A 6 IiG ~ FU ~ VEI 5R Y - OP ST VX 3006 NG-HCV-4388-52 NG C 3 C 4175 6 D2 RL R 0.25 - - I SP OM - - PE-ST VX-3006 HCV-438C CCW A 2 M 40 2 F2 GL A 6 NO F0 C J24 ST CS Y OP-ST CCW 3004 HCV 438C CCW A 2 M-40 2 F2 GL A 6 NO F0 L LT 2YR - - APPENDIX J
~
HCV 438C CCW A 2 M-40-2 F2 GL A 6 IU ' TO ' 0 ST CS Y J24 OP ST-CCW-3004 HCV-438C CCW T 2 M-40-2 F2 GL A 5 '5' F0 ~T VPI 2YR Y - OP-ST-VX 30(,6 HCV 438D CCW A 2 H-40 1 A3 GL A 6 NO F0 C ST CS Y J24 OP ST-CCW-3004 HCV-4380 CCW A 2 M-40 1 A3 GL A 6 NO F0 L LT 2YR - - APPENDIX J HCV-438D CCW A 2 M-40-1 A3 GL A 6 NO FO O ST J24
~ ~
CS Y OP ST-CCW-3004 HCV-4380 CCW A 2 M-40-1 A3 GL A 6 U~ F0 VPl ' 2YR Y - OP ST-VX 3006 NG HCV-438D-52 NG C 3 C 4175 6 D2 RL R 0.25 T SP OM - PE-ST-VX 3006 HCV-467A CCW A 2 M-40-3 E3 GL A 1.5 NO FC L LT 2VR - - APPENDIX J HCV-467A CCW A 2 M-40 3 E3 GL A 1.5 3 FC C 5I Q Y - OP ST-CCW 3004 HCV-467A CCW A 2 M-40 3 E3 GL A 1.5 NO FC - VPI 2YR Y - OP-ST-VX 3006 HCV-467B CCW A 2 M-40-1 A3 GL A 1.5 NO FC L LT 2YR - - APPENDIX J HCV-467B CCW A 7 M-40-1 A3 GL A 1.5
~
i FC C 5i Q Y - OP-ST-CCW-3004 HCV-467B CCW A 2 M-40 1 A3 GL A 1.5 T~ FC - T I' 2'Yli Y OP ST-VX 3006 HCV-467C CCW A I M-40 3 El GL A 11 5 FC L LT 2YR - APPENDIX J HCV 467C CCW A 2 M-40-3 El GL A 1.5 NO FC C ST Q Y - OP-ST CCW 3004 HCV-467C CCW A 2 M-40 3 El GL A 1.5 NO FC - VPI 2YR Y - OP-ST-VX 3006 HCV-467D CCW A TM 40-1 A2 GL A 1.5 ' W FC C ST Q Y - OP ST-CCW-3004 HCV-4670 CCW A 7 M-40 1 A2 GL A 1.5 5' FC L [ iR~ - - APPEEIX J HCV 467D CCW A 2 M-40-1 A2 GL A 1.5 NO FC - VPI 2YR Y - OP ST VX 3006 CH-469 CH C 1 210-120-1A BS CK C 2 - 0 PS CS - J11 SE-ST-CH-3003 CH-469 CH C 1 210 120 1A BS CK C T - 0 ' W RO - J11 OP-ST-CH-3003 HCV 474 CCW B 3 M-10-3 FB GL A 2 IiO~ FO O Si~ Q Y - OP-ST-CCW-3001 HCV-474 CCW B 3 M 10-3 F8 GL A 2 NO F0 -
'~VTP 2YR Y -
OP-ST-VX-3006 R3 September 1. 1995 Page 174 of 280
-. - . = . - -. .- , - . . .- - - - --
i TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE CPER VALVE NORM FAIL TEST TYPE TEST VPI CODE NLBBER SYS CAT CIASS P&lD INATES TYPE TYPE SIZE
- POS POS REQ TEST TEST EXPT 3 FREQ REMARKS
~ ~ ~
~
HCV-478 CCW B 3 M-10-3 D2 BU A B NO~ ' Fd~ C li Q T - OP-ST-CCW-3001 HCV-478 CCW B 3 M-10-3 02 BU A B ~E FO O ST Q Y - OP-ST-CCW 3001 HCV 478 CCW B 3 M-10 3 D2 BU A B NO F0 VPI 2YR Y - OP-ST-VX-3005 HCV 480 CCW B 3 M-10-3 C6 BU A 14 NO FO O ST Y OP ST CCW 3001 Q - HCV-480 CCW B' 3 M-10-3 C6 BU A 14' ~5'~ ~id - VPI 2YR Y - OP-ST-VX-3005 NG HCV 480-52 NG C 3 C-4175-6 B2 RL R 0.25 - T SP OH - - PE-ST VX-3006
' ~
HCV-481 CCW B 3 M 10-3 B7 BU A 14 N0' ' F0 0 ST T Y - OP ST-CCW-3001 HCV-481 CCW B 3 M 10-3 B7 BU A 14 NO FO - VPI 2YR Y - OP ST-VX-3005 E HCV-481-52 NG C 3 C-4175-6 B2 RL R 0 25 - T SP 0M - - PE-ST VX-3006 HCV-482A RW 3 M 10-3 HCV-482A RW _ _ B_ B 3 M-10-3 C5 BU A 14 NC F0 _0_ ST RO Y J41 OP-ST RW-3003 CS BU A 14 NC F0 VPI 2YR Y - OP ST VX-3017 HCV-482B RW B 3 M 10 3 A4 BU A 14 5 "id' ~5" ~ ~SY RO Y J41 OP ST RW-3003 HCV-4828 RW B 3 M-10 3 A4 BU A 14 NC F0 - VPI 2YR Y - OP-ST-VX 3017 HCV 483A RW B 3 M 10-3 87 BU A 14 NC FO O ST RO Y J41 OP-ST RW-3003 HCV-483A RW B 3 M 10-3 87 BU A 14 liC FU ' 7~ VPI 2iR Y - OP ST VX 3017 HCV-4838 RW B 3 M 10-3 AS BU A 14 NC F0 O ST RO Y J41 OP ST-RW-3003 HCV-4838 RW B 3 M-10-3 AS BU A 14 NC F0 VPI 2YR Y - OP ST-VX 3017 HCV-484 CCW B 3 M 10 3 B4 BU A 14 NO FO O ST Q Y - OP-ST-CCW 3001 G -484 CCW 3 H-10-3 B4 BU A 2fR HCV 485 CCW B 3 M-10-3 AS BU A 14,NO[{ 14 _ F0 F0 0 VPI ST Q Y Y - OP-ST-VX 3005 OP-ST CCW-3001 HCV 485 CCW B 3 M-10-3 A5 BU A 14 U FO - 31~ ' 2YR Y - OP ST-VX-3005 HCV-489A CCW B 3 M-10-3 B2 BU A 10 NO FO O ST Q Y - OP-ST CCW-3001 HCV 489A CCW B 3 M 10-3 B2 BU A 10 NO F0 VPI 2YR Y - OP ST-VX-3005 t HCV-4898 CCW 8 3 M 10 2 A6 BU A 10 NO FO O ST Q Y - OP-ST CCW-3001 HCV-4898 CCW B 3 M 10 2 A6 BU A 10 NO F0 - di~ 2YR Y - 0P ST VX-3005 i HCV-490A CCW B 3 M-10 3 B2 BU A 10 NO FO O ST Q Y - OP-ST-CCW-3001 HCV-490A CCW B 3 M 10 3 B2 BU A 10 NO F0 VPI ' 2YR Y - OP ST VX-3005 HCV-4908- CCW 8 3 M-10 2 A6 BU A 10 NO F0 0 ST Y OP-ST-CCW-3001 Q - HCV 490B CCW B 3 H 10 2 A6 BU A 10 NO F0 VPl ! ~ 2YR Y - OP-ST-VX-3005 HCV-491A CCW B 3 M 10 3 C2 BU A 10 NO FO O ST Q Y - OP ST-CCW-3001 HCV-491A CCW 8 3 M 10-3 C2 BU A 10 NO FO - VPI 2YR Y - OP-ST-VX 3005 HCV 491B CCW B 3 M 10-2 B6 BU A 10 NO F0 0 ST
~
Q Y - OP-ST-CCW 3001 HCV 4918 CCW B 3 M-10 2 86 BU A 10 NO FO VPI 2YR Y - OP ST VX-3005 HCV-492A CCW 8 3 M-10-3 C2 BU A 10 NO FO O ST Q Y - OP-ST-CCW 3001 HCV-492A CCW B 3 M 10-3 C2 BU A 10f NO FO - VPI 2YR Y - OP-ST-VX-3005 R3 September 1. 1995 Page 175 of 280
-. ~ ~ - -
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM L TFST VPI 55'TTEST l TYPE CODE NLMIER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE ' POS POS REQ TEST FREQ TEST EXPT REMARKS
~
HCV-4928 CCW B 3 M-10 2 C6 BU A 10 Nd ~ ~6F - T ST 'Q~ Y - OP ST-CCW 3001 E
~ '
HCV 4928 CCW B 3 M-10 2 C6 B9 A IU id ~ I' EI ' 2YR Y - OP-ST-VX-3005 HCV 500A W A 2 M 6-2 A6 DI A 4 NO FC C ST Q Y - OP-ST-WDL-3001 HCV 500A WD A 2 M-6 2 A6 DI A 4 NO FC L LT 2YR - - APPENDIX J HCV 500A W A 2 M-6 2 A6 DI A 4 NO FC - VPI 2YR Y - CP-ST-VX-3025 HCV 5006 WD A 2 M 6-2 A6 DI A 4 NO FC C 3T Q Y - OP-ST WDL-3001 HCV 5006 W A 2 M62 A6 DI A 4 NO FC L LT 2YR - APPENDIX J HCV 5006 WD A{ 2 M 6-2 A6 DI A 4 NO FC - VPI 2VR Y - OP-ST-VX-3025 HCV-506A WD A 2 M-7-1 A6 DI A 2 NO FC L LT 2YR - - APPENDIX J HCV 506A WD A 2 M-7-1 A6 DI A 2 NO FC C ST Q Y OP-ST WDL-3001
'~'
~i
~
HCV-506A WD A 2 M-7-1 A6 DI A 2 NO - VPI 2YR Y - OP-ST VX-3025 HCV 5068 2 A 2 M-1-1 A6 DI A 2 NO FC L LT 2YR - - APPENDIX J
~ ' ~'
HCV 5068 2 A 2 M71 A6 DI A 2 Nd FC C ' ' 5T Q Y - OP ST-WDL-3001 HCV-506B 2 A 2 M 7-1 A6 DI A 2 NO FC - VPI 2YR Y - OP ST-VX-3025 HCV-507A W A 2 M 98-3 F7 DI A 3 NO FC C ST Q Y - OP-ST-W L-3001 HCV-507A 2- A 2 M-98-3 F7 DI A 3 NO FC L LT 2YR - - APPEWIX J HCV-507A W A 2 M-98-3 F7 DI A 3 ~ E~ FC - VPI ' 2YR Y - OP-ST-VX-3025 HCV 507B WD A 2 M-98 3 F7 DI A 3 NO T C ST Q Y - OP-ST-WDL-3001 HCV-507B W A 2 M-98 3 F7 DI A 3 NO FC L LT 2YR - - APPEfOIX J HCV-507B WD A 2 M 98-3 F7 DI A 3
~
IE FC - VPI 2VR Y - OP-ST-VX-3025
~
HCV-5084 W A 2 M 98-3 C7 DI A 0.5 NO FC L LT 2YR - - APPENDIX J
~
HCV 508A 2 A 2 M-98 3 C7 DI A 0.5 - [ FC C ST Q Y - OP-ST-WDL-3001 HCV-508A W A 2 M 98-3 C7 DI A 0.5 NO FC VPI 2YR Y - OP-ST VX-3025 HCV-5088 W A
~
2 M 98 3 C6 DI A 0.5 NO FC L LT 2YR - - APPENDIX J HCV 50BB W A 2 M-98 3 C6 DI A 0.5 NO FC C ST Q Y - OP-ST-WDL-3001 HCV-50BB 2 A i M 98-3 C6 DI A 0.5 5 TC UI 2YR Y - OP ST VX-3025 HCV-509A E A I~ 2 _ M-98-3 B7 DI A 0.5 NO FC L LT 2YR - - APPENDIX J HCV 5094 W A 2 M 98-3 B7 DI A 0.5 NO FC C ST Q Y - OP-ST WDL-3001 HCV 509A W A 2 M 98-3 B7 DI A 0.5
^
~d FC -
Y~2YR Y - OP-ST-VX 3025 HCV-5098 W A 2 M-98-3 B6 DI A 05 ~d~ FC C ST Q Y - OP-ST-WDL-3001 HCV 5098 W A 2 M 98-3 B6 DI A U d' FC L U 2YR - - APPO O!X J HCV 509B W A 2 M-98-3 B6 DI A 0.5' 7~ FC - VP1 2YR Y - OP ST-VX-3025 4 ~E~
~
CA-555 CA A 2 M 13 F3 GA H - L LT 2YR - - APPENDIX J W FW-658 AFW C 3 M-254 2 D5 CK C 13 - - C Q - - MANbALLY EXERCISE OP ST-AFW 3006 FW-658 AFW C 3 M 254 2 05 . CK C 15 0 K Q - - MANUALLY EXERCISE OP ST-AFW-3006 R3 September 1. 1995 Page 176 of 280
TABLE 2.1 - FORT CALHOUF VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE' TES'T' VPI CODE IUSER SYS CAT CLASS P&lD INATES TYPE TYPE SIZE
- POS TEST EXPT REMARKS
_ . _ _ _ . _POS._. REQ _. TEST __FREQ FW 672 AFW C 3 M-253 4 B6 CK C 2 0 FS Q - - SE-ST-AFW 3006 A/HCV 742 VA A 2 M-1-2 08 DI A 1 NO F0 L LT 2YR - APPENDIX J 8/HCV 742 VA A 2 M-1-2 DB DI A 1 NO F0 L LT 2YR - - APPEEIX J C/HCV-742 VA A- 2 M-1 2 DB DI A [ NO FO L LT 2YR - - APPEEIX J 0/HCV-742 VA A 2 M-1-2 C8 DI A 1 NO F0 L LT 2YR - - APPENDIX J PCV-742A VA A 2 M-1-1 02 BU A 42 A FC L LT 2VR - APPENDIX J ! PCV-7428 VA A 2 M 1-2 C7 BU A 42 A FC L LT 2YR - - APPE WIX J M11 PCV-742C VA A 2 C2 BU A 42 A FC L LT 2VR - - APPE ElX J PCV 742D VA A 2 M-1-2 B8 BU A 42 A FC L LT 2YR - - APPE E!X J PCV-742E VA A 2 M-1-1 F2 DI A 1 A FC L LT 2YR - - APPENDIX J PCV-742E VA A 2 M11 F2 DI A i 5'iC~ VPI 2YR
~
Y - OP ST-VX-3024 PCV 742E VA A 2 M-1 1 F2 DI A ii l C i[ Q Y - OP-ST VA-3001 PCV-742F VA A 2 M 1-2 EB DI A _ _1._A FC L_ LT . _g - - APPENDIX J PCV-742F VA A 2 M 1-2 EB DI A 1 A FC C ST Q Y - OP-ST-VA 3001 PCV-742F VA A 2 M 1-2 E8 DI A 1 NO FC - VPI 2YR Y - OP-ST-VX-3024 PCV-742G VA A 2 M-1 1 E2 DI A 1 A FC C ST Q Y - OP-ST-VA-3001 PCV 742G VA A 2 M-1-1 E2 DI A l' 7 FC L li 2YR - - APPEN01X J PCV 742G VA A 2 M-1-1 E2 DI A 1 NO FC - VPI 2YR Y OP ST-VX 3024 PCV 742H . VA A 2 M 1-2 EB DI A 1 NO FC C SF Q Y - OP-ST-VA-3001 PCV-742H VA A 2 M-1-2 E8 DI A l '~ ~NO FC L LT 2YR - - APPE EIX J PCV-742H VA A 2 M 1-2 E8 DI A 1 NO FC - VPI 2YR Y - OP-ST-VX-3024 HCV 746A VA A 2 M 1-1 D2 BL A 2 NC FC L LT 2YR - - APPEEIX J HCV-746A- VA A 2 M 1-1 D2 BL A 2 NC FC C St Q Y - OP-ST-VA 3001 4 HCV-746A VA A 2 M-1-1 D2 BL A 2 k FC - VPI
~
2YR Y - OP-ST-VX-3024 HCV-7468 VA A 2 M 1-2 C7 P,L A 2 NC FC C ST Q Y - OP ST-CA-3001 HCV-7468 VA A 2 M-1 2 C7 BL A 2 NC FC L LT - 2YR - - APPENDIX J HCV 7468 VA A 2 M-1 C7 BL A 2 NC FC - il 2YR Y - OP ST-VX 3024 HCV 820A VA A 3 M-1-2 88 GL 5 i T FC L LT 2YR - - APPENDIX J HCV-B20A VA A 2 M-1-2 88 GL S I' E FC C ST ' 0 Y - OP-ST VA-3001 HCV-820A VA A 2 M-1 2 88 GL S 1 NO FC - VPI 2YR Y - OP-ST-VX 3024
~
HCV 8208 VA A 2 M 1-1 C2 GL S 1 NC . F0 C ST Q Y - OP-ST-VA-3001 HCV 8208 VA A 2 M 1-1 C2 GL $ l' NC F0 0 ST Q Y - OP-ST VA-3001 eCV 820B VA A 2 M-1-1 C2 GL S 1 NC F0 L LT 2YR - - APPEEIX J
~
HCV 8208 VA A -2 M-1-1 . C2 GL S 1 NO FO - VPI 2YR Y - CP-ST-VX-3024 HCV 821A VA A 2 M12 AB GL S 1 NC FC C ST Q Y - OP ST VA 3001 R3 September 1. 1995 Page 177 of 280
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM Fall TEST TYPE TEST VPI CODE IGBER SYS CAT CLASS P&IO INATES TYPE TYPE SIZE
- POS POS TEST TEST REQ FREQ EXPT REMRKS
~ ~
HCV 821A VA A 2 M-1-2 A8 GL 5 1 NC FC L'i~ 2i - - APPENDIX J HCV 821A VA A 2 M12 A8 GL S 1 NO FC - VPI 2YR Y OP ST-VX-3024 HCV 8218 VA A 2 M-1 1 A2 GL S I i' ~IO- C ST T Y OP ST VA-3001 HCV-821B VA A 2 M-1-1 A2 GL S i 7- ' FO O ST Q Y - OP ST VA 3001 HCV 8218 VA A 2 M 1-1 A2 GL S F0 L 1 NC LT 2YR - - APPENDIX J HCV 8218 VA A 2 M-1 1 A2 GL S F0 1 NO - VPI 2YR Y - GP-ST-VX-3024 HCV-881 VA A 2 M-1-1 B2 BU A 4 NC F0 C ST Q Y - OP ST VA-3001 HCV 881 VA A 2 M-1-1 B2 BU A 4 NC FO O ST Q Y OP ST VA 3001 HCy.881 1 T 2 M 1-1 82 BU A 4 NC F0 15 25R' - - APPENDIX J HCV-881 VA A 2 M-1-1 B2 BU A 4 1 ~F5 ' El 2YR Y - OP ST-VX-3024 HCV-882 VA A 2 M-1-1 B2 BU A 4 NC FO O ST Q Y - OP ST VA-3001 HCV 882 VA A 2 M-1-1 B2 BU A 4 NC F0 ST C Q Y - OP ST-VA-3001 HCV 882 VA A 2 M-1-1 B2 BU A 4 ' ~ id ' T L ' Li' ' 2YR - - APPENDIX J 31-1
~~
HCV 882- VA A 2 B2 BU A i ~ it 'IO ~ WI d Y - OP ST-VX 3024 TV-883A VA A 2 H-1-1 C2 PG A i k 'iO L iT 'd - APPE WIX J HCV-883A VA A 2 M-1-1 C2 PG A 1 NC 70- C ~ 5T ' .Q Y - OP ST-VA 3001
^5 ~E
~
HCV-883A VA A 2 M 1-1 C2 PG A '~i0 VPI 2YR Y - OP ST VX-3024 HCV 883A VA A 2 M11 C2 PG A 1 NC FO O ST Q Y - OP ST VA 3001 HCV 8838 VA A 2 M-1-2 88 GL S I' i FC ~ lI 2YR - - APPENDIX J HCV-883B VA A _2. M 1-2 88 GL S l T FC C 5[ Q -Y - OP ST-VA 3001 HCV 8838 VA A 2 M-1-2 B8 GL S 1 NC FC - VPI 2YR Y - OP-ST VX 3024 HCV-884A VA A 2 M11 02 GL A 1 NC FO O ST Q Y - OP ST VA-3001 HCV 884A VA A 2 M-1 1 C2 GL A NC F0 1 C ST Q Y - OP ST VA 3001 HCV-884A VA A 2 H 1-1 C2 GL A F0 1 NC L LT 2YR - - APPE2 1X J HCV 884A VA A
~
2 M-1 1 C2 GL A I l F0 - VP1 2YR Y - OP-ST-VX-3024 HCV 8848 VA A 2 M-1-2 88 GL S L 1 NC FC LT 2YR - - APPEEIX J HCV 8848 VA A 2 M-1-2 88 GL S I' NC FC C ST Q Y - OP ST VA 3001 HCV-8848 VA A 2 M-1-2 B8 GL 5 i ' NC FC - VPI 2YR Y - OP-ST-VX 3024 HCV-1041A MS 8 2 M 252 1 F6' CK - A 28 NO
~
FC C ST CS Y J26 OP ST-MS-3002 HCV-1041A MS B 2 M-252-1 F6 CK A 28 NO FC VPI 2YR Y - OP ST-VX-3013 HCV-1041B MS C 2 M-252-1 F6 CK C 28 - - C SD RO* - J39 SE-ST-MS-3003 HCV 1041C MS B 2 M-252-1 F6 GL M T NC FAI C ST CS Y J27 OP ST-MS-3002 HCV-1041C MS S M 252-1 F6 GL M 2
}~ NC FAI 5 2YR Y -
OP-ST-VX 3013 HCV-1042A MS B M 252 1 E6 _2 CK A 28 NO FC C ST CS Y J26 OP-ST.MS-3002 HCV-1042A MS B 2 M 252-1 E6 CK A 28 NO VPI FC - 2YR Y - OP ST VX 3013 R3 September 1. 1995 Page 178 of 280
1 4 TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE TEST VPI CODE NLMIER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE
- PE POS ' REQ ' TEST FREQ TEST EXPT REMARKS
~'
HCV-10428 MS C 2 M 252-1 E6 CK C 28 - - T Sb~ ~ RO* - J39 SE-ST-MS-3003 HCV-1042C MS B 2 M-252 1 E6 GL M 2 3 FIf C ST CS Y J27 OP-ST MS-3002 j HCV-1042C MS B 2 M-252 1 E6 GL M 2 NC FAI - VPI 2YR Y - OP-ST-VX-3013 l YCV-1945 MS B 3 M 252 1 C5 GL A 2 NC F0 0 ST Q Y - SE-ST-AFW-3006 YCV-1045 MS B 3 M-252-1 C5 GL A 2 NC F0 - VPI 2YR Y - OP ST-VX-3001 1 7CV-1045A MS B 2 M 252 1 F5 GL A 2 NC FO O ST Q Y - OP ST-MS 3001 ! YCV-1045A MS B 2 M-252 1 F5 GL A 2 U F0 C ST Q Y OP-ST MS 3001 i YCV 1045A 2 MS B M-252-1 F5 GL A 2 . NC F0 - VPI 2YR Y - OP-ST VX-3012 j YCV 1045B MS B 2 M-252 1 ES GL A 2 NC FO O ST Q Y - OP ST-MS 3001 YCV-1045B MS B- 2 M-252 1 ES GL A 2 NC F0 C ST Q Y - OP-ST-MS-3001 l YCV-10458 MS B 2 M 252-1 E5 GL A 2 F0 VPI NC - 2YR Y - OP-ST-VX-3012 HCV-1103 FW B N M-253-1 C3 GA M 16 NO FAI C ST J28 CS Y OP-ST-FW-3002 KV 1103 FW B N M 253-1 C3 GA M 16 7~ FAI - VPI 2YR Y - OP-ST-VX-3011 HCV-1104 FW B N M-253-1 E3 GA M 16 NO FAI C ST CS Y J28 OP-ST-FW-3002 + HCV-1104 FW B N M 253 1 E3 GA M 16 NO FAI VPI 2YR Y - OP-ST VX-3011 ! HCV-1105 FW B N M-253-1 D3 GL- A 6 NC FC C ST CS Y J28 OP+5T-FW-3002 HCV 1105 FW B N M 253-1 D3 GL A 6 NC FC - VPI 2YR Y - OP-ST-VX-3011 l HCV 1106 FW B N M 253 1 E3 GL A 6 NC FC C ST J28 CS Y OP-ST-FW 3002 { I HCV-1106 FW B N M-253-1 E3 GL A 6 ~M FC - VPI 2YR Y - OP ST VX-3011 HCV-1107A AFW B 2 M-253-1 FB GL A 3 NC FO O ST Q Y - OP ST-AFW-3006 HCV-1107A AFW B 2 M 253-1 FB GL A 3 NC F0 VPI 2YR Y - OP-ST VX-3002 j HCV-11078 AW B 2 M 253-4 E8 . GL A 3 ~k' FO O ST Q Y - OP-ST-AFW 3006 4 HCV-11078 AFW B 2 M 253 4 E8 GL A 3 ~ ~C N FO - VPI 2YR Y - OP-ST-VX-3002 HCV 1108A AFW B 2 M 253 4 F7 GL A l i FO O ST Q Y - OP ST-AFW-3006 HCV-1108A AFW B 2 M 253-4 F7 GL A 3 T F0 - VPI 2YR Y - OP-ST-VX-3002 HCV 1108B AFW B 2 M 253-4 E7 GL. A l'5 FO O ST Q Y - OP-ST AFW-3006 HCV-1108B AFW B 2 M 253-4 E7 GL A 3 ~5 F0 - VPI 2YR Y - OP-ST VX 3002 FCV-1368 AFW B 3 M-253 4 C6- GL A I A F0 O ST Q Y - OP-ST AFW-3006 i FCV-1368 AFW B 3 M-253-4 C6 GL A 1 A F0 - VPI 2YR Y - OP-ST-VX-3002 FCV-1369 AFW B 3 M-253-4 B5 GL A 2 A F0 - VPI 2YR Y - OP-ST VX-3002 FCV-1369 AFW B 3 M-253-4 B5 GL A 2 A FO O ST Q Y - OP ST-AFW-3006 HCV-1384 AFW B 3 M 253-4 D7 GA M 4 NC FAI O ST Q Y - OP-ST-AFW-3006 , EV-1384 AFW B 3 M-253 4 D7 GA M 4 NC FAI - VPI 2YR Y - OP-ST-VX-3002 l HCV 1385 FW B 2 M 253-1 D3 GA M 16 NO FAI C ST CS Y J28 OP ST-FW-3002 HCV 1385 FW B 2 M 253-1 D3 GA M 16 NO FAI - VPI 2YR Y - OP-ST VX-3011 4 R3 September 1.-1995 'Page 179 of 280
l i TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE TEST VPI CODE NLDEER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE - POS POS REQ TEST FREQ TEST EXPT REMARKS HCV-1386 FW B 2 M-253-1 C6 GA M 16 NO FAI C ST CS Y J28 OP-ST-FW-3002 i HCV 1386 FW B 2 M 253-1 C6 GA M- 16 NO FAI VPI 2YR Y - OP-ST-VX-3011 HCV 1387A FW B 2 M 253-1 C3 GL A U '5 ~i l F 'ST Q Y - OP-ST-FW 3002 HCV 138'A FW B 2 M-253-1 C3 GL A 2 NO FC VPI 2YR Y - OP-ST-VX-3011 q HCV-13878 FW B 2 M 253-1 B3 GL A 2 NO FC C ST Y - OP-ST FW-3002 Q HCV-1387B FM B 2 M-253-1 B3 GL A 2 NO FC - VPI 2YR Y - OP-ST-VX-3011 l HCV 1388A FW B 2 M-253-1 C8 GL A 2 NO FC C ST Q Y - OP ST-FW-3002
! HCV 1388A FW B 2 M-253-1 C8 GL A 2 NO FC -
VPI 2YR Y OP ST VX-3011 HCV-13888 FW B 2 M-253-1 68 GL A 2 NO FC C ST Q Y - OP-ST-FW-3002 HCV 1388B FW B 2 M-253-1 B8 GL A 2 NO VPI 2YR Y OP ST-VX 3011 FC , - C_3 Pd-1443 FW M 253 4 B5 RL R 0.75 T SP OH - - PE-ST-VX-3003 FO-1444 FW C 3 H-253 4 B5 RL R 0.75 T SP OM - - PE ST-VX-3003 C_
! FW-1525 AFW 3 M-253-4 B4 RL R 0.75 T SP OM* -
E6 PE-ST-VX-3003 HCV-155% DW A 2 M-5 2 E5 DI A 2.5 NC FC L LT 2YR - - APPENDIX J HCV-1559A DW A 2 M-5-2 ES DI A 2.5 NC FC C ST Q Y - OP ST-DW-3001 - HCV-1559A DW A 2 M-5 2 ES DI A 2.5 ~ E' FC - V5 '2YR Y - OP-ST-VX-3010 HCV-15598 DW A 2 M-5 2 ES DI A 2.5 NC FC L LT 2YR - - APPENDIX J HCV 15598 DW A 2 M-5-2 ES DI A 25 i FC C 55 Q Y - OP-ST-DW-3001 HCV 15598 DW A 2 H-5 2 E5 DI A 2.5 ~k U - iPT ~2YR Y - OP ST-VX-3010 HCV-1560A DW A 215-2 A4 DI A 2 NC FC L LT 2YR - - APPE21X J E~ T
~ '
HCV-1560A OW A 2 H 5-2 A4 DI A 2 C S s1 Y - OP ST-DW-3001 4 HCV 1560A DW A 2 N-5-2 A4 DI A 2 NC FC - VPI 2YR Y - OP ST-VX-3010 HCV-15608 DW A 2 M-5-2 A4 DI A 2 NC FC C ST Q Y - OP-ST-DW-3001 HCV 15608 DW A 2 M-5-2 A4 DI A 2 NC FC L LT 2YR - APPENDIX J HCV 15608 DW A" 2M52 A4 DI A 2 NC FC - VPI 2YR Y - OP-ST-VX-3010 HCV-1749 CA A 2 M-13 F4 GL A 4 NC i L LT 2YR FC APPENDIX J HCV-1749 CA A E M-13 F4 GL A 4 4 i FC -C ~ 'ST' Q Y - OP-ST-CA-3001 HCV-1749 A 7 M 13 CA 2 F4 GL A 4 NC FC - VPI 2YR Y - OP-ST VX-3003 PCV-184% IA A 2 M-264-1 C8 GL A 2 NO FC L LT 2YR - - APPEEIX J PCV-18494 1A A 2 M-264 1 C8 GL A 2 NO FC C ST CS Y J30 OP-ST-CA 3002 PCV-1849A IA A .2 M-264 1 C8 GL A 2 NO FC - VPI 2YR Y - OP ST-VX 3004 PCV-1849B IA A 2 H-264 1 F5 GL A 2 ._y FC L 2YR - - APPENDIX J
. _ LT_
PCV 18498 IA A 2 M-264-1 F5 GL A 2 NO FC C ST CS Y J30 OP-ST-CA-3002 W 'WI 25 PCV-1849B IA A F5 A
~fIi-264-1 GL 2 FC Y -
OP-ST-VX-3004 HCV 2504A SL A 2fM-121 F7 GL A 0.5 ' E~ 'T C ST~ I'Q Y - OP-ST-SL 3001
~
R3 September 1. 1995 Page 180 of 280
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX NUMBER SYS CA1 CLASS P&lD INATES TYPE TYPE SIZE
- POS POS REQ TEST FREQ TEST EXPT REMARKS 3L'
~
'A~
~ ~
HCV 2504A 2 M 12 1 F7 GL A 0I5 NC' FC L ' ' LT 2YR APPENDIX J HCV 2504A St A 2 M 12-1 F7 GL A 0.5 NC FC VPI 2YR Y OP-ST-VX 3021 HCV 2504B SL A 2 M 12-1 F7 GL A 0.5 NC 3C C' Si 0 Y OP ST SL-3001 HCV 2504B St A 2 M-12-1 F7 GL A 0.5 NC FC L LT 2YR APPENDIX J
~ ~^
HCV 25048 SL A 2 H 12-1 F7 GL A 0.5 NC FC ~T ' 2)T Y VP OP-ST VX 3021 HCV 2506A SL B l M-12 1 D7 GL A 0.' 5 5~ lc' T TT' '
~
CS Y J31 OP-ST SL-3002 HCV 2506A SL B 2 M-12 1 D7 GL A 0.5 '5~ lc V'P ~1 2WT OP-ST VX 3022 HCV-2506B T T '~ 3 M-12-1 D7 GL A 0.5 '5
~~
FC 'C 5 ~5 C T J31 OP-ST SL-3002 HCV 2506B SL B 2 M 12-1 D7 GL A 0 '. 5 '5 j NI ., 2 (( OP-ST-VX-3022 HCV 2507A SL B 2 M 12-1 C7 GL A 0.5 NO FC C ST CS Y J31 OP-ST-SL-3002 HCV-2507A SL 8 2 M 12 1 C7 GL A 0.5 NO FC VPI 2YR Y - OP ST-VX-3022 HCV-25078 SL B 2 M 12 1 C7 GL A 0.5 NO FC C ST CS Y J31 OP-ST-SL-3002 0 -2507B SL T 2 M-12-1 C7 GL A 555~ FC ' VPI AR' Y OP ST-VX-3022 HCV-2603A NG A 2 M 42 1 D8 GL A 1 NC FC L LT 2YR APPENDIX J HCV-2603A NG A 2 H 42 1 D8 GL A 1 NC FC C ST Q Y OP-ST NG-3001 HCV 2603A NG A 2 M-42-1 D8 GL A 1 [ iC VPI '2YR Y OP-ST VX-3014
'FU
~~~
HCV-26038 NG A 2 M-42 1 D8 GL A l 'NC-~ C ST Q' Y - OP-ST-NG-3001 HCV-2603B E A I 42-1 08 GL A 1 5~^ l L iT (2h - APPENDIX J TV-2603B NG A f 2 M-42-1 DB GL A 1 NC FC - VPI 2YR Y - OP-ST-VX-3014 HCV 2604A NG A 2 H-42 1 DS GL A 1 NC FC C ST Q Y - OP-ST NG-3001 HCV 2604A NG A 2 M 42 1 DS GL A 1 NC FC L LT 2YR - APPENDIX J HCV 2604A NG A 2 H-42-1 D5 GL A 1 NC FC - VPI 2YR Y OP ST VX-3014 HCV-26048 E A 2 M 42 1 D5 GL A 1 NC FC L LT 2YR APPENDIX J HCV 2604B NG A 2 M-42 1 D5 GL A 1 NC FC C ST Q Y OP-ST-NG 3001 HCV-2604B NG 2 H-42-1 D5 GL A 1 NC FC - VPII2YR Y - OP ST-VX-3014 A ~ {~ TV-2808A CCW B 3' M 10 4 ES GL A '11 5 } FO O ST f ~Q Y - OP ST CCW-3001 HCV-2808A CCW B 5 M-10 4 E5 GL A 1.5 5 0 - [ VP'I ~ 2YR Y - OP ST VX-3005 HCV 28088 CCW B 3 5510-4 B5 GL A 1. 5' ~5' FO U ST' Q Y - OP-ST-CCW-3001 HCV-2808B CCW B 3 M 10-4 B5 GL A 1.5 NO F0 VPI 2YR Y - OP-ST-VX-3005 HCV 2808C RW B E110 4 05 GL A i.5 liC 5 5 I1E' R0 J41 CP-ST-RW-3003 HCV 2800C RW d 3 M-10 4 05 GL A 15 NC F0 C ME RO - J41 OP-ST-RW-3003 HCV 2808D RW B 3 M 10-4 A5 GL A 1.5 NC FO O T R0 - J41 OP ST-RW 3003
~
TV 2808D RW B MM-10-4 A5 GL A 1.5 NC F0 C d RO - J41 Op-ST-RW-3003 HCV 2809A CCW B
~
3 M-10-4 E4 GL A 1.k NO F0 O ~ S~'T ' Q Y - OP-ST-CCW-3001 HCV-2809A CCW B 3 'M-10-4 E4 GL A 15 NO F0 iPi 2YR Y - OP ST VX-3005 R3 September 1. 1995 Page 181 of 280
. . . . . - - - - . _- . . . . . . - . .. - - . _ . . . _ - - - . _ - - - ~ - - - . . . - . - _ . . . __ .-
3 4 i TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE TEST VPI CODE NLDBER SYS CAT CLASS P&IO INATES SIZE - TYPE TYPE POS POS REQ TEST [k TEST EXPT REMARKS l HCV-28098 3 M 10-4 CCW B B4 1 A 1.5 NO FO O ST Q Y - OP-ST CCW-3001 HCV-2809B CCW B 3 H 10-4 B4 1 A 1.5 NO F0 VPI 2YR Y OP-ST-VX-3005
- HCV-2809C RW B 3 M-10 4 DS & A 1.5 If FO O E RO ' -
J41 OP-ST-RW-3003 EV-2809C RW B 3 M-10 4 DS & A 1.5 U F0 C E R0 - J41 OP-ST RW-3003 HCV-2809D RW B 3 M 10 4 B4 1 A 1.5 NC FO O 3 RO - J41 OP-ST RW-3003
, HCV 28090 RW B 3 M 10 4 B4 1 A 15 i F0 C if V -
J41 OP-ST-RW 3003 HCV 2810A CCW B 3 M 10-4 E3 1 A 1.5 '~M [0 ' Tl~ '[ Y - OP-ST-CCW-3001
- EV-2810A CCW B 3 M 10 4 E3 1 A 1 75 ' U~ [U I VPI' 2iR' Y -
OP-ST-VX-3005 ! HCV-28108 CCW B 3 M 10 4 B3 1 A 1.5 E FO O lf 'Q Y - OP-ST CCW-3001 HCV 2810B CCW B M-10-4 B3 1 A 15 W W - VPI ~2 iR~ Y - OP ST-VX-3005 HCV 2811A CCW B 3 M-10-4 E2 1 A 11 E ' ~ iU ' d' ' ST U~~ Y - OP-ST-CCW-3001
'iU HCV 2811A CCW B 3 M-10-4 E2 1 A 15 ~M WI 2YR Y -
OP-ST VX-3005 HCV-2811B CCW B 3 M 10 4 82 1 A 1.5 NO F0 O ST Q Y - OP-ST-CCW-3001 HCV 2811B CCW 8 3 M 10 4 82 1 A 53 '~ U IU ' di 2iR Y OP-ST-VX-3005 i HCV 2812A CCW 3 M 10-4 El 1 A 11 5 'EU 'U~ 'Sf "h' - OP-ST-CCW-3001 HCV-2812A CCW B 3 M 10 4 El 1 A 1.5 'M' fi' - VPI' 2iR ' V - OP-ST-VX 3005 HCV 28128 CCW B 3 H-10 4 B1 1 A 1.5 7~ FO O ST ' ~Q- Y - OP ST-CCW 3001 TV 2812B CCW B 3 M-10 4 B1 1 A 15 U [U -
~di ~2iR Y OP-ST-VX-3005 11 U~
~~
HCV-2813A CCW B 3 M 10-4 E6 1 A ~5' F 6 ST' Q Y - OP ST-CCW 3001 HCV 2813A CCW B 3 M-10 4 E6 1 A 15 NO FO - VPI 2YR Y - OP-ST-VX-3005 HCV-28138 CCW B 3 M 10-4 B6 1 A 1.5 NO FO O ST Q Y - OP-ST-CCW-3001 HCV-28139 CCW B 3 M-10-4 B6 1 A 1.5~U ' F0 - VPI 2YR Y - OP ST-VX-3005 HCV-2814A CCW B 3 M-10-4 E8 1 A 15 NO ST ' _ FO J 0 Q Y - OP-ST-CCW 3001 HCV 2814A CCW B 3 M 10-4 E8 1 A 1.5 NO FO VPI 2YR Y - OP ST-VX 3005 HCV 28148 3 M-10 4 88 1 CCW B A 1 SI ~E ~ FO O ~3T Q Y - OP-ST-CCW-3001 T V 28148 TCW B 3 M-10-4 B8 1 A ' F0 VPI 2YR OP ST VX-3005 __ ly - Y - HCV-2815A CCW B 3 M-10-4 E7 1 A 1.5 N0 FO O ST Q Y - OP ST-CCW-3001 4 __ _ , HCV-2815A CCW B 3 E7 1 A 1.5 N0 F0 - VPI 2YR Y - OP ST VX 3005 l TV 2815B CCW B 3{M-10-4 M 10 4 B7 1 A 1.5 NO FO O ST Q Y - OP-ST-CCW 3001 TV Zal5B CCW B 3 M-10-4 87 1 A 15 NO FO - iPI 2YR Y - OP-ST-VX-3005 HCV 2850 RW B 3 M-100 1 B7 BU A 20 NO FO O ST Q Y - OP-ST-RW-3002 HCV 2850 RW B 3 M 100 1 B7 BU A 76' NO F0 VPI 2YR Y - OP-ST-VX-3017 HCV-2851 RW B 3 M-100-1 B6 BU A 20 NO FO O ST Q Y - OP ST RW-3002 HCV 2851 RW 3 M-100 1 B6 B BU A 20 4 ' NO F0 VPI OP-ST-VX-3017 2VR Y TV 2852 RW B '3 M-100 1 B5 BU A 20l NO FO O ST Q Y - CD-ST-RW-3002 R3 September.1. 1995 Page 182 of 280
]
__ , ,, . - - - , . _ . . , , . , , . , _ , ,. . , , , _ - . . , _ . _ . . ,, _ m , , . , _ - . _.--..,,, . . . - . _ _ , , - - . _ . - .
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE N0fdi F IL TEST iiiE TES'T VII~ CODE NUMBER SYS CAT CLASS P&IO INATES TYPE TYPE SIZE - POS
, POS REQ TEST FREQ TEST EXPT REMARKS
~
HCV-2852 RW B 3 M 100 1 85 BU A 2'O NO 'F0 VPI 2VR Y OP-ST-VX-3017 lb M
- ~
HCV 2BS3 RW B 3 M-100 1 B4 A BU EU 0 5T ' Q ~I' - OP ST RW 3002 IEV 2853 RW B 3 M 100-1 B4 BU A 20 ~5 ~~U~ F 'l' ~VPI 2iR Y - OP-ST-VX-3017 HCV 2874A RW B 3 M 100 1 C7 BU A 20 NO F0 VPI 2YR Y - OP-ST-VX 3017
- HCV-2874A RW B 3 M-100 1 C7 BU A 20 NO FO O ST
^
~ '
Q Y - OP-ST-RW-3002 HCV-2874A RW B 3 M-100-1 C7 BU A 25 5 5' C 5i 0 Y OP-ST RW-3002 HCV-28748 RW B 3 M-100 1 C7 BU A 20 NO F0 VPI 2YR Y - OP-ST-VX-3017
' i~
~
HCV 28748 RW B 3 M-100-1 C7 BU A 20 50' 'FU 0 ' 'ST T' - OP-ST-RW 3002 HCV 28748 RW B 3 M-100 1 C7 BU A 20 NO F0 C ST Q
~
Y - OP-ST RW 3002 HCV 2875A RW B 3 M-100 1 C6 BU A '2U ~ NU FU 'VEI 2YR ' Y
~' ~
OP-ST-VX 3017 HCV-2875A RW B 3 M 100 1 C6 BU A 26 ii0 FU O SY Q Y OP-ST RW-3002 HCV-2875A RW B 3 M-100 1 C6 BU A 35 5 5~ 7~ 55^ U Y - OP-ST-RW-3002 HCV-28758 RW B 3 M 100 1 C6 BU A 20 5 'FU WI 2iR l - OP-ST-VX-3017 i HCV-2875B RW B 3 M-100-1 C6 BU A 20 NO FO O
~
ST Q Y - OP-ST RW-3002
~
HCV-28758 RW B 3 M-100-1 C6 BU A 20' NU Fd '~ C ST Q Y - OP ST-RW-3002 HCV 2876A RW 8 3 M-100 1 C5 BU A 20 NO F0 VP1 2YR Y - OP-ST-VX-3017 HCV-2876A RW B 3 M-100-1 C5 BU A 20 NO FO O ST Q Y OP-ST RW-3002 HCV-2876A RW B 3 M-100-1 CS BU A 20 NO F0 C ST Q Y - OP ST-RW-3002 i ICV-28768 RW B 3 M 100 1 C5 BU A 20 NO F0 VPI 2YR Y OP-ST VX-3017 HCV-28768 RW B 3 M-100-1 CS BU A 20 NO F0 0 ST Q Y - OP ST RW-3002 HCV 28768 RW B 3 M-100 1 CS BU A 20 NO F0 C ST Q Y - OP-ST RW 3002 HCV-2877A RW B 3 M-100-1 E4 BU A 14 NO F0 VPI 2YR Y - OP-ST-VX-3017 HCV-2877A RW B 3 M 100 1 E4 BU A 14 NO FO O ST Q Y - OP-ST-RW-3002 HCV 2877A RW B M-100 1 E4 BU A i4 5~ C Si .
- 7) Y -
OP ST-RW-3002 HCV 28778 RW B 3 M 100 1 E4 BU A _ g NO F0 - VPI 2YR Y GP-ST VX 3017 tEV 28778 RW 8 3 M-100 1 E4 BU A 14l NO FO O ST Q Y - OP ST-RW-3002
' ~'~
HCV-2877B RW B 3 M-100 1 E4 BU A 14 ' EU ' F0 C ST Q~ Y . OP ST-RW-3002 HCV-2878A RW 8 M 100 1 D4 BU A 8 EO F0 - h! 2YR Y - OP-ST-VX 3017 HCV 2878A RW B 3 M-100-1 D4 BU A 8 NO FO O ST Q V - OP-ST RW-3002 HCV-287BA RW B 3 M 100 1 D4 BU A B 5 F0 C ~ 5T ~ Q Y OP ST-RW-3002 tCV-28788 RW B 3 M 100-1 D4 BU A
~
'8 ~U F0 -
Si ~ 2YR Y - OP-ST-VX-3017 6EV 2878B RW 8 3 E-100-1 D4 BU A 8 NO FU~ ~U~ ST' Q Y - OP-ST-RW-3002 TV-2878B RW B 3 M-100 1 D4 BU A E 5E F0 C 'Si Q Y - OP-ST-RW-3002 HCV-2879A RW 8 3 M 100-1 C4 BU A 14 NO F0 - VPI 2YR Y - OP ST-VX-3017 HCV 2879A RW B 3 M 1001 C4 BU A 14 NO FO O ST-' Q Y - OP-ST-RW 3002
.' 1 R3 September 1. 1995 Page 183 of 280
i i
~
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX ~ } VALVE COORD i VALVE OPER VALVE NORM [A5I TEST TYPE ' TEST' VPI CODE NUISER SYS CAT CLASS P&l0 .INATES TYPE TYPE SIZE - POS POS REQ TEST FREQ TEST EXPT REMARKS HCV-2879A RW 3 M 100 1 C4 BU A 14 NO F0 C ST Q Y - OP-ST-RW-3002 HCV-28798 RW B 3 M 100-1 B4 BU A 14 NO F0 - VII 2YR Y OP-ST-VX 3017 HCV 28798 RW B 3 M-100 1 B4 BU A 14 NO F0 4 HCV-2879B
. _0__ .__T_._._Q _.
S Y - OP-ST RW 3002 RW B 3 M-100-1 B4 BU A 14 NO F0 C ST Q Y - OP-ST RW 3002 i- HCV-2880A RW B 3 M 100 1 E3 BU A 12 NO FO O ST Q Y - OP ST RW-3002 } HCV-2880A RW B 3 M 100-1 E3 BU A 12 NO F0 - VPI 2YR Y OP-ST-VX-3017 , HCV-28808 RW B 3 M 100-1 El BU A 12 3 70~ 0 ST Q Y - OP-ST-RW 3002 HCV 28808-RW 3 M-100 1 El BU A 12 NO 'F0 -
~ Ui ' ~2YR Y -
OP ST-VX-3017 EV-2881A RW B 3 M-100-1 C3 BU A FO O ST 12g NO Q Y - OP ST-RW 3002 4 HCV 2881A RW B 3 M 100 1 C3 BU A 12 NO F0 - VPI 2YR Y - OP-ST-VX-3017 HCV 2881B RW 8 3 M 100-1 C1 BU A 12 NO FO O ST Q Y - OP-ST-RW 3002 31' '
~
, HCV 28818 RW 3 M 100 1 C1 BU A 12 NO F0 - 2YR Y OP-ST VX 3017 i HCV-2882A RW B _3 M-100 1 F3 BU A 12 5' F0 0 ST Q Y OP-ST RW 3002 HCV 2882A RW B 3 M-100 1 F3 BU A 12 NO F0 VPI 3 2YR Y - OP ST-VX 3017 HCV-2882B RW B 3 M 100 1 F1 BU A 12 NO F0 0 ST Q Y - OP ST RW 3002 HCV 28828 RW B M 100 1 F1 BU A 12 E' 70~ il 2YR Y OP ST-VX-3017 HCV-2883A RW 8 3 M 100 1 B3 BU A 12 U ~TO~ 0 ' ST Q Y - OP ST-RW-3002 HCV 2883A RW B 3 M 100 1 B3 BU A 12 NO F0 VPI 2YR Y - OP ST-VX 3017
- HCV-28838 RW B 3 M-100 1 81 BU A 12 i F0 0 ST Q Y OP ST-RW-3002 HCV-28838 RW i ~ T M 100 1 81 BU A 12 5 F0 -
U1 2YR Y - OP-ST-VX-3017 ! H
.CV 2893 RW B
_3 M 100-1 B5 BU A 16 NO F0 - VPI 2YR Y - OP-ST-VX-3017
' ~
j HCV 2893 RW B 3,. M-100-1 BS BU A 16 NO FO O ST Q Y - OP-ST-RW-3002
- HCV 2894 RW B CS BU A 16 NO F0
__ 3_ M-100-1 - VPI 2YR Y - OP ST-VX-3017 HCV-2894 RW B 3 M-100-1 CS BU A 16 NO F0 0 ST _ Q Y - OP-ST-RW-3002 HCV 2898A CCW B 3 M-10-1 D6 GL A 2 NO FO 1' -~ _ . _ . . _O_ _ , _ . . . _ST_. _Q Y - OP-ST-CCW 3001 EV 2898A CCW B 3, M-10 1 D6 GL A 2 NO F0 - VP! 2YR Y - OP-ST-VX-3005 KV-28988 CCW B .3 M-10 1 D4 GL A 2 NO FO O ST Q Y - OP-ST-CCW 3001 ] HCV 28988 CCW B
~
3 M-10-1 D4 GL A 2 ~W F0 - iPT 2YR Y - OP-ST-VX 3005 ? HCV 2898C RW B i M-10-1 D6 GL A
~
2 NC F0 O ME RO - J41 OP-ST-RW-3003 HCV 2898C RW B 3, M 10-1 D6 GL A 2,.d_ F0 C 7 RO - J41 GP-ST-RW-3003 HCV-2898D RW B 3' M-10-1 D6 GL A 2 NC FO O E RO - J41 OP-ST-RW-3003 HCV-28980 RW B 3 M 10-1 D6 GL A Y _ E F0 C E . RO - J41 OP-ST-RW 3003 NCV 28994 CCW B 3 M 10-1 C6 GL A 2 NO FO O ST Q Y - OP-ST-CCW 3001 HCV 28994 CCW 8 3 M-10 1 C6 GL A 2 W F0 MI 2YR~ Y - OP ST-VX 3005
~
1 HCV-28998 CCW 8 3 M 10-1 C4 GL A 2 NO FO O 3T i 0 Y - OP-ST-CCW-3001 R3 September 1, 1995 Page 184 of 280
. ~ . - . _ _ _ _ . . _ _ _ -. _ - - . _ . . _ _ _ . . _ _ _ . _ . . _ . _ . _ _ _ . _ _ . , . . _ - . _ . . - . _ - _ _ _ _ _ . _ , , .. .-
TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE [l COORD- VALVE OPER VALVE NORM Fall TEST TYPE TESTEVPI CODE NUMBER I SYS CAT CLASS P&ID INATES TYPE TYPE SIZE
- POS POS REQ TEST FREQ TEST EXPT REMARKS HCV 2899tl Cd B
_3 M 10-1 C4 GL A 2' ~ NO Fd~
' ' ' ~
'VP I' 2YR Y -
OP-ST-VX 3005 HCV-2899C RW B 3 H-10-1 C6 GL A I NC F0 U i R0 J41 GP ST-RW-3003 HCV 2899C RW B 3 H-10 1 C6 GL A 2 3~ F0 T lk RT - 341 GP-ST-RW 3003 HCV 28990 HCV 28990 RW RW B B 3 M-10 1 M-10-1 C4 GL A 2(( _ F0 1 (( 10 J41 OP-ST-RW 3003 3 C4 GL A 2 NC F0 C K RO - J41 OP ST-RW 3003 PCV 2909 PCV 2909 SI A 2 210-130 2 B5 GL A
. .' . - . 5 T l
NC _._~
~ ~ST Q Y -
OP-ST-SI 3001 SI A 2 210-130-2 BS GL A 1 NC FC VPI 2VR Y OP ST VX-3018 PCV-2909 SI A 2 210 130 2 85 GL A 1 NC FC L LT 2YR - APPENDIX J HCV 2916 S1 A _2 210-130 2 CS GL A 1 NC FC L LT 2VR APPENDIX J HCV 2916 SI A 2 210-130 2 C5 GL A 1 NC FC C ST Q Y OP-ST-SI 3001
^ ~
HCV-2916 SI A 2 210-130-2 CS GL A 1 NC iC - V'PI 25R~ Y - OP-ST-VX-3018 PCV-2929 SI A 2 210 130 2 88 GL A 1 NC FC L LT 2YR APPENDIX J PCV-2929 SI ' ~I ~ '7 210-130 2 B8 GL A i NC U l ST T T OP-ST SI-3001 PCV-2929 SI A 2 210-130 2 88 GL A 1 NC FC VPI 2YR Y OP-ST VX-3018
~ '
HCV 2936 51 A 2 210-130 2 C7 GL A 1 NC FC C ST
~
Q 'T OP-ST-SI-30di HCV-2936 A 2 210-130-2 C7 GL A NC FC L T 25R~ 51 _ _, l APPENDIX J HCV-2936 SI 210 130-2
._ A _2 C7 GL A 1 NC FC VP1 2VR Y -
OP-ST-VX-3018 PCV 2949 SI A 2 210 130-28 B8 GL A 'i ~[ Ul~ 1[ lIii ' - - APPENDIX J PCV-2949 SI . A 2 210 130 28 88 GL A 1 NC FC C ST Q Y - OP-ST SI-3001 PCV-2949 $1 A 2 210-130 2B B8 GL A NC FC VPI 1 - 2YR Y OP ST-VX-3018 HDf-2956 SI A 2 210 130-28 C7 GL A NC FC ST 1 C Q Y - OP-ST-SI 3001 HCV-2956 SI A 2 I210-130-2B C7 GL A 1 i FC L 'LU' 25R - APPENDIX J HCV-2956 SI A 2 210-130 28 C7 GL A k k' iP'I 2iR- Y - OP-ST-VX-3018 PCV 2969 PCV 2969 SI SI A A 2 210 130 28 210-130 28 B4 B4 GL GL A A 1 1 { NC II FC L C f ST 2YR Q Y APPENDIX J OP-ST-SI-3001 PCV-2969 51 A 2 210 130 28 B4 GL A 'l l FC - lIPI ' 2YR Y - OP-ST VX-3018 HCY 2976 SI A 210 130-28 HCV 2976 SI 2 C4 GL A
'i{ E FC L II ' 2YR - -
APPENDIX J A f _2]10-130-28 C4 GL A 1 NC FC C ST Q Y - OP-ST-SI-3001 HCV-2976 SI A 2 210 130-2B C4 GL A 1 NC FC VPI 2YR Y - OP-ST-VX-3018 HCV 2983 51 A 2 210-130-1 E8 GL A 2 W FC L
~-~
LT 2YR - - APPENDIX J HCV 2983 SI A 2 210-130-1 E8 GL A 2 ' NC FC - VPI 2YR Y - OP-ST VX 3018 HCV 2983 SI A
]210-130-1 E8 GL A 2 NC FC C ST Q - -
OP-ST-SI 3001 HCV 2987 SI B 2 210-130-3 E7 GA A 4 NO F0 C ST Q Y - OP-ST-SI-3001 HCV 2987 SI B 2 210-130-3 E7 CA A 4 NO FO O ST ' Q Y - OP-ST-SI-3001 HCV-2987 l SI B 2 210 130 3 EB GA A 4 NO FAI - VPi 2YR Y - 0P ST-VX 3019 R3 September 1. 1995 Page 185 of 280
l 1 TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX ~
; VALVE COORD- VALVE OPER VALVE NORM ' FAIL' ' TEST TYPE 5STTvei CODE MlASER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE] _POS__POS _ REQ TEST FREQ TEST EXPT REMARKS 8'
' ~
HCV-2988 SI 2 210-130-3 D6 GL 5 2 NC FC ' ST ~'Q 7 OP-ST SI-3001 HCV-2988 SI 8 2 210-130-3 D6 GL S 2 NC ~ [C TT' T Y OP-ST $1-3001 HCV 2988 8 2 210-130-3 D6 GL S 2 '~ [ FC - 3I 2iR~ Y - OP-ST-VX-3019 IA HCV 238 C IA C 3 C-4175-8 F7 CK C 0.5 0 J33 FS CS - NOTE 3 IC-ST-IA-3002 IA-HCV 238-C IA C 3 C-4175 8 F7 CK C 0.5 - - C FS CS - J33 NOTE 3 IC-ST IA 3002 IA HCV 239-C IA C 3 C-4175-8 F7 CK C 0.5 0
~~
FS CS - J33 NOTE 3 IC-ST-IA 3002 IA-HCV-239 C IA C 3 C-4175-8 F7 CK C 0.5 ~ i5 ~ ' US
^
J33 NOTE 3 IC-ST-IA-3002 IA HCV 240 C IA C 3 C-4175 8 E7 CK C 0.5 ' ' ~ ~T ~i5 15~ J17 NOTE 1 IC-ST-IA 3002
'O
' ~ ~
IA HEV-240 C IA C 3 C-4175-8 E7 CK C 0.5 T - F5 ' '5 J17 NOTE 1 IC-ST-IA-3002 IA-HCV-344 C IA C 2 C-4175-5 E7 CK C 0.5 0 J21 FS CS - NOTE 1 OP-ST-SI-3002 IA-HCV-344-C IA C_ 2 C 4175 5 E7 CK C 0.5 - C FS CS J21 NOTE 1 OP ST SI-3002
~
IA-HCV 345-C IA C 2 C-4175-5 E7 CK C 0.5' - 0 ~I5 CS - J21 NOTE 1 OP-ST-SI-3002 IA-HCV-345-C IA C 2 C-4175-5 E7 CK C 0$I' - C E5 ~ CS - J21 NOTE 1 OP-ST-SI-3002 IA A/FIC 383-C IA C 2 M-264 4 D3 CK C 05 - - 0 FS Q - - NOTE 2 IC-ST-IA-3001 IA A/FIC-383-C IA C. 3 M 264-4 D3 CK C 0.5 - - C FS Q - NOTE 2 IC-ST-IA-3001 IA-8/FIC-383-C IA C 3 M-264-4 83 CK C 05 0 FS Q - - NOTE 2 IC ST-IA-3001 1 IA-B/FIC-383-C IA C 3 M-264-4 83 CK C 0.5 - C FS Q - - NOTE 2 IC ST-IA-3001 IA C/FIC-383 C IA C 3 M 264 4 C3 CK C 05 - - C FS Q - NOTE 2 IC-ST-IA-3001
' ~~
IO C/FIC 383-C IA C 3 M-264-4 C3 CK C 0.5' 0 ~}5 _ _ Q - - NOTE 2 IC-ST IA 3001 IA D/FIC 383 C IA C 3 N-264 4 A3 CK C 0.5 C FS Q - - NOTE 2 IC-ST-IA 3001 i IA D/FIC-383-C IA C 3 M-264 4 A3 CK C 0.5 - 0 [5'~ Q - - NOTE 2 IC-ST IA-3001 IA LCV-383-1 C IA C C 4175-5 E7 CK C 0 375 0 ~ i5~ TS - J40 NOTE 1 OP.ST-SI-3002 IA LCV 383 1-C IA C 3 C-4175-5 E7 CK C 0 375 C FS CS - J40 NOTE 1 OP ST SI-3002 IA-LCV 383-2-C IA-LCV-383 2-C 1A IA C [ 33 C1 C-4175-5 C-4175-5 E7 CK C 0.3 75 [ _ C FS CS - J40 NOTE 1 OP-ST SI 3002 E7 CK C 0 375 - 0 FS CS - J40 NOTE 1 OP-ST-SI-3002 IA HCV-385-C IA C 3 C 4175-5 E7 CK C 0.5 - - 0 F5 CS - J34 NOTE 1 IC-ST IA 3004 IA-HEV-385-C IA C _ _3 C-4175-5 E7 CK C 0.5 C FS CS - J34 NOTE I IC-ST IA 3004 IA-HEV-386-C IA C 3 C 4175-5 E7 CK C 0.5 - - 0 FS CS - J34 NOTE 1 IC-ST-IA-3004 IA-HCV-386-C IA C 3 C-4175-5 E7 CK C 0 75 - C E5 ~ CS - J34 NOTE 1 IC ST-IA-3004 IA-HCV-400A C IA C 3 C-4175 6 F7 CK C 0.25 I - C 35' Q - - NOTE 1 OP-ST-CCW-3005 C 7
~'
IA E V 400A C IA
~
C-4175-6 F7 CK C 0.55 - - 0 i5^ Q - NOTE 1 OP ST-CCW 3005 IA HCV 4008 C IA C 3 C-4175-6 F7 CK C 0.25 - C ~ i5 ~ Q - - NOTE 1 OP-ST-CCW 3005
~ '
~
[HEV4008-C .IA C 3 C 4175-6 F7 CK C 0$25 - 0 FS ' Q - - NOTE 1 OP ST-CCW 3005 IA-E V 400C TV IA C 3 C-4175-6 F3 CK C 0 25 0 ' i5 Q - NOTE 1 OP-ST-CCW-3005 IA E V 400C TV IA C 3 C-4175-6 F3 CK C 0.25 - - C }5' Q - - NOTE 1 OP-ST-CCW-3005 R3 September 1. 1995 Page 186 of 280
, , __ . . - . . _ . _ . , _. _ _ _ ~ _ _ _ _ _ _ . _ - - _ _ _ _ _ - - __ _ _ _ _ _ _
b i 4 TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX
~
VALVE COORD- VALVE OPER I VALVE .
- g. ' , FAIL TEST _ TYPE [ TEST [VP1 CODE LOSER SYS CAT CLASS P&lD INATES TYPE TYPE SIZE
- POS POS, TEST
.___EQ TEST EXPT REQ FR REMARKS
~
, IA-HCV 4000-C IA C 3 C-4175-6 F7 CK C 0.25 - U FS "d~' - - NOTE 1 OP-ST-CCW 3005 IA-HCV 400D-C 1A C 3 C-4175-6 F7 CK C 0.25 - - 3 ~5 0
~~
NOTE 1 OP ST-CCW 3005 IA HCV 401A C IA C 3 C-4175 6 F7 CK C 0.25 C 'F5 ~ Q - - NOTE 1 OP-ST-CCW-3005 IA-HCV-401A C IA C 3 C-4175 6 F7 CK C 0.25 - 0 FS Q - - NOTE 1 OP-ST-CCW 3005 IA HCV 401B C IA C 3 C-4175-6 F7 CK C 0.25 - - 0 FS Q - - NOTE 1 OP-ST-CCW-3005 ! IA HCV-4018-C IA C 3 C 4175 6 F7 CK C 0.25 - C FS Q - - NOTE 1 OP-ST-CCW 3005 .
~
IA HCV 401C TV IA C 3 C-4175-6 F3 CK C 0.25 - - C FS Q - - NOTE 1 OP-ST CCW-3005 IA-HCV 401C-TV IA C 3 C-4175 6 F3 CK C 015 - -
U 'i5 Q -
NOTE 1 OP-ST CCW-3005 IA IA HCV-401D-C C _3 C-4175 6 F7 CK C 0.25 - C FS Q - - NOTE 1 OP-ST-CCW-3005 IA HCV 4010-C 1A C 3 C-4175-6 F7 CK C 0.25 - - 0 FS Q - - NOTE 1 OP-ST-CCW-3005 IA-HCV-402A-C IA C T C-4175-6 E7 CK C 0 25 - T hi~ T - - NOTE 1 OP-ST-CCW 3005
~U i5 6
~' ~
IA-HCV 402A C IA C _3 C-4175-6 E7 CK C 0.25 - - - NOTE 1 OP ST-CCW-3005 IA HCV-4028 C IA C 3 C-4175-6 E7 CK C 0.25 - C FS Q - NOTE 1 OP ST-CCW-3005 , IA-HCV 4028 C IA C 3 C-4175 6 E7 CK C 0.25 - 0 FS Q - - NOTE 1 OP-ST CCW-3005 IA HCV-402C-TV IA C 3 C-4175-6 E3 CK C 0.25 C FS Q - - NOTE 1 OP ST-CCW-3005 g IS-HCV-402C TV IA T '3 C-4175-6 E3 CK C 0.25'
~U' 'h5 Q -
NOTE 1 OP-ST-CCW-3005 l IA IA-HCV-402D-C C 3 C 4175-6 E7 CK C 0.25 - - 0 FS Q - - NOTE 1 OP-ST-CCW 3005 IA-HCV-402D-C IA _] C C-4175 6 E7 CK C Oj }((-[] F5 } - - NOTE 1 OP ST CCW-3005 IA HCV-403A-C 1A C 3 C-4175 6 E7 CK C 0.25 O FS Q - - NOTE 1 OP-ST CCW 3005 , IA HCV 403A C 1A C 3 C-4175-6 E7 CK C 0.25 - C FS Q - - NOTE 1 OP-ST-CCW-3005
' ~ ~ ~ ~
IA-HCV-4038-C IA C 3 C 4175 6 E7 CK C 0.25 - I C '15 ~'O - NOTE 1 OP-ST-CCW-3005 IA K V-4038 C IA C 3 C-4175-6 E7 CK C 0.25 - 0 FS Q - - NOTE 1 OP ST-CCW-3005
~ ~
IA-HCV-403C-TV IA C 3 C-4175-6 E3 CK C 0.25 - 0 ~ ~ 75 Q - - NOTE 1 OP ST-CCW-3005 IA-HCV-403C-TV IA C' ~~3 C-4175-6 E3 CK C 0.25 T C FS Q - - NOTE 1 OP-ST-CCW-3005 5A-HCV 4030 C IA C 3 _jC-4175-6 E7 CK C 0 25 , , _0 FS Q - - NOTE 1 OP-ST CCW 3005 IA-HCV 4030-C IA C 3 C-4175 6 E7 CK C 0.25 - C FS Q - - NOTE 1 OP-ST-CCW-3005 l
~ ~ ~ ~
IA HCV-4388-C IA C C-41/5 6 D7 CK C 0.5 - - C FS CS - J24 NOTE 1 OP ST CCW-3004 IA HCV-438B-C IA HCV-438D C IA IA C C
] 3 C-4175 6 C-4175-6 07 07 CK C 0[
0.5 0 "5~ CS - - NOTE 1 OP-ST-CCW-3004 - CK C - C FS CS - J24 NOTE 1 GP-ST-CCW-3004 IA-ICV-438D-C 1A C 7C-4175-6 D7 CK C 0.5 ~ 0 FS CS - - NOTE 1 OP-ST-CCW 3004 IA-HCV-480-C IA C 3 C-4175 6 B7 CK C 0.5 - 0 75~ Q - - NOTE #5 OP-ST-CCW 3005
~' -
IA-HCV-480-C IA C T C-4175 6 B7 CK C 0.5' - C ~E5 Q - - 80TE #5 OP-ST-CCW-3005 IA-HCV 481 C 1A C 3 C-4175-6 B7 CK C 0.5 - 0 FS Q - - h01E #5 OP-ST-CCW 3005 IA-HCV 481-C IA C 3f C 4175-6 B7 CK C 0.5 - - C FS Q - - NOTE #5 OP-ST-CCW 3005 i IA-lCV-484 C IA C 3!C-41756 B7 CK C 05 - - 0 FS Q - - NOTE #5 OP-ST CCW-3005 R3 September 1. 1995 Page 187 of 280
, .-..s,.. - . ,,o.-m- - - ,, . . . - . - , , . , - , _ , , . . _--..-,.--,-,..,..,-m, ..,._,,,.-,,.,m,-.,. ,m. 3- . _ _ ,.,,,.,.,y-m 3 ,. ,,.,,,p ,.,,y ,,.m- ,_.y - , _ _ . - - - . - . _ - . . _ . .,m.-- . g -
4 TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPETEST ___ VPI CODE NtteER SYS CAT CLASS P&ID INATES TYPE TYPE SIZE
- P05 POS TEST TEST REQ FREQ EXPT REMARKS C' 35 IA-HCV 484-C C 3 C 4175-6 87 CK C 0.5 -
Q - NOTE #5 OP ST-CCW 3005 IA-HCV 485-C 3 C 3 C-4175-6 87 CK C 0.5 - 0 FS l Q - - NOTE #5 OP-ST CCW-3005 IA HCV 485-C IA C 3 C-4175 6 B7 CK C 0.5 - C FS ' Q - - NOTE #5 OP-ST-CCW 3005 IA-YCV-1045A-C IA C 3 C-4175-4 87 CK C 0.5 0 FS Q NOTE 1 OP-ST-MS-3001 iS T
~
IA YCV 1045A C IA C 3 C-4175-4 B7 CK C 0.5 C - - NOTE 1 OP ST MS-3001 IA ,__ ' ' IA YCV-10458 C C 3 C-4175 4 B7 CK C 05 - T F5' T - NOTE 1 OP ST-MS 3001 IA-YCV-10458-C IA C 3 C-4175 4 87 CK C 0.5 - C FS Q - - NOTE 1 OP-ST MS 3001 IA HCV 1107A C IA ~T i.5
~
C 4175-8
._. .._ _C ' l5_ ' 5 3 E7 CK C J38 IC ST-AFW-3002 IA HCV 1107A C IA C 3 C 4175 8 E7 CK C 0.5 0
~
FS CS - J38 IC-ST AFW-3002 IA HCV-11078-C IA C 4175-8 C _3 . D7 CK C 0.5'
}' i5 'CS -
J38 IC-ST AFW-3002 IA HCV-11078-C IA C 3 C-4175-8 07 CK C 0.5 0
~
FS CS J38 IC-ST-AFW-3002 IA HCV-1108A C IA
~
C 3 C-4175-8 D7 CK C 0.5' - T' F5 C5~'- J38 IC-ST-AFW-3002 IA HCV 1108A-C IA C l C-4175-8 D7 CK C 0. 5 d FS C5 ' - J38 IC-ST AFL 3002 IQ-HCV 11088-C IA C 3 C-4175 8 07 CK C 05 -
~
'C ~ F5 ' 's ~
J38 IC ST AFW 3002 IA-HCV-11088 C IA C 3 C-4175-8 D7 CK C 0.5 - - 0 ~I5 TS - J38 IC ST-AFW-3002
~
IA FCV 1368-C IA C 3 C-4175-8 D7 CK C 0.5 -
~
C I5~ T - J38 IC-ST-AFW 3001 IA-FCV-1366-C IA C 3 C-4175-8 07 CK C 0.5 - ~I T 'i5 CS - J38 IC-ST-AFW-3001 IA-FCV-1369-C IA C 3 C-4175-8 D7 CK C 0.5 - - C FS CS - J38 IC-ST-AFW-3001 IA FCV-1369-C IA C 3 C-4175 8 07 CK C 05 0 FS
~
CS J38 IC-ST AFW-3001 PCV-1849A-20A IA A 2 M-264 1 08 GL 5 0.5 0 FC L LT 2YR - APPENDIX J PCV 1849A 20B IA A 2 M 264-1 D8 GL S 0.5 0 FC L LT 2VR - - APPEEIX J
~
IA-HCV-2851-C IA C 3 C 4175-7 D7 CK C 0.5 0 F5
'~
Q - NOTE 1 IC-ST-IA-3003 IA-HCV-2851-C IA C C-4175-7 D7 CK C 05' 35~
~'
C Q - - NOTE 1 IC ST-IA 3003 IA-HCV-2852-C IA C 3 C-4175-7 07 CK C 0.5 - C F5~ l - - NOTE 1 IC-ST IA-3003 IA HCV-2852-C IA C 3 C-4175-7 D7 CK C 05 0 FS Q - - NOTE 1 IC ST-IA 3003 IA-HCV-2853-C 1A C 3 C-4175-7 D7 CK C 0.5 0 F5 Q - - NOTE 1 IC ST-IA-3003 IA-HCV 2853 C IA C. 3 C-4175-7 D7 CK C 05 C F5 Q - NOTE 1 IC-ST-IA-3003 IA-HCV 2898A-C IA C 3 M 100 CK C 0.5 C FS Q - - NOTE 6 IA ST-IA 3008 IA4CV 2898A-C IA C 3fM-100 CK C 0.5 0 iS ~ Q -
- NOTE 6 IA-ST-IA-3008 IA-HCV-28988-C 1A C CK 0.5 3[M-100 C -
C FS Q - - NOTE 6 IA-ST-IA 3008
!a-HCV 28988 C IA C 3lM-100 CK C 0.5 -
0 FS Q - - NOTE 6 IA ST-IA 3008 IA.HCV-2899A-C IA C 7 M 100 CK C OIS - C FS Q - - NOTE 6 IA ST-IA-3008 IA-HCV-28994-C IA HCV-28998-C IA IA C C 3 M-100 M-100 CK CK C C 0.5 05 _{ - 0 C ii FS Q Q NOTE 6 IA-ST-IA-3008 NOTE 6 IA ST IA 3008 IA-ICV-28998 C IA C i M 100 CK C 0.5
~~
T FS T - - NOTE 6 IA ST-IA 3008 R3 Septerrber 1,1995 Page 188 of 280 _ _ . . . - .- ~ -.
d TABLE 2.1 - FORT CALHOUN VALVE TEST PROGRAM MATRIX VALVE COORD- VALVE OPER VALVE NORM FAIL TEST TYPE TEST VPI CODE
. EMIER SYS CAT CIASS P&ID INATES TYPE TYPE SIZE
- POS REQ' TEST TEST EXPT REMARKS
_ _POS i5]E IA HCV-2987-C IA C 3 C-4175-5 C7 CK C 0.375 - - C FS Q - NOTE 1 IC-ST-IA-3005
~
IA 3092 1A A 2 M 264-4 B5 Q. H 05 - L LT 2YR - APPEIO!X J IA 3093 ' IA A 2 M 264 4 B5 GL H 0.5 - L LT 2YR - APPENDIX J
-~~
IA 3094 IA A 2 M 264-4 B5 BL H 0.5 - -
~T '
LT 2YR - - APPD O!X J IA-PCV 6680A 1-C IA C 3 P-49323 N/A CK C 0.5>. - C 'FS~ CS - J38 NOTE 4 IC-ST-IA-3006 IA-PCV 6600A 2 C IA ' 'C 3 P 49323 N/A CK C 0.5 - - C TS~ CS - J38 NOTE 4 IC-ST IA 3007 IA-PCV 66808 1-C IA C. 3 P-49323 N/A CK C 0.5 - - C FS CS - J38 NOTE 4 IC-ST-IA 3007
'~
IA-PCV-66808-2 C IA C 3 P 49323 N/A CK C 0.5 I C i5 1 - J38 NOTE 4 IC-ST-IA-3007 I" IA PCV 6682-C IA C 3 P 49323 N/A CK C 0.5 C F5 ~ CS - J38 NOTE 4 IC ST IA-3007 a d A R3 September.l. 1995 Page 189 of 280
I i t J APPENDIX 2A / JUSTIFICATION FOR TESTS FREQUENCIES OTHER THAN CODE PREFERRED 4 4 R3 September 1, 1995 Page 190 of 280
JUSTIFICATION FOR TEST FREQUENCIES OTHER THAN CODE PREFERRED This section provides justification for alternate frequencies other than those preferred in the Code. Each frequency justification is identified by a unique number and identifies the valve (s) for which the frequency justification is presented. The specific Code test frequency requirement found to be impractical is defined and the justification for an alternative test frequency is given. Frequencyjustificationsarenumberedandreferencedbynumber(Jx) i on the Valve Test Program Matrix Table 2.1 for specific valves.
- 1. Frequency Justification Number J1 - Refueling Outage Justification Components:
. SI-100, SI-113 Function: High Pressure Safety Injection (HPSI) Pump Suction Check Valves ~ Class: 2 i Test Requirements: Quarterly Full Flow Exercising in the Open Direction
- Basis for Justification:
a These valves cannot be full-stroke exercised open Quarterly during plant operation or during Cold Shutdowns, since to do so would - require a flow path to the Reactor Coolant System (RCS). That flow path cannot be utilized during power operation because the High Pressure Safety Injection (HPSI) pumps do not develop sufficient discharge pressure to overcome RCS pressure. This same flow path cannot be utilized during Cold Shutdowns because there is insufficient volume in the RCS to accommodate the flow recuired and a low temperature overpressure condition of the RCS coulc result. Alternate Testing: Valves will be partial-stroke exercised open, using the minimum recirculation flow path Quarterly during normal operations, and full-stroke exercised open during Refueling Outages. This method of partial-stroke exercising open Quarterly and full-stroke exercising open during Refueling Outages is in accordance with the guidance set forth in Paragraph 4.2.1.2 0&M Part 10. R3 September 1, 1995 Page 191 of 280
A - 4
- 2. Frequency Justification Number J2 - Cold Shutdown Justification !
- Components:
PCV-102-1, PCV-102-2
- Function:
1 Power Operated Relief Valves (PORV) for the Pressurizer l Class: l 1 Test Requirements: Quarterly Stroke-Timing Open and Closed Basis for Justification: These valves can only be opened or closed when there is a pressure differential across the valve. The valves have solenoid pilot valves that control their actuation. Since valves of this type have a history in the industry of sticking open and the PORVs are not credited in the safety analysis for overpressure protection , during power operations, it is impractical to stroke these valves 4 Quarterly during power operation. These valves cannot be partial-stroke tested open because they are either fully opened or 4 fully closed.
- Alternate Testing:
The PORVs will be stroke-timed in the open and closed direction during the transition to Cold Shutdown (primary plant pressure is between 350 - 450 psia and primary plant temperature is between 300 - 350*F) prior to entering Mode 4. The PORVs will be tested during the transition from Hot Shutdown to Cold Shutdown (as defined by FCS Technical Specifications) whenever practical, i.e.,
- normal plant shutdown. During a Technical Specification mandated 4
shutdown, the PORVs will be tested during plant startup prior to entering Mode 2 (when primary plant pressure is between 350 - 450 psia and primary plant temperature is between 300 - 350*F). j R3 September 1, 1995 Page'192 of 280
- 3. Frequency Justification Number J3 - Refueling Outage Justification Components:
51-102, SI-108, SI-115
- Function:
HPSI Pump Discharge Check Valves Class: 2 Test Requirements: Quarterly Full Flow Exercising in both the Open and Closed Directions Basis for Justification: Thess-valves cannot be full-stroke or partial-stroke exercised , open or closed during plant operation, Quarterly or during Cold i Shutdowns, since to do so would require a flow path to the RCS. That flow path cannot be utilized during power operation because i the HPSI pumps do not develop sufficient discharge pressure to l overcome RCS pressure. This same flow path cannot be utilized I during Cold Shutdowns because there is insufficient volume in the RCS to accommodate the flow required, and a low temperature overpressure condition of the RCS could result. Additionally, these valves cannot be exercised during Quarterly pump tests or miniflow because the minimum flow lines branch off upstream of the check valves and no flow occurs through these valves.
- Alternate Testing:
Valves will be full-stroke exercised open and closed during Refueling Outages when the Reactor Vessel head is removed. This will provide an expansion volume to accommodate the flow required. R3 September 1, 1995 Page 193 of 280
- 4. Frequency Justification Number J4 - Cold Shutdown Justification Components:
SI-121, SI-129
- Function:
Low Pressure Safety Injection (LPSI) Pump Discharge Check Valves Class: 2 Test Requirements: Quarterly Full-Stroke Exercising in both the Open and Closed Directions Basis for Justification: These valves cannot be partial-stroke or full-stroke exercised in the open or closed direction Quarterly during power operation because there is no flow path available except during shutdown cooling. Additionally, these valves cannot be exercised open or closed during Quarterly pump tests or using the miniflow line because the minimum flow lines branch off upstream of the check valves and no flow occurs through these valves. l Alternate Testing: Valves will be full-stroke exercised open and closed during Cold Shutdown. i l l i l l R3 September 1, 1995 Page 194 of 280
Y
- 5. Frequency Justification Number J5 - Cold Shutdown Justification l
Components: ; I CH-143, CH-155, CH-156 ,
- Function:
CH-143 - Charging Pump Boric Acid Supply Check Valve , CH-155 - Charging Pump Boric Acid Gravity Feed Check Valve CH-156 - Charging Pump Safety Injection and Refueling Water Tank (SIRWT) Suction Check Valve Class: 2
- Test Requirements:
Quarterly Full Flow Exercising in the Open Direction ; Basis for Justification: ' i These check valves serve to permit direct feed of concentrated , boric acid solution to the charging pump suction header. These i check valves cannot be full-stroke or partial-stroke exercised open Quarterly during power operation. The only flow path through these valves is into the RCS; exercising would result in injecting highly concentrated boric acid into the RCS. Injecting concentrated boric acid into the RCS during power operation could cause an uncontrolled reactivity excursicn, a plant shutdown, or a plant trip. ,
- Alternate Testing:
Valves will be full-stroke exercised open during Cold Shutdown in accordance with the FCS 151 Program Plan implementing procedures. .1 I l l l 1 l i i 1 R3 September 1, 1995 Page 195 of 280 l l
- 6. Frequency Justification Number J6 - Cold Shutdown Justification Components:
FW-161, FW.162 Function: Steam Generator Normal Feedwater Inlet Check Valves Class: 2.
- Test Requirements:
Quarterly Full-Stroke Exercising in the Closed Direction
- Basis for Justification:
These check valves function to prevent the loss of inventory of the Steam Generators in the event of a line break upstream between valves HCV-1386 (HCV-1385) and check valve FW-161 (FW-162). These check valves cannot be full-stroke exercised closed Quarterly during power operation because the valves FW-161 and FW-162 are the only feedwater supply flow paths to the Steam Generators. During power operation, the feedwater paths to the Steam Generators must not be isolated as this would remove the " heat sink" for the Reactor Coolant System (RCS).
- Alternate Testing:
Valves will be full-stroke exercised closed during Cold Shutdown as defined in the FCS Technical Specifications, in accordance with the requirements of the FCS ISI Program Plan implementing procedures. i l R3 September l', 1995 Page 196 of 280
4 1 2 i l' 7._ ' Frequency Justification Number J7 - Cold Shutdown Justification
.- Components: !
FW-163, FW-164 Function:- Steam Generator' Auxiliary Feedwater Injection Check Valves Class:
- 2
) - Test Requirements: Quarterly Full-Stroke Exercising in the Open Direction Basis For Justification: j ! These check valves open for auxiliary feedwater (AFW) flow to the ! Steam Generators. Exercising these valves during power operation l would result in cold water injection to a portion of the Steam Generators normally at 400 - 500*F, which would cause unnecessary ' and possibly damaging thermal stresses in the Steam Generators. i ! The check valves are not required to be' exercised in the closed direction, as there are two containment isolation valves upstream - of each of the check valves which are normally closed. In addition, there is an AFW pump check valve upstream of the
- 4 containment isolation valves which is exercised closed quarterly !
in accordance with the FCS ISI Program Plan. As a result of the above mentioned ISI tests, FCS has addressed adequately the. ! concern of " thermal binding" of the AFW pumps and has determined ; that FW-163 and FW-164 do not provide a safety-related function in the reverse flow direction. It should also be noted that the ! discharge piping temperature upstream of FW-163 and FW-164 is i monitored on a regular basis, further ensuring that the AFW pumps i
- will not experience " thermal binding." t Alternate Testing
These check valves are exercised open during Cold Shutdown. Since i failure of these valves to function in the reverse flow direction would not interfere with the plant's ability to shutdcwn or to i mitigate the consequences of an accident, these check valves shall i , be full-stroke exere? sed only in the open direction. j l R3 September 1, 1995 Page 197 of 280 '
i
- 8. Frequency Justification Number J8 - Cold Shutdown Justification Components:
HCV-176, HCV-177, HCV-178, HCV-179, HCV-180, HCV-181 Function: Reactor Vessel Head and Pressurizer Vents Class: 2
- Test Requirements:
Quarterly Stroke-Timing Open and Closed
- Basis for Justification:
These valves are intended to be used to vent the Reactor Pressure Vessel (RPV) head and pressurizer. These valves are Target Rock solenoid valves, which have a history of sticking open when exercised. This could result in a small break Loss of Coolant Accident (LOCA) if these valves are stroke-timed at power. l Therefore, partial or full-stroke timing during normal operation is impractical. l
- Alternate Testing: ,
i l These valves will be stroke-timed in the open and closed directions during Cold Shutdown, in accordance with the FCS ISI l ! Program Plan implementing procedures. l l l l R3 September 1, 1995 Page 198 of 280 I
l
. \
l l
- 9. Frequency Justification Number J9 - Cold Shutdown Justification Components:
L SI-194, SI-197, SI-200, SI-203 Function: Shutdown Coolirig Injection Check Valves Class:
- I Testing Requirements
- ,
Quarterly Full-Stroke Exercising in the Open Direction and Leakage Test During Cold Shutdown Basis for Justification: These check valves cannot be full-stroke exercised open or , partial-stroke exercised Quarterly during power operation because {; no flow path is available at operating pressure due to system ! configuration. Since the Safety Injection (SI) pumps are not able
- to develop sufficient discharge pressure to overcone RCS pressure, the valves are not able to be exercised. Valves SI-194, SI-197, SI-200 and SI-203 are Pressure Isolation Valves (PIVs)as defined by NRC Generic Letter (GL) 89-04 and as listed in the FCS Technical Specifications.
a Alternate Testing: i
- These check valves are full-stroke exercised open during Cold i Shutdown when the Shutdown Cooling system is in service. These check valves will be leak tested during Cold Shutdown in accordance with the requirements of FCS Technical Specification 2.1, Table 2-9, and Item 14 of the table format of this Program Plan.
R3 September 1, 1995 Page 199 of 280
- 10. Frequency Justification Number J10 - Refueling Outage Frequency Components:
SI-195, SI-198, SI-201, SI-204 Function: High Pressure Safety Injection to Reactor Coolant Loop Check Valves Class: 1 Test Requirements: Quarterly Full-Stroke Exercising in the Open Direction and Leakage Test During Cold Shutdown Basis for Justification: These check valves cannot be full-stroke or partial-stroke exercised open Quarterly during power operation because the only flow path available is into the RCS. Since the HPSI pumps do not develop sufficient discharge pressure to overcome RCS operating pressure, the valves cannot be exercised during Cold Shutdown becauw ";e RCS does not contain an adequate expansion volume and 4 a low tensperature overpressurization (LTOP) of the RCS could result. Valves SI-195, SI-198, SI-201 and SI-204 are pressure isolation valves (PIVs) as defined by NRC GL 89-04 and as listed I
- in the FCS Technical Specifications. l Alternate Testing
These check valves will be full-stroke exercised open during l Refueling Outages when the RCS is depressurized and the Reactor Pressure Vessel (RPV) Head is removed in order to provide an expansion volume to accommodate the flow required. These check valves will be leak tested during Cold Shutdown in accordance with the requirements of FCS Technical Specification 2.1, Table 2-9, , and Item 14 of the table format of this Program Plan. i R3 September 1, 1995 Page 200 of 280
- 11. Frequency Justification Number J11 - Refueling Outage Frequency Components:
SI-196, SI-199, SI-202, SI-205, SI-343, CH-469 Function: , High Pressure Safety Injection to Reactor Coolant Loop Check Valves Class: 1 - SI-196, SI-199, SI-202, SI-205, CH-469 2 - SI-343 Testing Requirements: Quarterly Full-Stroke Exercising in the Open Direction Basis for Justification: Valves SI-196, -199, -202, -205, and CH-469 function to prevent backflow through the Safety Injection (SI) pump discharge headers. These valves cannot be full-stroke or partial-stroke exercised open during power operation utilizing flow because the HPSI pumps i do not develop sufficient discharge pressure to overcome RCS , pressure. The charging pumps cannot be used during power operation because the flow path from the pumps would bypass the Regenerative Heat Exchanger and result in injecting cold water, 3 causing thermal shock to the injection nozzles and a reactivity transient. This could result in an unnecessary plant trip. Check
- valve SI-343 cannot be partial-stroke exercised during Cold Shutdowns because using the HPSI pumps without an adequate vent
! path could cause an overpressurization of the RCS. The HPSI pumps are therefore tagged out to prevent inadvertent operation and potential overpressurization to the RCS. l - Alternate Testing: i Check valves SI-196, SI-199, SI-202, and SI-205 will be ! partial-stroke exercised open during Cold Shutdown using the Charging Pumps and full-stroke exercised Open during Refueling Outages when the HPSI pumps are able to be utilized. i Check valve CH-469 will be partial-stroke exercised open during Cold Shutdown using the charging pumps. Both check valves, CH-469 and SI-343, will be full-stroke exercised open during Refueling Outages using the charging pumps and the HPSI pumps, as necessary, i R3 September 1, 1995 Page 201 of 280 -
i i
- 12. Frequency Justification Number J12 - Refueling Outage Justification
- Components:
CH-198, CH-203, CH-204 Function: Charging Pump discharge to RCS Check Valve (CH-198) Loop Charging Line to RCS Check Valves (CH-203, CH-204) Class: 2(CH-198) 1 (CH-203, CH-204)
- Test Requirements:
Quarterly Full-Stroke Exercising CH-198 in the Open and Closed Directions Quarterly full-stroke exercising CH-203 and CH-204 in the Open Direction Basis for Justification: These check valves cannot be full-stroke exercised open (or closed for CH-198) during plant operations Quarterly or during Cold Shutdowns, since to do so would require the charging and HPSI pumps to be run which would require a flow path to the RCS. That flow path cannot be utilized during power operation because the HPSI pumps do not develop sufficient discharge pressure to overcome RCS pressure. This same flow path cannot be utilized during Cold Shutdowns because there is insufficient volume in the RCS to accommodate the flow required and a low temperature overpressure condition of the RCS could result.
- Alternate Testing:
The check valves CH-198, CH-203, and CH-204 will be partial-stroke exercised in the open direction Quarterly during power operation using the charging pumps. The check valves will be full-stroke exercised in the open direction during Refueling Outages when the Reactor Pressure Vessel (RPV) head is removed, using the charging pumps and the HPSI pumps. Check valve CH-198 will be full-stroke exercised in the close direction during Refueling Outages. R3 September 1, 1995 Page 202 of 280
- 13. Frequency Justification Number J13 - Cold Shutdown Justification Component:
TCV-202, HCV-204 I - Function: Letdown Temperature Control Valve, Letdown Isolation Valve Class: 1- TCV-202 2- TCV-204
- Test Requirements:
. Quarterly Stroke-Timing Closed Basis for Justification:
These valves are used for RCS Loop 2A letdown isolation and temperature regulation. Stroking these_valvas Quarterly during power operation could result in the termination of letdown flow. This would isolate the RCS purification process and could potentially cause a reactivity excursion. These valves cannot be partial-stroked because the valves are either fully open or fully
- closed.
Alternate Testing: , These valves will be stroke-timed in the closed direction during Cold Shutdown in accordance with the FCS ISI Program Plan implementing procedures. l l l 4 R3 September 1, 1995_ Page 203 of 280
- 14. Frequency Justification Number J14 - Cold Shutdown Justification Component:
CH-205 Function: Auxiliary Pressurizer Spray Check Valve , Class: 1 Test Requirements: Quarterly Full Flow Exercising in the Open Direction Basis for Justification: This check valve cannot be full-stroke exercised during plant operations Quarterly or during Cold Shutdowns, since to do so would require a flow path to the RCS. That flow path cannot be utilized during power operation because the HPSI pumps do not develop sufficient discharge pressure to overcome RCS pressure. This same flow path cannot be utilized during Cold Shutdowns because there is insufficient volume in the RCS to accommodate the flow required and a low temperature overpressure condition of the RCS could result. Alternate Testing: The check valves will be partial-stroke exercised in the open direction Quarterly during power operation using the charging l pumps. The check valves will be full-stroke exercised in the open i , direction during Refueling Outages when the RVP head is removed, 1 using the charging pumps and the HPSI pumps. j t i i l I R3 September 1, 1995 Page 204 of 280 I l
- 15. Frequency Justification Number J15 - Refueling Outage Justification Component:
HCV-206, HCV-241 Function: RC Pump Control Bleedoff Isolation Valves
. Class:
2
- Test Requirements:
Quarterly Stroke-Timing Closed Basis for Justification: The Reactor Coolant Pump (RCP) seals serve as an RCS pressure l boundary, therefore, seal failure could result in unisolable l coolant leakage from the RCS. Isolation of the RCP seal bleed-off l by stroking these valves closed would cause the seal bleed-off l line relief valve (CH-208) to lift, directing reactor coolant ! directly to the Reactor Coolant Drain Tank (RCDT). If the leakage remained unchecked, the RCDT relief valve could lift directing reactor coolant to the Containment floor, causing a Ventilation Isolation Actuation Signal (VIAS). Additionally, the temporary isolation of pump seal flow (until the relief valve lifted) would , eliminate the ability of the RCP seal to break down RCS pressure l and could potentially cause localized overheating of the seals. l The pump seals can be damaged by overheating if seal water flow is stopped while the pumps are running. It is impractical to exercise these valves Quarterly or during any plant conditions that could result in abnormal seal wear. This could lead to failure of the RCP seals, creating unisolable leakage equivalent to a small break LOCA. Alternate Testing: The valves will be stroke-timed in the closed direction during Cold Shutdown, when the RCS is depressurized and the RCPs are secured. l l R3 September 1, 1995 Page 205 of 280
i.
- 16. Frequency Justification Number J16 - Cold Shutdown Justification Components: ,
LCV-218-2, LCV-218-3 . r , Function: VolumeControlTankOutletIsolationValveandCharging(Pump) Suction From Safety Injection and Refueling Water Tank SIRWT Isolation Valve Class: 2. Test Requirements: Quarterly Stroke-Timing Closed for LCV-218-2 and Quarterly Stroke-Timing Open for LCV-218-3 Basis for Justification: , These valves function to provide Volume Control Tank (VCT) level control and switch charging suction to the Safety Injection and Refueling Water Storage Tank (SIRWT). The valves cannot be j stroke-tested Quarterly because doing so would terminate charging flow to the RCS and would have the potential for disrupting ' 1 pressurizer level regulation or boron concentration regulation. I Pressurizer level regulation disruption can lead to RCS pressure i transients and disruption of boron concentration could cause ; i reactivity excursions. - - Alternate Testing: ) i Valve LCV-218-2 will be stroke-timed in the closed direction and valve LCV-218-3 will be stroke-timed in the open direction during Cold Shutdowns. i i i i R3 September 1, 1995 Page 206 of 280
i i !' 17. Frequency Justification Number J17 - Cold Shutdown Justification ! i j .. Components: ; IA-HCV-240-C, HCV-240, HCV-249 l < - Function: Instrument Air (IA) Accumulator Check Valve for HCV-240, Auxiliary Pressurizer Spray Isolation Valves Class: 3(IA-HCV-240-C), Class 1(HCV-249,HCV-240)
- Test Requirements: .,
Quarterly Exercising in the Open and Closed Directions for IA-HCV-240-C, Quarterly Exercising Open for HCV-249 and
- Stroke-Testing in the Open and Closed Directions for HCV-240 i
. Basis for Justification:
l Valves HCV-240 and HCV-249 cannot be stroke-timed Quarterly during
+ power operation because doing so will lead to large scale :
1 depressurization of the RCS and thermal shock of the pressurizer , i spray nozzle. The IA accumulator check valve (IA-HCV-240-C) l cannot be full-stroke exercised in the open direction Quarterly during power operation, as exercising of the check valve will : cause HCV-240 to cycle. This could cause large scale depressurization of the RCS and thermal shock of the 3ressurizer j spray nozzle. The check valve (IA-HCV-240-C) cannot )e partial-
- stroke exercised for the same reason.
. Alternate Testing:
Valve IA-HCV-240-C will be exercised in the open and closed j directions during Cold Shutdowns. Valves HCV-240 and HCV-249 will be stroke-timed in both the open and closed directions during Cold Shutdowns. , n 1 o R3 September 1, 1995 Page 207 of 280 i
- 18. Frequency Justification Number J18 - Cold Shutdown Justification Components:
HCV-268 Function: Concentrated Boric Acid to Charging Pump Suction Isolation
-Valves Class:
2 Test Requi.ements: Quarterly Stroke-Timing in the Open Direction Basis for Justification: These valves serve to isolate concentrated boric acid from the ! charging pump suction header. These valves cannot be stroke-timed l Quarterly during power operation because doing so would allow concentrated boric acid solution to be injected into the RCS. 4 Boration of the primary system during normal power operation would j cause reactivity transients and possibly result in a plant shutdown. These valves cannot be partial-stroked for the same reason. 4 Alternate Testing: Valves will be stroke-timed in the open direction during Cold Shutdown.
'R3 September 1, 1995 Page 208 of 280
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s o. f 4 5 l i 19. Frequency Justification Number J19 - Cold Shutdown Justification : 4 DELETED ; c .: i- i j J-i- 1 . 4 )
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4
- 20. Frequency Justification Number J20 - Refueling Outage Justification I
- Component:-
SI-323
- Function: -
'High Pressure Safety Injection Header Check Valve
.. Class:
2.
. Test Requirements:
Quarterly Full. Flow Exercising in the Open and Closed Directions Basis for Justification: This check valve functions to prevent backflow of charging flow to the lower design pressure HPSI piping when the alternate charging flow path is active. The only flow path available is into the RCS and since the HPSI pumps do not develop sufficient discharge pressure to overcome RCS operating pressure, this valve carrot be exercised Quarterly during power operation. This valve ci.'not be exercised during Cold Shutdowns because the RCS does not contain an adequate expansion volume and a low-temperature overpressurization of the RCS could result. Additionally, this valve cannot be partial-stroke exercised during pump test or miniflow because the minimum flow lines branch off upstream of the check valve and no flow occurs through this valve.
- Alternate Testing:
This check valve will be exercised full-open and full-closed during Refueling Outages. R3 September l, 1995 Page 210 of 280
- 21. Frequency Justification Number J21 - Cold Shutdown Justification Components:
HCV-344, HCV-345 IA-HCV-344-C, IA-HCV-345-C Function: ContainmentSpray(CS)HeaderIsolationValves Instrument Air Accumulator Check Valve Class: 2 HCV-344, HCV-345 2 IA-HCV-344-C, IA-HCV-345-C 4 Test Requirements: Quarterly Stroke-Timing in Both the Open and Closed Directions for HCV-344 and the Open Direction Only for HCV-345. Quarterly Exercising to the Closed Direction for IA-HCV-344-C and IA-HCV-345-C. Basis for Justification: Valves HCV-344 and HCV-345 serve as CS isolation. These valves cannot be stroke-tested Quarterly during power operation since the potential for spraying down the Containment is greatly increased. Spraying down the Containment could cause equipment damage, electrical grounds and unnecessary corrosion (due to electrical shorts) to equipment and equipment malfunctions and unnecessary plant trips. These valves represent the only boundary between the CS and SI pump headers and the CS nozzles when manual valves SI-177 and SI-178 are open. The valves cannot be partial-stroked for the same reason. Valves IA-HCV-344-C and IA-HCV-345-C are the IA accumulator check valves for process valves HCV-344 and HCV-345, and function to allow the valves to be closed on loss of IA, if required. These check valves cannot be exercised Quarterly as required as this would stroke the process valves, HCV-344 and/or HCV-345. Alternate Testing: Valve HCV-344 shall be stroke-timed in both the open and closed directions during Cold Shutdown. HCV-345 shall be stroke-timed in the open direction during Cold Shutdown. The IA check valves IA-HCV-344-C and IA-HCV-345-C shall be exercised in the closed direction during Cold Shutdown. R3 September 1, 1995 Page 211 of 280 .
- 22. Frequency Justification Number J22 Cold Shutdown Justification Components: :
HCV-347, HCV-348 Function: Shutdown Cooling from Loop Isolation Valves
- r Class
j 1 i
- Test Requirements:
! Quarterly Stroke-Timing in the Closed Direction Basis for Justification: These valves cannot be Quarterly stroke-timed closed during power >
! operation because they are interlocked closed to ensure the.
integrity of the 3ressure boundary between Class 2501 and Class 301 piping when tie RCS pressure is > 250 psia.
- Alternate Testing:
1 , i These valves will be stroke-timed in the closed direction during Cold Shutdown prior to initiating Shutdown Cooling (<300 F and
<250 psi) while the Steam Generator is still available for removing decay heat from the primary system.
i Y a l 3 R3 September 1, 1995 Page 212 of 280 l
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- 23. Frequency Justification Number J23 - Cold Shutdown Justification Components:
HCV-425A, HCV-4258, HCV-425C, HCV-4250 , i
- Function:
Inlet and Outlet Isolation Valves to SI Tank Leakage Coolers Class: 2 I I j Test Requirements: Quarterly Stroke-Timing in the Closed Direction 1
- Basis for Justification:
These valves serve to isolate Containment Penetrations M-39 and M-53, Component Cooling Water (CCW) System penetrations. They
- cannot be Quarterly stroke-timed closed during power operation
- because failure of these. valves in the closed position would
- terminate cooling flow to Safety Injection Tank leakage coolers. i This would have the potential for lifting the relief valve (SI- "
222) to the Reactor Coolant Drain Tank (RCOT) which could l eventually cause reactor coolant to overflow to the Containment
- floor, causing a Ventilation Isolation Actuation Signal (VIAS).
These valves cannot be partial-stroked because they are either fully opened or fully closed. j v l ! . Alternate Testing: , l These valves will be stroke-timed in the closed direction during Cold Shutdowns. l 1 k 4 i 1 i 4 d J: l i ) R3 September 1, 1995 Page 213 of 280 l l i
- 24. Frequency Justification Number J24 - Refueling Outage Justification Components:
HCV-438A, HCV-438B, HCV-438C, HCV-4380, IA-HCV-4388-C, IA-HCV-4380-C
- Function:
RCP Cooler Isolation Valves, Instrument Air Supply Check Valves Class: 2 HCV-438A,HCV-4388,HCV-438C,HCV-4380) 3 IA-HCV-438B-C,IA-HCV-438D-C)
- Test Requirements:
HCV-438A, HCV-4388, HCV-438C and HCV-438D are Required to be Stroke-Timed Both in the Open and Closed Directions Quarterly. IA Accumulator Check Valves (IA-HCV-4388-C and IA-HCV-4380-C) are Required to be Exercised Quarterly in the Open and Closed Directions. Basis for Justification: These valves serve to isolate Containment Penetrations M-18 and M-19, RCP seal cooling water. Exercising these valves would isolate cooling water flow to the RC Pumps which could damage the pumps if they are operating. RC pump failure during power operation could result in a plant shutdown. Therefore, it is not practical to exercise these valves Quarterly during power operations. During some Cold Shutdowns, Reactor Coolant temperature may be held above 130*F and plant conditions may not allow further cooldown or stopping all RC pumps. Exercising these i valves during Cold Shutdowns when RC temperature is greater than 130*F or when any RC pump is running could result in RC pump damage. Therefore, it is not practical to exercise these valves when those plant conditions exist. These valves cannot be partial-stroked because they are either fully opened or fully closed.
- The IA accumulator check valves cannot be exercised Quarterly l during power operation as exercising these check valves will cause cycling of the process valves.
R3 September 1,.1995 Page 214 of 280
- 24. Frequency Justification Number J24 - Refueling Outage Justification
-(Continued)
Alternate Testing: Valves HCV-438A, HCV-4388, HCV-438C and HCV-438D will be stroke-timed in both the open and closed directions during Cold Shutdown, provided the RCS is depressurized, RCS temperature is less than 130*F, and the RCPs are secured. IA accumulator check valves (IA-HCV-438B-C, IA-HCV-438D-C) will be exercised closed during Cold Shutdown, provided the RCS is depressurized, RCS temperature is less than 130 F and the RCPs are secured. l l i l R3 September 1, 1995 Page 215 of 280 l
]
'25; Frequency Justification Number J25'- Cold Shutdown Justification
. DELETED q
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l l i R3.3eptember 1, 1995 Page 216 of 280
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- 26. Frequency Justification Number J26 - Cold Shutdown Justification Components:
HCV-1041A, HCV-1042A. Function: Main Steam Isolation Stop Check Valves Class: 2 Test Requirements: Quarterly Stroke-Timing in the Closed Direction Basis for Justification: These valves serve to isolate the Main Steam (MS) headers. They cannot be tested Quarterly during power operation because doing so would isolate steam flow in the Steam Generators and result in a turbine and reactor trip. These valves cannot be partial-stroked because they are either fully opened or fully closed.
- Alternate Testing:
These valves will be stroke-timed in the closed direction during Cold Shutdown. R3 September.1, 1995 Page 217 of 280
i 4 a 1 i 3
- 27. Frequency Justification Number J27 - Cold Shutdown Justification l l
- Components:
HCV-1041C, HCV-1042C l l
- Function:
Main Steam Isolation Bypass Valves Class: 2
- Test Requirements: .
Quarterly Stroke-Timing in the Closed Direction
- Basis for Justification:
1 These' valves serve to provide a pathway from the Steam Generators pass valves in the event that~the Main 4 to the steam Steam Isolationdump and.by(MSIV) close. Valves Stroke-timing these valves Quarterly during power operation is not acceptable because the , valves are interlocked closed when the MSIVs are open. Bypassing this interlock could cause the MSIVs to close, causing the turbine to trip and resulting in a reactor trip. The valves cannot be partial-stroked for the same reason.
- Alternate Testing:
These valves will be stroke-timed in the closed direction during Cold Shutdown. l l
)
i R3 September 1,;1995 Page 218 of 250 l I 1
- 28. Frequency Justification Number J28 - Cold Shutdown Justification
- Components:
1 HCV-1385, HCV-1386 HCV-1103, HCV-1104, HCV-1105, HCV-1106
- Function:
Main Feedwater Isolation Valves Class: 1 2 l N
- Test Requirements:
Quarterly Stroke-Timing in the Closed Direction
- Basis for Justification:
Valves HCV-1385, HCV-1386, HCV-1103, HCV-1104, HCV-1105 and HCV-1106 cannot be stroke-timed Quarterly during power operation because doing so would isolate feedwater to Steam Generators resulting in a reactor trip. These valves cannot be partial-stroked because they are either fully opened or fully closed.
- Alternate Testing:
These valves will be stroke-timed in the closed direction during Cold Shutdown. R3 September 1, 1995 Page 219 of 280
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_ . _ , - _ . _ . . . - - . . _ _ _ ~ . A h-j 29. Frequency Justification Number J29 - Cold Shutdown Justification f DELETED 4
+
4 ( 3. 4-1. 1 ,4 w J-I, ' 1, . 1 1 e a j - 11 9 i. r i i i 1 4 i 4 i
- t r
k i > 4 P 1 R3 September 1, 1995 Page 220 of.260 t
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- 30. Frequency Justification Number J30 - Refueling Outage Justification ;
Components: - PCV-1849A, PCV-1849B Function: Instrument Air Containment Isolation Valves Class: 2 [ Test Requirements: Quarterly Stroke-Timing in the Closed' Direction ! Basis for Justification: , These valves serve to isolate IA pressure (via Penetration M-73) to containment systems. PCV-1849A (inboard) and PCV-18498 ' (outboard) were added during the refueling and maintenance outage (Fuel Cycle 12) in 1988 by Modification MR-FC-88-11 (0SAR 87-10). Stroke-timing cannot be performed Quarterly during power operations or Cold Shutdown with RCS temperature greater than 130*F and the RCS is not depressurized. The valves cannot be partial-stroked, because they are either fully opened or fully closed. The closing of these valves could: ) (1) cause fluctuations in the pressure control of the pressurizer (PCV-103-1,PCV-103-2), (2) resultindamagetoRCPseals(HCV-241), (3) disrupt RCS letdown to the Chemical Volume Control System j (CVCS)(TCV-702,LCV-101-1,LCV-101-2), (4) damagetheNuclearDetectorinstrumentation(HCV-467A/C), (5) cause level fluctuation in the SI Tank level (HCV-2916, HCV-2936,HCV-2956,HCV-2976),and (6) cause loss of the Steam Generator Blowdown (HCV-1387A and HCV-1388A). The ripple effect caused by the exercise stroking of PCV-1849A/B would be detrimental during power operation or when in Cold Shutdown with RCS temperature greater than 130'F and not depressurized. R3 September 1, 1995 Page 221 of 280
i i
- 30. Frequency Justification Number J30 - Refueling Outage Justification (Continued)
Alternate Testing: i These valves will be stroke-timed in the closed direction during Cold Shutdown when the RCS temperature is less than 130*F with , RCPs off and the RCS depressurized. ., 1 i i i I, 4 R3 September 1, 1995 Page 222 of 280
i I
- 31. Frequency Justification Number J31 - Cold Shutdown Justification
- Components: :
HCV-2506A, HCV-25068, HCV-2507A, HCV-25078 Function , Steam Generator Blowdown Sample Isolation Valves ! Class: f 2 t Test Requirements: { Quarterly Stroke-Timing in the Closed Direction ; Basis for Justification: These valves serve to isolate Steam Generator Blowdown sampling lines. These valves cannot be Quarterly stroke-timed during power operation because doing so would terminate blowdown sample line ; flow. The Steam Generator Blowdown activity monitor is on the ' sample line. Technical Specification 2.9(1)e requires that blowdown activity shall be continuously monitored by the Steam Generator Blowdown Sample Monitoring System when blowdown is l occurring. Steam generator blowdown is a continuous function at ; FCS. Partial-stroking cannot be performed since these valves are either fully opened or fully closed. Alternate Testing: ( These valves will be stroke-timed in the closed direction during Cold Shutdown. I i i t l R3 September 1, 1995 Page 223 of 280
k I L b 1 s 4- . t Frequency Justification Number J32 - Cold Shutdown Justification i..32. j l 1- - DELETED [;
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- R3 September 1, 1995 Page 224 of 280
i 1
- 33. . Frequency Justification Number J33 - Cold Shutdown Justification Components:
IA-HCV-238-C, IA-HCV-239-C
- Function: ,
! Instrument Air Supply Check Valves Class: 3 1 4 Test Requirements: i Quarterly Full-Stroke Exercising in Both the Open and Closed ; 4 Directions j - Basis for Justification: i These valves are check valves on IA accumulators attached to HCV-238 and HCV-239, which are located inside the Containment. The process valves (HCV-238 and HCV-239) are remotely . stroke-tested in both the open and closed directions Quarterly, , but due to inaccessibility during power operation, the check ' valves are not able to be tested.
- Alternate Testing:
These check valves will be full-stroke exercised in the open and
- closed directions at Cold Shutdown.
l l l i R3 September 1, 1995 Page 225 of 280
- 34. Frequency Justification Number J34 - Cold Shutdown Justification Components:
IA-HCV-385-C, IA-HCV-386-C HCV-385, HCV-386 Function: Instrument Air Supply Check Valves SIRWT Minimum Recirculation Isolation Valves Class: 3 IA-HCV-385-C,IA-HCV-386-C) 2 HCV-385,HCV-386) Test Requirements: Quarterly Full-Stroke Exercising in Both the Open and the Closed Directions. Quarterly Stroke Timing in Both the Open and the Closed Directions. Basis for Justification: These valves (IA-HCV-385-C and IA-HCV-336-C) are check valves on IA accumulators attached to HCV-385 and HCV-386 (Safety Injection Mini Flow Bypass Isolation Valves). The test methodology for the IA accumulator check valves requires the process valves to be closed greater than one hour each. This isolates the SI miniflow recirculation line, which, if the SI pumps start, could cause these pumps to operate at shutoff head. Therefore, the check valves are not able to be tested Quarterly. Running the SI pumps at shutoff head could cause the pumps to overheat and cavitate. Prolonged closure of these valves could cause equipment damage. These valves (HCV-385 and HCV-386) are Safety Injection Minimum Recirculation Flow isolation valves to the SIRWT (SI-5). The test methodology for these valves requires these valves to be stroke tested closed which isolates the SI pump minimum recirculation flow path. During the time where one or both minimum-recirculation isolation valves are closed and a real or inadvertent start of a Safety Injection Pump occurs the pump would be deadheaded. This could cause damage to the SI pump and potentially degrade the margin of safety inherent to the SI system. Although the probability that a small Break LOCA would occur at the same time is very remote. Fort Calhoun Station has decided to stroke time HCV-385 and HCV-386 during Cold Shutdown. It is also important to know that during normal operations valves HCV-385 and HCV-386 are Normally Open, Fail Open, and are only required to close during a Recirculation Actuation Signal (RAS). R3 September 1, 1995 Page 226 of 280
- 34. Frequency Justification Number J34 - Cold Shutdown Justification <
(Continued) Fort Calhoun Station is confident that performing the stroke : testing of HCV-385 and HCV-386 during Cold Shutdown, in accordance with the ISI Program Plan, will provide an acceptable alternative
- test frequency and will provide a reasonable assurance of the 4 ability of the valves to function as required during a design accident condition.
Alternate Testing: These valves (IA-HCV-385-C and IA-HCV-386-C) will be full-stroke exercised in the open and closed directions at Cold Shutdown. Valves HCV-385 and HCV-386 will be stroke-timed in both the open 1 and closed directions at Cold Shutdown. 4 1 i i s h l l l l 4 4 R3 September 1, 1995 Page 227 of 280 l
- 35. _ Frequency Justification Number J35 - Cold Shutdown Justification
- Component:
CH-166 Function: Volume Control Tank Outlet Check Valve Class: 2
. Test Requirements:
Quarterly Full-Stroke Exercising in the Closed Direction Basis for Justification: This check valve serves to prevent a divergent path from the Boric Acid Injection system to the VCT. A divergent path may reduce the concentration of boric acid required to be injected into the RCS. This check valve cannot be full-stroke exercised in the closed direction Quarterly during power operation. The only flow path through this valve is to the RCS, and would result in injecting highly concentrated boric acid into the RCS. Injecting concentrated boric acid into the RCS during power operation could cause an uncontrolled reactivity excursion, a plant shutdown, or a plant trip. Alternate Testing: Valve will be full-stroke exercised in the closed direction during Cold Shutdown frequency in accordance with the FCS ISI Program Plan. i R3 September 1, 1995 Page 228 of 280 l l i
- 36. Frequency Justification Number J36 - Refueling Outage Justification Components:
! SI-135, SI-143, SI-149 Function: l
- Containment Spray Pump Discharge Check Valves ,
Class: , 2 l P
-' Test Requirements: .
- l l'
Quarterly Full Flcw Exercising in both the Open and Closed Directions , Basis for Jus'tification: l These valves cannot be full-stroke exercised open or close ! Quarterly during power operation because the only full flow path ! j is into the CS headers. This would result in the spraying down of the equipment in containment, possibly causing equipment damage ! and requiring extensive cleanup. Also, these valves cannot be , l 3artial-stroke exercised during the Quarterly CS pump tests i ! 3ecause the minimum flow lines branch off upstream of the check i valves and therefore no flow occurs through these valves. Using > the discharge tap downstream of the minimum flowlines will overflow the floor drains in the Auxiliary Building potentially
- creating an increase in radioactive contamination and background
, radiation levels. ,
- i
- Alternate Testing:
- Valves will be full-stroke exercised in the open and closed directions during Cold Shutdown when the CS pumps are able to be aligned for shutdown cooling to the Shutdown Cooling Heat Exchangers (< 120*F primary temperature), in accordance with the J
FCS Technical Specifications. i e ! i i 3 f R3 September 1, 1995 Page 229 of 280
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-l i
f i 37.- FrequencyfJustification~NumberfJ37 : Cold Shutdown Justification ;
. DELETED. .
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- R3 September 1,;1995.. Page 230 of,280- l 4
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- 38. Frequency Justification Number J38 - Cold Shutdown Justification I Components:
IA-PCV-6680A-1-C, IA-PCV-6680A-2-C, IA-PCV-66808-1-C, IA-PCV-66808-2-C, and IA-PCV-6682-C IA-HCV-1107A-C, IA-HCV-11078-C, IA-HCV-1108A-C IA-HCV-1108B-C, IA-FCV-1368-C, and IA-FCV-1369-C
- Function:
. These check valves are Instrument Air supply header check valves for dampers PCV-6680A-1, PCV-6680A-2, PCV-66808-1, PCV-66808-2, . andPCV-6682(ControlRoomHVACdampers). These check valves are Instrument Air (IA) supply header check valves for Auxiliary Feedwater (AFW) isolation valves HCV-1107A/B and HCV-1108A/B and for the AFW pumps FW-6 and FW-10 tecirculation isolation valves. 4 Class: 3 Test Requirements: Quarterly Full Flow Exercising in the Closed Direction Basis for Justification l These valves (IA-PCV-6680A-1-C/-2-C, -66808-1-C/-2-C and l IA-PCV-6682-C) cannot be exercised Quarterly during power l operation, as exercising these check valves will cause isolation j of the Control Room (CR) air filtration dampers. Failure of the l CR air filtration dampers in a non-conservative position would l cause the CR filtration system to be inoperable. This would ' require the plant to bc in Cold Shutdown per Technical Specification (TS)2.12. Failure of the dampers in the OPEN position would not allow the CR to be isolated during a toxic gas release. This would result in entry into Technical Specification 2.0.1. l Check valves IA-HCV-1107A/B-C, -1108A/8-C, and FCV-1368-C/1369-C ~ cannot be exercised Quarterly during power operation as exercising these check valves will cause possible isolation of AFW and render the AFW system inoperable for an extended period of time, possibly requiring the plant to be in Cold Shutdown per Technical l Specification 2.5. Failure of the isolation valves in the open direction would not allow the required flow rate to the Steam Generator assuming loss of FW-10. This would result in entry into Technical Specification 2.0.1, i.e., Notification of Unusual Event (NOVE). R3 September 1, 1995 Page 231 of 280
- 38. Frequency Justification Number J38 - Cold Shutdown Justification (Continued)
- Alternate Testing: ,
Check valves IA-PCV-6680A-1-C, IA-PCV-6680A-2-C, IA-PCV-66808-1-C, IA-PCV-66808-2-C, and IA-PCV-6682-C will be full-stroke exercised in the closed direction during Cold Shutdown. Check valves IA-HCV-1107A-C, IA-HCV-11078-C, IA-HCV-1108A-C, IA-HCV-11088-C, IA-FCV-1368-C, and IA-FCV-1369-C will be full-stroke exercised in both the open and closed directions during cold shutdown. I I 1 I 4 1 i R3 September 1,'1995 Page 232 of 280
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- 39. Frequency Justification Number J39 - Refueling Outage Justification Components:
HCV-10418,.HCV-10428 Function: Main Steam Stop Check (Reverse Flow) Valve Class: 2
- Test Requirements:
Quarterly Reverse Full Flow Test Exercise
- Basis for Exception from 0&M Part 10, Subsection 4.3.2.4:
These check valves are swing type check valves which are installed to provide a positive isolation of the Steam Generators. If Main Steam (MS) header pressure is greater than Steam Generator pressure, the check valves prevent reverse back flow into a faulted Steam Generator. The corrective maintenance history of these two check valves has been limited to gasket / bolt / nut replacements since installation. In addition, the check valves are 28 inch carbon steel Ametek, Inc. type. check valves which see flow during normal operations. OPPD has previously disassembled and inspected each of these check valves once and the check valves were acceptable. "Like new" is defined as a condition of the component that has visible indication of wear, but the valve is able to function as required. In order to assess the condition of the check valves during sample disassembly and inspection and to provide a consistent and precise method of gauging the check valves physical and mechanical condition, a check list was developed and incorporated into the surveillance tests used for sample disassembly and inspection. An example of items evaluated on the check list are: 1 Whether valve discs are initially seated 2 A determination of obstructions 3 Cracking or' linear indications 4 Loose / missing /brokea parts 5 Whether obstruction ta movir.g parts 6 Wear / Corrosion / Erosion 7 Presence of foreign mater ial 8 Misalignment (ifany)andeffectonvalveoperation 9 Mechanical damage 10 Hinge Pin condition 11 Disc / seat condition 12 Perform manual exercise of discs. Each check valve has been disassembled and inspected in the previous outages. The assessment of the valves' mechanical and R3 September 1, 1995 Page 233 of 280
E
- 39. Frequency Justification Number J39 - Refueling Outage Justification (Continued) physical condition is performed by FCS Inspecters qualified to VT-3 in accordance with ASME Section XI. In addition, the review / evaluation of any observed deficiencies / indications is performed by Engineering for a final acceptance of the valves condition. In addition a review of the installation of each check valve has been addressed using the "EPRI Applications Guideline for Check Valves in Nuclear Power Plants" and appropriate actions have been taken (i.e., Preventive Maintenance (PM) inspections) as a result of the completion of the design application for the check valves. Disassembly and reassembly of both valves (i.e., every Refueling Outage) introduces unnecessary potential for valve failure due to damage caused by maintenance without providing a commensurate increase in plant safety or check valve reliability.
These check valves cannot be exercised Quarterly during power operation because doing so would cause steam to be isolated to the Main Steam header, causing the turbine to trip and resulting in a reactor trip. It is impractical to reverse flow test these check valves during Cold Shutdown; to do so would require the downstream side of the valves to have reverse flow sufficient to close the
~600 pound, 28-inch disks. To close these disks would require extensive modifications to the secondary side of the Main Steam system to permit sufficient aP to close the valve disks. Another method would be to fill the downstream side of the valve disks with fluid. To do this would require extensive piping and support modifications because of excessive loading on the Main Steam piping. To perform any type of successful reverse flow test on these check valves would require extensive plant modifications and manpower, and would subject the Main Steam system to potentially detrimental conditions, without providing a commensurate increase in public safety or check valve reliability.
Alternate Testing: Check Valves HCV-10418 and HCV-1042B will be alternately disassembled and inspected one each Refueling Outage. Sample disassembly of these check valves is in accordance with 0&M Part 10 and the NRC guidelines established in Generic Letter 89-04, Attachment 1, Position 2. For an 18-month refueling cycle, this method of sample disassembly and inspection ensures that each check valve is disassembled and inspected at least once every three years. O R3 September 1, 1995 Page 234 of 280
i i
- 40. Frequency Justification Number J40 - Cold Shutdown Justification l i
Components: 4 LCV-383-1, LCV-383-2, HCV-383-3, HCV-383-4 ; ! IA-LCV-383-1-C, IA-LCV-383-2-C Functions: ICV-383-1, LCV-383-2; SIRWT Isolation Valves HCV-383-3, HCV-383-4: Containment Sump Isolation Valves LCV-383-1-C, LCV-383-2-C; Instrument Air Supply Check Valves Class: 2 (LCV-383-1, LCV-383-2, HCV-383-3, HCV-383-4) 3 (IA-LCV-383-1-C, IA-LCV-383-2-C) Test Requirements: LCV-383-1, LCV-383-2; Quarterly stroke timing in both the Open and . the Closed directions
- HCV-383-3, HCV-383-4; Quarterly stroke timing in the Open directions LCV-383-1-C, LCV-383-2-C: Quarterly full-flow exercising in both the Open and Closed directions Basis for Justification:
Tech Spec Implications OP-ST-SI-3001, Attachment 5, prior to PC 42612 contained'a caution stating that " Closing LCV-383-1 renders LPSI Pump SI-1B, HPSI Pump SI-28, and CS pumps SI-3C and 38 INOPERABLE." The applicable Limiting Conditions for Operation (LCO) action statements of
; Technical Specifications 2.1.1, 2.3, 2.4 and 2.7 must be implemented.
Technical Specification 2.3(2) specifically states that during ; power operation, the Minimum Requirements may be modified to allow one of the following conditions to be true at any one time. If the system is not restored to meet the minimum....
...a. One low-pressure safety injection pump may be I inoperable provided the pump is restored to operable .
status within 24 hours. '
...b. One high-pressure sa#ety injection pump may be inoperable provide' ' pump is restored to operable status within 24 he ..
1 R3. September 1, 1995 Page 235 of 280
- 40. Frequency Justification Number J40 - Cold Shutdown Justification (Continued)
By 2.3 p(erforming thisconcurrently,
- 2) are violated test at power,requiring two provisions of Tech entry into Spec Technical l Specification 2.0.1. l Safeauards Implications j Operations reviewed the possibility of utilizing a dedicated i operator during performance of this surveillance test. Using the '
guidance of the NRC Generic Letter 91-18, Operations Memo 93-11, and Standing Order G-100 (approved and issued), the following conclusions can be drawn. The Generic Letter information is explicit in stating that, generally, equipment is inoperable during surveillance. The use of a dedicated operator must be reviewed to ensure that the operator and his necessary actions would result in a configuration where the system did not need to be considered inoperable. In the case of LCV-383-1 and -2, this determination cannot be made. Even if a dedicated operator were stationed at the valve and were to immediately return the valve to an open condition in the event of an accident signal, the open travel time of the valves is roughly 30 seconds. The sequencer timer for a HPSI pump is approximately 3 seconds, with LPSI pumps following shortly in less than 15 seconds. Adding in reaction time of the operator, even a few seconds, there is a high probability that more than one SI pump would start without a suction source. Practically speaking, the most prudent action to prevent equi) ment damage would be to place the respective pumps in pull-out. T1is, however, renders the pumps inoperable and the Tech Specs noted above apply. Thus, no positive operability determination can be made; instead, Tech Spec 2.0.1 again applies. Testing of HCV-383-3 and -383-4 is performed in conjunction with the testing of LCV-383-1 and -383-2 (during the time frame when these valves are closed) because of the possibility that the check valves in the recirculation lines may not hold. If the check valve did not hold, and LCV-383-1 or -2 was left open, cycling HCV-383-3 or -4 to the open position could result in backing the SIRWT up into the containment sump. Among possible consequences of this, violating the Technical Specification on SIRWT level is one possibility. Consequently, it is preferable to close LCV-383-1/2 during cycling of HCV-383-3 or -4. Closing LCV-383-1/2 during power operation results in entry to Tech Spec LC0 2.0.1 (see discussion for LCV-383-1/2, above). R3 September 1, 1995 Page 236 of 280
- 40. Frequency Justification Number J40 - Cold Shutdown Justification (Continued)
Testing of LCV-383-1-C and -383-2-C is performed to demonstrate the ability of the instrument air check valve to isolate instrument air and continue to hold the valve closed with backup nitrogen. The aurpose of the test is to demonstrate the ability of nitrogen to Told the valve closed, and thus must be performed with LCV-383-1/2 in the closed condition. The closure of LCV-383-1/2 during power operation results in entry to Tech Spec 2.0.1 (see discussion for LCV-383-1/2, above). Therefore, testing of these check valves must be deferred to a Cold Shutdown / Refueling condition. Alternate Testing Valves (LCV-383-1, LCV-383-2) shall b? stroke-timed in both the open and closed directions at cold shutdown frequency. Valves (HCV-383-3, HCV-383-4) shall be stroke-timed in the open direction at Cold Shutdown frequency. Valves (LCV-383-1-C, LCV-383-2-C) shall be exercised in the open and closed directions at Cold Shutdown frequency. 1 4
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, l R3 September 1, 1995 Page 237 of 280
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- 41. Frequency Justification Number J41 - Refueling Outage Justification Components:
HCV-482A, HCV-4828, HCV-483A, HCV-483B, HCV-2808C, HCV-28080, HCV-2809C, HCV-28090, HCV-2898C, HCV-2898D, HCV-2899C, HCV-2899D - ? - Functions: - HCV-482A, HCV-4828: Shutdown Cooling (SDC) Heat Exchanger (HX), AC-4A, Backup Raw Water Inlet and Outlet Valves. I
- HCV-483A, HCV-483B
- Shutdown Cooling Heat Exchanger, AC-48, Backup Raw Water Inlet and Outlet Valves. ,
HCV-2808C, HCV-28080: Low Pressure Safety Injection (LPSI) Punp SI-1A Bearing Cooling Backup Raw Water , Inlet and Outlet Valves. HCV-2809C, HCV-2809D: Low Pressure Safety Injection (LPSI) Pump
- SI-1B Bearing Cooler Backup Raw Water Inlet and Outlet Valves. '
. HCV-2898C, HCV-28980: Control Room VA Unit VA-46A Backup Raw Water Inlet and Outlet Valves. HCV-2899C, HCV-28990: Control Room VA Unit VA-468 Backup Raw . Water Inlet and Outlet Valves.
- l Class
- ,
I 3 ,
. Test Requirements:
Quarterly exercising in the Open and Closed directions. Basis for Justification: The subject valves are locally operated by air and provide backup Raw Water (RW) for cooling plant loads such as Control Room HVAC, LPSI Bearin Water (CCW)g Coolers, in the event ofSDC HXofnormally a loss CCW for cooled by Component an extended period Cooling of time. The valves cannot be exercised quarterly or during Cold Shutdown because the performance of this test requires a complete RW outage and securing CCW so as to not allow nitrates to J contaminate the river water, (which is an environmental concern), nor to contaminate the CCW system with sand from the RW system. The RW system must be secured and drained as much as practical and the CCW system pressure must be low so as not to contaminate the RW system. Securing CCW and RW during every Cold Shutdown may not , be practical due to the high decay heat experienced during Cold j Shutdowns of short duration. R3 September 1, 1995 Page 238 of 280
- 41. Frequency Justification Number J41 - Refueling Outage Justification (Continued)
Alternate Testing: These valves will be manually exercised in both the open and closed directions during Refueling Outages. R3 September 1, 1995 Page 239 of 280
i - d 4 1 1 4 42. Frequency Justification Number J42 - Cold Shutdown Stroke' Test Frequency ; DELETEDL . l .i -i i- , l ! i a 4, i l' i i.4 a i .
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t i i i 4-i '! i: ! i , 4 i J i 4 f i n i ).- J i ( i f 4 4 5 1 b i I i ! i ! i . R3. September 1, 1995. ' Page 240 of 280 i b o- - ,m<< -m -
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- 43. -Frequency Justification Number J43 - Cold Shutdown Frequency j Components:
NG-142, NG-144, NG-146, NG-148 I Function: Nitrogen supply to the Safety Injection (SI) tanks (SI-6A, SI-6B, SI-6C, and SI-60) check valves.
- Class:
3 Testing Requirements: Quarterly full-stroke exercising in the Close direction. Basis for Justification: Check valves NG-142, NG-144, NG-146 and NG-148 function to prevent backflow through the check valves and the nitrogen (N,) supply to the SI Tanks during an accident condition. The check valves prevent loss of N2 from the SI Tanks during an accident condition. These check valves cannot be full-stroke exercised Quarterly, as the containment would be inaccessible during power operation and the SI Tanks would be required to be made inoperable in order to perform this test. The SI Tanks are required to function in order to provide adequate protection to the plant personnel and the general public during a postulated loss of coolant accident (LOCA). Check valves will be partial-stroke exercised quarterly, during normal plant operations or using a PM0 procedure as required in order to ensure that the check valves are partially stroke exercised at least quarterly. Alternate Testing: Check valves, NG-142, NG-144, NG-146 and NG-148 will be partial-stroke exercised quarterly during power operation in the open and close directions using normal plant operations / logs. The check valves will be full-stroke exercised open and closed during Cold Shutdowns. R3 September 1, 1995 Page 241 of 280
1
. 44. Frequency Justification Number J44 - Refueling Outage Justification Component:
i RC-374 Functions: i Pressurizer RC-4 Spray Line Check Valve
- Class:
1
- Test Requirements: ,
f Quarterly exercising in the Closed direction. , Basis for Justification: ; The subject check valve RC-374, functions to prevent or minimize a loss of flow through the Pressurizer Spray Line from the ' Pressurizer Auxiliary Spray Line to the Reactor Coolant System Cold Legs when Auxiliary Spray is required (i.e., during Hot Leg injection). ; l The check valve cannot be full-stroke exercised closed during [ i plant operations Quarterly or during Cold Shutdowns, since to do ; so would require a flow path to the RCS using the Auxiliary Pressurizer Spray Line. That flow path cannot be utilized during , power operation as it could cause a cold water injection event to , the Pressurizer resulting in a large fluctuation of power due to ! the decreased temperature and could cause an uncontrolled
- reactivity addition. The increased reactivity could cause an
< addition and ultimately a increase plant in power
/ reactor trip. and/or reactivity)
The flow path Pressurizer Auxiliary Spray) l cannot be utilized during power operation or Cold Shutdown since
- to test RC-374 closed requires the High Pressure Safety Injection (HPSI) Pumps to be run. The HPSI pumps cannot be run during power operations as the pumps do not have enough suction pressure to overcome RCS pressure. In addition, the check valve is not able to be tested during Cold Shutdown because using the HPSI pumps 4
without an adequate vent path could cause an overpressurization of the RCS. Using the Charging Pumps only to quantify leakage would not provide a sufficient flow to adequately verify check valve closure. Alternate Testing: Check valve RC-374 will be exercised in the open direction during power operation (whenever Pressurizer Spray is actuated) and full-stroke exercised in the closed direction during Refueling ; Outages using the HPSI Pumps. R3 September 1, 1995 Page 242 of 280
1 J I d 1 I i i I 1 APPENDIX 2B i
- JUSTIFICATION FOR EXCEPTION
; TO ASME SECTION XI/O&M MANUAL PARTS 1 AND 10, CODES FOR VALVES I
i 4 1 J k i
- R3 September 1, 1995 Page 243 of 280 a ,
JUSTIFICATION FOR EXCEPTION 1 TO ASME SECTION XI/0&M PARTS 1 AND 10 CODES FOR VALVES i
- This section provides justification for the exceptions taken to Code test requirements as allowed for in 10CFR50.55a(g)(5)(iii). Each Code exception is identified by a unique number and identifies the valve (s) for which the Code exception is being taken. The specific Code test requirement found to be impractical is defined and the basis for exclusion from Code requirements is presented. Any testing performed in lieu of Code requirements is specified.
Two types of justifications are provided. The first is general in nature and pertains to Code requirements found to be impractical for numerous valves. The second type is used to justify Code exceptions for specific valves. Code exceptions for specific valves are numbered (Ex) and referenced by number on the Valve Test Program Matrix Table 2.1 for specific valves. General: Code Exception Number G1 Components: Category C Thermal Relief Valves Function: Thermal relief valves on safety-related systems Class: 1, 2, and 3 ] Test Requirements: 0&M Part 1 Subsection 1.1 Scope
- Basis for Exception from 0&M Part 1, Subsection 1.1:
The 0&M Code Part 1 provides general requirements for periodic performance testing and monitoring of pressure relief devices utilized in nuclear power plant systems which are required to perform a specific function in shutting down a reactor or in mitigating the consequences of an accident. Thermal relief valves will not be tested in accordance with 0&M Part 1 guidance as part of the FCS ISI Program Plan, as FCS has determined that the thermal relief valves do not fully meet the intent of the scope of 0&M Part 1. Many safety-related systems, particularly those with hei.t exchangers, have been provided with relief valves. These relief valves are thermal relief valves of small capacity intended to relieve pressure due to a thermal expansion of fluid in a
" bottled-up" condition, which is considered a self-limiting transient. Experience has shown that failure of these valves will not result in a failure of the system to fulfill its safety function. Thus, most thermal relief valves are not considered to perform a function "important to safety", and as such have not been included in the FCS ISI Program Plan.
R3 September 1, 1995 Page 244 of 280
General: CodeExceptionNumberG1(Continued) Further clarification was provided in the NRC SER (Reference 7), for applicability to the Section XI Code. Thermal relief valves installed to protect portions of safety-related systems against overpressure may be included in this expanded scope. The relief valves that may be involved are those that meet the following criteria:
- a. The relief valve protects a portion of a safety-related system,
- b. The protected piping and/or component may be isolated during a plant operating mode where credit is taken.
for operation of the safety-related system, I c. The protected section is subjected to a mechanism that could over pressurize the system / component when i isolated,
- d. The integrity of the protected section is required for the system to meet its safety function, (i.e., stuck open relief valve).
l A safety-related valve is defined as an active or passive valve ; which is required to perform a specific function in shutting down l the reactor to cold shutdown condition, in maintaining the Cold l Shutdown condition, or in mitigating the consequences of an accident. Relief valves which protect over-pressurization of portions of systems / components that perform a safety related function are included. Because some thermal relief valves at FCS may be included in the expanded scope discussed above, general relief was not granted as requested for all thermal relief valves. A request was made that the licensee 3rovide further justification for exclusion of relief valves from tie Section XI Program based on the criteria mentioned above. review was completed for all Critical Quality An engineering Element (CQE) (Class 1, 2, and 3) relief valves at Fort Calhoun Station with the provided guidance in addition to the OM-1 Code guidance. The thermal relief valves which have been excluded from the Section XI program were excluded for the following reasons. Justification: 1 1
- 1. The relief valve protects Class 1, 2, or 3 (Class i Code) systems / components that are not required to shutdown the plant / reactor, maintaining the plant / reactor in a shutdown condition or mitigate an accident.
1 l i i R3 September 1, 1995 Page 245 of 280 ! 1
General: CodeExceptionNumberG1(Continued) 3 OR
- 2. The relief valve is installed on safety related systems / components which are not isolated during the operating cycle and are therefore not subjected to a mechanism that could cause over pressure. In addition, the integrity of the protected section (i.e., stuck open relief valve) is not required for the system to meet its safety function, nor will loss of integrity render the system inoperable.
OR
- 3. The relief valve is installed on safety related systems / components, which are not subjected to any overpressure mechanism due to system design.
Justification for Exclusion from the FCS ISI Program Plan: I AC-166, AC-167, AC-168, AC-169, AC-291, AC-292, AC-293, and AC-294 RCP RC-3A/B/C&D Seal Cooler CCW Inlet Relief Valves RCP RC-3A/8/C&D Lube Oil Cooler CCW Inlet Relief Valves j Justification: 1 The Reactor Coolant Pumps (RCPs) are not required for safe shutdown of the p 6 . The USAR assumes that only natural circulation is avy ule for the RCS to cool down. Hence, the portion of the CCW .; tem protected by these relief valves is not required. Although this portion of the CCW system is isolable, this portion of the CCW system is never isolated with the RCPs in
- operation.
4 AC-170 and AC-183 Sample Heat Exchanger SL-8A and SL-8B CCW Inlet Relief Valve (Secondary) Sample Heat Exchanger SL-3 CCW Inlet Relief Valve (Primary) Justification: 1&2 These sample heat exchangers are not required for safe shutdown of the plant nor do they protect equipment which mitigate an , accident. The inlet and outlet isolation valves are administratively controlled open during the operating cycle. . R3 September 1, 1995 Page 246 of 280 '
General: Code Exception Number G1 (Continued) AC-173 and AC-178 Waste Gas Compressor WD-28A & B Seal Water Heat Exchanger CCW Inlet Relief Valves Justification: 1&2 The Waste Gas Compressors are not required for safe shutdown of the plant nor do they protect equipment which mitigate an accident. The inlet and outlet isolation valves are administrative 1y controlled open during the operating cycle. AC-258 Letdown Heat Exchanger CH-7 CCW Inlet Relief Valve Justification: 1&2 The Letdown Heat Exchanger is not required for safe shutdown of the plant nor is it utilized in mitigation of an accident. In addition, the portion of the system remains in service during the operating cycle and therefore is not subjected to an overpressurization mechanism. AC-336, AC-337, and AC-338 Charging Pump CH-1A, 8, & C Oil Cooler CCW Inlet Relief Valves Justification: 2 This portion of the CCW system remains inservice during the operating cycle. Hence this section of the CCW system are administratively controlled open on the inlet and outlet piping of the cooler to the rest of the CCW system. This section of piping is not subjected to an overpressurization mechanism. AC-1026, AC-1027 and AC-1059 Shutdown Cooling Heat Exchanger AC-4A & B CCW Relief Valves Spent Fuel Pool Heat Exchanger AC-8 CCW Relief Valve Justification: 3
)
Due to the design of the isolation / flow control valves, these l components and piping are not subjected to an overpressurization l mechanism. The inlet isolation / flow control valves are Fisher Model 7620 series valves. The type 7600 series butterfly valve is a heavy-duty valve suitable for general control applications where R3 September 1, 1995 Page 247 of 280
- _ -- -. . - -_ - ... ~ _-
M General: Code Exception Number G1 (Continued) extreme low leakage rates are not required. This valve design is not equipped with a valve seat. CH-178, CH-179, and CH-180 i Charging Pump CH-1A, B & C Suction Relief Valves
, Justification: 2 >
This portion of the CVCS Charging system remains inservice during
- the operating cycle. If the charging pump is not inservice at the 5
time, then the charging pumps remain unisolated and in the standby condition. These pumps are taken out of service routinely for 4 maintenance due to the nature of positive displacement charging pumps. However, when the charging pump is isolated to be tagged out of service, the tagout requires that the system be drained and vented. Reference Computerized Tagging System for tagout of a charging pump. Hence this section of the CVCS Charging system , remains open on the inlet and outlet piping of the charging pumps 1 to the rest of the CVCS system. This section of piping is not subjected to an overpressurization mechanism. ! CH-202 , Reactor Coolant System Loop Charging System Bypass Valve / Thermal j Relief
- Justification: 2
- CH-202 is the Bypass valve around CH-238. The Charging system loop injection headers into loop 1A and 18 are open during the ,
operating cycle with at least 40 gpm charging flow. This system is not taken out of service. Hence, there is no overpressurization mechanism which requires CH-202 to open. ! Failure of this spring loaded check valve to the open position 4 would not prevent this system from performing it's design function. ,
)
CH-219 Charging Pumps Suction Relief Valve on Common Suction Header from VCT Justification: 2 l 1 This piping is continually in service during the operating cycle. There is no overpressurization mechanism which will challenge this relief valve. 4 R3 September 1 1995 Page 248 of 280 2
General: CodeExceptionNumberG1(Continued) CH-159, CH-223, and CH-224 VCT CH-14 Outlet Relief Valve Regenerative Heat Exchanger CH-6 Letdown Relief Valve Letdown Heat Exchanger CH-7 Letdown Relief Valve Justification: 1 The letdown portion of the CVCS system is not required to shutdown the plant, maintain the plant shutdown, or mitigate an accident. Therefore, these thermal relief valves do not m?et the requirements of Section XI. JW-4-1 and JW-4-2 Expansion Tank JW-1-1 and JW-2-1 Pressure Caps Justification: 3 These caps were not installed until 1988. There is no operational significance for these caps. The jacket water system runs at atmospheric pressure. These caps were installed to prevent the jacket water from burping onto the floor after the diesel generator is shutdown. If these caps would stick in the open or closed position, there would be no effect on the operation / operability of the cooling system. Based on this lack of safety significance and affect these caps have of the jacket water system, there is no applicability to the Section XI Program. SI-222 and SI-311 Safety Injection Tanks Fill / Drain Line Relief Valve SIRWT SI-5 Return Line Relief Valve Justification: 1 These portions of the Safety Injection system are not required to shutdown the plant, maintain the plant shutdown, or mitigate an accident. Therefore, these relief valves do not meet the i requirements of Section XI. SI-278, 51-279, SI-280, and SI-281 Safety Injection Tank (SIT) SI-6A/B/C & D Outlet Relief Valves Justification: 3 These relief valves have a setpoint of 395 psig and are located on the discharge piping downstream of the Safety Injection Tanks (SIT) outlet isolation valves, (HCV-2914, HCV-2934, HCV-2954 and R3 September 1, 1995 Page 249 of 280
General: Code Exception Number G1 (Continued) HCV-2974). The SIT valves are locked open during the operating cycle. Therefore overpressure protection is provided by the SIT relief valves (SI-209, SI-213, SI-217, and SI-221) which are set at a lower pressure of 275 psig. These relief valves are tested in the Section XI Program. There is no overpressure mechanism that subjects this portion of outlet piping to exceed the design pressure. Alternate Testing:
- Tests and test frequency for thermal relief valves not included willbecontrolledundertheFCSPreventiveMaintenance(PM)
Program and be conducted in a similar manner as the FCS ISI Program Plan. 4 1 I 1 i i i l l R3 September 1, 1995 Page 250 of 280
)
- 1. Code Exception Number E1 - Relief Request
' Components:
SI-139, SI-140 Function: SIRWT Discharge Check Valves Class: 2 Test Requirements: Quarterly Full Flow Exercising in the Open Direction and Leakage Testing Once Every Two Years Basis for Exception from O&M Part 10, Subsection 4.2.1.2: These check valves function to prevent backflow to the Safety Injection and Refueling Water Tank (SIRWT). These check valves are located in the lines leading from the SIRWT to the suctions of the Containment Spray (CS) pumps, the Low Pressure Safety Injection (LPSI) pumps and the High Pressure Safety Injection (HPSI) Pumps. The check valves under certain accident conditions must open sufficiently to provide design basis flow to all of these pumps. Because of this system design requirement, the full-stroke exercising of these check valves Quarterly or during Cold Shutdowns cannot be performed. During power operation, no full flow path exists for the combination of pumps because the HPSI and LPSI pumps cannot overcome the RCS pressure, and the CS system cannot be permitted to spray down the Containment. No full flow path is available during Cold Shutdowns because operating the HPSI pumps could create a low-temperature overpressurization condition in the RCS. CS cannot be used because the Containment would be sprayed down. Additionally, it is not possible to achieve the maximum design accident flow through the check valves during full flow exercising. ! The corrective maintenance history of these two check valves has been limited to gasket / bolt / nut replacements since installation. In addition, the check valves are 20 inch stainless steel Mission-Duochek type valves.which see very little flow during normal operations. OPPD has previously disassembled and inspected each of these check valves once and these check valves were "like new." "Like new" is defined as a condition of the component that has little or no visible indication of wear, as if the valve was just installed from the factory. In order to assess the condition of the check valves during sample disassembly and inspection and, to provide a consistent and precise method of gauging the check 5 R3 September 1, 1995- Page 251 of 280
- 1. Code Exception Number E1 - Relief Request (Continued) i valves physical and mechanical condition, a checklist was developed and incorporated into the Surveillance Tests used for sample disassembly and inspection. An example of items evaluated on the check list are:
3
- 1. Whether valve discs are initially seated
- 2. A determination of obstructions
- 3. Cracking or linear indications
- 4. Loose / missing / broken parts
- 5. Whether obstruction to moving parts J 6. Wear / Corrosion / Erosion
- 7. Presence of foreign material
- 8. Misalignment (if any) and effect on valve operation
- 9. Mechanical damage
- 10. Hinge pin condition
< 11. Disc / seat condition
- 12. Perform manual exercise of discs Each check valve has been disassembled and inspected in previous outages. The assessment of the valves mechanical and physical
, condition is performed by FCS Inspectors qualified to VT-3 in accordance with ASME Section XI. In addition, the review / evaluation of any observed deficiencies / indications is performed by engineering for a final acceptance of the condition i of the valve. In addition, a review of the installation of each check valve has been addressed using the "EPRI Applications Guidelines for Check Valves in Nuclear Power Plants" and appropriate actior.s have been taken (i.e., PM inspections) as a result of the completion of the design application review for the check valves. The industry has experienced no failures with this , type of check valve in similar applications at other facilities. The disassembly and subsequent inspection of these valves requires i unnecessary radiation exposure as well as creating significant (i.e., > 50 gallons) liquid radwaste requiring disposal. Also, frequent disassembly and reassembly of the valves (i.e., every Refueling Outage) introduces unnecessary potential for valve failure due to damage caused by maintenance without providing a commensurate increase in plant safety or check valve reliability. R3 September 1, 1995 Page 252 of 280
- 1. Code Exception Number E1 - Relief Request (Continued)
. Alternate Testing: ,
OPPD will require check valves SI-139 and SI-140 to be alternately disassembled and inspected every other Refueling Outage. This sample disassembly of these check valves is in accordance with the NRC guidelines established in Generic Letter 89-04, Attachment 1, Position 2. In addition, the check valves will be partial-stroke exercised in the open direction Quarterly and after reassembly during Refueling Outages. The check valves will be full-stroke , exercised in the closed direction during each Refueling Outage. ' This method of sample disassembly and inspection will ensure that each check valve is disassembled and inspected at least once every six years and will help to maintain personnel exposure ALARA,
.while at the same time providing reasonable assurance that integrity, quality and the ability to detect component degradation are maintained.
1 R3 September 1, 1995 Page 253 of 280
~ . . - - _ . - _ . . _ - . -. .- . . . . _ -
i !
- i
- .2; Code Exception Number E2 - Relief Request !
[ - Components: l SI-159,--SI-160 l t i . Function: ;
, Containment Recirculation Check Valves i '
1- .. Class:- j' 2-Test Requirements: l .J- Quarterly' Full Flow Exercising in the Open Direction ; p - Basis for. Exception from 0&M Part 10, Subsection 4.2.1.2: ! L 'These' valves function to prevent backflow to'the Containment lower . level. These valves are backed up by motor operated isolation - valves HCV-383-3 and HCV-383-4 which are normally closed,
- fail-as-is, and open only upon recei
- Recirculation Actuation Signal (RAS)pt of a containmentDue to system des 3
valves cannot be partial-stroke or full-stroke exercised open l
- during power operation, Cold Shutdown or Refueling Outage because i F the Containment sump is normally dry and there is no flow path-
-available for testing. Full-stroke exercising these valves open requires that the Containment sump be filled with water and
- provided with a source of makeup water in addition to operating '
i the CS pumps and the HPSI pumps at rated capacity. Therefore, system configuration renders flow testing of these valves.
- impractical. -!
i ~ The corrective maintenance history of these two check valves has - been limited to gasket / bolt / nut replacements since installation. , In addition, the check valves are 24-inch stainless steel l Mission-Duochek type valves which see no_ flow during normal i , operations. OPPD has previously disassembled and inspected each ! of these check valves and these check valves were "like new."' l !. "Like new" is defined as a condition of the component that has- l little or no visible indication of wear, as if the valve was just i installed from the factory. .In order to assess the condition of the check valves during sample disassembly and inspection and, to 1 provide a consistent and precise method of gauging the check i i valves physical and mechanical condition, a checklist was . developed and incorporated into the Surveillance Tests-used for
- sample disassembly and inspection. An example of items evaluated ;
on the check list are-I [ '1.- Whether valve discsare initially seated ;
'i
? .
?R3 September 1, 1995, Page 254'of 280 ;
2 .- . -- _ _ . _ _ , _ . _ . , .-- . _ _ . ,
- 2. Code Exception Number E2 - Relief Request (Continued)
- 2. A determination of obstructions
- 3. Cracking or linear indications
- 4. Loose / missing / broken parts e
- 5. Whether obstruction to moving parts
- 6. Wear / Corrosion / Erosion
- 7. Presence of foreign material
- 8. Misalignment (ifany)andeffectonvalveoperation
- 9. Mechanical damage
- 10. Hinge pin condition
- 11. Disc / seat condition
- 12. Perform manual exercise of discs Each check valve has been disassembled and inspected in previous outages. The assessment of the valves mechanical and physical condition is performed by FCS Inspectors qualified to VT-3 in accordance with ASME Section XI. In addition, the review / evaluation of any observed deficiencies / indications is performed by engineering for a final acceptance of the condition of the valve. In addition, a review of the installation of each check valve has been addressed using the "EPRI applications Guidelines for Check Valves in Nuclear Power Plants" and appropriate actions have been taken (i.e., PM inspections) as a result of the completion of the design application review for the check valves. The industry has experienced no failures with this type of check valve in similar applications at other facilities.
The disassembly and subsequent inspection of these valves requires unnecessary radiation exposure as well as creating significant (i.e., > 50 gallons) liquid radwaste requiring disposal, with minimal benefits. Also, frequent disassembly and reassembly of the valves (i.e., every Refueling Outage) introduces unnecessary potential for valve failure due to damage caused by maintenance without providing a commensurate increase in plant safety or check valve reliability. R3 September 1, 1995 Page 255 of 280
l l
- 2. Code Exception Number E2 - Relief Request (Continued) :
Alternate Testing:
'0 PPD will require check valves SI-159 and SI-160 to be alternately <
j disassembled and inspected every other Refueling Outage. This , sample disassembly of these check valves is in accordance with the 1 NRC guidelines established in Generic Letter 89-04, Attachment 1,. . Position 2 with the exception of partial-stroke exercising. This j method of sample disassembly and inspection will ensure that each check valve is disassembled and inspected at least once every six years and will help to maintain personnel exposure ALARA, while at
- the same time providing reasonable assurance that the integrity, j' quality and the ability to detect component degradation is maintained. ,
a I 4 a l i i
- i i
i i d 1 4 4 ~ R3 September 1, 1995 Page 256 of 280
- 3. Code Exception Number E3 - Relief Request Components:
i
'SI-175, SI-176 Function:
Containment Spray Header Check Valves
. Class:
2
. Test Requirements:
Quarterly Full Flow Exercising in the 0.<t Direction Basis for Exception from O&M Part 10, Subsection 4.2.1.2: These check valves are located inside Containment. These valves cannot be full-stroke or partial-stroke exercised open using system flow during any plant operating conditions because the only flow path is into the CS headers and would result in spraying down the Containment, causing equipment damage and requiring extensive
- cleanup, .
t The corrective maintenance history of these two check valves has been limited to gasket / bolt / nut replacements since installation. In addition, the check valves are 12-inch stainless steel ! Mission-Duochek type valves which see no flow during normal , operations. OPPD has previously disassembled and inspected each of these check valves and these check valves were "like new."
"Like new" is defined as a condition of the component that has little or no visible indication of wear, as if the valve was just installed from the factory. In order to assess the condition of the check valves during sample disassembly and inspection and, to provide a consistent and precise method of gauging the check valves physical and mechanical condition, a checklist was , developed and incorporated into the Surveillance Tests used for sample disassembly and inspection. An example of items evaluated on the check list are:
- 1. Whether valve discs are initially seated i
- 2. A determination of obstructions ;
- 3. Cracking or linear indications
- 4. Loose / missing / broken parts
- 5. Whether obstruction to moving parts 1
- 6. Wear / Corrosion / Erosion R3 September 1, 1995 Page 257 of 280
- 3. Code Exception Number E3 - Relief Request (Continued)
- 7. Presence of foreign material
! 8. Misalignment (if any) and effect on valve operation
- 9. Mechanical damage
- 10. Hinge pin condition 4
- 11. Disc / seat condition
- 12. Perform manual exercise of-discs Each check valve has been disassembled and inspected in previous outages. The assessment of the valves mechanical and physical condition is performed by FCS Inspectors qualified to VT-3 in 4
accordance with ASME Section XI. In addition, the review / evaluation of any observed deficiencies / indications is , performed by Engineering for a final acceptance of the condition of the valve. In addition, a review of the installation of each check valve has been addressed using the "EPRI Applications Guidelines for Check Valves in Nuclear Power Plants" and appropriate actions have been taken (i.e., PM inspections) as a result of the completion of the design application review for the check valves. The industry has experienced no failures with this type of check valve in similar applications at other facilities. ' The disassembly and subsequent inspection of these valves requires unnecessary radiation exposure with minimal benefits. Also, frequent disassembly and reassembly of the valves (i.e., every Refueling Outage) introuuces unnecessary potential for valve i failure due to damage caused by maintenance without providing a commensurate increase in plant safety or check valve reliability.
- Alternate Testing:
3 Check valves SI-175 and SI-176 will be alternately disassembled every other refueling outage. The sample disassembly of these check valves is in accordance with the NRC guidelines established in Generic Letter 89-04, Attachment 1, Position 2. In addition, 4 the check valves will be partial-stroke exercised in the open direction during Refueling. This method of sample disassembly and ! inspection will ensure that each check valve is disassembled and inspected at least once every six years and will help to maintain personnel exposure ALARA, while at the same time providing reasonable assurance that the integrity, quality and the ability to detect component degradation is maintained. 4 4 R3 September 1, 1995 Page 258 of 280
- 4. Code Exception Number E4 - Relief Request Components:
SI-207, SI-208, SI-211, SI-212, 51-215, SI-216, SI-219, SI-220 Function: Safety Injection Tank (SIT) Check Valves Class: ) 1 1 Test Requirements: , a Quarterly Full Flow Exercising in the Open Direction Quarterly Full Flow Exercising in the Closed Direction and Leak Testing during Cold Shutdown ,
- Basis for Exception from 0&M Part 10, Subsection 4.2.1.2:
) i These valves cannot be exercised during power operation because a flow path does not exist due to the higher RCS pressure. The Safety Injection Tank pressure is less than RCS pressure during power operation. Also, these check valves cannot be exercised ' during Cold Shutdowns because the RCS does not contain sufficient
- volume to accept the flow required and a low temperature overpressure condition of the RCS could result.
l
- Alternate Testing:
1 Check Valves will be full-stroke exercised in the open direction during Refueling Outages by " dumping" the Safety Injection Tanks to the Reactor Vessel. Test parameters such as SI tank level decrease vs. time, SI tank pressure, valve differential pressure, flow rate etc. are used to determine a flow coefficient. The minimum flow coefficient was determined using the safety analysis data provided by the NSSS vendor. Comparing this minimum flow coefficient as acceptance criteria to the flow coefficient ! determined by testing, assures FCS the valve is able to perform its safety function. This method of testing the check valves complies with the guidance provided in Generic Letter 89-04, 1 Attachment 1, Position 1. Additionally, valves SI-208, SI-212, SI-216 and SI-220 will be partial-stroke exercised at Cold Shutdown frequency in the open direction using Shutdown Cooling flow. I 1 4 R3 September 1, 1995 Page 259 of 280
- 5. Code Exception Number E5 - Relief Request DELETED R3 September 1, 1995 Page 260 of 280
h
- 6. Code Exception Number E6 - Periodic Testing of Relief Valves
. Components:
FW-1525 s , Function: Auxiliary Feedwater Pump 011 Cooler Relief Valve Class: 3 i Test Requirements:
- A Minimum of 20% of Each Type and Manufacture Shall be Tested Within any 48 Months.
Basis for Exception from O&M Part 1 Subsection 1.3.5(b): The relief valve is the only one of its type and manufacturer in its respective group. The intent of the Code is that all Class 3 relief valves be tested at least once every ten years (Reference 0&MPart1, Subsection 1.3.5(b)). This intent will be met. The "
. current Refueling Outage frequency is 18 months. A review of historical maintenance records reveals that there have been no maintenance problems which justify testing the relief valve every other refueling outage. The scope of 0&M Part 1 is to verify i valve operability and detect any degradation in valve performance. I Alternate Testing: i l
The relief valve will be tested every third refueling outage. l I 1 l l l l l I 1 i R3; September 1, 1995 Page 261 of 280 ) I
PART 3: CLASS 1, CLASS 2, AND CLASS 3 PUMP TESTS 1.0 Program Sunenary The Inservice Testing (IST) Program for ASME Class 1, 2 and 3 pumps was developed in accordance with and meets the requirements of ASME j Operation and Maintenance of Nuclear Power Plants (0&M) 1987 Edition, 1988 Addenda. The IST for pumps will remain in effect for the remainder of the 120-month interval which began on September 26, 1993. The Program will be reviewed and updated, as appropriate, with that Edition 4 of the Code in effect not more than 12 months prior to the start of the next 120-month interval. The function of each pump in the Program is described in Section 3.8. Section 3.9 contains individual pump test requirements and exceptions to the Code-(Table 3.1), as well as the codes used in the Table. Appendix ~ 3A contains justifications for exceptions taken to the Code test requirements as provided for in 10CFR50.55a(g)(5)(iii). Justifications are general in nature and pertain to requirements found to be impractical. Code exceptions are numbered and referenced by number on the Pump Test Program Table 3.1.
- 2.0 Scope and Responsibility 2.1 The PalDs of Part 4 identify the location of each Class 1, Class 2, and Class 3 pump.
2.2 Class 1, Class 2, and Class 3 pumps are to be tested in accordance with Part 6 of the 0&M Manual. The test methods for each pump, and exceptions to the *.asts of 0&M Part 6, are found in Appendix 3A. 3.0 Inservice Test Frequency The inservice test frequency for Class 1, Class 2, and Class 3 pumps are in accordance with Part 6 of the O&M Manual, with exceptions as found in l Table 3.1 and Appendix 3A. 4.0 Test Methods The methods to be used to test Class 1, Class 2, and Class 3 pumps have been determined from Part 6 of the 0&M manual. These methods, along with exceptions, are listed in Table 3.1 and Appendix 3A. , 5.0 Evaluation of Test Results The allowable ranges of test results shall be in accordance with Table 3 of Part 6 of the 0&M Manual, as appropriate. All test data shall be analyzed within 96 hours after completion of a test in accordance with Part 6 of the O&M Manual. I R3 September 1, 1995 Page 262 of 280
If test data show that a pump is operating in the " Alert Range", remedies shall be taken, as required in accordance with O&M Part 6, until corrective action is taken. If the test data show that a pump is operating in the " Required Action Range," the pump shall be declared inoperable until corrective action is taken. Corrective action is defined as one or more of the following steps: 5.1 Recalibrate the applicable instruments and reperform the test, or 5.2 Repair or replace the component as required, or 5.3 Perform an Engineering Analysis to demonstrate that the pump is still able to perform its required safety design function. 6.0 Records and Reports Records and reports for the testing of Class 1, Class 2, and Class 3 pumps shall be made in accordance with Part 6, Subsection 7, of the 0&M Manual. 7.0 Repair Requirements Tests, after pump replacement, repair or servicing, shall be made as required by 0&M Part 6, Subsection 4.4. 8.0 Function of Pumps in the Program 8.1 Auxiliary Feedwater (AFW) Pumps FW-6 and FW-10 are the motor driven and the steam driven AFW pumps, respectively. They supply makeup water to the Steam , Generators during startup/ shutdown conditions. Subsequent to an : automatic initiation signal when normal feedwater flow is 1 unavailable, they supply water to the Stean. Generators.
- 8.2 ComponentCoolingWater(CCW) Pumps l
AC-3A, AC-3B and AC-3C are the three CCW Pumps. They supply J cooling water to safety-related components in the Containment and - Auxiliary Buildings, including components containing radioactive or potentially radioactive fluids. They provide cooling water to l . Containment air coolers and the Control Room air conditioning l units during both normal and accident conditions. In the event of I a design basis accident, these pumps provide sufficient cooling j water to the Engineered Safeguards equipment. Additionally, they
- supply cooling water to components to support normal plant operation, and to remove heat from the RCS via the Shutdown Cooling Heat Exchangers during normal plant cooldowns.
A R3 September 1, 1995 Page 263 of 280 1
\
l s i 8.3 Raw Water Pumps AC-10A, AC-108, AC-10C and AC-1Gu or the four Raw Water Pumps. They supply cooling water to the CCW Heat Exchangers. They also supply cooling water directly to select safety related components in the event the CCW System is unavailable. Additionally, they- . supply water to the Demineralized Water System. 8.4 Safety Injection Pumps SI-1A and SI-18 are the two LPSI Pumps. They inject borated water into the reactor coolant system following a LOCA. Additionally, they serve as Shutdown Cooling pumps by supplying water to the Shutdown Cooling Heat Exchangers for removal of residual heat > during normal plant cooldown. SI-2A, SI-2B and SI-2C are the three HPSI Pumps. They inject borated water into the reactor coolant system following a LOCA. Additionally, they are used to maintain the required water level in the Safety Injection Tanks. SI-3A, SI-3B and SI-3C are the three CS Pumps. They spray borated' water into the Containment to remove energy from the Containment vapor space after the initiation of a pressurization event in containment. Although there is a possibility of physically aligning the CS Pumps for Shutdown Cooling, that alignment should ! only be considered when the RCS is below 120 F and the RCS is vented to the Containment atmosphere with the vent area equivalent to a twelve-inch diameter pipe. 8.5 Chemical Volume and Control Pumps CH-1A, CH-1B and CH-1C are the three Charging Pumps. CH-4A and CH-4B are the two Boric Acid Pumps. These five pumps inject l concentrated borated water into the RCS under emergency ) condition 3. These pumps also serve several non-safety related l functions. 8.6 Diesel Generator Fuel Oil Transfer Pumps F0-4A-1, F0-4A-2 and F0-48-1, F0-4B-2 are the four Diesel l Generator Fuel Oil Transfer Pumps. They take suction from the I underground fuel oil storage tank and transfer fuel oil to the l wall mounted auxiliary tanks. ; 9.0 Pump Test Program Table (Table 3.1) This section provides a tabulation of all safety related pumps, both those pumps that are tested'in accordance with the requirements of 0&M Manual Part 6, and those pumps for which the Code requirements have been found to be. impractical. R3 September 1, 1995 Page 264 of 280
N 10.0 Additions to Program - Pumps Pumps added to the ISI Program Plan as a result of plant / system modifications, engineering changes or re-evaluation of component eligibility requirements as per 0&M Manual, Part 6, are considered operable based on interim acceptance criteria (established by constructionorpreoperationaltests)untilareferencevalueisableto '
'be established.
a 1 1 i 4 P I t i ; i ! l
- 1 i
k l 1 1
)
i i R3 September 1, 1995 Page 265 of 280
i I l l l 1 1 1 1 1 1 1 4 l l I l 1 1 1 PUMP TABLES 1 I l l l l i l 1 R3 September 1, 1995 Page 266 of 280 l 1
, l I i TABLE FORMAT FORT CALHOUN STATION PUMP TEST PROGRAM MATRIX TABLE 3.1 i The Pump Test Program Table has been coded to provide the following information: l
- 1. Systen and Drawing Number - System the pump is in and the P&ID number.
- 2. Coordinates - Location on the P&ID where the pump is found.
- 3. Pump Number - Unique number assigned to each pump.
- 4. Speed n - This parameter is addressed with one of the following entries, which indicate test applicability, interval, or Code exception number, respectively.
NR - Not Required Q - Quarterly Test
- E1, E2, E3, E4 - Code Exception Number
- 5. Inlet Pressure P, - Same as number 4. !
- 6. Differential Pressure AP - Same as number 4.
- 7. Flow Rate Q - Same as number 4.
- 8. Vibration Amplitude V - Same as number 4.
V,- Displacement (peak-peak) V, - Velocity (peak)
- 9. DischargePressure(P)-Sameasnumber4. i
- 10. Code Exceptions - If the pump is being tested in accordance with 0&M Part 6 requirements, this column will be blank. However, for pumps which the 0&M Part 6 requirements have been found to be impractical, a reference number is entered in this column. The reference number is .
addressed in Appendix 3A with a complete explanation of the specific exception and justification for that exception. i t r R3 September 1, 1995 Page 267 of 280
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- J APPENDlX 3A JUSliFICATION FOR EXCEPTION TO O&M MANUAL PART 6 FOR PUMPS f'
R3 September ~1, 1995 Page 269 of 280
f APPENDIX 3A JUSTIFICATION FOR EXCEPTION TO O&M MANUAL PART 6 FOR PUMPS
- 1. Code Exception Number E1 - Relief Request Components:
Raw Water Pumps AC-10A, AC-10B, AC-10C, AC-100 Low Pressure Safety Injection Pumps SI-1A, SI-18 High Pressure Safety Injection Pumps SI-2A, SI-2B, SI-2C Containment Spray Pumps SI-3A, SI-38, SI-3C Boric Acid Pumps CH-4A, CH-48 Class: 2 3 Test Requirements: Measurement of Pump Inlet Pressure and Differential Pressure Raw Water Pumps Basis for Exception 0&M Part 6, Subsection 4.6.2.2, 5.2 and Table 2: System design does not include instrumentation for direct measurement of inlet and differential pressure. Alternate Testing: The pump inlet pressure will be calculated based on the river level and the elevation of the pump suction bells. The pump differential pressure will then be calculated based on the measured discharge pressure and the calculated inlet pressure. Since (1) the river provides the required positive pressure at the suction of the pumps, (2) the river level does not change when a pump is started, and (3) at least one pump is usually in service, the calculated inlet pressure prior to starting a pump is the same as with a pump running. LPSI, HPSI and Containment Spray Pumps Basis for Exception from 0&M Part 6, Subsections 4.6.2.2, 5.2 and Table 2: System design does not include instrumentation for direct measurement of inlet and differential pressure. l R3 September 1, 1995 Page 270 of 280 l
, 1. Code Exception Number E1 - Relief Request (Continued) Alternate Testing: The LPSI, HPSI and CS pumps take their suction directly from the Safety Injection and Refueling Water Tank and have inlet pressures due to the level of water in the tar,k above the pump inlets. The pump inlet pressures will be calculated based on the tank level and the difference in elevation between the tank and the pump inlets. Pump differential pressures will then be calculated by subtracting the calculated inlet pressure from the measured discharge pressures. Since the Safety Injection and Refueling Water Tank provides the required positive pressure at the suction of the pumps and since the tank level does not significantly change when a pump is started, the calculated pump inlet pressure prior to starting a pump is the same as with a pump running. Flow losses through the suction piping of these pumps are negligible. Since the losses would be the same from test to test, not including them in the test would still enable pumo degradation to be identified. Boric Acid Pumps Basis for Exception for O&M Part 6, Subsections 4.6.2.2, 5.2 and Table 2: 5 System design does not include instrumentation for direct measurement of inlet and differential pressure. Alternate Testing: The Boric Acid Pumps take their suction directly from the Boric Acid Tanks and have an inlet pressure due to the level of acid in the tanks above the pump inlet. The pump inlet pressure will be calculated based on the Boric Acid Storage Tank level and the elevation difference between the tank level and the pump inlet. . Pump differential pressure will then be calculated by subtracting the calculated inlet pressure from the measured discharge pressure. 1
)
a 4 R3 September 1, 1995 Page 271 of 280
- 2. Code Exception Number E2 - Relief Request j .
Components: i Low Pressure Safety Injection Pumps SI-1A, SB l 1 High Pressure Safety Injection Pumps SI-2A, B, C Containnent Spray Pumps SI-3A, B, C Class: I 4 2
. Test Requirements:
Measurement of Flow Rate Quarterly Low Pressure Safety Injection Pumps
- Basis for Exception from O&M Part 6, Subsection 5.1 and Table 2:
- The flow rate of the LPSI pumps cannot be measured while they are j operating on the minimum flow recirculation line because flow
^ measurement instrumentation is not installed on this line. The pump minimum flow recirculation line must be used when testing these pumps Quarterly during power operation, because the only i other flow path is into the RCS. This flow path cannot be ! utilized because the pump discharge pressure cannot overcome the l RCS pressure.
. Alternate Testing:
In addition to the Quarterly mini-flow test, pump flow rate will 4 be measured on a Cold Shutdown frequency when an instrumented flow i path to the RCS is available. This is in accordance with Position 9 (Pump Testing Using Minimum Flow Line With or Without Flow Measuring Devices) of Attachment 1 to the Generic Letter 89-04. i 4 4 + 4 R3 September 1, 1995 Page 272 of 280
- 2. CodeExceptionNumberE2-ReliefRequest(Continued)
Containment Spray Pumps 4 Basis for Exception from 0&M Part 6, Subsection 5.1 and Table 2:
- The flow rate of the CS Pumps cannot be measured while they are operating on the minimum flow recirculation line because the flow measurement instrumentation is not installed on this line. The pump minimum flow recirculation line must be used when testing these 1 pumps Quarterly during power operation, because the only other flow path is into the Containment spray headers which would result in water damage to equipment in Containment. Additionally, as approved by Amendment 136, Technical Specifications 2.1.1 4
states that the CS pumps will not be lined up on the . shutdown cooling flow path until RCS temperature is ~ below 120*F and a vent path is available. This is due to the fact that the suction side piping is designed to DBA conditions (60 psig) and valves on the suction piping are designed to 150 psig. Alternate Testing: In addition to the Quarterly mini-flow test, pump flow rate will 4 be measured on a refueling outage frequency when an instrumented flow path to the RCS is available. This is in accordance with Item 9 (Pump Testing Using Minimum Flow Line With or Without Flow
- Measuring Devices) of Attachment 1 to Generic Letter 89-04.
High Pressure Safety Injection Pumps Basis for Exception from 0&M Part 6, Subsection 5.1 and Table 2: The flow rate of the HPSI pumps cannot be measured while they are operating on the minimum flow recirculation line because the flow measurement instrumentation is not installed on this line. The pump minimum flow recirculation line must be used when a testing these pumps Quarterly during power operation, because the only other flow path is into the RCS which cannot be utilized because the pump discharge pressure cannot overcome the RCS pressure. Alternate Testing: ' In addition to the Quarterly mini-flow test, pump flow rate will be measured on a refueling outage frequency when an instrumented flow path to the RCS is available. This is in accordance with Position 9 (Pump Testin flowMeasuringDevices)gUsingMinimumFlowLine'WithorWithout of Attachment 1 to Generic Letter 89-04. R3 September 1, 1995 Page 273 of 280 4
1 l
- 3. Code Exception Number E3 - Relief Request l DELETED i
l l l i l R3 September 1, 1995 Page 274 of 280 l
l i i 4. Code Exception llumber E4 - Relief Request Components ! Component Cooling Water Pumps AC-3A, AC-3B, AC-3C l Raw Water Pumps AC-10A, AC-108, AC-10C, AC-10D
.- Class l
3 l - Test Requirements Section 5.2 of OM-6 requires that the system resistance be varied , until either the measured differential pressure or measured flow , rate equals the corresponding reference value. The quantities listed in Table 2 of OM-6 are then measured or observed and l compared to the corresponding reference value. Rather than set the applicable pumps at a reference value, the licensee proposes. i 'to establish a range of values (pump curves) and test the pumps in
- the as-found operating condition.
. Basis for Exception from 0&M Part 6, Subsection 5.2 Table 2:
The Raw Water.(RW) and Component Cooling Water (CCW) systems at Fort Calhoun Station (FCS) are designed i such that the total pump flow cannot be adjusted to
- one specific value for the purpose of testing without ;
- adversely affecting the system flow balance and
! technical specification operability requirements. Therefore, the RW and CCW pumps must be tested in a manner that the RW and CCW loops remain properly flow
; balanced during and after the testing. In addition,
- l. certain supplied loads (e.g. cooling of Control
- Element Drive Mechanisms) must remain fully operable i per Technical Specifications to maintain the required level of plant safety during power operation.
j The RW and CCW systems loops are not designed with full flow test lines with single throttle valves. Therefore, the flow cannot be throttled to a fixed reference valua every time a pump test is performed. Total pump flow rate can only be measured using the .
. total flow indication as installed and read on the supply headers. There are no valves available in any of the loops, on either the supply or return lines, 7
- for the purpose of throttling total RW or CCW system flows. Only the flow of the served components are
, able to be individually throttled. The main loops of RW and CCW are piped in parallel with each other.
Many loads are throttled to flow ranges specified in the-FCSDesignBasisDocuments(DBD). All loads are ; i aligned in parallel, and receive RW/CCW flow when the RW/CCW pumps are running regardless of ; R3 September 1, 1995 Page 275 of 280
- j. ,
2
- 4. Code Exception Number E4 - Relief Request (Continued) which served components are in service. During power operation, certain loops of RW/CCW are required to be operable per Technical Specifications. Specific loops / components of RW/CCW cannot be taken out of service for testing without ectering an action statement for a Limiting Condition for Operation (LCO). Also, exceeding certain individual component flows / temperatures (e.g.,
reactor coolant pump seals) can require plant shutdown in two hours, depending on the load in question. Certain RW/CCW loops are flow balanced during each refueling outage (at a nominal 18-month frequency) to ensure that all loads are adequately supplied. Flow ranges are specified for these loads in order to balance flows against each other. Once properly flow balanced, minimal flow adjustment can be made for any one particular load without adversely impacting the operability of the remaining loads (i.e., increasing flow for one load reduces flow for all of the others). Each time the system is flow balanced, proper individual component flows are produced, but this in turn does not necessarily result in one specific value for total flow. Because certain loads have an acceptable flow range, overall system full flow (the sum of the individual component flows) also has a range. Consequently, the Code requirements to quarterly adjust RW/CCW loop flow to one specific flow value for the performance of inservice testing conflicts with FCS system design and component operability requirements (i.e., flow balance) as i required by Technical Specifications. j Alternate Testing As discussed above in the Test Requirements section, it is ) extremely difficult to return to a specific value of flow rate or j differential pressure for testing of these pumps. Multiple reference points could be established according to the Code, but obtaining reference values at every possible point, even over a small range is not feasible. An alternative to the testing requirements of OM Part 6, Section 5.2, is to base the acceptance criteria on a reference pump curve. Flow rate and differential pressure are measured / calculated during inservice testing and compared to an established baseline reference curve. In addition, trending is accomplished by taking the ratio of the reference curve differential pressure versus flow and the actual . differential pressure versus flow. I The following elements are used in developing and implementing the reference pump curves: R3 September 1, 1995 Page 276 of 280
1
- 4. Code Exception Number E4 - Relief Request (Continued)
- 1. A reference p# imp curve (differential pressure vs. flow) has been established for RW pumps AC-10A, AC-108, AC-10C, and AC-10D, and for CCW pumps AC-3A, AC-38, and AC-3C from data taken on these pumps when they were known to be operating acceptably. These pump curves represent pump performance close to the original manufacturer's pump test data.
- 2. Pump curves are based on four or more test points whenever possible. Rated capacities of these pumps are 6,000 - 7,000 gpm for the RW psmps and 4,500 - 5,500 gpm for the CCW pumps.
- 3. To reduce the uncertainty associated with the pump curves
~ and to ensure the adequacy of the acceptance criteria, all instruments used in establishing the baseline reference pump curves either meet or exceed the Code required accuracy.
- 4. The reference baseline pump curves are compared to the manufacturer's pump curves which were validated during plant
.preoperational testing.
d
- 5. Reviu of the pump hydraulic data trend plots indicates close correlation with established pump reference curves, thus validating the accuracy of the pump curves to assess the pumps' operational readiness.
l
- 6. The reference pump curves are based on differential pressure J vs. flow. See the attached sample AC-3A and AC-10A pump acceptance criteria sheets. Areas for Required Action are l; as required per 0M-6. Areas for Acceptable, Alert, and Required Action are as required per 0M-6. These acceptance criteria limits do not conflict with operability criteria (minimumoperability).
- 7. Only a small portion of the established reference curve is being used to accommodate flow rate variance due to flow balancing of various system loads.
- 8. Review of recent vibration data trend plots indicates that the change in vibration readings over the range of the pump curves being used is insignificant; therefore, only one fixed reference value has been assigned for each vibration measurement location.
- 9. After maintenance or repair that may affect the existing baseline reference pump curves, a new reference pump curve i- h termined or the existing pump curve revalidated by an inservice test. The design of the FCS RW and CCW systems and the Technical Specification requirements make it impractical to adjust system flows to a fixed reference value for inservice testing without adversely affecting the system flow balance and Technical specification operability i
R3 September 1, 1995 Page 277 of 280 i i i
- 4. Code Exception Number E4 - Relief Request (Continued) requirements. Proposed alternate testing using a reference pump curve for each pump provides adequate assurance and accuracy in monitoring pump condition to assess pump operational readiness and will adequately detect pump i degradation. The proposed alternate testing will have no ;
adverse impact on plant or public safety. ' Conclusion i
- Relief grantedto use pump pursuant curves for' testing to 10CFR50.55a(f)(6) (the i) based on RW the and CCW pumps is impracticality of performing testing in accordance with the Code requirements to test pumps at a reference value of either differential pressure and measure flow, or flow and measure differential pressure. The granting of relief is in consideration of the adequacy of an alternative method of testing and the burden if the Code requirements were imposed.
I 4 8 1 L R3 September 1, 1995 Page 278 of 280
v PART 4 REFERENCES
- 1. Fort Calhoun Station Technical Specifications.
- 2. ASME Boiler and Pressure Vessel Code, Section XI, 1989 Edition.
- 3. ASME/ ANSI Operation and Maintenance of Nuclear Power Plants, 1987 Edition, 1988 Addenda.
- 4. NRC Generic Letter No. 89-04, " Guidance on Developing Acceptable ;
Inservice Testing Progrems". t
- 5. NRC's Safety Evaluation Report on Revisions 3 and 4 of ti,a Fort Calhoun Station's Inservice Inspection / Testing Program Plan (1983-1993), dated '
December. 22, 1988 and July 3, 1989, respectively. '
- 6. NRC's Safety Evaluation Report on Revision 5 of the Fort Calhoun Station's Inservice Inspection / Testing Program Plan (1983-1993), dated March 13, 1990.
- 7. NRC's Safety Evaluation Report on Revision 0 of the Fort Calhoun Station's Inservice Testing Program Plan Third Ten Year Interval (1993 -
2003),datedJune 21, 1994.
- 8. Letter from NRC (W. H. Bateman) to OPPD (T. L. Patterson), dated April 6, 1995 (NRC 95-071).
- 9. ASME Code Cases Incorporated into the FCS ISI Program Plan Code Case N-416* Alternative Rules for Hydrostatic Testing of Repair or Replacement of Class 2 Piping Section XI Division 1.
Approval Date: December 5, 1984 Code Case N-416-1 Alternative Pressure Test Requirement for Welded Repairs on Installation of Replacement Items by Welding, Class 1, 2, and 3, Section XI Division 1. I Code Case N-461* Alternative Rules for Piping Calibration Block i Thickness. Approval Date: November 30, 1988 1 Code Case N-481* Alternative Examination Requirements for Cast ! Austenitic Pump Casings. Approval Date: March 5, 1990 Code Case N-491* Alternative Rules for Examination of Class 1, 2, 3 aa' MC Component Supports of Light-Water Cooled Power Plants. Approval Date: March 14, 1991 4 R3 September 1, 1995 Page 279 of 280 4
g Code Case N-498-1** Alternative Rules for Ten-year System Hydrostatic Pressure Testing for Class 1, 2, and 3 Systems. Approval Date: Hay 11, 1994 Code cases approved by NRC-Reference NRC Regulatory Guide 1.147.
** Code cases approved by NRC-Refer to NRC Letter dated January 30, 1995 (NRC 95-017)
- 9. The following 0 PPD Piping and Instrumentation Drawings:
Number Title 11405-N-1 Containment Heating Coo 1ing & Ventilating System 11405-H-5 Deminera1ized Water System 11405-H-6 Waste Disposal System 11405-H-7 Waste Disposal System 11405-H-10 Auxi1iary Coofant Component Coo 1ing System 11405-H-12 Primary Plant Sampling System 11405-H-13 Plant Air System 11405-H-40 Auxi1iary Coo fant Component Coo 1ing System Flow 11405-N-42 Nitrogen, Hydrogen, Methane, Propane & 0xygen Gas System 11405-H-98 Waste Disposal System 11405-H-100 Raw Water System 11405-M-252 Steam System 11405-H-253 Steam Generator Feedwater & Blowdown System 11405-H-254 Condensate System 11405-H-262 Fue10i1 System 11405-H-264 Instrument Air System E-23866-210-110 Reactor Coolant System E-23866-210-120 Chemical & Volume Control System E-23866-210-121 Chemical & Volume Control System E-23866-210-130 Safety Injection & Containment Spray System B120F07001 Diesel Generator Starting Air System C-4175 Contro1 Vaive Air Source VaIve Lineup / Listing D-4078 Reactor Coolant Gas Vent System R3 September 1, 1995 Page 280 o' 280
1 i h
- LIC-95-0157 Attachment 2 l
I i 4 i i ATTACHMENT 2 i FCS Station Engineering Instruction SEI-27 ) " Inservice Inspection and Test Program" i i 4 i i i 1 l 1 j
}
v
- PRODUCTION ENGINEERING DIVISION - PED-SEI-27 I STATION ENGINEERING INSTRUCTION PAGE 1 OF 13
.{
l Record of Revision .
. Page 1 of 1 Document Number: . PED-SEl-27
Title:
Inservice 'nspection and Test Program - Revision . Description of Revision Prepared By-0- Initial issue. C. Bloyd 1' Add Appendix A. P. Hamer ,
-2 Update to later editions of ASME Section XI and the R. C. Lippy FCS ISI Program Plan for the third 10-year interval. i incorporate PCN-SEl-27-01-01, PCN-SEl-27-01-02, and PCN-SEl-27-01-03.
3 To incorporate a revised philosophy for marking R. C. Lippy identification numbers on ISI pipe weld into Attachment 1. l l- , f R3
PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 2 OF 13 . TABLE OF CONTENTS , 1.0 . SCOPE.......................................................... 3 2.0 AP P LICABI LITY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1
3.0 REFERENCES
/ COMMITMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 4.0 G EN ERAL R EQU IR EM E NTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 5.0 INSTRUCTIONS ...................... ............................ 5 .
Att"chrnent 1 Identification of Class'1,2 and 3 Piping Welds Examined per the Inservice ; inspection (ISI) Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 ! l Att:chment 2 Personnel Signature Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 P f I s 4 1 1 1 3 4 i j i 1 R3
PRODUCTION ENGINEERING DIVIS:ON PdD-SEl-27 i STATION ENGINEERING INSTRUCTION PAGE 3 OF 13 1.0 SCOPE This procedure describes the activities to be performed by Station Engineering to implement the ASME Section XI Inservice Inspection and Test (ISI/IST) Program required by 10CFR50.55a and FCS Technical Specification 3.3. 2.0 APPLICABILIT/
- Station Engineering is responsible for planning ISI/IST Program activities, assuring that i these program activities are scheduled and properly assigned in the Surveillance Test Program, and reporting program results as assigned in PED-OP-33.
3.0 REFERENCES
/ COMMITMENTS t
3.1 ASME Section XI,1989 Edition 3.2 ANSl/ASME Operation and Maintenance of Nuclear Power Plants Parts 1,6, and 10, 1987 Edition,1988 Addenda. 1 3.3 Title 10 Code of Federal Regulations, Part 50 3.4 FCS Technical Specifications 3.5 Operational Safety Team inspection, IER-88-201 3.6 Quality Assurance Plan for Fort Calhoun Station 3.7 SO-O-1, " Conduct of Operations" 3.8 SO-G-3, "Special Procedures" 3.9 SO-G-23, " Surveillance Test Program" 3.10 SO-G-30, "Setpoint/ Procedure Change and Generation" 3.11 SO-G-36, " Operating Manuals Review Documentation" 3.12 SO-G-73, " Fort Calhoun Station Procedure Writer's Guide" ~ 3.13 SO-M-100, " Conduct of Maintenance" 3.14 PED-OP-00, " PED Manual Control Procedure" 3.15 PED-OP-6, " Procurement Requirements - Materials and Services" 3.16 PED-OP-27, "ASME Section XI Repair / Replacement Program" R3
PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 4 OF 13 3.17 PED-OP-33, " Inservice inspection and Test Program" , 6 3.18 PED-gel-36, "OA Records Instruction" 3.19 PED-gel-55, " Instructions for ASME Section XI Repair / Replacement Plans"
- 3.20 PED-SEl-11, " Trend Monitoring and Analysis" j 3.21 PED-SEl-14, " Surveillance Testing" E
3.22 OCP-201, Review of Vendor Procedures, Materials, Personnel and Equipment Certifications
- 3.23 NOD-OP-9, " Processing of Regulatory Correspondence and Other Pertinent Licensing Documents" 4.0 GENERAL REQUIREMENTS 4.1 Discussion l The Inservice inspection and Test program requirements are outlined in ASME Section XI. Implementation of these requirements is required by 10CFR50.55a. The
, program consists of the non-destructive inspection / examination of safety related j components (ISI) and the performance testing of pumps and valves and ; i hydrostatic / leak testing of piping and components (IST). l
- 4.2 ASME Section XI Fort Calhoun Station is committed to the requirements of ASME Section XI. !
. 10CFR50.55a, as amended effective September 8,1992; incorporates the 1989 l l ASME Section XI Edition by reference. {
s 4.3 Inservice Inspection (ISI) ASME Section XI Articles IWA, IWB, IWC, IWD, IWE, and IWF describe the rules and requirements for inservice inspection of Class 1,2, and 3 pressure retaining components and their supports. These rules and requirements are detailed in the Ten Year Inservice Examination Plan, and computer database and Attachment 1 of this procedure (ISI Weld Identification). 4 4.4 Inservice Testing (IST) ASME Section XI Articles IWA,1WB, IWC, and IWD, and the ANSl/ASME OM Manual ~ Part 1, 6,10 describe the rules and requirements for system leak tests, hydrostatic ' tests, and inservice testing of Class 1, 2, and 3 pumps and valves (as accomplished by the ISI Surveillance Tests). R3
- PRODUCTION ENGINEERING DIVISIOf f PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 5 OF 13 4.5 Deviations f 4.5.1 Deviations from the inspection requirements of ASME Section XI, [
l Article IWA, IWB, IWC, IWD, IWE and IWF inspection requirements are not allowed without NRC approved exemptions or relief requests. 4.5.2 Deviations from the test requirements of the OM Manual Parts 1,6, and 10 are not allowed without NRC approved exemptions or relief requests. 4.6 Definitions : Definitions of the terms used in this procedure are included in ASME Section XI f . Article IWA-9000.
- 4.7 ISI/IST Coordinator
! The ISl/IST Coordinator is assigned to the Special Services Engineering Department. I 4.8 Surveillance Test Coordinator-
- The Surveillance Test Coordinator is assigned to the System Engineering Department.
l j di.0 INSTRUCTIONS 4 5.1 Fort Calhoun Station Inservice Inspection Program Plan (FCS-ISI Program Plan)
- The ISI/IST Coordinator shall prepare and revise, as necessary the Fort Calhoun i Station Inservice inspection Program Plan to document the exams, tests, exemptions, i
and relief requests that constitute the ISI Program Plan for Fort Calhoun Station. This plan identifies, in general terms, the Inservice inspection requirements for FCS, and
- . specifically identifies inservice Testing requirements, exemptions from ASME Section
; XI, relief requests from specific test and inspection requirements and justification for ;
deviations from test frequencies specified in ASME/ ANSI OM Manual. This plan is prepared in accordance with the applicable edition of ASME Section XI and must be i approved by the Nuclear Regulatory Commission in accordance with 10CFR 50.55a.(g)(4)(iv), 4 l 5.1.1 The ISI/IST Coordinator shall prepare a new Fort Calhoun Station Inservice
;. Inspection Program Plan at the beginning of each 10 year inspection interval in accordance with the most recent edition of ASME Section XI that is ; approved by the NRC and Title 10CFR 50.55a. * ; 5.1.2 The ISl/IST Coordinator shall ensure NRC approval of the Fort Calhoun Station Inservice inspection Program Plan prior to implementation.
l j- R3 f c-, e, , ~ . - - -, .-
. - . ~ . . - - . - _ - - . _ - - . - - . .- - - -
PRODUCTION ENGINEERING DMSION PED-SEl-27 I STATION ENGINEERING INSTRUCTION PAGE 6 OF 13 .{ 5.1.3 The ISI/IST Coordinator shall ensure NRC approval of the FCS-ISI Program Plan revisions that involve exemptions or relief from the requirements of the applicable edition of ASME Section XI.
; 5.1.4 ISI of Steam Generator tubes is performed in accordance with Technical ; Specification 3.17, in accordance with ASME XI Article IWB-2413 in lieu of Article IWA-2233.
l 5.1.5 ISI of snubbers is performed in accordance with Technical
- Specification 3.14, in lieu of ASME XI Article IWF-5000.
- 5.2 Inservice inspection (ISI) l t
] The ISl/IST Coordinator shall plan the inservice inspection activities for each ten year , interval as described in ASME Section XI, Article IWA-2420 and as required by , j Article IWA-6210(a). Component examination requirements for Class 1,2, and 3 components are descnoed in ASME Section XI, Articles IWB-2500, IWC-2500, and - lWD-2500, respectively. Component support examination requirements are described
- in ASME Section XI, Article IWF-2500.
5.2.1 Examinations of Class 1 and 2 components required to be completed within ! the interval shall be performed throughout the interval within periods as described in ASME Section XI, Articles lWB-2412 and IWC-2412,
- respectively. Examinations of Class 3 components shall be completed withir.
each period or interval as described in ASME Section XI, Article IWD-2410. j' Examinations of component supports shall be performed as described in ! ASME Section XI, Article IWF-2410. l j 5.2.2 The Ten Year Inservice Examination Plan (TYP) shall list the components j and supports to be inspected. 5.2.3 The TYP shall list all relevant components covered by ASME Section XI, l components selected for examination, the types of examinations to be performed on each inspected component, and when the exam is scheduled to be performed. 5.2.4 The TYP shall schedule the planned inspections for the entire ten year
- inspection interval.
5.2.5 The ISI/IST Coordinator (or his designee) shall update the TYP after each refueling outage to show exams completed, exams remaining, supplemental ! or alternate exams added, exams deferred or rescheduled and other relevant items. 5.2.6 ISI may be performed during plant outages (ASME Section XI, i Articles IWB-2410, IWC-2410, and IWF-2410). . R3 4
- i
- PRODUCTION ENGINEERING DIVISION PED-SEl-27 i STATION ENGINEERING INSTRUCTION PAGE 7 OF 13 I 5.2.7 Examination boundaries between component supports and pressure
- boundaries shall be as described in ASME Section XI, Article IWF-1300. 4 5.2.8 Flaw indications shall be evaluated and characterized in accordance with i ASME Section XI, Articles IWA-3000, IWB-3000, IWC-3000, IWD-3000, and i IWF-3000. l i A. Flaw indications in Class 1 components, Class 2 components, and , j_ Class 1, 2, and 3 component supports within acceptable limits shall be j evaluated to be inspected more frequently as described in ASME Section XI, Articles IWB-2420, IWC-2420, and IWF-2420, respectively. i Alternatively, flaws within acceptable limits may be repaired in order to ; l avoid more frequent exam requirements. ! B. Flaw indications in Class 1 components, Class 2 components, and j Class 1,2, and 3 component supports exceeding allowable standards require a larger inspection population (additional examinations) as described in ASME Section XI, Articles IWB-2430, IWC-2430, and j IWF-2430, respectively. l
- 5.2.9 ISI examinations and evaluation of results shall be performed under the cognizance of the ISI/IST Coordinator (or designee).
j. ! A. SSED should contract VT, UT, MT, and PT examination services for ISI l in accordance with PED-OP-6. B. The ISI/lST Coordinator (or designee) shall ensure that OC has reviewed the applicable vendor's procedures, materials, personnel and
- equipment certifications.
! C. SSED shall contract the services of an Authorized Nuclear Insenrice j inspector (ANil) for ISI in accordance with PED-OP-6 and as required by ASME XI, Articles IWA-4140, IWA-2100 and IWB-2100. ) D. The ISI/IST Coordinator shall ensure that the ANil is qualified in
- accordance with ASME Section XI Article IWA-2130.
- E. SSED ISI cornractors shall provide examination equipment, procedures, !
- personnel certifications, and standards that meet the requirements of ASME Section XI. SSED shall obtain acceptance of all such j procedures, personnel certifications, and standards by the ANll before use.
- F. Acceptance standards for examinations for Class 1,2, and 3 l components and for component supports shall be in accordance with IWB-3000, IWC-3000, IWD-3000, and IWF-3000, respectively.
4 R3 _ _ , _ _ _ . .~
PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 8 OF 13 i I 5.2.9 G. The ISl/IST Coordinator (or designee) shall update the ISI isometric
- drawings and forward the revisions to PED - Design Drafting, i 5.3 Inservice Testing (IST)
The ISI/IST Cootdinator shall ensure that the inservice testing of pumps and valves ! complies with ASME/ ANSI OM Manual Parts 1,6, and 10 and that the
- hydrostatic / leak testing of piping and components complies with ASME Section XI .
- Articles IWA, lWB, lWC, and IWD in accordance with the current revision of the Fort ,
i Calhoun Station inservice inspection Plan. The Surveillance Test Coordinator shall l , schedule IST surveillance tests in accordance with PED-SEl-14. i l l 5.3.1 The Surveillance Test Coordinator shall schedule tests of pumps and valves in accordance with the frequency requirements of the surveillance tests, the ! j FCS Technical Specifications, and Station Engineering instruction j PED-SEl-14. ] i
- 5.3.2 The Surveillance Test Coordinator shall maintain the current test schedule j i status and past test completion history.
5.3.3 The Surveillance Test Coordinator shall trend and monitor the pump and [ ! valve results in accordance with PED-SEl-11 and PED-SEl-14. - 5.3.4 The ISl/IST Coordinator shall establish the limits.for pump and valve ! performance applicable to ASME Section XI, and shall maintain a file : documenting the bases for these limits. 5.3.5 Pump test acceptance criteria shall be based on OM Part 6, Table 3. 5.3.6 Valve test acceptance criteria shall be based on OM Parts 1 and 10. j 5.3.7 The ISI/IST Coordinator shall review new or revised pump and valve
- surveillance tests to ensure compliance to ASME Section XI Articles IWA,
- IWB, IWC, LWD, and to OM Parts 1,6, and 10 for pump, valve, leak and i i hydrostatic tests in accordance with SO-G-30.
5.3.8 Class 1,2, and 3 component pressure tests shall be performed in accordance with ASME Section XI, Articles IWB-5000, IWC-5000, and j IWD-5000, respectively, and IWA-5000. . 5.3.9 Pump and valve testing shall be performed by FCS Nuclear Operations Division personnelin accordance with Standing Orders SO-G-23 and SO-O-1 j- and approved Surveillance Test procedures. R3 i i l 4
i PRODUCTION ENGINEERING DIVISION PED-SEl-27 ! STATION ENGINEERING INSTRUCTION PAGE 9 OF 13 - 5.3.10- The ISI/IST Coordinator shall review and approve the results of pump and valve surveillance tests to ensure compliance to FCS ISI Program Plan in
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accordance with Standing Order SO-G-23. 5.3.11 The ISl/IST Coordinator shall review new or revised 40 month leak test or 10 year hydrostatic test procedures to ensure compliance with ASME ; Section XI, Articles IWA-5000, IWB-5000, IWC-5000, and IWD-5000.- , 5.3.12 FCS Maintenance personnel shall perform hydrostatic testing in accordance with Standing Order SO-M-100 and approved Surveillance Test procedures. 5.4 Procedures 5.4.1 ISI contractors shall provide VT, UT, MT, and PT procedures as required by their contract. 5.4.2 FCS OC shall provide inspection procedures, as required, in accordance with the Fort Calhoun Station Quality Assurance Plan. 5.4.3 The ISI/IST Coordinator shall prepare, change, and review relevant ! surveillance test procedures in accordance with Standing Orders SO-G-73, i SO-G-30, SO-G-36, and SO-G-95 respectively. 5.5 Reports i 5.5.1 The ISI/IST Coordinator shall prepare reports in accordance with ASME Section XI, Article IWA-6000. 5.5.2 The ISI/IST Coordinator shall report inservice Inspections on Form NIS-1, l
" Owners Data Report for Inservice Inspections" in accordance with ASME i Section XI, Article IWA-6220. The ISI/IST Coordinator shall obtain ANll signed approval of Form NIS-1 before submittal.
5.5.3 The ISl/IST Coordinator shall report ASME Section XI Repairs and Replacements on Form NIS-2 in accordance with PED-OP-27 and PED-gel-55. 5.5.4 The Supervisor - SSED shall review ISI/IST reports. 5.5.5 The Manager, Station Engineering, shall approve NIS-1 and NIS-2 reports i prior to NRC submittal. j 5.5.6 Reports shall be submitted to the Ucensing Department for transmittal to the NRC in accordance with NOD-OP-9. Refueling outage inservice inspection , reports shall be submitted to the NRC within 90 days of inservice inspection i completion in accordance with ASME Section XI, Article IWA-6230. i R3
i i PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 10 OF 13 5.6 Records 5.6.1 The Surveillance Test Coordinator shall ensure that the records retention required by ASME Section XI, Article IWA-6300 is executed in accordance with PED-gel-36. 5.7 Repairs and Replacements (See also Reference 6 and 7) 5.7.1 Repairs shall be made in accordance with ASME Section XI, Articles IWA-4000, IWB-4000, IWC-4000, IWD-4000, and IWF-4000. 5.7.2 Replacements shall be made in accordance with ASME Section XI, Article IWA-7000. 5.7.3 Replacement records shall be retained as construction records in accordance with ASME Section XI, Article IWA-6330. 5.7.4 Documentation of repairs and replacements shall be performed in accordance with PED-OP-27 and PED-gel-55. 5.7.5 The ISI/IST Coordinator shall review all Repair or Replacement Packages prepared in accordance with PED-gel-55 to ensure appropriate changes are made in the FCS-lSI Program Plan, TYP, and ISI isometric drawings. R3
PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 11 OF 13 Attachment 1 l Identification of Class 1,2 and 3 Piping Welds Examined per the Inservice inspection (ISI) Program 1.0 SCOPE 1.1 This procedure describes the method by which OPPD identifies and marks all Class 1, 2 and 3 piping welds in the ISI Program. 2.0 APPLICABILITY 2.1 This procedure will apply to all Class 1, 2 and 3 piping welds examined per the ISI Program. 2.2 This procedure must be read and signed (Attachment 2) by all personnel performing Class 1, 2 and 3 piping weld inspections for ISI. 2.3 This procedure is performed in lieu of ASME Section XI,1989 Edition, IWA-2600.
3.0 REFERENCES
3.1 PED-OP-00, Manual Control Procedure 3.2 ASME Section XI,1989 Edition. lWA-2600 3.3 Fort Calhoun Station / Inservice Inspection Program Plan 3.4 SO-G-48, Station Equipment Labeling 3.5 LIM-95-038, Minutes of NRC meeting dated May 10,1995. (amends requirements of IWA-2600) 4.0 GENERAL REQUIREMENTS 4.1 This procedure will be used by all personnel performing Class 1,2 and 3 piping weld inspections for ISI. 4.2 This procedure will be maintained by the Special Services Engineering Department. 4.3 Special Services Engineering Department will verify that all personnel have read and signed the log sheet (Attachment 2) prior to performing Class 1,2 and 3 piping weld inspections for ISI. R3
PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 12 OF 13 5.0 INbTRUCTIONS 5.1 Personnel shall use the ISI isometric drawings provided by Special Services Engineering Department to identify all Class 1,2 and 3 piping welds prior to inspection. 5.2 Positive identification shall be made by the Inspector by referencing adjacent or nearby valves, pumps or supports as delineated on the ISI isometric drawings. 5.2.1 If positive identification cannot be determined by the inspector, they should contact their Supervisor who shall assist in identifying the proper weld. J 5.2.2 If the Supervisor is unable tc determine the positive identification of the proper weld, they shall contact the OPPD ISI Administrator who will make the final determination of the proper weld. 5.3 Marking of the Piping shall be made for the following reasons: o Piping welds shall be marked with the system number and weld number as identified on the ISI isometric drawing when the weld is selected for examination to the extent practical A. The marking' will be performed near the weld by the ISI NDE Techniciar using low stress stamps or a vibrating etching tool B. The ISI Administrator or designee shall independently verify the weld identification agrees with the isometric drawing and identifies the correct weld C. By virtue of their preparation to perform ISI exams, the ISI Weld Examination Technicians are qualified to identify and mark ISI Pipe welds in accordance with this procedure 2 e The Ultrasonic (UT) Inspector shal! use a low stress " period" to identify the weld centerline at any point where a reportable UT indication (non-geometric) is located. A. The " period" will be the reference point for all UT measurements of the indication. B. The location of the " period" shall be noted on the UT report. 4 C. The " period" will be the reference point for any future UT measurements to monitor the indications size. R3
'- l PRODUCTION ENGINEERING DIVISION PED-SEl-27 STATION ENGINEERING INSTRUCTION PAGE 13 OF 13 Attachment 2 Personnel Signature Sheet -
I have read and understand Attachment 1. ;
-NAME SIGNATURE INITIALS DATE 4
4 I 1 R3 i
LIC-95-0157 Attachment 3 ATTACHMENT 3 Request for Relief No. 1 l 4 4
LIC-95-0157 Attachment 3 Page 1 ~ OMAHA PUBLIC POWER DISTRICT FORT CALH0UN STATION UNIT NO. 1 THIRD 10-YEAR INTERVAL + REQUEST FOR RELIEF NO. 1 I. System / Component (s) for Which Relief is Reauested: Five RPV Welds Examination Catenory B-A Component ID Component Description Item No. RPV-SC-C-11 RPV Lower Shell to Middle Shell Bl.10 RPV-SL-A-3 RPV Lower Shell Longitudinal Bl.10 RPV-SL-B-3 RPV Lower Shell Longitudinal Bl.10 RPV-SL-C-3 RPV Lower Shell Longitudinal Bl.10 RPV-A-11 RPV Upper Shell-to-Flange Bl.30 II. Code Reauirement Section XI,1989 Edition, Table IWB-2500-1, Examination Category B-A, Item Bl.10, requires a volumetric examination of all Reactor Pressure Vessel (RPV) shell welds. Section XI,1989 Edition, Table IWB-2500-1, Examination Category B-A, Item Bl.30, requires a volumetric examination of the RPF shell-to-flange weld. 1 III. Code Reauirement from Which Relief is Reauested i Relief is requested from performing the Code-required volumetric examination on the non-accessible portion of the above identified shell j and shell-to-flange welds. The Code requires that " essentially 100% of the weld length" of Items Bl.10 and Bl.30 welds be examined. In 10CFR50.55a(g)(6)(ii)(A)(2) " essentially 100%" is defined as more than 90% of the examination volume of each weld. This relief applies to welds whose practical examination volume is 90% or less. IV. Basis for Relief
; The subject shell weld, identified as RPV-SC-C-11 (Item Bl.10), is located l on the RPV (see Attachment 3A, Figure 1). This weld is examined from the inside of the RPV using an automated ultrasonic test (UT) device. The exams are limited due to the proximity of the permanently attached surveillance capsule holders on the inside of the RPV at 45*, 85 , 95*,
225*, 265* and 275* positions (see Attachment 3A, Figure 1). The l percentages of the Code required volumes obtainable with the automated UT device are shown in Attachment 3A. 1
LIC-95-0157 Page 2 The subject shell welds identified as RPV-SL-A-3, RPV-SL-B-3 and RPV-SL-C-3 (Item B1.10) are also located on the RPV (Attachment 3A, Figure 1). These welds are also examined from the inside of the RPV using an automated UT device. The exams are limited due to the proximity of the permanently attached flow skirt support lugs on the inside of the RPV at 20 , 60',100 ,140 ,180', 220 , 260', 300* and 340' positions. The percentages of the Code required volumes obtainable with the automated UT device are shown in Attachment 3A. The subject shell-to-flange weld identified as RPV-A-11 (Item Bl.30) is located on the RPV. It is examined manually from the flange surface of the RPV and the remaining accessible Code-required volume is examined from the inside of the RPV using an automated UT device. The automated exam is limited due to the circumferential proximity of the flange taper and the permanently attached core barrel support ledge, as shown in Attachment 3A, Figure 1. The examination percentages possible for all Bl.10 welds and the 81.30 weld are shown in Attachment 3A. These percentages are shown for all scans performed by the automated UT device. As indicated above, these limitations are due to permanent obstructions which partially shield the areas not completely examined. During previous inspections of the RPV, no recordable indications have been noted in the examinations of the subject welds. Examination of the remainder of the Code-required volume on the Bl.10 and Bl.30 welds would necessitate removal of insulation to gain access into the high radiation environment in order to examine the welds from the exterior of the RPV. OPPD estimates the radiation level would be in excess of 15 R/hr at the exterior examination areas, and that a cumulative exposure of 150 Person-Rem would be necessary to complete the Code-required volumetric examination of the shell welds, Item Bl.10 and shell-to-flange weld, Item Bl.30. The beltline region of the RPV receives a larger radiation fluence and is expected to be more susceptible to radiation induced weld deterioration. Based on weld stress, the limiting welds in the beltline region of the RPV are the axial welds. Relief is being requested for three axial welds (A-3, B-3 and C-3), however, the inaccessible portions of these welds are outside of the beltline region of the RPV. Thus, the inaccessible portions of these welds would receive less radiation and would be less likely to experience the weld deterioration that the UT examinations are attempting to detect. There are inaccessible portions of the beltline circumferential weld (C-11), but this is not a limiting weld. In summary, the portions of the limiting welds that are within the beltline region of the RPV are accessible for UT examination.
LIC-95-0157 Page 3 V. Alternate Examinations No ' alternate examinations are proposed at this time by OPPD. Technological improvements are continually evaluated for incorporation into the FCS ISI Program, as applicable. VI. Justification for the Grantino of Relief Examination of 100 percent of the RPV weld volumes noted above is not practical. The UT examinations of the accessible portions of the FCS RPV shell welds provide reasonable assurance that public safety is not impaired by the examination limitations described above. This is supported by the following circumstances:
- 1. All the subject RPV weld areas that are not completely examined are partially shielded by their limiting obstructions; therefore, the inaccessible weld volume should be somewhat less susceptible to deterioraticn.
I
- 2. None of the RPV shell welds that were examined have had any recordable indications during their most recent examinations, so it is reasonable to expect that the inaccessible weld volumes are equally free of recordable indications.
- 3. The inaccessible portions of the axial welds (A-3, B-3 and C-3) are outside of the beltline region of the RPV. The inaccessible portions of these welds would receive less radiation and be less likely to experience the weld deterioration that the UT examinations are attempting to detect. The beltline circumferential weld (C-11) is not a limiting weld. In sunmary, the portions of the limiting welds that are within the beltline region of the RPV are accessible for UT examination.
- 4. Excessive radiation levels make examinations from the RPV exterior impractical.
VII. Implementation Schedule This Relief Request applies to the augmented RPV shell weld examinations performed during the FCS 1992 Refueling Outage and the RPV examinations to be performed during the last 40-month period of the third ten-year interval.
4 LIC-95-0157 Attachment 3A l 1 i I I
- l ATTACHMENT 3A 4
Supplemental Information for Ultrasonic Examination Area
- Limitations for FCS Reactor Pressure Vessel Welds i
i i 1 I I l i 4 t
LIC-95-0157 Attachment 3A Page 1 SUPPLEMENTAL INFORMATION FOR ULTRASONIC EXAMINATION AREA LIMITATIONS FOR FORT ChtHOUN STATION REACTOR PRESSURE VESSEL WELDS (ITEM Bl.10 AND Bl.30) This attachment describes the ultrasonic examination coverage obtained and examination limitations encountered during the 1992 inservice examination (ISI) of the Fort Calhoun Station reactor pressure vessel (RPV). The examination was performed by Southwest Research Institute (SwRI) personnel using automated ultrasonic (AUT) scanning equipment, data recording and analysis systems in accordance with a Scan Plan and procedures. Omaha Public Power District approved the plan and procedures, which complied with requirements of the 1980 Edition of the American Society of Mechanical Engineers (ASME) Code, Section XI with Addenda through Winter 1980, and with NRC Regulatory Guide 1.150, Revision 1, Appendix A. The scope of the AUT examinations included 100 percent of the accessible weld lengths of the RPV shell welds (Item Bl.10) and shell-to-flange weld (Item Bl.30) as well as a manual examination of the shell-to-flange weld from the flange surface. The examination coverage obtained was compared to the weld and base metal volumes identified as the examination areas in Section XI, IWB-3500 figures. The ASME Code-specified techniques for RPV examination were augmented by special SwRI-qualified techniques to obtain complete and highly sensitive coverage of the underclad and near-surface material volumes. The surveillance tube holders, the flange taper, the flow skirt support lugs, and the core barrel support lugs limited scanning accessibility to the full length and/or width of some areas from the inside surface. The size and ' location of the flange surface limited the scanning area as well as the angles used in the manual examination. The examination coverage table in this attachment quantifies the volume of material examined. The table shows the volume scanned as a percentage of the total volume. This percentage is derived from adding together the percentages f rom the clockwise (CW), counter clockwise (CCW), up and down scans, and dividing by four. The maximum credited percentage for the 0*, 45* or 60* automated examination is 75%, although sound passed through 100% of the thickness. The near 25% of the required volume for automated examinations is credited to the 50 /70 scan as it is more sensitive to near surface anomalies. Welds RPV-SC-C-11, RPV-SL-A-3, RPV-SL-B-3, RPV-SL-C-3 and RPV-A-11 have less than 90% of the total volume scanned (see Figure 1). An illustration of weld RPV-A-11 depicting the coverage obtained from the , manual examination from the flange surface is also included (see Figure 2).
LIC-95-0157 , Attachment 3A . Page 2 9 TABLE A WELD IDENTIFICATION TOTAL PERCENT OF C0VERAGE RPV-SC-B-11 91.05 , RPV-SC-C-11 80.73 RPV-SL-A-1 93.20 RPV-SL-B-1 93.20 RPV-SL-C-1 93.20 { i RPV-SL-A-2 100 RPV-SL-B-2 100 RPV-SL-C-2 100 RPV-SL-A-3 86.12 RPV-SL-B-3 86.12 RPV-SL-C-3 86.12 RPV-A-11 64.20 + 1 l l 6 1
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