1RE06 ISI Summary Rept for Welds,Sg Tubes & Component Supports of STP Electric Generating Station Unit 1

ML20134B914
Person / Time
Site:	South Texas
Issue date:	09/05/1996
From:	Beverly R, Haning J, Jordan T HOUSTON LIGHTING & POWER CO.
To:
Shared Package
ML20134B912	List: ML20134B914 ST-HL-AE-5464, Forwards 1RE06 ISI Summary Rept for Welds,Sg Tubes & Component Supports of STP Electric Generating Station Unit 1
References
NUDOCS 9609200024
Download: ML20134B914 (257)
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i i SOUTH TEXAS PROJECT  !

ELECTRIC GENERATING I STATION i

i j 1RE06 INSERVICE INSPECTION

SUMMARY

REPORT  !

FOR WELDS, STEAM GENERATOR TUBES, AND  :

l COMPONENT SUPPORTS l

1 of the I j

4 SOUTH TEXAS PROJECT l

ELECTRIC GENERATING STATION - UNIT 1 4 P.O. Box 289 j Wadsworth, Texas 77483 i 4

Owner: Houston Lighting and Power Company i

! City Public Service Board of San Antonio Central Power and Light Company City of Austin Address: P.O. Box 1700 Houston, Texas 77001 Commercial Operation: AUGUST 25,1988 Issue Date: SEPTEMBER 1996 O

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9609200024 960905 PDR ADOCK 05000498 G PDR

p 1RE06 INSERVICE INSPECTION

SUMMARY

REPORT a

FOR WELDS, STEAM GENERATOR TUBES, AND COMPONENT SUPPORTS of the SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION 1

UNIT NO.1 USNRC DOCKET NO.: 50-498 OPERATING LICENSE NO.: NPF-76 COMMERCIAL OPERATION DATE: AUGUST 25,1988 l 0%

'V Prepared by: k-3'95 R. L. Bdverly Date ISI Engineer - elds & Component Suppons Prepared by: 4.[. O f 75 J. O. Hanini O Date I ISI Engineer - Steam Generator Tubes Approved by

i. J. Date

[ [d lanager - System Engineering Depanment i

Approved by: bb es S. E. Thomas Date i Manager - Design Engineering Depanment 1

TABLE OF CONTENTS 1.0 IRE 06

SUMMARY

REPORT Eaga 1.1 Introduction 1-1 1.2 Scope of Summary Report 1-1 l l

2.0 WELD EXAMINATIONS I 2.1 Introduction 2-1 2.2 Scope of Examinations 2-1 2.3 Personnel, Procedures, and Equipment 2-3 4 2.3.1 Personnel Qualifications 2-3 2.3.2 Examination Procedures 2-3 2.3.3 Equipment 2-3 2.3.4 Materials 2-3 2.3.5 Calibration Blocks 2-4 2.4 Summary of Examinations 2-4 2.4.1 Examination Methods 2-4 2.4.2 Augmented Examinations 2-4 2.4.3 Data Comparison .2-5 2.4.4 Additional and Successive Examinations 2-5 2.5 Examination Results and Corrective Actions 2-5 2.6 Certification of Inspections 2-6 Appendix 2-A Summary of Examinations Appendix 2 B Personnel l

Appendix 2-C HL&P Procedures Appendix 2-D

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ISI Examination Limitations '

. Appendix 2-E Owner's Report for Inservice Inspections - NIS-1 Forms 1

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TABLE OF CONTENTS (cont'd) 3.0 STEAM GENERATOR TUBE EXAMINATIONS

> 3.1 Introduction 3-1 3.2 Scope of Examinations 3-1 3.3 Personnel, Procedures, and Equipment 3-2 3.3.1 Personnel Qualifications 3-2 3.3.2 Examination and Analysis Procedures 3-3 3.3.3 Equipment 3-4 3.3.4 Calibration Standards 3-5 3.4 Summary of Examinations 3-5 3.5 Examination Results and Corrective Actions 3-6 3.5.1 Steam Generator A 3-7 3.5.2 Steam Generator B 3-8 3.5.3 Steam Generator C 3-8 3.5.4 Steam Generator D 3-8 3.6 Certification of Inspections 3-13 Appendix 3-A Changes to the ISI Outage Plan Appendix 3-B List of Examination and Data Analysis Personnel Appendix 3-C Tubes Examined by MRPC At Locations Other Than TSH Appendix 3-D Flaws with Tube Wall Thickness Reduction Appendix 3-E Dings and Dents Appendix 3-F Owner's Report for Inservice Inspections - NIS-1 Form 2

TABLE OF CONTENTS (cont'd) 4.0 COMPONENT SUPPORT EXAMINATIONS 4.1 Introducuon 4-1 4.2 Scope of Examinations 4-1 4.3 Personnel and Procedures 4-3 4.3.1 Personnel Qualifications 4-3 4.3.2 Examination Procedure 4-3 4.4 Summary of Examinations 4-3 4.4.1 Examination Results and Corrective Actions 4-3 4.4.2 Additional and Successive Examinations 4-4 4.5 Certification of Inspections 4-4 Appendix 4-A Summary of Examinations Appendix 4-B Personnel Appendix 4-C Owner's Report for Inservice Inspections .- NIS-1 Forms I

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1.0 1RE06

SUMMARY

REPORT O 1.1 Introduction This Summary Report describes Houston Lighting & Power Company's (HL&P) inservice inspection (ISI) of selected Class 1,2, and 3 components of the South Texas Project Electric Generating Station, Unit 1 (STPEGS-1) performed prior to and during the sixth refueling outage (1RE06) of STPEGS-1 during the time period between April 23,1996 and June 5,1996. The STPEGS ISI program for welds and component suppons is scheduled in accordance with Program B of the American Society of Mechanical Engineers (ARME)Section XI Code

" Inservice Inspection of Nuclear Power Plant Components". The STPEGS ISI Program for steam generator tubes is scheduled in accordance with STPEGS Technical Specification 3/4.4.5.

The first ten year inspection interval of STPEGS-1 began August 25,1988. Because STPEGS-1 was out of service continuously for 13 months, the inspection interval was extended for an equivalent period in accordance with IWA-2400(c) of ASME Section XI. This extended the inspection interval to September 24,1999. The third inspection period began April 25,1996 and extends to September 24,1999. The ISI summarized herein constitutes the sixth ISI performed during the first ten year inspection interval and the first ISI of the third inspection period of STPEGS-1. Figure 1 of this Section depicts the first ten year interval and Periods I through 3 for STPEGS-1. The percentages completion of examinations performed through IRE 06 for STPEGS-1 welds and component supports are also summarized in Figure 1.

The STPEGS-1 ISI program for the first inspection interval is described in the Ten Year ISI Plan ,

previously filed with the Nuclear Regulatory Commission (NRC) and the State of Texas. The '

STPEGS-1 ISI program was developed and is being implemented in accordance with 10CFR50.55a, the 1983 Edition of Section XI Code with the Summer 1983 Addenda, and other regulatory and Code bases as specified in the Ten Year ISI Plan. This Summary Repon satisfies the reponing requirements of IWA-6000 of the Section XI Code for welds, steam generator tubing, and component supports.

1.2 Scope of Summary Report This Summary Report describes the ISI examinations performed up through 1RE06 on welds (Section 2), steam generator tubes (Section 3), and component supports (Section 4). Each of these sections describes the scope of examinations performed; describes the personnel, procedures, and equipment utilized for the examinations; provides a summary of the examinations, examination results, and corrective actions; and includes copies of the examination certification (NIS-1) forms. The ISI examinations performed on Class I and 2 welds and other examination areas (e.g., bolting) are described in Section 2 of this Summary Repon. These examinations were performed in accordance with Subsections IWB and IWC of Section XI and other bases as specified in the Ten Year ISI Plan.

O h 1-1

ISI examinations performed on steam generator tubes are described in Section 3. These examinations were performed in accordance with IWB (Examination Category B-Q), STPEGS Technical Specifications 4.4.5, and other bases as specified in the Ten Year ISI Plan. The ISI examinations performed on Class 1,2, and 3 component suppons and Class 3 integral attachments are described in Section 4. These examinations were performed in accordance with Subsection IWF (Class 1,2, and 3 suppons) and Subsection IWD (Class 3 integral attachments) of Section XI and other bases as specified in the Ten Year ISI Plan.

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p m U U C~J ISI WELDS AND COMPONENT SUPPORTS PROGRAMS FIRST 10-YEAR INSPECTION INTERVAL CALENDAR UNIT 1 Year 19 as 19 89 19 90 19 91 19 92 19 93 19 94 19 95 19 96 19 97 19 98 19 99

== m,, w ra w.4 e,,l wi r.n w l n,,lwl ta ===l n,e l s ya w.4s,elwlpa w.=l s,,l w l re wdny,lwlpa w 4 ny,lwlva w. sc elwlra w l n,,ls l ra w.4 s,els lr.a w.l sp,l w rs Period __

co PER100 I PERIOD 2 PFRIOD 3 Ene arts wu

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Outage # 1 2 3 l l l l4 l l l l l l l l5 l l l I 6 7 8 to xo xo xo xo co . Cow vrrial Operation eof . End as 'nterval X8. EXTENDd) OUTAGE FROM FEBRUARY 4,1993 TO M ARCH 28,1994 Note: Some pertectage compktion data, for outages prior to IRFA6, how twen g corrected to document only these esaminations performed for Section XI credit.

PERIOD 1 Minimun 16 % PERIOD 2 Minimun 50 % PERIOD 3 Minimum 100 %

PERIOD 1 Maximum 34 % PERIOD 2 Maximum 67 % PERIOD 3 Maximum 100 %

l Refueling Outage 6 7 8 Cum.

PERIOD 1 %l PERIOD 2 %l PERIOD 3  %  %  %  %

SUMMARY

comp.

SUMMARY

comp. (In Progress) comp. Comp, comp. Comp.

Welds Program 31 % Welds Program st % Welds Program 17 % 7s %

Supports Program 34 % Supports Program si % Supports Prograi 12 % 74 %

FIGURE 1

2.0 WELD EXAMINATIONS 2.1 Introduction ISI of STPEGS-1 Class 1 and 2 welds and components within the Welds Examination Program was performed between May 16,1996 and June 5,1996. These examinations constitute the sixth ISI (the first ISI of the third period) of the first inspection interval for the Welds Examination Program for STPEGS-1.

This section of the Summary Report documents the examinations performed by HL&P Quality Control (QC) and contractor nondestructive examination (NDE) personnel in accordance with the following documents:

(1) "First 10-Year Long-Term Inservice Examination Plan for the South Texas Project Electric Generating Station, Unit 1" (LTP),

(2) " Examination Plan for the 1996 - 1RE06 Inservice Inspection of Welds and Component Supports at the South Texas Project Electric Generating Station, Unit 1", including changes made during the outage (Outage Plan).

The Long-Term Plan (LTP) provides a detailed description of the rules for exemption, selection, allocation, and scheduling of Class I and 2 welds and examination areas for ISI. The 1996 Examination Plan is an individual Outage Plan for implementing ISI weld examinations as 9 scheduled in the LTP. The Outage Plan references the applicable NDE procedures used for the (V examinations.

2.2 Scope of Examinations NDE was performed on a total of one hundred and seventy eight (178) selected Class 1 and Class 2 components and examination areas as contained in the Outage Plan. Any deviations or changes were documented as Examination Plan Changes to the Outage Plan. Selection of these components and examination areas was based on the LTP allocation and scheduling requirements for the sixth refueling outage.

Class 1 A total of ninety four (94) examinations were performed on the Class I components and examination areas listed below. Seventy six (76) of these components / areas were examined for Section XI credit to satisfy inspection period scheduling requirements (indicated by a "C" in the Results Colurnn of Appendix 2-A). Additionally, fourteen (14) components / areas received a baseline (B) examination, two (2) areas received a sample expansion (E) examination, one (1) component was examined that could have been deferred (D) to the end of the interval, and one (1) component was optionally (Z) examined.

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Vessels Reactor Vessel (RPV)

Pressurizer (PZR)

Steam Generator I A (Primary Side) (S/G) .

Steam Generator IB (Primary Side) (S/G)

Steam Generator IC (Primary Side) (S/G)

Steam Generator ID (Primary Side) (S/G)

Pmme Reactor Coolant System (RC)

Chemical & Volume Control System (CV)

Residual Heat Removal System (RH)

Safety Injection System (SI)

Valves Reactor Coolant System (RC)

Class 2 A total of eighty four (84) examinations were performed on the Class 2 components and examination areas listed below. Twenty eight (28) of these components / areas were examined for ASME Section XI credit (C). Additionally, fifteen (15) longitudinal (L) welds and forty one (41) Augmented ISI-BEZ program welds (A) were examined.

mu O Containment Spray System (CS)

Feedwater System (FW)

Main Steam System (MS)

Residual Heat Removal System (RH)

Safety Injection System (SI) ,

1 Pumps  :

Residual Heat Removal Pump 1 A (RHRP)

A complete list of the components and examination areas is contained in Appendix 2-A. Class I and Class 2 weld identification figures for the above co.n;onents and examination areas are l contained in the LTP. )

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, These examinations constitute the following percentages of completion for Class 1 and Class 2

(

V) components during the first inspection interval:

Cumulative IRE 06 (1st Interval) l Class 1 (IWB) 18 % 79 %

Class 2 (IWC) 14 % 76 %

2.3 Personnel, Procedures, and Equipment 2.3.1 Personnel Qualifications HL&P QC NDE personnel or contractors, certified in accordance with the HL&P Procedure for qualification and certification of NDE personnel, performed all examinations. In addition, Level II examiners performing ultrasonic examinations on austenitic piping welds have been qualified by Electric Power Research Institute in detection of intergranular stress corrosion cracking. A list of all personnel who performed examinations during IRE 06 and their NDE certification level for each applicable examination technique is contained in Appendix 2-B.

2.3.2 Examination Procedures NDE activities were performed using visual (VT), liquid penetrant (PT), magnetic particle (MT),

(m) and ultrasonic (UT) techniques in accordance with HL&P QC NDE procedures. The NDE procedures were written to conform to the requirements of the applicable sections of the ASME  ;

Code. A list of applicable NDE procedures is provided in Appendix 2-C.

2.3.3 Equipment Various equipment was used during the ISI to perform the examinations of the selected component welds and examination areas. Major equipment consisted of the following:

Krautkramer Branson ultrasonic instruments Ultrasonic transducers AC electromagnetic yokes MT calibration block Pyrometers / Thermometers 2.3.4 Materials NDE materials utilized during 1RE06 weld examinations included penetrant and magnetic particle materials, and ultrasonic couplant. All materials contacting an austenitic examination surface were tested and certified to be within acceptable sulfur and halogen limits specified in the STPEGS Expendable Material Control Program.

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2.3.5 Calibration Blocks Pipe and vesse! calibration blocks were utilized to calibrate the UT instruments prior to O

examination of the selected welds. Applicable calibration blocks are noted in the Examination Summary Tables (Appendix 2-A). Drawings for calibration blocks are included in the LTP.

2.4 Summary of Examinations 2.4.1 Examination Methods The following examination methods were conducted in accordance with HL&P QC NDE procedures:

VT Examinations VT-1 examinations were performed on RPV closure washers, Pressurizer and S/G manway bolting, and piping and valve bolting.

VT-3 examinations were performed on valve internal surfaces.

RVT-3 (remote VT-3) examinations were performed on the accessible interior surfaces the RPV shell. l PT Examinations PT examinations were performed on RPV closure studs, Control Rod Drive (CRD) housing welds, Class 2 vessel welds, piping welds, pump welds, and integrally welded l attachments.

MT Examinations MT examinations were performed on the RPV closure nuts and studs and piping welds.

UT Examinations l UT examinations were performed on Class 1 and 2 components, including RPV studs ,

and nuts, vessel welds, austenitic piping, and ferritic piping. Various techniques were  !

used to perform the UT examinations, depending on classification, material type, and I weld thickness.

2.4.2 Augmented Examinations In addition to the ISI requirements of Section XI for Class 1 piping and ASME Code Case N-408 for Class 2 piping, the following augmented ISI program was implemented during this outage:

Augmented ISI - Break Exclusion Zone These augmented programs are described in the LTP and the affected examination areas are noted in the " Remarks" column of the Examination Summary Tables.

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1 2.4.3 Data Comparison 1

In accordance with IWB-3121 of Section XI, the examination results were compared with the '

recorded NDE results of the preservice inspection (PSI). There were no prior inservice examinations on the areas examined during this outage.

If flaws were recorded in the selected component weld or examination area during previous examinations and dispositioned as acceptable, these flaws were verified during this ISI. All such j flaws were observed and verified during this ISI.  ;

I 2.4.4 Additional and Successive Examinations If examinations reveal indications that exceed allowable indications standards, additional examinations are required as prescribed in IWB-2430 and IWC-2430. Visual examination of two (2) piping flanges in small bore, Class 1 piping of the CV system founu evidence of prior leakage as indicated by boric acid buildup near the flange seals (see Summary nos. 155925 and 156445 in Appendix 2-A). Examinations were expanded to two other small bore CV piping )

flanges with similar results. No further sample expansion was required because all other CV piping flange bolting had already been examined during 1RE06 with no relevant conditions detected. There was no evidence of bolting degradation at any of the four small bore locations.

All four Condition Reports (CR's) were dispositioned "use as is" because there was no evidence of an active leak. No Section XI examination scheduling credit can be taken for the two sample I expansion locations because both had previously been examined in this interval.

[G Successive examinations are required if flaw indications are evaluated in accordance with IWB-3122.4 and the component qualifies as acceptable for continued service. No flaws were detected during IRE 06 that required evaluation in accordance with IWB-3122.4. Therefore, no successive

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examinations (IWB-2420 or IWC-2420) will be scheduled as a result of examinations performed i during this outage.

2.5 Examination Results and Corrective Actions 1

Examination area coverage was provided, to the extent practical, in accordance with the requirements of ASME Section XI and Code Case N-408. In those cases where physical conditions of the component restricted examination of the required area, the amount of coverage e

achieved was assessed. Appendix 2-D, ISI Examination Limitations, contains a detailed account of all examination limitations (UT, PT, and MT) encountered during IRE 06 weld examinations.

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All UT indications determined to be recordable, regardless of signal amplitude, were investigated to determine the nature of the reflector. Indications determined to be other than geometry were evaluated to ASME Section XI criteria. The UT examinations. revealed one (1)Section XI allowable spot indication on an 18 inch nominal pipe size (NPS 18) FW pipe to valve weld and verified PSI laminations in an NPS 30 MS longitudinal weld and in an NPS 30 MS elbow to pipe weld. A VT-1 examination detected the relevant condition of " evidence of boric acid buildup near bolting" on two (2) piping flanges (see 2.4.4 above).

2.6 Certification of Inspections 4

ASME Section XI NIS-1 forms, " Owner's Report for Inservice Inspections", have been prepared to certify the STPEGS-1 weld ISI examinations described in this section of the Summary Report.

The STPEGS-1 weld ISI examinations have been certified by our ANII, Arkwright Mutual Insurance Company, on the NIS-1 forms included in Appendix 2-E.

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APPENDIX 2 A i

SUMMARY

OF EXAMINATIONS EXAMINATION RESULTS LEGEND A_ Augmented ISI Examination B Baseline Examination I C Examination for Section XI Scheduling Credit D Examination Deferrable to End of Interval E Expanded Examination L Piping Longitudinal Weld Examination Z Optional Examination I

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f%TE: 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 1 REVISION: 1 INSERVICE INSPECTION PLAN . 1RE06 (NELDS)

FIRST INTERVAL THIRD PERIOD, FIRST OtJTAGE (96RF) g ,

CLASS 1 CLABDEZ F" S COMPONENTS iPEACTOR PRESSURE VESSFL N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDEFTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

CLOSURE HEAD BOLTING (FIG NO A-PPV-3 A 9) 005303 3A B-G-1 MT NDEP 7.2 R0 C . . PERFORMED UT ON THE THREADED AREA OF THE CLOSURE NUT B6.10 (TT UTI-011 R1 C * .

NUT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005306 6A B-G-1 MT NDEP 7.2 R0 C - . PERFORMED ITT ON THE THREADED AREA OF THE CLOSURE NUT B6.10 ITT ITTI-011 R1 C . . NUT IN LIEU OF KT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005309 9A B-G-1 MT NDEP 7.2 R0 C . - PERFORMED UT ON THE THREADED AREA OF THE CLOSURE NUT B6.10 (TT UTI-011 R1 C . . NUT IN LIEU OF MT IN THIS AREA PER RR ENG-012. l

• • CS-46R**

.005312 12A B-G-1 MT NDEP 7.2 R0 C . . PERFORMED UT ON THE THREADED AREA OF THE U CLOSURE NtJT B6.10 (TT ITTI.011 R1 C . . NI7T IN LIEU OF MT IN THIS AREA PER

{

RR-ENG-012.

• • CS-46R**

1 005315 15A B-G-1 MT NDEP 7.2 R0 C . . PERFORMED ITT ON THE THREADED AREA OF THE CLOSURE Ntff B6.10 17T 17TI.011 R1 C . .

NITT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005318 18A B-G-1 MT NDEP 7.2 R0 C - . PERFORMED UT ON THE THREADED AREA OF THE CLOSURE NtJT B6.10 UT UTI.011 R1 C . . NUT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005321 21A B-G-1 KT NDEP 7.2 R0 C - . PERFORMED UT ON THE THREADED AREA OF THE i CLOSURE NITT B6.10 (TT UTI-011 R1 C - . NUT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

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DATE: 09/04/r6 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 2 REVISION: 1 INSERVICE INSPECTION PLAN . 1RE06 (NELDS)

FIRST INTERVAL. THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS PEACTOR PREFSURE VESSEL N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BI4CK" CLOSURE READ BOLTING (FIG NO A-PPV-3 A.8) 005324 24A B-G-1 MT NDEP 7.2 R0 C - - PERFORMED UT ON THE THREADED AREA CF THE CLOSURE Ntfr B6.10 W LTTI-011 R1 C - - NW IN LIEU OF MT IN THIS AREA PER RR ENG-012.

"CS -4 6 R*

• 005327 27A B-G-1 MT NDEP 7.2 R0 C - - PERFORMED UT ON THE THREADED AREA OF THE CICSURE NUT B6.10 UT 1771-011 R1 C - - NITT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005330 30A B-G-1 MT NDEP 7.2 R0 C - - PERFORMED UT ON THE THREADED AREA OF THE CLOSURE NUT B6.10 UT UTI-011 R1 C - - NUr IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005333 33A B-G-1 MT NDEP 7.2 R0 C . - PERFORMED UT ON THE THREADED AREA (

CLOSURE NUT B6.10 (TT ITTI-011 R1 C - - NUT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005336 36A B-G-1 ffr NDEP 7.2 R0 C - - PERFORMED ITT ON THE THREADED AREA OF THE CLOSURE NUT B6.10 LTT UTI-011 R1 C - - NUT IN LIEU OF MT IN THIS AREA PER RR-ENG-012.

• • CS-46R**

005403 3A B-G-1 PT NDEP 6.6 R0 C - -

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 RD C - -

UT LTri-015 R1 C - -

UT LTTI 010 R0 C - - *

• CS -4 5 A/CS - 4 5B "

005406 6A B-G-1 PT NDEP 6.6 R0 C - .

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C - -

UT UTI-015 R1 C - .

UT UTI-010 R0 C . . " CS-4 5A/CS-4 5B *

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DATE: 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 3 REVISION: 1 INSERVICE INSPECTION PLAN .1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96kF)

CLASS 1 CLABDEZ STATUS COMPONENTS

.PEACTOR PRFSSURE VESSEL N O ASME O O T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

CLOSURE HEAD BOLTING (FIG NO A-PPV-3A.B) 005409 9A B-G-1 PT NDEP 6.6 R0 C - -

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C . -

UT UTI-015 R1 C - -

UT UTI.010 R0 C - - *

• CS- 4 5 A/ CS -4 5 B*

• I 005412 12A B-G-1 PT NDEP 6.6 R0 C - .

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 RD C - -

UT UTI-015 R1 C - -

UT UTI-010 RD C . - **CS-45A/CS-45B**

005415 15A B-G-1 PT NDEP 6.6 R0 C - -

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C - -

UT UTI.015 R1 C - -

\ UT UTI-010 R0 C - - **CS-45A/CS-45B**

005418 18A B-G-1 PT NDEP 6.6 R0 C . .

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C . -

UT UTI-015 R1 C - -

UT UTI-010 R0 C - -

• • CS-45A/CS-45B**

l 005421 21A B-G-1 PT NDEP 6,6 R0 C - -  !

CLOSURE STUD B6.30 ICN-01,02 l

MT NDEP 7.2 R0 C . - j UT UTI-015 R1 C - -

UT UTI.010 R0 C - - **CS-45A/CS-45B**

605424 24A B-G-1 PT NDEP 6.6 R0 C - -

CLOSURE STUD E6.30 ICN 01,02 MT NDEP 7.2 R0 C - -

UT UTI-015 R1 C - -

UT UTI-010 RD C - - *

• CS- 4 5A/CS-4 5B*

• s,_./  :

DATE: 00/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PDGE; 4 REVISION: 1 INSERVICE INSFECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS PFACTOR PREFSURE VESSEL N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R *

• CALIBRATION BLOCK' CLOSURE HEAD BOLTING (FIO NO A-pPV-3A.B) 005427 27A B-G-1 PT NDEP 6.6 R0 C - -

CLOSURE S'IVD B6.30 ICN-01,02 l KT NDEP 7.2 R0 C - - l UT UTI-015 R1 C - -

UT LTTI-010 R0 C - - **CS-45A/CS-45B**

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005430 30A B-G-1 PT NDEP 6.6 R0 C - - '

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C - -

tTT ITTI-015 R1 C - -

UT ITTI-010 R0 C - - **CS-45A/CS-45B** .

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005433 33A B-G-1 PT NDEP 6.6 R0 C - -

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C - -

UT UTI-015 R1 C - -

UT UTI-010 R0 C - - *

• CS- 4 5 A/CS -4 5 B *

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l 005436 36A B-G-1 PT NDEP 6,6 R0 C - -

CLOSURE STUD B6.30 ICN-01,02 MT NDEP 7.2 R0 C - -

UT UTI-015 R1 C - -

UT ITTI-010 R0 C - - **CS-45A/CS-45B**

005603 3A B-G-1 VT-1 ZA-0024 R1 C - -

CLOSURE WASHER B6.50 l

l 005606 6A B-G-1 VT-1 ZA-0024 R1 C - -

CLOSURE WASHER B6,50 005609 9A B-G-1 VT-1 ZA-0024 R1 C - -

CLOSURE WASHER B6.50 0

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS

. PEAT" TOR PRESSURE VESSEL M N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R *

• CALIBRATION BIDCK*

• CLOSURR HEAD BOLTING (FIG NO A-PPV-3 A BL 005612 12A B-G-1 VT-1 EA-0024 R1 C - -

CIDSURE WASHER B6.50 005615 15A B-G-1 VT-1 2A-0024 R1 C - -

CLOSURE WASHER B6.50 005618 18A B-G-1 VT-1 ZA-0024 R1 C - -

CLOSURE WASHER B6.50 l

005621 21A B-G-1 VT-1 ZA-0024 R1 C - -

CI4SURE WASHER B6.50 s

005624 24A B-G-1 VT-1 ZA-0024 R1 C - .

CLOSURE WASHER B6.50 005627 27A B-G-1 VT-1 ZA-0024 R1 C . -

CLOSURE WASHER B6.50 1 005630 30A B-G 1 VT-1 EA-0024 R1 C - -

CLOSURE WASHER B6.50 005633 33A B-G-1 VT-1 ZA-0024 R1 C .

• CLOSURE WASHER B6.50

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS PEACTOP PPFSSffRE VESSEL N O ASME O O T SEC, XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMAR KS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

CIOSUPE HEAD POLTING (FIG NO A-P PV-3 A P) 005636 36A B-G-1 VT-1 ZA-0024 R1 C . -

CLOSURE WASHER B6,50 VESSEL INTERIOR (FIG HO A-PPV-1) 006200 VESSEL INTERIOR B-N-1 RVT3 ZA-0024 R1 C . . ALL ACCESSIBLE COMPONENTS WERE VISUALLY B13.10 EXAMINED REMOTELY USING A MINI-SUB Aht DOCUMENTED ON VIDEO TAPE.

CONTROL POD DRIVE HOUSING WFLDS (FIG NO A-PPV-4) 006600 CONTROL ROD DRIVE HOUSING WELD B-O(D) PT ZA-0012 R2 D - . EXAMINED CRD HOUSINO WELDS ON CRD B14.10 HOUSING NOS, 54, 66, AND 79.

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FIRST INTERVAL, THIRD PERIOD, FIRST OtfrAGE (96RF)

CLASS 1 CLABLEZ STATUS COF#0NENTS PPESFUPIZER N O ASME O G T SEC. XI R E H r

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS l NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BLOCK'*

MANWAY BOLTING (FIG NO A- PPZ-1) 012300 PRZ-1. BOLTING B-0-2 VT-1 ZA-0024 R1 C . - FXAMINED BOLT NOS. 1 THRU 16 IN PLACE.

B7.20 INTEGRAL ATTACHMEffrS (FIO NO A-PPZ-1) 012500 PRZ-1-1 B-H PT ZA-0012 R2 C - .

SIESMIC LUG B8.20 012510 PRZ-1-2 B-H PT ZA-0012 R2 C . -

SIESMIC LUG B6.20 i

i 012510 PRZ-1-3 B-H PT ZA-0012 R2 C - .

SIESMIC LUG BB,20 012510 PRZ-1 4 B-H PT ZA-0012 R2 C . .

SIESMIC LUG B8.20 l

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FIRST INTERVAL, THIRD PERIOD, FIRST OffrAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONEffTS STFAM CPNFRATOR 1A (PPIMARY SIPE)

N O ASME O G T SEC, XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BIDCK**

1 i

MANWAY POLTING (FIO NO A-SG-1) 015800 SG-1A-IMB B-G-2 VT.1 ZA-0024 R1 B - - PERPORMED BASELINE VISUAL EXAMINATION ON INLET MANWAY BOLTING B7.30 ALL MANWAY BOLTING PRIOR TO ASSEMBLY, 015900 SG-1A-OMB B-O-2 VT-1 ZA-0024 R1 B - - PERFORMED BASELINE VISUAL EXAMINATION ON OUTLET MANWAY BOLTING B7.30 ALL MANWAY BOLTING PRIOR TO ASSEMBLY, O

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FIRST INTERVAL, THIRD PERIOD, FIRST OITTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS STEAM CENERATOP 19 (PPIMAPY SIDE}

N O ASME oa T SEC. XI R E H i SUmARY EKAMINATION AREA CAEY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

MANWAY BOLTING (FIG NO A-SG-2) 016800 SG-IB-IMB B-G-2 VT.1 EA-0024 R1 B . . PERFORMED BASELINE VISUAL EXAMINATION ON INLET MANWAY BOLTING B7.30 ALL MANWAY BOLTING PRIOR TO ASSEMBLY.

016900 SG-1B-OMB B-G-2 VT-1 ZA-0024 R1 B . .

PERFORMED BASELINE VISUAL EXAMINATION ON OUTLET MANWAY BOLTING B7.30 ALL MANWAY BOLTING PRIOR TO ASSEMBLY.

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FIRST INTERVAL, THIRD PERIOD, FIRST OCTTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS STEAM GENERATOR 10 (PRIMARY SIDE)

N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

MANWAY BOLTING (FIO NO A-SG-1) 01"800 SG-1C-IMB B-G-2 VT.1 ZA-0024 R1 B - - PERFORMED BASELINE VISUAL EXAMINATION ON INLET MANWAY BOLTING B7.30 ALL MANWAY BOLTING PRIOR TO ASSEMBLY.

017900 SG-1C-OMB B-G-2 VT-1 ZA-0024 R1 B - - PERFORMED BASELINE VISUAL EXAMINATION ON OUTLET MANWAY BOLTING B7.30 ALL MANWAY BOLTING PRIOR TO ASSEMBLY.

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS STEAM OENERATOR 1D fPRIMARY SIDE)

ASME O G T SEC, XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARYS NLHBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

, MANWAY BOLTING (FIO NO A-SG-2)

. 018800 SG.1D-IMB B-G-2 VT-1 ZA-0024 R1 C . - PERFORMED ISI EXAMINATION ON ALL MANWAY INLET MANWAY BOLTING B7,30 BOLTING (BOLT NOS. 1 16) PRIOR TO ASSEMBLY, 4

j 4

018900 SG-1D-OMB B-G-2 VT-1 ZA-0024 R1 C - . PERFORMED ISI EXAMINATION ON ALL MANWAY l

, OUTLET MANWAY BOLTING B7.30 BOLTING (BOLT NOS. 1-16) PRIOR TO  !

ASSEMBLY.

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FIRST INTERVAL, THIRD PERIOD, F: P (96RF)

CLASS 1 CIABDEZ S*AWS PFACTOR COOLAtry SYsyrM O

ASME v G T SEC XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS N'JMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BLOCK *

• 31-PC-14 02 NSS - LOOP 4 (FIG NO A-PC-4) 100580 5 B-J PT ZA-0012 R2 C - -

2-IN. BRANCH CONNECTION B9.32 100620 9 B-J PT ZA-0012 R2 C . . MANDATORY ISI-TE.

ELBOW TO REACTOR COOLANT PUMP B9.11 (TT UTI-018 R1 - C -

" CSS 8 0*

• 29-PC-14 01-NSS - LOOP 4 (FIG NO A-9C-4) 101150 2 B-J PT ZA-0012 R2 C . - PERFORMED 24-DEGREE RS EXAMINATION 16-IN. BRANCH CONNEC* TION B9.31 UT ITTI-030 R0 C - - (SS-83) FROM THE BRANCH CONNECTION UT UTI-018 R1 C - - TAPERED SURFACE AND 45-DEGREE RL EXAMINATION (CCSS-18) FROM THE MAIN LOOP PIPING. PSI UT LIMITATIONS.

• *CCSS-18 /SS - 8 3 "

27,5-PC-1403-NSS - LOOP 4 (FIO NO A-RC-4) 101745 4 B-J PT ZA-0012 R2 C - - PERFORMED 35-DEGREE RS EXAMINATION FROM 4-IN, BRANCH CONNECTION B9.31 (TT UTI-030 R0 C - - THE BRANCH CONNECTION TAPERED SURFACE.

PSI ITT LIMITATIONS.

• • sS.77+e 12-RC-1212-BB1 (FIO NO A-RC-10) 102470 3 B-J PT ZA-0012 R2 Z - - EXAMINED WELD NO. 3 WHILE IT WAS ELBOW TO PIPE B9.11 UT UTI-001 R3 - Z - ACCESSIBLE AFTER REMOVAL OF PIPE WHIP RESTRAINT TO EXAMINE WELD NO. 4 (SEE

SUMMARY

NO. 102480).

• *SS-21" 102480 4 B-J PT ZA-0012 R2 C - - MANDATORY ISI - HS-UF. PIPE WHIP PIPE TO ELBOW 99.11 UT UTI-001 R3 - C - RESTRAINT REMOVAL WAS REQUIRED.

..sg.21**

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF) f CLASS 1 CLABDEZ STATUS COMPONENTS

{ 'PFACTOR COOLANT SYSTEM b N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BIOCK**

12-PC-1221-BB1 (FIO NO A-RC-9) 102630 1 B-J PT ZA-0012 R2 C * . MANDATORY ISI - H3-UP. PIPE HANGER VALVE TO PIPE B9.11 UT UTI-001 R3 - C . REMOVAL WAS REQUIRED. USED UT60RS ON UT UTI-005 R3 C . . PIPE SIDE FOR ADDITIONAL COVERAGE.

• • SS-21**

12-PC-1312-BB1 (FIG NO A-PC-8) 102920 7 BJ PT ZA-0012 R2 C - - USED UT60RS FOR SUPPLEMENTAL COVERAGE.

ELBOW TO PIPE B9.11 UT UTI-001 R3 - C -

I UT UTI.005 R3 C . -

..Ss.21**

102960 11 B-J PT ZA-0012 R2 C - - MANDATORY ISI HS-UF. USED UT60RS ON PIPE TO VALVE B9.11 UT UTI-001 R3 - C . PIPE SIDE FOR ADDITIONAL COVERAGE.

l UT UTI.005 R3 - C -

l **SS-21**

12-PC-1322-BB1 (FIO NO A-RC-11) 103060 1 B-J PT ZA-0012 R2 C .

• USED UT60RS ON PIPE SIDE FOR ADDITIONAL VALVE TO PIPE B9.11 UT UTI-001 R3 - C - COVERAGE.

UT UTI-005 R3 C - -

l

• • SS-21**

I 103090 4 B-J PT ZA-0012 R2 C . . MANDATORY ISI - HS-UF.

PIPE TO BRANCH CONNECTION B9.11 UT UTI-001 R3 - C -

• • SS-21**

6-RC-1004<NSS (F70 NO A-RC-6)

I 103950 7FB B-G-2 VT-1 ZA-0024 R1 B - - PERFORMED BASELINE EXAMINATION ON ALL FLANGE BOLTING (N1RCPSV3452) B7.50 FLANGE BOLTING IN PLACE.

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS PFA 70R COnLANT SYSTFM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO FITHOD PROCEDURE C M R ** CALIBRATION BLOCK **

6-PC-1009-NSS (FIG NO A-PC-6) 104130 9FB B-G-2 VT-1 ZA-0024 R1 C . - PERFORMED VISUAL EXAMINATION ON ALL FLANGE BOLTING (N1RCPSV3451) B7.50 FLANGE BOLTING IN PLACE.

6 - P C- 1012 - NS S (FIG NO A-RC-6) 104330 11FB B-G-2 VT-1 ZA-0024 R1 C - - PERFORMED VISUAL EXAMINATION ON ALL FLANGE BOLTING (N1RCPSV3450) B7.50 FIANGE BOLTING IN PLACE.

3-PC-1015-NSS (FTG NO A-PC-7) 106400 16 B-J PT ZA-0012 R2 C - -

PIPE TO VALVE B9.21 3-PC-1106-PD1 (FIO NO A-PC-15) 106850 25 B-J PT ZA-0012 R2 C - -

CAP TO BRANCH CONNECTION B9.21 2-RC-1321-BB1 (FIO NO A-PC-10) 109630 4 B-J PT ZA-0012 R2 C . - MANDATORY ISI . HS-UF.

BENT PIPE TO VALVE B9.40 ,

1 2-RC-1419-PP1 (FIG NO A-PC-19) 110200 1 B-J PT ZA-0012 R2 C . . MANDATORY ISI - HS-UF.

l BRANCH CONNECTION TO BENT PIPE B9.40 l l

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FIRST INTERVAL, THIRD PERIOD, FIRST OtfrAGE (96RF)

A CLASS 1 CLABDEZ STATUS COMPONENTS

/ \

} PEAC" TOR COOLANT SYSTEM ASME O O T l SEC, XI R E H SUlHARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK +*

2-PC-1419-BR1 (FIG NO A-PC-19) 1 110210 2 B.J PT ZA-0012 R2 C . . MANDATORY ISI . HS-UP.

BENT PIPE TO TEE B9.21 l

i 110220 3 B-J PT ZA-0012 R2 C . . MANDATORY ISI . HS-UF.

TEE TO PIPE B9.21 l

110230 4 B-J PT ZA-0012 R2 C . . MANDATORY ISI . HS-UP.

PIPE TO VALVE B9.40 y.

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS CHEMICAL AND VOLUME CONTPOL SYSTFM N O ASME O G T SEC. XI R E H l

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

l l 2-CV-1126-BB1 (fig NO A-CV-5) 152940 1 B-J PT ZA-0012 R2 B - - PERFORMED BASELINE PT EXAMINATION ON VALVE TO PIPE B9.21 INSTALLATION WELD FOR REPLACEMENT OF VALVE CV0036C PER WCD # CV-176300, REY.

1.

2-CV-1128-BB1 (FIO NO A-CV-6) 153640 3 B-J PT ZA-0012 R2 C - .

VALVE TO PIPE B9.21 153700 6 B-J PT ZA-0012 R2 C - .

PIPE TO ELBOW 89.21 2-CV-1141-BB1 (FIG NO A-CV-7) 154260 1 B-J PT ZA-0012 R2 C - .

VALVE TO BENT PIPE B9.21 2(1.5)-CV-1122-BB1 (FIC NO A-CV-4) 154885 2FB B-G-2 VT.1 ZA-0024 R1 - - E SAMPLE EXPANSION PER IWB-2430(A) - SEE FLANGE BOLTING B7.50 SN 156445. CR-96-6590, DOCUMENTING BORIC ACID BUILDUP NEAR FLANGE SEAL, DISPOSITIONED 'USE AS IS' DUE TO NO l

ACTIVE LEAKAGE. NO EVIDENCE OF BOLTING DEGRADATION AFTER BOLTING WAS CLEANED OF BORIC ACID BUILDUP AND RE-EXAMINED.

2 (1,5 ) -CV-1124 - BB1 (FfG NO A-CV-5) 155405 2FB B-G-2 VT-1 ZA.0024 R1 - - E SAMPLE EXPANSION PER IWB-2430(A) - SEE t FLANGE BOLTING B7.50 SN 156445. CR-96 6589, DOCUMENTING BORIC ACID BUILDUP NEAR FLANGE SEAL, i DISPOSITIONED 'USE AS IS' DUE TO NO AC" RIVE LEAKAGE. NO EVIDENCE OF BOLTING DEGRADATION.

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

I CLASS 1 CLABDEZ STATUS COMPONENTS

CHFMICAL AND VOLUME CONTROL SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BLOCK **

t 2fl.61-CV-1126-BB1 (FIG NO A-CV-5) i 155920 2 B-J PT ZA-0012 R2 C . . MANDATORY ISI - TE.

PIPE TO FLANGE (PUMP) 39.21 i

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i 155925 2FB B-G-2 VT-1 ZA-0024 R1 - - C CR-96 6580, DOCUMENTING BORIC ACID FLANGE BOLTING B7.50 BUILDUP NEAR FLANGE SEAL, DISPOSITIONED l "USE AS IS' DUE TO NO ACTIVE LEAKAGE.

NO EVIDENCE OF BOLTING DEGRADATION. SEE SN 156445 FOR SIMILAR CONDITIONS AND SAMPLE EXPANSION.

1 f 2(1 5)-CV-1128-BB1 (FIG NO A-CV-6) i' 156440 2 B-J PT ZA-0012 R2 C . - MANDATORY ISI - TE.

P!PE TO FLANGE (PUMP) B9.21 i

156445 2FB B-G-2 VT-1 ZA-0024 R1 - - C CR-96-6582, DOCUMENTING BORIC ACID FLANGE BOLTING B7.50 BUILDUP NEAR FLANGE SEAL, DISPOSITIONED

'USE AS IS" DUE TO NO ACTIVE LEAKAGE.

f NO EVIDENCE OF BOLTING DEGRADATION. SN 155925 EXAM PRODUCED SIMILAR RESULTS.

SAMPLE WAS EXPANDED TO SN 154885 &

155405 W/ SIMILAR RESULTS. NO FURTHER SAMPLE EXPANSION WAS REQUIRED.

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS PESIDUAL HEAT PEMOVAL SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CA1GY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEP. NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

12-PH-1101-PB1 (FIG NO A RH-1) 200000 1 B-J PT ZA-0012 R2 C - -

VALVE TO PIPE B9.11 UT UTI-001 R3 - C .

• • SS-21**

200100 10 B-J PT ZA-0012 R2 C - -

PIPE TO ELBOW B9.11 UT UTI.001 R3 . C -

• • SS-21**

200200 11 B-J PT ZA-0012 R2 C . -

ELBOW TO PIPE B9.11 UT UTI.001 R3 . C .

• • SS-21**

200240 13 B-J PT ZA-0012 R2 C - .

PIPE TO PIPE B9.11 UT UTI.001 R3 - C -

• • SS-21**

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS iSAFETY INJFCTION SYSTEM N O ASME O O T

! SEC. XI R E H l

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS I NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R *

• CALIBRATION BIDCK*

• l 12-SI-1316-BB1 (FIO NO A-SI-2) i l

1 i

i

.230620 6 B-J PT ZA.0012 R2 C . . I PIPE TO PIPE D9.11 UT ITTI-001 R3 . C -

eeSS.21**

230680 9 B-J PT EA-0012 R2 C - . ,

ELBOW TO PIPE B9.11 (TT UTI-001 R3 - C . I l

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• • SS-21**

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FIRST INTERVAL, THIRD PERIOD, FIRST OffrAGE (96RF)

CLASS 1 CLABDEZ STATUS COMPONENTS VnLVES N O l

ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

VALVE OPOUP 1 261100 PSV 3452-VB ON 6-RC-1004 B-G-2 VT-1 ZA-0024 R1 B - - PERFORMED BASELINE EXAMINATION ON VALVE FIG NO A-RC-6 B7.70 BOLTING ON REPLACEMENT VALVE INSTALLED PER WCD NO. RC-329387.

261150 PSV 3452-VIS ON 6-RC-1004 B-M-2 VT-3 ZA-0024 R1 B - - PERFORMED BASELINE VISUAL EXAMINATION ON FIG NO A-RC-6 B12.50 INTERIOR OF REPLACEMENT VALVE INSTALLED PER WCD NO. RC-329387. EXAMINED ALL INTERNAL PRESSURE BOUNDARY SURFACES TO THE EXTENT PRACTICAL.

261200 PSV 3451-VB ON 6-RC-1009 B-G-2 VT-1 ZA-0024 R1 B - - PERFORMED BASELINE EXAMIMATION ON VALVE FIG NO A-RC-6 B7.70 BOLTING ON REPLACEMENT VALVE INSTALLED PER WCD NO. RC-329386.

261250 PSV 3451-VIS ON 6-PC-1009 B-M-2 VT-3 ZA 0024 R1 B - - PERFORMED BASELINE VISUAL EXAMINAT FIG NO A RC-6 B12.50 INTERIOR OF REPLACEMENT VALVE INS PER WCD NO. RC-329386. EXAMINED INTERNAL PRESSURE BOUh'DARY SURFACES TO THE EXTENT PRACTICAL.

261300 PSV 3450-VB ON 6 RC-1012 B-G-2 VT.1 ZA-0024 R1 B - - PERFORMED BASELINE EXAMINATION ON VALVE FIG NO A-RC-6 B7.70 BOLTING ON REPLACEMENT VALVE INSTALLED PER WCD NO. RC-329395.

261350 PSV 3450-VIS ON 6-RC-1012 B-M-2 VT-3 ZA-0024 R1 B - - PERFORMED BASELINE VISUAL EXAMINATION ON FIG NO A-RC-6 B12.50 INTERIOR OF REPLACEMENT VALVE INSTALLED PER WCD NO. RC-329385. EXAMINED ALL INTERNAL PRESSURE BOUNDARY SURFACES TO THE EXTENT PRACTICAL.

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l

'PESTDUAL HF.AT PEMOVAL HEAT EXCHANGER 1A l N O ASME O G T

)

i SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E RE7'NtKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CAL 19 RATION BIOCK'*

l CIPCUMFERENTTAL WELDS (FIG NO B-PHX-1) 305400 RHAHRS.1A-Si C-A (TT ITTI-032 R0 . C -

HEAD TO SHELL C1.20

• • SS.65**

N0ZZLE TO SHELL WEIDS (FIO NO B-PHX-1)  ;

)

305500 RHAHRS-1A-NA C-B PT ZA-0012 R2 C - -

N0ZZLE TO SHELL C2.21 UT UTI-032 R0 . C -

• • SS-65/SS.66**

305550 RHAHRS-1A-NB C-B PT ZA-0012 R2 C - .

N0ZZLE TO SHELL C2.21 ITT ITTI.032 RO - C -

• • SS-65/SS-66**  !

J INTEGRAL ATTAGIMENTS fFIG NO B-PHX-1) 305600 RHAHRS-1A-SK C-C PT ZA-0012 R2 C - -

SUPPORT SKIRT C3.10 l

v i

4

DATE: 09/04/96 SOtJTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 22 REVISION: 1 INSERVICE INSPECTION PLAN . 1RE06 (WELDS)

FIRST INTERVAL. THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STARTS COMPONENTS CONTAINMFNT SPRAY SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BIOCK**

12-CS-1301-UP2 (FIO NO B-CS-4) 402830 10LU C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.57 AT THE INTERSECTING LONGITUDINAL WELD C5.12 ITT UTI-012 R2 L - - CIRCUMFERENTIAL WELD.

• • SS-12**

402840 10 C-F-1 PT ZA-0012 R2 C . -

PIPE TO FLANGE C5.11 UT UTI-012 R2 - C -

• *SS -12 "

O O

DATE: 09/04/96 SOUTH TEXAS PROJECT ELEC"TRIC GENERATING STATION UNIT 1 PAGE: 23 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OLTTAGE (96RF)

CLASS 2 CI.ABDEZ STATUS COMPONENTS GFEFDWATERSYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

18-rw-1016-GA2 (FIG NO B-FW-5.6) 501700 1 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

VALVE TO PIPE C5.51 ITT UTI-002 R3 A - .

• • CS-3**

501720 2 C.F-2 MT ZA-0018 R2 C - -

PIPE TO VALVE C5.51 ITT UTI-002 R3 C - -

• • CS-3**

501740 3 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

VALVE TO PIPE C5.51 UT UTI-002 R3 A - .

• • CS-3**

(

$01760 4 4

BEZ MT ZA-001B R2 A . . AUGMENTED ISI-BEZ.

(j/ PIPE TO PIPE C5.51 LTT UTI-002 R3 - A .

• • CS-3**

501780 5 BEZ MT ZA-0018 R2 A - . AUGMENTED ISI-BEZ.

PENETRATION TO PIPE C5.51 ITT UTI.002 R3 . 4 -

• • CS-3**

IB-FW-1018-GA2 (FIG NO B-FW-7.8) 502660 1 BEZ MT ZA-0018 R2 A . - AUGMENTED ISI-BEZ.

VALVE TO PIPE C5.51 UT ITTI.002 R3 - A .

• • CS-3**

502680 2 BEZ MT ZA-0018 R2 A . - AUGMENTED ISI-BEZ. FAB.-RELATED SPOT PIPE TO VALVE C5.51 UT UTI-002 R3 . . A IND. DETECTED IN LOWER WELD W/ 60 DEO.

SEARCH UNIT (SU). IT WAS NOT DETECTED WITH A 45 DEG. SU IN 1RE06 OR PSI, WHEN ONLY A 45 DEG. SU WAS USED. IND. IS ACCEPTABLE BY SECTION XI CRITERIA.

• • CS-3**

g f  !

QJ

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l DATE: Of/04/96 SOWH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 24 l REVISION: 1 INSERVICE INSPECTION PLAN - IRE 06 (WELDS) )

FIRST INTERVAL, THIRD PERIOD, FIRST OWAGE (96RF)

CLASS 2 CIABDEZ STATUS COMPONENTS FEFNATFR SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

16 - F"A -1019 -GA2 (FIG NO B-FW-7.8) 502720 4 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ, PIPE TO PIPE C5.51 W UTI-002 R3 . A .

" CS 3 *

• 502740 5 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

PENETRATION TO PIPE C5.51 (TF UTI-002 R3 A - -

" CS - 3 "

18-FW-1031-AA2 (FIG NO B-FW-5) 504780 1 BEZ MT ZA-0018 R2 A -

AUGMENTED ISI-BEZ.

ELBOW TO PIPE C5.51 UT (TTI-002 R3 A - -

• • CS-4**

504790 1PL1-1PL8 C-C MT ZA-0018 R2 C - -

PIPE LUGS C3.20 504795 IPL9 1PL10 BEZLUG LTT LTI-031 R0 . A - AUGMENTED ISI-BEZ. WELD CROWN (OD)

PIPE LUGS --

GEOMETRY WAS DETECTED THAT WAS NOT RECORDED DURING PSI.

• • CS-33/CS-2**

504800 2 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ, PIPE TO PIPE C5.51 ITT ITTI-002 R3 A - -

" CS-4**

504820 3 BEZ MT ZA-0018 R2 A - . AUGMENTED ISI-BEZ.

PIPE TO PIPE C5.51 UT ITTI-002 R3 . A -

• • CS-4**

O

DATE: 09/04/96 SOtfrH TEXAS PRG7ECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 25 REVISION: 1 INSERVICE INSPECTION PLAN 1RE06 (WEIDS)

FIRST INTERVAL. THIRD PERIOD, FIRST OUTAGE (96RF)

[] 'FEEDWATER SYSTFM CLASS 2 CLABDEZ STATUS COMPONENTS

{\ d. y o ASME o g y SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

19-rW-1031-AA2 (FIO NO P-FW-5) 504840 4 BEZ MT ZA-0018 R2 A . . AUGMENTED ISI.BEZ.

PIPE TO VALVE C5.51 UT (frI.002 R3 A - .

• • CS-4**

1 i

1 4

I l

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s i

4 i

I e

f 1

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I DATE: 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 26 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL. THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS MAIN STFAM SYSTEM N O

, ASME O G T l

SEC XI R E H SUMMARi EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

........................................ l 30-MS 1003-GA2 (FIG NO B-MS-5.6) 555760 14LUI C-F-2-L MT ZA 0018 R2 L - - EXAMINED 2.5T AT THE INTERSECTING l LONGITUDINAL WELD C5.52 17T UTI-002 R3 L - - CIRCUMFERENTIAL WELD. VERIFIED PSI UT IffI-004 R3 - - L LAM 1 NATION WITH 0-DEGREE EXAMINATION.

• • CS-5**

555780 14LUO C-F-2-L MT ZA-0018 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.52 UT UTI-002 R3 L - - CIRCUMFERENTIAL WELD.

• • CS-5**

555800 14 l C-F-2 MT ZA-0018 R2 C - - VERIFIED PSI LAMINATION WITH 0 DEGREE l ELBOW TO PIPE C5.51 UT UTI-002 R3 C - - EXAMINATION.

l UT UTI-004 R3 - - C l

• CS - 5 "  !

555820 14LD C-F-2-L MT ZA 0018 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.52 UT LTTI-002 R3 L - - CIRCUMFERENTIAL WELD. l

• • CS 5**

556400 22 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

PIPE TO PENETRATION C5.51 UT UTI-002 R3 - A -

l

" CS - 5 *

• 556460 23 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

PIPE TO PIPE C5.51 UT ITTI-002 R3 - A -

• CS - 5 "

556480 23LD BEZLONG MT ZA-0018 R2 A . - A'JGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 UT UT!-002 R3 A - -

• • CS-33**

O

-- . . .- . . .~ - - . .

DATES 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 27 d

REVISION: 1 INSERVICE INSPECTION PLAN . 1RE06 (WELDS)

FIRST 11fIERVAL, THIRD PERIOD, FIRST OtTIAGE (96RF)

^** * ^" '"' ' "" "'"

4 (iiMAIN STPAM SYSTEM i A N O 1

ASME O G T f SEC. XI R E H i

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BI4CK**

j ....... .............................. ....... .......... ............... . . . ........................................

1 30-MS-1003-GA2 (FIG NO B-MS-5.6) a 556500 24LU BEZLONG MT ZA-0018 R2 A . - AUGMENTED ISI.BEZ.

LONGITUDINAL WELD C5.52 17F 17tI.002 R3 A . .

"CS- 3 3 "

556520 24 BEZ MT ZA.0018 R2 A . - AUGMENTED ISI-BEZ.

PIPE TO PIPE C5.51 UT UTI.002 R3 A . -

"CS - 3 3 "

556540 24LD BEZLONG MT ZA-0018 R2 A .

• AUGMENTED 151.BEZ.

LONGITUDINAL WELD C5.52 UT 17FI.002 R3 A . .

"CS. 3 4 *

• 556542 24ALU BEZLONG MT ZA-0018 R2 A - . AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 tTT UTI.002 R3 A . .

" C3-35**

556544 24A BEZ MT ZA.0018 R2 A . . AUGMENTED ISI-BEZ.

PIPE TO PIPE C5.51 UT 17FI.002 R3 A - .

• • CS.35**

g

$56546 24ALD BEZLONG MT ZA-0018 R2 A . . AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 tTT 17tI-002 R3 A . .

• CS . 3 5 "

556548 24BLU BEZLONG MT ZA-0018 R2 A - . AUGMENTED ISI-BEZ.

14NGITUDINAL WELD C5.52 LTT 17t!.002 R3 A . .

• • CS-35**

v

DATE: 09/04/96 SOUTH TEXAS PROJECT E!.ECTRIC GENERATING STATION UNIT 1 PAGE: 28 REVISION: 1 INSERVICE INSPECTION PLAN . 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OtfrAGE (96RF)

CLASS 2 CIABDEZ STATUS COMPONENTS MAIM STEAM SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

30-MS-1003-CA2 (FIG NO B-MS-5.6) 556550 248 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

PIPE TO PIPE C5.51 (Tr ITTI-002 R3 A - -

• • CS-35**

556552 24BLD BEZLONG Kr ZA-0018 R2 A - - AUGMENTED ISI-BEZ. VERIFIED PSI LONGITUDINAL WELD C5.52 UT ITTI-002 R3 . - A INDICATION SUMMARIZED AS AN INCLUSIONS NO GROWTH NOTED.

• • CS.35**

556560 25LU BEZLONG Kr ZA-0018 R2 A - . AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 ITT UTI-002 R3 A - -

• • CS-35**

556500 25 BEZ Kr ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

PIPE TO VALVE C5.51 UT UTI-002 R3 . A -

• • CS-5**

556600 26 C-F-2 Kr ZA-0018 R2 C - -

VALVE TO PIPE C5.51 UT UTI-002 R3 - C -

• • CS-5**

556620 26LD BEZLONG Kr ZA-0018 R2 A - . AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 (TT 1771-002 R3 A - -

• • CS-34**

556625 26PLI-26PL8 C-C MT ZA-0018 R2 C - -

PIPE LUGS C3.20 i

i l

I

l l

DATE: 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 29 l

REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WEIDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS O4ATN STEAM SYSTEM N O ME O G T SEC. XI R E H i

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BLOCK ** '

30-MS-1003-GA2 (FIG NO B-MS-5,6) l 556640 27LU BE2LONG MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 ITT UTI-002 R3 A - -

l "CS - 3 4 * * ,

l l

l 556660 27 BEZ MT ZA-0018 R2 A . - AUGMENTED ISI-BEZ.

PIPE TO PIPE C5.51 UT UTI-002 R3 A - -

• • CS-33**

556680 27LD BEZLONG MT ZA 0018 R2 A - . AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 UT UTI-002 R3 A . .

• • CS-34**

s

)S6690 27PL1 27 PL2 BEZLUG UT UTI-031 R0 - A - AUGMENTED ISI-BEZ.

'% j PIPE LUGS -.

"CS - 3 4 /CS. 2 *

• 556700 28LU BEZLONG HT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

LONGITUDINAL WELD C5.52 UT UTI.002 R3 A - -

• • CS-34**

556720 28 BEZ KT ZA-0018 R2 A . - AUGMENTED ISI-BEZ. WELD ROOT GEOMETRIC PIPE TO PIPE C5.51 UT ITTI-002 R3 - A - INDICATIONS DETECTED 360 DEGREES INTERMITTENTLY THAT WERE NOT RECORDED DURING PSI.

• CS - 5

• 14 ME-1003-GA2 (FIG NO B-MS-6) 560560 1 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

EXTRUSION TO PIPE C5.51 UT UTI-002 R3 A - -

. CS.ise.

/.y i

%_,/

DATE: 09/04/06 SOITTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 FAGE: 30 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OtTTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMFONENTS MAIN STEAM SYSTFM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

i i

16-MS-1003-CA2 (FIO NO B-MS-6) 1

)

560580 2 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ. WELD ROOT GEOMETRIC FIPE TO WELD CAP C5.51 UT ITTI-002 R3 - A - INDICATIONS DETECTED 360 DEGREES  !

INTERMITTENTLY THAT WERE NOT RECORDED AT l l

PSI.  !

• • CS-15**

1 6 -MS- 100 3 -GA2 ( A) (FIG NO B-MS-6) )

567400 1 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ. )

EXTRUSION TO FLANGE C5.51 ITT UTI-002 R3 A - -

• • CS-75**

6 -MS- 10 0 3 -GA2 (B ) (FIG NO B-MS-6) l 567500 1 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ. )

EXTRUSION TO FLANGE CP.51 UT ITTI-002 R3 A - - )

I

• • CS-75**

6 -MS-100 3 -CA2 (C) (FIG NO B MS-6) 567600 1 BEZ MT ZA-0018 R2 A - - AUGMENTED ISI-BEZ.

EXTRUSION TO FLANGE C5.51 UT UTI-002 R3 A - - ,

l 1

"CS- 7 5 *

• 6-MS-1003-GA2(D) (FIG NO B-MS-6) 567700 1 BEZ MT ZA-0018 R2 A - - AIKiMENTED ISI-BEZ.

EXTRUSION TO FLANGE C5.51 ITT ITTI-002 R3 A . .

"CS - 7 5 "

O

DATE: 09/04/96 SOtTTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 31 REVISIONS 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS 9dAIN STEAM SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMI. NATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

6-M9-1003-GA2(E) (FIG NO B-MS-6) 567800 1 BEZ PfT ZA-0018 R2 A . - AUGMENTED ISI-BEZ.

EXTRUSION TO FLANGE C5.51 (TT UTI-002 R3 A . -

• • cs.75**

/ T

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! s, I

s e

\,,,

DATE: 09/04/06 SOLTTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 32

( REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS PESIDUAL HFAT PFMOVAL SYSTFM N O ASME O G T l SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

12-PH-1215-KB2 (FIG NO B-FH-9) 605640 2 C-F-1 PT ZA-0012 R2 C - -

PIPE TO ELBOW C5.11 LTT UTI-012 R2 C - -

' SS - 13 "

605660 2LD C-F-1-L PT ZA 0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONCITUDINAL WELD C5.12 UT UTI-012 R2 L - - CIRCUMFERENTIAL WELD.

"SS - 13 *

• 605700 3LU C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.12 UT UTI-012 R2 L - - CIRCUMFERENTIAL WELD.

• • SS-13**

605740 3 C-F-1 PT ZA.0012 R2 C - -

ELBOW TO PIPE C5.11 UT UTI-012 R2 C - -

"SS - 13 "

12-RH-1302-VB2 (FIG NO B-RH-4) 606720 12LU C-F-1-L PT ZA 0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.12 UT UTI-012 R2 L - - CIRCUMFEREPTTIAL WELD.

• ss .13 n l

J 606760 12 C-F-1 PT ZA-0012 R2 C - -

ELBOW TO PIPE C5.11 (TT UTI-012 R2 - C -

1 l

. ss.13..

1 i

l 606780 13 C-F-1 PT ZA-0012 R2 C - - '

PIPE TO ELBOW C5.11 UT LTTI-012 R2 - C -

• • SS.13** .

l l

l l

O

i i

DATE: 09/04/96 SOLTTH TEXAS PROJECT ELECTRIC CENERATING STATION UNIT 1 PAGEz 33 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS M DUAL HEAT PFMOVAL SYSTEM N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R *

• CALIBRATION BLOCK' 12 - PH - 13 02 - FP2 (FIO NO B-PH-4) 606600 13LD C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.12 UT ITTI-012 R2 L - - CIRCUMFERENTIAL WELD.

• • SS-13**

606840 14LU C-F-1-L PT ZA-0012 R2 L . . EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.12 UT UTI-012 R2 L . - CIRCLHFERENTIAL WELD.

• *SS 13 "

606880 14 C-F-1 PT ZA-0012 R2 C - .

ELBOW TO PIPE C5.11 UT UTI-012 R2 - C .

"SS - 13 * *

[ ]506900 15 C-F-1 PT ZA-0012 R2 C . .

(,,/ PIPE TO REDUCER C5.11 UT ITTI-012 R2 C . -

eess.13e.

606920 15LD C-F-1-L PT ZA-0012 R2 L - . EXAMINED 2.5T AT THE INTERSECTING 14NGITUDINAL WELD C5.12 UT ITTI-012 R2 L - - CIRCUMFERENTIAL WELD.

eess.13e.

12-RH-1303-FB2 (FIG NO B-PH-10) 607620 4 C-F-1 PT ZA-0012 R2 C . - 60 DEGREE RL (ITTI-006) WAS USED TO PIPE TO NOZZLE C5.11 ITT ITTI-012 R2 . C - VERIFY THE GEOMETRY RECORDED DURING PSI.

ITT 17T1-006 R1 - C - ADDITIONAL GEOMETRIC INDICATIONS WERE DETECTED DURING 1RE06 WITH 60RL THAT WERE NOT RECORDED DURING PSI.

• • SS-12**

l i

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k

, /

'% ,/

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DATE: 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING .TATIO;f UNIT 1 PAGE: 34 SEVISION: 1 INSERVICE INSPECTION PLAN - IRE 06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS SnFFTY INJFCTION SYSTEM N O ASME O G T SEL. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS r NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURL C M R ** CALIBRATION BLOCK **

20-SI-1101-UP2 (FIG NO B-SI-2) 702400 4LU C-F.1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSEC" TING LONGITUDINAL WELD C5.12 UT UTI-012 R2 - L - CIRCUMFERENTIAL WELD.

• • SS.31**

702420 4 C-F-1 PT ZA-0012 R2 C - -

PIPE TO REDUCER C5.11 UT UTI-012 R2 . C -

• *SS - 31" o

702440 4LD C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGI'ITDINAL WELD C5.12 UT UTI-012 R2 - L - CIRCLHFERENTIAL WELD.

" SS . 31 *

• k 16-S1-1301-192 (FIO NO P-SI-5) 707140 1 C F-1 PT ZA-0012 R2 C - - WELD ROOT GEOMETRIC INDICATIONS DETECTED BRANCH CONNECTION TO PIPE C5.11 UT ITTI-012 R2 - C - 360 DEGREES INTERMITTENTLY WITH 60 DEGREE SEARCH UNIT THAT WERE NOT RECORDED DURING PSI.

"SS- 3 0 "

707160 ILD C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.12 UT UTI-012 R2 L - - CIRCUMFERENTIAL WELD.

• • SS-30**

707950 16 PL1- 8 C-C PT ZA-0012 R2 C - -

PIPE LUGS C3. 2 0 12-S1-1301-182 (FIG NO B-SI-5) 714720 SLU C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSECT, CIRC.

IDNGITUDINAL WELD C5 . 12 UT UTI-012 R2 L - - WELD. NO BASELINE UT EXAM WAS PERFORMED UT UTI-004 R3 L - - DURING PSI. PERFORMED BASELINE UT EXAM, INCL. 0-DEGREE LAMINATION AND WELD VOLUME EXAMS.

e*SS.13..

O

DAT2s 09/04/96 SOWH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 35 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

[% NAFFTY INJFCTION SYSTFM CLASS 2 CLABOEZ STATUS COMPONENTS N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

12-SI-1301-UB2 (FIG NO B-SI-5) 714740 8 C F-1 PT ZA-0012 R2 C - . NO BASELINE UT EXAM WAS PERFORMED DURING PIPE TO FLANGE C5.11 UT UTI-012 R2 C - - PSI. PERFORMED BASELINE UT EXAM, UT UTI-004 R3 C - - INCLUDING 0-DEGREE LAMINATION AND WELD VOLUME EXAMS.

eeSS.13e+

714800 10LU C-F-1-L PT ZA-0012 R2 L - - EXAMINED 2.5T AT THE INTERSECTING LONGITUDINAL WELD C5.12 III UTI.012 R2 L . - CIRCUMFERENTIAL WELD.

eeSS.13 .

714820 10 C-F-1 PT ZA-0012 R2 C - -

. PIPE TO FLANGE C5.11 UT UTI-012 R2 - C -

eeSS.13 e

% s 2-SI-1306-DB2 (FIO NO B-SI-20) 746950 20 C-F-1 PT ZA-0012 R2 C - -

PIPE TO VALVE C5.30 2-SI-1335-DB2 (FIG NO B-SI-23) 74*7120 19 C-F-1 PT ZA-0012 R2 C - -

ELBOW TO PIPE C5.30 747190 20 C-F-1 PT ZA-0012 R2 C - -

PIPE TO VALVE C5.30 i

f, D

DATE: 09/04/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 36 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (WELDS)

FIRST INTERVAL, THIRD PERIOD, FIRST OTJTAGE (96RF)

CLASS 2 CLABDEZ STATUS COMPONENTS PFSIDUAL HEAT FPMOVAt, PtNPS N O ASME O G T SEC. XI R E H St#94ARY EXAMINATION AREA CATGY EXAM E O E RCMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BLOCK *

• EP 1 A (FIG NO B-PHFP-1) 150600 RHARHS-1A-IWA1 C-C PT ZA-0012 R2 C - -

INTEGRALLY WELDED ATTACHMENT C3.30 750605 PHARHS-1A-IWA2 C-C PT ZA-0012 R2 C , -

INTEGRALLY WELDED ATTACHMENT C3.30 750610 REARHS-IA-IWA3 C-C PT ZA-0012 R2 C - -

INTEGRALLY WELDED ATTACHMENT C3.30 O

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i AFPENDIX 2-B 4 t i k

j PERSONNEL f

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APPENDIX 2 B

~

PERSONNEL I 3 Name Company IJ_I hiI EI yI Tommy Brown SSI

• II II *

, Victor Dittrich SSI I It It

• Paul Divalerio SSI II II II II l David Garcia SSI II II II

• A. Jay Hany SSI II II II

• Michael Hollow SSI III II II III Tommy Jackson SSI II II II

• l Randall Spivey SSI II

• II II  ;

i Ryan Tauchen SSI I I I I I

, Ron Busby HLP * *

• II l l Kim Kieler HLP. *

• IIL II j Lyle Spiess HLP III *

• II 6

I Company SSI Sonic Systems International, Inc.

HLP - Houston Lighting & Power Company i

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-This NDE method not performed for ISI by these personnel during this refueling outage.

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1 APPENDIX 2 C ,

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i IIL&P PROCEDURES 4

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

i APPENDIX 2-C l

O HL&P PROCEDURES q Procedure No. h Title NDEP 6.6 0 Fluorescent Water-Washable Liquid Penetrant Examination of Roto-Lok Studs 1 l

NDEP 6.6 R0 Interim Change Notice (ICN) No. 01 to NDEP 6.6, Rev. 0: Adds l ICN-01 Magnaflux Penetrant material ZL-60D.

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I NDEP 6.6 RO Interim Change Notice (ICN) No. 02 to NDEP 6.6, Rev. 0: Adds l' ICN-02 Magnaflux Developer material SKD-S2 and editorially corrects paragraph '

l 5.15.1.

NDEP 7.2 0 Wet Fluorescent Magnetic Particle Examination for ASME XI PSI /ISI OPQP05-ZA-0001 0 Qualification and Certification of Nondestructive Examination l Personnel 0PQP05-ZA-0004 1 General Ultrasonic Examination  :

OPQP05-ZA-0009 0 Recording Data from Direct Visual, Liquid Penetrant, and -

! Magnetic Particle Examinations t

OPQP05-ZA-0012 2 Color Contrast Solvent Removable Liquid Penetrant Examination for ,

i ASME XI PSI /ISI l

j OPQP05-ZA-0018 2 Dry Powder Magnetic Particle Examination for ASME XI PSI /ISI l

OPQP05-ZA-0324.1 ASME XI Examination for VT-1 and VT-3

~ UTI-001 3 Manual Ultrasonic Examination of Austepitic and Dissimilar Metal l Pressure Piping Welds Using Refracted Longitudinal Technique UTI-002 3 Manual Ultrasonic Examination of Ferritic Pressure Piping Welds 1

i UTI-004 3 Manual Ultrasonic Examination Using Longitudinal Wave Straight-Beam Technique UTI-005 3 Manual Ultrasonic Examination of Austenitic Pressure Piping Welds i.

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t APPENDIX 2-C l IIL&P PROCEDURES O Procedure No. Reyy. Title l UTI-006 1 Manual Ultrasonic Indication Sizing UTI-007 0 Recording Indications During Ultrasonic Examinations UTI-008 0 Weld Joint Identification Marking UTI-010 0 Manual Ultrasonic Examination of the Center-Drilled Hole Surface in Pressure Retaining Studs Greater Than 2 Inches in Diameter UTI-011 1 Manual Ultrasonic Examination of Reactor Vessel Closure Head Round Nuts UTI-012 2 Manual Ultrasonic Examination of Thin Wall Piping Welds UTI-015 1 Manual Ultrasonic Examination of Reactor Pressure Vessel Closure Head Studs UTI-018 1 Manual Ultrasonic Examination of Centrifugally Cast and Static Cast Stainless Steel Piping Welds UTI-030 0 Manual Ultrasonic Examination of Austenitic Branch Connection Welds from the Branch Connection Taper UTI-031 0 Manual Ultrasonic Examination of Pressure Piping Suppon Attachments UTI-032 0 Manual Ultrasonic Examination of Pressure-Retaining Welds in Thin-Walled Vessels I

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] APPENDIX 2-D t

ISI EXAMINATION LIMITATIONS 1

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APPENDIX 2 D O ISI EXAMINATION LIMITATIONS t

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STPEGS-1 Summary ofInservice Examination Limitation Class 1 Components ASME Category B-J -

Reactor Coolant System Piping Residual Heat Removal System Piping l Class 2 Components ASME Category C-B RHR Heat Exchanger I A ASME Category C-C l Feedwater System - Pipe Lugs Main Steam System - Pipe Lugs RHR Pump 1 A - Integral Attachments l

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SOUTil TEXAS PROJECT ELECTRIC GENERATING STATION, UNIT 1

SUMMARY

OF INSERVICE EXAMINATION LIMITATIONS The following tables provide details on the limitations which were encountered during the inservice examinations (ISI) at the South Texas Project Electric Generating Station, Unit 1 (STPEGS-1). Each table of this summary provides the following information as described:

Column 1 -

Class / Category / Item No/ Examination Requirement Identifies the ASME Section XI Code Class, Category, Item Number, and Examination Requirement (volumetric or surface) for the specific examination area listed in Column 2.

This information is derived from Tables IWB-2500-1 and IWC-2500-1 of the 1983 Edition of ASME Section XI (with Addenda through Summer 1983), and Tables 1 and 2 of Code Case N-408.

Column 2 -

Line No/ Subassembly Weld Identification Weld ID Figure Weld Configuration Examination Method Provides information for each examination area by line number (piping) or subassembly number (vessel), unique weld identification number, weld ID figure reference, weld configuration (pipe-to-tee, head-to-shell, etc.), and examination method (UT, UT/PT, or UT/MT).

Column 3 -

Exam Type Lists the Methods of Examinations used for each area by specific angles for UT (0,45,45T,  ;

60,60T) and surface technique (MT or PT), if required. 1 Column 4 -

% Coverage i

The extent of coverage for each exam type is expressed in percentages based on the examination volume / area required in Section XI. Depending on method, the percentage coverage may be represented in more than one way.

i Surface methods are the simplest and are expressed as a percentage of the required surface area receiving no coverage and the remaining balance from 100% as the total coverage.

Ultrasonic coverage is first expressed for each exam type as a percentage of the volume i receiving no coverage, angle-beam coverage in one direction only, and angle-beam coverage 2-D-2 I

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in two directions. These percentages are then used to compute the effective coverage for that O' exam type. In the case of 0 degree, the effective coverage is equal to the balance of 100%

minus the percentage receiving no coverage. The effective coverage for angle beam is calculated from the following formula:

2*b (effective coverage formula, angle beam) c = " +2 where a = one direction only percentage b = two direction percentage I

I Examples:

(1) none 1 dir 2 dir 0% 0% 100 %

c = 0 + 2

• 100 = 100% effective coverage 1

l O (2) none 1 dir 2 dir

\j 0% 100 % 0 %

• I c = 100 + 2*0 = 50% effective coverage 2

(3) none i dir 2 dir 50 % 50 % 0%

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c = 50 + 2*0 = 25% effective coverage The total UT coverage is then expressed as the average of the effective coverage percentages for each UT exam type. Each UT exam type is considered as equal weight in the calculation of the average.

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Limitation A description of the type of limitation and primary reason for why the coverage was limited is provided in this section.

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ASME SECTION XI CODE COVERAGE LIMITATIONS '

V 19961RE06ISI SOUTH TEX AS PROJECT ELECTRIC GENERATING STATION, UNIT I ASME CATEC#1RY R 3 l

SYS1T.M. REACTOR COOLANT SYSTTM (CLASS !)

1 I 31 RC 1402 45 0 48 52 76 LIMITED UI45 AND NO UT45T ON THE WELD B- J 9 45T 100 0 0 0 DUE TO WELD CONFIGURA110N AND SIZE OF

~~

89 11 FIGURE NO. A-RC-4 SEARCH UNT13. j

( VOUSUkP ELBOW TO PUMP ,,, ,, ,,, ,, ,,, , [8 l l

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0 . . - 100  ;

SYSTEM. REACTOR COOLANT SYSTEM (QASS I) l l

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[^ l D-J 29-RC-1401 2

UT24/45 to 90 0 45 MITLD UT DUE TO COMPONENT CONFIGURATION.

~~~

OXIMATELY 23% T1 TOM Tile PIPE SIDE AND 89.31 FIGURE NO. A-RC 4 7% FROM Tile BC SIDE IN ONE DIRECTION, VOUSURF 16 IN. BRANCH CONN. 4

.--------- -- . --- - - _5 PT 0 . - . 100 SYSTIM: REACTOR COOLANT SYSTEM (CLASS 1)

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=-

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l I 27.5-RC 1403 Ur35 15 0 85 85 0 Ur FROM THE MAIN RUN SIDE DUL TO F B-J 4 ,,, COMPONENTCONFIGURATION.

89.31 FIGURE NO. A-RC-4 VOUSURF &lN. BRANCH CONN. 85 UTFr PT 0 - - - 100 l

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i ASME SECTION XI CODE COVERAGE LIMITATIONS l l

19961RE06 ISI SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION, UNIT I ASME CATEGORY B.J (CONT'D.)

SYS'IEM. RESIDUAL HEAT REMOVAL (C1. ASS 1) I o.,...

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l 1 12-RH-ilo! UT45 19 0 51 81 LIMHLD UT45 AND U145T DUE TO 7 INCH Bl 10 UT45T 19 0 81 81 LONG STRUCTURAL SUPPORT.

B9.11 HOURE NO. A Ril-1 VOUSURF P!PE TO ELBOW , - - - ------ -- -- - - .81 UT/PT PT 19 . . . 81 ASME CATFCORY C B SYSE M RHR HEAT EXCHANGER L A (CLASS 2)

s. ,. . LINE r.in nsaaaarnagg,y n . .g py v y.y 3 33 s &t .-g on qj,, , 4 o 9 i I$3 d'7 I g y.{.~ ,g g;i ^ s G g ggg$ "'h $[ , r ',, - , a , ($ 'T * $,

CAN[' ' W u O UI N . .d[ MV M n i Mt WM' be s h SM 1

' 'Ib ITEM No,7 Wtta Cae:OURATION * . EKAM s sh" 1' DER $j _ EFFf Y? I.kl+ ' M-I f Fn)E-($N(y_..(1.

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ExM aOTE . REAMINATION ME'1100DE' TYPEi '- NONE ONLY NRF COV,' TWFAL <

1. LiMBTATIONJ iM '- '

2 RHR HX l A UI45 0 59 41 71 UMITLD UT45 i ROM BOTH SIDLSAND NO l C-D lulAliRS-1 A-NA UT45T 78 0 22 22 - - .

Ur4.*T ON Ti!E %TLD AND S!! Ell. SIDE DUE C2.21 FIGURE NO. B-RILX-1 TO %TLD CONFIGURATION.

VOl> SURF NOZZLE TO Sl(ELL . - - . --. .. . --- . --7 4 PT 0 . . . 100 l

l SYSTEM. RHR HEAT EXCHANGER 1 A (CLASS 2) mn - tJNg ega ms manarnam ,y v q.73.j

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py CLAESd , .WELDIDENTIFICATION;- + " # COVERAGE A'3^ x Ea -

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CATGYj:z .WnDEDNGUREil%? < p? Ud >-

t y; ; y< , . . . , y> P 1r 9%&% hee %4 ' y*lV rIDINO2 . WELD CONFIGURATION 1 EKAM ( A ., 1 DER 3M{ , EFF(- E. > . lT f W.R . - -,,  ?'

EXM ROT : - EKAMINATION MFTIGODi - TYPE M NONE ONLY Dth i OfW/ 'IUFAL SW r

' I IAMf7AT10N 7 1 2 RHR HX l A LTI45 0 59 di 71 LIM 111D UI45 fROM BOTH SIDLSAND NO CB RHAHRS 1 A-NB UT45T 78 0 22 22 ,,,,

UT45T ON THE WELD AND SilELL SIDE DUE j C2.21 HOURE NO. B RHX-I TO %TLD CONFIGURATION. l VOUSURF NOZZLE TO SHE11 .- . .- --. . --. 47, UT/PT PT 0 . . - 100 0

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ASME SECTION XI CODE COVERAGE LIMITATIONS 19961RE06ISI 4 SOLTI'H TEXAS PROJECT ELICTRIC GENERATING STATION, UNIT I ASME CATEGORY C C j

1 SYSTEM: ITEDWATTR-PIPE LUGS (CLASS 2)

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2 18-tW 1031 MT 43 - - -

57 LIMITED MT DUE TO P!PE LUG CC IPL1-!PLB CONFIGURATION.

C3.20 B-FW-5 SURF PIPE LUGS 4

MT i

SYSTEM; MAIN STEAM-PIPE LUGS (CLASS 2) l up . " - =R

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2 30-MS 1003 MT 45 - - - 55 LIMI'ILD MT DUE TO WELDED P!PE

, C-C 26PLI.26PL8 PENETRATION THAT OBSTRUC'IT.D EACH LUG

$ C3.20 D-MS-5.6 FOR 19 INCIIES.  !

SURF PIPE LUCS I MT SYSTEM. RHRPUMPIA ATTACilMENT(CLASS 2) 4

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. . 2 >MWP 2 RHR PUMP 1 A PT 25 - - -

75 LIMllLD MT DUE TO PROXIMITY OF PUMP CC RHARHS-IA-IWAl SUPPORTSTANCTION f0R 10 INCHES OF

C3.30 B-RHRP-1 %T1DLINGTH 4

SURF INTEGR.%TLDED ATTACIL PT r

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l ASME SECTION XI CODE COVERAGE LIMITATIONS 19961RE06ISI SOtrTil TEXAS PROJECT ELECTRIC GENERATING STATION, UNIT I ASME CATEGORY C C (CONT'D.)

SYSTTM. RilR PUMP I A ATTACllMENT (CLASS 2)

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. EXAAGNATION

.:TYPE-

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2 kHR PUMP 1 A PT 25 - . . 75 LIMITLD MT DUE TO PkOXIMilT 01 PUMP C-C RilARilS l A-lWA2 SUPPORT STANCTION FOR 10 INCifES OF C3.30 B-RHRP.I %TLD LENGTH.

SURF INTEGR. %TLDED ATTACil YT SYSTEM RilR PUMP I A- ATTACitMENT (CLASS 2)

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CINM7 LINE NOAUBassamaan y[y0 b'I,COVERkCOD # %M 9.. 1P I 'I #g",..d >?

1 WELD PENIUICA110N CA1UYl .  !- . 1 .. .' Y'# )b' ^ @. < N '

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-WELDcolelGURA110N ..

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EXM ROfi- JEXAMINAtl0N ME1 HOD"Y TYPE F NONE ONLY DIR4 00VJ  : ItPTAL 4 W b d Y LIMITA110N "- -

2 kHR PUMP 1 A PT 25 . . - 75 LIMITED MT DUL 10 PROAIMITY OF PUMP CC RilARilS 1 A IWA3 SUPPORT STANCTION FOR 10 lNCilES OF C3 30 B RilRP-I %T.LD LENGTH.

SURF IN1TGR. %T1DED ATTACil PT O

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{ APPENDIX 2.E e

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. OWNER'S REPORT FOR INSERVICE INSPECTIONS NIS-1 FORMS i

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1996 ISI - IRE 06 - Welds (Class 1) Page 1 of 2 FORM NIS 1 OWNER'S REPORT FOR INSERVICE INSPECTIONS As nquired by the Pmvisions of the ASME Code Rules

, I. Owner Houston Lighting & Power Comoany: Electric Tower: P.O. Box 1700: Houston. Texas 77001 i

(Name and Address of Owner)

2. Plant South Texas Proicct Electric Generatine Station! P.O. Box 289: Wadsworth. Texas 77483

! )

(Name and Address of Plant)

3. Plant Unit 1

4. Owner and Certificate of Authorization (if required) N.A.

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5. Commercial Service Date 08/25/88 6. National Board Number for Unit N.A.

j 7. Components Inspected ASME Code Class 1 (IWB) Items Welds Pmgram i

Manufacturer

Component or Manufacturer or Installer National j Appurtenance or Installer Serial No. Board No.

Reactor Pressure Combustion Engineering / l Vessel Westinghouse (M) 11073 22190 l

! Pressuri7er Westinghouse (M) 2141 W18590 t Steam j Generator I A Westinghouse (M) 2131 W18691 1 Steam Generator IB Westinghouse (M) 2132 W18692 Steam Generator 1C Westinghouse (M) 2133 W18693

.: Sream Generator 1D Westinghouse (M) 2134 W18694 x Class 1 Pining Ebasco (I) N.A. N.A.

Class 1 Valves Ebasco (I) N.A. N.A.

?

A R.L.Beverly Insurance Co. B.R. Russell,ANII 2-E-1

1996 ISI - 1RE06 - Welds (Class 1) Page 2 of 2 FORM NIS 1 (Back)

8. Examination Dates 05/22/96 to 06/05/96 9. Inspection Interval from 08/25/88 to 09/24/99

10. Abstract of Examinations. Include a list of examinations and a statement concerning status of work required for current interval. (ASME Code Class I (IWB) Items . Welds Pmgram)

See Section 2.2 of the IRE 06 Summary Report for list of examinations performed. The examinations performed this outage constitute 18% of the required examinations for the curunt interval. The cumulative percentage completed for the Interval is 79%

11. Abstract of Conditions Noted.

Evidence of boric acid buildup was detected near the flanges of two, small diameter, bolted piping flanges.

See Section 2.5 of the IRE 06 Summary Report.

12. Abstract of Corrective Measures Recommended and Taken.

None. See Section 2.4.4 of the IRE 06 Summary Report.

We certify that the statements made in this report are correct and the examinations and corrective measures taken conform to the rules of ASME Code,Section XI.

Certificate of Authorization No.(if applicable) N.A. Expiration Date N.A.

Date O 3d 19 $ Signed Hauston Lighting & Power Co. By nda Owner IL beverly' CERTIFICATE OF INSERVICE INSPECTION I, the undersigned, holding a valid commission issued by the National Board of Boiler and Pressure Vessel Inspectors and the State or Province of Texas and employed by Arkwright Mutual Insurance Co. of Norwood.

Mass have inspected the components described in this Owner's Report during the period 05/22/96 to 06/05/96 , and state that to the best of my knowledge and belief, the Owner has performed examinations and taken corrective measures described in this Owner's Report in accordance with the inspection plan and as required by the ASME Code,Section XI.

By signing this certificate neither the Inspector nor his employer makes any warranty, express or implied, concerning the examinations and corrective measures described in this Owner's Report. Furthermore, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kind aric' from or connected with this inspection.

. O Commissions Tex 826 Inspector's Signature National Board, State, Province, and Endorsements B. R. Russell ,

Date O '~8 0 ' 19 b 1

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1996 ISI - IREM - Welds (Class 2) Page 1 of 2 FORM NIS 1 OWNER'S REPORT FOR INSERVICE LNSPECTIONS As nquired by the Pmvisions of the ASME Code Rules O 1. Owner Houston I ighting & Power Comr;any: Electric Tower: P.O. Box 1700: Houston. Texas 77001 (Name and Address of Owner)

2. Plant South Texas Proiect Electric Generatine Station: P.O. Box 289: Wadsworth. Texas 77483 (Name and Address of Plant)

3. Plant Unit 1 4. Owner and Certificate of Authorization (if required) N.A.

5. Commercial Service Date 08/25/88 6. National Board Number for Unit N.A.  ;

7. Components Inspected ASME Code Class 2 (IWC) Items - Welds Pmgram Manufacturer Component or Manufacturer or Installer National ,

Appurtenance or Installer Serial No. Board No.

Resid. Heat Removal Heat Exchancer 1 A .Toseph Oat Corn. (M) 2312-4 A 990 Class 2 Pinine Ebasco (I) N.A. N.A. l Residual lleat Removal i Pumn 1 A Pacific Pumns (M) 51731 343 l O

HL&P b M Date O'NNArkwright Mutual by ;w& Date 8~80Yb j d.L.Beverly Insurance Co. B.R. Russell,ANil 2-E-3

1996 ISI IRE 06 - Wclds (Cliss 2) Page 2 of 2 FORM NIS-1 (Back)

8. Examination Dates 05/16/96 to 05/31/96 9. Inspection Interval from 08/25/88 to 09/24/99

10. Abstract of Examinations, include a list of examinations and a statement concerning status of work required for current interval. (ASME Code Class 2 (IWC) Items Welds Pmgnm)

See Section 2.2 of the IRE 06 Summary Report for list of examinations performed. The examinations performed this outage constitute 14% of the required examinations for the curientinterval. The cumulative perrentage cotripleted for the interval is 76%

11. Abstract of Conditions Noted.

Conditions include Code allowable fabrication flaws and laminations in piping welds. See Section 2.5 of the IRE 06 Summary Report.

12. Abstract of Corrective Measures Recommended and Taken.

None.

We certify that the statements made in this report are correct and the examinations and corrective measures taken conform to the rules of ASME Code,Section XI.

Certificate of Authorization No.(if applicable) N.A. Expiration Date N.A.

Date [ 9t") 19k Signed Houston Lighting & Power Co. B ,# # 0 Owner R.L.Bbverly [

m CERTIFICATE OF LNSERVICE INSPECTION I, the undersigned, holding a valid commission issued by the National Board of Boiler and Pressure Vessel Inspectors and the State or Province of Texas and employed by Arkwright Mutual Insurance Co. of Norwood.

Mass have inspected the components described in this Owner's Report during the period 05/16/96 to .

05/31/96 . and state that to the best of my knowledge and belief, the Owner has performed examinations and taken corrective measures described in this Owner's Report in accordance with the inspection plan and as required by the ASME Code,Section XI.

By signing this certificate neither the Inspector nor his employer makes any warranty, express or implied, concerning the examinations and corrective measures described in this Owner's Report. Furthermore, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kin rising from or connected with this inspection.

o 2 ->M Commissions Tex 826 )

Inspector's Signature National Board, State, Province, and Endorsements '

B. R. Russell Date b C '~ 19 D l

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3.0 STEAM GENERATOR TUBE EXAMINATIONS 3.1 Introduction This section of the summary report addresses the eddy current testing (ET) ISI of the tubing in Steam Generators A, B, C and D performed during the IRE 06 outage. It is intended to satisfy the reporting requirements of ASME Code Section XI, IWA-6000 and 4.4.5.5 b of the STPEGS Technical Specification.

Alternate plugging criteria for outer diameter stress corrosion cracking at tube support plates were used as described in BAW-10204P " South Texas Project - Unit 1 Tube Repair Criteria for ODSCC at Tube Support Plates", Revision 3, during the IRE 06 outage. This section of the summary report discusses aspects of the implementation of the alternate plugging criteria. A separate report discusses the implementation of the criteria in detail and responds to the requirements of BAW-10204P paragraph 13.3.

The STPEGS-1 plant design contains four (4) Westinghouse recirculating design model E2 steam generators. Each model E2 steam generator was designed and fabricated by Westinghouse Electric Corporation of Tampa, Florida. Each steam generator contains 4864 tubes. The tubing

- material is low temperature mill annealed ASTM SB-163 Inconel having a nominal outer diameter (OD) of .750 inches and nominal wall thickness of .043 inches. The nominal thickness of the tubesheet is 22.65 inches.

The examination agency for the IRE 06 ET of steam generator tubing was Framatome Technologies, Inc. (FTI). They acquired the first ET data on May 22,1996. The last ET data analysis was concluded on May 30,1996.

3.2 Scope of Examinations  !

1 i

The STPEGS-1 ten year ISI plan, previously filed with the NRC, describes the ISI program for  ;

examination of steam generator tubing. Additionally, an auxiliary ISI plan (ISI Outage Plan) '

entitled, "1996 OUTAGE PLAN for the IN-SERVICE INSPECTION of STEAM GENERATOR 4 TUBING at the SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION-UNIT 1" was prepared by FTI and approved by HIleP. The ISI Outage Plan identified the steam generator tube areas expected to be examined by ET and the ET procedures expected to be used i during the ISI. i The initial scope consisted of the following planned examinations in each steam generator:  !

Bobbin coil ET of the full length (tube end to tube end) of all in-service tubes (except in "

Row 1). In Row I the straight tube lengths would be examined by bobbin coil ET and the U-bend regions would be examined by motorized rotating coil ET.

O Motorized rotating pancake coil (MRPC) ET of all in-service tubes at the hot leg top of the tubesheet (TSH). The area to be examined extended one (1) inch above to two (2) 3-1 1

inches below the secondary face of the tubesheet. O '

Motorized rotating coil ET of all of the tubes in Row I and 20 percent of the tubes in Row 3 in the U-bend sections. The examination utilizing a single motorized rotating plus-point magnetic bias coil. The area to be examined extended from the upper most tube suppon plate on the cold leg side to the upper most tube support plate on the hot leg side of the bundle.

i 1

MRPC of 125 examination areas in 104 tubes. These examination areas were located at selected top of the tubesheet locations, tube support plates, baffle plates in the pre-heater region and free-span regions where indications were detected during previous outages or where experience indicated a higher potential for degradation. The areas would be examined over an approximate length of four (4) inches.

This scope exceeded the requirements for the first ISI sample of tubes specified in 4.4.5.2 of the STPEGS technical specification (NUREG - 1346). Because the results of the initial examinations identified by the ISI Outage Plan could have identified a situation where additional examinations of other tube areas or the same tube areas (with different non-destructive examination techniques or methods) would be required or advisable, a method to quickly change  !

the outage plan was developed by instituting an Outage Plan Change Form. Two (2) changes were made to the ISI Outage Plan during the examinations. The change forms are included as Appendix 3-A. The ISI Outage Plan is consistent with the requirements of the Ten Year ISI Plan.

h, 3.3 Personnel, Procedures, and Equipment 3.3.1 Personnel Qualifications The personnel who performed the ET acquisition and analysis during the 1REO6 outage were employed by Framatome Technologies, Inc., Rockridge Technologies, Inc., B&W International, Duke Power Company, Tecnatom, Verner & James, Zetec, Inc., Westinghouse, Anatec, and NDE Services. They were certified in accordance with the requirements ofIWA-2300 of ASME Code Section XI and the certification practices of their respective employers. One hundred (100) percent of the ET analysts were certified as Qualified Data Analysts (QDA) for the steam generator work performed. A QDA is a Level IIA, III, or IIIA who has passed rigorous testing of his ability to analyze a random selection of expertly-judged indications, from the EPRI NP-6201 Appendix G Performance Demonstration Database for various steam generator designs and all types of known defects.

Before the IREO6 examinations were performed all ET data analysts were required to successfully complete a STPEGS plant site specific steam generator ET data analysis training program. The ET data analysis training program required reading of the analysis guideline to be used for the STPEGS-1 ET examinations and the " Steam Generator Eddy Current Data Analysis Training Manual - May 1996". The training manual discusses the specific STPEGS-1 steam generator design, operating history, and previous ET results. The site specific training 3-2 s

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

t included hands-on review of flaw indications of the types that have been identified at STPEGS or at other plants of similar design. Successful completion of the site specific course required the passing of the written and practical (hands-on) test. The ET data analysis training program was administered by Mr. Steve Brown and Mr. Dan Federico of Aptech Engineering Services, Inc..

l The ET acquisition and/or data analy::is personnel certification levels and identification numbers are listed in Appendix 3-B. The identification numbers of the personnel that acquired or analyzed the ET data for a specific examination are recorded on the optical disks and data sheets. Some identification numbers consist of the first letter of the persons last name and the last four digits of their social security number. Others consist the persons initials.

3.3.2 Examination and Analysis Procedures Bobbin coil and MRPC probe ET data was acquired in accordance with the FTI procedure ISI-400, Revision 0 entitled, " Multi-Frequency Eddy Current Examination of Tubing" with Change Authorization No, HL&P 96-001. This procedure, with the change authorization, is STPEGS document no. ST401476-00034-A2U. The bobbin coil examination technique was performed using inspection frequencies of 550, 300,130, and 10 kHz in both the differential and absolute modes for each tube. The MRPC examination technique was performed using inspection frequencies of 300,200,100, and 10 kHz operating in the absolute mode. The FTI procedure is O an alternative to the technique described in ASME Code Section V, Article 8, I-42, which requires that the probe pull speed not exceed 14 inches per second. A maximum pull speed of l 40 inches per second with a digital sampling rate of 1280 samples per second was used during the IREO6 ET examination. FTl procedure ISI-400 paragraph 7.7 and 7.8 permits the higher pull speed provided a minimum of 30 data points per inch is maintained and approval of a FTI ET Level III and concurrence of a STPEGS representative. A FTI acquisition technique sheet authorizes the higher pull speed and was signed by the FTI ET I.evel III and the STPEGS  !

representative. The faster pull speed was demonstrated to the satisfaction of the Authorized Nuclear In-service Inspector (ANII) in accordance with IWA-2240 of Section XI.

The ET data analysts performed the examinations to HL&P Engineering Instruction EI-8.01, entitled " Steam Generator Eddy Current Data Analysis Guidelines", Revision 4 including the Analysis Guideline Change Forms. Change form numbers 1,2, and 3 were generated 'and implemented during the ET examinations.

The ET data for each steam generator tube was subjected to two (2) separate independent analyses following the guidance of HI.&P Engineering Instruction EI-8.02 entitled " Steam Generator Eddy Current Data Control", Revision 1. FTI, and its subcontractors, perfonned the

" primary" analysis in accordance with STPEGS document no. ST401476-00034-A2U.

Westinghouse, and its subcontractors, performed the " secondary" analysis in accordance with the Westinghouse procedure MRS 2.4.2 GEN-35 entitled, " Eddy Current Inspection of Preservice and Inservice Heat-Exchanger Tubing" with Procedure Field Change Request Sheet No.1. This O Westinghouse procedure, with the field change, is STPEGS document no. ST401489-00001-AWN. The primary evaluation of bobbin coil and MRPC ET data was performed manually by 3-3

-e-n

analysts using Zetec, Inc. Eddynet95 software. The secondary evaluation of bobbin coil ET data was performed using the automated analysis feature of Westinghouse's Anser software. The secondary analysis of MRPC ET data was performed manually using Westinghouse's Anser software. The primary and secondary analysis was performed in separate facilities. The primary analysts were located in Benicia, California and Lynchburg, Virginia. The secondary analysts were located in Waltz Mill, Pennsylvania.

Results of all of the eddy current examinations were recorded on digital re-writable optical disks and data sheets. The data sheets for each examination are stored as records. Each disk contains the raw ET data, primary, secondary, and resolution results for each calibration group. The optical disks also contain the system calibration and calibration verification with the dates and times for each calibration and verification. The unique calibration group number has been recorded on the data sheets and optical disks. Therefore, the system calibration and calibration verification of the raw signals for each tube examined can be easily recalled.

3.3.3 Equipment FTI used the MIZ-30 ET instmments. FTI also used the Eddynet 95 software, Version 2.1, to acquire and analyze the ET data. The MI7<30 instruments and Eddynet software are manufactured and produced by Zetec Inc. Westinghouse used Anser software, Version 8.0, to analysis ET data. The MIZ-30 instrument and software store and process the ET data in a digital format and have a significantly improved dynamic range and signal-to-noise ratio as compared to analog systems. The MIZ-30 is capable of being operated at locations remote from the steam generators (e.g., in low radiation areas).

The ASME Boiler and Pressure Vessel Code, Nuclear Components Code Case N-401, " Eddy Current Examination-Section XI, Division 1", was used after the digital equipment and the ET technique used were demonstrated to the STPEGS authorized nuclear in-service inspector (ANII) in accordance with Case N-401.

For conducting bobbin coil ET, FTI used 0.610 inch diameter magnetic biased probes.

However, 0.590 inch diameter magnetic biased bobbin probes were used in Rows 2, 3, and 4 for part of their lengths. The 0.590 probes were used from the upper most hot leg tube support plate in Rows 2 , 3, and 4 to the cold leg tube end. In these rows the friction in the small radius U-bends hinders the passage of the 0.610 inch diameter probes. Bobbin coil probes with 0.590 or 0.560 inch diameters were also used to examine four (4) areas in four (4) tubes that were obstructed to the passage of larger diameter probes.

For conducting MRPC ET examination in the straight sections of tubing, FTI used a 0.610 inch diameter three (3) coil probe. The MRPC probe contained one (1) 0.115 inch diameter pancake coil, one (1) coil sensitive to axially oriented flaws, and one (1) coil sensitive to circumferentially oriented flaws. U-bend MRPC examinations were performed utilizing a 0.580 inch diameter, magnetic-bias, single plus-point coil probe.

Circumferential indications at the TSH were re-examined using a 0.610 inch diameter three (3) O 3-4

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coil probe. It contained one (1) plus-point coil, one (1) 0.115 inch diameter pancake coil, and j one (1) 0.80 inch diameter high frequency pancake coil.

l 4 3.3.4 Calibration Standards The design of the principle calibration standard used to perform bobbin coil ET and MRPC ET l at the top of the tubesheet was a dual guide tube design which incorporated both flat bottom i holes and electric discharge machined (EDM) notches. In-line standards were also used in i selected applications.

l The calibration standards used during the IRE 06 outage to examine the U-bend regions of tubes i j in Rows 1 and 2 were fabricated from UNS Alloy N06600 of the same material specification and i i

same nominal size as that of the tubes examined in the steam generators. The U-Bend areas of the Row I and 2 tubes in each steam generator have received an in-situ heat treatment to improve their resistance to stress corrosion cracking. The ET calibration standards used were l

. not subjected to that heat treatment. ASME Boiler and Pressure Vessel Code, Nuclear I 1

Components Code Case N-402-1, " Eddy Current Calibration Standards,Section XI, Division 1",

was used. Otherwise, the design and material of the ET calibration standards used meet the requirements of the ASME Code Section XI.  !

I

Probe wear standards were used to monitor probe wear as required to implement the alternate . l

(]/ plugging criteria for outer diameter stress corrosion cracking (ODSCC) at tube support plates. '

, /

l This standard consisted of four 100 percent through wall holes spaced circumferentially 90 i

degrees apart and axially separated. In addition, prior to the bobbin coil ET, the calibration

standards were normalized to a transfer standard for implementation of the alternate plugging

criteria for ODSCC at tube support plates.

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3.4 Summary of Examinations l

i Bobbin coil ET testing techniques were performed on all in-service tubes in each of Steam j Generators A, B, C, and D. All of these tubes were examined over their full length (from tube end to tube end) except in Row 1. The straight length of tubes in Row I were examined by the .

bobbin coil probe and the U-bend sections were examined with a rotating plus-point coil probe.

. The numbers of tubes which were examined by the bobbin coil ET technique are as follows:

Steam Generator Number Examined i

A 4814 i B 4827

C 4830 i D 4825 i

MRPC ET examinations were conducted at all of the hot leg top of the tubesheet (TSH) tube areas in all steam generators during 1RE06.

4 3-5

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Single circumferential indications (SCI) and multiple circumferential indications (MCI) detected O:

at TSH were re-examined using a plus-point coil to permit detailed crack characterization in accordance with the EPRI Alternate Repair Limits Committee document entitled " Eddy Current Testing, Data Analysis and Engineering Data Requirements" dated May 15-16, 1996.

MRPC ET was also conducted at the various tube locations, other than the TSH, listed in 1 Appendix 3-C. The MRPC ET listed in Appendix 3-C includes, in part, locations where bobbin coil ET indicated at a tube support plates (1) possible ODSCC exceeding 1.0 Volt, (2) possible ODSCC in the alternate plugging criteria Tube Support Plate Plugging Limit Exclusion Zone, (3) dents exceeding 5.0 Volts, and (4) artifact signals or mixed residuals of sufficient magnitude l to cause a 1.0 Volt ODSCC indication to be missed or misread. The MRPC ET listed in l Appendix 3-C also includes, in part, locations where (1) bobbin coil ET indications were distorted or non-quantifiable and not at tube support plates (e. g.; NQI, DRI, DTI, DNI), (2) freespan bobbin coil ET indications were chtracterized as reductions in the tube wall thickness, and (3) volumetric indications (e. g.; SVI or MVI) were detected during prior outages and were not at TSH or at tube support plates.

3.5 Examination Results and Corrective Actions The location of the indications were recorded relative to the adjacent tube support and baffle j plates and anti-vibration bars. The tube support plates and baffle plates were numbered l consecutively from O1H to 10H (on the hot leg) and from 11C to 23C (on the cold leg) starting i on the hot leg side, over the U-bends, and down the cold leg side of the steam generator. The anti-vibration bars were numbered AV1, AV2, AV3, and AV4 from the hot leg to the cold leg side, respectively. Indications in the tubesheet area were recorded relative to TEH or TSH (hot leg) or TEC or TSC (cold leg) depending on whether the indications were at the tube end (E) or secondary face (S). In addition, the vertical distances from these landmarks to flaws were recorded.

ET indications discussed in this report were assigned three letter codes. The indication codes reflect the suspected nature of the discontinuity. Some of the indications used are as follows:

DNG - ding ODI - outer diameter indication DNI - dent with possible flaw indication PNC - probably not changed from DNT - dent prior examination (s)

DRI - distorted roll with possible flaw indication SAI - single axial indication DSI - distorted support with possible flaw indication SCI - single circumferential indication DTI - distorted tubesheet signal with possible flaw SVI - single volumetric indication indication MAI - multiple axial indication MBM - manufacturing burnishing marks MCI - multiple circumferential indications MVI - multiple volumetric indication NQI - non-quantifiable indication 3-6

O Lists, including the locations and depths, of all flaw indications which were characterized as reductions in the tube wall thickness are included in Appendix 3-D. Included in Appendix 3-D are the MAI, SAI, SCI and MCI indications detected by MRPC ET. MAI, SAI, SCI and MCI indications are expected to be the result of cracks which may be considered to be reductions in the tube wall thickness. All MAI, SCI and MCI indications were plugged regardless of depth.

F* alternate plugging criteria was used to justify not repairing one (1) SAI indication detected in Steam Generator D tube 14-61. All other SAI indications were plugged regardless of depth. .

The MRPC ET technique used was not formally qualified for the measurement of flaw depths.

However, the maximum depths of SCI and MCI indications were measured to support engineering studies. Therefore, the maximum depths of SCI and MCI indications measured with the pancake coil are included in Appendix 3-D.

No copper deposits, circumferential cracks at tube support plates, or axial cracks extending beyond the edge of tube support plates were detected by ET.

291 SVI and MVI indications were detected by the MRPC ET inspection. The majority of these SVI and MVI indications were detected when MRPC was performed at the location of a bobbin coil ET indication (e.g.; MBM, NQI, DSI, and ODI). Some MRPC was performed to monitor locations where SVI or MVI indications had been detected during previous outages but no bobbin coil ET indications were reported. The SVI and MVI results indicate that the flaws are volumetric rather than linear. Raw data or analysis results from previous inspections were O- reviewed to determine whether bobbin coil ET indications were initiated or changed during service. The great majority of these bobbin coil indications were present in previous inspections and had not changed. The bobbin coil ET method is especially good at detecting wear and manufacturing flaws twenty (20) percent through wall or greater. The bobbin coil ET method was used to report these types of imperfections. The few locations with measurable depths are included in Appendix 3-D.

Lists of all dents and dings detected in each steam generator are included in Appendix 3-E.

The total numbers of degraded and defective tubes detected by bobbin coil ET and MRPC ET are as follows:

3.5.1 Steam Generator A  !

I Eleven (11) areas of tube degradation, as defined by the Technical Specifications in 4.4.5.4, were detected in eleven (11) tubes. Of these indications of degradation, nine (9) areas of nine (9) tubes were defective as defined by the Technical Specification 4.4.5.4.  !

l Two (2) areas of tube degradation were detected by bobbin coil /MRPC ET, in two (2) tubes. Of these indications of degradation, none were considered to be defective.

Steam Generator A had nine (9) areas of degradation detected by MRPC at TSH in nine (9) 3-7 i

tubes. Of these indications of degradation detected by MRPC at TSH, nine (9) were considered to be defective.

No area of degradation was detected by rotating probe ET in the U-bend of Row 1 or 3 tubes.

3.5.2 Steam Generator B Twenty-four (24) areas of tube degradation, as defined by the Technical Specifications in 4.4.5.4, were detected in twenty-four (24) tubes. Of these indications of degradation, all were defective as defined by the Technical Specification 4.4.5.4.

t Two (2) areas of tube degradation were detected by bobbin coil /MRPC ET in two (2) tubes. Of these indications of degradation, two (2) areas of two (2) tubes were defective.

Steam Generator B had twenty-two (22) areas of degradation detected by MRPC at TSH in twenty-two (22) tubes. Of these indications of degradation detected by MRPC at TSH, twenty-two (22) were considered to be defective.

No area of degradation was detected by rotating probe ET in the U-bend of Row 1 or 3 tubes.

3.5.3 Steam Generator C Seventeen (17) areas of tube degradation, as defined by the Technical Specifications in 4.4.5.4, were detected in seventeen (17) tubes. Of these indications of degradation, fifteen (15) areas of fifteen (15) tubes were defective as defined by the Technical Specification 4.4.5.4.

Two (2) areas of tube degradation were detected by bobbin coil /MRPC ET in two (2) tubes. Of these indications of degradation, none were considered defective.

Steam Generator C had fifteen (15) areas of degradation detected by MRPC at TSH in fifteen (15) tubes. Of these indications of degradation detected by MRPC at TSH, fifteen (15) were considered to be defective.

No area of degradation was detected by rotating probe ET in the U-bend of Row 1 or 3 tubes.

3.5.4 Steam Generator D Twenty-three (23) areas of tube degradation, as defined by the Technical Specifications in 4 4.5.4, were detected in twenty-three (23) tubes. Of these indications of degradation, all were defective as defined by the Technical Specification 4.4.5.4.

One (1) areas of tube degradation was detected by bobbin coil /MRPC ET in one (1) tube. This one (1) area was defective as defined by the Technical Specification 4.4.5.4.

Steam Generator D had twenty-two (22) areas of degradation detected MRPC at TSH in twenty- O 3-8

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! two (22) tubes. Of these indications of degradation detected by MRPC at TSH, twenty-two (22) were considered to be defective.

t 1

, No area of degradation was detected by rotating probe ET in the U-bend of Row 1 or 3 tubes. ]

J j The minimum required size of the initial ISI sample is defined in Technical Specification 3/4.4.5 l Table 4.4-2. It requires that the minimum initial sample for inspecting four (4) steam generators l be three (3) percent of the total tubes installed in each generator. The "1996 Outage Plan for the In-service Inspection of Steam Generator Tubing at the South Texas Project Electric Generating

) Station Unit 1" required 100 percent of the tubes be examined by the bobbin coil method of eddy

current testing in the initial sample (except Row 1 tubes where the U-bend was inspected by i rotating coil ET). Since 100 percent of the steam generator tubes in-service were inspected, the 4

initial sample requirements were met.

Category C-3 is defined in the Technical Specification as follows:

l "More than 10% of the total tubes inspected are degraded tubes or more than 1% of the inspected tubes are defective."

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{ None of the examination results, considered by samples or cumulatively, should be categorized as Category C-3.

Category C-2 is defined in the Technical Specification as follows:

j "One or more tubes, but not more than 1% of the total tubes inspected are defective, or between  ;

i 5% and 10% of the total tubes inspected are degraded tubes." '

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i. Some, but not all, of the examination results for the 100 percent tube inspection should be i

categorized as Category C-2. Should all of the initial and subsequent examination results have

' been conservatively categorized as C-2, the consequence, according to Table 4.4-2 of the

Technical Specification, is the addition to the initial sample of eighteen (18) percent additional

tubes to be inspected. Bobbin coil ET was performed on 100 percent of the in-service tubes in l each steam generator. MRPC ET was performed on all in-service tubes of each steam generator at the TSH. Therefore, the Technical Specification requirements for additional examinations

required in response to examination results were met.

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The tubes which were removed from service by plugging prior to this ISI are as follows:

1 Tubes Plugged Prior to 1REO6 ISI Steam Steam Steam Steam Generator Generator Generator Generator A B C D 1-66 1-41 1-80 2-37 2-24 7-21 1-69 3-116 2-8 7-3 2-16 4-37 3-1 8-32 3-96 14-26 4-98 10-60 5-60 15-16 5-43 11-103 8-61 16-83 6-99 11-22 9-114 19-35 6-71 12-102 9-15 19-12 7-40 13-102 12-68 20-100 7-23 15-63 20-42 21-79 8-81 17-22 23-76 23-80 10-45 19-62 23-45 23-78 11-83 19-4 23-44 23-18 12-115 20-116 23-9 24-109 12-7 20-58 24-77 24-81 13-119 21-96 24-51 24-75 13-35 21-33 24-50 24-74 14-118 24-73 25-77 24-56 14-32 24-63 26-72 25-74 15-113 24-46 26-58 25-58 16-109 25-54 26-55 25-54 16-101 28-30 26-52 26-71 16-42 29-41 26-51 27-63 17-76 29-30 26-50 29-84 17-24 30-102 27-113 31-20 17-5 32-78 27-8 35-81 19-65 34-102 28-113 44-44 19-34 37-94 29-11 45-88 21-82 37-62 32-58 45-40 g

22-45 41-69 32-38 46-70 W 3-10 l

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i O Tubes Plugged Prior to 1REO6 ISI Steam Steam Steam Steam Generator Generator Generator Generator A B C D 23-72 43-100 35-34 46-48 23-43 45-62 36-59 46-43

24-44 45-38 39-37 47-94 1

24-42 46-31 42-101 47-52 25-75 46-24 48-80 25-43 48-74 48-70 33-98 48-31 33-78 33-40 35-77 36-69 38-51 I 39-74

41-59

42-68 l 42-59 42-19 2

44-48

46-28

, 47-33 0

3-11

The tubes that were removed from service by plugging as a result of the eddy current ISI performed during this outage are as follows:

Tubes Removed from Service During 1REO6 Steam Steam Steam Steam Generator Generator Generator Generator A B C D 4-4 2-87 3-61 4-31 13-3 9-12 13-60 14-96 17-39 19-5 18-42 18-45 23-47 19-70 19-42 20-30 1

23-63 20-47 21-76 20-38 23-69 22-5 24-25 20-50 24-65 22-27 24-43 20-76 24-75 23-39 25-49 21-47 25-44 23-73 25-50 21-87 25-55 23-80 25-51 22-44 25-67 24-43 25-52 22-45 l 26-64 24-76 25-53 23-68 27-82 24-77 25-67 23-77 37-85 24-79 25-73 24-42 40-79 25-66 30-24 24-44 25-68 32-39 24-48 25-69 37-78 24-68 25-72 41-103 25-69 25-74 42-31 25-73  !

26-67 26-42 g

3-12 l

LO Tubes Removed from Service During 1REO6 Steam Steam Steam Steam Generator Generator Generator Generator j A B C D l 26-74 26-70 28-79 27-37 29-22 27-101 29-87 28-11 t

( 38-59 30-75 i

48-39 35-57 36-58 37-20 37-67 37-78 39-70 40-54 40-78 41-42 41-103 43-77 44-58 l No corrective actions were performed as a result of dings or dents detected during this ISI.

3.6 Certification of Inspections l A'Section XI NIS-1 form, " Owner's Report for Inservice Inspections," has been prepared to

certify the STPEGS Unit 1 ISI examinations have been certified by our ANII, Factory Mutual l~ Engineering Association, on the NIS-1 form included in Appendix 3-F.

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) APPENDIX 3-A i

CIIANGES TO TIIE ISI OUTAGE PLAN i

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APPENDIX 3-A CIIANGES TO TIIE ISI OUTAGE PLAN Change Nc.1 DESCRIPTION OF CHANGE (ADDITION OR DELETIONM In paragraph 4.1 the requirements for bobbin coil inspections of Rows 2,3, and 4 to say " Tubes in Rows 2,3, and 4 will be run from tube-end, cold leg (TEC) to the tenth hot leg support plate (10H) with a .590" or larger SF/RM probe."

REASON FOR CHANGE:

In theory, a .610" diameter probe will provide a better examination than a .590" diameter probe in the STPEGS tubing. Therefore, the use of the .610" diameter prove should be permitted, where it can be used efficiently.

TECHNICAL BASIS:

( In Rows 1,2,3, and 4 it is sometimes necessary to use a smaller diameter bobbin coil probe

(.590") because the friction of the small radius U-bends make it difficult to drive a larger probe.

Generally the use of larger coil sizes (fill factor) produce better examinations. Use of the .590" coil is adequate. Use of the .610" coil is better.

SCHEDULE IMPACT:

Shortens schedule.

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CIIANGES TO TIIE ISI OUTAGE PLAN i

l Change No. 2 PESCRIPTION OF CHANGE (ADDITION OR DELETION):

In paragraph 4.2 the requirements for measuring the depth of preheater wear should say " Bobbin coil cddy current test indications at preheater baffle plates which are suspected to be caused by wear will be examined with a bobbin coil using the preheater wear scar calibration standard and will have a depth assigned."

REASON FOR CHANGE:

. The p' n said that MRPC would be used to measure wear. To change to an MRPC probe from a bobbin coil probe, for this purpose, would expend time and accumulate radiation dose which is not necessary.

TECHNICAL BASIS:

Preheater wear at STPEGS has been very shallow. Bobbin coil measurement of preheater wear O,

depth is sufficiently accurate. l SCHEDULE IMPACT:

Shortens schedule.

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APPENDIX 3-B

LIST OF EXAMINATION AND DATA ANALYSIS PERSONNEL

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- ..=. _ -- . . . . - . .. .- . . _ - .

l O APPENDIX 3-B LIST OF EXAMINATION AND DATA ANALYSIS PERSONNEL EDDY CURRENT TESTING DATA ACQUISITION PERSONNEL COMPANY NAME ET CERT. LEVEL ID NO.

RTI Abendanio, H.C. I A7045 i RTI Baker, EP I B3615 l RTI Boreliz, M.J. IIB B4165 FTI Bryant, D.N. II B2224 l FTI Cecil, W.R. IIA C3697.

I FTI Colado, L.E. IIA C9318 FTI Cooper, L.R. II C9813 RTI Deadrich, R.T. I D9573 FTI Duffield, T.S. II D6502 FTI Griffin, G.R. I G7081 RTI Keniepp, M.R. II K2707 l Zetec King, J.R. II K9600 FTI Knox, B.L. IIA K6388

, FTI Kovalesky, T.L. IIA K2858 l

Zetec Leach, A.G.M.L. II L5807 RTI Largey, C. IIB L4692 '

FTI McMillan, W.P. II M9460 FTI Miller, R.L. I M4879 RTI Mingus, D.A. II M7007 l FTI Mitchell, T.L. IIA M5765 l

RTI Morgan, D.R. I M1809 i FTI Morgan, J.A. I M8632 RTI Morrill, J.R. I M6446 l FTI Munsterman, T.H. II M9812 l Zetec Niemi, K.D. II N9369 RTI Pantoja, D. II P0520 DPCo Parker, D.L. II P5581 RTI Pavia, F.B. II P2472 FTI Perkins, W.R. IIA P2952 FTI Petty, D.R. II P2272 FTI Pierce, C.P. I P5681 l FTI Quick, B.E. I Q8070

, RTI Ready, S.D. II R9452 l RTI Sears, R.A. IIA S8374 Zetec Thulien, T. A. IIA T5616 m RTI Vornhagen, J.W. IIB V6131 RTI Waters, J.R. II W1373

FTI Welsh, J.P. IT W3368 l 1 B-1 l l i l

l

APPENDIX 3-B LIST OF EXAMINATION AND DATA ANALYSIS PERSONNEL EDDY CURRENT TESTING PRIMARY DATA ANALYSIS PERSONNEL COMPANY NAME ET CERT. LEVEL ANALYST CODE FTI Barnes, R.M. III B0690 FTI Bridgforth, W.D. IIA B1055 FTI Brooks-Crocker, W. IIA B2860 FTI Boudreaux, W.M. III B3720 BWI Butcher, S.N. IIA B3750 RTI Chambers, D.M. III C5542 FTI Cooper, L.R. IIA C9813 FTI Deddens, J.C. IIA D7949 FTI Everett, B.L. IIA E2448 VJ Friesner, R.L. III F9284 RTI Fuller, C.L. IIA F6623 TEC Garcia, F.L. IIA G4574 DPCo Greene, D.R. III G1931 FTI Himmelspach, R.J. IIA H8259 RTI Holden, T. A. III H1748 VJ Hover, L.D. III H1274 i VJ FTI Ingethron, G.J.

Johnson, K.L.

IIA IIA 12393 J6276 h '

FTI Korkowski, E.M. IIA K7060 FTI Ideau, K.S. IIA L2157 I FTI Loer, M.S. IIA L7871 VJ Lopez, E.T. IIA L7291 TEC Martin, M.F. IIA M4322 RTI Merriman, R.H. III M7006 RTI Mitchell, J.F. IIA M9459 FTI Neyman, R.L. III N0942 FTI Oliver, J.C. IIA 01057 FTI Parrish, J.M. IIA -

P5436 FTI Pendergrass, R.A. IIA P2201 VJ Pieh, A.L. IIA P4202 FTI Porter, M.P. IIA P1790 FTI Ribaric, T. A. IIA R6452 RTI Richardson, H. A. IIA R9311 TEC Rico, P.G. IIA R8278 TEC Sanz, A.F. IIA S4776 FTI Schlicht, W.R. IIA S6369 BWI Smith, P.R. IIA S0290 VJ Spencer, J.L. IIA S7675 FTI Story, M.M. III S4373 B-2

i j

i 4

O APPENDIX 3-B

' LIST OF EXAMINATION AND DATA ANALYSIS PERSONNEL EDDY CURRENT TESTING PRIMARY DATA ANALYSIS PERSONNEL

' COMPANY NAME ET CERT. LEVEL ANALYST CODE TEC Valenciano, F.D. IIA V6354 3 FTI Washburn, T.G. IIA W4892 i

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APPENDIX 3.B LIST OF EXAMINATION AND DATA ANALYSIS PERSONNEL EDDY CURRENT TESTING SECONDARY DATA ANALYSIS PERSONNEL l l

COMPANY NAME ET CERT. LEVEL ANALYST CODE Q Akerlind, B.E. III BEA NDE Case, J.M. IIA JMC AJB Chapala, J.J. III JJC V Coradi, M.D. III MDC NDE Ethridge, G.J. IIA GJE ANA Gardner, C.L. IIA CLG NDE Hicks, O.L. IIA OLH ANA Hyland, D.P. IIA DPH ANA Kotcher, W.G. IIA WGK NDE Lewis, D.A. IIA DAL NDE Imhner, E.T. IIA ETL l NDE Looper, V.R. IIIA VRL NDE Mast, M.S. IIIA MSM '

ANA Miranda, R.D. III RDM NDE Siegel, R.A. IIA RAS NDE Shelden, J.T. IIA JTS W Spence, W.J. 1 71 WJS NDE Stokke, T.E. IIA TES NDE Wheeler, C.K. ITA CKW ANA Williamson, A.G. IIA AGW ANA Williamson, J.C. IIA JCW ANA Williamson, L.R. IIA LRW FTI = Framatome Technologies, Inc.

RTI = Rockridge Technologies, Inc.

Zetec = Zetec, Inc.

DPCo = Duke Power Company BWI = B&W International TEC = Tecnatom VJ = Verner & James Q = Quantum

, ANA = ANATEC V = Vortex NDE = NDE Technologies AJB = AJB Technologies W = Westinghouse O

B-4

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i I APPENDIX 3-C TUBES EXAMINED BY MRPC AT LOCATIONS

,' l OTIIER TIIAN TSII i

4 t

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1

AREAS EXAMINED BY MRPC AT LOCATIONS O OTHER THAN TSH STEAM GENERATOR A STP-1 5/96 1RE06 Row Column leg Extent 1 Extent 2 Probe 1 1 TEH 11C 10H 5801P 1 1 TEH 02H 02H 6103C 1 2 TEH 11C 10H 5801P l 1 3 TEH 11C 10H 5801P 1 4 TEH 11C 10H 5801P

[

j. 1 5 TEH 11C. 10H 5801P i

1 6 TEH 11C 10H. 5801P 1 7 TEH 11C 10H 5801P 1 8 TEH 11C 10H 5801P l 1 9 TEH 11C 10H 5801P 1 10 TEH 11C 10H - 5801P l 1 11 TEH 11C 10H 5801P

, 1 12 TEH 11C 10H 5801P I 1 13 TEH 11C 10H 5801P 1 14 TEH 11C 10H 5801P

! TEH 1 15 11C 10H 5801P 1 16 TEH 11C 10H 5801P 1 17 TEH 11C 10H 5801P 1 18 TEH 11C 10H 5801P 1 19 TEH 11C- 10H 5801P 1 20 TEH 11C 10H 5801P 1 21 TEH 11C 10H 5801P 1 22 TEH 11C 10H 5801P 1 23 TEH 11C 10H 5801P 1 24 TEH 11C 10H 5801P 1 25 TEH 11C 10H 5801P 1' 26 TEH 11C 10H- 5801P l 1 27 TEH 11C 10H 5801P l l 1 28 TEH 11C 10H 5801P  !

1 29 TEH 11C 10H 5801P l

3-C-1 i

AREAS EXAMINED BY MRPC AT LOCATIONS g OTHER THAN TSH T STEAM GENERATOR A STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 1 30 TEH 11C 10H 5801P 1 31 TEH 11C 10H 5801P 1 32 TEH 11C 10H 5801P 1 33 TEH 11C 10H 5801P 1 34 TEH 11C 10H 5801P 1 35 TEH 11C 10H 5801P 1 36 TEH 11C 10H 5801P 1 37 TEH 11C 10H 5801P 1 38 TEH 11C 10H 5801P 1 39 TEH 11C 10H 5801P 1 40 TEH 11C 10H 5801P 1 41 TEH 11C 10H 5801P 1 42 TEH 11C 10H 5801P 1 43 TEH 11C 10H 5801P 1 44 TEH 11C 10H 5801P 1 45 TEH 11C 10H 5801P 1 46 TEH 11C 10H 5801P 1 47 TEH 11C 10H 5801P 1 48 TEH 11C 10H 5801P 1 49 TEC 10H 11C 5801P 1 50 TEC 10H 11C 5801P 1 51 TEC 10H 11C 5801P 1 52 TEC 10H 11C 5801P 1 53 TEC 10H 11C 5801P 1 54 TEC 10H 11C 5801P 1 55 TEC 10H 11C 5801P 1 56 TEC 10H 11C 5801P 1 57 TEC 10H 11C 5801P 1 58 TEC 10H 11C 5801P 1 59 TEC 10H 11C 5801P 3-C-2

2 l

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AREAS EXAMINED BY MRPC AT LOCATIONS j OTHER THAN TSH STEAM GENERATOR A i STP-1 5/96 1RE06 i

Row Column I.eg Extent 1 Extent 2 Probe 1 60 TEC 10H 11C 5801P

. 1 61 TEC 10H 11C 5801P

1 62 TEC 10H 11C 5801P l 1 63 TEC 10H 11C 5801P l 1 64 TEC 10H 11C 5801P

! 1 65 TEC 10H 11C 5801P l 1 67 TEH 11C 10H 5801P i 1 68 TEH 11C 10H 5801P l 1 69 TEH 11C 10H 5801P 1 70 TEH 11C 10H 5801P l 1 71 TEH 11C 10H 5801P l 1 72- TEH- 11C 10H 5801P 1

1 73 TEH 11C 10H 5801P 3 7 1 74 TEH 11C 10H 5801P i 1 75 TEH 11C 10H 5801P f 1 76 TEH 11C 10H 5801P

! 1 77 TEH 11C- 10H 5801P

! 1- 78 TEH 11C 10H 5801P n 1 79 TEH 11C 10H 5801P I 80 TEH 11C 10H 5801P j 1 81 TEH 11C 10H 5801P i 1 82 TEH 11C 10H 5801P

I 83 TEH 11C 10H 5801P i 1 84 TEH 11C 10H 5801P l 1- 85 TEH 11C 10H 5801P

1 86 TEH 11C 10H 5801P 1 87 TEH 11C 10H 5801P l e

1 88 TEH 11C 10H 5801P j 1 89 TEH 11C 10H 5801P  !

- 1 90 TEH 11C 10H 5801P 1

l 3-C-3 I

AREAS EXAMINED BY hiRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR A STP-1 5/96 1RE06 l Row Column Leg Extent 1 Extent 2 Probe 1 91 TEH 11C 10H 5801P l 1 92 TEH 11C 10H 5801P l 1 93 TEH 11C 10H 5801P 1 94 TEH 11C 10H 5801P 1 95 TEH 11C 10H 5801P 1 96 TEH 11C 10H 5801P 1 97 TEH 11C 10H 5801P 1 98 TEH 11C 10H 5801P 1 99 TEH 11C 10H ' 5801P 1 100 TEH 11C 10H 5801P 1 101 TER 11C 10H 5801P 1 102 TEH 11C 10H 5801P 1 103 TEH 11C 10H 5801P

~

I 104 TEH 11C 10H 5801P 1 105 TEH 11C 10H 5801P i 1 106 TEH 11C 10H 5801P 1 107 TEH 11C 10H 5801P 1 108 TEC 10H 11C 5801P 1 109 TEC 10H 11C 5801P 1 110 TEC 10H 11C 5801P 1 111 TEC 10H 11C 5801P 1 112 TEC 10H 11C 5801P 1 113 TEC 10H 11C 5801P 1 114 TEC 10H 11C 5801P 1 115 TEC 10H 11C 5801P 1 116 TEC 10H 11C 5801P 1 117 TEC 10H 11C 5801P 1 118 TEC 10H 11C 5801P 1 119 TEC 10H 11C 5801P 1 120 TEC 10H 11C 5801P i

3-C-4

- . . - . - - =- - . - . .-. - _ - - - . . . .-

AREAS EXAMINED BY MRPC, AT LOCATIONS

, U^ OTHER THAN TSH STEAM GENERATOR A STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe i 2 TEH 1 TSH TSH 6103C 2 19 TEH 11C 10H 5801P l 2 27 TEH 11C 10H 5801P 2 38 TEC 11C 11C 6103C 2 40 TEC 11C 11C 6103C 2 85 TEH 05H 05H 6103C 3 2 TEH 11C 10H 5801P l 3 3 TEH 11C 10H 5801P 3 13 TEH 11C 10H 5801P l 3 14 TEH 11C 10H 5801P l 3 24 TEH 11C 10H 5801P i 3 25 TEH 11C 10H 5801P 3 35 TEH 11C 10H 5801P q 3 36 TEH 11C 10H 5801P V 3 46 TEH 11C 10H 5801P 3 47 TEH 11C 10H 5801P 3 57 TEC 10H 11C 5801P 3 58 TEC 10H 11C 5801P 3 68 TEH 11C 10H 5801P 3 69 TEH 11C 10H 5801P 3 79 TEH 11C 10H 5801P 3 80 TEH 11C 10H 5801P 3 90 TEH 11C 10H 5801P 3 91 TEH 11C 10H 5801P 3 101 TEH 11C 10H 5801P 3 102 TEH 11C 10H 5801P 3 110 TEH 11C 10H 5801P 3 111 TEC 10H 11C 5801P 3 119 TEC 10H 11C 5801P 3 120 TEC 10H 11C 5801P l

! 3-C-5 l

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR A STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 4 8 TEH TEH TSH 6103C 4 92 TEH 02H 02H 6103C 6 22 TEH 09H 09H 6103C 6 82 TEH 02H 02H 6103C 7 3 TEH TEH TSH 6103C 7 24 TEC 16C 16C 6103C 7 39 TEC TSC TEC 6103C 7 73 TEC 15C 16C 6103C 8 3 TEH TEH TSH 6103C 8 16 TEH 03H 04H 6103C 8 61 TEC 12C 11C 6103C !

8 72 TEC 12C 12C 6103C !

8 75 TEH 05H 06H 6103C l 8 75 TEH 05H 06H 6103C 9 3 TEH TEH TSH 6103C 9 36 TEC 16C 16C 6103C l

9 36 TEC 21C 22C 6103C I 9 51 TEH 03H 03H 6103C 9 110 TEH 08H 08H 6103C 9 113 TEC 23C TSC 6103C 10 7 TEH 04H 05H 6103C 10 7 TEH 04H 05H 6103C 10 23 TEH 07H 07H 6103C 10 55 TEH 07H 07H 6103C 11 24 TEH TSH TSH 6103C 11 42 TEC 21C 22C 6103C 12 4 TEH TEH TSH 6103C 12 31 TEH 02H 02H 6103C 12 96 TEC 13C 14C 6103C 13 4 TEH TEH TSH 6103C 3-C-6

O AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR A STP-1 5/96 1RE06 Row Column I2g Extent 1 Extent 2 Probe 13 28 TEC 12C 13C 6103C 13 63 TEH 06H 06H 6103C 13 99 TEC 11C 11C 6103C 14 4 TEH TEH TSH 6103C 14 61 TEH TEH TSH 6103C 14 62 TEH 05H 05H 6103C 15 11 TEH 07H 08H 6103C 3

15 28 TEC 16C 17C 6103C l 15 57 TEH 02H - 02H 6103C i

15 57 TEH 02H 02H 6103C i

, 16 97 TEC 11C 11C 6103C 16 99 TEC 11C 11C 6103C

] 16 105 TEH O1H TSH 6103C I

16 105 TEH O1H TSH 6103C i .

16 116 TEC 11C 11C 6103C

17 13 TEH O1H TSH 6103C l 17 30 TEH 03H 03H 6103C

] 19 - 4 TEC 22C 22C 6103C

-20 20 TEH 03H 03H 6103C l 20 38 TEH 03H 03H 6103C  !

20 65 TEH 02H 02H 6103C j 20 94 TEH 02H 02H. 6103C t

20 98 TEC 20C 21C 6103C

21 8 TEH TEH TSH 6103C i 21 17 TEC 13C 13C 6103C

. 22 22 TEH 10H 10H 6103C j 22 42 TEC 13C 14C 6103C j 22 116 TEH 08H 08H 6103C

j. 23 20 TEC 11C 12C 6103C l 23 30 TEH 04H 03H 6103C i

3-C-7 1

1 I!

~ -

7 e

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR A STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 24 6 TEH TEH TSH 6103C 24 14 TEC 20C 20C 6103C 24 28 TEH TEH TEH 6103C 24 30 TEC 12C 13C 6103C 24 106 TEC 21C 22C 6103C 26 30 TEH 07H 07H 6103C 26 84 TEC 11C 11C 6103C 27 68 TEH 05H 05H 6103C 27 75 TEH 10H 10H 6103C 27 85 TEH 03H 03H 6103C 29 51 TEC 18C 19C 6103C 29 112 TEC 12C 12C 6103C 30 92 TEH 03H 03H 6103C 30 108 TEC 22C 22C 6103C 31 16 TEH TEH TSH 6103C 31 31 TEH 04H 03H 6103C 32 16 TEH 10H 10H 6103C 32 105 TEC 22C 22C 6103C 33 24 TEH 10H 10H 6103C 33 27 TEH 03H TSH 6103C 33 27 TEH 03H TSH 6103C 33 28 TEH 05H 04H 6103C 33 49 TEH 05H 04H 6103C 33 89 TEH 04H 04H 6103C 33 95 TEH O1H O1H 6103C 33 96 TEH 02H 02H 6103C 33 106 TEH 02H 02H 6103C 34 53 TEC 11C 11C 6103C 35 80 TEH 09H 09H 6103C 35 80 TEH 09H 09H 6103C 3-C-8

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

i' AREAS EXAMINED BY MRPC AT LOCATIONS j OTHER THAN TSH .

j- STEAM GENERATOR A i STP-1 5/96 1RE06 i f Row Column Leg Extent 1 Extent 2 Probe l 35 101 TEH 02H TSH 6103C  !

35 101 TEH 02H TSH 6103C l 35 102 TEC 11C 11C 6103C

! 36 32 TEC 14C 15C 6103C 36 34 TEC 20C 21C 6103C 36 40 TEC 21C- 22C 6103C l l 36 76 TEC TSC TEC 6103C

! 36 102 TEC 11C 11C 6103C >

l 37 30 TEH- 10H 10H 6103C i 37 59 TEC 21C 21C 6103C l

37 59 TEC 22C 23C 6103C I 38 21 TEH 06H 06H 6103C 38 41 TEH 05H 04H 6103C l p 38 44 TEH TSH TEH 6103C 39 27 TEH TSH TSH 6103C l 40 96 TEH 02H 02H 6103C l 40 100 -TEH 02H 02H 6103C

43 79 TEC TSC TEC 6103C j 44 22 TEC 12C 12C 6103C

l. 44 99 TEH 05H 05H 6103C 45 98 TEC 11C 11C 6103C 47 34 TEH- 03H 03H 6103C 47 68 TEH O1H O1H 6103C

-47 72 TEC 11C 11C 6103C

! 1

! l 4

l )

3-C-9 4

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Ixg Extent 1 Extent 2 Probe 1 1 TEC 10H 11C 5801P 1 2 TEC 10H 11C 5801P 1 3 TEC 10H 11C 5801P I 1 4 TEC 10H 11C 5801P 1 5 TEC 10H 11C 5801P

~

1 6 TEC 10H 11C 5801P 1 7 TEC 10H 11C 5801P 1 8 TEC 10H 11C 5801P 1 9 TEC 10H 11C 5801P 1 10 TEC 10H 11C 5801P 1 11 TEC 10H 11C 5801P '

1 12 TEC 10H 11C 5801P 1 13 TEC 10H 11C 5801P l 1 14 TEC 10H 11C 5801P 1 15 TEC 10H 11C 5801P 1 16 TEC 10H 11C 5801P 1 17 TEC 10H 11C 5801P 1 18 TEC 10H 11C 5801P 1 19 TEC 10H 11C 5801P 1 20 TEC 10H 11C 5801P 1 21 TEC 10H 11C 5801P 1 22 TEC 10H 11C 5801P 1 23 TEC 10H 11C 5801P 1 24 TEC 10H 11C 5801P 1 25 TEC 10H 11C 5801P 1 26 TEC 10H 11C 5801P 1 27 TEC 10H 11C 5801P 1 28 TEC 10H 11C 5801P 1 29 TEC 10H 11C 5801P 1 30 TEC 10H 11C 5801P I

3-C-10

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 1 31 TEC 10H 11C 5801P 1 32 TEC 10H 11C 5801P 1 33 TEC 10H 11C 5801P 1 34 TEC 10H 11C 5801P 1 35 TEC 10H 11C 5801P 1 36 TEC 10H 11C 5801P 1 37 TEC 10H 11C 5801P 1 38 TEC 10H 11C 5801P 1 39 TEC 10H 11C 5801P 1 40 TEC 10H 11C 5801P 1 42 TEC 10H 11C 5801P 1 43 TEC 10H 11C 5801P 1 44 TEC 10H 11C 5801P 1 45 TEC 10H 11C 5801P 1 46 TEC 10H 11C 5801P 1 47 TEC 10H 11C 5801P 1 48 TEC 10H 11C 5801P 1 49 TEC 10H 11C 5801P 1 50 TEC 10H 11C 5801P 1 51 TEC 10H 11C 5801P 1 52 TEC 10H 11C 5801P 1 53 TEC 10H 11C 5801P 1 54 TEC 10H 11C 5801P 1 55 TEC 10H 11C 5801P 1 56 TEC 10H 11C 5801P 1 57 TEC 10H 11C 5801P 1 58 TEC 10H 11C 5801P 1 59 TEC 10H 11C 5801P 1 60 TEC 10H 11C 5801P 1 61 TEC 10H 11C 5801P 3-C-11

l l

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH l STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 1 62 TEC 10H 11C 5801P 1 63 TEC 10H 11C 5801P 1 64 TEC 10H 11C 5801P 1 65 TEC 10H 11C 5801P 1 66 TEC 10H 11C 5801P 1 67 TEC 10H 11C 5801P 1 68 TEC 10H 11C 5801P 1 69 TEC 10H 11C 5801P 1 70 TEC 10H 11C 5801P 1 71 TEC 10H 11C 5801P 1 72 TEC 10H 11C 5801P 1 73 TEC 10H 11C 5801P 1 74 TEC 10H 11C 5801P 1 75 TEC 10H 11C 5801P 1 76 TEC 10H 11C 580lP 1 77 TEC 10H 11C 5801P 1 78 TEC 10H 11C 5801P 1 79 TEC 10H 11C 5801P 1 80 TEC 10H 11C 5801P 1 81 TEC 10H 11C 5801P 1 82 TEC 10H 11C 5801P 1 83 TEC 10H 11C 5801P 1 84 TEC 10H 11C 5801P 1 85 TEC 10H 11C 5801P 1 86 TEC 10H 11C 5801P 1 87 TEC 10H 11C 5801P 1 88 TEC 10H 11C 5801P 1 89 TEC 10H 11C 5801P 1 90 TEC 10H 11C 5801P 1 91 TEC 10H 11C l 5801P 3-C-12

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe

1 92 TEC 10H 11C 5801P i 93 TEC 10H 1 11C 5801P f 1 94 TEC 10H 11C 5801P h 1 95 TEC 10H 11C 5801P

, 1 96 TEC 10H 11C 5801P

! 1 97 TEC 10H 11C 5801P f 1 98 TEC 10H 11C 5801P 1 99 TEC 10H 11C 5801P 1 100 TEC 10H 11C 5801P l 1 101 TEC 10H 11C 5801P j 1 102 TEC 10H 11C 5801P l 1 103 TEC 10H 11C 5801P j 1 104 TEC 10H 11C 5801P

1 105 TEC 10H 11C 5801P j .

1 106 TEC 10H 11C 5801P  !

1 107 TEC 10H 11C 5801P i

1 108 TEC 10H 11C 5801P i 1 109 TEC 10H 11C 5801P

1 110 TEC 10H 11C 5801P i 1 111 TEC 10H 11C 5801P l 1 112 TEC 10H 11C 5801P 1 113 TEC 10H 11C 5801P

! 1 114 TEC 10H 11C 5801P 1 115 TEC 10H 11C 5801P 1 116 TEC 10H 11C 5801P

. 1 117 TEC 10H 11C 5801P 1 118 TEC 10H- 11C 5801P

1 119 TEH 11C 10H 5801P  !

i 1 120 TEC 10H 11C 5801P l j 2 102 TEH 02H 02H 6103C 3-C-13

AREAS EXAMINED BY MRPC AT LOCATIONS  :

OTHER THAN TSH STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 2 109 TEH TSH 02H 6103C 3 2 TEC 10H 11C 5801P 3 3 TEC 10H 11C 5801P 3 13 TEC 10H 11C 5801P 3 14 TEC 10H 11C 5801P 3 24 TEC 10H 11C 5801P 3 25 TEC 10H 11C 5801P 3 35 TEC 10H 11C 5801P 3 36 TEC 10H 11C 5801P 3 46 TEC 10H 11C 5801P 3 47 TEC 10H 11C 5801P 3 57 TEC 10H 11C 5801P 3 58 TEC 10H 11C 5801P 3 64 TEH 06H 06H 6103C !

3 68 TEC 10H 11C 5801P 3 69 TEC 10H 11C 5801P l 3 79 TEC 10H 11C 5801P 3 80 TEC 10H 11C 5801P 3 90 TEC 10H 11C 5801P 3 91 TEC 10H 11C 5801P 3 101 TEH 11C 10H 5801P 3 102 TEC 10H 11C 5801P 3 110 TEC 10H llc 5801P 3 111 TEC 10H 11C 5801P 3 119 TEH 11C 10H 5801P 3 120 TEC 10H 11C 5801P 4 14 TEH TSH TSH 6103C 7 15 TEH 02H 02H 6103C 7 24 TEH 10H 10H 6103C 7 69 TEH 06H 06H 6103C 3-C-14

i-II l AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH i- STEAM GENERATOR B STP-1 5/96 1RE06

. Row Column I2g Extent 1 Extent 2 Probe l 7 88 TEH TSH O1H 6103C I

. 7 93 TEC 17C 17C 6103C

! 8 28 TEH 06H 05H 6103C 8 44 TEH 06H 05H 6103C j 9 12 .TEC 16C 16C 6103C l 10 22 TEC 14C 14C 6103C i 10 117 TEH 06H- 05H 6103C i 11 10 TEH 03H 03H 6103C i l 11 48 TEH 07H 06H 6103C j 11 61 TEC 12C 11C 6103C I 11 91 TEC 20C 20C 6103C l 12 31 TEH 05H 04H 6103C

, 13 81 TEH 08H 07H 6103C ,

! 14 44 TEH 10H 09H 6103C 14 93 TEH 08H 07H 6103C

)- 14 101. TEC 16C 15C 6103C f 16 4 TEH 02H- 03H 6103C l 16 6- TEC 13C 13C 6103C j- 16 7 TEC 20C 20C 6103C l 16 33 TEH 06H 05H 6103C l

16 50 TEH TSH TEH 6103C

16 62 TEH 10H 10H 6103C l 16 84 TEC 16C 16C 6103C

) 16 101 TEC 19C 19C 6103C

' 18 42 TEC 22C 21C 6103C

. 18 79 TEC 14C 14C 6103C 18 101 TEH 05H 04H 6103C

. 19 5 TEH 02H 02H 6103C

19 6- TEH 02H O1H 6103C 19 40 TEC 17C 17C 6103C 1

o i

j 3-C-15 L

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 20 11 TEC 14C 14C 6103C 20 18 TEC 13C 13C 6103C 20 92 TEH 08H 08H 6103C 21 100 TEC 12C 12C 6103C 22 5 TEC 14C 14C 6103C 22 8 TEH 06H 06H 6103C 22 116 TEC 13C 13C 6103C l

23 17 TEC 18C 18C 6103C 23 107 TEH 10H 09H 6103C 23 108 TEH TSH TSH 6103C 24 20 TEC 13C 13C 6103C  :

24 52 TEH 04H 03H 6103C 24 70 TEH 09H 08H 6103C 24 24 79 82 TEC TEH 15C 08H 15C 07H 6103C 6103C g

24 103 TEC 15C 14C 6103C 25 48 TEC 13C 13C 6103C 25 48 TEH 04H 03H 6103C 26 8 TEC 15C 15C 6103C j 26 8 TEH 05H 05H 6103C 27 19 TEH O1H O1H 6103C  ;

27 83 TEC 12C 11C 6103C 28 32 TEH 05H 05H 6103C 28 82 TEC 20C 21C 6103C 28 92 TEC 11C 11C 6103C 29 23 TEH TSH TSH 6103C 29 87 TEH 09H 09H 6103C  !

29 93 TEC 16C 15C 6103C l 29 105 TEC AV4 AV3 5801P 29 105 TEC AV4 AV4 5801P 3-C-16

4 i

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR B

STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 31 20 TEC 15C 15C 6103C 33 17 TEC 22C 22C 6103C

34. 97 TEH 02H 02H 6103C j 35 15 TEC 11C 11C 6103C

! 35 59 TEH 05H - 04H 6103C l 35 63 TEC 18C 18C 6103C i 35 77 TEC 17C 16C 6103C

35 81 .TEC 14C 14C 6103C i 35 81 TEC 15C 14C 6103C

36 14 TEH 08H 08H 6103C 36 37 TEH 07H - 06H 6103C 36 97 TEH 08H 07H 6103C l 37 81 TEC 14C 14C 6103C l' p 38 48 TEH 09H 08H 6103C l V 38 74 TEH TSH TSH 6103C 39 50 TEH 07H 06H 6103C f 39 64 TEC 11C 11C 6103C

40 58 TEH 09H 08H 6103C i 40 90 TEH i

09H 08H 6103C 40 104 TEH TSH TSH 6103C 41 18 TEC 22C 22C 6103C l

41 75 TEH TSH TSH 6103C

41 75 TEH TSH TSH 6103C

! 42 21 TEH 07H 07H 6103C 42 102 TEC 16C- 16C 6103C

! 43 85 TEC 23C 23C 6103C h 44 49 TEH 10H 10H 6103C j 46 76 TEH 04H 03H - 6103C j 46 97 TEH 09H 09H 6103C l 46 97 TEH 09H 10H 6103C 1

l 3-C-17

l AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR B STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 47 34 TEH 10H 10H 6103C 47 47 TEC 15C 15C 6103C 47 48 TEH O1H TSH 6103C 48 44 TEC 17C 17C 6103C 48 47 TEC 14C 13C 6103C 48 66 TEC 22C 22C 6103C 48 76 TEC 12C 11C 6103C 48 87 TEH 05H 04H 6103C O

3-C-18

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH I STEAM GENERATOR C ,

L STP-1 5/96 1RE06  :

i Row Column I2g Extent 1 Extent 2 Probe 1 2 TEC 10H 11C 5801P l 1 3 TEC 10H 11C 5801P l 1 4 TEC 10H 11C 5801P l 1 5 TEC 10H 11C 5801P l 1 6 TEC 10H 11C 5801P l 1 7 TEC 10H 11C 5801P  !

1 8 TEC 10H 11C 580lP i i 1 9 TEC 10H 11C 5801P 1 9 TEH 04H 04H 6103C i 1 10 TEC 10H 11C 5801P f

l 1 11 TEC 10H 11C 5801P 1 12 TEC 10H 11C- 5801P TEC 10H L

O 1 1

13 14 TEC 10H 11C 11C 5801P 5801P l

j l' 15 TEC 10H 11C 5801P  ;

1 16 TEC 10H 11C 5801P l 1 17 TEC. 10H 11C 5801P

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1 18 TEC 10H 11C 5801P 1 19 TEC 10H 11C 5801P 1 20 TEC 10H 11C 5801P 1 21 TEC 10H 11C 5801P j 1 22 TEC 10H 11C 5801P l 1 23 TEC 10H 11C 580lP 1 24 TEC 10H 11C 5801P 1 25 TEC 10H 11C 5801P i 1 25 TEH 07H 06H. 6103C 1 26 TEC 10H 11C 5801P 1 27 TEC 10H 11C 580lP 1 27 TEH 02H O1H 6103C 3-C-19

AREAS EXAMINED BY MRPC AT LOCATIONS g {

OTHER THAN TSH w l STEAM GENERATOR C I STP-1 5/96 1RE06 i Row Column Leg Extent 1 Extent 2 Probe 1 28 TEC 10H 11C 5801P 1 29 TEC 10H 11C 5801P 1 30 TEC 10H 11C 5801P 1 31 TEC 10H 11C 5801P  !

1 32 TEC 10H 11C 5801P '

1 33 TEC 10H 11C 5801P 1 33 TEH 08H 07H 6103C 1 34 TEC 10H 11C 5801P 1 35 TEC 10H 11C 5801P 4 1 36 TEC 10H 11C 5801P 1 37 TEC 10H 11C 5801P 1 38 TEC 10H 11C 5801P 1 39 TEC 10H 11C 5801P 1 40 TEC 10H 11C 5801P 1 41 TEC 10H 11C 5801P 1 42 TEC 10H 11C 5801P 1 43 TEC 10H 11C 5801P 1 44 TEC 10H 11C 5801P 1 45 TEC 10H 11C 5801P 1 46 TEC 10H 11C 5801P 1 47 TEC 10H 11C 5801P 1 48 TEC 10H 11C 5801P 1 49 TEC 10H 11C 5801P 1 50 TEC 10H 11C 5801P 1 51 TEC 10H 11C 5801P 1 52 TEC 10H 11C 5801P 1 52 TEH 04H 04H 6103C 1 53 TEC 10H 11C 5801P 1 54 TEC 10H 11C 5801P l 1 55 TEC 10H 11C 5801P 3-C-20 O

I p AREAS EXAMINED BY MRPC AT LOCATIONS V OTHER THAN TSH  ;

STEAM GENERATOR C STP-1 5/96 1RE06 l Row Column Leg Extent 1 Extent 2 Probe 1 56 TEC 10H 11C 5801P 1 57 TEC 10H 11C 5801P 1 58 TEC 10H 11C 5801P 1 59 TEC 10H 11C 5801P 1 60 TEC 10H 11C 5801P j 1 61 TEC 10H 11C 5801P l 1 62 TEC 10H 11C 5801P l 1 63 TEC 10H 11C 5801P 1 64 TEC 10H 11C 5801P 1 65 TEC 10H 11C 5801P l 1 66 TEC 10H 11C 5801P ,

1 67 TEC 10H 11C 5801P l 1 68 TEC 10H 11C 5801P 1 70 TEC 10H 11C 5801P 1 71 TEC 10H 11C 5801P <

1 72 TEC 10H 11C 5801P 1 73 TEC 10H 11C 5801P l

1 74 TEC 10H 11C 5801P 1 75 TEC 10H 11C 5801P 1 76 TEC 10H 11C 5801P l 1 77 TEC 10H 11C 5801P l 1 78 TEC 10H 11C 5801P 1 79 TEC 10H 11C 5801P 1 81 TEC 10H 11C 5801P l 1 81 TEH 06H 06H 6103C 1 82 TEC 10H 11C 5801P 1 83 TEC 10H 11C 5801P l

1 84 TEC 10H 11C 5801P 1 85 TEC 10H 11C 5801P 1 86 TEC 10H 11C 5801P 3-C-21 l

l AREAS EXAMINED BY MRPC AT LOCATIONS g OTHER THAN TSH W STEAM GENERATOR C STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 1 87 TEC 10H 11C 5801P 1 88 TEC 10H 11C 5801P 1 89 TEC 10H 11C 5801P 1 90 TEC 10H 11C 5801P 1 91 TEC 10H 11C 5801P 1 92 TEC 10H 11C 5801P 1 93 TEC 10H 11C 5801P 1 94 TEC 10H 11C 5801P 1 95 TEC 10H 11C 5801P 1 96 TEC 10H 11C 5801P 1 97 TEC 10H 11C 5801P l

1 97 TEH O1H TSH 6103C 1 98 TEC 10H 11C 5801P 99 TEC 10H 11C 5801P 1

g l 1 100 TEC 10H 11C 5801P W l 1 101 TEC 10H 11C 5801P I 1 102 TEC 10H 11C 5801P 1 103 TEC 10H 11C 5801P 1 104 TEC 10H 11C 5801P 1 105 TEC 10H 11C 5801P 1 106 TEC 10H 11C 5801P 1 107 TEC 10H 11C 5801P 1 108 TEC 10H 11C 5801P 1 109 TEC 10H 11C 5801P 1 110 TEC 10H 11C 5801P 1 111 TEC 10H 11C 5801P 1 112 TEC 10H 11C 5801P 1 113 TEC 10H 11C 5801P 1 114 TEC 10H 11C 5801P 1 115 TEC 10H 11C 5801P 3-C-22

1 t' AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR C STP-1 5/96 1RE06 l Row Column Leg Extent 1 Extent 2 Probe 1 116 TEC 10H 11C 5801P 1 117 TEC 10H 11C 5801P 1 118 TEC 10H 11C 580lP 1 119 TEC 10H 11C 5801P 1 120 TEC 10H 11C 580lP 3 2 TEC 10H 11C 580lP l 3 3 TEC 10H 11C 580lP 3 13 TEC 10H 11C 5801P 3 14 TEC 10H 11C 580lP i 3 24 TEC 10H 11C 5801P 3 25 TEC 10H 11C 5801P 3 29 TEH 06H 05H 6103C 3 35 TEC 10H IIC 5801P s 3 36 TEC 10H 11C 580lP

! 3 46 TEC 10H 11C 580lP 3 47 TEC 10H 11C 580lP l 1 3 57 TEC 10H 11C 5801P 1 3 58 TEC 10H 11C 5801P 3 68 TEC 10H 11C 5801P ,

3 69 TEC 10H 11C 580lP l 3 79 TEC 10H 11C 5801P 1

3 80 TEC 10H llc 580lP 3 90 TEC 10H 11C 5801P 3 91 TEC 10H 11C 580lP '

l 3 95 TEH O1H TSH 6103C 3 101 TEC 10H llc 5801P 3 102 TEC 10H 11C 5801P 3 110 TEC 10H 11C 580lP 3 111 TEC 10H 11C 580lP 3 119 TEC 10H 11C 580lP (O v/ 3-C-23

l AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR C STP-1 5/96 1RE06 1 Row Column Leg Extent 1 Extent 2 Probe l 3 120 TEC 10H 11C 5801P 4 12 TEH 06H 06H 6103C 4 12 TEH 06H 06H 6103C 4 28 TEH 10H 09H 6103C 4 52 TEC 22C 22C 6103C 4 72 TEH 05H 05H 6103C 4 94 TEH 02H O1H 6103C 4 109 TEH O1H O1H 6103C 5 111 TEH 09H 09H 6103C  ;

7 114 TEH 05H 05H 6103C 9 5 TEH TSH TSH 6103C l 9 5 TEH TSH TSH 6103C 10 113 TEH 06H 05H 6103C 10 119 TEC 11C l 11C 6103C g 11 20 TEH TSH TSH 6103C W l 11 53 TEC 20C 20C 6103C 11 88 TEH O1H O1H 6103C 11 112 TEC 11C 12C 6103C 12 94 TEC 13C 13C 6103C 12 102 TEH 02H 02H 6103C 15 53 TEC 16C 17C 6103C 15 79 TEC 18C 19C 6103C 16 4 TEH 06H 06H 6103C 1

16 4 TEH 06H 06H 6103C 16 4 TEH 07H 07H 6103C 16 8 TEH 07H 07H 6103C l 16 30 TEC 12C 12C 6103C 16 32 TEC 11C 12C 6103C 17 54 TEC 15C 15C 6103C 17 78 TEC 12C 12C 6103C 3-C-24

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR C STP-1 5/96 1RE06 Row Column Leg- Extent 1 Extent 2 Probe 17 88 TEH 01H O1H 6103C 17 109 TEC 14C 14C 6103C 18- 4 TEC 14C 15C 6103C 4

18 40 TEH 08H 08H 6103C i 18 44 TEC 21C 22C 6103C i

18 44- TEH 08H 08H 6103C l 18 47 TEH 09H 08H 6103C l 18 113 TEC 16C 17C 6103C l 19 4 TEH O1H O1H 6103C l 19 61 TEC 12C 13C 6103C i 19 61 TEC 12C 13C 6103C l

19 61 TEH 05H 05~H 6103C

20. 47 TEH 02H TSH 6103C i

20 59 TEH 10H 09H~ 6103C l 20 - 69 TEC 19C 20C 6103C i- 20- 82 TEC 15C - 15C 6103C 21 78 TEH- 09H 09H 6103C l 22 5 TEC- 14C 14C 6103C l 22 94 TEH O1H - TSH 6103C 22 97 TEH O1H O1H 6103C 22 97- TEH O1H O1H 6103C 22 97 TEH O1H O1H 6103C 22 112 TEC 11C 12C 6103C 23 40 TEH 10H 10H 6103C 23 78 TEH 02H 02H 6103C 23 81 TEC 21C 21C 6103C 23 86 TEH 06H 05H 6103C 24 64 TEH 04H 04H 6103C 25 21 TEH 02H 02H 6103C 25 35 TEH 04H 04H 6103C 3-C-25

l AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH '

STEAM GENERATOR C STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe i 25 82 TEC 16C 17C 6103C 25 102 TEC 20C 21C 6103C 26 96 TEC 13C 13C 6103C 28 18 TEC 16C 17C 6103C I 28 18 TEH 08H 08H 6103C 28 91 TEH 02H 02H 6103C 1

28 94 TEC 12C 13C 6103C 29 80 TEH 05H 05H 6103C 29 85 TEH 07H 06H 6103C 30 24 TEH TSH TSH 6103C 30 38 TEC 17C 17C 6103C 30 68 TEH 04H 03H 6103C 31 46 TEC 20C 20C 6103C 31 58 TEC 12C 12C 6103C 31 62 TEH 07H 07H 6103C 32 65 TEC 11C 12C 6103C 32 69 TEC 22C TSC 6103C 32 83 TEC AV4 11C 5801P 33 13 TEC 20C 21C 6103C '

33 37 TEC 23C 23C 6103C 33 47 TEC 14C 14C 6103C 34 73 TEH 07H 07H 6103C 34 109 TEH 09H 09H 6103C 35 72 TEH 02H O1H 6103C 35 91 TEC 15C 15C 6103C 36 24 TEH 02H 02H 6103C 36 27 TEH 04H 04H 6103C 36 34 TEH 10H 10H 6103C 36 107 TEC 16C 16C 5403C 37 30 TEH TSH TEH 6103C 3-C-26

- = -. - - .-... . . .

, AREAS EXAMINED BY MRPC AT LOCATIONS j

% OTHER THAN TSH '

STEAM GENERATOR C STP-1 5/96 1RE06 l Row Column Leg Extent 1 Extent 2 Probe 37 56 TEH 07H 07H 6103C 37 106 TEH 03H 03H 6103C 38 49 TEH 02H 02H 6103C 38 88 TEH 09H 09H 6103C 38 90 TEC 21C 22C 6103C 39 54 TEC 13C 13C 6103C 39 63 TEC 14C 16C 6103C 39 63 TEC 14C 16C 6103C I 39 74 TEC 14C 15C 6103C 39 105 TEH 07H 06H 6103C 40 72 TEC 15C 16C 6103C 40 75 TEH 04H 04H 6103C 41 22 TEH TSH TSH 6103C i n 41 83 TEH 10H 10H 6103C

.V 41 88 TEC 11C 11C 6103C 41 103 TEC 16C 16C 5403C 41 103 TEC 18C 18C 6103C 42 19 TEH 05H 05H 5403C 42 20 TEH 05H 05H 6103C 42 26 TEH 10H 10H 6103C 42 68 TEC 11C 11C 6103C 42 99 TEC 22C 22C 6103C 42 100 TEC 22C 22C 6103C 42 102 TEC 15C 15C 6103C 42 102 TEC 22C 22C 6103C 43 48 TEC 13C 14C 6103C 43 48 TEC 19C 20C 6103C 43 48- TEC 14C 14C 6103C 43 54 TEC 11C 12C 6103C 43 89 TEH 10H 10H 6103C

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V 3-C-27

i i

AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH g

T STEAM GENERATOR C STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 43 94 TEH 10H 09H 6103C 43 99 TEC 22C 22C 6103C 43 100 TEC 22C 22C 6103C 44 22 TEH 07H 06H 6103C 44 22 TEH 07H 07H 6103C 44 22 TEC 15C 16C 6103C 44 41 TEC 11C 11C 6103C 44 71 TEC 11C 12C 6103C 44 74 TEC 11C 11C 6103C 44 83 TEC 11C 11C 6103C 44 86 TEC 11C 11C 6103C 44 99 TEC 22C 22C 6103C 45 39 TEC 11C 11C 6103C 45 74 TEC 11C 11C 6103C 45 77 TEH O1H O1H 6103C 45 82 TEC 17C 17C 6103C 45 93 TEC 11C 11C 6103C 45 93 TEC 11C 11C 6103C 45 94 TEC 11C 11C 6103C i 47 30 TEC 11C 11C 6103C 47 38 TEH O1H O1H 6103C 47 69 TEC 12C 12C 6103C 48 42 TEC 15C 15C 6103C l 48 46 TEC 14C 14C 6103C l 48 48 TEC 12C 12C 6103C 48 50 TEH 09H 09H 6103C 48 55 TEC 17C 19C 6103C 48 56 TEC 12C 12C 6103C 1 48 56 TEH 10H 10H 6103C l 48 64 TEC 11C 11C 6103C 4

3-C-28

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

.i

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, AREAS EXAMINED BY MRPC AT LOCATIONS l OTHER THAN TSH l i STEAM GENERATOR C i STP-1 5/96 1RE06 l

Row Column Leg Extent 1 Extent 2 Probe j 48 87 TEC 11C 11C 6103C I i 48 91 TEH 10H 10H 6103C 4

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O 3-C-29

AREAS EXAMINED BY MRPC AT LOCATIONS g OTHER THAN TSH T STEAM GENERATOR D STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 1 1 TEH 11C 10H 5801P 1 2 TEH 11C 10H 5801P 1 3 TEH 11C 10H 5801P 1 4 TEH 11C 10H 5801P 1 5 TEH 11C 10H 5801P 1 6 TEH 11C 10H 5801P 1 7 TEH 11C 10H 5801P 1 8 TEH 11C 10H 5801P 1 9 TEH 11C 10H 5801P 1 10 TEH 11C 10H 5801P l 1 11 TEH 11C 10H 5801P 1 12 TEH 11C 10H 5801P 1 13 TEH 11C 10H 5801P j 1 14 TEH 11C 10H 5801P 1 15 TEH 11C 10H 5801P 1 16 TEH 11C 10H 5801P l 1 17 TEH 11C 10H 5801P 1 18 TEH 11C 10H 5801P 1 19 TEH 11C 10H 5801P 1 20 TEH 06H 05H 6103C 1 20 TEH 11C 10H 5801P 1 21 TEH 11C 10H 5801P l 1 22 TEH 11C 10H 5801P 1 23 TEH 11C 10H 5801P 1 24 TEH 11C 10H 5801P 1 25 TEH 11C 10H 5801P 1 26 TEH 11C 10H 5801P 1 27 TEH 11C 10H 5801P 1 28 TEH 11C 10H 5801P 1 29 TEH 11C 10H 5801P 3-C-30

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AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR D STP-1 5/96 -1RE06 Row Column I2g Extent 1 Extent 2 Probe 1 30 TEH llc 10H 5801P 1 31 TEH 11C. 10H 5801P 1 32 TEH 11C 10H 5801P 1 33 TEH 11C 10H 5801P 1 34 TEH 11C 10H 5801P 1 35 TEH 11C 10H 5801P l 1 36 TEH 11C 10H 5801P l 1 37 TEH 11C 10H 5801P l 1 38 TEH 11C 10H 5801P 1 39 TEH 11C 10H 5801P l 1 40 TEH 11C 10H 5801P l 1 41 TEH- 11C 10H 5801P l 1. 42 TEH 11C 10H 5801P  !

l 1. 43 TEH 11C 10H 5801P l

1 44 TEH 11C 10H 5801P 1 45 TEH 11C 10H 5801P u 1 46. TEH 11C 10H 5801P 1 47 TEH 11C 10H 5801P 1 48 TEH 11C 10H 5801P l 1 49 TEH 11C 10H 5801P 1 50 TEC 10H 11C 5801P

! 51 TEC 10H 11C 1 5801P 1 52 TEC 10H 11C 5801P

! 1 53 TEC 10H 11C 5801P l l 1 54 TER 11C 10H 5801P {

! 1 55 TEC 10H 11C 5801P l 1 56 TEC 10H 11C- 5801P 1 57 TEC 10H 11C 5801P 1 58 TEC 10H 11C 5801P i

! 1 59 TEC 10H 11C 5801P l 3-C-31 l

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AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR D STP-1 5/96 1RE06 Row Column Ixg Extent 1 Extent 2 Probe 1 60 TEC 10H 11C 580lP 1 61 TEC 10H 11C 5801P l 1 62 TEH 11C 10H 5801P 1 63 TEH 11C 10H 5801P l 1 64 TEC 10H 11C 5801P l 1 65 TEC 10H 11C 5801P 1 66 TEH 11C 10H 580lP 1 67 TEH 07H 07H 6103C 1 67 TEH 11C 10H 580lP i 1 68 TEH 11C 10H 580lP 1 69 TEH 11C 10H 5801P 1 70 TEH 07H 07H 6103C 1 70 TEH 11C 10H 5801P 1 71 TEH 11C 10H 5801P

! 1 72 TEH 11C 10H 5801P 1 73 TEH 11C 10H 580lP 1 74 TEH 11C 10H 5801P 1 75 TEH 07H 07H 6103C 1 75 TEH 11C 10H 5801P 1 76 TEH 11C 10H 5801P 1 77 TEH 11C 10H 5801P 1 78 TEH 11C 10H 5801P 1 79 TEH 11C 10H 580lP 1 80 TEH 11C 10H 5801P 1 81 TEH 11C 10H 580lP l 1 82 TEH 11C 10H 5801P 1 83 TEH 11C 10H 5801P 1 84 TEH 11C 10H 580lP l 1 85 TEH 11C 10H 5801P 1 86 TEH 11C 10H 5801P 3-C-32

- - . ..--. .- . ....-.-.- .- . - - . .- ..-- - - .. - ~.

O AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH

- STEAM GENERATOR D STP-1 . 5/96 .1RE06 Row Column leg Extent 1 Extent 2 Probe 1 87 TEH 11C 10H 5801P 1 88 TEH 11C 10H- 580lP 1 89 TEH 11C 10H 5801P 1 90 TEH 11C 10H 5801P 1 91 TEH 11C 10H 5801P 1 92 TEH 11C 10H 5801P 1 93 TEH 11C 10H 580lP 1 94- TEH 11C. 10H 5801P l 1 95 TEH 11C 10H 5801P 1 96 TEH 11C 10H 5801P l 1 97 TEH 11C 10H 580lP l l 1 98 TEH 11C 10H 580lP l

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1 99 TEH 11C 10H 5801P l

1 100 TEH 11C 10H 5801P l l 1 101 TEH 11C 10H 580lP J i 102 TEH 1 11C 10H 5801P  !

1 103 TEH 11C 10H 580lP 1 104 TEH 11C 10H 580lP 1 105 TEH 11C 10H 5801P l 1 106 TEH 11C 10H 5801P 1 107 TEH llc 10H 5801P 1 108 TEH 11C 10H 5801P 1 109 TEC 10H 11C 5801P 1 110 TEC 10H 11C 580lP 1 111 TEC 10H 11C 5801P l 1 112 TEC 10H 11C 5801P l 1 113 TEC 10H 11C 5801P 1 114 TEC 10H 11C 5801P 1 115 TEC 10H 11C 5801P 1 116 TEC 10H 11C 580lP l

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3-C-33 )

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AREAS EXAMINED BY MRPC AT LOCATIONS- g OTHER THAN TSH T STEAM GENERATOR D STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 1 117 TEC 10H 11C 5801P 1 117 TEH TSH TEH 6103C 1 118 TEC 10H 11C 5801P 1 119 TEC 10H 11C 5801P 1 120 TEC 10H 11C 5801P 2 7 TEH 07H 07H 6103C 2 10 TEH 04H 03H 6103C 2 70 TEH 07H 07H 6103C 2 73 TEH 02H 02H 6103C 2 73 TEH 02H 02H 6103C 3 2 TEH 11C 10H 5801P 3 3 TEH 11C 10H 5801P 3 11 TEC 12C 12C 6103C 3 13 TEH 11C 10H 5801P 3 14 TEH 11C 10H 5801P '

3 20 TEH 11C 10H 5801P 3 21 TEH 11C 10H 5801P 3 34 TEH 05H 04H 6103C 3 35 TEH 11C 10H 5801P 3 36 TEH 11C 10H 5801P 3 42 TEH 05H 05H 6103C 3 46 TEH 11C 10H 5801P 3 47 TEH 11C 10H 5801P 3 57 TEC 10H 11C 5801P 3 58 TEC 10H 11C 5801P 3 68 TEH 11C 10H 5801P 3 69 TEH 11C 10H 5801P 3 69 TEH 09H 08H 6103C 3 76 TEH 07H 07H 6103C 3 79 TEH 11C 10H 5801P 3-C-34

i O AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR D I

STP-1 5/96 1RE06 i Row Column Leg Extent 1 Extent 2 Probe 3 80 TEH 11C 10H 5801P 3 90 TEH 11C 10H 5801P 3 91 TEH' 11C 10H 5801P 3 101 TEH 11C 10H 5801P 3 102 TEH 11C 10H 5801P 3 110 TEC 10H 11C 5801P 3 111 TEC 10H 11C 5801P 3 '118 TEH 07H 07H 6103C 3 119 TEC 10H 11C- 5801P 3 120- TEC 10H 11C 5801P i 4 30 TEH 09H 09H 6103C 4 80 TEC 10H 11C 5801P f 4- 80 TEH 10H- 10H 6103C 4 84 TEH 07H 07H 6103C f

! 4 114 TEH 06H 06H 6103C

[ 5 . 8 TEC 17C 17C 6103C t 5- 13 TEH 08H 08H 6103C l 5 31 TEC 14C 14C 6103C 5 33 TEC- 16C 16C- 6103C 5 75 TEC 17C 18C 6103C 5 98 TEH 09H 08H 6103C

!. 5 98 TEH 09H 08H 6103C 8

5 98 TEH 09H 08H 6103C l 5 98 TEH 09H 08H 6103C j

! 5 -98 TEH 09H 08H 6103C

6 76 TEC- 14C 14C 6103C

! 6 83 TEC 14C 14C- 6103C 6 115 TEC 13C 13C 6103C j 6 120 TEH TSH TEH 6103C I 7 20 'TEH 06H 06H 6103C j 3-C-35 I

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AREAS EXAMINED BY MRPC AT LOCATI.ONS OTHER THAN TSH STEAM GENERATOR D STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 7 20 TEH 09H 09H 6103C 8 8 TEH 02H 02H 6103C 8 10 TEC 14C 14C 6103C 8 14 TEC 12C 12C 6103C 8 93 TEC 15C 16C 6103C 8 114 TEH 05H 05H 6103C 9 54 TEH 10H 10H 6103C 9 71 TEC 14C 14C 6103C 9 91 TEH 05H 05H 6103C 9 113 TEH O1H O1H 6103C 9 117 TEC 22C 22C 6103C 10 33 TEH 08?I 07H 6103C 10 92 TEH 02H 02H 6103C 11 3 TEH 02H 02H 6103C 11 16 TEC llc 13C 6103C 11 16 TEC 13C 14C 6103C 11 48 TEH 05H 05H 6103C 11 111 TEC 16C 16C 6103C 11 113 TEC 13C 14C 6103C 12 4 TEH O1H TSH 6103C 12 9 TEC 13C 13C 6103C 12 47 TEC 12C 13C 6103C 12 69 TEC 14C 15C 6103C 13 19 TEH 07H 07H 6103C 14 40 TEC 14C 15C 6103C 14 70 TEH 08H 08H 6103C i 14 84 TEC 16C 16C 6103C 14 96 TEH 03H 03H 6103C i 16 65 TEC 16C 17C 6103C 17 15 TEC 16C 17C 6103C 3-C-36 i

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

O AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH STEAM GENERATOR D STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 17 103 TEH 05H 05H 6103C 18 4 TEH 05H 04H 6103C 18 15 TEC 15C 15C 6103C 18 46 TEH 04H 04H 6103C 18 46 TEH 05H 05H 6103C 18 91 TEH 07H 07H 6103C 19 4 TEH O1H TSH 6103C 19 114 TEH 02H 02H 6103C 20 17 TEC 20C 21C 6103C 20 79 TEC 11C 11C 6103C 20 102 TEC 11C 11C 6103C 21 102 TEC 11C 11C 6103C 22 5 TEC TSC TEC 6103C i 22 36 TEH 04H 04H 6103C O- 22 99 TEC AV4 11C 5801P 22 102 TEH 06H 06H 6103C 24 3b TEH 02H 02H 6103C 24 96 TEC 19C 19C 6103C !

25 21 TEC 16C 16C 6103C ;

- 25 66 TEC AV3 11C 5801P l 25 88 TEH 02H 02H 6103C 26 15 TEH 10H 10H 6103C 26 18 TEC 13C 14C 6103C 26 24 TEH 05H 05H 6103C

26. 41 TEH O1H O1H 6103C 27 73 TEH 02H 02H 6103C 28 11 TEH 03H 02H 6103C 28 70 TEH 09H 09H 6103C 29 21 TEC 12C 13C 6103C 29 30 TEC 21C 21C 6103C O 3-C-37

I AREAS EXAMINED BY MRPC AT LOCATIONS OTHER THAN TSH  !

STEAM GENERATOR D STP-1 5/96 1RE06 Row Column Leg Extent 1 Extent 2 Probe 30 19 TEH 05H 05H 6103C I 31 72 TEC 20C 20C 6103C '

31 85 TEC 15C 15C 6103C 32 39 TEC 14C 15C 6103C 34 38 TEC 21C 22C 6103C 34 78 TEH 02H 02H 6103C 35 85 TEC 13C 14C 6103C 36 57 TEH TSH TSH 6103C 37 32 TEH 02H 02H 6103C 37 51 TEC 13C 13C 6103C 37 85 TEC 12C 12C 6103C

' l 38 54 TEH 10.H 10H 6103C

]

38 96 TEC 18C 18C 6103C 39 19 TEH 08H 08H 6103C 40 101 TEH 04H 04H 6103C 41 103 TEH 09H 08H 6103C

)

42 19 TEC 12C 12C 5403C 42 36 TEH 10H 10H 6103C 42 56 TEC 12C 13C 6103C 42 102 TEH 10H 10H 6103C 43 78 TEH 04H 04H 6103C 44 24 TEH 09H 09H 6103C 44 30 TEC 11C 11C 6103C 44 31 TEC 15C 15C 6103C 44 45 TEH O1H O1H 6103C 44 56 TEH 10H 10H 6103C 44 77 TEH O1H TSH 6103C 44 94 TEH 10H 10H 6103C 45 56 TEC 11C 12C 6103C 45 68 TEH TSH TSH 6103C 3-C-38

I I

l AREAS EXAMINED BY MRPC AT LOCATIONS  :

- V(N OTHER THAN TSH l STEAM GENERATOR D '

STP-1 5/96 1RE06 i i

Row Column I2g Extent 1 Extent 2 Probe j 45 86 TEC 13C 14C 6103C .

45 90 TEC 11C 11C 6103C' i

-45 90 TEH 10H 10H 6103C I 45 93 TEH 10H 10H 6103C l 46 41 TEC 11C 11C 6103C f

46 89 TEH 10H 10H 6103C  ;

47 26 TEC 11C 11C 6103C i 47 45 TEH 10H 10H 6103C 47 47 62 64 TEH TEH 10H 10H 10H 10H 6103C 6103C

)

l 47 74 TEC 21C 21C 6103C ,

47 90 TEC 13C 14C 6103C i 1.

48 62 TEH 10H 10H 6103C  ;

48 63 TEC 18C 19C 6103C O

t 1

1 O 3-C-39 '

l 1

i l

l I

1 i

1 APPENDIX 3-D FLAWS WITII TUBE WALL TIIICKNESS REDUCTION l

l r

I i

l

l 1

f FLAWS WITII TUBE WALL THICKNESS REDUCTION

(,3) ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G A 2 6 17 PNC 15C + 18.43 127 S/G A 2 85 23 PNC 05H + 10.60 2 S/G A 2 90 19 PNC 14C +20.62 131 S/G A 3 21 12 PNC 07H + 6.92 8 S/G A 3 73 6 PNC 07H + 1.99 4 S/G A 4 92 21 PNC 02H + 12.84 2 l

S/G A 5 18 8 PNC 08H + 23.25 17 l S/G A 5 18 12 PNC 08H +20.96 17 S/G A 5 38 8 PNC 19C + 16.34 33 l

S/G A 5 52 18 PNC 09H + 31.65 109 l S/G A 5 107 8 PNC 03H +34.68 97 l

S/G A 6 5 5 PNC 06H +43.06 7 S/G A 6 5 13 PNC 06H +30.31 7 S/G A 7 65 15 PNC 23C +3.45

()

7, 10 S/G A 7 73 39 PNC 16C +22.18 5 S/G A 7 114 1 PNC 08H +41.08 101 S/G A 7 114 10 PNC 09H + 6.13 101 S/G A 7 114 12 PNC 08H +36.36 101 S/G A 8 16 18 PNC TSC + 3.64 13 S/G A 8 72 9 PNC 13C +32.47 5 S/G A 8 72 30 PNC 12C +4.34 5 S/G A 9 34 8 PNC 14C +41.12 29 S/G A 9 36 24 PNC 16C + 14.65 33 S/G A 9 91 5 PNC 03H + 8.64 81 S/G A 10 7 31 PNC 04H +35.55 9 S/G A 10 7 32 PNC 04H +34.97 9 S/G A 10 27 15 PNC 06H + 11.13 23 S/G A 10 30 13 PNC 21C + 1.41 27 S/G A 13 57 11 PNC O1H +23.45 109 S/G A 13 116 5 PNC 07H +2.86 105 o

f] 3-D-1

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G A 14 18 14 PNC 07H + 19.60 15 S/G A 14 34 5 PNC 12C + 10.71 27 S/G A 14 34 13 PNC 13C +40.28 27 S/G A 14 43 19 PNC 14C + 9.03 37 S/G A 14 87 11 PNC TSC + 6.74 71 S/G A 15 4 6 PNC 09H + 13.43 7 S/G A 15 4 13 PNC 12C +44.31 7 S/G A 15 11 22 PNC 07H +40.71 11 S/G A 15 20 12 PNC 15C + 8.98 19 S/G A 15 71 14 PNC 08H + 39.99 5 S/G A 15 112 5 PNC 19C + 14.21 99 S/G A 16 31 10 PNC 13C + 13.72 27 S/G A 16 64 14 PNC 17C +20.47 47 S/G A 16 67 10 PNC 08H +7.77 51 S/G A 17 39 81 SCI TSH -0.18 28 S/G A 17 46 5 PNC 14C +22.26 41 S/G A 17 80 10 PNC 07H +29.11 55 S/G A 17 80 19 PNC O1H +3.78 65 S/G A 18 20 9 PNC 17C + 8.03 21 S/G A 18 90 19 PNC 04H + 19.43 75 S/G A 18 95 2 PNC 08H + 5.04 85 S/G A 19 6 12 PNC 09H +5.65 7 S/G A 19 61 2 PNC 22C + 0.30 141 S/G A 19 70 17 PNC TSH +36.60 57 S/G A 19 92 9 PNC O1H +12.49 81 S/G A 20 36 14 PNC 17C + 23.67 31 S/G A 20 60 1 9 PNC 21C + 0.12 141 S/G A 20 61 1 PNC 22C + 0.21 141 S/G A 20 80 6 PNC 05H +39.71 63 S/G A 20 88 15 PNC 12C +36.79 71 l

3-D-2

l l

l g FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE%

Steam Row Column %TW Indication Location Tape Generator Number S/G A 20 90 16 PNC 13C +26.46 75 t

S!G A 20 97 9 PNC 12C + 31.69 89 S/G A 20 104 6 PNC 13C + 19.42 95 S/G A 22 25 8 PNC 16C +22.47 23 i S/G A 22 29 7 PNC 02H + 10.16 27 S/G A 22 29 7 PNC 19C + 8.14 27 S/G A 22 43 9 PNC 03H +20.84 37 S/G A 22 43 12 PNC 20C + 0.87 37 S/G A 22 43 16 PNC 20C + 2.05 37 S/G A 22 47 6 PNC 02H +7.75 39 S/G A 22 47 6 PNC 02H + 9.31 39 S/G A 22 87 15 PNC 16C + 33.16 71 S/G A 23 20 17 PNC 07H + 4.64 19 S/G A 23 30 25 PNC 03H +5.67 29 Q S/G A S/G A 23 41 5 PNC TSC + 7.29 37 23 63 26 SCI TSH -0.14 42 S/G A 23 69 63 SCI TSH -0.06 42 S/G A 23 112 18 PNC 05H +25.22 99 S/G A 24 31 9 PNC 17C + 2.74 27 S/G A 24 31 13 PNC 17C +5.72 27 S/G A 24 32 7 PNC 09H +7.56 27 S/G A 24 32 14 PNC 13C +31.11 27 S/G A 24 32 15 PNC 08H +36.40 27 S/G A 24 32 18 PNC 23C +3.11 27 S/G A 24 65 36 SCI TSH -0.39 40 S/G A 24 75 93 SCI TSH -0.14 46 S/G A 24 59 10 PNC 04H + 32.97 49 S/G A 24 75 9 PNC 04H +36.32 61 S/G A 24 112 19 PNC 04H -2.09 101 S/G A 25 35 10 PNC 20C +3.87 27 l

s 3-D-3

l FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS l STP-1 5/96 1RE06 Steam Row Column %TW Indication Imcation Tape Generator Number S/G A 25 39 11 PNC 13C +29.87 33 S/G A 25 44 43 SCI TSH -0.18 30 S/G A 25 55 98 SCI TSH -0.38 34 S/G A 25 58 6 PNC 23C +5.82 43 i S/G A 25 67 77 MCI TSH -0.14 42 S/G A 26 41 8 PNC 13C +33.86 35 1 S/G A 26 48 9 PNC 19C +3.76 39 S/G A 26 63 3 PNC 08H + 3.86 49 i S/G A 26 113 12 PNC 09H + 34.03 99 S/G A 27 65 14 PNC 14C + 15.14 47 S/G A 27 76 2 PNC 14C +33.13 63 S/G A 27 76 5 PNC 09H +31.37 63 S/G A 27 76 11 PNC 21C + 11.54 63 S/G A 27 76 19 PNC 19C + 1.38 63 S/G A 28 39 14 PNC 23C +7.49 31 S/G A 28 62 1 PNC 21C -0.15 141 S/G A 28 73 4 PNC 12C +37.39 57 S/G A 28 91 10 PNC 02H +23.07 141 S/G A 28 105 11 PNC O1H +23.43 95 S/G A 29 26 6 PNC 08H +20.57 25 S/G A 29 26 11 PNC 08H +32.81 25 S/G A 29 33 18 PNC 13C + 2.15 29 S/G A 29 50 8 PNC 10H +4.06 41 S/G A 29 86 13 PNC AV2 +1.03 73 S/G A 29 112 19 PNC 15C +27.31 99 S/G A 30 26 13 PNC 08H + 15.29 23 S/G A 30 81 12 ODI AV3 + 0.00 67 S/G A 30 92 14 PNC 02H +23.01 81 S/G A 31 13 16 PNC 15C + 30.02 11 S/G A 31 31 20 PNC 03H + 11.93 29 3-D4

a FLAWS WITH TUBE WALL THICKNESS REDUCTION

( ALL STEAM GENERATORS  ;

STP-1 5/96 1RE06 l Steam Row Column %TW Indication Location Tape Generator Number S/G A 31 59 2 PNC 22C -0.15 141 S/G A 31 62 16 PNC 08H +26.93 49 S/G A 33 26 13 PNC 06H +28.04 25

. S/G A 33 49 8 PNC 04H + 9.41 39 S/G A 33 49 21 PNC 04H + 4.60 39 I S/G A 33 59 26 ODI 15C +0.21 47 S/G A 33 91 8 PNC 16C + 39.84 77 S/G A 33 95 11 PNC 14C +4.04 81 1 S/G A 34 51 9 PNC 22C + 16.10 41 S/G A 34 99 11 PNC 12C +42.90 87 S/G A 34 107 7 PNC 15C + 8.61 97 S/G A 35 80 20 PNC 09H +5.15 65

. S/G A 35 80 20 PNC 09H +8.33 65 S/G A 36 32 7 PNC 15C + 13.07 27 S/G A 36 32 11 PNC 15C + 11.23 27 S/G A 36 32 17 PNC 17C + 1.87 27 S/G A 36 92 7 PNC 09H +4.91 79 S/G A 36 92 8 PNC 09H + 2.31 79 S/G A 36 92 13 PNC 09H + 1.20 79 S/G A 37 40 12 PNC 04H +7.57 37 S/G A 37 80 5 PNC 08H + 20.89 65 S/G A 38 41 15 PNC 04H +36.09 35 4

S/G A 39 40 12 PNC 04H + 32.03 37 i

S/G A 39 50 14 PNC 07H +2.20 41 S/G A 39 93 1 PNC 03H + 19.50 81 S/G A 39 95 11 PNC 10H + 24.59 81 S/G A 40 21 12 PNC 12C +35.31 21 S/G A 40 71 11 PNC 16C + 8.76 57 S/G A 40 71 12 PNC 16C + 8.70 57 S/G A 40 79 16 ODI AV1 + 0.00 63 A

V 3-D-5

l i

l FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape l Generator Number S/G A 40 79 27 ODI AV2 + 0.00 63 S/G A 40 79 31 ODI AV3 + 0.00 63 S/G A 41 74 5 PNC 13C +25.12 61 S/G A 41 82 14 ODI AV3 + 0.00 67 I S/G A 44 69 12 PNC 04H +22.02 57 l S/G A 45 32 10 PNC 01H + 19.09 29 S/G A 45 48 9 PNC 14C +7.09 41 S/G A 45 74 8 PNC 22C + 13.24 61 S/G A 46 32 11 PNC 03H + 24.31 27 S/G A 46 57 7 PNC 02H + 10.99 45 S/G A 46 59 14 ODI AV4 + 0.06 49 S/G A 46 59 19 ODI AV2 + 0.03 49 S/G A 47 30 3 PNC 22C -0.06 141 S/G A 48 31 6 PNC 20C + 15.09 27 l S/G B 1 34 17 PNC 16C +32.14 121 l

S/G B 1 38 5 PNC 21C + 12.69 121 (

S/G B 2 26 12 PNC 08H +34.92 2 S/G B 2 28 8 PNC 02H + 8.98 2 S/G B 2 87 66 SCI TSH -0.19 128 S/G B 4 12 14 PNC 04H + 13.56 2 S/G B 5 43 19 PNC 15C +32.56 43 S/G B 6 21 16 PNC 10H + 16.36 17 S/G B 6 22 12 PNC 15C +36.93 17 S/G B 6 31 17 PNC 02H + 19.55 27 S/G B 6 81 18 PNC 09H +26.56 79 I S/G B 6 111 15 PNC 05H + 19.08 107 )

S/G B 7 24 21 PNC 10H -1.42 21 S/G B 7 64 12 PNC 13C +32.43 6 i S/G B 7 70 3 PNC 22C + 8.69 1 l S/G B 7 86 15 PNC 19C + 12.92 83 l

3-D-6 1

l l

h

c FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number

! S/G B 7 87 16 PNC 06H +40.40 89 l

S/G B 7 93 30 PNC 17C +28.13 93 S/G B 8 28 22 PNC 05H +5.07 27 S/G B 8 50 7 PNC 23C + 6.27 117 i

, S/G B 8 54 14 PNC 01H + 8.77 117 l i S/G B 8 54 15 PNC 01H +7.79 117 S/G B 8 73 4 PNC 03H +4.85 1

, S/G B 73 10 PNC 03H + 9.49 1

~~

. S/G B 9 12 34 PNC 17C +32.68 11 I

S/G B 9 79 10 PNC 21C + 3.22 71  !

l S/G B 9 103 2 PNC 17C +24.56 105 S/G B 9 104 8 PNC AV4 -1.57 105 l S/G B 10 11 10 PNC 13C +30.24 9

, S/G B 10 117 14 PNC 15C +21.12 111 S/G B 10 117 21 PNC 05H +34.71 111

S/G B 11 17 6 PNC 17C +25.94 15

S/G B 11 23 19 PNC 03H + 9.35 19 S/G B 11 48 12 PNC 05H + 21.83 115  !

S/G B 11 48 28 PNC 06H + 6.04 115 S/G B 11 48 32 PNC 06H + 7.25 115 i S/G B 11 61 6 PNC 12C +4.61 1 S/G B 11 85 10 PNC 09H +5.46 85 S/G B 11 92 10 PNC 21C +9.94 93 S/G B 12 2 10 PNC 15C + 19.21 5 S/G B 12 6 16 PNC 14C + 16.32 5 S/G B 12 13 10 PNC 16C +24.39 11 S/G B 12 31 28 PNC 04H + 16.83 27 S/G B 12 46 13 PNC 03H +29.66 10 S/G B 12 63 8 PNC 16C + 11.53 1 S/G B 12 84 7 PNC 16C + 17.32 79 3-D-7

. FLAWS WITH TUBE WALL THICKNESS REDUCTION j ALL STEAM GENERATORS l STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number i S/G B 12 87 5 PNC 04H +28.87 87 S/G B 13 9 10 PNC 02H +29.91 9 S/G B 13 16 6 PNC 04H +29.78 15 S/G B 13 64 11 PNC 06H +37.95 1 l S/G B 13 65 10 PNC 02H + 20.50 3 S/G B 13 65 16 PNC 21C + 6.62 3 S/G B 13 81 16 PNC 07H + 37.94 77 S/G B 13 81 21 PNC 07H +41.46 77 S/G B 14 60 5 PNC 14C +5.28 12 S/G B 14 81 17 PNC 05H + 19.76 79 S/G B 14 89 13 PNC 02H + 1.33 87 S/G B 14 93 20 PNC 07H +23.18 91 S/G B 15 33 1 PNC 02H + 19.19 159 S/G B 15 33 11 PNC 02H +25.98 159 S/G B 15 98 17 PNC 04H + 21.32 97 S/G B 16 , 6 24 PNC 14C + 34.16 9 S/G B 16 33 9 PNC 21C + 9.09 159 S/G B 16 33 37 PNC 05H +36.52 159 S/G B 16 82 11 PNC 09H + 9.43 79 S/G B 16 96 8 PNC 03H +32.24 95 S/G B 16 96 14 PNC 07H + 13.52 95 S/G B 16 99 17 PNC 13C +21.20 99 S/G B 17 62 17 PNC 11C +0.59 55 S/G B 18 33 9 PNC 13C + 18.23 159 S/G B 18 60 15 PNC 21C + 0.00 53 S/G B 18 61 12 PNC 05H +26.01 55 S/G B 18 79 23 PNC 14C + 12.18 73 S/G B 18 101 24 PNC 04H + 16.66 99 S/G B 19 11 12 PNC 10H + 24.25 11 S/G B 19 42 9 PNC 16C + 19.94 41 3-D-8

es TLAWS WITH TUBE WALL THICKNESS REDUCTION l ) ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location i Tape Generator Number S/G B 19 52 8 PNC 14C +21.52 49 S/G B 19 52 11 PNC 20C + 14.47 49 S/G B 19 52 12 PNC 04H + 12.47 49 S/G B 19 58 16 PNC 13C +43.39 55 S/G B 19 61 2 ODI 22C + 0.26 167 S/G B 19 61 3 ODI 20C -0.12 167 S/G B 19 61 6 ODI 21C + 0.12 167 S/G B 19 70 58 SCI TSH -0.05 52 S/G B 19 90 11 PNC 16C +37.44 89 S/G B 20 6 19 PNC 17C +38.24 9 S/G B 20 39 2 PNC 14C + 27.85 37 S/G B 20 47 82 SCI TSH -0.07 40 S/G B 20 59 2 ODI 21C -0.41 167 S/G B 20 59 3 ODI 20C -0.35 167

) S/G B 20 60 4 ODI 20C + 0.15 167 S/G B 20 60 9 ODI 21C -0.06 167 l S/G B 20 61 6 ODI 21C + 0.24 167 S/G B 20 62 7 ODI 21C -0.23 167 S/G B 20 63 8 PNC 03H +24.19 59 ,

S/G B 20 63 10 PNC 06H +27.90 59 S/G B 20 63 13 PNC 06H +21.03 59 S/G B 20 83 17 PNC 18C + 14.77 79 S/G B 22 6 17 PNC 13C +32.85 9 S/G B 22 8 1 PNC 17C +34.89 9 S/G B 22 8 12 PNC 05H + 17.72 9 S/G B 22 27 84 SCI TSH -0.14 198 S/G B 22 47 19 PNC 14C +33.46 14 S/G B 22 81 6 PNC 06H +43.09 79 S/G B 22 103 1 PNC 16C +23.80 105 S/G B 23 7 4 PNC 15C + 16.26 11

/

( ): 3-D-9

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G B 23 7 8 PNC 15C +42.61 11 S/G B 23 17 21 PNC 19C + 12.37 15 S/G B 23 37 11 PNC 09H + 1.67 39 S/G B 23 39 61 SCI TSH -0.18 34 S/G B 23 47 14 PNC 04H + 4.02 16 S/G B 23 64 7 PNC 03H + 12.80 57 S/G B 23 73 SAI TSH -0.12 56 S/G B 23 80 59 SCI TSH -0.28 64 S/G B 24 20 12 PNC 08H +42.29 17 S/G B 24 20 21 PNC 14C +39.26 17 )

S/G B 24 28 3 PNC 03H +29.44 27 S/G B 24 28 8 PNC 03H +22.29 27 S/G B 24 43 95 SCI TSH -0.27 36 S/G B 24 52 29 PNC 03H + 14.95 49  ;

S/G B 24 67 3 ODI 20C -0.09 167 S/G B 24 70 35 PNC 08H +39.22 63 S/G B 24 71 1 PNC 02H + 16.41 63 S/G B 24 71 15 PNC 09H +37.95 63 S/G B 24 72 9 PNC MH +25.56 63 S/G B 24 76 80 SCI TSH -0.15 54 S/G B 24 77 96 MCI TSH -0.09 58 S/G B 24 79 57 SCI TSH -0.16 64 S/G B 24 82 10 PNC 07H +38.83 79 S/G B 24 93 7 PNC 05H + 35.27 91 S/G B 24 101 9 PNC 23C +7.58 99 S/G B 25 7 11 PNC 12C +41.74 11 S/G B 25 21 11 PNC 08H +22.84 17 S/G B 25 30 16 PNC 14C +20.40 27 S/G B 25 66 53 SCI TSH -0.28 52 S/G B 25 68 82 SCI TSII -0.21 52 3-D-10

i t

FLAWS WITH TUBE WALL THICKNESS REDUCTION -

ALL STEAM GENERATORS STP-1 5/96 1RE06 i Steam Row Column %TW Indication Location Tape

Generator Number S/G B 25 69 73 SCI TSH -0.18 52 S/G B 25 72 54 SCI TSH -0.11 52 i S/G B 25 74 31 MCI TSH -0.10 56 j S/G B 26 8 10 PNC 23C +3.31 9 j S/G B 26 8 24 PNC 05H + 19.00 9 d

S/G B 26 59 7 ODI 21C + 0.00 167

, S/G B 26 64 11 PNC 12C + 12.11 59 S/G B 26 67 47 SCI TSH -0.14 50 S/G B 26 74 70 SCI TSH -0.18 54 S/G B 26 81 18 PNC AV1 + 0.00 75 S/G B 27 22 12 PNC 12C +23.58 19 S/G B 27 22 14 PNC 12C +31.55 19

{ S/G B 27 31 5 PNC 15C +6 06 25

, S/G B 27 39 7 PNC 02H + 19.21 39

) S/G B 27 39 14 PNC 02H + 16.72 39 l S/G B 27 45 15 PNC 07H + 10.64 47 S/G B 27 55 16 PNC 02H + 19.64 53 S/G B 27 64 3 PNC 12C + 16.87 57 S/G B 27 105 15 PNC 22C +5.82 105 S/G B 28 13 7 PNC 09H +35.93 11 S/G B 28 15 12 PNC 09H + 1.85 15 S/G B 28 31 8 PNC 06H + 37.78 27 S/G B 28 32 19 PNC 07H +36.57 159 S/G B 28 79 53 SCI TSH -0.13 64-S/G B 28 82 30 PNC 21C + 15.36 79 S/G B 29 22 94 SCI TSH +0.03 96 S/G B 29 23 15 PNC O1H + 18.92 19 S/G B 29 23 20 PNC TSH +1.01 19 S/G B 29 24 5 PNC 11C -1.14 23 S/G B 29 32 7 PNC 08H +22.79 159 3-D-11

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G B 29 32 11 PNC 06H +37.28 159 S/G B 29 62 2 ODI 21C -0.53 167 S/G B 29 62 7 ODI 22C -0.03 167 S/G B 29 62 12 PNC 03H +21.58 55 S/G B 30 21 7 PNC 03H +30.40 19 S/G B 30 45 12 PNC 04H -1.36 45 S/G u 30 62 4 ODI 21C -0.23 167 S/G B 30 65 16 PNC 16C +28.07 59 S/G B 30 71 14 PNC 15C + 21.10 63 S/G B 30 84 4 PNC 02H + 11.37 79 S/G B 30 84 5 PNC 14C + 2.64 79 S/G B 30 89 12 PNC 05H +22.30 87 S/G B 31 20 20 PNC 15C + 15.80 19 S/G B 31 53 13 PNC 21C +5.19 49 S/G B 31 59 15 PNC 03H +22.78 53 S/G B 31 74 9 PNC (MH +36.52 61 S/G B 31 87 7 PNC 03H +24.77 89 S/G B 31 97 16 PNC 16C + 9.66 97 S/G B 32 16 15 PNC 15C +2.34 13 S/G B 32 35 15 PNC 08H +40.05 37 S/G B 32 108 19 PNC 17C +38.54 105 S/G B 34 64 5 PNC 13C +38.70 59 S/G B 34 74 14 PNC TSC +5.08 63 S/G B 35 59 25 PNC 04H +38.21 53 S/G B 35 95 12 PNC 09H +32.06 95 S/G B 36 14 23 PNC 08H + 19.12 13 S/G B 36 16 9 PNC 06H + 9.26 13 S/G B 36 31 18 PNC 05H + 3. 60 27 S/G B 36 37 31 PNC 06H + 8.35 37 S/G B 36 74 7 PNC 18C + 11.44 63 3-D-12

f l FLAWS WITH TUBE WALL THICKNESS REDUCTION l (n)

"' ALL STEAM GENERATORS 1 1

STP-1 5/96 1RE06 l Steam Row Column %TW Indication Location Tape l Generator Number j S/G B 36 89 11 PNC 17C +39.10 87 S/G B 37 33 7 PNC 16C + 15.21 35 S/G B 37 43 6 PNC 03H + 6.70 41 S/G B 37 81 12 PNC 15C +2.53 73 S/G B 37 92 5 PNC 04H + 6.26 93 i

S/G B 38 50 15 PNC TSH +2.59 14 S/G B 38 59 SAI TSH -0.11 72 S/G B 39 29 19 PNC 04H + 33.16 25 S/G B 39 30 6 PNC 16C + 8.19 25 S/G B 39 33 14 PNC 07H + 17.02 35 S/G B 39 50 20 PNC 06H +7.87 16 S/G B 39 73 10 PNC 06H +23.55 61 S/G B 40 32 12 PNC 05H + 10.67 159 S/G B 40 58 17 ODI 08H +2.76 55 j

S/G B 40 79 9 PNC

() 08H +23.25 71  ;

S/G B 41 32 2 PNC 09H +5.57 159 S/G B 42 23 10 PNC 02H +5.21 17 S/G B 42 77 14 PNC 20C + 8.07 71 S/G B 42 79 9 PNC 16C +32.57 71 S/G B 42 85 8 PNC 05H +26.35 79 S/G B 43 32 2 PNC 17C +40.70 159 S/G B 43 34 17 PNC 05H +25.10 35 S/G B 43 63 4 ODI 22C + 0.17 167 S/G B 43 65 4 PNC 12C +25.70 57 S/G B 44 27 9 PNC TSC +3.71 21 S/G B 44 63 18 PNC 07H +20.77 59 S/G B 45 53 2 ODI 22C + 0.29 165 S/G B 45 55 4 PNC 20C +2.98 53 S/G B 45 64 2 ODI 22C +0.26 167 S/G B 45 66 4 ODI 22C -0.18 167

( 3-D-13 l

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G B 45 74 12 PNC 07H + 9.40 61 S/G B 45 80 15 PNC 14C +29.89 73 S/G B 46 44 14 PNC 12C +20.19 41 S/G B 46 48 8 ODI 22C +0.23 165 S/G B 46 48 19 PNC 09H +29.46 16 S/G B 46 76 25 PNC 03H +23.88 71 S/G B 46 78 12 PNC 17C +7.32 73 S/G B 47 48 33 ODI TSH + 2.03 14 S/G B 48 39 SAI TSH -0.48 68 S/G B 48 44 36 PNC 17C + 13.92 41 S/G B 48 57 10 PNC 21C + 16.04 55 S/G B 48 76 37 PNC 12C +31.14 71 S/G B 48 78 8 PNC 17C + 30.66 71 S/G B 48 87 37 PNC 04H + 9.69 87 S/G C 1 15 7 PNC 04H +41.11 4 S/G C 1 27 22 PNC O1H +24.30 8 S/G C 1 35 16 PNC 03H + 12.21 8 S/G C 1 81 25 PNC 06H +3.98 4 S/G C 1 97 6 PNC 05H + 19.04 4 S/G C 1 97 7 PNC 05H + 16.51 4 S/G C 1 97 20 PNC TSH +4.12 4 S/G C 2 7 6 PNC 02H +28.26 2 S/G C 2 73 8 PNC 06H + 10.25 2 S/G C 2 73 18 PNC 06H + 13.53 2 S/G C 2 79 13 PNC 06H + 10.45 2 S/G C 2 79 16 PNC 06H + 12.41 2 S/G C 2 80 15 PNC 02H + 10.21 4 S/G C 2 117 12 PNC 04H + 11.56 164 S/G C 3 3 17 PNC 03H +4.77 4 S/G C 3 25 13 PNC 03H +21.22 8 3-D-14

l l

l FLAWS WITH TUBE WALL THICKNESS REDUCTION c)

(

'" ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 3 25 14 PNC 02H +25.% 8 S/G C 3 25 18 PNC 03H +22.31 8 S/G C 3 61 MAI TSH -0.18 34 S/G C 3 71 11 PNC 04H +42.13 4 1 S/G C 3 85 18 PNC 02H + 33.87 4 S/G C 3 88 11 PNC 03H + 17.32 4 S/G C 4 10 13 PNC 08H +21.95 2 S/G C 4 12 6 PNC 06H + 12.04 2 S/G C 4 12 22 PNC 06H +28.98 2 S/G C 4 28 23 PNC 09H + 9.98 6  ;

S/G C 4 62 11 PNC 06H +34.70 2 S/G C 4 64 8 PNC 05H + 11.16 2 S/G C 4 109 37 PNC O1H + 10.18 164 l

, S/G C 4 119 6 PNC 05H +41.56 164

() S/G C S/G C 4

5 120 6

12 9

PNC PNC 09H 08H

+ 4.72

+ 15.90 164 11 S/G C 5 74 8 PNC 05H +43.82 7 S/G C 5 74 10 PNC 02H +28.18 7 S/G C 5 111 3 PNC 08H +41.30 93 S/G C 5 111 3 PNC 16C +3.47 93 S/G C 5 111 9 PNC 08H + 39.18 93 S/G C 5 111 21 PNC 09H + 31.95 93 S/G C 6 28 19 PNC 16C +3.87 25 S/G C 6 69 12 PNC 16C + 38.17 5 S/G C 6 83 5 PNC 21C + 12.74 63 S/G C 6 83 17 PNC 08H +27.66 63 4

S/G C 6 85 17 PNC 16C +23.51 63 S/G C 6 112 16 PNC 02H + 8.25 93 S/G C 6 118 15 PNC 13C + 22.38 95 S/G C 7 58 12 PNC 03H +28.27 168

( 3-D-15

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 7 78 4 PNC 07H +36.83 61 S/G C 7 85 11 PNC 13C +42.92 65 S/G C 7 104 3 PNC 13C +37.95 89 S/G C 8 41 12 PNC 17C + 37.04 33 S/G C 8 55 9 PNC 17C + 10.21 168 S/G C 9 68 9 PNC 12C + 18.32 5 S/G C 9 111 19 PNC 09H + 15.92 93 S/G C 10 51 12 PNC 04H +40.41 127 S/G C 10 54 7 PNC 12C +43.25 127 S/G C 10 69 15 PNC 13C + 9.44 5 S/G C 10 100 8 PNC 06H + 1.52 79 S/G C 10 100 12 PNC 09H +34.62 79 S/G C 10 100 13 PNC 06H + 4.64 79 S/G C 10 100 13 PNC 06H + 14.67 79 S/G C 10 100 13 PNC 06H +30.65 79 S/G C 10 100 13 PNC 09H + 38.89 79 S/G C 10 100 14 PNC 06H +9.92 79 S/G C 10 100 19 PNC 06H + 13.39 79 S/G C 10 109 7 PNC 02H +33.63 93 S/G C 10 109 8 PNC 02H +27.06 93 S/G C 10 119 20 PNC 12C + 41.36 95 S/G C 11 23 12 PNC 15C +24.65 19 S/G C 11 60 15 PNC 05H + 17.90 10 S/G C 11 112 20 PNC 12C +44.25 93 S/G C 12 49 5 PNC 03H + 8.40 127 l

S/G C 12 49 9 PNC 12C + 12.55 127 S/G C 12 57 8 PNC 18C +4.56 168 S/G C 12 97 7 PNC 04H + 2.18 75

! S/G C 12 97 11 PNC 04H + 31.40 75 S/G C 12 97 16 PNC 04H + 32.10 75 1

3-D-16 1

g FLAWS WITH TUBE WALL THICKNESS REDUCTION

! ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 12 102 26 PNC 02H +33.93 83 S/G C 12 115 10 PNC 08H +30.76 95 S/G C 13 56 11 PNC 18C +2.76 168 S/G C 13 60 60 SCI TSH + 0.00 144 S/G C 14 18 12 PNC 22C + 10.27 15 S/G C 14 46 4 PNC 15C +36.38 125 S/G C 14 46 7 PNC 18C + 14.92 125 S/G C 14 47 9 PNC 04H +32.12 125 S/G C 14 82 10 PNC 20C + 11.34 63 S/G C 14 83 10 PNC 14C + 11.40 63 S/G C 15 53 21 PNC 17C +24.15 43 S/G C 15 57 17 PNC 08H +21.74 168 S/G C 15 67 13 PNC 14C +2.78 5 S/G C 15 68 9 PNC AV1 + 15.61 5

) S/G C 15 79 22 PNC 19C + 10.78 59 S/G C 16 4 32 PNC 06H + 15.40 9 S/G C 16 6 18 PNC 14C +4.81 9 S/G C 16 8 34 PNC 07H + 30.21 9 S/G C 16 13 2 PNC 16C + 15.58 15 S/G C 16 13 19 PNC 16C +24.52 15 S/G C 16 23 18 PNC 08H + 11.86 17 S/G C 16 32 27 PNC 12C +27.14 25 S/G C 16 46 12 PNC 09H +43.33 14 S/G C 16 49 14 PNC O1H +24.18 16 S/G C 16 83 5 PNC 13C +23.32 63 S/G C 17 12 15 PNC 19C +4.22 15 S/G C 17 20 10 PNC 06H + 10.49 17 S/G C 17 78 14 PNC 15C +2.72 59 S/G C 17 109 16 PNC 04H + 6.22 93 S/G C 17 109 19 PNC 19C + 9.07 93

( 3-D-17

&~,

i FLAWS WiTH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row I

Column %TW Indication Location Tape Generator Number S/G C 17 109 30 PNC 14C + 4.74 93 S/G C 17 114 9 PNC 07H + 30.18 95 S/G C 18 6 15 PNC 02H +26.43 9 S/G C 18 40 30 PNC 08H +26.74 33  !

S/G C 18 42 93 SCI TSH -0.18 38 S/G C 18 47 8 PNC 05H + 13.40 12 S/G C 18 47 9 PNC 06H +20.30 12 S/G C 18 47 12 PNC 05H + 15.96 12 S/G C 18 47 29 PNC 08H + 14.77 12 S/G C 18 86 15 PNC 16C +40.50 63 S/G C 18 109 12 PNC 22C + 15.24 93 S/G C 18 113 25 PNC 17C +28.53 93 S/G C 19 4 12 PNC 03H + 1.34 9 S/G C 19 4 12 PNC 05H +26.25 9 S/G C 19 31 15 PNC 13C +12.53 27 S/G C 19 61 10 PNC 13C + 13.71 45 S/G C 19 61 21 PNC 13C + 1.58 45 S/G C 19 61 32 PNC 05H +37.07 45 S/G C 19 61 36 PNC 13C + 10.49 45 S/G C 19 103 10 PNC 16C +25.73 87 S/G C 19 105 18 PNC 08H +4.69 87 S/G C 20 9 12 PNC 03H + 0.85 9 S/G C 20 56 5 PNC 02H +31 44

. 41 S/G C 20 56 13 PNC 02H +24.69 41 S/G C 20 57 9 PNC 17C +31.63 47 S/G C 20 69 21 PNC 20C +13.47 49 S/G C 20 71 6 PNC 09H +12.15 57 S/G C 20 82 12 PNC 14C +12.89 63 S/G C 20 82 33 PNC 15C + 1.34 63 S/G C 20 106 18 PNC 07H +18.36 87 3-D-18

1

,_.. FLAWS WITH TUBE WALL THICKNESS REDUCTION l

(}

ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 21 76 55 SCI TSH -0.07 58 S/G C 22 5 20 PNC 14C -0.44 9 S/G C 22 112 16 PNC 12C +35.88 93 l S/G C 22 112 27 PNC 12C +38.32 93 S/G C 23 69 7 PNC 12C +22.12 49 S/G C 23 86 23 PNC 05H +34.53 65 l

S/G C 24 25 SAI TSH -2.28 84 l S/G C 24 43 53 SCI TSH -0.24 38 S/G C 24 64 23 PNC 04H + 13.32 45 S/G C 24 69 6 PNC 12C + 36.86 49 S/G C 25 7 7 PNC 14C +23.47 11 l S/G C 25 42 12 PNC 03H + 15.65 33 l

S/G C 25 49 61 MCI TSH -0.12 42 S/G C 25 50 68 SCI TSH -0.22 42  !

[, S/G C 25 51 72 SCI TSH -0.11 46 S/G C 25 52 95 MCI TSH -0.12 46 S/G C 25 53 66 SCI TSH -0.10 46 S/G C 25 62 15 PNC 09H + 6.91 47 S/G C 25 67 97 SCI TSH -0.23 54 S/G C 25 73 62 MCI TSH -0.39 58 S/G C 25 "2 20 PNC 17C +27.06 65 S/G C 26 10 6 PNC 09H +21.27 9 S/G C 26 63 19 PNC 12C +39.18 47 S/G C 26 67 3 PNC TSH + 7.99 49 S/G C 26 75 15 PNC 04H + 3.94 57 S/G C 27 15 11 PNC 07H +23.44 13 S/G C 27 81 10 PNC 18C +4.45 65 S/G C 28 18 11 PNC 08H +20.83 15 S/G C 28 18 36 PNC 17C + 30.73 15 S/G C 28 94 21 PNC 13C +20.53 75

[ 3-D-19

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape  !

Generator Number !

S/G C 29 46 7 PNC 03H +7.47 12 S/G C 29 80 4 PNC 05H + 1.17 61  !

S/G C 29 80 8 PNC 04H +42.05 61 S/G C 29 80 12 PNC 05H + 14.30 61 S/G C 29 80 17 PNC 05H +7.28 61 S/G C 29 80 26 PNC 05H + 9.87 61 i

S/G C 29 85 21 PNC 06H +38.87 65 l S/G C 30 56 17 PNC 05H +22.94 41 S/G C 30 59 15 PNC 03H + 13.70 45 S/G C 31 57 15 PNC 08H + 16.44 45 S/G C 31 57 15 PNC 09H +4.20 45 S/G C 31 57 16 PNC 06H +24.97 45 S/G C 31 57 17 PNC 06H +21.91 45 S/G C 31 58 25 PNC 12C +3.99 45 S/G C 32 12 7 PNC 06H +29.07 13 l S/G C 32 28 10 PNC 07H + 10.12 21 S/G C 32 30 12 PNC 17C +31.25 25

)

S/G C 32 35 19 PNC 22C +4.93 29 I S/G C 32 65 11 PNC 12C +43.40 45 S/G C 32 65 16 PNC 12C +29.26 45 l S/G C 32 65 21 PNC 12C + 18.72 45 S/G C 33 47 20 PNC 15C +33.07 12 S/G C 33 94 17 PNC 16C + 17.59 77 S/G C 33 108 16 ODI AV3 + 0.00 89 S/G C 34 39 11 PNC 22C + 13.58 33 S/G C 34 63 12 PNC 03H + 9.91 47 S/G C 34 73 30 PNC 07H +35.74 57 S/G C 34 83 10 PNC 14C + 10.87 63 I S/G C 34 98 7 PNC 07H +24.54 79 S/G C 34 108 6 PNC 06H + 3.24 87 3-D-20

i FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS

] STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 35 47 1 PNC AV1 + 15.05 12 S/G C 35 47 19 PNC AV2 + 14.58 12 S/G C 35 55 6 PNC 09H +4.92 41 S/G C 35 55 13 PNC 09H +3.40 - 41 4

S/G C 35 55 19 PNC 08H +26.57 41

].

S/G C 35 57 10 PNC 06H + 18.55 45 1

S/G C 35 76 2 PNC 07H +40.64 61

S/G C 35 76 5 PNC 05H +36.05 61 S/G C 35 76 8 PNC 07H +22.19 61 S/G C 35 87 14 PNC 09H +3.81 69 S/G C 35 90 5 PNC 03H +25.18 73 S/G C 35 91 24 PNC 15C +22.71 73 j

S/G C 35 100 19 PNC O1H + 15.85 79 h S/G C 36 24 PNC 15 17C +29.90 21 S/G C 36 27 22 PNC 04H +25.51 21

S/G C l 36 47 10 PNC 06H + 10.18 14 S/G C 36 54 11 PNC 06H + 11.48 41 S/G C 36 88 5 PNC 05H -1.52 67 t S/G C 36 88 9 PNC 10H +26.21 67

. S/G C 36 90 17 PNC 01H +3.82 71 1

S/G C 36 103 6 PNC 13C +20.85 89 S/G C 36 104 15 PNC 05H + 11.59 87 S/G C 37 46 19 PNC 13C +38.12 12 S/G C 37 78 35 SCI TSH -0.12 186 S/G C 38 81 9 PNC 07H +43.07 63 S/G C 38 88 28 PNC 09H + 13.69 67 4

S/G C 38 94 19 PNC 17C +5.50 75 S/G C 39 50 18 PNC 05H + 3. 83 16

S/G C 39 54 25 PNC 13C +2.20 43

, S/G C 39 63 13 PNC 16C + 6.47 45 O 3-o-21 1

1

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 39 63 20 PNC 15C +33.32 45 S/G C 39 63 23 PNC 16C +35.23 45 S/G C 39 67 16 PNC 02H +3.36 49 S/G C 39 74 9 PNC 15C +27.65 57 S/G C 39 74 19 PNC 15C +31.28 57 S/G C 39 90 11 PNC 13C +3.95 73 S/G C 40 41 14 PNC 14C +42.05 33 S/G C 40 42 11 PNC 12C +30.76 33 S/G C 40 47 18 PNC 17C + 11.18 14 S/G C 40 72 3 PNC 13C + 14.60 57 S/G C 40 72 9 PNC 17C +44.24 57 S/G C 40 72 10 PNC 02H + 18.52 57 S/G C 40 72 10 PNC 16C +31.17 57 S/G C 40 72 13 PNC 16C + 13.63 57 '

S/G C 40 72 21 PNC 16C +37.49 57 S/G C 41 22 34 PNC TSH + 1.45 19 S/G C 41 46 18 PNC 09H +20.33 12 S/G C 42 68 6 PNC 02H +25.40 49 S/G C 42 68 11 PNC 10H +1.02 49 S/G C 42 68 11 PNC 17C +34.60 49 S/G C 42 68 12 PNC 17C +36.29 49 S/G C 42 68 13 PNC 15C + 16.90 49 S/G C 42 69 6 PNC 05H +4.83 49 S/G C 42 69 11 PNC 03H + 25.81 49 S/G C 42 73 13 PNC 17C + 2.96 57 S/G C 42 102 13 PNC 02H + 8.56 83 S/G C 43 48 18 PNC 14C +11.35 16 S/G C 43 48 20 PNC 14C +21.31 16 S/G C 43 48 21 PNC 20C + 15.44 16 S/G C 43 49 15 PNC 14C +24.38 16 3-D-22

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G C 43 57 6 PNC 08H +23.82 45 S/G C 43 57 7 PNC 08H +21.21 45 S/G C 43 57 8 PNC 08H + 9.86 45 S/G C 43 76 11 PNC 05H +20.67 61 S/G C 43 81 3 PNC 12C +39.11 65 S/G C 43 82 22 ODI AV2 + 0.00 65 S/G C 43 84 15 ODI AV2 +0.00 65 S/G C 43 84 21 ODI AV3 + 0.00 65 S/G C 43 91 2 PNC 07H + 10.53 73 S/G C 43 94 30 PNC 09H +29.08 77 S/G C 43 99 8 PNC 09H + 12.50 81 S/G C 44 81 20 PNC 10H + 17.03 63 S/G C 45 76 6 PNC 04H +26.07 61 S/G C 45 82 20 PNC 18C + 14.69 65 S/G C 46 34 16 PNC 18C + 15.57 29 S/G C 46 66 12 PNC 02H +31.75 45 S/G C 47 38 27 PNC O1H + 2.60 35 S/G C 47 79 16 PNC 15C +41.79 61 S/G C 48 46 23 PNC 15C + 38.40 14 S/G C 48 50 24 PNC 09H +5.36 18 S/G C 48 64 7 PNC 07H +37.62 45 S/G C 48 64 7 PNC 08H +27.59 45 S/G C 48 65 11 PNC 04H +34.29 45 S/G D 1 20 9 PNC 05H +24.10 4 S/G D 2 7 37 PNC 07H + 2.09 2 S/G D 2 10 33 PNC 03H +26.39 2 S/G D 2 114 17 PNC 12C + 15.34 125 S/G D 2 117 10 PNC 02H + 1.72 144 S/G D 3 11 6 PNC 12C +7.51 111 S/G D 3 34 18 PNC 04H +22.32 4 3-D-23

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G D 3 53 9 PNC 16C + 13.81 167 S/G D 3 56 14 PNC O1H + 9.14 136 S/G D 3 59 8 PNC 15C +7.24 141 S/G D 3 69 11 PNC 08H +29.91 4 S/G D 3 69 16 PNC 08H +33.90 4 S/G D 3 69 17 PNC 09H +21.64 4 S/G D 3 69 21 PNC 08H +23.89 4 S/G D 3 76 23 PNC 07H +22.96 4 S/G D 4 30 22 PNC 09H +5.13 2 S/G D 4 56 9 PNC 09H + 1.37 136 S/G D 4 74 18 PNC 18C + 9.76 119 S/G D 4 85 6 PNC 07H + 9.20 2 S/G D 4 118 2 PNC 08H +28.39 144 S/G D 4 118 5 PNC 08H +28.13 138 S/G D 5 3 7 PNC 04H +4.60 23 S/G D 5 3 18 PNC 04H +5.88 23 S/G D 5 21 17 PNC 07H + 10.50 27 S/G D 5 75 30 PNC 18C + 6.85 1 S/G D 5 98 18 PNC 09H +5.08 77 S/G D 5 98 22 PNC 08H +34.24 77 S/G D 5 98 23 PNC 08H +35.74 77 S/G D 5 98 28 PNC 08H +37.34 77 S/G D 5 98 30 PNC 08H +41.53 77 S/G D 5 98 33 PNC 09H + 8.11 77 S/G D 5 98 35 PNC 08H + 18.31 77 S/G D 6 85 17 PNC 07H + 17.16 65 S/G D 6 116 15 PNC 06H +5.95 103 S/G D 7 15 17 PNC 04H -1.03 13 S/G D 7 20 23 PNC 08H +29.16 25 SIG D 8 8 37 PNC 02H + 13.71 17 3-D-24

L i

' FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Num'oer S/G D 8 9 13 PNC 09H +35.80 17 S/G D 8 14 10 PNC 12C + 12.38 17 S/G D 8 28 6 PNC 09H +25.80 29

! S/G D 8 85 4 PNC 10H +2.25 65 l S/G D 8 85 8 PNC 10H -1.28 65 S/G D 9 13 11 PNC 05H +29.02 19 S/G D 9 43 15 PNC 01H + 10.48 47 S/G D 9 51 7 PNC 02H +29.20 137 S/G D 9 87 9 PNC 14C +20.21 67 S/G D 10 68 14 PNC 19C +4.70 83 S/G D 10 73 11 PNC 04H +41.20 3 S/G D 10 116 17 PNC 09H + 15.73 103 S/G D 11 16 22 PNC 14C + 19.57 13 S/G D 11- 16 34 PNC 13C +25.40 13 S/G D 11 48 25 PNC 04H + 38.04 137 S/G D 11 74 4 PNC 22C + 6.53 1 S/G D 12 15 15 PNC 08H +7.71 13 S/G D 12 38 3 PNC 12C +33.54 41 S/G D 12 47 32 PNC 13C + 17.92 137 S/G D 12 51 6 PNC 06H + 18.07 137 S/G D 12 51 6 PNC 07H + 8.11 137 S/G D 12 86 4 PNC 16C +35.85 65  !

S/G D 13 15 11 PNC O1H +5.77 13 S/G D 13 19 1 PNC 07H + 12.75 27 S/G D 13 19 1 PNC 07H +20.80 27 S/G D 13 19 5 PNC 07H + 9.75 27 S/G D 13 19 13 PNC 07H +4.98 27 S/G D 13 19 15 PNC 07H +2.51 27 S/G D 13 19 22 PNC 07H + 15.72 27 S/G D 13 25 17 PNC 12C +25.39 31 l

3-D-25 l

l 1

l FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS l

STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G D 13 86 8 PNC 18C + 3.92 149 S/G D 13 86 10 PNC 14C +35.92 149 S/G D 14 40 13 PNC 15C +29.60 41 S/G D 14 40 21 PNC 15C +38.82 41 S/G D 14 61 SAI TSH -2.57 26 S/G D 14 70 35 PNC 07H +36.36 3 S/G D 14 92 16 PNC 06H +25.88 69 S/G D 14 96 SAI 03H -11.55 172 S/G D 14 118 11 PNC AV2 + 0.00 105 S/G D 15 42 10 PNC 19C + 15.07 45 S/G D 16 51 11 PNC 08H +30.21 14 S/G D 16 57 1 PNC 14C + 12.37 49 S/G D 16 57 3 PNC 14C +29.79 49 S/G D 16 77 1 PNC 09H + 13.57 57 S/G D 16 77 16 PNC 09H + 27.21 57 S/G D 17 7 8 PNC 09H +44.05 19 I S/G D 17 14 8 PNC 19C + 6.11 19 S/G D 17 22 16 PNC 03H + 19.66 27 i

S/G D 17 44 6 PNC 15C +32.66 45 I S/G D 17 85 12 PNC 13C + 14.04 149 S/G D 17 103 23 PNC 04H +42.92 91 S/G D 18 4 29 ODI 04H + 11.65 23 S/G D 18 36 6 PNC 08H +23.69 41 S/G D 18 45 44 SCI TSH -0.16 32 S/G D 18 46 4 PNC 04H +13.60 to 6

+*

S/G D 18 47 16 PNC 19C + 10.56 147 S/G D 18 50 6 PNC 17C + 13.93 16 S/G D 18 91 11 PNC 08H +7.72 69 S/G D 18 91 20 PNC 06H +38.88 69 3-D-26 l

FLAWS WITH TUBE WALL THICKNESS REDUCTION b)

" ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number S/G D 19 13 19 PNC 13C + 10.35 19 S/G D 19 31 12 PNC 17C +22.95 35 S/G D 19 38 5 PNC 15C + 15.81 43 i S/G D 19 46 9 PNC 15C +32.62 8 S/G D 19 106 19 PNC 21C + 11.16 155 S/G D 19 117 2 PNC O1H +25.08 155 S/G D 20 10 7 PNC 14C + 7.99 19  !

S/G D 20 24 9 PNC 17C +23.20 29 S/G D 20 38 1 SCI TSH + 0.07 30 S/G D 20 50 54 SCI TSH -0.21 30 S/G D 20 54 15 PNC 12C + 38.92 14 S/G D 20 86 1 PNC TSH +5.21 65 S/G D 21 7 13 PNC 06H +7.96 19 S/G D 21 47 68 SCI TSH -0.24 30 IT

~~

S/G D 21 87 MAI TSH -0.02 80 S/G D 22 10 1 PNC AV1 + 10.85 19 S/G D 22 25 11 PNC 12C + 17.08 31 S/G D 22 25 14 PNC 08H +29.82 31 S/G D 22 36 37 PNC 04H +3.13 41 i

S/G D 22 44 72 SCI TSH -0.31 30 l S/G D 22 45 74 SCI TSH -0.11 32 S/G D 22 102 30 PNC 05H +30.99 85 S/G D 23 12 8 PNC 01H + 17.73 19 S/G D 23 13 15 PNC 04H +7.77 19 i S/G D 23 13 19 PNC 04H + 5.09 19 S/G D 23 16 13 PNC 09H +20.48 13 S/G D 23 25 13 PNC 05H + 28.94 29 S/G D 23 48 4 PNC 07H + 1.53 147 S/G D 23 77 44 SCI TSH -0.27 38 l

S/G D 23 93 8 PNC 18C + 10.23 75 l

I O

(j 3-D-27 l

l

l l

l FLAWS WITH TUBE WALL THICKNESS REDUCTION l ALL STEAM GENERATORS 1 STP-1 5/96 1RE06 l Steam Row Column %TW Indication Location Tape Generator Number l

S/G D 23 94 12 PNC 13C +36.11 75 l

S/G D 23 96 7 PNC 14C +24.74 149 S/G D 23 108 10 PNC 13C +21.47 155 S/G D 24 9 13 PNC 03H + 14.31 17 S/G D 24 17 19 PNC 13C +37.84 15 S/G D 24 30 20 PNC O1H +20.81 33 S/G D 24 42 66 SCI TSH -0.02 30 S/G D 24 44 86 SCI TSH -0.02 30 S/G D 24 48 92 SCI TSH -0.07 30 S/G D 24 68 70 SCI TSH -0.15 34 S/G D 24 96 23 PNC 19C +3.38 149 S/G D 24 104 8 PNC 20C + 1.31 155 S/G D 25 11 3 PNC 02H +28.95 19 S/G D 25 11 18 PNC 04H +2.16 19 S/G D 25 12 4 PNC 04H + 12.45 19 S/G D 25 12 4 PNC 04H + 13.69 19 S/G D 25 69 83 SCI TSH -0.10 36 S/G D 25 73 86 SCI TSH -0.10 38 S/G D 26 15 23 PNC 09H +32.26 13 S/G D 26 18 25 PNC 14C +25.40 95 S/G D 26 23 4 PNC 09H + 11.14 31 S/G D 26 24 21 PNC 05H + 17.73 29 S/G D 26 26 10 PNC 09H + 17.65 31 S/G D 26 28 11 PNC 04H + 15.89 29 S/G D 26 28 16 PNC 04H + 18.20 29 S/G D 26 41 17 PNC 04H + 2.30 41 S/G D 26 42 73 SCI TSH -0.11 30 S/G D 26 70 70 SCI TSH -0.26 34 S/G D 27 37 78 SCI TSH -0.12 30 S/G D 27 56 6 PNC 16C + 15.43 49 3-D-28

I I FLAWS WITH TUBE WALL THICKNESS REDUCTION i

(,_) ALL STEAM GENERATORS

'O STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape i Generator Number S/G D 27 56 7 PNC 16C +37.94 49 S/G D 27 101 MAI TSH -0.09 96 S/G D 28 11 40 PNC 02H +23.66 17 S/G D 28 70 28 PNC 09H +22.06 55 S/G D 28 109 14 PNC 08H +36.20 97 I S/G D 29 14 6 PNC 16C +6.78 19 S/G D 29 14 14 PNC 06H +28.28 19 S/G D 29 22 8 PNC 05H + 10.63 27 S/G D 29 104 10 PNC 19C +3.83 91 i S/G D 30 12 2 PNC 02H +33.53 17 S/G D 30 18 10 PNC 09H +33.22 95 S/G D 30 75 79 SCI TSH +0.01 38 S/G D 30 95 8 PNC 09H +36.57 75 S/G D 31 14 9 PNC 12C +35.49 19

()

S/G D S/G D 31 31 71 85 5

36 PNC PNC 13C 15C

+20.76

-1.64 53 67 S/G D 32 39 18 ODI 15C +36.92 41 S/G D 33 90 9 PNC 16C + 12.94 71 S/G D 34 20 16 PNC 12C + 6.42 25 S/G D 34 38 13 PNC 08H + 12.87 41 S/G D 34 38 18 PNC O1H + 5.17 41 S/G D 35 62 7 PNC 21C -0.06 161 S/G D 35 85 32 PNC 14C + 12.64 67 S/G D 36 24 4 PNC 02H +31.67 29 S/G D 36 26 11 PNC 02H + 13.76 31 S/G D 36 36 14 PNC 09H +31.44 37 S/G D 36 36 16 PNC 09H + 12.61 37 S/G D 36 103 14 PNC 12C + 12.18 155 S/G D 37 70 7 PNC 15C +21.07 53 S/G D 38 64 2 PNC 22C + 14.39 51 O 3-D-29 i V

l l

FLAWS WITH TUBE WALL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape

, Generator Number S/G D 39 16 13 PNC 10H +31.51 13 S/G D 40 78 SAI TSH -0.48 68 S/G D 41 23 4 PNC 05H +42.66 29 S/G D 41 23 11 PNC 05H +40.27 29 S/G D 41 27 11 PNC 07H +35.52 31 S/G D 41 42 9 PNC AV2 + 0.00 47 S/G D 41 42 16 PNC AV3 + 0.00 47 S/G D 41 103 35 ODI 08H +33.09 165 S/G D 42 25 14 PNC 22C + 14.51 31 S/G D 42 28 3 PNC 21C + 12.30 29 S/G D 42 28 13 PNC 21C + 10.75 29 S/G D 42 56 19 PNC 13C + 19.06 51 S/G D 42 56 24 PNC 13C + 15.34 51 S/G D 43 23 4 PNC 02H + 1.19 29 S/G D 43 23 7 PNC 14C + 5.82 29 S/G D 43 23 9 PNC 02H +3.37 29 S/G D 43 23 13 PNC 14C + 7.04 29 S/G D 44 45 10 PNC O1H + 8.65 45 S/G D 44 45 22 PNC O1H +7.49 45  !

S/G D 44 62 12 PNC AV4 + 0.00 49 S/G D 44 62 18 PNC AV3 + 0.00 49 S/G D 44 62 21 PNC AV2 + 0.00 49 S/G D 44 63 1 PNC 17C + 5.02 161 S/G D 44 63 1 PNC 17C + 5.05 147 S/G D 44 63 5 ODI 22C -0.39 161 )

S/G D 45 46 10 PNC 13C + 21.46 147 S/G D 45 59 16 PNC AV3 +0.00 147 SIG D 45 86 23 PNC 14C + 26.67 151 S/G D 46 56 2 PNC 17C + 11.09 51 S/G D 46 67 1 PNC O1H + 13.19 55 l 3-D-30

i FLAWS WITII TUBE WdL THICKNESS REDUCTION ALL STEAM GENERATORS STP-1 5/96 1RE06 Steam Row Column %TW Indication Location Tape Generator Number l S/G D 47 65 9 PNC 04H +20.60 49 S/G D 47 90 32 PNC 14C +31.70 71 1

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! APPENDIX 3-E l

, DINGS AND DENTS a

e I

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row. Column Indication Location - Tape Generator Number S/G A 1 96 DNG 09H +44.36 2 S/G A 1 108 DNG 09H +44.51 132 S/G A 1 109 DNG 09H +43.00 132 l

S/G A 1 110 DNG 09H ~ +44.26 132 I l S/G A 1 111 DNG 09H +44.38 132 l S/G A 1 112 DNG 09H +43.05 132  !

j S/G A 1 114 DNG 09H +44.38 132 j- S/G A 2 2 DNG 15C +22.20 127

S/G A 2 32 DNG 10H +10 32 129

! S/G A 2 47 DNG 10H + 10.52 129

)

S/G A 2 54 DNG. 04H +9.05 130

[ S/G A- 2- 97 DNG 10H + 13.63 133 i S/G A 2 98 DNG 10H + 10.61 133

! S/G A 2 98 DNG 10H + 10.93 133

)' S/G A S/G A 3 77 DNG 02H + 19.20 4 l 3 83 DNG 04H +25.81 4 S/G A 3 99 DNG 05H +21.67 8 l S/G A 4 5 DNG 10H + 14.20 127 S/G A 4 5 DNG 10H + 15.39 127

S/G A 4 5 DNG 10H +22.08 127 j S/G A 4 28 DNG 10H + 14.11 6 S/G A 4 28 DNG 10H + 14.11 129 i

! S/G A 4 DNG 31 10H +7.08 6

! S/G A 4 31 DNG 10H + 8.92 6

S/G A 4 31 DNG 10H . + 9.26 129 I S/G A 4 31 DNG 10H + 12.94 6 S/G A 4 35 DNG 23C + 2.40 129 S/G A 4 67 DNG 10H +6.36 2 i S/G A 4 67 .DNG 10H + 8.50 135

!. S/G A 4 68 DNG 10H +7.53 2

o j 3-E-1 l

. , . - . _ _ , , , _ _. - -_ _ ,,m , , . _ _ . , . .,

1 l

l DENTS AND DINGS g ALL GENERATORS T i STP-1 5/96 1RE06 Steam Row Column Indication Location Tape l Generator Number S/G A 4 68 DNG 10H + 8.30 135 S/G A 4 117 DNG TSC + 6.51 133 S/G A 5 1 DNG 02H +29.64 7 S/G A 5 1 DNG 02H +30.52 7 S/G A 5 53 DNG 13C +30.67 109 S/G A 5 53 DNG 13C +31.42 109 S/G A 5 56 DNG 13C + 31.66 109 i S/G A 5 56 DNG 13C +32.10 109 l S/G A 5 56 DNG 13C +32.97 109 S/G A 5 58 DNG 13C +31.06 128 S/G A 5 59 DNG 13C +29.60 128 S/G A 5 65 DNG 04H + 15.06 10 S/G A 6 1 DNG 17C + 6.87 7 S/G A S/G A 6

6 2

82 DNG DNT 15C 02H

+3.34

-0.24 7

67 g'

S/G A 6 82 DNT 02H -0.29 100 S/G A 7 109 DNG 18C +2.30 101 S/G A 7 110 DNG 16C +33.01 101 I S/G A 9 54 DNG 09H +39.15 107 '

S/G A 9 54 DNG 09H +39.84 107 S/G A 10 23 DNG 07H +25.18 25 S/G A 10 62 DNG 13C + 16.62 10 S/G A 10 102 DNG 08H + 8.01 93 S/G A 10 104 DN$" 08H +31.06 95 S/G A 10 117 DNG 08H +7.08 103 S/G A 11 62 DNG 08H + 15.80 3 S/G A 11 100 DNG AV1 +5.60 87 S/G A 12 61 DNG 16C +43.54 3 S/G A 12 69 DNG 06H +2.22 3 S/G A 12 94 DNG 09H + 15.83 79 3-E-2

4-I I

DENTS AND DINGS ALL GENERATORS

STP-1 5/96 1RE06 Steam Row Column Indication Location Tape i Generator Number

!- S/G A DNG 13 61 10H +3.51 3

)

I S/G A 13 99 DNG 11C +1.01 151 S/G A 13 99 DNG AV4 + 13.33 89 i S/G A 13 99 DNT 11C +0.80 89 i S/G A 13 105 DNG 02H -1.83 97 S/G A 14 3 DNG 22C + 16.27 7 i S/G A 14 64 DNG 13C +24.35 3

)- S/G A 14 64 DNG 13C +25.14 3 j S/G A 14 64 DNG AV1 + 12.95 3 j S/G A 14 67 DNG 08H +27.73 3

! S/G A 14 67 DNG 08H +28.46 3 i- S/G A 14 67 DNG 08H +29.07 3

) S/G A 14 67 DNG 13C +28.10 3 i- S/G A 14 74 DNG 04H +0.75 5

S/G A 14 109 DNG 15C +20.81 - 99

[ S/G A 14 109 DNG 15C +32.87 99

[ S/G A 14 109 DNG 15C +38.84 99 j S/G A 15 18 DNG 21C + 12.56 17

S/G A 15 23 DNG 09H +2.94 23 j S/G A 15 37. DNT 06H -0.42 33 l S/G A 15 63 DNG AV1 +3.91 3 i S/G A 15' 118 DNT 10H +0.47 105 j S/G A 16 72 DNG 06H +29.47 51 4

S/G A 16 97 DNT 11C +0.46 89 S/G A 16 97 DNT 11C +0.53 151 l

S/G A 16- 99 DNT 11C +0.40 87 S/G A 16 99 DNT 11C +0.49 125 3 S/G A 16 116 DNT 11C +0.42 103 i S/G A 17 53 DNG 16C +38.82 45 l S/G A 17 62 DNG AV4 + 18.65 49 i

i 3-E-3 1

i k-4 4

DENTS AND DINGS ALL GENERATORS

&l T

STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number l S/G A 17 96 DNG 17C +36.19 141 l

S/G A 17 96 DNG 19C + 13.14 141 1 S/G A 18 5 DNG 19C +5.67 7 S/G A 18 8 DNG AV1 +5.10 9 S/G A 18 29 DNG TSH +3.67 27 S/G A 18 29 DNT O1H + 0.21 27 I S/G A 18 47 DNG 15C +7.69 39 l S/G A 18 54 DNG 03H + 15.13 43 l S/G A 18 91 DNG O'2H +33.49 79 S/G A 18 113 DNG 04H +28.46 99 l S/G A 18 113 DNG 13C + 5.04 99 '

S/G A 19 30 DNG 15C +41.95 29 S/G A 19 31 DNG 14C +39.76 29  !

S/G A 19 40 DNG 17C + 10.60 37 S/G A 19 62 DNG 21C +5.05 49 S/G A 19 72 DNG AV4 + 15.35 57 S/G A 19 74 DNG AV1 + 17.35 57 S/G A 19 74 DNG AV2 +4.22 57 l S/G A 19 74 DNG AV4 + 15.65 57 S/G A 19 74 DNG TSH +27.46 57 S/G A 19 104 DNG 10H -1.40 97

]

S/G A 20 57 DNG TSH +2.23 43 S/G A 20 107 DNG AV3 + 6.54 95 S/G A 21 35 DNG O1H + 15.55 27 S/G A 21 35 DNG TSH + 6.76 27 S/G A 21 43 DNG 04H +37.14 35 i S/G A 21 77 DNG 23C +3.34 65 l S/G A 21 77 DNG 23C +3.43 141  :

S/G A 21 111 DNG 10H +5.64 101 i S/G A 22 25 DNG 16C + 15.05 23 l 3-E-4 Ol l

DENTS AND DINGS O ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication location Tape Generator Number S/G n 22 114 DNG 03H + 17.46 99 S/G$ 22 114 DNT 11C + 0.40 99 S/G A 22 116 DNT 08H -0.54 103 S/G A 23 8 DNG 12C +30.59 9 S/G A 23 26 DNG 05H + 17.05 25 S/G A 23 63 DNG 16C +5.84 47 S/G A 23 75 DNG 14C + 10.68 59 S/G A 23 111 DNG 14C +22.28 101 S/G A 23 111 DNG 16C + 8.11 101 S/G A 24 13 DNG 13C +31.94 11 S/G A 24 14 DNT 20C -0.18 13 S/G A 24 14 DNT 20C -0.26 125 S/G A 24 25 DNG 07H + 10.77 23 S/G A 24 25 DNG 09H + 4.85 23 O S/G A 25 77 DNG 13C +43.33 65 S/G A 26- 26 DNG 10H + 13.64 23 S/G A 26 57 DNG 09H +42.54 45' S/G A- 26 76 DNG AV2 + 12.77 65 S/G A 26 -84 DNT 11C -0.22 125 S/G A 26 108 DNG 14C +21.12 101 S/G A 26 111 DNG 16C +22.73 99 S/G A 27 13 DNG 09H + 8.61 11 S/G A 27 36 DNG AV4 + 8.75 33 S/G A 27 68 DNG 05H + 6.61 51 S/G A 28 22 DNG 20C + 11.63 19 S/G A 28 22 DNG AV2 +0.50 19 S/G A 29 56 DNG 12C +40.39 43 S/G A 29 58 DNG TSC + 8.10 43 S/G A 29 76 DNG 21C +9.44 63 S/G A -29 112 DNG 12C + 6.76 99 O 3-E-5

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G A 29 112 DNG 13C +28.15 99 S/G A 29 112 DNT 12C +0.85 99 S/G A 30 30 DNG 02H +7.42 27 S/G A 30 35 DNG 17C +34.66 33 S/G A 31 23 DNG 06H +3.20 19 S/G A 31 51 DNG 04H +42.88 39 S/G A 31 54 DNG 09H +42.07 45 S/G A 31 54 DNG 09H +42.72 45 S/G A 31 55 DNG 09H +41.49 43 S/G A 31 63 DNG 23C +4.72 47 S/G A 31 63 DNG 23C +5.49 47 S/G A 31 77 DNG AV1 +4.57 65 S/G A 31 82 DNG AV2 +4.52 67 S/G A 31 82 DNG AV3 + 18.31 67 S/G A 31 97 DNG 19C +3.70 83 S/G A 32 12 DNG 09H +39.80 11 S/G A 32 15 DNG 09H + 36.88 13 S/G A 32 15 DNG 09H +37.62 13 S/G A 32 15 DNG 09H +41.68 13 S/G A 32 15 DNG 09H +42.21 13 S/G A 32 15 DNG 09H +42.91 13 S/G A- 32 15 DNG 12C +39.25 13 S/G A 32 15 DNG 12C +44.03 13 S/G A 32 16 DNT 10H +0.18 13 S/G A 32 35 DNG O1H +9.34 33 S/G A 32 35 DNG O1H + 13.84 33 S/G A 32 43 DNG 02H +25.70 37 S/G A 32 43 DNG 04H + 13.99 37 S/G A 32 83 DNG 15C +2.32 67 S/G A 33 21 DNG 01H + 2. 62 19 3-E-6

l l

l l

O DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape l Generator Number l S/G A 33 24 DNT 10H +0.09 23 {

S/G A 33 24 DNT 10H +0.09 150 S/G A 33 32 DNG 09H +44.19 29 S/G A 33 47 DNG 04H +20.68 41 ,

S/G A 33 57 DNG 21C + 13.69 43 l S/G A 34 18 DNG 09H +39.19 15 l S/G A 34 18 DNG 09H +39.55 15 S/G A 34 18 DNG. 09H +39.82 15 S/G A 34 18 DNG 12C +38.18 15 S/G A 34 25 DNG 07H +34.70 23 S/G A 34 41 DNG. 22C + 10.05 35 S/G A 34 42 DNG 13C + 15.54 37 S/G A 34 42 DNG 14C +0.81 37 S/G A 34 52 DNG 12C +42.68 39 S/G A 34 53 DNG 10H -0.46 43 l

S/G A 34 53 DNG 11C + 0.24 43 S/G A 34 53 DNT 11C +0.28 125 S/G A 34 55 DNG 09H +42.61 45 S/G A 34 57 DNG- 19C +7.80 45 S/G A 34 71 DNG 07H + 17.45 57 I S/G A 34 76 DNG 12C +40.63 65 S/G A 34 84 DNG 06H +30.00 67 S/G A 34 86 DNG 17C +40.75 71 S/G A 34 88 DNG 03H + 19.22 71 l S/G A 34 90 DNG 09H +40.90 75 l S/G A 34 90 DNG 09H +41.77 75 I S/G A- 34 90 DNG 12C +38.79 75 S/G A 34 92 DNG 09H +40.19 79 S/G A 34 92 DNG 09H +42.02 79

~5/G A '34 92 DNG 09H +42.75 79 4 i

(O 3-E-7

DENTS AND DINGS ALL GENERATORS T

STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G A 34 92 DNG 09H +43.85 79 S/G A 34 95 DNG 09H +37.05 79 S/G A 34 95 DNG 09H +37.72 79 S/G A 34 106 DNG 06H +35.82 97 S/G A 35 42 DNG 21C +2.59 35 S/G A 35 42 DNG 21C + 4.03 35 S/G A 35 42 DNG 21C +5.44 35 S/G A 35 76 DNG 03H + 17.17 63 S/G A 35 84 DNG 23C +3.06 69 S/G A 35 102 DNT 11C +0.45 91 S/G A 36 21 DNG 15C + 23.06 21 S/G A 36 50 DNG 09H +43.16 39 S/G A 36 50 DNT 10H -0.34 39 S/G A' 36 65 DNG 12C +35.49 49 S/G A 36 75 DNG 22C + 6.64 61 {'

S/G A 36 94 DNG 08H +37.31 81 S/G A 36 94 DNG 09H -1.27 81 S/G A 36 102 DNT 11C +0.09 93 S/G A 36 102 DNT llc +0.40 125 S/G A 36 106 DNG 09H +35.97 97 S/G A 36 107 DNG 23C + 4.79 95 S/G A 36 107 DNG 23C +5.60 95 S/G A 37 42 DNG 21C + 8.38 35 S/G A 37 46 DNG 14C +43.17 41 S/G A 37 51 DNG 12C +42.03 39 S/G A 37 99 DNG 09H +31.50 89 S/G A 38 32 DNG 09H + 14.87 27 S/G A 38 32 DNG 09H +23.07 27 S/G A 38 54 DNG 12C +35.62 43 S/G A 39 29 DNG AV4 + 2.07 29 3-E-8

O DENTS AND DINGS Cl ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Imation Tape Generator Number S/G A 39 80 DNT 11C + 0.46 65 S/G A 39 97 DNG 19C + 8.17 83 S/G A 40 33 DNG 17C +2.55 27 S/G A 40 35 DNG TSC +4.97 33 S/G A 40 43 DNG 02H +20.13 37 S/G A 40 50 DNG O1H + 9.13 39 S/G A 40 50 DNG 01H + 11.14 39 S/G A 40 50 DNG O1H + 12.72 39 S/G A 41 57 DNG 08H + 19.18 43 S/G A 41 63 DNG 12C + 13.99 47 S/G A 41 78 DNG 12C +37.55 63 S/G A 41 92 DNG 16C +24.93 81 S/G A 41 95 DNG 02H +29.27 81 (m S/G A 42 38 DNG 09H +41.79 31

\b S/G A 42 40 DNT 11C + 0.51 35 )

S/G A 42 51 DNG 12C +42.48 39 S/G A 42 52 DNG 12C +43.48 39 S/G A 42 101 DNG 10H + 8.72 87 S/G A 43 36 DNG 02H +33.57 33 S/G A 43 36 DNG 06H + 12.44 33 S/G A 43 36 DNG 06H +20.41 33 S/G A 43 36 DNG 06H +26.66 33 S/G A 43 36 DNG 07H +25.75 33 S/G A 43 36 DNG 12C +22.80 33 S/G A 43 37 DNG 09H +43.16 33 S/G A 43 38 DNG 09H +43.45 33 S/G A 43 62 DNG 09H +37.87 49 S/G A 43 63 DNG 09H +32.07 47 S/G A 43 63 DNG 09H +32.82 47 S/G A 43 63 DNG 10H + 9. 84 47 3-E-9 l

DENTS AND DINGS ALL GENERATORS g

STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G A 43 64 DNG 10H + 8.59 47 S/G A 43 69 DNG 10H +9.09 51 S/G A 43 92 DNG 16C +38.53 81 S/G A 44 38 DNG 09H +37.94 31 1 S/G A 44 67 DNG 05H +24.32 49 i S/G A 44 67 DNG 06H + 17.18 49 S/G A 44 99 DNG AV2 + 15.83 87 l S/G A 44 99 DNT 05H -0.38 134 i S/G A 44 99 DNT 05H -0.39 87 S/G A 44 99 DNT 10H + 0.39 87 i S/G A 45 40 DNG AV4 +24.15 37 S/G A 45 49 DNG 17C + 14.42 41 S/G A 45 63 DNG OlH + 6.93 47 S/G A 45 71 DNG 18C +4.51 51 S/G A 45 72 DNG 23C + 8.90 51 S/G A 45 92 DNG 07H +28.31 81 i S/G A 45 92 DNG 08H + 1.45 81 S/G A 45 98 DNT 11C + 0.00 87 l S/G A 45 98 DNT 11C + 0.21 125 S/G A 46 40 DNG 17C + 13.47 35 S/G A 46 91 DNG 09H +34.76 75 S/G A 47 54 DNG O1H + 16.42 45 S/G A 47 67 DNG O1H +3.27 47 S/G A 47 68 DNT O1H + 0.61 51 S/G A 47 70 DNG O1H +4.50 51 S/G A 47 72 DNG 09H +35.51 51 S/G A 47 72 DNG 09H +42.93 51 S/G A 47 72 DNT llc + 0.24 51 S/G A 47 72 DNT 11C -0.41 51 S/G A 48 31 DNT AV3 -0.03 27 3-E-10

I

)

1 l

O DENTS AND DINGS I ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G A 48 32 DNT AV3 +0.00 27 S/G A 48 36 DNG AV2 +1.84 31 S/G A 48 37 DNG AV2 +2.75 31 S/G A 48 43 DNG 17C +21.59 35 l S/G A 48 71 DNG 02H +29.60 57

. S/G A 48 88 DNG 13C +26.67 71 S/G A 48 89 DNG 20C + 11.27 71 S/G A 48 90 DNG 20C + 11.96 75 l S/G A 48 92 DNG 22C + 2.72 79 l S/G B 1 44 DNG 22C +3.32 121 B TSC 8 j S/G B 1 61 DNG 10H +1.09 4 l S/G B 2 60 DNG 13C +32.72 153 l S/G B 3 33 DNG 09H + 9.98 4 l S/G B 3 76 DNG 12C +36.89 139 f S/G B 3 84 DNG 17C +31.01 139 l S/G B 3 118 DNG O1H + 6.43 188 j S/G B 4 24 DNG 23C +7.04 131

S/G B 4 41 DNG 21C + 14.83 133 S/G B 5 88 DNG 10H +24.86 89 l S/G B 5 110 DNG 19C -0.89 109 S/G B 7 80 DNG AV1 -0.18 73 1 l S/G B 9 34 DNG 23C + 1.34 35 l S/G B 9 84 DNG 18C + 9.40 81 I

S/G B 10 2 DNG 02H +29.72 5 j S/G B 10 38 DNG O1H +5.90 37 l S/G B 10 75 DNT O1H -0.63 1 j i S/G B 10 119 DNG 08H +44.46 111 I

] S/G B 11 31 DNG 07H +25.98 25

~o 3-E-11 i

i i

DENTS AND DINGS I ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G B 11 78 DNG AV1 + 11.60 73 S/G B 11 78 DNG TSH +3.87 73 S/G B 11 78 DNG TSH +5.05 73 S/G B 12 62 DNG AV1 + 8.89 3 S/G B 12 68 DNG AV4 + 13.25 3 S/G B 12 118 DNG 12C +25.24 111 S/G B 12 118 DNG 12C +26.07 111 S/G B 13 62 DNG 12C + 10.05 1 S/G B 14 100 DNG 13C +5.71 101 S/G B 14 101 DNG AV4 + 13.24 99 S/G B 14 116 DNG 09H +32.81 113 S/G B 14 116 DNG 12C +32.50 113 S/G B 14 116 DNG 12C +33.31 113 S/G B 15 56 DNG 15C +39.93 119 S/G B 15 58 DNG 12C +40.15 119 S/G B 15 58 DNG 12C +41.95 119 S/G B 15 101 DNG 19C + 16.03 101 l

S/G B 16 17 DNG 20C + 11.43 13 S/G B 16 62 DNT 10H + 0.72 53 S/G B 16 62 DNT 10H +0.72 214 i S/G B 16 66 DNG 02H +26.62 57 S/G B 17 5 DNG 12C +27.40 7 S/G B 17 30 DNG 16C +3.22 27 S/G B 17 52 DNG 07H +39.68 49 S/G B 17 52 DNT 08H +0.65 49 S/G B 17 62 DNG AV4 + 17.63 55 S/G B 17 63 DNG 05H +35.59 57 S/G B 17 66 DNG 02H + 11.01 59 S/G B 17 102 DNG 06H +34.58 99 S/G B 17 102 DNG 07H + 13.73 99 3-E-12

Q b

DENTS AND DINGS ALL GENERATORS

-j STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G B 18 28 DNG 03H + 11.00 27 S/G B 18 39 DNG 17C +20.22 37 S/G B 18 43 DNG 04H +20.10 43 S/G B 18 43 DNG 04H +23.05 43 S/G B 18' 46 DNG 15C + 14.03 14 S/G B 18 69 DNG 20C +7.79 63 S/G B 18 105 DNG 21C + 11.83 103 S/G B 19 40 DNG 18C + 11.34 43 S/G B 19 40 DNT 17C -0.54 43

S/G B '19 77 DNG 03H + 10.95 73 l- S/G B 19 77 DNG 03H + 17.04 73 2

S/G B 19 90 DNG 06H +43.36 89 l' S/G B 19 115 DNG 03H +23.41 113

S/G B 20 33 DNG 03H +30.10 159 l S/G B 20 37 DNG- AV3 +9.75 37 l S/G B 20 63 DNG TSH +21.37 59 i S/G B 20 95 DNG 19C + 6.44 97 S/G B 20 110 DNG O1H +24.53 107 l S/G B 21- 19 DNG 16C +30.68 19 l S/G B 21 36 DNG %H +35.00 39 S/G B 21 45 DNG TSH + 14.26 47 l

i S/G B 21 45 DNG TSH + 15.49 47

! S/G B 21 105 DNG 16C +25.54 105 l S/G B 22 5 DNT 11C -0.40 125

) S/G B 22 5 DNT 14C -1.43 125  ;

S/G B 22 94 DNG 09H + 11.21 91 S/G B

) 22 102 DNG 03H + 1.29 169 '

i S/G B 22 116 DNT 13C -0.42 179 f S/G B 22 116 'DNT 13C -0.42 111 i S/G B 23 28 DNG 20C + 11.57 25 i

3-E-13 c

l DENTS AND DINGS g' l ALL GENERATORS W l STP-1 5/96 1RE06 l Steam Row Column Indication Location Tape Generator Number j S/G B 23 44 DNG 16C +42.99 43 i S/G B 23 71 DNG AV1 +2.39 61 S/G B 23 111 DNG 19C + 11.76 107 l 1

S/G B 24 6 DNG AV3 + 13.31 9 S/G B 24 34 DNG 03H +5.65 159 )

S/G B 24 34 DNT 03H -0.36 159 l S/G B 24 38 DNG 18C + 13.51 37 i S/G B 24 75 DNG 04H + 12.07 61 S/G B 24 99 DNG 06H + 10.65 95 S/G B 25 34 DNG 20C +1.05 35 S/G B 25 76 DNG AV4 + 15.72 67 S/G B 26 10 DNG 03H + 7.27 9 S/G B 26 10 DNG 03H + 8.57 9 S/G B 26 10 DNG 03H + 10.02 9 S/G B 26 10 DNG 03H + 11.43 9 S/G B 26 10 DNG 03H + 12.73 9 l S/G B 26 48 DNG 12C + 14.29 14 l S/G B 26 48 DNG 12C +32.50 14 l

S/G B 27 8 DNG 07H + 2.07 11 l S/G B 27 74 DNG 16C + 8.58 61 S/G B 27 77 DNG 21C +9.35 73 S/G B 28 67 DNG 08H +40.94 59 S/G B 28 67 DNG 09H +2.30 59 S/G B 28 70 DNG 09H + 1.73 63 S/G B 28 78 DNG O1H -1.45 73 S/G B 28 78 DNG 02H + 18.63 73 S/G B 28 78 DNG 02H +30.82 73 S/G B 28 78 DNG 03H + 6.68 73 S/G B 28 78 DNG 03H + 18.66 73 l S/G B 28 78 DNG 03H +30.64 73 3-E-14

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication IAcation Tape Generator Number S/G B 28 92 DNT 11C -0.22 91 S/G B 29 24 DNG 12C + 18.39 23

) S/G B 29 38 DNG 13C + 17.99 39 j S/G B 29 45 DNG 04H +4.18 47 i S/G B 29 53 DNG 03H +3.47 49

) S/G B 29 53 DNG 03H +4.86 49

S/G B 29 53 DNG 03H + 6.15 49 l S/G B 29 53 DNG 03H +7.50 49 S/G B 29 71 DNG 09H +30.37 61 S/G B 29 71 DNG 12C +35.72 61 S/G B 29 102 DNT 11C + 0.37 99

S/G B 30 10 DNG O1H +24.28 9 j S/G B 30 10 DNG O1H +25.57 9 S/G B 30 10 DNG 03H + 8.64 9 l

{ V S/G B 30 10 DNG 03H +9.81 9 i S/G B 30 24 DNG 04H +9.27 21 l S/G B 30 94 DNG 09H- +34.40 91

) S/G B 30 94 DNG 12C +41.03 91

S/G B 30 94 DNG 20C + 15.88 91 f S/G B 31 39 DNG 12C +39.88 39

j. S/G B 31 52 DNG 12C +37.80 51 i S/G B 31 53 DNG AV1 -1.43 49 i S/G B 31 67 DNG AV3 + 18.44 57

! S/G B 31 83 DNG AV3 + 18.62 81 j S/G B 31 87 DNG AV2 +4.07 - 89  ;

} S/G B 31 87 DNG AV3 + 18.62 89 l S/G B 31 89 DNG AV3 + 18.55 89 S/G B 31 93 DNG 12C +40.93 93 S/G B 31 93 DNG 12C +41.71 93 i i S/G B 31 98 DNG 19C + 14.37 97 i,

] 3-E-15 i  !

i

i DENTS AND DINGS I ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G B 32 11 DNG 12C +43.82 9 S/G B 32 11 DNG 15C +9.86 9 S/G B 32 15 DNG 05H +22.43 15 S/G B 32 18 DNG 09H + 17.73 13 S/G B 32 52 DNG 12C +37.67 49 S/G B 32 52 DNG 12C +38.54 49 S/G B 32 52 DNT 10H + 0.77 49 S/G B 32 64 DNG 10H + 4.71 59 S/G B 32 71 DNG 09H +39.15 63 S/G B 32 71 DNG 09H +39.80 63 S/G B 32 93 DNG 07H +38.74 91 S/G B 33 17 DNT 22C -0.21 15 S/G B 33 26 DNG 09H +36.26 21 S/G B 33 31 DNG 12C +40.38 25 g S/G B 33 36 DNG 12C +40.80 . 39 W S/G B 33 44 DNG 09H +37.98 43 S/G B 33 99 DNG 15C +30.41 97 S/G B 33 99 DNG 15C +36.42 97 S/G B 34 26 DNG 09H +29.77 23 i S/G B 34 26 DNG 09H + 30.51 23 S/G B 34 26 DNG 09H +31.25 23  ;

S/G B 34 34 DNG 03H + 16.22 159 l S/G B 34 83 DNG 09H +42.49 79 S/G B 34 105 DNG 09H +28.25 103 S/G B 35 55 DNG 04H +5.78 53 S/G B 35 63 DNT 18C +0.00 179 S/G B 35 63 DNT 18C + 0.00 57 i S/G B 35 77 DNG 09H -0.67 73 S/G B 35 77 DNG 17C + 8.27 73 l S/G B 35 105 DNG 12C +39.74 105 l

3-E-16

DENTS AND DINGS l ALL GENERATORS i

STP-1 5/96 1RE06

) Steam Row Column Indication Imtion Tape ,

Generator Number S/G B 35 108 DNG 04H +25.84 103 -

l S/G B 36 33 DNG 02H +7.43 ~ 159 '

I S/G B 36 33 DNG 02H +7.46 33

S/G B 36 33 DNG 02H + 8.78 159 i j S/G B 36 33 DNG 02H + 8.80 33 l

S/G B 36 33 DNG 02H + 10.07 33 l l S/G B 36 33 DNG 02H + 10.11 159 l S/G B 36 76 DNG 17C + 17.89 67 i S/G B 36 76 DNG 23C +4.46 67 S/G B

) 36 77 DNG 03H + 14.56 71 l j S/G B 36 89 DNG 03H + 18.18 87 l S/G B 36 89 DNG 19C + 15.98 87 I S/G B 36 .105 DNG 12C +28.81 103 S/G B 36 105 DNG 12C +29.48 103

's S/G B 37 24 DNG 04H +28.73 23 S/G B 37 40 DNG 10H + 13.38 43 i S/G B 37 65 DNG 14C +30.50 57 S/G B 37 65 DNG 14C +33.03 57- t j S/G B 37 65 DNG 14C +43.94 57 j S/G B 37 65 DNG 16C +9.52 57 l S/G B 37 68 DNG 15C +23.77 59 i

S/G B 37 68 DNG 15C +29.73 59 j- S/G B 37 68 DNG 22C +2.47 59

) S/G B 37 77 DNG 17C +36.64 73 i S/G B 37 85 DNG 09H +43.02 85 j S/G B 38 19 DNG 04H +39.43 17 j S/G B 38 20 DNG 09H +40.59 17 j S/G B 38 48 DNG 08H +31.85 14 i S/G B 38 48 DNG 08H +31.91 214 I S/G B 38 53 DNG 20C +1.31 51 i

j iO 3-E-17 1

l

DENTS AND DINGS I ALL GENERATORS STP-1 5/96 1RE06 l Steam Row Column Indication Location Tape Generator Number I S/G B 38 53 DNT 20C -0.06 51 l S/G B 38 73 DNG 21C + 7.97 63 l S/G B 38 76 DNG 09H +35.18 169 S/G B 38 81 DNG 09H +40.13 71 l S/G B 38 81 DNG 09H +40.77 71 I S/G B 38 83 DNG O1H + 11.32 79 S/G B 39 26 DNG 15C + 18.80 21 l S/G B 39 54 DNG AV3 + 18.27 53 S/G B 39 54 DNG AV4 + 0.22 53 l S/G B 39 64 DNT 11C + 0.53 57 S/G B 39 64 DNT 11C + 0.58 177 S/G B 39 94 DNG 21C + 14.07 91 S/G B 39 102 DNG 12C +40.40 101 S/G B S/G B 40 40 27 27 DNG DNG TSH TSH

+1.19

+ 2.62 21 21 g

S/G B 40 48 DNG 20C + 6.43 14 1 S/G B 40 49 DNG 23C +5.59 14 S/G B 40 91 DNG 22C + 15.03 91 l S/G B 40 96 DNG 04H + 18.11 97 I S/G B 41 18 DNG 05H +36.07 13 S/G B 41 18 DNT 22C +0.68 13 S/G B 41 37 DNG 03H +30.27 39 S/G B 41 47 DNG O1H + 18.51 16 S/G B 41 55 DNG 09H +37.56 53  ;

S/G B 41 77 DNG 12C +39.12 73 S/G B 41 102 DNT 11C -0.12 101 S/G B 42 24 DNG TSH + 1.55 21 S/G B 42 49 DNG 10H +9.11 14 S/G B 42 51 DNG 10H +9.29 14 S/G B 42 58 DNG 12C +43.36 55 )

3-E-18 O

I i

O DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication IAcation Tape Generator Number S/G B 42 58 DNG 12C +44.06 55 S/G B 42 58 DNG 17C +5.87 55 )

S/G B 42 68 DNG 10H + 8.94 63 S/G B 42 71 DNG 14C +43.27 63 S/G B 42 71 DNT 10H' + 0.53 63 S/G B 42 80 DNG 17C +24.01 71 S/G B 42 82 DNG AV4 + 13.83 79 S/G B 42 102 DNT 16C + 0.48 99 S/G B 43 48 DNG 09H +26.88 16 j S/G B 43 68 DNG 12C +42.54 61 I S/G B 43 85 DNT 23C + 0.40 81 S/G B 43 85 DNT 23C + 0.43 85 S/G B 43 85 DNT 23C +0.57 177 1 e S/G B '43 85 DNT 23C -0.31 81 S/G B 44 25 DNG 16C +26.45 21 i S/G B 44 41 DNG 04H + 17.80 43 I S/G B 44 42 DNG 09H +32.87 41 S/G B 44 42 DNG 09H +33.59 41 S/G B 44 42 DNG 12C +29.22 - 41 S/G B 44 42 DNG 12C +30.31 41 S/G B 44 49 DNT 10H +0.00 14 S/G B 44 49 DNT 10H + 0.10 182 S/G B 44 54 DNG 22C + 8.71 - 55 S/G B 44 55 DNG 12C +39.41 55 S/G B 44 70 DNG 18C +4.82 63 S/G B 44 77 DNG 09H +41.84 71 S/G B 44- 77 DNG 09H +42.55 71 S/G B 45 94 DNG 18C +2.51 91 S/G B 46 63 DNG 11C -0.95 59 S/G B 46 63 DNG 11C -1.68 59 3-E-19

DENTS AND DINGS g ALL GENERATORS T STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G B 46 96 DNT AV4 -0.15 95 S/G B 46 97 DNG 09H +42.54 95 S/G B 46 97 DNG 09H +43.03 182 S/G B 46 97 DNG 09H +43.66 182 S/G B 46 97 DNG 09H -1.60 95 S/G B 46 97 DNG 09H -1.70 95 S/G B 46 97 DNG 10H -1.72 95 S/G B 46 97 DNT 09H -0.40 95 S/G B 46 97 DNT 09H -0.44 214 )

S/G B 47 34 DNG 09H +41.27 35 )

S/G B 47 34 DNG 10H -3.55 208 l S/G B 47 42 DNG 09H +31.88 43 S/G B 47 42 DNG 12C +32.16 43 S/G B S/G B 47 47 43 50 DNG DNG 09H O1H

+33.27

+ 10.53 41 16 gl '

S/G B 47 50 DNG O1H + 11.30 16 l S/G B 47 59 DNG 16C +21.31 161 S/G B 47 59 DNG 16C +21.59 53 S/G B 47 70 DNG 16C + 18.06 61 S/G B 47 86 DNG 12C +35.12 85 S/G B 48 53 DNG 15C +2.53 51 S/G B 48 53 DNG 15C +3.29 51 S/G B 48 76 DNT AV2 + 0.00 71 S/G B 48 82 DNT AV2 + 0.09 79 S/G B 48 84 DNT AV2 + 0.00 79 S/G B 48 85 DNT AV2 + 0.00 79 S/G B 48 85 DNT AV2 +0.03 83 S/G B 48 93 DNT AV4 + 0.00 91 S/G C 1 9 DNG 04H +0.90 4 S/G C 1 9 DNG 04H +1.02 134 3-E-20

r DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 1 10 DNG 04H + 0.90 4 S/G C 1 15 DNG 14C +38.91 99 S/G C 1 15 DNG 14C , +39.68 99 j S/G C 1 43 DNG 03H . +25.16 8

S/G C 1 47 DNG 23C +5.11 99 i S/G C 1 52 DNG 04H +0.95 166'

. S/G C 1 52 DNG 04H +2.01 166

! S/G C 1 62 DNG 08H +9.26 4 S/G C 1 64 DNG 08H + 10.03 4 S/G C 1 65 DNG 08H + 8.45 4

! S/G C -1 65 DNG 13C + 8.60 97 S/G C 1 110 DNG 22C + 0.93 97 S/G C 2 6 DNG 05H +3.40 2 S/G C 2 64 DNG 06H +22.78 2 Os S/G C 2 65 DNG 08H +20.57 2 S/G C 2 65 DNG 08H +20.95 2 S/G C 2 65 DNG 12C + 16.76 111 S/G C 2 65 DNG 13C +44.91 111 S/G C 2- 74 DNG O1H +4.67 2 S/G C 2 112 DNG 10H + 11.33 107 S/G C 3 25 DNG 17C +42.34 101 S/G C 3 31 DNG 21C +1.07 103 S/G C 3 79 DNG 13C +7.82 109 S/G C 3 111 DNG TSH + 8.59 164 S/G C 4 1 DNG 07H +3.92 2 S/G C 4 9 DNG 07H +3.35 2 S/G C 4 53 DNG 07H + 16.07 166 S/G C 4 72 DNT 05H -0.44 134 S/G C 4 72 DNT 05H -0.46 2 S/G C 4 80 DNT 05H -0.53 2 O 3-E-21

l DENTS AND DINGS ALL GENERATORS l STP-1 5/96 1RE06 j Steam Row Column Indication Location Tape I Generator Number S/G C 4 94 DNG 10H + 6.55 109 S/G C 4 109 DNG 07H + 17.24 164 S/G C 4 119 DNG TSC +7.09 107 l

S/G C 4 119 DNG TSC + 7.87 107 l S/G C 4 120 DNG 14C +3.14 107 S/G C 5 16 DNG 10H +7.69 15 S/G C 5 16 DNT AV1 +0.00 15 S/G C 5 26 DNT 02H + 0.00 23 i S/G C 5 55 DNG 04H +21.04 168 S/G C 5 115 DNG 03H + 18.57 95 S/G C 6 5 DNG 14C +3.12 9 )

S/G C 6 25 DNG 14C +3.37 21 {

S/G C 6 48 DNG 18C +7.93 S/G C 7 DNG 125

)

8 10H +20.35 11 S/G C 7 45 DNG 17C +32.44 39 S/G C 7 56 DNG 21C -0.06 168 j S/G C 7 78 DNG 16C + 18.36 61 S/G C 7 88 DNG 21C +7.61 69 S/G C 7 88 DNG 22C +5.62 69 ,

S/G C 7 114 DNG 05H +2.36 95 l S/G C 7 114 DNG 05H +3.00 182 S/G C 7 114 DNG 05H +3.06 95 S/G C 7 116 DNG 05H +3.11 95 S/G C 7 119 DNG 14C +2.96 95 S/G C 8 40 DNG 02H + 16.12 33 l

S/G C 8 40 DNG 03H -1.00 33 S/G C 8 116 DNG 05H +24.00 95 S/G C 8 116 DNG 05H +25.43 95 j S/G C 8 120 DNG 07H +43.30 95 S/G C 9 12 DNG 07H +2.21 15 3-E-22

I

, DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number

?

S/G C 9 12 DNG 07H +2.93 15 S/G C 9 12 DNG 14C +3.35 15

, S/G C 9 12 DNG 15C +43.97 15 S/G C 9 13 DNG 14C +41.56 13 3

S/G C 9 41 DNG AV4 + 6.70 35

] S/G C 9 41 DNT AV1 + 0.46 35

S/G C 9 43 DNG 04H +2.35 39 S/G C 9 43 DNG 04H +3.23 39 S/G C 9 43 DNG 04H +3.66 39 S/G C 9 43 DNG 19C +4.10 39 S/G C 9 49 DNG 17C + 18.46 127

S/G C 9 74 DNG 12C + 10.93 5 S/G C 9 100 DNG 12C + 10.51 81 p S/G C 9 102 DN

..i 10H + 10.46 85

\

S/G C 9 103 DNG 10H + 10.50 87 S/G C 9 104 DNG 10H + 10.86 89 S/G C 9 105 DNG 10H + 10.56 87 S/G C 9 106 DNG 10H + 10.80 89 S/G C 9 107 DNG 10H + 10.62 89 S/G C 9 109 DNG 10H + 10.90 93

. S/G C 9 110 DNG 10H + 10.79 93 S/G C 9 111 DNG 10H + 10.89 93

S/G C 9 113 DNG 10H + 9.85 93

, S/G C 10 6 DNT 04H -0.59 9 l

4 S/G C 10 9 DNG 20C + 8.73 9 S/G C 10 10 DNG 06H + 8.98 9 S/G C 10 32 DNG 15C +39.04 25 l

S/G C 10 44 DNG 20C + 12.17 37 S/G C 10 57 DNG 04H +35.45 168 S/G C 10 70 DNG 16C +4.63 7 3-E-23 4

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 10 115 DNG 02H +9.01 95 S/G C 10 119 DNG 08H +35.81 95 S/G C 10 119 DNG 14C +4.30 95 S/G C 10 119 DNG 16C +3.15 95 S/G C 10 119 DNG 17C +3.45 95 S/G C 11 2 DNG 02H +29.79 11 I S/G C 11 12 DNG 14C + 8.52 15 S/G C 11 22 DNG 23C + 7.53 19 S/G C 11 40 DNG 17C +8.49 35 S/G C 11 59 DNG 06H +33.37 168 S/G C 11 88 DNG 22C +4.95 69 l S/G C 11 104 DNG 21C + 8.49 89 S/G C 11 118 DNG 09H + 12.19 95 S/G C 12 74 DNG 03H + 10.74 7 S/G C 12 74 DNG 03H + 12.05 7 S/G C 12 76 DNG 03H + 16.13 59 S/G C 12 77 DNG 10H +3.66 61 S/G C 12 94 DNG 13C +7.26 143 S/G C 13 28 DNG 13C +39.17 23 S/G C 13 61 DNG 10H +3.82 4 S/G C 13 99 DNT 10H + 0.48 81 S/G C 14 21 DNG 12C +27.80 19 S/G C 14 54 DNG TSH + 6.16 127

, S/G C 14 62 DNG 13C + 6.31 3 S/G C 14 62 DNG UC +7.08 3 t S/G C 14 62 DNG AV1 + 11.54 3 S/G C 14 93 DNG 08H +25.60 75 S/G C 14 93 DNG 08H +36.43 75 S/G C {

14 93 DNG 13C +25.51 75  !

S/G C 14 93 DNG 13C +26.39 75 I

3-E-24 1

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 5

Steam Row Column Indication Location Tape Generator Number

S/G C 14 93 DNG AV1 + 11.53 75 S/G C 14 114 DNG 05H +43.17 95

. S/G C 15 52 DNG 03H + 16.73 127 j S/G C 15 91 DNG 05H +2.03 73 S/G C 15 102 DNG 04H +3.04 85 S/G C 15 102 DNG 05H +3.10 85

, S/G C 15 104 DNG 05H +3.02 89 S/G C 16 30 DNG 06H +39.86 25 S/G C 16 30 DNG 08H +40.66 25 S/G C 16 30 DNT 12C -0.20 25 l S/G C 16 30 DNT 12C -0.30 123 4

S/G C 16 44 DNG 02H +29.71 129 l S/G C 16 57 DNG 11C -1.03 45 .

p S/G C 16 57 DNT 09H -0.67 45 d S/G C 16 108 DNG 09H + 11.01 87 l

S/G C 17 39 DNG 12C +20.23 35 j S/G C 18 7 DNG 19C + 2.72 9 l S/G C 18 37 DNG 10H + 10.41 29 S/G C 18 37 DNG AV1 + 8.87 29 S/G C 18 37 DNG AV4 + 6.10 29 S/G C 18 58 DNG 02H + 6.38 47 S/G C 18 58 DNG TSH +35.58 47

) S/G C 18 62 DNG 14C -1.34 45 S/G C 18 62 DNG 15C +42.00 45 l S/G C 18 62 DNG 15C +42.73 45 S/G C 18 62 DNG 15C +43.37 45 S/G C 18 94 DNG 02H + 13.86 75 l S/G C 19 11 DNG 17C + 8.74 11 S/G C 19 16 DNG 15C +40.99 15 S/G C 19 61 DNG 08H +39.10 45 1 i

O 3-E-25 1

l DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 1 Steam Row Column Indication Location Tape Generator Number

)

S/G C 19 61 DNG 14C +39.33 45 S/G C 19 98 DNG 13C + 7.29 81 I S/G C 20 6 DNG 07H +3.45 9 S/G C l

20 6 DNG 07H +4.19 9 S/G C 20 44 DNG 09H +23.58 37 l S/G C 20 44 DNG 09H +23.93 37 S/G C 20 48 DNG 17C + 12.92 14 j S/G C 20 48 DNG 19C + 13.43 14

)

S/G C 20 59 DNG 09H +42.77 47 S/G C 20 113 DNG 05H + 11.35 93 S/G C 21 6 DNG 07H +2.54 11 S/G C 21 6 DNG 07H +3.43 11 S/G C 21 46 DNG 23C +5.41 12 S/G C 21 46 DNT 23C -0.43 12 S/G C 21 78 DNG 09H +5.40 59 S/G C 21 78 DNG 09H + 6.19 59 S/G C 21 78 DNG 09H + 6.95 59  ;

S/G C 21 78 DNG 09H + 8.63 59  !

S/G C 21 78 DNG 09H + 15.61 59 S/G C 21 78 DNG 09H +30.95 59 S/G C 21 78 DNT 09H + 6.02 182 S/G C 21 87 DNG 05H + 14.12 69 S/G C 21 87 DNG 22C + 11.10 69 S/G C 22 5 DNG 03H + 33.02 9 S/G C 22 41 DNG 08H + 15.42 33 S/G C 22 78 DNG 09H + 11.84 61 S/G C 22 78 DNG 09H + 12.54 61 S/G C 22 94 DNG TSH +4.50 75 S/G C 22 94 DNG TSH +5.19 75

S/G C 22 94 DNG TSH + 6.64 75 3-E-26

~ _ . _ _ . . _ _ _ _ _ _ _ _ . . _ _ _ . ._ __

l C -

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape

• Generator Number S/G C 22 94 DNG TSH +7.44 75 S/G C 22 109 DNG 15C + 10.15 93 S/G C 23 13 DNG 12C +24.07 13 S/G C 23 15 DNG 17C +35.66 13 S/G C 23 16 DNT 11C +0.66 15 l S/G C 23 40 DNT 10H -0.48 '35 i S/G C 23 107 DNG 05H + 11.81 89 S/G C 24 25 DNG 17C +23.45 21 S/G C 24 29 DNG AV1 + 13.17 25 S/G C 24 80 DNG 03H +28.43 59 S/G C 25 20 DNG 02H + 18.35 17 S/G C 25 34 DNG 15C +21.90 31 S/G C 25 35 DNT 04H + 0.00 31  ;

O S/G C S/G C 25 25 38 45 DNG DNT 09H AV1

+41.21

+0.00 35-39 l

)

S/G C 26 DNG 63 19C + 17.01 47 S/G C 27 80 DNG 04H + 10.42 61 S/G C 28 24 DNG AV3 +5.68 21 S/G C 28 28 DNG 02H +23.41 21 S/G C 28 28 DNG 02H +30.27 21 S/G C 28 28 DNG 06H +1.00 21 S/G C 28 28 DNG 20C + 12.81 21 S/G C 28 59 DNG 12C +37.43 45 S/G C 28 59 DNG 12C +38.20 45 S/G C 28 59 DNG TSC +4.28 45 S/G C 28 59 DNG TSH +9.61 45 S/G C 28 59 DNG TSH + 10.33 45 S/G C 28 59 DNG TSH + 16.10 45 S/G C 28 59 DNG TSH + 16.83 45 S/G C 28 59 DNG TSH + 17.23 45 0 3-E-27 i

I DENTS AND DINGS ALL GENERATORS g

STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 28 59 DNG TSH + 17.23 45 S/G C 28 59 DNG TSH + 18.05 45 S/G C 28 59 DNG TSH + 18.84 45 S/G C 28 59 DNG TSH +20.99 45 S/G C 28 86 DNG 03H + 15.15 63 S/G C 28 93 DNG 19C + 12.66 71 S/G C 29 21 DNG 06H +0.97 17 S/G C 29 21 DNG 06H +2.77 17 S/G C 29 21 DNG 06H +3.48 17 S/G C 29 41 DNG O1H +3.68 35 S/G C 29 67 DNG 16C +0.79 49 S/G C 29 76 DNG 19C +7.67 61 S/G C 30 21 DNG 06H +3.35 19 S/G C S/G C 30 30 42 55 DNG DNG 18C 19C

+ 13.35

+ 11.67 35 43 g

S/G C 30 57 DNG 14C +2.49 47 S/G C 30 57 DNG 14C +3.34 47 S/G C 31 21 DNG 06H + 1.19 17 S/G C 31 21 DNG 06H +3.47 17 S/G C 31 31 DNG 04H + 10.53 27 S/G C 31 57 DNT 04H +0.96 45 i

S/G C 31 62 DNG 17C +7.98 47 S/G C 31 63 DNG AV3 +5.54 45 S/G C 31 63 DNG AV4 -0.38 45 S/G C 31 84 DNG 15C +27.43 65 S/G C 31 86 DNG O1H +27.15 65 S/G C 31 86 DNG 02H + 18.79 65 S/G C 31 92 DNG 16C +31.80 73 S/G C 31 96 DNG 03H +5.04 77 S/G C 31 99 DNT AV4 + 0.00 81 3-E-28

O DENTS AND DINGS d ALL GENERATORS STP-1 5/96 1RE06  !

Steam Row Column Indication IAcation Tape Generator Number l

S/G C 32 62 DNG 01H +9.60 45 l S/G C 32 110 DNG 04H +31.18 93 l

S/G C 32 110 DNG 04H +43.02 93 S/G C 32 110 DNG 05H +3.31 93 S/G C 32 110 DNG 05H +20.99 93 1 S/G C 32 110 DNG 05H +26.85 93 S/G C 32 110 DNG 05H +32.89 93 i S/G C 32 110 DNG 05H +38.63 93 S/G C 32 110 DNG 06H + 11.13 93

' l S/G C 32 110 DNG 06H + 16.97 93 l S/G C 32 110 DNG 06H +23.13 93 S/G C 32 110 DNG 06H +40.69 93 S/G C 33 37 DNG 01H +9.81 31 S/G C 33 37 DNG O1H + 10.59 31 S/G C 33 37 DNG 22C +0.66 31 S/G C 33 37 DNG 23C +2.23 31

S/G C 33 37 DNG 23C +2.99 31 i S/G C 33 37 DNG 23C +3.11 123 l S/G C 33 37 DNG 23C +7.22 31 l S/G C 33 37 DNG TSC +2.22 31 i S/G C 33 66 DNG 19C + 11.75 47 ,

S/G C 33 81 DNG 12C + 17.74 65  !

S/G C 34 33 DNG 06H + 14.92 29 S/G C 34 59 DNG 02H +29.43 45 S/G C 34 101 DNG 12C + 32.27 81

< S/G C 34 106 DNG 02H +29.80 87 S/G C 34 108 DNG 02H +29.77 87 S/G C 34 109 DNG 02H +29.01 93 S/G C 34 109 DNG 02H +29.77 93 S/G C 34 109 DNT 09H +0.50 93 l

' V 3-E-29 l

I l

l l

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number l S/G C 34 109 DNT 09H -0.23 93 S/G C 34 109 DNT 19C -0.78 93 S/G C 35 44 DNT 10H +0.50 39 S/G C 35 63 DNG 12C +36.49 45 S/G C 35 63 DNG 12C +37.28 45 S/G C 35 63 DNG 17C + 10.38 45 S/G C 35 68 DNG 12C +42.95 49 S/G C 35 95 DNG 12C +41.61 75 I S/G C 35 101 DNG 03H +26.35 79 S/G C 35 107 DNG 23C +6.72 89 S/G C 35 107 DNG 23C + 6.87 133 S/G C 35 108 DNT 09H +0.47 87 S/G C 36 14 DNG 02H +33.50 13 S/G C S/G C 36 36 16 23 DNG DNG 02H 08H

+ 19.47

+ 12.77 13 17 g'

S/G C 36 34 DNT 10H -0.15 29 S/G C 36 37 DNT 10H -0.15 29 S/G C 36 62 DNG 12C +22.46 45 S/G C 36 67 DNT 11C +0.53 49 S/G C 36 68 DNG 09H +38.43 49 S/G C 36 68 DNG 17C +31.06 49 S/G C 36 71 DNG 12C +38.52 55 S/G C 36 93 DNG 10H + 1.94 71 S/G C 36 104 DNG 08H + 10.57 87 S/G C 36 106 DNG 17C + 11.90 87 S/G C 36 107 DNT 16C -0.03 153 S/G C 36 107 DNT 16C -0.03 137 S/G C 37 43 DNG 14C + 1.15 37 S/G C 37 44 DNG 08H +28.51 39 S/G C 37 44 DNG 08H +34.42 39 3-E-30 9

l

. l

(] DENTS AND DINGS U ALL GENERATORS

)

STP-1 5/96 1RE06 '

Steam Row Column Indication Location Tape Generator Number S/G C 37 49 DNG 17C + 17.21 16 S/G C 37 69 DNG 12C + 38.95 49 l

S/G C 37 72 DNG 09H +34.05 55 l

S/G C 37 72 DNG 09H +38.47 55 S/G C 37 72 DNG 09H +40.92 55 S/G C DNG 37 72 12C +43.21 55 S/G C 37 74 DNG 04H + 1.66 57 S/G C 37 74 DNG 05H + 16.41 57 S/G C 37 75 DNG AV1 + 18.88 55 S/G C 37 87 DNG 14C +1.18 69 S/G C 37 87 DNG 14C +3.68 69 S/G C 37 97 DNG 05H + 19.82 77 S/G C 37 97 DNG 05H +21.63 77 S/G C 37 103 DNG 09H +39.38 87

{ O' S/G C 37 106 DNT 03H + 0.41 87 S/G C 37 106 DNT 03H + 0.50 192 S/G C 38 44 DNG 14C + 1.18 37 S/G C 38 65 DNG 12C + 13.58 45 i S/G C 38 71 DNG 08H +2.53 55 l

. S/G C 38 71 DNG 20C + 16.30 55 i S/G C 38 90 DNG' 22C + 10.68 71 S/G C 38 90 DNG 22C + 10.80 123 S/G C 38 103 DNG TSH +4.01 89 S/G C 39 23 DNT 10H +0.00 19 S/G C 39 44 DNG 20C + 11.53 39 '

S/G C 39 44 DNT 15C +0.65 39 S/G C 39 51 DNT 14C + 0.62 16 S/G C 39 69 DNG 17C + 10.06 49 S/G C 39 88 DNG 17C + 1.26 69 S/G C 39 88 DNG 17C +41.69 69 1

3-E-31

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 39 105 DNG 06H +37.14 182 S/G C 39 105 DNG 06H +37.57 87 S/G C 39 105 DNG 06H +38.28 87 S/G C 40 25 DNG O1H +22.88 21 S/G C 40 27 DNG 12C +30.07 21 S/G C 41 21 DNG 06H +2.64 17 S/G C 41 21 DNG CoH +3.35 17 l S/G C 41 35 DNG TSC +2.73 31 S/G C 41 50 DNG 12C +38.24 16 l S/G C 41 74 DNG 10H + 10.04 57 S/G C 41 74 DNG 14C +3.67 57 S/G C 41 74 DNT 09H +44.56 57 S/G C 41 74 DNT 09H +44.85 57 1

S/G C 41 74 DNT 12C +44.94 57 S/G C 41 75 DNG 10H + 9.68 55 1 S/G C 41 76 DNG AV4 +25.25 61 S/G C 41 77 DNG 10H + 9.11 61 l S/G C 41 81 DNG 10H +9.46 65 S/G C 41 82 DNG 10H + 10.48 65 S/G C 41 82 DNG 22C + 1.87 65 S/G C 41 83 DNG AV4 +24.87 65 S/G C 41 83 DNT 10H +0.32 65 S/G C 41 84 DNG AV4 +24.86 65 S/G C 41 84 DNT 10H + 0.17 65 S/G C 41 85 DNG 10H +9.68 65 S/G C 41 85 DNT 17C + 0.44 65 S/G C 41 86 DNG 03H + 6.27 65 S/G C 41 86 DNG 10H +9.15 65 S/G C 41 87 DNG 10H +9.55 69 S/G C 41 88 DNG 10H + 10.55 69 3-E-32

O DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 41 88 DNT 11C -0.35 69 S/G C -41 89 DNG 10H + 8.82 - 71 S/G C 41 90 DNG 10H +9.33 73 S/G C 41 91 DNG 10H +9.23 73 S/G C 41 92 DNG 10H +9.76 73 S/G C 41 93 DNG 10H +9.63 73 I S/G C 41 94 DNG 10H +9.75 77 S/G C 41 95 DNG 10H +9.04 75 S/G C 41 96 DNG 10H +9.40 77 S/G C 41 97 DNG 10H +9.92 77 S/G C 41 98 DNG 10H +9.60 81

S/G C 41 99 DNG 10H +9.83 81 S/G C 41 99 DNT 11C -0.56 81 I S/G C 41 102 DNG 10H +9.24 85 l S/G C 41 103 DNT 16C -0.06 153 )

i- S/G C 41 103 DNG. 10H. +9.62 168 S/G C 41 103 DNT 11C -0.46 137 )

i' S/G C 41 103 DNT 16C -0.06 137

} S/G C 41 103 DNT 18C + 0.41 87 l S/G C 41 103 DNT 18C +0.45 137-S/G C 42 19 DNT 05H +0.58 202

) S/G C 42 19 DNG 05H + 1.46 17

S/G C 42 19 DNT- 05H +0.58 17 S/G C 42 20 DNG 05H +0.68 17 S/G C 42 21 DNG 02H +29.09 19 i

S/G C 42 21 DNG 02H +29.85 19 i S/G C 42 26 DNG 11C -0.38 23 i S/G C- 42 26 DNT 10H -0.18 23 S/G C 42 58 DNG 14C +21.12 47 i S/G C- 42 68 DNG- 12C +23.53 49

O 5

3-E-33 4

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

l l

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 42 68 DNT 11C +0.00 49 S/G C 42 102 DNT 15C + 0.50 83 S/G C 42 102 DNT 15C -0.38 83 S/G C 43 31 DNG 09H +40.83 27 S/G C 43 32 DNG 16C +41.33 27 S/G C 43 32 DNG 16C +42.53 27 S/G C 43 54 DNG 12C +36.32 41 S/G C 43 54 DNG 12C +36.39 123 S/G C 43 54 DNG 12C + 37.02 41 i S/G C 43 54 DNG 12C +39.54 41 S/G C 43 64 DNG 12C +37.85 47  ;

S/G C 43 66 DNG 09H +34.11 47 S/G C 43 66 DNG 12C +36.75 47 S/G C 43 69 DNG O1H +24.49 49 ll S/G C 43 71 DNG 09H +37.65 55 S/G C 43 71 DNG 09H +39.48 55 S/G C 43 71 DNG 09H +42.92 55 S/G C 43 71 DNG 09H +43.64 55 S/G C 43 71 DNG TSH +2.75 55 S/G C 43 71 DNG TSH + 6.23 55 S/G C 43 71 DNG TSH + 6.98 55 S/G C 43 84 DNG 06H +32.21 65 S/G C 43 89 DNG 09H +38.58 71 S/G C 43 89 DNG 09H +39.32 71 S/G C 43 89 DNG 12C +32.49 71 S/G C 43 89 DNG 12C + 36.45 71

. S/G C 43 89 DNT 10H +0.33 71 S/G C 43 89 DNT 10H + 0.43 182 S/G C 43 95 DNG 22C +3.68 75 S/G C 43 99 DNG 21C + 15.96 81 3-E-34

4 h

i

DENTS AND DINGS

ALL GENERATORS i 3

STP-1 5/96 1RE06

$ Steam Row Column Indication Locatien Tape <

Generator Number

. S/G C 44 22 DNG 06H +41.36 17 l S/G C 44 22 DNG 07H + 0.44 17

! S/G C 44 22 DNG 16C +34.22 17 S/G C 44 22 DNG 16C +34.32 123 S/G C 44- 22 DNT 07H -0.23 17

S/G C 44 23 DNG 09H + 13.96 -17 i t S/G C 44 41 DNG 11C -1.11 33 {

S/G C 44 41 DNT 11C -0.32 33-l S/G C 44 46 DNG 09H +31.91 14 )

2 S/G C .44 57 DNG 16C +43.15 47 i S/G C 44 DNG 71 09H +36.83 53 l f S/G C 44 71 DNG 12C +33.99 53 l

l S/G C 44 71 DNG 12C +34.80 53  !

S/G C 44 71 DNG 12C +35.48 123 i

S/G C 44 74 DNG 11C -1.13 55 i S/G C 44 74 DNT. 11C -0.33 55 S/G C 44 83 DNG 12C +44.36 63 S/G C 44 83 DNT 11C -0.26 63

S/G C 44 86 DNT 11C +0.65 63 l S/G C 44 86 DNT. 11C -0.26 63 S/G C 44 94 DNG 09H +42.19 75 S/G C 44 94 DNG 09H +42.95 75 S/G C 44 96 DNG 12C +40.67 75 i S/G C 44 96- DNG 22C +7.92 75 S/G C 45 23 DNG 07H +3.20 17 i S/G C 45 29 DNG 09H +32.68 27

) S/G C 45 -29 ~DNG 09H +35.91 27 1

S/G C 45 32 DNG 10H + 0.82 27 S/G C 45 32 DNG 22C +5.58 27 i S/G C 45 36 DNG 09H +35.35 31 i

3-E-35

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G C 45 39 DNT 11C -0.19 123 S/G C 45 39 DNT 11C -0.26 35 S/G C 45 57 DNG 15C + 10.48 45 S/G C 45 64 DNG 12C +38.67 47 S/G C 45 65 DNG 12C +39.19 47 S/G C 45 68 DNT 10H +0.53 49 S/G C 45 71 DNG 09H +41.39 55 S/G C 45 74 DNT 11C + 0.18 57 S/G C 45 74 DNT 12C +45.00 57 S/G C 45 77 DNG 02H +29.19 61 S/G C 45 77 DNG 02H +30.06 61 S/G C 45 77 DNT O1H + 0.55 61 S/G C 45 77 DNT O1H -0.29 61 S/G C 45 85 DNG 03H +22.05 65 S/G C 45 86 DNG 09H +39.42 65 S/G C 45 87 DNG 12C +34.27 69 S/G C 45 93 DNG 09H +2.48 73 S/G C 45 93 DNG 09H +35.61 73 S/G C 45 93 DNT 11C + 0.36 73 S/G C 45 93 DNT 11C -0.35 73 S/G C 45 94 DNG 09H +35.63 77 S/G C 45 94 DNT 11C + 0.24 77 S/G C 45 96 DNG 09 i +37.39 77 S/G C 45 96 DNG 09H +38.06 77 S/G C 45 96 DNG 12C +35.76 77 S/G C 45 96 DNG 12C +36.49 77 S/G C 45 96 DNG 12C +40.63 77 S/G C 45 96 DNG 12C +41.45 77 S/G C 45 97 DNG 09H +34.77 77 S/G C 45 97 DNG 09H +37.25 77 3-E-36

O DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape i Generator Number S/G C 45 97 DNG 09H +38.72 77 S/G C 46 24 DNT 10H +0.60 17 S/G C 46 25 DNG 07H +34.53 21 i S/G C 46 54 DNG 12C +32.35 43 l

S/G C 46 54 DNG 12C +35.83 43 S/G C 46 90 DNG 12C +44.63 71 S/G C 46 90 DNT 11C + 0.44 71 S/G C 46 97 DNG 07H +2.58 75 S/G C 46 97 DNG 07H +3.37 75 S/G C 47 30 DNT 11C +0.59 27

~

S/G C 47 51 DNG 09H +34.24 16 S/G C 47 78 DNG TSH + 6.01 59 S/G C 48 28 DNG 16C +27.18 21 S/G C O S/G C 48 48 52 53 DNG DNG 14C 03H

+ 18.76

+3.46 18 18 S/G C 48 55 DNG 09H +36.55 43 S/G C 48 55 DNG 12C +33.36 43 S/G C 48 55 DNG 12C +40.05 - 43 S/G C 48 56 DNG 09H +34.51 43 S/G C 48 56 DNG 12C +37.88 43 S/G C 48 56 DNT 10H + 0.64 43 S/G C 48 69 DNG 12C +35.98 49 S/G C. 48 70 DNG 09H +40.75 53 S/G C 48 70 DNG 12C +35.72 53 S/G C 48 70 DNG 12C +36.50 53-S/G C 48 79 DNG 12C +37.39 59 S/G C 48 79 DNG 12C +38.09 59 S/G C 48 87 DNT 11C + 0.41 67 S/G C 48 91 DNT 10H +0.47 182 S/G D 1 95 DNG 18C +4.47 107 O 3-E-37

i l

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 2 6 DNG 03H + 10.40 2 S/G D 2 90 DNG O1H + 15.74 2 S/G D 2 116 DNG 09H +38.27 138 S/G D 2 116 DNG 09H +41.22 144  !

S/G D 3 42 DNG 04H +34.87 4 S/G D 3 42 DNG 05H -9.99 106 S/G D 3 96 DNG 07H +21.44 4

. S/G D 3 101 DNG 15C +33.43 123  !

S/G D 3 102 DNG 15C +27.97 123 l S/G D 3 103 DNG 17C +35.75 123 S/G D 3 111 DNG 08H +39.24 144 S/G D 3 111 DNG 08H +39.40 138 S/G D 4 80 DNG 10H + 14.69 121 S/G D 4 80 DNG 10H + 17.49 135 S/G D 4 103 DNG 03H + 34.01 138 S/G D 4 103 DNG 03H +34.04 144 S/G D 5 6 DNG 17C +28.72 23 S/G D 5 37 DNG 15C +24.17 43 l S/G D 5 37 DNG 18C + 9.03 43 l S/G D 5 58 DNG 10H +4.15 136 '

S/G D 6 2 DNG AV3 + 0.96 23 S/G D 6 5 DNG 10H +22.84 21 S/G D 6 41 DNG 03H +28.28 41 S/G D 6 49 DNG 14C +29.21 137 S/G D 6 58 DNG 10H + 3.24 136 S/G D 6 68 DNG 10H + 4.75 83 S/G D 6 117 DNG 02H +3.91 105 S/G D 6 117 DNG 02H +3.99 103 S/G D 7 18 DNG 08H +40.32 15 S/G D 7 28 DNG 08H +29.33 31 3-E-38 0

l l

DENTS AND DINGS O- ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 7 34 DNG 22C +0.67 147 S/G D- 7 34 DNG 22C +1.97 147 S/G D 7 37 DNG 22C +7.74 43 S/G D 7 64 DNG AV4 +9.22 2 S/G D 7 113 DNG 22C -1.36 99 S/G D 7 113 DNG 22C -1.38 103 S/G D 8 1 DNG AV1 -0.49 23 S/G D 8 117 DNG 09H +27.69 105 S/G D 8 117 DNG 09H ' +28.35 105 S/G D 8 117 DNG 12C +27.04 105 S/G D 8 117 DNG 12C +27.85 105 S/G D 8 118 DNG 12C +31.00 105 S/G D 8 118 DNG 12C +31.64 105 S/G D O S/G D 9

9 96 96 DNG DNG 09H 09H

+5.70

+ 10.79 149 149 S/G D 10 73 DNG 16C + 19.69 3 S/G D 10 76 DNG 09H + 4.67 57 I S/G D 10 92 DNG 02H +7.85 106 S/G D 10 92 DNG 02H +7.95 69 S/G D 10 92 DNG 02H + 8.67 69 )

S/G D 10 92 DNG 02H -1.05 69 I S/G D 10 92 DNG 02H -1.78 69 S/G D 11 3 DNT 02H -0.40 23 j S/G D 11 22 DNG TSC + 1.51 27 i S/G D 11 22 DNG TSC +7.56 27 S/G D 11 65 DNG 11C + 1.24 81 S/G D 11 91 DNG AV1 +2.60 71 S/G D 11 111- DNG 16C + 7.87 173 S/G D 12 9 DNG 13C + 14.86 17 S/G D 12 9 DNG' 13C + 15.29 17 O 3-E-39

- 4

DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 12 9 DNG 13C + 15.82 163 S/G D 12 14 DNG 02H + 14.14 17 S/G D 12 14 DNG 10H +3.52 17 S/G D 12 15 DNG 10H + 3.17 13 S/G D 12 90 DNG AV3 + 13.34 69 S/G D 13 63 DNG AV1 +5.76 101 S/G D 13 63 DNG AV1 + 6.00 81 S/G D 13 63 DNT AV4 + 0.00 81 S/G D 13 63 DNT AV4 +0.30 101 S/G D 13 90 DNG 17C +20.24 71 S/G D 13 111 DNG 09H +28.55 97 S/G D 14 16 DNG 08H +25.83 13 S/G D 14 16 DNG 08H +26.62 13 S/G D DNG 08H +27.29 S/G D 14 14 16 16 DNG AV1 + 11.61 13 13 gi S/G D 14 16 DNG AV1 + 12.36 13 S/G D 14 80 DNG TSC +4.38 57 S/G D 14 98 DNG 21C +3.34 85 l S/G D 15 53 DNG 23C + 6.20 165 S/G D 16 34 DNG 04H +37.96 37 i S/G D 16 34 DNG 04H +38.95 37 S/G D 16 63 DNG AV2 +0.94 49 S/G D 16 89 DNG 17C +43.56 69 S/G D 16 89 DNG 20C -1.52 69 S/G D 16 89 DNG 21C + 13.37 69 S/G D 17 28 DNT 13C +0.46 31 S/G D 17 75 DNG 17C +26.06 55 S/G D 17 106 DNG 16C + 1.46 165 S/G D 17 106 DNG 16C +7.28 165 S/G D 17 106 DNG 16C + 13.19 165 3-E-40

DENTS AND DINGS O- ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 17 106 DNG 16C + 19.01 165 S/G D 17 106 DNG 17C +41.03 165 S/G D 17 1% DNG 21C + 13.42 165 S/G D 18 28 DNG 03H +30.05 29 S/G D 18 31 DNG 10H +7.39 33 S/G D 18 31 DNG AV2 +1.87 33 S/G D 18 32 DNG 09H +2.18 33 l

S/G D 18 46 DNG 04H +33.70 168 S/G D 18 46 DNG 05H -8.90 166 S/G D 18 46 DNG 04H +32.76 to 6

+*

S/G D 18 51 DNG 19C + 8.21 16 S/G D 18 102 DNG 14C +5.93 85 S/G D 19 5 DNG 10H -1.02 23 S/G D 19 39 DNG 09H +26.65 43 S/G D 19 73 DNG 02H +3.19 53 S/G D 19 73 DNG 02H +5.58 53 {

S/G D 19 73 DNG 02H + 6.31 53 l S/G D 19 73 DNG 02H + 6.89 53 l S/G D 19 73 DNG 02H +7.16 53 S/G D 19 73 DNG 02H + 7.95 53 S/G D 19 73 DNG 02H + 8.71 53 S/G D 19 73 DNG 02H + 10.13 53 S/G D 19 73 DNG TSH +35.13 53 S/G D 20 102 DNT 11C + 0.00 85 S/G D 20 102 DNT 11C +0.30 145 S/G D 20 114 DNG 12C + 14.80 103 S/G D 21- 80 DNG 05H +33.81 59 S/G D 21 80 DNG 05H +39.65 59 S/G D 21 81 DNG 13C + 0.99 63 3-E-41

l l DENTS AND DINGS g ALL GENERATORS T STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 21 102 DNT 11C +0.25 173 S/G D 21 102 DNT 11C +0.40 87 S/G D 22 24 DNG AV2 +2.44 29 S/G D 22 73 DNG 09H +38.56 55 S/G D 22 74 DNG 08H +42.25 53 S/G D 22 102 DNG 12C +4.50 85 S/G D 22 116 DNG 11C -1.75 103 l S/G D 22 116 DNG AV1 + 14.53 103 I S/G D 22 116 DNG AV1 +21.86 103 S/G D 23 6 DNG 18C + 10.50 23 S/G D 23 39 DNG 08H + 17.95 43 I S/G D 23 75 DNG 08H + 14.54 55 S/G D 24 15 DNG 13C + 13.27 13 S/G D 24 59 DNG 02H +26.79 51 S/G D 25 21 DNG 09H +33.12 25 S/G D 25 21 DNG 17C +43.59 25 S/G D 25 21 DNT 16C -0.58 25 S/G D 25 26 DNG 10H + 13.88 29 S/G D 25 39 DNG 07H +37.68 43 S/G D 25 39 DNG 07H +38.41 43 S/G D 25 46 DNG 04H + 3.70 149 S/G D 25 81 DNG 14C +27.15 61 S/G D 26 43 DNG 12C +42.58 47 S/G D 26 49 DNG 12C + 18.72 10 S/G D 26 49 DNG 12C +25.18 10 l S/G D 26 49 DNG AV1 +2.26 10 l

S/G D 26 49 DNG AV3 +3.98 10 S/G D 26 64 DNG 06H +41.19 51 l S/G D 26 103 DNG 17C + 12.09 155 i

S/G D 27 43 DNG 12C +42.40 45 3-E-42

DENTS AND DINGS O ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D -27 72 DNG 18C +2.58 53 S/G D 27- 102 DNT 01H -0.24 87 S/G D 27 106 DNG 04H + 13.58 155 S/G D 28 22 DNG 17C + 11.38 25 S/G D 28 39 DNT - 22C -0.24 41 I S/G D 28' 63 DNG 17C +2.80 51 S/G D 28 63 DNG 18C + 14.50 51 S/G D 28 63 DNG 19C +1.25 51 S/G D 28 63 DNG 19C + 13.81 51 S/G D 28 63 DNG 20C +5.95 51 S/G D 28 63 DNG 20C + 12.70 51 S/G D 28 63 DNG 21C + 6.42 51 ,

S/G D 28 63 DNG 21C + 13.29 51 S/G D 28 63 DNG 22C + 11.52 51 O S/G D 28 63 DNG 23C + 2.87 51 S/G D 28 63 DNG TSC + 6.23 51 S/G D 28 63 DNT 21C -0.09 51 l S/G D I 28- 78 DNG 06H +37.14 59 S/G D 29 23 DNG 09H +31.13 29 S/G D 29 23 DNG 13C +24.96 29 S/G D 29 74 DNG 07H +33.79 55 i S/G D- 29 96 DNG 22C + 8.68 149 S/G D 30 46 DNG 09H + 10.52 10 S/G D 30 47 DNG 22C + 13.38 10  ;

S/G D 31 45 DNG 05H +41.72 47 S/G D 31 45 DNG 05H +42.47 47 S/G D 31 45 DNG 05H +43.20 47 S/G D :31 78 DNG AV3 - + 10.69 57 S/G D 31 78 DNG AV3 + 11.47 57 S/G D 32 80 DNG 18C + 4.78 59 3-E-43

l l

l DENTS AND DINGS '

ALL GENERATORS STP-1 5/96 1RE06 l Steam Row Column Indication Location Tape Generator Number S/G D 32 105 DNG 07H +40.80 91 S/G D 33 18 DNG 20C + 6.79 95 i S/G D 33 67 DNG 18C +4.70 53 S/G D 33 73 DNG 09H +40.04 53 S/G D 33 73 DNG 09H +41.44 53 S/G D 33 75 DNG 18C +4.12 53 S/G D 33 91 DNG AV2 +4.26 71 S/G D 34 51 DNG 15C + 11.65 16 S/G D 34 100 DNG 12C +29.21 85 I S/G D 34 100 DNG 12C +29.85 85 l S/G D 35 14 DNG O1H +2.57 19 I S/G D 35 38 DNG 08H +28.53 43 S/G D 35 45 DNG 16C +42.07 47 )

S/G D 35 58 DNG 09H +39.77 51 S/G D 35 58 DNG 09H +40.35 51 1 S/G D 35 59 DNG 09H +38.72 147 l S/G D 35 59 DNG 09H +39.37 147 S/G D 35 62 DNG 03H + 11.89 51 S/G D 35 62 DNG 03H + 11.90 147 i S/G D 35 70 DNG 09H +36.78 53 S/G D 35 70 DNG 09H + 38.17 53 S/G D 35 77 DNG 10H +3.76 59 l S/G D 35 100 DNG 12C + 34.69 87 I S/G D 35 101 DNG 12C +37.89 87 S/G D 36 47 DNG 09H +41.65 12 S/G D 36 47 DNG 17C + 1.88 12 l S/G D 36 70 DNG 17C +23.17 55 S/G D 36 82 DNG 22C + 11.37 63 S/G D 36 100 DNG 11C -1.64 85 S/G D 37 15 DNG 09H +41.38 17 3-E-44

l

(- DENTS AND DINGS ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 37 19 DNG 06H +27.69 27 S/G D 37 27 DNG 22C +2.88 31 S/G D 37 36 DNG 12C + 14.25 37 S/G D 37 47 DNG 13C + 14.36 147 S/G D 37 47 DNG 13C + 14.51 10 S/G D 37 55 DNG 05H +0.96 49 S/G D 37 59 DNG 08H +42.78 147 S/G D 37 79 DNG 12C +32.85 57 S/G D 37 84 DNG 14C +5.88 65 S/G D 37 85 DNG 01H + 10.80 67 S/G D 37 85 DNG O1H + 11.52 67 S/G D 37 85 DNG 05H +3.37 67 ,

S/G D 37 85 DNG 06H +2.22 67

(-

\

S/G D S/G D 37 37 85 85 DNG DNG 06H 12C

+2.80

+7.47 67 173 l

l S/G D 37 86 DNG 18C + 1.43 151 S/G D 37 94 DNG 14C +21.19 75 S/G D 37 94 DNG 16C + 11.66 75 S/G D 37 98 DNG 03H + 8.02 87 S/G D 38 21 DNG TSC +4.49 27 S/G D 38 21 DNG TSC +5.18 27 S/G D 38 40 DNG O1H +7.33 41  !

SIG D 38 46 DNG 22C + 8.37 10 S/G D 38 52 DNG 16C +30.76 16 S/G D 38 54 DNG 09H + 18.14 16 S/G D 38 54 DNG 09H +23.35 16 i S/G D 38 54 DNG 09H +24.30 16 S/G D 38 54 DNG 10H -20.13 106 S/G D 38 54 DNG 11C -0.77 16 S/G D 38 96 DNG 18C + 0.77 173 3-E-45

l I

DENTS AND DINGS ALL GENERATORS l STP-1 5/96 1RE06 l Steam Row Column Indication Location Tape Generator Number S/G D 38 96 DNT 18C + 0.64 149 S/G D 39 16 DNG 16C +43.31 13 S/G D 39 23 DNG 05H + 11.97 29 S/G D 39 32 DNG 08H + 8.06 35 S/G D 39 48 DNG TSH +4.52 147 S/G D 39 52 DNG O1H + 10.72 14 S/G D 39 52 DNG O1H + 11.42 14 S/G D 39 77 DNG 19C + 16.15 59 l

S/G D 39 81 DNG 15C +26.91 61

~

S/G D 39 91 DNG 22C + 9.20 71 S/G D 39 91 DNG 22C + 10.38 71 l S/G D 39 91 DNG 22C -0.73 71 l S/G D 39 91 DNG 22C -1.46 71 i S/G D 39 91 DNG 23C + 6.25 71 l S/G D 39 92 DNG 09H +38.37 71 l S/G D 39 93 DNG 22C + 11.08 71 ,

S/G D 40 25 DNG 06H +5.49 31 I S/G D 40 74 DNG 09H +24.09 53 S/G D 40 74 DNG TSH +1.06 53 S/G D 40 77 DNG 22C + 1.54 57 S/G D 40 87 DNG O1H +2.00 65 S/G D 40 87 DNG 12C +4.88 65

)

S/G D 40 87 DNG TSH + 2.17 65 i S/G D 40 87 DNG TSH +2.83 65 S/G D 40 92 DNT 05H +0.00 69 S/G D 40 104 DNG AV2 -0.79 155 S/G D 41 18 DNG 10H +9.68 95 j S/G D 41 18 DNG 10H + 10.28 101 S/G D 41 19 DNG 10H + 9.64 27 i S/G D 41 20 DNG 09H +38.58 27 l

3-E-46

DENTS AND DINGS O ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Iscation Tape Generator Number S/G D 41 20 DNG 09H +39.26 27 S/G D 41 20 DNG 09H +41.98 27 S/G D 41 21 DNG 09H +39.97 25 S/G D 41 22 DNG 10H +9.41 27 S/G D 41 23 DNG 10H + 9.46 . 29 S/G D 41 24 DNG 10H + 10.63 31 S/G D 41 26 DNG 10H + 10.57 29 S/G D 41 27 DNG 10H +9.35 31 S/G D 41 28 DNG 10H +9.94 31 S/G D 41 29 DNG 10H + 9.74 35 S/G D 41 31 DNG 10H + 8.40 35 S/G D 41 39 DNG 09H +3'/.69 43 S/G D 41 57 DNG TSH + 1.60 49 S/G D 41 71 DNG 12C + 12.66 53 O- S/G D 41 83 DNG 18C + 10.44 61 S/G D 41 96 DNG O1H +4.93 149 S/G D 41 100 DNG 12C +31.13 87 S/G D 41 100 DNG 12C +37.88 87 S/G D 42 19 DNG 12C -0.65 177 S/G D 42 19 DNG 12C -1.23 159 S/G D 42 19 DNG 13C +42.66 159 S/G D 42 19 DNG AV2 +0.83 159 S/G D 42 19 DNT 12C -0.58 159 S/G D 42 32 DNG 09H + 39.94 33 S/G D 42 32 DNG AV1 +0.86 33 S/G D 42 32 DNG AV1 + 5.44 33 j S/G D 42 32 DNG AVI +9.22 33 i S/G D 42 34 DNG 09H +40.18 37

)

S/G D 42 38 DNG 09H +39.23 41 i S/G D 42 40 DNG 09H +40.15 41 i

l O 3-E-47 I

]

1 DENTS AND DINGS i

I ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape Generator Number S/G D 42 41 DNG 09H +40.16 41 S/G D 42 45 DNG 09H +40.03 45 S/G D 42 46 DNG 10H + 10.38 10 S/G D 42 53 DNT 10H -0.41 16 S/G D 42 78 DNG 02H + 11.96 57 S/G D 42 81 DNG 12C +36.02 151 S/G D 42 81 DNG 12C +37.05 63 S/G D 42 87 DNG 10H +26.68 65 l S/G D 42 87 DNG 10H +31.23 65 S/G D 42 87 DNG 12C +36.83 65 S/G D 42 87 DNG AV1 +0.91 65 S/G D 42 92 DNG AV2 -1.66 69 S/G D 42 100 DNG 09H +27.18 85 S/G D 42 100 DNG 09H +27.25 155 S/G D 42 100 DNG 12C +27.08 155 j S/G D 42 100 DNG 12C +27.17 85 S/G D 42 100 DNG 12C +27.79 155 S/G D 42 100 DNG 12C +27.83 85 S/G D 42 100 DNG 12C +35.06 85 S/G D 42 100 DNG 12C +35.21 155 l S/G D 42 100 DNG 12C + 36.39 85 S/G D 42 100 DNG 12C +36.54 155 S/G D 42 100 DNG 12C +40.25 155 S/G D 42 100 DNG 12C +40.33 85 l S/G D 42 102 DNT 10H -0.42 172 S/G D 42 102 DNT 10H -0.69 85 S/G D 43 42 DNG 12C +41.81 47 S/G D 43 42 DNG 12C +42.57 47 i S/G D 43 42 DNG 12C +43.36 47 S/G D 43 47 DNG 09H + 12.82 10 3-E-48

l h

DENTS AND DINGS ALL GENERATORS 4

STP-1 5/96 1RE06  !

i Steam Row Column Indication Iecation Tape

' f Generator Number S/G D 43 47 DNG 09H + 12.88 147 S/G D 43 55 DNG 12C +37.12 - 149 i l' S/G D 43 56 DNG 12C +38.91 49 S/G D 43 57 DNG 12C +40.53 49

! S/G D 43 59 DNG 12C +34.03 147 S/G D 43 59 DNG 12C +34.79 147 S/G D 43 68 DNG 09H +39.01 53

. S/G D 43 78 DNG 04H +5.94 106 l S/G D 43 78 DNG 04H + 6.49 59

S/G D 43 83 DNG AV1 +2.62 61 S/G D 43 83 DNG AVI +7.57 61

S/G D 43 83 DNG AVI + 12.07 61 S/G D 43 83 DNG AV1 + 16.06 61 S/G D 43 DNG AV1 O S/G D 43 83 83 DNG AV1

+20.65

+25.76 61 61 S/G D 43 83 DNG AV2 +1.37 61 S/G D 43 83 DNG AV2 + 12.87 61 S/G D 43 83- DNG AV2 + 22.02 61 S/G D 43 83 DNG AV3 +2.40 61 S/G D 43 83 DNG AV3 +4.71 61 S/G D 43 83 DNG AV3 +7.36 61 S/G D 43 83 DNG AV3 + 13.29 61 S/G D 43 83 DNG AV3 + 18.67 61 S/G D -43 88 DNG 17C + 17.40 67 S/G D 43 96 DNG O1H + 8.57 149 S/G D 43 97 DNG AV4 + 6.82 149 S/G D 43 100 DNG 20C + 12.38 85 S/G D 44 30 DNG 11C -1,31 33 S/G D 44 30 DNT 11C -0.58 33 S/G D 44 30 DNT 11C -0.58 171 O 3-E-49

i l

DENTS AND DINGS i ALL GENERATORS STP-1 5/96 1RE06 Steam Row Column Indication Location Tape l Generator Number S/G D 44 32 DNG 07H +37.55 33 S/G D 44 36 DNG 10H + 17.86 37 S/G D 44 50 DNG 09H + 14.53 16 l

S/G D 44 56 DNG 10H + 135.10 51 i S/G D 44 56 DNG 10H + 139.93 51 l S/G D 44 56 DNG 10H + 145.48 51 S/G D 44 56 DNT 10H + 0.53 51  !

S/G D 44 56 DNT 10H + 0.54 172 i S/G D 44 56 DNT 10H -0.19 51 S/G D 44 74 DNG 05H +28.15 53 S/G D 44 77 DNG TSH +2.70 57 S/G D 44 77 DNG TSH +3.10 106 S/G D 44 77 DNG TSH +3.49 57 S/G D 44 83 DNG AV3 + 8.12 63 S/G D 44 83 DNG AV3 + 11.12 63 i S/G D 44 83 DNG AV3 + 14.78 63 S/G D 44 83 DNG AV3 + 18.58 63 S/G D 44 86 DNG 04H +38.90 65 S/G D 44 86 DNG 17C +23.13 65 S/G D 44 94 DNG 10H +0.49 106 S/G D 44 94 DNT 10H + 0.52 73 l S/G D 45 27 DNG 05H +3.57 31 S/G D 45 33 DNG 02H + 6.26 35 S/G D 45 41 DNG 03H + 14.92 43 l S/G D 45 41 DNG 03H + 15.55 43  !

S/G D 45 56 DNG 12C +32.96 49 S/G D 45 56 DNG 12C +33.39 163 S/G D 45 56 DNG 12C +33.69 49 S/G D 45 75 DNG 15C +4.53 53 S/G D 45 87 DNG 11C +1.12 67 l 3-E-50 O

i

)

l( DENTS AND DINGS ALL GENERATORS

STP-1 5/96 1RE06 1

Steam Row' Column Indication Location Tape l Generator Number S/G D 45 90 DNT 10H +0.51 172 l 45 D 1 + 0.

) S/G D 45 93 DNT 10H -0.33 106 S/G D 45 97 DNG AV3 + 17.16 ' 149 S/G D 46 39 DNG TSC +4.43 41

S/G D 46 41 DNT 11C -0.29 145

{ S/G D 46 41 DNT 11C -0.33 41 S/G D 46 66 DNT AVI +0.60 55 S/G D 46 74 DNG 09H +33.61 .53 S/G D 46 74 DNG 09H +42.43 53 S/G D 46 78 DNG AV4 +24.98 57 S/G D 46 80 DNG 08H +39.59 59 S/G D 46 89 DNT 10H -0.30 69 O- S/G D 46 89 DNT 10H -0.34 106 S/G D 47 26 DNT 11C -0.27 29 S/G D 47 45 DNG 09H +43.18 47 S/G D 47 45 DNT 10H -0.22 47 S/G D 47 45 DNT 10H -0.42 168 S/G D 47 46 DNG 04H +35.84 10 S/G D 47 46 DNG 04H +35.94 147 S/G D 47 46 DNG 04H +36.59 10 S/G D 47 46 DNG 04H +36.67 147 S/G D 47 46 DNG 04H +40.09 10 S/G D 47 46 DNG 04H + 40.24 147 S/G D 47 46 DNG 04H +40.84 10 S/G D 47 46 DNG 04H +41.01 147 S/G D 47 46 DNG 17C +35.36 10 S/G D 47 46 DNG 17C +35.46 147 S/G D 47 46 DNG AV2 + 6.44 147 3-E-51

DENTS AND DINGS g ALL GENERATORS T STP-1 5/96 1RE06 Steam Row Column Indication I.ocation Tape Generator Number S/G D 47 46 DNG AV2 + 6.94 10 S/G D 47 53 DNG 09H +35.79 147 S/G D 47 53 DNG 09H + 36.18 14 S/G D 47 59 DNG 09H +35.55 147 S/G D 47 59 DNG 09H +36.26 147 S/G D 47 62 DNG 09H +42.26 51 S/G D 47 62 DNG 10H -1.37 106  ;

S/G D 47 62 DNG 10H -1.38 51 l S/G D 47 64 DNT 10H + 0.44 49 S/G D 47 64 DNT 10H + 0.52 172 S/G D 47 64 DNT 10H + 0.53 106 S/G D 47 64 DNT 10H -0.13 49 )

S/G D 48 27 DNG AV2 + 0.24 29 l

S/G D 48 48 DNG 16C +40.39 12  ;

S/G D 48 55 DNG 03H +33.57 16 i S/G D 48 62 DNT 10H + 0.53 172 l S/G D 48 62 DNT 10H +0.58 51 j S/G D 48 62 DNT 10H -0.28 51 S/G D 48 63 DNG 19C + 12.29 173 i S/G D 48 63 DNT 19C + 12.81 51 S/G D 48 68 DNG 22C + 2.25 55 I S/G D 48 88 DNG 10H +34.58 65 S/G D 48 91 DNT AV3 -0.06 69 3-E-52

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h i

}

APPENDIX 3-F l OWNER'S REPORT FOR INSERVICE INSPECTIONS

NIS-1 FORM a

4 1

i W

i d

9 1  !

1 i

l

1RE06 - Stcam G:ncrator Tube 3 Pago 1 of 2 FORM NIS 1 OWNER'S REPORT FOR INSERVICE INSPECTIONS As required by the Provisions of the ASME Code Rules O

, 1. Owner Houston Lichtine & Power Company: Electric Tower: P.O. Box 1700: Houston, Texas 77001 b

' ~~

(Name and Address of Owner)

2. Plant South Texas Project Electric Generating Station: P.O. Box 289: Wadsworth. Texas 77483 (Name and Address of Plant)

3. Plant Unit 1 4. Owner and Certificate of Authorization (if required) N.A.

5. Commercial Service Date 08/25/88 6. National Board Number for Unit N.A.

7. Components Inspected ASME Code Class 1 (IWB) Items - Steam Generator Tubes ,

Manufacturer l Component or Manufacture or Installer National  !

Appurtenance or Installer Serial No. Board No. I Steam

. Generator I A Westinghouse (M) 2131 W18691 Steam Generator IB Westinchouse (M) 2132 W18692 Steam Generator 1C Westinchouse (M) 2133 W18693 Steam Generator ID Westinnhouse (M) 2134 W18694

/~

4

(

i s

HL&P by 8 D Date 7-/2.-96 Arkwright Mutual by _ EW Date [~8-kd?

A. C. McInfire Insurance Co. B. R. Russell ANU

1RE06 - Steam G:nnrctor Tubes Pcga 2 of 2 i

FORM NIS 1 (Back)

8. Examination Dates 5-22-96 to 6-4 -96 9. Inspection Interval from 8-25-88 to 9-25-99

10. Abstract of Examinations. Include a list of examinations and a statement conceming status of work required for current interval. (ASME Code Class 1 (IWB) Items Steam Generator Tubes) l See Section 3.4 of the IRE 06 Inservice Inspection Summary Report for Welds, Steam Generator Tubing, and Component Supports.

II. Abstract of Conditions Noted.

See Section 3 5 of the IRE 06 Inservice Inspection Summary Report for Welds, Steam Generator Tubing, and Component Supports.

12. Abstract of Corrective Measures Recommended and Taken.

See Section 3.5 of the IRE 06 Inservice Inspection Summary Report for Welds, Steam Generator Tubing, and Component Supports.

We cestify that the statements made in this report are correct and the examinations and corrective measures taken conform to the rules of ASME Code,Section XI.

Certificate of Authorization No.(if applicable) N.A. Expiration Date N.A.

Date 6 - / 2- 19 96 Signed Houston Lichting & Power Co. By 6( %CM Owner A. C. McInytre #

CERTIFICATE OF INSERVICE INSPECTION I, the undersigned, holding a valid commission issued by the National Board of Boiler and Pressure Vessel Inspectors and the State or Province of Texas and employed by Arkwright Mutual Insurance Co. of Norwood.

Mass have inspected the components described in this Owner's Report during the period f LF-94, to ___

M-/4-G(,, and state that to the best of my knowledge and belief, the Owner has performed examinations and taken corrective measures described in this Owner's Report in accordance with the inspection plan and as required by the ASME Code,Section XI.

By signing this certificate neither the Inspector nor his employer makes any warranty, express or implied, conceming the examinations and corrective measures described in this Owner's Report. Furthermore, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kin ' ing from or connected with this inspection.

, s Commissions Tex 826 Inspector's Signature National Board, State. Province, and Endorsements B. R. Russell Date S - M'- 19 %

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i l 4.0 COMPONENT SUPPORT EXAMINATIONS l'

! 4.1 Introduction ,

i 1

ISI of Class 1,2, and 3 component suppons and Class 3 integral attachments of STPEGS-1 was  !

, performed between April 26,1996 and May 30,1996. These examinations constitute the sixth ,

l ISI (the first ISI of the third period) of the first inspection interval for the Component Supports  !

l Examination Program for STPEGS-1. Additionally, one (1) Class 3 component suppon was l examined at the end of Period 2 (April 23,1996) as a successive examination (see 4.4.2 below). i i

l This Section of the Summary Report documents the examinations of component supports i p performed by HL&P QC NDE personnel in accordance with the following documents:

(1) HL&P Specification 5UO35JS0003, " Inservice Inspection Examination of Component j Suppons of South Texas Project Electric Generating Station, Unit 1, First Inspection l i Interval", '

! (2) " Examination Plan for the 1996 - IREM Inservice Inspection of Welds and Component .

7 Supports at the South Texas Project Electric Generating Station, Unit 1 ", including changes made during the outage (Outage Plan).

i

,' The HL&P Specification provides a detailed description of the mies for exemption and selection  !

I of Class 1,2, and 3 component suppons for ISI. The 1996 Examination Plan is an individual r j Outage Plan for implementing ISI component suppon examinations as designated in the HL&P l l Specification.

J i

) 4.2 Scope of Examinations <

j

[

l A total of seventy six (76) component supports were visually examined just prior to or during j l 1RE06. One (1) component suppon was visually examined in Period 2 as described in 4.4.2 i below.  !

Class l Six (6) Class 1 piping suppons and two (2) Class I equipment support were examined in the i following systems for Section XI credit (C):

i Piping Equipment  :

Reactor Coolant (RC) 5 2 l

Residual Heat Removal (RH) 1 0 t 4-1 i

i

i l

Class 2 Twenty nine (29) Class 2 piping supports were examined in the following systems for Section XI credit (C). Additionally, one (1) successive examination (S) was performed on a Class 2 SI hll piping suppon during 1RE06.

l Pipma Auxiliary Feedwater (AF) 2 Component Cooling (CC) 1 Containment Spray (CS) 3 Feedwater (FW) 1 l Main Steam (MS) 1 Residual Heat Removal (RH) 6 i Safety Injection (SI) 15 Class 3 7 l Thirty two (32) Class 3 piping suppons and six (6) Class 3 equipment supports were examined in the following systems for Section XI credit (C). Additionally, a successive examination (S) was performed on one (1) Class 3 AF piping support in Period 2 (see 4.4.2 below).

Pipine Equipment Auxiliary Feedwater (AF) 6 0 Component Cooling (CC) 21 1 1 Diesel Generator Jacket Water (JW) 0 1 ,

Diesel Generator Lube Oil (LU) 0 2 l Diesel Starting Air (SD) 0 1 Essential Cooling Water (EW) 5 0 Reactor Makeup Water (RM) 0 1 1 A complete list of component suppons examined just prior to or during IRE 06, as well as the successive examination performed in Period 2, are contained in Appendix 4-A.

l The examinations performed for Section XI credit constitute the following percentages of completion for Class 1,2, and 3 component suppons:

Cumulative 1.RFafi (1st Interval)

Class 1(IWF) 9% 74 %

Class 2(IWF) 13 % 73 %

Class 3(IWF) 12 % 74 %

l 4-2 l

t 1

. 4.3 Personnel and Procedures i

4.3.1 Personnel Qualifications Component supports were visually examined (VT-3 and VT-4) by HL&P QC NDE personnel. .

HL&P NDE personnel were certified in accordance with ASME Section XI (IWA-2300) and HL&P Nondestmetive Examination Procedure OPQP05-ZA-0001 (Rev. 0), " Qualification and Cenification of Nondestructive Examination Personnel". A listing of the personnel who performed visual examinations of component supports, including their certification level, is included in Appendix 4-B.

4.3.2 Examination Procedure Visual (VT-3 and VT-4) examinations of component supports were performed in accordance with OPQP05-ZA-0023 (Rev.1), " Visual Examination of Component Supports for ASME XI Inservice  !

Inspection".

4.4 Summary of Examinations Sixty eight (68) piping supports and eight (8) equipment supports were examined just prior to or during IRE 06 as shown in Appendix 4-A. Additionally, one (1) Class 3 piping support was examined at the end of Period 2 as described in 4.4.2 below.

O v ,

4.4.1 Examination Results and Corrective Actions One relevant condition was found as shown in Table 4-1. The support was analyzed to

• substantiate its integrity for its intended service and found to be acceptable. However, the support was reworked to bring the spring setting back into tolerance. A re-examination was i

~

performed to document the spring setting after rework.

Table 4-1 Summary of Component Support Visual Indication Disposition  !

Component ID Condition CR No. Disposition .

MS-1104-HL5002 Cold Setting out 96-5825 Reset to within design of tolerance. setting tolerance.

l l

l

4.4.2 Additional and Successive Examinations h

The results of the visual examinations of component supports performed during IRE 06 did not require that any additional examinations (IWF-2430) be performed or any successive examinations (IWF-2420) be scheduled. A successive examination was performed during 1RE06 (Period 3) on a Class 2 SI piping suppon (see Summary No. 254200 in Appendix 4-A) to verify l

the conditions detected and corrected during the IRE 04 refueling outage (Period 2) had not reoccurred. During IRE 06, no relevant conditions were detected on this support. Therefore, no funher examinations are required on this support in this interval.

Additionally, a successive examination was performed on April 23,1996 near the end of Period 2 l

on an AF system piping support (AF-1079-IIL5005). This suppon was examined during refueling outage IRE 01 in Period I with relevant conditions that were accepted "use as is".  !

Therefore, a successive examination was required during Period 2. The successive examination I performed on 4-23-96 found no changes to the conditions observed and documented during 1RE01 in 1989. No new relevant conditions were observed sring this examination. No funher examinations are required on this suppon in this interval.

4.5 Certification of Inspections I

Section XI NIS 1 forms, " Owner's Repod for Inservice Inspections", have been prepared to certify '

the STPEGS-1 component suppon ISI examinations described in this section of the Summary Repon. The STPEGS-1 component suppon ISI examinations have been cenified by our ANII, Arkwright Mutual Insurance Company, on the NIS-1 forms included in Appendix 4-C.

1 4-4

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APPENDIX 4 A l 1

1

SUMMARY

OF EXAMINATIONS l 1

L EXAMINATION RESULTS LEGEND l

C Examination for Section XI Scheduling Qedit S Successive Examination l

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DATES 09/03/96 Sot 7TH TEXAS PROJECT ELECTRIC GENERATING STATIC 01 UNIT 1 PAGE: 1 REVISION: 1 INSERVICE INSPECTION PLAN 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OtTTAGE (96RF)

CLASS 1 CS STATUS COMPONENTS

! Od MACTOR COOLAfrP 1 N O ASME O G T SEC, II R E H l SUP94ARY EXAMINATION AREA CATGY EXAM E O E REMARKS l NUMBER IDEtrTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK'*

l 12-PC-1112 BB1-C l 103400 RC-1112-HL5001 PIPING-1 VT-3 EA-0023 R1 C . -

l RR -

6-RC-1003-BB1-A 105400 RC.1003 HL5007 PIPING-1 VT-3 ZA-0023 R1 C . -

RR .

1 l

4-PC-1123 BB1-B 106000 RC-1123-RR14 PIPING-1 VT-3 ZA-0023 R1 C - -

RR .

i l A 106900 RC-1123-SH02 PIPING-1 VT-3 ZA-0023 R1 C . - EXAMINED NHEN FILLED.

SH-V - VT-4 ZA-0023 R1 C . -

i I 4-RC-1173-PB1-E 107400 RC-1123-RR05 PIPING-1 VT-3 ZA-0023 R1 C - +

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I

DATE: 09/03/96 J TH TEXAS PROJECT ELECTRIC (CNFRATING STATIC 2 CIT 1 SO" PAGE: 2 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OtfrACE (96RF)

CIASS 1 CS STATUS COMPONENTS POSifffAL HEAT PEMOVAL 1 l

N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BIOCK" 12-PH-1201-PB1-D 113200 RH-1201-SH01 PIPING-1 VT.3 EA-0023 R1 C - - EXAMINED NHEN FILLED.

SH-V .

VT-4 EA-0023 R1 C - -

0 1

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l

DATE: 09/03/96 SCUTH TEXAS PROJECT ELECTRIC GENERATING STATIC'J UNIT 1 PAGE: 3 REVISION: 1 INSERVICE INSPECTION PLAN

• 1RE06 (SUPPORTS) l FIRST INTERVAL, THIRD PERIOD, FIRST OLTTAOE (96RF)

CIASS 1 CS STA'!US COMPONENTS i

(~' j PEACTOP CO M N O ASME O Q T SEC. XI R E H SUlHARY EXAMINATION AREA CATOY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

IR121NS0101C 119000 SOC 3C EQUIP.1 VT-3 EA-0023 R1 C - - SGC3C IS THE COLtNN SUPPORT IMMEDIATELY RC S/G COL -

CLOCKWISE FROM COLUMN SUPPORT SGC2C.

SGC2C COLUMN SUPPORT IS IMMEDIATELY CLOCrWISE FROM SGCIC. SGCIC IS THE COLUMN SUPPORT NEAREST THE REACTOR COOLANT PUMP.

119100 SGC4C EQUIP-1 VT.3 EA.0023 R1 C - - SGC4C IS THE COLUMN SUPPORT IMMEDIATELY RC S/0 COL -

CLOCKWISE FROM SGC3C (SEE

SUMMARY

NUMBER i 119000). I l

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FIRST INTERVAL, THIRD PERIOD, FIRST OtJTAGE (96RF)

CIASS 2 CS STATUS COMPONENTS AUXILI ARY FEE!MATEP 2 N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM No METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

6-AP-1012-GA2 D 205300 AF-1012-HL5025 PIPING-2 VT-3 EA-0023 R1 C - -

RR .

205400 AP-1012-HL5026 PIPING-2 VT-3 ZA-0023 R1 C - -

RR -

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

DATE: 09/03/96 SOtfrH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 5 REVISION: 1 INSERVICE INSPECTION PLAN 1RE06 (SUPPORTS)

FIRST IrrTERVAL, THIRD PERIOD. FIRST OUTAGE (96RF)

,Q CLASS 2 CS STATUS COMPONENTS COMPOKENT COOLING 2 N O ASME O G T I SEC. XI R E H j StM4ARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK ** l

....... .............................. ....... .......... ............... . . . ........................................ I 14-CC-1318-WA2-D 211000 CC.1318 ML5001 PIPING-2 VT.3 EA-0023 R1 C - + EXAMINED WHEN FILLED.

SH-V - VT-4 EA-0023 R1 C - .

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DATE: 09/03/96 SOtTTH TEXAS PRCATECT ELECTRIC GENERATING STATIC 3 UNIT 1 PAGEt 6 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST Ot1TAGE (96RF)

CLASS 2 CS STATUS COMPONENTS CONTADMENT SPPAY 2 N O ASME O G T SEC. 11 R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK'*

12 - CS - 13 01 -tm 2 - A 811900 CS.1301-HL5002 PIPING-2 VT-3 ZA-0023 R1 C - .

RR .

8-CS-1302-PB2-C 214200 CS-1302-SHO3 PIPING-2 VT-3 ZA 0023 R1 C - - EKAMINED WHEN FILLED.

SH-V -

VT-4 ZA-0023 R1 C - -

6-CS-1303-PB2-A 316100 CS-1303-HL5003 PIPING-2 VT-3 ZA-0023 R1 C - -

RR -

O O

. . ~ _ . _ _ . _ _ . _ _ . _ . . . . . . _ _ - . - _ . - . _ . . .__

DATE: 09/03/96 SotTTH TEXAS PROJECT ELECTRIC CENERATING STATION UNIT 1 PAGE: 1 REVISION: 1 INSERVICE INSPECTION PLAN . 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OtfrAGE (96RF)

CLASS 2 CS STATUS COMPONENTS t% FEED WATER 2 N O ASME O G T SEC. XI R E H SUP9dARY EXAMINATION AREA CATGY EXAM E O E REMAAKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK'*

19-FW-1016-GA2-D 219100 FW.1016-HL5001 PIPING-2 VT-3 EA-0023 R1 C . .

RR .

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DATE: 00/03/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATIC 3 TJNIT I PAGE: 8 REVISION: I INSERVICE INSPECTION PIAN - IRE 06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OtTTAGE (96RF)

CLASS 2 CS STAWS COMPONENTS MAIN STEAM 2 N O ASME O G T SEC, XI R E H

SUMMARY

EXAMINATION AREA CAMY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

8-MS-1104-CA2-D 337700 MS-IIO4-HL5002 PIPING-2 VT-3 ZA-0023 RI C . . COLD SETTING WAS FOUND OUT OF TOLERANCE, SH-V . VT-4 ZA-0023 RI C - - ENP-96-000502 AND CR-96-5825 WERE ISSUED BY QC. AN ENGINEERING EVALUATION (CREE)

DETERMINED THE SUPPORT WAS STILL OPERABLE / FUNCTIONAL. THEREFORE, NO ADDITIONAL OR SUCCESSIVE EXAMS WERE REQUIRED. SPRING CAN WAS RESET AND REEXAMINED WITH ACCEPTABLE RESULTS.

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DATE: 09/03/96 S0WH TEXAS PROJECT ELECTRIC CENERATING STATICf UNIT 1 PAGEi 9 REVISION:. 1 INSERVICE INSPECTION PLAN . 1RE06 (SUPPORTS) 7 FIRST INTERVAL. THIRD PERIOD, FIRST OWAGE (96RF) l rg CLASS 2 CS STATUS COMPONENTS PESIDUAL HEAT PPMOVAL 2 ASME O G T SEC, XI R E It i SUh94ARY EXAMINATION AREA CATOY EXAM E O E REMARFJ N'JMBER IDENTIFICATION ITEM NO METHOD PROCFDURE C M R *

• CALIBRATION BIOCK'*

I j ....... .............................. ....... .......... ............... . . .

8-PH-1103-VP2-A 230200 RH-1103-RR09 PIPING-2 VT-3 ZA-0023 R1 C . -

RR .

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j 230400 RH 1103-SW10 PIPING-2 VT-3 ZA-0023 R1 C - - EXAMINED WHEN FILLED.

SH-V - VT-4 ZA-0023 R1 C - -

t 1

f 8-PH-1103-FB2-E 231200 RH-1103-SH05 PIPING 2 VT-3 ZA-0023 R1 C . - EXAMINED WHEN FILLED.

SH.V . VT-4 ZA-0023 R1 C - .

1

. 8-PH-1103-rB2-r 231300 RH-1103-RR03 PIPING-2 VT-3 ZA-0023 R1 C . .

t

! RR .

1 8-RH-1204-KB2-D 234700 RH-1204-HL5005 PIPING-2 VT-3 ZA-0023 R1 C - -

I GUIDE -

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8-PH-1204-FB2-J

[ 235400 RM-1204-HL5002 PIPING-2 VT-3 ZA-0023 R1 C . -

! RR -

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l DATE: 00/03/C6 SOtJTH TEXAS PROJECT ELECTRIC GENERATING STATIC UNIT 1 PAGE: 10 1 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS) l FIRST INTERVAL, THIRD PERIOD, FIRST OtJTAGE (96RF) l CLASS 2 CS STATUS COMPONENTS  !

SAFETY INJFCTION 2 N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

24-SI-1101-tm2-F 343800 SI-1101-RR10 PIPING-2 VT.3 ZA-0023 R1 C . -

RR .

20-St-1101-tm2-J 244200 SI-1101-RH21 PIPING-2 VT-3 ZA-0023 R1 C . .

RR .

8-SI-1105-FB2-B 354200 SI-1105-RH01 PIPING-2 VT-3 ZA-0023 R1 S . - PERFORMED SUCCESSIVE EXAMINATION AND RR -

VERIFIED THAT THE CONDITIONS DETECTED AND CORRECTED DURING 1RE04 REFUELING OUTAGE (PERIOD 2) HAVE NOT REOCCURR PERIOD 3. NO FURTHER EXAMS ARE REQ ON THIS SUPPORT IN THE CURRENT INTER 8-SI-1105-KB2-F 354700 SI.1105-RR23 PIPING-2 VT-3 ZA-0023 R1 C . .

RR -

8-SI-1105-rP2-0 355000 SI-1105-RR25 PIPING-2 VT-3 ZA-0023 R1 C . -

RR .

8-SI-1105-rB2-J 355500 SI.1105-RR29 PIPING-2 VT-3 ZA.0023 R1 C . -

RR .

O

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REVISION: 1 INSERVICE INSPECTION PLAN .1RE06 (SUPPORTS) j FIRST INTERVAL, THIRD PERIOD, FIRST CITTAGE (96RF)

(

I SAFETY INJEC"ff 0N 2 CLASS 2 CS STATUS COMPONENTS

\. N N O I ASME O G T SEC XI R E H SIDNARY EXAMINATION AREA CATGY EXAM E O E REMARi:S

' NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

i 8-SI-1105-rB2-M 255900 SI 1105.RR34' PIPING-2 VT-3 1.A 0023 R1 C . .

RR .

I 1

8-SI-1105-FB2-P 256100 SI.1105.RR36 PIPING-2 VT.3 ZA-0023 R1 C . .

RR .

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8-SI-1105-rB2 R 256400 SI.1105.RR40 PIPING-2 EVT.3 ZA-0023 R1 C . . 1 RR -

l l

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\ 8 SI-1105-FB2-S l 256600 SI-1105-RR41 PIPING-2 VT-3 ZA-0023 R1 C .

• OUIDE .

6-SI-1106-DB2-F 263100 SI.1106-RR04 PIPING-2 VT-3 ZA.0023 R1 C . .

RR .

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l 6.SI-1106-DB2-N I 264700 SI-1106-RR61 PIPING-2 VT.3 ZA-0023 R1 C . .

RR .

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 2 CS STATUS COMPONENTS SAFETY INJECTION 2 l

N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

6-SI-1106-DR2-0 ,

l 365500 SI-1106-RR$2 PIPING-2 VT-3 ZA-0023 R1 C - .

RR .

l 265700 SI-1106-RR75 PIPING-2 VT.3 ZA-0023 R1 C - -

RR .

l 265900 SI.1106.RR77 PIPING-2 VT-3 ZA-0023 R1 C - .  !

RR .

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l 2-SI-1106-DB2-DA1 276600 SI-1106-HS5001 PIPING-2 VT-3 ZA-0023 R1 C - -

GUIDE .

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DATES 09/03/96 SOUTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 13 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS) l FIRST INTERVAL, THIRD PERIOD, FIRST CUTAOE (96RF)

CIASS 3 CS STATUS COMPONENTS l 1 AUXILIARY PEEDWATER 3 N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

6-AF-1079-WB3-C 303200 AF-1079-HL5001 PIPING-3 VT-3 ZA 0023 R1 C . -

GUIDE .

6-AF-1079-WB3-H 305800 AF-1079 HL5005 PIPING-3 VT-3 ZA-0023 R1 S . . SUCCESSIVE EXAMINATION PERFORMED AT THE GUIDE .

END OF PERIOD 2. NO CHANGES WERE OBSERVED FROM THE CONDITIONS DOCUMENTED DURING 1RE01 REFUELING OUIAGE. NO FURTHER EXAMINATIONS ARE REQUIRED ON THIS SUPPORT DURING THIS INTERVAL.

l l

4-AF-1011-GA3-MA 310800 AF-1011-HL5002 PIPING-3 VT.3 ZA 0023 R1 C . -

[ GUIDE .

Q.

l 3-AP-1086-CA3-F j

l 315600 AF.1086-HL5006 PIPING.3 VT-3 ZA-0023 R1 C . -

OUIDE . '

I l

1.5-AF-1053-WA3-BA03 317500 AF-1053-HF5002 PIPING-3 VT-3 ZA-0023 R1 C - .

M .

1.5-AF-1096-CA3-AA01 318900 AF-1086-HF5003 PIPING-3 VT-3 ZA-0023 R1 C . . l l U-BOLT .

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 3 CS STATUS COMPONENTS AUXILIAPY FFEDWATEP 3 N O ASME O G T SEC. XI R E H SUMKARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK **

1.5-AP-1096.GA3-BA01 319200 AF-1086-HF5005 PIPING-3 VT-3 EA-0023 R1 C - -

U BOLT -

O O

DATE: 09/03/96 SOffTH TEXAS PROJECT ELECTRIC GENERATING STATION UNIT 1 PAGE: 15 REVISION: 1 INSERVICE INSPECTION PLAN .1RE06 (SUPPORTS)

FIRST IFTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF) l A CLASS 3 CS STATUS COMPONENTS

( COMPONFNT COOLING 3 N O ASME O G T SEC. XI R E H

SUMMARY

EXAMINATION AREA CATOY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BI4CK**

20-CC 1103-WA3-F 326400 CC-1103-HL5010 PIPING-3 VT-3 ZA-0023 R1 C - .

QUIDE -

l 20-CC-1106-WA3-A 326500 CC-1106 HL5009 PIPING-3 VT-3 ZA-0023 R1 C - -

RR .

i 20-CC-1109-WA3-0 1

327100 CC-1109-HL5009 PIPING-3 VT-3 ZA-0023 R1 C - -

GUIDE -

\

\ 16 - CC- 110 3 - W A3 -J l l

j 332200 CC-1103-SH12 PIPING-3 VT-3 ZA-0023 R1 C - - EXAMINED NHEN FILLED.

SH-V . VT-4 ZA-0023 R1 C - - j i

l l

16-CC-1105-WA3-E I 333100 CC-1105-HL5006 PIPING-3 VT-3 ZA-0023 R1 C . .

RR .

333200 CC-1105-HL5007 PIPING-3 VT-3 ZA-0023 R1 C - -

RR .

I 16-CC-1105-WA3-0 333600 CC-1105-HL5005 PIPING-3 VT-3 ZA-0023 R1 C - .

RR .

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DATES 09/03/96 SC7tH TEXAS PROJEC"t ELECTRIC GENERATING STATION UNIT 1 PAGE: 13 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CLASS 3 CS STATUS COMPONENTS COMPONENT COOLING 3 N O )

ASME O G T SEC. II R E H

SUMMARY

EXAMINATION AREA CAMY EXAM E O E REMARKS NtNBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BIDCK' 16-CC-1106-WA3-C 334400 CC-1106-HL5010 PIPING-3 VT-3 ZA-0023 R1 C - -

RR .

]

334600 CC 1106-RR05 PIPING-3 VT-3 ZA-0023 R1 C - -

RR .

l i

16 00-1106-WA3-D j 334800 CC-1106-RR06 PIPING-3 VT-3 ZA-0023 R1 C - -

RR -

16-CC-1106-WA3-F 335100 CC-1106 HL5004 PIPING-3 VT-3 ZA-0023 R1 C - -

GUIDE .

16-CC-1106-WA3-H 335600 CC-1106-HL5002 PIPING-3 VT-3 ZA-0023 R1 C - -

RR -

14-CC-1111-WA3 B 344000 CC-1111-GU01 PIPING-3 VT-3 ZA-0023 R1 C - -

RR .

344100 CC-1111-HL5001 PIPING-3 VT-3 ZA-0023 R1 C - -

RR -

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FIRST INTERVAL, THIRD PERIOD, FIRST OLTIAGE (96RF) l g CLASS 3 CS FTATUS COMPONENTS

{ COMPONf7TT COOLING 3 i \ N O ASME O O T SEC. XI R E H

$tM4ARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BIDCK**

2 4 -eC- u n -wn -e l 1

344200 C'-1111-HL5002 C PIP!NG-3 VT.3 EA-0023 R1 C * -

EXAMINED WHEN FILLED.  !

SH-V -

VT-4 2A-0023 R1 C . .

1 14-CC-1114-WA3-A 344500 CC-1114-HL5005 PIPING-3 VT-3 ZA-0023 R1 C - -

RR .

10-CC-1114-WA3-0 l

1 351700 CC.1114-RR16 PIPING-3 VT.3 ZA-0023 R1 C - .

GUIDE .

)

l l

l 1 1 30- N*11$$*Nk3-S 354600 CC-1115-RR15 PIPING-3 VT-3 ZA 0023 R1 C - -

RR -

l 10-CC-1115-wA1-U 355200 CC.1115.RR12 PIPING-3 VT.3 ZA-0023 R1 C - -

RR -

I l

l 10-CC-1115-WA1-V 355400 CC.1115-RR05 PIPING-3 VT-3 ZA-0023 R3 C - -

! RR -

1 l

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DATE: 09/03/96 SOUTH TEXAS PROJECT ELECTRIC CENERATING STATION UNIT 1 FAGE: 19 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST Ot7tAGE (96RF)

CLASS 3 CS STATUS COMPONENTS COMPONFNT COOLING 3 N O ASME O G T SEC. XI R E H SUM 4ARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BI.OCK**

10-CC-1115-WA3-W 355800 CC-1115.RR03 PIPING-3 VT.3 ZA.0023 R1 C - -

RR .

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

t DATE: 09/03/96 f,0UTH TEXAS PROJECT ELECTRIC CENERATING STATION UNIT 1 PAGE: 19 REVISION: 1 INSERVICE INSPECTION PIAN .1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST CUTAGE (96RF) .

[ g CLASS 3 CS STATUS COMPONDrtS i

)ESSDfTIALCOOLINGWATEP3 N O ASME O G T SEC. XI R E H l Stht4ARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK'*

l e

30-FW-1105-WT3-E 381400 EW 1105-ML5005 PIPING-3 VT-3 EA-0023 R1 C . . t RR .

e 6-EW-1125-WT3-P1 410400 EW-1125-HL5009 PIPING-3 VT-3 ZA-0023 R1 C - .

GUIDE .

t 410500 EW-1125-HL5010 PIPING-3 VT.3 ZA-0023 R1 C . .

GUIDE

• i 6-EW-1128-WT3 B2 I i

\ 410700 EW-1128-HL5001 PIPING-3 VT-3 ZA-0023 R1 C - *

! GUIDE .

6-FW-2127-WT3-A 417400 EW-1127-HL5003 PIPING-3 VT.3 ZA-0023 R1 C . -

I GUltE -

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FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF) l CLASS 3 CS STATUS COMPONENTS COMPONEY!' COOLING 3 N O MM O G T l

SEC. XI R E H StM4ARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R " CALIBRATION BLOCK" 3P201NWX101A 419200 CCX3A EQUIP-3 VT-3 EA-0023 R1 C . . THE SUPPORT IDCATED AT THE NEST END OF )

CC CI4 HTX -

THE HEAT EXCHANGER.

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FIRST INTERVAL, THIRD PERIOD, FIRST OLTTAGE (96RF)

CLASS 3 CS STATUS COMPONENTS

• f j DIEFFL JACYET WATER 3 f f V N o ASME O G T l SEC. XI R E H I

SUMMARY

EXAMINATION AREA CATOY EXAM E O E REMARKS

. NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BLOCK'*

i i ....... .............................. ....... .......... ............... . . . ........................................

30151 MAD 0114 420700 JSPIA EQUIP.3 VT.3 ZA-0023 R1 C . . SINGLE BASE SUPPORT ON PUMP, JW STBY PUMP -

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DATE: 09/03/96 CC'J TX TEXAS PROJECT ELECTRIC GENERATING STATICQ UNIT 1 PAGE: 33 REVISION: 1 INSERVICE INSPECTION PLAN - 1RE06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OUTAGE (96RF)

CIASS 3 CS STATUS COMPONENTS DIESFL IMBE OIL 3 N O ASME O G T SEC. XI R E H

SUMMARY

EXM41 NATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOO PROCEDURE C M R *

• CALIBPATION BLOCK *

• 301$1hDfX0136 433700 UlX1A EQUIP-3 VT-3 EA-0023 R1 C - - THE CJPPORT 10CATED CIOSEST TO THE LU HEAT EXCH -

ENGINE.

30151MSA0134 424900 LU4A EQUIP-3 VT-3 ZA-0023 R1 C - - THE PIPE SUPPORT LOCATED IMMEDIATELY LU PIPE SUPT -

DOWNSTREAM OF THE LUBE OIL STRAINER CLOSEST TO THE LUBE OIL CIRC. PUMP.

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DATE: .09/03/96 ' fouTH TEXAS PROJECT ELECTRIC GENERATING STATICCI UNIT 1 PAGE: 23 REVISION: 1 INSERVICE INSPECTION PLAN

• IRE 06 (SUPPORTS)

FIRST INTERVAL, THIRD PERIOD, FIRST OLTTAGE (96RF)

\ pjE*EL STAPTING AIP 3 Y N O ASME O G T SEC. XI R E H SUtNARY EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R *

• CALIBRATION BIDCK*

• I 30151>tr$ 0134 427300 SATIA EQUIP-3 VT-3 ZA-0023 R1 C -

• SINGLE BASE SUPPORT.

SD STRT AIR ,

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FIRST INTERVAL, THIRD PERIOD, FIRST OLTTAGE (96RF)

CLASS 3 CS STATUS COMPONENTS PEACTOR MARE-UP WATER 3 N O ASME O G 7 SEC. XI R E H

SUMMARY

EXAMINATION AREA CATGY EXAM E O E REMARKS NUMBER IDENTIFICATION ITEM NO METHOD PROCEDURE C M R ** CALIBRATION BI4CK**

3R271NTP101A 439400 RMST1 EQUIP-3 VT-3 ZA-0023 R1 C - - SINGLE BASE SUPPORT.

RC MK-UP TNK -

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l APPENDIX 4-B PERSONNEL l

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APPENDIX 4 H 1

PERSONNEL l

Name Company Level Clay Suhler HLP II Lyle Spiess HLP II 1

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4-B-1 1

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i APPENDIX 4-C O OWNER'S REPORT FOR INSERVICE INSPECTIONS NIS-1 FORMS

1996 ISI - 1RE06 - Component Supports (Class 1) Page 1 of 2 FORM NIS 1 OWNERS REPORT FOR LNSERVICE INSPECTIONS As required by the Pmvisions of the ASME Code Rules

( 1. Owner Houston iichting & Power Comoany: Electric Tower: P.O. Box 1700: Houston. Texas 77001 (Name and Address of Owner)

2. Plant South Texas Project Electric Generatine Station

P.O. Box 289: Wadsworth. Texas 77483 (Name and Address of Plant)

3. Plant Unit 1 4. Owner and Certificate of Authorization (if required) N.A.

5. Commercial Service Date 08/25/88 6. National Board Number for Unit N.A.

7. Components Inspected ASME Code Class 1 Component Supports Pmgram

! Manufacturer

Component or Manufacturer or Installer National Appurtenance or Installer Serial No. Board No.

Steam Generator 1C Westinchouse (M) 2133 W18693 7 Class 1 Piping Supports Ebasco (I) N.A. N.A.

1 4

4 I

4 RIllBeverIy ~ ' ' ' Insurance Co. B.R. Russell,ANil 4-C-1

1996 ISI - IRE 06 - Component Supports (Class 1) Page 2 of 2 FORM NS 1 (Back) j 1

8. Examination Dates 05/20/96 to 05/23/96 9. Inspection Interval from 08n5/88 to 09n4/99

10. Abstract of Examinations. Include a list of examinations and a statement concerning status of work required for current interval. (ASME Code Class 1 Component Supports - Piping and Equipment) l See Section 4.2 of the IRE 06 Summary Report for list of examinations performed. The examinations performed this onage constitute 9% of the required examinations for the current interval. The cumulative {

percentage completed for the Interval is 74%.

11. Abstract of Conditions Noted. l None. l l

12. Abstract of Corrective Measures Recommended and Taken.

j None.

l We certify that the statements made in this report are correct and the examinations and corrective measures '

taken conform to the rules of ASME Code,Section XI.

Certificate of Authorization No.(if applicable) N.A. Expiration Date N.A.

Date [-7d 19 b Signed Houston Lighting & Power Co. By N/Os b Owner EL.Belerly

• CERTIFICATE OF INSERVICE INSPECTION I, the undersigned, holding a valid commission issued by the National Board of Boiler and Pressure Vessel Inspectors and the State or Province of Texas and employed by Arkwright Mutual Insurance Co. of Norwood.

Mass have inspected the components described in this Owner's Report during the period 05/20/96 to ,

05/23/96 . and state that to the best of my knowledge and belief, the Owner has performed  ;

examinations and taken corrective measures described in this Owner's Report in accordance with the inspection  ;

plan and as required by the ASME Code,Section XI.

By signing this certificate neither the Inspector nor his employer makes any warranty, express or implied, ,

concerning the examinations and corrective measures described in this Owner's Report. Furthermore, neither the  !

Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kin arising from or connected with this inspection.  ;

w# Commissions Tex 826 Inspector's Signature National Board, State, Province, and Endorsements l B. R. Russell l Date OU ~ 19 b 1

l O

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, 1996 ISI - IRE 06 - Component Supports (Class 2) Page 1 of 2 FORM NIS 1 OWNER'S REPORT FOR INSERVICE LNSPECTIONS As requind by the Pavvisions of the ASME Code Rules l 1 1. Owner Houston Lichtinc & Power Comoany: Electric Tower: P.O. Box 1700: Houston. Texas 77001 i

(Name and Address of Owner) 4 i

. 2. Plant South Texas Proiect Electric Generatine Station: P.O. Box 289: Wadsworth. Texas 77483  !

(Name and Address of Plant) l

3. Plant Unit 1 4. Owner and Certificate of Authorization (if required) N.A.

i ,

5. Commercial Service Date 08/25/88 6. National Board Number for Unit N.A. i

7. Components inspected ASME Code Class 2 - Component Supports Program Manufacturer Component or Manufacturer or Installer National i Appurtenance or Installer Serial No. Board No.

Class 2 Piping Supports Ebasco (I) N.A. N.A.

a 1

I O

p HL&P by weds. Date $~E7'fd Arkwright Mutual by W/6Date <8~~36 Y[o Q R.L.8everly Insurance Co. B.R. Russell,ANII 4-C-3

1996 ISI - IRE 06 - Component Supports (Class 2) Page 2 of 2 FORM NIS.1 (Cack) l

8. Examination Dates 04/26/96 to 05/30/96 9. Inspection Interval from 08/25/88 to 09/24/99

10. Abstract of Examinations. Include a list of examinations and a statement concerning status of work required for current interval. (ASME Code Class 2 Component Supports - Piping and Equipment)

See Section 4.2 of the IRE 06 Summary Report for list of examinations perfonned. The examinations performed this outage constitute 13% of the required examinations for the current interval. The cumulative perrentage completed for the interval is 73%.

i

11. Abstract of Conditions Noted.

Support number MS.110411L5002 (spdng can) was found with a cold load setting out of tolerance.

The support was analyzed to substantiate its integrity forits intended sesvice and was found to be acceptable.

See Section 4.4.1 of the 1RE06 Summary Report.

12. Abstract of Corrective Measures Recommended and Taken.

Support number MS.1104.IIL5002 was adjusted to set the cold load setting within design tolerur.ce a':s reexamined. See Section 4.4.1 of the IRE 06 Summary Report.

We certify that the statements made in this report are correct and the examinations and corrective measures taken conform to the rules of ASME Code,Section XI.

Certificate of Authorization No.(if applicable) N.A. Expiration Date N.A.

Date

[D 19 Signed Houston Lighting & Power Co. By Owner R.L.Beverly ((

v CERTIFICATE OF INSERVICE INSPECTION I, the undersigned, holding a valid commission issued by the National Board of Boiler an Pressure Vessel Inspectors and the State or Province of Texas and employed by Arkwright Mutual Insurance Co. of Norwood.

Mass have inspected the components descril ;in this Owner's Report during the period 04/26/96 to 05/30/96 . and state that to we best of my knowledge and belief, the Owner has performed examinations and taken corrective measures described in this Owner's Report in accordance with the inspection plan and as required by the ASME Code,Section XI.

By signing this certificate neither the Inspector nor his employer makes any warranty, express or implied, concerning the examinations and corrective measures described in this Owner's Report. Furthermore, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kind r' ing frorn or connected with this inspection.

++s> M Commissions Tex 826 Inspector's Signature National Board, State, Province, and Endorsements B. R. Russell Date d'80' 19b O

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1996 ISI - IRE 06 - Component Supports (Class 3) Page 1 of 2 FORM NIS 1 OWNER'S REPORT FOR INSERVICE LNSPECTIONS As required by the Provlslons of the ASME Code Rules O

1

1. Owner Houston Lichtine & Power Comnany: Electric Tower: P.O. Box 1700: Houston. Texas 77001 (Name and Address of Owner) l

2. Plant South Texas Project Electric Generatine Station: P.O. Box 289: Wadsworth. Texas 77483 (Name and Address of Plant)

3. Plant Unit 1

4. Owner and Certificate of Authorization (if required) N.A.

5. Commercial Service Date 08/25/88 6. National Board Number for Unit N.A.

l

7. Components Inspected ASME Code Class 3 - Component Supports Progmm j Manufacturer i Component or Manufacturer or Installer National Appurtenance or Installer Serial No. Board No.

Component Cooling Water Heat Exch 1 A Struthers Wells Corn. (M) 1-76-06-32940-1 14436 Diesel Jacket Water Standby Pumo Ebasco(I) N.A. N.A.

Diesel' Lube oil Heat Exch. Ebasco(I) N.A. N.A.

Diesel Lube Oil Pioe Suucoort Ebasco(I) N.A. N.A.

Diesel Starting Air Ebasco(I) N.A. N.A.

Reactor MakeupWater i

'jtorace Tank 1 A Brown Minnesoolis Tank (f i) 464702A N.A.

[D

~

Class 3 Piping

\.  !

Supports Ebasco(I) N.A. N.A.

)

I l

l O IIL&P by ed , Date l*3d4/Arkwright Mutual by d' Date 8dWb d

~

R.d.Beverly Insurance Co. B.II. Russell,ANII b*

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i 1996 ISI - IRE 06 - Component Supports (Closs 3) Page 2 of 2 FORM NIS-1 (Back) l l

8. Examination Dates 04/26/96 to 05/18/96 9. Inspection Interval from 08/25/88 to 09/24/99

10. Abstract of Examinations. Include a list of examinations and a statement concerning status of work required for current interval. (ASME Code Class 3 Component Supports Piping and Equipment)

O( )

See Section 4.2 of the 1RE06 Summary Report for list of examinations performed. The examinations l performed this outage constitute 12% of the required examinations for the currentinterval. The cumulative percentage completed for the interval is 74%

11. Abstract of Conditions Noted.

None.

12. Abstract of Corrective Measures Recommended and Taken.

None.

I l

We certify that the statements made in this report are correct and the examinations and corrective measures taken conform to the rules of ASME Code,Section XI. f i

l Certificate of Authorization No.(if applicable) N.A. Expiration Date N.A.

Date b 30 19k Signed Houston Lichtinc & Power Co. By / M.

Owner R.L.Bev'erly CERTIFICATE OF INSERVICE INSPECTION 1, the undersigned, holding a valid commission issued by the National Board of Boiler and Pressure Vessel Inspectors and the State or Province of Texas and employed by Arkwricht Mutual Insurance Co. of Norwood.

Mass have inspected the components described in this Owner's Report during the period 04/26/96 to 05/18/96 . and state that to the best of my knowledge and belief, the Owner has performed examinations and taken corrective measures described in this Owner's Report in accordance with the ir.ispection plan and as required by the ASME Code,Section XI.

By signing this certificate neither the Inspector nor his employer makes any warranty, express or implied, concerning the examinations and corrective measures described in this Owner's Report. Furthermore, neither the Inspector nor his employer shall be liable in any manner for any personal injury or property damage or a loss of any kind arising from or connected with this inspection.

JW - Commissions Tex 826 l

1 Inspector's Signature National Board, State, Province, and Endorsements l B. R. Russell Date 8'-E ~ 19 %

9l 4-C-6 l

1 L i