ML20137K787

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Preservice Exam Limitations, Final Rept
ML20137K787
Person / Time
Site: Hope Creek PSEG icon.png
Issue date: 01/31/1986
From: Feige E, Flach W
SOUTHWEST RESEARCH INSTITUTE
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NUDOCS 8601240219
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. HOPE CREEK GENERATING STATION, UNIT 1 j PRESERVICE EXAMINATION LIMITATIONS FINAL REPORT i

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j SwRI Project 17-3690 i

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I Prepared for

} Public Service Electric and Gas Company j Nuclear Department

! P.O. Box 236 .

Hancocks Bridge, New Jersey 08038 1

January 1986 4

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( PDR ADOCK 05000354 E PDR i

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4R l- 4 s ( , SOUTHWEST R ESE A RCH INSTITUTE'

s SAN ANTONIO HOUSTON
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HOPE CREEK GENERATING STATION, UNIT 1 PRESERVICE EILMINATION LIMITATIONS REPORT FINAL REPORT SvRI Project 17-3690 Prepared for Public Service Electric and Gas Company Nuclear Department P.O. Box 235 Hancocks Bridge, New Jersey 08038 January 1986 Prepared by Approved by N /d b i 'a*L h ?!!/sv Edward J. Feig e Wayne T. Flach

i Project Engineer Director Inspection Engineering Department of Engineering Services Nondestructive Evaluation Services and Technology Division' I

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r TABLE OF (DNTENTS

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1. INTRODUCTION 1
2. DISCUSSION 2
3. LIMITATION

SUMMARY

TABLES 3 4 CONCLUSION 4 i

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I Hope Creek Generating Station, Unit 1 Preservice Examination Limitations Final Report

1. Introduction Southwest Research Institute (SwRI) was contracted by Public Service ,

Electric and Gas Company (PSE&G) to perform the preservice examination '

(PSI) of the Hope Creek Generating Station (HCOS). Examinations were performed in accordance with the PSI Plan during the period of September 1983 through October 1985. During this period, any i examination area coverage limitations which were encountered were recorded on data record sheets. This report summarizes and documents j the examination area limitations which limit Code coverage based on

! the examination requirements of ASNE Section II,1977 Edition with 1 Addenda through the Summer 1978 and NRC Regulatory Guide 1.150.

2. Discussion PSE&G assisted by SwRI, focused significant attention to minimizing
examination area limitations prior to, and during, the PSI at HOGS.

. As a result of these preparations, minimal examination ares limitations were encountered. An SwRI Access Engineering Program was implemented during plant design and construction to maximize examination area access. This program evaluated access and provided l

design guidance to PSE&G and Bechtel Corporation for piping, components, and the reactor pressure vessel (RPV). Examples of design criteria to facilitate examination included weld surface profiling, minimum access clearances for piping and components, and counterboring l

to minimize inside surface indication resolution questions. The Access Engineering Program also designed track placement on the RPY to maximize the vessel mechanized examination coverage. As a result, all i l vessel velds received at least partial volumetric coverage. l During the performance of the PSI onsite activities, PSE&G was notified of the examination area limitations that were encountered.

Each limitation was evaluated by PSE&G to determine alternative approaches which could afford a'more thorough coverage of the Code-specified examination volume or area.

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SwRI var requested to provide expertise in making recommendations of feasible alternatives to the planned exaninations. This process was I

expanded to include consideration of future Codes and ISI conditions which may make alternative examination techniques more or less j valuable as determined on a case-by-case basis. The result of this ongoing process was the completion of the PSI with the minimization of j limitations to the examinatica coverage as required by the Code. l

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Special examination technique developments, supported by PSE&G, 3 maximized examination coverage during the course of the PSI. These include a UT technique for veld examination through corrosion resistant clad (CRC) piping in the Reactor Recirculation System. This process involved basic research centered on ultrasonic transducer development and testing on mockups which were a result of PSE&G j efforts to ensure similarity to the "as-built" condition of the CRC i velds at HCGS. An examination technique for the RPY closure stud was

! also developed to provide the examination coverage specified in the i Code Case N307-1. PSE&G and SwRI also agreed to the utilization of a j newly-introduced, automated ultrasonic examination system (AMDATA)  :

which provided additional capability for minimizing limitations l J

attributable to veld joint configurations. Further benefits of the ANDATA system included comprehensive recording of the test data for future comparison during ISI conditions. These programs attest to the f act that PSE&G and SvRI performed the PSI at HCGS with full  ;

l consideration of the factors that could maximize the effectiveness as j determined by evaluation of the ncet minute details.

Even with a program of such proportions, Ibaitations of two basic types were encountered. Even with extensive examination procedure I development, generic lhaitations were encountered inherent to i examination areas and state-of-the-art examination techniques.

Inherent to the ultrasonic examinations where a full volumetric coverage is required from the entry surface to the opposite surface is the limitation at the near surface due to sound beam entry noise. The second type of ILaitation is a result of scanning limitations due to

component configuration or physical restrictions. For example, a limitation to scanning due to an adjacent bracket or nozzle would

. prohibit the placement of the scanning device or transducer in a l particular area and a scanning limitation would result. For

examination areas where track placement was impractical and where l radiation exposure is considered to be acceptable for examiners during

' subsequent ISIS, the mechanized examinations were supplemented with manual examination techniques.

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3. Limitation Summary Tables j The following tables provide details on the limitations which were encountered during the PSI at HCGS. The areas are listed in the order

, found in the PSI Plan. The information in the tables is supplemented 4

with figures and sketches as required. Table 1 of this report

provides informat' ion as follows

i The first column, " Class / Category / Item No. ," identifies the ASME Code class, category, and item number for the specific examination area identified in the second column. Column 2 provides the examination area description and the examination requirement. The

third column, " Identification of Limitation" identifies the type of limitation and extent. The following should be noted
1) Examination volume limitations may be encountered, even
when scanning of the complete weld length is possible.
2) In some cases, physical scanning limitations do not limit I

beam components from obtaining coverage beyond the physical l ILaitations. This is possible when the besa component can be directed

to pass under the physical ILaitations, thus increasing total l examination volume coverage.

l 3) Pressure vessel lhaitations have been identified by the

, percent of weld length accessible for scanning and the percent of the l Code-required volume examined.

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4) For piping, limitations are identified by their physical location or "L" dimension.

1 The fourth column identifies the " Basis For Relief" to include 4

specific information with respect to the type of interference.

The fifth column, " Fabrication NDE," describes the fabrication / con-i struction NDE that was performed to satisfy the requirements of ASME Section III.

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The " Remarks" column provides clarification of actual Code examination area limitations and information specific to later Code ,

editions which may change the coverage requirements for subsequent incervice examinations. Where the Code specifies more than one method end complete coverage is obtained, is also noted under " Remarks".

j Table 2 provides a detailed listing of the percentage of volume

]' coverage in compliance with paragraph 7 of Regulatory Guide 1.150, Revision 1, for reactor vessel welds. The information provided includes percent of coverage for each angle used, as well as, the cumulative coverage. The cumulative coverage is defined as the n2ximum percent of coverage achieved with at least one angle-beam component.

The attached figures present a pictorial representation of the examination area coverage. Figures are presented for the vessel welds and nozzle inner radii.

4. Conclusion i

The PSI program at HCGS was performed with full consideration of the limitations and capabilities of the nondestructive examination methods available. PSE&G and SwRI cooperated fully in an effort to ensure that the PSI was performed with the maxi == coverage feasible. This j report is the documentation of the areas in which limitations were i

present that could not be eliminated through the combined efforts of

] PSE&G and Sw1I.

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i Table 1 0 TONE.W Asp pypING LIMITATIONS I

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SYSTEtis Ructor Vsses!

Class Category Examination Area / Identification of item No. Examination Requirement Limit at ion Basis for Relief Fabrication NDE Remarks 1 RPVI-W3 Complete volumetric exam- Flange configuration pro- Volumetric and Surf ace See Figures 1 and 4.

B-A Shell-to-Flange ination of base metal hibits scanning from the See Table 2, Sheet 1.

Bl.30 circumferential Weld adjacent to weld was not flange side of the weld. Examination was perf ormed obtained. Approximately Thermocouple pads limited manually.

Volumetric 97% of the weld length scanning f rom the shell was accessible for scan- side of the weld in two ning. See Table 2 f or regions.

percent of volume coverage for each beam component.

I RPVI-W4 Complete volumetric cov- Proximity of the N12 Volumetric and Surf ace See Figure 1.

B-A Shell-t o-S hell erage of weld and base nozzles limits scanning See Table 2. Sheet 1.

61.11 Circumferential Weld metal was not obtained. f rom botn sides of the Examination was performed Approximately 90% of the weld in four regions. manually.

Volumetric weld length was acces-sible for scanning. See Table 2 for percent of volume coverage for each beam component.

1 R PVI-W5 Complete volumetric cov- Proximity of N4 nozzles Volumetric anJ Surf ace See Figure i.

CD See Table 2, Sheet 1.

B-A S hell-t o-S hell erage of the weld and limits scanning f rom B1.11 Circumferential Wald base metal was not above the held in six Examination performed obtained. Approximately loca tions . Proximity of mec nanized .

Volumetric 62% of the weld length N5 nozzles limits scan-was accessible for scan- ning from ettner side of ning. See Table 2 for the weld in four regions.

percent of volume cow- Location of nozzles pro-erage for each beam com- hibits installing verti-cal track in three i ponent.

locations.

1 RPV!-W6 Complete volumetric cov- The proximity of N16 and Volumetric and Surf ace See Figure 1.

B-A She ll-to-S sell erage of the weld and N17 nozzles prohibits See Table 2. Sheet 1.

B1.11 Circumferential Wald base metal was not scanning f rom either side Examination perf ormed obtained. Approximately of the weld in four loca- mechanized.

Volumetric 43% of the weld length tions. 1,ocation of nozzles was accessible for scan- prohibits installation of ning. See Table 2 for circumferential track and pe rcent of volume cow- installation of vertical erage f or each beam 'com- track in four locations.

ponent. locations.

MOTE: A 22 volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at the sound beam entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150, Revision 1 Paragraph B.3, "Near-Surf ace Examination and Surf ace Resolution."

SYSTEM: Rsector Vassal (Cont'd)

Class Cttegory Exaatnation Area / Identification of item No. Examination Requirement Limitation basis for Relief Fabrication NDE Remarks 1 RPVI-W7 100% of the weld length N/A. Volumetric and Surf ace L e Figure 2.

B-A Shell-to-Shell was accessible for sc a n- See Table 2, Sheet 1.

B1.11 Circumferential Weld ning. See Table 2 for Examination per f ormed pe rcent of volume cov- acc t.a n i z ed .

Volume t ric erage for each beam com-ponent.

1 RPVI-W8 Complete volumet ric cow- Interference from welded Volumetric and Surface See Figure 2.

B-A Shell-to-Lower Head erage of weld and base insulation pads limited See Table 2, Sheet 1.

B1.11 Circumferential Weld metal was not obtained. scanning at eight loc a- Examination performed Approximately 87% of the tions and proximity of mechanized.

Vol umet ric weld length was acces- the N1 nozzles limited sible for scanning. scanning at two locations.

See Table 2 f or percent of volume coverage for each beam component.

1 Rrvi-Wit-1 100% of the weld length N/A. Volumetric and Surf ace See Figure 1.

B-A Longitudinal Weld was accessible for scan- See Table 2 Sheet 1.

51.12 0 30 Deg ning. See Table 2 f or Examination perf ormed

,, pe rc ent of volume cov- manually.

Volumetric erage for each beam com-ponent.

1 R PVI-Wil-2 1002 of the weld length N/A. Volumetric and Surf ace See Figure 1.

B-A Longitudinal Weld was accessible for scan- See Table 2 Sheet 2.

Bl.12 @ 150 Dog ning. See Table 2 for Esamination performed percent of volume cov- manually.

Volumetric erage f or each beam com-ponent.

1 RPVI-W11-3 Complete volumetric cov- Proximity of nozzles N3C Volumetric and Surface See Figure 1.

B-A Longitudinal Weld etage of the base metal and N3D limited scanning See Table 2. Sheet 2.

31.12 9 270 Deg was not obtained. 100% in two locations . Esamination performed of the weld length was manually.

Volumet ric accessible for scanning. ,

See Table 2 f or percent of volume coverage for each beam component.

00TE: A 2% volumetric llaltation inherent to the Reactor Pressure Vessel Weld Examinations is the result of interface noise at the sound beam entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150 Revision 1. Paragraph B.3, "Near-Surf ace Examination and Surf ace Resolution."

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i SYSTEM: Rsactor Vessel (Cont'd) i l

C1ssa Category Examination Area / Identification of Fabrication NDE Remarks item No. Examination Requirement tiettation Basis for Relief i Volumetric and Surf ace See Figure 1. j BPVl-W12-1 100% of the weld length N/A.

1 See Table 2, Sneet 2. -

B-A Longitudinal WelJ was accessible for scan- Examination performed manu- ,

31.12 0 110 Dog ning. See Table 2 for ally and mechanized.

percent of volume cov-Volumetric erage for each bene com-ponent.

Volumetric and Surf ace See Figure 1.

RPVI-W12-2 Complete volumetric cow- Proximity of N4D and NSB l 1 nozzles limita scanning See Table 2, Sheet 2.

B-A Longitudinal Wald erage of the weld anJ Examination perf ormed manu-base metal was par in two locations.

Bl.12 0 230 Deg' obt ained . Approx.sately Welded insulation pad ally and mechanized.

96% of the weld le 3th limits scanning in one Volumet ric was accessible far scan- location.

ning. See Table 2 tur '

) percent of volume cow-i erage for each beam com-  ;

ponent.

4 100% of the veld length N/A. Volumetric and Surf ace See Figure 1.

1 RPVI-W12-3 See Table 2, Sheet 2.

! B-A Longitudinal Weld was accessible for scan- Examination performed manu-j On B1.12 9 350 Deg ning. See Table 2 f or ally and mechanized.

percent of volume cov-Volumetric erage for each beam com- ,

4 ponent.

Proximity of IG7 A nozzle Volumetric and Surface See Figure 1.

I RPVI-W13-1 Complete volumetric cov- See Table 2, Sheet 2. j erage of the weld and limits scanning in one

) B-A Longitudinal Weld Examination perf ormes t

-@ 35 Deg base metal was not location.

B1.12 _ ' mechanized.

obtained. 100% of the volumetric weld length was acces-sible for scanning. See Table 2 for percent of l volume coverage for each beas component.

I Proximity of the N9A, Volumetric and Surf ace See Figure 1.

1 RPVI-W13-2 Complete volumetric cow- See Table 2. Sheet 2.

Longitudinal Weld erage of the weld and N17B, and N168 nozzles t B-A limits scanning in two Examination performed 31.12 6 155 Dog base metal was not mechanized.

obtained. Approximately locations, Volumet ric 68% of the weld length was accessible for scan-ning. See Table 2 for percent of volume cov-l erage for each beam com-ponent.

the sound beam NOTE: A 2% volumetric limitation inherent toSee the Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at ,

entry at the outs 1Je vessel surf ace. USKRC Regulatory cuide 1.150, Revision 1 Paragraph B.3, "Near-Surf ace Examination and Surf ace 1 Re solut ion." l i

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SYSTEti Risctor Vessel (Cont'd)

Class Category Examination Area / Identification of Item No. Examination Requirement Limitatinn Basis for Relief Fabrication NDE Remarks 1 RPVI-W13-3 100% of the weld length N/A. Volumetric and Surf ace See Figure 1.

B-A longitudinal Weld was accessible for scan- See Table 2. Sheet 3.

B1.12 9 275 Deg ning. See Table 2 for Essminat ion perf ormed pe rcent of volume mechanized.

Volumetric coverage for each beam com ponent .

1 RPVI-W14-1 100% of the weld length N/A. Volumetric and Surface See Figure 2.

B-A Longitudinal Weld was accessible for scan- See Table 2. Sheet 3.

81.12 9 90 Deg ning. See Table 2 for Examination perf ormed pe rcent of volume mechanized.

Volumetric coverage for each beam component.

1 RPVI-Wl4-2 100% of the weld length N/A. Volumetric and Surf ace See Figure 2.

B-A Longitudinal Weld was accessible for scan- See Table 2, Sheet 1.

81.12 0 210 Deg ning. See Table 2 for Examination perf ormed lercent of volume mechanized.

Volumetric coverage for each beam com ponent .

"U 1 RPVI-W14-3 Complete volumet ric cow- Proximity of N17D and Volumetric and Surface See FIFures 1 and 2.

B-A Longitudinal Weld erage of the weld and N!bD nozzles limits See Table 2, Sheet 1.

B1.12 9 330 Deg base metal was not scanning at t he top of Examinat ion pe r f ormed obtained. Approximately the weld. mechanized.

Volumetric 96% of the weld length was accessible for scan-ning. See Table 2 for pe rc ent of volume coverage for each base c om ponent .

1 RPVI-W15-1 Complete volumetric cow- Proximity of NIA and Volumetric and Surf ace S ee Figure 2.

B-A Longitudinal Weld erage of the weld and N2A nozzles limits See Table 2, Sheet 3.

81.12 9 18 Deg base metal was not scanni ng in two areas of Exaaination perf ormed obtained. Approximately t he weld . mechanized.

Volumetric 93% of the weld length was accessible for scan-ning. See Table 2 for pe rcent of volume coverage for each beam c om ponent .

CUTE: A 2% volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result 0; interface noise at the sound beam entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150, Revision 1, Paragraph B.3, "Near-Surf ace Examination and Surf ace Re solut ion."

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4 SYSTEM: Rasctor Vessel (Cont'd) i

! Class Catrgory Examination Area / Identification of item No. Examination Requirement Limitation Basis for Relief Fabrication NDE Remarks

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1 RPVI-W15-2 100% of the weld length N/A. Volumetric and Surf ace See Figure 2.

B-A Longitudinal Wald was accessible for scan- See Table 2, Sheet 3.

81.12 9 138 Deg ning. See Table 2 Examination perf ormed for percent of volume mechanized.

. Volumetric coversge for each beam

! com ponent .

1 RPV1-W15-3 100% of the weld length N/A. Volumetric and Surf ace See Figure 2.

was accessible for scan- See Tabla 2, Sheet 3.

B-A Longitudinal Weld 9 258 Deg ning. See Table 2 Examination performed Bl.12 for percent of volume mechanized.

Volumetric coverage for each beam component.

, 1 RPVI-W16-1 Complete volumetric cov- Support sk irt attachment Volumetric and Surf ace See Figure 2.

B-A Lower Head erage of the weld and limits scanning in one See Table 2, Sheet 4.

Meridional Weld base metal was not- location. Examination performed 51.22 9 22.5 Deg obtained. Approximately mechanized.

  • 82% of the weld length j Volumetric was accessible for scan-

'ning. See Table 2 I C3 for percent. of volume I coverage for each beam e component .

$ 1 RPVI-W16-2 Complete volumetric cov- Support skirt attachment Volumetric and Surface See Figure 2.

erage of the weld and limits scanning in one See Table 2, Shaet 4.

I B-A Lower Head Examination perf ormed

, B1.22 heridional Weld base metal was not location.

9 67.5 Deg obtained. Approximately mechanized.

e 82% of the weld length

! Volumetric was accessible for scan-i ning. See Table 2 for percent of volume-coverage for each beam j

component.

' 1 R PVI-W16-3 Complete volumetric cov- Support skirt attachment %olumetric and Surf ace See Figure 2.

B-A Lower Head etage of the weld and limits scanning in one See Table 2. Sheet 4.

Bl.22 Meridional Weld base metal was not locat ion. Examination perf ormed j 9 112.5 Deg obtained. Approminately mechanized.

82% of the weld length

] Volumetric was accessible for scan-i ning. See Table 2 i for percent of volume

i. coverage for each beam component.

NOTE: A 2% volumetric limitation inherent ta the Reactor Pressure vessel Wald Examinations is the result of interf ace noise at the sound beam entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150, Revision 1 Paragraph B.3, "Near-Surf ace Examination and Surf ace 1

I Resolution."

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s t SYSTEM: Rascter Vsseel (Cont'd)

Class Category Enantnztton Area / Idtntification of Fabrication NDE Remarks 4

Examination Requirement Limitation Basis for Relief item No. >

Vulumetric and Surf ace See Figure 2.

Complete volumet ric cov- Support skirt attachment See Table 2. Sheet 4.

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1 RPV1-W16-4 limits s:anning in one B-A Lower Head erage of the weld and Emmaination performed base metal was not location.

Bl.22 -Meridional Wald mechanized.

' 9 157.5 Deg obtained. Approximately ,

' 822 of the weld length I Volumetric was accessible for scan-n ing . See Table 2 for percent of volume coverage for each been

' com ponent . '

Volumetric and Surface See Figure 2.

Complete volumetric cov- Support skirt at t achment See Table 2, Sheet 4.

1 RrVI-W16-5 limits scanning in one B-A Lower Head erage of the weld and Examination perf ormeJ base metal was not location. mechanized.

Bl.22 Meridional Weld 9 202.5 Deg obtained. Approximately 822 of the weld length Volumetric was accessible for scan-ning. See Table 2 i for percent of volume coverage for each beam p.

H component.

Volumetric and Surf ace See Figure 2.

Complete volumetric cov- Support skirt attachment See Table 2. Sheet 4. I 1 RPVI-W16-6 limits scanning in one B-A Lower Head erage of the weld and

  • Examination performed base metil was not location.

Bl.22 Heridional Wald mechanized. ,

9 247.5 Deg obtained. Approstaately  !

i 822 of the weld length volumetric was accessible for scan-ning. See Table 2 for percent of volume l coverage for each beam com ponent .

Volumetric and Surf ace See Figure 2.

Complete volumetric cov- Support skirt attachment See Table 2, Sheet 4.

1 RPVI-W16-7 limits scanning in one B-A Lower Head erage of the weld anJ Emanination perf ormed base me,a1 was.not location.

Bl.22 Heridional Weld mechanized.

9 292.5 Deg obtained. Approximately 822 of the weld length '

Volumetric was accessible for scan-ning. See Table 2 for percent of volume coverage for each beam component .

the sound beam NOTE: A 2% volumetric limitatian inherent to See the Reactor Pressure vessel Weld Examinations is the result of interf ace noise at USNRC Regulatory Guide 1.150, Revision 1, Paragraph B.3, "Near-Surf ace Enamination and Surf ace entry at the outside vessel surface.

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Resolution."

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SYSTEN Racctor Vsesel (Cont'd)

Class.

' Category Examination Area / Identification of I Itam No. Examination Requirement Limitation Basis for Relief Fabrication KDF- Remarks 1 RPVl-W16-8 Complete volumet ric cov- Support skirt attachment Volumetric and Surf ace See Figure 2.

B-A Lower Head erage of the weld and limits scanning la one -

See Table 2, Sheet 5.

Bl.22 Heridional Weld base metal was not location. Examination perf ormed

  • 9 337.5 Deg obtained. Approximately mechanized.

82% of the weld length Volumetric was accessible for scan-ning. See Table 2 1 1 f or percent of volume coverage for each beam s com ponen t .

1 RPVI-W9 Complete coverage of Proximity of control rod Volumetric and Surf ace See Figure 2.

B-A Lower Head Dome the base metal was not drive mechanisms limits See Table.2, Sheet 5.

j 31.21 Circumferential Weld obtained. 100% of the scanning from below the Examination performed

! weld length was acces- weld but does not appre- mechanized.

2 l Volumetric sible for scanning. ciably Lepact coverage.

See Table 2 for percent t of volume coverage for each beam component.

t 1 RPVI-W2O Complete volumetric cov- Flange configuration Volumetric and Surf ace See Figure 3.

>d B-A . Closure Head-to-Flange erage of the weld and prohibits scanning from See Table 2 Sheet 5.

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! Bl.40 circumferential Weld base metal was not the flange side of the Examination serformed manu-

, obtained. 100% of the weld, ally. Surface examination 4

Volumetric and Surf ace weld length was acces- coverage was obtained.

sible for. scanning.

See Table 2 for percent of volume coverage for each beam component.. ,

1 RPV)-W22 Complete volumetric cov- N/A. Volumetric and Surf ace See Table 2, Sheet 5.

Closure Head Dome B-A erage of the weld and Examination perf ormed i Bl.21 Circumferential Weld base metal was not manually. '

obtained. 100% of the Volumetric weld length was acces-sible for scanning.

See Table 2 for percent i of volume coverage for n each beam component. '

't NOTEi A 2% volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result ,of interf ace noise at the sound beam  !

entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150, Revision 1 Paragraph B.3, "Near-Surf ace Examination and Surf ace Re solut ion."

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4 SYSTEM: Rsacter Vassel (Cont'd)

Cines Category Examination Area / Identification of item No. Examination Requirement Limitation Basis for Relief Fabrication NDE Remarks I RPVI-W24A 100% of the weld length N/A. Volumetric and Surf ace See Table 2, Sheet 5.

I 8-A ' Closure Head was accessible for scan- Examination performed 81.22 Heridional Weld ning. See Table 2 manually.

for percent of volume Volumetric coverage for each beam j com ponent .

1 RPVI-W24B 100% of the weld length N/A. Volumetric and Surface See Table 2. Sheet 5.

B-A Closure Head was accessible for scan- Examination performed 51.22 Meridional Weld ning. See Table 2 manually.

for percent of volume 4

Volumetric coverage for each beam c om ponent .

J l RPVI-W24C 100% of the weld length N/A. Volumetric and Surf ace See Table 2, Sheet 5.

B-A Closure Head was accessible for scan- Examination performed

'Bl.22 Heridional Weld ning. See Table 2 manually.

for percent of volume Volumetric coverage for each beam com ponent .

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'1 RPVI-W24D 100% of the weld length N/A. ' Volumetric and Surface See Table 2, Sheet 5.

B-A Closure ilead was accessible for. scan- Examination performed

31.22 , Neridional Weld ning. See Table 2- manually.

for percent of volume Volumetric- coverage for each beam j c omponent.

I RPVI-W24E 100% of the weld length N/A. Volumetric and Surf ace See Table 2. Sheet 5.

B-A' Closure Head . was accessible for scan- Examination performed 81.22 Meridional Weld ning . See Table 2 manually.

for percent of volume Volumetric coverage for each beam

, com ponent .

I RPVI-W24F 100% of the weld length N/A. Volumetric and Surf ace See Table 2. Sheet 5.

- B-A Closure Head was accessible for scan- Examination perf ormed

! B1.22 Meridional Weld ning. See Table 2 manually. '

f or . percent of volume Volumetric coverage for each beam i

component.

i NOTE: A 2% volumetric limitation inherent to the deactor Pressure vessel Weld Examinations' is the result of interface noise at the sound beam 1 entry at the outside vessel surface. See USNRC Regulatory Guide 1.150, Revision 1. Paragraph B.3, "Near-Surf ace Examination and Surface Resolution."

1 4

' a As SY$TEMI Rtoctor Vases 1 (Cont'd) s

.i 4'

Class Cettgory Examination Areal Identification of Basis for Relief Fabrication NDE Remarks Examination Requirement _ Limitation item No.

N/A. Volumetric and Surf ace See Table 2. Sheet 5.

1 RPVI-W24G 100% of the weld length Examination perf ormed

  • B-A Closure Head was accessible for scan- manually.

.51.22 Heridional Weld ning. See Table 2 for percent of volume Volumetric coverage for each beam .

f com ponen t .

N/A. r- Volumetric and Surf ace See Table 2 Sheet 5.

1 RPV1-W24H 100% o( the weld length Examination perfccmed B-A Closure Head was accessible for scan manually.

51.22 Heridional Wald ning. See Table 2 for percent of volume ,

Volumetric coverage for each beam ,

com ponent.

Volumetric and Surf ace See Figure 5.

RPV1-NIA Complete volumetric exam- Nozzle configuration See Table 2. Sheet 5.

! 'l Nozzle-to-Shell Wald ination of the Code- limits ef fective examina- Examination performed techa-B-D t ion of t he full nozzle 83.10 required volume was not ni z ed . Approximately 811 of obtained. Approximately forging. A welded insula- the required volume as defined Volumetric tion pad prohibits scan-97% of tte weld length in the 80/WBO Edition of the was accessible for scan- ning from a small area Coae was exaatned ef f ectively ning. See Table 2 below nozzle. with at least one angle beam j for percent of volume component.

I

$[ coverage for each beam component . ,

Volumetric and Surface See Figure 5.

RPVI-N1B Complete volumetric exam- Nozzle configuration See Table 2, Sheet 5 I

Nozzle-to-Shell Wc ' nation of the Code- limits ef fective examina- Examination perf ormed mecha- i B-D tion of the full nozzle 83.10 . . quired volume was not nized. Approximately 82% of Volumetric .6sained. Approximately forging. Interference the required volume as define.

- 90% of the weld length f rom the bloshield door in the 80/W80 Edition of the

=as accessible for scan- sliding rail assembly with at least one angle beam ning. See Table 2 Itaits scanning in one component.

for percent of volume location.

coverage for each beam component .

Volumetric and Surf ace See Figure 6.

I RPVI-N2A Complete volumetric exam- Nozzle configuration See Table 2, Sheet 6.

Nozzle-to-Shell Weld ination of the Code- -limits effective examina- Examination performed mecha-B-D tion of the full pozzle 83.10 required volume was not nized. Approximately 91% of Volumetric obtained. 100% of the forging.

t he required volume as defined weld length was acces-in the 80/WBO Edition of the sible for scanning. Code was examined ef f ectively See Table 2 f or percent with at least one angle beam of volume coverage for component.

beam component.

03TE: A 2% volumetric limitation inherent to See the Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at the sound beam USNRC Regulatory Guide 1.150, Revision 1. Paragraph B.3, "Near-Surf ace Examination and Surf ace entry at the outside vessel surf ace.

Resolution."

SYSTEM: Rasetor Vassel (Cont'd).

Class Category Examination Area / Identification of itsm No. Examination Requirement Limitation Basis for Relief Fabrication KDE' kemarks i

1 RPVI-N2B Complete volumetric exam . Nutzte configuration Volumetric and Surf ace See Figure 6. i B-D Nozzle-to-S5e11 Wald ination of the Code- limits ef fective examina- See Table 2, Sheet 6.

'B3.10 required volume was not t ion of t he full nozzle Examination perf ormed mecha-Volumetric obtained. 100% of the forging. nized. Approximately 911 of weld length was acces- Ene required volume as defined sible for scanning. in the 80/WBO Edition of tne

.See Table 2 for percent Code was examined ef fectively of volume coverage for with at least one angle beam each beam component. component.

-1 RPVI-N2C Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 6. l B-D Nozzle-to-Shell Weld ination of the Code- , limits effective examina- See Table 2. Sheet 6. l B3.10 .

required volume was not tion of the full nozzle Examination performed secto-Volumetric obtained. 100% of the forging. Proximity of nized. Approximately 79% of weld length was acces- N8 nozzle limits scanning the required volume as defined sible for scanning. in one location but does in the 80/W80 Edition of tne See Table 2 f or percent not appreciably limit Code was examined effectively of volume coverage for volume coverage. with at least one angle beam each beam component. c om pon ent .

,, 1 RPVI-N2D Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 6.

tn B-D Nozzle-to-Shell Weld ination of the Code- limits effective examina- See Table 2, Sheet 6.

53.10 required volume was not ' tion of the full nozzle Examination perf ormed . mecha-Volumetric .obtained. 100% of the forging. Promialty of nized. Approximately 79% of weld length was acces- N8 nozzle lietts scanning the required volume as defined sible for scanning. in one location but does in the 80/WSO Edition of the See Table 2 for percent not appreciably limit Code was examined ef f ectively -

of volume coverage for volume coverage. with at least one angle beam each bene component. component.

1 RPVI-N2E Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 6.

B-D. . Nozzle-to-Shell Weld . ination of the Code- limite eff ective examina- See Table 2, Sheet 6.

33.10 required volume.was not tion of the full nozzle Examination performed mecha-Volumetric .obtained. 100% of the forging. nized. Approximately 911 of weld length was acces- the required volume as defined sible for scanning. in the 80/W80 Edition of the See Table 2 for percent Code was examined ef fectively of volume coverage for with at least one angle beam each beas component. component.

[3TE: A 2% volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result of . interface noise at the sound beam l . entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150, Revision 1. Paragraph B.3, "Near-Surface Examination and Surf ace L Resolution."

t I

STSTEM: R2setor Vases! (Cont'd)

C1tss Category Examination Areal Identification of Fabrication NDE Remarks Examination Requirement Limitation Basis for Relief It+9 No.

volumetric and Surf ace See Figure 6.

1 RPVI-N2F Complete volumetric exam- Nozzle configuration See Table 2, Sheet 6.

B-D Nozzle-to-Shell Weld instion of the Code- limits effective examina- Examination performed mecha-B3.10 required volume was not tion of the full nozzle nized. Approximately 91% of Volumetric obtained. 100% of the forging.

the required volum= as defined weld length was acces- in the 80/WSO Edition of the sible for scanning. Code was examined ef f ectively See Table 2 for percent with at least one angle beat of volume coverage for com ponent .

each beam component.

Volumetric and Surf ace See Figure 6.

1 RPVl-N2G Completa volumetric exam- Nozzle configuration See Table 2, $ beet 6.

Nozzle-to-Shell Weld ination of the Code- limits ef fec. tve examina- Examination perf ormed mecha-B-D tion of the full nozzle B3.10 required volume was not nized. Approximately 91* of Volumetric obtained. 100% of the forging.

the required volume as defined weld length was acces- in the 80/W90 Edition of the sible for scanning. Code was exasined effectively See Table 2 for percent with at least one anh.e beam of volume coverage for c om ponent .

each beam component.

Volumet ric and Surf ace See Figure 6.

1 RPVI-N2!! Complete volumetric exam- Nozzle configuration See Table 2. Sheet 6.

p.

Nozzle-to-Shell Wald ination of the Code- limits effective examina- Examination perf ormed evena-Ch B-D B3.10 required volume was not tion of the full nozzle nized. Approximately 79* nf obtained. 100% of the forging. Proximity of tne required volume as defined Volumetric NS nozzle Ilmits scanning weld length was acces- in the 80/WS3 Edition of the sible for scanning. in one location but does Code was examined ef f ectively See Table 2 - for percent not appreciably limit with at least one angle beam of volume coverage for volume coverage.

component.

each beam component.

Volumetric and Surf ace See Figure 6.

RPV1-N2J Complete volumetric exam- Nozzle configuration See Table 2. Sheet 6.

1 Nozzle-to-Shell Weld ination of the Code- limits effective examina- Examination perf ormed mecha-B-D B3.10 required volume was not tion of the full nozzle nized. Approximately 79% of Volumetric obtained. 100% of the forging. Proximity of t he required volume as defined weld length was acces- N8 nozzle limits scanning in one location but does in the 80/W80 Edition of the sible for scanning. Code was examined ef f ectively (

See Table 2 for percent not appreciably limit with at least one angle beam of volume coverage for volume coverage.

component.

each beam component.

NOTE: A 2% volumetric limitation inherent to See the Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at the sound bean USNRO Regulatory Guide 1.150, Revision 1 Paragraph B.3, *Near-Surf ace Examination and Surf ace entry at the outside vessel surf ace.

Resolution."

a

SYSTEM RD ctor Vsesel (Cont'd)

C1:ss Catsgory Examination Area / Identification of It+m No. Examination Requirement Limitatlan Basis for Relief Fabrication NDE Remarks 1 RPVI-N2K Complete volumetric exam- Nozzle configuration Volumet ric and Surf ace See Figure 6.

B-D Nozzle-to-Shell Weld ination of the Code- limits ef f ective examina- See Table 2 Sheet 6.

83.10 required volume was not tion of the f ull nozzle Examination perf ormed mecha-Volumetric obtained. 100% of the forging. nized. Approximately 91% of weld length was acces- the required volume as defined sible for scanning. in the 80/W80 Edition of tne See Table 2 for percent Code was examined ef fectively ,

of volume coverage for with at least one angle beam '

each beam component. component.

1 RPVl-N3A Complete volumetric exam- Nozzle configuration Volumet ric and Surf ace See Figure 7.

B-D Nozzle-to-Shell Weld ination of the Code- limits effective examina- See Table 2 Sheet 6.

83.10 required volume was not tion of the full nozzle Examination performed manu- ,

Volumetric obtained. 100% of t' e forging. a ll y. Approximately 84 of )

weld length was acce - the required volume as defined sible for scanning. in the 80/W80 Edition of tne See Table 2 for percent Code was examined effectively of volume coverage for with at least one angle beam each beam component. com ponen t .

w w

I .RPVI-N3B Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See rigure 7.

B-D Nozzle-to-Shell Weld ination of the Code- limits effective examina- See Table 2, Sheet 6.

B3.10 required volume was not tion of the full nozzle Examination performed manu-Volumetric obtained. 100% of the forging. ally. Ay 'oximately 84% of welJ length was acces- the required volume as defined sible for scauning. in the 80/W80 Edition of the See Table 2 for percent Code was examined ef fectively of volume coverage for with at least one angle beam each beam component. c om ponent .

1 RPVI-N3C Complete volumetric exam- Nozzle configuration Volumetric and Surface See Figure 7.

B-D Nozzle-to-Shell WelJ ination of the Code- limits effective examina- See Table 2 Sheet 6.

B3.10 required volume was not tion of the f ull nozzle Examination performed manu-Volumetric obtained. 100% of the forging. ally. Approximately 84* of weld length was acces- the required volume as defined sible for scanning. in the 80/W80 Edition of the See Table 2 for percent Code was examined ef f ectively of volume coverage for with at least one angle beam each beam component. com ponen t .

NOTE: A 21 volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at the sound beam entry at the outside vessel surf ace. See USNRC Regulatory Guide 1.150, Revision 1 Paragraph B.3, "Near-Surf ace Examination and Surf ace Resolution."

SYSTEM: Rasctor Vessel (Cont'd)

Class Category Examination Area / Identification of Itsa No. Examination Requirement Limitation Basis for Relief Fabrication NDE Remarks 1 RPVI-N3D Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 7.

B-D Nozzle-to-Shell Wald ination of the Code- 11alte effective examina- See Table 2, Sheet 6.

83.10 required volume was not tion of the full nozzle Examination performed manu-Volumetric obtained. 100% of the forging. Proximity of ally. Approximately 84% of weld length was acces- N8 nozzle limits scanning ttw required volume as defined sible for scanning. in one location but does in the dO/WBO Edition of the See Table,2 for percent not appreciably limit Code was examined effectively of volume coverage for coverage. with at least one angle beam each beam component. component .

1 RPVI-N4A Complete volumet ric exam- Nozzle configuration Volumetric and Surf ace See Figure 8.

B-D Nozzle-to-Shell Weld ination of the Code- limits ef f ective examina- See Table 2 Sheet 6.

B3.10 required volume was not tion of the full nozzle Examination performed meer.a-Volumetric obtained. 100% of the forging. nized. Approximately 83% of weld length was acces- t he required volume as defined sible for scanning. in the B0/WSO Edition of tne g See Table 2 for percent Code was examined ef f ectively l of volume coverage for with at least one angle beaa each beam component. component.

1 RPVl-N4B Complete volumetric Nozzle configuration Volumetric and Surf ace See Figure 8.

ll B-D B1.10 Nozzle-to-Shell Weld examination of the Code-required volume was not limits ef fective examina-tion of the full nozzle See Table 2, Sheet c.

Examination perf ormed mecna-Volumetric obtained. Approximately forging. Interference nized. Approximately 71% of 86% of the weld length from a thermocouple the required voluet as defined was accessible for scan- bracket limits scanning in the 80/WBO Edition of the ning. See Table 2 in one azimuth location. Code was examined ef fectively.

for percent of volume with at least one angle beam coverage for each beam component.

component .

1 RPV1-N4C Complete volumetric Nozzle configuration Volumetric and Surf ace See Figure 8.

B-D Nozzle-to-Shell Weld examination of the Code- limits effective examina- . See Table 2, Sheet 6.

53.10 required volume is not tion of the full nozzle Enamination performed mecha- -

Volumetric obtained. Approximately f org ing. Proxletty of nized. Approximately 66% of 79% of the weld length H11 nozzle limits scan- the required volume as defined was accessible for scan- ning in one azimuth in the 80/WBO Edition of the nips. See Table 2 location. Code was examined ef f ectively for percent of volume with at least one angle besa coverage for each beam com ponent .

component .

4 E37E: A 2% volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at the sound beam entry at the outside vessel surface. See USNRC Regulatory Guide 1.150, Revision 1 Paragraph B.3, "Near-Surf ace Examination and Surf ace Resolution."

I SYSTEM Reactor Vessel (Cont 'd)

Class Category Examination Area / Identification of Item No. Examination Requirement Limitation Basis for Relief Fabrication KDE Rematks 1 RPVI-N4D Complete volumetric Nozzle configuration Volumetric and Surf ace See Figure 8.

8-D Nozzle-to-Shell Weld examination of the Code- limits effective examina- See Table 2. Sheer 6.

B3.10 required volume was not t ion of the full nozzle Examination performed mecna-Volumetric obtained. Approximately forging. Interference nized. Approximately 71% of 86% of the weld length from a thermocouple t he required volume as defined was accessible for scan- bracket limits scanning in the 80/W80 Edition of the ning. See Table 2 in one azimuth location. Code was examined effectively i

for percent of volume with at least one angle beam l coverage for each beam component.

com ponent .

l 1 RPVl-N4E Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 8.

B-D Nozzle-to-Shell Weld instion of the Code- limits effective examina- 5ee Table 2, Sneet 6.

B3.10 required volume was not tion of the full nozzle Examination perf ormed mecha-Volumetric obtained. 100% of the forging. nized. Approximately 83* of weld length was acces- the required volume as defined sible for scanning. In the 80/W80 Edition of the See Table 2 for percent Code was examined ef f ectively of volume coverage for with at least one angle be am each beam component. com pone n t .

p. 1 RPVI-N4F Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 8.

43 B-D Nozzle-to-Shell Weld instion of the Code- limits effective examina- See Table 2. Sheet 6.

B3.10 required volume was not tion of the full nozzle Examinat ion perf ormed mecha-Volumetric obtained. Approximately forging. Proximity of nized. Approximately 662 of 79% of the weld length Nll nozzle limits scan- the required volume as defined was accessible for scan- ning in one azitoth in the 80/W80 Edition of tne ning. See Table 2 location. Code was examined ef f ectively for percent of volume with at least one angle team coverage for each beam com pon en t .

component.

1 RPVI-N5A Complete volumetric Nozzle configuration Volumetric and Surf ace See Figure 9.

B-D Nozzle-to-Shell Weld examination of the Code- limits effective examina- See Table 2, Sheet 6.

B3.10 required volume was not tion of the full nozzle Examination perf ormed mecha-Volumetric obtained. 100% of the forging. nized. Approximately 86% of weld length was acces- the required volume as defineJ sible for scanning. In the 80/WBO Edition of the l I

See Table 2 for percent Code was examined effectively of volume coverage for with at least one angle be sa each beam component. c om pone nt .

NOTE: A 2% volumetric limitation inherent to the Reactor Pressure Vessel Weld Examinations is the result of interface nuise at the sound beam entry at the outside vessel surface. See USNRC Regulatory Guide 1.150, Revision 1. Paragraph 8.3, "Near-Surf ace Examination and Surf ace Resolution."

a (El 1 -

l i

SYSTEM: Rssctor Vassel (Cont'd) l C1sss Identification of Examination Areal Fabrication NDE Remarks Category Examination Requirement Limitation Basis for Relief Iten No.

Volumetric and Surf ace See Figure 9.

RPV1-N55 Complete volumetric exam- Nozzle configuration See Table 2, Sheet 6.

1 Nozzle-to-Shell Weld ination of the Code- limits effective examina- Examination performed mecha-B-D tion of the full nozzle required volume was not nized. Approximately 86% o~

83.10 forging. the required volume as defined Volumetric obtained. 100% of the weld length was acces- in the 80/W80 Edition of the sible for scanning. Code was examined effectively.

See Table 2 for percent of volume coverage for each beam component.

Volumetric and Surf ace See Figure 10.

RPVl-N6A Complete volumetric exam- Nozzle configuration See Table 2. Sheet 6.

1 ination of the Code- limits ef f ective examina- Examination performed manu-B-D Nozzle-to-Shell Wald tion of the full nozzle B3.10 required volume was not ally. Approximately 90% of Volumetric obtained. 100% of the forging. the required volume as defined weld length was acces- in the 80/W80 Edition of tree sible for scanning. Code was examined effectively See Table 2 for percent of volume coverage for c om ponent .

each beam component.

Volumetric and Surf ace See Figure 10.

RPV1-N6B Complete volumetric exam- Nozzle configuration See Table 2, Sheet 6.

33 1

ination of the Code- limits effective examina- Examination perf ormed manu-cp B-D Nozzle-to-Shell Weld tion of the f ull nozzle 83.10 required volume was not ally. Approximately 90% of obtained. 100% of the forging. the required volume as defined Volumetric weld length was acces- in the 80/WBO Edition of tne sible for scanning.

See Table 2 for percent of volume coverage for component .

each beam component.

Volumetric and Surf ace See Figure 11.

RPVI-N7 Complete volumetric exam- Nozzle configuration See Table 2, Sheet 6.

t 1 ination of the Code- limits ef fective examina- Examination performed manu-8-D Nozzle-to-Shell Weld tion of the full nozzle

{

53.10 required volume was not ally. Approximately 93% of Volumetric obtained. 100% of the forging. the required volume as defined weld length was acces- in the 80/W80 Edition of the sible for scanning. Code was examined effectively See Table 2 f or percent with at least one angle beas of volume coverage for component.

each beam component.

i l

I the sound beam C3TE: A 2% volumetric limitation inherent toSeethe Reactor Pressure Vessel Weld Examinations is the result of interface noise at USNRC Regulatory Guide 1.150, Revision 1, Paragraph B.3, *Near-Surf ace Examination and Surf ace I entry at the outside vessel surface.

Resolution."

SYSTEM R3tetor Vessel (Cont'd)

Clase Category Examination Area / Identification of l Examination Requirement Limitation Basis for Relief Fabrication NDE Remarks  !

Itva No.

1 RPVl-N8A Complete volumetric. exam- Nozzle configuration Volumet ric and Surf ace See Figure 12.

B-D Nozzle-to-Shell Wald ination of the Code- limits effective esamina- See Table 2. Sheet 7.

required volume was not tion of the f ull nozzle Examination performed manu-33.10 ally. Approximately 92% ot volumetric obtained. 100% of the forging.

veld length was acces- t he required volume as defined sible for scanning. in the 80/WBO Edition of tne See Table 2 for percent Code was examined ef f ectiv.ty of volume coverage for witn at least one angle be am each beam component. component.

1 RPVI-NSB Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 12.

ination of the Code- See Table 2, Sheet 7.

B-D Nozzle-to-Shell Wald limits effectivs examina-33.10 required volume was not tion of the full nozzle Examination perf ormed manu-obtained. 100% of the ally. Approximately 921 of Volumetric forging.

weld length was acces- the required volume as defined sible for acanning. in the 80/WBO Edition of tne See Table 2 for percent Code was examined ef fectively

(

of volume coverage for with at least one angle be am i each beam component. com ponent . j Complete volumetric exam- Nozzle configuration Volumetric and Surf ace See Figure 12. '1 1 RPVI-N9 PJ B-D Norale-to-Shell Weld ination of the Code- limits ef fective examina- See Table 2 Sheet 7. )

B3.10 required volume was not tion of the full nozzle Examination performed manu-Volumetric obtained. 100% of the forging. ally. Approximately 92% of weld length was acces- the required volume as defined sible for scanning. in the 80/WBO Edition of the See Table 2 for percent Code was examined effectively of volume coverage for with at least one angle beam each beas component. component.

1 RPV1-N17A Complete volumetric exas- Nogale configuration Volumetric and Surf ace S ee Figure 13.

B-D Nozzle-to-Shell Wald ination of the Code- limits effective emanina- See Table 2, Sheet 7.

B3.10 required volume was not tion of the f ull nozzle Examination perf ormed mecha-Volumetric obtained. 100% of the forging. nized. Approximately 89% of weld length was acces- t he required volume as defined sible for scanning. in the 80/W80 Edition of toe See Table 2 for percent Code was examined effectively of volume coverage for with at least one angle beas each beas component. component .

! EUTE: A2 volumetric limitation inherent to the Reactor Pressure vessel Weld Examinations is the result of interf ace noise at the sound beaa

! entry at the outside vessel surface. See USNRC Regulatory Guide 1 150, Revision 1, Paragraph B.3, "Near-Surf ace Examination and Surf ace Resolution."

i

SYSTEM: Rsactor Vssssi (Cont'd)

Cl:es Cctsgory Examination Area / Identification of Fabrication KDE Remarks Examination Requirement Limitation Basis for Relief It=t No.

Volumetric and Surf ace See Figure 13.

RPVI-N17B Complete volumetric exam- Nozzle configuration See Table 2, Sheet 7.

1 Nozzle-to-Shell Wald ination of the Code- Ilmits effective examina- Examinat ion perf ormed mecha-B-D required volume was not tion of the full nozzle nized. Approximately 89% of B3.10 forging.

Volumetric obtained. 100% of the the required volume as defined weld length was acces- in the 80/W80 Edition of the sible for scanning. Code was examined effectively See Table 2 for percent with at least one angle beam of volume coverage fur component.

each beam component .

Volumetric and Surf ace See Figure 13.

RPVI-N17C Complete volumetric exam- Nozzle configuration See Table 2. Sheet 7.

1 ination of the Code- limits effective examina- Examination performed mecha-B-D Nozzle-to-Shell Weld tion of the full nozzle 83.10 required volume was not nized. Approximately 89 of Volumetric obtained. 100% of the forging. t he required volume as defined weld length was acces- in the 80/W80 Edition of the sible for acanning. Code was examined ef f ectively See Table 2 for percent with at least one angle beam of volume coverage for component.

each beam component.

Volumetric and Surf ace See Figure 13.

RPVl-N17D Complete volumetric exam- Nozzle configuration See Table 2, Sheet 7.

1 ination of the Code- limits effective examina- Examination performed mecha-b3 B-D Nozzle-to-Shell Weld tion of the full nozzle 83.10 required volume was not nized. Approximately 89% of obtatoed. 100% of the forging.

Volumetric the required volume as defined weld length was acces- in the 80/WBO Edition of the sible for scanning. Code was examined ef f ectively See Table 2 for percent with at least one angle beam of volume coverage for c om ponent .

each beam component.

None See Figure 5.

Complete volumetric Nozzle configuration RPVI-NIAIR See Table 2, Sheet 5 I

Inside Radius Section examination of the inside interferes with scanning Examination performed B-D on ttw nozzle boss and B).20 radius section was not mechanized.

obtained. See Table 2 prohibits a meaningf ul Volumetric interrogation of the f or percent of volume coverage for each beam bore portion of the component. Inside radius section.

Nozzle configuration None See Figure 5 RPVI-NIBIR Complete volumetric See Table 2, Sheet 5.

1 inside Radius section examination of the inside interferes with scanning Examination performed B-D on the nozzle boss and B3.20 radius section was not mechanized.

obtained. See Table 2 prohibits a meaningful Volumetric interrogation of the for percent of volume coverage for each beam bore portion of the com ponent . inside radius section.

NOTE: A 2% volumetric limitation inherent to Seethe Reactor Pressure Vessel Weld Examinations is the result of interf ace noise at the sound beam USNRC Regulatory Guide 1.150, Revision 1, Paragraph B.3, "Near-Surf ace Examination and Surf ace entry at the outside vessel surf ace.

Resolution."

SYSTEM: ReIctar Vaesel (Cont'd)

Class  !

Cztegory Ezamination Area / Identification of Fabrication NDE Remarks l Examination Requirement Limitation Basis for Relief  ;

ites No.

Proulatty of N11 norsles None See Figure 8.

1 RPVI-N4CIR Complete volumetric See Table 2, Sheet 6.

B-D Inside Radius Section emanination of the inside limits scanning. Exmoination perf ormed 53.20 radius section was not mechanized. l Volumetric obtained. See Table 2 for percent of volume coverage for each besa component .

Prox! atty of N11 norsles None See Figure 8.

1 RPVI-N4 FIR Complete valueetric See Table 2, Sheet 6.

Inside Radius Section examination of the inside limits scanning.

B-D Examination performed 33.20 radius section was not mechanized.

Volumetric obtained. See Table 2 for percent of volume coverage for each beam component.

None Examination was performed 1 BPVI-THDF Complete volumetric esam- Due to an abrupt transi- manually.

3-C-1 Reactor Vessel Flange instion coverage of the tion at the seal surface See Figures 14 and 15.

flange ligament area was cladding, scanning for 56.40 Ligaments complete ' coverage of the not obtained.

Volumetric ligament area cannot be pe r f ormed.

N None Stab!11:er brackets 1, 5, 6

'd Complete surface enant- Complete esamin,ation 1 RFVI-WSB(1-8) coverage is not possible 7, and 8 received surf ace D-R Reactor Vessel Stabilizer nation coverage of the examination coverage on stab 111:er attachment for brackets 1, 5, 6, 7, B8.10 Brackets three of the four sides.

welds wcs not obtained. and 8 due to interference Emanination was performed Surface from permanent insulation support brackets. nanually.

the sound beam NOTE: A 2% volumetric limitation Amherent toSee the Reactor Pressure Vessel Weld Emasinations is the result of interf ace noise at USNRC Regulatory Guide 1.150, Revision 1, Paragraph B.3, "Near-Surface Esasination and Surface entry at the outside vessel surf ace.

Resolution."

I

l. - - _ - _ - _ . _ ___ - __ - ___ _ ____ -

SYSTEM: Mats Stsas class Category Esamination Area / Identification of itee No. Emmelnation Requirement Limitation Basis for Relief Fabrication NDE Remarks 1 1-AB-3DBA-050A-8 Complete surface esamt- A permanent type support Volumetric and Surf ace None B-J Pipe-to-Elbow nation coverage was not is covering the examina-39.21 obtained from 11-3/4 tion area for 2 inches Surface inches to 1 inch L. of the 12-3/4 inches of weld length.

n NOTE: *L" denotes the measurement from the reference sero point established to map indication / limitation locations either around the circumference and/or along the length of a weld.

SYSTEMt Feedwater Close Catrgory Examination Area / Identification of Fabrication NDE Rema rk s Examination Requirement - Limitation Basis for Relief Ites No.

Volumetric and Surf ace complete surface examination Complete volumetric cow- An apparent weld butidup coverage was obtained in the 1 1- AE-24DLA-035-4 area interferes with ripe-to-Valve verage was not obtained area of the volumetric 5-J from 53-1/2 inches to scanning for 16-3/4 limitation.

39.11 inches of the 76-1/2 Surface and Volumetric 70-1/4 inches L. inches of weld length.

This hulldup has a tran-sition which results in loss of coupling to the base material, thus restricting complete coverage. Due to the 1 estensive maintenance support requirements for removal of a jet impinge-ment barrier which was placed over this weld joint following PSI, this weld is not intended for selection during subse-quent inservice esamina-tions.

A support interference Valueetric and Surf ace Full volumetric examina-t FJ 1-AE-24DLA-036-6 Complete surface eneel- tion coverage was obtained (n 1 nation coverage was not prevented surf ace exaal-5-J Fipe-to-Elbow nation for 14 inches of in the area of the surf ace 39.11 obtained from 28 inches limitation.

to 42 inches L. the 76 inches of weld Surf ace and Volumetric length. This support was used in the installation

( the jet impingement bar-rier. Due to the esten-sive maintenance support requirements for removal of the jet impingescut barrier, this weld is not intecded for selection during subsequent inser-vice esaminations.

Due to a permanent clamp Volumetric and Surf ace Full volumetric examina-1-AE-20DLA-035-3 Complete surface enant- tion coverage was obtained I

nation coverage was not and air duct laterference, D-J Reducing Tee-to-Pipe in the area of the surf ace obtained f rom 33 inches a surface esamination is limitation.

39.11 restricted for 25-1/2 surf ace and valuestric to 58-1/2 inches L.

inches of the 63-1/4 inches of weld length.

f rom the ref erence sero point established to map indication /15sitation locations either around the circumference NOTE: *L" denotes the measurement and/or along the length of a weld, i

! SYSTEM: Rascior Recirculation

  • i
I Class l Catsgory Emanination Areal Identification of Remarks Examination Requirement Limitation Basis for Relief Fabrication NDE Item No.

t j 1 1-BB-28V CA-011-3LD Surf ace and volumetric A permanent whip Volumetric and Surf ace This limitation will restrict restraint (anchor f rase) 7-1/2 inches of subsequent

B-J Longitudinal Seam coverage was not ISI-required exam area based 39.12 obtained f rom 4-1/2 covers 15-1/2 inches of Surface and Volumetric inches to 20 inches L. the 41-1/4 inches of weld on selection of the 12-incn  !

I length, segment which intersects the i I circumferential weld.

[,

Complete volumetric The scan ares configura- Volumetric and Surface Complete surface examination l 1 1-BB-28VCA-011-5LU .

coverage was obtained. +

< B-J Longitudinal Seam coverage was not tion (see taper) pre- '

89.12 obtained from 0 to cludes examination for

, Surface and Volumetric 2 inches L. 2 inches of the 20-5/16 inches of weld length.

)

L 4

1, 1-BB-28VCA-011-6LU Surface and volumetric A permanent pipe Volumetric and Surface This limitation is outside of restraint covers 16 inches the 12-inch segment of long it u- i j B-J Longitudinal Seam coverage was not i 39.12 obtained from 20 inches of the 55-7/16 inches of dinal weld required to be exam-ined during ISI.

Surface and Volumetric to 36 inches L. weld length.

5 1 1-BB-28vCA-011-7LU Surface and volumetric A permanent pipe Volumetric and Surf ace This limitation will restrict restraint covers 18 inches 8 inches of subsequent ISI-B-J Longitudinal Seam coverage was not required esas area based on a b2 59.12 obtained f rom 4 inches of the 74-3/4 inches of

' " selection of the 12-inch seg- i Surface and Volumetric to 22 inches L. weld length, ment of longitudinal seas which .

-j intersects the circumf erential ,

i weld. e i '

1-BB-28VCA-011-7LDI Surf ace and volumetric Branch connections in Volumetric and Surf ace This limitation is outside of f 1 the 12-inch segment of longitu-the examination area 4

~ 6-J Longitudinal Seam coverage was not  !

I B9.12 obtained from 19 inches. preclude emanination for dinal weld requiring subsequent Surf ace and volumetric to 21 inches L. 2 inches of the 21 inches examination ISI.

I' of weld length. ,

I This limitation is outside of l 1 1-BB-287CA-011-8 LDI Surface and volumetric Branch connections in Volumetric and Surface the enselnation area the 12-inch sessent of longitu-

B-J Longitudinal Seas coverage uns not
39.12 obtained from 19 inches preclude enseination for dinal weld requiring subsequent '

Surface and Volumetric to 21 inches L. 2 inches of the 21 inches emanination ISI.

of weld length,

{

i 1- 1-BB-28VCA-011-7LDO Surf ace and valueetric Branch connections in Volumetric and Surface This limitation is outside of coverage was not obtained the examination area the 12-inch segment of longitu- .

i B-J Longitudinal Seam preclude emanination of dinal weld requiring subsequent [

) 59.12 from 41-7/8 inches to examination 151.

Surf ace and Volumetric 43-5/8 inches L. 1-3/4 inches of the- '

43-5/8 inches of weld length. [

3 i

4 NOTE: "L* denotes the measurement from the reference zero point established to map indication / limitation locations either around the circumference j and/or along the length of a weld.

l 4

, ..- s- r - . ,,- -, - . . _ . . .

SYSTEM: R3cctor Recirculation (Cont'd)

Class Category Examination Area / Identification of Ites No. Examination Requirement Limitetton Basis for Helief Fabrication MDE Remarks I l-BB-28v CA-Oll-8 LUG Surf ace and volumetric Branch connections in Volumetric and Surf ace This limitation is outside of B-J Longitudinal Seam coverage was not obtained the examination area the 12-inch segment of longitu-B9.12 from 41-7/8 inches to preclude examination of dinal weld requiring subsequent Surf ace and Volumetric 43-5/8 inches L. 1-3/4 inches of the examination ISI.

43-5/8 inches of weld length.

I 1-BB-28VCA-Oll-9BC2 Volumetric coverage Due to the branch connec- Surface C iplete surface examination B-J Branch Connection using O' weld and 45* tion configuration, a 0* c,serage was obtained. A B9.31 transverse scans was not weld and 45T weld exam- Code-required 60* examination Surface and Volumetric obtained. Instion cannot be was performed from the main obtained. run of pipe.

I l-BB-2 8v CA-011-9 BC 3 Volumetric coverage Due to the branch connee- Surface Complete surf ace examination B-J Branch Connection using 0* weld and 45* tion configuration, a O' coverage was obtained. A B9.31 transverse scan was not weld and 45T weld exam- Code-required 60* examination Surface snJ Volametric obtained. ination cannot be was performed from the main obtained. run of pipe.

I l-BB-4VCA-011-1 Less than one-third of Due to branch connection Volumetric and Surface Com ple te surface examination 33 B-J Branch Connecticm- the Code-required cover- configuration. a complete coverage was obtained. 100%

d

  • J 59.11 to-Pipe age of the lower one- scan cannot be per f ormed of tne length of the wei was third weld volume could to provide full coverage. accessible for scanning.

Surface and Volumetric not be obtained. See sketches, Data Sheet No. 181117 for coverage plot.

I 1-BB-4V CA-Oll-2 Less than one-fourth of Due to the flange con- Volumetric and Surf ace Complete surface examination B-J Pipe-to-Flange the Code-required cover- figuration, a complete coverage was obtained. 1002 59.11 age of the lower one- scan cannot be performed of the length of the weld was Surface and volumetric third weld volume could to provide full coverage. accessible for scanning.

not be obtained. See sketches, Data Sheet No. 181531 for coverage plot.

I l-BB-28VCA-012-5 Surface examination A permanent pipe support Volumetric and Surface Volumetric coverage of the B-J Pi pe-t o-Pipe coverage could not be interference precludes lower one-third weld volume 89.11 obtained from 18-1/2 surface examination for was obtained in the area of Surface and volumetric inches to 67-5/16 inches 48-13/16 inches of the the surface examination L. 87-3/16 inches of weld limit a t ion .

length.

I 1-BB-28VCA-012-7LDI Volumetric coverage Branch connection inter- Volumetric and Surf ace Complete surface examination B-J Longitudinal Seam could not be obtained ference Itaits scanning coverage was obtained. This 59.12 from 18-1/2 inches to for 2 inches of the limitation is outside of the Surface and Volumetric 20-1/2 inches L. 21 inches of weld length. 12-inch segment of longitud 1-nal weld requiring subsequent exaatnation ISI.

NOTEt "L" denotes the measurement from the ref erence zero point established to map indication /11mitation locations either around 'the circumference and/or along the length of a weld.

SYSTEM: Exctor Recirculttion (Cont'd)

Citas C;ttgory Examination Areal Identification of Fabrication NDE Remarks Item No. Examination Requirement Limitation Basis for Relief Branch connection inter- Volumetric and Surf ace Complete surface examination I l-BB-28V CA-012-7 LDO Volumetric coverage coverage was obtained. This could not be obtained ference limits scanning B-J Longitudinal Seam limitation is outside of the 59.12 f rom 41-1/2 inches to f or 3 inches of the 12-inch segment of longitudi-Surf ace and Volumetric 44-1/2 inches L. 44-1/2 inches of weld nal weld requiring subsequent length.

examination 151 Branch connection inter- Volumetric and Surface Complete surf ace examination l-BB-28vCA-012-8LUO Volumetric coverage coverage was obtained. This I ference 11alts scanning B-J Longitudinal Seam could not be obtained limitation is outside of the 89.12 from 41-1/2 inches to for 3 inches of the 12-inch segment of longitudi-Surface and Volumetric 44-1/2 inches L. 44-1/2 inches of weld nal weld requiring subsequent length.

examination ISI.

Branch connection inter- Volumetric and Surf ace Complete surf ace examination Volumetric coverage I 1-BB-28vCA-012-8LU1 ference limits scanning coverage was obtained. This B-J Longitudinal Seas could not be obtained 11altation is outside of the 39.12 from 20 inches to for 3-1/2 inches of the 12-inch segment of longitudi-Surface and Volumetric 23-1/2 inches L. 23-1/2 inches of weld nal weld requiring subsequent length.

examination 131.

Due to the branch connee- Surface Complete surf ace examination 1-BB-2 SV CA-012-9 BC 2 Volumetric coverage bJ l tion weld configuration, coverage was obtained. A OD B-J Branch Connection using 0* weld and 45* Code-required 60* examination transverse scans was not 0* weld and 45T weld E9.31 examination cannot be was perf ormed f rom the main Surf ace and Volumetric obtaineJ. run of pipe.

obtained.

Due to the branch connec- Surface Cr.mplete surface examination Volumetric coverage I 1-BB-28VCA-012-9BC3 coverage was obtained. A B-J Branch Connection using 0* weld and 45* tion veld configuration, Code-required 60* examination transverse scans was not O' weld and 45T weld 39.31 exaatnation cannot be was perf ormed f rom the main Surface and Volumetric obtained. run of pipe.

obtained.

Due to the branch connec- Volumetric and Surface Complete surf ace examination I l-BB-4VCA-012-1 Less than one-fourth of coverage was obtained. 100%

the Code-required cover- tion configuration, a com-B-J Branch Connectice-' plete scan cannot be pe r- of the length of the weld was 89.11 to-Pipe age of the lower one- accessible for scanning.

third weld volume could formed to provide full See sketches, Data Sheet Surf ace and volumetric not be obtained. coverage.

No. 181121 for coverage plot.

Volumetric coverage using Due to the branch con- Surface Complete surface examination I l-BB-28V CA-013-1 BC1 nection weld configura- coverage was obtained. A B-J Branch Connection O* weld and 45* trans- Code-required 45* examination verse scans was not tion, a O* weld and 45T 33.31 welJ examination cannot was performed f rom the main Surface and Volusetric obtained. run of pipe.

be obtained.

established to map indication /11mitation locations either around the circumference 03TE: "L" denotes the measurement from the ref erence zero point and/or along the length of a weld.

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

W SYSTEM: Reacter Recirculation (Cont'd)

I^ Class Cstegory Exaatnation Area / Identification of l Item No. Examination Requirement Limitation Basis f or Relief Fabrication NDE Remarks i

1 1-BB-28VCA-013-4 BC1 Volumetric coverage with Due to the branch connec- Surface Complete surface examination B-J Branch Connection the 45* transverse scan tion weld configuration, coverage wea obtained. A B9.30 was not obtained. a 45 transverse weld Code-required 45' examination Surface and Volumetric examination cannot be was performed from the main obtained. run of pipe.

I l-BB-4VCA-013-1 Less than one-fourth of Due to the branch connec- Volumetric and Surf ace Complete surface examination B-J Branch Connection- the Code-required cover- tion contiguration, a coverage was obtained. 100%

89.11 to-Cap age of the lower one- complete scan cannot be of t he length of the weld was third weld volume could perf ormed to provide full accessible for scanning.

Surface anJ Volumetric not be obtained. coverage. See sketches, Data Sheet j ko. 181120 for coverage plot. '

i 1 1-55-12VCA-014B-2 Complete volumetric Due to the weld crown con- Volumetric and Surf ace Complete surface examination B-J Pipe-to-Pi pe coverage could not be figuration, complete volu- coverage was obtained.

4 B9.11 obtained from 27-1/2 metric coverage for 6-1/2 Surface and Volumetric inches to 34 inches L. inches of the 40 inches of total weld length cannot be obtained.

I l-BB-12VCA-0145-5 Less than one-fourth of Due to the abrupt base Volumetric and Surf ace Complete surface examination bJ B-J Pipe-to-Safe End the Code-required cover- metal-to-weld transition coverage was obtained.

"U 89.11 age of the lower one- at 5/16 to 7/8 inch W on See sketches, Data Sheet Surface and Volumetric third weld volume could the upstreas side, com- I.o . 181746 for coverage plot.

not be obtained, plate volumetric coverage for the total weld length is not obtained.

.I l-BB-4VCA-014-1 Less than one-third of Due to the branch connec- Surface Complete surface examination 3 B-J Branch Connection- the Code-required cover- tion configuration, a coverage was obtained. 1003 l 39.11 to-Cap age of the lower one- complete scan cannot be of the length of the weld was j third weld eolume could performed to provide full accessible for scanning.

Surface and Volumetric not be obtained. coverage. S ee snetches, Data Sheet j No. 181116 for coverage plot.

! I l-BB-2DBA-192A-1 PSI complete surface exam- This integral' attachment Volumetric and Surf ace None B-K-1 Pipe Support ination could not be could not be examined on 310.10 obtained. the upstreme side due to

Surface interference from an 7

expansion joint.

I t

p NOTE: "L" denotes the measurement from the reference zero point established to map indication /11mitation locations either around the circumference and/or along the length of a weld.

_ . . - - -.,-.-. ..-._ - . . . . - - _ . . . . ~ _ - ~ . ~ . ~ . - - - - . . . . - . . - . _ . , _ .-_ - __-.~.a ~ -- -- - . . _ ~ . . . . . . . . . -.

- SYSTEst Lactst Recirculction (Cont'd) i i Class Cit: gory -

Examination Areal Identification of Ites No. Examination Requirement Limitation Basis for Re!!af Fabrication NDE Remarks I l-BB-2DBA-192A-12 Complete surface emaa- Due to a permanent pipe Volumetric and Surf ace None B-J F1pe-to-Valve ination coverage could support, complete surface 39.21 not be obtained from esamination coverage for Surface 3-3/8 inches to 4-3/8 1 inch of the approx 1-anches L. sately 9-1/8 inches of '

weld length cannot be obtained.

I l-St-2CCA-204-3 Complete surface emaa- Due to a permanent pipe Volueetric and Surface None 5-J Pipe-to-Tee ination coverage cou1J support, complete surf ace 59.21 not be obtained from examine:lon coverage for Surface 2 inches to 6 inches L. 4 inches of the 7-9/16 inches of weld length 3

-cannot be obtained.

1 l-W o L

L d

i k

leDTE
"L denotes the measurement from the reference zero point established to asp indication / limitation locations either around the circumference '

i and/or along the length of a weld.

1 4

e

~ --- -- -

SYSTEM: Residual Heat Reso?st C1:33

( Cstrgiry Emanination Arsa/ Idettification of R' marks l Ites No. Examinat ten Rtquirement L1-itation State for Rilief F4bricetion NDE t Complete volumetric Due to the weld joint Volumetric and Surf ace complete surface examination 1 1-BC-6DBA-003-21 coverage was obtained. A 0*

B-J Valve-to-Flange coverage could not be configuration, the 45*

obtained. examination could not weld and 45T weld examination B9.11 was performed.

Surf ace and Volumetric be per f o rmed .

Complete volumetric A branch connection Volumetric and Surf ace Complete surf ace examination 1 1-BC-20DLA-010-16 coverage was obtained.

coverage could not be limits scanning for B-J Pipe-to-Valve 89.11 obtained 30-1/2 inches 4 inches of the 63-3/4 Surface and Volumetric to 34-1/2 inches L. inches of total weld l length.

I Complete volumetric A branch connection Volumetric and Surf ace Complete surf ace examination I l-BC-12DLA-021-4 coverage was obtained.

coverage could not be limits scanning for B-J Valve-t o-Pi pe B9.11 obtained 19 inches to 3 inches of the 41-7/8 Surface and Volumetric 22 inches L. inches of total weld length.

l-BC-12DLA-056-11 Complete surface exam- A permanent support volumetric and Surf ace Complete volumetric coverage I is obtained.

B-J Pi pe-t o-El bow ination coverage could covers the examination 59.11 not be obtained f rom area for 11 inches of the Surface and Volumetric 15 inches to 26 inches L. 40-1/2 inches of total weld length.

La

>=

Due to the weld joint volumetric and surf ace complete surf ace examination 1 1-BC-12 0CA-115-5 Less than one-third of coverage was obtained. 1002 B-J Pipe-to-Raducing Tee the Code-required cover- configuration, a complete scan cannot be perf ormed of the length of the weld was B).11 age of the lower one-to provide full coverage. accessible for scanning.

Surf ace and volumetric third volume coverage See sketches, Data Sheet <

could not be obtained. No. 181141 for coverage plot.

Complete surface exam- A permanent pipe V. unetric and Surf ace This examination area is 1 1-BC-2DBA-120-3 exempt based on the 80/W81 Pipe-to-Valve ination coverage could restraint covers the B-J Edition of the Code.

B9.21 not be obtained f rom examination area for Surface 2 inches to 5-1/2 inches 3-1/2 inches of the L. 6-1/2 inches of total weld length.

Surface examination A permanent pipe Vctumetric and Surface This examination area is I 1-BC-2DBA-120-5 exempt based on the 80/W81 B-J Pipe-to-Reducer coverage could not be restraint covers the examination area pre- Edition of the code.

51.21 obtained.

cluding surf ace exami-Surface na t ion .

C3TE: "L" denotes the measurement f rom the ref erence zero point established to map indication / limitation locations either around the circumference and/or along the length of a weld.

SYSTEM: Residual Heat Renown! (Cont'd)

Class C;tegory Examination Area / Identification of Item No. Examination Requirement Limitation Basis for Relief Fabrication NDE Remarks I l-EC-2DBA-121-3 Complete surface examina- A permanent pipe Volumetric and Surf ace This examination area is B-J valve-to-Pipe tion coverage could not restraint covers 2 inches exempt based on the 80/W81 59.21 be obtained from 1-1/2 of the approximately Edition of the Code.

Surface inches to 3-1/2 inches L. 6-1/2 inches of total weld length.

1 1-BC-2 DEA-121-4 Complete surf ace examina- A permanent pipe Volumetric and Surf ace This examination area is B-J Pipe-to-Reducer tion coverage could not restraint covers 2 inches exempt based on the 80/W81

'B9.21 be obtained f rom 1-1/2 of the approxiestelv Edition of the Code.

Surface inches to 3-1/2 inches L. b-1/2 inches of total weld length.

u N

NOTE: "L" denotes the measurement from the reference zero point established to map indication /llmitation locations either around the circumference and/or along the length of a weld.

SYSTEM: Reactar Watsr Clses Up Class .

Cctegory Examination Area / Identification of item No. Examination Requirement Limitation Basis for Relief Fabrication NDE Remarks I l-BC-4 CCA-Oll-01 Less t han one-half of Due to the branch con- Volumetric and Surf ace Complete surface examination B-J Weldolet-to-Pipe the Code-required cover- nection configuration, coverage was obtained. 100 39.11 age of the lower one- a complete scan cannot of the length of the weld was Surface and volumetric third examination volume be performed to provide accessible for scanning.

was not obtained. full coverage. See sketches, Data Sheet No. 181644 for coverage plot.

I l-BG-4 CCA-012-1 Less than one-third of Due to the branch con- Volumetric and Surf ace Complete surf ace examination B-J Waldolet-to-Pipe the Code-required cover- nect ion configuration, coverage was obtained. 100 59.11 age of the lower one- a complete scan cannot of the length of the weld was Surface and Volumetric third emanination volume be performed to provide accessible for scanning.

was not obtained. full coverage. See sketches, Data Sheet No. 181939 for coverage plot.

La La MOTE: "L" denotes the measuretent' from the reference sero point established to map indication /11mitation locations either around the circumference and/or along the length of a weld.

_ _ . _ _ _ . _ . _ _ . _ _ . _ _ . . _ . . . _ _ _ - . _ _ _ . . _ _ _ _ , . _ . _ _ _ _ . . .. . _ _ _ _._______._.m.___ .

_..___._______._m- _ __

i t

SYSTD1: RHR Best Exchangsr Class Category Examinetton Area / Identification of l Itse Mo. Examination Requirement tiettation Basis for Relief Fabrication NDE Remarke '

f.

i i

j 2 R!!IIR2 Ccaplete volumetric Due to the configuration None None l C-B R11R Heat Exchanger 'A' azaaination coverage of of the N4 nossle, com-l C2.20 the N4 nossle inner plate inner radius cover- '

Volumetric radius was not obtained, age cannot be obtained from 4 inches to 33-13/16 inches L and 41-13/16 inches to 71-5/8 inches L.

l Exaatnation of the N4 t

nogale inner radius is performed from the out-side surface blend .

radius. Due to the l large nossle and vessel i diameter ratio, and the small nozzle blend l radius at the outside surface, a meaningful examination at the 90*

and 270* quadrants cannot be periormed. In these h areas, the blend radius 1

configuration increases j

significantly due to car-vature of the vessel ,

wall. This, in combina-tion with the correspond-L ing increases in metal path and required search

unit angle, prevents suf-l ficient ultrasound energy from intersecting the inner radius emanination area, precluding a mean-ingful examination.

i MtFfE t "L* denotes the measurement from the reference sero point established to amp indication /ltmitation locations either around the circumference

and/or along the length of a weld.

i

-_.._ _ _ _.._ _ ,__ ___._ _ . _ _~m_...--_.-...-___..._.________,______..__m_.. _ .m._._ ._ . _ - - . . _ _. . - - .

I SYSTD1: RME meat Exchangsr (Cont'd)

Class C&trgory Examination Ares / Identification of Basis for Reifef Fabrication NDE Remarks Examination Requirement Limitation Ites No.

None None Due to the configuration RHEIR2 Complete volumetric 2 esamination coverage of of the N4 nozzle, com-C-8 RRR Heat Exchanger 'B' piste inner radius cover-C2.20 the N4 nozzle inner age cannot be obtained Voluestric radius was not obtained. ,

from 4 inches to 33-13/16 inches L and 41-13/16 inches to 71-5/8 inches L. r Examination of the N4 nozzle inner radius is performed from the out-side surface blend radius. Due to the  !

large nozzle and vessel diameter ratio, and the small nozzle blend rad 1ua at the outside surface, a meaningful ,

examination at the 90* t and 270' quadrants cannot '

i be performed. In these W areas,.the blend radius configuration increases significantly due to cur-wature of the vessel wall. This, in ceabina-f tion with the correspond-

ing increases in metal i

{ path and required search j unit angle, prevents suf-j- ficient ultrasound energy i

f rom intersecting the inner radius enastascion area, precludtag a mean-ingiut amaataatton.

I i

N 4

d the circumference NOTE: 1.*

denotes the measurement from the reference sero point established to map indication / limitation locations either aroun and/or along the length of a weld.

! n i

I

. . _ _ . _ _ _ _ _ _ ______ m _ _ . . _ _ _ . . _ - ._ .m_.__ _ _ _ _ _ _ _ _____.____m_ _ _ . . -.s . __ . __ - _ __ _ _ .

SYSTEM: RHR Hest ExchaIgsr (Cont'd) ,

Class '

Category Examination Area / Identification of Item 20. Emaatnation Requirement Limitation Basis for Relief Fabrication NDE Remarks i I

2 RKKWlA Complete volumetric Due to the intersecting None None C-4 kHR Beat Euchanger 'A' coverage could not be longitudinal weld confir-C1.10 Shell-to-Shell obtained from 136-3/4 mation, complete volu-inches to 138-1/8 inches metric coverage is not Volumetric L and 92 inches to 93-1/8 obtained f or 2-1/2 inches inches 1. of the 157-7/8 inches of total weld length.

2 RHIW2 Complete volumetric Due to the intersecting None None C-4 RRR Keat Exchanger 'A' coverage could not be longitudinal weld confir- +

C1.10 Shell-to-Shell obtained from 90-1/8 mation, complete volu-inches to 91-1/4 inches L metric coverage is not volumetric and 13o-3/4 inches to obtained for 2-1/2 inches 138-1/8 inches L. of the 158-1/2 inches of total weld length.

2 RRI-W4 Less than one-half of the Due to the flange-to- Volumetric None C-A RRR Rest Exchanger 'A' Code-required full volu- shell configuration, a C1.10 Shell-to-Flange metric coverage could not complete scan cannot be be obtained. performed to provide the Volumetric full coverage.

w ch 2 REX-W6 Less than one-third of Due to the configuration Volumetric hone .

C-3 RRR Beat Exchanger 'A' the Code-required cover- of the nozzle-to-shell, a C2.20 Nozzle-to-Shell age of the lower one- a complete scan cannot be third weld volume could performed to provide full ,

Volumetric not be obtained. coverage. ,

2 RHI-W4 Less than one-half of the Due to the flange-to- Volumetric None C-A RRR Seat Exchanger 'B' Code-required full volu- shell configutation, a C1.10 Shell-to-Flange metric coverage could not . complete scan cannot be be obtained. performed to provide the Volumetric full coverage.

2 RMI-W6 Less than one-half of Due to the configuration Vulumetric None C-g RRR Beat Euchanger 'B' the Code-required cover- of the nozzle-to-shell, C2.20 Nozzle-to-Shell age of the lower one- a complete scan cannot be third weld volume could performed to provide full

. volumetric not be obtained. coverage.

NOTE: "L" denotes the measurement from the reference aero point established to map indication / limitation locations either around the circumference and/or along the length of a weld.

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

SYSTDiz Cors Spray Pumps .

Clsa3 Category Examination Areal Identification of Fabrication NDE Remarks Examination Requirement Limitation Basis for Relief Itee No.

Volumetric and Surf ace None CSP-W1 Surface enantnation This emanination area is 2 made inaccessible due to C-C Core Spray Pump 'A' coverage was not obtained. the pump lower section ,

CS.10 being within a concrete Surface pump pedestal.

None CSP-W2 CO.-o hte surface exae- Only 22 inches of the Volumetric 2 veld length is accessible ,

Core Spray Pump 'A' inatson coverage was not C-C obtained. for emanination. The Ca.10 balance of the essaina-Surface tion area is made inacces-sibli by the concrete pump pedestal. .t Exaatnation area is made Volumetric This examination will be 2 CSP-us surface emantnetton performed when the flange is coverage was not inaccessible by flange C-C Core Spray Pump 'A' disassembled.

C6.10 obtained. bolts.

Surface ,

Volumetric and Surface None '

CSP-W1 Surface examination This examination area is 2 made inaccessible due to Core Spray Pump 'B' coverage was not C-C the pump lower section -

y C6.10 .obtained. being within a concrete Su-face pump pedestal.

volumetric None Complete surface exam- Only 22 inches of the 2 CSP-U2 veld length is accessible Core Spray Pump 'B' ination coverage was not i C-C for esamination. The C5.10 obtained. l balance of the examina-Surface tion area is ande inacces- >

sible by the concrete pump pedestal. I Examination area is made Volumetric This examination v111 he '

2 CSP-U5 Surface esamination perf ormed when the flange is coverage was not inaccessible by flange C-C Core Spray Pump 'B' bolts.

disassembled.

CS.10 obtained.

Surface s ,

None CSP-W1

- Surface esamination This emantmation area is Volumetric ami Surf ace '

2 made inaccessible due to Core Spray Pump 'C' coverage una mot C-C -the pump lower section CS.10 .obtained.

being within a concrete  ;

Surface pump pedestal.

i j

from the tsf orence sero point established to esp indication /11mitation locations either around the circumference i NOTE: "L" denotes the esasurement and/or along the length of a weld.

l

SYSTEM: Cors Sprcy Pumps (Cont'd)

I claso Category Emaatnation Arsc/ Ideatificction af Fabrication NDE R?nsrks Examination Requirement Limit at ion Basta for Relief item No.

None CSP-W2 Complete surface exam- Daly 22 inches of the volumetric 2 weld length is accessible Core Spray Pump 'C' ination coverage was not C-C CS.10 obtained, for examination. The l balance of the examination Surf ace area is made inaccessible by the concrete pump pedestal.

volumetric and Surf ace None 1

CSP-W1 Surface emanination This essaination area is 2 made inaccessible due to C-C Core Spray Pump *D' coverage was at obtained. the pump lower section CS.10 being within a concrete Surface pump pedestal.

None Complete surface exam- Only 21 inches of the Volumetric 2 CSP-W2 weld length is accessible Core Spray Pump 'D' ination coverage was not C-C for esaatnation. The Ct.10 obtained.

balance of the examination Surface area is made inaccessible by the concrete pump pedestal.

u Examination area la made Volumetric This esaatnation will be co Surface emanination perf ormed when the flange is 2 CSP-WS inaccessible by flange Core Spray Pump 'D' coverage was not disassembled.

C-C obtained, bolta.

C$.10 Surface .

from the reference zero point established to map indication /11mitattoo locations either around the circumference NOTE: "L" denotes the measurement and/or along the length of a weld.

i I

i l SYSTDt: Residual Heat Removsl Pumps Class Category Exaatnation Area / Identification of Iten No. Examinat ion Requirement Liettation Basis for Relief Fabrication NDE Remarks 2 RHP-W1 Surface emanination This esamination area is Volumetric and Surf ace None C-C Residual Rest Removal coverage was not made inaccessible due to CS.10 Pump 'A' obtained. t he pump lower section being within a concrete Surface pump pedestal.

2 RHP-W2 Complete surface exam- Only 30 inches of the Volumetric None C-C Residual Beat Removal inat ion coverage was not weld length is accessible Cs.10 Pump 'A' obtained. f or exaatnat t an. The balance of the esaatnation Surface area is mada inaccessible by the concrete pump ped es t al .

2 RHP-W1 Surface enastnation This esseina' ion area is Volumetric and Surf ace None C-C Residual Heat Removal coverage was not made inaccessible due to C6.10 Pump 'B' obtained, the pump lower section being within a concrete Surface puar Pedestal.

ga 2 RKP-W2 Complete surface exam- Only 33-1/2 inches of the Volumetric None ND C-C Residual heat Removal instica coverage was not weld length is accessible C5.10 Pump 'B' obtained. far emasination. The balance of the esamination Surface area is made inaccessible by the concrete pump pedestal.

Volumetric 2 REP-W3 Complete surface exam- Surface examination None C-G Residual Keat Removal ination coverage was not coverage is not obtained CS.10 Pump 'B' obtained. 13 inches to 80-1/8 inches L due to the concrete pump Surface pedestal encasement.

2 REP-W1 Surface exaatnation This examination area is Volumetric and Surf ace hone C-C Residual Heat Removal coverage uma not made inaccessible due to C5.10 Pump 'C' obtained. the pump lower section being within a concrete Surface pump pedestal.

NOTE: 'L" denotes the measurement from the reference zero point established to map indication /ltmitation locations either around the circumference and/or along the length of a weld.

SYSTD1: Residual Heat Remo7a1 Pump 3 (Cont'd)

Class Cctegory Examination Area / Identification of Ites No. Emanination Requirement Limitation Baats for Relief Fabrication NDE kemarks 2 RKP-W2 Complete sur' ace exae- only 36 im has of the Volumetric None C-C Residual Heat Removal ination coverage was not weld length is accessible CS.10 Pump 'C' obtained. for examination. The balance of the examination Surface area is made inaccessible by the concrete pump pedestal.

2 RHP-W1 Surface examination This examination area is Volumetric and Surf ace None C-C Restdual Heat Removal coverage was not made inaccessible due to C1.10 Pump 'D' obtained. the pump lower section being within a concrete Surface pump pedestal.

2 REP-E2 Complete surface exam- Surface exaatnation Volumetric None C-C Residual Heat Removal ination coverage was not coverage is not obtained CL.10 Pump 'D' obtained. from 14 inches to 139 inches L due to the con-Surface crete pedestal encasement.

gs 2 RHP-W3 Complete surface exam- Surface examination Volumetric hone C3 C-C Realdual Heat Removal ination coverage was not coverage is not obtained C6.10 Pump 'D' obtained. from 15 inches to 80-1/4 inches L due to the con-Surface crete pedestal encasement.

NOTE: *L" denotes the measurement from the reference zero point established to map indication /ltmitation locations either around the circumference and/or along the length of a weld.

Table 2 REACTOR VESSEL EXXfINATION VOLinfE COVERAGE f

3

,, n

Sheat 1 Table 2 REACTOR VESSEL EXAMINATION VOLUME COVERAGE Weld Description Exam Percent of CoJe Figure 3D4.V11$ I!Q * -

- Omit. 19hFt EHFiDts E9u-l RPVI-W3 45 80.65 1&4 l Shell to Flange 60 91.72 circumferential Weld 0 58.00 45T 42.13 60T 42.15 Cumulative

  • 91. 72 RPVI-W4 45 89.06 1 Shell to Shell 60 92.42 Circumferential Weld 0 74.71 45T 90. 4 9 60T 91.59 Cumuletive 92.5 9' RPVI-W5 45 46 .07 1 Shell to Shell 60 52.87 Circumferential Weld 0 43.44 45T 45.42 60T 46.28 Cumulative 52.87 RPVI-W6 45 43.74 1 Shell to Shell 60 51.51 circumferential* Weld 0 35.00 45T 44.6 9 60T 52.73 Cumulative 52.73 RPV1-W7 45 96 .3 0 2 Shell to Shell 60 98.15 Circumferential Weld 0 77.20 45T 96 . 3 0 60T 98.15 Cumulative 98.15 RPVI-W8 45 77.02 2 Lower Head To Shell 60 84.15 Circumferential Weld 0 62.76 45T 89.58 60T 91.3 0 Cumuistive 91.3 0 RPV1-W11-1 45 96 . 3 0 1 Longitudinal Weld 60 98.15 3 30 Deg 0 77.78 45T 96 .3 0 60T 98.15 Cumulative 98.15
  • Cumulative Coverage is that percentage of the Coda required examination volume s'anned c with at least one angle beam. -

42

Shtet 2 Table 2 .

REACTOR VESSEL EXAMINATION VOLUME COVERAGE (CONT'D)

Weld Description Exam Percent of Code Figure and_ Weld No_._ _ A 2gli Y3991.Exggiggf E __Ng2_,

RPV1-W11-2 45 96 .3 0 1 Longitudinal Weld 60 97.3 5

@ 150 Deg , 0 77.78 45T 96 .3 0 60r 98.15 Cumulative 98.15 RPVI-W11-3 45 96 .3 0 1 Longitudinal Weld 60 95.30 0 270 Dog 0 77.78 45T 96 .3 0 60T 98.15 Cumulative 98.15 RPV1-12-1 45 96 . 3 0 1 Longitudinal Weld 60 98.15

@ 110 Deg 0 90. 77 45T 96 . 3 0 6 07 98.15 Cumulative 98.15 RPV1-W12-2 45 84.26 1 Longitudinal Weld . 60 80.3 1 8 230 Deg 0 85.52 45T 95.40 60r 97.23 Cumulative 97.23 RPV1-W12-3 45 96 . 3 0 1 Longitudinal Weld 60 98.15

@ 350 Deg 0 87.87 45T 96 . 3 0 60r 98.15 Cumulative 98.15 RPV1-W13-1 45 78.93 i Longitudinal weld 60 77.73

@ 35 Dog 0 67.32 45T 72.79 60r 74.18 Cumulative 78.93 RPV1-W13-2 45 62.38 1 Longitudinal Weld 60 63.58 G 155 Deg 0 50.30 45T 59.82 60r 61.48 Cumulative 63.58 ,

1 43

Shtst 3 Table 2 REACTOR VESSEL EXAMINATION, VOLUME COVERAGE (CONT'D)

Exam Percent of Code Figure Wald Description NL and_W A_ngli Y21ggg,Exggjggd 3 1Lyg2_

1 45 96 . 3 0 RPV1-W13-3 Longitudinal Weld 60 98.15

@ 275 Deg 0 77.69 45T  %.30 60r 98.15 Cumulative 98.15 96 .3 0 2 RPV1-W14-1 45 Longitudinal Weld 60 98.15

@ 90 Deg 0 77.78 4ST 96 . 3 0 60r 98.15 Cumulative 98.15 96 .3 0 2 RPV 1-W14-2 45 Longitudinal Weld 60 98.15

@ 210 Deg 0 77.78 45T 96 .3 0 60T 98.15

' Cumulative 98.15

91. 91 2 RPVI-W14-3 45 Longitudinal Wald 60 93.6 7

@ 330 Deg 0 74.23 45T 92.12 6Or 93.80 Cumulative 93. 80 64.31 2 RPV1-W15-1 45 Longitudinal Weld 60 67.10 0 18 Deg 0 75.9%

45T 79.55 60T 81.58 Cumulative 81.5 8 96 . 3 0 2 RPVI-W15-2 45 Longitudinal Weld 60 98.15

@ 138 Dag 0 77.78 4ST 96 .3 0 60T 98.15 Cumulative 98.15 96 . 3 0 2 RPV1-W15-3 45 Longitudinal Weld 60 98.15

@ 258 Deg 0 77.78 45T 96 .3 0 60T 98.15 Cumulative 98.15 44

6 Shsat 4 Table 2 REACTOR VESSEL EXAMINATION, VOLUME COVERAGE (CONT'D)

Weld Description Exam Percent of Code Figure

_ add Weld,,No. A_gglg V219Ef__EBEjged No .

RPv1-W16-1 45 61. 96 2 Lower Head 60 63.16 Meridional Weld 0 50.18

@ 22.5 Deg 45T 62.87 60r 64.88 Cumulative 64.88 RPV1-W16-2 45 59.61 2 Lower Head 60 62.69 Meridional Weld 0 50.43

@ 67.5 Deg 45T 64.40 60r 64.40 Cumulative 64.40 RPV1-W16-3 45 62.27. 2 Lower Head 60 63.46 Meridional 0 51.05 G 112.5 Deg 45T 62.73 60r 65.18 Cumulative 65.18 RPV1-W16-4 45 62.27 2 Iower Head 60 63.46 Meridional Weld 0 51.05

@ 157.5 Deg 45T 62.73 60r 65.18 Cumulative 65.18 RPV1-W16-5 45 62.74 2 Lower Head 60 63.94 Meridional Weld 0 51.43

@ 202.5 Deg 457 63.64 60r 65.66 Cumulative 65.66 RPV1-W16-6 45 62.74 2 Lower Head 60 63.94 Meridional Weld 0 51.43

@ 247.5 Deg 45T 63.64 60r 65.66 Cumulative 65.66 RPv1-W16-7 45 62.74 2 Lower Head 60 63.94 Meridional Weld 0 51.43

@ 292.5 Deg 45T 63.64 60I 65.66 Cumulative 65.66 45

Shte.t 5 Table 2 REACTOR VESSEL EXAMINATION VOLUME COVERAGE (CONT'D)

Weld Description Exam Percent of Code Figure and_W_glj _ No . Angli 2239Bf__Exggiggd No.

RPV1-W16-8 45 62.74 2 Lower Head 60 63.94 Meridional Weld 0 51.43

@ 337.5 Deg 45T 63.64 .

60T 65.66 Cumulative 65.66 RPV1-W9 45 94.46 2 Lower Head Dome 60 72.25 circumferential Weld 0 78.98 45T 96 . 3 0 60T 98.15 Cumulative 98.15 RPV1-W20 45 80.06 3 Closure Head to Flange Weld 60 88.45 0 48.34 45T 46.60 60T 47.50 Cumulative 88.45 RPVI-W22 45 96 . 3 0 N4 Closure Head Dome 60 98.15 circumferential Weld 0 77.78 45T 96 .3 0 60T 98.15 Cumulative 98.15 RPV1-W24A through H 45 96 . 3 0 NA Closure Head 60 98.15 Meridional Welds 0 77.78 -

45T 96 .3 0 60T 98.15 Cumulative 98.15 RPV1-NJ A 45 42.83 5 Nozzle to Shell Weld 60 55.62 0 20.14 Nozzle Inside Radius 24 & 34RL 85.72 RPVI-NIB 45 42.97 5 l Nozzle to Shell Weld 60 56 .0 9 0 17.61 .

Nozzle Inside Radius 24 & 34RL 85.72 RPV1-N2A.3.E.F.G.& K 45 59.45 6 Nozzle to Shell Welds 60 68.47 0 29.39 r Nozzle Inside Radius 18 & 23RL 100.00 f

l 46

Shut 6 Table 2 '

REACTOR VESSEL EXAMINATION VOLIDIE COVERAGE (CONT'D)

Weld Description Exam Percent of Code Figure

_ add Weld No - AAR11 191MBR_E3ABiEld Nb_

RPV1-N2C & H 45 59.45 6 Nozzle to Shell Welds 60 68.30 0 29.39 Nozzle Inside Radius 18 & 23RL 100.00 RPV1-N2D & J 45 59.45 6 Nozzle to ' hell Welds 60 68.37 0 29.39 Nozzle Inside Radius 18 & 23RL 100.00 RPV1-N3A.3.C.& D 45 37.03 7 Nozzle to Shell Welds 60 43.88 0 15.29 Nozzle Inside Radius 25RL 100.00 RPVI-N4A & E 45 43.36 8 Nozzle to Shell Welds 60 53.3 9 0 23.3 8 Nozzle Inside Radius 19 & 26RL 100.00 RPV1-N4B & D 45 40.16 8 Nozzle to Shell Welds 60 48.45 0 19.12 Nozzle Inside Radius 19 & 26EL 100.00 RPVI-N4C & F 45 32.64 8 Nozzle to Shell Welds 60 40.18 0 17.61 Nozzle Inside Radius 19 & 26RL 88.75 RPVI-NSA & 3 45 57.80 9 Nozzle to Shell Welds 60 66.87 0 25.97 l Nozzle Inside Radius 17 & 22RL 100.00 RPVI-N6A & B 45 78.10 10 Nozzle to Shell Weld 60 83 .5 8 0 37.94 Inside Radius Section 60 100.00 RPVI-N7 45 72.49 11 Nozzle 'to lhell Weld 60 77.40 0 64.06 Inside Radius Section 60 100.00 47 l

J

Sheat 7 Table 2 REACTOR VESSEL EXAMINATION VOLUME COVERAGE (CONT'D)

Weld Description Exam Percent of Code Figure and WeId_No. 4g13 ysLigg__Eggjpgd No.

RPY1-N8A & B 45 81.73 12 Nozzle to Shell Welds 60 87.27 0 59.54 Inside Radius Section 60 100.00 RPV1-N9 45 81.73 12 Nozzle to Shell Weld 60 87.27 0 59.54 Inside Radius Section 60 100.00 RPY1-N17A.B.C. & D 45 56 .11 13 Nozzle to Shell Weld 60 64.18 0 21.6 9 Inside Radius Section 18 & 23RL 100.00 i

48

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