Steam Generator Tube Inspection Report

ML093310442
Person / Time
Site:	Palo Verde
Issue date:	11/18/2009
From:	Weber T Arizona Public Service Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
102-06096-TNW/REB/RJR
Download: ML093310442 (32)
v • d • e

Text

Technical Specification 5.6.8 Thomas N. Weber Mail Station 7636' Palo Verde Nuclear Department Leader Tel. 623-393-5764 PO Box 52034 Generating Station Regulatory Affairs Fax 623-393-5442 Phoenix, Arizona 85072-2034 102-06096-TNW/REB/RJR November 18, 2009 ATTN: Document Control Desk U. S. Nuclear Regulatory Commission Washington, DC 20555-0001

Subject:

Palo Verde Nuclear Generating Station (PVNGS) Unit 3 Docket No. STN 50-530 License No. NPF-74 Steam Generator Tube Inspection Report Attached please find the PVNGS Unit 3 Steam Generator Tube Inspection Report prepared and submitted by Arizona Public Service Company (APS) pursuant to Technical Specification (TS) Reporting Requirement 5.6.8. This report describes steam generator tube inspection and plugging results from the Unit 3 fourteenth refueling outage.

By copy of this letter and the enclosure, this report is being provided to the NRC Region IV Administrator and the PVNGS Resident Inspector.

No commitments are being made to the NRC by this letter.

Should you have questions regarding this submittal, please contact Russell A. Stroud, Licensing Section Leader, at (623) 393-5111.

Sincerely, TNW/RAS/RJR/gat Attachment cc:

(with attachment)

E. E. Collins Jr.

NRC Region IV Regional Administrator R. J. Hall NRC NRR Project Manager R. I. Treadway NRC Senior Resident Inspector A. member of the STARS (Strategic Teaming and Resource Sharing) Alliance Callaway 0 Comanche Peak 0 Diablo Canyonre Palo Verde 0 San Onofre 9 South Texas 0 Wolf Creek Technical Specification 5.6.8 LAf15 Palo Verde Nuclear Generating Station Thomas N. Weber Department Leader Regulatory Affairs Tel. 623-393-5764 Fax 623-393-5442 Mail Station 7636.

PO Box 52034 Phoenix, Arizona 85072-2034 102-06096-TNW/REB/RJR November 18, 2009 ATTN: Document Control Desk U. S. Nuclear Regulatory Commission Washington, DC 20555-0001

Subject:

Palo Verde Nuclear Generating Station (PVNGS) Unit 3 Docket No. STN 50-530 License No. NPF-74 Steam Generator Tube Inspection Report Attached please find the PVNGS Unit 3 Steam Generator Tube Inspection Report prepared and submitted by Arizona Public Service Company (APS) pursuant to Technical Specification (TS) Reporting Requirement 5.6.8. This report describes steam generator tube inspection and plugging results from the Unit 3 fourteenth refueling outage.

By copy of this letter and the enclosure, this report is being provided to the NRC Region IV Administrator and the PVNGS Resident Inspector.

No commitments are being made to the NRC by this letter.

Should you have questions regarding this submittal, please contact Russell A. Stroud, Licensing Section Leader, at (623) 393-5111.

TNW/RAS/RJR/gat Attachment cc:

(with attachment)

E. E. Collins Jr.

R. J. Hall R. I. Treadway NRC Region IV Regional Administrator NRC NRR Project Manager NRC S~nior Resident Inspector A.m~mber of the ST~S (Strategic Teaming and Resource Sharing) Alliance Callaway. Comanche Peak. Diablo Canyon. Palo Verde. San Onofre. South Texas

• Wolf Creek

Attachment Unit 3 - 14th Refueling Outage Steam Generator Tube Inspection Report Attachment Unit 3 -14th Refueling Outage Steam Generator Tube Inspection Report

Palo Verde Nuclear Generating Station UNIT3 U3R14 ARIZONA PUBLIC SERVICE P. O. BOX 52034 PHOENIX, AZ 85072 Prepared by: Douglas B Hansej 17 Reviewed by:

11A L

Approved by:

Commercial Service Date: 1-8-88 Date: 4-25-09 Date:

2 _ /0)

Report Date:

' -F26-0 1

Palo Verde Nuclear Generating Station UNnr3 U3R14 ARIZONA PUBLIC SERVICE P. O. BOX 52034 PHOENIX, AZ 85072 Prepared by: Douglas B Hanse r

Reviewed by: --I-~~~~~'::'<--=-~_

Approved by: ---"'-"'<..!:>-"'"'--=--~\\:==-___

Commercial SeNice Date: 1-8-88 Date: 4-25-09 Date: 8/L G /O~

Report Date: If -;'6 - () 7

Table of Contents 1.0

SUMMARY

2.0 SCOPE OF EXAMINATIONS PERFORMED 3.0 ACTIVE DEGRADATION MECHANISMS 4.0 NDE TECHNIQUES UTILIZED 5.0 INDICATION

SUMMARY

6.0 TUBES PLUGGED 7.0 PLUG HISTORY 8.0 CONDITION MONITORING APPENDIX A - TUBE SUPPORT DIAGRAM, LEGEND, and ANALYSIS CODES APPENDIX B - SG 31

SUMMARY

DATA SHEETS APPENDIX C - SG 32

SUMMARY

DATA SHEETS APPENDIX D - PLI and PLP DATA SHEETS APPENDIX E - PLUG MAPS APPENDIX F - FORM NIS - 1 2

Table of Contents 1.0

SUMMARY

2.0 SCOPE OF EXAMINATIONS PERFORMED 3.0 ACTIVE DEGRADATION MECHANISMS 4.0 NDE TECHNIQUES UTILIZED 5.0 INDICATION

SUMMARY

6.0 TUBES PLUGGED 7.0 PLUG HISTORY 8.0 CONDITION MONITORING APPENDIX A - TUBE SUPPORT DIAGRAM, LEGEND, and ANAL YSIS CODES APPENDIX B - SG 31

SUMMARY

DATA SHEETS APPENDIX C - SG 32

SUMMARY

DATA SHEETS APPENDIX D - PLI and PLP DATA SHEETS APPENDIX E - PLUG MAPS APPENDIX F - FORM NIS - 1 2

UNIT 3 STEAM GENERATOR EDDY CURRENT U3 R14 Refueling Outage 1.0 Summary This report is intended to satisfy the requirements of PVNGS Technical Specifications 5.6.8 for the submittal of a Steam Generator Tube Inspection Report. The steam generator (SG) eddy current examination for the 14th refueling outage in Unit 3 (U3R14) was conducted during April 2009.

Mode 4 entry of Unit 3 Cycle 15 was entered on May 22, 2009. The initial examination plan for both steam generators is listed in Table 1. This table summarizes the examinations performed for each of the various categories, examination types, extents, and the number of tubes or tube locations completed. This was the first examination performed in Unit 3 following steam generator replacement in U3R13. This examination is considered a 100% full length tubing inspection (see Table 1) with the Row 1-4 u-bends inspected via rotating coil in lieu of bobbin due to access limitations of the selected bobbin probe sizes.

The examinations resulted in a total of 1 tube being plugged in SG 31, and 3 tubes being plugged in SG 32. A description of the previous plugging history for these replacement steam generators is contained in Appendix E.

2.0 Scope of Examinations Performed The original examination plan was developed based on the "PVNGS Steam Generator Degradation Assessmenit" developed per PVNGS Procedure 81DP-9RCO1 as required by NEI 97-06. In addition, possible damage mechanisms were reviewed along with the specific requirements set forth in Procedure 73TI-9RC01 and the PVNGS Technical Specifications.

The plan was finalized to include 100% bobbin examinations, with the exception of Row 1 thru 4 short radius u-bends that were examined with rotating coil examination techniques.

This original plan, along with the examinations performed as a result of bobbin indications noted, is summarized in Table 1 of this report.

3.0 Active Degradation Mechanisms The only degradation noted during the examinations was determined to be wear. Section 8.0 contains further discussions relating to this mechanism. Table 2 summarizes the results into categories and sections B and C itemizes all indications reported.

3 UNIT 3 STEAM GENERA TOR EDDY CURRENT U3 R14 Refueling Outage 1.0 Summary This report is intended to satisfy the requirements ofPVNGS Technical Specifications 5.6.8 for the submittal of a Steam Generator Tube Inspection Report. The steam generator (SG) eddy current examination for the 14th refueling outage in Unit 3 (U3R14) was conducted during April 2009.

Mode 4 entry of Unit 3 Cycle 15 was entered on May 22, 2009. The initial examination plan for both steam generators is listed in Table 1. This table summarizes the examinations performed for each of the various categories, examination types, extents, and the number of tubes or tube locations completed. This was the first examination performed in Unit 3 following steam generator replacement in U3R13. This examination is considered a 100% full length tubing inspection (see Table 1) with the Row 1-4 u-bends inspected via rotating coil in lieu of bobbin due to access limitations of the selected bobbin probe sizes.

The examinations resulted in a total of 1 tube being plugged in SG 31, and 3 tubes being plugged in SG 32. A description of the previous plugging history for these replacement steam generators is contained in Appendix E.

2.0 Scope of Examinations Performed The original examination plan was developed based on the "PVNGS Steam Generator Degradation Assessmerit" developed per PVNGS Procedure 81DP-9RC01 as required by NEI 97-06. In addition, possible damage mechanisms were reviewed along with the specific requirements set forth in Procedure 73TI-9RC01 and the PVNGS Technical Specifications.

The plan was fmalized to include 100% bobbin examinations, with the exception of Row 1 thru 4 short radius u-bends that were examined with rotating coil examination techniques.

This original plan, along with the examinations performed as a result of bobbin indications noted, is summarized in Table 1 of this report.

3.0 Active Degradation Mechanisms The only degradation noted during the examinations was determined to be wear. Section 8.0 contains further discussions relating to this mechanism. Table 2 summarizes the results into ca~egories and sections Band C itemizes all indications reported.

3

4.0 NDE Techniques Utilized The following table documents the site qualified techniques utilized during this outage:

BOBBIN Examination Damage Location ETSS QUAL OmENTATION BC BC TECH Comment Mechanism NO STATUS DET SIZE Wear BWs, VSs, 96004.1 SITE NA Y

Y Volt DIFF None

ECs, Rev. 11 QUALIFIED 6-2007 Wear Loose Part 27091.2 SITE NA Y

N Volt DIFF None Rev. 0 QUALIFIED 8-2007 Rotating Coil Examinations Damage ETSS QUAL RC'

_RC TECH Comment Daae Location ORIENTATION' TECT Mechanism L

NO, STATUS

DET, "SIZE BWs, ECs, 96910.1 SITE NA Y

Y

+POINT None Wear V~s Rev. 10 QUALIFIED 8-2006 The eddy current examinations were performed by Westinghouse Electric Company using the Core Star OMNI 200 eddy current instrument. Westinghouse Anser software was utilized to acquire the data along with the Pegasys robotic manipulator. This robot was configured with a dual guide tube in each of the hot and cold legs.

The tubing was examined with Zetec manufactured bobbin coil probes and Zetec rotating coil (RC) style probes. Probe diameters were 0.540" to 0.610". Plus Point RC probes were used for the characterization of non-quantifiable or distorted bobbin indications.

Fiber optic cable was used from containment to the data acquisition room located at the PVNGS North Annex. Primary and secondary analysis was all performed on site. The Primary and Secondary Resolution Analysts, Independent Review Analysts, and data management were also located at PVNGS in the North Annex. Westinghouse provided the data acquisition and primary data analysis. Anatec International, Inc. provided the secondary data analysis.

Each individual from Westinghouse and Anatec International, Inc. who performed data analysis was required to complete and pass a PVNGS site specific Eddy Current Data Analysis Course as well as an associated performance and written examination. All individuals performing data analysis were also required to have Qualified Data Analyst (QDA) certification. Per 73TI-9RC01, all certification records are maintained in the Nuclear Information Records Management System.

4 4.0 NDE Techniques Utilized The following table documents the site qualifie4 techniques utilized during this outage:

Damage

. Mechanism Wear Wear Wear ETSS QUAL Location I

NO STATUS BWs, VSs, 96004.1 SITE

ECs, Rev. 11 QUALIFIED 6-2007 Loose Part 27091.2 SITE Rev. 0 QUALIFIED 8-2007 BWs, ECs, 96910.1 SITE VSs Rev. 10 QUALIFIED 8-2006 BC BC TECII ORIENTATION DET SIZE NA Y

Y Volt DIFF NA Y

N Volt DIFF NA y

y

+POINT Comment None None None The eddy current examinations were performed by Westinghouse Electric Company using the Core Star OMNI 200 eddy current instrument. Westinghouse Anser software was utilized to acquire the data along with the Pegasys robotic manipulator. This robot was configured with a dual guide tube in each of the hot and cold legs.

The tubing was examined with Zetec manufactured bobbin coil probes and Zetec rotating coil (RC) style probes. Probe diameters were 0.540" to 0.610". Plus Point RC probes were used for the characterization" of non-quantifiable or distorted bobbin indications.

Fiber optic cable was used from containment to the data acquisition room located at the PVNGS North Annex. Primary and secondary analysis was all performed on site. The Primary and Secondary Resolution Analysts, Independent Review Analysts, and data management were also located at PVNGS in the North Annex. Westinghouse provided the data acquisition and primary data analysis. Anatec International, Inc. provided the secondary data analysis.

Each individual from Westinghouse and Anatec International, Inc. who performed data analysis was required to complete and pass a PVNGS site specific Eddy Current Data Analysis Course as well as an associated performance and written examination. All individuals performing data analysis were also required to have Qualified Data Analyst (QDA) certification. Per 73TI-9RC01, all certification records are maintained in the Nuclear Information Records Management System.

4

5.0 Indication Summary A detailed listing of the location and measured sizes of all indications recorded is included in Appendix B and C. A summary of these indication results is located in Table 2. In addition, Appendix A contains a reference drawing of steam generator support locations and report legend.

Appendix D contains the possible loose part (PLP) indications. During this outage only 1 PLP was confirmed with RC examinations. This was also confirmed with a visual examination as a sludge rock.

There were no indications that were identified as linear during this outage.

6.0 Tubes Plugged A summary of the tubes plugged is located in Table 2. Only 4 tubes were plugged this outage. The damage mechanism was noted as wear. All 4 of the tube locations were in the central cavity area.

Appendix E contains a map that details the plugged tube location along with the previously plugged tubes.

7.0 Plug History A summary of the number and percentage of tubes plugged is also located in Table 2.

8.0 Condition Monitoring Per the Steam Generator Program, as defined in PVNGS Procedure 81DP-9RC01, a condition monitoring evaluation was conducted by PVNGS Engineering (reference DFWOs 3184883 and 3184884). No defects exceeding the Technical Specification repair limits were identified. The results of the eddy current examinations are provided in Section 5.0. An engineering evaluation of the as-found condition of inservice tubes did not reveal any degradation exceeding the threshold values for structural and leakage integrity. As such, all steam generator performance criteria were satisfied for Unit 3 Cycle 14. No tube pulls or insitu pressure testing were required based on the results of the examinations.

Tubesheet Annulus Foreign Object Search and Retrieval (FOSAR) was conducted using a power cart mounted with a remotely operated camera and retrieval tooling. The applicable requirements of Revision 2 of the EPRI Steam Generator Integrity Assessment Guidelines Section 10.5, Secondary Side Visual Inspections, were applied for the FOSAR inspections. As expected, little sludge was observed in either of the steam generator's tubesheet annulus regions. On the hot leg side of SG3 1, one small piece of wire (<3/4" estimated at 1 mil dia) was found at the divider plate at the 270 degree location (no associated wear). The wire was wedged into the crevice at the tube sheet and could not be moved when contacted. It is not in contact with any tubes and does not appear to be able to move. In this position, the wire is not expected to cause any wear during the upcoming cycle. On the cold leg side of SG3 1, six sludge rocks,where found in the vicinity of the 90 degree hand hole and were removed. One sludge rock was identified between tubes R2C3 and R3C2 and could not be removed when contacted, since it was wedged between the tubes. Another sludge rock was identified behind tube R1 06C 181. No attempt was made to remove the sludge rock because it 5

5.0 Indication Summary A detailed listing of the location and measured sizes of all indications recorded is included in Appendix Band C. A summary of these indication results is located in Table 2. In addition, Appendix A contains a reference drawing of steam generator support locations and report legend.

I Appendix D contains the possible loose part (PLP) indications. During this outage only 1 PLP was confirmed with RC examinations. This was also confirmed with a visual examination as a sludge rock.

There were no indications that were identified as linear during this outage.

6.0 Tubes Plugged A summary of the tubes plugged is located in Table 2. Only 4 tubes were plugged this outage. The damage mechanism was noted as wear. All 4 of the tube locations were in the central cavity area.

Appendix E contains a map that details the plugged tube location along with the previously plugged tubes.

7.0 Plug History A summary of the number and percentage of tubes plugged is also located in Table 2.

8.0 Condition Monitoring Per the Steam Generator'Program, as defined in PVNGS Procedure 81DP~9RC01, a condition monitoring evaluation was conducted by PVNGS Engineering (reference DFWOs 3184883 and 3184884). No defects exceeding the Technical Specification repair limits were identified. The results of the eddy current examinations are provided in Section 5.0. An engineering evaluation of the as-found condition of inservice tubes did not reveal any degradation exceeding the threshold values for structural and leakage integrity. As such, all steam generator perforni:ance criteria were satisfied for Unit 3 Cycle 14. No tube pulls or insitu pressure testing were required based on the results of the examinations.

Tubesheet Annulus Foreign Object Search and Retrieval (FOSAR) was conducted using a power cart mounted with a remotely operated camera and retrieval tooling. The applicable requirements of Revision 2 of the EPRI Steam Generator Integrity Assessment Guidelines Section 10.5, Secondary Side Visual Inspections, were applied for the FOSAR inspections. As expected, little sludge was observed in either of the steam generator's tubesheet annulus regions. On the hot leg side of SG31, one small piece of wire <<3/4" estimated at 1 mil dia) was found at the divider plate at the 270 degree location (no associated wear). The wire was wedged into the crevice at the tube sheet and could not be moved when contacted. It is not in contact with any tubes and does not appear to be able to move. In this position, the wire is not expected to cause any wear during the upcoming cycle. On the cold leg side of SG31, six sludge rocks where found in the vicinity of the 90 degree hand hole and were removed. One sludge rock was identified between tubes R2C3 and R3C2 and could not be removed when contacted, since it was wedged between the tubes. Another sludge rock was identified behind tube R106C181. No attempt was made to remove the sludge rock because it 5

was inaccessible. (Note-sludge rocks have never caused SG tube wear, however Engineering identifies them and removes them when accessible). A piece of wire was identified between tubes R171C100 and R170C99 which went at least two tubes into the bundle and curved around. This piece was removed from the SG. An item has been entered in the corrective action program to determine the source of the wire (reference CRDR 3318669). No loose parts were found in SG32.

None of the parts described above was observed during eddy current examinations. Plus Point (rotating coil) inspections were subsequently conducted at all loose parts locations to further verify that no additional piece(s) were present at these locations. The plus point inspections revealed no additional objects. The exams also confirmed no evidence of tube degradation.

During U3R14, there was one potential loose part (PLP) location identified in Steam Generator 31 on the cold leg side of the top of the tubesheet annulus near tube R5C2. This corresponded to a sludge rock that was subsequently removed. There were no potential loose part (PLP) locations identified in Steam Generator 32.

Finally, PVNGS Procedure 81DP-9RCO0 requires, per the EPRI PWR Steam Generator Examination Guidelines, that a visual inspection of the previously installed steam generator plugs be performed to assess plug integrity. Additionally, the Examination Guidelines Section 6.10.1 states - "Verify the location and presence of existing in-service plugs." The conduct of the plug location and integrity verification was performed in U3R14 per procedure 81CP-9RC40. A review of the inspection results indicated that all plugs were accounted for and no evidence of potential plug leakage was identified.

6 was inaccessible. (Note-sludge rocks have never caused SG tube wear, however Engineering identifies them and removes them when accessible). A piece of wire was identified between tubes R171 C 1 00 and R170C99 which went at least two tubes into the bundle and curved around. This piece was removed from the SG. An item has been entered in the corrective action program to determine the source of the wire (reference CRDR 3318669). No loose parts were found in SG32.

None of the parts described above was observed during eddy current examinations. Plus Point (rotating coil) inspections were subsequently conducted at all loose parts locations to further verify that no additional piece(s) were present at these locations. The plus point inspections revealed no additional objects. The exams also confirmed no evidence of tube degradation.

During U3R14, there was one potential loose part (PLP) location identified in Steam Generator 31 on the cold leg side of the top of the tubesheet annulus near tube R5C2. This corresponded to a sludge rock that was subsequently removed. There were no potential loose part (PLP) locations identified in Steam Genera,tor 32.

Finally, PVNGS Procedure 81DP-9RCOl requires, per the EPRI PWR Steam Generator Examination Guidelines, that a visual inspection of the previously installed steam generator plugs be performed to assess plug integrity. Additionally, the Examination Guidelines Section 6.10.1 states - "Verify the location and presence of existing in-service plugs." The conduct of the plug location and integrity verification was performed in U3R14 per procedure 81CP-9RC40. A review of the inspection result~ indicated that all plugs were accounted for and no evidence of potential plug leakage was identified.

6

TABLE 1 EXAMINATION

SUMMARY

SCOPE DESCRIPTION SG 31 SG 32 Exam Description Extents Scope Scope COLD LEG TEC-VS3 12243 12243 BOBBIN HOT LEG TEH-VS3 12243 12243 BOBBIN COLD STRAIGHT SECTION TEC-08C 278 278 BOBBIN

• HOT STRAIGHT SECTION TEH-08H 278 278 BOBBIN

• ROW 1 THRU 4 SHORT 08C-08H 278 278 RADIUS U-BENDS

• HOT STRAIGHT VARIOUS 21 2

RC HOT U & SQUARE BEND VARIOUS 29 59 RC COLD STRAIGHT VARIOUS 35 5

RC COLD U & SQUARE BEND VARIOUS 3

18 RC Notes:

1.

• RC examinations were performed.on Row 1 thru 4 short radius U-Bends in lieu of bobbin examination.

7 J',

TABLE 1 EXAMINATION

SUMMARY

SCOPE DESCRIPTION SG31 SG32,

Exam Description Extents Scope Scope COLD LEG TEC-VS3 12243 12243 BOBBIN HOT LEG TEH-VS3 12243 12243 BOBBIN COLD STRAIGHT SECTION TEC-08C 278 278 BOBBIN

• HOT STRAIGHT SECTION TEH-08H 278 278 BOBBIN

• ROW 1 THRU 4 SHORT 08C-08H 278 278 RADIUS U-BENDS * '

HOT STRAIGHT VARIOUS 21 2

RC HOT U & SQUARE BEND VARIOUS 29 59 RC COLD STRAIGHT VARIOUS 35 5

RC COLD U & SQUARE BEND VARIOUS 3

18 RC Notes:

1.

• RC examinations were ~erformed on Row 1 thru 4 short radius U-Bends in lieu of bobbin examination.

0, 7

TABLE2

. INDICATION

SUMMARY

DAMAGE STEAM GENERATOR STEAM GENERATOR MECHANISM 31 32 WEAR 0%-19%

28 30 20%-29%

2 4

30%-39%

1 3

> 40%

0 0

PLUGGED (1)

(3)

Possible Loose Parts (RC)

PLI 0

0 PLP 1

0 PLUGGED (0)

(0)

Volumetric Indications SVI/MVI 0

0 PLUGGED (0)

(0)

PREVENTATIVE (0)

(0) 4 4-4 1-4 4.

4-

+

+

• 1-PLUGGED (1)

(3)

TOTALPLUGGED/%

(60 / 0.5%)

(62 / 0.5%)

NOTES

1. Numbers in (X) are tubes numbers plugged in each category

2. The above represent the numbers of tubes; not indications 8

TABLE 2

. INDICATION

SUMMARY

.:i DAMAGE STEAM GENERA TOR STEAM GENERA TOR MECHANISM 31 32 WEAR 0% -19%

28 30 20% - 29%

2 4

30% - 39%

I 3

40%

0 0

PLUGGED (1)

(3)

Possible Loose Parts (RC)

PLI 0

0 PLP I

0 PLUGGED (0)

(0)

Volumetric Indications SVIIMVI 0

0 PLUGGED (0)

(0)

I PREVENTATIVE (0)

(0)

PLUGGED

( 1 )

(3)

TOTAL PLUGGED / %

(60 / 0.5%)

(62 / 0.5%)

NOTES

1. Numbers in (X) are tubes numbers plugged in each.category

2. The above represent the numbers of tubes; not indications 8

APPENDIX A TUBE SUPPORT DIAGRAM, LEGEND, and ANALYSIS CODES 9

APPENDIX A TUBE SUPPORT DIAGRAM, LEGEND, and ANALYSIS CODES 9

PVNGS Steam Generator REPLACEMENTS 2ý

-7 25 S

0.25" cla I

Center of 08H to 08C Row I - 17.415 Row 2 - 19.736 Row 3 - 22.056 Row 4 - 24.377 Row 5 - 26.698 Row 6 - 29.019 10 PVNGS Steam Generator Center of 08H to 08C Row 1 - 17.415 Row 2 - 19.736 Row 3 - 22.056 Row 4 - 24.377 Row 5 - 26.698 Row 6 - 29.019 REPLACEMENTS OSH 07H 3S.34" 10 35.95" 35.95" 35.95" 24" 07C OSC 05C 04C 03C

LEGEND ROW:

COL:

VOLTS:

DEG:

IND:

PER or PCT:

CHN:

LOCN:

Indicates the row number of a given: tube.

Indicates the column number of a given tube.

Indicates the peak-to-peak voltage of a given indication response.

The measured phase angle of a given indication response.

Indicates the analysis code or PCT for percent The percent through the tube wall of a given indication Indicates the channel used to make the call Gives indication location at INCH1 to INCH2 relative to known landmarks such as supports, vertical straps, and batwings. Typical location codes are as follows:

1. 1 Vertical Strap.......... I............... VS1

1. 1 B atw ing.........................................

BW 1

1. 1 Support Plate in Hot Leg......

01H

1. 7 Support Plate in Cold Leg............. 07C Top Tube Sheet Cold Leg.................. TSC Tube End Hot Leg.............................. TEH Tube End Cold Leg............................ TEC CRLEN:

CRWID:

CEG:

BEGT and ENDT:

PDIA:

PTYPE:

CAL:

L:

COM:

Indicates the flaw length, used to identify the length of a wear indication Indicates the flaw width, typically used for cracks only Indicates the flaw length, typically used for cracks only Indicates the beginning and of the test; together they document the examination extent Documents the probe diameter Documents the probe type Indicates calibration number Indicates the leg the examination was conducted from This comment field is utilized to document comments 11 ROW:

COL:

VOLTS:

DEG:

IND:

PERorPCT:

CHN:

LOCN:

CRLEN:

CRWID:

CEG:

BEGT and ENDT:

PDIA:

PTYPE:

CAL:

L:

COM:

LEGEND Indicates the row number of a given: tube.

Indicates the column number of a given tube.

Indicates the peak-to-peak voltage of a given indication response.

The measured phase angle of a given indication response.

Indicates the analysis code or PCT for percent The percent through the tube wall of a given indication Indicates the channel used to make the call Gives indication location at INCHI to INCH2 relative to known landmarks such as supports, vertical straps, and batwings. Typical location codes are as follows:

1. 1 Vertical Strap.......... ~..................... VSl

1. 1 Batwing........ *................................. BWI

1. 1 Support Plate in Hot Leg.............. OlH

1. 7 Support Plate in Cold Leg............. 07C Top Tube Sheet Cold Leg..................TSC Tube End Hot Leg.............................. TEH Tube End Cold Leg............................ TEC Indicates the flaw length, used to identify the length of a wear indication Indicates the flaw width, typically used for cracks only Indicates the flaw length, typically used for cracks only Indicates the beginning and of the test; together they document the examination extent Documents the probe diameter Documents the probe type Indicates calibration number Indicates the leg the examination was conducted from Thi~ comment field is utilized to document comments 11

Analysis CODES:

Absolute Drift....................................................................

ADI Bulge..................................................................................

BLG Dented Buff M ark..............................................................

DBM Deposit...............................................................................

DEP D ent....................................................................................

D N T Data Quality Acceptance....................................................

DQA Distorted Support Signal With Indication...........

DSI Distorted Top of Tubesheet With Indication.............. DTI Geometric Indication..........................................................

GEO ID Chatter...........................................................................

IDC Indication Not Found.....................................................

INF Indication Not Reportable..................................................

INR M ultiple Axial Indication...................................................

M AI M anufacturer Burnishing M ark..........................................

M BM M ixed M ode Indication......................................................

M M I M ultiple Circumferential Indication...................................

M CI M ultiple Volumetric Indication..........................................

M VI

'No Detectable Defect.........................................................

NDD No Discontinuity Found..,..................................................

NDF Non-Quantifiable Indication..............................................

NQI

'No Tube Sheet Expansion..................................................

NTE Obstructed..........................................................................

OBS Over Expanded...................................................................

OXP Previous Bobbin Call.........................................................

PBC Possible Deposit.................................................................

PDP Positive Identification........................................................

PID Positive Identification Verified..........................................

PIV Possible Loose Part with Indication.................................. PLI Possible Loose Part............................................................

PLP Previous RC Call................................................................

PRC

• Possible Support Anomaly.................................................

PSA Possible Support Indication...............................................

PSI Permeability Variation Noise.............................................

PVN Retest Bad Data..................................................................

RBD Retest Identification Check................................................

RIC Retest with M agnetic Bias RC Probe.............................

RM B Single Axial Indication................................................

SAI Single Circumferential Indication......................................

SCI Single Volumetric Indication.............................................

SVI Senior (Lead) Analysis Review....................................

SR Sludge................................................................................

SLG To Be Plugged....................................................................

TBP Volum etric Indication........................................................

VOL 12 Analysis CODES:

Absolute Drift.................................................................... ADI Bulge.................................................................................. BLG Dented Buff Mark.............................................................. DBM Deposit............................................................................... DEP Dent.................................................................................... DNT Data Quality Acceptance.................................................... DQA Distorted Support Signal With Indication.......................... DSI Distorted Top of Tubesheet With Indication..................... DTI Geometric Indication.......................................................... GEO ID Chatter........................................................................... IDC Indication Not Found......................................................... INF Indication Not Reportable.................................................. INR Multiple Axial Indication................................................... MAl Manufacturer Burnishing Mark.......................................... MBM Mixed Mode Indication...................................................... MMI Multiple Circumferential Indication................................... MCI Multiple Volumetric Indication.......................................... MVI

'No Detectable Defect......................................................... NDD No Discontinuity Found.. :.................................................. NDF Non-Quantifiable Indication.............................................. NQI

'NoTube Sheet Expansion.................................................. NTE Obstructed.......................................................................... OBS Over Expanded................................................................... OXP Previous Bobbin Call......................................................... PBC Possible Deposit................................................................. PDP Positive Identification........................................................ PID Positive Identification Verified.......................................... PIV Possible Loose Part with Indication........... ;....................... PLI Possible Loose Part............................................................ PLP Previous RC Call................................................................ PRC '

Possible Support Anomaly................................................. PSA Possible Support Indication............................................... PSI Permeability Variation Noise............................................. PVN Retest Bad Data.................................................................. RBD Retest Identification Check................................................ RIC Retest with Magnetic Bias RC Probe................................. RMB Single Axial Indication...................................................... SAl Single Circumferential Indication...................................... SCI Single Volumetric Indication............................................. SVI Senior (Lead) Analysis Review...........................,............. SR Sludge................................................................................ SLG To Be Plugged.................................................................... TBP Volumetric Indication........................................................ VOL 12

APPENDIX B STEAM GENERATOR 31

SUMMARY

DATA SHEETS 13 I

APPENDIXB STEAM GENERATOR 31

SUMMARY

DATA SHEETS 13

Palo Vefde 3 U3R14 PVNGS3 20090401 0412212009'06:30:23 4--.-..............

+--- ---------+-- ------

4-------- ---

I ROW COL VOLTS DEG IND PER CHN LOCN INCH!

INCH2 BEGT ENOT PDIA PTYPE CAL LI

+-.-.-

+-

4------

1 5

2

.45 64 PLP 23 32 32 36 36 63 86 86 89 I89 109 109 I109 89 89 85 85 85 I129 133 90 90 I126 126 126 126 g

I 9 125 125 I125 133 133 66 66 155 109 109 101 159 121 2

3 3

3 3

14 23 23 24 24 24 24 24 28 28 30 30 30 44 44 45 45 45 51 51 51 51 54 54 54 54 54 56 56 59 59 62 64 64 66 70 3.20 179 DNT 3.48 178.

DNT PB8 4.07 178 DNT PBC 2.92 180 DNT

.08 85 NOI NCF

.19 59 PCT

.54 76 PCT PBC

.18 113 PCT

.52 69 PCT

.25 40 PCT NDF

.37 96 PCT PID

.97 82 PCT 2.44 179 DNT 2.05 179 DNT PBC

.24 137 PCT

.54 88 PCT PBC

.33 96 PCT PID

.52 74 PCT 2.30 77 MBM NDF PBC

.21 86 PCT

.43 79 PCT 4.95 179 DNT NDF

.20 124 PCT NOF 2.38 176 DNT

.27 71 PCT

.73 88 PCT 3.17 177 DNT 2.39 176 DNT 8

TSC P1 08C P1 V53 P1 V83 P1 3

P3 7

P2 10 P3 6

10 8

11 17 P2 P3 P2 P3 P2 PZ P3 P1 P1 08H TSC TSC VS2 VS2 VS3 VS3 VS4 VS4 V82 VS2 VS2 VS I VS1

.36 1.47

.05

-. 15.

7.69 4.82 4.82

-. 90

-. 92

-. 85

-.87

.91

.91

-1.00

-1.00

-. 83 1.67

.96 VS3 VS3 VS3 VS3 VS3 VS3 VS3 TSC VS3 VS2 VS3 VS3 VS3 VS3 VS4 VS3 VS3 VS2 VS3 VS3 VS3 VS3 VS3 VS3 VS3 VS3 VS3 VS3 07H VS3 VS3 VS3 VS3 10H VS3 VS2 VS3 VS3 VS2 VS3 VS3 TEC TEC TEH TEC TEH TEH TEC FOP TEH VS2 TEC TEH VS3 TEC VS4 TEH TEH VS2 TEH TEH TEC TEH VS3 TEC TEH TEH VS3 TEH 08H TEC TEH VS3 TEH 11H TEH VS2 TEC TEH VS2 TEC TEC TSC TSC

.600 ZPAHZ 54 CO

.610

.610

.610

.610

.510

.610

.610

.600

.610

.580

.610

.610

.580

.010

.580

.610

.610

.580

.610

.610

.610

.610

.580

.610

.610

.510

.580

.610

.600

.610

.610

.580

.610

.600

.610

.580

.610

.610

.580

.610

.610 NBANP NBANP ZBAZC NBANP ZBAZC ZBAZC NBANP ZPAHZ ZBAZC NPUFZ ZBAZC NBAZC NPUFZ NBANP NPUFZ ZBAZC ZBAZC NPUFZ NBAZC ZBAZC NBAZC NBAZC NPUFZ NBAZC ZBAZC ZBAZC NPUFZ NBAZC ZPAHZ NBAZC ZBAZC NPUFZ NBAZC ZPAHZ ZBAZC NPUFZ NBAZC NBAZC NPUFZ ZBAZC NBAZC 10 CI 61 H

8 CI 61 H

59 H

22 C

54 C

60 H

66 H

44 CI 55 HI 65 HI 6 NI 22 CI 55 CI 59 H

63 H

66 H

53 H

54 H

23 C

53 H

66 H

43 C

54 H

63 H

66 H

21 H

64 H

43 C

54 H

66 H

51 H

64 H

56 H

66 H

47 C

53 H

66 H

41 CI 47 Cl 45 HN 8

P2 VS3 10 P3 VS3

.83

.82 12 10 P2 P2 P3 6

2 8

P2 8

P3 P1 2

8 P2 P3 P1 9

P2 13 P3 P1 P1 VS3 VS3 VS3 07H 07H VS3 VS3 IOH 10H VS2 VS2 09C VS2 VS2 10C 09C

.99

.99

.99 11.00 11.00

-. 87

-. 90 11.21 11.21

-. 88

-. 88

-1.03

-. 89

-. 80 14.53

-1.10

-. 85 72

.34 98 PCT 10 P2 VS2 V53 TEH

.610 NBAZC

+---+

4-- -----

IROW COL VOLTS CEO INO PER CNN LOON INCH!

INCN2 BEOT ENOT PDIA PTYPE CAL Li

+-

--+

4-- -----

14 Palo Verde 3 U3R14 PVNGS3 20090401 04/22/2009'06:30:23

+----+--7-+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOL TS OEG INO PER CHN LOCtl INCHI ItfCH2 BEGT ENOT PDIA PTypE CAL L I

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

5 2

.45 64 pLP 8

Tse

.36 TSC TSC

.600 ZPAHZ 54 C

23 32 32 36 36 2

3 3

3 3

63 14 86 23 86 23 89 24 89 24 109 24 109 24 109 24 89 28 89 28 85 30 85 30 85 30 129 44 133 44 90 45 90 45 90 45 126 51 126 51 126 51 126 51 9

54 9

54 125 54 125 54 125 54 133 56 133 56 66 59 66 59 155 62 109 64 109 64 Hll 66 159 70 121 72 3.20 179 DNT 3.48 178. ONT pse 4.07 178 DNT PSC 2.92 180 ONT

.08 85 NOI NOF PI 08e PI VS3 PI VS3 PI 08H 3

TSC P3 Tse

.19 59 pCT 7

P2 VS2

.54 76 pCT 10 P3 VS2 PSC

.18 113 PCT 6

P2 VS3

.52 69 PCT 10 P3 VS3

.25 40 PCT NOF

.37 96 PCT PIO

.97 82 pCT 2.44 179 DNT 2.05 179 DNT psc

.24 137 PCT

.54 80 PCT psc

.33 96 PCT pIO

.52 74 PCT 2.30 77 HSM NOF PSC*

8 P2 VS4 P3 VS4 11 P2 VS2 P2 VS2 17 P3 VS2 PI VSl PI VS!

8 P2 VS3 10 1'3 VS3 12 P2 VS3 P2 VS3 10 P3 VS3 6

07H 2

07H

.21 86 pCT 8

P2 VS3

.43 79 pCT 8

P3 VS3 4.95 179 DNT NOF

.20 124 PCT NOF 2.38 176 DNT PI 10H 2

10H 8

P2 VS2 P3 VS2 PI 09C

.27 71 pCT 9

P2 VS2

.73 88 pCT

13.

P3 VS2 3.17 177 ONT PI 10C 2.39 176 DNT PI 0ge

.34 98 pCT 10 P2 VS2 1.47

.05

-.15.

7.69 4.82 4.82

-.90

-.92

-.85

-.87

.91

.91

-1.00

-1.00

-.83

1. 67

.96

.83

.82

.99

.99

.99 11.00 11.00

-.87

-.90 11.21 11.21

-.88

-.88

-1. 03

-.89

-.80 14.53

-1.10

-.85 VS3 TEC VS3 TEC VS3 TEH VS3 TEC VS3 TEH VS3 TEH VS3 TEC TSC FOP VS3 TEH VS2 VS2 VS3 TEC VS3 TEH VS3 VS3 VS3 TEC VS4 VS4 VS3 TEH VS3 TEH VS2 VB2 VS3 TEH VS3 TEH VS3 TEC VS3 TEH VS3 VS3 VS3 TEC VS3 TEH VS3 TEH VS3 VB3 VS3 TEH 07H 08H VS3 TEC VS3 TEH VS3 VS3 VS3 TEH 10H llH VS3 TEH VS2 VS2 VS3 TEC VS3 TEH VS2 VS2 VS3 TEC VS3 TEC VS3 TEH

.610 NBANP

.610 NBANP

.610 ZBAze

.610 NBANP

.610 ZBAze

.610 ZBAze

.610 NBANP

.600 ZPAHZ

.610 ZBAZC

.580 NPUFZ

.610 ZBAZC

.610 NBAZC

.580 NPUFZ

.610 NBANP

.580 NPUfZ

.610 ZBAZC

.610 ZBAze

.580 NPUfZ

.610 NBAze

.6Hl ZBAze

.610 NBAze

.610 NBAze

.580 NPUfZ

.610 NBAze

.610 ZBAZC

.610 ZBAZC

.580 NPUfZ

.610 NBAZC

.600 ZPAHZ

.610 NBAZC

.610 ZBAZC

.580 NPUfZ

.610 NBAze

.600 ZPAHZ

.610 ZBAZC

.580 NPUFZ

.610 NBAZC

.610 NBAze

.580 NPUfZ

.6Hl ZBAZC

.610 NBAze

.6Hl NBAZC 10 e 10 C

61 H

8 C

61 H

59 H

22 e

54 C

60 H

66 H

44 e 55 H

66 H

22 e

55 e 59 HI 63 HI 66 HI I

53 HI I

54 HI I

23 CI 53 HI 66 HI I

43 C

54 H

63 H

66 H

21 H

64 H

43 C

54 H

66 H

51 H

64 H

56 H

66 H

47 C

53 H

66 H

I 41 CI I

47 e I I

45 HI T----+----+---------+----+----+----+----+----+---------+------ ___ + ____ + ____ + ______ + ______ + ______ + __ +

I ROW COL VOL TS DEG INO PER CHN LDCN INCHI INCH2 BEGT ENOT pOIA pTypE CAL LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

14

4 4

÷.

.+.

÷.

I ROW COL VOLTS DEG IND PER CNN LOCN INCH1 INCH2 BEGT ENOT POIA PTYPE CAL LI

.4 4-------

4 -

121 72 PID P2 VS2

-. 85 VS3 TEH

.510 ZBAZC 63 NJ 121 72

.55 94 PCT 10 P3 VS2

-. 86 VS2 VS2

.580 NPUFZ 66 HI 161 72 2.97 175 DNT P1 09C

-.98 VS3 TEC

.510 ZBAZC 46 Ci 158 87 NDF 2

SIC 22.57 24.37 SIC 02C

.600 ZPAHZ 54 C1 44 89

.53 112 PCT 14 P2 VS3

-. 79 VS3 TEH

.610 NBAZC 1

HI 44 89 PBC VS3 TEC

.610 NBAZC 5

CI 44 89 PIO P2 V33

-. 79 V83 TEN

.610 ZBAZC 63 HI 44 89 1.19 81 PCT 20 P3 VS3

-. 71 VS3 VS3

.580 NPUFZ 66 HI 48 93

.20 84 PCT 7

P2 BW2

.94' VS3 TEC

.610 NBAZC 5

CI 48 93

.35 77 PCT 7

P3 BW2

.84 89C BWl

.580 NPUFZ 55 CI 48 95

.23 40 PCT 7

P2 BW2

.90 V83 TEC

.610 NBAZC 6 CI 48 95

.52 73 PCT 10 P3 VS3

.87 08C VS3

.580 NPUFZ 55 CI 48 95

.50 77 PCT 10 P3 BW2

.92 SOC VS3

.580 NPUFZ 55 Cl 99 96

.21 98 PCT 7

P2 VS3

-1.08 VS3 TEC

.610 Z8AZC 38 CI 99 96 PBC VS3 TEH

.610 NBAZC 47 HI 99 96

.51 83 PCT 9

P3 VS3

-.98 VS3 V53

.580 NPUFZ 66 HI 48 99 1.99 102 PCT 38 P2 VS3

-1.00 VS3 TEN

.610 NBAZC 6 HJ 48 99 PBC V83 TEC

.610 NBAZC 5

Cq 48 99 PID P2 VS3

-1.00 VS3 TEH

.610 ZBAZC 63 HI s4 99 1.96 76 PCT 29 P3 VS3

-. 97 VS3 VS3

.580 NPUFZ 66 HI 48 99 TBP TEC TEC

.610 NBAZC 1009 CI 48 103

.41 93 PCT 12 P2 V83

.77 V33 TEC

.610 NBAZC 1

CI 48 183 P8c VS3 TEH

.610 NBAZC 5

NJ 48 103 PID P2 VS3

.77 VS3 TEH

.610 ZBAZC 63 NI 48 103

.91 82 PCT 16 P3 VS3

.77 V83 VS3

.580 NPUFZ 66 HN 650 103 PBC V83 TEC

.610 ZBAZC 26 Cj 105 108 PBC VS3 TEN

.610 NBAZC 36 HI 105 108

.20 103 PCT 7

PZ VS3 1.00 VS3 TEC

.610 ZOAZC 38 C1 105 108

.40 62 PCT 9

P3 VS3

.86 VS3 VS3

.580 NPUFZ 66 NI i48 109

.56 109 PCT 15 P2 VS3

.82 V83 TEC

.610 NBAZC 2

CI 48 109 PBC VS3 TEN

.610 NBAZC 5

Nj 48 109 PID P2 VS3

.82 VS3 TEH

.610 ZBAZC 63 NI 48 109

.94 84 PCT 16 P3 VS3

.go VS3 VS3

.580 NPUFZ 66 NH 42 115

.25 49 PCT 8

P2 VS3

.60 VS3 TEC

.610 NBAZC 1

Cj 42 115 PBC VS3 TEN

.610 NBAZC 5

NJ 42 115

.53 83 PCT 10 P3 VS3

.88 VS3 VS3

.580 NPUFZ 66 Nj 153 128 1.14 51 MBM 6 FDP 15.04 VS3 TEC

.610 NBAZC 51 Cj 15 132 2.60 133 PLP 8

FDP 1.26 VS3 TEC

.610 NBAZC 15 Cj 15 132 NOF 8

FDP 1.26 FDP FOP

.600 ZPAHZ 54 Cj 7

136 2.48 178 DNT PR 08H 6.92 VS3 TEN

.610 NBAZC 33 NJ 36 143 3.84 180 DNT P1 VS3

-.97 VS3 TEC

.610 NBAZC 3

C1 36 143 PBC VS3 TEN

.610 NBAZC 1e Nj 94 145

.27 102 PCT 10 P2 VS2

.75 VS3 TEN

.610 NBAZC 11 NH 94 145 PID P2 VS2

.75 V33 TEH

.610 ZBAZC 63 Nj 94 145

.80 86 PCT 14 P3 VS2

.78 VS2 VS2

.580 NPUFZ 66 Nj 1

146 1.87 144 PLP 8

FDP 1.40 08C TEC

.610 NBANP 14 Cj 1

146 NOF 8 FDP 1.40 FDP FOP

.600 ZPAHZ 54 C1 E

I------------------

4 4 --

ROW COL VOLTS DEG IND PER CNN LOON INCHi INON2 8EGT ENOT POIA PTYPE CAL LI 4----------+

+--------------

4-4-+..........

15

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOLTS OEG INO PER CHN LOCN INCHI INCH2 BEGT ENOT POIA PTYPE CAL LI

~----+.---+---~-----+----+----+----+----+----+-------- -+---------+----+----+------.------+------+--+

121 72 PIO P2 VS2

-.85 VSl TEH

.610 ZBAze 63 HI 121 72

.55 94 PCT 10 P3 VS2

-.86 VS2 VS2

.580 NPUFZ 66 HI 161 158 44 44 44 44 48 48 48 48 48 99 99 99 48 48 48 48 48 48 48 48 48 72 87 89 89 89 89 93 93 95 95 95 96 96 96 99 99 99 99 99 103 103 103 103 60 103 105 108 105 108 H'5 108 48 109 48 109 48 109 48 109 42 115 42 115 42 115 153 128 15 132 15 132 7

136 36 143 36 143 94 145 94 145 94 145 1

1 146 146 2.97

.53 1.19

.20

.35

.23

.52

.50

.21

.51 1.99 1.96

.41

.91

.29

.49 175 ONT NOF 112 PCT P8C PIO 81 PCT 84 PCT 77 PCT 40 PCT 73 PCT 77 PCT 98 PCT PBC 83 PCT 102 PCT PBC PIO 76 PCT TBP 93 PCT PBC PIO 82 PCT 103 62 PBC PBC PCT PCT

.56 109 PCT PBC PIO

.94 84 PCT

.25

.53 1.14 2.60 49 PCT PBC 83 PCT 51 MBM 133 PLP NOF 2.48 178 ONT 3.84 180 ONT PBC

.27

.80 1.87 102 PCT PIO 86 PCT 144 PLP NOF

14 20 7

7 7

10 10 7

9 38 29 12 16 7

9 15 16 8

10 10 PI 0ge 2

01e P2 VSl P2 VS3 P3 VS3 P2 BW2 P3 BW2 P2 BW2 P3 VS3 P3 BW2 P2 VS3 P3 VS3 P2 VS3 P2 VS3 P3 VS3 P2 VS3 P2 VS3 P3 VS3 P2 VS3 P3 VS3 P2 VS3 P2 VS3 P3 VS3 P2 VS3 P3 VS3 6

FOP 8

FOP 8

FOP PI 08H PI VS3 PZ VS2 P2 VS2 P3 VS2 8

FOP 8

FOP

-.98 22.57

-.79

-.79

-.71

.94 '

.84

.90

.87

.92

-1.00

-.90

-1.00

-1.00

-.97

.71

.77

.71 1.00

.86

.82

.82

.90

.60

.88 15.04

1. 26 1.26 6.92

-.97

.75

.75

.78 1.40 1.40 24.37 VS3 TEC 01C 02C VS3 TEH VSl TEC va3 TEH VS3 VS3 VS3 TEC 09C BMI VS3 TEC 08e VS3 08C VS3 VS3 TEC VS3 TEH VS3 VS3 VS3 VS3 VS3 VS3 TEC TEH TEC TEH VS3 TEC VS3 TEC VS3 TEH VS3 TEH VS3 VS3 VS3 TEC VS3 TEH VS3 TEC VS3 VS3 VS3 TEC VS3 TEH VS3 TEH VS3 VS3 VSl TEC VS3 TEH VS3 VS3 VS3 TEC VS3 TEC FOP FOP VS3 TEH VS3 TEC VS3 TEH VS3 TEH val TEH va2 VS2 0BC TEC FOP FOP

.610.ZBAZC

.600 ZPAHZ

.610 NBAZC

.610 NBAze

.610 ZBAze

.580 NPUFZ

.610 NBAze

.580 NPUFZ

.610 NBAze

.580 NPUFZ

.580 NPUFZ

.610 ZBAze

.610 NBAze

.580 NPUFZ

.610

.610

.610

.580

.610 NBAze NBAze ZBAze NPUFZ NBAze

.610 NBAZC

.610 NBAze

.610 ZBAze

.580 NPUFZ

.610 ZBAze

.610 NBAZC

.610 ZBAze

.580 NPUFZ

.610 NBAZC

.61" NBAze

.610 ZBAze

.580 NPUFZ

.610 NBAze

.610 NBAze

.580 NPUFZ

.610 NBAze

.610 NBAze

.600 ZPAHZ

.610 NBAze

.610

.610 NBAze NBAZC

.610 NBAze

.610 ZBAZC

.580 NPUFZ

.610

.600 NBANP ZPAHZ I

46 CI I

54 CI I

1 HI 5

CI 63 HI 66 HI I

5 CI 55 CI I

6 CI 55 CI 55' CI I

38 CI 47 HI 66 HI I

6 HI 6

CI 63 HI 66 HI 1000 CI I

1 CI 6

HI 63 HI 66 HI I

26 CI I

36 HI 38 CI 66 HI I

2 CI 5

HI 63 HI 66 HI I

1 CI 5

HI

. 66 HI I

51 CI I

15 CI 54 CI I

33 HI I

3 CI 10 HI I

11 HI 63 HI 66 HI I

14 CI 54 CI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOLTS OEG INO PER CHN LOCN INCHI INCHZ BEGT ENOT POIA PTYPE CAL LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

15

4-

-+ -

4 ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 BEGT ENDT POIA PTYPE CAL LI 4---------- 4 -----------

+---

-+----------------

3 146 2.43 151 PLP 8

FDP 1.27 08C TEC

.610 NBANP 14 Cl 3

146 NDF 8

FDP 1.26 FDP FOP

.600 ZPAHZ 54 Ci 1

148 2.38 146 PLP B

FDP 1.31 08C TEC

.610 NBAZC 15 Ci 1

148 NDF 8

FDP 1.31 FDP FOP

.600 ZPAHZ 54 C1 3

148 2.89 130 PLP 8

FDP 1.33 08C TEC

.610 NBAZC 15 CI 3

148 NOF 8

FDP 1.33 FDP FOP

.600 ZPAHZ 54 Ci 114 149

.22 110 PCT 8

P2 VS2 1.00 VS3 TEH

.610 NBAZC 11 HI 114 149

.77 85 PCT 14 P3 VS2

.66 VS2 VS2

.580 NPUFZ 66 HI 133 158 2.00 184 DNT P1 11H 1.27 VS3 TEH

.610 NSAZC 29 HI 100 159

.27 86 PCT 8

P2 VS3

-. 35 VS3 TEH

.510 NBAZC 12 HI 100 159 PBC VS3 TEC

.610 ZBAZC 34 Cl 110 159

.57 82 PCT 10 P3 V33

-. 48 VS3 VS3

.580 NPIFZ 66 HI 112 159

.25 97 PCT 8

PZ VS3

-. 92 VS3 TEH

.610 NBAZC 12 HI i11z 159 PBC VS3 TEC

.510 ZBAZC 34 Ci 11z 159

.83 89 PCT 14 P3 VS3

-. 85 VS3 VS3

.580 NPUFZ 66 HI 116 159

.36 74 PCT 11 P2 VS3

-. 82 VS3 TEH

.610 NBAZC 12 NJ 116 159 PBC V33 TEC

.610 ZBAZC 34 CI 116 159 PID P2 VS3

-. 82 VS3 TEH

.610 ZBAZC 63 HI 116 159 1.18 81 PCT IB P3 VS3

-. 88 VS3 VS3

.580 NPUFZ 66 HI 99 160

.23 84 PCT 9

P2 VS3

-1.00 VS3 TEH

.610 NBAZC 13 HI 99 160 PBC VS3 TEC

.610 ZBAZC 35 Cl 99 160

.52 91 PCT 10 P3 VS3

-. 92 VS3 VS3

.580 NPUFZ 66 NJ 124 161 PBC VS3 TEH

.610 NBAZC 13 HI 124 161

.27 71 PCT 8

P2 VS3

-. 76 VS3 TEC

.610 ZBAZC 52 C1 124 161

.51 73 PCT 10 P3 VS3

-. 66 VS3 VS3

.580 NPUFZ 56 CI 99 172

.39 123 PCT 14 P2 VS2

-1.00 VS3 TEH

.610 NBAZC 13 HI 99 172

.55 111 PCT 18 P2 VS3

-1.00 VS3 TEH

.610 NBAZC 13 HI 99 172 PBC VS3 TEC

.610 ZBAZC 35 CI 99 172 PID P2 VS3

-1.00 VS3 TEH

.610 ZBAZC 63 HI 99 172 1.08 82 PCT 18 P3 V82

-. 83 VS2 VS2

.580 NPUFZ 66 HI 99 172 1.20 85 PCT 20 P3 VS3

-.99 VS3 VS3

.580 NPUFZ 66 HI 96 173

.20 118 PCT 8

P2 VS3

.45 VS3 TEH

.610 NBAZC 13 HI 96 173 PBC VS3 TEC

.610 ZBAZC 35 C1 96 173

.39 89 PCT 7

P3 VS3

.42 VS3 VS3

.580 NPUFZ 66 HI 82 175

.31 109 PCT 9

P2 VS2

.75 VS3 TEH

.610 NBAZC 16 HI 82 175

.88 86 PCT 15 P3 VS2

.68 VS2 VS2

.580 NPUFZ 66 HI 1

176 1.92 134 PLP 8

FDP 1.40 08C TEC

.610 NBAZC 15 CI 1

176 NOF 8

FDP 1.40 FDP FOP

.600 ZPAHZ 54 CI 3

176 2.05 137 PLP 8

FDP 1.33 08C TEC

.610 NBAZC 15 CI 3

176 NDF 8

FDP 1.33 FDP FOP

.600 ZPAHZ 54 C1 4

183

.90 70 PLP 8

03H 27.50 08H TEH

.610 NBAZC 37 HI 4

183 NOF 8

03H 27.50 03H 04H

.600 ZPAHZ 64 HI 79 188

.21 79 PCT 8

P2 VS3

-. 77 VS3 TEH

.610 NBAZC 17 HI 79 188 PBC VS3 TEC

.610 ZBAZC 32 Ci 79 188

.57 77 PCT 10 P3 VS3

-. 77 VS3 VS3

.580 NPUFZ 66 NI 81 188

.18 114 PCT 7

P2 VS2

-. 97 VS3 TEH

.610 NBAZC 17 HI 81 188 NOF P3 VS2

-. 97 VS2 VS2

.580 NPUFZ 66 HI

---

4 ------------------------------------------------

4-----

4-------

ROW COL VOLTS OEG IND PER CHN LOCN INCH!

INCH2 BEGT ENOT POIA PTYPE CAL LI

+....

4....

....-- +-+.-..

.. +.-...4+

4--..

+

-4 4 ----------

Tubes: 59 Records: 137 16

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOLTS OEG INO PER CHN LOCN INCH1 INCH2 BEGT ENOT POIA PTYPE CAL LI

+----+----+---------+----+----+----+----+----+-------- -+---------+----+----+------+------+------+~-+

l 146 3

146 1

148 1

148 3

148 3

148 114 149 114 149 133 158 100 159 100 159 100 159 112 159 112 159 ll2 159 116 159 116 159 116 159 116 159 99 160 99 160 99 160 124 161 124 161 124 161 99 172 99 172 99 172 99 172 99 172 99 172 96 173 96 173 96 173 82 175 82 175 1

176 1

176 l

176 3

176 4

183 4

183 79 188 79 188 79 188 81 188 81 188 2.43 151 PLP NOF 2.38 146 PLP NOF 2.89 130 PLP NOF 8

FOP 8

FOP 8

FOP 8

FOP 8

FOP 8

FOP

.22 110 PCT 8

P2 VS2

.77 85 PCT 14 P3 VS2 2.00 184 ONT

.27 66 PCT PSC

.57 82 PCT

.25 In PCT PSC

.83 69 PCT

.36 74 PCT PSC PIO 1.10 61 PCT

.23 64 PCT PSC

.52 91 PCT PSC

.27 71 PCT

.51 73 PCT

.39 123 PCT

.55 111 PCT PSC PIO 1.08

.82 PCT

1. 20 85 PCT

.20 118 PCT P8C

.39 69 PCT

.31 109 PCT

.88 86 PCT

1. 92 134 PLP NOF 2.05 137 PLP NOF

.90 70 PLP NOF PI llH 8

P2 VS3 10 P3 VSl 8

P2 VSl 14 P3 VS3 11 P2 VS3 P2 VS3 18 P3 VS3 9

P2 VS3 10 P3 VS3 8

P2 VS3 10 P3 VS3 14 P2 VS2 18 P2 VS3 P2 VS3 18 P3 VS2 20 P3 VSl 8

P2 VS3 7

Pl VSl 9

P2 VS2 15 Pl VS2 8

FOP 8

FOP 6

FOP 6

FOP 8

03H 8

03H

.21 79 PCT 8

P2 VS3 PSC

.57 77 PCT 10 P3 VSl

.18 114 PCT NOF 7

P2 VS2 Pl VS2

1. 27

1. 26

1. 31

1. 31

1. 33 1.33 1.00

.66

1. 27

-.35

-.48

-.92

-.85

-.82

-.82

-.88

-1.00

-.92

-.76

-.66

-1.00

-1.00

-1.00

-.83

-.99

.45

.42

.75

.68 1.40 1.40

1. 33

1. 33 27.50 27.50

-.77

-.77

-.97

-.97 08C TEC FOP FOP 08C TEC FOP FOP 08C TEC FOP FOP VS3 TEH VS2 VSl VSl TEH VS3 TEH VSl TEC VSl VS3 VS3 TEH VS3 TEC VS3 VS3 VSl TEH VSl TEC VSl TEH VSl VSl VSl TEH VS3 TEC VS3 VS3 VSl TEH VS3 TEC VSl VS3 VSl TEH VSl TEH VS3 TEC VS3 TEH VSl VSl VS3 VSl VS3 TEH VSl TEC VS3 VSl VS3 TEH VS2 VS2 0SC TEC FOP FOP esc TEC FOP FOP 08H TEH 03H 04H VS3 TEH VS3 TEC VS3 VS3 VSl TEH VS2 VSl

.610 NBANP

.600 ZPAHZ

.610 NBAZC

.600 ZPAHZ

.610 NBAze

.600 ZPAHZ

.610 NBAze

.580 NPUFZ

.610 NBAze

.610 NBAze

.610 ZBAze

.560 NPUFZ

.610 NBAze

.610 ZBAze

.560 NPUFZ

.610 NBAze

.610 ZBAze

.610 ZBAze

.560 NPUFZ

.610 NBAze

.610 ZBAze

.560 NPUFZ

.610 NBAze

.610 Z8Aze

.580 NPUFZ

.610 NBAze

.610 NBAze

.610 zBAze

.610 zBAze

.560 NPUFZ

.560 NPUFZ

.610 NBAze

.610 zBAze

.560 NPUFZ

.610 NBAze

.580 NPUFZ

.610 NBAze

.600 ZPAHZ

.610 NBAze

.600 ZPAHZ

.610 NBAze

.600 ZPAHZ

.610 NBAze

.610 zBAze

.580 NPUFZ

.610 NBAze

.580 NPUFZ 14 e 54 e 15 e 54 e 15 C

54 e 11 H

66 H

29 H

12 H

34 e 66 H

12 H

34 e 66 H

12 H

34 e 63 H

66 H

13 H

35 C

66 H

13 H

52 e 56 e I

13 H

13 H

35 C

63 H

66 H

66 H

13 H

35 C

66 H

16 H 66 H

15 C

54 C

15 C

54 C

37 H

64 H

17 H

32 C

66 H

17 H

66 H

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOL TS OEG INO PER CHN LOCII H4CH1 INCH2 BEGT ENOT POIA PTYPE CAL L I

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

Tubes: 59 Records: 137 16

APPENDIX C STEAM GENERATOR 32

SUMMARY

DATA SHEETS 17 APPENDIXC STEAM GENERATOR 32

SUMMARY

DATA SHEETS 17

ROW COL VOLTS DEG IND PER CNN LOCN INCHI INCH2 BEGT ENOT POIA PTYPE CAL Li

+----+--- ---------

+

+-----4---------

4---

72 13

.08 111 NOI 3

08H 4.37 VS3 TEN

.610 NBANP 23 NI 7Z 13 2.00 183 DNT PI 08H 6.33 VS3 TEH

.610 NBANP 23 NI 72 13 NDF 2

08H 4:37 08H ONH

.600 ZPAHZ 67 NJ 92 17 6.09 179 ONT P1 IOH 1.49 VS3 TEN

.510 NBANP 31 NJ 92 17 NOF 2 10H 1.49 09H VS2

.580 NPUFZ 68 Nj 36 19 3.15 179 DNT P1 VS3

-1.04 VS3 TEC

.610 NBAZC 13 CI 36 19 PBC VS3 TEH

-510 NBANP 28 NI 36 21 5.32 181 DNT P1 VS3

-1.02 VS3 TEC

.510 NBAZC 14 CI 36 21 PBC VS3 TEN

.610 NBANP 27 Nj 36 21 NDF 2

VS3

-1.02 VS3 VS3

.580 NPUFZ 68 Nj 102 21

.33 149 PCT 11 P2 VS3

-. 70 VS3 TEN

.610 NBANP 31 Nj 102 21 PEG VS3 TEC

.610 ZBAZC 37 Cj 102 21 PID P2 VS3

-. 70 VS3 TEH

.510 ZBAZC 66 Nj 102 21

.58 79 POT 12 P3 VS3

-. 63 VS3 VS3

.580 NPUFZ 68 NJ 72 25

.14 97 DSI P1 07C

.37 VS3 TEC

.010 NBAZC 15 Cj 72 25 NOF P3 07C

.37 07C 07C

.600 ZPAHZ 58 Cj 107 26 2.02 180 DNT P1 09H 11.93

, VS3 TEN

.610 NBANP 31 Nj 113 26 2.37 179 DNT P1 BWl 1.39 V33 TEH

.510 N8ANP 39 NJ 113 26 NDF 2

awl 1.39 09H BWL

.580 NPUFZ

68. Nj 99 34

.21 104 POT 8

PZ VS3

-1.00 V33 TEN

.510 NBANP 31 Nj 99 34 PSG VS3 TEC

.610 ZBAZC 38 C0 99 34

.47 75 PCT 10 P3 V83

-. 99 V83 VS3

.580 NPUFZ 68 Nj 42 45 1.47 75 PLP 8

08H 11.28 VS3 TEN

.610 NBANP 27 NJ 42 45 NOF P3 08H 11.28 08H OWl

.580 NPUFZ 68 NJ 118 53

.24 38 PCT 8

P2 VS2

-. 70 V83 TEH

.510 NBANP 43 NJ 118 53

.65 85 PCT 13 P3 VS2

-. 70 VS2 V32

.580 NPUFZ 68 Nj 118 55

.30 129 PCT 8

P2 VS2

-. 85 VS3 TEN

.610 NBANP 44 NJ 118 55

.55 82 POT 11 P3 VS2

-. 70 VS2 V32

.580 NPUFZ 68 Nj 41 60 2.15 177 DNT P1 VS3

.83 VS3 TEC

.610 NBAZC 3

Cj 41 60 P8C VS3 TEN

.610 ZBAX2 201 Nj 129 64

.35 57 POT 12 P2 1(1

-. 97 V83 TEN

.610 NBANP 39 Nj 129 64

.44 71 POT 14 P2 VS2

-. 80 VS3 TEH

.510 NBANP 39 NJ 129 64

.47 105 PCT 15 PZ V83

77 VS3 TEH

.510 NBANP 39 Nj 129 64 PBC i

VS3 TEC

.510 ZBAZC 40 Cj 129 64

.58 128 POT 13 P2 V84

-. 73 VS3 TEC

.610 ZBAZC 40 Cj 129 64 P8C VS3 TEC

.510 ZBAZC 57 Cj 129 64 PID P2 VS4

-. 73 VS3 TEC

.610 ZEAZC 57 C1 129 64 1.13 81 POT 17 P3 VS4

-. 77 VS4 VS4

.580 NPUFZ 59 Ci 129 64 PID PZ VS3

.77 V83 TEH

.610 ZBAZC 65 Nj 129 64

.69 77 PCT 14 P3 VSI

-. 97 VS1 VS1

.580 NPUFZ 68 Nj 129 64

.88 84 POT 17 P3 VS2

-. 89 VS2 VS2

.580 NPUFZ 68 Nj 129 64 1.07 80 POT 20 P3 VS3

.51 VS3 VS3

.580 NPUFZ 68 NJ 118 71

.38 125 POT 9

P2 VS4

.48 VS3 TEC

.610 ZBAZC 40 C1 118 71

.93 88 POT 14 P3 VS4

.46 VS4 VS4

.580 NPUFZ 59 Cj 120 75

.36 132 POT 10 P2 VS2

-1.00 VS3 TEN

.610 N8ANP 36 Nj 120 75 PID P2 VS2

-1.010 VS3 TEN

.610 ZBAZC 66 Nj 120 75

.80 84 PCT 15 P3 VS2

-..86 VS2 VS2

.580 NPUFZ 68 Nj 117 76 P8C VS3 TEC

.610 ZBAZC 40 Cj 117 76

.26 135 PCT 9

P2 VS3

-.99 VS3 TEN

.610 NBANP 43 NJ 4 ----

4----------4----------4 4

ROW COL VOLTS DEG IND PER CNN LOCN INCH!

INCH2 BEGT ENDT POIA PTYPE CAL Lj

.4

+----.----.-------

4 -----------------

+----------------

-4*--

18

+--~-+~--~+-~--~----+----+----+.--.+-.. -+.---+---------+-------.-+----+-~.-+.--.--+--.--.+----.-+-.+

,ROW COL VOLTS OEG IHD PER CHH LOCN IHCH1 IHCH2 BEGT EHOT POIA PTYPE CAL LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

72 13

.08 111 NOI 3

B8H 4.37 VS3 TEH

.610 NBIINP 23 H

72 13 2.00 163 OHT PI B8H 6.33 VS3 TEH

.610 NBANP 23 H

72 13 NDF 2

B8H 4: 37 08H 09H

.600 ZPAHZ 67 H

92 17 92 17 36 19 36 19 36 21 36 21 36 21 102 21 102 21 102 21 H12 21 72 25 72 25 107 26 113 26 113 26 99 34 99 34 99 34 42 45 42 45 116 53 118 53 118 55 118 55 41 60 41 60 129 64 129 64 129 64 129 64 129 64 129 64 129 64 129 64 129 64 129 64 129 64 129 64 118 71 118 71 120 75 120 75 120 75 117 76 117 76 6.09 179 OHT NDF 3.15 179 OHT pec 5.32 161 OHT pec NDF PI 10H 2

10H PI VS3 PI VS3 2

VS3

.33 149 PCT 11 P2 VS3 pec PID P2 VS3

.58 79 PCT 12 P3 VS3

.14 97 OSI NDF 2.02 180 OHT 2.37 179 OHT NDF PI 07C P3 07C PI 09H PI BWI 2

BWI

.21 104 PCT 8

P2 VS3 PBC

.47 75 PCT 10 P3 VS3 1.47 75 PLP NOF B 08H P3 08H

.24 38 PCT 8

P2 VS2

.65 85 PCT 13 P3 VS2

.30 129 PCT 8

P2 VS2

.55 82 PCT 11 P3 VS2 2.15177 OHT PBC

.35 57 PCT 12

.44 71 PCT 14

.47 105 PCT 15 PSC

.58 128 PCT 13 PSC PID 1.13 81 PCT 17 PID ;

.69 77 PCT 14

.88 84 PCT 17 1.07 80 PCT 20 PI VS3 P2 VSl P2 VS2 P2 VS3 P2 VS4 P2 VS4 P3 VS4 P2 VS3 P3 VSl P3 VS2 P3 VS3

.38 125 PCT 9

P2 VS4

.93 88 PCT 14 P3 VS4

.36 132 PCT 10 PID

.80 84 PCT 15 PSC

.26 135 PCT 9

P2 VS2 P2 VS2 P3 VS2 P2 VS3 1.49 1.49

-1.04

-1.02

-1.02

-.70

-.70

-.63

.37

.37

11. 93

1. 39

1. 39

-1.00

-.99 11.28 11.28

-.70

-.70

-.85

-.70

.83

-.97

-.80

77

-.73

-.73

-.77

.77

-.97

-.89

.51

.48

.46

-1.00

-1.00

-.86

-.99 VS3 TEH 09H VS2 VS3 TEC VS3 TEH VS3 TEC VS3 TEH VS3 VS3 VS3 TEH VS3 TEC VS3 TEH VS3 VS3 VS3 TEC 07C 07C VS3 TEH VS3 TEH 09H BWI VS3 TEH VS3 TEC VS3 VS3 VS3 TEH 0BH BW1 VS3 TEH VS2 VS2 VS3 TEH VS2 VS2 VS3 TEC VS3 TEH VS3 TEH VS3 TEH VS3 TEH VS3 TEC VS3 TEC VS3 TEC VS3 TEC VS4 VS4 VS3 TEH VSl VSl VS2 VS2 VS3 VS3 VS3 TEC VS4 VS4 VS3 TEH VS3 TEH VS2 VS2 VS3 TEC VS3 TEH

.610 NBANP

.580 NPUFZ

.610 NBAze

.610 NeANP

.610 NBAze

.610 NBANP

.5S0 NPUFZ

.6Hl NBANP

.610 ZBAze

.6Hl ZBAZC

.580 NPUFZ

.610 NBAZC

.600 ZPAHZ

.610 NBANP

.610 NBANP

.580 NPUFZ

.610 NBANP

.610 ZBAZC

.580 NPUFZ

.610 NBANP

.580 NPUFZ

.610 NBANP

.580 NPUFZ

.610 NBANP

.580 NPUFZ

.610 NBAZe

.610 ZBAX2

.610 NBANP

.610 NBANP

.610 NBANP

.610 ZBAZC

.610 ZBAze

.610 ZBAZC

.610 ZBAze

.580 NPUFZ

.610 ZBAZC

.580 NPUFZ

.580 NPUFZ

.580 NPUFZ

.610 ZBAze

.580 NPUFZ

.610 NBANP

.610 ZBAze

.580 NPUfZ

.610 ZBAze

.610 NBANP 31 H

68 H

13 e 28 H

14 e 27 H

68 H

31 H

37 e

66 H

68 H

15 e

58 e

31 H

39 H

68 H

31 H

38 C

68 H

27 H

68 H

43 H

68 H

44 H

68 H

3 e 201 H

39 H

39 H

39 H

40 e

40 C

57 C

57 e

59 e

66 H

68 HI 68 H

68 H

40 e

59 e

36 H

66 H

68 H

40 e

43 H

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

,ROW COL VOLTS OEG IHO PER CHN LOCN INCHI INCH2 BEGT EHOT POIA PTYPE CAL LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

18

I ROW COL VOLTS BEG IND PER CHN LOCN INCH!

INCH2 BEGT ENOT POIA PTYPE CAL LI

+--

+-+.....

117 76 51 85 PCT 11 P3 VS3

-. 99 VS3 VS3

.580 NPUFZ 68 HI 126 85

.24 115 PCT 8

P2 VSI

-. 74 VS3 TEH

.610 NBANP 47 HI 126 85 NOF P3 VSI

-. 74 VS1 VS1

.580 NPUFZ 68 HI 46 87

.59 118 PCT 14 P2 VS3

-. 65 VS3 TEC

.610 NBAZC 4

C 46 87 PID P2 VS3

-. 65 VS3 TEH

.610 ZBAZC 66 HI 46 87

.78 82 PCT 15 P3 VS3

-. 86 VS3 VS3

.580 NPUFZ 68 HI 46 87 P8C VS3 TEH

.610 ZBAX2 204 HN 120 89 PBC VS3 TEC

.610 ZBAZC 41 CI 120 89

.28 85 PCT 10 P2 VS3 1.08 V83 TEH

.610 NBANP 47 HI 120 89 PID P2 VS3 1.00 V83 TEH

.610 ZBAZC 66 HI 120 89

.52 84 PCT 11 P3 VS3

.86 VS3 VS3

.580 NPUFZ 68 HI 45 92

.35 89 PCT 7

P3 BSW

-. 54 07H VS3

.580 NPUFZ 68 HI 45 92

.21 136 PCT 7

P2 BSW

-. 97 VS3 TEH

.610 ZBAX2 205 HI 47" 92 PID P2 BSW

-. 80 VS3 TEH

.610 ZBAZC 65 HI 47 92

.93 102 PCT 17 P3 BWI

-. 90 07H VS3

.580 NPUFZ 68 HI 47 92

.79 124 PCT 21 P2 BW1

-. 80 VS3 TEH

.610 ZBAX2 205 HI 47 92 TBP TEC TEC

.610 NBAZC 1000 CI 49 92 PID P2 Bwl

-. 93 VS3 TEH

.610 ZBAZC 66 HI 49 92

.31 121 PCT 7

P3 BSW

-. 77 08H VS3

.580 NPUFZ 68 HI 49 92

.31 117 PCT 10 P2 BWl

-. 93 VS3 TEH

.610 ZBAX2 205 HI 48 93

.22 157 PCT 6

P2 VS3

-. 57 VS3 TEC

.610 NBAZC 3

Cl 48 93

.57 83 PCT 12 P3 VS3

-. 57 VS3 VS3

.580 NPUFZ 68 HI 48 93 PRBC VS3 TEH

.610 ZBAX2 205 HI 102 93 PBC VS3 TEC

.610 ZBAZC 41 CI 102 93

.24 58 POT 8

P2 VS3

.92 V33 TEN

.610 NBANP 47 HI 102 93

.52 85 PCT 11 P3 VS3

.96 VS3 VS3

.580 NPUFZ 68 HI I

91 94

.21 60 PCT 8

P2 Bwl

.86 VS3 TEH

.610 NBANP 47 HI 91 94 NOF P3 BWi

.86 09H VS2

.580 NPUFZ 68 HI 48 97 P8C V83 TEC

.610 NSAZC 5

Cl 48 97

.37 82 PCT 12 P3 VS3

-. 69 V83 VS3

.580 NPUFZ 68 HI 48 97

.28 98 PCT 9

P2 VS3

-. 69 V83 TEN

.610 ZBAX2 205 HI 91 98 2.78 183 DNT P1 10c 1.60 V83 TEC

.610 ZBAZC 41 CI 91 98 NDF P3 10C 1.60 09C VS4

.580 NPUFZ 59 C

103 98 PBC VS3 TEC

.610 ZBAZC 41 CI 103 98

.28 67 PCT 10 P2 VS3

.77 VS3 TEH

.610 NBANP 47 HI 103 98 PID P2 VS3

.77 VS3 TEH

.610 ZBAZC 66 HI 103 98

.56 85 PCT 11 P3 VS3

.57 VS3 VS3

.580 NPUFZ 68 HI 49 100 PID P2 BW!

.99 VS3 TEH

.610 ZBAZC 66 HI 49 100

.84 97 PCT 16 P3 BW1

.94 08H VS3

.580 NPUFZ 68 HI 49 100

.50 66 PCT 15 P2 BaI

.99 VS3 TEN

.610 ZBAX2 205 HI 48 101

.86 91 POT 19 P2 VS3

-. 75 VS3 TEC

.610 NBAZC I CI 48 101 PID P2 VS3

-. 75 VS3 TEN

.610 ZBAZC 66 HI 48 101

.71 64 PCT 14 P3 BWl

-. 71 09H VS3

.580 NPUFZ 68 HI 48 101 1.96 77 PCT 30 P3 VS3

-. 96 09H VS3

.580 NPUFZ 68 HI 48 101 PBC VS3 TEN

.610 ZBAX2 205 HI 48 101

.54 129 PCT 16 P2 BSW

-. 99 VS3 TEN

.610 ZBAX2 205 NI I

93 102

.37 72 PCT 12 P2 VS2

.62 VS3 TEH

.610 NHANP 47 HI 93 102 PID P2 VS2

.62 VS3 TEH

.610 ZBAZC 66 HI 93 102

.62 80 PCT 13 P3 VS2

.62 VS2 VS2

.580 NPUFZ 68 NI I

R----

L----S----- ----

P---------

N-----

4 -

T P

aROW COL VOLTS DEG IND0 PER CNN LOCH INCHI INCH2 BEGT ElIOT PDIA PTYPE CAL LI 4---

+

+

4--------

19 f----f----f---------+----+----+----+----+----+---------+---------+----+----+------+-----_+ ______ + __ +

I ROW COL VOLTS OEG INO PER CHN LOCN INCHI INCH2 BEGT ENOT POIA PTYPE CAL LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

117 76

.51 85 PCT 11 P3 VS3

-.99 VS3 VS3

.580 NPUFZ 68 H

126 85 126 85 46 87 46 87 46 87 46 87 120 89 120 89 120 89 120 89 45 92 45 92 47' 92 47 92 47 92 47 92 49 92 49 92 49 92 48 93 48 93 48 93 102 93 102 93 102 93 91 94 91 94 48 97 48 97 48 97 91 98 91 98 103 98 103 98 103 98 103 98 49 100 49 100 49 100 48 101 48 101 48 101 48 101 48 101 48 101 93 102 93 102 93 102

.24 115 PCT NOF 8

P2 VSl P3 VSl

.59 118 PCT 14 PIO

.78 82 PCT 15 PBC pac

.28 85 PCT 10 PIO

.52 84 PCT 11 P2 VS3 P2 VS3 P3 VS3 P2

\\lS3 P2

\\IS 3 P.3

\\IS)

.35 89 PCT

.21 136 PCT 7

P3 aWl 7

P2 BWI PIO

.93 102 PCT 17

.79 124 PCT 21 TBP PIO

.31 121 PCT 7

.31 117 PCT 10 P2 BW1 P3 BWI P2 aWl P2 BWI P3 aWl P2 aWl

.22 157 PCT 6

P2

\\lS3

.57 83 PCT 12 P3 VS3 pac PBC

.24 58 PCT 8

P2

\\lS3

.52 85 PCT 11 P.3

\\IS)

.21 60 PCT NOF PBC 8

P2 aWl P.3 aWl

.37 82 PCT 12 P.3

'liS)

.28 9B PCT 9

P2

\\IS) 2.78 183 DNT NDF P8C Pl 10C P) 10C

.28 67 PCT 10 P2

\\lS3 PIO P2

'liS)

.56 85 PCT 11 P3

\\lS3 PIO P2 aWl

.84 97 PCT 16 P3 aWl

.50 66 PCT 15 P2 aWl

.86 91 PCT 19 P2

\\IS 3 PIO P2

\\lS3

.71 64 PCT 14 P3 aWl 1.96 77 PCT 30 P3 VS3 pac

.54 129 PCT 16 P2 aWl

.37 72 PCT 12 P2 VS2 PIO P2

\\lS2

.62 80 PCT 13 P3 VS2

-.74

-.74

-.65

-.65

-.86 1.00 1.00

.86

-.54

-.97

-.80

-.90

-.80

-.93

-.77

-.93

-.57

-.57

.92

.96

.86

.86

-.69

-.69 1.60 1.60

.77

.77

.57

.99

.94

.99

-.75

-.75

-.71

-.96

-.99

.62

.62

.62 VS3 TEH VSl VSl VS3 TEC VS3 TEH

\\IS 3 VS3 VS3 TEH

\\lS3 TEC VS3 TEH

'liS)

TEH VS3 VS3 07H VS3

'liS)

TEH

'liS)

TEH 07H VS3 VS3 TEH TEC TEC VS3 TEH 08H VS3 VS3 TEH VS3 TEC VS3 VS3 VS3 TEH VS3 TEC VS3 TEH

'liS)

VS3 VS3 TEH 09H VS2 VS3 TEC VS3 VS3

'liS)

TEH VS3 TEC 09C VS4 VS3 TEC VS3 TEH VS3 TEH VS3 VS3

'liS)

TEH 08H VS3 VS3 TEH VS3 TEC VS3 TEH 09H VS3 09H VS3

'liS)

TEH VS3 TEH VS3 TEH VS3 TEH VS2 VS2

.610 NBANP

.580 NPUFZ

.610 NBAZC

.610 ZBAZC

.580 NPUFZ

.610 ZBAX2

.610 ZBAZC

.610 NBANP

.610 ZBAZC

.580 NPUFZ

.580 NPUFZ

.610 ZBAX2

.610 ZBAze

.580 NPUFZ

.610 ZBAX2

.610 NBAze

.610 ZBAZC

.580 NPUFZ

.610 ZBAX2

.610 NBAZC

.580 NPUFZ

.610 ZBAX2

.610 ZBAZC

.610 NBANP

.580 NPUFZ

.610 NBANP

.580 NPUFZ

.610 NBAZC

.580 NPUFZ

.610 ZBAX2

.610 ZBAZC

.580 NPUFZ

.610 ZBAZC

.610 NBANP

.610 ZBAZC

.580 NPUFZ

.610 ZBAZC

.580 NPUFZ

.610 ZBAX2

.610 NBAZC

.610 ZBAze

.580 NPUFZ

.580 NPUFZ

.610 ZBAX2

.610 ZBAX2

.610 NBANP

.610 ZBAZC

.580 NPUFZ 47 H

68 H

4 C

66 H

68 H

204 H

41 C

47 H

66 H

68 H 68 H 205 H

66 H

68 H

205 H

1000 C

66 H

68 H

205 H

3 C

68 H 205" H 41 C

47 H

68 H 47 H

68 H 5

C 68 H

205 H

41 C

59 C

41 C

47 H

66 H

68 H

66 H

68 H 205 H

1 CI 66 HI 68 HI 68 HI 205 HI 205 HI I

47 HI 66 HI 68 HI I

t----+----+---------+----+----+----+----+----+---------+---------+----+----+------+-----_+ ______ + __ +

I ROW COL VOL TS OEG INO PER CHN LOCII INCHI INCH2 BEGT ENDT POIA PTYPE CAL L I

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

19

I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 BEGT ENDT POIA PTYPE CAL LI

---

4 ----.----

+----..----.

4 ----------

4-4 77 -------

4---------

48 48 48 48 48 48 47 47 47 47 I91 I91 103 103 103 I47 47 46 46 46 64 48 48

!,48 I47 47 47 47 131 131 131 131 131 131 131 131 103 103 103 103 105 105 105 106 106 106 106 106 106 106 106 106

.43

.84 96 85 PCT PID POT PBC 10 16 P2 VS3 P2 VS3 P3 VS3 P80

.50 74 POT

.23 122 POT

.92 118 POT PID 1.99 83 POT P80 2.06 178 DNT NDF PBC

.17 133 POT

.51 84 POT

-.75

-. 75

-.86

.90

.80 42

.42

.88 VS3 VS3 VS3 VS3 TEC TEH V53 TEH

.610 NBAZC

.610 ZBAZC

.580 NPUFZ

.610 ZBAX2 2

66 68 206 1

68 205 CI HI NI HI CI NI HI 10 P3 Vg3 8

P2 V83 VS3 TEe

.610 NBAZC VS3 VS3

.580 NPUFZ VS3 TEH

.610 ZBAX2 19 31 P2 VS3 PZ V83 P3 VS3 P1 100 1.99 P3 10C 1.99 108

.47 106 POT 108

.23 81 POT 109 109 109 109 109 109 109 110 110 110 110 110 110 110 110 110 110 110 110 PIl 1.91 184 POT 1.57 121 POT TBP PID

.64 03 POT

.42 47 POT

.44 103 POT PID 1.14 85 POT PBC 6

P2 VS3 11 P3 VS3 10 P3 B1 8

P2 811 P2 awl 30 P3 BW1 32 P2 BW1 P2 B1 13 P3 B1 13 P2 B1 11 PZ VS3 P2 VS3 21 P3 VS3

.18

.17

.13

.19 114 NOI 117 NOI 112 NCI 64 NOI NCF NDF NDF NDF 3

3 3

3 P3 P3 P3 P3 P2 P3 P3 P2 VS3 V$3 100 100 VS3 VS3 lot 100 8w1 a1w VS3 BW1

.47

.63

-.84

-. 89

.99

.93

.99

.99

.99

.99

45

.45

.59 13.08 13.29 24.57 24.77 13.08 13.29 24.57 24.77

-. 99

-. 90

.72

-.99

-. 89

-. 99 2.07 14.73 18.73 14.73 18.73 I

VS3 TEC

.610 NBAZC 2

CI VS3 TEH

.610 ZBAZC 66 HI VS3 VS3

.580 NPUFZ 68 HI VS3 TEH

.610 ZBAX2 206 HI I

VS3 TED

.610 ZBAZC 43 Q1 090 VS4

.580 NPUFZ 59 C1 I

VS3 TEC

.610 ZBAZC 43 C1 V53 TEH

.610 NBANP 47 HI VS3 VS3

.580 NPUFZ 68 HI 07H VS3

.580 NPUFZ 68 HI VS3 TEH

.510 ZBAX2 205 HI VS3 TEN

.610 ZBAZC 66 HI 07H VS3

.580 NPUFZ 68 HI VS3 TEN

.610 ZBAX2 205 HI TEC TEO

.610 NBAZC 1008 CI VS3 TEH

.610 ZBAZC 66 HI 08H VS3

.580 NPUFZ 68 HN VS3 TEH

.610 ZBAX2 205 HI V83 TED

.610 NBAZO 2

CI V83 TEH

.610 ZBAZC 66 HI V83 V53

.580 NPUFZ 68 1I V33 TEH

.610 ZBAX2 206 HI I

VS3 TEC

.610 ZBAZC 43 CI VS3 TEC

ý010 ZBAZC 43 eCl VS3 TED

610 ZBAZC 43 CI VS3 TEC

.610 ZBAZC 43 C1 VS4 VS3

.580 NPUFZ 59 CI VS4 VS3

.580 NPUFZ 59 CI 100 BW2

.580 NPUFZ 59 CI 100 8W2

.580 NPUFZ 59 Cl VS3 TEH

.610 ZBAZC 66 HI 07H VS3

.580 NPUFZ 68 HN 07H VS3

.580 NPUFZ 68 HN VS3 TEH

.610 ZBAX2 205 HI TEC TEC

.610 NBAZC 1000 C1 07H VS3

.580 NPUFZ 68 HI VS3 TEH

.610 ZSAX2 205 HI V53 TEC

.610 ZOAZC 43 CI VS3 TEC

.610 ZBAZC 43 C1 VS3 TEC

.610 ZBAZO 44 CI VS4 VS3

.580 NPUFZ 59 Cl 10C B2

.580 NPUFZ 59 CI I

VS3 TEe

.610 ZBAZC 43 CI I

45 112 45' 112 145 112 45 112 45 112 44 113 4 4 113 91 114 131 116 131 116 131 116 131 116 91 118 PID 1.10 94 POT

.62 85 POT

.78 110 POT TBP

.44 123 POT

.27 145 POT 2.65 178 DNT

.14 73 NO!

.19 62 NOI NDF NDF 2.13 178 DNT 20 13 21

.9 P3 BW1 9

P2 814 P1 3

3 P3 P3 l10 VS3 100 V$3 10l PI 100 1.85 4---------- 4----------

+

+----4---------

4-4 ROW COL.

VOLTS DEC IND PER CNN LOCH INC011 114012 SECT ENOT POIA PTYPE CAL LI

+---------4------4

---

+

+----

4------- -

4-4--------

20

+----+----+---------+----+----+----+----+----+---------+---------+---;+----+------+------+------+--+

I ROW COL VOLTS OEG INO PER OHN LOCII INCH!

INCH2 8EGT ENOT POIA PTYPE CAL LI

+----+----+---------+----+----+---~+----+----+---------+---------+----+----+------+------+------+--+

46 103

.43 96 POT Hl P2 VS3

-.75 VS3 TEC

'.610 N8AZC 2

CI 48 103 PIO P2 VS3

-.75 VS3 TEH

.610 Z8AZC 66 HI 46 103

.84 65 POT 16 P3 VS3

-.86 VS3 VS3

.580 NPUfZ 68 HI 48 103 PSC VS3 TEH

.610 ZBAX2 206 HI 48 105 PSC VS3 TEO I

.610 N8AZC 0

48 105

.50 74 POT 10 P3 VS3

.90

'IS)

VS3

.580 NPUfZ 68 H

48 105

. 23 122 POT 8

P2. VS3.

.80 VS3 TEH

.6Hl Z8AX2 205 H

47 106

.92 118 POT 19 P2 VS3

.42 VS3 TEO

.610 NBAZC 2

C 47 106 PIO P2

'IS)

.42.

VS3 TEH

.610 ZBAZC 66 H

47 106 1.99 83 POT 31 P3 VS3

.88 VS3 VS3

.580 NPUfZ 68 H

47 106 PBC VS3 TEH

.610 Z8AX2 206 H

91 106 2.06 178 DNT PI 100 1.99 VS3 TEO

.610 Z8AZO 43 C

91 106 NDF P3 10C 1.99 090 VS4

.580 NPUFZ 59 0

103 106 PSC VS3 TEO

.610 Z8AZC 43 0

103 106

.17 133 POT 6

P2 VS3

.47 VS3 TEH

.6HI N8ANP 47 H

103 106

.51 84 POT, 11 P3 VS3

.63

'IS)

VS3

.580 NPUfZ 68 H

47 108

.47 106 POT 10 P3 aWl

-.84 07H VS3

.580 NPUFZ 68 H

47 108

.23 81 POT 8

P2 aWl

-.89 VS3 TEH

.610 ZBAX2 205 H

46 109 PID P2 aWl

.99 VS3 TEH

.610 ZBAZO 66 H

46 109 1.91 184 POT 30 P3 aWl

.93 07H VS3

.580 NPUFZ 68 H

46 109

1. 57 121 POT 32 P2 aWl

.99 VS3 TEH

.610 ZBAX2 205 H

46 109 T8P TEO TEO

.610 NBAZO 1000 0

46 109 PID P2 aWl

.99 VS3 TEH

.610 ZBAZC 66 H

46 109

.64 63 POT 13 P3 aWl

.99 081-1 VS3

.580 NPUFZ 68 H

I* 48 109

.42 47 POT 13 P2 aWl

.99 VS3 TEH

.610 Z8AX2 205 H

I I

47 110

.44 103 POT 11 P2 VS3

45*

VS3 TEO

.610 N8AZC 2

0 I

47.110 PID P2 VS3

.45

'IS)

TEH

.610 ZBAZO 66 H

I 47 110 1.14 85 POT 21 P3 VS3

.59 VS3 VS3

.560 NPUFZ 68 "

I 47 110 pac VS3 TEH

.610 ZBAX2 206 H

131 110

.18 114 NOI 3

VS3 13.08 VS3 TEO

.6HI Z8AZO 43 0

131 110

.17 117 NOI 3

vsa 13.29 VS3 TEO

.610 ZBAZC 43 C

131 110

.13 112 NOI 3

100 24.57 VS3 TEO

6i0 Z8AZC 43 0

131 110

.19 64 NOI 3

10C 24.77 VS3 TEO

.610 ZBAZC 43 C

131 110 NOF P3 VS3 13.08 VS4 VS3

.580 NPUFZ 59 C

131 110 NOF P3 VS3 13.29 VS4 VS3

.580 NPUFZ 59 CI 131 110 NOF P3 100 24.57 100 aW2

.580 NPUfZ 59 01 131 110 NOF P3 100 24.77 100 SW2

.580 NPUFZ 59 01 I

45-112 PIO P2 aWl

-.99 VS3 TEH

.610 ZBAZC 66 "I

45' 112 1.10 94 POT 20 P3 aWl

-.90 07H VSl

.580 NPUFZ 68 HI 45-112

.62 65 POT 13 P3 VS3

.72 07H VS3

.580 NPUFZ 68 HI 45-112

.76 110 peT 21 P2 aWl

-.99 VS3 TEH

.610 ZBAX2 205 HI 45-112 Tap TEO TEC

.610 NBAZC 100e 01 I

44 113

.44 123 POT 9

P3 BW1

-.89 07H VS3

.580 NPUfZ 68 HI 44 113

.27 145 POT 9

P2 aWl

-.99 VS3 TEH

.610 ZBAX2 205 HI I

91 114 2.65 178 DNT PI 10C 2.07 VS3 TEC

.610 ZBAZO 43 CI 131 116

.14 73 NOI 3

VS3 14.73 I

VS3 TEC

.610 ZBAZO 44 CI 131 116

.19 62 NOI 3

10C 16.73 VS3 TEC

.610 zaAZC 44 CI 131 116 NOF P3 VS3 14.73 VS4 VS3

.580 NPUFZ 59 CI 131 116 NOF P3 100 16.73 10C 81012

.580 NPUFZ 59 CI I

91 118 2.13 178 DNT PI 10C 1.85 VS3 TEC

.6UI ZBAZC 43 CI I

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW OOL VOLTS OEG INO PER CHN LOON INCH1 lNOH2 6EGT ENOT POIA HYPE OAl LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

20

I ROW COL VOLTS DEG IND PER CHN LOCN INCHi INCHZ BEGT ENOT POIA PTYPE CAL LI 4 -------

+

+--

4-.....

131 118

.19 61 NO!

3 10C 16.74 VS3 TEC

,610 ZBAZC 43 Cl 131 118 NOF P3 10C 16.74 10C BW2

.580 NPUFZ 59 Cj 45 120 PID PZ BW1

-. 92 VS3 TEN

.610 ZBAZC 65 Nj 45 120

.72 97 PCT 14 P3 BW1

-. 86 07H VS3

.580 NPUFZ 68 HI 45 120

.33 91 POT 10 P2 BW1

-. 92 VS3 TEN

.510 ZBAX2 205 HI 91 122 2.57 179 ONT P1 100 1.95 VS3 TEC

.610 ZBAZC 45 Cj 34 123

.56 96 PCT 10 P3 07H

-1.08 07H 07H

.680 ZPAHZ 67 NJ 34 123

.23 128 PCT 8

P2 07H

-.99 VS3 TEN

.610 ZBAX2 209 NJ 91 124 2.49 182 DNT PI 100 1.63 VS3 TEC

.610 ZBAZC 45 Cl 24 127

.40 87 PCT 8

P3 BW1

.96 07H VS3

.580 NPLFZ 68 Nj 24 127

.24 51 PCT 8

PZ BWI

.87 VS3 TEN

.610 ZBAX2 209 Nj 133 136 2.33 179 DNT P1 110

.40 VS3 TEC

.510 ZBAZC 52 CI 133 136 NDF P3 11C

.40 10C VS5

.580 NPUFZ 59 CO 133 138 3.08 180 DNT P1 110

.67 V33 TEC

.610 ZBAZC 51 CI 139 138 7.54 179 DNT P1 VS5

-. 84 V83 TEC

.610 ZBAZC 51 Cj 139 138 NDF P3 VS5

-1.29 V85 VS5

.560 NPUFZ 59 CO 133 140 3.32 179 DNT P1 110 1.72 VS3 TEC

.510 ZBAZC 50 Cl 133 140 NOF P3 110 1.72 180 VS5

.580 NPUFZ 59 CI 133 142 3.13 180 ONT P1 110 1.71 VS3 TEC

.610 ZBAZC 49 Cj 133 142 NDF P3 11C 1.71 100 VS5

.580 NPUFZ 59 Cj 13Z 143 4.93 177 DNT P1 VS5

-. 22 VS3 TEC

.610 ZBAZC 50 Ci 132 143 3.51 176 DNT P1 VS5

.26 VS3 TEC

.610 ZBAZC 50 Cl 134 147 2.04 180 DNT P1 11H 1.07 VS3 TEN

.610 NBANP 57 NJ 134 157 2.23 182 ONT P1 110 1.45 VS3 TEC

.610 ZBAZC 49 Cl 134 159 2.70 177 DNT P1 110 1.56 VS3 TEC

.610 ZBAZC 50 CO 91 160 3.08 177 DNT P1 100 1.83 VS3 TEC

.610 ZBAZC 48 Cj 135 162 2.35 178 DNT P1 VS5

-. 93 VS3 TEC

.610 ZBAZC 50 Cl 91 164 2.31 181 DNT P1 100 1.71 VS3 TEC

.610 ZBAZC 48 CI 91 164 NDF P3 100 1.71 09C VS4

.580 NPUFZ 59 CO 135 164 8.09 178 ONT P1 VS5

-1.01 V33 TEC

.610 ZBAZC 49 C1 135 164 NDF P3 V85

-1.01 VS5 VS5

.580 NPUFZ 59 Cj 91 166 2.96 179 DNT PI 100 1.37 VS3 TEC

.610 ZBAZC 47 Cj 68 169 4.40 181 DNT PI VS4

.47 VS3 TEC

.510 NBAZC 26 CI 68 169 NOF P3 VS4

.47 VS4 VS4

.580 NPUFZ 59 Cl 91 176 3.62 179 DNT P1 100 1.54 VS3 TEC

.610 ZBAZC 47 CO 91 176 NDF P3 10C 1.54 09C V34

.580 NPUFZ 59 C1 42 179 NDF 8

010 12.07 Ol0 02C

.600 ZPAHZ 58 Cl 44 179 MOF 8

010 12.07 010 02C

.600 ZPAHZ 58 C0 96 179

.25 72 PCT' 8

P2 VS2

.85 VS3 TEN

.610 ZBAZC 63 NJ 96 179

.42 81 PCT 9

P3 VS2

.84 VS2 VS2

.580 NPUFZ 68 NI IROW COL VOLTS DEG IND PER OHM LOCH INCHI IMCH2 DEGT EMOT POTA PTYPE CAL Li 4 ------------

+

+-----4

---

+

+---------

+

21

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOLTS OEG IND PER CHH LOCN IHCHI INCH2 BEGT ENOT POIA PTYPE CAL LI

+--.-+.---~-----.---+----+----+----+----+----+-------- -+---------+----+----+------+------+------+--+

131 118

.19 61 NOI 3

10C 16.74 VS3 TEC

.810 ZBAZC 43 C I 131 118 NOF P3 10C 16.74 10C BW2

.580 NPUFZ 59 C I 45 120 45 120 45 120 91 122 34 123 34 123 91 124 24 127 24 127 133 136 133 136 133 138 139 138 139 138 133 140 133 140 133 142 133 142 132 143 132 143 134 147 134 157 134 159 91 160 135 162 91 164 91 164 135 164 135 164 91 166 68 169 68 169 91 176 91 176 42 179 44 179 96 179 96 179

.72

.33 2.57

.56

.23 PID 97 PCT 91 PCT 179 DNT 96 PCT 128 PCT 2.49 182 DNT

.40 87 PCT

.24 51 PCT 2.33 179 DNT NOF 3.08 180 DNT 7.54 179 DNT NOF 3.32 179 DNT NOF 3. 13 180 DIn NOF 4.93 177 DNT 3.51 176 Din 2.04 180 DNT 2.23 182 DNT 2.70177 DNT 3.08 177 DNT 2.35 178 DNT 2.31 181 DNT NOF 8.09 178 DNT NOF 2.96 179 DNT 4.40 181 DNT NOF 3.62 179 DNT NOF NOF NOF

.25 72 PCT:

.42 81 PCT 14 10 Hl 8

P2 BW1 P3 BWI P2 8Wl PI 10C P3 07H P2 07H PI 10C 8

P3 BWI 8

P2 BWI PI 11C P3 11C PI 11C PI VS5 P3 VS5 PI 11C P3 11C PI 11C P3 11C PI VS5 PI VS5 PI 11H PI 11C PI 11C PI 10C PI VS5 PI 10C P3 10C PI VS5 P3 VS5 PI 10C PI VS4 P3 VS4 PI 10C P3 10C 8

01C 8

01C 8

P2 VS2 9

P3 VS2

-.92

-.86

-.92

1. 95

-1.0"

-.99 1.63

.96

.87

.40

.40

.67

-.84

-1.29

1. 72

1. 72 1.71 1.71

-.22

.26 1.07 1.45

1. 56 1.83

-.93

1. 71

1. 71

-1.01

-1.01

1. 37

.47

.47

1. 54

1. 54 12.07 12.07

.85

.84 VS3 TEH 07H VS3 VS3 TEH VS3 TEC 07H 07H VS3 TEH VS3 TEC 07H VS3 VS3 TEH VS3 TEC 10C VS5 VS3 TEC VS3 TEC VS5 VS5 VS3 TEC 10C VS5

.610 ZBAZC

.580 NPUFZ

.610 ZBAX2

.610 ZBAZC

.600 ZPAHZ

.610 ZBAX2

.610 ZBAZC

.580 NPUFZ

.610 ZBAX2

.610. ZBAZC

.580 NPUFZ

.61'l ZBAZC

.610 ZBAZC

.580 NPUFZ

.610 ZBAZC

.580 NPUFZ VS3 TEC

.610 ZBAZC 10C VS5

.580 NPUFZ VS3 TEC VS3 TEC VS3 TEH VS3 TEC VS3 TEC VS3 TEC VS3 TEC

.610 ZBAZC

.610 ZBAZC

.610 NBANP

.610 ZBAZC

.610 ZBAZC

.610 ZBAZC

.610 ZBAZC VS3 TEC

.610 ZBAZC 09C VS4

.580 NPUFZ VS3 TEC VS5 VS5

.610 ZBAZC

.580 NPUFZ VS3 TEC

.610 ZBAZC VS3 TEC

.610 NBAZC VS4 VS4

.580 NPUFZ VS3 TEC

.610 ZBAZC 09C VS4

.580 NPUFZ 01C 02C

.600 ZPAHZ 01C 02C

.600 ZPAHZ VS3 TEH

.610 ZBAZC VS2 VS2

.580 NPUFZ I

66 HI 68 HI 205 HI I

45 CI I

67 HI 209 HI 46 C

68 H

209 H

52 C

59 C

51 C

51 C

59 C

50 C

59 C 49 C

59 C

50 C

50 C

57 H

49 C

50 C

48 C

50 C

48 C

59 C

49 C

59 C

47 CI I

26 CI 59 CI I

47 CI 59 CI I

58 CI I

58 CI I

63 HI 68 HI I

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOLTS OEG IND PER CHN LOCN IN9H1 INCH2 BEGT ENOT POIA PTYPE CAL LI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

21

ROW COL VOLTS DEG IND PER CNN LOCN INCH!

INCH2 BEGT ENOT POIA PTYPE CAL LI 69 180

.40 87 PCT 13 P2 VS3

-. 85 VS3 TEN

.610 NBANP 13 HI 69 180 PBC VS3 TEC

.610 NBAZC 25 Cl 69 180 PID P2 VS3

-. 85 VS3 TEN

.610 ZBAZC 66 HI 69 180

.72 84 PCT 14 P3 VS3

-. 98 VS3 VS3

.580 NPUFZ 68 Hi 91 182 2.18 178 DNT Pi leC

.97 VS3 TEC

.610 ZBAZC 50 CI 91 182 NOF P3 10C

.97 09C VS4

.580 NPUFZ 59 C1 92 187 3.23 180 DNT Pi I0C 1.59 VS3 TEC

.610 ZBAZC 49 C

0 50 191

.22 10 NHI 3

05C 22.96 V33 TEC

.610 NBAZC g

Cl 50 191 NDF 2

05C 22.96 05C O6C

.600 ZPAHZ 58 CI 45 196 Pao VS3 TEN

.610 NBANP 13 HI 50 199 2.16 181 DNT P1 08C 15.20 VS3 TEC

.610 NBAZC 7

C1 50 199 3.23 179 DNT P1 80C 15.67 V83 TEC

.610 NBAZC 7

C1 50 199 2.52 179 DNT P1 080 16.76 V33 TEC

.610 NBAZC 7

Cl 50 199 3.56 180 DOT P1 08C 26.86 V83 TEC

.610 NBAZC 7

C1 58 199 2.45 180 DNT P1 08C 29.31 VS3 TEC

.610 NBAZC 7

Cl 50 199 NDF 2 08C 15.20 80C 09C

.600 ZPAHZ 58 CI 50 199 NOF z

080C 15.67 08c 09c

.600 ZPAHZ 58 Cj 50 199 NDF z

08C 16.76 08C 09c

.600 ZPAHZ 58 Cl 50 199 NOF 2 08C 26.86 08C 09c

.600 ZPAHZ 58 Ci 50 199 NDF 2

08C 29.31 80c 09C

.600 ZPAHZ 58 CI 4----------------+------4----------------+---- +----------

4-

-- 4 ------

l ROW COL VOLTS DEG IND PER CNN LOCH INCH!

INCH2 BEGT ENOT POIA PTYPE CAL Lf S-------------:------------------ -----

4---

Tubes: 78 Records: 208 22

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+-----:+------+--+

I ROW COL VOLTS OEG INO PER CHN LOON INOHI INOH2 BEGT ENOT POIA PTYPE OAl LI

+----+----+---------+----~----+----+----+----+---------+---------+----+----+------+------+------+--+

69 180

.40 87 PCT 13 P2

\\lS3

-.85

\\lS3 TEH

.610 NBANP 13 HI 69 180 PBO

\\lS3 TEO

.610 NBAZC 25 CI 69 180 PIO P2

\\lS3

-.85

\\IS 3 TEH

.610 ZBAZC 66 HI 69 180

.72 84 PCT 14 P3

\\lS3

-.98

\\IS)

VS3

.580 NPUFZ 68 HI I

91 182 2.18 178 ONT PI 10C

.97

\\IS)

TEO

.610 ZBAZC 59 CI 91 182 NDF P3 10C

.97 09C VS4

.580 NPUFZ 59 CI I

92 187 3.23 180 DNT PI 10C

1. 59

\\lS3 TEO

.610 ZBAZC 49 C

50 191

.22 10 NQI 3

050 22.96

\\IS)

TEO

.610 NBAZC 9

C 50 191 NDF 2

05C 22.96 05C 060

.600 ZPAHZ 58 C

45 196 P8C

\\lS3 TEH

.610 NBANP 13 H

50 199 2.16 161 DNT PI 08C 15.29

\\lS3 TEO

.610 NBAZC 7

C 50 199 3.23 179 DNT PI 08C 15.67

\\lS3 TEO

.610 NBAZC 7

C 50 199 2.52 179 DIn PI 080 16.76 VS3 TEO

.610 NBAZC 7

C 50 199 3.56,160 DNT PI 080 26.86 VS3 TEO

.610 NBAZC 7

C 50 199 2.45 160 DNT PI 08C 29.31 VS3 TEO

.610 NBAZC 7

C 50 199 NDF 2

08C 15.29 08C 09C

.600 ZPAHZ 58 C

50 199 NDF 2

080 15.67 08C 090

.600 ZPAHZ 58 CI 50 199 NDF 2

08C 16.76 08C 09C

.600 ZPAHZ 58 CI 50 199 NDF 2

08C 26.86 08C 090

.600 ZPAHZ 58 01 50 199 NDF 2

08C 29.31 08C 09C

.600 ZPAHZ 58 CI

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

I ROW COL VOLTS OEG INO PER CHN LOCN INCHI I14CH2 BEGT ENOT POIA PTYPE CAL L f

+----+----+---------+----+----+----+----+----+---------+---------+----+----+------+------+------+--+

Tubes: 78 Records: 208 22

APPENDIX D PLI & PLP DATA SHEETS 23 APPENDIXD PLI & PLP DATA SHEETS 23

SG -

31 All Data for PLP's Reported from +PT With all History Palo Verde 3 U3Ri4 PVNGS3 20090401 04/22/2209 05:27:31

---

+----- -----

+----------+--

-+-

4------

I IHSPDATE ROW COL VOLTS DEG 1IND PER CHN LOCN IN44 INCH2 ORLEN BEGT ENOT POIA PTYPE CAL L C0MI

+.

+---- -+--

-+....-+....---....---.........-+..-

+.....-+.

.+.

.+..-.-+..-.-4.--

5 2

NDO V53 TEC

.610 KBAP 16 Cg I

5 2

NOD V83 TEH

.610 NBAZC 28 HI I

5 2

.45 64 PLP 8

TSC

.36 TSC TSC

.600 ZPAJZ 54 CgSR I

I 2007/07/01 5

2 NDO 030 TEC

.610 ZBAlC 7

Cg I

I 0007101 5

Z ND1 BBC TEH

.610 ZBAZC 54 Hg I

I Z007/07/01 5

2 NOD TSH TSH

.600 ZPSHZ 101 HI I

+----------4----4 4-

---4--------------------------+----

---

4-.......

I INSPDATE ROW COL VOLTS DEG IN PER CHN LOCN IN1I INCH2 CLEN BEOT EKOT POIA PTYPE CAL L COMI

+-------------------4

-.... i............

4----+

+

+

+-

+-----....

SG - 32 All Data for PLP's Reported from +PT With ail History Palo Verde 3 U3R14 PVNGS3 20090401 04/22/2009 06:27:31

+ -...........

+....-

+-.........

+....-....-

+.........

+.......-....

+....

+.......

+......

+.....

I INSPDATE ROW COL VOLTS DEG IND PER CHN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI

+------------------------------------------------------+-------+-------------+

+--

+-------------------------------------------------------------------------------

+--

I INSPDATE ROW COL VOLTS DEG IND PER CHN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL L COMI

+............+....+....

+.........

+.....+.....+.....+....

+....

+..........+..........+.......

+.....+.... +.......+.......+......+..

÷....+.

24 sa - 31 All Dsta for PLP's Reported from +PT WIth all HIstory Palo Verde 3 UlR14 PV~GS3 20090401 04/22/2009 05:27:31

+.~~--------+----+----+---------~----+----+----+----+- ---f---------f---------+-------+----+---.+------+----- -~------f--+---+

I INSPDATE ROW COL VOLTS DEG IND PER CHN LOCN INCHl I NCH2 CRLEN BEST EKDT PDIA PTYPE CAL L COM,

+-~---------+----+----+---------+----+----+--.-+----+----+---------+-.--~----+-------+----+----+------+----- -t------+--+---+

2007107/01 2007/07/01 2007/07/01 5

2 NOD VS3 TEC

.510 KBA}lP 16 Ci 5

2 NOD VS3 TEH

.610 KBAZC 28 HI 5

2

.45 64 PLP 8

TSC

.36 TSC T80

.600 ZPAHZ 54 CISR 5

2 NOD (lac TEC

.610 ZBAIC 7 Ci 5

2 NOD (lac TEH

.610 ZBAZC 54 H,

5 2

NOD TSH TSH

.600 ZPSHZ 101 H,

+---------_.+----+----.---------+----+----+----+----+----+---------+---------+-------+----+----+------+------t------+-*f---+

I INSPDATE ROW COL VOLTS DEG IND PER CHN LDC~

INCHl INCH2 CRtEN BEST EKDT PDIA PTYPE CAL L COM I

+-----------+----+----+----.----~-.. -+ ** -.+- *. -+--.-~---.~.--------+-.. ---.--+--.. ---+ *. --+-.--+---... + ** ----~- *** -.+.-+- ** +

SG. 32 All Data for PLP's Reported from +PT W1th all HIstory Palo Verde 3 U3R14 PVNGS3 20090401

+- - -- - - - -- --+- - - -+-- - -+-- -- - - - - -+-- - -+- - - -+- - - -+-- --+---.+- - - - - - - - -+-- - - - - ---+- _. _. - -+.... +-... +- _.. -.+. _. - --+..... -+-.+_._+

I INSPDATE ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH!

CRLEN BEGT ENDT POIA PTYPE CAL L COMI

+- -_... -- - -.+- _. -+-- --+. _. - _.. - -+-_.. +... -+- - -.+----+--- -+. - - _. -- -.+---. - - -- -+-. - - ---+- -- -+--- -+-_.. -.+-. - -.. +- -. - - -+.. +---+

+- - -- - - -- - -.+- - - -+- - --+.. _. _.. - -+- - - -+- - - -+-- --+- - - -+- - - -+- - - --- - - -+- --- - - -- -+- - -- - --+--- -+--- -+- - - _. -+- - - - --+- -. - - -+--+---+

INSPDATE ROW COL VOLTS OEG INO PER CHN LOCN INCHl INCH!

CRLEN BEGT ENOT PDIA PTYPE CAL L COMI

+_......... -+----+_:... +-_._---_.+.. -.+----+-_._+._--+----+-_.. -----+--_.. __.. +-------+_._-+._--+... ---+...... +_._---+--+---+

24

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~ 75 lit 85 90 95 1M ItS 11& 115 12& 125 1311 135 148 145 158 155 160 165 17e 175 lilt HIS 193 195 Nt 170 165 160 ISS lSG 145 140 13$

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95 100 105 110 115 120 1R5 13e 13-5 140 145 150 155 160 165 170 175 180 165 10 195 260

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170 1i5 160 155 150 145 140 135 110 IRS 120 115 105 eso too 95 8,5 as 7S 70 6$

55 so 45 40 35 30 25 20 IS 16 5

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85 90 95 I" 185 119 115 IN 125 138 135 149 145 15& 155 1M 165 178 175 1M 185 190 195 288

APPENDIX F FORM NIS-1 28 APPENDIXF FORMNIS-l 28

APS NIS-I FORM OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS

1. OWNER ARIZONA PUBLIC SERVICE COMPANY, et al la. ADDRESS P.O. BOX 52034; PHOENIX, ARIZONA 85072

2. PLANT PALO VERDE NUCLEAR GENERATING STATION 2a. ADDRESS 5801 SOUTH WlNTERSBURG ROAD, TONOPAH, ARIZONA 85354

3. UNIT NUMBER 3

4. OWNERS CERTIFICATE OF AUTHORIZATION NONE

5. COMMERCIAL SERVICE DATE 1-8-88

6. COMPONENTS INSPECTED:

COMPONENT OR MANUFACTURER SERIAL STATE OR NATIONAL APPURTENANCE OR INSTALLER NUMBER PROVINCE BOARD NO 3MRCEE01A Ansaldo 242 NA 191 STEAM GENERATOR 31 3MRCEE01B Ansaldo 243 NA 192 STEAM GENERATOR 32 29 APS NIS-l FORM I

OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS

1. OWNER ARIZONA PUBLIC SERVICE COMPANY, et al la.ADDRESS P. O. BOX 52034; PHOENIX, ARIZONA 85072

2. PLANT PALO VERDE NUCLEAR GENERATING STATION 2a.ADDRESS 5801 SOUTH WINTERSBURG ROAD, TONOPAH, ARIZONA 85354

3. UNIT NUMBER 3

4. OWNERS CERTIFICATE OF AUTHORIZATION NONE

5. COMMERCIAL SERVICE DATE 1-8-88

6. COMPONENTS INSPECTED:

i COMPONENT OR MANUFACTURER SERIAL STATE OR NATIONAL APPURTENANCE OR INSTALLER NUMBER PROVINCE BOARD NO 3MRCEEOIA Ansaldo 242 NA 191 STEAM GENERA TOR 31 3MRCEEOIB Ansaldo 243 NA 192 STEAM GENERATOR 32 29

APS NIS-1 BACK OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS

7. EXAM DATES April 2009

8. INSPECTION INTERVAL 1-11-08 to 1-10-18

9. ABSTRACT OF EXAMINATIONS. INCLUDE A LIST OF EXAMINATIONS AND A STATEMENT CONCERNING STATUS OF WORK REQUIRED FOR CURRENT INTERVAL.

Table I in the report summary section documents the number and type of each examination performed.

No defective tubes were observed during these examinations. A summary of the tubes with indications of degradation is listed in Appendix B and C of this report for SG 31 and 32 respectively. The tubes identified below were plugged as a result of this examination.

The number of tubes plugged are as follows: SG 31 = 1 tube (Row 48 Line 99)

SG 32 = 3 tubes (Row 47 Line 92)

(Row 46 Line 109)

(Row 45 Line 112)

WE CERTIFY THAT THE STATEMENTS MADE IN THIS REPORT ARE CORRECT AND THE EXAMINATIONS AND CORRECTIVE MEASURES TAKEN CONFORM TO THE RULES OF THE ASME CODE, SECTION XI.

DATE&-aR S-Of SIGNED: ARIZONA PUBLIC SERVICE COMPANY BYC=4/--

CERTIFICATE OF INSERVICE INSPECTION 1, THE UNDERSIGNED, HOLDING A VALID COMMISSION ISSUED BY THE NATIONAL BOARD OF BOILER AND PRESSURE VESSEL INSPECTORS AND THE STATE OF PROVINCE OF ARIZONA EMPLOYED BY HSB CT OF HARTFORD, CONNECTICUT HAVE INSPECTED THE COMPONENTS DESCRIBED IN THIS OWNERS REPORT DURING THE PERIOD TO AND STATE THAT TO THE BEST OF MY KNOWLEDGE AND BELIEF, THE OWNER HAS PERFORMED EXAMINATIONS AND TAKEN CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT IN ACCORDANCE WITH THE REQUIREMENTS OF THE ASME CODE, SECTION XI. BY SIGNING THIS CERTIFICATE NEITHER THE INSPECTOR NOR HIS EMPLOYER MAKES ANY WARRANTY, EXPRESSED OR IMPLIED, CONCERNING THE EXAMINATIONS AND CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT.

FURTHERMORE, NEITHER THE INSPECTOR NOR HIS EMPLOYER SHALL BE LIABLE IN ANY MANNER FOR ANY PERSONAL INJURY OR PROPERTY DAMAGE OR A LOSS OF ANY KIND ARISING FROM OR CONNECTED WITH THIS INSPECTION.

INPETEOR-z*

COMMISSIONS Az ?4A NATL' BOARD, STATE, PROVINCE DATE

'B-Zc4-o' 30 NIS-l BACK APS OWNERS' DATA REPORTFORIN~ERYICE INSPECTIONS

7. EXAM DATES ApriU 2009

8. INSPECTION INTERVAL 1-11-08 to 1-10-18

9. ABSTRACT 01< EXAMINATIONS. INCLUDE A LIST OF EXAMINATIONS AND A STATEMENT CONCERNING STATUS OF WORK REQUIRED FOR CURRENT INTERVAL.

Table 1 in the report summary section documents the number and type of each examination performed.

No defective tubes were observed during these examinations. A summary of the tubes with indications of degradation is listed in Appendix Band C of this report for SG 31 and 32 respectively. The tubes identified below were plugged as a result of this examination.

The number of tu~es plugged are as follows: SG 31 = 1 tube (Row 48 Line 99)

SG 32 = 3 tubes (Row 47 Line 92)

(Row 46 Line 109)

(Row 45 Line 112)

WE CERTIFY THAT THE STATEMENTS MADE IN THIS REPORT ARE CORRECT AND THE EXAMINATIONS AND CORRECTIVE MEASURES TAKEN CONFORM TO THE RULES OF THE ASME CODE, SECTION XI.

DATEg-as-of SIGNED: ARIZONA PUBLIC SERVICE COMPANYB~

..... ~)_l~~=_-______ _

CERTIFICATE OF INSERVICE INSPECTION I, THE UNDERSIGNED, HOLDING A VALID COMMISSION ISSUED BY THE NATIONAL BOARD OF BOILER AND PRESSURE VESSEL INSPECTORS AND THE STATE OF PROVINCE OF ARIZONA EMPLOYED BY HSB CT OF HARTFORD, CONNECTICUT HAVE INSPECTED THE COMPONENTS DESCRIBED IN THIS OWNERS REPORT DURING THE PERIOD

"'\\-'-0<:\\ TO

'lI-.:l,--oq, AND STATE THAT TO THE BEST OF MY KNOWLEDGE AND BELIEF, THE OWNER HAS PERFORMED EXAMINATIONS AND TAKEN CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT IN ACCORDANCE WITH THE REQUIREMENTS OF THE ASME CODE, SECTION XI. BY SIGNING THIS CERTIFICATE NEITHER THE INSPECTOR NOR HIS EMPLOYER MAKES ANY WARRANTY, EXPRESSED OR IMPLIED, CONCERNING THE EXAMINATIONS AND CORRECTIVE MEASURES DESCRIBED IN THIS OWNERS REPORT.

FURTHERMORE, NEITHER THE INSPECTOR NOR HIS EMPLOYER SHALL BE LIABLE IN ANY MANNER FOR ANY PERSONAL INJURY OR PROPERTY DAMAGE OR A LOSS OF ANY KIND ARISING FROM OR CONNECTED WITH THIS INSPECTION.

INSPECTOR

,z.!l 'i-COMMISSIONS N& q",~s A. *...:!. I. Co Az..2G,<.{

NATL' BOARD, STATE,PROVINCE DATE "t!-.tc. -0<<

30