ML103210208
| ML103210208 | |
| Person / Time | |
|---|---|
| Site: | Palo Verde  |
| Issue date: | 11/08/2010 |
| From: | Weber T Arizona Public Service Co |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| 102-06277-TNW/CJS | |
| Download: ML103210208 (38) | |
Text
Technical Specification 5.6.8 im 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 102-06277-TNW/CJS November 08, 2010 ATTN: Document Control Desk U. S. Nuclear Regulatory Commission Washington, DC 20555-0001
Subject:
Palo Verde Nuclear Generating Station (PVNGS) Unit 1 Docket No. STN 50-528 License No. NPF-41 Steam Generator Tube Inspection Report Attached please find the PVNGS Unit 1 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 1 fifteenth refueling outage.
By copy of this letter, this submittal 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,
'6 TNW/RAS/CJS/gat Attachment cc:
(with attachment)
E. E. Collins Jr.
J. R. Hall L. K. Gibson J. H. Bashore NRC Region IV Regional Administrator NRC NRR Senior Project Manager NRC NRR Project Manager NRC Senior Resident Inspector (acting) for PVNGS j\\e01 A member of the STARS (Strategic Teaming and Resource Sharing) Alliance Callaway 0 Comanche Peak 0 Diablo Canyon
- Palo Verde
- San Onofre
- South Texas 0 Wolf Creek
Attachment Unit I - 1 5 th Refueling Outage Steam Generator Tube Inspection Report
Palo Verde Nudear Generating Station UNIT1 UIR15 ARIZONA PUBLIC SERVICE P. 0. BOX 52034 PHOENIX, AZ 85072 Prepared by: Douglas B Hansen Reviewed by:
Approved by:
Radspin ner, P Digitally signed by Hansen,
- Hansen, Douglas B(z150
,DN: cn=Hansen, Douglas Douglas B, l8(Z4 530)
Reason: am the author of this 1 (Z41530), /
document Date: 5' Date: 2010.10.26 14:56:54 -0700' Digitally signed by Leaverton, Warren Leaverton,
, LOV9783) cDN:n=Leaverton,Warren V(59783)
Date:
Warrpn L(V59783.o,;,o w
d this d-...
ReotD :te:2010,102708:164307'00' Report Date:
-pl-M.k A(Z76778)
ComarrK caSe / v / /c*
-Datýe1-8 a :2010,10,29 10565 1 Commercial Service Date: 1-28-86
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 11
SUMMARY
DATA SHEETS APPENDIX C - SG 12
SUMMARY
DATA SHEETS APPENDIX D - PLI and PLP DATA SHEETS APPENDIX E - PLUG MAPS APPENDIX F - FORM NIS - 1
UNIT 1 STEAM GENERATOR EDDY CURRENT Ul R15 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 15th refueling outage in Unit 1 (U1R15) was conducted during April 2010.
Mode 4 entry of Unit 1 Cycle 16 was entered on May 18, 2010. 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 third examination performed in Unit 1 following steam generator replacement in U1R12. This examination is considered a 100% full length tubing inspection.
The examinations resulted in a total of 18 tubes being plugged in SG 11, and 22 tubes being plugged in SG 12. A description of the previous plugging history is noted in Table 2, and Appendix E provides a map of all tubes plugged.
2.0 Scope of Examinations Performed The original examination plan was developed based on the "PVNGS Steam Generator Degradation Assessment" 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-9RCO1 and the PVNGS Technical Specifications.
The plan was finalized to include 100% bobbin examinations.
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.
4.0 NDE Techniques Utilized The following table documents the site qualified techniques utilized during this outage:
BOBBIN Examination.
Damage Location ETSS QUAL ORIENTATION BC BC TECH Comment Mechanism NO STATUS DET SIZE Wear BWs, VSs, 96004.1 SITE NA Y
Y Volt DIFF None
- ECs, Rev. 12 QUALIFIED 2-2009 Wear Loose Part 27091.2 SITE NA Y
N Volt DIFF None Rev. 0 QUALIFIED 8-2007
.Rotating Coil Examinations Damage Location ETSS QUAL ORIENTATION RC RC TECH Comment Mechanism NO STATUS DET SIZE BWs, ECs, 96910.1 SITE NA Y
Y
+POINT None Wear VSs 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 0.590" 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 secondary data analysis. Anatec International, Inc. provided the primary 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.
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.
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 18 tubes in SG 11 and 22 tubes in SG 12 were plugged this outage.
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-9RCOI, a condition monitoring evaluation was conducted by PVNGS Engineering. 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 1 Cycle
- 15. No tube pulls or insitu pressure testing were required based on the results of the examinations.
Tubesheet Annulus and Blowdown Lane 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 the tubesheet annulus region or the blowdown lane of either SG, since a sludge lancing was performed this outage. On the cold leg side of SG1 1, one (1) sludge rock was identified between tubes R153C60 and R155C60 and could not be removed when contacted, since it was wedged between the tubes. The sludge rock was not observed during eddy current examinations. The loose part location was ECT tested for possible wear indications (plus point and bobbin): no detection was reported. No loose parts were identified in the hot leg side of RSG 11.On the cold leg side of SG12 above the 90 degree handhole (between the divider plate and lug), a 4 1/4" long x 0.10" dia. wire was found and removed. On the hot leg side of SG12 in the vicinity of the 90 degree handhole, a sludge rock was found wedged into the divider plate and removed. Neither of these two parts were observed during eddy current examinations. Also on the hot leg side of SG12 in the blowdown lane near tube R1C138, a piece of what appeared to be weld splatter 1" x 1" x 1/16" was found and removed. Plus Point (rotating coil) inspections were subsequently conducted to further verify that no additional piece(s) were present at these locations. The plus point inspections revealed no additional objects. The exams also
MAP confirmed no evidence of tube degradation. FOSAR also observed two small indications in SG 12 on tubes R1 C 178 and R2C 179 just above the hot leg top of tubesheet in the blowdown lane. These flaws were also identified by bobbin eddy current testing. RPC testing confirmed volumetric degradation on these two tubes and another adjacent tube (R3C 178). The deepest indication depth (R2 C 179) was reported to be 41%TW. The reported depth of the indications on RI C178 and R3 C1 78 was <40%TW. The indication depths were such that structural or leakage integrity was not challenged. All three tubes were plugged.
Also included in the scope of the FOSAR effort was an inspection of the blowdown patch plate welds that were found to be cracked in Unit 2 during U2R15. The inspections confirmed that all 4 patch plates (2 per SG) were cracked, and that the cracks were similar to those found in the Unit 2 SGs (i.e., the patch plate to lug weld was completely compromised and the patch plate to divider plate welds were completely intact). A previous evaluation concluded that there is a high probability that these cracked welds existed in the Unit 1 SGs. The evaluation concluded that, with the presence of the cracked welds, the patch plates in the Unit 1 SGs will continue to perform their design function and that the probability of loose parts being formed is remote. Thus, there is a very low risk that the cracked welds will affect the structural or leakage integrity of tubes in these steam generators.
As noted in Appendix D, there were 3 possible loose part (PLP) locations identified in Steam Generator 11 and 2 possible loose part (PLP) locations identified in Steam Generator 12. All of the PLP calls in SG1 1 were observed in the previous inspection (U1R14) with continued no evidence of wear (R164C75, R165C76, and R3C192). The locations are in areas not accessible by visual exams.
Likewise, both of the PLP calls in SG12 were observed in the previous inspection (R105C104, R108CO15). PVNGS has historically taken the position that if a loose part is detected by ECT or FOSAR, without the presence of wear, it is reasonable to conclude that the required conditions to promote wear do not exist. As a conservative measure, the affected and surrounding tubes were inspected with a supplemental and bounding rotating coil examination to confirm that no tube degradation exists. No additional action was required for these locations and the locations will be tracked for future inspections.
Finally, PVNGS Procedure 81DP-9RCO1 requires, per the EPRI P WR 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 U1Rl5 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.
SCOPE DESCRIPTION SG 11 SG 12 Exam Description Extents Scope Scope COLD LEG TEC-VS3 11293 11292 BOBBIN HOT LEG TEH-VS3 11293 11292 BOBBIN COLD STRAIGHT SECTION TEC-08C 952 952 BOBBIN TEC-BWI 276 278 HOT STRAIGHT SECTION TEH-08H 952 952 BOBBIN TEH-BW1 276 278 HOT STRAIGHT VARIOUS 5
10 RC*
HOT U & SQUARE BEND VARIOUS 127 141 RC*
COLD STRAIGHT VARIOUS 12 10 RC*
COLD U & SQUARE BEND VARIOUS 53 35 RC*
+
4 4-4 Page 7
DAMAGE MECHANISM STEAM GENERATOR 11 STEAM GENERATOR 12 WEAR 1%-20%
138 119 20%-29%
13 20 30%-39%
3 4
> 40%
0 0
PLUGGED (18)
(19)
Possible Loose Parts (RC)
PLI 0
0 PLP 3
2 PLUGGED (0)
(0)
Volumetric Indications SVI/MVI 0
3 PLUGGED (0)
(3)
PREVENTATIVE (0)
(0) 4 4
4 I
4 4
I I
4 4
I I
4 4
4 4
PLUGGED (18)
(22)
TOTALPLUGGED/%
(77 / 0.6%)
(80 / 0.6%)
Page 8
APPENDIX A TUBE SUPPORT DIAGRAM, LEGEND, and ANALYSIS CODES Page 9
PVNGS Steam Generator REPLACEMENTS Typical Spacing BW VSl 5
V '/5 1114C 36.75" 0J3675 "10 02H 3 °°*09 08H
&9 08C BW2 m
i0H 36,3C 2V 04C
=.
0314 36.33r LU. ELU 0214 3633 28.12r 02C 32.25" 01C 01H 2"I 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 I
Inlet Page 10
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 INCH 1 to INCH2 relative to known landmarks such as supports, vertical straps, and batwings. Typical location codes are as follows:
- 1 Vertical Strap........................... VS 1
- 1 Batwing.................................... BW 1
- 1 Support Plate in Hot Leg.............. 0111
- 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 Page 11
Analysis CODES:
A bsolute D rift..................................................................
A D I Bulge..................................................................................
BLG D ented Buff M ark..............................................................
D BM D eposit...............................................................................
D EP D ent....................................................................................
DN T D ata Q uality A cceptance....................................................
D Q A Distorted Support Signal With Indication..........................
DSI Distorted Top of Tubesheet With Indication..................... DTI G eom etric Indication......................................................
G EO ID Chatter...........................................................................
ID C Indication N ot Found.....................................................
IN F Indication N ot Reportable..................................................
INR M ultiple A xial Indication...................................................
M A I M anufacturer Burnishing M ark..........................................
M BM M ixed M ode Indication.....................................................
M M I M ultiple Circum ferential Indication...................................
M C I M ultiple V olum etric Indication..........................................
M V I N o D etectable D efect.........................................................
N D D N o D iscontinuity Found.....................................................
N D F N on-Q uantifiable Indication..............................................
N Q I N o Tube Sheet Expansion..................................................
N TE O bstructed..........................................................................
O B S O ver Expanded..................................................................
O X P Previous Bobbin Call.........................................................
PBC Possible D eposit.................................................................
PD P Positive Identification........................................................
PID Positive Identification V erified..........................................
PIV Possible Loose Part w ith Indication...................................
PLI Possible Loose Part............................................................
PLP Previous RC Call................................................................
PRC Possible Support A nom aly.................................................
PSA Possible Support Indication...............................................
PSI Perm eability V ariation N oise.............................................
PVN Retest B ad D ata..................................................................
RB D Retest Identification Check................................................
RIC Retest w ith M agnetic B ias RC Probe.................................
RM B Single A xial Indication................................................
SA I Single Circum ferential Indication......................................
SCI Single V olum etric Indication.............................................
SV I Senior (Lead) A nalysis Review.....................................
SR Sludge................................................................................
SLG To B e Plugged....................................................................
TBP V olum etric Indication........................................................
V O L Page 12
APPENDIX B STEAM GENERATOR 11
SUMMARY
DATA SHEETS Page 13
SG -
11 ST Max Palo Verlde 1 U11115 PVNGS1!20100401 05/12/2010 13:11:22 4
--- +
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
÷-
-÷---.
÷-
-÷------
+--
80 80 60 60 31 90 90 109 109 86 86 128 128 128 128 113 113 113 115 115 90 118 118 119 119 121 121 90 90 129 129 130 130 135 135 113 113 119 119 127 127 129 129 90 90 90 137 137 21
.24 61 PCT 9
P2 VS4 21 23 23 30 35 35 36 36 37 37 37 37 37 37 38 38 38 38 38 39 39 39 46 46 46 46 49 49 50 50 51 51 52 52 54 54 54 54 54 54 54 54 55 57 57 60 60
.76
.21
.56
.22
.21
.60
.27
.86
.29
.44
.25
.16
.99
.66
.16
.28
.72
.19
.53
.13
.23
.43
.36 1.16
.59 1.12
.22
.53
.26
.63
.20
.60
.26
.69
.43
.65
.35
.77
.20
.50
.29
.89
.19
.49
.88
.26 1.00 86 PCT 98 PCT 85 PCT 65 PCT 101 PCT 247 PCT 123 PCT 79 PCT 132 PCT 116 PCT 112 PCT 124 PCT 75 PCT 92 PCT 134 PCT 87 PCT 82 PCT 132 PCT 83 PCT 58 PCT 45 PCT 76 PCT 120 PCT 83 PCT 120 PCT 92 PCT 59 PCT 240 PCT 116 PCT 84 PCT 105 PCT 91 PCT 105 PCT 77 PCT 112 PCT 73 PCT 107 PCT 96 PCT 144 PCT 79 PCT 108 PCT 81 PCT 75 PCT 132 PCT 108 PCT 120 PCT 86 PCT 15 7
11 8
10 12 12 16 9
10 11 8
17 13 7
11 14 7
10 7
9 10 12 20 17 19 8
10 9
12 8
12 10 13 12 14 10 15 8
10 10 16 8
15 16 12 18 P3 VS4 P2 VS3 P3 VS3 P2 VS3 P2 10H P3 10H P2 VS2 P3 VS2 P2 VS4 P3 VS4 P2 VS2 P2 VS3 P3 VS2 P3 VS3 P2 VS3 P2 VS2 P3 VS2 P2 VS2 P3 VS2 P2 10H P2 BW2 P3 BW2 P2 VS2 P3 VS2 P2 VS2 P3 VS2 P2 10H P3 10H P2 VS2 P3 VS2 P2 VS3 P3 VS3 P2 VS1 P3 VS1 P2 VS4 P3 VS4 P2 VS4 P3 VS4 P2 VS2 P3 VS2 P2 VS1 P3 VS1 P2 10H P2 IH P3 1OH P2 VS1 P3 VS1 169
!94 137
!37 191
-1!73
-1:73
-1:52
-1i06
-.83
-1!=05 256 i61 82 96
-g9o
-1.04
- '85
-1224
-1200
-1 47
-,82
- 185
-,44
-:50
- !88
-2190
-1161
-1. 20
-j54
- i68 1200
-.71
-.84 1.04
.91 1.'03 1.,01
.,42
.33
-.87
-.70
- 1.56
-1. 58
-1.148
-1
.015
-i1.!0 VS3 TEC
.17 VS4 VS4 VS3 TEC
.41 VS3 VS3 VS3 TEC VS3 TEH
.34 09H VS2 VS3 TEH
.23 VS2 VS2 VS3 TEC
.17 VS4 VS4 VS3 TEH VS3 TEH
.34 VS2 VS2
.21 VS3 VS3 VS3 TEC VS3 TEH
.29 VS2 VS2 VS3 TEH
.50 VS2 VS2 VS3 TEH VS3 TEC
.14 09C VS5 VS3 TEH
.36 VS2 VS2 VS3 TEH
.18 VS2 VS2 VS3 TEH
.48 09H VS2 VS3 TEH
.49 VS2 VS2 VS3 TEH
.31 VS3 VS3 VS3 TEH
.24 VS1 VS1 VS3 TEC
.41 VS4 VS4 VS3 TEC
.33 VS4 VS4 VS3 TEH
.21 VS2 VS2 VS3 TEH
.31 VS1 VS1 VS3 TEH VS3 TEH
.33 VS3 TEH VS3 TEH
.34 VS1 VS1
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 ZBAZC
.610 ZBAZC
.580 NPUFZ
.580 NPUFZ
.610 NBAZC
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.610 ZBAZC
.580 NPUFZ
.610 ZBAZC
.580 NPUFZ 37 Cl 82 Cl 38 CI 65 H
1 CI 45 HI 65 HI 45 HI 65 HI 36 CI 82 Cl I
29 HI 29 HI 65 HI 65 H I 1
CI 44 HI 65 HI 44 HI 65 HI 45 HI 43 CI 82 CI 32 HI 65 HI 32 HI 65 HI 32 HI 65 HI 32 HI 65 HI 33 HI 65 HI 33 HI 65 HI 44 CI 82 CI 44 CI 82 CI 28 HI 65 HI 28 HI 65 HI 33 HI 32 HI 64 HI 29 HI 65 HI
÷
÷..
÷.---
+----+----+----+-
-+
÷--
+--------
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT'ENDT PDIA PTYPE CAL LI
+----
+
+
Page 14 1
ST Max
SG - 11 ST Max Palo Verde 1 U1R15 PVNGS1' 20100401 05/12/2010 13:11:22 j
+-------------------------+---+----+-----+-----+----+---+---+
---+
+
+
+--------
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+........---
+---.
+----.----.--------..---+........-....---------+.---+----+-
+-
-+------
139 62
.25 92 PCT 9
P2 VS1
-i.79 VS3 TEH
.610 ZBAZC 28 HI 139 62
.76 100 PCT 14 P3 VS1
-. 93
.37 VS1 VS1
.580 NPUFZ 65 HI 132 63
.22 126 PCT 9
P2 11H
-1;.77 VS3 TEH
.610 NBAZC 25 HI i111 66
.21 141 PCT 8
P2 VS3
-.60 VS3 TEH
.610 ZBAZC 30 HI i111 66
.67 79 PCT 13 P3 VS3
.82
.37 VS3 VS3
.580 NPUFZ 65 HI iI 132 67
.32 90 PCT 12 P2 11H
-11.77 VS3 TEH
.610 NBAZC 25 HI LI 90 69
.26 106 PCT 10 P2 10H
-11.41 VS3 TEH
.610 ZBAZC 30 HI 130 69
.27 111 PCT 12 P2 VS1
-179 VS3 TEH
.610 ZBAZC 27 HI 130 69
.88 98 PCT 16 P3 VS1
-. 67
.36 VS1 VS1
.580 NPUFZ 64 HI 119 70
.43 100 PCT 15 P2 VS2
-1203 VS3 TEH
.610 NBAZC 25 HI 119 70 1.11 286 PCT 19 P3 VS2
-!69
.33 VS2 VS2
.580 NPUFZ 64 HI 59 74
.25 70 PCT 9
P2 BW1 1105 VS3 TEH
.610 ZBAZC 30 HI 59 74
.72 93 PCT 13 P3 BW1 181
.29 08H VS2
.580 NPUFZ 63 HI 90 75
.23 109 PCT 11 P2 10H
-1146 VS3 TEH
.610 ZBAZC 31 HI 90 75
.70 92 PCT 13 P3 10H
-1P19
.20 09H VS2
.580 NPUFZ 63 HI 134 75
.21 113 PCT 9
P2 VS1
-1:41 VS3 TEH
.610 NBAZC 25 HI II 163 76
.35 120 PCT 13 P2 BW2
-190 VS3 TEC
.610 NBAZC 60 C0 163 76
.85 104 PCT 18 P3 BW2
-i90
.21 10C VS5
.580 NPUFZ 84 C0 90 77
.29 89 PCT 11 P2 10H
-1266 VS3 TEH
.610 ZBAZC 30 HI 90 77
.72 92 PCT 13 P3 1AH
-1;72
.17 09H VS2
.580 NPUFZ 63 HI 25 78
.31 56 PCT 10 P2 BW1
-1209 VS3 TEH
.610 NBAZC 1
HI 25 78
.28 51 PCT 9
P2 BW2
-1!23 VS3 TEC
.610 NBAZC 6
C0 25 78
.70 113 PCT 13 P3 BW1
-179
.14 07H VS3
.580 NPUFZ 63 HI 25 78
.63 90 PCT 13 P3 BW2
-275
.16 07C BW2
.580 NPUFZ 81 C0 38 79
.14 344 PCT 5
P2 VS3
-1:01 VS3 TEC
.610 NBAZC 1
C0 iI 40 79
.31 104 PCT 13 P2 VS3
.62 VS3 TEH
.610 NBAZC 2
HI 40 79
.59 92 PCT 11 P3 VS3
.167
.16 VS3 VS3
.580 NPUFZ 63 HI
!I 90 79
.19 78 PCT 9
P2 10H
-1237 VS3 TEH
.610 ZBAZC 31 HI 90 79
.53 81 PCT 10 P3 10H
-1159
.20 09H VS2
.580 NPUFZ 63 HI 132 79
.18 38 PCT 8
P2 11H
-1245 VS3 TEH
.610 NBAZC 25 HI 132 79
.42 106 INR 8
P3 11H
-1262 10H VS1
.580 NPUFZ 62 HI 31 80
.37 125 PCT 15 P2 BW1
-180 VS3 TEH
.610 NBAZC 2
HI 31 80
.75 90 PCT 14 P3 BW1
-. 84
.14 07H VS3
.580 NPUFZ 63 HI 1 167 80
.38 91 PCT 10 P2 BW2
-. '88 VS3 TEC
.610.
NBAZC 61 C0 167 80
.87 103 PCT 18 P3 BW2'
-.:88
.36 10C VS5
.580 NPUFZ 84 CI 60 81
.48 118 PCT 15 P2 BW1
,199 VS3 TEH
.610 ZBAZC 30 HI 60 81 1.31 91 PCT 21 P3 BW1 1.i21
.29 08H VS2
.580 NPUFZ 63 HI lI 136 81
.18 142 PCT 9
P2 VS2
.'49 VS3 TEH
.610 ZBAZC 27 HI 136 81
.69 90 PCT 13 P3 VS2
.87
.44 VS2 VS2
.580 NPUFZ 62 HI FI 164 81
.22 49 PCT 10 P2 BW1
.!57 VS3 TEH
.610 ZBAZC 27 HI 164 81
.71 106 PCT 13 P3 BW1
.!48
.39 10H VS1
.580 NPUFZ 62 Hi 35 82
.33 107 PCT 11 P2 BW1
-.,83 VS3 TEH
.610 NBAZC 1
HI 35 82
.55 93 PCT 10 P3 BW1
-. 188
.17 07H VS3
.580 NPUFZ 63 HI 47 82
.20 127 PCT 9
P2 BW1
.195 VS3 TEH
.610 NBAZC 2
HI 44 83
.19 137 PCT 9
P2 BW1
-. 198 VS3 TEH
.610 NBAZC 2
HI 44 83
.33 '123 PCT 13 P2 BW1
.192 VS3 TEH
.610 NBAZC 2
HI
+-----------------
+---+---+
+
+
I ROW COL VOLTS DEG IND PER CHN LOCN INCHI INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+- - - -
+
-+--"---
+-
-+
Page15 12 ST Max
SG - 11 ST Max Palo Verde 1 U1R15 PVNGS1!20100401 05/12/2010 13:11:22
+------------+
+-------+-
+-
ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI i
+----------+-----+.
+--
-+---------+------+------------------
+-.....
44 83
.68 93 PCT 12 P3 BW1 1iii
.27 07H VS3
.580 NPUFZ 63 HI 48 83
.41 131 PCT 16 P2 BW1 1103 VS3 TEH
.610 NBAZC 2
HI 48 83
.19 87 PCT 9
P2 VS3
-182 VS3 TEH
.610 NBAZC 2
HI 48 83
.57 113 PCT 11 P3 BW1 176
.34 08H VS3
.580 NPUFZ 63 HI 48 83
.56 82 PCT 11 P3 VS3
-173
.22 08H VS3
.580 NPUFZ 63 HI 90 83
.18 109 PCT 9
P2 10H
-1!07 VS3 TEH
.610 ZBAZC 31 Hi 90 83
.60 71 PCT 11 P3 10H
-1!32
.17 09H VS2
.580 NPUFZ 63 HI 1 166 83
.25 67 PCT 10 P2 BW1
!94 VS3 TEH
.610 NBAZC 25 HI 1 166 83
.56 117 PCT 11 P3 BW1 1115
.23 10H VS1
.580 NPUFZ 62 HI 1 47 84
.69 104 PCT 19 P2 BW1 169 VS3 TEH
.610 NBAZC 1
HI 1 47 84 1.32 99 PCT 21 P3 BW1 i78
.31 07H VS3
.580 NPUFZ 62 HI 1 132 85
.15 60 PCT 6
P2 11C
-1152 VS3 TEC
.610 NBAZC 1
CI 1 39 86
.48 128 PCT 15 P2 VS3
-1202 VS3 TEC
.610 NBAZC 1
Cf 1 39 86 1.16 87 PCT 19 P3 VS3
-1107
.41 VS3 VS3
.. 580 NPUFZ 63 HI I
~iI 1 43 86
.32 144 PCT 13 P2 BW1 190 VS3 TEH
.610 NBAZC 2
HI 1 43 86
.65 82 PCT 12 P3 BW1 1O00
.22 07H VS3
.580 NPUFZ 63 HI 1 45 86
.27 146 PCT 12 P2 BW1 i88 VS3 TEH
.610 NBAZC 2
Hi 45 86
.43 105 INR 8
P3 BW1 287 07H VS3
.580 NPUFZ 62 Hf 46 87
.27 132 PCT 12 P2 BW1 J87 VS3 TEH
.610 NBAZC 2
HI 46 87
.81 90 PCT 15 P3 BW1 282
.25 07H VS3
.580 NPUFZ 63 Hf
~I 48 87
.29 119 PCT 11 P2 09C
-1.'47 VS3 TEC
.610 NBAZC 1
CO 1 48 87
.44 117 PCT 10 P3 09C
-1.47
.23 08C BW2
.580 NPUFZ 81 CO II 1 43 88
.16 114 PCT 6
P2 BW1
.86 VS3 TEH
.610 NBAZC 1
HI 1 43 88
.21 145 PCT 9
P2 BW2
-. 75 VS3 TEC
.610 NBAZC 5
CI 45 88
.26 123 PCT 11 P2 BW1
.82 VS3 TEH
.610 NBAZC 2
Hf 45 88
.66 85 PCT 12 P3 BW1 J77
.27 07H VS3
.580 NPUFZ 63 HI 44 89
.22 141 PCT 8
P2 BW1
-. 177 VS3 TEH
.610 NBAZC 1
HI 46 89
.16 67 PCT 8
P2 BW1
-. i96 VS3 TEH
.610 NBAZC 2
Hf 43 90
.18 49 PCT 7
P2 BW1
-. 176 VS3 TEH
.610 NBAZC 1
Hi iI 1 167 90
.28 93 PCT 11 P2 BW2
-. 197 VS3 TEC
.610 NBAZC 62 CO 1 167 90
.72 105 PCT 16 P3 BW2
-. i97
.42 10C VS5
.580 NPUFZ 84 CO 48 91
.25 87 PCT 9
P2 09C
-1.134 VS3 TEC
.610 NBAZC 1
CI 82 91
.25 67 PCT 9
P2 VS3
.65 VS3 TEC
.610 NBAZC 1
CO 82 91
.72 87 PCT 13 P3 VS3
.75
.25 VS3 VS3
.580 NPUFZ 62 HI 136 91
.21 74 PCT 10 P2 VS1
-. 140 VS3 TEH
.610 ZBAZC 22 HI 136 91
.56 91 PCT 11 P3 VS1
-. 137
.25 VS1 VS1
.580 NPUFZ 62 HI 132 93
.32 138 PCT 12 P2 11C
-1,93 VS3 TEC
.610 NBAZC 62 CI 132 93
.55 98 PCT 13 P3 11C
-1.193
.36 10C VS5
.580 NPUFZ 84 CI 48 95
.28 128 PCT 9
P2 BW2
.:76 VS3 TEC
.610 NBAZC 8
C0 48 95
.76 112 PCT 15 P3 BW2
.,85
.34 08C BW2
.580 NPUFZ 81 CI 127 96
.21 56 PCT 8
P2 VS1
.78 VS3 TEH
.610 NBAZC 21 HI 51 98
.15 84 PCT 6
P2 BW2
-179 VS3 TEC
.610 NBAZC 9
CO 143 98
.26 131 PCT 12 P2 VS1
.76 VS3 TEH
.610 ZBAZC 2.2 Hf 143 98
.90 83 PCT 16 P3 VS1
.172
.27 VS1 VS1
.580 NPUFZ 62 HI
!I 48 99 1.11 112 PCT 25 P2 BW2 1.130 VS3 TEC
.610 NBAZC 8
Cf 48 99 1.97 88 PCT 29 P3 BW2
.'87
.58 08C VS3
.580 NPUFZ 82 C0
+----.--.
1
+-
+
+-----
+--+-----"-"---
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+----+------------.+.........---
+---.+--+--
-+------
Page 16 13 ST Max
SG -
11 ST Max Palo Verde 1 UlRl5 PVNGS1120100401 05/12/2010 13:11:22
+-----+----+-----+-----+-
r
+---+
+----
+
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI 4-56 99
.39 67 PCT 15 P2 VS3
-1,.05 VS3 TEH
.610 ZBAZC 24 HI 56 99
.56 119 PCT 11 P3 VS3
-1l.18
.26 VS3 VS3
.580 NPUFZ 62 HI 56 99 1.18 101 PCT 20 P3 VS3
-;.80
.26 VS3 VS3
.580 NPUFZ 62 HI 68 99 1.63 95 PCT 31 P2 VS3
-. 82 VS3 TEC
.610 NBAZC 1
CI 68 99 2.58 94 PCT 34 P3 VS3
-!.84
.56 VS3 VS3
.580 NPUFZ 62 HI
~I 171 100
.49 104 PCT 16 P2 02C
-1.07 VS3 TEC
.610 NBAZC 1
C0 171 100 1.35 102 PCT 22 P3 02C 208
.61 02C 02C
.600 ZPAHZ 80 CI i
I 48 101
.16 84 PCT 8
P2 BW1 i80 VS3 TEH
.610 NBAZC 3
HI 48 101
.26 137 PCT 10 P2 VS3 183 VS3 TEH
.610 NBAZC 3
HI 48 101
.23 111 PCT 8
P2 09C
-1127 VS3 TEC
.610 NBAZC 10 CI 48 101
.58 95 PCT 11 P3 VS3 176
.26 08H VS3
.580 NPUFZ 62 HI 146 101
.18 125 PCT 7
P2 VS2
-163 VS3 TEH
.610 NBAZC 21 HI 146 101
.36 109 INR 7
P3 VS2
-1110 VS2 VS2
.580 NPUFZ 62 HI 168 101
.49 64 PCT 16 P2 01C
-!93 VS3 TEC
.610 NBAZC 64 CI 168 101 1.06 101 PCT 19 P3 01C
-1l07
.47 01C 01C
.600 ZPAHZ 80 CI 48 103
.61 101 PCT 18 P2 VS3
-!76 VS3 TEC
.610 NBAZC 1
CI 48 103
.27 80 PCT 10 P2 VS3 190 VS3 TEC
.610 NBAZC 1 C0 48 103
.89 109 PCT 22 P2 09C
-1174 VS3 TEC
.610 NBAZC I
CI 48 103
.36 113 PCT 12 P2 BW1
-!89 VS3 TEH
.610 NBAZC 3
HI 48 103
.46 83 INR 9
P3 BW1
-1 17 08H VS3
.580 NPUFZ 62 HI 48 103
.98 109 PCT 17 P3 VS3
-166
.46 08H VS3
.580 NPUFZ 62 HI 48 103
.60 82 PCT 11 P3 VS3 i96
.13 08H VS3
.580 NPUFZ 62 HI 48 103
.94 105 PCT 18 P3 09C
-1173
.26 08C BW2
.580 NPUFZ 82 CI 150 103
.15 120 PCT 8
P2 10H
-:20 VS3 TEH
.610 ZBAZC 22 HI 48 105
.77 104 PCT 21 P2 VS3 165 VS3 TEC
.610 NBAZC 1
CO 48 105
.21 142 PCT 8
P2 BW2 i31 VS3 TEC
.610 NBAZC 1
Cf 48 105
.52 126 PCT 16 P2 BW2 173 VS3 TEC
.610 NBAZC 1
CO 48 105
.41 111 PCT 14 P2 09C
-1;80 VS3 TEC
.610 NBAZC 1
CO 48 105 1.42 105 PCT 32 P2 BW1
-lP18 VS3 TEH
.610 NBAZC 4
HI 48 105 1.26 113 PCT 21 P3 BW1
-1122
.45 08H VS3
.580 NPUFZ 62 HI 48 105
.72 97 PCT 13 P3 VS3 157
.38 08H VS3
.580 NPUFZ 62 Hf.
48 105
.96 96 PCT 17 P3 VS3 J68
.83 08H VS3
.580 NPUFZ 62 HI 48 105
.93 99 PCT 17 P3 BW2 152
.26 08C VS3
.580 NPUFZ 82 CO 48 105
.60 92 PCT 13 P3 09C
-1165
.36 08C BW2
.580 NPUFZ 82 CO 47 106
.23 122 PCT 9
P2 VS3
- 23 VS3 TEC
.610 NBAZC 1
C0 47 106 1.05 109 PCT 25 P2 BW2
-j63 VS3 TEC
.610 NBAZC 1
CO 47 106
.21 125 PCT 8
P2 BW2
- :22 VS3 TEC
.610 NBAZC 1
CO 47 106
.22 150 PCT 8
P2 BW1
-:83 VS3 TEH
.610 NBAZC 3
HI 47 106
.36 117 PCT 12 P2 BW1
,57 VS3 TEH
.610 NBAZC 3
HI 47 106
.79 *106 PCT 14 P3 BW1 J76
.29 07H VS3
.580 NPUFZ 61 HI 47 106
.85 93 PCT 15 P3 VS3 03
.44 07H VS3
.580 NPUFZ 61 HI 47 106 1.01 97 PCT 19 P3 BW2
-1103
.41 07C BW2
.580 NPUFZ 82 CI 48 107
.26 84 PCT 10 P2 BW1
-,89 VS3 TEH
.610 NBAZC 3
Hi 48 107
.16 70 PCT 6
P2 VS3
-,.72 VS3 TEH
.610 NBAZC 3
Hi 48 107
.15 111 PCT 6
P2 VS3
.13 VS3 TEH
.610 NBAZC 3
HI 48 107
.39 101 PCT 13 P2 09C
-1.,41 VS3 TEC
.610 NBAZC 9
CI 48 107
.58 103 PCT 11 P3 BW1
-,90
.26 08H VS3
.580 NPUFZ 61 HI 48 107
.52 88 PCT 11 P3 09C
-1.,58
.23 08C BW2
.580 NPUFZ 82 COI 50 107
.16 102 PCT 7
P2 BW1
.155 VS3 TEH
.610 NBAZC 3
HI i
I 96 107
.54 101 PCT 17 P2 VS4
-.,45 VS3 TEC
.610 NBAZC 54 CI 96 107
.93 90 PCT 18 P3 VS4
-. 191
.38 VS4 VS4
.580 NPUFZ 82 CO 51 108
.22 121 INR 9
P2 VS3
.'59 VS3 TEC
.610 NBAZC 1
CI 48 109
.55 101 PCT 17 P2 VS3
.76 VS3 TEC
.610 NBAZC 1
CI 48 109
.62 105 PCT 18 P2 09C
-1.49 VS3 TEC
.610 NBAZC 1
CI 48 109
.57 96 PCT 20 P2 BW1
-1.(10 VS3 TEH
.610 NBAZC 4
HI 48 109
.64 60 PCT 12 P3 BW1
-J.98
.19 08H VS3
.580 NPUFZ 61 HI
-+-- -
I ROW COL VOLTS.
DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
.4..4.---------+-----
+----
+-
-+ ------ -
+------------------
Page 17 14q ST Max
SG -
11 ST Max Palo Verde 1 U11115 PVNGS1;20100401 I
05/1212010 13:11:22
+
+----+---
+---+
--- +
I ROW COL VOLTS DEG IND PER CHN LOCN INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
÷
÷
÷---------
÷----+
-÷
÷-
-÷.
+-
+.÷---+
.-. ÷
.÷--
÷ 48 48 47 47 47 47 48 48 48 97 165 165 48 48 132 132 59 59 46 46 48 48 90 90 140 38 38 48 90 37 37 39 39 109 109 110 110 110 110 111 ill 111 112 112 112 113 113 113 115 116 116 117 117 117 117 117 117 117 119 119 119 119 120 120 120 120
.83
.72
.21
.97 1.51
.49
.30
.42
.75
.13
.23
.52
.32
.48
.16
.15 1.66 1.79
.22
.79
.26
.47
.19
.51
.14
.43
.52
.22
.18 1.18 1.81
.53
.57 100 96 61 122 107 105 95 116 84 116 74 114 106 86 127 33 103 80 147 82 90 97 102 84 141 128 126 103 107 125 109 120 118 PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT INR PCT PCT PCT PCT PCT PCT PCT PCT PCT 15 P3 VS3 15 8
24 24 11 11 14 16 6
9 10 11 10 6
7 31 26 10 14 10 10 9
9 5
14 10 9
7 29 27 16 12 P3 P2 P2 P3 P3 P2 P2 P3 P2 P2 P3 P2 P3 P2 P2 P2 P3 P2 P3 P2 P3 P2 P3 P2 P2 P3 P2 P2 P2 P3 P2 P3 09C BW2 BW1 BWl BW2 VS3 09C VS3 BW1 BW1 BW1 09C 09C 11H 11H VS3 VS3 VS3 VS3 09C 09C 10H 10H VS1 BW1 BW1 09C 10H BW1 BW1 BW2 BW2
ý78
-1962 170
-!87
-176 198
!76
-1137
- 76
-:53
-'68
-1107
-1151
-1!169
-1165
-1154 183
- 97 58 1 08
-1i48
-1161
-1 J62
-1 69 1.113 1!1
-1112
-182
-1157
-1158
-1.05 38
-176
-184
.44 08H VS3
.21 08C VS3 VS3
.29 07H
.16 07C VS3 VS3
.38 VS3 VS3 VS3
.24 10H VS3
.21 08C VS3 VS3 VS3
.27 VS3 VS3
.65 VS3 VS3
.23 08C VS3 09H VS3 VS3
.17 07H VS3 VS3 VS3
.26 07H VS3
.29 07C BW2 TEC TEH VS3 BW2 TEC TEC VS3 TEH TEH VS1 TEC BW2 TEH TEH TEC VS3 TEH VS3 TEC BW2 TEH VS2 TEH TEH VS3 TEC TEH TEH VS3 TEC BW2
.580 NPUFZ 61 HI
.580 NPUFZ 82 Cf1
.610 NBAZC 1
CI
.610 NBAZC 3
HI
.580 NPUFZ 61 HI
.580 NPUFZ 82 CI
.610 NBAZC 1
C
.610 NBAZC 1
CI
.580 NPUFZ 84 CI
.610 NBAZC 17 HI
.610 NBAZC 21 HI
.580 NPUFZ 62 HI
.610 NBAZC 1
CI
.580 NPUFZ 82 CI
.610 N8AZC 19 Hf
.610 ZBAZC 20 Hf
.610 NBAZC 1 CI
.580 NPUFZ 60 HI
.610 NBAZC 4
HI
.580 NPUFZ 60 HI
.610 NBAZC 1
Cf
.580 NPUFZ 82 Cf
.610 NBAZC 16 H
.580 NPUFZ 60 Hf
.610 NBAZC 19 HI
.610 NBAZC 3
Hf
.580 NPUFZ 61 Hf
.610 NBAZC 9
Cf
.610 NBAZC 15 H
.610 NBAZC 4
HI
.580 NPUFZ 61 HI 1
.610 NBAZC 1
CI
.580 NPUFZ 82 CI 41 120
.23 131 PCT 8
P2 BW2
-1110 VS3 TEC
.610 NBAZC 10 CI 151 120
.22 73 PCT 8
P2 VS1
-:91 VS3 TEH
.610 NBAZC 19 Hf 151 120
.56 99 PCT 11 P3 VSI
-.179
.50 VSI VS1
.580 NPUFZ 60 Hf 38 121
.35 126 PCT 14 P2 VS3 158 VS3 TEH
.610 NBAZC 4
HI 38 121
.77 95 PCT 14 P3 VS3 128
.28 VS3 VS3
.580 NPUFZ 61 HI 40 121
.29 112 PCT
.11 P2 BW2
-. '69 VS3 TEC
.610 NBAZC 1
Cf 40 121
.43 123 PCT 10 P3 BW2
!.85
.13 07C BW2
.580 NPUFZ 82 Cf 35 122
.31 105 PCT 11 P2 BW1
- :90 VS3 TEH
.610 NBAZC 3
H.
35 122
.59 85 PCT 11 P3 BW1
-j74
.11 07H VS3
.580 NPUFZ 61 Hf 37 122
.15 118 PCT 6
P2 BW2
-1100 VS3 TEC
.610 NBAZC 9
Cf 1 34 123
.41 103 PCT 14 P2 BW2
-!163 VS3 TEC
.610 NBAZC 1
Cf 34 123
.69 95 PCT 14 P3 BW2
-.87
.15 07C BW2
.580 NPUFZ 82 Cf 36 123
.20 48 PCT 8
P2 BW1 1128 VS3 TEH
.610 NBAZC 3
HI
+----
I -
+---+
--- +
+
I I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL Lf
+------+
+----+-
+---+
---+
Page 18
- 5 ST Max
SG -
11 ST Max Palo Verde 1 U1R15 PVNGS120100401 05/12/2010 13:11:22
+----
+
i -
+-
ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI I
~iI
+---
F..
+-...
+-..--
-+
÷...
++....+-
+-
-÷
÷-
I 48 123
.24 77 PCT 9
P2 09C
-1134 VS3 TEC
.610 NBAZC 1
CI I
i I
35 124
.34 123 PCT 14 P2 BW1
-1205 VS3 TEH
.610 NBAZC 4
HI 35 124
.73 123 PCT 13 P3 BW1
-177
.19 07H VS3
.580 NPUFZ 61 HI 163 124
.38 109 PCT 13 P2 BW2
-177 VS3 TEC
.610 NBAZC 66 CI 163 124
.64 106 PCT 14 P3 BW2
- :77
.47 10C VS5
.580 NPUFZ 84 CI iI 165 124
.51 98 PCT 16 P2 BW2
-. 85 VS3 TEC
.610 NBAZC 66 CI 165 124 1.06 94 PCT 20 P3 BW2
-.84
.27 10C VS5
.580 NPUFZ 84 CI II 28 125
.16 116 PCT 8
P2 BW1 1;45 VS3 TEH
.610 NBAZC 4
Hi 165 126
.47 89 PCT 14 P2 BW2
-1;14 VS3 TEC
.610 NBAZC 67 C1 165 126
.92 103 PCT 19 P3 BW2
-1114
.38 10C VS5
.580 NPUFZ 84 CI 124 127
.23 49 PCT 9
P2 BW2
-195 VS3 TEC
.610 NBAZC 1
CI EI 165 128
.21 137 PCT 8
P2 BW1
-1104 VS3 TEH
.610 NBAZC 17 HI 165 128
.57 98 PCT 10 P3 BW1
-1105
.27 10H VS1
.580 NPUFZ 60 HI 165 128
.27 99 PCT 10 P2 BW2
-:90 VS3 TEC
.610 NBAZC 66 CI 165 128
.56 91 PCT 13 P3 BW2
-:90
.38 10C VS5
.580 NPUFZ 84 CI 90 129
.18 41 PCT 9
P2 10H
-1J61 VS3 TEH
.610 NBAZC 16 HI 90 129
.58 103 PCT 10 P3 10H
-1149
.17 09H VS2
.580 NPUFZ 60 HI 132 129
.21 85 PCT 8
P2 VS1
-129 VS3 TEH
.610 NBAZC 19 HI 90 131
.13 88 PCT 4
P2 09H
-. 76 VS3 TEH
.610 NBAZC 15 HI 1 164 131
.28 70 PCT 11 P2 BW2 185 VS3 TEC
.610 NBAZC 66 Cl 1 164 131
.44 117 PCT 11 P3 BW2 185
.18 10C VS5
.580 NPUFZ 84 CI IiI 126 133
.18 100 PCT 7
P2 VS2 1159 VS3 TEH
.610 NBAZC 19 HI 136 133
.13 123 PCT 5
P2 VS1
.73 VS3 TEH
.610 NBAZC 19 HI 90 135
.23 65 PCT 9
P2 10H
-1.!52 VS3 TEH
.610 NBAZC 15 HI 104 135
.29 107 PCT 11 P2 VS2 281 VS3 TEH
.610 NBAZC 15 HI 104 135
.91 86 PCT 15 P3 VS2 1208
.42 VS2 VS2
.580 NPUFZ 60 HI 12 137
.20 117 PCT 7
P2 05H
- 43 VS3 TEH
.610 ZBAZC 40 HI 12 137
.52 94 PCT 10 P3 05H 108
.40 05H 05H
.600 ZPAHZ 58 HI 90 137
.23 120 PCT 10 P2 10H
-1174 VS3 TEH
.610 NBAZC 12 HI 90 137
.59 98 PCT 11 P3 10H
-1:90
.11 09H VS2
.580 NPUFZ 60 HI 1 130 137
.19 107 PCT 8
P2 VS1 1205 VS3 TEH
.610 NBAZC 17 HI II 158 141
.34 116 PCT 10 P2 BW2
-J80 VS3 TEC
.610 NBAZC 57 Cl 158 141
.55 105 PCT 13 P3 BW2
-. '80
.24 10C VS5
.580 NPUFZ 84 CI 141 144
.21 125 PCT 8
P2 VS3
-. 86 VS3 TEC
.610 NBAZC 1
CI 141 144
.66 87 PCT 12 P3 VS3
-. !82
.29 VS3 VS3
.580 NPUFZ 60 HI 115 148
.30 112 PCT 11 P2 VS3
-. 186 VS3 TEC
.610 NBAZC 1
CI 115 148
.76 91 PCT 13 P3 VS3
-J.76
.47 VS3
- VS3
.580 NPUFZ 60 HI 58 149
.29 142 PCT 11 P2 BW1
.56 VS3 TEH
.610 NBAZC 5
HI 58 149
.85 97 PCT 15 P3 BW1 204
.37 08H VS3
.580 NPUFZ 61 HI
~I 101 150
.28 101 PCT 8
P2 VS3
-.161 VS3 TEC
.610 NBAZC 24 CI I109 150
.21 120 PCT 7
P2 VS3
-. 60 VS3 TEO
.610 NBAZC 24 CI 70 151
.20 130 PCT 8
P2 VS2
.177 VS3 TEH
.610 NBAZC 11 HI 102 151
.28 137 PCT 10 P2 VS2
.161 VS3 TEH
.610 NBAZC 11 HI
+-------+----
+-
I -
+---+
--- +----
+
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI Pa9---
I T---------
Page 19 6
ST Max
SG -
11 ST Max Palo Verde 1 U1R15 PVNGSli201004@1 05/12/2010 13:11:22
+--.-+
+-----+-
7-
+---+
+
+
i IROW COL VOLTS DEG IND PER CHN LOCN INCHi' INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI 132 153
.39 127 PCT 13 P2 11H
-1155 VS3 TEH
.610 NBAZC 13 HI 132 153
.84 77 PCT 14 P3 11H
-1l82
.28 10H VS1
.580 NPUFZ 60 HI 90 155
.23 83 PCT 9
P2 10H
-1158 VS3 TEH
.610 NBAZC 11 HI 90 155
.56 86 PCT 10 P3 10H
-1140
.19 09H VS2
.580 NPUFZ 60 Hi II I109 158
.21 32 POT 7
P2 VS4
-162 VS3 TEC
.610 NBAZC 24 CI I109 158
.66 104 POT 14 P3 VS4
- :62
.29 VS4 VS4
.580 NPUFZ 84 CI 106 161
.24 143 PCT 8
P2 BW2
-1142 VS3 TEC
.610 NBAZC 24 CI 106 161
.44 101 PCT 11 P3 BW2
-1142
.32 09C VS4
.580 NPUFZ 84 CI 108 161
.23 103 PCT 7
P2 BW2
-1187 VS3 TEC
.610 NBAZC 24 CI 108 161
.45 101 PCT 10 P3 BW2
-1180
.42 09C VS4
.580 NPUFZ 82 Cl II I115 164
.19 56 POT 8
P2 BW2
!58 VS3 TEC
.610 NBAZC 25 CI 132 165
.64 113 PCT 19 P2 11H 1105 VS3 TEH
.610 NBAZC 13 HI 132 165 1.23 84 PCT 21 P3 11H 1100
.41 10H VS1
.580 NPUFZ 65 HI 134 165
.19 62 PCT 8
P2 VS3
!59 VS3 TEC
.610 NBAZC 23 C0 134 165
.53 91 PCT 10 P3 VS3
!92
.22 VS3 VS3
.580 NPUFZ 61 HI 106 177
.21 34 PCT 7
P2 BW2
-1102 VS3 TEC
.610 NBAZC 22 C0 I
I 112 177
.19 39 PCT 6
P2 BW2
-189 VS3 TEC
.610 NBAZC 22 CI 104 179
.15 92 PCT 7
P2 BW2
-195 VS3 TEC
.610 NBAZC 21 CI I
87 180
.51 117 PCT 16 P2 BW1 1100 VS3 TEH
.610 NBAZC 9
HI 87 180
.85 265 PCT 15 P3 BW1 1107
.05 08H VS2
.580 NPUFZ 59 HI 83 184
.21 78 PCT 9
P2 BW1 1122 VS3 TEH
.610 NBAZC 7
HI
+----+----+--------------.-.---------+
+----...+
+-..-..+-..
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+-
+----------------
Tubes: 154 Records: 306 Page 20 7
ST Max
APPENDIX C STEAM GENERATOR 12
SUMMARY
DATA SHEETS Page 21
SG - 12 ST Max Palo Verde 1 U1R15 PVNGS1' 20100401 05/12/2010 13:16:43
-- -- -- i--
+
+
+
I ROW COL VOLTS.
DEG IND PER CHN LOCN IN,CH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+
.----+ ---- +
+---..
-+---
-+
-+.-+---
+--..+--.--
+---
1 51 22
.31 23 PCT 10 P2 VS3 1.21 51 124 124 125 119 119 32 124 124 130 130 130 130 137 137 128 128 128 115 115 145 145 114 114 116 116 118 118 128 125 135 141 48 48 147 147 147 147 120 120 150 150 136 136 47 47 32
.20 33
.26 33
.69 38
.22 40
.44 40 1.16 43
.28 45
.32 45
.83 49
.55 49
.61 49
.92 49 1.27 50
.25 50
.71 53
.53 53
.44 53 1.13 54
.46 54 1.21 54
.19 54
.60 55
.31 55
.80 55
.32 55
.65 57
.35 57
.76 59
.14 60
.22 60
.30 60
.17 61
.73 61 1.11 62
- 34 62
.63 62
.99 62 1.16 63
.23 63
.68 63
.54 63 1.57 65
.23 65
.58 66
.36 66
.71 118 PCT 33 PCT 93 PCT 110 PCT 130 PCT 86 PCT 148 PCT 127 PCT 89 PCT 140 PCT 94 PCT 97 PCT 93 PCT 58 PCT 91 PCT 144 PCT 98 PCT 93 PCT 59 PCT 92 PCT 43 PCT 103 PCT 61 PCT 87 PCT 65 PCT 85 PCT 102 PCT 91 PCT 38 PCT 66 PCT 127 PCT 72 PCT 107 PCT 88 PCT 91 PCT 93 PCT 89 PCT 85 PCT 68 PCT 82 PCT 89 PCT 90 PCT 118 PCT 88 PCT 145 PCT 80 PCT 6
P2 VS3 12 P2 10H 11 P3 10H 10 P2 VS2 13 P2 VS2 17 P3 VS2 8
P2 VS3 10 P2 VS2 13 P3 VS2 16 P2 VS1 17 P2 VS3 15 P3 VS1 19 P3 VS3 10 P2 VS1 12 P3 VS1 16 P2 VS1 14 P2 VS3 17 P3 VS1 14 P2 VS2 18 P3 VS2 9
P2 VS2 10 P3 VS2 11 P2 VS2 13 P3 VS2 11 P2 VS2 11 P3 VS2 12 P2 VS2 12 P3 VS2 6
P2 VS2 7
P2 VS4 10 P2 VS3 6
P2 VS2 17 P2 09C 17 P3 09C 13 P2 VS2 20 P2 VS3 15 P3 VS2 17 P3 VS3 10 P2 VS2 11 P3 VS2 18 P2 VS1 22 P3 VS1 8
P2 VS3 10 P3 VS3 11 P2 VS3 12
-P3 VS3 11.13
-1.23
-1.16
.85
-:.82
-. 87
-.72
.93 I83
-73
-!.61
-j.68
-1.68
-1. 00
-.65
-.. 56
.38
-11.04
-11.85 11.22 11.01 1.41 1.76
-11.00
-.91
-1.79
- 11.44
.84
- 64 K.76
-.91
-K90
-[82
.91
-.72
- .81 87
-59
-1.43 VS3 TEC
.610 NBAZC 9
CjI VS3 TEC
.610 NBAZC 7
COI VS3 TEH
.610 ZBAZC 60 HI
.43 09H VS1
.580 NPUFZ 73 HI I
VS3 TEH
.610 ZBAZC 64 HII VS3 TEH
.610 NBAZC 65 HI
.41 VS2 VS2
.580 NPUFZ 73 HII VS3 TEC
.610 NBAZC 8
CII VS3 TEH
.610 NBAZC 65 HI
- 27 VS2 VS2
.580 NPUFZ 73 HI I
VS3 TEH
.610 NBAZC 40 HI VS3 TEH
.610 NBAZC 40 HI
.30 VS1 VS1
.580 NPUFZ 73 HI
.44 VS3 VS3
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 39 Hi
.24 VS1 VS1
.580 NPUFZ 73 HI VS3 TEH
.610 NBAZC 37 HI VS3 TEH
.610 NBAZC 40 HI
.38 VS2 VS2
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 62 HI
.42 VS2 VS2
.580 NPUFZ 73 Hi VS3 TEH
.610 ZBAZC 62 HI
.94 VS2 VS2
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 63 HI
.16 VS2 VS2
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 63 HI
.24 VS2 VS2
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 38 HI VS3 TEC
.610 NBAZC 53 C!
I VS3 TEH
.610 ZBAZC 37 HI VS3 TEH
.610 ZBAZC 37 HI
.33 VS2 VS2
.580 NPUFZ 73 HI I
VS3 TEH
.610 NBAZC 63 HI
.63 VS2 VS2
.580 NPUFZ 73 HI I
VS3 TEH
.610 ZBAZC 37 HI VS3 TEH
.610 ZBAZC 36 HI
.30 VS3 VS3
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 32 HI VS3 TEV
.610 NBAZC 75 H
.53 08C VS1
.580 NPUFZ 70 Hl VS3 TEH
.610 ZBAZC 37 HI
.32 VS3 VS3
.580 NPUFZ 73 HI VS3 TEH
.610 NBAZC 37 HI
.43 VS2 VS3
.580 NPUFZ 73 HI
+-
+------
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL Li Page 22
-i ST Max
SG - 12 ST Max Palo Verde 1 U1R15 PVNGS11 20100401 05/12/2010 13:16:43
+----
+-----------------
+
- --....-4----
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT POIA PTYPE CAL LI 8
120 120 77 147 118 118 140 140 154 154 119 156 156 137 137 47 58 58 47 47 56 116 132 47 47 57 57 57 125 125 48 45 45 47 47 113 113 45 47 47 47 49 49 I111 67 67 68 68 69 69 71 71 71 71 74 75 75 76 76.
78 81 81 82 82 83 85 85 86 86 86 88 88 88 88 89 90 90 90 90 90 90 92 92 92 92 92 92
.20
.65
.15
.22
.29
.85
.87 1.64
.23
.58
.26
.40 1.05
.40
.61
.36
.31
.78
.68
.92
.28
.15
.10
.36
.86
.22
.52 1.01
.45 1.41
.24
.39 1.07 1.79 2.04
.28
.59
.25
.33
.41 1.06 1.37 2.26 83 PCT 77 PCT 56 INR 68 PCT 96 PCT 87 PCT 94 PCT 89 POT 41 PCT 84 PCT 50 PCT 79 PCT 87 PCT 131 PCT 73 PCT 139 PCT 43 PCT 95 PCT 99 PCT 86 PCT 37 PCT 93 PCT 131 PCT 110 PCT 101 PCT 73 PCT 101 PCT 83 PCT 107 PCT 86 PCT 72 PCT 94 PCT 79 PCT 103 PCT 103 PCT 109 PCT 80 PCT 124 PCT 28 PCT 28 PCT 86 PCT 59 PCT 86 PCT 9
P2 VS2 11 P3 VS2 6
P2 VS2 8
P2 VS3 10 P2 VS3 14 P3 VS3 24 P2 VS2 23 P3 VS2 10 P2 VS3 10 P3 VS3 11 P2 VS3 15 P2 VS1 16 P3 VS1 13 P2 VS3 10 P3 VS3 12 P2 BW1 12 P2 BW1 13 P3 BW1 18 P2 BW1 14 P3 BW1 10 P2 VS3 7
P2 BW1 5
P2 11H 10 P2 BW2 15 P3 BW2 8
P2 VS3 15 P2 VS3 16 P3 VS3 16 P2 VS1 20 P3 VS1 10 P2 VS3 11 P2 VS3 16 P3 VS3 29 P2 BW2 28 P3 BW2 10 P2 VS2 10 P3 VS2 7
P2 BW2 9
P2 BW2 15 P2 BWI 16 P3 BW1 30 P2 BWI 29 P3 BW1 9
P2 BW1
-1.76
-1.70
.68
-"79
.46
.91
-1.99
-.92 77 1.96
-1.70 1
1.84
.96
-1.98
-1.88 1.83 i
.95
.70
-11.07
-1.96
-1.57
-.82
-1.18 11.11
.98
-11.04
-'.86
.72 1!.07 i
-1i.20 i
-1.31
-. 34 1:.17 11.24
.99 1.50 I.
11.04
- .91 11.21 62 1,.01 I
VS3 TEH
.610 ZBAZC 35 HI
.40 VS2 VS2
.580 NPUFZ 71 HI I
VS3 TEH
.610 ZBAZC 62 HII VS3 TEH
.610 ZBAZC 36 HI VS3 TEH
.610 ZBAZC 36 HI
.32 VS3 VS3
.580 NPUFZ 71 HI VS3 TEH
.610 ZBAZC 35 HI
.32 VS2 VS2
.580 NPUFZ 73 HI VS3 TEH
.610 ZBAZC 35 Hf
.42 VS3 VS3
.580 NPUFZ 73 H1 VS3 TEH
.610 ZBAZC 39 HI VS3 TEH
.610 ZBAZC 35 HI
.17 VS1 VS1
.580 NPUFZ 71 HI VS3 TEH
.610 ZBAZC 28 HI
.18 VS3 VS3
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZO 4
HI VS3 TEH
.610 NBAZC 25 HI
.28 08H VS3
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZC 4
Hf
.20 07H VS3
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZC 24 HI VS3 TEH
.610 NBAZC 23 HI I
VS3 TEH
.610 NBAZC 23 HI I
VS3 TEC
.610 NBAZC 2
0I
.31 070 VS3
.580 NPUFZ 71 CI I
VS3 TEH
.610 NBAZC 24 HI I
VS3 TEC
.610 NBAZC 18 CI
.17 VS3 VS3
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZC 23 HI
.80 VS1 VS1
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZC 3
HI VS3 TEC
.610 NBAZC 2
CO
.68 VS3 VS3
.580 NPUFZ 71 HI VS3 TEC
.610 NBAZC 2
Of
.41 070 VS3
.580 NPUFZ 71 Cf VS3 TEH
.610 NBAZC 24 Hf
.38 VS2 VS2
.580 NPUFZ 71 HI VS3 TEC
.610 NBAZC 1
CII VS3 TEH
.610 NBAZC 3 HI
.33 07H VS3
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZC 3
Hf S33 08H VS3
.580 NPUFZ 71 Hf VS3 TEH
.610 NBAZC 23 H
÷..
.+-....+....+
-....+-
.,+-
CA +L "
INH2 RLEN BEGT ENDT P1A PTYPE CAL LI 41 0C
.580
-1 92
.20 87 PCT
+- ---.
I ROW COL Page 23 VOLTS DEG IND PER CHN LOCN
.80
-- INCH1 12 ST Max
SG - 12 ST Max Palo Verde 1 L11115 PVNGSf-20100401 05/12/2010 13:16:43 ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI 4
"+--.
+.
+
4
-.4.
48 48 47 47 47 49 49 46 46 48 52 52 56 56 47 47 47 47 47 47 47 77 50 50 128 48 48 48 48 48 48 48 47 47 113 48 48 48 48 50 50 50 50 90 90 108 142 142 49 49 RO-I ROW 93 93 94 94 94 94 94 95 95 95 95 95 95 95 96 96 96 96 96 96 96 96 97 97 97 99 99 99 99 99 99 99 100 100 100 101 101 101 101 101 101 101 101 101 101
- 101, 101 101 102 102
.41 118 PCT
.70 95 PCT
.29 138 PCT
.23 90 PCT
.86 106 PCT
.57 120 PCT 1.30 90 PCT 1.67 97 PCT 1.93 96 PCT
.28 56 PCT
.47 147 PCT 1.20 92 PCT 1.31 120 PCT
.29 118 PCT
.39 50 PCT 2.19 90 PCT 1.96 101 PCT
.47 98 INR
.74 122 PCT
.20 62 PCT
.18 41 PCT
.26 103 PCT
.47 120 PCT 1.39 113 PCT 1.15 126 PCT
.86 96 PCT 1.58 105 PCT 1.21 107 PCT
.27 99 PCT
.92 87 PCT
.18 131 PCT
.43 118 PCT
.72 115 PCT
.83 84 PCT 1.07 109 PCT 1.10 108 PCT
.41 60 PCT
.18 84 PCT
.64 87 PCT
.20 137 PCT
.37 139 PCT
.97 85 PCT 1.29 95 PCT 1.27 96 PCT P2 09C P3 09C P2 VS3 P2 BW2 P3 VS3 P2 VS3 P3 VS3 P2 BW1 P3 BW1 P2 09C P2 VS3 P3 VS3 P2 VS3 P3 VS3 P2 VS3 P2 BW2 P2 BW2 P3 VS3 P3 VS3 P3 BW2 P3 BW2 P2 09H P2 VS3 P3 VS3 P2 VS3 P2 VS3 P2 VS3 P2 BW2 P2 09C P3 VS3 P3 BW2 P3 09C P2 BW1 P3 VS3 P2 VS3 P2 VS3 P2 09C P3 VS3 P3 09C P2 VS3 P2 BW1 P3 BW1 P3 VS3 P2 VS2 P3 VS2 P2 BW1 P2 VS1 P3 VS1 P2 BW1 P3 BW1
-11.74
- 11. 93 2i4 71
.99
-,..71
-. 65
°:.49
- .85 1.07
-1.70
-i. 80
-1.78
-1.46
-1.71
-1.53
-1.96
- 1. 18
-1.54
-1.54
-1".96 i.90
.66
-'.92
-L65
-i.
00 1
-1.98 1.85 41.04
-*.75 1.65 1!. 04
-11.73 il. 10
-189
- j. 40 1:.02
-1.77 1.84
-11.77
,76
..77
.71
- .47
-".96
-.99 11.99 1.62
-1.87
-11.05 VS3 TEC
.27 08C VS3 VS3 TEC VS3 TEC
.48 07C VS3 VS3 TEC
.78 VS3 VS3 VS3 TEH
.38 07H VS3 VS3 TEC VS3 TEC
.50 VS3 VS3 VS3 TEH
.45 VS3 VS3 VS3 TEC VS3 TEC VS3 TEC
.30 VS3 VS3
.50 07C VS3 07C VS3
.15 07C VS3 VS3 TEH VS3 TEC
.43 VS3 VS3 VS3 TEH VS3 TEC VS3 TEC VS3 TEC VS3 TEC
.27 08C VS3
.42 08C VS3
.38 08C VS3 VS3 TEH
.25 07H VS3 VS3 TEH VS3 TEC VS3 TEC
.42 VS3 VS3
.41 08C VS3 VS3 TEC VS3 TEH
.40 08H VS3
.78 08H VS3 VS3 TEH
.10 VS2 VS2 VS3 TEH VS3 TEH
.23 VS1 VS1 VS3 TEH
.42 08H VS3
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.580 NPUFZ
.580 NPUFZ
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.610 NBAZC
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.580 NPUFZ
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.580 NPUFZ
.610 NBAZC
.610 NBAZC
.580 NPUFZ
.580 NPUFZ
.610 NBAZC
.580 NPUFZ
.610 NBAZC
.610 ZBAZC
.580 NPUFZ
.610 NBAZC
.580 NPUFZ 2
C 71 C
2 C
2 C
71 C
2 C
71 H
4 H
71 H
1 C
1 C
71 H
22 H
71 H
1 C
1 C
1 C
71 H
71 C0 71 CI 71 CI 23 HI 2
CI 71 HI 23 HI 1 CI 1
Cl 1
CI 1
C 71 C 71 C
71 C
3 H
71 H
21 H
2 C0 2
CI 71 HI 71 C0 2
CI 3
HI 71 H
71 H
21 H
71 H
21 H
32 H
71 H
4 H
71 H
COL VOLTS DEG IND PER CHN LOCN INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+ -+
+
Page 24
' 3 ST Max
SG - 12 ST Max Palo Verde 1 UlIR5 i
PVNGSli 20100401 05/12/2010 13 :16:43
+---
-+---.----
"+-
+
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
÷....
÷....
÷.
÷.--------
+--
÷.-----.
. ÷---
+-÷
+-.....-.
51 51 53 53 101 101 48 48 48 48 48 48 48 47 47 47 47 47 47 51 51 77 48 48 60 47 67 67 77 77 48 48 47 87 87 115 115 48 48 48 48 70 59 99 46 46 48 48 43 102 102 102 102 102 102 103 103 103 103 103 103 103 104 104 104 104 104 104 104 104 104 105 105 105 106 106 106 106 106 107 107 108 108 108 108 108 109 109 109 109 109 110 110 113 113 113 113 1.36 2.15
.37
.68
.29
.74
.80 1.06 1.17 1.51 1.71
.80 1.52
.54 1.46
.33
.95 2.50
.98
.55 1.09
.30
.55
.92
.19
.30
.33
.62
.41
.81 1.85 2.30
.22
.52 1.11
.30
.91
.22 1.57
.62 1.79
.18
.17
.19
.41 1.19
.49
.70 86 89 60 94 145 89 129 117 125 108 98 85 87 73 82 41 97 89 81 76 95 133 118 106 36 147 144 93 144 82 97 99 103 112 107 79 85 124 108 93 111 119 130 141 126 97 130 115 PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT PCT 25 28 12 11 11 12 18 22 25 23 28 16 26 18 31 13 18 35 19 18 20 12 14 16 9
9 12 13 14 16 30 30 6
14 18 12 18 7
27 12 26 8
7 7
11 22 13 13 P2 VS3 P3 P2 P3 P2 P3 P2 P2 P2 P3 P3 P3 P3 P2 P2 P2 P3 P3 P3 P2 P3 P2 P2 P3 P2 P2 P2 P3 P2 P3 P2 P3 P2 P2 P3 P2 P3 P2 P2 P3 P3 P2 P2 P2 P2 P3 P2 P3 VS3 V83 VS3 VS2 VS2 VS3 09C BW1 09C BW1 VS3 VS3 BW1 BW1 VS3 BW1 BWl VS3 BW1
.BWI 09H 09C 09C VS2 BW2 VS3 VS3 VS3 VS3 09C 09C BW2 VS4 VS4 VS2 VS2 VS3 09C VS3 09C VS3 BW1 VS2 VS3 VS3 BW2 BW2
.98 i.74 go
-1. 90
-1.78
- li 05
- 1. 00
.85
-1*.86
-i.81
-.86
-li.B6 11.22 11.25
-1j.1255 93
-1.16 80 42
.61 li.03
'.70
-11.25
-1i.25 11.02
-1.74
-.95
-1.89
-11.03
-1i.62
-li.54 1.87 i
-i.
7 3
-i. 73
.80
.79
.96
-1i.25
.96
-1.25 1.41 1'.03
.49
-1.72
-1.83
-.83
-'.84 VS3 TEC
.610 NBAZC 2
Cf
.56 VS3 VS3
.580 NPUFZ 71 HII VS3 TEH
.610 NBAZC 4
HI
.18 VS3 VS3
.580 NPUFZ 71 HII VS3 TEH
.610 NBAZC 22 HI
.28 VS2 VS2
.580 NPUFZ 71 HI VS3 TEC
.610 NBAZO 1
CI VS3 TEC
.610 NBAZC 1
CI VS3 TEH
.610 NBAZC 4
HI
.58 08C VS3
.580 NPUFZ 71 CI
.57 08H VS3
.580 NPUFZ 72 HI
.18 08H VS3
.580 NPUFZ 72 HI
.86 08H VS3
.580 NPUFZ 72 HI VS3 TEH
.610 NBAZC 3
HI VS3 TEH
.610 NBAZC 3
HI VS3 TEH
.610 NBAZC 3
HI
.43 07H VS3
.580 NPUFZ 72 HI
.55 07H VS3
.580 NPUFZ 72 HI 1.68 07H VS3
.580 NPUFZ 72 HI VS3 TEH
.610 NBAZC 3
HI
.49 08H VS3
.580 NPUFZ 72 HI VS3 TEH
.610 NBAZC 21 HI VS3 TEC
.610 NBAZC 2
CI
.30 080 VS3
.580 NPUFZ 71 HI VS3 TEH
.610 NBAZC 21 HI VS3 TEC
.610 NBAZC 2
CI VS3 TEH
.610 NBAZC 22 H
.31 VS3 VS3
.580 NPUFZ 72 HI VS3 TEH
.610 NBAZC 22 HI
.34 VS3 VS3
.580 NPUFZ 72 HI VS3 TEC
.610 NBAZC 1
Cl
.67 080 VS3
.580 NPUFZ 71 Of VS3 TEC
.610 NBAZO 1
CI VS3 TEC
.610 NBAZC 39 CI
.34 VS4 VS4
.580 NPUFZ 71 CI VS3 TEH
.610 NBAZC 21 HI
.40 VS2 VS2
.580 NPUFZ 72 HI VS3 TEC
.610 NBAZC 2
01 VS3 TEC
.610 NBAZC 2
CI
.32 08C VS3
.580 NPUFZ 71 CI
.44 080 VS3
.580 NPUFZ 71 01I VS3 TEH
.610 NBAZC 21 HI I
VS3 TEC
.610 NBAZC 20 CI
.66 VS3 VS3
.580 NPUFZ 72 HI I
VS3 TEH
.610 NBAZC 21 HI
.20 080 VS3
.580 NPUFZ 71 HI I
VS3 TEC
.610 NBAZC 2
CI VS3 TEC
.610 NBAZC 2
Cl
.32 08C VS3
.580 NPUFZ 71 Cl I
VS3 TEC
.610 NBAZC 21 HI 114
.35 124 PCT 10 P2 BW2
+----+-----+-----+-----+-----+----+---------+-----+
+-------
ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+-----+----+--
+--
+---+-
-+------+------------+
Page 25 4
ST Max
SG - 12 ST Max Palo Verde 1 U1R15 PVNGS1 20100401 05/12/2010 13:16:43
+
+
+-
+-
+-----------
ROW COL VOLTS DEG IND PER CHN LOCN INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+---.---+
+
+-------
85 114
.24 135 PCT 9
P2 VS2
,.70 VS3 TEH
.610 NBAZC 20 HI 85 114
.77 76 PCT 16 P3 VS2 1.89
.34 VS2 VS2
.580 NPUFZ 72 HII 44 115
.19 128 PCT 6
P2 BW2
'1.97 VS3 TEC
.610 NBAZC 2
CI 44 115
.49 52 INR 9
P3 BW2
-i.97 07C VS3
.580 NPUFZ 71 CI 46 115
.36 56 PCT 10 P2 BW2
-A.89 VS3 TEC
.610 NBAZC 2
CI 4-8 115
.32 146 PCT 9
P2 09C
-11.25 VS3 TEC
.610 NBAZC 2
CI 48 115
.65 86 PCT 12 P3 09C
-1!.22
.27 08C VS3
.580 NPUFZ 71 CI 44 117
.42 114 PCT 11 P2 BW2
-i.92 VS3 TEC
.610 NBAZC 1
Cl 44 117
.72 97 PCT 13 P3 BW2
-i.92
.36 07C VS3
.580 NPUFZ 71 CI 82 117
.13 53 PCT 6
P2 BW1
-i.99 VS3 TEH
.610 NBAZC 19 HI 166 117
.27 152 PCT 10 P2 VS1
-. 8 0 VS3 TEH
.610 ZBAZC 30 HI 166 117
.62 84 PCT 13 P3 VS1
-1.91
.46 VS1 VS1
.580 NPUFZ 72 HI 88 119
.16 135 PCT 6
P2 08H
'.65 VS3 TEH
.610 NBAZC 20 HI 41 120
.22 57 PCT 7
P2 BW2
-i.85 VS3 TEC
.610 NBAZC 4
CI 45 120
.72 120 PCT 16 P2 VS3
-'.95 VS3 TEC
.610 NBAZC 2
CI 45 120 1:18 92 PCT 21 P3 VS3
-11.24
.61 VS3 VS3
.580 NPUFZ 72 HI 119 120
.25 83 PCT 10 P2 VS3
-!.73 VS3 TEH
.610 NBAZC 19 HI 119 120
.53 87 PCT 12 P3 VS3 76
.34 VS3 VS3
.580 NPUFZ 72 HI II 58 121
.25 81 PCT 10 P2 VS3 1.59 VS3 TEH
.610 NBAZC 19 HI 110 121
.18 114 PCT 8
P2 BW1
-'.64 VS3 TEH
.610 NBAZC 19 HI 112 121
.16 39 PCT 7
P2 BW1
- -11.15 VS3 TEH
.610 NBAZC 19 HI 118 123
.33 144 PCT 11 P2 VS2 11.21 VS3 TEH
.610 NBAZC 20 HI 118 123 1.07 94 PCT 20 P3 VS2 1!.07
.69 VS2 VS2
.580 NPUFZ 72 HI I120 123
.53 145 PCT 15 P2 VS2 1!04 VS3 TEH
.610 NBAZC 20 HI 120 123
.97 93 PCT 19 P3 VS2 194
.60 VS2 VS2
.580 NPUFZ 72 HI 121 124
.24 67 PCT 10 P2 VS1 t98 VS3 TEH
.610 NBAZC 19 HI 121 124
.62 85 PCT 13 P3 VS1 t81
.36 VS1 VS1
.580 NPUFZ 72 HI 28 125
.30 124 PCT 10 P2 08H 165 VS3 TEH
.610 NBAZC 4
HI 28 125
.66 81 PCT 14 P3 08H 1106
.37 07H VS3
.580 NPUFZ 72 HI 120 125
.41 82 PCT 15 P2 VS2 L78 VS3 TEH
.610 NBAZC 19 HI 120 125 1.15
, 91 PCT 21 P3 VS2 1o00
.39 VS2 VS2
.580 NPUFZ 72 HI 16 129
.22 89 PCT 7
P2 VS3
- 95 VS3 TEC
.610 NBAZC 4
CI 16 129
.55 103 PCT 12 P3 VS3
!90
.33 VS3 VS3
.580 NPUFZ 72 HI 68 129
.47 55 PCT 17 P2 VS2
.81 VS3 TEH
.610 NBAZC 17 HI 68 129 1.51 82 PCT 25 P3 VS2
'77
.52 VS2 VS2
.580 NPUFZ 72 HI 119 132
.39 73 PCT 15 P2, VS2 1:@5 VS3 TEH
.610 NBAZC 17 HI 119 132 1.00 97 PCT 19 P3 VS2
- 95
.49 VS2 VS2
.580 NPUFZ 72 HI 90 143
.20 83 PCT 7
P2 10H
'-1141 VS3 TEH
.610 NBAZC 16 HI II 116 145
.28 71 PCT 12 P2 BW1
!99 VS3 TEH
.610 NBAZC 15 HI 116 145
.45 93 PCT 10 P3 BW1
!62
.18 09H VS1
.580 NPUFZ 72 HI 48 147
.26 132 PCT 8
P2 09C
-1143 VS3 TEC
.610 NBAZC 34 CI 48 147
.57 110 INR 10 P3 09C
-1!43 08C VS3
.580 NPUFZ 72 CI 126 147
.36 112 PCT 11 P2 VS3
-!71 VS3 TEH
.610 NBAZC 16 HI 126 147
.97 83 PCT 19 P3 VS3
-188
.46 VS3 VS3
.580 NPUFZ 72 HI
~I F-
+.....--------...---
+-
+
-- +
.. +
+
+
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+-----+----.---'-.-----+.----
-+
+
+-....----+----+--
Page 26 15 ST Max I
SG -
12 ST Max Palo Verde 1 UIR15 PVNGS1! 20100401 05/12/2010 13:16:43
-+.--------..-----
+
+-----
+------
+
4--.--
ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+-------
65 148
.28 138 PCT 10 P2 VS3
-1.69 VS3 TEH
.610 NBAZC 14 HI 65 148
.43 93 PCT 10 P3 VS3
-1.88
.24 VS3 VS3
.580 NPUFZ 72 HI II 131 150
.26 97 PCT 9
P2 VS0 1.97 VS3 TEH
.610 NBAZC 16 HI II I48 151
.21 86 PCT 7
P2 09C
.- 1:.48 VS3 TEC
.610 NBAZC 32 CI 50 151
.18 146 PCT 6
P2 VS3
-!.43 VS3 TEC
.610 NBAZC 32 CI 110 151
.32 102 PCT 10 P2 VS2
-1.79 VS3 TEH
.610 NBAZC 16 HI 110 151
.52 83 PCT 11 P3 VS2
-1.51
.21 VS2 VS2
.580 NPUFZ 72 HI 134 151
.34 64 PCT 11 P2 VS3.
-1.79 VS3 TEH
.610 NBAZC 16 HI 134 151
.61 80 PCT 13 P3 VS3
-l!.25
.27 VS3 VS3
.580 NPUFZ 72 HI 81 152
.32 60 PCT 9
P2 09C
-11.00 VS3 TEC
.610 NBAZC 37 Cl 81 152
.59 71 PCT 10 P3 09C
-i.84
.40 08C VS4
.580 NPUFZ 72 CI 144 157
.29 93 PCT 12 P2 VS3
-. 98 VS3 TEH
.610 NBAZC 27 HI 144 157
.87 86 PCT 17 P3 VS3
-1.12
.37 VS3 VS3
.580 NPUFZ 72 HI 48 161
.39 123 PCT 11 P2 09C
,-1i.70 VS3 TEC
.610 NBAZC 31 CI 48 161
.64 66 PCT 11 P3 09C 41i.73
.30 08C VS3
.580 NPUFZ 72 CI iI 111 164
.35 152 PCT 11 P2 VS3
-1.15 VS3 TEH
.610 NBAZC 16 HI I111 164
.94 93 PCT 18 P3 VS3
-I.89
.49 VS3 VS3
.580 NPUFZ 72 HI 47 166
.23 125 PCT 7
P2 VS3
-L.53 VS3 TEC
.610 NBAZC 32 CI I111 166
.43 82 PCT 16 P2 VS3
-.83 VS3 TEH
.610 NBAZC.
15 HI I111 166
.78 89 PCT 16 P3 VS3
-1.80
.49 VS3 VS3
.580 NPUFZ 72 HI 131 166
.25 95 PCT 11 P2 VS3
-.94 VS3 TEH
.610 NBAZC 15 HI 131 166
.64 70 PCT 13 P3 VS3
-1.99
.31 VS3 VS3
.580 NPUFZ 72 Hi 128 169
.26 142 PCT 11 P2 VS3
-11.04 VS3 TEH
.610 NBAZC 15 HI 128 169
.54 72 PCT 12 P3 VS3
-1i.10
.34 VS3 VS3
.580 NPUFZ 72 HI 125 170
.43 128 PCT 16 P2 VS3
.35 VS3 TEH
.610 NBAZC 15 HI 125 170
.91 80 PCT 18 P3 VS3 1.55
.37 VS3 VS3
.580 NPUFZ 72 HI 122 171
.48 112 PCT 17 P2 VS3
-11,04 VS3 TEH
.610 NBAZC 15 HI 122 171
.91 91 PCT 18 P3 VS3
.1.95
.40 VS3 VS3
.580 NPUFZ 72 HI I 122 173
.42 135 PCI 16 P2 VS3
-IAO VS3 IEH
.610 NBAZC 15 HI 122 173
.28 104 PCT 12 P2 VS3 1.67 VS3 TEH
.610 NBAZC 15 HI 122 173
.94 91 PCT 18 P3 VS3
!-67
.43 VS3 VS3
.580 NPUFZ 72 HI 122 173
.61 96 PCT 13 P3 VS3
-180
.49 VS3 VS3
.580 NPUFZ 72 HI 1
178
.25 84 SVI 35 P3 TSH
.33
.42 TSH 01H
.600 ZPAHZ 70 Hi 1
178
.31 66 SVI 38 P3 TSH 169
.24 TSH 01H
.600 ZPAHZ 70 HI 3
178
.26 70 SVI 36 P3 TSH
.61
.5i TSH 01H
.600 ZPAHZ 70 HI 2
179
.38 82 SVI 41 P3 TSH 11!63
.33 TSH 01H
.600 ZPAHZ 70 HI 48 179
.38 130 PCT 11 P2 09C
-11!58 VS3 TEC
.610 NBAZC 30 CI 48 179
.79 104 PCT 13 P3 09C
- -1 t07
.45 08C VS3
.580 NPUFZ 73 Cl 98 179
.70 112 PCT 18 P2 VS3 i i20 VS3 TEH
.610 NBAZC 10 HI 98 179 1.07 83 PCT 20 P3 VS3
.72
.85 VS3 VS3
.580 NPUFZ 72 HI 1 106 181
.28 115 PCT 11 P2 VS3
-L86 VS3 TEH
.610 NBAZC 9
HI 106 181
.73 85 PCT 15 P3 VS3
-1102
.37 VS3 VS3
.580 NPUFZ 72 HII 48 185
.39 134 PCT 10 P2 09C
-1132 VS3 TEC
.610 NBAZC 29 CI 48 185
.57 102 PCT 10 P3 09C
-1l36
.21 08C VS3
.580 NPUFZ 73 CII 54 187
.28 108 PCT 9
P2 BW1
-116 VS3 TEH
.610 NBAZC 8
HI
÷.
.----+----+----
+.----
+-----
-+--
+-------- +---------
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+---+----------+-+--+.
+
Tubes: 146 Records: 279 Page 27 i6 SI Max i6T a
APPENDIX D PLI & PLP DATA SHEETS Page 28
SG - 11 ST Max Palo Verde 1 U11115 PVNGSi 20100401 05/12/2010 13:52:33
- 4.....
4 1-I
+"
++
+!----.--.--+----.-"-.-..
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+....
4 4----.----+----
+
+....
÷....
4--
1 7-0-51C.10 1C 6-164 75 1.03 130 PLP 5
10C
-2.33 10C 10C
.600 ZPAHZ 80 CI I165 76
.71 119 PLP 5
l0C
-2.43 l0C 10C
.600 ZPAHZ 80 Cl I
3 192
.95 77 PLP 8
04H
-3.08 04H 04H
.600 ZPAHZ 58 HI
÷
.4-I--.-------
++
+
+--.
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+
+
+
+
+----
4---+----+----+-------
Tubes: 3 Records: 3 Page 29 1ST Max
SG - 12 ST Max Palo Verde 1 U11115 PVNGSli20100401 05112/2010 13:54:30
+---------------------
-+-
I ROW COL VOLTS DEG IND PER CHN LOCN INCH1 INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI
+----
+---+
--- +
+--
I105 104
.66 67 PLP 8
08H 1ý:.75 08H 08H
.600 ZPAHZ 70 HI I10 104
.66 67 PLP 8 08H 21.31 08H 08H
.600 ZPAHZ 70 HI I 108 105
.32 67 PLP 8
08H1
- 21. 31 08H1 08H
.600 ZPAHZ 70 HI
+----. ---
+----.-..
=--
i
-+--
I ROW COL VOLTS DEG IND PER CHN LOCN INCHi INCH2 CRLEN BEGT ENDT PDIA PTYPE CAL LI i------------+---+----+----+----+---------------+-----------
Tubes: 2 Records: 2 Page 30 ST Max
APPENDIX E PLUG MAPS Page 31
'a "0
SG -11 Tubes Plugged in UIR15 PaloVerdeUIR15 PVNGSI 1RSG o 59 Plugged Tube
- 53 Stay Rod
- 18 Tube Plugged in UIRI5 li La 9*
Pa ta La w
a
- a.
a 7*
PR sa L.a **
LLR ipa
- n is in tea L.a *p
- 4S tea ins in ipa tea tas sea in
.a 170 165 ISO los ISO 145 144 13$
130 12s 120 11s 116 Los 1001 I"
9.
as 75 70 es 60
$5
$0 4$
40 35 35 so 25 20 101 S
.+oL...*L
.+%
%.r.
'.lo h
1706
~::~
~ii!iiii!:i~ ~::~ ~ii!iiii Lee I
.1 +
.I.,
.1..
,. I..+.
..,,+..
- o.
- l...
1"5
. -.I.
+,. +J.
.I.
o~ ' %
I, " l
' r,
+.,.. -,
- l. -, +......
I.. -
, I,
1 + "t 1,, +,
155
........+... -,....+.+ +. -. +...
+ -
. +.
-,.: - +. :. - +. -.,.
145
-~~ ~ ~
s
-I-N
.]-..
819 65
"."'1.
$ 16 15: 20 25.: 30: 35:
40.: 45::*: 50:.
- 60. 6.6 6
N.
N.:..
1+
1 1
151.:1513 151:451l5 100.105:1---176 1.:-135:
190:1.I 200
.~
- LL~
- 14. 2?
..+
.+
.s 1
i
.i 1
I
- 4
+.
1 I...
- . l.
...l : : l *:.:..:.t.:.l.:.:
l.:..:.: l.. :. : l : : t.
.+...*+...l...,l....:':r::::r:*::r:'
+
$ 10 IS 20 26 30 35 40 IS M
t50 SS 4
66 71 7S 0 8 5
go ft too111 111 Its 120 Int 13 135 140 145 ISO ISS 1411 AM1 170 7 Iii 1ýa1S 111t 196 Me1
iU 05 SG - 12 Tubes Plugged in UIR15 PaloVerdeUlR15 PVNGSI IRSG
- 53 Stay Rod a 58 Plugged Tube a 22 Tube Plugged in ULRL5 S
10 1S 20 2S 38 3S 40 45 50 55 85 es 70 80 SS SO 95 100 1*5 110 115 120 US 13 135 146
" 45 so Iss 10 os 170 175 Is0 185 "0 Iss 200 170 165 155 I55 Ifif 145 144 135 130 125 120 115 i10 106 zee I"
90 85 80 75 70 eS 50 45 40 35 30 25 z0 1s 1O S
- :I -... ': : Z :. : : ] : : :
F - t -
t: :
' t -: l :" t ' ' ': : : : l i
- 1 t
l i
==
==
= =========== = =.
...==
======..
=
==.
.=.
.==
===..
..==
=
- *: :: :::f: :; :! *: ::F !: :: :
- : :: :: :F ::.::F.:
- . *I *
- : :l. *I :* I.......
- l * * *
- l * * *
- I..
- : : : :* *.
- l: : t : :l *.
tliI:~~ ~
~
~~...
i
[iiiJl Ii:: !ii]i 11 l~:iliiiliii i iiliii
°: : : -
- °
. : o °. :
- : : °,
. ' ° ° -.] o-- " %..,
- !~ ii:!!!*ii!!i![!!!!!!*!?!!!i!!!*:!i~ :*i:*!::*!:*!i:*i~~ii::!:*}!::}!E::*}:iii~l!:l!!:~
i:l:J:::
- I: :*:::
- :: :* i :* :: F :: ::: :: :* :: I ::*: : *: ::.:.
- :: i~ :] ! :* :: * :: *: :
.: F:::*: ::*::F
- ::::::: ::*::*:::*::::::::! i*::*i!**:I!*i:*:.:...
- .::.:i::~ i!
- :I :: t :: *: :: : :: :: : ::
- :: * :: *: : *: :: :: : :: :* : :* :: *: : *: :: : :: ;: :* : :* :: *: : *: :: i :: :.
- I:!::F:::I::::~~~~~
~~~ ~ ~
- : l- -
. -,.: :* : : :. - : *: : : l- - t.: t :- i -*t : : :, t : :I,.t : : :: : ; :: : : F : : :
- * :: I :: *: : t: : *: :: : :: :: : :: : :::.: :
.:I F : : :: :I ;:.: :I ::.:: ::.: : I: :
... l b.. l
.l,.
.. i..l..
l
. ° ° l..
.°.
.~
.i
..l
..I.
..I.....
.,....I....I....I....I....I...
- !!ii ~~~~
~
~
I T........
i~ !!!ilii!!,,
.:: iii Tl.-.-l-.--t-..-l...-t---.l.-
- .t.::
- :~ ~ ~~~ ~ ~~
- .: t : : : : : : : : : :
- t : t : : I ::.
- : t :
- : l: : :t ::: : :: f: :*t :* : ::
- t : ::i : : F :: l :: :l :: : : :: l :.
.t::..:.
.::l
- l
- :l : :l : :l : :l : :l :
170 160 IGG 155 is*
141 140 I3 130 125 120 116 Iti 105 tOO 915 80
'5 as 55is 75 7s 50 46 40 35 30 25 20 15 IS 5
10 15 20 25 30 3S 40 45 56 S5 00 56 70 75 80 85 go 95 146 lOS 110 115 120 1 130 136 140 145 150 155 14 105 170 176 inS 18 190 151 280 Y*OWW AC" F
UC-W WýOUMMi1O 1410W?
APPENDIX F FORM NIS-1 Page 34
APS NIS - 1 FORM OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS
- 2. PLANT PALO VERDE NUCLEAR GENERATING STATION 2a. ADDRESS 5801 SOUTH WINTERSBURG ROAD, TONOPAH, ARIZONA 85354
- 3. UNIT NUMBER 1
- 4. OWNERS CERTIFICATE OF AUTHORIZATION NONE
- 5. COMMERCIAL SERVICE DATE 1-28-86
- 6. COMPONENTS INSPECTED:
COMPONENT OR MANUFACTURER SERIAL STATE OR NATIONAL APPURTENANCE OR INSTALLER NUMBER PROVINCE BOARD NO 1MRCEE01A Ansaldo 224 NA 173 STEAM GENERATOR 11 1MRCEE01B Ansaldo 225 NA 174 STEAM GENERATOR 12 I
i I
I.
i i
i b
i I
Page 35
APS I NIS-1 BACK OWNERS' DATA REPORT FOR INSERVICE INSPECTIONS
- 7. EXAM DATES April 2010
- 8. INSPECTION INTERVAL 7-18-08 to 7-1-18
- 9. ABSTRACT OF 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.
A summary of the tubes with indications of degradation is listed in Appendix B and C of this report for SG 11 and 12 respectively. The tubes identified below were plugged as a result of this examination.
SG1 SG 12 25 78 "7
105 47 s0 5
1132 11 W
78 11T1 45 92 43 1013 3
[
52 "ji og]
47 92 47 104 43 90 e7 110 49 92 47 410E 43 99 s-11F 47 94 45 107 63 39 36 119 4E 95 47 105 43 111 37 120 47 96 43 10o 43 103 3!
122 49 99 43 114 4
1133 25 123 47
! O 1
173 53 1M1 3
178 49 1T2 2 z I9 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.
SDigitally signed by Hansen, Douglas Hans n, In, nl~a BW41s30)
Hansen, Doug a' DN:cn=Hansen, Douglas B(Z41530)
DATE SIGNED: ARIZONA PUBLIC SERVICE COMPANY BYBkZ4! 530)
Reason:
I have reviewed this Date: 2010.10.26 14:54:23 -07'00' CERTIFICATE OF 1NSERVICE 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 April 2010 TO Oct. 2010, 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.
Hog stro, Robert ; o,gitallysi*ned by vog...n., Robe- (2sg H g tNo omg.. Robee (YH2450)
INSPECTOR (YH2450) a_ -e, 1--d01 0
COMMISSIONS NB 9685 "N" "IT Az 264 NATL' BOARD, STATE, PROVINCE DATE October 26, 2010 Page 36